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

 #include "generate_java.h"
 #include "Type.h"
 #include <string.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>

 // =================================================
 class StubClass : public Class
 {
 public:
     StubClass(Type* type, Type* interfaceType);
     virtual ~StubClass();

     Variable* transact_code;
     Variable* transact_data;
     Variable* transact_reply;
     Variable* transact_flags;
     SwitchStatement* transact_switch;
 private:
     void make_as_interface(Type* interfaceType);
 };

 StubClass::StubClass(Type* type, Type* interfaceType)
     :Class()
 {
     this->comment = "/** Local-side IPC implementation stub class. */";
     this->modifiers = PUBLIC | ABSTRACT | STATIC;
     this->what = Class::CLASS;
     this->type = type;
     this->extends = BINDER_NATIVE_TYPE;
     this->interfaces.push_back(interfaceType);

     // descriptor
     Field* descriptor = new Field(STATIC | FINAL | PRIVATE,
                             new Variable(STRING_TYPE, "DESCRIPTOR"));
     descriptor->value = "\"" + interfaceType->QualifiedName() + "\"";
     this->elements.push_back(descriptor);

     // ctor
     Method* ctor = new Method;
         ctor->modifiers = PUBLIC;
         ctor->comment = "/** Construct the stub at attach it to the "
                         "interface. */";
         ctor->name = "Stub";
         ctor->statements = new StatementBlock;
     MethodCall* attach = new MethodCall(THIS_VALUE, "attachInterface",
                             2, THIS_VALUE, new LiteralExpression("DESCRIPTOR"));
     ctor->statements->Add(attach);
     this->elements.push_back(ctor);

     // asInterface
     make_as_interface(interfaceType);

     // asBinder
     Method* asBinder = new Method;
         asBinder->modifiers = PUBLIC | OVERRIDE;
         asBinder->returnType = IBINDER_TYPE;
         asBinder->name = "asBinder";
         asBinder->statements = new StatementBlock;
     asBinder->statements->Add(new ReturnStatement(THIS_VALUE));
     this->elements.push_back(asBinder);

     // onTransact
     this->transact_code = new Variable(INT_TYPE, "code");
     this->transact_data = new Variable(PARCEL_TYPE, "data");
     this->transact_reply = new Variable(PARCEL_TYPE, "reply");
     this->transact_flags = new Variable(INT_TYPE, "flags");
     Method* onTransact = new Method;
         onTransact->modifiers = PUBLIC | OVERRIDE;
         onTransact->returnType = BOOLEAN_TYPE;
         onTransact->name = "onTransact";
         onTransact->parameters.push_back(this->transact_code);
         onTransact->parameters.push_back(this->transact_data);
         onTransact->parameters.push_back(this->transact_reply);
         onTransact->parameters.push_back(this->transact_flags);
         onTransact->statements = new StatementBlock;
         onTransact->exceptions.push_back(REMOTE_EXCEPTION_TYPE);
     this->elements.push_back(onTransact);
     this->transact_switch = new SwitchStatement(this->transact_code);

     onTransact->statements->Add(this->transact_switch);
     MethodCall* superCall = new MethodCall(SUPER_VALUE, "onTransact", 4,
                                     this->transact_code, this->transact_data,
                                     this->transact_reply, this->transact_flags);
     onTransact->statements->Add(new ReturnStatement(superCall));
 }

 StubClass::~StubClass()
 {
 }

 void
 StubClass::make_as_interface(Type *interfaceType)
 {
     Variable* obj = new Variable(IBINDER_TYPE, "obj");

     Method* m = new Method;
         m->comment = "/**\n * Cast an IBinder object into an ";
         m->comment += interfaceType->QualifiedName();
         m->comment += " interface,\n";
         m->comment += " * generating a proxy if needed.\n */";
         m->modifiers = PUBLIC | STATIC;
         m->returnType = interfaceType;
         m->name = "asInterface";
         m->parameters.push_back(obj);
         m->statements = new StatementBlock;

     IfStatement* ifstatement = new IfStatement();
         ifstatement->expression = new Comparison(obj, "==", NULL_VALUE);
         ifstatement->statements = new StatementBlock;
         ifstatement->statements->Add(new ReturnStatement(NULL_VALUE));
     m->statements->Add(ifstatement);

     // IInterface iin = obj.queryLocalInterface(DESCRIPTOR)
     MethodCall* queryLocalInterface = new MethodCall(obj, "queryLocalInterface");
     queryLocalInterface->arguments.push_back(new LiteralExpression("DESCRIPTOR"));
     IInterfaceType* iinType = new IInterfaceType();
     Variable *iin = new Variable(iinType, "iin");
     VariableDeclaration* iinVd = new VariableDeclaration(iin, queryLocalInterface, NULL);
     m->statements->Add(iinVd);

     // Ensure the instance type of the local object is as expected.
     // One scenario where this is needed is if another package (with a
     // different class loader) runs in the same process as the service.

