blob: aa3882255d079769bdf5826112013374bac629c5 [file] [log] [blame]
// Copyright (c) 2014, 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.
import 'dart:convert';
import 'package:analyzer_utilities/html_dom.dart' as dom;
import 'package:analyzer_utilities/tools.dart';
import 'package:path/path.dart' as path;
import 'api.dart';
import 'codegen_dart.dart';
import 'from_html.dart';
import 'implied_types.dart';
import 'to_html.dart';
/// Special flags that need to be inserted into the declaration of the Element
/// class.
const Map<String, String> specialElementFlags = {
'abstract': '0x01',
'const': '0x02',
'final': '0x04',
'static': '0x08',
'private': '0x10',
'deprecated': '0x20'
};
GeneratedFile target(bool responseRequiresRequestTime) {
return GeneratedFile('lib/protocol/protocol_generated.dart',
(String pkgPath) async {
var visitor = CodegenProtocolVisitor(
path.basename(pkgPath), responseRequiresRequestTime, readApi(pkgPath));
return visitor.collectCode(visitor.visitApi);
});
}
/// Callback type used to represent arbitrary code generation.
typedef CodegenCallback = void Function();
typedef FromJsonSnippetCallback = String Function(String jsonPath, String json);
typedef ToJsonSnippetCallback = String Function(String value);
/// Visitor which produces Dart code representing the API.
class CodegenProtocolVisitor extends DartCodegenVisitor with CodeGenerator {
/// Class members for which the constructor argument should be optional, even
/// if the member is not an optional part of the protocol. For list types,
/// the constructor will default the member to the empty list.
static const Map<String, List<String>> _optionalConstructorArguments = {
'AnalysisErrorFixes': ['fixes'],
'SourceChange': ['edits', 'linkedEditGroups'],
'SourceFileEdit': ['edits'],
'TypeHierarchyItem': ['interfaces', 'mixins', 'subclasses'],
};
/// The disclaimer added to the documentation comment for each of the classes
/// that are generated.
static const String disclaimer =
'Clients may not extend, implement or mix-in this class.';
/// The name of the package into which code is being generated.
final String packageName;
/// A flag indicating whether the class [Response] requires a `requestTime`
/// parameter.
final bool responseRequiresRequestTime;
/// Visitor used to produce doc comments.
final ToHtmlVisitor toHtmlVisitor;
/// Types implied by the API. This includes types explicitly named in the
/// API as well as those implied by the definitions of requests, responses,
/// notifications, etc.
final Map<String, ImpliedType> impliedTypes;
CodegenProtocolVisitor(
this.packageName, this.responseRequiresRequestTime, Api api)
: toHtmlVisitor = ToHtmlVisitor(api),
impliedTypes = computeImpliedTypes(api),
super(api) {
codeGeneratorSettings.commentLineLength = 79;
codeGeneratorSettings.docCommentStartMarker = null;
codeGeneratorSettings.docCommentLineLeader = '/// ';
codeGeneratorSettings.docCommentEndMarker = null;
codeGeneratorSettings.languageName = 'dart';
}
/// Compute the code necessary to compare two objects for equality.
String compareEqualsCode(TypeDecl type, String thisVar, String otherVar) {
var resolvedType = resolveTypeReferenceChain(type);
if (resolvedType is TypeReference ||
resolvedType is TypeEnum ||
resolvedType is TypeObject ||
resolvedType is TypeUnion) {
return '$thisVar == $otherVar';
} else if (resolvedType is TypeList) {
var itemTypeName = dartType(resolvedType.itemType);
var subComparison = compareEqualsCode(resolvedType.itemType, 'a', 'b');
var closure = '($itemTypeName a, $itemTypeName b) => $subComparison';
return 'listEqual($thisVar, $otherVar, $closure)';
} else if (resolvedType is TypeMap) {
var valueTypeName = dartType(resolvedType.valueType);
var subComparison = compareEqualsCode(resolvedType.valueType, 'a', 'b');
var closure = '($valueTypeName a, $valueTypeName b) => $subComparison';
return 'mapEqual($thisVar, $otherVar, $closure)';
}
throw Exception("Don't know how to compare for equality: $resolvedType");
}
/// Translate each of the given [types] implied by the API to a class.
void emitClasses(List<ImpliedType> types) {
for (var impliedType in types) {
var type = impliedType.type;
var dartTypeName = capitalize(impliedType.camelName);
if (type == null) {
writeln();
emitEmptyObjectClass(dartTypeName, impliedType);
} else if (type is TypeObject) {
writeln();
emitObjectClass(dartTypeName, type, impliedType);
} else if (type is TypeEnum) {
writeln();
emitEnumClass(dartTypeName, type, impliedType);
}
}
}
/// Emit a convenience constructor for decoding a piece of protocol, if
/// appropriate. Return true if a constructor was emitted.
bool emitConvenienceConstructor(String className, ImpliedType impliedType) {
// The type of object from which this piece of protocol should be decoded.
