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dart / sdk / 1acf6f768dc0b2a2868414a2bb2ae357bdf8fa5c / . / pkg / analyzer_plugin / lib / protocol / protocol_common.dart
blob: 6d8ea9ce04b8b8c862bf8912ad2c1dbd95ad2ddf [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:analyzer/src/generated/utilities_general.dart';
import 'package:analyzer_plugin/protocol/protocol.dart';
import 'package:analyzer_plugin/src/protocol/protocol_internal.dart';
/**
* AddContentOverlay
*
* {
* "type": "add"
* "content": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AddContentOverlay implements HasToJson {
String _content;
/**
* The new content of the file.
*/
String get content => _content;
/**
* The new content of the file.
*/
void set content(String value) {
assert(value != null);
this._content = value;
}
AddContentOverlay(String content) {
this.content = content;
}
factory AddContentOverlay.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
if (json["type"] != "add") {
throw jsonDecoder.mismatch(jsonPath, "equal " + "add", json);
}
String content;
if (json.containsKey("content")) {
content =
jsonDecoder.decodeString(jsonPath + ".content", json["content"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "content");
}
return new AddContentOverlay(content);
} else {
throw jsonDecoder.mismatch(jsonPath, "AddContentOverlay", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["type"] = "add";
result["content"] = content;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AddContentOverlay) {
return content == other.content;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, 704418402);
hash = JenkinsSmiHash.combine(hash, content.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* AnalysisError
*
* {
* "severity": AnalysisErrorSeverity
* "type": AnalysisErrorType
* "location": Location
* "message": String
* "correction": optional String
* "code": String
* "hasFix": optional bool
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisError implements HasToJson {
AnalysisErrorSeverity _severity;
AnalysisErrorType _type;
Location _location;
String _message;
String _correction;
String _code;
bool _hasFix;
/**
* The severity of the error.
*/
AnalysisErrorSeverity get severity => _severity;
/**
* The severity of the error.
*/
void set severity(AnalysisErrorSeverity value) {
assert(value != null);
this._severity = value;
}
/**
* The type of the error.
*/
AnalysisErrorType get type => _type;
/**
* The type of the error.
*/
void set type(AnalysisErrorType value) {
assert(value != null);
this._type = value;
}
/**
* The location associated with the error.
*/
Location get location => _location;
/**
* The location associated with the error.
*/
void set location(Location value) {
assert(value != null);
this._location = value;
}
/**
* The message to be displayed for this error. The message should indicate
* what is wrong with the code and why it is wrong.
*/
String get message => _message;
/**
* The message to be displayed for this error. The message should indicate
* what is wrong with the code and why it is wrong.
*/
void set message(String value) {
assert(value != null);
this._message = value;
}
/**
* The correction message to be displayed for this error. The correction
* message should indicate how the user can fix the error. The field is
* omitted if there is no correction message associated with the error code.
*/
String get correction => _correction;
/**
* The correction message to be displayed for this error. The correction
* message should indicate how the user can fix the error. The field is
* omitted if there is no correction message associated with the error code.
*/
void set correction(String value) {
this._correction = value;
}
/**
* The name, as a string, of the error code associated with this error.
*/
String get code => _code;
/**
* The name, as a string, of the error code associated with this error.
*/
void set code(String value) {
assert(value != null);
this._code = value;
}
/**
* A hint to indicate to interested clients that this error has an associated
* fix (or fixes). The absence of this field implies there are not known to
* be fixes. Note that since the operation to calculate whether fixes apply
* needs to be performant it is possible that complicated tests will be
* skipped and a false negative returned. For this reason, this attribute
* should be treated as a "hint". Despite the possibility of false negatives,
* no false positives should be returned. If a client sees this flag set they
* can proceed with the confidence that there are in fact associated fixes.
*/
bool get hasFix => _hasFix;
/**
* A hint to indicate to interested clients that this error has an associated
* fix (or fixes). The absence of this field implies there are not known to
* be fixes. Note that since the operation to calculate whether fixes apply
* needs to be performant it is possible that complicated tests will be
* skipped and a false negative returned. For this reason, this attribute
* should be treated as a "hint". Despite the possibility of false negatives,
* no false positives should be returned. If a client sees this flag set they
* can proceed with the confidence that there are in fact associated fixes.
*/
void set hasFix(bool value) {
this._hasFix = value;
}
AnalysisError(AnalysisErrorSeverity severity, AnalysisErrorType type,
Location location, String message, String code,
{String correction, bool hasFix}) {
this.severity = severity;
this.type = type;
this.location = location;
this.message = message;
this.correction = correction;
this.code = code;
this.hasFix = hasFix;
}
factory AnalysisError.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
AnalysisErrorSeverity severity;
if (json.containsKey("severity")) {
severity = new AnalysisErrorSeverity.fromJson(
jsonDecoder, jsonPath + ".severity", json["severity"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "severity");
}
AnalysisErrorType type;
if (json.containsKey("type")) {
type = new AnalysisErrorType.fromJson(
jsonDecoder, jsonPath + ".type", json["type"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "type");
}
Location location;
if (json.containsKey("location")) {
location = new Location.fromJson(
jsonDecoder, jsonPath + ".location", json["location"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "location");
}
String message;
if (json.containsKey("message")) {
message =
jsonDecoder.decodeString(jsonPath + ".message", json["message"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "message");
}
String correction;
if (json.containsKey("correction")) {
correction = jsonDecoder.decodeString(
jsonPath + ".correction", json["correction"]);
}
String code;
if (json.containsKey("code")) {
code = jsonDecoder.decodeString(jsonPath + ".code", json["code"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "code");
}
bool hasFix;
if (json.containsKey("hasFix")) {
hasFix = jsonDecoder.decodeBool(jsonPath + ".hasFix", json["hasFix"]);
}
return new AnalysisError(severity, type, location, message, code,
correction: correction, hasFix: hasFix);
} else {
throw jsonDecoder.mismatch(jsonPath, "AnalysisError", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["severity"] = severity.toJson();
result["type"] = type.toJson();
result["location"] = location.toJson();
result["message"] = message;
if (correction != null) {
result["correction"] = correction;
}
result["code"] = code;
if (hasFix != null) {
result["hasFix"] = hasFix;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is AnalysisError) {
return severity == other.severity &&
type == other.type &&
location == other.location &&
message == other.message &&
correction == other.correction &&
code == other.code &&
hasFix == other.hasFix;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, severity.hashCode);
hash = JenkinsSmiHash.combine(hash, type.hashCode);
hash = JenkinsSmiHash.combine(hash, location.hashCode);
hash = JenkinsSmiHash.combine(hash, message.hashCode);
hash = JenkinsSmiHash.combine(hash, correction.hashCode);
hash = JenkinsSmiHash.combine(hash, code.hashCode);
hash = JenkinsSmiHash.combine(hash, hasFix.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* AnalysisErrorSeverity
*
* enum {
* INFO
* WARNING
* ERROR
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisErrorSeverity implements Enum {
static const AnalysisErrorSeverity INFO =
const AnalysisErrorSeverity._("INFO");
static const AnalysisErrorSeverity WARNING =
const AnalysisErrorSeverity._("WARNING");
static const AnalysisErrorSeverity ERROR =
const AnalysisErrorSeverity._("ERROR");
/**
* A list containing all of the enum values that are defined.
*/
static const List<AnalysisErrorSeverity> VALUES =
const <AnalysisErrorSeverity>[INFO, WARNING, ERROR];
@override
final String name;
const AnalysisErrorSeverity._(this.name);
factory AnalysisErrorSeverity(String name) {
switch (name) {
case "INFO":
return INFO;
case "WARNING":
return WARNING;
case "ERROR":
return ERROR;
}
throw new Exception('Illegal enum value: $name');
}
factory AnalysisErrorSeverity.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new AnalysisErrorSeverity(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "AnalysisErrorSeverity", json);
}
@override
String toString() => "AnalysisErrorSeverity.$name";
String toJson() => name;
}
/**
* AnalysisErrorType
*
* enum {
* CHECKED_MODE_COMPILE_TIME_ERROR
* COMPILE_TIME_ERROR
* HINT
* LINT
* STATIC_TYPE_WARNING
* STATIC_WARNING
* SYNTACTIC_ERROR
* TODO
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class AnalysisErrorType implements Enum {
static const AnalysisErrorType CHECKED_MODE_COMPILE_TIME_ERROR =
const AnalysisErrorType._("CHECKED_MODE_COMPILE_TIME_ERROR");
static const AnalysisErrorType COMPILE_TIME_ERROR =
const AnalysisErrorType._("COMPILE_TIME_ERROR");
static const AnalysisErrorType HINT = const AnalysisErrorType._("HINT");
static const AnalysisErrorType LINT = const AnalysisErrorType._("LINT");
static const AnalysisErrorType STATIC_TYPE_WARNING =
const AnalysisErrorType._("STATIC_TYPE_WARNING");
static const AnalysisErrorType STATIC_WARNING =
const AnalysisErrorType._("STATIC_WARNING");
static const AnalysisErrorType SYNTACTIC_ERROR =
const AnalysisErrorType._("SYNTACTIC_ERROR");
static const AnalysisErrorType TODO = const AnalysisErrorType._("TODO");
/**
* A list containing all of the enum values that are defined.
*/
static const List<AnalysisErrorType> VALUES = const <AnalysisErrorType>[
CHECKED_MODE_COMPILE_TIME_ERROR,
COMPILE_TIME_ERROR,
HINT,
LINT,
STATIC_TYPE_WARNING,
STATIC_WARNING,
SYNTACTIC_ERROR,
TODO
];
@override
final String name;
const AnalysisErrorType._(this.name);
factory AnalysisErrorType(String name) {
switch (name) {
case "CHECKED_MODE_COMPILE_TIME_ERROR":
return CHECKED_MODE_COMPILE_TIME_ERROR;
case "COMPILE_TIME_ERROR":
return COMPILE_TIME_ERROR;
case "HINT":
return HINT;
case "LINT":
return LINT;
case "STATIC_TYPE_WARNING":
return STATIC_TYPE_WARNING;
case "STATIC_WARNING":
return STATIC_WARNING;
case "SYNTACTIC_ERROR":
return SYNTACTIC_ERROR;
case "TODO":
return TODO;
}
throw new Exception('Illegal enum value: $name');
}
factory AnalysisErrorType.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new AnalysisErrorType(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "AnalysisErrorType", json);
}
@override
String toString() => "AnalysisErrorType.$name";
String toJson() => name;
}
/**
* ChangeContentOverlay
*
* {
* "type": "change"
* "edits": List<SourceEdit>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ChangeContentOverlay implements HasToJson {
List<SourceEdit> _edits;
/**
* The edits to be applied to the file.
*/
List<SourceEdit> get edits => _edits;
/**
* The edits to be applied to the file.
*/
void set edits(List<SourceEdit> value) {
assert(value != null);
this._edits = value;
}
ChangeContentOverlay(List<SourceEdit> edits) {
this.edits = edits;
}
factory ChangeContentOverlay.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
if (json["type"] != "change") {
throw jsonDecoder.mismatch(jsonPath, "equal " + "change", json);
}
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");
}
return new ChangeContentOverlay(edits);
} else {
throw jsonDecoder.mismatch(jsonPath, "ChangeContentOverlay", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["type"] = "change";
result["edits"] = edits.map((SourceEdit value) => value.toJson()).toList();
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ChangeContentOverlay) {
return listEqual(
edits, other.edits, (SourceEdit a, SourceEdit b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, 873118866);
hash = JenkinsSmiHash.combine(hash, edits.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* CompletionSuggestion
*
* {
* "kind": CompletionSuggestionKind
* "relevance": int
* "completion": String
* "displayText": optional String
* "selectionOffset": int
* "selectionLength": int
* "isDeprecated": bool
* "isPotential": bool
* "docSummary": optional String
* "docComplete": optional String
* "declaringType": optional String
* "defaultArgumentListString": optional String
* "defaultArgumentListTextRanges": optional List<int>
* "element": optional Element
* "returnType": optional String
* "parameterNames": optional List<String>
* "parameterTypes": optional List<String>
* "requiredParameterCount": optional int
* "hasNamedParameters": optional bool
* "parameterName": optional String
* "parameterType": optional String
* "importUri": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionSuggestion implements HasToJson {
CompletionSuggestionKind _kind;
int _relevance;
String _completion;
String _displayText;
int _selectionOffset;
int _selectionLength;
bool _isDeprecated;
bool _isPotential;
String _docSummary;
String _docComplete;
String _declaringType;
String _defaultArgumentListString;
List<int> _defaultArgumentListTextRanges;
Element _element;
String _returnType;
List<String> _parameterNames;
List<String> _parameterTypes;
int _requiredParameterCount;
bool _hasNamedParameters;
String _parameterName;
String _parameterType;
String _importUri;
/**
* The kind of element being suggested.
*/
CompletionSuggestionKind get kind => _kind;
/**
* The kind of element being suggested.
*/
void set kind(CompletionSuggestionKind value) {
assert(value != null);
this._kind = value;
}
/**
* The relevance of this completion suggestion where a higher number
* indicates a higher relevance.
*/
int get relevance => _relevance;
/**
* The relevance of this completion suggestion where a higher number
* indicates a higher relevance.
*/
void set relevance(int value) {
assert(value != null);
this._relevance = value;
}
/**
* The identifier to be inserted if the suggestion is selected. If the
* suggestion is for a method or function, the client might want to
* additionally insert a template for the parameters. The information
* required in order to do so is contained in other fields.
*/
String get completion => _completion;
/**
* The identifier to be inserted if the suggestion is selected. If the
* suggestion is for a method or function, the client might want to
* additionally insert a template for the parameters. The information
* required in order to do so is contained in other fields.
*/
void set completion(String value) {
assert(value != null);
this._completion = value;
}
/**
* Text to be displayed in, for example, a completion pop-up. This field is
* only defined if the displayed text should be different than the
* completion. Otherwise it is omitted.
*/
String get displayText => _displayText;
/**
* Text to be displayed in, for example, a completion pop-up. This field is
* only defined if the displayed text should be different than the
* completion. Otherwise it is omitted.
*/
void set displayText(String value) {
this._displayText = value;
}
/**
* The offset, relative to the beginning of the completion, of where the
* selection should be placed after insertion.
*/
int get selectionOffset => _selectionOffset;
/**
* The offset, relative to the beginning of the completion, of where the
* selection should be placed after insertion.
*/
void set selectionOffset(int value) {
assert(value != null);
this._selectionOffset = value;
}
/**
* The number of characters that should be selected after insertion.
*/
int get selectionLength => _selectionLength;
/**
* The number of characters that should be selected after insertion.
*/
void set selectionLength(int value) {
assert(value != null);
this._selectionLength = value;
}
/**
* True if the suggested element is deprecated.
