runtime/vm/dart_entry.cc - sdk.git - Git at Google

 // Copyright (c) 2011, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/dart_entry.h"

 #include "vm/code_generator.h"
 #include "vm/compiler.h"
 #include "vm/object_store.h"
 #include "vm/resolver.h"
 #include "vm/stub_code.h"
 #include "vm/symbols.h"

 namespace dart {

 RawObject* DartEntry::InvokeDynamic(
     const Instance& receiver,
     const Function& function,
     const GrowableArray<const Object*>& arguments,
     const Array& optional_arguments_names) {
   // Get the entrypoint corresponding to the function specified, this
   // will result in a compilation of the function if it is not already
   // compiled.
   if (!function.HasCode()) {
     const Error& error = Error::Handle(Compiler::CompileFunction(function));
     if (!error.IsNull()) {
       return error.raw();
     }
   }

   // Set up arguments to include the receiver as the first argument.
   const int num_arguments = arguments.length() + 1;
   GrowableArray<const Object*> args(num_arguments);
   const Object& arg0 = Object::ZoneHandle(receiver.raw());
   args.Add(&arg0);
   for (int i = 1; i < num_arguments; i++) {
     args.Add(arguments[i - 1]);
   }
   // Now Call the invoke stub which will invoke the dart function.
   invokestub entrypoint = reinterpret_cast<invokestub>(
       StubCode::InvokeDartCodeEntryPoint());
   const Context& context =
       Context::ZoneHandle(Isolate::Current()->object_store()->empty_context());
   ASSERT(context.isolate() == Isolate::Current());
   const Code& code = Code::Handle(function.CurrentCode());
   ASSERT(!code.IsNull());
   return entrypoint(
       code.EntryPoint(),
       ArgumentsDescriptor(num_arguments, optional_arguments_names),
       args.data(),
       context);
 }


 RawObject* DartEntry::InvokeStatic(
     const Function& function,
     const GrowableArray<const Object*>& arguments,
     const Array& optional_arguments_names) {
   // Get the entrypoint corresponding to the function specified, this
   // will result in a compilation of the function if it is not already
   // compiled.
   ASSERT(!function.IsNull());
   if (!function.HasCode()) {
     const Error& error = Error::Handle(Compiler::CompileFunction(function));
     if (!error.IsNull()) {
       return error.raw();
     }
   }
   // Now Call the invoke stub which will invoke the dart function.
   invokestub entrypoint = reinterpret_cast<invokestub>(
       StubCode::InvokeDartCodeEntryPoint());
   const Context& context =
       Context::ZoneHandle(Isolate::Current()->object_store()->empty_context());
   ASSERT(context.isolate() == Isolate::Current());
   const Code& code = Code::Handle(function.CurrentCode());
   ASSERT(!code.IsNull());
   return entrypoint(
       code.EntryPoint(),
       ArgumentsDescriptor(arguments.length(), optional_arguments_names),
       arguments.data(),
       context);
 }


 RawObject* DartEntry::InvokeClosure(
     const Instance& closure,
     const GrowableArray<const Object*>& arguments,
     const Array& optional_arguments_names) {
   // Get the entrypoint corresponding to the closure specified, this
   // will result in a compilation of the closure if it is not already
   // compiled.
   ASSERT(Class::Handle(closure.clazz()).signature_function() != Object::null());
   const Function& function = Function::Handle(Closure::function(closure));
   const Context& context = Context::Handle(Closure::context(closure));
   ASSERT(!function.IsNull());
   if (!function.HasCode()) {
     const Error& error = Error::Handle(Compiler::CompileFunction(function));
     if (!error.IsNull()) {
       return error.raw();
     }
   }
   // Set up arguments to include the closure as the first argument.
   const int num_arguments = arguments.length() + 1;
   GrowableArray<const Object*> args(num_arguments);
   const Object& arg0 = Object::ZoneHandle(closure.raw());
   args.Add(&arg0);
   for (int i = 1; i < num_arguments; i++) {
     args.Add(arguments[i - 1]);
   }
   // Now Call the invoke stub which will invoke the closure.
   invokestub entrypoint = reinterpret_cast<invokestub>(
       StubCode::InvokeDartCodeEntryPoint());
   ASSERT(context.isolate() == Isolate::Current());
   const Code& code = Code::Handle(function.CurrentCode());
   ASSERT(!code.IsNull());
   return entrypoint(
       code.EntryPoint(),
       ArgumentsDescriptor(num_arguments, optional_arguments_names),
       args.data(),
       context);
 }


 const Array& DartEntry::ArgumentsDescriptor(
     int num_arguments,
     const Array& optional_arguments_names) {
   const intptr_t num_named_args =
       optional_arguments_names.IsNull() ? 0 : optional_arguments_names.Length();
   const intptr_t num_pos_args = num_arguments - num_named_args;

