platform/angel_serialize_generator/lib/serialize.dart

283 lines
9 KiB
Dart

part of angel_serialize_generator;
class SerializerGenerator extends GeneratorForAnnotation<Serializable> {
final bool autoSnakeCaseNames;
const SerializerGenerator({this.autoSnakeCaseNames: true});
@override
Future<String> generateForAnnotatedElement(
Element element, ConstantReader annotation, BuildStep buildStep) async {
if (element.kind != ElementKind.CLASS)
throw 'Only classes can be annotated with a @Serializable() annotation.';
var ctx = await buildContext(element as ClassElement, annotation, buildStep,
await buildStep.resolver, true, autoSnakeCaseNames != false);
var serializers = annotation.peek('serializers')?.listValue ?? [];
if (serializers.isEmpty) return null;
// Check if any serializer is recognized
if (!serializers.any((s) => Serializers.all.contains(s.toIntValue()))) {
return null;
}
var lib = new Library((b) {
generateClass(serializers.map((s) => s.toIntValue()).toList(), ctx, b);
generateFieldsClass(ctx, b);
});
var buf = lib.accept(new DartEmitter());
return buf.toString();
}
/// Generate a serializer class.
void generateClass(
List<int> serializers, BuildContext ctx, LibraryBuilder file) {
file.body.add(new Class((clazz) {
clazz
..name = '${ctx.modelClassNameRecase.pascalCase}Serializer'
..abstract = true;
if (serializers.contains(Serializers.map)) {
generateFromMapMethod(clazz, ctx, file);
}
if (serializers.contains(Serializers.map) ||
serializers.contains(Serializers.json)) {
generateToMapMethod(clazz, ctx, file);
}
}));
}
void generateToMapMethod(
ClassBuilder clazz, BuildContext ctx, LibraryBuilder file) {
clazz.methods.add(new Method((method) {
method
..static = true
..name = 'toMap'
..returns = new Reference('Map<String, dynamic>')
..requiredParameters.add(new Parameter((b) {
b
..name = 'model'
..type = ctx.modelClassType;
}));
var buf = new StringBuffer();
ctx.requiredFields.forEach((key, msg) {
if (ctx.excluded[key]?.canSerialize == false) return;
buf.writeln('''
if (model.$key == null) {
throw new FormatException("$msg");
}
''');
});
buf.writeln('return {');
int i = 0;
// Add named parameters
for (var field in ctx.fields) {
// Skip excluded fields
if (ctx.excluded[field.name]?.canSerialize == false) continue;
var alias = ctx.resolveFieldName(field.name);
if (i++ > 0) buf.write(', ');
String serializedRepresentation = 'model.${field.name}';
String serializerToMap(ReCase rc, String value) {
if (rc.pascalCase == ctx.modelClassName) {
return '($value)?.toJson()';
}
return '${rc.pascalCase}Serializer.toMap($value)';
}
// Serialize dates
if (dateTimeTypeChecker.isAssignableFromType(field.type))
serializedRepresentation = 'model.${field.name}?.toIso8601String()';
// Serialize model classes via `XSerializer.toMap`
else if (isModelClass(field.type)) {
var rc = new ReCase(field.type.name);
serializedRepresentation =
'${serializerToMap(rc, 'model.${field.name}')}';
} else if (field.type is InterfaceType) {
var t = field.type as InterfaceType;
if (isListOfModelType(t)) {
//var rc = new ReCase(t.typeArguments[0].name);
serializedRepresentation = '''
model.${field.name}
?.map((m) => m.toJson())
?.toList()''';
} else if (isMapToModelType(t)) {
var rc = new ReCase(t.typeArguments[1].name);
serializedRepresentation =
'''model.${field.name}.keys?.fold({}, (map, key) {
return map..[key] =
${serializerToMap(rc, 'model.${field.name}[key]')};
})''';
} else if (t.element.isEnum) {
serializedRepresentation = '''
model.${field.name} == null ?