     // if (iin != null && iin instanceof <interfaceType>) return (<interfaceType>) iin;
     Comparison* iinNotNull = new Comparison(iin, "!=", NULL_VALUE);
     Comparison* instOfCheck = new Comparison(iin, " instanceof ",
             new LiteralExpression(interfaceType->QualifiedName()));
     IfStatement* instOfStatement = new IfStatement();
         instOfStatement->expression = new Comparison(iinNotNull, "&&", instOfCheck);
         instOfStatement->statements = new StatementBlock;
         instOfStatement->statements->Add(new ReturnStatement(new Cast(interfaceType, iin)));
     m->statements->Add(instOfStatement);

     string proxyType = interfaceType->QualifiedName();
     proxyType += ".Stub.Proxy";
     NewExpression* ne = new NewExpression(NAMES.Find(proxyType));
     ne->arguments.push_back(obj);
     m->statements->Add(new ReturnStatement(ne));

     this->elements.push_back(m);
 }


 // =================================================
 class ProxyClass : public Class
 {
 public:
     ProxyClass(Type* type, InterfaceType* interfaceType);
     virtual ~ProxyClass();

     Variable* mRemote;
     bool mOneWay;
 };

 ProxyClass::ProxyClass(Type* type, InterfaceType* interfaceType)
     :Class()
 {
     this->modifiers = PRIVATE | STATIC;
     this->what = Class::CLASS;
     this->type = type;
     this->interfaces.push_back(interfaceType);

     mOneWay = interfaceType->OneWay();

     // IBinder mRemote
     mRemote = new Variable(IBINDER_TYPE, "mRemote");
     this->elements.push_back(new Field(PRIVATE, mRemote));

     // Proxy()
     Variable* remote = new Variable(IBINDER_TYPE, "remote");
     Method* ctor = new Method;
         ctor->name = "Proxy";
         ctor->statements = new StatementBlock;
         ctor->parameters.push_back(remote);
     ctor->statements->Add(new Assignment(mRemote, remote));
     this->elements.push_back(ctor);

     // IBinder asBinder()
     Method* asBinder = new Method;
         asBinder->modifiers = PUBLIC | OVERRIDE;
         asBinder->returnType = IBINDER_TYPE;
         asBinder->name = "asBinder";
         asBinder->statements = new StatementBlock;
     asBinder->statements->Add(new ReturnStatement(mRemote));
     this->elements.push_back(asBinder);
 }

 ProxyClass::~ProxyClass()
 {
 }

 // =================================================
 static void
 generate_new_array(Type* t, StatementBlock* addTo, Variable* v,
                             Variable* parcel)
 {
     Variable* len = new Variable(INT_TYPE, v->name + "_length");
     addTo->Add(new VariableDeclaration(len, new MethodCall(parcel, "readInt")));
     IfStatement* lencheck = new IfStatement();
     lencheck->expression = new Comparison(len, "<", new LiteralExpression("0"));
     lencheck->statements->Add(new Assignment(v, NULL_VALUE));
     lencheck->elseif = new IfStatement();
     lencheck->elseif->statements->Add(new Assignment(v,
                 new NewArrayExpression(t, len)));
     addTo->Add(lencheck);
 }

 static void
 generate_write_to_parcel(Type* t, StatementBlock* addTo, Variable* v,
                             Variable* parcel, int flags)
 {
     if (v->dimension == 0) {
         t->WriteToParcel(addTo, v, parcel, flags);
     }
     if (v->dimension == 1) {
         t->WriteArrayToParcel(addTo, v, parcel, flags);
     }
 }

 static void
 generate_create_from_parcel(Type* t, StatementBlock* addTo, Variable* v,
                             Variable* parcel, Variable** cl)
 {
     if (v->dimension == 0) {
         t->CreateFromParcel(addTo, v, parcel, cl);
     }
     if (v->dimension == 1) {
         t->CreateArrayFromParcel(addTo, v, parcel, cl);
     }
 }

 static void
 generate_read_from_parcel(Type* t, StatementBlock* addTo, Variable* v,
                             Variable* parcel, Variable** cl)
 {
     if (v->dimension == 0) {
         t->ReadFromParcel(addTo, v, parcel, cl);
     }
     if (v->dimension == 1) {
         t->ReadArrayFromParcel(addTo, v, parcel, cl);
     }
 }


 static void
 generate_method(const method_type* method, Class* interface,
                     StubClass* stubClass, ProxyClass* proxyClass, int index)
 {
     arg_type* arg;
     int i;
     bool hasOutParams = false;

     const bool oneway = proxyClass->mOneWay || method->oneway;

     // == the TRANSACT_ constant =============================================
     string transactCodeName = "TRANSACTION_";
     transactCodeName += method->name.data;

     char transactCodeValue[60];
     sprintf(transactCodeValue, "(android.os.IBinder.FIRST_CALL_TRANSACTION + %d)", index);

     Field* transactCode = new Field(STATIC | FINAL,
                             new Variable(INT_TYPE, transactCodeName));
     transactCode->value = transactCodeValue;
     stubClass->elements.push_back(transactCode);