   // Build the argument descriptor array, which consists of the total number of
   // arguments, the number of positional arguments, alphabetically sorted
   // pairs of name/position, and a terminating null.
   const int descriptor_len = 3 + (2 * num_named_args);
   Array& descriptor = Array::ZoneHandle(Array::New(descriptor_len, Heap::kOld));

   // Set total number of passed arguments.
   descriptor.SetAt(0, Smi::Handle(Smi::New(num_arguments)));
   // Set number of positional arguments.
   descriptor.SetAt(1, Smi::Handle(Smi::New(num_pos_args)));
   // Set alphabetically sorted pairs of name/position for named arguments.
   String& name = String::Handle();
   Smi& pos = Smi::Handle();
   for (int i = 0; i < num_named_args; i++) {
     name ^= optional_arguments_names.At(i);
     pos = Smi::New(num_pos_args + i);
     int j = i;
     // Shift already inserted pairs with "larger" names.
     String& name_j = String::Handle();
     Smi& pos_j = Smi::Handle();
     while (--j >= 0) {
       name_j ^= descriptor.At(2 + (2 * j));
       const intptr_t result = name.CompareTo(name_j);
       ASSERT(result != 0);  // Duplicate argument names checked in parser.
       if (result > 0) break;
       pos_j ^= descriptor.At(3 + (2 * j));
       descriptor.SetAt(2 + (2 * (j + 1)), name_j);
       descriptor.SetAt(3 + (2 * (j + 1)), pos_j);
     }
     // Insert pair in descriptor array.
     descriptor.SetAt(2 + (2 * (j + 1)), name);
     descriptor.SetAt(3 + (2 * (j + 1)), pos);
   }
   // Set terminating null.
   descriptor.SetAt(descriptor_len - 1, Object::Handle());

   // Share the immutable descriptor when possible by canonicalizing it.
   descriptor.MakeImmutable();
   descriptor ^= descriptor.Canonicalize();
   return descriptor;
 }


 RawObject* DartLibraryCalls::ExceptionCreate(
     const Library& lib,
     const String& class_name,
     const GrowableArray<const Object*>& arguments) {
   const Class& cls = Class::Handle(lib.LookupClassAllowPrivate(class_name));
   ASSERT(!cls.IsNull());
   // For now, we only support a non-parameterized or raw type.
   const Instance& exception_object = Instance::Handle(Instance::New(cls));
   GrowableArray<const Object*> constructor_arguments(arguments.length() + 2);
   constructor_arguments.Add(&exception_object);
   constructor_arguments.Add(&Smi::Handle(Smi::New(Function::kCtorPhaseAll)));
   constructor_arguments.AddArray(arguments);

   const String& period = String::Handle(Symbols::Dot());
   String& constructor_name = String::Handle(String::Concat(class_name, period));
   Function& constructor =
       Function::Handle(cls.LookupConstructor(constructor_name));
   ASSERT(!constructor.IsNull());
   const Array& kNoArgumentNames = Array::Handle();
   const Object& retval = Object::Handle(
       DartEntry::InvokeStatic(constructor, constructor_arguments,
                               kNoArgumentNames));
   ASSERT(retval.IsNull() || retval.IsError());
   if (retval.IsError()) {
     return retval.raw();
   }
   return exception_object.raw();
 }


 RawObject* DartLibraryCalls::ToString(const Instance& receiver) {
   const String& function_name =
       String::Handle(Symbols::New("toString"));
   GrowableArray<const Object*> arguments;
   const int kNumArguments = 1;  // Receiver.
   const int kNumNamedArguments = 0;  // None.
   const Array& kNoArgumentNames = Array::Handle();
   const Function& function = Function::Handle(
       Resolver::ResolveDynamic(receiver,
                                function_name,
                                kNumArguments,
                                kNumNamedArguments));
   ASSERT(!function.IsNull());
   const Object& result = Object::Handle(
       DartEntry::InvokeDynamic(receiver,
                                function,
                                arguments,
                                kNoArgumentNames));
   ASSERT(result.IsInstance() || result.IsError());
   return result.raw();
 }


