ast_java.cpp - platform/system/tools/aidl - Git at Google

 /*
  * Copyright (C) 2015, The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "ast_java.h"
 #include "code_writer.h"

 using std::vector;
 using std::string;

 template <class... Ts>
 struct overloaded : Ts... {
   using Ts::operator()...;
 };
 template <class... Ts>
 overloaded(Ts...)->overloaded<Ts...>;

 namespace android {
 namespace aidl {
 namespace java {

 std::string AstNode::ToString() {
   std::string str;
   Write(CodeWriter::ForString(&str).get());
   return str;
 }

 void WriteModifiers(CodeWriter* to, int mod, int mask) {
   int m = mod & mask;

   if (m & OVERRIDE) {
     to->Write("@Override ");
   }

   if ((m & SCOPE_MASK) == PUBLIC) {
     to->Write("public ");
   } else if ((m & SCOPE_MASK) == PRIVATE) {
     to->Write("private ");
   } else if ((m & SCOPE_MASK) == PROTECTED) {
     to->Write("protected ");
   }

   if (m & STATIC) {
     to->Write("static ");
   }

   if (m & FINAL) {
     to->Write("final ");
   }

   if (m & ABSTRACT) {
     to->Write("abstract ");
   }
 }

 void WriteArgumentList(CodeWriter* to, const vector<Expression*>& arguments) {
   size_t N = arguments.size();
   for (size_t i = 0; i < N; i++) {
     arguments[i]->Write(to);
     if (i != N - 1) {
       to->Write(", ");
     }
   }
 }

 Field::Field(int m, Variable* v) : ClassElement(), modifiers(m), variable(v) {}

 void Field::Write(CodeWriter* to) const {
   if (this->comment.length() != 0) {
     to->Write("%s\n", this->comment.c_str());
   }
   for (const auto& a : this->annotations) {
     to->Write("%s\n", a.c_str());
   }
   WriteModifiers(to, this->modifiers, SCOPE_MASK | STATIC | FINAL | OVERRIDE);
   this->variable->WriteDeclaration(to);

   if (this->value.length() != 0) {
     to->Write(" = %s", this->value.c_str());
   }
   to->Write(";\n");
 }

 LiteralExpression::LiteralExpression(const string& v) : value(v) {}

 void LiteralExpression::Write(CodeWriter* to) const {
   to->Write("%s", this->value.c_str());
 }

 StringLiteralExpression::StringLiteralExpression(const string& v) : value(v) {}

 void StringLiteralExpression::Write(CodeWriter* to) const {
   to->Write("\"%s\"", this->value.c_str());
 }

 Variable::Variable(const string& t, const string& n) : type(t), name(n), dimension(0) {}

 Variable::Variable(const string& t, const string& n, int d) : type(t), name(n), dimension(d) {}

 void Variable::WriteDeclaration(CodeWriter* to) const {
   string dim;
   for (int i = 0; i < this->dimension; i++) {
     dim += "[]";
   }
   to->Write("%s%s %s", this->type.c_str(), dim.c_str(), this->name.c_str());
 }

 void Variable::Write(CodeWriter* to) const { to->Write("%s", name.c_str()); }

 FieldVariable::FieldVariable(Expression* o, const string& n) : receiver(o), name(n) {}

 FieldVariable::FieldVariable(const string& c, const string& n) : receiver(c), name(n) {}

 void FieldVariable::Write(CodeWriter* to) const {
   visit(
       overloaded{[&](Expression* e) { e->Write(to); },
                  [&](const std::string& s) { to->Write("%s", s.c_str()); }, [](std::monostate) {}},
       this->receiver);
   to->Write(".%s", name.c_str());
 }

