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dart / sdk / 4979a51a9cad23a22387a114dfae4be224264c70 / . / pkg / analysis_server_client / lib / src / protocol / protocol_generated.dart
blob: ec76e663608c0b8ac789c3c835bb87f3b9875592 [file] [log] [blame]
// Copyright (c) 2017, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
//
// This file has been automatically generated. Please do not edit it manually.
// To regenerate the file, use the script
// "pkg/analysis_server/tool/spec/generate_files".
import 'dart:convert' hide JsonDecoder;
import 'package:analysis_server_client/src/protocol/protocol_base.dart';
import 'package:analysis_server_client/src/protocol/protocol_common.dart';
import 'package:analysis_server_client/src/protocol/protocol_internal.dart';
import 'package:analysis_server_client/src/protocol/protocol_util.dart';
/**
* analysis.analyzedFiles params
*
* {
* "directories": List<FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisAnalyzedFilesParams implements HasToJson {
List<String> _directories;
/**
* A list of the paths of the files that are being analyzed.
*/
List<String> get directories => _directories;
/**
* A list of the paths of the files that are being analyzed.
*/
void set directories(List<String> value) {
assert(value != null);
this._directories = value;
}
AnalysisAnalyzedFilesParams(List<String> directories) {
this.directories = directories;
}
factory AnalysisAnalyzedFilesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<String> directories;
if (json.containsKey("directories")) {
directories = jsonDecoder.decodeList(jsonPath + ".directories",
json["directories"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "directories");
}
return new AnalysisAnalyzedFilesParams(directories);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.analyzedFiles params", json);
}
}
factory AnalysisAnalyzedFilesParams.fromNotification(
Notification notification) {
return new AnalysisAnalyzedFilesParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["directories"] = directories;
return result;
}
Notification toNotification() {
return new Notification("analysis.analyzedFiles", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisAnalyzedFilesParams) {
return listEqual(
directories, other.directories, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, directories.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.closingLabels params
*
* {
* "file": FilePath
* "labels": List<ClosingLabel>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisClosingLabelsParams implements HasToJson {
String _file;
List<ClosingLabel> _labels;
/**
* The file the closing labels relate to.
*/
String get file => _file;
/**
* The file the closing labels relate to.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* Closing labels relevant to the file. Each item represents a useful label
* associated with some range with may be useful to display to the user
* within the editor at the end of the range to indicate what construct is
* closed at that location. Closing labels include constructor/method calls
* and List arguments that span multiple lines. Note that the ranges that are
* returned can overlap each other because they may be associated with
* constructs that can be nested.
*/
List<ClosingLabel> get labels => _labels;
/**
* Closing labels relevant to the file. Each item represents a useful label
* associated with some range with may be useful to display to the user
* within the editor at the end of the range to indicate what construct is
* closed at that location. Closing labels include constructor/method calls
* and List arguments that span multiple lines. Note that the ranges that are
* returned can overlap each other because they may be associated with
* constructs that can be nested.
*/
void set labels(List<ClosingLabel> value) {
assert(value != null);
this._labels = value;
}
AnalysisClosingLabelsParams(String file, List<ClosingLabel> labels) {
this.file = file;
this.labels = labels;
}
factory AnalysisClosingLabelsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<ClosingLabel> labels;
if (json.containsKey("labels")) {
labels = jsonDecoder.decodeList(
jsonPath + ".labels",
json["labels"],
(String jsonPath, Object json) =>
new ClosingLabel.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "labels");
}
return new AnalysisClosingLabelsParams(file, labels);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.closingLabels params", json);
}
}
factory AnalysisClosingLabelsParams.fromNotification(
Notification notification) {
return new AnalysisClosingLabelsParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["labels"] =
labels.map((ClosingLabel value) => value.toJson()).toList();
return result;
}
Notification toNotification() {
return new Notification("analysis.closingLabels", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisClosingLabelsParams) {
return file == other.file &&
listEqual(
labels, other.labels, (ClosingLabel a, ClosingLabel b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, labels.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* AnalysisErrorFixes
*
* {
* "error": AnalysisError
* "fixes": List<SourceChange>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisErrorFixes implements HasToJson {
AnalysisError _error;
List<SourceChange> _fixes;
/**
* The error with which the fixes are associated.
*/
AnalysisError get error => _error;
/**
* The error with which the fixes are associated.
*/
void set error(AnalysisError value) {
assert(value != null);
this._error = value;
}
/**
* The fixes associated with the error.
*/
List<SourceChange> get fixes => _fixes;
/**
* The fixes associated with the error.
*/
void set fixes(List<SourceChange> value) {
assert(value != null);
this._fixes = value;
}
AnalysisErrorFixes(AnalysisError error, {List<SourceChange> fixes}) {
this.error = error;
if (fixes == null) {
this.fixes = <SourceChange>[];
} else {
this.fixes = fixes;
}
}
factory AnalysisErrorFixes.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
AnalysisError error;
if (json.containsKey("error")) {
error = new AnalysisError.fromJson(
jsonDecoder, jsonPath + ".error", json["error"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "error");
}
List<SourceChange> fixes;
if (json.containsKey("fixes")) {
fixes = jsonDecoder.decodeList(
jsonPath + ".fixes",
json["fixes"],
(String jsonPath, Object json) =>
new SourceChange.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "fixes");
}
return new AnalysisErrorFixes(error, fixes: fixes);
} else {
throw jsonDecoder.mismatch(jsonPath, "AnalysisErrorFixes", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["error"] = error.toJson();
result["fixes"] =
fixes.map((SourceChange value) => value.toJson()).toList();
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisErrorFixes) {
return error == other.error &&
listEqual(
fixes, other.fixes, (SourceChange a, SourceChange b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, error.hashCode);
hash = JenkinsSmiHash.combine(hash, fixes.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.errors params
*
* {
* "file": FilePath
* "errors": List<AnalysisError>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisErrorsParams implements HasToJson {
String _file;
List<AnalysisError> _errors;
/**
* The file containing the errors.
*/
String get file => _file;
/**
* The file containing the errors.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The errors contained in the file.
*/
List<AnalysisError> get errors => _errors;
/**
* The errors contained in the file.
*/
void set errors(List<AnalysisError> value) {
assert(value != null);
this._errors = value;
}
AnalysisErrorsParams(String file, List<AnalysisError> errors) {
this.file = file;
this.errors = errors;
}
factory AnalysisErrorsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<AnalysisError> errors;
if (json.containsKey("errors")) {
errors = jsonDecoder.decodeList(
jsonPath + ".errors",
json["errors"],
(String jsonPath, Object json) =>
new AnalysisError.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "errors");
}
return new AnalysisErrorsParams(file, errors);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.errors params", json);
}
}
factory AnalysisErrorsParams.fromNotification(Notification notification) {
return new AnalysisErrorsParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["errors"] =
errors.map((AnalysisError value) => value.toJson()).toList();
return result;
}
Notification toNotification() {
return new Notification("analysis.errors", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisErrorsParams) {
return file == other.file &&
listEqual(errors, other.errors,
(AnalysisError a, AnalysisError b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, errors.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.flushResults params
*
* {
* "files": List<FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisFlushResultsParams implements HasToJson {
List<String> _files;
/**
* The files that are no longer being analyzed.
*/
List<String> get files => _files;
/**
* The files that are no longer being analyzed.
*/
void set files(List<String> value) {
assert(value != null);
this._files = value;
}
AnalysisFlushResultsParams(List<String> files) {
this.files = files;
}
factory AnalysisFlushResultsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<String> files;
if (json.containsKey("files")) {
files = jsonDecoder.decodeList(
jsonPath + ".files", json["files"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "files");
}
return new AnalysisFlushResultsParams(files);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.flushResults params", json);
}
}
factory AnalysisFlushResultsParams.fromNotification(
Notification notification) {
return new AnalysisFlushResultsParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["files"] = files;
return result;
}
Notification toNotification() {
return new Notification("analysis.flushResults", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisFlushResultsParams) {
return listEqual(files, other.files, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, files.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.folding params
*
* {
* "file": FilePath
* "regions": List<FoldingRegion>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisFoldingParams implements HasToJson {
String _file;
List<FoldingRegion> _regions;
/**
* The file containing the folding regions.
*/
String get file => _file;
/**
* The file containing the folding regions.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The folding regions contained in the file.
*/
List<FoldingRegion> get regions => _regions;
/**
* The folding regions contained in the file.
*/
void set regions(List<FoldingRegion> value) {
assert(value != null);
this._regions = value;
}
AnalysisFoldingParams(String file, List<FoldingRegion> regions) {
this.file = file;
this.regions = regions;
}
factory AnalysisFoldingParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<FoldingRegion> regions;
if (json.containsKey("regions")) {
regions = jsonDecoder.decodeList(
jsonPath + ".regions",
json["regions"],
(String jsonPath, Object json) =>
new FoldingRegion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "regions");
}
return new AnalysisFoldingParams(file, regions);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.folding params", json);
}
}
factory AnalysisFoldingParams.fromNotification(Notification notification) {
return new AnalysisFoldingParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["regions"] =
regions.map((FoldingRegion value) => value.toJson()).toList();
return result;
}
Notification toNotification() {
return new Notification("analysis.folding", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisFoldingParams) {
return file == other.file &&
listEqual(regions, other.regions,
(FoldingRegion a, FoldingRegion b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, regions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getErrors params
*
* {
* "file": FilePath
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetErrorsParams implements RequestParams {
String _file;
/**
* The file for which errors are being requested.
*/
String get file => _file;
/**
* The file for which errors are being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
AnalysisGetErrorsParams(String file) {
this.file = file;
}
factory AnalysisGetErrorsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
return new AnalysisGetErrorsParams(file);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.getErrors params", json);
}
}
factory AnalysisGetErrorsParams.fromRequest(Request request) {
return new AnalysisGetErrorsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.getErrors", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetErrorsParams) {
return file == other.file;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getErrors result
*
* {
* "errors": List<AnalysisError>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetErrorsResult implements ResponseResult {
List<AnalysisError> _errors;
/**
* The errors associated with the file.
*/
List<AnalysisError> get errors => _errors;
/**
* The errors associated with the file.
*/
void set errors(List<AnalysisError> value) {
assert(value != null);
this._errors = value;
}
AnalysisGetErrorsResult(List<AnalysisError> errors) {
this.errors = errors;
}
factory AnalysisGetErrorsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<AnalysisError> errors;
if (json.containsKey("errors")) {
errors = jsonDecoder.decodeList(
jsonPath + ".errors",
json["errors"],
(String jsonPath, Object json) =>
new AnalysisError.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "errors");
}
return new AnalysisGetErrorsResult(errors);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.getErrors result", json);
}
}
factory AnalysisGetErrorsResult.fromResponse(Response response) {
return new AnalysisGetErrorsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["errors"] =
errors.map((AnalysisError value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetErrorsResult) {
return listEqual(
errors, other.errors, (AnalysisError a, AnalysisError b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, errors.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getHover params
*
* {
* "file": FilePath
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetHoverParams implements RequestParams {
String _file;
int _offset;
/**
* The file in which hover information is being requested.
*/
String get file => _file;
/**
* The file in which hover information is being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset for which hover information is being requested.
*/
int get offset => _offset;
/**
* The offset for which hover information is being requested.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
AnalysisGetHoverParams(String file, int offset) {
this.file = file;
this.offset = offset;
}
factory AnalysisGetHoverParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new AnalysisGetHoverParams(file, offset);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.getHover params", json);
}
}
factory AnalysisGetHoverParams.fromRequest(Request request) {
return new AnalysisGetHoverParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.getHover", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetHoverParams) {
return file == other.file && offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getHover result
*
* {
* "hovers": List<HoverInformation>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetHoverResult implements ResponseResult {
List<HoverInformation> _hovers;
/**
* The hover information associated with the location. The list will be empty
* if no information could be determined for the location. The list can
* contain multiple items if the file is being analyzed in multiple contexts
* in conflicting ways (such as a part that is included in multiple
* libraries).
*/
List<HoverInformation> get hovers => _hovers;
/**
* The hover information associated with the location. The list will be empty
* if no information could be determined for the location. The list can
* contain multiple items if the file is being analyzed in multiple contexts
* in conflicting ways (such as a part that is included in multiple
* libraries).
*/
void set hovers(List<HoverInformation> value) {
assert(value != null);
this._hovers = value;
}
AnalysisGetHoverResult(List<HoverInformation> hovers) {
this.hovers = hovers;
}
factory AnalysisGetHoverResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<HoverInformation> hovers;
if (json.containsKey("hovers")) {
hovers = jsonDecoder.decodeList(
jsonPath + ".hovers",
json["hovers"],
(String jsonPath, Object json) =>
new HoverInformation.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "hovers");
}
return new AnalysisGetHoverResult(hovers);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.getHover result", json);
}
}
factory AnalysisGetHoverResult.fromResponse(Response response) {
return new AnalysisGetHoverResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["hovers"] =
hovers.map((HoverInformation value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetHoverResult) {
return listEqual(hovers, other.hovers,
(HoverInformation a, HoverInformation b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, hovers.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getImportedElements params
*
* {
* "file": FilePath
* "offset": int
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetImportedElementsParams implements RequestParams {
String _file;
int _offset;
int _length;
/**
* The file in which import information is being requested.
*/
String get file => _file;
/**
* The file in which import information is being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the region for which import information is being requested.
*/
int get offset => _offset;
/**
* The offset of the region for which import information is being requested.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the region for which import information is being requested.
*/
int get length => _length;
/**
* The length of the region for which import information is being requested.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
AnalysisGetImportedElementsParams(String file, int offset, int length) {
this.file = file;
this.offset = offset;
this.length = length;
}
factory AnalysisGetImportedElementsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
return new AnalysisGetImportedElementsParams(file, offset, length);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getImportedElements params", json);
}
}
factory AnalysisGetImportedElementsParams.fromRequest(Request request) {
return new AnalysisGetImportedElementsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
result["length"] = length;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.getImportedElements", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetImportedElementsParams) {
return file == other.file &&
offset == other.offset &&
length == other.length;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getImportedElements result
*
* {
* "elements": List<ImportedElements>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetImportedElementsResult implements ResponseResult {
List<ImportedElements> _elements;
/**
* The information about the elements that are referenced in the specified
* region of the specified file that come from imported libraries.
*/
List<ImportedElements> get elements => _elements;
/**
* The information about the elements that are referenced in the specified
* region of the specified file that come from imported libraries.
*/
void set elements(List<ImportedElements> value) {
assert(value != null);
this._elements = value;
}
AnalysisGetImportedElementsResult(List<ImportedElements> elements) {
this.elements = elements;
}
factory AnalysisGetImportedElementsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<ImportedElements> elements;
if (json.containsKey("elements")) {
elements = jsonDecoder.decodeList(
jsonPath + ".elements",
json["elements"],
(String jsonPath, Object json) =>
new ImportedElements.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "elements");
}
return new AnalysisGetImportedElementsResult(elements);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getImportedElements result", json);
}
}
factory AnalysisGetImportedElementsResult.fromResponse(Response response) {
return new AnalysisGetImportedElementsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["elements"] =
elements.map((ImportedElements value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetImportedElementsResult) {
return listEqual(elements, other.elements,
(ImportedElements a, ImportedElements b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, elements.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getLibraryDependencies params
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetLibraryDependenciesParams implements RequestParams {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Request toRequest(String id) {
return new Request(id, "analysis.getLibraryDependencies", null);
}
@override
bool operator ==(other) {
if (other is AnalysisGetLibraryDependenciesParams) {
return true;
}
return false;
}
@override
int get hashCode {
return 246577680;
}
}
/**
* analysis.getLibraryDependencies result
*
* {
* "libraries": List<FilePath>
* "packageMap": Map<String, Map<String, List<FilePath>>>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetLibraryDependenciesResult implements ResponseResult {
List<String> _libraries;
Map<String, Map<String, List<String>>> _packageMap;
/**
* A list of the paths of library elements referenced by files in existing
* analysis roots.
*/
List<String> get libraries => _libraries;
/**
* A list of the paths of library elements referenced by files in existing
* analysis roots.
*/
void set libraries(List<String> value) {
assert(value != null);
this._libraries = value;
}
/**
* A mapping from context source roots to package maps which map package
* names to source directories for use in client-side package URI resolution.
*/
Map<String, Map<String, List<String>>> get packageMap => _packageMap;
/**
* A mapping from context source roots to package maps which map package
* names to source directories for use in client-side package URI resolution.
*/
void set packageMap(Map<String, Map<String, List<String>>> value) {
assert(value != null);
this._packageMap = value;
}
AnalysisGetLibraryDependenciesResult(List<String> libraries,
Map<String, Map<String, List<String>>> packageMap) {
this.libraries = libraries;
this.packageMap = packageMap;
}
factory AnalysisGetLibraryDependenciesResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<String> libraries;
if (json.containsKey("libraries")) {
libraries = jsonDecoder.decodeList(jsonPath + ".libraries",
json["libraries"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "libraries");
}
Map<String, Map<String, List<String>>> packageMap;
if (json.containsKey("packageMap")) {
packageMap = jsonDecoder.decodeMap(
jsonPath + ".packageMap", json["packageMap"],
valueDecoder: (String jsonPath, Object json) =>
jsonDecoder.decodeMap(jsonPath, json,
valueDecoder: (String jsonPath, Object json) => jsonDecoder
.decodeList(jsonPath, json, jsonDecoder.decodeString)));
} else {
throw jsonDecoder.mismatch(jsonPath, "packageMap");
}
return new AnalysisGetLibraryDependenciesResult(libraries, packageMap);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getLibraryDependencies result", json);
}
}
factory AnalysisGetLibraryDependenciesResult.fromResponse(Response response) {
return new AnalysisGetLibraryDependenciesResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["libraries"] = libraries;
result["packageMap"] = packageMap;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetLibraryDependenciesResult) {
return listEqual(
libraries, other.libraries, (String a, String b) => a == b) &&
mapEqual(
packageMap,
other.packageMap,
(Map<String, List<String>> a, Map<String, List<String>> b) =>
mapEqual(
a,
b,
(List<String> a, List<String> b) =>
listEqual(a, b, (String a, String b) => a == b)));
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, libraries.hashCode);
hash = JenkinsSmiHash.combine(hash, packageMap.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getNavigation params
*
* {
* "file": FilePath
* "offset": int
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetNavigationParams implements RequestParams {
String _file;
int _offset;
int _length;
/**
* The file in which navigation information is being requested.
*/
String get file => _file;
/**
* The file in which navigation information is being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the region for which navigation information is being
* requested.
*/
int get offset => _offset;
/**
* The offset of the region for which navigation information is being
* requested.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the region for which navigation information is being
* requested.
*/
int get length => _length;
/**
* The length of the region for which navigation information is being
* requested.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
AnalysisGetNavigationParams(String file, int offset, int length) {
this.file = file;
this.offset = offset;
this.length = length;
}
factory AnalysisGetNavigationParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
return new AnalysisGetNavigationParams(file, offset, length);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getNavigation params", json);
}
}
factory AnalysisGetNavigationParams.fromRequest(Request request) {
return new AnalysisGetNavigationParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
result["length"] = length;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.getNavigation", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetNavigationParams) {
return file == other.file &&
offset == other.offset &&
length == other.length;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getNavigation result
*
* {
* "files": List<FilePath>
* "targets": List<NavigationTarget>
* "regions": List<NavigationRegion>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetNavigationResult implements ResponseResult {
List<String> _files;
List<NavigationTarget> _targets;
List<NavigationRegion> _regions;
/**
* A list of the paths of files that are referenced by the navigation
* targets.
*/
List<String> get files => _files;
/**
* A list of the paths of files that are referenced by the navigation
* targets.
*/
void set files(List<String> value) {
assert(value != null);
this._files = value;
}
/**
* A list of the navigation targets that are referenced by the navigation
* regions.
*/
List<NavigationTarget> get targets => _targets;
/**
* A list of the navigation targets that are referenced by the navigation
* regions.
*/
void set targets(List<NavigationTarget> value) {
assert(value != null);
this._targets = value;
}
/**
* A list of the navigation regions within the requested region of the file.
*/
List<NavigationRegion> get regions => _regions;
/**
* A list of the navigation regions within the requested region of the file.
*/
void set regions(List<NavigationRegion> value) {
assert(value != null);
this._regions = value;
}
AnalysisGetNavigationResult(List<String> files,
List<NavigationTarget> targets, List<NavigationRegion> regions) {
this.files = files;
this.targets = targets;
this.regions = regions;
}
factory AnalysisGetNavigationResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<String> files;
if (json.containsKey("files")) {
files = jsonDecoder.decodeList(
jsonPath + ".files", json["files"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "files");
}
List<NavigationTarget> targets;
if (json.containsKey("targets")) {
targets = jsonDecoder.decodeList(
jsonPath + ".targets",
json["targets"],
(String jsonPath, Object json) =>
new NavigationTarget.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "targets");
}
List<NavigationRegion> regions;
if (json.containsKey("regions")) {
regions = jsonDecoder.decodeList(
jsonPath + ".regions",
json["regions"],
(String jsonPath, Object json) =>
new NavigationRegion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "regions");
}
return new AnalysisGetNavigationResult(files, targets, regions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getNavigation result", json);
}
}
factory AnalysisGetNavigationResult.fromResponse(Response response) {
return new AnalysisGetNavigationResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["files"] = files;
result["targets"] =
targets.map((NavigationTarget value) => value.toJson()).toList();
result["regions"] =
regions.map((NavigationRegion value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetNavigationResult) {
return listEqual(files, other.files, (String a, String b) => a == b) &&
listEqual(targets, other.targets,
(NavigationTarget a, NavigationTarget b) => a == b) &&
listEqual(regions, other.regions,
(NavigationRegion a, NavigationRegion b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, files.hashCode);
hash = JenkinsSmiHash.combine(hash, targets.hashCode);
hash = JenkinsSmiHash.combine(hash, regions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getReachableSources params
*
* {
* "file": FilePath
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetReachableSourcesParams implements RequestParams {
String _file;
/**
* The file for which reachable source information is being requested.
*/
String get file => _file;
/**
* The file for which reachable source information is being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
AnalysisGetReachableSourcesParams(String file) {
this.file = file;
}
factory AnalysisGetReachableSourcesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
return new AnalysisGetReachableSourcesParams(file);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getReachableSources params", json);
}
}
factory AnalysisGetReachableSourcesParams.fromRequest(Request request) {
return new AnalysisGetReachableSourcesParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.getReachableSources", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetReachableSourcesParams) {
return file == other.file;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getReachableSources result
*
* {
* "sources": Map<String, List<String>>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetReachableSourcesResult implements ResponseResult {
Map<String, List<String>> _sources;
/**
* A mapping from source URIs to directly reachable source URIs. For example,
* a file "foo.dart" that imports "bar.dart" would have the corresponding
* mapping { "file:///foo.dart" : ["file:///bar.dart"] }. If "bar.dart" has
* further imports (or exports) there will be a mapping from the URI
* "file:///bar.dart" to them. To check if a specific URI is reachable from a
* given file, clients can check for its presence in the resulting key set.
*/
Map<String, List<String>> get sources => _sources;
/**
* A mapping from source URIs to directly reachable source URIs. For example,
* a file "foo.dart" that imports "bar.dart" would have the corresponding
* mapping { "file:///foo.dart" : ["file:///bar.dart"] }. If "bar.dart" has
* further imports (or exports) there will be a mapping from the URI
* "file:///bar.dart" to them. To check if a specific URI is reachable from a
* given file, clients can check for its presence in the resulting key set.
*/
void set sources(Map<String, List<String>> value) {
assert(value != null);
this._sources = value;
}
AnalysisGetReachableSourcesResult(Map<String, List<String>> sources) {
this.sources = sources;
}
factory AnalysisGetReachableSourcesResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
Map<String, List<String>> sources;
if (json.containsKey("sources")) {
sources = jsonDecoder.decodeMap(jsonPath + ".sources", json["sources"],
valueDecoder: (String jsonPath, Object json) => jsonDecoder
.decodeList(jsonPath, json, jsonDecoder.decodeString));
} else {
throw jsonDecoder.mismatch(jsonPath, "sources");
}
return new AnalysisGetReachableSourcesResult(sources);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getReachableSources result", json);
}
}
factory AnalysisGetReachableSourcesResult.fromResponse(Response response) {
return new AnalysisGetReachableSourcesResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["sources"] = sources;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetReachableSourcesResult) {
return mapEqual(
sources,
other.sources,
(List<String> a, List<String> b) =>
listEqual(a, b, (String a, String b) => a == b));
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, sources.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getSignature params
*
* {
* "file": FilePath
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetSignatureParams implements RequestParams {
String _file;
int _offset;
/**
* The file in which signature information is being requested.
*/
String get file => _file;
/**
* The file in which signature information is being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The location for which signature information is being requested.
*/
int get offset => _offset;
/**
* The location for which signature information is being requested.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
AnalysisGetSignatureParams(String file, int offset) {
this.file = file;
this.offset = offset;
}
factory AnalysisGetSignatureParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new AnalysisGetSignatureParams(file, offset);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getSignature params", json);
}
}
factory AnalysisGetSignatureParams.fromRequest(Request request) {
return new AnalysisGetSignatureParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.getSignature", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetSignatureParams) {
return file == other.file && offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.getSignature result
*
* {
* "name": String
* "parameters": List<ParameterInfo>
* "dartdoc": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisGetSignatureResult implements ResponseResult {
String _name;
List<ParameterInfo> _parameters;
String _dartdoc;
/**
* The name of the function being invoked at the given offset.
*/
String get name => _name;
/**
* The name of the function being invoked at the given offset.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* A list of information about each of the parameters of the function being
* invoked.
*/
List<ParameterInfo> get parameters => _parameters;
/**
* A list of information about each of the parameters of the function being
* invoked.
*/
void set parameters(List<ParameterInfo> value) {
assert(value != null);
this._parameters = value;
}
/**
* The dartdoc associated with the function being invoked. Other than the
* removal of the comment delimiters, including leading asterisks in the case
* of a block comment, the dartdoc is unprocessed markdown. This data is
* omitted if there is no referenced element, or if the element has no
* dartdoc.
*/
String get dartdoc => _dartdoc;
/**
* The dartdoc associated with the function being invoked. Other than the
* removal of the comment delimiters, including leading asterisks in the case
* of a block comment, the dartdoc is unprocessed markdown. This data is
* omitted if there is no referenced element, or if the element has no
* dartdoc.
*/
void set dartdoc(String value) {
this._dartdoc = value;
}
AnalysisGetSignatureResult(String name, List<ParameterInfo> parameters,
{String dartdoc}) {
this.name = name;
this.parameters = parameters;
this.dartdoc = dartdoc;
}
factory AnalysisGetSignatureResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
List<ParameterInfo> parameters;
if (json.containsKey("parameters")) {
parameters = jsonDecoder.decodeList(
jsonPath + ".parameters",
json["parameters"],
(String jsonPath, Object json) =>
new ParameterInfo.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "parameters");
}
String dartdoc;
if (json.containsKey("dartdoc")) {
dartdoc =
jsonDecoder.decodeString(jsonPath + ".dartdoc", json["dartdoc"]);
}
return new AnalysisGetSignatureResult(name, parameters, dartdoc: dartdoc);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.getSignature result", json);
}
}
factory AnalysisGetSignatureResult.fromResponse(Response response) {
return new AnalysisGetSignatureResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
result["parameters"] =
parameters.map((ParameterInfo value) => value.toJson()).toList();
if (dartdoc != null) {
result["dartdoc"] = dartdoc;
}
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisGetSignatureResult) {
return name == other.name &&
listEqual(parameters, other.parameters,
(ParameterInfo a, ParameterInfo b) => a == b) &&
dartdoc == other.dartdoc;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, parameters.hashCode);
hash = JenkinsSmiHash.combine(hash, dartdoc.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.highlights params
*
* {
* "file": FilePath
* "regions": List<HighlightRegion>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisHighlightsParams implements HasToJson {
String _file;
List<HighlightRegion> _regions;
/**
* The file containing the highlight regions.
*/
String get file => _file;
/**
* The file containing the highlight regions.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The highlight regions contained in the file. Each highlight region
* represents a particular syntactic or semantic meaning associated with some
* range. Note that the highlight regions that are returned can overlap other
* highlight regions if there is more than one meaning associated with a
* particular region.
*/
List<HighlightRegion> get regions => _regions;
/**
* The highlight regions contained in the file. Each highlight region
* represents a particular syntactic or semantic meaning associated with some
* range. Note that the highlight regions that are returned can overlap other
* highlight regions if there is more than one meaning associated with a
* particular region.
*/
void set regions(List<HighlightRegion> value) {
assert(value != null);
this._regions = value;
}
AnalysisHighlightsParams(String file, List<HighlightRegion> regions) {
this.file = file;
this.regions = regions;
}
factory AnalysisHighlightsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<HighlightRegion> regions;
if (json.containsKey("regions")) {
regions = jsonDecoder.decodeList(
jsonPath + ".regions",
json["regions"],
(String jsonPath, Object json) =>
new HighlightRegion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "regions");
}
return new AnalysisHighlightsParams(file, regions);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.highlights params", json);
}
}
factory AnalysisHighlightsParams.fromNotification(Notification notification) {
return new AnalysisHighlightsParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["regions"] =
regions.map((HighlightRegion value) => value.toJson()).toList();
return result;
}
Notification toNotification() {
return new Notification("analysis.highlights", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisHighlightsParams) {
return file == other.file &&
listEqual(regions, other.regions,
(HighlightRegion a, HighlightRegion b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, regions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.implemented params
*
* {
* "file": FilePath
* "classes": List<ImplementedClass>
* "members": List<ImplementedMember>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisImplementedParams implements HasToJson {
String _file;
List<ImplementedClass> _classes;
List<ImplementedMember> _members;
/**
* The file with which the implementations are associated.
*/
String get file => _file;
/**
* The file with which the implementations are associated.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The classes defined in the file that are implemented or extended.
*/
List<ImplementedClass> get classes => _classes;
/**
* The classes defined in the file that are implemented or extended.
*/
void set classes(List<ImplementedClass> value) {
assert(value != null);
this._classes = value;
}
/**
* The member defined in the file that are implemented or overridden.
*/
List<ImplementedMember> get members => _members;
/**
* The member defined in the file that are implemented or overridden.
*/
void set members(List<ImplementedMember> value) {
assert(value != null);
this._members = value;
}
AnalysisImplementedParams(String file, List<ImplementedClass> classes,
List<ImplementedMember> members) {
this.file = file;
this.classes = classes;
this.members = members;
}
factory AnalysisImplementedParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<ImplementedClass> classes;
if (json.containsKey("classes")) {
classes = jsonDecoder.decodeList(
jsonPath + ".classes",
json["classes"],
(String jsonPath, Object json) =>
new ImplementedClass.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "classes");
}
List<ImplementedMember> members;
if (json.containsKey("members")) {
members = jsonDecoder.decodeList(
jsonPath + ".members",
json["members"],
(String jsonPath, Object json) =>
new ImplementedMember.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "members");
}
return new AnalysisImplementedParams(file, classes, members);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.implemented params", json);
}
}
factory AnalysisImplementedParams.fromNotification(
Notification notification) {
return new AnalysisImplementedParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["classes"] =
classes.map((ImplementedClass value) => value.toJson()).toList();
result["members"] =
members.map((ImplementedMember value) => value.toJson()).toList();
return result;
}
Notification toNotification() {
return new Notification("analysis.implemented", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisImplementedParams) {
return file == other.file &&
listEqual(classes, other.classes,
(ImplementedClass a, ImplementedClass b) => a == b) &&
listEqual(members, other.members,
(ImplementedMember a, ImplementedMember b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, classes.hashCode);
hash = JenkinsSmiHash.combine(hash, members.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.invalidate params
*
* {
* "file": FilePath
* "offset": int
* "length": int
* "delta": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisInvalidateParams implements HasToJson {
String _file;
int _offset;
int _length;
int _delta;
/**
* The file whose information has been invalidated.
*/
String get file => _file;
/**
* The file whose information has been invalidated.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the invalidated region.
*/
int get offset => _offset;
/**
* The offset of the invalidated region.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the invalidated region.
*/
int get length => _length;
/**
* The length of the invalidated region.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The delta to be applied to the offsets in information that follows the
* invalidated region in order to update it so that it doesn't need to be
* re-requested.
*/
int get delta => _delta;
/**
* The delta to be applied to the offsets in information that follows the
* invalidated region in order to update it so that it doesn't need to be
* re-requested.
*/
void set delta(int value) {
assert(value != null);
this._delta = value;
}
AnalysisInvalidateParams(String file, int offset, int length, int delta) {
this.file = file;
this.offset = offset;
this.length = length;
this.delta = delta;
}
factory AnalysisInvalidateParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
int delta;
if (json.containsKey("delta")) {
delta = jsonDecoder.decodeInt(jsonPath + ".delta", json["delta"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "delta");
}
return new AnalysisInvalidateParams(file, offset, length, delta);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.invalidate params", json);
}
}
factory AnalysisInvalidateParams.fromNotification(Notification notification) {
return new AnalysisInvalidateParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
result["length"] = length;
result["delta"] = delta;
return result;
}
Notification toNotification() {
return new Notification("analysis.invalidate", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisInvalidateParams) {
return file == other.file &&
offset == other.offset &&
length == other.length &&
delta == other.delta;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, delta.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.navigation params
*
* {
* "file": FilePath
* "regions": List<NavigationRegion>
* "targets": List<NavigationTarget>
* "files": List<FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisNavigationParams implements HasToJson {
String _file;
List<NavigationRegion> _regions;
List<NavigationTarget> _targets;
List<String> _files;
/**
* The file containing the navigation regions.
*/
String get file => _file;
/**
* The file containing the navigation regions.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The navigation regions contained in the file. The regions are sorted by
* their offsets. Each navigation region represents a list of targets
* associated with some range. The lists will usually contain a single
* target, but can contain more in the case of a part that is included in
* multiple libraries or in Dart code that is compiled against multiple
* versions of a package. Note that the navigation regions that are returned
* do not overlap other navigation regions.
*/
List<NavigationRegion> get regions => _regions;
/**
* The navigation regions contained in the file. The regions are sorted by
* their offsets. Each navigation region represents a list of targets
* associated with some range. The lists will usually contain a single
* target, but can contain more in the case of a part that is included in
* multiple libraries or in Dart code that is compiled against multiple
* versions of a package. Note that the navigation regions that are returned
* do not overlap other navigation regions.
*/
void set regions(List<NavigationRegion> value) {
assert(value != null);
this._regions = value;
}
/**
* The navigation targets referenced in the file. They are referenced by
* NavigationRegions by their index in this array.
*/
List<NavigationTarget> get targets => _targets;
/**
* The navigation targets referenced in the file. They are referenced by
* NavigationRegions by their index in this array.
*/
void set targets(List<NavigationTarget> value) {
assert(value != null);
this._targets = value;
}
/**
* The files containing navigation targets referenced in the file. They are
* referenced by NavigationTargets by their index in this array.
*/
List<String> get files => _files;
/**
* The files containing navigation targets referenced in the file. They are
* referenced by NavigationTargets by their index in this array.
*/
void set files(List<String> value) {
assert(value != null);
this._files = value;
}
AnalysisNavigationParams(String file, List<NavigationRegion> regions,
List<NavigationTarget> targets, List<String> files) {
this.file = file;
this.regions = regions;
this.targets = targets;
this.files = files;
}
factory AnalysisNavigationParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<NavigationRegion> regions;
if (json.containsKey("regions")) {
regions = jsonDecoder.decodeList(
jsonPath + ".regions",
json["regions"],
(String jsonPath, Object json) =>
new NavigationRegion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "regions");
}
List<NavigationTarget> targets;
if (json.containsKey("targets")) {
targets = jsonDecoder.decodeList(
jsonPath + ".targets",
json["targets"],
(String jsonPath, Object json) =>
new NavigationTarget.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "targets");
}
List<String> files;
if (json.containsKey("files")) {
files = jsonDecoder.decodeList(
jsonPath + ".files", json["files"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "files");
}
return new AnalysisNavigationParams(file, regions, targets, files);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.navigation params", json);
}
}
factory AnalysisNavigationParams.fromNotification(Notification notification) {
return new AnalysisNavigationParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["regions"] =
regions.map((NavigationRegion value) => value.toJson()).toList();
result["targets"] =
targets.map((NavigationTarget value) => value.toJson()).toList();
result["files"] = files;
return result;
}
Notification toNotification() {
return new Notification("analysis.navigation", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisNavigationParams) {
return file == other.file &&
listEqual(regions, other.regions,
(NavigationRegion a, NavigationRegion b) => a == b) &&
listEqual(targets, other.targets,
(NavigationTarget a, NavigationTarget b) => a == b) &&
listEqual(files, other.files, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, regions.hashCode);
hash = JenkinsSmiHash.combine(hash, targets.hashCode);
hash = JenkinsSmiHash.combine(hash, files.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.occurrences params
*
* {
* "file": FilePath
* "occurrences": List<Occurrences>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisOccurrencesParams implements HasToJson {
String _file;
List<Occurrences> _occurrences;
/**
* The file in which the references occur.
*/
String get file => _file;
/**
* The file in which the references occur.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The occurrences of references to elements within the file.
*/
List<Occurrences> get occurrences => _occurrences;
/**
* The occurrences of references to elements within the file.
*/
void set occurrences(List<Occurrences> value) {
assert(value != null);
this._occurrences = value;
}
AnalysisOccurrencesParams(String file, List<Occurrences> occurrences) {
this.file = file;
this.occurrences = occurrences;
}
factory AnalysisOccurrencesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<Occurrences> occurrences;
if (json.containsKey("occurrences")) {
occurrences = jsonDecoder.decodeList(
jsonPath + ".occurrences",
json["occurrences"],
(String jsonPath, Object json) =>
new Occurrences.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "occurrences");
}
return new AnalysisOccurrencesParams(file, occurrences);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.occurrences params", json);
}
}
factory AnalysisOccurrencesParams.fromNotification(
Notification notification) {
return new AnalysisOccurrencesParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["occurrences"] =
occurrences.map((Occurrences value) => value.toJson()).toList();
return result;
}
Notification toNotification() {
return new Notification("analysis.occurrences", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisOccurrencesParams) {
return file == other.file &&
listEqual(occurrences, other.occurrences,
(Occurrences a, Occurrences b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, occurrences.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* AnalysisOptions
*
* {
* "enableAsync": optional bool
* "enableDeferredLoading": optional bool
* "enableEnums": optional bool
* "enableNullAwareOperators": optional bool
* "enableSuperMixins": optional bool
* "generateDart2jsHints": optional bool
* "generateHints": optional bool
* "generateLints": optional bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisOptions implements HasToJson {
bool _enableAsync;
bool _enableDeferredLoading;
bool _enableEnums;
bool _enableNullAwareOperators;
bool _enableSuperMixins;
bool _generateDart2jsHints;
bool _generateHints;
bool _generateLints;
/**
* Deprecated: this feature is always enabled.
*
* True if the client wants to enable support for the proposed async feature.
*/
bool get enableAsync => _enableAsync;
/**
* Deprecated: this feature is always enabled.
*
* True if the client wants to enable support for the proposed async feature.
*/
void set enableAsync(bool value) {
this._enableAsync = value;
}
/**
* Deprecated: this feature is always enabled.
*
* True if the client wants to enable support for the proposed deferred
* loading feature.
*/
bool get enableDeferredLoading => _enableDeferredLoading;
/**
* Deprecated: this feature is always enabled.
*
* True if the client wants to enable support for the proposed deferred
* loading feature.
*/
void set enableDeferredLoading(bool value) {
this._enableDeferredLoading = value;
}
/**
* Deprecated: this feature is always enabled.
*
* True if the client wants to enable support for the proposed enum feature.
*/
bool get enableEnums => _enableEnums;
/**
* Deprecated: this feature is always enabled.
*
* True if the client wants to enable support for the proposed enum feature.
*/
void set enableEnums(bool value) {
this._enableEnums = value;
}
/**
* Deprecated: this feature is always enabled.
*
* True if the client wants to enable support for the proposed "null aware
* operators" feature.
*/
bool get enableNullAwareOperators => _enableNullAwareOperators;
/**
* Deprecated: this feature is always enabled.
*
* True if the client wants to enable support for the proposed "null aware
* operators" feature.
*/
void set enableNullAwareOperators(bool value) {
this._enableNullAwareOperators = value;
}
/**
* True if the client wants to enable support for the proposed "less
* restricted mixins" proposal (DEP 34).
*/
bool get enableSuperMixins => _enableSuperMixins;
/**
* True if the client wants to enable support for the proposed "less
* restricted mixins" proposal (DEP 34).
*/
void set enableSuperMixins(bool value) {
this._enableSuperMixins = value;
}
/**
* True if hints that are specific to dart2js should be generated. This
* option is ignored if generateHints is false.
*/
bool get generateDart2jsHints => _generateDart2jsHints;
/**
* True if hints that are specific to dart2js should be generated. This
* option is ignored if generateHints is false.
*/
void set generateDart2jsHints(bool value) {
this._generateDart2jsHints = value;
}
/**
* True if hints should be generated as part of generating errors and
* warnings.
*/
bool get generateHints => _generateHints;
/**
* True if hints should be generated as part of generating errors and
* warnings.
*/
void set generateHints(bool value) {
this._generateHints = value;
}
/**
* True if lints should be generated as part of generating errors and
* warnings.
*/
bool get generateLints => _generateLints;
/**
* True if lints should be generated as part of generating errors and
* warnings.
*/
void set generateLints(bool value) {
this._generateLints = value;
}
AnalysisOptions(
{bool enableAsync,
bool enableDeferredLoading,
bool enableEnums,
bool enableNullAwareOperators,
bool enableSuperMixins,
bool generateDart2jsHints,
bool generateHints,
bool generateLints}) {
this.enableAsync = enableAsync;
this.enableDeferredLoading = enableDeferredLoading;
this.enableEnums = enableEnums;
this.enableNullAwareOperators = enableNullAwareOperators;
this.enableSuperMixins = enableSuperMixins;
this.generateDart2jsHints = generateDart2jsHints;
this.generateHints = generateHints;
this.generateLints = generateLints;
}
factory AnalysisOptions.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
bool enableAsync;
if (json.containsKey("enableAsync")) {
enableAsync = jsonDecoder.decodeBool(
jsonPath + ".enableAsync", json["enableAsync"]);
}
bool enableDeferredLoading;
if (json.containsKey("enableDeferredLoading")) {
enableDeferredLoading = jsonDecoder.decodeBool(
jsonPath + ".enableDeferredLoading", json["enableDeferredLoading"]);
}
bool enableEnums;
if (json.containsKey("enableEnums")) {
enableEnums = jsonDecoder.decodeBool(
jsonPath + ".enableEnums", json["enableEnums"]);
}
bool enableNullAwareOperators;
if (json.containsKey("enableNullAwareOperators")) {
enableNullAwareOperators = jsonDecoder.decodeBool(
jsonPath + ".enableNullAwareOperators",
json["enableNullAwareOperators"]);
}
bool enableSuperMixins;
if (json.containsKey("enableSuperMixins")) {
enableSuperMixins = jsonDecoder.decodeBool(
jsonPath + ".enableSuperMixins", json["enableSuperMixins"]);
}
bool generateDart2jsHints;
if (json.containsKey("generateDart2jsHints")) {
generateDart2jsHints = jsonDecoder.decodeBool(
jsonPath + ".generateDart2jsHints", json["generateDart2jsHints"]);
}
bool generateHints;
if (json.containsKey("generateHints")) {
generateHints = jsonDecoder.decodeBool(
jsonPath + ".generateHints", json["generateHints"]);
}
bool generateLints;
if (json.containsKey("generateLints")) {
generateLints = jsonDecoder.decodeBool(
jsonPath + ".generateLints", json["generateLints"]);
}
return new AnalysisOptions(
enableAsync: enableAsync,
enableDeferredLoading: enableDeferredLoading,
enableEnums: enableEnums,
enableNullAwareOperators: enableNullAwareOperators,
enableSuperMixins: enableSuperMixins,
generateDart2jsHints: generateDart2jsHints,
generateHints: generateHints,
generateLints: generateLints);
} else {
throw jsonDecoder.mismatch(jsonPath, "AnalysisOptions", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (enableAsync != null) {
result["enableAsync"] = enableAsync;
}
if (enableDeferredLoading != null) {
result["enableDeferredLoading"] = enableDeferredLoading;
}
if (enableEnums != null) {
result["enableEnums"] = enableEnums;
}
if (enableNullAwareOperators != null) {
result["enableNullAwareOperators"] = enableNullAwareOperators;
}
if (enableSuperMixins != null) {
result["enableSuperMixins"] = enableSuperMixins;
}
if (generateDart2jsHints != null) {
result["generateDart2jsHints"] = generateDart2jsHints;
}
if (generateHints != null) {
result["generateHints"] = generateHints;
}
if (generateLints != null) {
result["generateLints"] = generateLints;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisOptions) {
return enableAsync == other.enableAsync &&
enableDeferredLoading == other.enableDeferredLoading &&
enableEnums == other.enableEnums &&
enableNullAwareOperators == other.enableNullAwareOperators &&
enableSuperMixins == other.enableSuperMixins &&
generateDart2jsHints == other.generateDart2jsHints &&
generateHints == other.generateHints &&
generateLints == other.generateLints;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, enableAsync.hashCode);
hash = JenkinsSmiHash.combine(hash, enableDeferredLoading.hashCode);
hash = JenkinsSmiHash.combine(hash, enableEnums.hashCode);
hash = JenkinsSmiHash.combine(hash, enableNullAwareOperators.hashCode);
hash = JenkinsSmiHash.combine(hash, enableSuperMixins.hashCode);
hash = JenkinsSmiHash.combine(hash, generateDart2jsHints.hashCode);
hash = JenkinsSmiHash.combine(hash, generateHints.hashCode);
hash = JenkinsSmiHash.combine(hash, generateLints.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.outline params
*
* {
* "file": FilePath
* "kind": FileKind
* "libraryName": optional String
* "outline": Outline
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisOutlineParams implements HasToJson {
String _file;
FileKind _kind;
String _libraryName;
Outline _outline;
/**
* The file with which the outline is associated.