*/
bool get isDeprecated => _isDeprecated;
/**
* True if the suggested element is deprecated.
*/
void set isDeprecated(bool value) {
assert(value != null);
this._isDeprecated = value;
}
/**
* True if the element is not known to be valid for the target. This happens
* if the type of the target is dynamic.
*/
bool get isPotential => _isPotential;
/**
* True if the element is not known to be valid for the target. This happens
* if the type of the target is dynamic.
*/
void set isPotential(bool value) {
assert(value != null);
this._isPotential = 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;
}
/**
* 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;
}
/**
* The class that declares the element being suggested. This field is omitted
* if the suggested element is not a member of a class.
*/
String get declaringType => _declaringType;
/**
* The class that declares the element being suggested. This field is omitted
* if the suggested element is not a member of a class.
*/
void set declaringType(String value) {
this._declaringType = 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;
}
/**
* Information about the element reference being suggested.
*/
Element get element => _element;
/**
* Information about the element reference being suggested.
*/
void set element(Element value) {
this._element = value;
}
/**
* The return type of the getter, function or method or the type of the field
* being suggested. This field is omitted if the suggested element is not a
* getter, function or method.
*/
String get returnType => _returnType;
/**
* The return type of the getter, function or method or the type of the field
* being suggested. This field is omitted if the suggested element is not a
* getter, function or method.
*/
void set returnType(String value) {
this._returnType = value;
}
/**
* The names of the parameters of the function or method being suggested.
* This field is omitted if the suggested element is not a setter, function
* or method.
*/
List<String> get parameterNames => _parameterNames;
/**
* The names of the parameters of the function or method being suggested.
* This field is omitted if the suggested element is not a setter, function
* or method.
*/
void set parameterNames(List<String> value) {
this._parameterNames = value;
}
/**
* The types of the parameters of the function or method being suggested.
* This field is omitted if the parameterNames field is omitted.
*/
List<String> get parameterTypes => _parameterTypes;
/**
* The types of the parameters of the function or method being suggested.
* This field is omitted if the parameterNames field is omitted.
*/
void set parameterTypes(List<String> value) {
this._parameterTypes = value;
}
/**
* The number of required parameters for the function or method being
* suggested. This field is omitted if the parameterNames field is omitted.
*/
int get requiredParameterCount => _requiredParameterCount;
/**
* The number of required parameters for the function or method being
* suggested. This field is omitted if the parameterNames field is omitted.
*/
void set requiredParameterCount(int value) {
this._requiredParameterCount = value;
}
/**
* True if the function or method being suggested has at least one named
* parameter. This field is omitted if the parameterNames field is omitted.
*/
bool get hasNamedParameters => _hasNamedParameters;
/**
* True if the function or method being suggested has at least one named
* parameter. This field is omitted if the parameterNames field is omitted.
*/
void set hasNamedParameters(bool value) {
this._hasNamedParameters = value;
}
/**
* The name of the optional parameter being suggested. This field is omitted
* if the suggestion is not the addition of an optional argument within an
* argument list.
*/
String get parameterName => _parameterName;
/**
* The name of the optional parameter being suggested. This field is omitted
* if the suggestion is not the addition of an optional argument within an
* argument list.
*/
void set parameterName(String value) {
this._parameterName = value;
}
/**
* The type of the options parameter being suggested. This field is omitted
* if the parameterName field is omitted.
*/
String get parameterType => _parameterType;
/**
* The type of the options parameter being suggested. This field is omitted
* if the parameterName field is omitted.
*/
void set parameterType(String value) {
this._parameterType = value;
}
/**
* The import to be added if the suggestion is out of scope and needs an
* import to be added to be in scope.
*/
String get importUri => _importUri;
/**
* The import to be added if the suggestion is out of scope and needs an
* import to be added to be in scope.
*/
void set importUri(String value) {
this._importUri = value;
}
CompletionSuggestion(
CompletionSuggestionKind kind,
int relevance,
String completion,
int selectionOffset,
int selectionLength,
bool isDeprecated,
bool isPotential,
{String displayText,
String docSummary,
String docComplete,
String declaringType,
String defaultArgumentListString,
List<int> defaultArgumentListTextRanges,
Element element,
String returnType,
List<String> parameterNames,
List<String> parameterTypes,
int requiredParameterCount,
bool hasNamedParameters,
String parameterName,
String parameterType,
String importUri}) {
this.kind = kind;
this.relevance = relevance;
this.completion = completion;
this.displayText = displayText;
this.selectionOffset = selectionOffset;
this.selectionLength = selectionLength;
this.isDeprecated = isDeprecated;
this.isPotential = isPotential;
this.docSummary = docSummary;
this.docComplete = docComplete;
this.declaringType = declaringType;
this.defaultArgumentListString = defaultArgumentListString;
this.defaultArgumentListTextRanges = defaultArgumentListTextRanges;
this.element = element;
this.returnType = returnType;
this.parameterNames = parameterNames;
this.parameterTypes = parameterTypes;
this.requiredParameterCount = requiredParameterCount;
this.hasNamedParameters = hasNamedParameters;
this.parameterName = parameterName;
this.parameterType = parameterType;
this.importUri = importUri;
}
factory CompletionSuggestion.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
CompletionSuggestionKind kind;
if (json.containsKey("kind")) {
kind = new CompletionSuggestionKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
int relevance;
if (json.containsKey("relevance")) {
relevance =
jsonDecoder.decodeInt(jsonPath + ".relevance", json["relevance"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "relevance");
}
String completion;
if (json.containsKey("completion")) {
completion = jsonDecoder.decodeString(
jsonPath + ".completion", json["completion"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "completion");
}
String displayText;
if (json.containsKey("displayText")) {
displayText = jsonDecoder.decodeString(
jsonPath + ".displayText", json["displayText"]);
}
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");
}
bool isDeprecated;
if (json.containsKey("isDeprecated")) {
isDeprecated = jsonDecoder.decodeBool(
jsonPath + ".isDeprecated", json["isDeprecated"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isDeprecated");
}
bool isPotential;
if (json.containsKey("isPotential")) {
isPotential = jsonDecoder.decodeBool(
jsonPath + ".isPotential", json["isPotential"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "isPotential");
}
String docSummary;
if (json.containsKey("docSummary")) {
docSummary = jsonDecoder.decodeString(
jsonPath + ".docSummary", json["docSummary"]);
}
String docComplete;
if (json.containsKey("docComplete")) {
docComplete = jsonDecoder.decodeString(
jsonPath + ".docComplete", json["docComplete"]);
}
String declaringType;
if (json.containsKey("declaringType")) {
declaringType = jsonDecoder.decodeString(
jsonPath + ".declaringType", json["declaringType"]);
}
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);
}
Element element;
if (json.containsKey("element")) {
element = new Element.fromJson(
jsonDecoder, jsonPath + ".element", json["element"]);
}
String returnType;
if (json.containsKey("returnType")) {
returnType = jsonDecoder.decodeString(
jsonPath + ".returnType", json["returnType"]);
}
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);
}
int requiredParameterCount;
if (json.containsKey("requiredParameterCount")) {
requiredParameterCount = jsonDecoder.decodeInt(
jsonPath + ".requiredParameterCount",
json["requiredParameterCount"]);
}
bool hasNamedParameters;
if (json.containsKey("hasNamedParameters")) {
hasNamedParameters = jsonDecoder.decodeBool(
jsonPath + ".hasNamedParameters", json["hasNamedParameters"]);
}
String parameterName;
if (json.containsKey("parameterName")) {
parameterName = jsonDecoder.decodeString(
jsonPath + ".parameterName", json["parameterName"]);
}
String parameterType;
if (json.containsKey("parameterType")) {
parameterType = jsonDecoder.decodeString(
jsonPath + ".parameterType", json["parameterType"]);
}
String importUri;
if (json.containsKey("importUri")) {
importUri = jsonDecoder.decodeString(
jsonPath + ".importUri", json["importUri"]);
}
return new CompletionSuggestion(kind, relevance, completion,
selectionOffset, selectionLength, isDeprecated, isPotential,
displayText: displayText,
docSummary: docSummary,
docComplete: docComplete,
declaringType: declaringType,
defaultArgumentListString: defaultArgumentListString,
defaultArgumentListTextRanges: defaultArgumentListTextRanges,
element: element,
returnType: returnType,
parameterNames: parameterNames,
parameterTypes: parameterTypes,
requiredParameterCount: requiredParameterCount,
hasNamedParameters: hasNamedParameters,
parameterName: parameterName,
parameterType: parameterType,
importUri: importUri);
} else {
throw jsonDecoder.mismatch(jsonPath, "CompletionSuggestion", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["kind"] = kind.toJson();
result["relevance"] = relevance;
result["completion"] = completion;
if (displayText != null) {
result["displayText"] = displayText;
}
result["selectionOffset"] = selectionOffset;
result["selectionLength"] = selectionLength;
result["isDeprecated"] = isDeprecated;
result["isPotential"] = isPotential;
if (docSummary != null) {
result["docSummary"] = docSummary;
}
if (docComplete != null) {
result["docComplete"] = docComplete;
}
if (declaringType != null) {
result["declaringType"] = declaringType;
}
if (defaultArgumentListString != null) {
result["defaultArgumentListString"] = defaultArgumentListString;
}
if (defaultArgumentListTextRanges != null) {
result["defaultArgumentListTextRanges"] = defaultArgumentListTextRanges;
}
if (element != null) {
result["element"] = element.toJson();
}
if (returnType != null) {
result["returnType"] = returnType;
}
if (parameterNames != null) {
result["parameterNames"] = parameterNames;
}
if (parameterTypes != null) {
result["parameterTypes"] = parameterTypes;
}
if (requiredParameterCount != null) {
result["requiredParameterCount"] = requiredParameterCount;
}
if (hasNamedParameters != null) {
result["hasNamedParameters"] = hasNamedParameters;
}
if (parameterName != null) {
result["parameterName"] = parameterName;
}
if (parameterType != null) {
result["parameterType"] = parameterType;
}
if (importUri != null) {
result["importUri"] = importUri;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is CompletionSuggestion) {
return kind == other.kind &&
relevance == other.relevance &&
completion == other.completion &&
displayText == other.displayText &&
selectionOffset == other.selectionOffset &&
selectionLength == other.selectionLength &&
isDeprecated == other.isDeprecated &&
isPotential == other.isPotential &&
docSummary == other.docSummary &&
docComplete == other.docComplete &&
declaringType == other.declaringType &&
defaultArgumentListString == other.defaultArgumentListString &&
listEqual(defaultArgumentListTextRanges,
other.defaultArgumentListTextRanges, (int a, int b) => a == b) &&
element == other.element &&
returnType == other.returnType &&
listEqual(parameterNames, other.parameterNames,
(String a, String b) => a == b) &&
listEqual(parameterTypes, other.parameterTypes,
(String a, String b) => a == b) &&
requiredParameterCount == other.requiredParameterCount &&
hasNamedParameters == other.hasNamedParameters &&
parameterName == other.parameterName &&
parameterType == other.parameterType &&
importUri == other.importUri;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, relevance.hashCode);
hash = JenkinsSmiHash.combine(hash, completion.hashCode);
hash = JenkinsSmiHash.combine(hash, displayText.hashCode);
hash = JenkinsSmiHash.combine(hash, selectionOffset.hashCode);
hash = JenkinsSmiHash.combine(hash, selectionLength.hashCode);
hash = JenkinsSmiHash.combine(hash, isDeprecated.hashCode);
hash = JenkinsSmiHash.combine(hash, isPotential.hashCode);
hash = JenkinsSmiHash.combine(hash, docSummary.hashCode);
hash = JenkinsSmiHash.combine(hash, docComplete.hashCode);
hash = JenkinsSmiHash.combine(hash, declaringType.hashCode);
hash = JenkinsSmiHash.combine(hash, defaultArgumentListString.hashCode);
hash = JenkinsSmiHash.combine(hash, defaultArgumentListTextRanges.hashCode);
hash = JenkinsSmiHash.combine(hash, element.hashCode);
hash = JenkinsSmiHash.combine(hash, returnType.hashCode);
hash = JenkinsSmiHash.combine(hash, parameterNames.hashCode);
hash = JenkinsSmiHash.combine(hash, parameterTypes.hashCode);
hash = JenkinsSmiHash.combine(hash, requiredParameterCount.hashCode);
hash = JenkinsSmiHash.combine(hash, hasNamedParameters.hashCode);
hash = JenkinsSmiHash.combine(hash, parameterName.hashCode);
hash = JenkinsSmiHash.combine(hash, parameterType.hashCode);
hash = JenkinsSmiHash.combine(hash, importUri.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* CompletionSuggestionKind
*
* enum {
* ARGUMENT_LIST
* IMPORT
* IDENTIFIER
* INVOCATION
* KEYWORD
* NAMED_ARGUMENT
* OPTIONAL_ARGUMENT
* OVERRIDE
* PARAMETER
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class CompletionSuggestionKind implements Enum {
/**
* A list of arguments for the method or function that is being invoked. For
* this suggestion kind, the completion field is a textual representation of
* the invocation and the parameterNames, parameterTypes, and
* requiredParameterCount attributes are defined.
*/
static const CompletionSuggestionKind ARGUMENT_LIST =
const CompletionSuggestionKind._("ARGUMENT_LIST");
static const CompletionSuggestionKind IMPORT =
const CompletionSuggestionKind._("IMPORT");
/**
* The element identifier should be inserted at the completion location. For
* example "someMethod" in import 'myLib.dart' show someMethod;. For
* suggestions of this kind, the element attribute is defined and the
* completion field is the element's identifier.
*/
static const CompletionSuggestionKind IDENTIFIER =
const CompletionSuggestionKind._("IDENTIFIER");
/**
* The element is being invoked at the completion location. For example,
* 'someMethod' in x.someMethod();. For suggestions of this kind, the element
* attribute is defined and the completion field is the element's identifier.
*/
static const CompletionSuggestionKind INVOCATION =
const CompletionSuggestionKind._("INVOCATION");
/**
* A keyword is being suggested. For suggestions of this kind, the completion
* is the keyword.
*/
static const CompletionSuggestionKind KEYWORD =
const CompletionSuggestionKind._("KEYWORD");
/**
* A named argument for the current call site is being suggested. For
* suggestions of this kind, the completion is the named argument identifier
* including a trailing ':' and a space.
*/
static const CompletionSuggestionKind NAMED_ARGUMENT =
const CompletionSuggestionKind._("NAMED_ARGUMENT");
static const CompletionSuggestionKind OPTIONAL_ARGUMENT =
const CompletionSuggestionKind._("OPTIONAL_ARGUMENT");
/**
* An overriding implementation of a class member is being suggested.