 RawObject* DartLibraryCalls::Equals(const Instance& left,
                                     const Instance& right) {
   const String& function_name = String::Handle(Symbols::EqualOperator());
   GrowableArray<const Object*> arguments;
   arguments.Add(&right);
   const int kNumArguments = 2;
   const int kNumNamedArguments = 0;
   const Array& kNoArgumentNames = Array::Handle();
   const Function& function = Function::Handle(
       Resolver::ResolveDynamic(left,
                                function_name,
                                kNumArguments,
                                kNumNamedArguments));
   ASSERT(!function.IsNull());
   const Object& result = Object::Handle(
       DartEntry::InvokeDynamic(left, function, arguments, kNoArgumentNames));
   ASSERT(result.IsInstance() || result.IsError());
   return result.raw();
 }


 RawObject* DartLibraryCalls::HandleMessage(Dart_Port dest_port_id,
                                            Dart_Port reply_port_id,
                                            const Instance& message) {
   Library& isolate_lib = Library::Handle(Library::IsolateLibrary());
   ASSERT(!isolate_lib.IsNull());
   const String& public_class_name =
       String::Handle(Symbols::New("_ReceivePortImpl"));
   const String& class_name =
       String::Handle(isolate_lib.PrivateName(public_class_name));
   const String& function_name =
       String::Handle(Symbols::New("_handleMessage"));
   const int kNumArguments = 3;
   const Array& kNoArgumentNames = Array::Handle();
   const Function& function = Function::Handle(
       Resolver::ResolveStatic(isolate_lib,
                               class_name,
                               function_name,
                               kNumArguments,
                               kNoArgumentNames,
                               Resolver::kIsQualified));
   GrowableArray<const Object*> arguments(kNumArguments);
   arguments.Add(&Integer::Handle(Integer::New(dest_port_id)));
   arguments.Add(&Integer::Handle(Integer::New(reply_port_id)));
   arguments.Add(&message);
   const Object& result = Object::Handle(
       DartEntry::InvokeStatic(function, arguments, kNoArgumentNames));
   ASSERT(result.IsNull() || result.IsError());
   return result.raw();
 }


 RawObject* DartLibraryCalls::NewSendPort(intptr_t port_id) {
   Library& isolate_lib = Library::Handle(Library::IsolateLibrary());
   ASSERT(!isolate_lib.IsNull());
   const String& public_class_name =
       String::Handle(String::New("_SendPortImpl"));
   const String& class_name =
       String::Handle(isolate_lib.PrivateName(public_class_name));
   const String& function_name = String::Handle(Symbols::New("_create"));
   const int kNumArguments = 1;
   const Array& kNoArgumentNames = Array::Handle();
   const Function& function = Function::Handle(
       Resolver::ResolveStatic(isolate_lib,
                               class_name,
                               function_name,
                               kNumArguments,
                               kNoArgumentNames,
                               Resolver::kIsQualified));
   GrowableArray<const Object*> arguments(kNumArguments);
   arguments.Add(&Integer::Handle(Integer::New(port_id)));
   return DartEntry::InvokeStatic(function, arguments, kNoArgumentNames);
 }


 RawObject* DartLibraryCalls::MapSetAt(const Instance& map,
                                       const Instance& key,
                                       const Instance& value) {
   String& name = String::Handle(String::New("[]="));
   const Function& function = Function::Handle(
       Resolver::ResolveDynamic(map, name, 3, 0));
   ASSERT(!function.IsNull());
   GrowableArray<const Object*> args(2);
   args.Add(&key);
   args.Add(&value);
   const Array& kNoArgumentNames = Array::Handle();
   const Object& result = Object::Handle(
       DartEntry::InvokeDynamic(map, function, args, kNoArgumentNames));
   return result.raw();
 }


 RawObject* DartLibraryCalls::PortGetId(const Instance& port) {
   const String& field_name = String::Handle(Symbols::New("_id"));
   const Class& cls = Class::Handle(port.clazz());
   const String& func_name = String::Handle(Field::GetterName(field_name));
   const Function& func = Function::Handle(cls.LookupDynamicFunction(func_name));
   ASSERT(!func.IsNull());
   GrowableArray<const Object*> arguments;
   const Array& kNoArgumentNames = Array::Handle();
   return DartEntry::InvokeDynamic(port, func, arguments, kNoArgumentNames);
 }