 LiteralStatement::LiteralStatement(const std::string& value) : value_(value) {}

 void LiteralStatement::Write(CodeWriter* to) const {
   to->Write("%s", value_.c_str());
 }

 void StatementBlock::Write(CodeWriter* to) const {
   to->Write("{\n");
   to->Indent();
   int N = this->statements.size();
   for (int i = 0; i < N; i++) {
     this->statements[i]->Write(to);
   }
   to->Dedent();
   to->Write("}\n");
 }

 void StatementBlock::Add(Statement* statement) {
   this->statements.push_back(statement);
 }

 void StatementBlock::Add(Expression* expression) {
   this->statements.push_back(new ExpressionStatement(expression));
 }

 ExpressionStatement::ExpressionStatement(Expression* e) : expression(e) {}

 void ExpressionStatement::Write(CodeWriter* to) const {
   this->expression->Write(to);
   to->Write(";\n");
 }

 Assignment::Assignment(Variable* l, Expression* r) : lvalue(l), rvalue(r) {}

 Assignment::Assignment(Variable* l, Expression* r, string c) : lvalue(l), rvalue(r), cast(c) {}

 void Assignment::Write(CodeWriter* to) const {
   this->lvalue->Write(to);
   to->Write(" = ");
   if (this->cast) {
     to->Write("(%s)", this->cast->c_str());
   }
   this->rvalue->Write(to);
 }

 MethodCall::MethodCall(const string& n) : name(n) {}

 MethodCall::MethodCall(const string& n, int argc = 0, ...) : name(n) {
   va_list args;
   va_start(args, argc);
   init(argc, args);
   va_end(args);
 }

 MethodCall::MethodCall(Expression* o, const string& n) : receiver(o), name(n) {}

 MethodCall::MethodCall(const std::string& t, const string& n) : receiver(t), name(n) {}

 MethodCall::MethodCall(Expression* o, const string& n, int argc = 0, ...) : receiver(o), name(n) {
   va_list args;
   va_start(args, argc);
   init(argc, args);
   va_end(args);
 }

 MethodCall::MethodCall(const std::string& t, const string& n, int argc = 0, ...)
     : receiver(t), name(n) {
   va_list args;
   va_start(args, argc);
   init(argc, args);
   va_end(args);
 }

 void MethodCall::init(int n, va_list args) {
   for (int i = 0; i < n; i++) {
     Expression* expression = (Expression*)va_arg(args, void*);
     this->arguments.push_back(expression);
   }
 }

 void MethodCall::Write(CodeWriter* to) const {
   visit(
       overloaded{[&](Expression* e) {
                    e->Write(to);
                    to->Write(".");
                  },
                  [&](const std::string& s) { to->Write("%s.", s.c_str()); }, [](std::monostate) {}},
       this->receiver);
   to->Write("%s(", this->name.c_str());
   WriteArgumentList(to, this->arguments);
   to->Write(")");
 }

 Comparison::Comparison(Expression* l, const string& o, Expression* r)
     : lvalue(l), op(o), rvalue(r) {}

 void Comparison::Write(CodeWriter* to) const {
   to->Write("(");
   this->lvalue->Write(to);
   to->Write("%s", this->op.c_str());
   this->rvalue->Write(to);
   to->Write(")");
 }

 NewExpression::NewExpression(const std::string& n) : instantiableName(n) {}

 NewExpression::NewExpression(const std::string& n, int argc = 0, ...) : instantiableName(n) {
   va_list args;
   va_start(args, argc);
   init(argc, args);
   va_end(args);
 }

 void NewExpression::init(int n, va_list args) {
   for (int i = 0; i < n; i++) {
     Expression* expression = (Expression*)va_arg(args, void*);
     this->arguments.push_back(expression);
   }
 }

 void NewExpression::Write(CodeWriter* to) const {
   to->Write("new %s(", this->instantiableName.c_str());
   WriteArgumentList(to, this->arguments);
   to->Write(")");
 }

 NewArrayExpression::NewArrayExpression(const std::string& t, Expression* s) : type(t), size(s) {}

 void NewArrayExpression::Write(CodeWriter* to) const {
   to->Write("new %s[", this->type.c_str());
   size->Write(to);
   to->Write("]");
 }