String inputType;
// The name of the input object.
String inputName;
// The field within the input object to decode.
String fieldName;
// Constructor call to create the JsonDecoder object.
String makeDecoder;
// Name of the constructor to create.
String constructorName;
// Extra arguments for the constructor.
var extraArgs = <String>[];
switch (impliedType.kind) {
case 'requestParams':
inputType = 'Request';
inputName = 'request';
fieldName = 'params';
makeDecoder = 'RequestDecoder(request)';
constructorName = 'fromRequest';
break;
case 'requestResult':
inputType = 'Response';
inputName = 'response';
fieldName = 'result';
makeDecoder =
'ResponseDecoder(REQUEST_ID_REFACTORING_KINDS.remove(response.id))';
constructorName = 'fromResponse';
break;
case 'notificationParams':
inputType = 'Notification';
inputName = 'notification';
fieldName = 'params';
makeDecoder = 'ResponseDecoder(null)';
constructorName = 'fromNotification';
break;
case 'refactoringOptions':
inputType = 'EditGetRefactoringParams';
inputName = 'refactoringParams';
fieldName = 'options';
makeDecoder = 'RequestDecoder(request)';
constructorName = 'fromRefactoringParams';
extraArgs.add('Request request');
break;
default:
return false;
}
var args = <String>['$inputType $inputName'];
args.addAll(extraArgs);
writeln('factory $className.$constructorName(${args.join(', ')}) {');
indent(() {
var fieldNameString =
literalString(fieldName.replaceFirst(RegExp('^_'), ''));
if (className == 'EditGetRefactoringParams') {
writeln('var params = $className.fromJson(');
writeln(' $makeDecoder, $fieldNameString, $inputName.$fieldName);');
writeln('REQUEST_ID_REFACTORING_KINDS[request.id] = params.kind;');
writeln('return params;');
} else {
writeln('return $className.fromJson(');
writeln(' $makeDecoder, $fieldNameString, $inputName.$fieldName);');
}
});
writeln('}');
return true;
}
/// Emit a class representing an data structure that doesn't exist in the
/// protocol because it is empty (e.g. the "params" object for a request that
/// doesn't have any parameters).
void emitEmptyObjectClass(String className, ImpliedType impliedType) {
docComment(toHtmlVisitor.collectHtml(() {
toHtmlVisitor.p(() {
toHtmlVisitor.write(impliedType.humanReadableName);
});
toHtmlVisitor.p(() {
toHtmlVisitor.write(disclaimer);
});
}));
write('class $className');
if (impliedType.kind == 'refactoringFeedback') {
writeln(' extends RefactoringFeedback implements HasToJson {');
} else if (impliedType.kind == 'refactoringOptions') {
writeln(' extends RefactoringOptions implements HasToJson {');
} else if (impliedType.kind == 'requestParams') {
writeln(' implements RequestParams {');
} else if (impliedType.kind == 'requestResult') {
writeln(' implements ResponseResult {');
} else {
writeln(' {');
}
indent(() {
if (impliedType.kind == 'requestResult' ||
impliedType.kind == 'requestParams') {
emitEmptyToJsonMember();
writeln();
}
if (emitToRequestMember(impliedType)) {
writeln();
}
if (emitToResponseMember(impliedType)) {
writeln();
}
if (emitToNotificationMember(impliedType)) {
writeln();
}
emitObjectEqualsMember(null, className);
writeln();
emitObjectHashCode(null, className);
});
writeln('}');
}
/// Emit the toJson() code for an empty class.
void emitEmptyToJsonMember() {
writeln('@override');
writeln('Map<String, Object> toJson() => {};');
}
/// Emit a class to encapsulate an enum.