 }  // namespace dart
	// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/dart_entry.h"

	#include "vm/code_generator.h"
	#include "vm/compiler.h"
	#include "vm/object_store.h"
	#include "vm/resolver.h"
	#include "vm/stub_code.h"
	#include "vm/symbols.h"

	namespace dart {

	RawObject* DartEntry::InvokeDynamic(
	const Instance& receiver,
	const Function& function,
	const GrowableArray<const Object*>& arguments,
	const Array& optional_arguments_names) {
	// Get the entrypoint corresponding to the function specified, this
	// will result in a compilation of the function if it is not already
	// compiled.
	if (!function.HasCode()) {
	const Error& error = Error::Handle(Compiler::CompileFunction(function));
	if (!error.IsNull()) {
	return error.raw();
	}
	}

	// Set up arguments to include the receiver as the first argument.
	const int num_arguments = arguments.length() + 1;
	GrowableArray<const Object*> args(num_arguments);
	const Object& arg0 = Object::ZoneHandle(receiver.raw());
	args.Add(&arg0);
	for (int i = 1; i < num_arguments; i++) {
	args.Add(arguments[i - 1]);
	}
	// Now Call the invoke stub which will invoke the dart function.
	invokestub entrypoint = reinterpret_cast<invokestub>(
	StubCode::InvokeDartCodeEntryPoint());
	const Context& context =
	Context::ZoneHandle(Isolate::Current()->object_store()->empty_context());
	ASSERT(context.isolate() == Isolate::Current());
	const Code& code = Code::Handle(function.CurrentCode());
	ASSERT(!code.IsNull());
	return entrypoint(
	code.EntryPoint(),
	ArgumentsDescriptor(num_arguments, optional_arguments_names),
	args.data(),
	context);
	}


	RawObject* DartEntry::InvokeStatic(
	const Function& function,
	const GrowableArray<const Object*>& arguments,
	const Array& optional_arguments_names) {
	// Get the entrypoint corresponding to the function specified, this
	// will result in a compilation of the function if it is not already
	// compiled.
	ASSERT(!function.IsNull());
	if (!function.HasCode()) {
	const Error& error = Error::Handle(Compiler::CompileFunction(function));
	if (!error.IsNull()) {
	return error.raw();
	}
	}
	// Now Call the invoke stub which will invoke the dart function.
	invokestub entrypoint = reinterpret_cast<invokestub>(
	StubCode::InvokeDartCodeEntryPoint());
	const Context& context =
	Context::ZoneHandle(Isolate::Current()->object_store()->empty_context());
	ASSERT(context.isolate() == Isolate::Current());
	const Code& code = Code::Handle(function.CurrentCode());
	ASSERT(!code.IsNull());
	return entrypoint(
	code.EntryPoint(),
	ArgumentsDescriptor(arguments.length(), optional_arguments_names),
	arguments.data(),
	context);
	}


	RawObject* DartEntry::InvokeClosure(
	const Instance& closure,
	const GrowableArray<const Object*>& arguments,
	const Array& optional_arguments_names) {
	// Get the entrypoint corresponding to the closure specified, this
	// will result in a compilation of the closure if it is not already
	// compiled.
	ASSERT(Class::Handle(closure.clazz()).signature_function() != Object::null());
	const Function& function = Function::Handle(Closure::function(closure));
	const Context& context = Context::Handle(Closure::context(closure));
	ASSERT(!function.IsNull());
	if (!function.HasCode()) {
	const Error& error = Error::Handle(Compiler::CompileFunction(function));
	if (!error.IsNull()) {
	return error.raw();
	}
	}
	// Set up arguments to include the closure as the first argument.
	const int num_arguments = arguments.length() + 1;
	GrowableArray<const Object*> args(num_arguments);
	const Object& arg0 = Object::ZoneHandle(closure.raw());
	args.Add(&arg0);
	for (int i = 1; i < num_arguments; i++) {
	args.Add(arguments[i - 1]);
	}
	// Now Call the invoke stub which will invoke the closure.
	invokestub entrypoint = reinterpret_cast<invokestub>(
	StubCode::InvokeDartCodeEntryPoint());
	ASSERT(context.isolate() == Isolate::Current());
	const Code& code = Code::Handle(function.CurrentCode());
	ASSERT(!code.IsNull());
	return entrypoint(
	code.EntryPoint(),
	ArgumentsDescriptor(num_arguments, optional_arguments_names),
	args.data(),
	context);
	}


	const Array& DartEntry::ArgumentsDescriptor(
	int num_arguments,
	const Array& optional_arguments_names) {
	const intptr_t num_named_args =
	optional_arguments_names.IsNull() ? 0 : optional_arguments_names.Length();
	const intptr_t num_pos_args = num_arguments - num_named_args;