*/
static const CompletionSuggestionKind OVERRIDE =
const CompletionSuggestionKind._("OVERRIDE");
static const CompletionSuggestionKind PARAMETER =
const CompletionSuggestionKind._("PARAMETER");
/**
* A list containing all of the enum values that are defined.
*/
static const List<CompletionSuggestionKind> VALUES =
const <CompletionSuggestionKind>[
ARGUMENT_LIST,
IMPORT,
IDENTIFIER,
INVOCATION,
KEYWORD,
NAMED_ARGUMENT,
OPTIONAL_ARGUMENT,
OVERRIDE,
PARAMETER
];
@override
final String name;
const CompletionSuggestionKind._(this.name);
factory CompletionSuggestionKind(String name) {
switch (name) {
case "ARGUMENT_LIST":
return ARGUMENT_LIST;
case "IMPORT":
return IMPORT;
case "IDENTIFIER":
return IDENTIFIER;
case "INVOCATION":
return INVOCATION;
case "KEYWORD":
return KEYWORD;
case "NAMED_ARGUMENT":
return NAMED_ARGUMENT;
case "OPTIONAL_ARGUMENT":
return OPTIONAL_ARGUMENT;
case "OVERRIDE":
return OVERRIDE;
case "PARAMETER":
return PARAMETER;
}
throw new Exception('Illegal enum value: $name');
}
factory CompletionSuggestionKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new CompletionSuggestionKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "CompletionSuggestionKind", json);
}
@override
String toString() => "CompletionSuggestionKind.$name";
String toJson() => name;
}
/**
* Element
*
* {
* "kind": ElementKind
* "name": String
* "location": optional Location
* "flags": int
* "parameters": optional String
* "returnType": optional String
* "typeParameters": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class Element implements HasToJson {
static const int FLAG_ABSTRACT = 0x01;
static const int FLAG_CONST = 0x02;
static const int FLAG_FINAL = 0x04;
static const int FLAG_STATIC = 0x08;
static const int FLAG_PRIVATE = 0x10;
static const int FLAG_DEPRECATED = 0x20;
static int makeFlags(
{bool isAbstract: false,
bool isConst: false,
bool isFinal: false,
bool isStatic: false,
bool isPrivate: false,
bool isDeprecated: false}) {
int flags = 0;
if (isAbstract) flags |= FLAG_ABSTRACT;
if (isConst) flags |= FLAG_CONST;
if (isFinal) flags |= FLAG_FINAL;
if (isStatic) flags |= FLAG_STATIC;
if (isPrivate) flags |= FLAG_PRIVATE;
if (isDeprecated) flags |= FLAG_DEPRECATED;
return flags;
}
ElementKind _kind;
String _name;
Location _location;
int _flags;
String _parameters;
String _returnType;
String _typeParameters;
/**
* The kind of the element.
*/
ElementKind get kind => _kind;
/**
* The kind of the element.
*/
void set kind(ElementKind value) {
assert(value != null);
this._kind = value;
}
/**
* The name of the element. This is typically used as the label in the
* outline.
*/
String get name => _name;
/**
* The name of the element. This is typically used as the label in the
* outline.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The location of the name in the declaration of the element.
*/
Location get location => _location;
/**
* The location of the name in the declaration of the element.
*/
void set location(Location value) {
this._location = value;
}
/**
* A bit-map containing the following flags:
*
* - 0x01 - set if the element is explicitly or implicitly abstract
* - 0x02 - set if the element was declared to be ‘const’
* - 0x04 - set if the element was declared to be ‘final’
* - 0x08 - set if the element is a static member of a class or is a
* top-level function or field
* - 0x10 - set if the element is private
* - 0x20 - set if the element is deprecated
*/
int get flags => _flags;
/**
* A bit-map containing the following flags:
*
* - 0x01 - set if the element is explicitly or implicitly abstract
* - 0x02 - set if the element was declared to be ‘const’
* - 0x04 - set if the element was declared to be ‘final’
* - 0x08 - set if the element is a static member of a class or is a
* top-level function or field
* - 0x10 - set if the element is private
* - 0x20 - set if the element is deprecated
*/
void set flags(int value) {
assert(value != null);
this._flags = 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 "()".
*/
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 "()".
*/
void set parameters(String value) {
this._parameters = value;
}
/**
* The return type of the element. If the element is not a method or function
* this field will not be defined. If the element does not have a declared
* return type, this field will contain an empty string.
*/
String get returnType => _returnType;
/**
* The return type of the element. If the element is not a method or function
* this field will not be defined. If the element does not have a declared
* return type, this field will contain an empty string.
*/
void set returnType(String value) {
this._returnType = value;
}
/**
* The type parameter list for the element. If the element doesn't have type
* parameters, this field will not be defined.
*/
String get typeParameters => _typeParameters;
/**
* The type parameter list for the element. If the element doesn't have type
* parameters, this field will not be defined.
*/
void set typeParameters(String value) {
this._typeParameters = value;
}
Element(ElementKind kind, String name, int flags,
{Location location,
String parameters,
String returnType,
String typeParameters}) {
this.kind = kind;
this.name = name;
this.location = location;
this.flags = flags;
this.parameters = parameters;
this.returnType = returnType;
this.typeParameters = typeParameters;
}
factory Element.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
ElementKind kind;
if (json.containsKey("kind")) {
kind = new ElementKind.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"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
Location location;
if (json.containsKey("location")) {
location = new Location.fromJson(
jsonDecoder, jsonPath + ".location", json["location"]);
}
int flags;
if (json.containsKey("flags")) {
flags = jsonDecoder.decodeInt(jsonPath + ".flags", json["flags"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "flags");
}
String parameters;
if (json.containsKey("parameters")) {
parameters = jsonDecoder.decodeString(
jsonPath + ".parameters", json["parameters"]);
}
String returnType;
if (json.containsKey("returnType")) {
returnType = jsonDecoder.decodeString(
jsonPath + ".returnType", json["returnType"]);
}
String typeParameters;
if (json.containsKey("typeParameters")) {
typeParameters = jsonDecoder.decodeString(
jsonPath + ".typeParameters", json["typeParameters"]);
}
return new Element(kind, name, flags,
location: location,
parameters: parameters,
returnType: returnType,
typeParameters: typeParameters);
} else {
throw jsonDecoder.mismatch(jsonPath, "Element", json);
}
}
bool get isAbstract => (flags & FLAG_ABSTRACT) != 0;
bool get isConst => (flags & FLAG_CONST) != 0;
bool get isFinal => (flags & FLAG_FINAL) != 0;
bool get isStatic => (flags & FLAG_STATIC) != 0;
bool get isPrivate => (flags & FLAG_PRIVATE) != 0;
bool get isDeprecated => (flags & FLAG_DEPRECATED) != 0;
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["kind"] = kind.toJson();
result["name"] = name;
if (location != null) {
result["location"] = location.toJson();
}
result["flags"] = flags;
if (parameters != null) {
result["parameters"] = parameters;
}
if (returnType != null) {
result["returnType"] = returnType;
}
if (typeParameters != null) {
result["typeParameters"] = typeParameters;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is Element) {
return kind == other.kind &&
name == other.name &&
location == other.location &&
flags == other.flags &&
parameters == other.parameters &&
returnType == other.returnType &&
typeParameters == other.typeParameters;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, location.hashCode);
hash = JenkinsSmiHash.combine(hash, flags.hashCode);
hash = JenkinsSmiHash.combine(hash, parameters.hashCode);
hash = JenkinsSmiHash.combine(hash, returnType.hashCode);
hash = JenkinsSmiHash.combine(hash, typeParameters.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ElementKind
*
* enum {
* CLASS
* CLASS_TYPE_ALIAS
* COMPILATION_UNIT
* CONSTRUCTOR
* CONSTRUCTOR_INVOCATION
* ENUM
* ENUM_CONSTANT
* FIELD
* FILE
* FUNCTION
* FUNCTION_INVOCATION
* FUNCTION_TYPE_ALIAS
* GETTER
* LABEL
* LIBRARY
* LOCAL_VARIABLE
* METHOD
* MIXIN
* PARAMETER
* PREFIX
* SETTER
* TOP_LEVEL_VARIABLE
* TYPE_PARAMETER
* UNIT_TEST_GROUP
* UNIT_TEST_TEST
* UNKNOWN
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ElementKind implements Enum {
static const ElementKind CLASS = const ElementKind._("CLASS");
static const ElementKind CLASS_TYPE_ALIAS =
const ElementKind._("CLASS_TYPE_ALIAS");
static const ElementKind COMPILATION_UNIT =
const ElementKind._("COMPILATION_UNIT");
static const ElementKind CONSTRUCTOR = const ElementKind._("CONSTRUCTOR");
static const ElementKind CONSTRUCTOR_INVOCATION =
const ElementKind._("CONSTRUCTOR_INVOCATION");
static const ElementKind ENUM = const ElementKind._("ENUM");
static const ElementKind ENUM_CONSTANT = const ElementKind._("ENUM_CONSTANT");
static const ElementKind FIELD = const ElementKind._("FIELD");
static const ElementKind FILE = const ElementKind._("FILE");
static const ElementKind FUNCTION = const ElementKind._("FUNCTION");
static const ElementKind FUNCTION_INVOCATION =
const ElementKind._("FUNCTION_INVOCATION");
static const ElementKind FUNCTION_TYPE_ALIAS =
const ElementKind._("FUNCTION_TYPE_ALIAS");
static const ElementKind GETTER = const ElementKind._("GETTER");
static const ElementKind LABEL = const ElementKind._("LABEL");
static const ElementKind LIBRARY = const ElementKind._("LIBRARY");
static const ElementKind LOCAL_VARIABLE =
const ElementKind._("LOCAL_VARIABLE");
static const ElementKind METHOD = const ElementKind._("METHOD");
static const ElementKind MIXIN = const ElementKind._("MIXIN");
static const ElementKind PARAMETER = const ElementKind._("PARAMETER");
static const ElementKind PREFIX = const ElementKind._("PREFIX");
static const ElementKind SETTER = const ElementKind._("SETTER");
static const ElementKind TOP_LEVEL_VARIABLE =
const ElementKind._("TOP_LEVEL_VARIABLE");
static const ElementKind TYPE_PARAMETER =
const ElementKind._("TYPE_PARAMETER");
static const ElementKind UNIT_TEST_GROUP =
const ElementKind._("UNIT_TEST_GROUP");
static const ElementKind UNIT_TEST_TEST =
const ElementKind._("UNIT_TEST_TEST");
static const ElementKind UNKNOWN = const ElementKind._("UNKNOWN");
/**
* A list containing all of the enum values that are defined.
*/
static const List<ElementKind> VALUES = const <ElementKind>[
CLASS,
CLASS_TYPE_ALIAS,
COMPILATION_UNIT,
CONSTRUCTOR,
CONSTRUCTOR_INVOCATION,
ENUM,
ENUM_CONSTANT,
FIELD,
FILE,
FUNCTION,
FUNCTION_INVOCATION,
FUNCTION_TYPE_ALIAS,
GETTER,
LABEL,
LIBRARY,
LOCAL_VARIABLE,
METHOD,
MIXIN,
PARAMETER,
PREFIX,
SETTER,
TOP_LEVEL_VARIABLE,
TYPE_PARAMETER,
UNIT_TEST_GROUP,
UNIT_TEST_TEST,
UNKNOWN
];
@override
final String name;
const ElementKind._(this.name);
factory ElementKind(String name) {
switch (name) {
case "CLASS":
return CLASS;
case "CLASS_TYPE_ALIAS":
return CLASS_TYPE_ALIAS;
case "COMPILATION_UNIT":
return COMPILATION_UNIT;
case "CONSTRUCTOR":
return CONSTRUCTOR;
case "CONSTRUCTOR_INVOCATION":
return CONSTRUCTOR_INVOCATION;
case "ENUM":
return ENUM;
case "ENUM_CONSTANT":
return ENUM_CONSTANT;
case "FIELD":
return FIELD;
case "FILE":
return FILE;
case "FUNCTION":
return FUNCTION;
case "FUNCTION_INVOCATION":
return FUNCTION_INVOCATION;
case "FUNCTION_TYPE_ALIAS":
return FUNCTION_TYPE_ALIAS;
case "GETTER":
return GETTER;
case "LABEL":
return LABEL;
case "LIBRARY":
return LIBRARY;
case "LOCAL_VARIABLE":
return LOCAL_VARIABLE;
case "METHOD":
return METHOD;
case "MIXIN":
return MIXIN;
case "PARAMETER":
return PARAMETER;
case "PREFIX":
return PREFIX;
case "SETTER":
return SETTER;
case "TOP_LEVEL_VARIABLE":
return TOP_LEVEL_VARIABLE;
case "TYPE_PARAMETER":
return TYPE_PARAMETER;
case "UNIT_TEST_GROUP":
return UNIT_TEST_GROUP;
case "UNIT_TEST_TEST":
return UNIT_TEST_TEST;
case "UNKNOWN":
return UNKNOWN;
}
throw new Exception('Illegal enum value: $name');
}
factory ElementKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new ElementKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "ElementKind", json);
}
@override
String toString() => "ElementKind.$name";
String toJson() => name;
}
/**
* FoldingKind
*
* enum {
* ANNOTATIONS
* CLASS_BODY
* DIRECTIVES
* DOCUMENTATION_COMMENT
* FILE_HEADER
* FUNCTION_BODY
* INVOCATION
* LITERAL
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FoldingKind implements Enum {
static const FoldingKind ANNOTATIONS = const FoldingKind._("ANNOTATIONS");
static const FoldingKind CLASS_BODY = const FoldingKind._("CLASS_BODY");
static const FoldingKind DIRECTIVES = const FoldingKind._("DIRECTIVES");
static const FoldingKind DOCUMENTATION_COMMENT =
const FoldingKind._("DOCUMENTATION_COMMENT");
static const FoldingKind FILE_HEADER = const FoldingKind._("FILE_HEADER");
static const FoldingKind FUNCTION_BODY = const FoldingKind._("FUNCTION_BODY");
static const FoldingKind INVOCATION = const FoldingKind._("INVOCATION");
static const FoldingKind LITERAL = const FoldingKind._("LITERAL");
/**
* A list containing all of the enum values that are defined.
