@Override
public TypeSpec buildTypeSpec() {
TypeSpec.Builder classBuilder = TypeSpec.classBuilder(schema.getSchemaClassName().simpleName());
classBuilder.addModifiers(Modifier.PUBLIC);
classBuilder.addSuperinterface(Types.getSchema(schema.getModelClassName()));
classBuilder.addFields(buildFieldSpecs());
classBuilder.addMethods(buildMethodSpecs());
return classBuilder.build();
}
TypeSpec brewJava() {
String className = CLASS_PREFIX + noOpAnnotatedInterface.simpleName();
TypeSpec.Builder builder = classBuilder(className);
Modifier visibilityModifier = noOpAnnotatedInterface.visibility();
if (visibilityModifier != null) {
builder.addModifiers(visibilityModifier);
}
builder.addSuperinterface(noOpAnnotatedInterface.interfaceType());
for (ExecutableElement method : noOpAnnotatedInterface.methods()) {
builder.addMethod(generateMethod(method));
}
return builder.build();
}
@Override
Optional<TypeSpec.Builder> write(ClassName generatedTypeName, ProvisionBinding binding) {
// We don't want to write out resolved bindings -- we want to write out the generic version.
checkState(!binding.unresolved().isPresent());
TypeMirror keyType =
binding.contributionType().equals(ContributionType.MAP)
? MapType.from(binding.key().type()).unwrappedValueType(Provider.class)
: binding.key().type();
TypeName providedTypeName = TypeName.get(keyType);
ParameterizedTypeName parameterizedFactoryName = factoryOf(providedTypeName);
Optional<ParameterizedTypeName> factoryOfRawTypeName = Optional.absent();
TypeSpec.Builder factoryBuilder;
Optional<MethodSpec.Builder> constructorBuilder = Optional.absent();
ImmutableList<TypeVariableName> typeParameters = bindingTypeElementTypeVariableNames(binding);
ImmutableMap<BindingKey, FrameworkField> fields =
generateBindingFieldsForDependencies(dependencyRequestMapper, binding);
switch (binding.factoryCreationStrategy()) {
case ENUM_INSTANCE:
factoryBuilder = enumBuilder(generatedTypeName.simpleName()).addEnumConstant("INSTANCE");
// If we have type parameters, then remove the parameters from our providedTypeName,
// since we'll be implementing an erased version of it.
if (!typeParameters.isEmpty()) {
factoryBuilder.addAnnotation(SUPPRESS_WARNINGS_RAWTYPES);
// TODO(ronshapiro): instead of reassigning, introduce an optional/second parameter
providedTypeName = ((ParameterizedTypeName) providedTypeName).rawType;
factoryOfRawTypeName = Optional.of(factoryOf(providedTypeName));
}
break;
case CLASS_CONSTRUCTOR:
factoryBuilder =
classBuilder(generatedTypeName.simpleName())
.addTypeVariables(typeParameters)
.addModifiers(FINAL);
constructorBuilder = Optional.of(constructorBuilder().addModifiers(PUBLIC));
if (binding.bindingKind().equals(PROVISION)
&& !binding.bindingElement().getModifiers().contains(STATIC)) {
addConstructorParameterAndTypeField(
TypeName.get(binding.bindingTypeElement().asType()),
"module",
factoryBuilder,
constructorBuilder.get());
}
for (FrameworkField bindingField : fields.values()) {
addConstructorParameterAndTypeField(
bindingField.javapoetFrameworkType(),
bindingField.name(),
factoryBuilder,
constructorBuilder.get());
}
break;
default:
throw new AssertionError();
}
factoryBuilder
.addModifiers(PUBLIC)
.addSuperinterface(factoryOfRawTypeName.or(parameterizedFactoryName));
// If constructing a factory for @Inject or @Provides bindings, we use a static create method
// so that generated components can avoid having to refer to the generic types
// of the factory. (Otherwise they may have visibility problems referring to the types.)
Optional<MethodSpec> createMethod;
switch (binding.bindingKind()) {
case INJECTION:
case PROVISION:
// The return type is usually the same as the implementing type, except in the case
// of enums with type variables (where we cast).