     // == the declaration in the interface ===================================
     Method* decl = new Method;
         decl->comment = gather_comments(method->comments_token->extra);
         decl->modifiers = PUBLIC;
         decl->returnType = NAMES.Search(method->type.type.data);
         decl->returnTypeDimension = method->type.dimension;
         decl->name = method->name.data;

     arg = method->args;
     while (arg != NULL) {
         decl->parameters.push_back(new Variable(
                             NAMES.Search(arg->type.type.data), arg->name.data,
                             arg->type.dimension));
         arg = arg->next;
     }

     decl->exceptions.push_back(REMOTE_EXCEPTION_TYPE);

     interface->elements.push_back(decl);

     // == the stub method ====================================================

     Case* c = new Case(transactCodeName);

     MethodCall* realCall = new MethodCall(THIS_VALUE, method->name.data);

     // interface token validation is the very first thing we do
     c->statements->Add(new MethodCall(stubClass->transact_data,
             "enforceInterface", 1, new LiteralExpression("DESCRIPTOR")));

     // args
     Variable* cl = NULL;
     VariableFactory stubArgs("_arg");
     arg = method->args;
     while (arg != NULL) {
         Type* t = NAMES.Search(arg->type.type.data);
         Variable* v = stubArgs.Get(t);
         v->dimension = arg->type.dimension;

         c->statements->Add(new VariableDeclaration(v));

         if (convert_direction(arg->direction.data) & IN_PARAMETER) {
             generate_create_from_parcel(t, c->statements, v,
                     stubClass->transact_data, &cl);
         } else {
             if (arg->type.dimension == 0) {
                 c->statements->Add(new Assignment(v, new NewExpression(v->type)));
             }
             else if (arg->type.dimension == 1) {
                 generate_new_array(v->type, c->statements, v,
                         stubClass->transact_data);
             }
             else {
                 fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__,
                         __LINE__);
             }
         }

         realCall->arguments.push_back(v);

         arg = arg->next;
     }

     // the real call
     Variable* _result = NULL;
     if (0 == strcmp(method->type.type.data, "void")) {
         c->statements->Add(realCall);

         if (!oneway) {
             // report that there were no exceptions
             MethodCall* ex = new MethodCall(stubClass->transact_reply,
                     "writeNoException", 0);
             c->statements->Add(ex);
         }
     } else {
         _result = new Variable(decl->returnType, "_result",
                                 decl->returnTypeDimension);
         c->statements->Add(new VariableDeclaration(_result, realCall));

         if (!oneway) {
             // report that there were no exceptions
             MethodCall* ex = new MethodCall(stubClass->transact_reply,
                     "writeNoException", 0);
             c->statements->Add(ex);
         }

         // marshall the return value
         generate_write_to_parcel(decl->returnType, c->statements, _result,
                                     stubClass->transact_reply,
                                     Type::PARCELABLE_WRITE_RETURN_VALUE);
     }

     // out parameters
     i = 0;
     arg = method->args;
     while (arg != NULL) {
         Type* t = NAMES.Search(arg->type.type.data);
         Variable* v = stubArgs.Get(i++);

         if (convert_direction(arg->direction.data) & OUT_PARAMETER) {
             generate_write_to_parcel(t, c->statements, v,
                                 stubClass->transact_reply,
                                 Type::PARCELABLE_WRITE_RETURN_VALUE);
             hasOutParams = true;
         }

         arg = arg->next;
     }

     // return true
     c->statements->Add(new ReturnStatement(TRUE_VALUE));
     stubClass->transact_switch->cases.push_back(c);

     // == the proxy method ===================================================
     Method* proxy = new Method;
         proxy->comment = gather_comments(method->comments_token->extra);
         proxy->modifiers = PUBLIC | OVERRIDE;
         proxy->returnType = NAMES.Search(method->type.type.data);
         proxy->returnTypeDimension = method->type.dimension;
         proxy->name = method->name.data;
         proxy->statements = new StatementBlock;
         arg = method->args;
         while (arg != NULL) {
             proxy->parameters.push_back(new Variable(
                             NAMES.Search(arg->type.type.data), arg->name.data,
                             arg->type.dimension));
             arg = arg->next;
         }
         proxy->exceptions.push_back(REMOTE_EXCEPTION_TYPE);
     proxyClass->elements.push_back(proxy);

     // the parcels
     Variable* _data = new Variable(PARCEL_TYPE, "_data");
     proxy->statements->Add(new VariableDeclaration(_data,
                                 new MethodCall(PARCEL_TYPE, "obtain")));
     Variable* _reply = NULL;
     if (!oneway) {
         _reply = new Variable(PARCEL_TYPE, "_reply");
         proxy->statements->Add(new VariableDeclaration(_reply,
                                     new MethodCall(PARCEL_TYPE, "obtain")));
     }

     // the return value
     _result = NULL;
     if (0 != strcmp(method->type.type.data, "void")) {
         _result = new Variable(proxy->returnType, "_result",
                 method->type.dimension);
         proxy->statements->Add(new VariableDeclaration(_result));
     }

     // try and finally
     TryStatement* tryStatement = new TryStatement();
     proxy->statements->Add(tryStatement);
     FinallyStatement* finallyStatement = new FinallyStatement();
     proxy->statements->Add(finallyStatement);

