tools/aidl/AST.cpp - platform/frameworks/base - Git at Google

 #include "AST.h"
 #include "Type.h"

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

     if (m & OVERRIDE) {
         fprintf(to, "@Override ");
     }

     if ((m & SCOPE_MASK) == PUBLIC) {
         fprintf(to, "public ");
     }
     else if ((m & SCOPE_MASK) == PRIVATE) {
         fprintf(to, "private ");
     }
     else if ((m & SCOPE_MASK) == PROTECTED) {
         fprintf(to, "protected ");
     }

     if (m & STATIC) {
         fprintf(to, "static ");
     }

     if (m & FINAL) {
         fprintf(to, "final ");
     }

     if (m & ABSTRACT) {
         fprintf(to, "abstract ");
     }
 }

 void
 WriteArgumentList(FILE* 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) {
             fprintf(to, ", ");
         }
     }
 }

 ClassElement::ClassElement()
 {
 }

 ClassElement::~ClassElement()
 {
 }

 Field::Field()
     :ClassElement(),
      modifiers(0),
      variable(NULL)
 {
 }

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

 Field::~Field()
 {
 }

 void
 Field::GatherTypes(set<Type*>* types) const
 {
     types->insert(this->variable->type);
 }

 void
 Field::Write(FILE* to)
 {
     if (this->comment.length() != 0) {
         fprintf(to, "%s\n", this->comment.c_str());
     }
     WriteModifiers(to, this->modifiers, SCOPE_MASK | STATIC | FINAL | OVERRIDE);
     fprintf(to, "%s %s", this->variable->type->QualifiedName().c_str(),
             this->variable->name.c_str());
     if (this->value.length() != 0) {
         fprintf(to, " = %s", this->value.c_str());
     }
     fprintf(to, ";\n");
 }

 Expression::~Expression()
 {
 }

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

 LiteralExpression::~LiteralExpression()
 {
 }

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

 Variable::Variable()
     :type(NULL),
      name(),
      dimension(0)
 {
 }

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

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

 Variable::~Variable()
 {
 }

 void
 Variable::GatherTypes(set<Type*>* types) const
 {
     types->insert(this->type);
 }

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

 void
 Variable::Write(FILE* to)
 {
     fprintf(to, "%s", name.c_str());
 }

 FieldVariable::FieldVariable(Expression* o, const string& n)
     :object(o),
      clazz(NULL),
      name(n)
 {
 }

 FieldVariable::FieldVariable(Type* c, const string& n)
     :object(NULL),
      clazz(c),
      name(n)
 {
 }

 FieldVariable::~FieldVariable()
 {
 }

 void
 FieldVariable::Write(FILE* to)
 {
     if (this->object != NULL) {
         this->object->Write(to);
     }
     else if (this->clazz != NULL) {
         fprintf(to, "%s", this->clazz->QualifiedName().c_str());
     }
     fprintf(to, ".%s", name.c_str());
 }


 Statement::~Statement()
 {
 }

 StatementBlock::StatementBlock()
 {
 }

 StatementBlock::~StatementBlock()
 {
 }

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

 ExpressionStatement::~ExpressionStatement()
 {
 }

 void
 ExpressionStatement::Write(FILE* to)
 {
     this->expression->Write(to);
     fprintf(to, ";\n");
 }

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

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

 Assignment::~Assignment()
 {
 }

 void
 Assignment::Write(FILE* to)
 {
     this->lvalue->Write(to);
     fprintf(to, " = ");
     if (this->cast != NULL) {
         fprintf(to, "(%s)", this->cast->QualifiedName().c_str());
     }
     this->rvalue->Write(to);
 }

 MethodCall::MethodCall(const string& n)
     :obj(NULL),
      clazz(NULL),
      name(n)
 {
 }

 MethodCall::MethodCall(Expression* o, const string& n)
     :obj(o),
      clazz(NULL),
      name(n)
 {
 }

 MethodCall::MethodCall(Type* t, const string& n)
     :obj(NULL),
      clazz(t),
      name(n)
 {
 }

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

 MethodCall::MethodCall(Type* t, const string& n, int argc = 0, ...)
     :obj(NULL),
      clazz(t),
      name(n)
 {
   va_list args;
   va_start(args, argc);
   init(argc, args);
   va_end(args);
 }