MethodSpec.Builder createMethodBuilder =
methodBuilder("create")
.addModifiers(PUBLIC, STATIC)
.addTypeVariables(typeParameters)
.returns(parameterizedFactoryName);
List<ParameterSpec> params =
constructorBuilder.isPresent()
? constructorBuilder.get().build().parameters
: ImmutableList.<ParameterSpec>of();
createMethodBuilder.addParameters(params);
switch (binding.factoryCreationStrategy()) {
case ENUM_INSTANCE:
if (typeParameters.isEmpty()) {
createMethodBuilder.addStatement("return INSTANCE");
} else {
// We use an unsafe cast here because the types are different.
// It's safe because the type is never referenced anywhere.
createMethodBuilder.addStatement("return ($T) INSTANCE", TypeNames.FACTORY);
createMethodBuilder.addAnnotation(SUPPRESS_WARNINGS_UNCHECKED);
}
break;
case CLASS_CONSTRUCTOR:
createMethodBuilder.addStatement(
"return new $T($L)",
javapoetParameterizedGeneratedTypeNameForBinding(binding),
makeParametersCodeBlock(Lists.transform(params, CodeBlocks.PARAMETER_NAME)));
break;
default:
throw new AssertionError();
}
createMethod = Optional.of(createMethodBuilder.build());
break;
default:
createMethod = Optional.absent();
}
if (constructorBuilder.isPresent()) {
factoryBuilder.addMethod(constructorBuilder.get().build());
}
List<CodeBlock> parameters = Lists.newArrayList();
for (DependencyRequest dependency : binding.dependencies()) {
parameters.add(
frameworkTypeUsageStatement(
CodeBlocks.format("$L", fields.get(dependency.bindingKey()).name()),
dependency.kind()));
}
CodeBlock parametersCodeBlock = makeParametersCodeBlock(parameters);
MethodSpec.Builder getMethodBuilder =
methodBuilder("get")
.returns(providedTypeName)
.addAnnotation(Override.class)
.addModifiers(PUBLIC);
if (binding.bindingKind().equals(PROVISION)) {
CodeBlock.Builder providesMethodInvocationBuilder = CodeBlock.builder();
if (binding.bindingElement().getModifiers().contains(STATIC)) {
providesMethodInvocationBuilder.add("$T", ClassName.get(binding.bindingTypeElement()));
} else {
providesMethodInvocationBuilder.add("module");
}
providesMethodInvocationBuilder.add(
".$L($L)", binding.bindingElement().getSimpleName(), parametersCodeBlock);
CodeBlock providesMethodInvocation = providesMethodInvocationBuilder.build();
if (binding.provisionType().equals(SET)) {
TypeName paramTypeName =
TypeName.get(MoreTypes.asDeclared(keyType).getTypeArguments().get(0));
// TODO(cgruber): only be explicit with the parameter if paramType contains wildcards.
getMethodBuilder.addStatement(
"return $T.<$T>singleton($L)",
Collections.class,
paramTypeName,
providesMethodInvocation);
} else if (binding.nullableType().isPresent()
|| nullableValidationType.equals(Diagnostic.Kind.WARNING)) {
if (binding.nullableType().isPresent()) {
getMethodBuilder.addAnnotation((ClassName) TypeName.get(binding.nullableType().get()));
}
getMethodBuilder.addStatement("return $L", providesMethodInvocation);
} else {
String failMsg = CANNOT_RETURN_NULL_FROM_NON_NULLABLE_PROVIDES_METHOD;
getMethodBuilder
.addStatement(
"$T provided = $L", getMethodBuilder.build().returnType, providesMethodInvocation)
.addCode("if (provided == null) { ")
.addStatement("throw new $T($S)", NullPointerException.class, failMsg)
.addCode("}")
.addStatement("return provided");
}
} else if (binding.membersInjectionRequest().isPresent()) {
getMethodBuilder.addStatement(
"$1T instance = new $1T($2L)", providedTypeName, parametersCodeBlock);
getMethodBuilder.addStatement(
"$L.injectMembers(instance)",
fields.get(binding.membersInjectionRequest().get().bindingKey()).name());
getMethodBuilder.addStatement("return instance");
} else {
getMethodBuilder.addStatement("return new $T($L)", providedTypeName, parametersCodeBlock);
}
factoryBuilder.addMethod(getMethodBuilder.build());
if (createMethod.isPresent()) {
factoryBuilder.addMethod(createMethod.get());
}
// TODO(gak): write a sensible toString
return Optional.of(factoryBuilder);
}
