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// 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/simulator.h"
#include "vm/stub_code.h"
#include "vm/symbols.h"
namespace dart {
// A cache of VM heap allocated arguments descriptors.
RawArray* ArgumentsDescriptor::cached_args_descriptors_[kCachedDescriptorCount];
RawObject* DartEntry::InvokeFunction(const Function& function,
const Array& arguments) {
const Array& arguments_descriptor =
Array::Handle(ArgumentsDescriptor::New(arguments.Length()));
return InvokeFunction(function, arguments, arguments_descriptor);
}
RawObject* DartEntry::InvokeFunction(const Function& function,
const Array& arguments,
const Array& arguments_descriptor) {
const Context& context =
Context::ZoneHandle(Isolate::Current()->object_store()->empty_context());
ASSERT(context.isolate() == Isolate::Current());
return InvokeFunction(function, arguments, arguments_descriptor, context);
}
RawObject* DartEntry::InvokeFunction(const Function& function,
const Array& arguments,
const Array& arguments_descriptor,
const Context& context) {
// 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();
}
}
// Now Call the invoke stub which will invoke the dart function.
invokestub entrypoint = reinterpret_cast<invokestub>(
StubCode::InvokeDartCodeEntryPoint());
const Code& code = Code::Handle(function.CurrentCode());
ASSERT(!code.IsNull());
ASSERT(Isolate::Current()->no_callback_scope_depth() == 0);
IsolateRunStateManager run_state_manager;
run_state_manager.SetRunState(Isolate::kIsolateRunning);
#if defined(USING_SIMULATOR)
return bit_copy<RawObject*, int64_t>(Simulator::Current()->Call(
reinterpret_cast<int32_t>(entrypoint),
static_cast<int32_t>(code.EntryPoint()),
reinterpret_cast<int32_t>(&arguments_descriptor),
reinterpret_cast<int32_t>(&arguments),
reinterpret_cast<int32_t>(&context)));
#else
return entrypoint(code.EntryPoint(),
arguments_descriptor,
arguments,
context);
#endif
}
RawObject* DartEntry::InvokeClosure(const Array& arguments) {
const Array& arguments_descriptor =
Array::Handle(ArgumentsDescriptor::New(arguments.Length()));
return InvokeClosure(arguments, arguments_descriptor);
}
RawObject* DartEntry::InvokeClosure(const Array& arguments,
const Array& arguments_descriptor) {
Instance& instance = Instance::Handle();
instance ^= arguments.At(0);
// Get the entrypoint corresponding to the closure function or to the call
// method of the instance. This will result in a compilation of the function
// if it is not already compiled.
Function& function = Function::Handle();
Context& context = Context::Handle();
if (instance.IsCallable(&function, &context)) {
// Only invoke the function if its arguments are compatible.
const ArgumentsDescriptor args_desc(arguments_descriptor);
if (function.AreValidArgumentCounts(args_desc.Count(),
args_desc.NamedCount(),
NULL)) {
// The closure or non-closure object (receiver) is passed as implicit
// first argument. It is already included in the arguments array.
return InvokeFunction(function, arguments, arguments_descriptor, context);
}
}
// There is no compatible 'call' method, so invoke noSuchMethod.
return InvokeNoSuchMethod(instance,
Symbols::Call(),
arguments,
arguments_descriptor);
}
RawObject* DartEntry::InvokeNoSuchMethod(const Instance& receiver,
const String& target_name,
const Array& arguments,
const Array& arguments_descriptor) {
ASSERT(receiver.raw() == arguments.At(0));
// Allocate an Invocation object.
const Library& core_lib = Library::Handle(Library::CoreLibrary());
Class& invocation_mirror_class = Class::Handle(
core_lib.LookupClass(
String::Handle(core_lib.PrivateName(Symbols::InvocationMirror()))));
ASSERT(!invocation_mirror_class.IsNull());
const String& function_name =
String::Handle(core_lib.PrivateName(Symbols::AllocateInvocationMirror()));
const Function& allocation_function = Function::Handle(
Resolver::ResolveStaticByName(invocation_mirror_class,
function_name,
Resolver::kIsQualified));
ASSERT(!allocation_function.IsNull());
const int kNumAllocationArgs = 3;
const Array& allocation_args = Array::Handle(Array::New(kNumAllocationArgs));
allocation_args.SetAt(0, target_name);
allocation_args.SetAt(1, arguments_descriptor);
allocation_args.SetAt(2, arguments);
const Object& invocation_mirror = Object::Handle(
InvokeFunction(allocation_function, allocation_args));
// Now use the invocation mirror object and invoke NoSuchMethod.
const int kNumArguments = 2;
const int kNumNamedArguments = 0;
const Function& function = Function::Handle(
Resolver::ResolveDynamic(receiver,
Symbols::NoSuchMethod(),
kNumArguments,
kNumNamedArguments));
ASSERT(!function.IsNull());
const Array& args = Array::Handle(Array::New(kNumArguments));
args.SetAt(0, receiver);
args.SetAt(1, invocation_mirror);
return InvokeFunction(function, args);
}
ArgumentsDescriptor::ArgumentsDescriptor(const Array& array)
: array_(array) {
}
intptr_t ArgumentsDescriptor::Count() const {
return Smi::CheckedHandle(array_.At(kCountIndex)).Value();
}
intptr_t ArgumentsDescriptor::PositionalCount() const {
return Smi::CheckedHandle(array_.At(kPositionalCountIndex)).Value();
}
bool ArgumentsDescriptor::MatchesNameAt(intptr_t index,
const String& other) const {
const intptr_t offset = kFirstNamedEntryIndex +
(index * kNamedEntrySize) +
kNameOffset;
return array_.At(offset) == other.raw();
}
intptr_t ArgumentsDescriptor::count_offset() {
return Array::data_offset() + (kCountIndex * kWordSize);
}
intptr_t ArgumentsDescriptor::positional_count_offset() {
return Array::data_offset() + (kPositionalCountIndex * kWordSize);
}
intptr_t ArgumentsDescriptor::first_named_entry_offset() {
return Array::data_offset() + (kFirstNamedEntryIndex * kWordSize);
}
RawArray* ArgumentsDescriptor::New(intptr_t num_arguments,
const Array& optional_arguments_names) {
const intptr_t num_named_args =
optional_arguments_names.IsNull() ? 0 : optional_arguments_names.Length();
if (num_named_args == 0) {
return ArgumentsDescriptor::New(num_arguments);
}
const intptr_t num_pos_args = num_arguments - num_named_args;
// Build the arguments descriptor array, which consists of the total
// argument count; the positional argument count; a sequence of (name,
// position) pairs, sorted by name, for each named optional argument; and
// a terminating null to simplify iterating in generated code.