*/
String get file => _file;
/**
* The file with which the outline is associated.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The kind of the file.
*/
FileKind get kind => _kind;
/**
* The kind of the file.
*/
void set kind(FileKind value) {
assert(value != null);
this._kind = value;
}
/**
* The name of the library defined by the file using a "library" directive,
* or referenced by a "part of" directive. If both "library" and "part of"
* directives are present, then the "library" directive takes precedence.
* This field will be omitted if the file has neither "library" nor "part of"
* directives.
*/
String get libraryName => _libraryName;
/**
* The name of the library defined by the file using a "library" directive,
* or referenced by a "part of" directive. If both "library" and "part of"
* directives are present, then the "library" directive takes precedence.
* This field will be omitted if the file has neither "library" nor "part of"
* directives.
*/
void set libraryName(String value) {
this._libraryName = value;
}
/**
* The outline associated with the file.
*/
Outline get outline => _outline;
/**
* The outline associated with the file.
*/
void set outline(Outline value) {
assert(value != null);
this._outline = value;
}
AnalysisOutlineParams(String file, FileKind kind, Outline outline,
{String libraryName}) {
this.file = file;
this.kind = kind;
this.libraryName = libraryName;
this.outline = outline;
}
factory AnalysisOutlineParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
FileKind kind;
if (json.containsKey("kind")) {
kind = new FileKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
String libraryName;
if (json.containsKey("libraryName")) {
libraryName = jsonDecoder.decodeString(
jsonPath + ".libraryName", json["libraryName"]);
}
Outline outline;
if (json.containsKey("outline")) {
outline = new Outline.fromJson(
jsonDecoder, jsonPath + ".outline", json["outline"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "outline");
}
return new AnalysisOutlineParams(file, kind, outline,
libraryName: libraryName);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.outline params", json);
}
}
factory AnalysisOutlineParams.fromNotification(Notification notification) {
return new AnalysisOutlineParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["kind"] = kind.toJson();
if (libraryName != null) {
result["libraryName"] = libraryName;
}
result["outline"] = outline.toJson();
return result;
}
Notification toNotification() {
return new Notification("analysis.outline", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisOutlineParams) {
return file == other.file &&
kind == other.kind &&
libraryName == other.libraryName &&
outline == other.outline;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, libraryName.hashCode);
hash = JenkinsSmiHash.combine(hash, outline.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.overrides params
*
* {
* "file": FilePath
* "overrides": List<Override>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisOverridesParams implements HasToJson {
String _file;
List<Override> _overrides;
/**
* The file with which the overrides are associated.
*/
String get file => _file;
/**
* The file with which the overrides are associated.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The overrides associated with the file.
*/
List<Override> get overrides => _overrides;
/**
* The overrides associated with the file.
*/
void set overrides(List<Override> value) {
assert(value != null);
this._overrides = value;
}
AnalysisOverridesParams(String file, List<Override> overrides) {
this.file = file;
this.overrides = overrides;
}
factory AnalysisOverridesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<Override> overrides;
if (json.containsKey("overrides")) {
overrides = jsonDecoder.decodeList(
jsonPath + ".overrides",
json["overrides"],
(String jsonPath, Object json) =>
new Override.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "overrides");
}
return new AnalysisOverridesParams(file, overrides);
} else {
throw jsonDecoder.mismatch(jsonPath, "analysis.overrides params", json);
}
}
factory AnalysisOverridesParams.fromNotification(Notification notification) {
return new AnalysisOverridesParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["overrides"] =
overrides.map((Override value) => value.toJson()).toList();
return result;
}
Notification toNotification() {
return new Notification("analysis.overrides", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisOverridesParams) {
return file == other.file &&
listEqual(
overrides, other.overrides, (Override a, Override b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, overrides.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.reanalyze params
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisReanalyzeParams implements RequestParams {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Request toRequest(String id) {
return new Request(id, "analysis.reanalyze", null);
}
@override
bool operator ==(other) {
if (other is AnalysisReanalyzeParams) {
return true;
}
return false;
}
@override
int get hashCode {
return 613039876;
}
}
/**
* analysis.reanalyze result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisReanalyzeResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalysisReanalyzeResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 846803925;
}
}
/**
* AnalysisService
*
* enum {
* CLOSING_LABELS
* FOLDING
* HIGHLIGHTS
* IMPLEMENTED
* INVALIDATE
* NAVIGATION
* OCCURRENCES
* OUTLINE
* OVERRIDES
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisService implements Enum {
static const AnalysisService CLOSING_LABELS =
const AnalysisService._("CLOSING_LABELS");
static const AnalysisService FOLDING = const AnalysisService._("FOLDING");
static const AnalysisService HIGHLIGHTS =
const AnalysisService._("HIGHLIGHTS");
static const AnalysisService IMPLEMENTED =
const AnalysisService._("IMPLEMENTED");
/**
* This service is not currently implemented and will become a
* GeneralAnalysisService in a future release.
*/
static const AnalysisService INVALIDATE =
const AnalysisService._("INVALIDATE");
static const AnalysisService NAVIGATION =
const AnalysisService._("NAVIGATION");
static const AnalysisService OCCURRENCES =
const AnalysisService._("OCCURRENCES");
static const AnalysisService OUTLINE = const AnalysisService._("OUTLINE");
static const AnalysisService OVERRIDES = const AnalysisService._("OVERRIDES");
/**
* A list containing all of the enum values that are defined.
*/
static const List<AnalysisService> VALUES = const <AnalysisService>[
CLOSING_LABELS,
FOLDING,
HIGHLIGHTS,
IMPLEMENTED,
INVALIDATE,
NAVIGATION,
OCCURRENCES,
OUTLINE,
OVERRIDES
];
@override
final String name;
const AnalysisService._(this.name);
factory AnalysisService(String name) {
switch (name) {
case "CLOSING_LABELS":
return CLOSING_LABELS;
case "FOLDING":
return FOLDING;
case "HIGHLIGHTS":
return HIGHLIGHTS;
case "IMPLEMENTED":
return IMPLEMENTED;
case "INVALIDATE":
return INVALIDATE;
case "NAVIGATION":
return NAVIGATION;
case "OCCURRENCES":
return OCCURRENCES;
case "OUTLINE":
return OUTLINE;
case "OVERRIDES":
return OVERRIDES;
}
throw new Exception('Illegal enum value: $name');
}
factory AnalysisService.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new AnalysisService(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "AnalysisService", json);
}
@override
String toString() => "AnalysisService.$name";
String toJson() => name;
}
/**
* analysis.setAnalysisRoots params
*
* {
* "included": List<FilePath>
* "excluded": List<FilePath>
* "packageRoots": optional Map<FilePath, FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisSetAnalysisRootsParams implements RequestParams {
List<String> _included;
List<String> _excluded;
Map<String, String> _packageRoots;
/**
* A list of the files and directories that should be analyzed.
*/
List<String> get included => _included;
/**
* A list of the files and directories that should be analyzed.
*/
void set included(List<String> value) {
assert(value != null);
this._included = value;
}
/**
* A list of the files and directories within the included directories that
* should not be analyzed.
*/
List<String> get excluded => _excluded;
/**
* A list of the files and directories within the included directories that
* should not be analyzed.
*/
void set excluded(List<String> value) {
assert(value != null);
this._excluded = value;
}
/**
* A mapping from source directories to package roots that should override
* the normal package: URI resolution mechanism.
*
* If a package root is a directory, then the analyzer will behave as though
* the associated source directory in the map contains a special pubspec.yaml
* file which resolves any package: URI to the corresponding path within that
* package root directory. The effect is the same as specifying the package
* root directory as a "--package_root" parameter to the Dart VM when
* executing any Dart file inside the source directory.
*
* If a package root is a file, then the analyzer will behave as though that
* file is a ".packages" file in the source directory. The effect is the same
* as specifying the file as a "--packages" parameter to the Dart VM when
* executing any Dart file inside the source directory.
*
* Files in any directories that are not overridden by this mapping have
* their package: URI's resolved using the normal pubspec.yaml mechanism. If
* this field is absent, or the empty map is specified, that indicates that
* the normal pubspec.yaml mechanism should always be used.
*/
Map<String, String> get packageRoots => _packageRoots;
/**
* A mapping from source directories to package roots that should override
* the normal package: URI resolution mechanism.
*
* If a package root is a directory, then the analyzer will behave as though
* the associated source directory in the map contains a special pubspec.yaml
* file which resolves any package: URI to the corresponding path within that
* package root directory. The effect is the same as specifying the package
* root directory as a "--package_root" parameter to the Dart VM when
* executing any Dart file inside the source directory.
*
* If a package root is a file, then the analyzer will behave as though that
* file is a ".packages" file in the source directory. The effect is the same
* as specifying the file as a "--packages" parameter to the Dart VM when
* executing any Dart file inside the source directory.
*
* Files in any directories that are not overridden by this mapping have
* their package: URI's resolved using the normal pubspec.yaml mechanism. If
* this field is absent, or the empty map is specified, that indicates that
* the normal pubspec.yaml mechanism should always be used.
*/
void set packageRoots(Map<String, String> value) {
this._packageRoots = value;
}
AnalysisSetAnalysisRootsParams(List<String> included, List<String> excluded,
{Map<String, String> packageRoots}) {
this.included = included;
this.excluded = excluded;
this.packageRoots = packageRoots;
}
factory AnalysisSetAnalysisRootsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<String> included;
if (json.containsKey("included")) {
included = jsonDecoder.decodeList(
jsonPath + ".included", json["included"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "included");
}
List<String> excluded;
if (json.containsKey("excluded")) {
excluded = jsonDecoder.decodeList(
jsonPath + ".excluded", json["excluded"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "excluded");
}
Map<String, String> packageRoots;
if (json.containsKey("packageRoots")) {
packageRoots = jsonDecoder.decodeMap(
jsonPath + ".packageRoots", json["packageRoots"],
valueDecoder: jsonDecoder.decodeString);
}
return new AnalysisSetAnalysisRootsParams(included, excluded,
packageRoots: packageRoots);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.setAnalysisRoots params", json);
}
}
factory AnalysisSetAnalysisRootsParams.fromRequest(Request request) {
return new AnalysisSetAnalysisRootsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["included"] = included;
result["excluded"] = excluded;
if (packageRoots != null) {
result["packageRoots"] = packageRoots;
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.setAnalysisRoots", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisSetAnalysisRootsParams) {
return listEqual(
included, other.included, (String a, String b) => a == b) &&
listEqual(excluded, other.excluded, (String a, String b) => a == b) &&
mapEqual(
packageRoots, other.packageRoots, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, included.hashCode);
hash = JenkinsSmiHash.combine(hash, excluded.hashCode);
hash = JenkinsSmiHash.combine(hash, packageRoots.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.setAnalysisRoots result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisSetAnalysisRootsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalysisSetAnalysisRootsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 866004753;
}
}
/**
* analysis.setGeneralSubscriptions params
*
* {
* "subscriptions": List<GeneralAnalysisService>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisSetGeneralSubscriptionsParams implements RequestParams {
List<GeneralAnalysisService> _subscriptions;
/**
* A list of the services being subscribed to.
*/
List<GeneralAnalysisService> get subscriptions => _subscriptions;
/**
* A list of the services being subscribed to.
*/
void set subscriptions(List<GeneralAnalysisService> value) {
assert(value != null);
this._subscriptions = value;
}
AnalysisSetGeneralSubscriptionsParams(
List<GeneralAnalysisService> subscriptions) {
this.subscriptions = subscriptions;
}
factory AnalysisSetGeneralSubscriptionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<GeneralAnalysisService> subscriptions;
if (json.containsKey("subscriptions")) {
subscriptions = jsonDecoder.decodeList(
jsonPath + ".subscriptions",
json["subscriptions"],
(String jsonPath, Object json) =>
new GeneralAnalysisService.fromJson(
jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "subscriptions");
}
return new AnalysisSetGeneralSubscriptionsParams(subscriptions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.setGeneralSubscriptions params", json);
}
}
factory AnalysisSetGeneralSubscriptionsParams.fromRequest(Request request) {
return new AnalysisSetGeneralSubscriptionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["subscriptions"] = subscriptions
.map((GeneralAnalysisService value) => value.toJson())
.toList();
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.setGeneralSubscriptions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisSetGeneralSubscriptionsParams) {
return listEqual(subscriptions, other.subscriptions,
(GeneralAnalysisService a, GeneralAnalysisService b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, subscriptions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.setGeneralSubscriptions result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisSetGeneralSubscriptionsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalysisSetGeneralSubscriptionsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 386759562;
}
}
/**
* analysis.setPriorityFiles params
*
* {
* "files": List<FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisSetPriorityFilesParams implements RequestParams {
List<String> _files;
/**
* The files that are to be a priority for analysis.
*/
List<String> get files => _files;
/**
* The files that are to be a priority for analysis.
*/
void set files(List<String> value) {
assert(value != null);
this._files = value;
}
AnalysisSetPriorityFilesParams(List<String> files) {
this.files = files;
}
factory AnalysisSetPriorityFilesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<String> files;
if (json.containsKey("files")) {
files = jsonDecoder.decodeList(
jsonPath + ".files", json["files"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "files");
}
return new AnalysisSetPriorityFilesParams(files);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.setPriorityFiles params", json);
}
}
factory AnalysisSetPriorityFilesParams.fromRequest(Request request) {
return new AnalysisSetPriorityFilesParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["files"] = files;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.setPriorityFiles", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisSetPriorityFilesParams) {
return listEqual(files, other.files, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, files.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.setPriorityFiles result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisSetPriorityFilesResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalysisSetPriorityFilesResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 330050055;
}
}
/**
* analysis.setSubscriptions params
*
* {
* "subscriptions": Map<AnalysisService, List<FilePath>>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisSetSubscriptionsParams implements RequestParams {
Map<AnalysisService, List<String>> _subscriptions;
/**
* A table mapping services to a list of the files being subscribed to the
* service.
*/
Map<AnalysisService, List<String>> get subscriptions => _subscriptions;
/**
* A table mapping services to a list of the files being subscribed to the
* service.
*/
void set subscriptions(Map<AnalysisService, List<String>> value) {
assert(value != null);
this._subscriptions = value;
}
AnalysisSetSubscriptionsParams(
Map<AnalysisService, List<String>> subscriptions) {
this.subscriptions = subscriptions;
}
factory AnalysisSetSubscriptionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
Map<AnalysisService, List<String>> subscriptions;
if (json.containsKey("subscriptions")) {
subscriptions = jsonDecoder.decodeMap(
jsonPath + ".subscriptions", json["subscriptions"],
keyDecoder: (String jsonPath, Object json) =>
new AnalysisService.fromJson(jsonDecoder, jsonPath, json),
valueDecoder: (String jsonPath, Object json) => jsonDecoder
.decodeList(jsonPath, json, jsonDecoder.decodeString));
} else {
throw jsonDecoder.mismatch(jsonPath, "subscriptions");
}
return new AnalysisSetSubscriptionsParams(subscriptions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.setSubscriptions params", json);
}
}
factory AnalysisSetSubscriptionsParams.fromRequest(Request request) {
return new AnalysisSetSubscriptionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["subscriptions"] = mapMap(subscriptions,
keyCallback: (AnalysisService value) => value.toJson());
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.setSubscriptions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisSetSubscriptionsParams) {
return mapEqual(
subscriptions,
other.subscriptions,
(List<String> a, List<String> b) =>
listEqual(a, b, (String a, String b) => a == b));
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, subscriptions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.setSubscriptions result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisSetSubscriptionsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalysisSetSubscriptionsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 218088493;
}
}
/**
* AnalysisStatus
*
* {
* "isAnalyzing": bool
* "analysisTarget": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisStatus implements HasToJson {
bool _isAnalyzing;
String _analysisTarget;
/**
* True if analysis is currently being performed.
*/
bool get isAnalyzing => _isAnalyzing;
/**
* True if analysis is currently being performed.
*/
void set isAnalyzing(bool value) {
assert(value != null);
this._isAnalyzing = value;
}
/**
* The name of the current target of analysis. This field is omitted if
* analyzing is false.
*/
String get analysisTarget => _analysisTarget;
/**
* The name of the current target of analysis. This field is omitted if
* analyzing is false.
*/
void set analysisTarget(String value) {
this._analysisTarget = value;
}
AnalysisStatus(bool isAnalyzing, {String analysisTarget}) {
this.isAnalyzing = isAnalyzing;
this.analysisTarget = analysisTarget;
}
factory AnalysisStatus.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
bool isAnalyzing;
if (json.containsKey("isAnalyzing")) {
isAnalyzing = jsonDecoder.decodeBool(
jsonPath + ".isAnalyzing", json["isAnalyzing"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isAnalyzing");
}
String analysisTarget;
if (json.containsKey("analysisTarget")) {
analysisTarget = jsonDecoder.decodeString(
jsonPath + ".analysisTarget", json["analysisTarget"]);
}
return new AnalysisStatus(isAnalyzing, analysisTarget: analysisTarget);
} else {
throw jsonDecoder.mismatch(jsonPath, "AnalysisStatus", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["isAnalyzing"] = isAnalyzing;
if (analysisTarget != null) {
result["analysisTarget"] = analysisTarget;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisStatus) {
return isAnalyzing == other.isAnalyzing &&
analysisTarget == other.analysisTarget;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, isAnalyzing.hashCode);
hash = JenkinsSmiHash.combine(hash, analysisTarget.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.updateContent params
*
* {
* "files": Map<FilePath, AddContentOverlay | ChangeContentOverlay | RemoveContentOverlay>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisUpdateContentParams implements RequestParams {
Map<String, dynamic> _files;
/**
* A table mapping the files whose content has changed to a description of
* the content change.
*/
Map<String, dynamic> get files => _files;
/**
* A table mapping the files whose content has changed to a description of
* the content change.
*/
void set files(Map<String, dynamic> value) {
assert(value != null);
this._files = value;
}
AnalysisUpdateContentParams(Map<String, dynamic> files) {
this.files = files;
}
factory AnalysisUpdateContentParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
Map<String, dynamic> files;
if (json.containsKey("files")) {
files = jsonDecoder.decodeMap(jsonPath + ".files", json["files"],
valueDecoder: (String jsonPath, Object json) =>
jsonDecoder.decodeUnion(jsonPath, json, "type", {
"add": (String jsonPath, Object json) =>
new AddContentOverlay.fromJson(
jsonDecoder, jsonPath, json),
"change": (String jsonPath, Object json) =>
new ChangeContentOverlay.fromJson(
jsonDecoder, jsonPath, json),
"remove": (String jsonPath, Object json) =>
new RemoveContentOverlay.fromJson(
jsonDecoder, jsonPath, json)
}));
} else {
throw jsonDecoder.mismatch(jsonPath, "files");
}
return new AnalysisUpdateContentParams(files);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.updateContent params", json);
}
}
factory AnalysisUpdateContentParams.fromRequest(Request request) {
return new AnalysisUpdateContentParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["files"] =
mapMap(files, valueCallback: (dynamic value) => value.toJson());
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.updateContent", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisUpdateContentParams) {
return mapEqual(files, other.files, (dynamic a, dynamic b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, files.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.updateContent result
*
* {
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisUpdateContentResult implements ResponseResult {
AnalysisUpdateContentResult();
factory AnalysisUpdateContentResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
return new AnalysisUpdateContentResult();
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.updateContent result", json);
}
}
factory AnalysisUpdateContentResult.fromResponse(Response response) {
return new AnalysisUpdateContentResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisUpdateContentResult) {
return true;
}
return false;
}
@override
int get hashCode {
int hash = 0;
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.updateOptions params
*
* {
* "options": AnalysisOptions
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisUpdateOptionsParams implements RequestParams {
AnalysisOptions _options;
/**
* The options that are to be used to control analysis.
*/
AnalysisOptions get options => _options;
/**
* The options that are to be used to control analysis.
*/
void set options(AnalysisOptions value) {
assert(value != null);
this._options = value;
}
AnalysisUpdateOptionsParams(AnalysisOptions options) {
this.options = options;
}
factory AnalysisUpdateOptionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
AnalysisOptions options;
if (json.containsKey("options")) {
options = new AnalysisOptions.fromJson(
jsonDecoder, jsonPath + ".options", json["options"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "options");
}
return new AnalysisUpdateOptionsParams(options);
} else {
throw jsonDecoder.mismatch(
jsonPath, "analysis.updateOptions params", json);
}
}
factory AnalysisUpdateOptionsParams.fromRequest(Request request) {
return new AnalysisUpdateOptionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["options"] = options.toJson();
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analysis.updateOptions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisUpdateOptionsParams) {
return options == other.options;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, options.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analysis.updateOptions result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisUpdateOptionsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalysisUpdateOptionsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 179689467;
}
}
/**
* analytics.enable params
*
* {
* "value": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalyticsEnableParams implements RequestParams {
bool _value;
/**
* Enable or disable analytics.
*/
bool get value => _value;
/**
* Enable or disable analytics.
*/
void set value(bool value) {
assert(value != null);
this._value = value;
}
AnalyticsEnableParams(bool value) {
this.value = value;
}
factory AnalyticsEnableParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
bool value;
if (json.containsKey("value")) {
value = jsonDecoder.decodeBool(jsonPath + ".value", json["value"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "value");
}
return new AnalyticsEnableParams(value);
} else {
throw jsonDecoder.mismatch(jsonPath, "analytics.enable params", json);
}
}
factory AnalyticsEnableParams.fromRequest(Request request) {
return new AnalyticsEnableParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["value"] = value;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analytics.enable", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalyticsEnableParams) {
return value == other.value;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, value.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analytics.enable result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalyticsEnableResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalyticsEnableResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 237990792;
}
}
/**
* analytics.isEnabled params
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalyticsIsEnabledParams implements RequestParams {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Request toRequest(String id) {
return new Request(id, "analytics.isEnabled", null);
}
@override
bool operator ==(other) {
if (other is AnalyticsIsEnabledParams) {
return true;
}
return false;
}
@override
int get hashCode {
return 57215544;
}
}
/**
* analytics.isEnabled result
*
* {
* "enabled": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalyticsIsEnabledResult implements ResponseResult {
bool _enabled;
/**
* Whether sending analytics is enabled or not.
*/
bool get enabled => _enabled;
/**
* Whether sending analytics is enabled or not.
*/
void set enabled(bool value) {
assert(value != null);
this._enabled = value;
}
AnalyticsIsEnabledResult(bool enabled) {
this.enabled = enabled;
}
factory AnalyticsIsEnabledResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
bool enabled;
if (json.containsKey("enabled")) {
enabled =
jsonDecoder.decodeBool(jsonPath + ".enabled", json["enabled"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "enabled");
}
return new AnalyticsIsEnabledResult(enabled);
} else {
throw jsonDecoder.mismatch(jsonPath, "analytics.isEnabled result", json);
}
}
factory AnalyticsIsEnabledResult.fromResponse(Response response) {
return new AnalyticsIsEnabledResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["enabled"] = enabled;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalyticsIsEnabledResult) {
return enabled == other.enabled;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, enabled.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analytics.sendEvent params
*
* {
* "action": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalyticsSendEventParams implements RequestParams {
String _action;
/**
* The value used to indicate which action was performed.
*/
String get action => _action;
/**
* The value used to indicate which action was performed.
*/
void set action(String value) {
assert(value != null);
this._action = value;
}
AnalyticsSendEventParams(String action) {
this.action = action;
}
factory AnalyticsSendEventParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String action;
if (json.containsKey("action")) {
action = jsonDecoder.decodeString(jsonPath + ".action", json["action"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "action");
}
return new AnalyticsSendEventParams(action);
} else {
throw jsonDecoder.mismatch(jsonPath, "analytics.sendEvent params", json);
}
}
factory AnalyticsSendEventParams.fromRequest(Request request) {
return new AnalyticsSendEventParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["action"] = action;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analytics.sendEvent", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalyticsSendEventParams) {
return action == other.action;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, action.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analytics.sendEvent result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalyticsSendEventResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalyticsSendEventResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 227063188;
}
}
/**
* analytics.sendTiming params
*
* {
* "event": String
* "millis": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalyticsSendTimingParams implements RequestParams {
String _event;
int _millis;
/**
* The name of the event.
*/
String get event => _event;
/**
* The name of the event.
*/
void set event(String value) {
assert(value != null);
this._event = value;
}
/**
* The duration of the event in milliseconds.
*/
int get millis => _millis;
/**
* The duration of the event in milliseconds.
*/
void set millis(int value) {
assert(value != null);
this._millis = value;
}
AnalyticsSendTimingParams(String event, int millis) {
this.event = event;
this.millis = millis;
}
factory AnalyticsSendTimingParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String event;
if (json.containsKey("event")) {
event = jsonDecoder.decodeString(jsonPath + ".event", json["event"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "event");
}
int millis;
if (json.containsKey("millis")) {
millis = jsonDecoder.decodeInt(jsonPath + ".millis", json["millis"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "millis");
}
return new AnalyticsSendTimingParams(event, millis);
} else {
throw jsonDecoder.mismatch(jsonPath, "analytics.sendTiming params", json);
}
}
factory AnalyticsSendTimingParams.fromRequest(Request request) {
return new AnalyticsSendTimingParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["event"] = event;
result["millis"] = millis;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "analytics.sendTiming", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalyticsSendTimingParams) {
return event == other.event && millis == other.millis;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, event.hashCode);
hash = JenkinsSmiHash.combine(hash, millis.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* analytics.sendTiming result
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalyticsSendTimingResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is AnalyticsSendTimingResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 875010924;
}
}
/**
* AvailableSuggestion
*
* {
* "label": String
* "element": Element
* "defaultArgumentListString": optional String
* "defaultArgumentListTextRanges": optional List<int>
* "docComplete": optional String
* "docSummary": optional String
* "parameterNames": optional List<String>
* "parameterTypes": optional List<String>
* "relevanceTags": optional List<AvailableSuggestionRelevanceTag>
* "requiredParameterCount": optional int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AvailableSuggestion implements HasToJson {
String _label;
Element _element;
String _defaultArgumentListString;
List<int> _defaultArgumentListTextRanges;
String _docComplete;
String _docSummary;
List<String> _parameterNames;
List<String> _parameterTypes;
List<String> _relevanceTags;
int _requiredParameterCount;
/**
* The identifier to present to the user for code completion.
*/
String get label => _label;
/**
* The identifier to present to the user for code completion.
*/
void set label(String value) {
assert(value != null);
this._label = value;
}
/**
* Information about the element reference being suggested.
*/
Element get element => _element;
/**
* Information about the element reference being suggested.
*/
void set element(Element value) {
assert(value != null);
this._element = value;
}
/**
* A default String for use in generating argument list source contents on
* the client side.
*/
String get defaultArgumentListString => _defaultArgumentListString;
/**
* A default String for use in generating argument list source contents on
* the client side.
*/
void set defaultArgumentListString(String value) {
this._defaultArgumentListString = value;
}
/**
* Pairs of offsets and lengths describing 'defaultArgumentListString' text
* ranges suitable for use by clients to set up linked edits of default
* argument source contents. For example, given an argument list string 'x,
* y', the corresponding text range [0, 1, 3, 1], indicates two text ranges
* of length 1, starting at offsets 0 and 3. Clients can use these ranges to
* treat the 'x' and 'y' values specially for linked edits.
*/
List<int> get defaultArgumentListTextRanges => _defaultArgumentListTextRanges;
/**
* Pairs of offsets and lengths describing 'defaultArgumentListString' text
* ranges suitable for use by clients to set up linked edits of default
* argument source contents. For example, given an argument list string 'x,
* y', the corresponding text range [0, 1, 3, 1], indicates two text ranges
* of length 1, starting at offsets 0 and 3. Clients can use these ranges to
* treat the 'x' and 'y' values specially for linked edits.
*/
void set defaultArgumentListTextRanges(List<int> value) {
this._defaultArgumentListTextRanges = value;
}
/**
* The Dartdoc associated with the element being suggested. This field is
* omitted if there is no Dartdoc associated with the element.
*/
String get docComplete => _docComplete;
/**
* The Dartdoc associated with the element being suggested. This field is
* omitted if there is no Dartdoc associated with the element.
*/
void set docComplete(String value) {
this._docComplete = value;
}
/**
* An abbreviated version of the Dartdoc associated with the element being
* suggested. This field is omitted if there is no Dartdoc associated with
* the element.
*/
String get docSummary => _docSummary;
/**
* An abbreviated version of the Dartdoc associated with the element being
* suggested. This field is omitted if there is no Dartdoc associated with
* the element.
*/
void set docSummary(String value) {
this._docSummary = value;
}
/**
* If the element is an executable, the names of the formal parameters of all
* kinds - required, optional positional, and optional named. The names of
* positional parameters are empty strings. Omitted if the element is not an
* executable.
*/
List<String> get parameterNames => _parameterNames;
/**
* If the element is an executable, the names of the formal parameters of all
* kinds - required, optional positional, and optional named. The names of
* positional parameters are empty strings. Omitted if the element is not an
* executable.
*/
void set parameterNames(List<String> value) {
this._parameterNames = value;
}
/**
* If the element is an executable, the declared types of the formal
* parameters of all kinds - required, optional positional, and optional
* named. Omitted if the element is not an executable.
*/
List<String> get parameterTypes => _parameterTypes;
/**
* If the element is an executable, the declared types of the formal
* parameters of all kinds - required, optional positional, and optional
* named. Omitted if the element is not an executable.
*/
void set parameterTypes(List<String> value) {
this._parameterTypes = value;
}
/**
* This field is set if the relevance of this suggestion might be changed
* depending on where completion is requested.
*/
List<String> get relevanceTags => _relevanceTags;
/**
* This field is set if the relevance of this suggestion might be changed
* depending on where completion is requested.
*/
void set relevanceTags(List<String> value) {
this._relevanceTags = value;
}
int get requiredParameterCount => _requiredParameterCount;
void set requiredParameterCount(int value) {
this._requiredParameterCount = value;
}
AvailableSuggestion(String label, Element element,
{String defaultArgumentListString,
List<int> defaultArgumentListTextRanges,
String docComplete,
String docSummary,
List<String> parameterNames,
List<String> parameterTypes,
List<String> relevanceTags,
int requiredParameterCount}) {
this.label = label;
this.element = element;
this.defaultArgumentListString = defaultArgumentListString;
this.defaultArgumentListTextRanges = defaultArgumentListTextRanges;
this.docComplete = docComplete;
this.docSummary = docSummary;
this.parameterNames = parameterNames;
this.parameterTypes = parameterTypes;
this.relevanceTags = relevanceTags;
this.requiredParameterCount = requiredParameterCount;
}
factory AvailableSuggestion.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String label;
if (json.containsKey("label")) {
label = jsonDecoder.decodeString(jsonPath + ".label", json["label"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "label");
}
Element element;
if (json.containsKey("element")) {
element = new Element.fromJson(
jsonDecoder, jsonPath + ".element", json["element"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "element");
}
String defaultArgumentListString;
if (json.containsKey("defaultArgumentListString")) {
defaultArgumentListString = jsonDecoder.decodeString(
jsonPath + ".defaultArgumentListString",
json["defaultArgumentListString"]);
}
List<int> defaultArgumentListTextRanges;
if (json.containsKey("defaultArgumentListTextRanges")) {
defaultArgumentListTextRanges = jsonDecoder.decodeList(
jsonPath + ".defaultArgumentListTextRanges",
json["defaultArgumentListTextRanges"],
jsonDecoder.decodeInt);
}
String docComplete;
if (json.containsKey("docComplete")) {
docComplete = jsonDecoder.decodeString(
jsonPath + ".docComplete", json["docComplete"]);
}
String docSummary;
if (json.containsKey("docSummary")) {
docSummary = jsonDecoder.decodeString(
jsonPath + ".docSummary", json["docSummary"]);
}
List<String> parameterNames;
if (json.containsKey("parameterNames")) {
parameterNames = jsonDecoder.decodeList(jsonPath + ".parameterNames",
json["parameterNames"], jsonDecoder.decodeString);
}
List<String> parameterTypes;
if (json.containsKey("parameterTypes")) {
parameterTypes = jsonDecoder.decodeList(jsonPath + ".parameterTypes",
json["parameterTypes"], jsonDecoder.decodeString);
}
List<String> relevanceTags;
if (json.containsKey("relevanceTags")) {
relevanceTags = jsonDecoder.decodeList(jsonPath + ".relevanceTags",
json["relevanceTags"], jsonDecoder.decodeString);
}
int requiredParameterCount;
if (json.containsKey("requiredParameterCount")) {
requiredParameterCount = jsonDecoder.decodeInt(
jsonPath + ".requiredParameterCount",
json["requiredParameterCount"]);
}
return new AvailableSuggestion(label, element,
defaultArgumentListString: defaultArgumentListString,
defaultArgumentListTextRanges: defaultArgumentListTextRanges,
docComplete: docComplete,
docSummary: docSummary,
parameterNames: parameterNames,
parameterTypes: parameterTypes,
relevanceTags: relevanceTags,
requiredParameterCount: requiredParameterCount);
} else {
throw jsonDecoder.mismatch(jsonPath, "AvailableSuggestion", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["label"] = label;
result["element"] = element.toJson();
if (defaultArgumentListString != null) {
result["defaultArgumentListString"] = defaultArgumentListString;
}
if (defaultArgumentListTextRanges != null) {
result["defaultArgumentListTextRanges"] = defaultArgumentListTextRanges;
}
if (docComplete != null) {
result["docComplete"] = docComplete;
}
if (docSummary != null) {
result["docSummary"] = docSummary;
}
if (parameterNames != null) {
result["parameterNames"] = parameterNames;
}
if (parameterTypes != null) {
result["parameterTypes"] = parameterTypes;
}
if (relevanceTags != null) {
result["relevanceTags"] = relevanceTags;
}
if (requiredParameterCount != null) {
result["requiredParameterCount"] = requiredParameterCount;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AvailableSuggestion) {
return label == other.label &&
element == other.element &&
defaultArgumentListString == other.defaultArgumentListString &&
listEqual(defaultArgumentListTextRanges,
other.defaultArgumentListTextRanges, (int a, int b) => a == b) &&
docComplete == other.docComplete &&
docSummary == other.docSummary &&
listEqual(parameterNames, other.parameterNames,
(String a, String b) => a == b) &&
listEqual(parameterTypes, other.parameterTypes,
(String a, String b) => a == b) &&
listEqual(relevanceTags, other.relevanceTags,
(String a, String b) => a == b) &&
requiredParameterCount == other.requiredParameterCount;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, label.hashCode);
hash = JenkinsSmiHash.combine(hash, element.hashCode);
hash = JenkinsSmiHash.combine(hash, defaultArgumentListString.hashCode);
hash = JenkinsSmiHash.combine(hash, defaultArgumentListTextRanges.hashCode);
hash = JenkinsSmiHash.combine(hash, docComplete.hashCode);
hash = JenkinsSmiHash.combine(hash, docSummary.hashCode);
hash = JenkinsSmiHash.combine(hash, parameterNames.hashCode);
hash = JenkinsSmiHash.combine(hash, parameterTypes.hashCode);
hash = JenkinsSmiHash.combine(hash, relevanceTags.hashCode);
hash = JenkinsSmiHash.combine(hash, requiredParameterCount.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* AvailableSuggestionSet
*
* {
* "id": int
* "uri": String
* "items": List<AvailableSuggestion>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AvailableSuggestionSet implements HasToJson {
int _id;
String _uri;
List<AvailableSuggestion> _items;
/**
* The id associated with the library.
*/
int get id => _id;
/**
* The id associated with the library.
*/
void set id(int value) {
assert(value != null);
this._id = value;
}
/**
* The URI of the library.
*/
String get uri => _uri;
/**
* The URI of the library.
*/
void set uri(String value) {
assert(value != null);
this._uri = value;
}
List<AvailableSuggestion> get items => _items;
void set items(List<AvailableSuggestion> value) {
assert(value != null);
this._items = value;
}
AvailableSuggestionSet(int id, String uri, List<AvailableSuggestion> items) {
this.id = id;
this.uri = uri;
this.items = items;
}
factory AvailableSuggestionSet.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeInt(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
String uri;
if (json.containsKey("uri")) {
uri = jsonDecoder.decodeString(jsonPath + ".uri", json["uri"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "uri");
}
List<AvailableSuggestion> items;
if (json.containsKey("items")) {
items = jsonDecoder.decodeList(
jsonPath + ".items",
json["items"],
(String jsonPath, Object json) =>
new AvailableSuggestion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "items");
}
return new AvailableSuggestionSet(id, uri, items);
} else {
throw jsonDecoder.mismatch(jsonPath, "AvailableSuggestionSet", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
result["uri"] = uri;
result["items"] =
items.map((AvailableSuggestion value) => value.toJson()).toList();
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AvailableSuggestionSet) {
return id == other.id &&
uri == other.uri &&
listEqual(items, other.items,
(AvailableSuggestion a, AvailableSuggestion b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, uri.hashCode);
hash = JenkinsSmiHash.combine(hash, items.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ClosingLabel
*
* {
* "offset": int
* "length": int
* "label": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ClosingLabel implements HasToJson {
int _offset;
int _length;
String _label;
/**
* The offset of the construct being labelled.
*/
int get offset => _offset;
/**
* The offset of the construct being labelled.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the whole construct to be labelled.
*/
int get length => _length;
/**
* The length of the whole construct to be labelled.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The label associated with this range that should be displayed to the user.
*/
String get label => _label;
/**
* The label associated with this range that should be displayed to the user.
*/
void set label(String value) {
assert(value != null);
this._label = value;
}
ClosingLabel(int offset, int length, String label) {
this.offset = offset;
this.length = length;
this.label = label;
}
factory ClosingLabel.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
String label;
if (json.containsKey("label")) {
label = jsonDecoder.decodeString(jsonPath + ".label", json["label"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "label");
}
return new ClosingLabel(offset, length, label);
} else {
throw jsonDecoder.mismatch(jsonPath, "ClosingLabel", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
result["label"] = label;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ClosingLabel) {
return offset == other.offset &&
length == other.length &&
label == other.label;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, label.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.availableSuggestions params
*
* {
* "changedLibraries": optional List<AvailableSuggestionSet>
* "removedLibraries": optional List<int>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionAvailableSuggestionsParams implements HasToJson {
List<AvailableSuggestionSet> _changedLibraries;
List<int> _removedLibraries;
/**
* A list of pre-computed, potential completions coming from this set of
* completion suggestions.
*/
List<AvailableSuggestionSet> get changedLibraries => _changedLibraries;
/**
* A list of pre-computed, potential completions coming from this set of
* completion suggestions.
*/
void set changedLibraries(List<AvailableSuggestionSet> value) {
this._changedLibraries = value;
}
/**
* A list of library ids that no longer apply.
*/
List<int> get removedLibraries => _removedLibraries;
/**
* A list of library ids that no longer apply.
*/
void set removedLibraries(List<int> value) {
this._removedLibraries = value;
}
CompletionAvailableSuggestionsParams(
{List<AvailableSuggestionSet> changedLibraries,
List<int> removedLibraries}) {
this.changedLibraries = changedLibraries;
this.removedLibraries = removedLibraries;
}
factory CompletionAvailableSuggestionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<AvailableSuggestionSet> changedLibraries;
if (json.containsKey("changedLibraries")) {
changedLibraries = jsonDecoder.decodeList(
jsonPath + ".changedLibraries",
json["changedLibraries"],
(String jsonPath, Object json) =>
new AvailableSuggestionSet.fromJson(
jsonDecoder, jsonPath, json));
}
List<int> removedLibraries;
if (json.containsKey("removedLibraries")) {
removedLibraries = jsonDecoder.decodeList(
jsonPath + ".removedLibraries",
json["removedLibraries"],
jsonDecoder.decodeInt);
}
return new CompletionAvailableSuggestionsParams(
changedLibraries: changedLibraries,
removedLibraries: removedLibraries);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.availableSuggestions params", json);
}
}
factory CompletionAvailableSuggestionsParams.fromNotification(
Notification notification) {
return new CompletionAvailableSuggestionsParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (changedLibraries != null) {
result["changedLibraries"] = changedLibraries
.map((AvailableSuggestionSet value) => value.toJson())
.toList();
}
if (removedLibraries != null) {
result["removedLibraries"] = removedLibraries;
}
return result;
}
Notification toNotification() {
return new Notification("completion.availableSuggestions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionAvailableSuggestionsParams) {
return listEqual(changedLibraries, other.changedLibraries,
(AvailableSuggestionSet a, AvailableSuggestionSet b) => a == b) &&
listEqual(removedLibraries, other.removedLibraries,
(int a, int b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, changedLibraries.hashCode);
hash = JenkinsSmiHash.combine(hash, removedLibraries.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.existingImports params
*
* {
* "file": FilePath
* "imports": ExistingImports
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionExistingImportsParams implements HasToJson {
String _file;
ExistingImports _imports;
/**
* The defining file of the library.
*/
String get file => _file;
/**
* The defining file of the library.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The existing imports in the library.
*/
ExistingImports get imports => _imports;
/**
* The existing imports in the library.
*/
void set imports(ExistingImports value) {
assert(value != null);
this._imports = value;
}
CompletionExistingImportsParams(String file, ExistingImports imports) {
this.file = file;
this.imports = imports;
}
factory CompletionExistingImportsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
ExistingImports imports;
if (json.containsKey("imports")) {
imports = new ExistingImports.fromJson(
jsonDecoder, jsonPath + ".imports", json["imports"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "imports");
}
return new CompletionExistingImportsParams(file, imports);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.existingImports params", json);
}
}
factory CompletionExistingImportsParams.fromNotification(
Notification notification) {
return new CompletionExistingImportsParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["imports"] = imports.toJson();
return result;
}
Notification toNotification() {
return new Notification("completion.existingImports", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionExistingImportsParams) {
return file == other.file && imports == other.imports;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, imports.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.getSuggestionDetails params
*
* {
* "file": FilePath
* "id": int
* "label": String
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionGetSuggestionDetailsParams implements RequestParams {
String _file;
int _id;
String _label;
int _offset;
/**
* The path of the file into which this completion is being inserted.
*/
String get file => _file;
/**
* The path of the file into which this completion is being inserted.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The identifier of the AvailableSuggestionSet containing the selected
* label.
*/
int get id => _id;
/**
* The identifier of the AvailableSuggestionSet containing the selected
* label.
*/
void set id(int value) {
assert(value != null);
this._id = value;
}
/**
* The label from the AvailableSuggestionSet with the `id` for which
* insertion information is requested.
*/
String get label => _label;
/**
* The label from the AvailableSuggestionSet with the `id` for which
* insertion information is requested.
*/
void set label(String value) {
assert(value != null);
this._label = value;
}
/**
* The offset in the file where the completion will be inserted.