 Cast::Cast(const std::string& t, Expression* e) : type(t), expression(e) {}

 void Cast::Write(CodeWriter* to) const {
   to->Write("((%s)", this->type.c_str());
   expression->Write(to);
   to->Write(")");
 }

 VariableDeclaration::VariableDeclaration(Variable* l, Expression* r) : lvalue(l), rvalue(r) {}

 VariableDeclaration::VariableDeclaration(Variable* l) : lvalue(l) {}

 void VariableDeclaration::Write(CodeWriter* to) const {
   this->lvalue->WriteDeclaration(to);
   if (this->rvalue != nullptr) {
     to->Write(" = ");
     this->rvalue->Write(to);
   }
   to->Write(";\n");
 }

 void IfStatement::Write(CodeWriter* to) const {
   if (this->expression != nullptr) {
     to->Write("if (");
     this->expression->Write(to);
     to->Write(") ");
   }
   this->statements->Write(to);
   if (this->elseif != nullptr) {
     to->Write("else ");
     this->elseif->Write(to);
   }
 }

 ReturnStatement::ReturnStatement(Expression* e) : expression(e) {}

 void ReturnStatement::Write(CodeWriter* to) const {
   to->Write("return ");
   this->expression->Write(to);
   to->Write(";\n");
 }

 void TryStatement::Write(CodeWriter* to) const {
   to->Write("try ");
   this->statements->Write(to);
 }

 void FinallyStatement::Write(CodeWriter* to) const {
   to->Write("finally ");
   this->statements->Write(to);
 }

 Case::Case(const string& c) { cases.push_back(c); }

 void Case::Write(CodeWriter* to) const {
   int N = this->cases.size();
   if (N > 0) {
     for (int i = 0; i < N; i++) {
       string s = this->cases[i];
       if (s.length() != 0) {
         to->Write("case %s:\n", s.c_str());
       } else {
         to->Write("default:\n");
       }
     }
   } else {
     to->Write("default:\n");
   }
   statements->Write(to);
 }

 SwitchStatement::SwitchStatement(Expression* e) : expression(e) {}

 void SwitchStatement::Write(CodeWriter* to) const {
   to->Write("switch (");
   this->expression->Write(to);
   to->Write(")\n{\n");
   to->Indent();
   int N = this->cases.size();
   for (int i = 0; i < N; i++) {
     this->cases[i]->Write(to);
   }
   to->Dedent();
   to->Write("}\n");
 }

 void Method::Write(CodeWriter* to) const {
   size_t N, i;

   if (this->comment.length() != 0) {
     to->Write("%s\n", this->comment.c_str());
   }

   for (const auto& a : this->annotations) {
     to->Write("%s\n", a.c_str());
   }

   WriteModifiers(to, this->modifiers,
                  SCOPE_MASK | STATIC | ABSTRACT | FINAL | OVERRIDE);

   if (this->returnType) {
     string dim;
     for (i = 0; i < this->returnTypeDimension; i++) {
       dim += "[]";
     }
     to->Write("%s%s ", this->returnType->c_str(), dim.c_str());
   }

   to->Write("%s(", this->name.c_str());

   N = this->parameters.size();
   for (i = 0; i < N; i++) {
     this->parameters[i]->WriteDeclaration(to);
     if (i != N - 1) {
       to->Write(", ");
     }
   }

   to->Write(")");

   N = this->exceptions.size();
   for (i = 0; i < N; i++) {
     if (i == 0) {
       to->Write(" throws ");
     } else {
       to->Write(", ");
     }
     to->Write("%s", this->exceptions[i].c_str());
   }

   if (this->statements == nullptr) {
     to->Write(";\n");
   } else {
     to->Write("\n");
     this->statements->Write(to);
   }
 }

 void LiteralClassElement::Write(CodeWriter* to) const {
   to->Write("%s", element.c_str());
 }

 void Class::Write(CodeWriter* to) const {
   size_t N, i;

   if (this->comment.length() != 0) {
     to->Write("%s\n", this->comment.c_str());
   }
   for (const auto& a : this->annotations) {
     to->Write("%s\n", a.c_str());
   }