*/
static const List<FoldingKind> VALUES = const <FoldingKind>[
ANNOTATIONS,
CLASS_BODY,
DIRECTIVES,
DOCUMENTATION_COMMENT,
FILE_HEADER,
FUNCTION_BODY,
INVOCATION,
LITERAL
];
@override
final String name;
const FoldingKind._(this.name);
factory FoldingKind(String name) {
switch (name) {
case "ANNOTATIONS":
return ANNOTATIONS;
case "CLASS_BODY":
return CLASS_BODY;
case "DIRECTIVES":
return DIRECTIVES;
case "DOCUMENTATION_COMMENT":
return DOCUMENTATION_COMMENT;
case "FILE_HEADER":
return FILE_HEADER;
case "FUNCTION_BODY":
return FUNCTION_BODY;
case "INVOCATION":
return INVOCATION;
case "LITERAL":
return LITERAL;
}
throw new Exception('Illegal enum value: $name');
}
factory FoldingKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new FoldingKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "FoldingKind", json);
}
@override
String toString() => "FoldingKind.$name";
String toJson() => name;
}
/**
* FoldingRegion
*
* {
* "kind": FoldingKind
* "offset": int
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class FoldingRegion implements HasToJson {
FoldingKind _kind;
int _offset;
int _length;
/**
* The kind of the region.
*/
FoldingKind get kind => _kind;
/**
* The kind of the region.
*/
void set kind(FoldingKind value) {
assert(value != null);
this._kind = value;
}
/**
* The offset of the region to be folded.
*/
int get offset => _offset;
/**
* The offset of the region to be folded.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the region to be folded.
*/
int get length => _length;
/**
* The length of the region to be folded.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
FoldingRegion(FoldingKind kind, int offset, int length) {
this.kind = kind;
this.offset = offset;
this.length = length;
}
factory FoldingRegion.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
FoldingKind kind;
if (json.containsKey("kind")) {
kind = new FoldingKind.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");
}
return new FoldingRegion(kind, offset, length);
} else {
throw jsonDecoder.mismatch(jsonPath, "FoldingRegion", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["kind"] = kind.toJson();
result["offset"] = offset;
result["length"] = length;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is FoldingRegion) {
return kind == other.kind &&
offset == other.offset &&
length == other.length;
}
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);
return JenkinsSmiHash.finish(hash);
}
}
/**
* HighlightRegion
*
* {
* "type": HighlightRegionType
* "offset": int
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class HighlightRegion implements HasToJson {
HighlightRegionType _type;
int _offset;
int _length;
/**
* The type of highlight associated with the region.
*/
HighlightRegionType get type => _type;
/**
* The type of highlight associated with the region.
*/
void set type(HighlightRegionType value) {
assert(value != null);
this._type = value;
}
/**
* The offset of the region to be highlighted.
*/
int get offset => _offset;
/**
* The offset of the region to be highlighted.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the region to be highlighted.
*/
int get length => _length;
/**
* The length of the region to be highlighted.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
HighlightRegion(HighlightRegionType type, int offset, int length) {
this.type = type;
this.offset = offset;
this.length = length;
}
factory HighlightRegion.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
HighlightRegionType type;
if (json.containsKey("type")) {
type = new HighlightRegionType.fromJson(
jsonDecoder, jsonPath + ".type", json["type"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "type");
}
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 HighlightRegion(type, offset, length);
} else {
throw jsonDecoder.mismatch(jsonPath, "HighlightRegion", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["type"] = type.toJson();
result["offset"] = offset;
result["length"] = length;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is HighlightRegion) {
return type == other.type &&
offset == other.offset &&
length == other.length;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, type.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* HighlightRegionType
*
* enum {
* ANNOTATION
* BUILT_IN
* CLASS
* COMMENT_BLOCK
* COMMENT_DOCUMENTATION
* COMMENT_END_OF_LINE
* CONSTRUCTOR
* DIRECTIVE
* DYNAMIC_TYPE
* DYNAMIC_LOCAL_VARIABLE_DECLARATION
* DYNAMIC_LOCAL_VARIABLE_REFERENCE
* DYNAMIC_PARAMETER_DECLARATION
* DYNAMIC_PARAMETER_REFERENCE
* ENUM
* ENUM_CONSTANT
* FIELD
* FIELD_STATIC
* FUNCTION
* FUNCTION_DECLARATION
* FUNCTION_TYPE_ALIAS
* GETTER_DECLARATION
* IDENTIFIER_DEFAULT
* IMPORT_PREFIX
* INSTANCE_FIELD_DECLARATION
* INSTANCE_FIELD_REFERENCE
* INSTANCE_GETTER_DECLARATION
* INSTANCE_GETTER_REFERENCE
* INSTANCE_METHOD_DECLARATION
* INSTANCE_METHOD_REFERENCE
* INSTANCE_SETTER_DECLARATION
* INSTANCE_SETTER_REFERENCE
* INVALID_STRING_ESCAPE
* KEYWORD
* LABEL
* LIBRARY_NAME
* LITERAL_BOOLEAN
* LITERAL_DOUBLE
* LITERAL_INTEGER
* LITERAL_LIST
* LITERAL_MAP
* LITERAL_STRING
* LOCAL_FUNCTION_DECLARATION
* LOCAL_FUNCTION_REFERENCE
* LOCAL_VARIABLE
* LOCAL_VARIABLE_DECLARATION
* LOCAL_VARIABLE_REFERENCE
* METHOD
* METHOD_DECLARATION
* METHOD_DECLARATION_STATIC
* METHOD_STATIC
* PARAMETER
* SETTER_DECLARATION
* TOP_LEVEL_VARIABLE
* PARAMETER_DECLARATION
* PARAMETER_REFERENCE
* STATIC_FIELD_DECLARATION
* STATIC_GETTER_DECLARATION
* STATIC_GETTER_REFERENCE
* STATIC_METHOD_DECLARATION
* STATIC_METHOD_REFERENCE
* STATIC_SETTER_DECLARATION
* STATIC_SETTER_REFERENCE
* TOP_LEVEL_FUNCTION_DECLARATION
* TOP_LEVEL_FUNCTION_REFERENCE
* TOP_LEVEL_GETTER_DECLARATION
* TOP_LEVEL_GETTER_REFERENCE
* TOP_LEVEL_SETTER_DECLARATION
* TOP_LEVEL_SETTER_REFERENCE
* TOP_LEVEL_VARIABLE_DECLARATION
* TYPE_NAME_DYNAMIC
* TYPE_PARAMETER
* UNRESOLVED_INSTANCE_MEMBER_REFERENCE
* VALID_STRING_ESCAPE
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class HighlightRegionType implements Enum {
static const HighlightRegionType ANNOTATION =
const HighlightRegionType._("ANNOTATION");
static const HighlightRegionType BUILT_IN =
const HighlightRegionType._("BUILT_IN");
static const HighlightRegionType CLASS = const HighlightRegionType._("CLASS");
static const HighlightRegionType COMMENT_BLOCK =
const HighlightRegionType._("COMMENT_BLOCK");
static const HighlightRegionType COMMENT_DOCUMENTATION =
const HighlightRegionType._("COMMENT_DOCUMENTATION");
static const HighlightRegionType COMMENT_END_OF_LINE =
const HighlightRegionType._("COMMENT_END_OF_LINE");
static const HighlightRegionType CONSTRUCTOR =
const HighlightRegionType._("CONSTRUCTOR");
static const HighlightRegionType DIRECTIVE =
const HighlightRegionType._("DIRECTIVE");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType DYNAMIC_TYPE =
const HighlightRegionType._("DYNAMIC_TYPE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType DYNAMIC_LOCAL_VARIABLE_DECLARATION =
const HighlightRegionType._("DYNAMIC_LOCAL_VARIABLE_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType DYNAMIC_LOCAL_VARIABLE_REFERENCE =
const HighlightRegionType._("DYNAMIC_LOCAL_VARIABLE_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType DYNAMIC_PARAMETER_DECLARATION =
const HighlightRegionType._("DYNAMIC_PARAMETER_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType DYNAMIC_PARAMETER_REFERENCE =
const HighlightRegionType._("DYNAMIC_PARAMETER_REFERENCE");
static const HighlightRegionType ENUM = const HighlightRegionType._("ENUM");
static const HighlightRegionType ENUM_CONSTANT =
const HighlightRegionType._("ENUM_CONSTANT");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType FIELD = const HighlightRegionType._("FIELD");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType FIELD_STATIC =
const HighlightRegionType._("FIELD_STATIC");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType FUNCTION =
const HighlightRegionType._("FUNCTION");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType FUNCTION_DECLARATION =
const HighlightRegionType._("FUNCTION_DECLARATION");
static const HighlightRegionType FUNCTION_TYPE_ALIAS =
const HighlightRegionType._("FUNCTION_TYPE_ALIAS");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType GETTER_DECLARATION =
const HighlightRegionType._("GETTER_DECLARATION");
static const HighlightRegionType IDENTIFIER_DEFAULT =
const HighlightRegionType._("IDENTIFIER_DEFAULT");
static const HighlightRegionType IMPORT_PREFIX =
const HighlightRegionType._("IMPORT_PREFIX");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INSTANCE_FIELD_DECLARATION =
const HighlightRegionType._("INSTANCE_FIELD_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INSTANCE_FIELD_REFERENCE =
const HighlightRegionType._("INSTANCE_FIELD_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INSTANCE_GETTER_DECLARATION =
const HighlightRegionType._("INSTANCE_GETTER_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INSTANCE_GETTER_REFERENCE =
const HighlightRegionType._("INSTANCE_GETTER_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INSTANCE_METHOD_DECLARATION =
const HighlightRegionType._("INSTANCE_METHOD_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INSTANCE_METHOD_REFERENCE =
const HighlightRegionType._("INSTANCE_METHOD_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INSTANCE_SETTER_DECLARATION =
const HighlightRegionType._("INSTANCE_SETTER_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INSTANCE_SETTER_REFERENCE =
const HighlightRegionType._("INSTANCE_SETTER_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType INVALID_STRING_ESCAPE =
const HighlightRegionType._("INVALID_STRING_ESCAPE");
static const HighlightRegionType KEYWORD =
const HighlightRegionType._("KEYWORD");
static const HighlightRegionType LABEL = const HighlightRegionType._("LABEL");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType LIBRARY_NAME =
const HighlightRegionType._("LIBRARY_NAME");
static const HighlightRegionType LITERAL_BOOLEAN =
const HighlightRegionType._("LITERAL_BOOLEAN");
static const HighlightRegionType LITERAL_DOUBLE =
const HighlightRegionType._("LITERAL_DOUBLE");
static const HighlightRegionType LITERAL_INTEGER =
const HighlightRegionType._("LITERAL_INTEGER");
static const HighlightRegionType LITERAL_LIST =
const HighlightRegionType._("LITERAL_LIST");
static const HighlightRegionType LITERAL_MAP =
const HighlightRegionType._("LITERAL_MAP");
static const HighlightRegionType LITERAL_STRING =
const HighlightRegionType._("LITERAL_STRING");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType LOCAL_FUNCTION_DECLARATION =
const HighlightRegionType._("LOCAL_FUNCTION_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType LOCAL_FUNCTION_REFERENCE =
const HighlightRegionType._("LOCAL_FUNCTION_REFERENCE");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType LOCAL_VARIABLE =
const HighlightRegionType._("LOCAL_VARIABLE");
static const HighlightRegionType LOCAL_VARIABLE_DECLARATION =
const HighlightRegionType._("LOCAL_VARIABLE_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType LOCAL_VARIABLE_REFERENCE =
const HighlightRegionType._("LOCAL_VARIABLE_REFERENCE");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType METHOD =
const HighlightRegionType._("METHOD");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType METHOD_DECLARATION =
const HighlightRegionType._("METHOD_DECLARATION");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType METHOD_DECLARATION_STATIC =
const HighlightRegionType._("METHOD_DECLARATION_STATIC");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType METHOD_STATIC =
const HighlightRegionType._("METHOD_STATIC");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType PARAMETER =
const HighlightRegionType._("PARAMETER");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType SETTER_DECLARATION =
const HighlightRegionType._("SETTER_DECLARATION");
/**
* Only for version 1 of highlight.
*/
static const HighlightRegionType TOP_LEVEL_VARIABLE =
const HighlightRegionType._("TOP_LEVEL_VARIABLE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType PARAMETER_DECLARATION =
const HighlightRegionType._("PARAMETER_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType PARAMETER_REFERENCE =
const HighlightRegionType._("PARAMETER_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType STATIC_FIELD_DECLARATION =
const HighlightRegionType._("STATIC_FIELD_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType STATIC_GETTER_DECLARATION =
const HighlightRegionType._("STATIC_GETTER_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType STATIC_GETTER_REFERENCE =
const HighlightRegionType._("STATIC_GETTER_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType STATIC_METHOD_DECLARATION =
const HighlightRegionType._("STATIC_METHOD_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType STATIC_METHOD_REFERENCE =
const HighlightRegionType._("STATIC_METHOD_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType STATIC_SETTER_DECLARATION =
const HighlightRegionType._("STATIC_SETTER_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType STATIC_SETTER_REFERENCE =
const HighlightRegionType._("STATIC_SETTER_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType TOP_LEVEL_FUNCTION_DECLARATION =
const HighlightRegionType._("TOP_LEVEL_FUNCTION_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType TOP_LEVEL_FUNCTION_REFERENCE =
const HighlightRegionType._("TOP_LEVEL_FUNCTION_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType TOP_LEVEL_GETTER_DECLARATION =
const HighlightRegionType._("TOP_LEVEL_GETTER_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType TOP_LEVEL_GETTER_REFERENCE =
const HighlightRegionType._("TOP_LEVEL_GETTER_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType TOP_LEVEL_SETTER_DECLARATION =
const HighlightRegionType._("TOP_LEVEL_SETTER_DECLARATION");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType TOP_LEVEL_SETTER_REFERENCE =
const HighlightRegionType._("TOP_LEVEL_SETTER_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType TOP_LEVEL_VARIABLE_DECLARATION =
const HighlightRegionType._("TOP_LEVEL_VARIABLE_DECLARATION");
static const HighlightRegionType TYPE_NAME_DYNAMIC =
const HighlightRegionType._("TYPE_NAME_DYNAMIC");
static const HighlightRegionType TYPE_PARAMETER =
const HighlightRegionType._("TYPE_PARAMETER");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType UNRESOLVED_INSTANCE_MEMBER_REFERENCE =
const HighlightRegionType._("UNRESOLVED_INSTANCE_MEMBER_REFERENCE");
/**
* Only for version 2 of highlight.
*/
static const HighlightRegionType VALID_STRING_ESCAPE =
const HighlightRegionType._("VALID_STRING_ESCAPE");
/**
* A list containing all of the enum values that are defined.