 MethodCall::~MethodCall()
 {
 }

 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(FILE* to)
 {
     if (this->obj != NULL) {
         this->obj->Write(to);
         fprintf(to, ".");
     }
     else if (this->clazz != NULL) {
         fprintf(to, "%s.", this->clazz->QualifiedName().c_str());
     }
     fprintf(to, "%s(", this->name.c_str());
     WriteArgumentList(to, this->arguments);
     fprintf(to, ")");
 }

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

 Comparison::~Comparison()
 {
 }

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

 NewExpression::NewExpression(Type* t)
     :type(t)
 {
 }

 NewExpression::~NewExpression()
 {
 }

 void
 NewExpression::Write(FILE* to)
 {
     fprintf(to, "new %s(", this->type->InstantiableName().c_str());
     WriteArgumentList(to, this->arguments);
     fprintf(to, ")");
 }

 NewArrayExpression::NewArrayExpression(Type* t, Expression* s)
     :type(t),
      size(s)
 {
 }

 NewArrayExpression::~NewArrayExpression()
 {
 }

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

 Ternary::Ternary()
     :condition(NULL),
      ifpart(NULL),
      elsepart(NULL)
 {
 }

 Ternary::Ternary(Expression* a, Expression* b, Expression* c)
     :condition(a),
      ifpart(b),
      elsepart(c)
 {
 }

 Ternary::~Ternary()
 {
 }

 void
 Ternary::Write(FILE* to)
 {
     fprintf(to, "((");
     this->condition->Write(to);
     fprintf(to, ")?(");
     this->ifpart->Write(to);
     fprintf(to, "):(");
     this->elsepart->Write(to);
     fprintf(to, "))");
 }

 Cast::Cast()
     :type(NULL),
      expression(NULL)
 {
 }

 Cast::Cast(Type* t, Expression* e)
     :type(t),
      expression(e)
 {
 }

 Cast::~Cast()
 {
 }

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

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

 VariableDeclaration::VariableDeclaration(Variable* l)
     :lvalue(l),
      cast(NULL),
      rvalue(NULL)
 {
 }

 VariableDeclaration::~VariableDeclaration()
 {
 }

 void
 VariableDeclaration::Write(FILE* to)
 {
     this->lvalue->WriteDeclaration(to);
     if (this->rvalue != NULL) {
         fprintf(to, " = ");
         if (this->cast != NULL) {
             fprintf(to, "(%s)", this->cast->QualifiedName().c_str());
         }
         this->rvalue->Write(to);
     }
     fprintf(to, ";\n");
 }

 IfStatement::IfStatement()
     :expression(NULL),
      statements(new StatementBlock),
      elseif(NULL)
 {
 }

 IfStatement::~IfStatement()
 {
 }

 void
 IfStatement::Write(FILE* to)
 {
     if (this->expression != NULL) {
         fprintf(to, "if (");
         this->expression->Write(to);
         fprintf(to, ") ");
     }
     this->statements->Write(to);
     if (this->elseif != NULL) {
         fprintf(to, "else ");
         this->elseif->Write(to);
     }
 }

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

 ReturnStatement::~ReturnStatement()
 {
 }

 void
 ReturnStatement::Write(FILE* to)
 {
     fprintf(to, "return ");
     this->expression->Write(to);
     fprintf(to, ";\n");
 }

 TryStatement::TryStatement()
     :statements(new StatementBlock)
 {
 }

 TryStatement::~TryStatement()
 {
 }

 void
 TryStatement::Write(FILE* to)
 {
     fprintf(to, "try ");
     this->statements->Write(to);
 }

 CatchStatement::CatchStatement(Variable* e)
     :statements(new StatementBlock),
      exception(e)
 {
 }

 CatchStatement::~CatchStatement()
 {
 }

 void
 CatchStatement::Write(FILE* to)
 {
     fprintf(to, "catch ");
     if (this->exception != NULL) {
         fprintf(to, "(");
         this->exception->WriteDeclaration(to);
         fprintf(to, ") ");
     }
     this->statements->Write(to);
 }

 FinallyStatement::FinallyStatement()
     :statements(new StatementBlock)
 {
 }

 FinallyStatement::~FinallyStatement()
 {
 }

 void
 FinallyStatement::Write(FILE* to)
 {
     fprintf(to, "finally ");
     this->statements->Write(to);
 }

 Case::Case()
     :statements(new StatementBlock)
 {
 }

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

 Case::~Case()
 {
 }

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

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

 SwitchStatement::~SwitchStatement()
 {
 }

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

 Method::Method()
     :ClassElement(),
      modifiers(0),
      returnType(NULL), // (NULL means constructor)
      returnTypeDimension(0),
      statements(NULL)
 {
 }