void emitEnumClass(String className, TypeEnum type, ImpliedType impliedType) {
docComment(toHtmlVisitor.collectHtml(() {
toHtmlVisitor.p(() {
toHtmlVisitor.write(impliedType.humanReadableName);
});
if (impliedType.type != null) {
toHtmlVisitor.showType(null, impliedType.type!);
}
toHtmlVisitor.p(() {
toHtmlVisitor.write(disclaimer);
});
}));
writeln('class $className implements Enum {');
indent(() {
if (emitSpecialStaticMembers(className)) {
writeln();
}
for (var value in type.values) {
docComment(toHtmlVisitor.collectHtml(() {
toHtmlVisitor.translateHtml(value.html);
}));
var valueString = literalString(value.value);
writeln(
'static const $className ${value.value} = $className._($valueString);');
writeln();
}
writeln('/// A list containing all of the enum values that are defined.');
write('static const List<');
write(className);
write('> VALUES = <');
write(className);
write('>[');
var first = true;
for (var value in type.values) {
if (first) {
first = false;
} else {
write(', ');
}
write(value.value);
}
writeln('];');
writeln();
writeln('@override');
writeln('final String name;');
writeln();
writeln('const $className._(this.name);');
writeln();
emitEnumClassConstructor(className, type);
writeln();
emitEnumFromJsonConstructor(className, type, impliedType);
writeln();
if (emitSpecialConstructors(className)) {
writeln();
}
if (emitSpecialGetters(className)) {
writeln();
}
if (emitSpecialMethods(className)) {
writeln();
}
writeln('@override');
writeln("String toString() => '$className.\$name';");
writeln();
writeln('String toJson() => name;');
});
writeln('}');
}
/// Emit the constructor for an enum class.
void emitEnumClassConstructor(String className, TypeEnum type) {
writeln('factory $className(String name) {');
indent(() {
writeln('switch (name) {');
indent(() {
for (var value in type.values) {
var valueString = literalString(value.value);
writeln('case $valueString:');
indent(() {
writeln('return ${value.value};');
});
}
});
writeln('}');
writeln(r"throw Exception('Illegal enum value: $name');");
});
writeln('}');
}
/// Emit the method for decoding an enum from JSON.
void emitEnumFromJsonConstructor(
String className, TypeEnum type, ImpliedType impliedType) {
writeln(
'factory $className.fromJson(JsonDecoder jsonDecoder, String jsonPath, Object? json) {');
indent(() {
writeln('if (json is String) {');
indent(() {
writeln('try {');
indent(() {
writeln('return $className(json);');
});
writeln('} catch(_) {');
indent(() {
writeln('// Fall through');
});
writeln('}');
});
writeln('}');
var humanReadableNameString =
literalString(impliedType.humanReadableName);
writeln(
'throw jsonDecoder.mismatch(jsonPath, $humanReadableNameString, json);');
});
writeln('}');
}
void emitImports() {
writeln("import 'dart:convert' hide JsonDecoder;");
writeln();
writeln("import 'package:$packageName/protocol/protocol.dart';");
writeln(
"import 'package:$packageName/src/protocol/protocol_internal.dart';");
for (var uri in api.types.importUris) {
write("import '");
write(uri);
writeln("';");
}
}
/// Emit the class to encapsulate an object type.
void emitObjectClass(
String className, TypeObject type, ImpliedType impliedType) {
docComment(toHtmlVisitor.collectHtml(() {
toHtmlVisitor.p(() {
toHtmlVisitor.write(impliedType.humanReadableName);
});
if (impliedType.type != null) {
toHtmlVisitor.showType(null, impliedType.type!);
}
toHtmlVisitor.p(() {
toHtmlVisitor.write(disclaimer);
});
}));
write('class $className');
if (impliedType.kind == 'refactoringFeedback') {
writeln(' extends RefactoringFeedback {');
} else if (impliedType.kind == 'refactoringOptions') {
writeln(' extends RefactoringOptions {');
} else if (impliedType.kind == 'requestParams') {
writeln(' implements RequestParams {');
} else if (impliedType.kind == 'requestResult') {
writeln(' implements ResponseResult {');
} else {
writeln(' implements HasToJson {');
}
indent(() {
if (emitSpecialStaticMembers(className)) {
writeln();
}
for (var field in type.fields) {
if (field.value != null) {
continue;
}
docComment(toHtmlVisitor.collectHtml(() {
toHtmlVisitor.translateHtml(field.html);
}));
writeln('${fieldDartType(field)} ${field.name};');
writeln();
}
emitObjectConstructor(type, className);
writeln();
emitObjectFromJsonConstructor(className, type, impliedType);
writeln();
if (emitConvenienceConstructor(className, impliedType)) {
writeln();
}
if (emitSpecialConstructors(className)) {
writeln();
}
if (emitSpecialGetters(className)) {
writeln();
}
emitToJsonMember(type);
writeln();
if (emitToRequestMember(impliedType)) {
writeln();
}
if (emitToResponseMember(impliedType)) {
writeln();
}
if (emitToNotificationMember(impliedType)) {
writeln();
}
if (emitSpecialMethods(className)) {
writeln();
}
writeln('@override');
writeln('String toString() => json.encode(toJson());');
writeln();
emitObjectEqualsMember(type, className);
writeln();
emitObjectHashCode(type, className);
});
writeln('}');
}
/// Emit the constructor for an object class.