*/
static const List<HighlightRegionType> VALUES = const <HighlightRegionType>[
ANNOTATION,
BUILT_IN,
CLASS,
COMMENT_BLOCK,
COMMENT_DOCUMENTATION,
COMMENT_END_OF_LINE,
CONSTRUCTOR,
DIRECTIVE,
DYNAMIC_TYPE,
DYNAMIC_LOCAL_VARIABLE_DECLARATION,
DYNAMIC_LOCAL_VARIABLE_REFERENCE,
DYNAMIC_PARAMETER_DECLARATION,
DYNAMIC_PARAMETER_REFERENCE,
ENUM,
ENUM_CONSTANT,
FIELD,
FIELD_STATIC,
FUNCTION,
FUNCTION_DECLARATION,
FUNCTION_TYPE_ALIAS,
GETTER_DECLARATION,
IDENTIFIER_DEFAULT,
IMPORT_PREFIX,
INSTANCE_FIELD_DECLARATION,
INSTANCE_FIELD_REFERENCE,
INSTANCE_GETTER_DECLARATION,
INSTANCE_GETTER_REFERENCE,
INSTANCE_METHOD_DECLARATION,
INSTANCE_METHOD_REFERENCE,
INSTANCE_SETTER_DECLARATION,
INSTANCE_SETTER_REFERENCE,
INVALID_STRING_ESCAPE,
KEYWORD,
LABEL,
LIBRARY_NAME,
LITERAL_BOOLEAN,
LITERAL_DOUBLE,
LITERAL_INTEGER,
LITERAL_LIST,
LITERAL_MAP,
LITERAL_STRING,
LOCAL_FUNCTION_DECLARATION,
LOCAL_FUNCTION_REFERENCE,
LOCAL_VARIABLE,
LOCAL_VARIABLE_DECLARATION,
LOCAL_VARIABLE_REFERENCE,
METHOD,
METHOD_DECLARATION,
METHOD_DECLARATION_STATIC,
METHOD_STATIC,
PARAMETER,
SETTER_DECLARATION,
TOP_LEVEL_VARIABLE,
PARAMETER_DECLARATION,
PARAMETER_REFERENCE,
STATIC_FIELD_DECLARATION,
STATIC_GETTER_DECLARATION,
STATIC_GETTER_REFERENCE,
STATIC_METHOD_DECLARATION,
STATIC_METHOD_REFERENCE,
STATIC_SETTER_DECLARATION,
STATIC_SETTER_REFERENCE,
TOP_LEVEL_FUNCTION_DECLARATION,
TOP_LEVEL_FUNCTION_REFERENCE,
TOP_LEVEL_GETTER_DECLARATION,
TOP_LEVEL_GETTER_REFERENCE,
TOP_LEVEL_SETTER_DECLARATION,
TOP_LEVEL_SETTER_REFERENCE,
TOP_LEVEL_VARIABLE_DECLARATION,
TYPE_NAME_DYNAMIC,
TYPE_PARAMETER,
UNRESOLVED_INSTANCE_MEMBER_REFERENCE,
VALID_STRING_ESCAPE
];
@override
final String name;
const HighlightRegionType._(this.name);
factory HighlightRegionType(String name) {
switch (name) {
case "ANNOTATION":
return ANNOTATION;
case "BUILT_IN":
return BUILT_IN;
case "CLASS":
return CLASS;
case "COMMENT_BLOCK":
return COMMENT_BLOCK;
case "COMMENT_DOCUMENTATION":
return COMMENT_DOCUMENTATION;
case "COMMENT_END_OF_LINE":
return COMMENT_END_OF_LINE;
case "CONSTRUCTOR":
return CONSTRUCTOR;
case "DIRECTIVE":
return DIRECTIVE;
case "DYNAMIC_TYPE":
return DYNAMIC_TYPE;
case "DYNAMIC_LOCAL_VARIABLE_DECLARATION":
return DYNAMIC_LOCAL_VARIABLE_DECLARATION;
case "DYNAMIC_LOCAL_VARIABLE_REFERENCE":
return DYNAMIC_LOCAL_VARIABLE_REFERENCE;
case "DYNAMIC_PARAMETER_DECLARATION":
return DYNAMIC_PARAMETER_DECLARATION;
case "DYNAMIC_PARAMETER_REFERENCE":
return DYNAMIC_PARAMETER_REFERENCE;
case "ENUM":
return ENUM;
case "ENUM_CONSTANT":
return ENUM_CONSTANT;
case "FIELD":
return FIELD;
case "FIELD_STATIC":
return FIELD_STATIC;
case "FUNCTION":
return FUNCTION;
case "FUNCTION_DECLARATION":
return FUNCTION_DECLARATION;
case "FUNCTION_TYPE_ALIAS":
return FUNCTION_TYPE_ALIAS;
case "GETTER_DECLARATION":
return GETTER_DECLARATION;
case "IDENTIFIER_DEFAULT":
return IDENTIFIER_DEFAULT;
case "IMPORT_PREFIX":
return IMPORT_PREFIX;
case "INSTANCE_FIELD_DECLARATION":
return INSTANCE_FIELD_DECLARATION;
case "INSTANCE_FIELD_REFERENCE":
return INSTANCE_FIELD_REFERENCE;
case "INSTANCE_GETTER_DECLARATION":
return INSTANCE_GETTER_DECLARATION;
case "INSTANCE_GETTER_REFERENCE":
return INSTANCE_GETTER_REFERENCE;
case "INSTANCE_METHOD_DECLARATION":
return INSTANCE_METHOD_DECLARATION;
case "INSTANCE_METHOD_REFERENCE":
return INSTANCE_METHOD_REFERENCE;
case "INSTANCE_SETTER_DECLARATION":
return INSTANCE_SETTER_DECLARATION;
case "INSTANCE_SETTER_REFERENCE":
return INSTANCE_SETTER_REFERENCE;
case "INVALID_STRING_ESCAPE":
return INVALID_STRING_ESCAPE;
case "KEYWORD":
return KEYWORD;
case "LABEL":
return LABEL;
case "LIBRARY_NAME":
return LIBRARY_NAME;
case "LITERAL_BOOLEAN":
return LITERAL_BOOLEAN;
case "LITERAL_DOUBLE":
return LITERAL_DOUBLE;
case "LITERAL_INTEGER":
return LITERAL_INTEGER;
case "LITERAL_LIST":
return LITERAL_LIST;
case "LITERAL_MAP":
return LITERAL_MAP;
case "LITERAL_STRING":
return LITERAL_STRING;
case "LOCAL_FUNCTION_DECLARATION":
return LOCAL_FUNCTION_DECLARATION;
case "LOCAL_FUNCTION_REFERENCE":
return LOCAL_FUNCTION_REFERENCE;
case "LOCAL_VARIABLE":
return LOCAL_VARIABLE;
case "LOCAL_VARIABLE_DECLARATION":
return LOCAL_VARIABLE_DECLARATION;
case "LOCAL_VARIABLE_REFERENCE":
return LOCAL_VARIABLE_REFERENCE;
case "METHOD":
return METHOD;
case "METHOD_DECLARATION":
return METHOD_DECLARATION;
case "METHOD_DECLARATION_STATIC":
return METHOD_DECLARATION_STATIC;
case "METHOD_STATIC":
return METHOD_STATIC;
case "PARAMETER":
return PARAMETER;
case "SETTER_DECLARATION":
return SETTER_DECLARATION;
case "TOP_LEVEL_VARIABLE":
return TOP_LEVEL_VARIABLE;
case "PARAMETER_DECLARATION":
return PARAMETER_DECLARATION;
case "PARAMETER_REFERENCE":
return PARAMETER_REFERENCE;
case "STATIC_FIELD_DECLARATION":
return STATIC_FIELD_DECLARATION;
case "STATIC_GETTER_DECLARATION":
return STATIC_GETTER_DECLARATION;
case "STATIC_GETTER_REFERENCE":
return STATIC_GETTER_REFERENCE;
case "STATIC_METHOD_DECLARATION":
return STATIC_METHOD_DECLARATION;
case "STATIC_METHOD_REFERENCE":
return STATIC_METHOD_REFERENCE;
case "STATIC_SETTER_DECLARATION":
return STATIC_SETTER_DECLARATION;
case "STATIC_SETTER_REFERENCE":
return STATIC_SETTER_REFERENCE;
case "TOP_LEVEL_FUNCTION_DECLARATION":
return TOP_LEVEL_FUNCTION_DECLARATION;
case "TOP_LEVEL_FUNCTION_REFERENCE":
return TOP_LEVEL_FUNCTION_REFERENCE;
case "TOP_LEVEL_GETTER_DECLARATION":
return TOP_LEVEL_GETTER_DECLARATION;
case "TOP_LEVEL_GETTER_REFERENCE":
return TOP_LEVEL_GETTER_REFERENCE;
case "TOP_LEVEL_SETTER_DECLARATION":
return TOP_LEVEL_SETTER_DECLARATION;
case "TOP_LEVEL_SETTER_REFERENCE":
return TOP_LEVEL_SETTER_REFERENCE;
case "TOP_LEVEL_VARIABLE_DECLARATION":
return TOP_LEVEL_VARIABLE_DECLARATION;
case "TYPE_NAME_DYNAMIC":
return TYPE_NAME_DYNAMIC;
case "TYPE_PARAMETER":
return TYPE_PARAMETER;
case "UNRESOLVED_INSTANCE_MEMBER_REFERENCE":
return UNRESOLVED_INSTANCE_MEMBER_REFERENCE;
case "VALID_STRING_ESCAPE":
return VALID_STRING_ESCAPE;
}
throw new Exception('Illegal enum value: $name');
}
factory HighlightRegionType.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new HighlightRegionType(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "HighlightRegionType", json);
}
@override
String toString() => "HighlightRegionType.$name";
String toJson() => name;
}
/**
* KytheEntry
*
* {
* "source": KytheVName
* "kind": optional String
* "target": optional KytheVName
* "fact": String
* "value": optional List<int>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class KytheEntry implements HasToJson {
KytheVName _source;
String _kind;
KytheVName _target;
String _fact;
List<int> _value;
/**
* The ticket of the source node.
*/
KytheVName get source => _source;
/**
* The ticket of the source node.
*/
void set source(KytheVName value) {
assert(value != null);
this._source = value;
}
/**
* An edge label. The schema defines which labels are meaningful.
*/
String get kind => _kind;
/**
* An edge label. The schema defines which labels are meaningful.
*/
void set kind(String value) {
this._kind = value;
}
/**
* The ticket of the target node.
*/
KytheVName get target => _target;
/**
* The ticket of the target node.
*/
void set target(KytheVName value) {
this._target = value;
}
/**
* A fact label. The schema defines which fact labels are meaningful.
*/
String get fact => _fact;
/**
* A fact label. The schema defines which fact labels are meaningful.
*/
void set fact(String value) {
assert(value != null);
this._fact = value;
}
/**
* The String value of the fact.
*/
List<int> get value => _value;
/**
* The String value of the fact.
*/
void set value(List<int> value) {
this._value = value;
}
KytheEntry(KytheVName source, String fact,
{String kind, KytheVName target, List<int> value}) {
this.source = source;
this.kind = kind;
this.target = target;
this.fact = fact;
this.value = value;
}
factory KytheEntry.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
KytheVName source;
if (json.containsKey("source")) {
source = new KytheVName.fromJson(
jsonDecoder, jsonPath + ".source", json["source"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "source");
}
String kind;
if (json.containsKey("kind")) {
kind = jsonDecoder.decodeString(jsonPath + ".kind", json["kind"]);
}
KytheVName target;
if (json.containsKey("target")) {
target = new KytheVName.fromJson(
jsonDecoder, jsonPath + ".target", json["target"]);
}
String fact;
if (json.containsKey("fact")) {
fact = jsonDecoder.decodeString(jsonPath + ".fact", json["fact"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "fact");
}
List<int> value;
if (json.containsKey("value")) {
value = jsonDecoder.decodeList(
jsonPath + ".value", json["value"], jsonDecoder.decodeInt);
}
return new KytheEntry(source, fact,
kind: kind, target: target, value: value);
} else {
throw jsonDecoder.mismatch(jsonPath, "KytheEntry", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["source"] = source.toJson();
if (kind != null) {
result["kind"] = kind;
}
if (target != null) {
result["target"] = target.toJson();
}
result["fact"] = fact;
if (value != null) {
result["value"] = value;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is KytheEntry) {
return source == other.source &&
kind == other.kind &&
target == other.target &&
fact == other.fact &&
listEqual(value, other.value, (int a, int b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, source.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, target.hashCode);
hash = JenkinsSmiHash.combine(hash, fact.hashCode);
hash = JenkinsSmiHash.combine(hash, value.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* KytheVName
*
* {
* "signature": String
* "corpus": String
* "root": String
* "path": String
* "language": String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class KytheVName implements HasToJson {
String _signature;
String _corpus;
String _root;
String _path;
String _language;
/**
* An opaque signature generated by the analyzer.
*/
String get signature => _signature;
/**
* An opaque signature generated by the analyzer.
*/
void set signature(String value) {
assert(value != null);
this._signature = value;
}
/**
* The corpus of source code this KytheVName belongs to. Loosely, a corpus is
* a collection of related files, such as the contents of a given source
* repository.
*/
String get corpus => _corpus;
/**
* The corpus of source code this KytheVName belongs to. Loosely, a corpus is
* a collection of related files, such as the contents of a given source
* repository.
*/
void set corpus(String value) {
assert(value != null);
this._corpus = value;
}
/**
* A corpus-specific root label, typically a directory path or project
* identifier, denoting a distinct subset of the corpus. This may also be
* used to designate virtual collections like generated files.
*/
String get root => _root;
/**
* A corpus-specific root label, typically a directory path or project
* identifier, denoting a distinct subset of the corpus. This may also be
* used to designate virtual collections like generated files.
*/
void set root(String value) {
assert(value != null);
this._root = value;
}
/**
* A path-structured label describing the “location” of the named object
* relative to the corpus and the root.
*/
String get path => _path;
/**
* A path-structured label describing the “location” of the named object
* relative to the corpus and the root.
*/
void set path(String value) {
assert(value != null);
this._path = value;
}
/**
* The language this name belongs to.
*/
String get language => _language;
/**
* The language this name belongs to.