 Method::~Method()
 {
 }

 void
 Method::GatherTypes(set<Type*>* types) const
 {
     size_t N, i;

     if (this->returnType) {
         types->insert(this->returnType);
     }

     N = this->parameters.size();
     for (i=0; i<N; i++) {
         this->parameters[i]->GatherTypes(types);
     }

     N = this->exceptions.size();
     for (i=0; i<N; i++) {
         types->insert(this->exceptions[i]);
     }
 }

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

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

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

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

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

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

     fprintf(to, ")");

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

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

 Class::Class()
     :modifiers(0),
      what(CLASS),
      type(NULL),
      extends(NULL)
 {
 }

 Class::~Class()
 {
 }

 void
 Class::GatherTypes(set<Type*>* types) const
 {
     int N, i;

     types->insert(this->type);
     if (this->extends != NULL) {
         types->insert(this->extends);
     }

     N = this->interfaces.size();
     for (i=0; i<N; i++) {
         types->insert(this->interfaces[i]);
     }

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

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

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

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

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

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

     fprintf(to, "%s", name.c_str());

     if (this->extends != NULL) {
         fprintf(to, " extends %s", this->extends->QualifiedName().c_str());
     }

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

     fprintf(to, "\n");
     fprintf(to, "{\n");

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

     fprintf(to, "}\n");

 }

 Document::Document()
 {
 }

 Document::~Document()
 {
 }

 static string
 escape_backslashes(const string& str)
 {
     string result;
     const size_t I=str.length();
     for (size_t i=0; i<I; i++) {
         char c = str[i];
         if (c == '\\') {
             result += "\\\\";
         } else {
             result += c;
         }
     }
     return result;
 }

 void
 Document::Write(FILE* to)
 {
     size_t N, i;

     if (this->comment.length() != 0) {
         fprintf(to, "%s\n", this->comment.c_str());
     }
     fprintf(to, "/*\n"
                 " * This file is auto-generated.  DO NOT MODIFY.\n"
                 " * Original file: %s\n"
                 " */\n", escape_backslashes(this->originalSrc).c_str());
     if (this->package.length() != 0) {
         fprintf(to, "package %s;\n", this->package.c_str());
     }

     N = this->classes.size();
     for (i=0; i<N; i++) {
         Class* c = this->classes[i];
         c->Write(to);
     }
 }
	#include "AST.h"
	#include "Type.h"

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

	if (m & OVERRIDE) {
	fprintf(to, "@Override ");
	}

	if ((m & SCOPE_MASK) == PUBLIC) {
	fprintf(to, "public ");
	}
	else if ((m & SCOPE_MASK) == PRIVATE) {
	fprintf(to, "private ");
	}
	else if ((m & SCOPE_MASK) == PROTECTED) {
	fprintf(to, "protected ");
	}

	if (m & STATIC) {
	fprintf(to, "static ");
	}

	if (m & FINAL) {
	fprintf(to, "final ");
	}

	if (m & ABSTRACT) {
	fprintf(to, "abstract ");
	}
	}

	void
	WriteArgumentList(FILE* 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) {
	fprintf(to, ", ");
	}
	}
	}

	ClassElement::ClassElement()
	{
	}

	ClassElement::~ClassElement()
	{
	}

	Field::Field()
	:ClassElement(),
	modifiers(0),
	variable(NULL)
	{
	}

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

	Field::~Field()
	{
	}

	void
	Field::GatherTypes(set<Type> types) const
	{
	types->insert(this->variable->type);
	}

	void
	Field::Write(FILE* to)
	{
	if (this->comment.length() != 0) {
	fprintf(to, "%s\n", this->comment.c_str());
	}
	WriteModifiers(to, this->modifiers, SCOPE_MASK \| STATIC \| FINAL \| OVERRIDE);
	fprintf(to, "%s %s", this->variable->type->QualifiedName().c_str(),
	this->variable->name.c_str());
	if (this->value.length() != 0) {
	fprintf(to, " = %s", this->value.c_str());
	}
	fprintf(to, ";\n");
	}

	Expression::~Expression()
	{
	}

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

	LiteralExpression::~LiteralExpression()
	{
	}

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

	Variable::Variable()
	:type(NULL),
	name(),
	dimension(0)
	{
	}

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

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

	Variable::~Variable()
	{
	}

	void
	Variable::GatherTypes(set<Type> types) const
	{
	types->insert(this->type);
	}