*/
int get offset => _offset;
/**
* The offset in the file where the completion will be inserted.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
CompletionGetSuggestionDetailsParams(
String file, int id, String label, int offset) {
this.file = file;
this.id = id;
this.label = label;
this.offset = offset;
}
factory CompletionGetSuggestionDetailsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeInt(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
String label;
if (json.containsKey("label")) {
label = jsonDecoder.decodeString(jsonPath + ".label", json["label"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "label");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new CompletionGetSuggestionDetailsParams(file, id, label, offset);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.getSuggestionDetails params", json);
}
}
factory CompletionGetSuggestionDetailsParams.fromRequest(Request request) {
return new CompletionGetSuggestionDetailsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["id"] = id;
result["label"] = label;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "completion.getSuggestionDetails", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionGetSuggestionDetailsParams) {
return file == other.file &&
id == other.id &&
label == other.label &&
offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, label.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.getSuggestionDetails result
*
* {
* "completion": String
* "change": optional SourceChange
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionGetSuggestionDetailsResult implements ResponseResult {
String _completion;
SourceChange _change;
/**
* The full text to insert, including any optional import prefix.
*/
String get completion => _completion;
/**
* The full text to insert, including any optional import prefix.
*/
void set completion(String value) {
assert(value != null);
this._completion = value;
}
/**
* A change for the client to apply in case the library containing the
* accepted completion suggestion needs to be imported. The field will be
* omitted if there are no additional changes that need to be made.
*/
SourceChange get change => _change;
/**
* A change for the client to apply in case the library containing the
* accepted completion suggestion needs to be imported. The field will be
* omitted if there are no additional changes that need to be made.
*/
void set change(SourceChange value) {
this._change = value;
}
CompletionGetSuggestionDetailsResult(String completion,
{SourceChange change}) {
this.completion = completion;
this.change = change;
}
factory CompletionGetSuggestionDetailsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String completion;
if (json.containsKey("completion")) {
completion = jsonDecoder.decodeString(
jsonPath + ".completion", json["completion"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "completion");
}
SourceChange change;
if (json.containsKey("change")) {
change = new SourceChange.fromJson(
jsonDecoder, jsonPath + ".change", json["change"]);
}
return new CompletionGetSuggestionDetailsResult(completion,
change: change);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.getSuggestionDetails result", json);
}
}
factory CompletionGetSuggestionDetailsResult.fromResponse(Response response) {
return new CompletionGetSuggestionDetailsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["completion"] = completion;
if (change != null) {
result["change"] = change.toJson();
}
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionGetSuggestionDetailsResult) {
return completion == other.completion && change == other.change;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, completion.hashCode);
hash = JenkinsSmiHash.combine(hash, change.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.getSuggestions params
*
* {
* "file": FilePath
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionGetSuggestionsParams implements RequestParams {
String _file;
int _offset;
/**
* The file containing the point at which suggestions are to be made.
*/
String get file => _file;
/**
* The file containing the point at which suggestions are to be made.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset within the file at which suggestions are to be made.
*/
int get offset => _offset;
/**
* The offset within the file at which suggestions are to be made.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
CompletionGetSuggestionsParams(String file, int offset) {
this.file = file;
this.offset = offset;
}
factory CompletionGetSuggestionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new CompletionGetSuggestionsParams(file, offset);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.getSuggestions params", json);
}
}
factory CompletionGetSuggestionsParams.fromRequest(Request request) {
return new CompletionGetSuggestionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "completion.getSuggestions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionGetSuggestionsParams) {
return file == other.file && offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.getSuggestions result
*
* {
* "id": CompletionId
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionGetSuggestionsResult implements ResponseResult {
String _id;
/**
* The identifier used to associate results with this completion request.
*/
String get id => _id;
/**
* The identifier used to associate results with this completion request.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
CompletionGetSuggestionsResult(String id) {
this.id = id;
}
factory CompletionGetSuggestionsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
return new CompletionGetSuggestionsResult(id);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.getSuggestions result", json);
}
}
factory CompletionGetSuggestionsResult.fromResponse(Response response) {
return new CompletionGetSuggestionsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionGetSuggestionsResult) {
return id == other.id;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.listTokenDetails params
*
* {
* "file": FilePath
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionListTokenDetailsParams implements RequestParams {
String _file;
/**
* The path to the file from which tokens should be returned.
*/
String get file => _file;
/**
* The path to the file from which tokens should be returned.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
CompletionListTokenDetailsParams(String file) {
this.file = file;
}
factory CompletionListTokenDetailsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
return new CompletionListTokenDetailsParams(file);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.listTokenDetails params", json);
}
}
factory CompletionListTokenDetailsParams.fromRequest(Request request) {
return new CompletionListTokenDetailsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "completion.listTokenDetails", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionListTokenDetailsParams) {
return file == other.file;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.listTokenDetails result
*
* {
* "tokens": List<TokenDetails>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionListTokenDetailsResult implements ResponseResult {
List<TokenDetails> _tokens;
/**
* A list of the file's scanned tokens including analysis information about
* them.
*/
List<TokenDetails> get tokens => _tokens;
/**
* A list of the file's scanned tokens including analysis information about
* them.
*/
void set tokens(List<TokenDetails> value) {
assert(value != null);
this._tokens = value;
}
CompletionListTokenDetailsResult(List<TokenDetails> tokens) {
this.tokens = tokens;
}
factory CompletionListTokenDetailsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<TokenDetails> tokens;
if (json.containsKey("tokens")) {
tokens = jsonDecoder.decodeList(
jsonPath + ".tokens",
json["tokens"],
(String jsonPath, Object json) =>
new TokenDetails.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "tokens");
}
return new CompletionListTokenDetailsResult(tokens);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.listTokenDetails result", json);
}
}
factory CompletionListTokenDetailsResult.fromResponse(Response response) {
return new CompletionListTokenDetailsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["tokens"] =
tokens.map((TokenDetails value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionListTokenDetailsResult) {
return listEqual(
tokens, other.tokens, (TokenDetails a, TokenDetails b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, tokens.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.registerLibraryPaths params
*
* {
* "paths": List<LibraryPathSet>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionRegisterLibraryPathsParams implements RequestParams {
List<LibraryPathSet> _paths;
/**
* A list of objects each containing a path and the additional libraries from
* which the client is interested in receiving completion suggestions. If one
* configured path is beneath another, the descendent will override the
* ancestors' configured libraries of interest.
*/
List<LibraryPathSet> get paths => _paths;
/**
* A list of objects each containing a path and the additional libraries from
* which the client is interested in receiving completion suggestions. If one
* configured path is beneath another, the descendent will override the
* ancestors' configured libraries of interest.
*/
void set paths(List<LibraryPathSet> value) {
assert(value != null);
this._paths = value;
}
CompletionRegisterLibraryPathsParams(List<LibraryPathSet> paths) {
this.paths = paths;
}
factory CompletionRegisterLibraryPathsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<LibraryPathSet> paths;
if (json.containsKey("paths")) {
paths = jsonDecoder.decodeList(
jsonPath + ".paths",
json["paths"],
(String jsonPath, Object json) =>
new LibraryPathSet.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "paths");
}
return new CompletionRegisterLibraryPathsParams(paths);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.registerLibraryPaths params", json);
}
}
factory CompletionRegisterLibraryPathsParams.fromRequest(Request request) {
return new CompletionRegisterLibraryPathsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["paths"] =
paths.map((LibraryPathSet value) => value.toJson()).toList();
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "completion.registerLibraryPaths", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionRegisterLibraryPathsParams) {
return listEqual(
paths, other.paths, (LibraryPathSet a, LibraryPathSet b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, paths.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.registerLibraryPaths result
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionRegisterLibraryPathsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is CompletionRegisterLibraryPathsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 104675661;
}
}
/**
* completion.results params
*
* {
* "id": CompletionId
* "replacementOffset": int
* "replacementLength": int
* "results": List<CompletionSuggestion>
* "isLast": bool
* "libraryFile": optional FilePath
* "includedSuggestionSets": optional List<IncludedSuggestionSet>
* "includedElementKinds": optional List<ElementKind>
* "includedSuggestionRelevanceTags": optional List<IncludedSuggestionRelevanceTag>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionResultsParams implements HasToJson {
String _id;
int _replacementOffset;
int _replacementLength;
List<CompletionSuggestion> _results;
bool _isLast;
String _libraryFile;
List<IncludedSuggestionSet> _includedSuggestionSets;
List<ElementKind> _includedElementKinds;
List<IncludedSuggestionRelevanceTag> _includedSuggestionRelevanceTags;
/**
* The id associated with the completion.
*/
String get id => _id;
/**
* The id associated with the completion.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
/**
* The offset of the start of the text to be replaced. This will be different
* than the offset used to request the completion suggestions if there was a
* portion of an identifier before the original offset. In particular, the
* replacementOffset will be the offset of the beginning of said identifier.
*/
int get replacementOffset => _replacementOffset;
/**
* The offset of the start of the text to be replaced. This will be different
* than the offset used to request the completion suggestions if there was a
* portion of an identifier before the original offset. In particular, the
* replacementOffset will be the offset of the beginning of said identifier.
*/
void set replacementOffset(int value) {
assert(value != null);
this._replacementOffset = value;
}
/**
* The length of the text to be replaced if the remainder of the identifier
* containing the cursor is to be replaced when the suggestion is applied
* (that is, the number of characters in the existing identifier).
*/
int get replacementLength => _replacementLength;
/**
* The length of the text to be replaced if the remainder of the identifier
* containing the cursor is to be replaced when the suggestion is applied
* (that is, the number of characters in the existing identifier).
*/
void set replacementLength(int value) {
assert(value != null);
this._replacementLength = value;
}
/**
* The completion suggestions being reported. The notification contains all
* possible completions at the requested cursor position, even those that do
* not match the characters the user has already typed. This allows the
* client to respond to further keystrokes from the user without having to
* make additional requests.
*/
List<CompletionSuggestion> get results => _results;
/**
* The completion suggestions being reported. The notification contains all
* possible completions at the requested cursor position, even those that do
* not match the characters the user has already typed. This allows the
* client to respond to further keystrokes from the user without having to
* make additional requests.
*/
void set results(List<CompletionSuggestion> value) {
assert(value != null);
this._results = value;
}
/**
* True if this is that last set of results that will be returned for the
* indicated completion.
*/
bool get isLast => _isLast;
/**
* True if this is that last set of results that will be returned for the
* indicated completion.
*/
void set isLast(bool value) {
assert(value != null);
this._isLast = value;
}
/**
* The library file that contains the file where completion was requested.
* The client might use it for example together with the existingImports
* notification to filter out available suggestions. If there were changes to
* existing imports in the library, the corresponding existingImports
* notification will be sent before the completion notification.
*/
String get libraryFile => _libraryFile;
/**
* The library file that contains the file where completion was requested.
* The client might use it for example together with the existingImports
* notification to filter out available suggestions. If there were changes to
* existing imports in the library, the corresponding existingImports
* notification will be sent before the completion notification.
*/
void set libraryFile(String value) {
this._libraryFile = value;
}
/**
* References to AvailableSuggestionSet objects previously sent to the
* client. The client can include applicable names from the referenced
* library in code completion suggestions.
*/
List<IncludedSuggestionSet> get includedSuggestionSets =>
_includedSuggestionSets;
/**
* References to AvailableSuggestionSet objects previously sent to the
* client. The client can include applicable names from the referenced
* library in code completion suggestions.
*/
void set includedSuggestionSets(List<IncludedSuggestionSet> value) {
this._includedSuggestionSets = value;
}
/**
* The client is expected to check this list against the ElementKind sent in
* IncludedSuggestionSet to decide whether or not these symbols should should
* be presented to the user.
*/
List<ElementKind> get includedElementKinds => _includedElementKinds;
/**
* The client is expected to check this list against the ElementKind sent in
* IncludedSuggestionSet to decide whether or not these symbols should should
* be presented to the user.
*/
void set includedElementKinds(List<ElementKind> value) {
this._includedElementKinds = value;
}
/**
* The client is expected to check this list against the values of the field
* relevanceTags of AvailableSuggestion to decide if the suggestion should be
* given a different relevance than the IncludedSuggestionSet that contains
* it. This might be used for example to give higher relevance to suggestions
* of matching types.
*
* If an AvailableSuggestion has relevance tags that match more than one
* IncludedSuggestionRelevanceTag, the maximum relevance boost is used.
*/
List<IncludedSuggestionRelevanceTag> get includedSuggestionRelevanceTags =>
_includedSuggestionRelevanceTags;
/**
* The client is expected to check this list against the values of the field
* relevanceTags of AvailableSuggestion to decide if the suggestion should be
* given a different relevance than the IncludedSuggestionSet that contains
* it. This might be used for example to give higher relevance to suggestions
* of matching types.
*
* If an AvailableSuggestion has relevance tags that match more than one
* IncludedSuggestionRelevanceTag, the maximum relevance boost is used.
*/
void set includedSuggestionRelevanceTags(
List<IncludedSuggestionRelevanceTag> value) {
this._includedSuggestionRelevanceTags = value;
}
CompletionResultsParams(String id, int replacementOffset,
int replacementLength, List<CompletionSuggestion> results, bool isLast,
{String libraryFile,
List<IncludedSuggestionSet> includedSuggestionSets,
List<ElementKind> includedElementKinds,
List<IncludedSuggestionRelevanceTag> includedSuggestionRelevanceTags}) {
this.id = id;
this.replacementOffset = replacementOffset;
this.replacementLength = replacementLength;
this.results = results;
this.isLast = isLast;
this.libraryFile = libraryFile;
this.includedSuggestionSets = includedSuggestionSets;
this.includedElementKinds = includedElementKinds;
this.includedSuggestionRelevanceTags = includedSuggestionRelevanceTags;
}
factory CompletionResultsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
int replacementOffset;
if (json.containsKey("replacementOffset")) {
replacementOffset = jsonDecoder.decodeInt(
jsonPath + ".replacementOffset", json["replacementOffset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "replacementOffset");
}
int replacementLength;
if (json.containsKey("replacementLength")) {
replacementLength = jsonDecoder.decodeInt(
jsonPath + ".replacementLength", json["replacementLength"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "replacementLength");
}
List<CompletionSuggestion> results;
if (json.containsKey("results")) {
results = jsonDecoder.decodeList(
jsonPath + ".results",
json["results"],
(String jsonPath, Object json) =>
new CompletionSuggestion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "results");
}
bool isLast;
if (json.containsKey("isLast")) {
isLast = jsonDecoder.decodeBool(jsonPath + ".isLast", json["isLast"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isLast");
}
String libraryFile;
if (json.containsKey("libraryFile")) {
libraryFile = jsonDecoder.decodeString(
jsonPath + ".libraryFile", json["libraryFile"]);
}
List<IncludedSuggestionSet> includedSuggestionSets;
if (json.containsKey("includedSuggestionSets")) {
includedSuggestionSets = jsonDecoder.decodeList(
jsonPath + ".includedSuggestionSets",
json["includedSuggestionSets"],
(String jsonPath, Object json) =>
new IncludedSuggestionSet.fromJson(
jsonDecoder, jsonPath, json));
}
List<ElementKind> includedElementKinds;
if (json.containsKey("includedElementKinds")) {
includedElementKinds = jsonDecoder.decodeList(
jsonPath + ".includedElementKinds",
json["includedElementKinds"],
(String jsonPath, Object json) =>
new ElementKind.fromJson(jsonDecoder, jsonPath, json));
}
List<IncludedSuggestionRelevanceTag> includedSuggestionRelevanceTags;
if (json.containsKey("includedSuggestionRelevanceTags")) {
includedSuggestionRelevanceTags = jsonDecoder.decodeList(
jsonPath + ".includedSuggestionRelevanceTags",
json["includedSuggestionRelevanceTags"],
(String jsonPath, Object json) =>
new IncludedSuggestionRelevanceTag.fromJson(
jsonDecoder, jsonPath, json));
}
return new CompletionResultsParams(
id, replacementOffset, replacementLength, results, isLast,
libraryFile: libraryFile,
includedSuggestionSets: includedSuggestionSets,
includedElementKinds: includedElementKinds,
includedSuggestionRelevanceTags: includedSuggestionRelevanceTags);
} else {
throw jsonDecoder.mismatch(jsonPath, "completion.results params", json);
}
}
factory CompletionResultsParams.fromNotification(Notification notification) {
return new CompletionResultsParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
result["replacementOffset"] = replacementOffset;
result["replacementLength"] = replacementLength;
result["results"] =
results.map((CompletionSuggestion value) => value.toJson()).toList();
result["isLast"] = isLast;
if (libraryFile != null) {
result["libraryFile"] = libraryFile;
}
if (includedSuggestionSets != null) {
result["includedSuggestionSets"] = includedSuggestionSets
.map((IncludedSuggestionSet value) => value.toJson())
.toList();
}
if (includedElementKinds != null) {
result["includedElementKinds"] = includedElementKinds
.map((ElementKind value) => value.toJson())
.toList();
}
if (includedSuggestionRelevanceTags != null) {
result["includedSuggestionRelevanceTags"] =
includedSuggestionRelevanceTags
.map((IncludedSuggestionRelevanceTag value) => value.toJson())
.toList();
}
return result;
}
Notification toNotification() {
return new Notification("completion.results", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionResultsParams) {
return id == other.id &&
replacementOffset == other.replacementOffset &&
replacementLength == other.replacementLength &&
listEqual(results, other.results,
(CompletionSuggestion a, CompletionSuggestion b) => a == b) &&
isLast == other.isLast &&
libraryFile == other.libraryFile &&
listEqual(includedSuggestionSets, other.includedSuggestionSets,
(IncludedSuggestionSet a, IncludedSuggestionSet b) => a == b) &&
listEqual(includedElementKinds, other.includedElementKinds,
(ElementKind a, ElementKind b) => a == b) &&
listEqual(
includedSuggestionRelevanceTags,
other.includedSuggestionRelevanceTags,
(IncludedSuggestionRelevanceTag a,
IncludedSuggestionRelevanceTag b) =>
a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, replacementOffset.hashCode);
hash = JenkinsSmiHash.combine(hash, replacementLength.hashCode);
hash = JenkinsSmiHash.combine(hash, results.hashCode);
hash = JenkinsSmiHash.combine(hash, isLast.hashCode);
hash = JenkinsSmiHash.combine(hash, libraryFile.hashCode);
hash = JenkinsSmiHash.combine(hash, includedSuggestionSets.hashCode);
hash = JenkinsSmiHash.combine(hash, includedElementKinds.hashCode);
hash =
JenkinsSmiHash.combine(hash, includedSuggestionRelevanceTags.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* CompletionService
*
* enum {
* AVAILABLE_SUGGESTION_SETS
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionService implements Enum {
/**
* The client will receive notifications once subscribed with completion
* suggestion sets from the libraries of interest. The client should keep an
* up-to-date record of these in memory so that it will be able to union
* these candidates with other completion suggestions when applicable at
* completion time.
*/
static const CompletionService AVAILABLE_SUGGESTION_SETS =
const CompletionService._("AVAILABLE_SUGGESTION_SETS");
/**
* A list containing all of the enum values that are defined.
*/
static const List<CompletionService> VALUES = const <CompletionService>[
AVAILABLE_SUGGESTION_SETS
];
@override
final String name;
const CompletionService._(this.name);
factory CompletionService(String name) {
switch (name) {
case "AVAILABLE_SUGGESTION_SETS":
return AVAILABLE_SUGGESTION_SETS;
}
throw new Exception('Illegal enum value: $name');
}
factory CompletionService.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new CompletionService(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "CompletionService", json);
}
@override
String toString() => "CompletionService.$name";
String toJson() => name;
}
/**
* completion.setSubscriptions params
*
* {
* "subscriptions": List<CompletionService>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionSetSubscriptionsParams implements RequestParams {
List<CompletionService> _subscriptions;
/**
* A list of the services being subscribed to.
*/
List<CompletionService> get subscriptions => _subscriptions;
/**
* A list of the services being subscribed to.
*/
void set subscriptions(List<CompletionService> value) {
assert(value != null);
this._subscriptions = value;
}
CompletionSetSubscriptionsParams(List<CompletionService> subscriptions) {
this.subscriptions = subscriptions;
}
factory CompletionSetSubscriptionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<CompletionService> subscriptions;
if (json.containsKey("subscriptions")) {
subscriptions = jsonDecoder.decodeList(
jsonPath + ".subscriptions",
json["subscriptions"],
(String jsonPath, Object json) =>
new CompletionService.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "subscriptions");
}
return new CompletionSetSubscriptionsParams(subscriptions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "completion.setSubscriptions params", json);
}
}
factory CompletionSetSubscriptionsParams.fromRequest(Request request) {
return new CompletionSetSubscriptionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["subscriptions"] =
subscriptions.map((CompletionService value) => value.toJson()).toList();
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "completion.setSubscriptions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionSetSubscriptionsParams) {
return listEqual(subscriptions, other.subscriptions,
(CompletionService a, CompletionService b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, subscriptions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* completion.setSubscriptions result
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionSetSubscriptionsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is CompletionSetSubscriptionsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 2482770;
}
}
/**
* ContextData
*
* {
* "name": String
* "explicitFileCount": int
* "implicitFileCount": int
* "workItemQueueLength": int
* "cacheEntryExceptions": List<String>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ContextData implements HasToJson {
String _name;
int _explicitFileCount;
int _implicitFileCount;
int _workItemQueueLength;
List<String> _cacheEntryExceptions;
/**
* The name of the context.
*/
String get name => _name;
/**
* The name of the context.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* Explicitly analyzed files.
*/
int get explicitFileCount => _explicitFileCount;
/**
* Explicitly analyzed files.
*/
void set explicitFileCount(int value) {
assert(value != null);
this._explicitFileCount = value;
}
/**
* Implicitly analyzed files.
*/
int get implicitFileCount => _implicitFileCount;
/**
* Implicitly analyzed files.
*/
void set implicitFileCount(int value) {
assert(value != null);
this._implicitFileCount = value;
}
/**
* The number of work items in the queue.
*/
int get workItemQueueLength => _workItemQueueLength;
/**
* The number of work items in the queue.
*/
void set workItemQueueLength(int value) {
assert(value != null);
this._workItemQueueLength = value;
}
/**
* Exceptions associated with cache entries.
*/
List<String> get cacheEntryExceptions => _cacheEntryExceptions;
/**
* Exceptions associated with cache entries.
*/
void set cacheEntryExceptions(List<String> value) {
assert(value != null);
this._cacheEntryExceptions = value;
}
ContextData(String name, int explicitFileCount, int implicitFileCount,
int workItemQueueLength, List<String> cacheEntryExceptions) {
this.name = name;
this.explicitFileCount = explicitFileCount;
this.implicitFileCount = implicitFileCount;
this.workItemQueueLength = workItemQueueLength;
this.cacheEntryExceptions = cacheEntryExceptions;
}
factory ContextData.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
int explicitFileCount;
if (json.containsKey("explicitFileCount")) {
explicitFileCount = jsonDecoder.decodeInt(
jsonPath + ".explicitFileCount", json["explicitFileCount"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "explicitFileCount");
}
int implicitFileCount;
if (json.containsKey("implicitFileCount")) {
implicitFileCount = jsonDecoder.decodeInt(
jsonPath + ".implicitFileCount", json["implicitFileCount"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "implicitFileCount");
}
int workItemQueueLength;
if (json.containsKey("workItemQueueLength")) {
workItemQueueLength = jsonDecoder.decodeInt(
jsonPath + ".workItemQueueLength", json["workItemQueueLength"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "workItemQueueLength");
}
List<String> cacheEntryExceptions;
if (json.containsKey("cacheEntryExceptions")) {
cacheEntryExceptions = jsonDecoder.decodeList(
jsonPath + ".cacheEntryExceptions",
json["cacheEntryExceptions"],
jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "cacheEntryExceptions");
}
return new ContextData(name, explicitFileCount, implicitFileCount,
workItemQueueLength, cacheEntryExceptions);
} else {
throw jsonDecoder.mismatch(jsonPath, "ContextData", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
result["explicitFileCount"] = explicitFileCount;
result["implicitFileCount"] = implicitFileCount;
result["workItemQueueLength"] = workItemQueueLength;
result["cacheEntryExceptions"] = cacheEntryExceptions;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ContextData) {
return name == other.name &&
explicitFileCount == other.explicitFileCount &&
implicitFileCount == other.implicitFileCount &&
workItemQueueLength == other.workItemQueueLength &&
listEqual(cacheEntryExceptions, other.cacheEntryExceptions,
(String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, explicitFileCount.hashCode);
hash = JenkinsSmiHash.combine(hash, implicitFileCount.hashCode);
hash = JenkinsSmiHash.combine(hash, workItemQueueLength.hashCode);
hash = JenkinsSmiHash.combine(hash, cacheEntryExceptions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* convertGetterToMethod feedback
*
* Clients may not extend, implement or mix-in this class.
*/
class ConvertGetterToMethodFeedback extends RefactoringFeedback
implements HasToJson {
@override
bool operator ==(other) {
if (other is ConvertGetterToMethodFeedback) {
return true;
}
return false;
}
@override
int get hashCode {
return 616032599;
}
}
/**
* convertGetterToMethod options
*
* Clients may not extend, implement or mix-in this class.
*/
class ConvertGetterToMethodOptions extends RefactoringOptions
implements HasToJson {
@override
bool operator ==(other) {
if (other is ConvertGetterToMethodOptions) {
return true;
}
return false;
}
@override
int get hashCode {
return 488848400;
}
}
/**
* convertMethodToGetter feedback
*
* Clients may not extend, implement or mix-in this class.
*/
class ConvertMethodToGetterFeedback extends RefactoringFeedback
implements HasToJson {
@override
bool operator ==(other) {
if (other is ConvertMethodToGetterFeedback) {
return true;
}
return false;
}
@override
int get hashCode {
return 165291526;
}
}
/**
* convertMethodToGetter options
*
* Clients may not extend, implement or mix-in this class.
*/
class ConvertMethodToGetterOptions extends RefactoringOptions
implements HasToJson {
@override
bool operator ==(other) {
if (other is ConvertMethodToGetterOptions) {
return true;
}
return false;
}
@override
int get hashCode {
return 27952290;
}
}
/**
* DartFix
*
* {
* "name": String
* "description": optional String
* "isRequired": optional bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class DartFix implements HasToJson {
String _name;
String _description;
bool _isRequired;
/**
* The name of the fix.
*/
String get name => _name;
/**
* The name of the fix.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* A human readable description of the fix.
*/
String get description => _description;
/**
* A human readable description of the fix.
*/
void set description(String value) {
this._description = value;
}
/**
* `true` if the fix is in the "required" fixes group.
*/
bool get isRequired => _isRequired;
/**
* `true` if the fix is in the "required" fixes group.
*/
void set isRequired(bool value) {
this._isRequired = value;
}
DartFix(String name, {String description, bool isRequired}) {
this.name = name;
this.description = description;
this.isRequired = isRequired;
}
factory DartFix.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
String description;
if (json.containsKey("description")) {
description = jsonDecoder.decodeString(
jsonPath + ".description", json["description"]);
}
bool isRequired;
if (json.containsKey("isRequired")) {
isRequired = jsonDecoder.decodeBool(
jsonPath + ".isRequired", json["isRequired"]);
}
return new DartFix(name,
description: description, isRequired: isRequired);
} else {
throw jsonDecoder.mismatch(jsonPath, "DartFix", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
if (description != null) {
result["description"] = description;
}
if (isRequired != null) {
result["isRequired"] = isRequired;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is DartFix) {
return name == other.name &&
description == other.description &&
isRequired == other.isRequired;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, description.hashCode);
hash = JenkinsSmiHash.combine(hash, isRequired.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* DartFixSuggestion
*
* {
* "description": String
* "location": optional Location
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class DartFixSuggestion implements HasToJson {
String _description;
Location _location;
/**
* A human readable description of the suggested change.
*/
String get description => _description;
/**
* A human readable description of the suggested change.
*/
void set description(String value) {
assert(value != null);
this._description = value;
}
/**
* The location of the suggested change.
*/
Location get location => _location;
/**
* The location of the suggested change.
*/
void set location(Location value) {
this._location = value;
}
DartFixSuggestion(String description, {Location location}) {
this.description = description;
this.location = location;
}
factory DartFixSuggestion.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String description;
if (json.containsKey("description")) {
description = jsonDecoder.decodeString(
jsonPath + ".description", json["description"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "description");
}
Location location;
if (json.containsKey("location")) {
location = new Location.fromJson(
jsonDecoder, jsonPath + ".location", json["location"]);
}
return new DartFixSuggestion(description, location: location);
} else {
throw jsonDecoder.mismatch(jsonPath, "DartFixSuggestion", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["description"] = description;
if (location != null) {
result["location"] = location.toJson();
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is DartFixSuggestion) {
return description == other.description && location == other.location;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, description.hashCode);
hash = JenkinsSmiHash.combine(hash, location.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* diagnostic.getDiagnostics params
*
* Clients may not extend, implement or mix-in this class.
*/
class DiagnosticGetDiagnosticsParams implements RequestParams {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Request toRequest(String id) {
return new Request(id, "diagnostic.getDiagnostics", null);
}
@override
bool operator ==(other) {
if (other is DiagnosticGetDiagnosticsParams) {
return true;
}
return false;
}
@override
int get hashCode {
return 587526202;
}
}
/**
* diagnostic.getDiagnostics result
*
* {
* "contexts": List<ContextData>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class DiagnosticGetDiagnosticsResult implements ResponseResult {
List<ContextData> _contexts;
/**
* The list of analysis contexts.
*/
List<ContextData> get contexts => _contexts;
/**
* The list of analysis contexts.
*/
void set contexts(List<ContextData> value) {
assert(value != null);
this._contexts = value;
}
DiagnosticGetDiagnosticsResult(List<ContextData> contexts) {
this.contexts = contexts;
}
factory DiagnosticGetDiagnosticsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<ContextData> contexts;
if (json.containsKey("contexts")) {
contexts = jsonDecoder.decodeList(
jsonPath + ".contexts",
json["contexts"],
(String jsonPath, Object json) =>
new ContextData.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "contexts");
}
return new DiagnosticGetDiagnosticsResult(contexts);
} else {
throw jsonDecoder.mismatch(
jsonPath, "diagnostic.getDiagnostics result", json);
}
}
factory DiagnosticGetDiagnosticsResult.fromResponse(Response response) {
return new DiagnosticGetDiagnosticsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["contexts"] =
contexts.map((ContextData value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is DiagnosticGetDiagnosticsResult) {
return listEqual(
contexts, other.contexts, (ContextData a, ContextData b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, contexts.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* diagnostic.getServerPort params
*
* Clients may not extend, implement or mix-in this class.
*/
class DiagnosticGetServerPortParams implements RequestParams {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Request toRequest(String id) {
return new Request(id, "diagnostic.getServerPort", null);
}
@override
bool operator ==(other) {
if (other is DiagnosticGetServerPortParams) {
return true;
}
return false;
}
@override
int get hashCode {
return 367508704;
}
}
/**
* diagnostic.getServerPort result
*
* {
* "port": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class DiagnosticGetServerPortResult implements ResponseResult {
int _port;
/**
* The diagnostic server port.
*/
int get port => _port;
/**
* The diagnostic server port.
*/
void set port(int value) {
assert(value != null);
this._port = value;
}
DiagnosticGetServerPortResult(int port) {
this.port = port;
}
factory DiagnosticGetServerPortResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int port;
if (json.containsKey("port")) {
port = jsonDecoder.decodeInt(jsonPath + ".port", json["port"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "port");
}
return new DiagnosticGetServerPortResult(port);
} else {
throw jsonDecoder.mismatch(
jsonPath, "diagnostic.getServerPort result", json);
}
}
factory DiagnosticGetServerPortResult.fromResponse(Response response) {
return new DiagnosticGetServerPortResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["port"] = port;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is DiagnosticGetServerPortResult) {
return port == other.port;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, port.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.dartfix params
*
* {
* "included": List<FilePath>
* "includedFixes": optional List<String>
* "includeRequiredFixes": optional bool
* "excludedFixes": optional List<String>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditDartfixParams implements RequestParams {
List<String> _included;
List<String> _includedFixes;
bool _includeRequiredFixes;
List<String> _excludedFixes;
/**
* A list of the files and directories for which edits should be suggested.
*
* If a request is made with a path that is invalid, e.g. is not absolute and
* normalized, an error of type INVALID_FILE_PATH_FORMAT will be generated.
* If a request is made for a file which does not exist, or which is not
* currently subject to analysis (e.g. because it is not associated with any
* analysis root specified to analysis.setAnalysisRoots), an error of type
* FILE_NOT_ANALYZED will be generated.
*/
List<String> get included => _included;
/**
* A list of the files and directories for which edits should be suggested.
*
* If a request is made with a path that is invalid, e.g. is not absolute and
* normalized, an error of type INVALID_FILE_PATH_FORMAT will be generated.
* If a request is made for a file which does not exist, or which is not
* currently subject to analysis (e.g. because it is not associated with any
* analysis root specified to analysis.setAnalysisRoots), an error of type
* FILE_NOT_ANALYZED will be generated.
*/
void set included(List<String> value) {
assert(value != null);
this._included = value;
}
/**
* A list of names indicating which fixes should be applied.
*
* If a name is specified that does not match the name of a known fix, an
* error of type UNKNOWN_FIX will be generated.
*/
List<String> get includedFixes => _includedFixes;
/**
* A list of names indicating which fixes should be applied.
*
* If a name is specified that does not match the name of a known fix, an
* error of type UNKNOWN_FIX will be generated.
*/
void set includedFixes(List<String> value) {
this._includedFixes = value;
}
/**
* A flag indicating that "required" fixes should be applied.
*/
bool get includeRequiredFixes => _includeRequiredFixes;
/**
* A flag indicating that "required" fixes should be applied.
*/
void set includeRequiredFixes(bool value) {
this._includeRequiredFixes = value;
}
/**
* A list of names indicating which fixes should not be applied.
*
* If a name is specified that does not match the name of a known fix, an
* error of type UNKNOWN_FIX will be generated.
*/
List<String> get excludedFixes => _excludedFixes;
/**
* A list of names indicating which fixes should not be applied.
*
* If a name is specified that does not match the name of a known fix, an
* error of type UNKNOWN_FIX will be generated.
*/
void set excludedFixes(List<String> value) {
this._excludedFixes = value;
}
EditDartfixParams(List<String> included,
{List<String> includedFixes,
bool includeRequiredFixes,
List<String> excludedFixes}) {
this.included = included;
this.includedFixes = includedFixes;
this.includeRequiredFixes = includeRequiredFixes;
this.excludedFixes = excludedFixes;
}
factory EditDartfixParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<String> included;
if (json.containsKey("included")) {
included = jsonDecoder.decodeList(
jsonPath + ".included", json["included"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "included");
}
List<String> includedFixes;
if (json.containsKey("includedFixes")) {
includedFixes = jsonDecoder.decodeList(jsonPath + ".includedFixes",
json["includedFixes"], jsonDecoder.decodeString);
}
bool includeRequiredFixes;
if (json.containsKey("includeRequiredFixes")) {
includeRequiredFixes = jsonDecoder.decodeBool(
jsonPath + ".includeRequiredFixes", json["includeRequiredFixes"]);
}
List<String> excludedFixes;
if (json.containsKey("excludedFixes")) {
excludedFixes = jsonDecoder.decodeList(jsonPath + ".excludedFixes",
json["excludedFixes"], jsonDecoder.decodeString);
}
return new EditDartfixParams(included,
includedFixes: includedFixes,
includeRequiredFixes: includeRequiredFixes,
excludedFixes: excludedFixes);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.dartfix params", json);
}
}
factory EditDartfixParams.fromRequest(Request request) {
return new EditDartfixParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["included"] = included;
if (includedFixes != null) {
result["includedFixes"] = includedFixes;
}
if (includeRequiredFixes != null) {
result["includeRequiredFixes"] = includeRequiredFixes;
}
if (excludedFixes != null) {
result["excludedFixes"] = excludedFixes;
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.dartfix", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditDartfixParams) {
return listEqual(
included, other.included, (String a, String b) => a == b) &&
listEqual(includedFixes, other.includedFixes,
(String a, String b) => a == b) &&
includeRequiredFixes == other.includeRequiredFixes &&
listEqual(excludedFixes, other.excludedFixes,
(String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, included.hashCode);
hash = JenkinsSmiHash.combine(hash, includedFixes.hashCode);
hash = JenkinsSmiHash.combine(hash, includeRequiredFixes.hashCode);
hash = JenkinsSmiHash.combine(hash, excludedFixes.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.dartfix result
*
* {
* "suggestions": List<DartFixSuggestion>
* "otherSuggestions": List<DartFixSuggestion>
* "hasErrors": bool
* "edits": List<SourceFileEdit>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditDartfixResult implements ResponseResult {
List<DartFixSuggestion> _suggestions;
List<DartFixSuggestion> _otherSuggestions;
bool _hasErrors;
List<SourceFileEdit> _edits;
/**
* A list of recommended changes that can be automatically made by applying
* the 'edits' included in this response.
*/
List<DartFixSuggestion> get suggestions => _suggestions;
/**
* A list of recommended changes that can be automatically made by applying
* the 'edits' included in this response.
*/
void set suggestions(List<DartFixSuggestion> value) {
assert(value != null);
this._suggestions = value;
}
/**
* A list of recommended changes that could not be automatically made.
*/
List<DartFixSuggestion> get otherSuggestions => _otherSuggestions;
/**
* A list of recommended changes that could not be automatically made.
*/
void set otherSuggestions(List<DartFixSuggestion> value) {
assert(value != null);
this._otherSuggestions = value;
}
/**
* True if the analyzed source contains errors that might impact the
* correctness of the recommended changes that can be automatically applied.
*/
bool get hasErrors => _hasErrors;
/**
* True if the analyzed source contains errors that might impact the
* correctness of the recommended changes that can be automatically applied.
*/
void set hasErrors(bool value) {
assert(value != null);
this._hasErrors = value;
}
/**
* A list of source edits to apply the recommended changes.
*/
List<SourceFileEdit> get edits => _edits;
/**
* A list of source edits to apply the recommended changes.
*/
void set edits(List<SourceFileEdit> value) {
assert(value != null);
this._edits = value;
}
EditDartfixResult(
List<DartFixSuggestion> suggestions,
List<DartFixSuggestion> otherSuggestions,
bool hasErrors,
List<SourceFileEdit> edits) {
this.suggestions = suggestions;
this.otherSuggestions = otherSuggestions;
this.hasErrors = hasErrors;
this.edits = edits;
}
factory EditDartfixResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<DartFixSuggestion> suggestions;
if (json.containsKey("suggestions")) {
suggestions = jsonDecoder.decodeList(
jsonPath + ".suggestions",
json["suggestions"],
(String jsonPath, Object json) =>
new DartFixSuggestion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "suggestions");
}
List<DartFixSuggestion> otherSuggestions;
if (json.containsKey("otherSuggestions")) {
otherSuggestions = jsonDecoder.decodeList(
jsonPath + ".otherSuggestions",
json["otherSuggestions"],
(String jsonPath, Object json) =>
new DartFixSuggestion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "otherSuggestions");
}
bool hasErrors;
if (json.containsKey("hasErrors")) {
hasErrors =
jsonDecoder.decodeBool(jsonPath + ".hasErrors", json["hasErrors"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "hasErrors");
}
List<SourceFileEdit> edits;
if (json.containsKey("edits")) {
edits = jsonDecoder.decodeList(
jsonPath + ".edits",
json["edits"],
(String jsonPath, Object json) =>
new SourceFileEdit.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "edits");
}
return new EditDartfixResult(
suggestions, otherSuggestions, hasErrors, edits);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.dartfix result", json);
}
}
factory EditDartfixResult.fromResponse(Response response) {
return new EditDartfixResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["suggestions"] =
suggestions.map((DartFixSuggestion value) => value.toJson()).toList();
result["otherSuggestions"] = otherSuggestions
.map((DartFixSuggestion value) => value.toJson())
.toList();
result["hasErrors"] = hasErrors;
result["edits"] =
edits.map((SourceFileEdit value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditDartfixResult) {
return listEqual(suggestions, other.suggestions,
(DartFixSuggestion a, DartFixSuggestion b) => a == b) &&
listEqual(otherSuggestions, other.otherSuggestions,
(DartFixSuggestion a, DartFixSuggestion b) => a == b) &&
hasErrors == other.hasErrors &&
listEqual(edits, other.edits,
(SourceFileEdit a, SourceFileEdit b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, suggestions.hashCode);
hash = JenkinsSmiHash.combine(hash, otherSuggestions.hashCode);
hash = JenkinsSmiHash.combine(hash, hasErrors.hashCode);
hash = JenkinsSmiHash.combine(hash, edits.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.format params
*
* {
* "file": FilePath
* "selectionOffset": int
* "selectionLength": int
* "lineLength": optional int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditFormatParams implements RequestParams {
String _file;
int _selectionOffset;
int _selectionLength;
int _lineLength;
/**
* The file containing the code to be formatted.
*/
String get file => _file;
/**
* The file containing the code to be formatted.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the current selection in the file.
*/
int get selectionOffset => _selectionOffset;
/**
* The offset of the current selection in the file.
*/
void set selectionOffset(int value) {
assert(value != null);
this._selectionOffset = value;
}
/**
* The length of the current selection in the file.
*/
int get selectionLength => _selectionLength;
/**
* The length of the current selection in the file.
*/
void set selectionLength(int value) {
assert(value != null);
this._selectionLength = value;
}
/**
* The line length to be used by the formatter.
*/
int get lineLength => _lineLength;
/**
* The line length to be used by the formatter.
*/
void set lineLength(int value) {
this._lineLength = value;
}
EditFormatParams(String file, int selectionOffset, int selectionLength,
{int lineLength}) {
this.file = file;
this.selectionOffset = selectionOffset;
this.selectionLength = selectionLength;
this.lineLength = lineLength;
}
factory EditFormatParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int selectionOffset;
if (json.containsKey("selectionOffset")) {
selectionOffset = jsonDecoder.decodeInt(
jsonPath + ".selectionOffset", json["selectionOffset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "selectionOffset");
}
int selectionLength;
if (json.containsKey("selectionLength")) {
selectionLength = jsonDecoder.decodeInt(
jsonPath + ".selectionLength", json["selectionLength"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "selectionLength");
}
int lineLength;
if (json.containsKey("lineLength")) {
lineLength =
jsonDecoder.decodeInt(jsonPath + ".lineLength", json["lineLength"]);
}
return new EditFormatParams(file, selectionOffset, selectionLength,
lineLength: lineLength);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.format params", json);
}
}
factory EditFormatParams.fromRequest(Request request) {
return new EditFormatParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["selectionOffset"] = selectionOffset;
result["selectionLength"] = selectionLength;
if (lineLength != null) {
result["lineLength"] = lineLength;
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.format", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditFormatParams) {
return file == other.file &&
selectionOffset == other.selectionOffset &&
selectionLength == other.selectionLength &&
lineLength == other.lineLength;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, selectionOffset.hashCode);
hash = JenkinsSmiHash.combine(hash, selectionLength.hashCode);
hash = JenkinsSmiHash.combine(hash, lineLength.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.format result
*
* {
* "edits": List<SourceEdit>
* "selectionOffset": int
* "selectionLength": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditFormatResult implements ResponseResult {
List<SourceEdit> _edits;
int _selectionOffset;
int _selectionLength;
/**
* The edit(s) to be applied in order to format the code. The list will be
* empty if the code was already formatted (there are no changes).
*/
List<SourceEdit> get edits => _edits;
/**
* The edit(s) to be applied in order to format the code. The list will be
* empty if the code was already formatted (there are no changes).
*/
void set edits(List<SourceEdit> value) {
assert(value != null);
this._edits = value;
}
/**
* The offset of the selection after formatting the code.
*/
int get selectionOffset => _selectionOffset;
/**
* The offset of the selection after formatting the code.
*/
void set selectionOffset(int value) {
assert(value != null);
this._selectionOffset = value;
}
/**
* The length of the selection after formatting the code.
*/
int get selectionLength => _selectionLength;
/**
* The length of the selection after formatting the code.