   WriteModifiers(to, this->modifiers, ALL_MODIFIERS);

   if (this->what == Class::CLASS) {
     to->Write("class ");
   } else {
     to->Write("interface ");
   }

   string name = this->type;
   size_t pos = name.rfind('.');
   if (pos != string::npos) {
     name = name.c_str() + pos + 1;
   }

   to->Write("%s", name.c_str());

   if (this->extends) {
     to->Write(" extends %s", this->extends->c_str());
   }

   N = this->interfaces.size();
   if (N != 0) {
     if (this->what == Class::CLASS) {
       to->Write(" implements");
     } else {
       to->Write(" extends");
     }
     for (i = 0; i < N; i++) {
       to->Write(" %s", this->interfaces[i].c_str());
     }
   }

   to->Write("\n");
   to->Write("{\n");
   to->Indent();

   N = this->elements.size();
   for (i = 0; i < N; i++) {
     this->elements[i]->Write(to);
   }

   to->Dedent();
   to->Write("}\n");
 }

 Document::Document(const std::string& comment,
                    const std::string& package,
                    std::unique_ptr<Class> clazz)
     : comment_(comment),
       package_(package),
       clazz_(std::move(clazz)) {
 }

 void Document::Write(CodeWriter* to) const {
   if (!comment_.empty()) {
     to->Write("%s\n", comment_.c_str());
   }
   to->Write(
       "/*\n"
       " * This file is auto-generated.  DO NOT MODIFY.\n"
       " */\n");
   if (!package_.empty()) {
     to->Write("package %s;\n", package_.c_str());
   }

   if (clazz_) {
     clazz_->Write(to);
   }
 }

 }  // namespace java
 }  // namespace aidl
 }  // namespace android
	/*
	* Copyright (C) 2015, The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "ast_java.h"
	#include "code_writer.h"

	using std::vector;
	using std::string;

	template <class... Ts>
	struct overloaded : Ts... {
	using Ts::operator()...;
	};
	template <class... Ts>
	overloaded(Ts...)->overloaded<Ts...>;

	namespace android {
	namespace aidl {
	namespace java {

	std::string AstNode::ToString() {
	std::string str;
	Write(CodeWriter::ForString(&str).get());
	return str;
	}

	void WriteModifiers(CodeWriter* to, int mod, int mask) {
	int m = mod & mask;

	if (m & OVERRIDE) {
	to->Write("@Override ");
	}

	if ((m & SCOPE_MASK) == PUBLIC) {
	to->Write("public ");
	} else if ((m & SCOPE_MASK) == PRIVATE) {
	to->Write("private ");
	} else if ((m & SCOPE_MASK) == PROTECTED) {
	to->Write("protected ");
	}

	if (m & STATIC) {
	to->Write("static ");
	}

	if (m & FINAL) {
	to->Write("final ");
	}

	if (m & ABSTRACT) {
	to->Write("abstract ");
	}
	}

	void WriteArgumentList(CodeWriter* to, const vector<Expression*>& arguments) {
	size_t N = arguments.size();
	for (size_t i = 0; i < N; i++) {
	arguments[i]->Write(to);
	if (i != N - 1) {
	to->Write(", ");
	}
	}
	}

	Field::Field(int m, Variable* v) : ClassElement(), modifiers(m), variable(v) {}

	void Field::Write(CodeWriter* to) const {
	if (this->comment.length() != 0) {
	to->Write("%s\n", this->comment.c_str());
	}
	for (const auto& a : this->annotations) {
	to->Write("%s\n", a.c_str());
	}
	WriteModifiers(to, this->modifiers, SCOPE_MASK \| STATIC \| FINAL \| OVERRIDE);
	this->variable->WriteDeclaration(to);

	if (this->value.length() != 0) {
	to->Write(" = %s", this->value.c_str());
	}
	to->Write(";\n");
	}