     // the interface identifier token: the DESCRIPTOR constant, marshalled as a string
     tryStatement->statements->Add(new MethodCall(_data, "writeInterfaceToken",
             1, new LiteralExpression("DESCRIPTOR")));

     // the parameters
     arg = method->args;
     while (arg != NULL) {
         Type* t = NAMES.Search(arg->type.type.data);
         Variable* v = new Variable(t, arg->name.data, arg->type.dimension);
         int dir = convert_direction(arg->direction.data);
         if (dir == OUT_PARAMETER && arg->type.dimension != 0) {
             IfStatement* checklen = new IfStatement();
             checklen->expression = new Comparison(v, "==", NULL_VALUE);
             checklen->statements->Add(new MethodCall(_data, "writeInt", 1,
                         new LiteralExpression("-1")));
             checklen->elseif = new IfStatement();
             checklen->elseif->statements->Add(new MethodCall(_data, "writeInt",
                         1, new FieldVariable(v, "length")));
             tryStatement->statements->Add(checklen);
         }
         else if (dir & IN_PARAMETER) {
             generate_write_to_parcel(t, tryStatement->statements, v, _data, 0);
         }
         arg = arg->next;
     }

     // the transact call
     MethodCall* call = new MethodCall(proxyClass->mRemote, "transact", 4,
                             new LiteralExpression("Stub." + transactCodeName),
                             _data, _reply ? _reply : NULL_VALUE,
                             new LiteralExpression(
                                 oneway ? "android.os.IBinder.FLAG_ONEWAY" : "0"));
     tryStatement->statements->Add(call);

     // throw back exceptions.
     if (_reply) {
         MethodCall* ex = new MethodCall(_reply, "readException", 0);
         tryStatement->statements->Add(ex);
     }

     // returning and cleanup
     if (_reply != NULL) {
         if (_result != NULL) {
             generate_create_from_parcel(proxy->returnType,
                     tryStatement->statements, _result, _reply, &cl);
         }

         // the out/inout parameters
         arg = method->args;
         while (arg != NULL) {
             Type* t = NAMES.Search(arg->type.type.data);
             Variable* v = new Variable(t, arg->name.data, arg->type.dimension);
             if (convert_direction(arg->direction.data) & OUT_PARAMETER) {
                 generate_read_from_parcel(t, tryStatement->statements,
                                             v, _reply, &cl);
             }
             arg = arg->next;
         }

         finallyStatement->statements->Add(new MethodCall(_reply, "recycle"));
     }
     finallyStatement->statements->Add(new MethodCall(_data, "recycle"));

     if (_result != NULL) {
         proxy->statements->Add(new ReturnStatement(_result));
     }
 }

 static void
 generate_interface_descriptors(StubClass* stub, ProxyClass* proxy)
 {
     // the interface descriptor transaction handler
     Case* c = new Case("INTERFACE_TRANSACTION");
     c->statements->Add(new MethodCall(stub->transact_reply, "writeString",
             1, new LiteralExpression("DESCRIPTOR")));
     c->statements->Add(new ReturnStatement(TRUE_VALUE));
     stub->transact_switch->cases.push_back(c);

     // and the proxy-side method returning the descriptor directly
     Method* getDesc = new Method;
     getDesc->modifiers = PUBLIC;
     getDesc->returnType = STRING_TYPE;
     getDesc->returnTypeDimension = 0;
     getDesc->name = "getInterfaceDescriptor";
     getDesc->statements = new StatementBlock;
     getDesc->statements->Add(new ReturnStatement(new LiteralExpression("DESCRIPTOR")));
     proxy->elements.push_back(getDesc);
 }

 Class*
 generate_binder_interface_class(const interface_type* iface)
 {
     InterfaceType* interfaceType = static_cast<InterfaceType*>(
         NAMES.Find(iface->package, iface->name.data));

     // the interface class
     Class* interface = new Class;
         interface->comment = gather_comments(iface->comments_token->extra);
         interface->modifiers = PUBLIC;
         interface->what = Class::INTERFACE;
         interface->type = interfaceType;
         interface->interfaces.push_back(IINTERFACE_TYPE);

     // the stub inner class
     StubClass* stub = new StubClass(
         NAMES.Find(iface->package, append(iface->name.data, ".Stub").c_str()),
         interfaceType);
     interface->elements.push_back(stub);

     // the proxy inner class
     ProxyClass* proxy = new ProxyClass(
         NAMES.Find(iface->package,
                          append(iface->name.data, ".Stub.Proxy").c_str()),
         interfaceType);
     stub->elements.push_back(proxy);

     // stub and proxy support for getInterfaceDescriptor()
     generate_interface_descriptors(stub, proxy);

     // all the declared methods of the interface
     int index = 0;
     interface_item_type* item = iface->interface_items;
     while (item != NULL) {
         if (item->item_type == METHOD_TYPE) {
             method_type * method_item = (method_type*) item;
             generate_method(method_item, interface, stub, proxy, method_item->assigned_id);
         }
         item = item->next;
         index++;
     }

     return interface;
 }
	#include "generate_java.h"
	#include "Type.h"
	#include <string.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>