*/
void set language(String value) {
assert(value != null);
this._language = value;
}
KytheVName(String signature, String corpus, String root, String path,
String language) {
this.signature = signature;
this.corpus = corpus;
this.root = root;
this.path = path;
this.language = language;
}
factory KytheVName.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String signature;
if (json.containsKey("signature")) {
signature = jsonDecoder.decodeString(
jsonPath + ".signature", json["signature"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "signature");
}
String corpus;
if (json.containsKey("corpus")) {
corpus = jsonDecoder.decodeString(jsonPath + ".corpus", json["corpus"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "corpus");
}
String root;
if (json.containsKey("root")) {
root = jsonDecoder.decodeString(jsonPath + ".root", json["root"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "root");
}
String path;
if (json.containsKey("path")) {
path = jsonDecoder.decodeString(jsonPath + ".path", json["path"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "path");
}
String language;
if (json.containsKey("language")) {
language =
jsonDecoder.decodeString(jsonPath + ".language", json["language"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "language");
}
return new KytheVName(signature, corpus, root, path, language);
} else {
throw jsonDecoder.mismatch(jsonPath, "KytheVName", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["signature"] = signature;
result["corpus"] = corpus;
result["root"] = root;
result["path"] = path;
result["language"] = language;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is KytheVName) {
return signature == other.signature &&
corpus == other.corpus &&
root == other.root &&
path == other.path &&
language == other.language;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, signature.hashCode);
hash = JenkinsSmiHash.combine(hash, corpus.hashCode);
hash = JenkinsSmiHash.combine(hash, root.hashCode);
hash = JenkinsSmiHash.combine(hash, path.hashCode);
hash = JenkinsSmiHash.combine(hash, language.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* LinkedEditGroup
*
* {
* "positions": List<Position>
* "length": int
* "suggestions": List<LinkedEditSuggestion>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class LinkedEditGroup implements HasToJson {
List<Position> _positions;
int _length;
List<LinkedEditSuggestion> _suggestions;
/**
* The positions of the regions that should be edited simultaneously.
*/
List<Position> get positions => _positions;
/**
* The positions of the regions that should be edited simultaneously.
*/
void set positions(List<Position> value) {
assert(value != null);
this._positions = value;
}
/**
* The length of the regions that should be edited simultaneously.
*/
int get length => _length;
/**
* The length of the regions that should be edited simultaneously.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* Pre-computed suggestions for what every region might want to be changed
* to.
*/
List<LinkedEditSuggestion> get suggestions => _suggestions;
/**
* Pre-computed suggestions for what every region might want to be changed
* to.
*/
void set suggestions(List<LinkedEditSuggestion> value) {
assert(value != null);
this._suggestions = value;
}
LinkedEditGroup(List<Position> positions, int length,
List<LinkedEditSuggestion> suggestions) {
this.positions = positions;
this.length = length;
this.suggestions = suggestions;
}
factory LinkedEditGroup.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
List<Position> positions;
if (json.containsKey("positions")) {
positions = jsonDecoder.decodeList(
jsonPath + ".positions",
json["positions"],
(String jsonPath, Object json) =>
new Position.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "positions");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
List<LinkedEditSuggestion> suggestions;
if (json.containsKey("suggestions")) {
suggestions = jsonDecoder.decodeList(
jsonPath + ".suggestions",
json["suggestions"],
(String jsonPath, Object json) =>
new LinkedEditSuggestion.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "suggestions");
}
return new LinkedEditGroup(positions, length, suggestions);
} else {
throw jsonDecoder.mismatch(jsonPath, "LinkedEditGroup", json);
}
}
/**
* Construct an empty LinkedEditGroup.
*/
LinkedEditGroup.empty() : this(<Position>[], 0, <LinkedEditSuggestion>[]);
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["positions"] =
positions.map((Position value) => value.toJson()).toList();
result["length"] = length;
result["suggestions"] = suggestions
.map((LinkedEditSuggestion value) => value.toJson())
.toList();
return result;
}
/**
* Add a new position and change the length.
*/
void addPosition(Position position, int length) {
positions.add(position);
this.length = length;
}
/**
* Add a new suggestion.
*/
void addSuggestion(LinkedEditSuggestion suggestion) {
suggestions.add(suggestion);
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is LinkedEditGroup) {
return listEqual(
positions, other.positions, (Position a, Position b) => a == b) &&
length == other.length &&
listEqual(suggestions, other.suggestions,
(LinkedEditSuggestion a, LinkedEditSuggestion b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, positions.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, suggestions.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* LinkedEditSuggestion
*
* {
* "value": String
* "kind": LinkedEditSuggestionKind
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class LinkedEditSuggestion implements HasToJson {
String _value;
LinkedEditSuggestionKind _kind;
/**
* The value that could be used to replace all of the linked edit regions.
*/
String get value => _value;
/**
* The value that could be used to replace all of the linked edit regions.
*/
void set value(String value) {
assert(value != null);
this._value = value;
}
/**
* The kind of value being proposed.
*/
LinkedEditSuggestionKind get kind => _kind;
/**
* The kind of value being proposed.
*/
void set kind(LinkedEditSuggestionKind value) {
assert(value != null);
this._kind = value;
}
LinkedEditSuggestion(String value, LinkedEditSuggestionKind kind) {
this.value = value;
this.kind = kind;
}
factory LinkedEditSuggestion.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String value;
if (json.containsKey("value")) {
value = jsonDecoder.decodeString(jsonPath + ".value", json["value"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "value");
}
LinkedEditSuggestionKind kind;
if (json.containsKey("kind")) {
kind = new LinkedEditSuggestionKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
return new LinkedEditSuggestion(value, kind);
} else {
throw jsonDecoder.mismatch(jsonPath, "LinkedEditSuggestion", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["value"] = value;
result["kind"] = kind.toJson();
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is LinkedEditSuggestion) {
return value == other.value && kind == other.kind;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, value.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* LinkedEditSuggestionKind
*
* enum {
* METHOD
* PARAMETER
* TYPE
* VARIABLE
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class LinkedEditSuggestionKind implements Enum {
static const LinkedEditSuggestionKind METHOD =
const LinkedEditSuggestionKind._("METHOD");
static const LinkedEditSuggestionKind PARAMETER =
const LinkedEditSuggestionKind._("PARAMETER");
static const LinkedEditSuggestionKind TYPE =
const LinkedEditSuggestionKind._("TYPE");
static const LinkedEditSuggestionKind VARIABLE =
const LinkedEditSuggestionKind._("VARIABLE");
/**
* A list containing all of the enum values that are defined.
*/
static const List<LinkedEditSuggestionKind> VALUES =
const <LinkedEditSuggestionKind>[METHOD, PARAMETER, TYPE, VARIABLE];
@override
final String name;
const LinkedEditSuggestionKind._(this.name);
factory LinkedEditSuggestionKind(String name) {
switch (name) {
case "METHOD":
return METHOD;
case "PARAMETER":
return PARAMETER;
case "TYPE":
return TYPE;
case "VARIABLE":
return VARIABLE;
}
throw new Exception('Illegal enum value: $name');
}
factory LinkedEditSuggestionKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new LinkedEditSuggestionKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "LinkedEditSuggestionKind", json);
}
@override
String toString() => "LinkedEditSuggestionKind.$name";
String toJson() => name;
}
/**
* Location
*
* {
* "file": FilePath
* "offset": int
* "length": int
* "startLine": int
* "startColumn": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class Location implements HasToJson {
String _file;
int _offset;
int _length;
int _startLine;
int _startColumn;
/**
* The file containing the range.
*/
String get file => _file;
/**
* The file containing the range.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the range.
*/
int get offset => _offset;
/**
* The offset of the range.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the range.
*/
int get length => _length;
/**
* The length of the range.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The one-based index of the line containing the first character of the
* range.
*/
int get startLine => _startLine;
/**
* The one-based index of the line containing the first character of the
* range.
*/
void set startLine(int value) {
assert(value != null);
this._startLine = value;
}
/**
* The one-based index of the column containing the first character of the
* range.
*/
int get startColumn => _startColumn;
/**
* The one-based index of the column containing the first character of the
* range.
*/
void set startColumn(int value) {
assert(value != null);
this._startColumn = value;
}
Location(
String file, int offset, int length, int startLine, int startColumn) {
this.file = file;
this.offset = offset;
this.length = length;
this.startLine = startLine;
this.startColumn = startColumn;
}
factory Location.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 startLine;
if (json.containsKey("startLine")) {
startLine =
jsonDecoder.decodeInt(jsonPath + ".startLine", json["startLine"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "startLine");
}
int startColumn;
if (json.containsKey("startColumn")) {
startColumn = jsonDecoder.decodeInt(
jsonPath + ".startColumn", json["startColumn"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "startColumn");
}
return new Location(file, offset, length, startLine, startColumn);
} else {
throw jsonDecoder.mismatch(jsonPath, "Location", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
result["length"] = length;
result["startLine"] = startLine;
result["startColumn"] = startColumn;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is Location) {
return file == other.file &&
offset == other.offset &&
length == other.length &&
startLine == other.startLine &&
startColumn == other.startColumn;
}
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, startLine.hashCode);
hash = JenkinsSmiHash.combine(hash, startColumn.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* NavigationRegion
*
* {
* "offset": int
* "length": int
* "targets": List<int>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class NavigationRegion implements HasToJson {
int _offset;
int _length;
List<int> _targets;
/**
* The offset of the region from which the user can navigate.
*/
int get offset => _offset;
/**
* The offset of the region from which the user can navigate.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the region from which the user can navigate.
*/
int get length => _length;
/**
* The length of the region from which the user can navigate.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The indexes of the targets (in the enclosing navigation response) to which
* the given region is bound. By opening the target, clients can implement
* one form of navigation. This list cannot be empty.
*/
List<int> get targets => _targets;
/**
* The indexes of the targets (in the enclosing navigation response) to which
* the given region is bound. By opening the target, clients can implement
* one form of navigation. This list cannot be empty.
*/
void set targets(List<int> value) {
assert(value != null);
this._targets = value;
}
NavigationRegion(int offset, int length, List<int> targets) {
this.offset = offset;
this.length = length;
this.targets = targets;
}
factory NavigationRegion.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");
}
List<int> targets;
if (json.containsKey("targets")) {
targets = jsonDecoder.decodeList(
jsonPath + ".targets", json["targets"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "targets");
}
return new NavigationRegion(offset, length, targets);
} else {
throw jsonDecoder.mismatch(jsonPath, "NavigationRegion", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
result["targets"] = targets;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is NavigationRegion) {
return offset == other.offset &&
length == other.length &&
listEqual(targets, other.targets, (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, targets.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* NavigationTarget
*
* {
* "kind": ElementKind
* "fileIndex": int
* "offset": int
* "length": int
* "startLine": int
* "startColumn": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class NavigationTarget implements HasToJson {
ElementKind _kind;
int _fileIndex;
int _offset;
int _length;
int _startLine;
int _startColumn;
/**
* The kind of the element.
*/
ElementKind get kind => _kind;
/**
* The kind of the element.
*/
void set kind(ElementKind value) {
assert(value != null);
this._kind = value;
}
/**
* The index of the file (in the enclosing navigation response) to navigate
* to.
*/
int get fileIndex => _fileIndex;
/**
* The index of the file (in the enclosing navigation response) to navigate
* to.
*/
void set fileIndex(int value) {
assert(value != null);
this._fileIndex = value;
}
/**
* The offset of the region to which the user can navigate.
*/
int get offset => _offset;
/**
* The offset of the region to which the user can navigate.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the region to which the user can navigate.
*/
int get length => _length;
/**
* The length of the region to which the user can navigate.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The one-based index of the line containing the first character of the
* region.
*/
int get startLine => _startLine;
/**
* The one-based index of the line containing the first character of the
* region.
*/
void set startLine(int value) {
assert(value != null);
this._startLine = value;
}
/**
* The one-based index of the column containing the first character of the
* region.
*/
int get startColumn => _startColumn;
/**
* The one-based index of the column containing the first character of the
* region.
*/
void set startColumn(int value) {
assert(value != null);
this._startColumn = value;
}
NavigationTarget(ElementKind kind, int fileIndex, int offset, int length,
int startLine, int startColumn) {
this.kind = kind;
this.fileIndex = fileIndex;
this.offset = offset;
this.length = length;
this.startLine = startLine;
this.startColumn = startColumn;
}
factory NavigationTarget.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
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 length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
int startLine;
if (json.containsKey("startLine")) {
startLine =
jsonDecoder.decodeInt(jsonPath + ".startLine", json["startLine"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "startLine");
}
int startColumn;
if (json.containsKey("startColumn")) {
startColumn = jsonDecoder.decodeInt(
jsonPath + ".startColumn", json["startColumn"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "startColumn");
}
return new NavigationTarget(
kind, fileIndex, offset, length, startLine, startColumn);
} else {
throw jsonDecoder.mismatch(jsonPath, "NavigationTarget", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["kind"] = kind.toJson();
result["fileIndex"] = fileIndex;
result["offset"] = offset;
result["length"] = length;
result["startLine"] = startLine;
result["startColumn"] = startColumn;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is NavigationTarget) {
return kind == other.kind &&
fileIndex == other.fileIndex &&
offset == other.offset &&
length == other.length &&
startLine == other.startLine &&
startColumn == other.startColumn;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, fileIndex.hashCode);
hash = JenkinsSmiHash.combine(hash, offset.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
hash = JenkinsSmiHash.combine(hash, startLine.hashCode);
hash = JenkinsSmiHash.combine(hash, startColumn.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* Occurrences
*
* {
* "element": Element
* "offsets": List<int>
* "length": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class Occurrences implements HasToJson {
Element _element;
List<int> _offsets;
int _length;
/**
* The element that was referenced.
*/
Element get element => _element;
/**
* The element that was referenced.
*/
void set element(Element value) {
assert(value != null);
this._element = value;
}
/**
* The offsets of the name of the referenced element within the file.
*/
List<int> get offsets => _offsets;
/**
* The offsets of the name of the referenced element within the file.
*/
void set offsets(List<int> value) {
assert(value != null);
this._offsets = value;
}
/**
* The length of the name of the referenced element.
*/
int get length => _length;
/**
* The length of the name of the referenced element.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
Occurrences(Element element, List<int> offsets, int length) {
this.element = element;
this.offsets = offsets;
this.length = length;
}
factory Occurrences.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");
}
List<int> offsets;
if (json.containsKey("offsets")) {
offsets = jsonDecoder.decodeList(
jsonPath + ".offsets", json["offsets"], jsonDecoder.decodeInt);
} else {
throw jsonDecoder.mismatch(jsonPath, "offsets");
}
int length;
if (json.containsKey("length")) {
length = jsonDecoder.decodeInt(jsonPath + ".length", json["length"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "length");
}
return new Occurrences(element, offsets, length);
} else {
throw jsonDecoder.mismatch(jsonPath, "Occurrences", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["element"] = element.toJson();
result["offsets"] = offsets;
result["length"] = length;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is Occurrences) {
return element == other.element &&
listEqual(offsets, other.offsets, (int a, int b) => a == b) &&
length == other.length;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, element.hashCode);
hash = JenkinsSmiHash.combine(hash, offsets.hashCode);
hash = JenkinsSmiHash.combine(hash, length.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* Outline
*
* {
* "element": Element
* "offset": int
* "length": int
* "codeOffset": int
* "codeLength": int
* "children": optional List<Outline>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class Outline implements HasToJson {
Element _element;
int _offset;
int _length;
int _codeOffset;
int _codeLength;
List<Outline> _children;
/**
* A description of the element represented by this node.