	LiteralExpression::LiteralExpression(const string& v) : value(v) {}

	void LiteralExpression::Write(CodeWriter* to) const {
	to->Write("%s", this->value.c_str());
	}

	StringLiteralExpression::StringLiteralExpression(const string& v) : value(v) {}

	void StringLiteralExpression::Write(CodeWriter* to) const {
	to->Write("\"%s\"", this->value.c_str());
	}

	Variable::Variable(const string& t, const string& n) : type(t), name(n), dimension(0) {}

	Variable::Variable(const string& t, const string& n, int d) : type(t), name(n), dimension(d) {}

	void Variable::WriteDeclaration(CodeWriter* to) const {
	string dim;
	for (int i = 0; i < this->dimension; i++) {
	dim += "[]";
	}
	to->Write("%s%s %s", this->type.c_str(), dim.c_str(), this->name.c_str());
	}

	void Variable::Write(CodeWriter* to) const { to->Write("%s", name.c_str()); }

	FieldVariable::FieldVariable(Expression* o, const string& n) : receiver(o), name(n) {}

	FieldVariable::FieldVariable(const string& c, const string& n) : receiver(c), name(n) {}

	void FieldVariable::Write(CodeWriter* to) const {
	visit(
	overloaded{[&](Expression* e) { e->Write(to); },
	[&](const std::string& s) { to->Write("%s", s.c_str()); }, [](std::monostate) {}},
	this->receiver);
	to->Write(".%s", name.c_str());
	}

	LiteralStatement::LiteralStatement(const std::string& value) : value_(value) {}

	void LiteralStatement::Write(CodeWriter* to) const {
	to->Write("%s", value_.c_str());
	}

	void StatementBlock::Write(CodeWriter* to) const {
	to->Write("{\n");
	to->Indent();
	int N = this->statements.size();
	for (int i = 0; i < N; i++) {
	this->statements[i]->Write(to);
	}
	to->Dedent();
	to->Write("}\n");
	}

	void StatementBlock::Add(Statement* statement) {
	this->statements.push_back(statement);
	}

	void StatementBlock::Add(Expression* expression) {
	this->statements.push_back(new ExpressionStatement(expression));
	}

	ExpressionStatement::ExpressionStatement(Expression* e) : expression(e) {}

	void ExpressionStatement::Write(CodeWriter* to) const {
	this->expression->Write(to);
	to->Write(";\n");
	}

	Assignment::Assignment(Variable* l, Expression* r) : lvalue(l), rvalue(r) {}

	Assignment::Assignment(Variable* l, Expression* r, string c) : lvalue(l), rvalue(r), cast(c) {}

	void Assignment::Write(CodeWriter* to) const {
	this->lvalue->Write(to);
	to->Write(" = ");
	if (this->cast) {
	to->Write("(%s)", this->cast->c_str());
	}
	this->rvalue->Write(to);
	}

	MethodCall::MethodCall(const string& n) : name(n) {}

	MethodCall::MethodCall(const string& n, int argc = 0, ...) : name(n) {
	va_list args;
	va_start(args, argc);
	init(argc, args);
	va_end(args);
	}

	MethodCall::MethodCall(Expression* o, const string& n) : receiver(o), name(n) {}

	MethodCall::MethodCall(const std::string& t, const string& n) : receiver(t), name(n) {}

	MethodCall::MethodCall(Expression* o, const string& n, int argc = 0, ...) : receiver(o), name(n) {
	va_list args;
	va_start(args, argc);
	init(argc, args);
	va_end(args);
	}