	// =================================================
	class StubClass : public Class
	{
	public:
	StubClass(Type* type, Type* interfaceType);
	virtual ~StubClass();

	Variable* transact_code;
	Variable* transact_data;
	Variable* transact_reply;
	Variable* transact_flags;
	SwitchStatement* transact_switch;
	private:
	void make_as_interface(Type* interfaceType);
	};

	StubClass::StubClass(Type* type, Type* interfaceType)
	:Class()
	{
	this->comment = "/** Local-side IPC implementation stub class. */";
	this->modifiers = PUBLIC \| ABSTRACT \| STATIC;
	this->what = Class::CLASS;
	this->type = type;
	this->extends = BINDER_NATIVE_TYPE;
	this->interfaces.push_back(interfaceType);

	// descriptor
	Field* descriptor = new Field(STATIC \| FINAL \| PRIVATE,
	new Variable(STRING_TYPE, "DESCRIPTOR"));
	descriptor->value = "\"" + interfaceType->QualifiedName() + "\"";
	this->elements.push_back(descriptor);

	// ctor
	Method* ctor = new Method;
	ctor->modifiers = PUBLIC;
	ctor->comment = "/** Construct the stub at attach it to the "
	"interface. */";
	ctor->name = "Stub";
	ctor->statements = new StatementBlock;
	MethodCall* attach = new MethodCall(THIS_VALUE, "attachInterface",
	2, THIS_VALUE, new LiteralExpression("DESCRIPTOR"));
	ctor->statements->Add(attach);
	this->elements.push_back(ctor);

	// asInterface
	make_as_interface(interfaceType);

	// asBinder
	Method* asBinder = new Method;
	asBinder->modifiers = PUBLIC \| OVERRIDE;
	asBinder->returnType = IBINDER_TYPE;
	asBinder->name = "asBinder";
	asBinder->statements = new StatementBlock;
	asBinder->statements->Add(new ReturnStatement(THIS_VALUE));
	this->elements.push_back(asBinder);

	// onTransact
	this->transact_code = new Variable(INT_TYPE, "code");
	this->transact_data = new Variable(PARCEL_TYPE, "data");
	this->transact_reply = new Variable(PARCEL_TYPE, "reply");
	this->transact_flags = new Variable(INT_TYPE, "flags");
	Method* onTransact = new Method;
	onTransact->modifiers = PUBLIC \| OVERRIDE;
	onTransact->returnType = BOOLEAN_TYPE;
	onTransact->name = "onTransact";
	onTransact->parameters.push_back(this->transact_code);
	onTransact->parameters.push_back(this->transact_data);
	onTransact->parameters.push_back(this->transact_reply);
	onTransact->parameters.push_back(this->transact_flags);
	onTransact->statements = new StatementBlock;
	onTransact->exceptions.push_back(REMOTE_EXCEPTION_TYPE);
	this->elements.push_back(onTransact);
	this->transact_switch = new SwitchStatement(this->transact_code);

	onTransact->statements->Add(this->transact_switch);
	MethodCall* superCall = new MethodCall(SUPER_VALUE, "onTransact", 4,
	this->transact_code, this->transact_data,
	this->transact_reply, this->transact_flags);
	onTransact->statements->Add(new ReturnStatement(superCall));
	}

	StubClass::~StubClass()
	{
	}

	void
	StubClass::make_as_interface(Type *interfaceType)
	{
	Variable* obj = new Variable(IBINDER_TYPE, "obj");

	Method* m = new Method;
	m->comment = "/*\n Cast an IBinder object into an ";
	m->comment += interfaceType->QualifiedName();
	m->comment += " interface,\n";
	m->comment += " * generating a proxy if needed.\n */";
	m->modifiers = PUBLIC \| STATIC;
	m->returnType = interfaceType;
	m->name = "asInterface";
	m->parameters.push_back(obj);
	m->statements = new StatementBlock;

	IfStatement* ifstatement = new IfStatement();
	ifstatement->expression = new Comparison(obj, "==", NULL_VALUE);
	ifstatement->statements = new StatementBlock;
	ifstatement->statements->Add(new ReturnStatement(NULL_VALUE));
	m->statements->Add(ifstatement);

	// IInterface iin = obj.queryLocalInterface(DESCRIPTOR)
	MethodCall* queryLocalInterface = new MethodCall(obj, "queryLocalInterface");
	queryLocalInterface->arguments.push_back(new LiteralExpression("DESCRIPTOR"));
	IInterfaceType* iinType = new IInterfaceType();
	Variable *iin = new Variable(iinType, "iin");
	VariableDeclaration* iinVd = new VariableDeclaration(iin, queryLocalInterface, NULL);
	m->statements->Add(iinVd);

	// Ensure the instance type of the local object is as expected.
	// One scenario where this is needed is if another package (with a
	// different class loader) runs in the same process as the service.