*/
void set selectionLength(int value) {
assert(value != null);
this._selectionLength = value;
}
EditFormatResult(
List<SourceEdit> edits, int selectionOffset, int selectionLength) {
this.edits = edits;
this.selectionOffset = selectionOffset;
this.selectionLength = selectionLength;
}
factory EditFormatResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<SourceEdit> edits;
if (json.containsKey("edits")) {
edits = jsonDecoder.decodeList(
jsonPath + ".edits",
json["edits"],
(String jsonPath, Object json) =>
new SourceEdit.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "edits");
}
int selectionOffset;
if (json.containsKey("selectionOffset")) {
selectionOffset = jsonDecoder.decodeInt(
jsonPath + ".selectionOffset", json["selectionOffset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "selectionOffset");
}
int selectionLength;
if (json.containsKey("selectionLength")) {
selectionLength = jsonDecoder.decodeInt(
jsonPath + ".selectionLength", json["selectionLength"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "selectionLength");
}
return new EditFormatResult(edits, selectionOffset, selectionLength);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.format result", json);
}
}
factory EditFormatResult.fromResponse(Response response) {
return new EditFormatResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["edits"] = edits.map((SourceEdit value) => value.toJson()).toList();
result["selectionOffset"] = selectionOffset;
result["selectionLength"] = selectionLength;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditFormatResult) {
return listEqual(
edits, other.edits, (SourceEdit a, SourceEdit b) => a == b) &&
selectionOffset == other.selectionOffset &&
selectionLength == other.selectionLength;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, edits.hashCode);
hash = JenkinsSmiHash.combine(hash, selectionOffset.hashCode);
hash = JenkinsSmiHash.combine(hash, selectionLength.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getAssists params
*
* {
* "file": FilePath
* "offset": int
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetAssistsParams implements RequestParams {
String _file;
int _offset;
int _length;
/**
* The file containing the code for which assists are being requested.
*/
String get file => _file;
/**
* The file containing the code for which assists are being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the code for which assists are being requested.
*/
int get offset => _offset;
/**
* The offset of the code for which assists are being requested.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the code for which assists are being requested.
*/
int get length => _length;
/**
* The length of the code for which assists are being requested.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
EditGetAssistsParams(String file, int offset, int length) {
this.file = file;
this.offset = offset;
this.length = length;
}
factory EditGetAssistsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
return new EditGetAssistsParams(file, offset, length);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.getAssists params", json);
}
}
factory EditGetAssistsParams.fromRequest(Request request) {
return new EditGetAssistsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
result["length"] = length;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.getAssists", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetAssistsParams) {
return file == other.file &&
offset == other.offset &&
length == other.length;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getAssists result
*
* {
* "assists": List<SourceChange>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetAssistsResult implements ResponseResult {
List<SourceChange> _assists;
/**
* The assists that are available at the given location.
*/
List<SourceChange> get assists => _assists;
/**
* The assists that are available at the given location.
*/
void set assists(List<SourceChange> value) {
assert(value != null);
this._assists = value;
}
EditGetAssistsResult(List<SourceChange> assists) {
this.assists = assists;
}
factory EditGetAssistsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<SourceChange> assists;
if (json.containsKey("assists")) {
assists = jsonDecoder.decodeList(
jsonPath + ".assists",
json["assists"],
(String jsonPath, Object json) =>
new SourceChange.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "assists");
}
return new EditGetAssistsResult(assists);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.getAssists result", json);
}
}
factory EditGetAssistsResult.fromResponse(Response response) {
return new EditGetAssistsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["assists"] =
assists.map((SourceChange value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetAssistsResult) {
return listEqual(
assists, other.assists, (SourceChange a, SourceChange b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, assists.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getAvailableRefactorings params
*
* {
* "file": FilePath
* "offset": int
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetAvailableRefactoringsParams implements RequestParams {
String _file;
int _offset;
int _length;
/**
* The file containing the code on which the refactoring would be based.
*/
String get file => _file;
/**
* The file containing the code on which the refactoring would be based.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the code on which the refactoring would be based.
*/
int get offset => _offset;
/**
* The offset of the code on which the refactoring would be based.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the code on which the refactoring would be based.
*/
int get length => _length;
/**
* The length of the code on which the refactoring would be based.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
EditGetAvailableRefactoringsParams(String file, int offset, int length) {
this.file = file;
this.offset = offset;
this.length = length;
}
factory EditGetAvailableRefactoringsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
return new EditGetAvailableRefactoringsParams(file, offset, length);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.getAvailableRefactorings params", json);
}
}
factory EditGetAvailableRefactoringsParams.fromRequest(Request request) {
return new EditGetAvailableRefactoringsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
result["length"] = length;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.getAvailableRefactorings", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetAvailableRefactoringsParams) {
return file == other.file &&
offset == other.offset &&
length == other.length;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getAvailableRefactorings result
*
* {
* "kinds": List<RefactoringKind>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetAvailableRefactoringsResult implements ResponseResult {
List<RefactoringKind> _kinds;
/**
* The kinds of refactorings that are valid for the given selection.
*/
List<RefactoringKind> get kinds => _kinds;
/**
* The kinds of refactorings that are valid for the given selection.
*/
void set kinds(List<RefactoringKind> value) {
assert(value != null);
this._kinds = value;
}
EditGetAvailableRefactoringsResult(List<RefactoringKind> kinds) {
this.kinds = kinds;
}
factory EditGetAvailableRefactoringsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<RefactoringKind> kinds;
if (json.containsKey("kinds")) {
kinds = jsonDecoder.decodeList(
jsonPath + ".kinds",
json["kinds"],
(String jsonPath, Object json) =>
new RefactoringKind.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "kinds");
}
return new EditGetAvailableRefactoringsResult(kinds);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.getAvailableRefactorings result", json);
}
}
factory EditGetAvailableRefactoringsResult.fromResponse(Response response) {
return new EditGetAvailableRefactoringsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["kinds"] =
kinds.map((RefactoringKind value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetAvailableRefactoringsResult) {
return listEqual(
kinds, other.kinds, (RefactoringKind a, RefactoringKind b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, kinds.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getDartfixInfo params
*
* {
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetDartfixInfoParams implements RequestParams {
EditGetDartfixInfoParams();
factory EditGetDartfixInfoParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
return new EditGetDartfixInfoParams();
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.getDartfixInfo params", json);
}
}
factory EditGetDartfixInfoParams.fromRequest(Request request) {
return new EditGetDartfixInfoParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.getDartfixInfo", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetDartfixInfoParams) {
return true;
}
return false;
}
@override
int get hashCode {
int hash = 0;
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getDartfixInfo result
*
* {
* "fixes": List<DartFix>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetDartfixInfoResult implements ResponseResult {
List<DartFix> _fixes;
/**
* A list of fixes that can be specified in an edit.dartfix request.
*/
List<DartFix> get fixes => _fixes;
/**
* A list of fixes that can be specified in an edit.dartfix request.
*/
void set fixes(List<DartFix> value) {
assert(value != null);
this._fixes = value;
}
EditGetDartfixInfoResult(List<DartFix> fixes) {
this.fixes = fixes;
}
factory EditGetDartfixInfoResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<DartFix> fixes;
if (json.containsKey("fixes")) {
fixes = jsonDecoder.decodeList(
jsonPath + ".fixes",
json["fixes"],
(String jsonPath, Object json) =>
new DartFix.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "fixes");
}
return new EditGetDartfixInfoResult(fixes);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.getDartfixInfo result", json);
}
}
factory EditGetDartfixInfoResult.fromResponse(Response response) {
return new EditGetDartfixInfoResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["fixes"] = fixes.map((DartFix value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetDartfixInfoResult) {
return listEqual(fixes, other.fixes, (DartFix a, DartFix b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, fixes.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getFixes params
*
* {
* "file": FilePath
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetFixesParams implements RequestParams {
String _file;
int _offset;
/**
* The file containing the errors for which fixes are being requested.
*/
String get file => _file;
/**
* The file containing the errors for which fixes are being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset used to select the errors for which fixes will be returned.
*/
int get offset => _offset;
/**
* The offset used to select the errors for which fixes will be returned.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
EditGetFixesParams(String file, int offset) {
this.file = file;
this.offset = offset;
}
factory EditGetFixesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new EditGetFixesParams(file, offset);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.getFixes params", json);
}
}
factory EditGetFixesParams.fromRequest(Request request) {
return new EditGetFixesParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.getFixes", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetFixesParams) {
return file == other.file && offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getFixes result
*
* {
* "fixes": List<AnalysisErrorFixes>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetFixesResult implements ResponseResult {
List<AnalysisErrorFixes> _fixes;
/**
* The fixes that are available for the errors at the given offset.
*/
List<AnalysisErrorFixes> get fixes => _fixes;
/**
* The fixes that are available for the errors at the given offset.
*/
void set fixes(List<AnalysisErrorFixes> value) {
assert(value != null);
this._fixes = value;
}
EditGetFixesResult(List<AnalysisErrorFixes> fixes) {
this.fixes = fixes;
}
factory EditGetFixesResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<AnalysisErrorFixes> fixes;
if (json.containsKey("fixes")) {
fixes = jsonDecoder.decodeList(
jsonPath + ".fixes",
json["fixes"],
(String jsonPath, Object json) =>
new AnalysisErrorFixes.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "fixes");
}
return new EditGetFixesResult(fixes);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.getFixes result", json);
}
}
factory EditGetFixesResult.fromResponse(Response response) {
return new EditGetFixesResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["fixes"] =
fixes.map((AnalysisErrorFixes value) => value.toJson()).toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetFixesResult) {
return listEqual(fixes, other.fixes,
(AnalysisErrorFixes a, AnalysisErrorFixes b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, fixes.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getPostfixCompletion params
*
* {
* "file": FilePath
* "key": String
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetPostfixCompletionParams implements RequestParams {
String _file;
String _key;
int _offset;
/**
* The file containing the postfix template to be expanded.
*/
String get file => _file;
/**
* The file containing the postfix template to be expanded.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The unique name that identifies the template in use.
*/
String get key => _key;
/**
* The unique name that identifies the template in use.
*/
void set key(String value) {
assert(value != null);
this._key = value;
}
/**
* The offset used to identify the code to which the template will be
* applied.
*/
int get offset => _offset;
/**
* The offset used to identify the code to which the template will be
* applied.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
EditGetPostfixCompletionParams(String file, String key, int offset) {
this.file = file;
this.key = key;
this.offset = offset;
}
factory EditGetPostfixCompletionParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
String key;
if (json.containsKey("key")) {
key = jsonDecoder.decodeString(jsonPath + ".key", json["key"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "key");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new EditGetPostfixCompletionParams(file, key, offset);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.getPostfixCompletion params", json);
}
}
factory EditGetPostfixCompletionParams.fromRequest(Request request) {
return new EditGetPostfixCompletionParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["key"] = key;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.getPostfixCompletion", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetPostfixCompletionParams) {
return file == other.file && key == other.key && offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, key.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getPostfixCompletion result
*
* {
* "change": SourceChange
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetPostfixCompletionResult implements ResponseResult {
SourceChange _change;
/**
* The change to be applied in order to complete the statement.
*/
SourceChange get change => _change;
/**
* The change to be applied in order to complete the statement.
*/
void set change(SourceChange value) {
assert(value != null);
this._change = value;
}
EditGetPostfixCompletionResult(SourceChange change) {
this.change = change;
}
factory EditGetPostfixCompletionResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
SourceChange change;
if (json.containsKey("change")) {
change = new SourceChange.fromJson(
jsonDecoder, jsonPath + ".change", json["change"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "change");
}
return new EditGetPostfixCompletionResult(change);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.getPostfixCompletion result", json);
}
}
factory EditGetPostfixCompletionResult.fromResponse(Response response) {
return new EditGetPostfixCompletionResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["change"] = change.toJson();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetPostfixCompletionResult) {
return change == other.change;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, change.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getRefactoring params
*
* {
* "kind": RefactoringKind
* "file": FilePath
* "offset": int
* "length": int
* "validateOnly": bool
* "options": optional RefactoringOptions
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetRefactoringParams implements RequestParams {
RefactoringKind _kind;
String _file;
int _offset;
int _length;
bool _validateOnly;
RefactoringOptions _options;
/**
* The kind of refactoring to be performed.
*/
RefactoringKind get kind => _kind;
/**
* The kind of refactoring to be performed.
*/
void set kind(RefactoringKind value) {
assert(value != null);
this._kind = value;
}
/**
* The file containing the code involved in the refactoring.
*/
String get file => _file;
/**
* The file containing the code involved in the refactoring.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the region involved in the refactoring.
*/
int get offset => _offset;
/**
* The offset of the region involved in the refactoring.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the region involved in the refactoring.
*/
int get length => _length;
/**
* The length of the region involved in the refactoring.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* True if the client is only requesting that the values of the options be
* validated and no change be generated.
*/
bool get validateOnly => _validateOnly;
/**
* True if the client is only requesting that the values of the options be
* validated and no change be generated.
*/
void set validateOnly(bool value) {
assert(value != null);
this._validateOnly = value;
}
/**
* Data used to provide values provided by the user. The structure of the
* data is dependent on the kind of refactoring being performed. The data
* that is expected is documented in the section titled Refactorings, labeled
* as "Options". This field can be omitted if the refactoring does not
* require any options or if the values of those options are not known.
*/
RefactoringOptions get options => _options;
/**
* Data used to provide values provided by the user. The structure of the
* data is dependent on the kind of refactoring being performed. The data
* that is expected is documented in the section titled Refactorings, labeled
* as "Options". This field can be omitted if the refactoring does not
* require any options or if the values of those options are not known.
*/
void set options(RefactoringOptions value) {
this._options = value;
}
EditGetRefactoringParams(RefactoringKind kind, String file, int offset,
int length, bool validateOnly,
{RefactoringOptions options}) {
this.kind = kind;
this.file = file;
this.offset = offset;
this.length = length;
this.validateOnly = validateOnly;
this.options = options;
}
factory EditGetRefactoringParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
RefactoringKind kind;
if (json.containsKey("kind")) {
kind = new RefactoringKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
bool validateOnly;
if (json.containsKey("validateOnly")) {
validateOnly = jsonDecoder.decodeBool(
jsonPath + ".validateOnly", json["validateOnly"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "validateOnly");
}
RefactoringOptions options;
if (json.containsKey("options")) {
options = new RefactoringOptions.fromJson(
jsonDecoder, jsonPath + ".options", json["options"], kind);
}
return new EditGetRefactoringParams(
kind, file, offset, length, validateOnly,
options: options);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.getRefactoring params", json);
}
}
factory EditGetRefactoringParams.fromRequest(Request request) {
var params = new EditGetRefactoringParams.fromJson(
new RequestDecoder(request), "params", request.params);
REQUEST_ID_REFACTORING_KINDS[request.id] = params.kind;
return params;
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["kind"] = kind.toJson();
result["file"] = file;
result["offset"] = offset;
result["length"] = length;
result["validateOnly"] = validateOnly;
if (options != null) {
result["options"] = options.toJson();
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.getRefactoring", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetRefactoringParams) {
return kind == other.kind &&
file == other.file &&
offset == other.offset &&
length == other.length &&
validateOnly == other.validateOnly &&
options == other.options;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, validateOnly.hashCode);
hash = JenkinsSmiHash.combine(hash, options.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getRefactoring result
*
* {
* "initialProblems": List<RefactoringProblem>
* "optionsProblems": List<RefactoringProblem>
* "finalProblems": List<RefactoringProblem>
* "feedback": optional RefactoringFeedback
* "change": optional SourceChange
* "potentialEdits": optional List<String>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetRefactoringResult implements ResponseResult {
List<RefactoringProblem> _initialProblems;
List<RefactoringProblem> _optionsProblems;
List<RefactoringProblem> _finalProblems;
RefactoringFeedback _feedback;
SourceChange _change;
List<String> _potentialEdits;
/**
* The initial status of the refactoring, i.e. problems related to the
* context in which the refactoring is requested. The array will be empty if
* there are no known problems.
*/
List<RefactoringProblem> get initialProblems => _initialProblems;
/**
* The initial status of the refactoring, i.e. problems related to the
* context in which the refactoring is requested. The array will be empty if
* there are no known problems.
*/
void set initialProblems(List<RefactoringProblem> value) {
assert(value != null);
this._initialProblems = value;
}
/**
* The options validation status, i.e. problems in the given options, such as
* light-weight validation of a new name, flags compatibility, etc. The array
* will be empty if there are no known problems.
*/
List<RefactoringProblem> get optionsProblems => _optionsProblems;
/**
* The options validation status, i.e. problems in the given options, such as
* light-weight validation of a new name, flags compatibility, etc. The array
* will be empty if there are no known problems.
*/
void set optionsProblems(List<RefactoringProblem> value) {
assert(value != null);
this._optionsProblems = value;
}
/**
* The final status of the refactoring, i.e. problems identified in the
* result of a full, potentially expensive validation and / or change
* creation. The array will be empty if there are no known problems.
*/
List<RefactoringProblem> get finalProblems => _finalProblems;
/**
* The final status of the refactoring, i.e. problems identified in the
* result of a full, potentially expensive validation and / or change
* creation. The array will be empty if there are no known problems.
*/
void set finalProblems(List<RefactoringProblem> value) {
assert(value != null);
this._finalProblems = value;
}
/**
* Data used to provide feedback to the user. The structure of the data is
* dependent on the kind of refactoring being created. The data that is
* returned is documented in the section titled Refactorings, labeled as
* "Feedback".
*/
RefactoringFeedback get feedback => _feedback;
/**
* Data used to provide feedback to the user. The structure of the data is
* dependent on the kind of refactoring being created. The data that is
* returned is documented in the section titled Refactorings, labeled as
* "Feedback".
*/
void set feedback(RefactoringFeedback value) {
this._feedback = value;
}
/**
* The changes that are to be applied to affect the refactoring. This field
* will be omitted if there are problems that prevent a set of changes from
* being computed, such as having no options specified for a refactoring that
* requires them, or if only validation was requested.
*/
SourceChange get change => _change;
/**
* The changes that are to be applied to affect the refactoring. This field
* will be omitted if there are problems that prevent a set of changes from
* being computed, such as having no options specified for a refactoring that
* requires them, or if only validation was requested.
*/
void set change(SourceChange value) {
this._change = value;
}
/**
* The ids of source edits that are not known to be valid. An edit is not
* known to be valid if there was insufficient type information for the
* server to be able to determine whether or not the code needs to be
* modified, such as when a member is being renamed and there is a reference
* to a member from an unknown type. This field will be omitted if the change
* field is omitted or if there are no potential edits for the refactoring.
*/
List<String> get potentialEdits => _potentialEdits;
/**
* The ids of source edits that are not known to be valid. An edit is not
* known to be valid if there was insufficient type information for the
* server to be able to determine whether or not the code needs to be
* modified, such as when a member is being renamed and there is a reference
* to a member from an unknown type. This field will be omitted if the change
* field is omitted or if there are no potential edits for the refactoring.
*/
void set potentialEdits(List<String> value) {
this._potentialEdits = value;
}
EditGetRefactoringResult(
List<RefactoringProblem> initialProblems,
List<RefactoringProblem> optionsProblems,
List<RefactoringProblem> finalProblems,
{RefactoringFeedback feedback,
SourceChange change,
List<String> potentialEdits}) {
this.initialProblems = initialProblems;
this.optionsProblems = optionsProblems;
this.finalProblems = finalProblems;
this.feedback = feedback;
this.change = change;
this.potentialEdits = potentialEdits;
}
factory EditGetRefactoringResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<RefactoringProblem> initialProblems;
if (json.containsKey("initialProblems")) {
initialProblems = jsonDecoder.decodeList(
jsonPath + ".initialProblems",
json["initialProblems"],
(String jsonPath, Object json) =>
new RefactoringProblem.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "initialProblems");
}
List<RefactoringProblem> optionsProblems;
if (json.containsKey("optionsProblems")) {
optionsProblems = jsonDecoder.decodeList(
jsonPath + ".optionsProblems",
json["optionsProblems"],
(String jsonPath, Object json) =>
new RefactoringProblem.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "optionsProblems");
}
List<RefactoringProblem> finalProblems;
if (json.containsKey("finalProblems")) {
finalProblems = jsonDecoder.decodeList(
jsonPath + ".finalProblems",
json["finalProblems"],
(String jsonPath, Object json) =>
new RefactoringProblem.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "finalProblems");
}
RefactoringFeedback feedback;
if (json.containsKey("feedback")) {
feedback = new RefactoringFeedback.fromJson(
jsonDecoder, jsonPath + ".feedback", json["feedback"], json);
}
SourceChange change;
if (json.containsKey("change")) {
change = new SourceChange.fromJson(
jsonDecoder, jsonPath + ".change", json["change"]);
}
List<String> potentialEdits;
if (json.containsKey("potentialEdits")) {
potentialEdits = jsonDecoder.decodeList(jsonPath + ".potentialEdits",
json["potentialEdits"], jsonDecoder.decodeString);
}
return new EditGetRefactoringResult(
initialProblems, optionsProblems, finalProblems,
feedback: feedback, change: change, potentialEdits: potentialEdits);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.getRefactoring result", json);
}
}
factory EditGetRefactoringResult.fromResponse(Response response) {
return new EditGetRefactoringResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["initialProblems"] = initialProblems
.map((RefactoringProblem value) => value.toJson())
.toList();
result["optionsProblems"] = optionsProblems
.map((RefactoringProblem value) => value.toJson())
.toList();
result["finalProblems"] = finalProblems
.map((RefactoringProblem value) => value.toJson())
.toList();
if (feedback != null) {
result["feedback"] = feedback.toJson();
}
if (change != null) {
result["change"] = change.toJson();
}
if (potentialEdits != null) {
result["potentialEdits"] = potentialEdits;
}
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetRefactoringResult) {
return listEqual(initialProblems, other.initialProblems,
(RefactoringProblem a, RefactoringProblem b) => a == b) &&
listEqual(optionsProblems, other.optionsProblems,
(RefactoringProblem a, RefactoringProblem b) => a == b) &&
listEqual(finalProblems, other.finalProblems,
(RefactoringProblem a, RefactoringProblem b) => a == b) &&
feedback == other.feedback &&
change == other.change &&
listEqual(potentialEdits, other.potentialEdits,
(String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, initialProblems.hashCode);
hash = JenkinsSmiHash.combine(hash, optionsProblems.hashCode);
hash = JenkinsSmiHash.combine(hash, finalProblems.hashCode);
hash = JenkinsSmiHash.combine(hash, feedback.hashCode);
hash = JenkinsSmiHash.combine(hash, change.hashCode);
hash = JenkinsSmiHash.combine(hash, potentialEdits.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getStatementCompletion params
*
* {
* "file": FilePath
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetStatementCompletionParams implements RequestParams {
String _file;
int _offset;
/**
* The file containing the statement to be completed.
*/
String get file => _file;
/**
* The file containing the statement to be completed.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset used to identify the statement to be completed.
*/
int get offset => _offset;
/**
* The offset used to identify the statement to be completed.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
EditGetStatementCompletionParams(String file, int offset) {
this.file = file;
this.offset = offset;
}
factory EditGetStatementCompletionParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new EditGetStatementCompletionParams(file, offset);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.getStatementCompletion params", json);
}
}
factory EditGetStatementCompletionParams.fromRequest(Request request) {
return new EditGetStatementCompletionParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.getStatementCompletion", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetStatementCompletionParams) {
return file == other.file && offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.getStatementCompletion result
*
* {
* "change": SourceChange
* "whitespaceOnly": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditGetStatementCompletionResult implements ResponseResult {
SourceChange _change;
bool _whitespaceOnly;
/**
* The change to be applied in order to complete the statement.
*/
SourceChange get change => _change;
/**
* The change to be applied in order to complete the statement.
*/
void set change(SourceChange value) {
assert(value != null);
this._change = value;
}
/**
* Will be true if the change contains nothing but whitespace characters, or
* is empty.
*/
bool get whitespaceOnly => _whitespaceOnly;
/**
* Will be true if the change contains nothing but whitespace characters, or
* is empty.
*/
void set whitespaceOnly(bool value) {
assert(value != null);
this._whitespaceOnly = value;
}
EditGetStatementCompletionResult(SourceChange change, bool whitespaceOnly) {
this.change = change;
this.whitespaceOnly = whitespaceOnly;
}
factory EditGetStatementCompletionResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
SourceChange change;
if (json.containsKey("change")) {
change = new SourceChange.fromJson(
jsonDecoder, jsonPath + ".change", json["change"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "change");
}
bool whitespaceOnly;
if (json.containsKey("whitespaceOnly")) {
whitespaceOnly = jsonDecoder.decodeBool(
jsonPath + ".whitespaceOnly", json["whitespaceOnly"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "whitespaceOnly");
}
return new EditGetStatementCompletionResult(change, whitespaceOnly);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.getStatementCompletion result", json);
}
}
factory EditGetStatementCompletionResult.fromResponse(Response response) {
return new EditGetStatementCompletionResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["change"] = change.toJson();
result["whitespaceOnly"] = whitespaceOnly;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditGetStatementCompletionResult) {
return change == other.change && whitespaceOnly == other.whitespaceOnly;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, change.hashCode);
hash = JenkinsSmiHash.combine(hash, whitespaceOnly.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.importElements params
*
* {
* "file": FilePath
* "elements": List<ImportedElements>
* "offset": optional int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditImportElementsParams implements RequestParams {
String _file;
List<ImportedElements> _elements;
int _offset;
/**
* The file in which the specified elements are to be made accessible.
*/
String get file => _file;
/**
* The file in which the specified elements are to be made accessible.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The elements to be made accessible in the specified file.
*/
List<ImportedElements> get elements => _elements;
/**
* The elements to be made accessible in the specified file.
*/
void set elements(List<ImportedElements> value) {
assert(value != null);
this._elements = value;
}
/**
* The offset at which the specified elements need to be made accessible. If
* provided, this is used to guard against adding imports for text that would
* be inserted into a comment, string literal, or other location where the
* imports would not be necessary.
*/
int get offset => _offset;
/**
* The offset at which the specified elements need to be made accessible. If
* provided, this is used to guard against adding imports for text that would
* be inserted into a comment, string literal, or other location where the
* imports would not be necessary.
*/
void set offset(int value) {
this._offset = value;
}
EditImportElementsParams(String file, List<ImportedElements> elements,
{int offset}) {
this.file = file;
this.elements = elements;
this.offset = offset;
}
factory EditImportElementsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
List<ImportedElements> elements;
if (json.containsKey("elements")) {
elements = jsonDecoder.decodeList(
jsonPath + ".elements",
json["elements"],
(String jsonPath, Object json) =>
new ImportedElements.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "elements");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
}
return new EditImportElementsParams(file, elements, offset: offset);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.importElements params", json);
}
}
factory EditImportElementsParams.fromRequest(Request request) {
return new EditImportElementsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["elements"] =
elements.map((ImportedElements value) => value.toJson()).toList();
if (offset != null) {
result["offset"] = offset;
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.importElements", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditImportElementsParams) {
return file == other.file &&
listEqual(elements, other.elements,
(ImportedElements a, ImportedElements b) => a == b) &&
offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, elements.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.importElements result
*
* {
* "edit": optional SourceFileEdit
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditImportElementsResult implements ResponseResult {
SourceFileEdit _edit;
/**
* The edits to be applied in order to make the specified elements
* accessible. The file to be edited will be the defining compilation unit of
* the library containing the file specified in the request, which can be
* different than the file specified in the request if the specified file is
* a part file. This field will be omitted if there are no edits that need to
* be applied.
*/
SourceFileEdit get edit => _edit;
/**
* The edits to be applied in order to make the specified elements
* accessible. The file to be edited will be the defining compilation unit of
* the library containing the file specified in the request, which can be
* different than the file specified in the request if the specified file is
* a part file. This field will be omitted if there are no edits that need to
* be applied.
*/
void set edit(SourceFileEdit value) {
this._edit = value;
}
EditImportElementsResult({SourceFileEdit edit}) {
this.edit = edit;
}
factory EditImportElementsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
SourceFileEdit edit;
if (json.containsKey("edit")) {
edit = new SourceFileEdit.fromJson(
jsonDecoder, jsonPath + ".edit", json["edit"]);
}
return new EditImportElementsResult(edit: edit);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.importElements result", json);
}
}
factory EditImportElementsResult.fromResponse(Response response) {
return new EditImportElementsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (edit != null) {
result["edit"] = edit.toJson();
}
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditImportElementsResult) {
return edit == other.edit;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, edit.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.isPostfixCompletionApplicable params
*
* {
* "file": FilePath
* "key": String
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditIsPostfixCompletionApplicableParams implements RequestParams {
String _file;
String _key;
int _offset;
/**
* The file containing the postfix template to be expanded.
*/
String get file => _file;
/**
* The file containing the postfix template to be expanded.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The unique name that identifies the template in use.
*/
String get key => _key;
/**
* The unique name that identifies the template in use.
*/
void set key(String value) {
assert(value != null);
this._key = value;
}
/**
* The offset used to identify the code to which the template will be
* applied.
*/
int get offset => _offset;
/**
* The offset used to identify the code to which the template will be
* applied.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
EditIsPostfixCompletionApplicableParams(String file, String key, int offset) {
this.file = file;
this.key = key;
this.offset = offset;
}
factory EditIsPostfixCompletionApplicableParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
String key;
if (json.containsKey("key")) {
key = jsonDecoder.decodeString(jsonPath + ".key", json["key"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "key");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new EditIsPostfixCompletionApplicableParams(file, key, offset);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.isPostfixCompletionApplicable params", json);
}
}
factory EditIsPostfixCompletionApplicableParams.fromRequest(Request request) {
return new EditIsPostfixCompletionApplicableParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["key"] = key;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.isPostfixCompletionApplicable", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditIsPostfixCompletionApplicableParams) {
return file == other.file && key == other.key && offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, key.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.isPostfixCompletionApplicable result
*
* {
* "value": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditIsPostfixCompletionApplicableResult implements ResponseResult {
bool _value;
/**
* True if the template can be expanded at the given location.
*/
bool get value => _value;
/**
* True if the template can be expanded at the given location.
*/
void set value(bool value) {
assert(value != null);
this._value = value;
}
EditIsPostfixCompletionApplicableResult(bool value) {
this.value = value;
}
factory EditIsPostfixCompletionApplicableResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
bool value;
if (json.containsKey("value")) {
value = jsonDecoder.decodeBool(jsonPath + ".value", json["value"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "value");
}
return new EditIsPostfixCompletionApplicableResult(value);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.isPostfixCompletionApplicable result", json);
}
}
factory EditIsPostfixCompletionApplicableResult.fromResponse(
Response response) {
return new EditIsPostfixCompletionApplicableResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["value"] = value;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditIsPostfixCompletionApplicableResult) {
return value == other.value;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, value.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.listPostfixCompletionTemplates params
*
* Clients may not extend, implement or mix-in this class.
*/
class EditListPostfixCompletionTemplatesParams implements RequestParams {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Request toRequest(String id) {
return new Request(id, "edit.listPostfixCompletionTemplates", null);
}
@override
bool operator ==(other) {
if (other is EditListPostfixCompletionTemplatesParams) {
return true;
}
return false;
}
@override
int get hashCode {
return 690713107;
}
}
/**
* edit.listPostfixCompletionTemplates result
*
* {
* "templates": List<PostfixTemplateDescriptor>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditListPostfixCompletionTemplatesResult implements ResponseResult {
List<PostfixTemplateDescriptor> _templates;
/**
* The list of available templates.
*/
List<PostfixTemplateDescriptor> get templates => _templates;
/**
* The list of available templates.
*/
void set templates(List<PostfixTemplateDescriptor> value) {
assert(value != null);
this._templates = value;
}
EditListPostfixCompletionTemplatesResult(
List<PostfixTemplateDescriptor> templates) {
this.templates = templates;
}
factory EditListPostfixCompletionTemplatesResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<PostfixTemplateDescriptor> templates;
if (json.containsKey("templates")) {
templates = jsonDecoder.decodeList(
jsonPath + ".templates",
json["templates"],
(String jsonPath, Object json) =>
new PostfixTemplateDescriptor.fromJson(
jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "templates");
}
return new EditListPostfixCompletionTemplatesResult(templates);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.listPostfixCompletionTemplates result", json);
}
}
factory EditListPostfixCompletionTemplatesResult.fromResponse(
Response response) {
return new EditListPostfixCompletionTemplatesResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["templates"] = templates
.map((PostfixTemplateDescriptor value) => value.toJson())
.toList();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditListPostfixCompletionTemplatesResult) {
return listEqual(templates, other.templates,
(PostfixTemplateDescriptor a, PostfixTemplateDescriptor b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, templates.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.organizeDirectives params
*
* {
* "file": FilePath
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditOrganizeDirectivesParams implements RequestParams {
String _file;
/**
* The Dart file to organize directives in.
*/
String get file => _file;
/**
* The Dart file to organize directives in.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
EditOrganizeDirectivesParams(String file) {
this.file = file;
}
factory EditOrganizeDirectivesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
return new EditOrganizeDirectivesParams(file);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.organizeDirectives params", json);
}
}
factory EditOrganizeDirectivesParams.fromRequest(Request request) {
return new EditOrganizeDirectivesParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.organizeDirectives", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditOrganizeDirectivesParams) {
return file == other.file;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.organizeDirectives result
*
* {
* "edit": SourceFileEdit
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditOrganizeDirectivesResult implements ResponseResult {
SourceFileEdit _edit;
/**
* The file edit that is to be applied to the given file to effect the
* organizing.
*/
SourceFileEdit get edit => _edit;
/**
* The file edit that is to be applied to the given file to effect the
* organizing.
*/
void set edit(SourceFileEdit value) {
assert(value != null);
this._edit = value;
}
EditOrganizeDirectivesResult(SourceFileEdit edit) {
this.edit = edit;
}
factory EditOrganizeDirectivesResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
SourceFileEdit edit;
if (json.containsKey("edit")) {
edit = new SourceFileEdit.fromJson(
jsonDecoder, jsonPath + ".edit", json["edit"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit");
}
return new EditOrganizeDirectivesResult(edit);
} else {
throw jsonDecoder.mismatch(
jsonPath, "edit.organizeDirectives result", json);
}
}
factory EditOrganizeDirectivesResult.fromResponse(Response response) {
return new EditOrganizeDirectivesResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["edit"] = edit.toJson();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditOrganizeDirectivesResult) {
return edit == other.edit;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, edit.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.sortMembers params
*
* {
* "file": FilePath
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditSortMembersParams implements RequestParams {
String _file;
/**
* The Dart file to sort.
*/
String get file => _file;
/**
* The Dart file to sort.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
EditSortMembersParams(String file) {
this.file = file;
}
factory EditSortMembersParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
return new EditSortMembersParams(file);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.sortMembers params", json);
}
}
factory EditSortMembersParams.fromRequest(Request request) {
return new EditSortMembersParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "edit.sortMembers", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditSortMembersParams) {
return file == other.file;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* edit.sortMembers result
*
* {
* "edit": SourceFileEdit
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class EditSortMembersResult implements ResponseResult {
SourceFileEdit _edit;
/**
* The file edit that is to be applied to the given file to effect the
* sorting.
*/
SourceFileEdit get edit => _edit;
/**
* The file edit that is to be applied to the given file to effect the
* sorting.
*/
void set edit(SourceFileEdit value) {
assert(value != null);
this._edit = value;
}
EditSortMembersResult(SourceFileEdit edit) {
this.edit = edit;
}
factory EditSortMembersResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
SourceFileEdit edit;
if (json.containsKey("edit")) {
edit = new SourceFileEdit.fromJson(
jsonDecoder, jsonPath + ".edit", json["edit"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit");
}
return new EditSortMembersResult(edit);
} else {
throw jsonDecoder.mismatch(jsonPath, "edit.sortMembers result", json);
}
}
factory EditSortMembersResult.fromResponse(Response response) {
return new EditSortMembersResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["edit"] = edit.toJson();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is EditSortMembersResult) {
return edit == other.edit;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, edit.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ElementDeclaration
*
* {
* "name": String
* "kind": ElementKind
* "fileIndex": int
* "offset": int
* "line": int
* "column": int
* "codeOffset": int
* "codeLength": int
* "className": optional String
* "mixinName": optional String
* "parameters": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ElementDeclaration implements HasToJson {
String _name;
ElementKind _kind;
int _fileIndex;
int _offset;
int _line;
int _column;
int _codeOffset;
int _codeLength;
String _className;
String _mixinName;
String _parameters;
/**
* The name of the declaration.
*/
String get name => _name;
/**
* The name of the declaration.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The kind of the element that corresponds to the declaration.
*/
ElementKind get kind => _kind;
/**
* The kind of the element that corresponds to the declaration.
*/
void set kind(ElementKind value) {
assert(value != null);
this._kind = value;
}
/**
* The index of the file (in the enclosing response).
*/
int get fileIndex => _fileIndex;
/**
* The index of the file (in the enclosing response).
*/
void set fileIndex(int value) {
assert(value != null);
this._fileIndex = value;
}
/**
* The offset of the declaration name in the file.
*/
int get offset => _offset;
/**
* The offset of the declaration name in the file.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The one-based index of the line containing the declaration name.
*/
int get line => _line;
/**
* The one-based index of the line containing the declaration name.
*/
void set line(int value) {
assert(value != null);
this._line = value;
}
/**
* The one-based index of the column containing the declaration name.
*/
int get column => _column;
/**
* The one-based index of the column containing the declaration name.
*/
void set column(int value) {
assert(value != null);
this._column = value;
}
/**
* The offset of the first character of the declaration code in the file.
*/
int get codeOffset => _codeOffset;
/**
* The offset of the first character of the declaration code in the file.
*/
void set codeOffset(int value) {
assert(value != null);
this._codeOffset = value;
}
/**
* The length of the declaration code in the file.
*/
int get codeLength => _codeLength;
/**
* The length of the declaration code in the file.
*/
void set codeLength(int value) {
assert(value != null);
this._codeLength = value;
}
/**
* The name of the class enclosing this declaration. If the declaration is
* not a class member, this field will be absent.
*/
String get className => _className;
/**
* The name of the class enclosing this declaration. If the declaration is
* not a class member, this field will be absent.
*/
void set className(String value) {
this._className = value;
}
/**
* The name of the mixin enclosing this declaration. If the declaration is
* not a mixin member, this field will be absent.
*/
String get mixinName => _mixinName;
/**
* The name of the mixin enclosing this declaration. If the declaration is
* not a mixin member, this field will be absent.
*/
void set mixinName(String value) {
this._mixinName = value;
}
/**
* The parameter list for the element. If the element is not a method or
* function this field will not be defined. If the element doesn't have
* parameters (e.g. getter), this field will not be defined. If the element
* has zero parameters, this field will have a value of "()". The value
* should not be treated as exact presentation of parameters, it is just
* approximation of parameters to give the user general idea.
*/
String get parameters => _parameters;
/**
* The parameter list for the element. If the element is not a method or
* function this field will not be defined. If the element doesn't have
* parameters (e.g. getter), this field will not be defined. If the element
* has zero parameters, this field will have a value of "()". The value
* should not be treated as exact presentation of parameters, it is just
* approximation of parameters to give the user general idea.
*/
void set parameters(String value) {
this._parameters = value;
}
ElementDeclaration(String name, ElementKind kind, int fileIndex, int offset,
int line, int column, int codeOffset, int codeLength,
{String className, String mixinName, String parameters}) {
this.name = name;
this.kind = kind;
this.fileIndex = fileIndex;
this.offset = offset;
this.line = line;
this.column = column;
this.codeOffset = codeOffset;
this.codeLength = codeLength;
this.className = className;
this.mixinName = mixinName;
this.parameters = parameters;
}
factory ElementDeclaration.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
ElementKind kind;
if (json.containsKey("kind")) {
kind = new ElementKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
int fileIndex;
if (json.containsKey("fileIndex")) {
fileIndex =
jsonDecoder.decodeInt(jsonPath + ".fileIndex", json["fileIndex"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "fileIndex");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int line;
if (json.containsKey("line")) {
line = jsonDecoder.decodeInt(jsonPath + ".line", json["line"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "line");
}
int column;
if (json.containsKey("column")) {
column = jsonDecoder.decodeInt(jsonPath + ".column", json["column"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "column");
}
int codeOffset;
if (json.containsKey("codeOffset")) {
codeOffset =
jsonDecoder.decodeInt(jsonPath + ".codeOffset", json["codeOffset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "codeOffset");
}
int codeLength;
if (json.containsKey("codeLength")) {
codeLength =
jsonDecoder.decodeInt(jsonPath + ".codeLength", json["codeLength"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "codeLength");
}
String className;
if (json.containsKey("className")) {
className = jsonDecoder.decodeString(
jsonPath + ".className", json["className"]);
}
String mixinName;
if (json.containsKey("mixinName")) {
mixinName = jsonDecoder.decodeString(
jsonPath + ".mixinName", json["mixinName"]);
}
String parameters;
if (json.containsKey("parameters")) {
parameters = jsonDecoder.decodeString(
jsonPath + ".parameters", json["parameters"]);
}
return new ElementDeclaration(
name, kind, fileIndex, offset, line, column, codeOffset, codeLength,
className: className, mixinName: mixinName, parameters: parameters);
} else {
throw jsonDecoder.mismatch(jsonPath, "ElementDeclaration", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
result["kind"] = kind.toJson();
result["fileIndex"] = fileIndex;
result["offset"] = offset;
result["line"] = line;
result["column"] = column;
result["codeOffset"] = codeOffset;
result["codeLength"] = codeLength;
if (className != null) {
result["className"] = className;
}
if (mixinName != null) {
result["mixinName"] = mixinName;
}
if (parameters != null) {
result["parameters"] = parameters;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ElementDeclaration) {
return name == other.name &&
kind == other.kind &&
fileIndex == other.fileIndex &&
offset == other.offset &&
line == other.line &&
column == other.column &&
codeOffset == other.codeOffset &&
codeLength == other.codeLength &&
className == other.className &&
mixinName == other.mixinName &&
parameters == other.parameters;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, fileIndex.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, line.hashCode);
hash = JenkinsSmiHash.combine(hash, column.hashCode);
hash = JenkinsSmiHash.combine(hash, codeOffset.hashCode);
hash = JenkinsSmiHash.combine(hash, codeLength.hashCode);
hash = JenkinsSmiHash.combine(hash, className.hashCode);
hash = JenkinsSmiHash.combine(hash, mixinName.hashCode);
hash = JenkinsSmiHash.combine(hash, parameters.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ExecutableFile
*
* {
* "file": FilePath
* "kind": ExecutableKind
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutableFile implements HasToJson {
String _file;
ExecutableKind _kind;
/**
* The path of the executable file.
*/
String get file => _file;
/**
* The path of the executable file.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The kind of the executable file.
*/
ExecutableKind get kind => _kind;
/**
* The kind of the executable file.
*/
void set kind(ExecutableKind value) {
assert(value != null);
this._kind = value;
}
ExecutableFile(String file, ExecutableKind kind) {
this.file = file;
this.kind = kind;
}
factory ExecutableFile.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
ExecutableKind kind;
if (json.containsKey("kind")) {
kind = new ExecutableKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
return new ExecutableFile(file, kind);
} else {
throw jsonDecoder.mismatch(jsonPath, "ExecutableFile", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["kind"] = kind.toJson();
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutableFile) {
return file == other.file && kind == other.kind;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ExecutableKind
*
* enum {
* CLIENT
* EITHER
* NOT_EXECUTABLE
* SERVER
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutableKind implements Enum {
static const ExecutableKind CLIENT = const ExecutableKind._("CLIENT");
static const ExecutableKind EITHER = const ExecutableKind._("EITHER");
static const ExecutableKind NOT_EXECUTABLE =
const ExecutableKind._("NOT_EXECUTABLE");
static const ExecutableKind SERVER = const ExecutableKind._("SERVER");
/**
* A list containing all of the enum values that are defined.
*/
static const List<ExecutableKind> VALUES = const <ExecutableKind>[
CLIENT,
EITHER,
NOT_EXECUTABLE,
SERVER
];
@override
final String name;
const ExecutableKind._(this.name);
factory ExecutableKind(String name) {
switch (name) {
case "CLIENT":
return CLIENT;
case "EITHER":
return EITHER;
case "NOT_EXECUTABLE":
return NOT_EXECUTABLE;
case "SERVER":
return SERVER;
}
throw new Exception('Illegal enum value: $name');
}
factory ExecutableKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new ExecutableKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "ExecutableKind", json);
}
@override
String toString() => "ExecutableKind.$name";
String toJson() => name;
}
/**
* execution.createContext params
*
* {
* "contextRoot": FilePath
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionCreateContextParams implements RequestParams {
String _contextRoot;
/**
* The path of the Dart or HTML file that will be launched, or the path of
* the directory containing the file.
*/
String get contextRoot => _contextRoot;
/**
* The path of the Dart or HTML file that will be launched, or the path of
* the directory containing the file.