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

	void
	Variable::Write(FILE* to)
	{
	fprintf(to, "%s", name.c_str());
	}

	FieldVariable::FieldVariable(Expression* o, const string& n)
	:object(o),
	clazz(NULL),
	name(n)
	{
	}

	FieldVariable::FieldVariable(Type* c, const string& n)
	:object(NULL),
	clazz(c),
	name(n)
	{
	}

	FieldVariable::~FieldVariable()
	{
	}

	void
	FieldVariable::Write(FILE* to)
	{
	if (this->object != NULL) {
	this->object->Write(to);
	}
	else if (this->clazz != NULL) {
	fprintf(to, "%s", this->clazz->QualifiedName().c_str());
	}
	fprintf(to, ".%s", name.c_str());
	}


	Statement::~Statement()
	{
	}

	StatementBlock::StatementBlock()
	{
	}

	StatementBlock::~StatementBlock()
	{
	}

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

	ExpressionStatement::~ExpressionStatement()
	{
	}

	void
	ExpressionStatement::Write(FILE* to)
	{
	this->expression->Write(to);
	fprintf(to, ";\n");
	}

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

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

	Assignment::~Assignment()
	{
	}

	void
	Assignment::Write(FILE* to)
	{
	this->lvalue->Write(to);
	fprintf(to, " = ");
	if (this->cast != NULL) {
	fprintf(to, "(%s)", this->cast->QualifiedName().c_str());
	}
	this->rvalue->Write(to);
	}

	MethodCall::MethodCall(const string& n)
	:obj(NULL),
	clazz(NULL),
	name(n)
	{
	}

	MethodCall::MethodCall(Expression* o, const string& n)
	:obj(o),
	clazz(NULL),
	name(n)
	{
	}

	MethodCall::MethodCall(Type* t, const string& n)
	:obj(NULL),
	clazz(t),
	name(n)
	{
	}

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

	MethodCall::MethodCall(Type* t, const string& n, int argc = 0, ...)
	:obj(NULL),
	clazz(t),
	name(n)
	{
	va_list args;
	va_start(args, argc);
	init(argc, args);
	va_end(args);
	}

	MethodCall::~MethodCall()
	{
	}

	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(FILE* to)
	{
	if (this->obj != NULL) {
	this->obj->Write(to);
	fprintf(to, ".");
	}
	else if (this->clazz != NULL) {
	fprintf(to, "%s.", this->clazz->QualifiedName().c_str());
	}
	fprintf(to, "%s(", this->name.c_str());
	WriteArgumentList(to, this->arguments);
	fprintf(to, ")");
	}

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

	Comparison::~Comparison()
	{
	}

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

	NewExpression::NewExpression(Type* t)
	:type(t)
	{
	}

	NewExpression::~NewExpression()
	{
	}

	void
	NewExpression::Write(FILE* to)
	{
	fprintf(to, "new %s(", this->type->InstantiableName().c_str());
	WriteArgumentList(to, this->arguments);
	fprintf(to, ")");
	}

	NewArrayExpression::NewArrayExpression(Type* t, Expression* s)
	:type(t),
	size(s)
	{
	}

	NewArrayExpression::~NewArrayExpression()
	{
	}

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

	Ternary::Ternary()
	:condition(NULL),
	ifpart(NULL),
	elsepart(NULL)
	{
	}

	Ternary::Ternary(Expression* a, Expression* b, Expression* c)
	:condition(a),
	ifpart(b),
	elsepart(c)
	{
	}

	Ternary::~Ternary()
	{
	}

	void
	Ternary::Write(FILE* to)
	{
	fprintf(to, "((");
	this->condition->Write(to);
	fprintf(to, ")?(");
	this->ifpart->Write(to);
	fprintf(to, "):(");
	this->elsepart->Write(to);
	fprintf(to, "))");
	}

	Cast::Cast()
	:type(NULL),
	expression(NULL)
	{
	}

	Cast::Cast(Type* t, Expression* e)
	:type(t),
	expression(e)
	{
	}

	Cast::~Cast()
	{
	}

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

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

	VariableDeclaration::VariableDeclaration(Variable* l)
	:lvalue(l),
	cast(NULL),
	rvalue(NULL)
	{
	}

	VariableDeclaration::~VariableDeclaration()
	{
	}

	void
	VariableDeclaration::Write(FILE* to)
	{
	this->lvalue->WriteDeclaration(to);
	if (this->rvalue != NULL) {
	fprintf(to, " = ");
	if (this->cast != NULL) {
	fprintf(to, "(%s)", this->cast->QualifiedName().c_str());
	}
	this->rvalue->Write(to);
	}
	fprintf(to, ";\n");
	}