	// if (iin != null && iin instanceof <interfaceType>) return (<interfaceType>) iin;
	Comparison* iinNotNull = new Comparison(iin, "!=", NULL_VALUE);
	Comparison* instOfCheck = new Comparison(iin, " instanceof ",
	new LiteralExpression(interfaceType->QualifiedName()));
	IfStatement* instOfStatement = new IfStatement();
	instOfStatement->expression = new Comparison(iinNotNull, "&&", instOfCheck);
	instOfStatement->statements = new StatementBlock;
	instOfStatement->statements->Add(new ReturnStatement(new Cast(interfaceType, iin)));
	m->statements->Add(instOfStatement);

	string proxyType = interfaceType->QualifiedName();
	proxyType += ".Stub.Proxy";
	NewExpression* ne = new NewExpression(NAMES.Find(proxyType));
	ne->arguments.push_back(obj);
	m->statements->Add(new ReturnStatement(ne));

	this->elements.push_back(m);
	}



	// =================================================
	class ProxyClass : public Class
	{
	public:
	ProxyClass(Type* type, InterfaceType* interfaceType);
	virtual ~ProxyClass();

	Variable* mRemote;
	bool mOneWay;
	};

	ProxyClass::ProxyClass(Type* type, InterfaceType* interfaceType)
	:Class()
	{
	this->modifiers = PRIVATE \| STATIC;
	this->what = Class::CLASS;
	this->type = type;
	this->interfaces.push_back(interfaceType);

	mOneWay = interfaceType->OneWay();

	// IBinder mRemote
	mRemote = new Variable(IBINDER_TYPE, "mRemote");
	this->elements.push_back(new Field(PRIVATE, mRemote));

	// Proxy()
	Variable* remote = new Variable(IBINDER_TYPE, "remote");
	Method* ctor = new Method;
	ctor->name = "Proxy";
	ctor->statements = new StatementBlock;
	ctor->parameters.push_back(remote);
	ctor->statements->Add(new Assignment(mRemote, remote));
	this->elements.push_back(ctor);

	// IBinder asBinder()
	Method* asBinder = new Method;
	asBinder->modifiers = PUBLIC \| OVERRIDE;
	asBinder->returnType = IBINDER_TYPE;
	asBinder->name = "asBinder";
	asBinder->statements = new StatementBlock;
	asBinder->statements->Add(new ReturnStatement(mRemote));
	this->elements.push_back(asBinder);
	}

	ProxyClass::~ProxyClass()
	{
	}

	// =================================================
	static void
	generate_new_array(Type* t, StatementBlock* addTo, Variable* v,
	Variable* parcel)
	{
	Variable* len = new Variable(INT_TYPE, v->name + "_length");
	addTo->Add(new VariableDeclaration(len, new MethodCall(parcel, "readInt")));
	IfStatement* lencheck = new IfStatement();
	lencheck->expression = new Comparison(len, "<", new LiteralExpression("0"));
	lencheck->statements->Add(new Assignment(v, NULL_VALUE));
	lencheck->elseif = new IfStatement();
	lencheck->elseif->statements->Add(new Assignment(v,
	new NewArrayExpression(t, len)));
	addTo->Add(lencheck);
	}

	static void
	generate_write_to_parcel(Type* t, StatementBlock* addTo, Variable* v,
	Variable* parcel, int flags)
	{
	if (v->dimension == 0) {
	t->WriteToParcel(addTo, v, parcel, flags);
	}
	if (v->dimension == 1) {
	t->WriteArrayToParcel(addTo, v, parcel, flags);
	}
	}

	static void
	generate_create_from_parcel(Type* t, StatementBlock* addTo, Variable* v,
	Variable* parcel, Variable** cl)
	{
	if (v->dimension == 0) {
	t->CreateFromParcel(addTo, v, parcel, cl);
	}
	if (v->dimension == 1) {
	t->CreateArrayFromParcel(addTo, v, parcel, cl);
	}
	}

	static void
	generate_read_from_parcel(Type* t, StatementBlock* addTo, Variable* v,
	Variable* parcel, Variable** cl)
	{
	if (v->dimension == 0) {
	t->ReadFromParcel(addTo, v, parcel, cl);
	}
	if (v->dimension == 1) {
	t->ReadArrayFromParcel(addTo, v, parcel, cl);
	}
	}


	static void
	generate_method(const method_type* method, Class* interface,
	StubClass* stubClass, ProxyClass* proxyClass, int index)
	{
	arg_type* arg;
	int i;
	bool hasOutParams = false;

	const bool oneway = proxyClass->mOneWay \|\| method->oneway;

	// == the TRANSACT_ constant =============================================
	string transactCodeName = "TRANSACTION_";
	transactCodeName += method->name.data;

	char transactCodeValue[60];
	sprintf(transactCodeValue, "(android.os.IBinder.FIRST_CALL_TRANSACTION + %d)", index);

	Field* transactCode = new Field(STATIC \| FINAL,
	new Variable(INT_TYPE, transactCodeName));
	transactCode->value = transactCodeValue;
	stubClass->elements.push_back(transactCode);