*/
void set contextRoot(String value) {
assert(value != null);
this._contextRoot = value;
}
ExecutionCreateContextParams(String contextRoot) {
this.contextRoot = contextRoot;
}
factory ExecutionCreateContextParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String contextRoot;
if (json.containsKey("contextRoot")) {
contextRoot = jsonDecoder.decodeString(
jsonPath + ".contextRoot", json["contextRoot"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "contextRoot");
}
return new ExecutionCreateContextParams(contextRoot);
} else {
throw jsonDecoder.mismatch(
jsonPath, "execution.createContext params", json);
}
}
factory ExecutionCreateContextParams.fromRequest(Request request) {
return new ExecutionCreateContextParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["contextRoot"] = contextRoot;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "execution.createContext", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionCreateContextParams) {
return contextRoot == other.contextRoot;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, contextRoot.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* execution.createContext result
*
* {
* "id": ExecutionContextId
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionCreateContextResult implements ResponseResult {
String _id;
/**
* The identifier used to refer to the execution context that was created.
*/
String get id => _id;
/**
* The identifier used to refer to the execution context that was created.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
ExecutionCreateContextResult(String id) {
this.id = id;
}
factory ExecutionCreateContextResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
return new ExecutionCreateContextResult(id);
} else {
throw jsonDecoder.mismatch(
jsonPath, "execution.createContext result", json);
}
}
factory ExecutionCreateContextResult.fromResponse(Response response) {
return new ExecutionCreateContextResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionCreateContextResult) {
return id == other.id;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* execution.deleteContext params
*
* {
* "id": ExecutionContextId
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionDeleteContextParams implements RequestParams {
String _id;
/**
* The identifier of the execution context that is to be deleted.
*/
String get id => _id;
/**
* The identifier of the execution context that is to be deleted.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
ExecutionDeleteContextParams(String id) {
this.id = id;
}
factory ExecutionDeleteContextParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
return new ExecutionDeleteContextParams(id);
} else {
throw jsonDecoder.mismatch(
jsonPath, "execution.deleteContext params", json);
}
}
factory ExecutionDeleteContextParams.fromRequest(Request request) {
return new ExecutionDeleteContextParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "execution.deleteContext", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionDeleteContextParams) {
return id == other.id;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* execution.deleteContext result
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionDeleteContextResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is ExecutionDeleteContextResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 479954425;
}
}
/**
* execution.getSuggestions params
*
* {
* "code": String
* "offset": int
* "contextFile": FilePath
* "contextOffset": int
* "variables": List<RuntimeCompletionVariable>
* "expressions": optional List<RuntimeCompletionExpression>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionGetSuggestionsParams implements RequestParams {
String _code;
int _offset;
String _contextFile;
int _contextOffset;
List<RuntimeCompletionVariable> _variables;
List<RuntimeCompletionExpression> _expressions;
/**
* The code to get suggestions in.
*/
String get code => _code;
/**
* The code to get suggestions in.
*/
void set code(String value) {
assert(value != null);
this._code = value;
}
/**
* The offset within the code to get suggestions at.
*/
int get offset => _offset;
/**
* The offset within the code to get suggestions at.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The path of the context file, e.g. the file of the current debugger frame.
* The combination of the context file and context offset can be used to
* ensure that all variables of the context are available for completion
* (with their static types).
*/
String get contextFile => _contextFile;
/**
* The path of the context file, e.g. the file of the current debugger frame.
* The combination of the context file and context offset can be used to
* ensure that all variables of the context are available for completion
* (with their static types).
*/
void set contextFile(String value) {
assert(value != null);
this._contextFile = value;
}
/**
* The offset in the context file, e.g. the line offset in the current
* debugger frame.
*/
int get contextOffset => _contextOffset;
/**
* The offset in the context file, e.g. the line offset in the current
* debugger frame.
*/
void set contextOffset(int value) {
assert(value != null);
this._contextOffset = value;
}
/**
* The runtime context variables that are potentially referenced in the code.
*/
List<RuntimeCompletionVariable> get variables => _variables;
/**
* The runtime context variables that are potentially referenced in the code.
*/
void set variables(List<RuntimeCompletionVariable> value) {
assert(value != null);
this._variables = value;
}
/**
* The list of sub-expressions in the code for which the client wants to
* provide runtime types. It does not have to be the full list of expressions
* requested by the server, for missing expressions their static types will
* be used.
*
* When this field is omitted, the server will return completion suggestions
* only when there are no interesting sub-expressions in the given code. The
* client may provide an empty list, in this case the server will return
* completion suggestions.
*/
List<RuntimeCompletionExpression> get expressions => _expressions;
/**
* The list of sub-expressions in the code for which the client wants to
* provide runtime types. It does not have to be the full list of expressions
* requested by the server, for missing expressions their static types will
* be used.
*
* When this field is omitted, the server will return completion suggestions
* only when there are no interesting sub-expressions in the given code. The
* client may provide an empty list, in this case the server will return
* completion suggestions.
*/
void set expressions(List<RuntimeCompletionExpression> value) {
this._expressions = value;
}
ExecutionGetSuggestionsParams(String code, int offset, String contextFile,
int contextOffset, List<RuntimeCompletionVariable> variables,
{List<RuntimeCompletionExpression> expressions}) {
this.code = code;
this.offset = offset;
this.contextFile = contextFile;
this.contextOffset = contextOffset;
this.variables = variables;
this.expressions = expressions;
}
factory ExecutionGetSuggestionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String code;
if (json.containsKey("code")) {
code = jsonDecoder.decodeString(jsonPath + ".code", json["code"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "code");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
String contextFile;
if (json.containsKey("contextFile")) {
contextFile = jsonDecoder.decodeString(
jsonPath + ".contextFile", json["contextFile"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "contextFile");
}
int contextOffset;
if (json.containsKey("contextOffset")) {
contextOffset = jsonDecoder.decodeInt(
jsonPath + ".contextOffset", json["contextOffset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "contextOffset");
}
List<RuntimeCompletionVariable> variables;
if (json.containsKey("variables")) {
variables = jsonDecoder.decodeList(
jsonPath + ".variables",
json["variables"],
(String jsonPath, Object json) =>
new RuntimeCompletionVariable.fromJson(
jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "variables");
}
List<RuntimeCompletionExpression> expressions;
if (json.containsKey("expressions")) {
expressions = jsonDecoder.decodeList(
jsonPath + ".expressions",
json["expressions"],
(String jsonPath, Object json) =>
new RuntimeCompletionExpression.fromJson(
jsonDecoder, jsonPath, json));
}
return new ExecutionGetSuggestionsParams(
code, offset, contextFile, contextOffset, variables,
expressions: expressions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "execution.getSuggestions params", json);
}
}
factory ExecutionGetSuggestionsParams.fromRequest(Request request) {
return new ExecutionGetSuggestionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["code"] = code;
result["offset"] = offset;
result["contextFile"] = contextFile;
result["contextOffset"] = contextOffset;
result["variables"] = variables
.map((RuntimeCompletionVariable value) => value.toJson())
.toList();
if (expressions != null) {
result["expressions"] = expressions
.map((RuntimeCompletionExpression value) => value.toJson())
.toList();
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "execution.getSuggestions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionGetSuggestionsParams) {
return code == other.code &&
offset == other.offset &&
contextFile == other.contextFile &&
contextOffset == other.contextOffset &&
listEqual(
variables,
other.variables,
(RuntimeCompletionVariable a, RuntimeCompletionVariable b) =>
a == b) &&
listEqual(
expressions,
other.expressions,
(RuntimeCompletionExpression a, RuntimeCompletionExpression b) =>
a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, code.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, contextFile.hashCode);
hash = JenkinsSmiHash.combine(hash, contextOffset.hashCode);
hash = JenkinsSmiHash.combine(hash, variables.hashCode);
hash = JenkinsSmiHash.combine(hash, expressions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* execution.getSuggestions result
*
* {
* "suggestions": optional List<CompletionSuggestion>
* "expressions": optional List<RuntimeCompletionExpression>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionGetSuggestionsResult implements ResponseResult {
List<CompletionSuggestion> _suggestions;
List<RuntimeCompletionExpression> _expressions;
/**
* The completion suggestions. In contrast to usual completion request,
* suggestions for private elements also will be provided.
*
* If there are sub-expressions that can have different runtime types, and
* are considered to be safe to evaluate at runtime (e.g. getters), so using
* their actual runtime types can improve completion results, the server
* omits this field in the response, and instead will return the
* "expressions" field.
*/
List<CompletionSuggestion> get suggestions => _suggestions;
/**
* The completion suggestions. In contrast to usual completion request,
* suggestions for private elements also will be provided.
*
* If there are sub-expressions that can have different runtime types, and
* are considered to be safe to evaluate at runtime (e.g. getters), so using
* their actual runtime types can improve completion results, the server
* omits this field in the response, and instead will return the
* "expressions" field.
*/
void set suggestions(List<CompletionSuggestion> value) {
this._suggestions = value;
}
/**
* The list of sub-expressions in the code for which the server would like to
* know runtime types to provide better completion suggestions.
*
* This field is omitted the field "suggestions" is returned.
*/
List<RuntimeCompletionExpression> get expressions => _expressions;
/**
* The list of sub-expressions in the code for which the server would like to
* know runtime types to provide better completion suggestions.
*
* This field is omitted the field "suggestions" is returned.
*/
void set expressions(List<RuntimeCompletionExpression> value) {
this._expressions = value;
}
ExecutionGetSuggestionsResult(
{List<CompletionSuggestion> suggestions,
List<RuntimeCompletionExpression> expressions}) {
this.suggestions = suggestions;
this.expressions = expressions;
}
factory ExecutionGetSuggestionsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<CompletionSuggestion> suggestions;
if (json.containsKey("suggestions")) {
suggestions = jsonDecoder.decodeList(
jsonPath + ".suggestions",
json["suggestions"],
(String jsonPath, Object json) =>
new CompletionSuggestion.fromJson(jsonDecoder, jsonPath, json));
}
List<RuntimeCompletionExpression> expressions;
if (json.containsKey("expressions")) {
expressions = jsonDecoder.decodeList(
jsonPath + ".expressions",
json["expressions"],
(String jsonPath, Object json) =>
new RuntimeCompletionExpression.fromJson(
jsonDecoder, jsonPath, json));
}
return new ExecutionGetSuggestionsResult(
suggestions: suggestions, expressions: expressions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "execution.getSuggestions result", json);
}
}
factory ExecutionGetSuggestionsResult.fromResponse(Response response) {
return new ExecutionGetSuggestionsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (suggestions != null) {
result["suggestions"] = suggestions
.map((CompletionSuggestion value) => value.toJson())
.toList();
}
if (expressions != null) {
result["expressions"] = expressions
.map((RuntimeCompletionExpression value) => value.toJson())
.toList();
}
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionGetSuggestionsResult) {
return listEqual(suggestions, other.suggestions,
(CompletionSuggestion a, CompletionSuggestion b) => a == b) &&
listEqual(
expressions,
other.expressions,
(RuntimeCompletionExpression a, RuntimeCompletionExpression b) =>
a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, suggestions.hashCode);
hash = JenkinsSmiHash.combine(hash, expressions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* execution.launchData params
*
* {
* "file": FilePath
* "kind": optional ExecutableKind
* "referencedFiles": optional List<FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionLaunchDataParams implements HasToJson {
String _file;
ExecutableKind _kind;
List<String> _referencedFiles;
/**
* The file for which launch data is being provided. This will either be a
* Dart library or an HTML file.
*/
String get file => _file;
/**
* The file for which launch data is being provided. This will either be a
* Dart library or an HTML file.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The kind of the executable file. This field is omitted if the file is not
* a Dart file.
*/
ExecutableKind get kind => _kind;
/**
* The kind of the executable file. This field is omitted if the file is not
* a Dart file.
*/
void set kind(ExecutableKind value) {
this._kind = value;
}
/**
* A list of the Dart files that are referenced by the file. This field is
* omitted if the file is not an HTML file.
*/
List<String> get referencedFiles => _referencedFiles;
/**
* A list of the Dart files that are referenced by the file. This field is
* omitted if the file is not an HTML file.
*/
void set referencedFiles(List<String> value) {
this._referencedFiles = value;
}
ExecutionLaunchDataParams(String file,
{ExecutableKind kind, List<String> referencedFiles}) {
this.file = file;
this.kind = kind;
this.referencedFiles = referencedFiles;
}
factory ExecutionLaunchDataParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
ExecutableKind kind;
if (json.containsKey("kind")) {
kind = new ExecutableKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
}
List<String> referencedFiles;
if (json.containsKey("referencedFiles")) {
referencedFiles = jsonDecoder.decodeList(jsonPath + ".referencedFiles",
json["referencedFiles"], jsonDecoder.decodeString);
}
return new ExecutionLaunchDataParams(file,
kind: kind, referencedFiles: referencedFiles);
} else {
throw jsonDecoder.mismatch(jsonPath, "execution.launchData params", json);
}
}
factory ExecutionLaunchDataParams.fromNotification(
Notification notification) {
return new ExecutionLaunchDataParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
if (kind != null) {
result["kind"] = kind.toJson();
}
if (referencedFiles != null) {
result["referencedFiles"] = referencedFiles;
}
return result;
}
Notification toNotification() {
return new Notification("execution.launchData", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionLaunchDataParams) {
return file == other.file &&
kind == other.kind &&
listEqual(referencedFiles, other.referencedFiles,
(String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, referencedFiles.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* execution.mapUri params
*
* {
* "id": ExecutionContextId
* "file": optional FilePath
* "uri": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionMapUriParams implements RequestParams {
String _id;
String _file;
String _uri;
/**
* The identifier of the execution context in which the URI is to be mapped.
*/
String get id => _id;
/**
* The identifier of the execution context in which the URI is to be mapped.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
/**
* The path of the file to be mapped into a URI.
*/
String get file => _file;
/**
* The path of the file to be mapped into a URI.
*/
void set file(String value) {
this._file = value;
}
/**
* The URI to be mapped into a file path.
*/
String get uri => _uri;
/**
* The URI to be mapped into a file path.
*/
void set uri(String value) {
this._uri = value;
}
ExecutionMapUriParams(String id, {String file, String uri}) {
this.id = id;
this.file = file;
this.uri = uri;
}
factory ExecutionMapUriParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
}
String uri;
if (json.containsKey("uri")) {
uri = jsonDecoder.decodeString(jsonPath + ".uri", json["uri"]);
}
return new ExecutionMapUriParams(id, file: file, uri: uri);
} else {
throw jsonDecoder.mismatch(jsonPath, "execution.mapUri params", json);
}
}
factory ExecutionMapUriParams.fromRequest(Request request) {
return new ExecutionMapUriParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
if (file != null) {
result["file"] = file;
}
if (uri != null) {
result["uri"] = uri;
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "execution.mapUri", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionMapUriParams) {
return id == other.id && file == other.file && uri == other.uri;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, uri.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* execution.mapUri result
*
* {
* "file": optional FilePath
* "uri": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionMapUriResult implements ResponseResult {
String _file;
String _uri;
/**
* The file to which the URI was mapped. This field is omitted if the uri
* field was not given in the request.
*/
String get file => _file;
/**
* The file to which the URI was mapped. This field is omitted if the uri
* field was not given in the request.
*/
void set file(String value) {
this._file = value;
}
/**
* The URI to which the file path was mapped. This field is omitted if the
* file field was not given in the request.
*/
String get uri => _uri;
/**
* The URI to which the file path was mapped. This field is omitted if the
* file field was not given in the request.
*/
void set uri(String value) {
this._uri = value;
}
ExecutionMapUriResult({String file, String uri}) {
this.file = file;
this.uri = uri;
}
factory ExecutionMapUriResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
}
String uri;
if (json.containsKey("uri")) {
uri = jsonDecoder.decodeString(jsonPath + ".uri", json["uri"]);
}
return new ExecutionMapUriResult(file: file, uri: uri);
} else {
throw jsonDecoder.mismatch(jsonPath, "execution.mapUri result", json);
}
}
factory ExecutionMapUriResult.fromResponse(Response response) {
return new ExecutionMapUriResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (file != null) {
result["file"] = file;
}
if (uri != null) {
result["uri"] = uri;
}
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionMapUriResult) {
return file == other.file && uri == other.uri;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, uri.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ExecutionService
*
* enum {
* LAUNCH_DATA
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionService implements Enum {
static const ExecutionService LAUNCH_DATA =
const ExecutionService._("LAUNCH_DATA");
/**
* A list containing all of the enum values that are defined.
*/
static const List<ExecutionService> VALUES = const <ExecutionService>[
LAUNCH_DATA
];
@override
final String name;
const ExecutionService._(this.name);
factory ExecutionService(String name) {
switch (name) {
case "LAUNCH_DATA":
return LAUNCH_DATA;
}
throw new Exception('Illegal enum value: $name');
}
factory ExecutionService.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new ExecutionService(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "ExecutionService", json);
}
@override
String toString() => "ExecutionService.$name";
String toJson() => name;
}
/**
* execution.setSubscriptions params
*
* {
* "subscriptions": List<ExecutionService>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionSetSubscriptionsParams implements RequestParams {
List<ExecutionService> _subscriptions;
/**
* A list of the services being subscribed to.
*/
List<ExecutionService> get subscriptions => _subscriptions;
/**
* A list of the services being subscribed to.
*/
void set subscriptions(List<ExecutionService> value) {
assert(value != null);
this._subscriptions = value;
}
ExecutionSetSubscriptionsParams(List<ExecutionService> subscriptions) {
this.subscriptions = subscriptions;
}
factory ExecutionSetSubscriptionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<ExecutionService> subscriptions;
if (json.containsKey("subscriptions")) {
subscriptions = jsonDecoder.decodeList(
jsonPath + ".subscriptions",
json["subscriptions"],
(String jsonPath, Object json) =>
new ExecutionService.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "subscriptions");
}
return new ExecutionSetSubscriptionsParams(subscriptions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "execution.setSubscriptions params", json);
}
}
factory ExecutionSetSubscriptionsParams.fromRequest(Request request) {
return new ExecutionSetSubscriptionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["subscriptions"] =
subscriptions.map((ExecutionService value) => value.toJson()).toList();
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "execution.setSubscriptions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExecutionSetSubscriptionsParams) {
return listEqual(subscriptions, other.subscriptions,
(ExecutionService a, ExecutionService b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, subscriptions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* execution.setSubscriptions result
*
* Clients may not extend, implement or mix-in this class.
*/
class ExecutionSetSubscriptionsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is ExecutionSetSubscriptionsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 287678780;
}
}
/**
* ExistingImport
*
* {
* "uri": int
* "elements": List<int>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExistingImport implements HasToJson {
int _uri;
List<int> _elements;
/**
* The URI of the imported library. It is an index in the strings field, in
* the enclosing ExistingImports and its ImportedElementSet object.
*/
int get uri => _uri;
/**
* The URI of the imported library. It is an index in the strings field, in
* the enclosing ExistingImports and its ImportedElementSet object.
*/
void set uri(int value) {
assert(value != null);
this._uri = value;
}
/**
* The list of indexes of elements, in the enclosing ExistingImports object.
*/
List<int> get elements => _elements;
/**
* The list of indexes of elements, in the enclosing ExistingImports object.
*/
void set elements(List<int> value) {
assert(value != null);
this._elements = value;
}
ExistingImport(int uri, List<int> elements) {
this.uri = uri;
this.elements = elements;
}
factory ExistingImport.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int uri;
if (json.containsKey("uri")) {
uri = jsonDecoder.decodeInt(jsonPath + ".uri", json["uri"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "uri");
}
List<int> elements;
if (json.containsKey("elements")) {
elements = jsonDecoder.decodeList(
jsonPath + ".elements", json["elements"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "elements");
}
return new ExistingImport(uri, elements);
} else {
throw jsonDecoder.mismatch(jsonPath, "ExistingImport", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["uri"] = uri;
result["elements"] = elements;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExistingImport) {
return uri == other.uri &&
listEqual(elements, other.elements, (int a, int b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, uri.hashCode);
hash = JenkinsSmiHash.combine(hash, elements.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ExistingImports
*
* {
* "elements": ImportedElementSet
* "imports": List<ExistingImport>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExistingImports implements HasToJson {
ImportedElementSet _elements;
List<ExistingImport> _imports;
/**
* The set of all unique imported elements for all imports.
*/
ImportedElementSet get elements => _elements;
/**
* The set of all unique imported elements for all imports.
*/
void set elements(ImportedElementSet value) {
assert(value != null);
this._elements = value;
}
/**
* The list of imports in the library.
*/
List<ExistingImport> get imports => _imports;
/**
* The list of imports in the library.
*/
void set imports(List<ExistingImport> value) {
assert(value != null);
this._imports = value;
}
ExistingImports(ImportedElementSet elements, List<ExistingImport> imports) {
this.elements = elements;
this.imports = imports;
}
factory ExistingImports.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
ImportedElementSet elements;
if (json.containsKey("elements")) {
elements = new ImportedElementSet.fromJson(
jsonDecoder, jsonPath + ".elements", json["elements"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "elements");
}
List<ExistingImport> imports;
if (json.containsKey("imports")) {
imports = jsonDecoder.decodeList(
jsonPath + ".imports",
json["imports"],
(String jsonPath, Object json) =>
new ExistingImport.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "imports");
}
return new ExistingImports(elements, imports);
} else {
throw jsonDecoder.mismatch(jsonPath, "ExistingImports", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["elements"] = elements.toJson();
result["imports"] =
imports.map((ExistingImport value) => value.toJson()).toList();
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExistingImports) {
return elements == other.elements &&
listEqual(imports, other.imports,
(ExistingImport a, ExistingImport b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, elements.hashCode);
hash = JenkinsSmiHash.combine(hash, imports.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* extractLocalVariable feedback
*
* {
* "coveringExpressionOffsets": optional List<int>
* "coveringExpressionLengths": optional List<int>
* "names": List<String>
* "offsets": List<int>
* "lengths": List<int>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExtractLocalVariableFeedback extends RefactoringFeedback {
List<int> _coveringExpressionOffsets;
List<int> _coveringExpressionLengths;
List<String> _names;
List<int> _offsets;
List<int> _lengths;
/**
* The offsets of the expressions that cover the specified selection, from
* the down most to the up most.
*/
List<int> get coveringExpressionOffsets => _coveringExpressionOffsets;
/**
* The offsets of the expressions that cover the specified selection, from
* the down most to the up most.
*/
void set coveringExpressionOffsets(List<int> value) {
this._coveringExpressionOffsets = value;
}
/**
* The lengths of the expressions that cover the specified selection, from
* the down most to the up most.
*/
List<int> get coveringExpressionLengths => _coveringExpressionLengths;
/**
* The lengths of the expressions that cover the specified selection, from
* the down most to the up most.
*/
void set coveringExpressionLengths(List<int> value) {
this._coveringExpressionLengths = value;
}
/**
* The proposed names for the local variable.
*/
List<String> get names => _names;
/**
* The proposed names for the local variable.
*/
void set names(List<String> value) {
assert(value != null);
this._names = value;
}
/**
* The offsets of the expressions that would be replaced by a reference to
* the variable.
*/
List<int> get offsets => _offsets;
/**
* The offsets of the expressions that would be replaced by a reference to
* the variable.
*/
void set offsets(List<int> value) {
assert(value != null);
this._offsets = value;
}
/**
* The lengths of the expressions that would be replaced by a reference to
* the variable. The lengths correspond to the offsets. In other words, for a
* given expression, if the offset of that expression is offsets[i], then the
* length of that expression is lengths[i].
*/
List<int> get lengths => _lengths;
/**
* The lengths of the expressions that would be replaced by a reference to
* the variable. The lengths correspond to the offsets. In other words, for a
* given expression, if the offset of that expression is offsets[i], then the
* length of that expression is lengths[i].
*/
void set lengths(List<int> value) {
assert(value != null);
this._lengths = value;
}
ExtractLocalVariableFeedback(
List<String> names, List<int> offsets, List<int> lengths,
{List<int> coveringExpressionOffsets,
List<int> coveringExpressionLengths}) {
this.coveringExpressionOffsets = coveringExpressionOffsets;
this.coveringExpressionLengths = coveringExpressionLengths;
this.names = names;
this.offsets = offsets;
this.lengths = lengths;
}
factory ExtractLocalVariableFeedback.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<int> coveringExpressionOffsets;
if (json.containsKey("coveringExpressionOffsets")) {
coveringExpressionOffsets = jsonDecoder.decodeList(
jsonPath + ".coveringExpressionOffsets",
json["coveringExpressionOffsets"],
jsonDecoder.decodeInt);
}
List<int> coveringExpressionLengths;
if (json.containsKey("coveringExpressionLengths")) {
coveringExpressionLengths = jsonDecoder.decodeList(
jsonPath + ".coveringExpressionLengths",
json["coveringExpressionLengths"],
jsonDecoder.decodeInt);
}
List<String> names;
if (json.containsKey("names")) {
names = jsonDecoder.decodeList(
jsonPath + ".names", json["names"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "names");
}
List<int> offsets;
if (json.containsKey("offsets")) {
offsets = jsonDecoder.decodeList(
jsonPath + ".offsets", json["offsets"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "offsets");
}
List<int> lengths;
if (json.containsKey("lengths")) {
lengths = jsonDecoder.decodeList(
jsonPath + ".lengths", json["lengths"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "lengths");
}
return new ExtractLocalVariableFeedback(names, offsets, lengths,
coveringExpressionOffsets: coveringExpressionOffsets,
coveringExpressionLengths: coveringExpressionLengths);
} else {
throw jsonDecoder.mismatch(
jsonPath, "extractLocalVariable feedback", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (coveringExpressionOffsets != null) {
result["coveringExpressionOffsets"] = coveringExpressionOffsets;
}
if (coveringExpressionLengths != null) {
result["coveringExpressionLengths"] = coveringExpressionLengths;
}
result["names"] = names;
result["offsets"] = offsets;
result["lengths"] = lengths;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExtractLocalVariableFeedback) {
return listEqual(coveringExpressionOffsets,
other.coveringExpressionOffsets, (int a, int b) => a == b) &&
listEqual(coveringExpressionLengths, other.coveringExpressionLengths,
(int a, int b) => a == b) &&
listEqual(names, other.names, (String a, String b) => a == b) &&
listEqual(offsets, other.offsets, (int a, int b) => a == b) &&
listEqual(lengths, other.lengths, (int a, int b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, coveringExpressionOffsets.hashCode);
hash = JenkinsSmiHash.combine(hash, coveringExpressionLengths.hashCode);
hash = JenkinsSmiHash.combine(hash, names.hashCode);
hash = JenkinsSmiHash.combine(hash, offsets.hashCode);
hash = JenkinsSmiHash.combine(hash, lengths.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* extractLocalVariable options
*
* {
* "name": String
* "extractAll": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExtractLocalVariableOptions extends RefactoringOptions {
String _name;
bool _extractAll;
/**
* The name that the local variable should be given.
*/
String get name => _name;
/**
* The name that the local variable should be given.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* True if all occurrences of the expression within the scope in which the
* variable will be defined should be replaced by a reference to the local
* variable. The expression used to initiate the refactoring will always be
* replaced.
*/
bool get extractAll => _extractAll;
/**
* True if all occurrences of the expression within the scope in which the
* variable will be defined should be replaced by a reference to the local
* variable. The expression used to initiate the refactoring will always be
* replaced.
*/
void set extractAll(bool value) {
assert(value != null);
this._extractAll = value;
}
ExtractLocalVariableOptions(String name, bool extractAll) {
this.name = name;
this.extractAll = extractAll;
}
factory ExtractLocalVariableOptions.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
bool extractAll;
if (json.containsKey("extractAll")) {
extractAll = jsonDecoder.decodeBool(
jsonPath + ".extractAll", json["extractAll"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "extractAll");
}
return new ExtractLocalVariableOptions(name, extractAll);
} else {
throw jsonDecoder.mismatch(
jsonPath, "extractLocalVariable options", json);
}
}
factory ExtractLocalVariableOptions.fromRefactoringParams(
EditGetRefactoringParams refactoringParams, Request request) {
return new ExtractLocalVariableOptions.fromJson(
new RequestDecoder(request), "options", refactoringParams.options);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
result["extractAll"] = extractAll;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExtractLocalVariableOptions) {
return name == other.name && extractAll == other.extractAll;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, extractAll.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* extractMethod feedback
*
* {
* "offset": int
* "length": int
* "returnType": String
* "names": List<String>
* "canCreateGetter": bool
* "parameters": List<RefactoringMethodParameter>
* "offsets": List<int>
* "lengths": List<int>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExtractMethodFeedback extends RefactoringFeedback {
int _offset;
int _length;
String _returnType;
List<String> _names;
bool _canCreateGetter;
List<RefactoringMethodParameter> _parameters;
List<int> _offsets;
List<int> _lengths;
/**
* The offset to the beginning of the expression or statements that will be
* extracted.
*/
int get offset => _offset;
/**
* The offset to the beginning of the expression or statements that will be
* extracted.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the expression or statements that will be extracted.
*/
int get length => _length;
/**
* The length of the expression or statements that will be extracted.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The proposed return type for the method. If the returned element does not
* have a declared return type, this field will contain an empty string.
*/
String get returnType => _returnType;
/**
* The proposed return type for the method. If the returned element does not
* have a declared return type, this field will contain an empty string.
*/
void set returnType(String value) {
assert(value != null);
this._returnType = value;
}
/**
* The proposed names for the method.
*/
List<String> get names => _names;
/**
* The proposed names for the method.
*/
void set names(List<String> value) {
assert(value != null);
this._names = value;
}
/**
* True if a getter could be created rather than a method.
*/
bool get canCreateGetter => _canCreateGetter;
/**
* True if a getter could be created rather than a method.
*/
void set canCreateGetter(bool value) {
assert(value != null);
this._canCreateGetter = value;
}
/**
* The proposed parameters for the method.
*/
List<RefactoringMethodParameter> get parameters => _parameters;
/**
* The proposed parameters for the method.
*/
void set parameters(List<RefactoringMethodParameter> value) {
assert(value != null);
this._parameters = value;
}
/**
* The offsets of the expressions or statements that would be replaced by an
* invocation of the method.
*/
List<int> get offsets => _offsets;
/**
* The offsets of the expressions or statements that would be replaced by an
* invocation of the method.
*/
void set offsets(List<int> value) {
assert(value != null);
this._offsets = value;
}
/**
* The lengths of the expressions or statements that would be replaced by an
* invocation of the method. The lengths correspond to the offsets. In other
* words, for a given expression (or block of statements), if the offset of
* that expression is offsets[i], then the length of that expression is
* lengths[i].
*/
List<int> get lengths => _lengths;
/**
* The lengths of the expressions or statements that would be replaced by an
* invocation of the method. The lengths correspond to the offsets. In other
* words, for a given expression (or block of statements), if the offset of
* that expression is offsets[i], then the length of that expression is
* lengths[i].
*/
void set lengths(List<int> value) {
assert(value != null);
this._lengths = value;
}
ExtractMethodFeedback(
int offset,
int length,
String returnType,
List<String> names,
bool canCreateGetter,
List<RefactoringMethodParameter> parameters,
List<int> offsets,
List<int> lengths) {
this.offset = offset;
this.length = length;
this.returnType = returnType;
this.names = names;
this.canCreateGetter = canCreateGetter;
this.parameters = parameters;
this.offsets = offsets;
this.lengths = lengths;
}
factory ExtractMethodFeedback.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
String returnType;
if (json.containsKey("returnType")) {
returnType = jsonDecoder.decodeString(
jsonPath + ".returnType", json["returnType"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "returnType");
}
List<String> names;
if (json.containsKey("names")) {
names = jsonDecoder.decodeList(
jsonPath + ".names", json["names"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "names");
}
bool canCreateGetter;
if (json.containsKey("canCreateGetter")) {
canCreateGetter = jsonDecoder.decodeBool(
jsonPath + ".canCreateGetter", json["canCreateGetter"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "canCreateGetter");
}
List<RefactoringMethodParameter> parameters;
if (json.containsKey("parameters")) {
parameters = jsonDecoder.decodeList(
jsonPath + ".parameters",
json["parameters"],
(String jsonPath, Object json) =>
new RefactoringMethodParameter.fromJson(
jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "parameters");
}
List<int> offsets;
if (json.containsKey("offsets")) {
offsets = jsonDecoder.decodeList(
jsonPath + ".offsets", json["offsets"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "offsets");
}
List<int> lengths;
if (json.containsKey("lengths")) {
lengths = jsonDecoder.decodeList(
jsonPath + ".lengths", json["lengths"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "lengths");
}
return new ExtractMethodFeedback(offset, length, returnType, names,
canCreateGetter, parameters, offsets, lengths);
} else {
throw jsonDecoder.mismatch(jsonPath, "extractMethod feedback", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
result["returnType"] = returnType;
result["names"] = names;
result["canCreateGetter"] = canCreateGetter;
result["parameters"] = parameters
.map((RefactoringMethodParameter value) => value.toJson())
.toList();
result["offsets"] = offsets;
result["lengths"] = lengths;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExtractMethodFeedback) {
return offset == other.offset &&
length == other.length &&
returnType == other.returnType &&
listEqual(names, other.names, (String a, String b) => a == b) &&
canCreateGetter == other.canCreateGetter &&
listEqual(
parameters,
other.parameters,
(RefactoringMethodParameter a, RefactoringMethodParameter b) =>
a == b) &&
listEqual(offsets, other.offsets, (int a, int b) => a == b) &&
listEqual(lengths, other.lengths, (int a, int b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, returnType.hashCode);
hash = JenkinsSmiHash.combine(hash, names.hashCode);
hash = JenkinsSmiHash.combine(hash, canCreateGetter.hashCode);
hash = JenkinsSmiHash.combine(hash, parameters.hashCode);
hash = JenkinsSmiHash.combine(hash, offsets.hashCode);
hash = JenkinsSmiHash.combine(hash, lengths.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* extractMethod options
*
* {
* "returnType": String
* "createGetter": bool
* "name": String
* "parameters": List<RefactoringMethodParameter>
* "extractAll": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExtractMethodOptions extends RefactoringOptions {
String _returnType;
bool _createGetter;
String _name;
List<RefactoringMethodParameter> _parameters;
bool _extractAll;
/**
* The return type that should be defined for the method.
*/
String get returnType => _returnType;
/**
* The return type that should be defined for the method.
*/
void set returnType(String value) {
assert(value != null);
this._returnType = value;
}
/**
* True if a getter should be created rather than a method. It is an error if
* this field is true and the list of parameters is non-empty.
*/
bool get createGetter => _createGetter;
/**
* True if a getter should be created rather than a method. It is an error if
* this field is true and the list of parameters is non-empty.
*/
void set createGetter(bool value) {
assert(value != null);
this._createGetter = value;
}
/**
* The name that the method should be given.
*/
String get name => _name;
/**
* The name that the method should be given.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The parameters that should be defined for the method.
*
* It is an error if a REQUIRED or NAMED parameter follows a POSITIONAL
* parameter. It is an error if a REQUIRED or POSITIONAL parameter follows a
* NAMED parameter.
*
* - To change the order and/or update proposed parameters, add parameters
* with the same identifiers as proposed.
* - To add new parameters, omit their identifier.
* - To remove some parameters, omit them in this list.
*/
List<RefactoringMethodParameter> get parameters => _parameters;
/**
* The parameters that should be defined for the method.
*
* It is an error if a REQUIRED or NAMED parameter follows a POSITIONAL
* parameter. It is an error if a REQUIRED or POSITIONAL parameter follows a
* NAMED parameter.
*
* - To change the order and/or update proposed parameters, add parameters
* with the same identifiers as proposed.
* - To add new parameters, omit their identifier.
* - To remove some parameters, omit them in this list.
*/
void set parameters(List<RefactoringMethodParameter> value) {
assert(value != null);
this._parameters = value;
}
/**
* True if all occurrences of the expression or statements should be replaced
* by an invocation of the method. The expression or statements used to
* initiate the refactoring will always be replaced.
*/
bool get extractAll => _extractAll;
/**
* True if all occurrences of the expression or statements should be replaced
* by an invocation of the method. The expression or statements used to
* initiate the refactoring will always be replaced.
*/
void set extractAll(bool value) {
assert(value != null);
this._extractAll = value;
}
ExtractMethodOptions(String returnType, bool createGetter, String name,
List<RefactoringMethodParameter> parameters, bool extractAll) {
this.returnType = returnType;
this.createGetter = createGetter;
this.name = name;
this.parameters = parameters;
this.extractAll = extractAll;
}
factory ExtractMethodOptions.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String returnType;
if (json.containsKey("returnType")) {
returnType = jsonDecoder.decodeString(
jsonPath + ".returnType", json["returnType"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "returnType");
}
bool createGetter;
if (json.containsKey("createGetter")) {
createGetter = jsonDecoder.decodeBool(
jsonPath + ".createGetter", json["createGetter"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "createGetter");
}
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
List<RefactoringMethodParameter> parameters;
if (json.containsKey("parameters")) {
parameters = jsonDecoder.decodeList(
jsonPath + ".parameters",
json["parameters"],
(String jsonPath, Object json) =>
new RefactoringMethodParameter.fromJson(
jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "parameters");
}
bool extractAll;
if (json.containsKey("extractAll")) {
extractAll = jsonDecoder.decodeBool(
jsonPath + ".extractAll", json["extractAll"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "extractAll");
}
return new ExtractMethodOptions(
returnType, createGetter, name, parameters, extractAll);
} else {
throw jsonDecoder.mismatch(jsonPath, "extractMethod options", json);
}
}
factory ExtractMethodOptions.fromRefactoringParams(
EditGetRefactoringParams refactoringParams, Request request) {
return new ExtractMethodOptions.fromJson(
new RequestDecoder(request), "options", refactoringParams.options);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["returnType"] = returnType;
result["createGetter"] = createGetter;
result["name"] = name;
result["parameters"] = parameters
.map((RefactoringMethodParameter value) => value.toJson())
.toList();
result["extractAll"] = extractAll;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExtractMethodOptions) {
return returnType == other.returnType &&
createGetter == other.createGetter &&
name == other.name &&
listEqual(
parameters,
other.parameters,
(RefactoringMethodParameter a, RefactoringMethodParameter b) =>
a == b) &&
extractAll == other.extractAll;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, returnType.hashCode);
hash = JenkinsSmiHash.combine(hash, createGetter.hashCode);
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, parameters.hashCode);
hash = JenkinsSmiHash.combine(hash, extractAll.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* extractWidget feedback
*
* {
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExtractWidgetFeedback extends RefactoringFeedback {
ExtractWidgetFeedback();
factory ExtractWidgetFeedback.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
return new ExtractWidgetFeedback();
} else {
throw jsonDecoder.mismatch(jsonPath, "extractWidget feedback", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExtractWidgetFeedback) {
return true;
}
return false;
}
@override
int get hashCode {
int hash = 0;
return JenkinsSmiHash.finish(hash);
}
}
/**
* extractWidget options
*
* {
* "name": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ExtractWidgetOptions extends RefactoringOptions {
String _name;
/**
* The name that the widget class should be given.
*/
String get name => _name;
/**
* The name that the widget class should be given.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
ExtractWidgetOptions(String name) {
this.name = name;
}
factory ExtractWidgetOptions.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
return new ExtractWidgetOptions(name);
} else {
throw jsonDecoder.mismatch(jsonPath, "extractWidget options", json);
}
}
factory ExtractWidgetOptions.fromRefactoringParams(
EditGetRefactoringParams refactoringParams, Request request) {
return new ExtractWidgetOptions.fromJson(
new RequestDecoder(request), "options", refactoringParams.options);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ExtractWidgetOptions) {
return name == other.name;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* FileKind
*
* enum {
* LIBRARY
* PART
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FileKind implements Enum {
static const FileKind LIBRARY = const FileKind._("LIBRARY");
static const FileKind PART = const FileKind._("PART");
/**
* A list containing all of the enum values that are defined.
*/
static const List<FileKind> VALUES = const <FileKind>[LIBRARY, PART];
@override
final String name;
const FileKind._(this.name);
factory FileKind(String name) {
switch (name) {
case "LIBRARY":
return LIBRARY;
case "PART":
return PART;
}
throw new Exception('Illegal enum value: $name');
}
factory FileKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new FileKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "FileKind", json);
}
@override
String toString() => "FileKind.$name";
String toJson() => name;
}
/**
* flutter.getChangeAddForDesignTimeConstructor params
*
* {
* "file": FilePath
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterGetChangeAddForDesignTimeConstructorParams
implements RequestParams {
String _file;
int _offset;
/**
* The file containing the code of the class.
*/
String get file => _file;
/**
* The file containing the code of the class.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the class in the code.
*/
int get offset => _offset;
/**
* The offset of the class in the code.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
FlutterGetChangeAddForDesignTimeConstructorParams(String file, int offset) {
this.file = file;
this.offset = offset;
}
factory FlutterGetChangeAddForDesignTimeConstructorParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
return new FlutterGetChangeAddForDesignTimeConstructorParams(
file, offset);
} else {
throw jsonDecoder.mismatch(jsonPath,
"flutter.getChangeAddForDesignTimeConstructor params", json);
}
}
factory FlutterGetChangeAddForDesignTimeConstructorParams.fromRequest(
Request request) {
return new FlutterGetChangeAddForDesignTimeConstructorParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
return result;
}
@override
Request toRequest(String id) {
return new Request(
id, "flutter.getChangeAddForDesignTimeConstructor", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is FlutterGetChangeAddForDesignTimeConstructorParams) {
return file == other.file && offset == other.offset;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* flutter.getChangeAddForDesignTimeConstructor result
*
* {
* "change": SourceChange
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterGetChangeAddForDesignTimeConstructorResult
implements ResponseResult {
SourceChange _change;
/**
* The change that adds the forDesignTime() constructor. If the change cannot
* be produced, an error is returned.
*/
SourceChange get change => _change;
/**
* The change that adds the forDesignTime() constructor. If the change cannot
* be produced, an error is returned.
*/
void set change(SourceChange value) {
assert(value != null);
this._change = value;
}
FlutterGetChangeAddForDesignTimeConstructorResult(SourceChange change) {
this.change = change;
}
factory FlutterGetChangeAddForDesignTimeConstructorResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
SourceChange change;
if (json.containsKey("change")) {
change = new SourceChange.fromJson(
jsonDecoder, jsonPath + ".change", json["change"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "change");
}
return new FlutterGetChangeAddForDesignTimeConstructorResult(change);
} else {
throw jsonDecoder.mismatch(jsonPath,
"flutter.getChangeAddForDesignTimeConstructor result", json);
}
}
factory FlutterGetChangeAddForDesignTimeConstructorResult.fromResponse(
Response response) {
return new FlutterGetChangeAddForDesignTimeConstructorResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["change"] = change.toJson();
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is FlutterGetChangeAddForDesignTimeConstructorResult) {
return change == other.change;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, change.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* FlutterOutline
*
* {
* "kind": FlutterOutlineKind
* "offset": int
* "length": int
* "codeOffset": int
* "codeLength": int
* "label": optional String
* "dartElement": optional Element
* "attributes": optional List<FlutterOutlineAttribute>
* "className": optional String
* "parentAssociationLabel": optional String
* "variableName": optional String
* "children": optional List<FlutterOutline>
* "id": optional int
* "isWidgetClass": optional bool
* "renderConstructor": optional String
* "stateClassName": optional String
* "stateOffset": optional int
* "stateLength": optional int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterOutline implements HasToJson {
FlutterOutlineKind _kind;
int _offset;
int _length;
int _codeOffset;
int _codeLength;
String _label;
Element _dartElement;
List<FlutterOutlineAttribute> _attributes;
String _className;
String _parentAssociationLabel;
String _variableName;
List<FlutterOutline> _children;
int _id;
bool _isWidgetClass;
String _renderConstructor;
String _stateClassName;
int _stateOffset;
int _stateLength;
/**
* The kind of the node.
*/
FlutterOutlineKind get kind => _kind;
/**
* The kind of the node.
*/
void set kind(FlutterOutlineKind value) {
assert(value != null);
this._kind = value;
}
/**
* The offset of the first character of the element. This is different than
* the offset in the Element, which is the offset of the name of the element.
* It can be used, for example, to map locations in the file back to an
* outline.
*/
int get offset => _offset;
/**
* The offset of the first character of the element. This is different than
* the offset in the Element, which is the offset of the name of the element.
* It can be used, for example, to map locations in the file back to an
* outline.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the element.
*/
int get length => _length;
/**
* The length of the element.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The offset of the first character of the element code, which is neither
* documentation, nor annotation.
*/
int get codeOffset => _codeOffset;
/**
* The offset of the first character of the element code, which is neither
* documentation, nor annotation.
*/
void set codeOffset(int value) {
assert(value != null);
this._codeOffset = value;
}
/**
* The length of the element code.
*/
int get codeLength => _codeLength;
/**
* The length of the element code.