	MethodCall::MethodCall(const std::string& t, const string& n, int argc = 0, ...)
	: receiver(t), name(n) {
	va_list args;
	va_start(args, argc);
	init(argc, args);
	va_end(args);
	}

	void MethodCall::init(int n, va_list args) {
	for (int i = 0; i < n; i++) {
	Expression* expression = (Expression)va_arg(args, void);
	this->arguments.push_back(expression);
	}
	}

	void MethodCall::Write(CodeWriter* to) const {
	visit(
	overloaded{[&](Expression* e) {
	e->Write(to);
	to->Write(".");
	},
	[&](const std::string& s) { to->Write("%s.", s.c_str()); }, [](std::monostate) {}},
	this->receiver);
	to->Write("%s(", this->name.c_str());
	WriteArgumentList(to, this->arguments);
	to->Write(")");
	}

	Comparison::Comparison(Expression* l, const string& o, Expression* r)
	: lvalue(l), op(o), rvalue(r) {}

	void Comparison::Write(CodeWriter* to) const {
	to->Write("(");
	this->lvalue->Write(to);
	to->Write("%s", this->op.c_str());
	this->rvalue->Write(to);
	to->Write(")");
	}

	NewExpression::NewExpression(const std::string& n) : instantiableName(n) {}

	NewExpression::NewExpression(const std::string& n, int argc = 0, ...) : instantiableName(n) {
	va_list args;
	va_start(args, argc);
	init(argc, args);
	va_end(args);
	}

	void NewExpression::init(int n, va_list args) {
	for (int i = 0; i < n; i++) {
	Expression* expression = (Expression)va_arg(args, void);
	this->arguments.push_back(expression);
	}
	}

	void NewExpression::Write(CodeWriter* to) const {
	to->Write("new %s(", this->instantiableName.c_str());
	WriteArgumentList(to, this->arguments);
	to->Write(")");
	}

	NewArrayExpression::NewArrayExpression(const std::string& t, Expression* s) : type(t), size(s) {}

	void NewArrayExpression::Write(CodeWriter* to) const {
	to->Write("new %s[", this->type.c_str());
	size->Write(to);
	to->Write("]");
	}

	Cast::Cast(const std::string& t, Expression* e) : type(t), expression(e) {}

	void Cast::Write(CodeWriter* to) const {
	to->Write("((%s)", this->type.c_str());
	expression->Write(to);
	to->Write(")");
	}

	VariableDeclaration::VariableDeclaration(Variable* l, Expression* r) : lvalue(l), rvalue(r) {}

	VariableDeclaration::VariableDeclaration(Variable* l) : lvalue(l) {}

	void VariableDeclaration::Write(CodeWriter* to) const {
	this->lvalue->WriteDeclaration(to);
	if (this->rvalue != nullptr) {
	to->Write(" = ");
	this->rvalue->Write(to);
	}
	to->Write(";\n");
	}

	void IfStatement::Write(CodeWriter* to) const {
	if (this->expression != nullptr) {
	to->Write("if (");
	this->expression->Write(to);
	to->Write(") ");
	}
	this->statements->Write(to);
	if (this->elseif != nullptr) {
	to->Write("else ");
	this->elseif->Write(to);
	}
	}

	ReturnStatement::ReturnStatement(Expression* e) : expression(e) {}

	void ReturnStatement::Write(CodeWriter* to) const {
	to->Write("return ");
	this->expression->Write(to);
	to->Write(";\n");
	}

	void TryStatement::Write(CodeWriter* to) const {
	to->Write("try ");
	this->statements->Write(to);
	}

	void FinallyStatement::Write(CodeWriter* to) const {
	to->Write("finally ");
	this->statements->Write(to);
	}

	Case::Case(const string& c) { cases.push_back(c); }

	void Case::Write(CodeWriter* to) const {
	int N = this->cases.size();
	if (N > 0) {
	for (int i = 0; i < N; i++) {
	string s = this->cases[i];
	if (s.length() != 0) {
	to->Write("case %s:\n", s.c_str());
	} else {
	to->Write("default:\n");
	}
	}
	} else {
	to->Write("default:\n");
	}
	statements->Write(to);
	}