	// == the declaration in the interface ===================================
	Method* decl = new Method;
	decl->comment = gather_comments(method->comments_token->extra);
	decl->modifiers = PUBLIC;
	decl->returnType = NAMES.Search(method->type.type.data);
	decl->returnTypeDimension = method->type.dimension;
	decl->name = method->name.data;

	arg = method->args;
	while (arg != NULL) {
	decl->parameters.push_back(new Variable(
	NAMES.Search(arg->type.type.data), arg->name.data,
	arg->type.dimension));
	arg = arg->next;
	}

	decl->exceptions.push_back(REMOTE_EXCEPTION_TYPE);

	interface->elements.push_back(decl);

	// == the stub method ====================================================

	Case* c = new Case(transactCodeName);

	MethodCall* realCall = new MethodCall(THIS_VALUE, method->name.data);

	// interface token validation is the very first thing we do
	c->statements->Add(new MethodCall(stubClass->transact_data,
	"enforceInterface", 1, new LiteralExpression("DESCRIPTOR")));

	// args
	Variable* cl = NULL;
	VariableFactory stubArgs("_arg");
	arg = method->args;
	while (arg != NULL) {
	Type* t = NAMES.Search(arg->type.type.data);
	Variable* v = stubArgs.Get(t);
	v->dimension = arg->type.dimension;

	c->statements->Add(new VariableDeclaration(v));

	if (convert_direction(arg->direction.data) & IN_PARAMETER) {
	generate_create_from_parcel(t, c->statements, v,
	stubClass->transact_data, &cl);
	} else {
	if (arg->type.dimension == 0) {
	c->statements->Add(new Assignment(v, new NewExpression(v->type)));
	}
	else if (arg->type.dimension == 1) {
	generate_new_array(v->type, c->statements, v,
	stubClass->transact_data);
	}
	else {
	fprintf(stderr, "aidl:internal error %s:%d\n", __FILE__,
	__LINE__);
	}
	}

	realCall->arguments.push_back(v);

	arg = arg->next;
	}

	// the real call
	Variable* _result = NULL;
	if (0 == strcmp(method->type.type.data, "void")) {
	c->statements->Add(realCall);

	if (!oneway) {
	// report that there were no exceptions
	MethodCall* ex = new MethodCall(stubClass->transact_reply,
	"writeNoException", 0);
	c->statements->Add(ex);
	}
	} else {
	_result = new Variable(decl->returnType, "_result",
	decl->returnTypeDimension);
	c->statements->Add(new VariableDeclaration(_result, realCall));

	if (!oneway) {
	// report that there were no exceptions
	MethodCall* ex = new MethodCall(stubClass->transact_reply,
	"writeNoException", 0);
	c->statements->Add(ex);
	}

	// marshall the return value
	generate_write_to_parcel(decl->returnType, c->statements, _result,
	stubClass->transact_reply,
	Type::PARCELABLE_WRITE_RETURN_VALUE);
	}

	// out parameters
	i = 0;
	arg = method->args;
	while (arg != NULL) {
	Type* t = NAMES.Search(arg->type.type.data);
	Variable* v = stubArgs.Get(i++);

	if (convert_direction(arg->direction.data) & OUT_PARAMETER) {
	generate_write_to_parcel(t, c->statements, v,
	stubClass->transact_reply,
	Type::PARCELABLE_WRITE_RETURN_VALUE);
	hasOutParams = true;
	}

	arg = arg->next;
	}

	// return true
	c->statements->Add(new ReturnStatement(TRUE_VALUE));
	stubClass->transact_switch->cases.push_back(c);

	// == the proxy method ===================================================
	Method* proxy = new Method;
	proxy->comment = gather_comments(method->comments_token->extra);
	proxy->modifiers = PUBLIC \| OVERRIDE;
	proxy->returnType = NAMES.Search(method->type.type.data);
	proxy->returnTypeDimension = method->type.dimension;
	proxy->name = method->name.data;
	proxy->statements = new StatementBlock;
	arg = method->args;
	while (arg != NULL) {
	proxy->parameters.push_back(new Variable(
	NAMES.Search(arg->type.type.data), arg->name.data,
	arg->type.dimension));
	arg = arg->next;
	}
	proxy->exceptions.push_back(REMOTE_EXCEPTION_TYPE);
	proxyClass->elements.push_back(proxy);

	// the parcels
	Variable* _data = new Variable(PARCEL_TYPE, "_data");
	proxy->statements->Add(new VariableDeclaration(_data,
	new MethodCall(PARCEL_TYPE, "obtain")));
	Variable* _reply = NULL;
	if (!oneway) {
	_reply = new Variable(PARCEL_TYPE, "_reply");
	proxy->statements->Add(new VariableDeclaration(_reply,
	new MethodCall(PARCEL_TYPE, "obtain")));
	}

	// the return value
	_result = NULL;
	if (0 != strcmp(method->type.type.data, "void")) {
	_result = new Variable(proxy->returnType, "_result",
	method->type.dimension);
	proxy->statements->Add(new VariableDeclaration(_result));
	}

	// try and finally
	TryStatement* tryStatement = new TryStatement();
	proxy->statements->Add(tryStatement);
	FinallyStatement* finallyStatement = new FinallyStatement();
	proxy->statements->Add(finallyStatement);