*/
void set codeLength(int value) {
assert(value != null);
this._codeLength = value;
}
/**
* The text label of the node children of the node. It is provided for any
* FlutterOutlineKind.GENERIC node, where better information is not
* available.
*/
String get label => _label;
/**
* The text label of the node children of the node. It is provided for any
* FlutterOutlineKind.GENERIC node, where better information is not
* available.
*/
void set label(String value) {
this._label = value;
}
/**
* If this node is a Dart element, the description of it; omitted otherwise.
*/
Element get dartElement => _dartElement;
/**
* If this node is a Dart element, the description of it; omitted otherwise.
*/
void set dartElement(Element value) {
this._dartElement = value;
}
/**
* Additional attributes for this node, which might be interesting to display
* on the client. These attributes are usually arguments for the instance
* creation or the invocation that created the widget.
*/
List<FlutterOutlineAttribute> get attributes => _attributes;
/**
* Additional attributes for this node, which might be interesting to display
* on the client. These attributes are usually arguments for the instance
* creation or the invocation that created the widget.
*/
void set attributes(List<FlutterOutlineAttribute> value) {
this._attributes = value;
}
/**
* If the node creates a new class instance, or a reference to an instance,
* this field has the name of the class.
*/
String get className => _className;
/**
* If the node creates a new class instance, or a reference to an instance,
* this field has the name of the class.
*/
void set className(String value) {
this._className = value;
}
/**
* A short text description how this node is associated with the parent node.
* For example "appBar" or "body" in Scaffold.
*/
String get parentAssociationLabel => _parentAssociationLabel;
/**
* A short text description how this node is associated with the parent node.
* For example "appBar" or "body" in Scaffold.
*/
void set parentAssociationLabel(String value) {
this._parentAssociationLabel = value;
}
/**
* If FlutterOutlineKind.VARIABLE, the name of the variable.
*/
String get variableName => _variableName;
/**
* If FlutterOutlineKind.VARIABLE, the name of the variable.
*/
void set variableName(String value) {
this._variableName = value;
}
/**
* The children of the node. The field will be omitted if the node has no
* children.
*/
List<FlutterOutline> get children => _children;
/**
* The children of the node. The field will be omitted if the node has no
* children.
*/
void set children(List<FlutterOutline> value) {
this._children = value;
}
/**
* If the node is a widget, and it is instrumented, the unique identifier of
* this widget, that can be used to associate rendering information with this
* node.
*/
int get id => _id;
/**
* If the node is a widget, and it is instrumented, the unique identifier of
* this widget, that can be used to associate rendering information with this
* node.
*/
void set id(int value) {
this._id = value;
}
/**
* True if the node is a widget class, so it can potentially be rendered,
* even if it does not yet have the rendering constructor. This field is
* omitted if the node is not a widget class.
*/
bool get isWidgetClass => _isWidgetClass;
/**
* True if the node is a widget class, so it can potentially be rendered,
* even if it does not yet have the rendering constructor. This field is
* omitted if the node is not a widget class.
*/
void set isWidgetClass(bool value) {
this._isWidgetClass = value;
}
/**
* If the node is a widget class that can be rendered for IDE, the name of
* the constructor that should be used to instantiate the widget. Empty
* string for default constructor. Absent if the node is not a widget class
* that can be rendered.
*/
String get renderConstructor => _renderConstructor;
/**
* If the node is a widget class that can be rendered for IDE, the name of
* the constructor that should be used to instantiate the widget. Empty
* string for default constructor. Absent if the node is not a widget class
* that can be rendered.
*/
void set renderConstructor(String value) {
this._renderConstructor = value;
}
/**
* If the node is a StatefulWidget, and its state class is defined in the
* same file, the name of the state class.
*/
String get stateClassName => _stateClassName;
/**
* If the node is a StatefulWidget, and its state class is defined in the
* same file, the name of the state class.
*/
void set stateClassName(String value) {
this._stateClassName = value;
}
/**
* If the node is a StatefulWidget that can be rendered, and its state class
* is defined in the same file, the offset of the state class code in the
* file.
*/
int get stateOffset => _stateOffset;
/**
* If the node is a StatefulWidget that can be rendered, and its state class
* is defined in the same file, the offset of the state class code in the
* file.
*/
void set stateOffset(int value) {
this._stateOffset = value;
}
/**
* If the node is a StatefulWidget that can be rendered, and its state class
* is defined in the same file, the length of the state class code in the
* file.
*/
int get stateLength => _stateLength;
/**
* If the node is a StatefulWidget that can be rendered, and its state class
* is defined in the same file, the length of the state class code in the
* file.
*/
void set stateLength(int value) {
this._stateLength = value;
}
FlutterOutline(FlutterOutlineKind kind, int offset, int length,
int codeOffset, int codeLength,
{String label,
Element dartElement,
List<FlutterOutlineAttribute> attributes,
String className,
String parentAssociationLabel,
String variableName,
List<FlutterOutline> children,
int id,
bool isWidgetClass,
String renderConstructor,
String stateClassName,
int stateOffset,
int stateLength}) {
this.kind = kind;
this.offset = offset;
this.length = length;
this.codeOffset = codeOffset;
this.codeLength = codeLength;
this.label = label;
this.dartElement = dartElement;
this.attributes = attributes;
this.className = className;
this.parentAssociationLabel = parentAssociationLabel;
this.variableName = variableName;
this.children = children;
this.id = id;
this.isWidgetClass = isWidgetClass;
this.renderConstructor = renderConstructor;
this.stateClassName = stateClassName;
this.stateOffset = stateOffset;
this.stateLength = stateLength;
}
factory FlutterOutline.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
FlutterOutlineKind kind;
if (json.containsKey("kind")) {
kind = new FlutterOutlineKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
int codeOffset;
if (json.containsKey("codeOffset")) {
codeOffset =
jsonDecoder.decodeInt(jsonPath + ".codeOffset", json["codeOffset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "codeOffset");
}
int codeLength;
if (json.containsKey("codeLength")) {
codeLength =
jsonDecoder.decodeInt(jsonPath + ".codeLength", json["codeLength"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "codeLength");
}
String label;
if (json.containsKey("label")) {
label = jsonDecoder.decodeString(jsonPath + ".label", json["label"]);
}
Element dartElement;
if (json.containsKey("dartElement")) {
dartElement = new Element.fromJson(
jsonDecoder, jsonPath + ".dartElement", json["dartElement"]);
}
List<FlutterOutlineAttribute> attributes;
if (json.containsKey("attributes")) {
attributes = jsonDecoder.decodeList(
jsonPath + ".attributes",
json["attributes"],
(String jsonPath, Object json) =>
new FlutterOutlineAttribute.fromJson(
jsonDecoder, jsonPath, json));
}
String className;
if (json.containsKey("className")) {
className = jsonDecoder.decodeString(
jsonPath + ".className", json["className"]);
}
String parentAssociationLabel;
if (json.containsKey("parentAssociationLabel")) {
parentAssociationLabel = jsonDecoder.decodeString(
jsonPath + ".parentAssociationLabel",
json["parentAssociationLabel"]);
}
String variableName;
if (json.containsKey("variableName")) {
variableName = jsonDecoder.decodeString(
jsonPath + ".variableName", json["variableName"]);
}
List<FlutterOutline> children;
if (json.containsKey("children")) {
children = jsonDecoder.decodeList(
jsonPath + ".children",
json["children"],
(String jsonPath, Object json) =>
new FlutterOutline.fromJson(jsonDecoder, jsonPath, json));
}
int id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeInt(jsonPath + ".id", json["id"]);
}
bool isWidgetClass;
if (json.containsKey("isWidgetClass")) {
isWidgetClass = jsonDecoder.decodeBool(
jsonPath + ".isWidgetClass", json["isWidgetClass"]);
}
String renderConstructor;
if (json.containsKey("renderConstructor")) {
renderConstructor = jsonDecoder.decodeString(
jsonPath + ".renderConstructor", json["renderConstructor"]);
}
String stateClassName;
if (json.containsKey("stateClassName")) {
stateClassName = jsonDecoder.decodeString(
jsonPath + ".stateClassName", json["stateClassName"]);
}
int stateOffset;
if (json.containsKey("stateOffset")) {
stateOffset = jsonDecoder.decodeInt(
jsonPath + ".stateOffset", json["stateOffset"]);
}
int stateLength;
if (json.containsKey("stateLength")) {
stateLength = jsonDecoder.decodeInt(
jsonPath + ".stateLength", json["stateLength"]);
}
return new FlutterOutline(kind, offset, length, codeOffset, codeLength,
label: label,
dartElement: dartElement,
attributes: attributes,
className: className,
parentAssociationLabel: parentAssociationLabel,
variableName: variableName,
children: children,
id: id,
isWidgetClass: isWidgetClass,
renderConstructor: renderConstructor,
stateClassName: stateClassName,
stateOffset: stateOffset,
stateLength: stateLength);
} else {
throw jsonDecoder.mismatch(jsonPath, "FlutterOutline", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["kind"] = kind.toJson();
result["offset"] = offset;
result["length"] = length;
result["codeOffset"] = codeOffset;
result["codeLength"] = codeLength;
if (label != null) {
result["label"] = label;
}
if (dartElement != null) {
result["dartElement"] = dartElement.toJson();
}
if (attributes != null) {
result["attributes"] = attributes
.map((FlutterOutlineAttribute value) => value.toJson())
.toList();
}
if (className != null) {
result["className"] = className;
}
if (parentAssociationLabel != null) {
result["parentAssociationLabel"] = parentAssociationLabel;
}
if (variableName != null) {
result["variableName"] = variableName;
}
if (children != null) {
result["children"] =
children.map((FlutterOutline value) => value.toJson()).toList();
}
if (id != null) {
result["id"] = id;
}
if (isWidgetClass != null) {
result["isWidgetClass"] = isWidgetClass;
}
if (renderConstructor != null) {
result["renderConstructor"] = renderConstructor;
}
if (stateClassName != null) {
result["stateClassName"] = stateClassName;
}
if (stateOffset != null) {
result["stateOffset"] = stateOffset;
}
if (stateLength != null) {
result["stateLength"] = stateLength;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is FlutterOutline) {
return kind == other.kind &&
offset == other.offset &&
length == other.length &&
codeOffset == other.codeOffset &&
codeLength == other.codeLength &&
label == other.label &&
dartElement == other.dartElement &&
listEqual(
attributes,
other.attributes,
(FlutterOutlineAttribute a, FlutterOutlineAttribute b) =>
a == b) &&
className == other.className &&
parentAssociationLabel == other.parentAssociationLabel &&
variableName == other.variableName &&
listEqual(children, other.children,
(FlutterOutline a, FlutterOutline b) => a == b) &&
id == other.id &&
isWidgetClass == other.isWidgetClass &&
renderConstructor == other.renderConstructor &&
stateClassName == other.stateClassName &&
stateOffset == other.stateOffset &&
stateLength == other.stateLength;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, codeOffset.hashCode);
hash = JenkinsSmiHash.combine(hash, codeLength.hashCode);
hash = JenkinsSmiHash.combine(hash, label.hashCode);
hash = JenkinsSmiHash.combine(hash, dartElement.hashCode);
hash = JenkinsSmiHash.combine(hash, attributes.hashCode);
hash = JenkinsSmiHash.combine(hash, className.hashCode);
hash = JenkinsSmiHash.combine(hash, parentAssociationLabel.hashCode);
hash = JenkinsSmiHash.combine(hash, variableName.hashCode);
hash = JenkinsSmiHash.combine(hash, children.hashCode);
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, isWidgetClass.hashCode);
hash = JenkinsSmiHash.combine(hash, renderConstructor.hashCode);
hash = JenkinsSmiHash.combine(hash, stateClassName.hashCode);
hash = JenkinsSmiHash.combine(hash, stateOffset.hashCode);
hash = JenkinsSmiHash.combine(hash, stateLength.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* FlutterOutlineAttribute
*
* {
* "name": String
* "label": String
* "literalValueBoolean": optional bool
* "literalValueInteger": optional int
* "literalValueString": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterOutlineAttribute implements HasToJson {
String _name;
String _label;
bool _literalValueBoolean;
int _literalValueInteger;
String _literalValueString;
/**
* The name of the attribute.
*/
String get name => _name;
/**
* The name of the attribute.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The label of the attribute value, usually the Dart code. It might be quite
* long, the client should abbreviate as needed.
*/
String get label => _label;
/**
* The label of the attribute value, usually the Dart code. It might be quite
* long, the client should abbreviate as needed.
*/
void set label(String value) {
assert(value != null);
this._label = value;
}
/**
* The boolean literal value of the attribute. This field is absent if the
* value is not a boolean literal.
*/
bool get literalValueBoolean => _literalValueBoolean;
/**
* The boolean literal value of the attribute. This field is absent if the
* value is not a boolean literal.
*/
void set literalValueBoolean(bool value) {
this._literalValueBoolean = value;
}
/**
* The integer literal value of the attribute. This field is absent if the
* value is not an integer literal.
*/
int get literalValueInteger => _literalValueInteger;
/**
* The integer literal value of the attribute. This field is absent if the
* value is not an integer literal.
*/
void set literalValueInteger(int value) {
this._literalValueInteger = value;
}
/**
* The string literal value of the attribute. This field is absent if the
* value is not a string literal.
*/
String get literalValueString => _literalValueString;
/**
* The string literal value of the attribute. This field is absent if the
* value is not a string literal.
*/
void set literalValueString(String value) {
this._literalValueString = value;
}
FlutterOutlineAttribute(String name, String label,
{bool literalValueBoolean,
int literalValueInteger,
String literalValueString}) {
this.name = name;
this.label = label;
this.literalValueBoolean = literalValueBoolean;
this.literalValueInteger = literalValueInteger;
this.literalValueString = literalValueString;
}
factory FlutterOutlineAttribute.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
String label;
if (json.containsKey("label")) {
label = jsonDecoder.decodeString(jsonPath + ".label", json["label"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "label");
}
bool literalValueBoolean;
if (json.containsKey("literalValueBoolean")) {
literalValueBoolean = jsonDecoder.decodeBool(
jsonPath + ".literalValueBoolean", json["literalValueBoolean"]);
}
int literalValueInteger;
if (json.containsKey("literalValueInteger")) {
literalValueInteger = jsonDecoder.decodeInt(
jsonPath + ".literalValueInteger", json["literalValueInteger"]);
}
String literalValueString;
if (json.containsKey("literalValueString")) {
literalValueString = jsonDecoder.decodeString(
jsonPath + ".literalValueString", json["literalValueString"]);
}
return new FlutterOutlineAttribute(name, label,
literalValueBoolean: literalValueBoolean,
literalValueInteger: literalValueInteger,
literalValueString: literalValueString);
} else {
throw jsonDecoder.mismatch(jsonPath, "FlutterOutlineAttribute", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
result["label"] = label;
if (literalValueBoolean != null) {
result["literalValueBoolean"] = literalValueBoolean;
}
if (literalValueInteger != null) {
result["literalValueInteger"] = literalValueInteger;
}
if (literalValueString != null) {
result["literalValueString"] = literalValueString;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is FlutterOutlineAttribute) {
return name == other.name &&
label == other.label &&
literalValueBoolean == other.literalValueBoolean &&
literalValueInteger == other.literalValueInteger &&
literalValueString == other.literalValueString;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, label.hashCode);
hash = JenkinsSmiHash.combine(hash, literalValueBoolean.hashCode);
hash = JenkinsSmiHash.combine(hash, literalValueInteger.hashCode);
hash = JenkinsSmiHash.combine(hash, literalValueString.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* FlutterOutlineKind
*
* enum {
* DART_ELEMENT
* GENERIC
* NEW_INSTANCE
* INVOCATION
* VARIABLE
* PLACEHOLDER
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterOutlineKind implements Enum {
/**
* A dart element declaration.
*/
static const FlutterOutlineKind DART_ELEMENT =
const FlutterOutlineKind._("DART_ELEMENT");
/**
* A generic Flutter element, without additional information.
*/
static const FlutterOutlineKind GENERIC =
const FlutterOutlineKind._("GENERIC");
/**
* A new instance creation.
*/
static const FlutterOutlineKind NEW_INSTANCE =
const FlutterOutlineKind._("NEW_INSTANCE");
/**
* An invocation of a method, a top-level function, a function expression,
* etc.
*/
static const FlutterOutlineKind INVOCATION =
const FlutterOutlineKind._("INVOCATION");
/**
* A reference to a local variable, or a field.
*/
static const FlutterOutlineKind VARIABLE =
const FlutterOutlineKind._("VARIABLE");
/**
* The parent node has a required Widget. The node works as a placeholder
* child to drop a new Widget to.
*/
static const FlutterOutlineKind PLACEHOLDER =
const FlutterOutlineKind._("PLACEHOLDER");
/**
* A list containing all of the enum values that are defined.
*/
static const List<FlutterOutlineKind> VALUES = const <FlutterOutlineKind>[
DART_ELEMENT,
GENERIC,
NEW_INSTANCE,
INVOCATION,
VARIABLE,
PLACEHOLDER
];
@override
final String name;
const FlutterOutlineKind._(this.name);
factory FlutterOutlineKind(String name) {
switch (name) {
case "DART_ELEMENT":
return DART_ELEMENT;
case "GENERIC":
return GENERIC;
case "NEW_INSTANCE":
return NEW_INSTANCE;
case "INVOCATION":
return INVOCATION;
case "VARIABLE":
return VARIABLE;
case "PLACEHOLDER":
return PLACEHOLDER;
}
throw new Exception('Illegal enum value: $name');
}
factory FlutterOutlineKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new FlutterOutlineKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "FlutterOutlineKind", json);
}
@override
String toString() => "FlutterOutlineKind.$name";
String toJson() => name;
}
/**
* flutter.outline params
*
* {
* "file": FilePath
* "outline": FlutterOutline
* "instrumentedCode": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterOutlineParams implements HasToJson {
String _file;
FlutterOutline _outline;
String _instrumentedCode;
/**
* The file with which the outline is associated.
*/
String get file => _file;
/**
* The file with which the outline is associated.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The outline associated with the file.
*/
FlutterOutline get outline => _outline;
/**
* The outline associated with the file.
*/
void set outline(FlutterOutline value) {
assert(value != null);
this._outline = value;
}
/**
* If the file has Flutter widgets that can be rendered, this field has the
* instrumented content of the file, that allows associating widgets with
* corresponding outline nodes. If there are no widgets to render, this field
* is absent.
*/
String get instrumentedCode => _instrumentedCode;
/**
* If the file has Flutter widgets that can be rendered, this field has the
* instrumented content of the file, that allows associating widgets with
* corresponding outline nodes. If there are no widgets to render, this field
* is absent.
*/
void set instrumentedCode(String value) {
this._instrumentedCode = value;
}
FlutterOutlineParams(String file, FlutterOutline outline,
{String instrumentedCode}) {
this.file = file;
this.outline = outline;
this.instrumentedCode = instrumentedCode;
}
factory FlutterOutlineParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
FlutterOutline outline;
if (json.containsKey("outline")) {
outline = new FlutterOutline.fromJson(
jsonDecoder, jsonPath + ".outline", json["outline"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "outline");
}
String instrumentedCode;
if (json.containsKey("instrumentedCode")) {
instrumentedCode = jsonDecoder.decodeString(
jsonPath + ".instrumentedCode", json["instrumentedCode"]);
}
return new FlutterOutlineParams(file, outline,
instrumentedCode: instrumentedCode);
} else {
throw jsonDecoder.mismatch(jsonPath, "flutter.outline params", json);
}
}
factory FlutterOutlineParams.fromNotification(Notification notification) {
return new FlutterOutlineParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["outline"] = outline.toJson();
if (instrumentedCode != null) {
result["instrumentedCode"] = instrumentedCode;
}
return result;
}
Notification toNotification() {
return new Notification("flutter.outline", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is FlutterOutlineParams) {
return file == other.file &&
outline == other.outline &&
instrumentedCode == other.instrumentedCode;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, outline.hashCode);
hash = JenkinsSmiHash.combine(hash, instrumentedCode.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* FlutterService
*
* enum {
* OUTLINE
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterService implements Enum {
static const FlutterService OUTLINE = const FlutterService._("OUTLINE");
/**
* A list containing all of the enum values that are defined.
*/
static const List<FlutterService> VALUES = const <FlutterService>[OUTLINE];
@override
final String name;
const FlutterService._(this.name);
factory FlutterService(String name) {
switch (name) {
case "OUTLINE":
return OUTLINE;
}
throw new Exception('Illegal enum value: $name');
}
factory FlutterService.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new FlutterService(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "FlutterService", json);
}
@override
String toString() => "FlutterService.$name";
String toJson() => name;
}
/**
* flutter.setSubscriptions params
*
* {
* "subscriptions": Map<FlutterService, List<FilePath>>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterSetSubscriptionsParams implements RequestParams {
Map<FlutterService, List<String>> _subscriptions;
/**
* A table mapping services to a list of the files being subscribed to the
* service.
*/
Map<FlutterService, List<String>> get subscriptions => _subscriptions;
/**
* A table mapping services to a list of the files being subscribed to the
* service.
*/
void set subscriptions(Map<FlutterService, List<String>> value) {
assert(value != null);
this._subscriptions = value;
}
FlutterSetSubscriptionsParams(
Map<FlutterService, List<String>> subscriptions) {
this.subscriptions = subscriptions;
}
factory FlutterSetSubscriptionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
Map<FlutterService, List<String>> subscriptions;
if (json.containsKey("subscriptions")) {
subscriptions = jsonDecoder.decodeMap(
jsonPath + ".subscriptions", json["subscriptions"],
keyDecoder: (String jsonPath, Object json) =>
new FlutterService.fromJson(jsonDecoder, jsonPath, json),
valueDecoder: (String jsonPath, Object json) => jsonDecoder
.decodeList(jsonPath, json, jsonDecoder.decodeString));
} else {
throw jsonDecoder.mismatch(jsonPath, "subscriptions");
}
return new FlutterSetSubscriptionsParams(subscriptions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "flutter.setSubscriptions params", json);
}
}
factory FlutterSetSubscriptionsParams.fromRequest(Request request) {
return new FlutterSetSubscriptionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["subscriptions"] = mapMap(subscriptions,
keyCallback: (FlutterService value) => value.toJson());
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "flutter.setSubscriptions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is FlutterSetSubscriptionsParams) {
return mapEqual(
subscriptions,
other.subscriptions,
(List<String> a, List<String> b) =>
listEqual(a, b, (String a, String b) => a == b));
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, subscriptions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* flutter.setSubscriptions result
*
* Clients may not extend, implement or mix-in this class.
*/
class FlutterSetSubscriptionsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is FlutterSetSubscriptionsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 628296315;
}
}
/**
* GeneralAnalysisService
*
* enum {
* ANALYZED_FILES
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class GeneralAnalysisService implements Enum {
static const GeneralAnalysisService ANALYZED_FILES =
const GeneralAnalysisService._("ANALYZED_FILES");
/**
* A list containing all of the enum values that are defined.
*/
static const List<GeneralAnalysisService> VALUES =
const <GeneralAnalysisService>[ANALYZED_FILES];
@override
final String name;
const GeneralAnalysisService._(this.name);
factory GeneralAnalysisService(String name) {
switch (name) {
case "ANALYZED_FILES":
return ANALYZED_FILES;
}
throw new Exception('Illegal enum value: $name');
}
factory GeneralAnalysisService.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new GeneralAnalysisService(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "GeneralAnalysisService", json);
}
@override
String toString() => "GeneralAnalysisService.$name";
String toJson() => name;
}
/**
* HoverInformation
*
* {
* "offset": int
* "length": int
* "containingLibraryPath": optional String
* "containingLibraryName": optional String
* "containingClassDescription": optional String
* "dartdoc": optional String
* "elementDescription": optional String
* "elementKind": optional String
* "isDeprecated": optional bool
* "parameter": optional String
* "propagatedType": optional String
* "staticType": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class HoverInformation implements HasToJson {
int _offset;
int _length;
String _containingLibraryPath;
String _containingLibraryName;
String _containingClassDescription;
String _dartdoc;
String _elementDescription;
String _elementKind;
bool _isDeprecated;
String _parameter;
String _propagatedType;
String _staticType;
/**
* The offset of the range of characters that encompasses the cursor position
* and has the same hover information as the cursor position.
*/
int get offset => _offset;
/**
* The offset of the range of characters that encompasses the cursor position
* and has the same hover information as the cursor position.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the range of characters that encompasses the cursor position
* and has the same hover information as the cursor position.
*/
int get length => _length;
/**
* The length of the range of characters that encompasses the cursor position
* and has the same hover information as the cursor position.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The path to the defining compilation unit of the library in which the
* referenced element is declared. This data is omitted if there is no
* referenced element, or if the element is declared inside an HTML file.
*/
String get containingLibraryPath => _containingLibraryPath;
/**
* The path to the defining compilation unit of the library in which the
* referenced element is declared. This data is omitted if there is no
* referenced element, or if the element is declared inside an HTML file.
*/
void set containingLibraryPath(String value) {
this._containingLibraryPath = value;
}
/**
* The URI of the containing library, examples here include "dart:core",
* "package:.." and even "file:.." URIs. The data is omitted if the element
* is declared inside an HTML file.
*/
String get containingLibraryName => _containingLibraryName;
/**
* The URI of the containing library, examples here include "dart:core",
* "package:.." and even "file:.." URIs. The data is omitted if the element
* is declared inside an HTML file.
*/
void set containingLibraryName(String value) {
this._containingLibraryName = value;
}
/**
* A human-readable description of the class declaring the element being
* referenced. This data is omitted if there is no referenced element, or if
* the element is not a class member.
*/
String get containingClassDescription => _containingClassDescription;
/**
* A human-readable description of the class declaring the element being
* referenced. This data is omitted if there is no referenced element, or if
* the element is not a class member.
*/
void set containingClassDescription(String value) {
this._containingClassDescription = value;
}
/**
* The dartdoc associated with the referenced element. Other than the removal
* of the comment delimiters, including leading asterisks in the case of a
* block comment, the dartdoc is unprocessed markdown. This data is omitted
* if there is no referenced element, or if the element has no dartdoc.
*/
String get dartdoc => _dartdoc;
/**
* The dartdoc associated with the referenced element. Other than the removal
* of the comment delimiters, including leading asterisks in the case of a
* block comment, the dartdoc is unprocessed markdown. This data is omitted
* if there is no referenced element, or if the element has no dartdoc.
*/
void set dartdoc(String value) {
this._dartdoc = value;
}
/**
* A human-readable description of the element being referenced. This data is
* omitted if there is no referenced element.
*/
String get elementDescription => _elementDescription;
/**
* A human-readable description of the element being referenced. This data is
* omitted if there is no referenced element.
*/
void set elementDescription(String value) {
this._elementDescription = value;
}
/**
* A human-readable description of the kind of element being referenced (such
* as "class" or "function type alias"). This data is omitted if there is no
* referenced element.
*/
String get elementKind => _elementKind;
/**
* A human-readable description of the kind of element being referenced (such
* as "class" or "function type alias"). This data is omitted if there is no
* referenced element.
*/
void set elementKind(String value) {
this._elementKind = value;
}
/**
* True if the referenced element is deprecated.
*/
bool get isDeprecated => _isDeprecated;
/**
* True if the referenced element is deprecated.
*/
void set isDeprecated(bool value) {
this._isDeprecated = value;
}
/**
* A human-readable description of the parameter corresponding to the
* expression being hovered over. This data is omitted if the location is not
* in an argument to a function.
*/
String get parameter => _parameter;
/**
* A human-readable description of the parameter corresponding to the
* expression being hovered over. This data is omitted if the location is not
* in an argument to a function.
*/
void set parameter(String value) {
this._parameter = value;
}
/**
* The name of the propagated type of the expression. This data is omitted if
* the location does not correspond to an expression or if there is no
* propagated type information.
*/
String get propagatedType => _propagatedType;
/**
* The name of the propagated type of the expression. This data is omitted if
* the location does not correspond to an expression or if there is no
* propagated type information.
*/
void set propagatedType(String value) {
this._propagatedType = value;
}
/**
* The name of the static type of the expression. This data is omitted if the
* location does not correspond to an expression.
*/
String get staticType => _staticType;
/**
* The name of the static type of the expression. This data is omitted if the
* location does not correspond to an expression.
*/
void set staticType(String value) {
this._staticType = value;
}
HoverInformation(int offset, int length,
{String containingLibraryPath,
String containingLibraryName,
String containingClassDescription,
String dartdoc,
String elementDescription,
String elementKind,
bool isDeprecated,
String parameter,
String propagatedType,
String staticType}) {
this.offset = offset;
this.length = length;
this.containingLibraryPath = containingLibraryPath;
this.containingLibraryName = containingLibraryName;
this.containingClassDescription = containingClassDescription;
this.dartdoc = dartdoc;
this.elementDescription = elementDescription;
this.elementKind = elementKind;
this.isDeprecated = isDeprecated;
this.parameter = parameter;
this.propagatedType = propagatedType;
this.staticType = staticType;
}
factory HoverInformation.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
String containingLibraryPath;
if (json.containsKey("containingLibraryPath")) {
containingLibraryPath = jsonDecoder.decodeString(
jsonPath + ".containingLibraryPath", json["containingLibraryPath"]);
}
String containingLibraryName;
if (json.containsKey("containingLibraryName")) {
containingLibraryName = jsonDecoder.decodeString(
jsonPath + ".containingLibraryName", json["containingLibraryName"]);
}
String containingClassDescription;
if (json.containsKey("containingClassDescription")) {
containingClassDescription = jsonDecoder.decodeString(
jsonPath + ".containingClassDescription",
json["containingClassDescription"]);
}
String dartdoc;
if (json.containsKey("dartdoc")) {
dartdoc =
jsonDecoder.decodeString(jsonPath + ".dartdoc", json["dartdoc"]);
}
String elementDescription;
if (json.containsKey("elementDescription")) {
elementDescription = jsonDecoder.decodeString(
jsonPath + ".elementDescription", json["elementDescription"]);
}
String elementKind;
if (json.containsKey("elementKind")) {
elementKind = jsonDecoder.decodeString(
jsonPath + ".elementKind", json["elementKind"]);
}
bool isDeprecated;
if (json.containsKey("isDeprecated")) {
isDeprecated = jsonDecoder.decodeBool(
jsonPath + ".isDeprecated", json["isDeprecated"]);
}
String parameter;
if (json.containsKey("parameter")) {
parameter = jsonDecoder.decodeString(
jsonPath + ".parameter", json["parameter"]);
}
String propagatedType;
if (json.containsKey("propagatedType")) {
propagatedType = jsonDecoder.decodeString(
jsonPath + ".propagatedType", json["propagatedType"]);
}
String staticType;
if (json.containsKey("staticType")) {
staticType = jsonDecoder.decodeString(
jsonPath + ".staticType", json["staticType"]);
}
return new HoverInformation(offset, length,
containingLibraryPath: containingLibraryPath,
containingLibraryName: containingLibraryName,
containingClassDescription: containingClassDescription,
dartdoc: dartdoc,
elementDescription: elementDescription,
elementKind: elementKind,
isDeprecated: isDeprecated,
parameter: parameter,
propagatedType: propagatedType,
staticType: staticType);
} else {
throw jsonDecoder.mismatch(jsonPath, "HoverInformation", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
if (containingLibraryPath != null) {
result["containingLibraryPath"] = containingLibraryPath;
}
if (containingLibraryName != null) {
result["containingLibraryName"] = containingLibraryName;
}
if (containingClassDescription != null) {
result["containingClassDescription"] = containingClassDescription;
}
if (dartdoc != null) {
result["dartdoc"] = dartdoc;
}
if (elementDescription != null) {
result["elementDescription"] = elementDescription;
}
if (elementKind != null) {
result["elementKind"] = elementKind;
}
if (isDeprecated != null) {
result["isDeprecated"] = isDeprecated;
}
if (parameter != null) {
result["parameter"] = parameter;
}
if (propagatedType != null) {
result["propagatedType"] = propagatedType;
}
if (staticType != null) {
result["staticType"] = staticType;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is HoverInformation) {
return offset == other.offset &&
length == other.length &&
containingLibraryPath == other.containingLibraryPath &&
containingLibraryName == other.containingLibraryName &&
containingClassDescription == other.containingClassDescription &&
dartdoc == other.dartdoc &&
elementDescription == other.elementDescription &&
elementKind == other.elementKind &&
isDeprecated == other.isDeprecated &&
parameter == other.parameter &&
propagatedType == other.propagatedType &&
staticType == other.staticType;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, containingLibraryPath.hashCode);
hash = JenkinsSmiHash.combine(hash, containingLibraryName.hashCode);
hash = JenkinsSmiHash.combine(hash, containingClassDescription.hashCode);
hash = JenkinsSmiHash.combine(hash, dartdoc.hashCode);
hash = JenkinsSmiHash.combine(hash, elementDescription.hashCode);
hash = JenkinsSmiHash.combine(hash, elementKind.hashCode);
hash = JenkinsSmiHash.combine(hash, isDeprecated.hashCode);
hash = JenkinsSmiHash.combine(hash, parameter.hashCode);
hash = JenkinsSmiHash.combine(hash, propagatedType.hashCode);
hash = JenkinsSmiHash.combine(hash, staticType.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ImplementedClass
*
* {
* "offset": int
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ImplementedClass implements HasToJson {
int _offset;
int _length;
/**
* The offset of the name of the implemented class.
*/
int get offset => _offset;
/**
* The offset of the name of the implemented class.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the name of the implemented class.
*/
int get length => _length;
/**
* The length of the name of the implemented class.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
ImplementedClass(int offset, int length) {
this.offset = offset;
this.length = length;
}
factory ImplementedClass.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
return new ImplementedClass(offset, length);
} else {
throw jsonDecoder.mismatch(jsonPath, "ImplementedClass", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ImplementedClass) {
return offset == other.offset && length == other.length;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ImplementedMember
*
* {
* "offset": int
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ImplementedMember implements HasToJson {
int _offset;
int _length;
/**
* The offset of the name of the implemented member.
*/
int get offset => _offset;
/**
* The offset of the name of the implemented member.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the name of the implemented member.
*/
int get length => _length;
/**
* The length of the name of the implemented member.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
ImplementedMember(int offset, int length) {
this.offset = offset;
this.length = length;
}
factory ImplementedMember.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
return new ImplementedMember(offset, length);
} else {
throw jsonDecoder.mismatch(jsonPath, "ImplementedMember", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ImplementedMember) {
return offset == other.offset && length == other.length;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ImportedElementSet
*
* {
* "strings": List<String>
* "uris": List<int>
* "names": List<int>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ImportedElementSet implements HasToJson {
List<String> _strings;
List<int> _uris;
List<int> _names;
/**
* The list of unique strings in this object.
*/
List<String> get strings => _strings;
/**
* The list of unique strings in this object.
*/
void set strings(List<String> value) {
assert(value != null);
this._strings = value;
}
/**
* The library URI part of the element. It is an index in the strings field.
*/
List<int> get uris => _uris;
/**
* The library URI part of the element. It is an index in the strings field.
*/
void set uris(List<int> value) {
assert(value != null);
this._uris = value;
}
/**
* The name part of a the element. It is an index in the strings field.
*/
List<int> get names => _names;
/**
* The name part of a the element. It is an index in the strings field.
*/
void set names(List<int> value) {
assert(value != null);
this._names = value;
}
ImportedElementSet(List<String> strings, List<int> uris, List<int> names) {
this.strings = strings;
this.uris = uris;
this.names = names;
}
factory ImportedElementSet.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<String> strings;
if (json.containsKey("strings")) {
strings = jsonDecoder.decodeList(
jsonPath + ".strings", json["strings"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "strings");
}
List<int> uris;
if (json.containsKey("uris")) {
uris = jsonDecoder.decodeList(
jsonPath + ".uris", json["uris"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "uris");
}
List<int> names;
if (json.containsKey("names")) {
names = jsonDecoder.decodeList(
jsonPath + ".names", json["names"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "names");
}
return new ImportedElementSet(strings, uris, names);
} else {
throw jsonDecoder.mismatch(jsonPath, "ImportedElementSet", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["strings"] = strings;
result["uris"] = uris;
result["names"] = names;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ImportedElementSet) {
return listEqual(
strings, other.strings, (String a, String b) => a == b) &&
listEqual(uris, other.uris, (int a, int b) => a == b) &&
listEqual(names, other.names, (int a, int b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, strings.hashCode);
hash = JenkinsSmiHash.combine(hash, uris.hashCode);
hash = JenkinsSmiHash.combine(hash, names.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ImportedElements
*
* {
* "path": FilePath
* "prefix": String
* "elements": List<String>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ImportedElements implements HasToJson {
String _path;
String _prefix;
List<String> _elements;
/**
* The absolute and normalized path of the file containing the library.
*/
String get path => _path;
/**
* The absolute and normalized path of the file containing the library.
*/
void set path(String value) {
assert(value != null);
this._path = value;
}
/**
* The prefix that was used when importing the library into the original
* source.
*/
String get prefix => _prefix;
/**
* The prefix that was used when importing the library into the original
* source.
*/
void set prefix(String value) {
assert(value != null);
this._prefix = value;
}
/**
* The names of the elements imported from the library.
*/
List<String> get elements => _elements;
/**
* The names of the elements imported from the library.
*/
void set elements(List<String> value) {
assert(value != null);
this._elements = value;
}
ImportedElements(String path, String prefix, List<String> elements) {
this.path = path;
this.prefix = prefix;
this.elements = elements;
}
factory ImportedElements.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String path;
if (json.containsKey("path")) {
path = jsonDecoder.decodeString(jsonPath + ".path", json["path"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "path");
}
String prefix;
if (json.containsKey("prefix")) {
prefix = jsonDecoder.decodeString(jsonPath + ".prefix", json["prefix"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "prefix");
}
List<String> elements;
if (json.containsKey("elements")) {
elements = jsonDecoder.decodeList(
jsonPath + ".elements", json["elements"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "elements");
}
return new ImportedElements(path, prefix, elements);
} else {
throw jsonDecoder.mismatch(jsonPath, "ImportedElements", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["path"] = path;
result["prefix"] = prefix;
result["elements"] = elements;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ImportedElements) {
return path == other.path &&
prefix == other.prefix &&
listEqual(elements, other.elements, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, path.hashCode);
hash = JenkinsSmiHash.combine(hash, prefix.hashCode);
hash = JenkinsSmiHash.combine(hash, elements.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* IncludedSuggestionRelevanceTag
*
* {
* "tag": AvailableSuggestionRelevanceTag
* "relevanceBoost": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class IncludedSuggestionRelevanceTag implements HasToJson {
String _tag;
int _relevanceBoost;
/**
* The opaque value of the tag.
*/
String get tag => _tag;
/**
* The opaque value of the tag.
*/
void set tag(String value) {
assert(value != null);
this._tag = value;
}
/**
* The boost to the relevance of the completion suggestions that match this
* tag, which is added to the relevance of the containing
* IncludedSuggestionSet.
*/
int get relevanceBoost => _relevanceBoost;
/**
* The boost to the relevance of the completion suggestions that match this
* tag, which is added to the relevance of the containing
* IncludedSuggestionSet.
*/
void set relevanceBoost(int value) {
assert(value != null);
this._relevanceBoost = value;
}
IncludedSuggestionRelevanceTag(String tag, int relevanceBoost) {
this.tag = tag;
this.relevanceBoost = relevanceBoost;
}
factory IncludedSuggestionRelevanceTag.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String tag;
if (json.containsKey("tag")) {
tag = jsonDecoder.decodeString(jsonPath + ".tag", json["tag"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "tag");
}
int relevanceBoost;
if (json.containsKey("relevanceBoost")) {
relevanceBoost = jsonDecoder.decodeInt(
jsonPath + ".relevanceBoost", json["relevanceBoost"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "relevanceBoost");
}
return new IncludedSuggestionRelevanceTag(tag, relevanceBoost);
} else {
throw jsonDecoder.mismatch(
jsonPath, "IncludedSuggestionRelevanceTag", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["tag"] = tag;
result["relevanceBoost"] = relevanceBoost;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is IncludedSuggestionRelevanceTag) {
return tag == other.tag && relevanceBoost == other.relevanceBoost;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, tag.hashCode);
hash = JenkinsSmiHash.combine(hash, relevanceBoost.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* IncludedSuggestionSet
*
* {
* "id": int
* "relevance": int
* "displayUri": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class IncludedSuggestionSet implements HasToJson {
int _id;
int _relevance;
String _displayUri;
/**
* Clients should use it to access the set of precomputed completions to be
* displayed to the user.
*/
int get id => _id;
/**
* Clients should use it to access the set of precomputed completions to be
* displayed to the user.
*/
void set id(int value) {
assert(value != null);
this._id = value;
}
/**
* The relevance of completion suggestions from this library where a higher
* number indicates a higher relevance.
*/
int get relevance => _relevance;
/**
* The relevance of completion suggestions from this library where a higher
* number indicates a higher relevance.
*/
void set relevance(int value) {
assert(value != null);
this._relevance = value;
}
/**
* The optional string that should be displayed instead of the uri of the
* referenced AvailableSuggestionSet.
*
* For example libraries in the "test" directory of a package have only
* "file://" URIs, so are usually long, and don't look nice, but actual
* import directives will use relative URIs, which are short, so we probably
* want to display such relative URIs to the user.
*/
String get displayUri => _displayUri;
/**
* The optional string that should be displayed instead of the uri of the
* referenced AvailableSuggestionSet.
*
* For example libraries in the "test" directory of a package have only
* "file://" URIs, so are usually long, and don't look nice, but actual
* import directives will use relative URIs, which are short, so we probably
* want to display such relative URIs to the user.
*/
void set displayUri(String value) {
this._displayUri = value;
}
IncludedSuggestionSet(int id, int relevance, {String displayUri}) {
this.id = id;
this.relevance = relevance;
this.displayUri = displayUri;
}
factory IncludedSuggestionSet.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeInt(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
int relevance;
if (json.containsKey("relevance")) {
relevance =
jsonDecoder.decodeInt(jsonPath + ".relevance", json["relevance"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "relevance");
}
String displayUri;
if (json.containsKey("displayUri")) {
displayUri = jsonDecoder.decodeString(
jsonPath + ".displayUri", json["displayUri"]);
}
return new IncludedSuggestionSet(id, relevance, displayUri: displayUri);
} else {
throw jsonDecoder.mismatch(jsonPath, "IncludedSuggestionSet", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
result["relevance"] = relevance;
if (displayUri != null) {
result["displayUri"] = displayUri;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is IncludedSuggestionSet) {
return id == other.id &&
relevance == other.relevance &&
displayUri == other.displayUri;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, relevance.hashCode);
hash = JenkinsSmiHash.combine(hash, displayUri.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* inlineLocalVariable feedback
*
* {
* "name": String
* "occurrences": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class InlineLocalVariableFeedback extends RefactoringFeedback {
String _name;
int _occurrences;
/**
* The name of the variable being inlined.
*/
String get name => _name;
/**
* The name of the variable being inlined.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The number of times the variable occurs.
*/
int get occurrences => _occurrences;
/**
* The number of times the variable occurs.
*/
void set occurrences(int value) {
assert(value != null);
this._occurrences = value;
}
InlineLocalVariableFeedback(String name, int occurrences) {
this.name = name;
this.occurrences = occurrences;
}
factory InlineLocalVariableFeedback.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
int occurrences;
if (json.containsKey("occurrences")) {
occurrences = jsonDecoder.decodeInt(
jsonPath + ".occurrences", json["occurrences"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "occurrences");
}
return new InlineLocalVariableFeedback(name, occurrences);
} else {
throw jsonDecoder.mismatch(
jsonPath, "inlineLocalVariable feedback", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
result["occurrences"] = occurrences;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is InlineLocalVariableFeedback) {
return name == other.name && occurrences == other.occurrences;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, occurrences.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* inlineLocalVariable options
*
* Clients may not extend, implement or mix-in this class.
*/
class InlineLocalVariableOptions extends RefactoringOptions
implements HasToJson {
@override
bool operator ==(other) {
if (other is InlineLocalVariableOptions) {
return true;
}
return false;
}
@override
int get hashCode {
return 540364977;
}
}
/**
* inlineMethod feedback
*
* {
* "className": optional String
* "methodName": String
* "isDeclaration": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class InlineMethodFeedback extends RefactoringFeedback {
String _className;
String _methodName;
bool _isDeclaration;
/**
* The name of the class enclosing the method being inlined. If not a class
* member is being inlined, this field will be absent.
*/
String get className => _className;
/**
* The name of the class enclosing the method being inlined. If not a class
* member is being inlined, this field will be absent.
*/
void set className(String value) {
this._className = value;
}
/**
* The name of the method (or function) being inlined.