	IfStatement::IfStatement()
	:expression(NULL),
	statements(new StatementBlock),
	elseif(NULL)
	{
	}

	IfStatement::~IfStatement()
	{
	}

	void
	IfStatement::Write(FILE* to)
	{
	if (this->expression != NULL) {
	fprintf(to, "if (");
	this->expression->Write(to);
	fprintf(to, ") ");
	}
	this->statements->Write(to);
	if (this->elseif != NULL) {
	fprintf(to, "else ");
	this->elseif->Write(to);
	}
	}

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

	ReturnStatement::~ReturnStatement()
	{
	}

	void
	ReturnStatement::Write(FILE* to)
	{
	fprintf(to, "return ");
	this->expression->Write(to);
	fprintf(to, ";\n");
	}

	TryStatement::TryStatement()
	:statements(new StatementBlock)
	{
	}

	TryStatement::~TryStatement()
	{
	}

	void
	TryStatement::Write(FILE* to)
	{
	fprintf(to, "try ");
	this->statements->Write(to);
	}

	CatchStatement::CatchStatement(Variable* e)
	:statements(new StatementBlock),
	exception(e)
	{
	}

	CatchStatement::~CatchStatement()
	{
	}

	void
	CatchStatement::Write(FILE* to)
	{
	fprintf(to, "catch ");
	if (this->exception != NULL) {
	fprintf(to, "(");
	this->exception->WriteDeclaration(to);
	fprintf(to, ") ");
	}
	this->statements->Write(to);
	}

	FinallyStatement::FinallyStatement()
	:statements(new StatementBlock)
	{
	}

	FinallyStatement::~FinallyStatement()
	{
	}

	void
	FinallyStatement::Write(FILE* to)
	{
	fprintf(to, "finally ");
	this->statements->Write(to);
	}

	Case::Case()
	:statements(new StatementBlock)
	{
	}

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

	Case::~Case()
	{
	}

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

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

	SwitchStatement::~SwitchStatement()
	{
	}

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

	Method::Method()
	:ClassElement(),
	modifiers(0),
	returnType(NULL), // (NULL means constructor)
	returnTypeDimension(0),
	statements(NULL)
	{
	}

	Method::~Method()
	{
	}

	void
	Method::GatherTypes(set<Type> types) const
	{
	size_t N, i;

	if (this->returnType) {
	types->insert(this->returnType);
	}

	N = this->parameters.size();
	for (i=0; i<N; i++) {
	this->parameters[i]->GatherTypes(types);
	}

	N = this->exceptions.size();
	for (i=0; i<N; i++) {
	types->insert(this->exceptions[i]);
	}
	}

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

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

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

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

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

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

	fprintf(to, ")");

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

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

	Class::Class()
	:modifiers(0),
	what(CLASS),
	type(NULL),
	extends(NULL)
	{
	}

	Class::~Class()
	{
	}

	void
	Class::GatherTypes(set<Type> types) const
	{
	int N, i;

	types->insert(this->type);
	if (this->extends != NULL) {
	types->insert(this->extends);
	}

	N = this->interfaces.size();
	for (i=0; i<N; i++) {
	types->insert(this->interfaces[i]);
	}

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

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

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

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

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

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

	fprintf(to, "%s", name.c_str());

	if (this->extends != NULL) {
	fprintf(to, " extends %s", this->extends->QualifiedName().c_str());
	}

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

	fprintf(to, "\n");
	fprintf(to, "{\n");

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

	fprintf(to, "}\n");

	}

	Document::Document()
	{
	}

	Document::~Document()
	{
	}

	static string
	escape_backslashes(const string& str)
	{
	string result;
	const size_t I=str.length();
	for (size_t i=0; i<I; i++) {
	char c = str[i];
	if (c == '\\') {
	result += "\\\\";
	} else {
	result += c;
	}
	}
	return result;
	}

	void
	Document::Write(FILE* to)
	{
	size_t N, i;

	if (this->comment.length() != 0) {
	fprintf(to, "%s\n", this->comment.c_str());
	}
	fprintf(to, "/*\n"
	" * This file is auto-generated. DO NOT MODIFY.\n"
	" * Original file: %s\n"
	" */\n", escape_backslashes(this->originalSrc).c_str());
	if (this->package.length() != 0) {
	fprintf(to, "package %s;\n", this->package.c_str());
	}

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