	SwitchStatement::SwitchStatement(Expression* e) : expression(e) {}

	void SwitchStatement::Write(CodeWriter* to) const {
	to->Write("switch (");
	this->expression->Write(to);
	to->Write(")\n{\n");
	to->Indent();
	int N = this->cases.size();
	for (int i = 0; i < N; i++) {
	this->cases[i]->Write(to);
	}
	to->Dedent();
	to->Write("}\n");
	}

	void Method::Write(CodeWriter* to) const {
	size_t N, i;

	if (this->comment.length() != 0) {
	to->Write("%s\n", this->comment.c_str());
	}

	for (const auto& a : this->annotations) {
	to->Write("%s\n", a.c_str());
	}

	WriteModifiers(to, this->modifiers,
	SCOPE_MASK \| STATIC \| ABSTRACT \| FINAL \| OVERRIDE);

	if (this->returnType) {
	string dim;
	for (i = 0; i < this->returnTypeDimension; i++) {
	dim += "[]";
	}
	to->Write("%s%s ", this->returnType->c_str(), dim.c_str());
	}

	to->Write("%s(", this->name.c_str());

	N = this->parameters.size();
	for (i = 0; i < N; i++) {
	this->parameters[i]->WriteDeclaration(to);
	if (i != N - 1) {
	to->Write(", ");
	}
	}

	to->Write(")");

	N = this->exceptions.size();
	for (i = 0; i < N; i++) {
	if (i == 0) {
	to->Write(" throws ");
	} else {
	to->Write(", ");
	}
	to->Write("%s", this->exceptions[i].c_str());
	}

	if (this->statements == nullptr) {
	to->Write(";\n");
	} else {
	to->Write("\n");
	this->statements->Write(to);
	}
	}

	void LiteralClassElement::Write(CodeWriter* to) const {
	to->Write("%s", element.c_str());
	}

	void Class::Write(CodeWriter* to) const {
	size_t N, i;

	if (this->comment.length() != 0) {
	to->Write("%s\n", this->comment.c_str());
	}
	for (const auto& a : this->annotations) {
	to->Write("%s\n", a.c_str());
	}

	WriteModifiers(to, this->modifiers, ALL_MODIFIERS);

	if (this->what == Class::CLASS) {
	to->Write("class ");
	} else {
	to->Write("interface ");
	}

	string name = this->type;
	size_t pos = name.rfind('.');
	if (pos != string::npos) {
	name = name.c_str() + pos + 1;
	}

	to->Write("%s", name.c_str());

	if (this->extends) {
	to->Write(" extends %s", this->extends->c_str());
	}

	N = this->interfaces.size();
	if (N != 0) {
	if (this->what == Class::CLASS) {
	to->Write(" implements");
	} else {
	to->Write(" extends");
	}
	for (i = 0; i < N; i++) {
	to->Write(" %s", this->interfaces[i].c_str());
	}
	}

	to->Write("\n");
	to->Write("{\n");
	to->Indent();

	N = this->elements.size();
	for (i = 0; i < N; i++) {
	this->elements[i]->Write(to);
	}

	to->Dedent();
	to->Write("}\n");
	}

	Document::Document(const std::string& comment,
	const std::string& package,
	std::unique_ptr<Class> clazz)
	: comment_(comment),
	package_(package),
	clazz_(std::move(clazz)) {
	}

	void Document::Write(CodeWriter* to) const {
	if (!comment_.empty()) {
	to->Write("%s\n", comment_.c_str());
	}
	to->Write(
	"/*\n"
	" * This file is auto-generated. DO NOT MODIFY.\n"
	" */\n");
	if (!package_.empty()) {
	to->Write("package %s;\n", package_.c_str());
	}

	if (clazz_) {
	clazz_->Write(to);
	}
	}

	} // namespace java
	} // namespace aidl
	} // namespace android