void emitObjectConstructor(TypeObject type, String className) {
var args = <String>[];
var optionalArgs = <String>[];
var initializers = <String>[];
for (var field in type.fields) {
if (field.value != null) {
continue;
}
if (isOptionalConstructorArg(className, field)) {
if (!field.optional) {
optionalArgs.add('${dartType(field.type)}? ${field.name}');
// Optional constructor arg, but non-optional field. If no arg is
// given, the constructor should populate with the empty list.
var fieldType = field.type;
if (fieldType is TypeList) {
var defaultValue = '<${dartType(fieldType.itemType)}>[]';
initializers.add('${field.name} = ${field.name} ?? $defaultValue');
} else {
throw Exception("Don't know how to create default field value.");
}
} else {
optionalArgs.add('this.${field.name}');
}
} else {
args.add('this.${field.name}');
}
}
if (optionalArgs.isNotEmpty) {
args.add('{${optionalArgs.join(', ')}}');
}
write('$className(${args.join(', ')})');
if (initializers.isEmpty) {
writeln(';');
} else {
writeln(' : ${initializers.join(', ')}');
writeln(';');
}
}
/// Emit the operator== code for an object class.
void emitObjectEqualsMember(TypeObject? type, String className) {
writeln('@override');
write('bool operator ==(other) ');
if (type == null) {
writeln('=> other is $className;');
return;
}
writeln('{');
indent(() {
writeln('if (other is $className) {');
indent(() {
var comparisons = <String>[];
for (var field in type.fields) {
if (field.value != null) {
continue;
}
comparisons.add(
compareEqualsCode(field.type, field.name, 'other.${field.name}'));
}
if (comparisons.isEmpty) {
writeln('return true;');
} else {
var concatenated = comparisons.join(' &&\n ');
writeln('return $concatenated;');
}
});
writeln('}');
writeln('return false;');
});
writeln('}');
}
/// Emit the method for decoding an object from JSON.
void emitObjectFromJsonConstructor(
String className, TypeObject type, ImpliedType impliedType) {
var humanReadableNameString = literalString(impliedType.humanReadableName);
if (className == 'RefactoringFeedback') {
writeln('factory RefactoringFeedback.fromJson(JsonDecoder jsonDecoder, '
'String jsonPath, Object? json, Map responseJson) {');
indent(() {
writeln('return refactoringFeedbackFromJson(jsonDecoder, jsonPath, '
'json, responseJson);');
});
writeln('}');
return;
}
if (className == 'RefactoringOptions') {
writeln('factory RefactoringOptions.fromJson(JsonDecoder jsonDecoder, '
'String jsonPath, Object? json, RefactoringKind kind) {');
indent(() {
writeln('return refactoringOptionsFromJson(jsonDecoder, jsonPath, '
'json, kind);');
});
writeln('}');
return;
}
writeln(
'factory $className.fromJson(JsonDecoder jsonDecoder, String jsonPath, Object? json) {');
indent(() {
writeln('json ??= {};');
writeln('if (json is Map) {');
indent(() {
var args = <String>[];
var optionalArgs = <String>[];
for (var field in type.fields) {
var fieldNameString = literalString(field.name);
var fieldAccessor = 'json[$fieldNameString]';
var jsonPath = literalString('\$jsonPath.${field.name}');
if (field.value != null) {
var valueString = literalString(field.value as String);
writeln('if ($fieldAccessor != $valueString) {');
indent(() {
writeln(
"throw jsonDecoder.mismatch(jsonPath, 'equal ${field.value}', json);");
});
writeln('}');
continue;
}
if (isOptionalConstructorArg(className, field)) {
optionalArgs.add('${field.name}: ${field.name}');
} else {
args.add(field.name);
}
var typeStr = fieldDartType(field);
writeln('$typeStr ${field.name};');
writeln('if (json.containsKey($fieldNameString)) {');
indent(() {
var fieldType = field.type;
var fromJson =
fromJsonCode(fieldType).asSnippet(jsonPath, fieldAccessor);
writeln('${field.name} = $fromJson;');
});
write('}');
if (!field.optional) {
writeln(' else {');
indent(() {
writeln(
'throw jsonDecoder.mismatch(jsonPath, $fieldNameString);');
});
writeln('}');
} else {
writeln();
}
}
args.addAll(optionalArgs);
writeln('return $className(${args.join(', ')});');
});
writeln('} else {');
indent(() {
writeln(
'throw jsonDecoder.mismatch(jsonPath, $humanReadableNameString, json);');
});
writeln('}');
});
writeln('}');
}
/// Emit the hashCode getter for an object class.