	// the interface identifier token: the DESCRIPTOR constant, marshalled as a string
	tryStatement->statements->Add(new MethodCall(_data, "writeInterfaceToken",
	1, new LiteralExpression("DESCRIPTOR")));

	// the parameters
	arg = method->args;
	while (arg != NULL) {
	Type* t = NAMES.Search(arg->type.type.data);
	Variable* v = new Variable(t, arg->name.data, arg->type.dimension);
	int dir = convert_direction(arg->direction.data);
	if (dir == OUT_PARAMETER && arg->type.dimension != 0) {
	IfStatement* checklen = new IfStatement();
	checklen->expression = new Comparison(v, "==", NULL_VALUE);
	checklen->statements->Add(new MethodCall(_data, "writeInt", 1,
	new LiteralExpression("-1")));
	checklen->elseif = new IfStatement();
	checklen->elseif->statements->Add(new MethodCall(_data, "writeInt",
	1, new FieldVariable(v, "length")));
	tryStatement->statements->Add(checklen);
	}
	else if (dir & IN_PARAMETER) {
	generate_write_to_parcel(t, tryStatement->statements, v, _data, 0);
	}
	arg = arg->next;
	}

	// the transact call
	MethodCall* call = new MethodCall(proxyClass->mRemote, "transact", 4,
	new LiteralExpression("Stub." + transactCodeName),
	_data, _reply ? _reply : NULL_VALUE,
	new LiteralExpression(
	oneway ? "android.os.IBinder.FLAG_ONEWAY" : "0"));
	tryStatement->statements->Add(call);

	// throw back exceptions.
	if (_reply) {
	MethodCall* ex = new MethodCall(_reply, "readException", 0);
	tryStatement->statements->Add(ex);
	}

	// returning and cleanup
	if (_reply != NULL) {
	if (_result != NULL) {
	generate_create_from_parcel(proxy->returnType,
	tryStatement->statements, _result, _reply, &cl);
	}

	// the out/inout parameters
	arg = method->args;
	while (arg != NULL) {
	Type* t = NAMES.Search(arg->type.type.data);
	Variable* v = new Variable(t, arg->name.data, arg->type.dimension);
	if (convert_direction(arg->direction.data) & OUT_PARAMETER) {
	generate_read_from_parcel(t, tryStatement->statements,
	v, _reply, &cl);
	}
	arg = arg->next;
	}

	finallyStatement->statements->Add(new MethodCall(_reply, "recycle"));
	}
	finallyStatement->statements->Add(new MethodCall(_data, "recycle"));

	if (_result != NULL) {
	proxy->statements->Add(new ReturnStatement(_result));
	}
	}

	static void
	generate_interface_descriptors(StubClass* stub, ProxyClass* proxy)
	{
	// the interface descriptor transaction handler
	Case* c = new Case("INTERFACE_TRANSACTION");
	c->statements->Add(new MethodCall(stub->transact_reply, "writeString",
	1, new LiteralExpression("DESCRIPTOR")));
	c->statements->Add(new ReturnStatement(TRUE_VALUE));
	stub->transact_switch->cases.push_back(c);

	// and the proxy-side method returning the descriptor directly
	Method* getDesc = new Method;
	getDesc->modifiers = PUBLIC;
	getDesc->returnType = STRING_TYPE;
	getDesc->returnTypeDimension = 0;
	getDesc->name = "getInterfaceDescriptor";
	getDesc->statements = new StatementBlock;
	getDesc->statements->Add(new ReturnStatement(new LiteralExpression("DESCRIPTOR")));
	proxy->elements.push_back(getDesc);
	}

	Class*
	generate_binder_interface_class(const interface_type* iface)
	{
	InterfaceType* interfaceType = static_cast<InterfaceType*>(
	NAMES.Find(iface->package, iface->name.data));

	// the interface class
	Class* interface = new Class;
	interface->comment = gather_comments(iface->comments_token->extra);
	interface->modifiers = PUBLIC;
	interface->what = Class::INTERFACE;
	interface->type = interfaceType;
	interface->interfaces.push_back(IINTERFACE_TYPE);

	// the stub inner class
	StubClass* stub = new StubClass(
	NAMES.Find(iface->package, append(iface->name.data, ".Stub").c_str()),
	interfaceType);
	interface->elements.push_back(stub);

	// the proxy inner class
	ProxyClass* proxy = new ProxyClass(
	NAMES.Find(iface->package,
	append(iface->name.data, ".Stub.Proxy").c_str()),
	interfaceType);
	stub->elements.push_back(proxy);

	// stub and proxy support for getInterfaceDescriptor()
	generate_interface_descriptors(stub, proxy);

	// all the declared methods of the interface
	int index = 0;
	interface_item_type* item = iface->interface_items;
	while (item != NULL) {
	if (item->item_type == METHOD_TYPE) {
	method_type * method_item = (method_type*) item;
	generate_method(method_item, interface, stub, proxy, method_item->assigned_id);
	}
	item = item->next;
	index++;
	}

	return interface;
	}