	// Build the argument descriptor array, which consists of the total number of
	// arguments, the number of positional arguments, alphabetically sorted
	// pairs of name/position, and a terminating null.
	const int descriptor_len = 3 + (2 * num_named_args);
	Array& descriptor = Array::ZoneHandle(Array::New(descriptor_len, Heap::kOld));

	// Set total number of passed arguments.
	descriptor.SetAt(0, Smi::Handle(Smi::New(num_arguments)));
	// Set number of positional arguments.
	descriptor.SetAt(1, Smi::Handle(Smi::New(num_pos_args)));
	// Set alphabetically sorted pairs of name/position for named arguments.
	String& name = String::Handle();
	Smi& pos = Smi::Handle();
	for (int i = 0; i < num_named_args; i++) {
	name ^= optional_arguments_names.At(i);
	pos = Smi::New(num_pos_args + i);
	int j = i;
	// Shift already inserted pairs with "larger" names.
	String& name_j = String::Handle();
	Smi& pos_j = Smi::Handle();
	while (--j >= 0) {
	name_j ^= descriptor.At(2 + (2 * j));
	const intptr_t result = name.CompareTo(name_j);
	ASSERT(result != 0); // Duplicate argument names checked in parser.
	if (result > 0) break;
	pos_j ^= descriptor.At(3 + (2 * j));
	descriptor.SetAt(2 + (2 * (j + 1)), name_j);
	descriptor.SetAt(3 + (2 * (j + 1)), pos_j);
	}
	// Insert pair in descriptor array.
	descriptor.SetAt(2 + (2 * (j + 1)), name);
	descriptor.SetAt(3 + (2 * (j + 1)), pos);
	}
	// Set terminating null.
	descriptor.SetAt(descriptor_len - 1, Object::Handle());

	// Share the immutable descriptor when possible by canonicalizing it.
	descriptor.MakeImmutable();
	descriptor ^= descriptor.Canonicalize();
	return descriptor;
	}


	RawObject* DartLibraryCalls::ExceptionCreate(
	const Library& lib,
	const String& class_name,
	const GrowableArray<const Object*>& arguments) {
	const Class& cls = Class::Handle(lib.LookupClassAllowPrivate(class_name));
	ASSERT(!cls.IsNull());
	// For now, we only support a non-parameterized or raw type.
	const Instance& exception_object = Instance::Handle(Instance::New(cls));
	GrowableArray<const Object*> constructor_arguments(arguments.length() + 2);
	constructor_arguments.Add(&exception_object);
	constructor_arguments.Add(&Smi::Handle(Smi::New(Function::kCtorPhaseAll)));
	constructor_arguments.AddArray(arguments);

	const String& period = String::Handle(Symbols::Dot());
	String& constructor_name = String::Handle(String::Concat(class_name, period));
	Function& constructor =
	Function::Handle(cls.LookupConstructor(constructor_name));
	ASSERT(!constructor.IsNull());
	const Array& kNoArgumentNames = Array::Handle();
	const Object& retval = Object::Handle(
	DartEntry::InvokeStatic(constructor, constructor_arguments,
	kNoArgumentNames));
	ASSERT(retval.IsNull() \|\| retval.IsError());
	if (retval.IsError()) {
	return retval.raw();
	}
	return exception_object.raw();
	}


	RawObject* DartLibraryCalls::ToString(const Instance& receiver) {
	const String& function_name =
	String::Handle(Symbols::New("toString"));
	GrowableArray<const Object*> arguments;
	const int kNumArguments = 1; // Receiver.
	const int kNumNamedArguments = 0; // None.
	const Array& kNoArgumentNames = Array::Handle();
	const Function& function = Function::Handle(
	Resolver::ResolveDynamic(receiver,
	function_name,
	kNumArguments,
	kNumNamedArguments));
	ASSERT(!function.IsNull());
	const Object& result = Object::Handle(
	DartEntry::InvokeDynamic(receiver,
	function,
	arguments,
	kNoArgumentNames));
	ASSERT(result.IsInstance() \|\| result.IsError());
	return result.raw();
	}