void emitObjectHashCode(TypeObject? type, String className) {
writeln('@override');
writeln('int get hashCode => ');
String hashAll(String value) => 'Object.hashAll($value)';
String fieldValue(TypeObjectField field, {required bool single}) {
if (field.value != null) {
return field.value.hashCode.toString();
} else {
var name = field.name;
var type = field.type;
if (type is TypeList) {
var nullableString = field.optional ? ' ?? []' : '';
return hashAll(name + nullableString);
} else if (type is TypeMap) {
var nullable = field.optional ? '?' : '';
return hashAll(
'[...$nullable$name$nullable.keys,'
' ...$nullable$name$nullable.values]',
);
}
return single ? '$name.hashCode' : name;
}
}
indent(() {
if (type == null) {
writeln(' ${className.hashCode}');
} else {
final fields = type.fields;
if (fields.isEmpty) {
writeln('0');
} else if (fields.length == 1) {
var field = fields.single;
write(fieldValue(field, single: true));
} else if (fields.length <= 20) {
writeln('Object.hash(');
for (var field in fields) {
write(fieldValue(field, single: false));
writeln(',');
}
writeln(')');
} else {
writeln('Object.hashAll([');
for (var field in fields) {
write(fieldValue(field, single: false));
writeln(',');
}
writeln('])');
}
}
writeln(';');
});
}
/// If the class named [className] requires special constructors, emit them
/// and return true.
bool emitSpecialConstructors(String className) {
switch (className) {
case 'LinkedEditGroup':
docComment([dom.Text('Construct an empty LinkedEditGroup.')]);
writeln(
'LinkedEditGroup.empty() : this(<Position>[], 0, <LinkedEditSuggestion>[]);');
return true;
case 'RefactoringProblemSeverity':
docComment([
dom.Text(
'Returns the [RefactoringProblemSeverity] with the maximal severity.')
]);
writeln(
'static RefactoringProblemSeverity? max(RefactoringProblemSeverity? a, RefactoringProblemSeverity? b) =>');
writeln(' maxRefactoringProblemSeverity(a, b);');
return true;
default:
return false;
}
}
/// If the class named [className] requires special getters, emit them and
/// return true.
bool emitSpecialGetters(String className) {
switch (className) {
case 'Element':
for (var name in specialElementFlags.keys) {
var flag = 'FLAG_${name.toUpperCase()}';
writeln(
'bool get ${camelJoin(['is', name])} => (flags & $flag) != 0;');
}
return true;
case 'SourceEdit':
docComment([dom.Text('The end of the region to be modified.')]);
writeln('int get end => offset + length;');
return true;
default:
return false;
}
}
/// If the class named [className] requires special methods, emit them and
/// return true.
bool emitSpecialMethods(String className) {
switch (className) {
case 'LinkedEditGroup':
docComment([dom.Text('Add a new position and change the length.')]);
writeln('void addPosition(Position position, int length) {');
indent(() {
writeln('positions.add(position);');
writeln('this.length = length;');
});
writeln('}');
writeln();
docComment([dom.Text('Add a new suggestion.')]);
writeln('void addSuggestion(LinkedEditSuggestion suggestion) {');
indent(() {
writeln('suggestions.add(suggestion);');
});
writeln('}');
return true;
case 'SourceChange':
docComment([
dom.Element.tag('p')
..append(dom.Text(
'Adds [edit] to the [FileEdit] for the given [file].')),
dom.Element.tag('p')
..append(dom.Text(
'If [insertBeforeExisting] is `true`, inserts made at the '
'same offset as other edits will be inserted such that they '
'appear before them in the resulting document.')),
]);
writeln('void addEdit(String file, int fileStamp, SourceEdit edit, '
'{bool insertBeforeExisting = false}) =>');
writeln(' addEditToSourceChange(this, file, fileStamp, edit, '
'insertBeforeExisting: insertBeforeExisting);');
writeln();
docComment([dom.Text('Adds the given [FileEdit].')]);
writeln('void addFileEdit(SourceFileEdit edit) {');
indent(() {
writeln('edits.add(edit);');
});
writeln('}');
writeln();
docComment([dom.Text('Adds the given [LinkedEditGroup].')]);
writeln('void addLinkedEditGroup(LinkedEditGroup linkedEditGroup) {');
indent(() {
writeln('linkedEditGroups.add(linkedEditGroup);');
});
writeln('}');
writeln();
docComment([
dom.Text('Returns the [FileEdit] for the given [file], maybe `null`.')
]);
writeln('SourceFileEdit? getFileEdit(String file) =>');
writeln(' getChangeFileEdit(this, file);');
return true;
case 'SourceEdit':
docComment([
dom.Text('Get the result of applying the edit to the given [code].')