*/
Element get element => _element;
/**
* A description of the element represented by this node.
*/
void set element(Element value) {
assert(value != null);
this._element = 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 children of the node. The field will be omitted if the node has no
* children. Children are sorted by offset.
*/
List<Outline> get children => _children;
/**
* The children of the node. The field will be omitted if the node has no
* children. Children are sorted by offset.
*/
void set children(List<Outline> value) {
this._children = value;
}
Outline(
Element element, int offset, int length, int codeOffset, int codeLength,
{List<Outline> children}) {
this.element = element;
this.offset = offset;
this.length = length;
this.codeOffset = codeOffset;
this.codeLength = codeLength;
this.children = children;
}
factory Outline.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");
}
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");
}
List<Outline> children;
if (json.containsKey("children")) {
children = jsonDecoder.decodeList(
jsonPath + ".children",
json["children"],
(String jsonPath, Object json) =>
new Outline.fromJson(jsonDecoder, jsonPath, json));
}
return new Outline(element, offset, length, codeOffset, codeLength,
children: children);
} else {
throw jsonDecoder.mismatch(jsonPath, "Outline", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["element"] = element.toJson();
result["offset"] = offset;
result["length"] = length;
result["codeOffset"] = codeOffset;
result["codeLength"] = codeLength;
if (children != null) {
result["children"] =
children.map((Outline value) => value.toJson()).toList();
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is Outline) {
return element == other.element &&
offset == other.offset &&
length == other.length &&
codeOffset == other.codeOffset &&
codeLength == other.codeLength &&
listEqual(children, other.children, (Outline a, Outline b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, element.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, children.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ParameterInfo
*
* {
* "kind": ParameterKind
* "name": String
* "type": String
* "defaultValue": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ParameterInfo implements HasToJson {
ParameterKind _kind;
String _name;
String _type;
String _defaultValue;
/**
* The kind of the parameter.
*/
ParameterKind get kind => _kind;
/**
* The kind of the parameter.
*/
void set kind(ParameterKind value) {
assert(value != null);
this._kind = value;
}
/**
* The name of the parameter.
*/
String get name => _name;
/**
* The name of the parameter.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The type of the parameter.
*/
String get type => _type;
/**
* The type of the parameter.
*/
void set type(String value) {
assert(value != null);
this._type = value;
}
/**
* The default value for this parameter. This value will be omitted if the
* parameter does not have a default value.
*/
String get defaultValue => _defaultValue;
/**
* The default value for this parameter. This value will be omitted if the
* parameter does not have a default value.
*/
void set defaultValue(String value) {
this._defaultValue = value;
}
ParameterInfo(ParameterKind kind, String name, String type,
{String defaultValue}) {
this.kind = kind;
this.name = name;
this.type = type;
this.defaultValue = defaultValue;
}
factory ParameterInfo.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
ParameterKind kind;
if (json.containsKey("kind")) {
kind = new ParameterKind.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"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
String type;
if (json.containsKey("type")) {
type = jsonDecoder.decodeString(jsonPath + ".type", json["type"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "type");
}
String defaultValue;
if (json.containsKey("defaultValue")) {
defaultValue = jsonDecoder.decodeString(
jsonPath + ".defaultValue", json["defaultValue"]);
}
return new ParameterInfo(kind, name, type, defaultValue: defaultValue);
} else {
throw jsonDecoder.mismatch(jsonPath, "ParameterInfo", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["kind"] = kind.toJson();
result["name"] = name;
result["type"] = type;
if (defaultValue != null) {
result["defaultValue"] = defaultValue;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is ParameterInfo) {
return kind == other.kind &&
name == other.name &&
type == other.type &&
defaultValue == other.defaultValue;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, type.hashCode);
hash = JenkinsSmiHash.combine(hash, defaultValue.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* ParameterKind
*
* enum {
* NAMED
* OPTIONAL
* REQUIRED
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class ParameterKind implements Enum {
/**
* A named parameter.
*/
static const ParameterKind NAMED = const ParameterKind._("NAMED");
/**
* An optional parameter.
*/
static const ParameterKind OPTIONAL = const ParameterKind._("OPTIONAL");
/**
* A required parameter.
*/
static const ParameterKind REQUIRED = const ParameterKind._("REQUIRED");
/**
* A list containing all of the enum values that are defined.
*/
static const List<ParameterKind> VALUES = const <ParameterKind>[
NAMED,
OPTIONAL,
REQUIRED
];
@override
final String name;
const ParameterKind._(this.name);
factory ParameterKind(String name) {
switch (name) {
case "NAMED":
return NAMED;
case "OPTIONAL":
return OPTIONAL;
case "REQUIRED":
return REQUIRED;
}
throw new Exception('Illegal enum value: $name');
}
factory ParameterKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new ParameterKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "ParameterKind", json);
}
@override
String toString() => "ParameterKind.$name";
String toJson() => name;
}
/**
* Position
*
* {
* "file": FilePath
* "offset": int
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class Position implements HasToJson {
String _file;
int _offset;
/**
* The file containing the position.
*/
String get file => _file;
/**
* The file containing the position.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The offset of the position.
*/
int get offset => _offset;
/**
* The offset of the position.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
Position(String file, int offset) {
this.file = file;
this.offset = offset;
}
factory Position.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 Position(file, offset);
} else {
throw jsonDecoder.mismatch(jsonPath, "Position", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["offset"] = offset;
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is Position) {
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);
}
}
/**
* RefactoringKind
*
* enum {
* CONVERT_GETTER_TO_METHOD
* CONVERT_METHOD_TO_GETTER
* EXTRACT_LOCAL_VARIABLE
* EXTRACT_METHOD
* EXTRACT_WIDGET
* INLINE_LOCAL_VARIABLE
* INLINE_METHOD
* MOVE_FILE
* RENAME
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RefactoringKind implements Enum {
static const RefactoringKind CONVERT_GETTER_TO_METHOD =
const RefactoringKind._("CONVERT_GETTER_TO_METHOD");
static const RefactoringKind CONVERT_METHOD_TO_GETTER =
const RefactoringKind._("CONVERT_METHOD_TO_GETTER");
static const RefactoringKind EXTRACT_LOCAL_VARIABLE =
const RefactoringKind._("EXTRACT_LOCAL_VARIABLE");
static const RefactoringKind EXTRACT_METHOD =
const RefactoringKind._("EXTRACT_METHOD");
static const RefactoringKind EXTRACT_WIDGET =
const RefactoringKind._("EXTRACT_WIDGET");
static const RefactoringKind INLINE_LOCAL_VARIABLE =
const RefactoringKind._("INLINE_LOCAL_VARIABLE");
static const RefactoringKind INLINE_METHOD =
const RefactoringKind._("INLINE_METHOD");
static const RefactoringKind MOVE_FILE = const RefactoringKind._("MOVE_FILE");
static const RefactoringKind RENAME = const RefactoringKind._("RENAME");
/**
* A list containing all of the enum values that are defined.
*/
static const List<RefactoringKind> VALUES = const <RefactoringKind>[
CONVERT_GETTER_TO_METHOD,
CONVERT_METHOD_TO_GETTER,
EXTRACT_LOCAL_VARIABLE,
EXTRACT_METHOD,
EXTRACT_WIDGET,
INLINE_LOCAL_VARIABLE,
INLINE_METHOD,
MOVE_FILE,
RENAME
];
@override
final String name;
const RefactoringKind._(this.name);
factory RefactoringKind(String name) {
switch (name) {
case "CONVERT_GETTER_TO_METHOD":
return CONVERT_GETTER_TO_METHOD;
case "CONVERT_METHOD_TO_GETTER":
return CONVERT_METHOD_TO_GETTER;
case "EXTRACT_LOCAL_VARIABLE":
return EXTRACT_LOCAL_VARIABLE;
case "EXTRACT_METHOD":
return EXTRACT_METHOD;
case "EXTRACT_WIDGET":
return EXTRACT_WIDGET;
case "INLINE_LOCAL_VARIABLE":
return INLINE_LOCAL_VARIABLE;
case "INLINE_METHOD":
return INLINE_METHOD;
case "MOVE_FILE":
return MOVE_FILE;
case "RENAME":
return RENAME;
}
throw new Exception('Illegal enum value: $name');
}
factory RefactoringKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new RefactoringKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "RefactoringKind", json);
}
@override
String toString() => "RefactoringKind.$name";
String toJson() => name;
}
/**
* RefactoringMethodParameter
*
* {
* "id": optional String
* "kind": RefactoringMethodParameterKind
* "type": String
* "name": String
* "parameters": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RefactoringMethodParameter implements HasToJson {
String _id;
RefactoringMethodParameterKind _kind;
String _type;
String _name;
String _parameters;
/**
* The unique identifier of the parameter. Clients may omit this field for
* the parameters they want to add.
*/
String get id => _id;
/**
* The unique identifier of the parameter. Clients may omit this field for
* the parameters they want to add.
*/
void set id(String value) {
this._id = value;
}
/**
* The kind of the parameter.
*/
RefactoringMethodParameterKind get kind => _kind;
/**
* The kind of the parameter.
*/
void set kind(RefactoringMethodParameterKind value) {
assert(value != null);
this._kind = value;
}
/**
* The type that should be given to the parameter, or the return type of the
* parameter's function type.
*/
String get type => _type;
/**
* The type that should be given to the parameter, or the return type of the
* parameter's function type.
*/
void set type(String value) {
assert(value != null);
this._type = value;
}
/**
* The name that should be given to the parameter.
*/
String get name => _name;
/**
* The name that should be given to the parameter.
*/
void set name(String value) {
assert(value != null);
this._name = value;
}
/**
* The parameter list of the parameter's function type. If the parameter is
* not of a function type, this field will not be defined. If the function
* type has zero parameters, this field will have a value of '()'.
*/
String get parameters => _parameters;
/**
* The parameter list of the parameter's function type. If the parameter is
* not of a function type, this field will not be defined. If the function
* type has zero parameters, this field will have a value of '()'.
*/
void set parameters(String value) {
this._parameters = value;
}
RefactoringMethodParameter(
RefactoringMethodParameterKind kind, String type, String name,
{String id, String parameters}) {
this.id = id;
this.kind = kind;
this.type = type;
this.name = name;
this.parameters = parameters;
}
factory RefactoringMethodParameter.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"]);
}
RefactoringMethodParameterKind kind;
if (json.containsKey("kind")) {
kind = new RefactoringMethodParameterKind.fromJson(
jsonDecoder, jsonPath + ".kind", json["kind"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "kind");
}
String type;
if (json.containsKey("type")) {
type = jsonDecoder.decodeString(jsonPath + ".type", json["type"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "type");
}
String name;
if (json.containsKey("name")) {
name = jsonDecoder.decodeString(jsonPath + ".name", json["name"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "name");
}
String parameters;
if (json.containsKey("parameters")) {
parameters = jsonDecoder.decodeString(
jsonPath + ".parameters", json["parameters"]);
}
return new RefactoringMethodParameter(kind, type, name,
id: id, parameters: parameters);
} else {
throw jsonDecoder.mismatch(jsonPath, "RefactoringMethodParameter", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
if (id != null) {
result["id"] = id;
}
result["kind"] = kind.toJson();
result["type"] = type;
result["name"] = name;
if (parameters != null) {
result["parameters"] = parameters;
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RefactoringMethodParameter) {
return id == other.id &&
kind == other.kind &&
type == other.type &&
name == other.name &&
parameters == other.parameters;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, id.hashCode);
hash = JenkinsSmiHash.combine(hash, kind.hashCode);
hash = JenkinsSmiHash.combine(hash, type.hashCode);
hash = JenkinsSmiHash.combine(hash, name.hashCode);
hash = JenkinsSmiHash.combine(hash, parameters.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* RefactoringMethodParameterKind
*
* enum {
* REQUIRED
* POSITIONAL
* NAMED
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RefactoringMethodParameterKind implements Enum {
static const RefactoringMethodParameterKind REQUIRED =
const RefactoringMethodParameterKind._("REQUIRED");
static const RefactoringMethodParameterKind POSITIONAL =
const RefactoringMethodParameterKind._("POSITIONAL");
static const RefactoringMethodParameterKind NAMED =
const RefactoringMethodParameterKind._("NAMED");
/**
* A list containing all of the enum values that are defined.
*/
static const List<RefactoringMethodParameterKind> VALUES =
const <RefactoringMethodParameterKind>[REQUIRED, POSITIONAL, NAMED];
@override
final String name;
const RefactoringMethodParameterKind._(this.name);
factory RefactoringMethodParameterKind(String name) {
switch (name) {
case "REQUIRED":
return REQUIRED;
case "POSITIONAL":
return POSITIONAL;
case "NAMED":
return NAMED;
}
throw new Exception('Illegal enum value: $name');
}
factory RefactoringMethodParameterKind.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new RefactoringMethodParameterKind(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(
jsonPath, "RefactoringMethodParameterKind", json);
}
@override
String toString() => "RefactoringMethodParameterKind.$name";
String toJson() => name;
}
/**
* RefactoringProblem
*
* {
* "severity": RefactoringProblemSeverity
* "message": String
* "location": optional Location
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RefactoringProblem implements HasToJson {
RefactoringProblemSeverity _severity;
String _message;
Location _location;
/**
* The severity of the problem being represented.
*/
RefactoringProblemSeverity get severity => _severity;
/**
* The severity of the problem being represented.
*/
void set severity(RefactoringProblemSeverity value) {
assert(value != null);
this._severity = value;
}
/**
* A human-readable description of the problem being represented.
*/
String get message => _message;
/**
* A human-readable description of the problem being represented.
*/
void set message(String value) {
assert(value != null);
this._message = value;
}
/**
* The location of the problem being represented. This field is omitted
* unless there is a specific location associated with the problem (such as a
* location where an element being renamed will be shadowed).
*/
Location get location => _location;
/**
* The location of the problem being represented. This field is omitted
* unless there is a specific location associated with the problem (such as a
* location where an element being renamed will be shadowed).