	RawObject* DartLibraryCalls::Equals(const Instance& left,
	const Instance& right) {
	const String& function_name = String::Handle(Symbols::EqualOperator());
	GrowableArray<const Object*> arguments;
	arguments.Add(&right);
	const int kNumArguments = 2;
	const int kNumNamedArguments = 0;
	const Array& kNoArgumentNames = Array::Handle();
	const Function& function = Function::Handle(
	Resolver::ResolveDynamic(left,
	function_name,
	kNumArguments,
	kNumNamedArguments));
	ASSERT(!function.IsNull());
	const Object& result = Object::Handle(
	DartEntry::InvokeDynamic(left, function, arguments, kNoArgumentNames));
	ASSERT(result.IsInstance() \|\| result.IsError());
	return result.raw();
	}


	RawObject* DartLibraryCalls::HandleMessage(Dart_Port dest_port_id,
	Dart_Port reply_port_id,
	const Instance& message) {
	Library& isolate_lib = Library::Handle(Library::IsolateLibrary());
	ASSERT(!isolate_lib.IsNull());
	const String& public_class_name =
	String::Handle(Symbols::New("_ReceivePortImpl"));
	const String& class_name =
	String::Handle(isolate_lib.PrivateName(public_class_name));
	const String& function_name =
	String::Handle(Symbols::New("_handleMessage"));
	const int kNumArguments = 3;
	const Array& kNoArgumentNames = Array::Handle();
	const Function& function = Function::Handle(
	Resolver::ResolveStatic(isolate_lib,
	class_name,
	function_name,
	kNumArguments,
	kNoArgumentNames,
	Resolver::kIsQualified));
	GrowableArray<const Object*> arguments(kNumArguments);
	arguments.Add(&Integer::Handle(Integer::New(dest_port_id)));
	arguments.Add(&Integer::Handle(Integer::New(reply_port_id)));
	arguments.Add(&message);
	const Object& result = Object::Handle(
	DartEntry::InvokeStatic(function, arguments, kNoArgumentNames));
	ASSERT(result.IsNull() \|\| result.IsError());
	return result.raw();
	}


	RawObject* DartLibraryCalls::NewSendPort(intptr_t port_id) {
	Library& isolate_lib = Library::Handle(Library::IsolateLibrary());
	ASSERT(!isolate_lib.IsNull());
	const String& public_class_name =
	String::Handle(String::New("_SendPortImpl"));
	const String& class_name =
	String::Handle(isolate_lib.PrivateName(public_class_name));
	const String& function_name = String::Handle(Symbols::New("_create"));
	const int kNumArguments = 1;
	const Array& kNoArgumentNames = Array::Handle();
	const Function& function = Function::Handle(
	Resolver::ResolveStatic(isolate_lib,
	class_name,
	function_name,
	kNumArguments,
	kNoArgumentNames,
	Resolver::kIsQualified));
	GrowableArray<const Object*> arguments(kNumArguments);
	arguments.Add(&Integer::Handle(Integer::New(port_id)));
	return DartEntry::InvokeStatic(function, arguments, kNoArgumentNames);
	}


	RawObject* DartLibraryCalls::MapSetAt(const Instance& map,
	const Instance& key,
	const Instance& value) {
	String& name = String::Handle(String::New("[]="));
	const Function& function = Function::Handle(
	Resolver::ResolveDynamic(map, name, 3, 0));
	ASSERT(!function.IsNull());
	GrowableArray<const Object*> args(2);
	args.Add(&key);
	args.Add(&value);
	const Array& kNoArgumentNames = Array::Handle();
	const Object& result = Object::Handle(
	DartEntry::InvokeDynamic(map, function, args, kNoArgumentNames));
	return result.raw();
	}


	RawObject* DartLibraryCalls::PortGetId(const Instance& port) {
	const String& field_name = String::Handle(Symbols::New("_id"));
	const Class& cls = Class::Handle(port.clazz());
	const String& func_name = String::Handle(Field::GetterName(field_name));
	const Function& func = Function::Handle(cls.LookupDynamicFunction(func_name));
	ASSERT(!func.IsNull());
	GrowableArray<const Object*> arguments;
	const Array& kNoArgumentNames = Array::Handle();
	return DartEntry::InvokeDynamic(port, func, arguments, kNoArgumentNames);
	}


	} // namespace dart