*/
String get methodName => _methodName;
/**
* The name of the method (or function) being inlined.
*/
void set methodName(String value) {
assert(value != null);
this._methodName = value;
}
/**
* True if the declaration of the method is selected. So all references
* should be inlined.
*/
bool get isDeclaration => _isDeclaration;
/**
* True if the declaration of the method is selected. So all references
* should be inlined.
*/
void set isDeclaration(bool value) {
assert(value != null);
this._isDeclaration = value;
}
InlineMethodFeedback(String methodName, bool isDeclaration,
{String className}) {
this.className = className;
this.methodName = methodName;
this.isDeclaration = isDeclaration;
}
factory InlineMethodFeedback.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String className;
if (json.containsKey("className")) {
className = jsonDecoder.decodeString(
jsonPath + ".className", json["className"]);
}
String methodName;
if (json.containsKey("methodName")) {
methodName = jsonDecoder.decodeString(
jsonPath + ".methodName", json["methodName"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "methodName");
}
bool isDeclaration;
if (json.containsKey("isDeclaration")) {
isDeclaration = jsonDecoder.decodeBool(
jsonPath + ".isDeclaration", json["isDeclaration"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isDeclaration");
}
return new InlineMethodFeedback(methodName, isDeclaration,
className: className);
} else {
throw jsonDecoder.mismatch(jsonPath, "inlineMethod feedback", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (className != null) {
result["className"] = className;
}
result["methodName"] = methodName;
result["isDeclaration"] = isDeclaration;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is InlineMethodFeedback) {
return className == other.className &&
methodName == other.methodName &&
isDeclaration == other.isDeclaration;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, className.hashCode);
hash = JenkinsSmiHash.combine(hash, methodName.hashCode);
hash = JenkinsSmiHash.combine(hash, isDeclaration.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* inlineMethod options
*
* {
* "deleteSource": bool
* "inlineAll": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class InlineMethodOptions extends RefactoringOptions {
bool _deleteSource;
bool _inlineAll;
/**
* True if the method being inlined should be removed. It is an error if this
* field is true and inlineAll is false.
*/
bool get deleteSource => _deleteSource;
/**
* True if the method being inlined should be removed. It is an error if this
* field is true and inlineAll is false.
*/
void set deleteSource(bool value) {
assert(value != null);
this._deleteSource = value;
}
/**
* True if all invocations of the method should be inlined, or false if only
* the invocation site used to create this refactoring should be inlined.
*/
bool get inlineAll => _inlineAll;
/**
* True if all invocations of the method should be inlined, or false if only
* the invocation site used to create this refactoring should be inlined.
*/
void set inlineAll(bool value) {
assert(value != null);
this._inlineAll = value;
}
InlineMethodOptions(bool deleteSource, bool inlineAll) {
this.deleteSource = deleteSource;
this.inlineAll = inlineAll;
}
factory InlineMethodOptions.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
bool deleteSource;
if (json.containsKey("deleteSource")) {
deleteSource = jsonDecoder.decodeBool(
jsonPath + ".deleteSource", json["deleteSource"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "deleteSource");
}
bool inlineAll;
if (json.containsKey("inlineAll")) {
inlineAll =
jsonDecoder.decodeBool(jsonPath + ".inlineAll", json["inlineAll"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "inlineAll");
}
return new InlineMethodOptions(deleteSource, inlineAll);
} else {
throw jsonDecoder.mismatch(jsonPath, "inlineMethod options", json);
}
}
factory InlineMethodOptions.fromRefactoringParams(
EditGetRefactoringParams refactoringParams, Request request) {
return new InlineMethodOptions.fromJson(
new RequestDecoder(request), "options", refactoringParams.options);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["deleteSource"] = deleteSource;
result["inlineAll"] = inlineAll;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is InlineMethodOptions) {
return deleteSource == other.deleteSource && inlineAll == other.inlineAll;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, deleteSource.hashCode);
hash = JenkinsSmiHash.combine(hash, inlineAll.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* kythe.getKytheEntries params
*
* {
* "file": FilePath
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class KytheGetKytheEntriesParams implements RequestParams {
String _file;
/**
* The file containing the code for which the Kythe Entry objects are being
* requested.
*/
String get file => _file;
/**
* The file containing the code for which the Kythe Entry objects are being
* requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
KytheGetKytheEntriesParams(String file) {
this.file = file;
}
factory KytheGetKytheEntriesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
return new KytheGetKytheEntriesParams(file);
} else {
throw jsonDecoder.mismatch(
jsonPath, "kythe.getKytheEntries params", json);
}
}
factory KytheGetKytheEntriesParams.fromRequest(Request request) {
return new KytheGetKytheEntriesParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "kythe.getKytheEntries", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is KytheGetKytheEntriesParams) {
return file == other.file;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* kythe.getKytheEntries result
*
* {
* "entries": List<KytheEntry>
* "files": List<FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class KytheGetKytheEntriesResult implements ResponseResult {
List<KytheEntry> _entries;
List<String> _files;
/**
* The list of KytheEntry objects for the queried file.
*/
List<KytheEntry> get entries => _entries;
/**
* The list of KytheEntry objects for the queried file.
*/
void set entries(List<KytheEntry> value) {
assert(value != null);
this._entries = value;
}
/**
* The set of files paths that were required, but not in the file system, to
* give a complete and accurate Kythe graph for the file. This could be due
* to a referenced file that does not exist or generated files not being
* generated or passed before the call to "getKytheEntries".
*/
List<String> get files => _files;
/**
* The set of files paths that were required, but not in the file system, to
* give a complete and accurate Kythe graph for the file. This could be due
* to a referenced file that does not exist or generated files not being
* generated or passed before the call to "getKytheEntries".
*/
void set files(List<String> value) {
assert(value != null);
this._files = value;
}
KytheGetKytheEntriesResult(List<KytheEntry> entries, List<String> files) {
this.entries = entries;
this.files = files;
}
factory KytheGetKytheEntriesResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<KytheEntry> entries;
if (json.containsKey("entries")) {
entries = jsonDecoder.decodeList(
jsonPath + ".entries",
json["entries"],
(String jsonPath, Object json) =>
new KytheEntry.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "entries");
}
List<String> files;
if (json.containsKey("files")) {
files = jsonDecoder.decodeList(
jsonPath + ".files", json["files"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "files");
}
return new KytheGetKytheEntriesResult(entries, files);
} else {
throw jsonDecoder.mismatch(
jsonPath, "kythe.getKytheEntries result", json);
}
}
factory KytheGetKytheEntriesResult.fromResponse(Response response) {
return new KytheGetKytheEntriesResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["entries"] =
entries.map((KytheEntry value) => value.toJson()).toList();
result["files"] = files;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is KytheGetKytheEntriesResult) {
return listEqual(
entries, other.entries, (KytheEntry a, KytheEntry b) => a == b) &&
listEqual(files, other.files, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, entries.hashCode);
hash = JenkinsSmiHash.combine(hash, files.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* LibraryPathSet
*
* {
* "scope": FilePath
* "libraryPaths": List<FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class LibraryPathSet implements HasToJson {
String _scope;
List<String> _libraryPaths;
/**
* The filepath for which this request's libraries should be active in
* completion suggestions. This object associates filesystem regions to
* libraries and library directories of interest to the client.
*/
String get scope => _scope;
/**
* The filepath for which this request's libraries should be active in
* completion suggestions. This object associates filesystem regions to
* libraries and library directories of interest to the client.
*/
void set scope(String value) {
assert(value != null);
this._scope = value;
}
/**
* The paths of the libraries of interest to the client for completion
* suggestions.
*/
List<String> get libraryPaths => _libraryPaths;
/**
* The paths of the libraries of interest to the client for completion
* suggestions.
*/
void set libraryPaths(List<String> value) {
assert(value != null);
this._libraryPaths = value;
}
LibraryPathSet(String scope, List<String> libraryPaths) {
this.scope = scope;
this.libraryPaths = libraryPaths;
}
factory LibraryPathSet.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String scope;
if (json.containsKey("scope")) {
scope = jsonDecoder.decodeString(jsonPath + ".scope", json["scope"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "scope");
}
List<String> libraryPaths;
if (json.containsKey("libraryPaths")) {
libraryPaths = jsonDecoder.decodeList(jsonPath + ".libraryPaths",
json["libraryPaths"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "libraryPaths");
}
return new LibraryPathSet(scope, libraryPaths);
} else {
throw jsonDecoder.mismatch(jsonPath, "LibraryPathSet", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["scope"] = scope;
result["libraryPaths"] = libraryPaths;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is LibraryPathSet) {
return scope == other.scope &&
listEqual(
libraryPaths, other.libraryPaths, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, scope.hashCode);
hash = JenkinsSmiHash.combine(hash, libraryPaths.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* moveFile feedback
*
* Clients may not extend, implement or mix-in this class.
*/
class MoveFileFeedback extends RefactoringFeedback implements HasToJson {
@override
bool operator ==(other) {
if (other is MoveFileFeedback) {
return true;
}
return false;
}
@override
int get hashCode {
return 438975893;
}
}
/**
* moveFile options
*
* {
* "newFile": FilePath
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class MoveFileOptions extends RefactoringOptions {
String _newFile;
/**
* The new file path to which the given file is being moved.
*/
String get newFile => _newFile;
/**
* The new file path to which the given file is being moved.
*/
void set newFile(String value) {
assert(value != null);
this._newFile = value;
}
MoveFileOptions(String newFile) {
this.newFile = newFile;
}
factory MoveFileOptions.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String newFile;
if (json.containsKey("newFile")) {
newFile =
jsonDecoder.decodeString(jsonPath + ".newFile", json["newFile"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "newFile");
}
return new MoveFileOptions(newFile);
} else {
throw jsonDecoder.mismatch(jsonPath, "moveFile options", json);
}
}
factory MoveFileOptions.fromRefactoringParams(
EditGetRefactoringParams refactoringParams, Request request) {
return new MoveFileOptions.fromJson(
new RequestDecoder(request), "options", refactoringParams.options);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["newFile"] = newFile;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is MoveFileOptions) {
return newFile == other.newFile;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, newFile.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* OverriddenMember
*
* {
* "element": Element
* "className": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class OverriddenMember implements HasToJson {
Element _element;
String _className;
/**
* The element that is being overridden.
*/
Element get element => _element;
/**
* The element that is being overridden.
*/
void set element(Element value) {
assert(value != null);
this._element = value;
}
/**
* The name of the class in which the member is defined.
*/
String get className => _className;
/**
* The name of the class in which the member is defined.
*/
void set className(String value) {
assert(value != null);
this._className = value;
}
OverriddenMember(Element element, String className) {
this.element = element;
this.className = className;
}
factory OverriddenMember.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
Element element;
if (json.containsKey("element")) {
element = new Element.fromJson(
jsonDecoder, jsonPath + ".element", json["element"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "element");
}
String className;
if (json.containsKey("className")) {
className = jsonDecoder.decodeString(
jsonPath + ".className", json["className"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "className");
}
return new OverriddenMember(element, className);
} else {
throw jsonDecoder.mismatch(jsonPath, "OverriddenMember", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["element"] = element.toJson();
result["className"] = className;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is OverriddenMember) {
return element == other.element && className == other.className;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, element.hashCode);
hash = JenkinsSmiHash.combine(hash, className.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* Override
*
* {
* "offset": int
* "length": int
* "superclassMember": optional OverriddenMember
* "interfaceMembers": optional List<OverriddenMember>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class Override implements HasToJson {
int _offset;
int _length;
OverriddenMember _superclassMember;
List<OverriddenMember> _interfaceMembers;
/**
* The offset of the name of the overriding member.
*/
int get offset => _offset;
/**
* The offset of the name of the overriding member.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the name of the overriding member.
*/
int get length => _length;
/**
* The length of the name of the overriding member.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The member inherited from a superclass that is overridden by the
* overriding member. The field is omitted if there is no superclass member,
* in which case there must be at least one interface member.
*/
OverriddenMember get superclassMember => _superclassMember;
/**
* The member inherited from a superclass that is overridden by the
* overriding member. The field is omitted if there is no superclass member,
* in which case there must be at least one interface member.
*/
void set superclassMember(OverriddenMember value) {
this._superclassMember = value;
}
/**
* The members inherited from interfaces that are overridden by the
* overriding member. The field is omitted if there are no interface members,
* in which case there must be a superclass member.
*/
List<OverriddenMember> get interfaceMembers => _interfaceMembers;
/**
* The members inherited from interfaces that are overridden by the
* overriding member. The field is omitted if there are no interface members,
* in which case there must be a superclass member.
*/
void set interfaceMembers(List<OverriddenMember> value) {
this._interfaceMembers = value;
}
Override(int offset, int length,
{OverriddenMember superclassMember,
List<OverriddenMember> interfaceMembers}) {
this.offset = offset;
this.length = length;
this.superclassMember = superclassMember;
this.interfaceMembers = interfaceMembers;
}
factory Override.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
OverriddenMember superclassMember;
if (json.containsKey("superclassMember")) {
superclassMember = new OverriddenMember.fromJson(jsonDecoder,
jsonPath + ".superclassMember", json["superclassMember"]);
}
List<OverriddenMember> interfaceMembers;
if (json.containsKey("interfaceMembers")) {
interfaceMembers = jsonDecoder.decodeList(
jsonPath + ".interfaceMembers",
json["interfaceMembers"],
(String jsonPath, Object json) =>
new OverriddenMember.fromJson(jsonDecoder, jsonPath, json));
}
return new Override(offset, length,
superclassMember: superclassMember,
interfaceMembers: interfaceMembers);
} else {
throw jsonDecoder.mismatch(jsonPath, "Override", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
if (superclassMember != null) {
result["superclassMember"] = superclassMember.toJson();
}
if (interfaceMembers != null) {
result["interfaceMembers"] = interfaceMembers
.map((OverriddenMember value) => value.toJson())
.toList();
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is Override) {
return offset == other.offset &&
length == other.length &&
superclassMember == other.superclassMember &&
listEqual(interfaceMembers, other.interfaceMembers,
(OverriddenMember a, OverriddenMember b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, superclassMember.hashCode);
hash = JenkinsSmiHash.combine(hash, interfaceMembers.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* PostfixTemplateDescriptor
*
* {
* "name": String
* "key": String
* "example": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class PostfixTemplateDescriptor implements HasToJson {
String _name;
String _key;
String _example;
/**
* The template name, shown in the UI.
*/
String get name => _name;
/**
* The template name, shown in the UI.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The unique template key, not shown in the UI.
*/
String get key => _key;
/**
* The unique template key, not shown in the UI.
*/
void set key(String value) {
assert(value != null);
this._key = value;
}
/**
* A short example of the transformation performed when the template is
* applied.
*/
String get example => _example;
/**
* A short example of the transformation performed when the template is
* applied.
*/
void set example(String value) {
assert(value != null);
this._example = value;
}
PostfixTemplateDescriptor(String name, String key, String example) {
this.name = name;
this.key = key;
this.example = example;
}
factory PostfixTemplateDescriptor.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
String key;
if (json.containsKey("key")) {
key = jsonDecoder.decodeString(jsonPath + ".key", json["key"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "key");
}
String example;
if (json.containsKey("example")) {
example =
jsonDecoder.decodeString(jsonPath + ".example", json["example"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "example");
}
return new PostfixTemplateDescriptor(name, key, example);
} else {
throw jsonDecoder.mismatch(jsonPath, "PostfixTemplateDescriptor", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
result["key"] = key;
result["example"] = example;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is PostfixTemplateDescriptor) {
return name == other.name && key == other.key && example == other.example;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, key.hashCode);
hash = JenkinsSmiHash.combine(hash, example.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* PubStatus
*
* {
* "isListingPackageDirs": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class PubStatus implements HasToJson {
bool _isListingPackageDirs;
/**
* True if the server is currently running pub to produce a list of package
* directories.
*/
bool get isListingPackageDirs => _isListingPackageDirs;
/**
* True if the server is currently running pub to produce a list of package
* directories.
*/
void set isListingPackageDirs(bool value) {
assert(value != null);
this._isListingPackageDirs = value;
}
PubStatus(bool isListingPackageDirs) {
this.isListingPackageDirs = isListingPackageDirs;
}
factory PubStatus.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
bool isListingPackageDirs;
if (json.containsKey("isListingPackageDirs")) {
isListingPackageDirs = jsonDecoder.decodeBool(
jsonPath + ".isListingPackageDirs", json["isListingPackageDirs"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isListingPackageDirs");
}
return new PubStatus(isListingPackageDirs);
} else {
throw jsonDecoder.mismatch(jsonPath, "PubStatus", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["isListingPackageDirs"] = isListingPackageDirs;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is PubStatus) {
return isListingPackageDirs == other.isListingPackageDirs;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, isListingPackageDirs.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* RefactoringFeedback
*
* {
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RefactoringFeedback implements HasToJson {
RefactoringFeedback();
factory RefactoringFeedback.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json, Map responseJson) {
return refactoringFeedbackFromJson(
jsonDecoder, jsonPath, json, responseJson);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RefactoringFeedback) {
return true;
}
return false;
}
@override
int get hashCode {
int hash = 0;
return JenkinsSmiHash.finish(hash);
}
}
/**
* RefactoringOptions
*
* {
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RefactoringOptions implements HasToJson {
RefactoringOptions();
factory RefactoringOptions.fromJson(JsonDecoder jsonDecoder, String jsonPath,
Object json, RefactoringKind kind) {
return refactoringOptionsFromJson(jsonDecoder, jsonPath, json, kind);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RefactoringOptions) {
return true;
}
return false;
}
@override
int get hashCode {
int hash = 0;
return JenkinsSmiHash.finish(hash);
}
}
/**
* rename feedback
*
* {
* "offset": int
* "length": int
* "elementKindName": String
* "oldName": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RenameFeedback extends RefactoringFeedback {
int _offset;
int _length;
String _elementKindName;
String _oldName;
/**
* The offset to the beginning of the name selected to be renamed, or -1 if
* the name does not exist yet.
*/
int get offset => _offset;
/**
* The offset to the beginning of the name selected to be renamed, or -1 if
* the name does not exist yet.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the name selected to be renamed.
*/
int get length => _length;
/**
* The length of the name selected to be renamed.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The human-readable description of the kind of element being renamed (such
* as "class" or "function type alias").
*/
String get elementKindName => _elementKindName;
/**
* The human-readable description of the kind of element being renamed (such
* as "class" or "function type alias").
*/
void set elementKindName(String value) {
assert(value != null);
this._elementKindName = value;
}
/**
* The old name of the element before the refactoring.
*/
String get oldName => _oldName;
/**
* The old name of the element before the refactoring.
*/
void set oldName(String value) {
assert(value != null);
this._oldName = value;
}
RenameFeedback(
int offset, int length, String elementKindName, String oldName) {
this.offset = offset;
this.length = length;
this.elementKindName = elementKindName;
this.oldName = oldName;
}
factory RenameFeedback.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
String elementKindName;
if (json.containsKey("elementKindName")) {
elementKindName = jsonDecoder.decodeString(
jsonPath + ".elementKindName", json["elementKindName"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "elementKindName");
}
String oldName;
if (json.containsKey("oldName")) {
oldName =
jsonDecoder.decodeString(jsonPath + ".oldName", json["oldName"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "oldName");
}
return new RenameFeedback(offset, length, elementKindName, oldName);
} else {
throw jsonDecoder.mismatch(jsonPath, "rename feedback", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
result["elementKindName"] = elementKindName;
result["oldName"] = oldName;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RenameFeedback) {
return offset == other.offset &&
length == other.length &&
elementKindName == other.elementKindName &&
oldName == other.oldName;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, elementKindName.hashCode);
hash = JenkinsSmiHash.combine(hash, oldName.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* rename options
*
* {
* "newName": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RenameOptions extends RefactoringOptions {
String _newName;
/**
* The name that the element should have after the refactoring.
*/
String get newName => _newName;
/**
* The name that the element should have after the refactoring.
*/
void set newName(String value) {
assert(value != null);
this._newName = value;
}
RenameOptions(String newName) {
this.newName = newName;
}
factory RenameOptions.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String newName;
if (json.containsKey("newName")) {
newName =
jsonDecoder.decodeString(jsonPath + ".newName", json["newName"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "newName");
}
return new RenameOptions(newName);
} else {
throw jsonDecoder.mismatch(jsonPath, "rename options", json);
}
}
factory RenameOptions.fromRefactoringParams(
EditGetRefactoringParams refactoringParams, Request request) {
return new RenameOptions.fromJson(
new RequestDecoder(request), "options", refactoringParams.options);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["newName"] = newName;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RenameOptions) {
return newName == other.newName;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, newName.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* RequestError
*
* {
* "code": RequestErrorCode
* "message": String
* "stackTrace": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RequestError implements HasToJson {
RequestErrorCode _code;
String _message;
String _stackTrace;
/**
* A code that uniquely identifies the error that occurred.
*/
RequestErrorCode get code => _code;
/**
* A code that uniquely identifies the error that occurred.
*/
void set code(RequestErrorCode value) {
assert(value != null);
this._code = value;
}
/**
* A short description of the error.
*/
String get message => _message;
/**
* A short description of the error.
*/
void set message(String value) {
assert(value != null);
this._message = value;
}
/**
* The stack trace associated with processing the request, used for debugging
* the server.
*/
String get stackTrace => _stackTrace;
/**
* The stack trace associated with processing the request, used for debugging
* the server.
*/
void set stackTrace(String value) {
this._stackTrace = value;
}
RequestError(RequestErrorCode code, String message, {String stackTrace}) {
this.code = code;
this.message = message;
this.stackTrace = stackTrace;
}
factory RequestError.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
RequestErrorCode code;
if (json.containsKey("code")) {
code = new RequestErrorCode.fromJson(
jsonDecoder, jsonPath + ".code", json["code"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "code");
}
String message;
if (json.containsKey("message")) {
message =
jsonDecoder.decodeString(jsonPath + ".message", json["message"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "message");
}
String stackTrace;
if (json.containsKey("stackTrace")) {
stackTrace = jsonDecoder.decodeString(
jsonPath + ".stackTrace", json["stackTrace"]);
}
return new RequestError(code, message, stackTrace: stackTrace);
} else {
throw jsonDecoder.mismatch(jsonPath, "RequestError", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["code"] = code.toJson();
result["message"] = message;
if (stackTrace != null) {
result["stackTrace"] = stackTrace;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RequestError) {
return code == other.code &&
message == other.message &&
stackTrace == other.stackTrace;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, code.hashCode);
hash = JenkinsSmiHash.combine(hash, message.hashCode);
hash = JenkinsSmiHash.combine(hash, stackTrace.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* RequestErrorCode
*
* enum {
* CONTENT_MODIFIED
* DEBUG_PORT_COULD_NOT_BE_OPENED
* FILE_NOT_ANALYZED
* FORMAT_INVALID_FILE
* FORMAT_WITH_ERRORS
* GET_ERRORS_INVALID_FILE
* GET_IMPORTED_ELEMENTS_INVALID_FILE
* GET_KYTHE_ENTRIES_INVALID_FILE
* GET_NAVIGATION_INVALID_FILE
* GET_REACHABLE_SOURCES_INVALID_FILE
* GET_SIGNATURE_INVALID_FILE
* GET_SIGNATURE_INVALID_OFFSET
* GET_SIGNATURE_UNKNOWN_FUNCTION
* IMPORT_ELEMENTS_INVALID_FILE
* INVALID_ANALYSIS_ROOT
* INVALID_EXECUTION_CONTEXT
* INVALID_FILE_PATH_FORMAT
* INVALID_OVERLAY_CHANGE
* INVALID_PARAMETER
* INVALID_REQUEST
* ORGANIZE_DIRECTIVES_ERROR
* REFACTORING_REQUEST_CANCELLED
* SERVER_ALREADY_STARTED
* SERVER_ERROR
* SORT_MEMBERS_INVALID_FILE
* SORT_MEMBERS_PARSE_ERRORS
* UNKNOWN_FIX
* UNKNOWN_REQUEST
* UNSUPPORTED_FEATURE
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RequestErrorCode implements Enum {
/**
* An "analysis.getErrors" or "analysis.getNavigation" request could not be
* satisfied because the content of the file changed before the requested
* results could be computed.
*/
static const RequestErrorCode CONTENT_MODIFIED =
const RequestErrorCode._("CONTENT_MODIFIED");
/**
* The server was unable to open a port for the diagnostic server.
*/
static const RequestErrorCode DEBUG_PORT_COULD_NOT_BE_OPENED =
const RequestErrorCode._("DEBUG_PORT_COULD_NOT_BE_OPENED");
/**
* A request specified a FilePath which does not match a file in an analysis
* root, or the requested operation is not available for the file.
*/
static const RequestErrorCode FILE_NOT_ANALYZED =
const RequestErrorCode._("FILE_NOT_ANALYZED");
/**
* An "edit.format" request specified a FilePath which does not match a Dart
* file in an analysis root.
*/
static const RequestErrorCode FORMAT_INVALID_FILE =
const RequestErrorCode._("FORMAT_INVALID_FILE");
/**
* An "edit.format" request specified a file that contains syntax errors.
*/
static const RequestErrorCode FORMAT_WITH_ERRORS =
const RequestErrorCode._("FORMAT_WITH_ERRORS");
/**
* An "analysis.getErrors" request specified a FilePath which does not match
* a file currently subject to analysis.
*/
static const RequestErrorCode GET_ERRORS_INVALID_FILE =
const RequestErrorCode._("GET_ERRORS_INVALID_FILE");
/**
* An "analysis.getImportedElements" request specified a FilePath that does
* not match a file currently subject to analysis.
*/
static const RequestErrorCode GET_IMPORTED_ELEMENTS_INVALID_FILE =
const RequestErrorCode._("GET_IMPORTED_ELEMENTS_INVALID_FILE");
/**
* An "analysis.getKytheEntries" request specified a FilePath that does not
* match a file that is currently subject to analysis.
*/
static const RequestErrorCode GET_KYTHE_ENTRIES_INVALID_FILE =
const RequestErrorCode._("GET_KYTHE_ENTRIES_INVALID_FILE");
/**
* An "analysis.getNavigation" request specified a FilePath which does not
* match a file currently subject to analysis.
*/
static const RequestErrorCode GET_NAVIGATION_INVALID_FILE =
const RequestErrorCode._("GET_NAVIGATION_INVALID_FILE");
/**
* An "analysis.getReachableSources" request specified a FilePath which does
* not match a file currently subject to analysis.
*/
static const RequestErrorCode GET_REACHABLE_SOURCES_INVALID_FILE =
const RequestErrorCode._("GET_REACHABLE_SOURCES_INVALID_FILE");
/**
* An "analysis.getSignature" request specified a FilePath which does not
* match a file currently subject to analysis.
*/
static const RequestErrorCode GET_SIGNATURE_INVALID_FILE =
const RequestErrorCode._("GET_SIGNATURE_INVALID_FILE");
/**
* An "analysis.getSignature" request specified an offset which is not a
* valid location within for the contents of the file specified FilePath.
*/
static const RequestErrorCode GET_SIGNATURE_INVALID_OFFSET =
const RequestErrorCode._("GET_SIGNATURE_INVALID_OFFSET");
/**
* An "analysis.getSignature" request specified an offset that could not be
* matched to a function call.
*/
static const RequestErrorCode GET_SIGNATURE_UNKNOWN_FUNCTION =
const RequestErrorCode._("GET_SIGNATURE_UNKNOWN_FUNCTION");
/**
* An "edit.importElements" request specified a FilePath that does not match
* a file currently subject to analysis.
*/
static const RequestErrorCode IMPORT_ELEMENTS_INVALID_FILE =
const RequestErrorCode._("IMPORT_ELEMENTS_INVALID_FILE");
/**
* A path passed as an argument to a request (such as analysis.reanalyze) is
* required to be an analysis root, but isn't.
*/
static const RequestErrorCode INVALID_ANALYSIS_ROOT =
const RequestErrorCode._("INVALID_ANALYSIS_ROOT");
/**
* The context root used to create an execution context does not exist.
*/
static const RequestErrorCode INVALID_EXECUTION_CONTEXT =
const RequestErrorCode._("INVALID_EXECUTION_CONTEXT");
/**
* The format of the given file path is invalid, e.g. is not absolute and
* normalized.
*/
static const RequestErrorCode INVALID_FILE_PATH_FORMAT =
const RequestErrorCode._("INVALID_FILE_PATH_FORMAT");
/**
* An "analysis.updateContent" request contained a ChangeContentOverlay
* object which can't be applied, due to an edit having an offset or length
* that is out of range.
*/
static const RequestErrorCode INVALID_OVERLAY_CHANGE =
const RequestErrorCode._("INVALID_OVERLAY_CHANGE");
/**
* One of the method parameters was invalid.
*/
static const RequestErrorCode INVALID_PARAMETER =
const RequestErrorCode._("INVALID_PARAMETER");
/**
* A malformed request was received.
*/
static const RequestErrorCode INVALID_REQUEST =
const RequestErrorCode._("INVALID_REQUEST");
/**
* An "edit.organizeDirectives" request specified a Dart file that cannot be
* analyzed. The reason is described in the message.
*/
static const RequestErrorCode ORGANIZE_DIRECTIVES_ERROR =
const RequestErrorCode._("ORGANIZE_DIRECTIVES_ERROR");
/**
* Another refactoring request was received during processing of this one.
*/
static const RequestErrorCode REFACTORING_REQUEST_CANCELLED =
const RequestErrorCode._("REFACTORING_REQUEST_CANCELLED");
/**
* The analysis server has already been started (and hence won't accept new
* connections).
*
* This error is included for future expansion; at present the analysis
* server can only speak to one client at a time so this error will never
* occur.
*/
static const RequestErrorCode SERVER_ALREADY_STARTED =
const RequestErrorCode._("SERVER_ALREADY_STARTED");
/**
* An internal error occurred in the analysis server. Also see the
* server.error notification.
*/
static const RequestErrorCode SERVER_ERROR =
const RequestErrorCode._("SERVER_ERROR");
/**
* An "edit.sortMembers" request specified a FilePath which does not match a
* Dart file in an analysis root.
*/
static const RequestErrorCode SORT_MEMBERS_INVALID_FILE =
const RequestErrorCode._("SORT_MEMBERS_INVALID_FILE");
/**
* An "edit.sortMembers" request specified a Dart file that has scan or parse
* errors.
*/
static const RequestErrorCode SORT_MEMBERS_PARSE_ERRORS =
const RequestErrorCode._("SORT_MEMBERS_PARSE_ERRORS");
/**
* A dartfix request was received containing the name of a fix which does not
* match the name of any known fixes.
*/
static const RequestErrorCode UNKNOWN_FIX =
const RequestErrorCode._("UNKNOWN_FIX");
/**
* A request was received which the analysis server does not recognize, or
* cannot handle in its current configuration.
*/
static const RequestErrorCode UNKNOWN_REQUEST =
const RequestErrorCode._("UNKNOWN_REQUEST");
/**
* The analysis server was requested to perform an action which is not
* supported.
*
* This is a legacy error; it will be removed before the API reaches version
* 1.0.
*/
static const RequestErrorCode UNSUPPORTED_FEATURE =
const RequestErrorCode._("UNSUPPORTED_FEATURE");
/**
* A list containing all of the enum values that are defined.
*/
static const List<RequestErrorCode> VALUES = const <RequestErrorCode>[
CONTENT_MODIFIED,
DEBUG_PORT_COULD_NOT_BE_OPENED,
FILE_NOT_ANALYZED,
FORMAT_INVALID_FILE,
FORMAT_WITH_ERRORS,
GET_ERRORS_INVALID_FILE,
GET_IMPORTED_ELEMENTS_INVALID_FILE,
GET_KYTHE_ENTRIES_INVALID_FILE,
GET_NAVIGATION_INVALID_FILE,
GET_REACHABLE_SOURCES_INVALID_FILE,
GET_SIGNATURE_INVALID_FILE,
GET_SIGNATURE_INVALID_OFFSET,
GET_SIGNATURE_UNKNOWN_FUNCTION,
IMPORT_ELEMENTS_INVALID_FILE,
INVALID_ANALYSIS_ROOT,
INVALID_EXECUTION_CONTEXT,
INVALID_FILE_PATH_FORMAT,
INVALID_OVERLAY_CHANGE,
INVALID_PARAMETER,
INVALID_REQUEST,
ORGANIZE_DIRECTIVES_ERROR,
REFACTORING_REQUEST_CANCELLED,
SERVER_ALREADY_STARTED,
SERVER_ERROR,
SORT_MEMBERS_INVALID_FILE,
SORT_MEMBERS_PARSE_ERRORS,
UNKNOWN_FIX,
UNKNOWN_REQUEST,
UNSUPPORTED_FEATURE
];
@override
final String name;
const RequestErrorCode._(this.name);
factory RequestErrorCode(String name) {
switch (name) {
case "CONTENT_MODIFIED":
return CONTENT_MODIFIED;
case "DEBUG_PORT_COULD_NOT_BE_OPENED":
return DEBUG_PORT_COULD_NOT_BE_OPENED;
case "FILE_NOT_ANALYZED":
return FILE_NOT_ANALYZED;
case "FORMAT_INVALID_FILE":
return FORMAT_INVALID_FILE;
case "FORMAT_WITH_ERRORS":
return FORMAT_WITH_ERRORS;
case "GET_ERRORS_INVALID_FILE":
return GET_ERRORS_INVALID_FILE;
case "GET_IMPORTED_ELEMENTS_INVALID_FILE":
return GET_IMPORTED_ELEMENTS_INVALID_FILE;
case "GET_KYTHE_ENTRIES_INVALID_FILE":
return GET_KYTHE_ENTRIES_INVALID_FILE;
case "GET_NAVIGATION_INVALID_FILE":
return GET_NAVIGATION_INVALID_FILE;
case "GET_REACHABLE_SOURCES_INVALID_FILE":
return GET_REACHABLE_SOURCES_INVALID_FILE;
case "GET_SIGNATURE_INVALID_FILE":
return GET_SIGNATURE_INVALID_FILE;
case "GET_SIGNATURE_INVALID_OFFSET":
return GET_SIGNATURE_INVALID_OFFSET;
case "GET_SIGNATURE_UNKNOWN_FUNCTION":
return GET_SIGNATURE_UNKNOWN_FUNCTION;
case "IMPORT_ELEMENTS_INVALID_FILE":
return IMPORT_ELEMENTS_INVALID_FILE;
case "INVALID_ANALYSIS_ROOT":
return INVALID_ANALYSIS_ROOT;
case "INVALID_EXECUTION_CONTEXT":
return INVALID_EXECUTION_CONTEXT;
case "INVALID_FILE_PATH_FORMAT":
return INVALID_FILE_PATH_FORMAT;
case "INVALID_OVERLAY_CHANGE":
return INVALID_OVERLAY_CHANGE;
case "INVALID_PARAMETER":
return INVALID_PARAMETER;
case "INVALID_REQUEST":
return INVALID_REQUEST;
case "ORGANIZE_DIRECTIVES_ERROR":
return ORGANIZE_DIRECTIVES_ERROR;
case "REFACTORING_REQUEST_CANCELLED":
return REFACTORING_REQUEST_CANCELLED;
case "SERVER_ALREADY_STARTED":
return SERVER_ALREADY_STARTED;
case "SERVER_ERROR":
return SERVER_ERROR;
case "SORT_MEMBERS_INVALID_FILE":
return SORT_MEMBERS_INVALID_FILE;
case "SORT_MEMBERS_PARSE_ERRORS":
return SORT_MEMBERS_PARSE_ERRORS;
case "UNKNOWN_FIX":
return UNKNOWN_FIX;
case "UNKNOWN_REQUEST":
return UNKNOWN_REQUEST;
case "UNSUPPORTED_FEATURE":
return UNSUPPORTED_FEATURE;
}
throw new Exception('Illegal enum value: $name');
}
factory RequestErrorCode.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new RequestErrorCode(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "RequestErrorCode", json);
}
@override
String toString() => "RequestErrorCode.$name";
String toJson() => name;
}
/**
* RuntimeCompletionExpression
*
* {
* "offset": int
* "length": int
* "type": optional RuntimeCompletionExpressionType
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RuntimeCompletionExpression implements HasToJson {
int _offset;
int _length;
RuntimeCompletionExpressionType _type;
/**
* The offset of the expression in the code for completion.
*/
int get offset => _offset;
/**
* The offset of the expression in the code for completion.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the expression in the code for completion.
*/
int get length => _length;
/**
* The length of the expression in the code for completion.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* When the expression is sent from the server to the client, the type is
* omitted. The client should fill the type when it sends the request to the
* server again.
*/
RuntimeCompletionExpressionType get type => _type;
/**
* When the expression is sent from the server to the client, the type is
* omitted. The client should fill the type when it sends the request to the
* server again.
*/
void set type(RuntimeCompletionExpressionType value) {
this._type = value;
}
RuntimeCompletionExpression(int offset, int length,
{RuntimeCompletionExpressionType type}) {
this.offset = offset;
this.length = length;
this.type = type;
}
factory RuntimeCompletionExpression.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
RuntimeCompletionExpressionType type;
if (json.containsKey("type")) {
type = new RuntimeCompletionExpressionType.fromJson(
jsonDecoder, jsonPath + ".type", json["type"]);
}
return new RuntimeCompletionExpression(offset, length, type: type);
} else {
throw jsonDecoder.mismatch(jsonPath, "RuntimeCompletionExpression", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
if (type != null) {
result["type"] = type.toJson();
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RuntimeCompletionExpression) {
return offset == other.offset &&
length == other.length &&
type == other.type;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, type.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* RuntimeCompletionExpressionType
*
* {
* "libraryPath": optional FilePath
* "kind": RuntimeCompletionExpressionTypeKind
* "name": optional String
* "typeArguments": optional List<RuntimeCompletionExpressionType>
* "returnType": optional RuntimeCompletionExpressionType
* "parameterTypes": optional List<RuntimeCompletionExpressionType>
* "parameterNames": optional List<String>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RuntimeCompletionExpressionType implements HasToJson {
String _libraryPath;
RuntimeCompletionExpressionTypeKind _kind;
String _name;
List<RuntimeCompletionExpressionType> _typeArguments;
RuntimeCompletionExpressionType _returnType;
List<RuntimeCompletionExpressionType> _parameterTypes;
List<String> _parameterNames;
/**
* The path of the library that has this type. Omitted if the type is not
* declared in any library, e.g. "dynamic", or "void".
*/
String get libraryPath => _libraryPath;
/**
* The path of the library that has this type. Omitted if the type is not
* declared in any library, e.g. "dynamic", or "void".
*/
void set libraryPath(String value) {
this._libraryPath = value;
}
/**
* The kind of the type.
*/
RuntimeCompletionExpressionTypeKind get kind => _kind;
/**
* The kind of the type.
*/
void set kind(RuntimeCompletionExpressionTypeKind value) {
assert(value != null);
this._kind = value;
}
/**
* The name of the type. Omitted if the type does not have a name, e.g. an
* inline function type.
*/
String get name => _name;
/**
* The name of the type. Omitted if the type does not have a name, e.g. an
* inline function type.
*/
void set name(String value) {
this._name = value;
}
/**
* The type arguments of the type. Omitted if the type does not have type
* parameters.
*/
List<RuntimeCompletionExpressionType> get typeArguments => _typeArguments;
/**
* The type arguments of the type. Omitted if the type does not have type
* parameters.
*/
void set typeArguments(List<RuntimeCompletionExpressionType> value) {
this._typeArguments = value;
}
/**
* If the type is a function type, the return type of the function. Omitted
* if the type is not a function type.
*/
RuntimeCompletionExpressionType get returnType => _returnType;
/**
* If the type is a function type, the return type of the function. Omitted
* if the type is not a function type.
*/
void set returnType(RuntimeCompletionExpressionType value) {
this._returnType = value;
}
/**
* If the type is a function type, the types of the function parameters of
* all kinds - required, optional positional, and optional named. Omitted if
* the type is not a function type.
*/
List<RuntimeCompletionExpressionType> get parameterTypes => _parameterTypes;
/**
* If the type is a function type, the types of the function parameters of
* all kinds - required, optional positional, and optional named. Omitted if
* the type is not a function type.
*/
void set parameterTypes(List<RuntimeCompletionExpressionType> value) {
this._parameterTypes = value;
}
/**
* If the type is a function type, the names of the function parameters of
* all kinds - required, optional positional, and optional named. The names
* of positional parameters are empty strings. Omitted if the type is not a
* function type.
*/
List<String> get parameterNames => _parameterNames;
/**
* If the type is a function type, the names of the function parameters of
* all kinds - required, optional positional, and optional named. The names
* of positional parameters are empty strings. Omitted if the type is not a
* function type.
*/
void set parameterNames(List<String> value) {
this._parameterNames = value;
}
RuntimeCompletionExpressionType(RuntimeCompletionExpressionTypeKind kind,
{String libraryPath,
String name,
List<RuntimeCompletionExpressionType> typeArguments,
RuntimeCompletionExpressionType returnType,
List<RuntimeCompletionExpressionType> parameterTypes,
List<String> parameterNames}) {
this.libraryPath = libraryPath;
this.kind = kind;
this.name = name;
this.typeArguments = typeArguments;
this.returnType = returnType;
this.parameterTypes = parameterTypes;
this.parameterNames = parameterNames;
}
factory RuntimeCompletionExpressionType.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String libraryPath;
if (json.containsKey("libraryPath")) {
libraryPath = jsonDecoder.decodeString(
jsonPath + ".libraryPath", json["libraryPath"]);
}
RuntimeCompletionExpressionTypeKind kind;
if (json.containsKey("kind")) {
kind = new RuntimeCompletionExpressionTypeKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
}
List<RuntimeCompletionExpressionType> typeArguments;
if (json.containsKey("typeArguments")) {
typeArguments = jsonDecoder.decodeList(
jsonPath + ".typeArguments",
json["typeArguments"],
(String jsonPath, Object json) =>
new RuntimeCompletionExpressionType.fromJson(
jsonDecoder, jsonPath, json));
}
RuntimeCompletionExpressionType returnType;
if (json.containsKey("returnType")) {
returnType = new RuntimeCompletionExpressionType.fromJson(
jsonDecoder, jsonPath + ".returnType", json["returnType"]);
}
List<RuntimeCompletionExpressionType> parameterTypes;
if (json.containsKey("parameterTypes")) {
parameterTypes = jsonDecoder.decodeList(
jsonPath + ".parameterTypes",
json["parameterTypes"],
(String jsonPath, Object json) =>
new RuntimeCompletionExpressionType.fromJson(
jsonDecoder, jsonPath, json));
}
List<String> parameterNames;
if (json.containsKey("parameterNames")) {
parameterNames = jsonDecoder.decodeList(jsonPath + ".parameterNames",
json["parameterNames"], jsonDecoder.decodeString);
}
return new RuntimeCompletionExpressionType(kind,
libraryPath: libraryPath,
name: name,
typeArguments: typeArguments,
returnType: returnType,
parameterTypes: parameterTypes,
parameterNames: parameterNames);
} else {
throw jsonDecoder.mismatch(
jsonPath, "RuntimeCompletionExpressionType", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (libraryPath != null) {
result["libraryPath"] = libraryPath;
}
result["kind"] = kind.toJson();
if (name != null) {
result["name"] = name;
}
if (typeArguments != null) {
result["typeArguments"] = typeArguments
.map((RuntimeCompletionExpressionType value) => value.toJson())
.toList();
}
if (returnType != null) {
result["returnType"] = returnType.toJson();
}
if (parameterTypes != null) {
result["parameterTypes"] = parameterTypes
.map((RuntimeCompletionExpressionType value) => value.toJson())
.toList();
}
if (parameterNames != null) {
result["parameterNames"] = parameterNames;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RuntimeCompletionExpressionType) {
return libraryPath == other.libraryPath &&
kind == other.kind &&
name == other.name &&
listEqual(
typeArguments,
other.typeArguments,
(RuntimeCompletionExpressionType a,
RuntimeCompletionExpressionType b) =>
a == b) &&
returnType == other.returnType &&
listEqual(
parameterTypes,
other.parameterTypes,
(RuntimeCompletionExpressionType a,
RuntimeCompletionExpressionType b) =>
a == b) &&
listEqual(parameterNames, other.parameterNames,
(String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, libraryPath.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, typeArguments.hashCode);
hash = JenkinsSmiHash.combine(hash, returnType.hashCode);
hash = JenkinsSmiHash.combine(hash, parameterTypes.hashCode);
hash = JenkinsSmiHash.combine(hash, parameterNames.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* RuntimeCompletionExpressionTypeKind
*
* enum {
* DYNAMIC
* FUNCTION
* INTERFACE
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RuntimeCompletionExpressionTypeKind implements Enum {
static const RuntimeCompletionExpressionTypeKind DYNAMIC =
const RuntimeCompletionExpressionTypeKind._("DYNAMIC");
static const RuntimeCompletionExpressionTypeKind FUNCTION =
const RuntimeCompletionExpressionTypeKind._("FUNCTION");
static const RuntimeCompletionExpressionTypeKind INTERFACE =
const RuntimeCompletionExpressionTypeKind._("INTERFACE");
/**
* A list containing all of the enum values that are defined.