]);
writeln('String apply(String code) => applyEdit(code, this);');
return true;
case 'SourceFileEdit':
docComment([
dom.Element.tag('p')
..append(dom.Text('Adds the given [Edit] to the list.')),
dom.Element.tag('p')
..append(dom.Text(
'If [insertBeforeExisting] is `true`, inserts made at the '
'same offset as other edits will be inserted such that they '
'appear before them in the resulting document.')),
]);
writeln('void add(SourceEdit edit, '
'{bool insertBeforeExisting = false}) =>');
writeln(' addEditForSource(this, edit, '
'insertBeforeExisting: insertBeforeExisting);');
writeln();
docComment([
dom.Element.tag('p')..append(dom.Text('Adds the given [Edit]s.')),
dom.Element.tag('p')
..append(dom.Text(
'If [insertBeforeExisting] is `true`, inserts made at the '
'same offset as other edits will be inserted such that they '
'appear before them in the resulting document.')),
]);
writeln('void addAll(Iterable<SourceEdit> edits, '
'{bool insertBeforeExisting = false}) =>');
writeln(' addAllEditsForSource(this, edits, '
'insertBeforeExisting: insertBeforeExisting);');
return true;
default:
return false;
}
}
/// If the class named [className] requires special static members, emit them
/// and return true.
bool emitSpecialStaticMembers(String className) {
switch (className) {
case 'Element':
var makeFlagsArgs = <String>[];
var makeFlagsStatements = <String>[];
specialElementFlags.forEach((String name, String value) {
var flag = 'FLAG_${name.toUpperCase()}';
var camelName = camelJoin(['is', name]);
writeln('static const int $flag = $value;');
makeFlagsArgs.add('bool $camelName = false');
makeFlagsStatements.add('if ($camelName) flags |= $flag;');
});
writeln();
writeln('static int makeFlags({${makeFlagsArgs.join(', ')}}) {');
indent(() {
writeln('var flags = 0;');
for (var statement in makeFlagsStatements) {
writeln(statement);
}
writeln('return flags;');
});
writeln('}');
return true;
case 'SourceEdit':
docComment([
dom.Text('Get the result of applying a set of [edits] to the given '
'[code]. Edits are applied in the order they appear in [edits].')
]);
writeln(
'static String applySequence(String code, Iterable<SourceEdit> edits) =>');
writeln(' applySequenceOfEdits(code, edits);');
return true;
default:
return false;
}
}
/// Emit the toJson() code for an object class.
void emitToJsonMember(TypeObject type) {
writeln('@override');
writeln('Map<String, Object> toJson() {');
indent(() {
writeln('var result = <String, Object>{};');
for (var field in type.fields) {
var fieldNameString = literalString(field.name);
if (field.value != null) {
writeln(
'result[$fieldNameString] = ${literalString(field.value as String)};');
continue;
}
var fieldToJson = toJsonCode(field.type).asSnippet(field.name);
var populateField = 'result[$fieldNameString] = $fieldToJson;';
if (field.optional) {
var name = field.name;
writeln('var $name = this.$name;');
writeln('if ($name != null) {');
indent(() {
writeln(populateField);
});
writeln('}');
} else {
writeln(populateField);
}
}
writeln('return result;');
});
writeln('}');
}
/// Emit the toNotification() code for a class, if appropriate. Returns true
/// if code was emitted.
bool emitToNotificationMember(ImpliedType impliedType) {
if (impliedType.kind == 'notificationParams') {
writeln('Notification toNotification() {');
indent(() {
var eventString =
literalString((impliedType.apiNode as Notification).longEvent);
var jsonPart = impliedType.type != null ? 'toJson()' : 'null';
writeln('return Notification($eventString, $jsonPart);');
});
writeln('}');
return true;
}
return false;
}
/// Emit the toRequest() code for a class, if appropriate. Returns true if
/// code was emitted.
bool emitToRequestMember(ImpliedType impliedType) {
if (impliedType.kind == 'requestParams') {
writeln('@override');
writeln('Request toRequest(String id) {');
indent(() {
var methodString =
literalString((impliedType.apiNode as Request).longMethod);
var jsonPart = impliedType.type != null ? 'toJson()' : 'null';
writeln('return Request(id, $methodString, $jsonPart);');
});
writeln('}');
return true;
}
return false;
}
/// Emit the toResponse() code for a class, if appropriate. Returns true if
/// code was emitted.
bool emitToResponseMember(ImpliedType impliedType) {
if (impliedType.kind == 'requestResult') {
writeln('@override');
if (responseRequiresRequestTime) {
writeln('Response toResponse(String id, int requestTime) {');
} else {
writeln('Response toResponse(String id) {');
}
indent(() {
var jsonPart = impliedType.type != null ? 'toJson()' : 'null';
if (responseRequiresRequestTime) {
writeln('return Response(id, requestTime, result: $jsonPart);');
} else {
writeln('return Response(id, result: $jsonPart);');
}
});
writeln('}');
return true;
}
return false;
}
/// Compute the code necessary to translate [type] from JSON.