null
: ${t.name}.values.indexOf(model.${field.name})
''';
}
}
buf.write("'$alias': $serializedRepresentation");
}
buf.write('};');
method.body = new Block.of([
new Code('if (model == null) { return null; }'),
new Code(buf.toString()),
]);
}));
}
void generateFromMapMethod(
ClassBuilder clazz, BuildContext ctx, LibraryBuilder file) {
clazz.methods.add(new Method((method) {
method
..static = true
..name = 'fromMap'
..returns = ctx.modelClassType
..requiredParameters.add(
new Parameter((b) => b
..name = 'map'
..type = new Reference('Map')),
);
// Add all `super` params
if (ctx.constructorParameters.isNotEmpty) {
for (var param in ctx.constructorParameters) {
method.requiredParameters.add(new Parameter((b) => b
..name = param.name
..type = convertTypeReference(param.type)));
}
}
var buf = new StringBuffer();
ctx.requiredFields.forEach((key, msg) {
if (ctx.excluded[key]?.canDeserialize == false) return;
var name = ctx.resolveFieldName(key);
buf.writeln('''
if (map['$name'] == null) {
throw new FormatException("$msg");
}
''');
});
buf.writeln('return new ${ctx.modelClassName}(');
int i = 0;
for (var param in ctx.constructorParameters) {
if (i++ > 0) buf.write(', ');
buf.write(param.name);
}
for (var field in ctx.fields) {
if (ctx.excluded[field.name]?.canDeserialize == false) continue;
var alias = ctx.resolveFieldName(field.name);
if (i++ > 0) buf.write(', ');
String deserializedRepresentation =
"map['$alias'] as ${typeToString(field.type)}";
// Deserialize dates
if (dateTimeTypeChecker.isAssignableFromType(field.type))
deserializedRepresentation = "map['$alias'] != null ? "
"(map['$alias'] is DateTime ? (map['$alias'] as DateTime) : DateTime.parse(map['$alias'].toString()))"
" : null";
// Serialize model classes via `XSerializer.toMap`
else if (isModelClass(field.type)) {
var rc = new ReCase(field.type.name);
deserializedRepresentation = "map['$alias'] != null"
" ? ${rc.pascalCase}Serializer.fromMap(map['$alias'] as Map)"
" : null";
} else if (field.type is InterfaceType) {
var t = field.type as InterfaceType;
if (isListOfModelType(t)) {
var rc = new ReCase(t.typeArguments[0].name);
deserializedRepresentation = "map['$alias'] is Iterable"
" ? new List.unmodifiable(((map['$alias'] as Iterable)"
".where((x) => x is Map) as Iterable<Map>)"
".map(${rc.pascalCase}Serializer.fromMap))"
" : null";
} else if (isMapToModelType(t)) {
var rc = new ReCase(t.typeArguments[1].name);
deserializedRepresentation = '''
map['$alias'] is Map
? new Map.unmodifiable((map['$alias'] as Map).keys.fold({}, (out, key) {
return out..[key] = ${rc.pascalCase}Serializer
.fromMap(((map['$alias'] as Map)[key]) as Map);
}))
: null
''';
} else if (t.element.isEnum) {
deserializedRepresentation = '''
map['$alias'] is ${t.name}
? (map['$alias'] as ${t.name})
:
(
map['$alias'] is int
? ${t.name}.values[map['$alias'] as int]
: null
)
''';
}
}
buf.write('${field.name}: $deserializedRepresentation');
}
buf.write(');');
method.body = new Code(buf.toString());
}));
}
void generateFieldsClass(BuildContext ctx, LibraryBuilder file) {
file.body.add(new Class((clazz) {
clazz
..abstract = true
..name = '${ctx.modelClassNameRecase.pascalCase}Fields';
clazz.fields.add(new Field((b) {
b
..static = true
..modifier = FieldModifier.constant
..type = new TypeReference((b) => b
..symbol = 'List'
..types.add(refer('String')))
..name = 'allFields'
..assignment = literalConstList(
ctx.fields.map((f) => refer(f.name)).toList(),
refer('String'))
.code;
}));
for (var field in ctx.fields) {
clazz.fields.add(new Field((b) {
b
..static = true
..modifier = FieldModifier.constant
..type = new Reference('String')
..name = field.name
..assignment = new Code("'${ctx.resolveFieldName(field.name)}'");
}));
}
}));
}
}