*/
static const List<RuntimeCompletionExpressionTypeKind> VALUES =
const <RuntimeCompletionExpressionTypeKind>[DYNAMIC, FUNCTION, INTERFACE];
@override
final String name;
const RuntimeCompletionExpressionTypeKind._(this.name);
factory RuntimeCompletionExpressionTypeKind(String name) {
switch (name) {
case "DYNAMIC":
return DYNAMIC;
case "FUNCTION":
return FUNCTION;
case "INTERFACE":
return INTERFACE;
}
throw new Exception('Illegal enum value: $name');
}
factory RuntimeCompletionExpressionTypeKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new RuntimeCompletionExpressionTypeKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(
jsonPath, "RuntimeCompletionExpressionTypeKind", json);
}
@override
String toString() => "RuntimeCompletionExpressionTypeKind.$name";
String toJson() => name;
}
/**
* RuntimeCompletionVariable
*
* {
* "name": String
* "type": RuntimeCompletionExpressionType
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RuntimeCompletionVariable implements HasToJson {
String _name;
RuntimeCompletionExpressionType _type;
/**
* The name of the variable. The name "this" has a special meaning and is
* used as an implicit target for runtime completion, and in explicit "this"
* references.
*/
String get name => _name;
/**
* The name of the variable. The name "this" has a special meaning and is
* used as an implicit target for runtime completion, and in explicit "this"
* references.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The type of the variable.
*/
RuntimeCompletionExpressionType get type => _type;
/**
* The type of the variable.
*/
void set type(RuntimeCompletionExpressionType value) {
assert(value != null);
this._type = value;
}
RuntimeCompletionVariable(String name, RuntimeCompletionExpressionType type) {
this.name = name;
this.type = type;
}
factory RuntimeCompletionVariable.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
RuntimeCompletionExpressionType type;
if (json.containsKey("type")) {
type = new RuntimeCompletionExpressionType.fromJson(
jsonDecoder, jsonPath + ".type", json["type"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "type");
}
return new RuntimeCompletionVariable(name, type);
} else {
throw jsonDecoder.mismatch(jsonPath, "RuntimeCompletionVariable", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
result["type"] = type.toJson();
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RuntimeCompletionVariable) {
return name == other.name && type == other.type;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, type.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.findElementReferences params
*
* {
* "file": FilePath
* "offset": int
* "includePotential": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchFindElementReferencesParams implements RequestParams {
String _file;
int _offset;
bool _includePotential;
/**
* The file containing the declaration of or reference to the element used to
* define the search.
*/
String get file => _file;
/**
* The file containing the declaration of or reference to the element used to
* define the search.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset within the file of the declaration of or reference to the
* element.
*/
int get offset => _offset;
/**
* The offset within the file of the declaration of or reference to the
* element.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* True if potential matches are to be included in the results.
*/
bool get includePotential => _includePotential;
/**
* True if potential matches are to be included in the results.
*/
void set includePotential(bool value) {
assert(value != null);
this._includePotential = value;
}
SearchFindElementReferencesParams(
String file, int offset, bool includePotential) {
this.file = file;
this.offset = offset;
this.includePotential = includePotential;
}
factory SearchFindElementReferencesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
bool includePotential;
if (json.containsKey("includePotential")) {
includePotential = jsonDecoder.decodeBool(
jsonPath + ".includePotential", json["includePotential"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "includePotential");
}
return new SearchFindElementReferencesParams(
file, offset, includePotential);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.findElementReferences params", json);
}
}
factory SearchFindElementReferencesParams.fromRequest(Request request) {
return new SearchFindElementReferencesParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
result["includePotential"] = includePotential;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "search.findElementReferences", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchFindElementReferencesParams) {
return file == other.file &&
offset == other.offset &&
includePotential == other.includePotential;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, includePotential.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.findElementReferences result
*
* {
* "id": optional SearchId
* "element": optional Element
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchFindElementReferencesResult implements ResponseResult {
String _id;
Element _element;
/**
* The identifier used to associate results with this search request.
*
* If no element was found at the given location, this field will be absent,
* and no results will be reported via the search.results notification.
*/
String get id => _id;
/**
* The identifier used to associate results with this search request.
*
* If no element was found at the given location, this field will be absent,
* and no results will be reported via the search.results notification.
*/
void set id(String value) {
this._id = value;
}
/**
* The element referenced or defined at the given offset and whose references
* will be returned in the search results.
*
* If no element was found at the given location, this field will be absent.
*/
Element get element => _element;
/**
* The element referenced or defined at the given offset and whose references
* will be returned in the search results.
*
* If no element was found at the given location, this field will be absent.
*/
void set element(Element value) {
this._element = value;
}
SearchFindElementReferencesResult({String id, Element element}) {
this.id = id;
this.element = element;
}
factory SearchFindElementReferencesResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
}
Element element;
if (json.containsKey("element")) {
element = new Element.fromJson(
jsonDecoder, jsonPath + ".element", json["element"]);
}
return new SearchFindElementReferencesResult(id: id, element: element);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.findElementReferences result", json);
}
}
factory SearchFindElementReferencesResult.fromResponse(Response response) {
return new SearchFindElementReferencesResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (id != null) {
result["id"] = id;
}
if (element != null) {
result["element"] = element.toJson();
}
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchFindElementReferencesResult) {
return id == other.id && element == other.element;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, element.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.findMemberDeclarations params
*
* {
* "name": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchFindMemberDeclarationsParams implements RequestParams {
String _name;
/**
* The name of the declarations to be found.
*/
String get name => _name;
/**
* The name of the declarations to be found.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
SearchFindMemberDeclarationsParams(String name) {
this.name = name;
}
factory SearchFindMemberDeclarationsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
return new SearchFindMemberDeclarationsParams(name);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.findMemberDeclarations params", json);
}
}
factory SearchFindMemberDeclarationsParams.fromRequest(Request request) {
return new SearchFindMemberDeclarationsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "search.findMemberDeclarations", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchFindMemberDeclarationsParams) {
return name == other.name;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.findMemberDeclarations result
*
* {
* "id": SearchId
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchFindMemberDeclarationsResult implements ResponseResult {
String _id;
/**
* The identifier used to associate results with this search request.
*/
String get id => _id;
/**
* The identifier used to associate results with this search request.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
SearchFindMemberDeclarationsResult(String id) {
this.id = id;
}
factory SearchFindMemberDeclarationsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
return new SearchFindMemberDeclarationsResult(id);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.findMemberDeclarations result", json);
}
}
factory SearchFindMemberDeclarationsResult.fromResponse(Response response) {
return new SearchFindMemberDeclarationsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchFindMemberDeclarationsResult) {
return id == other.id;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.findMemberReferences params
*
* {
* "name": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchFindMemberReferencesParams implements RequestParams {
String _name;
/**
* The name of the references to be found.
*/
String get name => _name;
/**
* The name of the references to be found.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
SearchFindMemberReferencesParams(String name) {
this.name = name;
}
factory SearchFindMemberReferencesParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
return new SearchFindMemberReferencesParams(name);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.findMemberReferences params", json);
}
}
factory SearchFindMemberReferencesParams.fromRequest(Request request) {
return new SearchFindMemberReferencesParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["name"] = name;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "search.findMemberReferences", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchFindMemberReferencesParams) {
return name == other.name;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, name.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.findMemberReferences result
*
* {
* "id": SearchId
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchFindMemberReferencesResult implements ResponseResult {
String _id;
/**
* The identifier used to associate results with this search request.
*/
String get id => _id;
/**
* The identifier used to associate results with this search request.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
SearchFindMemberReferencesResult(String id) {
this.id = id;
}
factory SearchFindMemberReferencesResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
return new SearchFindMemberReferencesResult(id);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.findMemberReferences result", json);
}
}
factory SearchFindMemberReferencesResult.fromResponse(Response response) {
return new SearchFindMemberReferencesResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchFindMemberReferencesResult) {
return id == other.id;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.findTopLevelDeclarations params
*
* {
* "pattern": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchFindTopLevelDeclarationsParams implements RequestParams {
String _pattern;
/**
* The regular expression used to match the names of the declarations to be
* found.
*/
String get pattern => _pattern;
/**
* The regular expression used to match the names of the declarations to be
* found.
*/
void set pattern(String value) {
assert(value != null);
this._pattern = value;
}
SearchFindTopLevelDeclarationsParams(String pattern) {
this.pattern = pattern;
}
factory SearchFindTopLevelDeclarationsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String pattern;
if (json.containsKey("pattern")) {
pattern =
jsonDecoder.decodeString(jsonPath + ".pattern", json["pattern"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "pattern");
}
return new SearchFindTopLevelDeclarationsParams(pattern);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.findTopLevelDeclarations params", json);
}
}
factory SearchFindTopLevelDeclarationsParams.fromRequest(Request request) {
return new SearchFindTopLevelDeclarationsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["pattern"] = pattern;
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "search.findTopLevelDeclarations", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchFindTopLevelDeclarationsParams) {
return pattern == other.pattern;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, pattern.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.findTopLevelDeclarations result
*
* {
* "id": SearchId
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchFindTopLevelDeclarationsResult implements ResponseResult {
String _id;
/**
* The identifier used to associate results with this search request.
*/
String get id => _id;
/**
* The identifier used to associate results with this search request.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
SearchFindTopLevelDeclarationsResult(String id) {
this.id = id;
}
factory SearchFindTopLevelDeclarationsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
return new SearchFindTopLevelDeclarationsResult(id);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.findTopLevelDeclarations result", json);
}
}
factory SearchFindTopLevelDeclarationsResult.fromResponse(Response response) {
return new SearchFindTopLevelDeclarationsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchFindTopLevelDeclarationsResult) {
return id == other.id;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.getElementDeclarations params
*
* {
* "file": optional FilePath
* "pattern": optional String
* "maxResults": optional int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchGetElementDeclarationsParams implements RequestParams {
String _file;
String _pattern;
int _maxResults;
/**
* If this field is provided, return only declarations in this file. If this
* field is missing, return declarations in all files.
*/
String get file => _file;
/**
* If this field is provided, return only declarations in this file. If this
* field is missing, return declarations in all files.
*/
void set file(String value) {
this._file = value;
}
/**
* The regular expression used to match the names of declarations. If this
* field is missing, return all declarations.
*/
String get pattern => _pattern;
/**
* The regular expression used to match the names of declarations. If this
* field is missing, return all declarations.
*/
void set pattern(String value) {
this._pattern = value;
}
/**
* The maximum number of declarations to return. If this field is missing,
* return all matching declarations.
*/
int get maxResults => _maxResults;
/**
* The maximum number of declarations to return. If this field is missing,
* return all matching declarations.
*/
void set maxResults(int value) {
this._maxResults = value;
}
SearchGetElementDeclarationsParams(
{String file, String pattern, int maxResults}) {
this.file = file;
this.pattern = pattern;
this.maxResults = maxResults;
}
factory SearchGetElementDeclarationsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
}
String pattern;
if (json.containsKey("pattern")) {
pattern =
jsonDecoder.decodeString(jsonPath + ".pattern", json["pattern"]);
}
int maxResults;
if (json.containsKey("maxResults")) {
maxResults =
jsonDecoder.decodeInt(jsonPath + ".maxResults", json["maxResults"]);
}
return new SearchGetElementDeclarationsParams(
file: file, pattern: pattern, maxResults: maxResults);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.getElementDeclarations params", json);
}
}
factory SearchGetElementDeclarationsParams.fromRequest(Request request) {
return new SearchGetElementDeclarationsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (file != null) {
result["file"] = file;
}
if (pattern != null) {
result["pattern"] = pattern;
}
if (maxResults != null) {
result["maxResults"] = maxResults;
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "search.getElementDeclarations", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchGetElementDeclarationsParams) {
return file == other.file &&
pattern == other.pattern &&
maxResults == other.maxResults;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, pattern.hashCode);
hash = JenkinsSmiHash.combine(hash, maxResults.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.getElementDeclarations result
*
* {
* "declarations": List<ElementDeclaration>
* "files": List<FilePath>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchGetElementDeclarationsResult implements ResponseResult {
List<ElementDeclaration> _declarations;
List<String> _files;
/**
* The list of declarations.
*/
List<ElementDeclaration> get declarations => _declarations;
/**
* The list of declarations.
*/
void set declarations(List<ElementDeclaration> value) {
assert(value != null);
this._declarations = value;
}
/**
* The list of the paths of files with declarations.
*/
List<String> get files => _files;
/**
* The list of the paths of files with declarations.
*/
void set files(List<String> value) {
assert(value != null);
this._files = value;
}
SearchGetElementDeclarationsResult(
List<ElementDeclaration> declarations, List<String> files) {
this.declarations = declarations;
this.files = files;
}
factory SearchGetElementDeclarationsResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<ElementDeclaration> declarations;
if (json.containsKey("declarations")) {
declarations = jsonDecoder.decodeList(
jsonPath + ".declarations",
json["declarations"],
(String jsonPath, Object json) =>
new ElementDeclaration.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "declarations");
}
List<String> files;
if (json.containsKey("files")) {
files = jsonDecoder.decodeList(
jsonPath + ".files", json["files"], jsonDecoder.decodeString);
} else {
throw jsonDecoder.mismatch(jsonPath, "files");
}
return new SearchGetElementDeclarationsResult(declarations, files);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.getElementDeclarations result", json);
}
}
factory SearchGetElementDeclarationsResult.fromResponse(Response response) {
return new SearchGetElementDeclarationsResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["declarations"] =
declarations.map((ElementDeclaration value) => value.toJson()).toList();
result["files"] = files;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchGetElementDeclarationsResult) {
return listEqual(declarations, other.declarations,
(ElementDeclaration a, ElementDeclaration b) => a == b) &&
listEqual(files, other.files, (String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, declarations.hashCode);
hash = JenkinsSmiHash.combine(hash, files.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.getTypeHierarchy params
*
* {
* "file": FilePath
* "offset": int
* "superOnly": optional bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchGetTypeHierarchyParams implements RequestParams {
String _file;
int _offset;
bool _superOnly;
/**
* The file containing the declaration or reference to the type for which a
* hierarchy is being requested.
*/
String get file => _file;
/**
* The file containing the declaration or reference to the type for which a
* hierarchy is being requested.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the name of the type within the file.
*/
int get offset => _offset;
/**
* The offset of the name of the type within the file.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* True if the client is only requesting superclasses and interfaces
* hierarchy.
*/
bool get superOnly => _superOnly;
/**
* True if the client is only requesting superclasses and interfaces
* hierarchy.
*/
void set superOnly(bool value) {
this._superOnly = value;
}
SearchGetTypeHierarchyParams(String file, int offset, {bool superOnly}) {
this.file = file;
this.offset = offset;
this.superOnly = superOnly;
}
factory SearchGetTypeHierarchyParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String file;
if (json.containsKey("file")) {
file = jsonDecoder.decodeString(jsonPath + ".file", json["file"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "file");
}
int offset;
if (json.containsKey("offset")) {
offset = jsonDecoder.decodeInt(jsonPath + ".offset", json["offset"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "offset");
}
bool superOnly;
if (json.containsKey("superOnly")) {
superOnly =
jsonDecoder.decodeBool(jsonPath + ".superOnly", json["superOnly"]);
}
return new SearchGetTypeHierarchyParams(file, offset,
superOnly: superOnly);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.getTypeHierarchy params", json);
}
}
factory SearchGetTypeHierarchyParams.fromRequest(Request request) {
return new SearchGetTypeHierarchyParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
if (superOnly != null) {
result["superOnly"] = superOnly;
}
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "search.getTypeHierarchy", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchGetTypeHierarchyParams) {
return file == other.file &&
offset == other.offset &&
superOnly == other.superOnly;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, superOnly.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* search.getTypeHierarchy result
*
* {
* "hierarchyItems": optional List<TypeHierarchyItem>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchGetTypeHierarchyResult implements ResponseResult {
List<TypeHierarchyItem> _hierarchyItems;
/**
* A list of the types in the requested hierarchy. The first element of the
* list is the item representing the type for which the hierarchy was
* requested. The index of other elements of the list is unspecified, but
* correspond to the integers used to reference supertype and subtype items
* within the items.
*
* This field will be absent if the code at the given file and offset does
* not represent a type, or if the file has not been sufficiently analyzed to
* allow a type hierarchy to be produced.
*/
List<TypeHierarchyItem> get hierarchyItems => _hierarchyItems;
/**
* A list of the types in the requested hierarchy. The first element of the
* list is the item representing the type for which the hierarchy was
* requested. The index of other elements of the list is unspecified, but
* correspond to the integers used to reference supertype and subtype items
* within the items.
*
* This field will be absent if the code at the given file and offset does
* not represent a type, or if the file has not been sufficiently analyzed to
* allow a type hierarchy to be produced.
*/
void set hierarchyItems(List<TypeHierarchyItem> value) {
this._hierarchyItems = value;
}
SearchGetTypeHierarchyResult({List<TypeHierarchyItem> hierarchyItems}) {
this.hierarchyItems = hierarchyItems;
}
factory SearchGetTypeHierarchyResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<TypeHierarchyItem> hierarchyItems;
if (json.containsKey("hierarchyItems")) {
hierarchyItems = jsonDecoder.decodeList(
jsonPath + ".hierarchyItems",
json["hierarchyItems"],
(String jsonPath, Object json) =>
new TypeHierarchyItem.fromJson(jsonDecoder, jsonPath, json));
}
return new SearchGetTypeHierarchyResult(hierarchyItems: hierarchyItems);
} else {
throw jsonDecoder.mismatch(
jsonPath, "search.getTypeHierarchy result", json);
}
}
factory SearchGetTypeHierarchyResult.fromResponse(Response response) {
return new SearchGetTypeHierarchyResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (hierarchyItems != null) {
result["hierarchyItems"] = hierarchyItems
.map((TypeHierarchyItem value) => value.toJson())
.toList();
}
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchGetTypeHierarchyResult) {
return listEqual(hierarchyItems, other.hierarchyItems,
(TypeHierarchyItem a, TypeHierarchyItem b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, hierarchyItems.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* SearchResult
*
* {
* "location": Location
* "kind": SearchResultKind
* "isPotential": bool
* "path": List<Element>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchResult implements HasToJson {
Location _location;
SearchResultKind _kind;
bool _isPotential;
List<Element> _path;
/**
* The location of the code that matched the search criteria.
*/
Location get location => _location;
/**
* The location of the code that matched the search criteria.
*/
void set location(Location value) {
assert(value != null);
this._location = value;
}
/**
* The kind of element that was found or the kind of reference that was
* found.
*/
SearchResultKind get kind => _kind;
/**
* The kind of element that was found or the kind of reference that was
* found.
*/
void set kind(SearchResultKind value) {
assert(value != null);
this._kind = value;
}
/**
* True if the result is a potential match but cannot be confirmed to be a
* match. For example, if all references to a method m defined in some class
* were requested, and a reference to a method m from an unknown class were
* found, it would be marked as being a potential match.
*/
bool get isPotential => _isPotential;
/**
* True if the result is a potential match but cannot be confirmed to be a
* match. For example, if all references to a method m defined in some class
* were requested, and a reference to a method m from an unknown class were
* found, it would be marked as being a potential match.
*/
void set isPotential(bool value) {
assert(value != null);
this._isPotential = value;
}
/**
* The elements that contain the result, starting with the most immediately
* enclosing ancestor and ending with the library.
*/
List<Element> get path => _path;
/**
* The elements that contain the result, starting with the most immediately
* enclosing ancestor and ending with the library.
*/
void set path(List<Element> value) {
assert(value != null);
this._path = value;
}
SearchResult(Location location, SearchResultKind kind, bool isPotential,
List<Element> path) {
this.location = location;
this.kind = kind;
this.isPotential = isPotential;
this.path = path;
}
factory SearchResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
Location location;
if (json.containsKey("location")) {
location = new Location.fromJson(
jsonDecoder, jsonPath + ".location", json["location"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "location");
}
SearchResultKind kind;
if (json.containsKey("kind")) {
kind = new SearchResultKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
bool isPotential;
if (json.containsKey("isPotential")) {
isPotential = jsonDecoder.decodeBool(
jsonPath + ".isPotential", json["isPotential"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isPotential");
}
List<Element> path;
if (json.containsKey("path")) {
path = jsonDecoder.decodeList(
jsonPath + ".path",
json["path"],
(String jsonPath, Object json) =>
new Element.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "path");
}
return new SearchResult(location, kind, isPotential, path);
} else {
throw jsonDecoder.mismatch(jsonPath, "SearchResult", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["location"] = location.toJson();
result["kind"] = kind.toJson();
result["isPotential"] = isPotential;
result["path"] = path.map((Element value) => value.toJson()).toList();
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchResult) {
return location == other.location &&
kind == other.kind &&
isPotential == other.isPotential &&
listEqual(path, other.path, (Element a, Element b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, location.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, isPotential.hashCode);
hash = JenkinsSmiHash.combine(hash, path.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* SearchResultKind
*
* enum {
* DECLARATION
* INVOCATION
* READ
* READ_WRITE
* REFERENCE
* UNKNOWN
* WRITE
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchResultKind implements Enum {
/**
* The declaration of an element.
*/
static const SearchResultKind DECLARATION =
const SearchResultKind._("DECLARATION");
/**
* The invocation of a function or method.
*/
static const SearchResultKind INVOCATION =
const SearchResultKind._("INVOCATION");
/**
* A reference to a field, parameter or variable where it is being read.
*/
static const SearchResultKind READ = const SearchResultKind._("READ");
/**
* A reference to a field, parameter or variable where it is being read and
* written.
*/
static const SearchResultKind READ_WRITE =
const SearchResultKind._("READ_WRITE");
/**
* A reference to an element.
*/
static const SearchResultKind REFERENCE =
const SearchResultKind._("REFERENCE");
/**
* Some other kind of search result.
*/
static const SearchResultKind UNKNOWN = const SearchResultKind._("UNKNOWN");
/**
* A reference to a field, parameter or variable where it is being written.
*/
static const SearchResultKind WRITE = const SearchResultKind._("WRITE");
/**
* A list containing all of the enum values that are defined.
*/
static const List<SearchResultKind> VALUES = const <SearchResultKind>[
DECLARATION,
INVOCATION,
READ,
READ_WRITE,
REFERENCE,
UNKNOWN,
WRITE
];
@override
final String name;
const SearchResultKind._(this.name);
factory SearchResultKind(String name) {
switch (name) {
case "DECLARATION":
return DECLARATION;
case "INVOCATION":
return INVOCATION;
case "READ":
return READ;
case "READ_WRITE":
return READ_WRITE;
case "REFERENCE":
return REFERENCE;
case "UNKNOWN":
return UNKNOWN;
case "WRITE":
return WRITE;
}
throw new Exception('Illegal enum value: $name');
}
factory SearchResultKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new SearchResultKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "SearchResultKind", json);
}
@override
String toString() => "SearchResultKind.$name";
String toJson() => name;
}
/**
* search.results params
*
* {
* "id": SearchId
* "results": List<SearchResult>
* "isLast": bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SearchResultsParams implements HasToJson {
String _id;
List<SearchResult> _results;
bool _isLast;
/**
* The id associated with the search.
*/
String get id => _id;
/**
* The id associated with the search.
*/
void set id(String value) {
assert(value != null);
this._id = value;
}
/**
* The search results being reported.
*/
List<SearchResult> get results => _results;
/**
* The search results being reported.
*/
void set results(List<SearchResult> value) {
assert(value != null);
this._results = value;
}
/**
* True if this is that last set of results that will be returned for the
* indicated search.
*/
bool get isLast => _isLast;
/**
* True if this is that last set of results that will be returned for the
* indicated search.
*/
void set isLast(bool value) {
assert(value != null);
this._isLast = value;
}
SearchResultsParams(String id, List<SearchResult> results, bool isLast) {
this.id = id;
this.results = results;
this.isLast = isLast;
}
factory SearchResultsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "id");
}
List<SearchResult> results;
if (json.containsKey("results")) {
results = jsonDecoder.decodeList(
jsonPath + ".results",
json["results"],
(String jsonPath, Object json) =>
new SearchResult.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "results");
}
bool isLast;
if (json.containsKey("isLast")) {
isLast = jsonDecoder.decodeBool(jsonPath + ".isLast", json["isLast"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isLast");
}
return new SearchResultsParams(id, results, isLast);
} else {
throw jsonDecoder.mismatch(jsonPath, "search.results params", json);
}
}
factory SearchResultsParams.fromNotification(Notification notification) {
return new SearchResultsParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["id"] = id;
result["results"] =
results.map((SearchResult value) => value.toJson()).toList();
result["isLast"] = isLast;
return result;
}
Notification toNotification() {
return new Notification("search.results", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SearchResultsParams) {
return id == other.id &&
listEqual(results, other.results,
(SearchResult a, SearchResult b) => a == b) &&
isLast == other.isLast;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, results.hashCode);
hash = JenkinsSmiHash.combine(hash, isLast.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* server.connected params
*
* {
* "version": String
* "pid": int
* "sessionId": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerConnectedParams implements HasToJson {
String _version;
int _pid;
String _sessionId;
/**
* The version number of the analysis server.
*/
String get version => _version;
/**
* The version number of the analysis server.
*/
void set version(String value) {
assert(value != null);
this._version = value;
}
/**
* The process id of the analysis server process.
*/
int get pid => _pid;
/**
* The process id of the analysis server process.
*/
void set pid(int value) {
assert(value != null);
this._pid = value;
}
/**
* The session id for this session.
*/
String get sessionId => _sessionId;
/**
* The session id for this session.
*/
void set sessionId(String value) {
this._sessionId = value;
}
ServerConnectedParams(String version, int pid, {String sessionId}) {
this.version = version;
this.pid = pid;
this.sessionId = sessionId;
}
factory ServerConnectedParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String version;
if (json.containsKey("version")) {
version =
jsonDecoder.decodeString(jsonPath + ".version", json["version"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "version");
}
int pid;
if (json.containsKey("pid")) {
pid = jsonDecoder.decodeInt(jsonPath + ".pid", json["pid"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "pid");
}
String sessionId;
if (json.containsKey("sessionId")) {
sessionId = jsonDecoder.decodeString(
jsonPath + ".sessionId", json["sessionId"]);
}
return new ServerConnectedParams(version, pid, sessionId: sessionId);
} else {
throw jsonDecoder.mismatch(jsonPath, "server.connected params", json);
}
}
factory ServerConnectedParams.fromNotification(Notification notification) {
return new ServerConnectedParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["version"] = version;
result["pid"] = pid;
if (sessionId != null) {
result["sessionId"] = sessionId;
}
return result;
}
Notification toNotification() {
return new Notification("server.connected", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ServerConnectedParams) {
return version == other.version &&
pid == other.pid &&
sessionId == other.sessionId;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, version.hashCode);
hash = JenkinsSmiHash.combine(hash, pid.hashCode);
hash = JenkinsSmiHash.combine(hash, sessionId.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* server.error params
*
* {
* "isFatal": bool
* "message": String
* "stackTrace": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerErrorParams implements HasToJson {
bool _isFatal;
String _message;
String _stackTrace;
/**
* True if the error is a fatal error, meaning that the server will shutdown
* automatically after sending this notification.
*/
bool get isFatal => _isFatal;
/**
* True if the error is a fatal error, meaning that the server will shutdown
* automatically after sending this notification.
*/
void set isFatal(bool value) {
assert(value != null);
this._isFatal = value;
}
/**
* The error message indicating what kind of error was encountered.
*/
String get message => _message;
/**
* The error message indicating what kind of error was encountered.
*/
void set message(String value) {
assert(value != null);
this._message = value;
}
/**
* The stack trace associated with the generation of the error, used for
* debugging the server.
*/
String get stackTrace => _stackTrace;
/**
* The stack trace associated with the generation of the error, used for
* debugging the server.
*/
void set stackTrace(String value) {
assert(value != null);
this._stackTrace = value;
}
ServerErrorParams(bool isFatal, String message, String stackTrace) {
this.isFatal = isFatal;
this.message = message;
this.stackTrace = stackTrace;
}
factory ServerErrorParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
bool isFatal;
if (json.containsKey("isFatal")) {
isFatal =
jsonDecoder.decodeBool(jsonPath + ".isFatal", json["isFatal"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isFatal");
}
String message;
if (json.containsKey("message")) {
message =
jsonDecoder.decodeString(jsonPath + ".message", json["message"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "message");
}
String stackTrace;
if (json.containsKey("stackTrace")) {
stackTrace = jsonDecoder.decodeString(
jsonPath + ".stackTrace", json["stackTrace"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "stackTrace");
}
return new ServerErrorParams(isFatal, message, stackTrace);
} else {
throw jsonDecoder.mismatch(jsonPath, "server.error params", json);
}
}
factory ServerErrorParams.fromNotification(Notification notification) {
return new ServerErrorParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["isFatal"] = isFatal;
result["message"] = message;
result["stackTrace"] = stackTrace;
return result;
}
Notification toNotification() {
return new Notification("server.error", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ServerErrorParams) {
return isFatal == other.isFatal &&
message == other.message &&
stackTrace == other.stackTrace;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, isFatal.hashCode);
hash = JenkinsSmiHash.combine(hash, message.hashCode);
hash = JenkinsSmiHash.combine(hash, stackTrace.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* server.getVersion params
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerGetVersionParams implements RequestParams {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Request toRequest(String id) {
return new Request(id, "server.getVersion", null);
}
@override
bool operator ==(other) {
if (other is ServerGetVersionParams) {
return true;
}
return false;
}
@override
int get hashCode {
return 55877452;
}
}
/**
* server.getVersion result
*
* {
* "version": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerGetVersionResult implements ResponseResult {
String _version;
/**
* The version number of the analysis server.
*/
String get version => _version;
/**
* The version number of the analysis server.
*/
void set version(String value) {
assert(value != null);
this._version = value;
}
ServerGetVersionResult(String version) {
this.version = version;
}
factory ServerGetVersionResult.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String version;
if (json.containsKey("version")) {
version =
jsonDecoder.decodeString(jsonPath + ".version", json["version"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "version");
}
return new ServerGetVersionResult(version);
} else {
throw jsonDecoder.mismatch(jsonPath, "server.getVersion result", json);
}
}
factory ServerGetVersionResult.fromResponse(Response response) {
return new ServerGetVersionResult.fromJson(
new ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id)),
"result",
response.result);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["version"] = version;
return result;
}
@override
Response toResponse(String id) {
return new Response(id, result: toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ServerGetVersionResult) {
return version == other.version;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, version.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ServerService
*
* enum {
* STATUS
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerService implements Enum {
static const ServerService STATUS = const ServerService._("STATUS");
/**
* A list containing all of the enum values that are defined.
*/
static const List<ServerService> VALUES = const <ServerService>[STATUS];
@override
final String name;
const ServerService._(this.name);
factory ServerService(String name) {
switch (name) {
case "STATUS":
return STATUS;
}
throw new Exception('Illegal enum value: $name');
}
factory ServerService.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new ServerService(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "ServerService", json);
}
@override
String toString() => "ServerService.$name";
String toJson() => name;
}
/**
* server.setSubscriptions params
*
* {
* "subscriptions": List<ServerService>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerSetSubscriptionsParams implements RequestParams {
List<ServerService> _subscriptions;
/**
* A list of the services being subscribed to.
*/
List<ServerService> get subscriptions => _subscriptions;
/**
* A list of the services being subscribed to.
*/
void set subscriptions(List<ServerService> value) {
assert(value != null);
this._subscriptions = value;
}
ServerSetSubscriptionsParams(List<ServerService> subscriptions) {
this.subscriptions = subscriptions;
}
factory ServerSetSubscriptionsParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<ServerService> subscriptions;
if (json.containsKey("subscriptions")) {
subscriptions = jsonDecoder.decodeList(
jsonPath + ".subscriptions",
json["subscriptions"],
(String jsonPath, Object json) =>
new ServerService.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "subscriptions");
}
return new ServerSetSubscriptionsParams(subscriptions);
} else {
throw jsonDecoder.mismatch(
jsonPath, "server.setSubscriptions params", json);
}
}
factory ServerSetSubscriptionsParams.fromRequest(Request request) {
return new ServerSetSubscriptionsParams.fromJson(
new RequestDecoder(request), "params", request.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["subscriptions"] =
subscriptions.map((ServerService value) => value.toJson()).toList();
return result;
}
@override
Request toRequest(String id) {
return new Request(id, "server.setSubscriptions", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ServerSetSubscriptionsParams) {
return listEqual(subscriptions, other.subscriptions,
(ServerService a, ServerService b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, subscriptions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* server.setSubscriptions result
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerSetSubscriptionsResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is ServerSetSubscriptionsResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 748820900;
}
}
/**
* server.shutdown params
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerShutdownParams implements RequestParams {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Request toRequest(String id) {
return new Request(id, "server.shutdown", null);
}
@override
bool operator ==(other) {
if (other is ServerShutdownParams) {
return true;
}
return false;
}
@override
int get hashCode {
return 366630911;
}
}
/**
* server.shutdown result
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerShutdownResult implements ResponseResult {
@override
Map<String, dynamic> toJson() => <String, dynamic>{};
@override
Response toResponse(String id) {
return new Response(id, result: null);
}
@override
bool operator ==(other) {
if (other is ServerShutdownResult) {
return true;
}
return false;
}
@override
int get hashCode {
return 193626532;
}
}
/**
* server.status params
*
* {
* "analysis": optional AnalysisStatus
* "pub": optional PubStatus
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ServerStatusParams implements HasToJson {
AnalysisStatus _analysis;
PubStatus _pub;
/**
* The current status of analysis, including whether analysis is being
* performed and if so what is being analyzed.
*/
AnalysisStatus get analysis => _analysis;
/**
* The current status of analysis, including whether analysis is being
* performed and if so what is being analyzed.
*/
void set analysis(AnalysisStatus value) {
this._analysis = value;
}
/**
* The current status of pub execution, indicating whether we are currently
* running pub.
*
* Note: this status type is deprecated, and is no longer sent by the server.
*/
PubStatus get pub => _pub;
/**
* The current status of pub execution, indicating whether we are currently
* running pub.
*
* Note: this status type is deprecated, and is no longer sent by the server.
*/
void set pub(PubStatus value) {
this._pub = value;
}
ServerStatusParams({AnalysisStatus analysis, PubStatus pub}) {
this.analysis = analysis;
this.pub = pub;
}
factory ServerStatusParams.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
AnalysisStatus analysis;
if (json.containsKey("analysis")) {
analysis = new AnalysisStatus.fromJson(
jsonDecoder, jsonPath + ".analysis", json["analysis"]);
}
PubStatus pub;
if (json.containsKey("pub")) {
pub =
new PubStatus.fromJson(jsonDecoder, jsonPath + ".pub", json["pub"]);
}
return new ServerStatusParams(analysis: analysis, pub: pub);
} else {
throw jsonDecoder.mismatch(jsonPath, "server.status params", json);
}
}
factory ServerStatusParams.fromNotification(Notification notification) {
return new ServerStatusParams.fromJson(
new ResponseDecoder(null), "params", notification.params);
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (analysis != null) {
result["analysis"] = analysis.toJson();
}
if (pub != null) {
result["pub"] = pub.toJson();
}
return result;
}
Notification toNotification() {
return new Notification("server.status", toJson());
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ServerStatusParams) {
return analysis == other.analysis && pub == other.pub;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, analysis.hashCode);
hash = JenkinsSmiHash.combine(hash, pub.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* TokenDetails
*
* {
* "lexeme": String
* "type": optional String
* "validElementKinds": optional List<String>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class TokenDetails implements HasToJson {
String _lexeme;
String _type;
List<String> _validElementKinds;
/**
* The token's lexeme.
*/
String get lexeme => _lexeme;
/**
* The token's lexeme.
*/
void set lexeme(String value) {
assert(value != null);
this._lexeme = value;
}
/**
* A unique id for the type of the identifier. Omitted if the token is not an
* identifier in a reference position.
*/
String get type => _type;
/**
* A unique id for the type of the identifier. Omitted if the token is not an
* identifier in a reference position.
*/
void set type(String value) {
this._type = value;
}
/**
* An indication of whether this token is in a declaration or reference
* position. (If no other purpose is found for this field then it should be
* renamed and converted to a boolean value.) Omitted if the token is not an
* identifier.
*/
List<String> get validElementKinds => _validElementKinds;
/**
* An indication of whether this token is in a declaration or reference
* position. (If no other purpose is found for this field then it should be
* renamed and converted to a boolean value.) Omitted if the token is not an
* identifier.
*/
void set validElementKinds(List<String> value) {
this._validElementKinds = value;
}
TokenDetails(String lexeme, {String type, List<String> validElementKinds}) {
this.lexeme = lexeme;
this.type = type;
this.validElementKinds = validElementKinds;
}
factory TokenDetails.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String lexeme;
if (json.containsKey("lexeme")) {
lexeme = jsonDecoder.decodeString(jsonPath + ".lexeme", json["lexeme"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "lexeme");
}
String type;
if (json.containsKey("type")) {
type = jsonDecoder.decodeString(jsonPath + ".type", json["type"]);
}
List<String> validElementKinds;
if (json.containsKey("validElementKinds")) {
validElementKinds = jsonDecoder.decodeList(
jsonPath + ".validElementKinds",
json["validElementKinds"],
jsonDecoder.decodeString);
}
return new TokenDetails(lexeme,
type: type, validElementKinds: validElementKinds);
} else {
throw jsonDecoder.mismatch(jsonPath, "TokenDetails", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["lexeme"] = lexeme;
if (type != null) {
result["type"] = type;
}
if (validElementKinds != null) {
result["validElementKinds"] = validElementKinds;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is TokenDetails) {
return lexeme == other.lexeme &&
type == other.type &&
listEqual(validElementKinds, other.validElementKinds,
(String a, String b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, lexeme.hashCode);
hash = JenkinsSmiHash.combine(hash, type.hashCode);
hash = JenkinsSmiHash.combine(hash, validElementKinds.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* TypeHierarchyItem
*
* {
* "classElement": Element
* "displayName": optional String
* "memberElement": optional Element
* "superclass": optional int
* "interfaces": List<int>
* "mixins": List<int>
* "subclasses": List<int>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class TypeHierarchyItem implements HasToJson {
Element _classElement;
String _displayName;
Element _memberElement;
int _superclass;
List<int> _interfaces;
List<int> _mixins;
List<int> _subclasses;
/**
* The class element represented by this item.
*/
Element get classElement => _classElement;
/**
* The class element represented by this item.
*/
void set classElement(Element value) {
assert(value != null);
this._classElement = value;
}
/**
* The name to be displayed for the class. This field will be omitted if the
* display name is the same as the name of the element. The display name is
* different if there is additional type information to be displayed, such as
* type arguments.
*/
String get displayName => _displayName;
/**
* The name to be displayed for the class. This field will be omitted if the
* display name is the same as the name of the element. The display name is
* different if there is additional type information to be displayed, such as
* type arguments.
*/
void set displayName(String value) {
this._displayName = value;
}
/**
* The member in the class corresponding to the member on which the hierarchy
* was requested. This field will be omitted if the hierarchy was not
* requested for a member or if the class does not have a corresponding
* member.
*/
Element get memberElement => _memberElement;
/**
* The member in the class corresponding to the member on which the hierarchy
* was requested. This field will be omitted if the hierarchy was not
* requested for a member or if the class does not have a corresponding
* member.
*/
void set memberElement(Element value) {
this._memberElement = value;
}
/**
* The index of the item representing the superclass of this class. This
* field will be omitted if this item represents the class Object.
*/
int get superclass => _superclass;
/**
* The index of the item representing the superclass of this class. This
* field will be omitted if this item represents the class Object.
*/
void set superclass(int value) {
this._superclass = value;
}
/**
* The indexes of the items representing the interfaces implemented by this
* class. The list will be empty if there are no implemented interfaces.
*/
List<int> get interfaces => _interfaces;
/**
* The indexes of the items representing the interfaces implemented by this
* class. The list will be empty if there are no implemented interfaces.
*/
void set interfaces(List<int> value) {
assert(value != null);
this._interfaces = value;
}
/**
* The indexes of the items representing the mixins referenced by this class.
* The list will be empty if there are no classes mixed in to this class.
*/
List<int> get mixins => _mixins;
/**
* The indexes of the items representing the mixins referenced by this class.
* The list will be empty if there are no classes mixed in to this class.
*/
void set mixins(List<int> value) {
assert(value != null);
this._mixins = value;
}
/**
* The indexes of the items representing the subtypes of this class. The list
* will be empty if there are no subtypes or if this item represents a
* supertype of the pivot type.
*/
List<int> get subclasses => _subclasses;
/**
* The indexes of the items representing the subtypes of this class. The list
* will be empty if there are no subtypes or if this item represents a
* supertype of the pivot type.
*/
void set subclasses(List<int> value) {
assert(value != null);
this._subclasses = value;
}
TypeHierarchyItem(Element classElement,
{String displayName,
Element memberElement,
int superclass,
List<int> interfaces,
List<int> mixins,
List<int> subclasses}) {
this.classElement = classElement;
this.displayName = displayName;
this.memberElement = memberElement;
this.superclass = superclass;
if (interfaces == null) {
this.interfaces = <int>[];
} else {
this.interfaces = interfaces;
}
if (mixins == null) {
this.mixins = <int>[];
} else {
this.mixins = mixins;
}
if (subclasses == null) {
this.subclasses = <int>[];
} else {
this.subclasses = subclasses;
}
}
factory TypeHierarchyItem.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
Element classElement;
if (json.containsKey("classElement")) {
classElement = new Element.fromJson(
jsonDecoder, jsonPath + ".classElement", json["classElement"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "classElement");
}
String displayName;
if (json.containsKey("displayName")) {
displayName = jsonDecoder.decodeString(
jsonPath + ".displayName", json["displayName"]);
}
Element memberElement;
if (json.containsKey("memberElement")) {
memberElement = new Element.fromJson(
jsonDecoder, jsonPath + ".memberElement", json["memberElement"]);
}
int superclass;
if (json.containsKey("superclass")) {
superclass =
jsonDecoder.decodeInt(jsonPath + ".superclass", json["superclass"]);
}
List<int> interfaces;
if (json.containsKey("interfaces")) {
interfaces = jsonDecoder.decodeList(jsonPath + ".interfaces",
json["interfaces"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "interfaces");
}
List<int> mixins;
if (json.containsKey("mixins")) {
mixins = jsonDecoder.decodeList(
jsonPath + ".mixins", json["mixins"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "mixins");
}
List<int> subclasses;
if (json.containsKey("subclasses")) {
subclasses = jsonDecoder.decodeList(jsonPath + ".subclasses",
json["subclasses"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "subclasses");
}
return new TypeHierarchyItem(classElement,
displayName: displayName,
memberElement: memberElement,
superclass: superclass,
interfaces: interfaces,
mixins: mixins,
subclasses: subclasses);
} else {
throw jsonDecoder.mismatch(jsonPath, "TypeHierarchyItem", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["classElement"] = classElement.toJson();
if (displayName != null) {
result["displayName"] = displayName;
}
if (memberElement != null) {
result["memberElement"] = memberElement.toJson();
}
if (superclass != null) {
result["superclass"] = superclass;
}
result["interfaces"] = interfaces;
result["mixins"] = mixins;
result["subclasses"] = subclasses;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is TypeHierarchyItem) {
return classElement == other.classElement &&
displayName == other.displayName &&
memberElement == other.memberElement &&
superclass == other.superclass &&
listEqual(interfaces, other.interfaces, (int a, int b) => a == b) &&
listEqual(mixins, other.mixins, (int a, int b) => a == b) &&
listEqual(subclasses, other.subclasses, (int a, int b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, classElement.hashCode);
hash = JenkinsSmiHash.combine(hash, displayName.hashCode);
hash = JenkinsSmiHash.combine(hash, memberElement.hashCode);
hash = JenkinsSmiHash.combine(hash, superclass.hashCode);
hash = JenkinsSmiHash.combine(hash, interfaces.hashCode);
hash = JenkinsSmiHash.combine(hash, mixins.hashCode);
hash = JenkinsSmiHash.combine(hash, subclasses.hashCode);
return JenkinsSmiHash.finish(hash);
}
}