FromJsonCode fromJsonCode(TypeDecl type) {
if (type is TypeReference) {
var referencedDefinition = api.types[type.typeName];
if (referencedDefinition != null) {
var referencedType = referencedDefinition.type;
if (referencedType is TypeObject || referencedType is TypeEnum) {
return FromJsonSnippet((String jsonPath, String json) {
var typeName = dartType(type);
if (typeName == 'RefactoringFeedback') {
return '$typeName.fromJson(jsonDecoder, $jsonPath, $json, json)';
} else if (typeName == 'RefactoringOptions') {
return '$typeName.fromJson(jsonDecoder, $jsonPath, $json, kind)';
} else {
return '$typeName.fromJson(jsonDecoder, $jsonPath, $json)';
}
});
} else {
return fromJsonCode(referencedType);
}
} else {
switch (type.typeName) {
case 'String':
return FromJsonFunction('jsonDecoder.decodeString');
case 'bool':
return FromJsonFunction('jsonDecoder.decodeBool');
case 'int':
case 'long':
return FromJsonFunction('jsonDecoder.decodeInt');
case 'object':
return FromJsonIdentity();
default:
throw Exception('Unexpected type name ${type.typeName}');
}
}
} else if (type is TypeMap) {
FromJsonCode keyCode;
if (dartType(type.keyType) != 'String') {
keyCode = fromJsonCode(type.keyType);
} else {
keyCode = FromJsonIdentity();
}
var valueCode = fromJsonCode(type.valueType);
if (keyCode.isIdentity && valueCode.isIdentity) {
return FromJsonFunction('jsonDecoder.decodeMap');
} else {
return FromJsonSnippet((String jsonPath, String json) {
var result = StringBuffer();
result.write('jsonDecoder.decodeMap($jsonPath, $json');
if (!keyCode.isIdentity) {
result.write(', keyDecoder: ${keyCode.asClosure}');
}
if (!valueCode.isIdentity) {
result.write(', valueDecoder: ${valueCode.asClosure}');
}
result.write(')');
return result.toString();
});
}
} else if (type is TypeList) {
var itemCode = fromJsonCode(type.itemType);
if (itemCode.isIdentity) {
return FromJsonFunction('jsonDecoder.decodeList');
} else {
return FromJsonSnippet((String jsonPath, String json) =>
'jsonDecoder.decodeList($jsonPath, $json, ${itemCode.asClosure})');
}
} else if (type is TypeUnion) {
var decoders = <String>[];
for (var choice in type.choices) {
var resolvedChoice = resolveTypeReferenceChain(choice);
if (resolvedChoice is TypeObject) {
var field = resolvedChoice.getField(type.field);
if (field == null) {
throw Exception(
'Each choice in the union needs a field named ${type.field}');
}
if (field.value == null) {
throw Exception(
'Each choice in the union needs a constant value for the field ${type.field}');
}
var closure = fromJsonCode(choice).asClosure;
decoders.add('${literalString(field.value as String)}: $closure');
} else {
throw Exception('Union types must be unions of objects.');
}
}
return FromJsonSnippet((String jsonPath, String json) =>
'jsonDecoder.decodeUnion($jsonPath, $json, ${literalString(type.field)}, {${decoders.join(', ')}})');
} else {
throw Exception("Can't convert $type from JSON");
}
}
/// Return a list of the classes to be emitted.
List<ImpliedType> getClassesToEmit() {
var types = impliedTypes.values.where((ImpliedType type) {
var node = type.apiNode;
return !(node is TypeDefinition && node.isExternal);
}).toList();
types.sort((first, second) =>
capitalize(first.camelName).compareTo(capitalize(second.camelName)));
return types;
}
/// True if the constructor argument for the given field should be optional.
bool isOptionalConstructorArg(String className, TypeObjectField field) {
if (field.optional) {
return true;
}
var forceOptional = _optionalConstructorArguments[className];
if (forceOptional != null && forceOptional.contains(field.name)) {
return true;
}
return false;
}
/// Create a string literal that evaluates to [s].
String literalString(String s) {
if (s.contains("'")) {
if (s.contains('"')) {
return json.encode(s);
}
return '"$s"';
}
return "'$s'";
}
/// Compute the code necessary to convert [type] to JSON.