*/
void set location(Location value) {
this._location = value;
}
RefactoringProblem(RefactoringProblemSeverity severity, String message,
{Location location}) {
this.severity = severity;
this.message = message;
this.location = location;
}
factory RefactoringProblem.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
RefactoringProblemSeverity severity;
if (json.containsKey("severity")) {
severity = new RefactoringProblemSeverity.fromJson(
jsonDecoder, jsonPath + ".severity", json["severity"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "severity");
}
String message;
if (json.containsKey("message")) {
message =
jsonDecoder.decodeString(jsonPath + ".message", json["message"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "message");
}
Location location;
if (json.containsKey("location")) {
location = new Location.fromJson(
jsonDecoder, jsonPath + ".location", json["location"]);
}
return new RefactoringProblem(severity, message, location: location);
} else {
throw jsonDecoder.mismatch(jsonPath, "RefactoringProblem", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["severity"] = severity.toJson();
result["message"] = message;
if (location != null) {
result["location"] = location.toJson();
}
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RefactoringProblem) {
return severity == other.severity &&
message == other.message &&
location == other.location;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, severity.hashCode);
hash = JenkinsSmiHash.combine(hash, message.hashCode);
hash = JenkinsSmiHash.combine(hash, location.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* RefactoringProblemSeverity
*
* enum {
* INFO
* WARNING
* ERROR
* FATAL
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RefactoringProblemSeverity implements Enum {
/**
* A minor code problem. No example, because it is not used yet.
*/
static const RefactoringProblemSeverity INFO =
const RefactoringProblemSeverity._("INFO");
/**
* A minor code problem. For example names of local variables should be camel
* case and start with a lower case letter. Staring the name of a variable
* with an upper case is OK from the language point of view, but it is nice
* to warn the user.
*/
static const RefactoringProblemSeverity WARNING =
const RefactoringProblemSeverity._("WARNING");
/**
* The refactoring technically can be performed, but there is a logical
* problem. For example the name of a local variable being extracted
* conflicts with another name in the scope, or duplicate parameter names in
* the method being extracted, or a conflict between a parameter name and a
* local variable, etc. In some cases the location of the problem is also
* provided, so the IDE can show user the location and the problem, and let
* the user decide whether they want to perform the refactoring. For example
* the name conflict might be expected, and the user wants to fix it
* afterwards.
*/
static const RefactoringProblemSeverity ERROR =
const RefactoringProblemSeverity._("ERROR");
/**
* A fatal error, which prevents performing the refactoring. For example the
* name of a local variable being extracted is not a valid identifier, or
* selection is not a valid expression.
*/
static const RefactoringProblemSeverity FATAL =
const RefactoringProblemSeverity._("FATAL");
/**
* A list containing all of the enum values that are defined.
*/
static const List<RefactoringProblemSeverity> VALUES =
const <RefactoringProblemSeverity>[INFO, WARNING, ERROR, FATAL];
@override
final String name;
const RefactoringProblemSeverity._(this.name);
factory RefactoringProblemSeverity(String name) {
switch (name) {
case "INFO":
return INFO;
case "WARNING":
return WARNING;
case "ERROR":
return ERROR;
case "FATAL":
return FATAL;
}
throw new Exception('Illegal enum value: $name');
}
factory RefactoringProblemSeverity.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json is String) {
try {
return new RefactoringProblemSeverity(json);
} catch (_) {
// Fall through
}
}
throw jsonDecoder.mismatch(jsonPath, "RefactoringProblemSeverity", json);
}
/**
* Returns the [RefactoringProblemSeverity] with the maximal severity.
*/
static RefactoringProblemSeverity max(
RefactoringProblemSeverity a, RefactoringProblemSeverity b) =>
maxRefactoringProblemSeverity(a, b);
@override
String toString() => "RefactoringProblemSeverity.$name";
String toJson() => name;
}
/**
* RemoveContentOverlay
*
* {
* "type": "remove"
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class RemoveContentOverlay implements HasToJson {
RemoveContentOverlay();
factory RemoveContentOverlay.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
if (json["type"] != "remove") {
throw jsonDecoder.mismatch(jsonPath, "equal " + "remove", json);
}
return new RemoveContentOverlay();
} else {
throw jsonDecoder.mismatch(jsonPath, "RemoveContentOverlay", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["type"] = "remove";
return result;
}
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is RemoveContentOverlay) {
return true;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, 114870849);
return JenkinsSmiHash.finish(hash);
}
}
/**
* SourceChange
*
* {
* "message": String
* "edits": List<SourceFileEdit>
* "linkedEditGroups": List<LinkedEditGroup>
* "selection": optional Position
* "id": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SourceChange implements HasToJson {
String _message;
List<SourceFileEdit> _edits;
List<LinkedEditGroup> _linkedEditGroups;
Position _selection;
String _id;
/**
* A human-readable description of the change to be applied.
*/
String get message => _message;
/**
* A human-readable description of the change to be applied.
*/
void set message(String value) {
assert(value != null);
this._message = value;
}
/**
* A list of the edits used to effect the change, grouped by file.
*/
List<SourceFileEdit> get edits => _edits;
/**
* A list of the edits used to effect the change, grouped by file.
*/
void set edits(List<SourceFileEdit> value) {
assert(value != null);
this._edits = value;
}
/**
* A list of the linked editing groups used to customize the changes that
* were made.
*/
List<LinkedEditGroup> get linkedEditGroups => _linkedEditGroups;
/**
* A list of the linked editing groups used to customize the changes that
* were made.
*/
void set linkedEditGroups(List<LinkedEditGroup> value) {
assert(value != null);
this._linkedEditGroups = value;
}
/**
* The position that should be selected after the edits have been applied.
*/
Position get selection => _selection;
/**
* The position that should be selected after the edits have been applied.
*/
void set selection(Position value) {
this._selection = value;
}
/**
* The optional identifier of the change kind. The identifier remains stable
* even if the message changes, or is parameterized.
*/
String get id => _id;
/**
* The optional identifier of the change kind. The identifier remains stable
* even if the message changes, or is parameterized.
*/
void set id(String value) {
this._id = value;
}
SourceChange(String message,
{List<SourceFileEdit> edits,
List<LinkedEditGroup> linkedEditGroups,
Position selection,
String id}) {
this.message = message;
if (edits == null) {
this.edits = <SourceFileEdit>[];
} else {
this.edits = edits;
}
if (linkedEditGroups == null) {
this.linkedEditGroups = <LinkedEditGroup>[];
} else {
this.linkedEditGroups = linkedEditGroups;
}
this.selection = selection;
this.id = id;
}
factory SourceChange.fromJson(
JsonDecoder jsonDecoder, String jsonPath, Object json) {
if (json == null) {
json = {};
}
if (json is Map) {
String message;
if (json.containsKey("message")) {
message =
jsonDecoder.decodeString(jsonPath + ".message", json["message"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "message");
}
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");
}
List<LinkedEditGroup> linkedEditGroups;
if (json.containsKey("linkedEditGroups")) {
linkedEditGroups = jsonDecoder.decodeList(
jsonPath + ".linkedEditGroups",
json["linkedEditGroups"],
(String jsonPath, Object json) =>
new LinkedEditGroup.fromJson(jsonDecoder, jsonPath, json));
} else {
throw jsonDecoder.mismatch(jsonPath, "linkedEditGroups");
}
Position selection;
if (json.containsKey("selection")) {
selection = new Position.fromJson(
jsonDecoder, jsonPath + ".selection", json["selection"]);
}
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
}
return new SourceChange(message,
edits: edits,
linkedEditGroups: linkedEditGroups,
selection: selection,
id: id);
} else {
throw jsonDecoder.mismatch(jsonPath, "SourceChange", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["message"] = message;
result["edits"] =
edits.map((SourceFileEdit value) => value.toJson()).toList();
result["linkedEditGroups"] = linkedEditGroups
.map((LinkedEditGroup value) => value.toJson())
.toList();
if (selection != null) {
result["selection"] = selection.toJson();
}
if (id != null) {
result["id"] = id;
}
return result;
}
/**
* Adds [edit] to the [FileEdit] for the given [file].
*/
void addEdit(String file, int fileStamp, SourceEdit edit) =>
addEditToSourceChange(this, file, fileStamp, edit);
/**
* Adds the given [FileEdit].
*/
void addFileEdit(SourceFileEdit edit) {
edits.add(edit);
}
/**
* Adds the given [LinkedEditGroup].
*/
void addLinkedEditGroup(LinkedEditGroup linkedEditGroup) {
linkedEditGroups.add(linkedEditGroup);
}
/**
* Returns the [FileEdit] for the given [file], maybe `null`.
*/
SourceFileEdit getFileEdit(String file) => getChangeFileEdit(this, file);
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SourceChange) {
return message == other.message &&
listEqual(edits, other.edits,
(SourceFileEdit a, SourceFileEdit b) => a == b) &&
listEqual(linkedEditGroups, other.linkedEditGroups,
(LinkedEditGroup a, LinkedEditGroup b) => a == b) &&
selection == other.selection &&
id == other.id;
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, message.hashCode);
hash = JenkinsSmiHash.combine(hash, edits.hashCode);
hash = JenkinsSmiHash.combine(hash, linkedEditGroups.hashCode);
hash = JenkinsSmiHash.combine(hash, selection.hashCode);
hash = JenkinsSmiHash.combine(hash, id.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* SourceEdit
*
* {
* "offset": int
* "length": int
* "replacement": String
* "id": optional String
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SourceEdit implements HasToJson {
/**
* Get the result of applying a set of [edits] to the given [code]. Edits are
* applied in the order they appear in [edits].
*/
static String applySequence(String code, Iterable<SourceEdit> edits) =>
applySequenceOfEdits(code, edits);
int _offset;
int _length;
String _replacement;
String _id;
/**
* The offset of the region to be modified.
*/
int get offset => _offset;
/**
* The offset of the region to be modified.
*/
void set offset(int value) {
assert(value != null);
this._offset = value;
}
/**
* The length of the region to be modified.
*/
int get length => _length;
/**
* The length of the region to be modified.
*/
void set length(int value) {
assert(value != null);
this._length = value;
}
/**
* The code that is to replace the specified region in the original code.
*/
String get replacement => _replacement;
/**
* The code that is to replace the specified region in the original code.
*/
void set replacement(String value) {
assert(value != null);
this._replacement = value;
}
/**
* An identifier that uniquely identifies this source edit from other edits
* in the same response. This field is omitted unless a containing structure
* needs to be able to identify the edit for some reason.
*
* For example, some refactoring operations can produce edits that might not
* be appropriate (referred to as potential edits). Such edits will have an
* id so that they can be referenced. Edits in the same response that do not
* need to be referenced will not have an id.
*/
String get id => _id;
/**
* An identifier that uniquely identifies this source edit from other edits
* in the same response. This field is omitted unless a containing structure
* needs to be able to identify the edit for some reason.
*
* For example, some refactoring operations can produce edits that might not
* be appropriate (referred to as potential edits). Such edits will have an
* id so that they can be referenced. Edits in the same response that do not
* need to be referenced will not have an id.
*/
void set id(String value) {
this._id = value;
}
SourceEdit(int offset, int length, String replacement, {String id}) {
this.offset = offset;
this.length = length;
this.replacement = replacement;
this.id = id;
}
factory SourceEdit.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 replacement;
if (json.containsKey("replacement")) {
replacement = jsonDecoder.decodeString(
jsonPath + ".replacement", json["replacement"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "replacement");
}
String id;
if (json.containsKey("id")) {
id = jsonDecoder.decodeString(jsonPath + ".id", json["id"]);
}
return new SourceEdit(offset, length, replacement, id: id);
} else {
throw jsonDecoder.mismatch(jsonPath, "SourceEdit", json);
}
}
/**
* The end of the region to be modified.
*/
int get end => offset + length;
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["offset"] = offset;
result["length"] = length;
result["replacement"] = replacement;
if (id != null) {
result["id"] = id;
}
return result;
}
/**
* Get the result of applying the edit to the given [code].
*/
String apply(String code) => applyEdit(code, this);
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SourceEdit) {
return offset == other.offset &&
length == other.length &&
replacement == other.replacement &&
id == other.id;
}
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, replacement.hashCode);
hash = JenkinsSmiHash.combine(hash, id.hashCode);
return JenkinsSmiHash.finish(hash);
}
}
/**
* SourceFileEdit
*
* {
* "file": FilePath
* "fileStamp": long
* "edits": List<SourceEdit>
* }
*
* Clients may not extend, implement or mix-in this class.
*/
class SourceFileEdit implements HasToJson {
String _file;
int _fileStamp;
List<SourceEdit> _edits;
/**
* The file containing the code to be modified.
*/
String get file => _file;
/**
* The file containing the code to be modified.
*/
void set file(String value) {
assert(value != null);
this._file = value;
}
/**
* The modification stamp of the file at the moment when the change was
* created, in milliseconds since the "Unix epoch". Will be -1 if the file
* did not exist and should be created. The client may use this field to make
* sure that the file was not changed since then, so it is safe to apply the
* change.
*/
int get fileStamp => _fileStamp;
/**
* The modification stamp of the file at the moment when the change was
* created, in milliseconds since the "Unix epoch". Will be -1 if the file
* did not exist and should be created. The client may use this field to make
* sure that the file was not changed since then, so it is safe to apply the
* change.
*/
void set fileStamp(int value) {
assert(value != null);
this._fileStamp = value;
}
/**
* A list of the edits used to effect the change.
*/
List<SourceEdit> get edits => _edits;
/**
* A list of the edits used to effect the change.
*/
void set edits(List<SourceEdit> value) {
assert(value != null);
this._edits = value;
}
SourceFileEdit(String file, int fileStamp, {List<SourceEdit> edits}) {
this.file = file;
this.fileStamp = fileStamp;
if (edits == null) {
this.edits = <SourceEdit>[];
} else {
this.edits = edits;
}
}
factory SourceFileEdit.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 fileStamp;
if (json.containsKey("fileStamp")) {
fileStamp =
jsonDecoder.decodeInt(jsonPath + ".fileStamp", json["fileStamp"]);
} else {
throw jsonDecoder.mismatch(jsonPath, "fileStamp");
}
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");
}
return new SourceFileEdit(file, fileStamp, edits: edits);
} else {
throw jsonDecoder.mismatch(jsonPath, "SourceFileEdit", json);
}
}
@override
Map<String, dynamic> toJson() {
Map<String, dynamic> result = {};
result["file"] = file;
result["fileStamp"] = fileStamp;
result["edits"] = edits.map((SourceEdit value) => value.toJson()).toList();
return result;
}
/**
* Adds the given [Edit] to the list.
*/
void add(SourceEdit edit) => addEditForSource(this, edit);
/**
* Adds the given [Edit]s.
*/
void addAll(Iterable<SourceEdit> edits) => addAllEditsForSource(this, edits);
@override
String toString() => json.encode(toJson());
@override
bool operator ==(other) {
if (other is SourceFileEdit) {
return file == other.file &&
fileStamp == other.fileStamp &&
listEqual(edits, other.edits, (SourceEdit a, SourceEdit b) => a == b);
}
return false;
}
@override
int get hashCode {
int hash = 0;
hash = JenkinsSmiHash.combine(hash, file.hashCode);
hash = JenkinsSmiHash.combine(hash, fileStamp.hashCode);
hash = JenkinsSmiHash.combine(hash, edits.hashCode);
return JenkinsSmiHash.finish(hash);
}
}