ToJsonCode toJsonCode(TypeDecl type) {
var resolvedType = resolveTypeReferenceChain(type);
if (resolvedType is TypeReference) {
return ToJsonIdentity(dartType(type));
} else if (resolvedType is TypeList) {
var itemCode = toJsonCode(resolvedType.itemType);
if (itemCode.isIdentity) {
return ToJsonIdentity(dartType(type));
} else {
return ToJsonSnippet(dartType(type),
(String value) => '$value.map(${itemCode.asClosure}).toList()');
}
} else if (resolvedType is TypeMap) {
ToJsonCode keyCode;
if (dartType(resolvedType.keyType) != 'String') {
keyCode = toJsonCode(resolvedType.keyType);
} else {
keyCode = ToJsonIdentity(dartType(resolvedType.keyType));
}
var valueCode = toJsonCode(resolvedType.valueType);
if (keyCode.isIdentity && valueCode.isIdentity) {
return ToJsonIdentity(dartType(resolvedType));
} else {
return ToJsonSnippet(dartType(type), (String value) {
var result = StringBuffer();
result.write('mapMap($value');
if (!keyCode.isIdentity) {
result.write(', keyCallback: ${keyCode.asClosure}');
}
if (!valueCode.isIdentity) {
result.write(', valueCallback: ${valueCode.asClosure}');
}
result.write(')');
return result.toString();
});
}
} else if (resolvedType is TypeUnion) {
for (var choice in resolvedType.choices) {
if (resolveTypeReferenceChain(choice) is! TypeObject) {
throw Exception('Union types must be unions of objects');
}
}
return ToJsonSnippet(
dartType(type),
(String value) => '($value as dynamic).toJson()',
);
} else if (resolvedType is TypeObject || resolvedType is TypeEnum) {
return ToJsonSnippet(dartType(type), (String value) => '$value.toJson()');
} else {
throw Exception("Can't convert $resolvedType from JSON");
}
}
@override
void visitApi() {
outputHeader(year: '2017');
writeln();
emitImports();
emitClasses(getClassesToEmit());
}
}
/// Container for code that can be used to translate a data type from JSON.
abstract class FromJsonCode {
/// Get the translation code in the form of a closure.
String get asClosure;
/// True if the data type is already in JSON form, so the translation is the
/// identity function.
bool get isIdentity;
/// Get the translation code in the form of a code snippet, where [jsonPath]
/// is the variable holding the JSON path, and [json] is the variable holding
/// the raw JSON.
String asSnippet(String jsonPath, String json);
}
/// Representation of FromJsonCode for a function defined elsewhere.
class FromJsonFunction extends FromJsonCode {
@override
final String asClosure;
FromJsonFunction(this.asClosure);
@override
bool get isIdentity => false;
@override
String asSnippet(String jsonPath, String json) =>
'$asClosure($jsonPath, $json)';
}
/// Representation of FromJsonCode for the identity transformation.
class FromJsonIdentity extends FromJsonSnippet {
FromJsonIdentity() : super((String jsonPath, String json) => json);
@override
bool get isIdentity => true;
}
/// Representation of FromJsonCode for a snippet of inline code.
class FromJsonSnippet extends FromJsonCode {
/// Callback that can be used to generate the code snippet, once the names
/// of the [jsonPath] and [json] variables are known.
final FromJsonSnippetCallback callback;
FromJsonSnippet(this.callback);
@override
String get asClosure =>
'(String jsonPath, Object? json) => ${callback('jsonPath', 'json')}';
@override
bool get isIdentity => false;
@override
String asSnippet(String jsonPath, String json) => callback(jsonPath, json);
}
/// Container for code that can be used to translate a data type to JSON.
abstract class ToJsonCode {
/// Get the translation code in the form of a closure.
String get asClosure;
/// True if the data type is already in JSON form, so the translation is the
/// identity function.
bool get isIdentity;
/// Get the translation code in the form of a code snippet, where [value]
/// is the variable holding the object to be translated.
String asSnippet(String value);
}
/// Representation of ToJsonCode for a function defined elsewhere.
class ToJsonFunction extends ToJsonCode {
@override
final String asClosure;
ToJsonFunction(this.asClosure);
@override
bool get isIdentity => false;
@override
String asSnippet(String value) => '$asClosure($value)';
}
/// Representation of FromJsonCode for the identity transformation.
class ToJsonIdentity extends ToJsonSnippet {
ToJsonIdentity(String type) : super(type, (String value) => value);
@override
bool get isIdentity => true;
}
/// Representation of ToJsonCode for a snippet of inline code.
class ToJsonSnippet extends ToJsonCode {
/// Callback that can be used to generate the code snippet, once the name
/// of the [value] variable is known.
final ToJsonSnippetCallback callback;
/// Dart type of the [value] variable.
final String type;
ToJsonSnippet(this.type, this.callback);
@override
String get asClosure => '($type value) => ${callback('value')}';
@override
bool get isIdentity => false;
@override
String asSnippet(String value) => callback(value);
}