const intptr_t descriptor_len = LengthFor(num_named_args);
Array& descriptor = Array::Handle(Array::New(descriptor_len, Heap::kOld));
// Set total number of passed arguments.
descriptor.SetAt(kCountIndex, Smi::Handle(Smi::New(num_arguments)));
// Set number of positional arguments.
descriptor.SetAt(kPositionalCountIndex, Smi::Handle(Smi::New(num_pos_args)));
// Set alphabetically sorted entries for named arguments.
String& name = String::Handle();
Smi& pos = Smi::Handle();
for (intptr_t i = 0; i < num_named_args; i++) {
name ^= optional_arguments_names.At(i);
pos = Smi::New(num_pos_args + i);
intptr_t insert_index = kFirstNamedEntryIndex + (kNamedEntrySize * i);
// Shift already inserted pairs with "larger" names.
String& previous_name = String::Handle();
Smi& previous_pos = Smi::Handle();
while (insert_index > kFirstNamedEntryIndex) {
intptr_t previous_index = insert_index - kNamedEntrySize;
previous_name ^= descriptor.At(previous_index + kNameOffset);
intptr_t result = name.CompareTo(previous_name);
ASSERT(result != 0); // Duplicate argument names checked in parser.
if (result > 0) break;
previous_pos ^= descriptor.At(previous_index + kPositionOffset);
descriptor.SetAt(insert_index + kNameOffset, previous_name);
descriptor.SetAt(insert_index + kPositionOffset, previous_pos);
insert_index = previous_index;
}
// Insert pair in descriptor array.
descriptor.SetAt(insert_index + kNameOffset, name);
descriptor.SetAt(insert_index + kPositionOffset, 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.raw();
}
RawArray* ArgumentsDescriptor::New(intptr_t num_arguments) {
ASSERT(num_arguments >= 0);
if (num_arguments < kCachedDescriptorCount) {
return cached_args_descriptors_[num_arguments];
}
return NewNonCached(num_arguments);
}
RawArray* ArgumentsDescriptor::NewNonCached(intptr_t num_arguments,
bool canonicalize) {
// Build the arguments descriptor array, which consists of the total
// argument count; the positional argument count; and
// a terminating null to simplify iterating in generated code.
const intptr_t descriptor_len = LengthFor(0);
Array& descriptor = Array::Handle(Array::New(descriptor_len, Heap::kOld));
const Smi& arg_count = Smi::Handle(Smi::New(num_arguments));
// Set total number of passed arguments.
descriptor.SetAt(kCountIndex, arg_count);
// Set number of positional arguments.
descriptor.SetAt(kPositionalCountIndex, arg_count);
// Set terminating null.
descriptor.SetAt((descriptor_len - 1), Object::Handle());
// Share the immutable descriptor when possible by canonicalizing it.
descriptor.MakeImmutable();
if (canonicalize) {
descriptor ^= descriptor.Canonicalize();
}
return descriptor.raw();
}
void ArgumentsDescriptor::InitOnce() {
for (int i = 0; i < kCachedDescriptorCount; i++) {
cached_args_descriptors_[i] = ArgumentsDescriptor::NewNonCached(i, false);
}
}
RawObject* DartLibraryCalls::ExceptionCreate(const Library& lib,
const String& class_name,
const String& constructor_name,
const Array& 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 int kNumExtraArgs = 2; // implicit rcvr and construction phase args.
const Instance& exception_object = Instance::Handle(Instance::New(cls));
const Array& constructor_arguments =
Array::Handle(Array::New(arguments.Length() + kNumExtraArgs));
constructor_arguments.SetAt(0, exception_object);
constructor_arguments.SetAt(
1, Smi::Handle(Smi::New(Function::kCtorPhaseAll)));
Object& obj = Object::Handle();
for (intptr_t i = 0; i < arguments.Length(); i++) {
obj = arguments.At(i);
constructor_arguments.SetAt((i + kNumExtraArgs), obj);
}
const String& function_name = String::Handle(
String::Concat(class_name, constructor_name));
const Function& constructor =
Function::Handle(cls.LookupConstructorAllowPrivate(function_name));
ASSERT(!constructor.IsNull());
const Object& retval =
Object::Handle(DartEntry::InvokeFunction(constructor,
constructor_arguments));
ASSERT(retval.IsNull() || retval.IsError());
if (retval.IsError()) {
return retval.raw();
}
return exception_object.raw();
}
RawObject* DartLibraryCalls::ToString(const Instance& receiver) {
const int kNumArguments = 1; // Receiver.
const int kNumNamedArguments = 0; // None.
const Function& function = Function::Handle(
Resolver::ResolveDynamic(receiver,
Symbols::toString(),
kNumArguments,
kNumNamedArguments));
ASSERT(!function.IsNull());
const Array& args = Array::Handle(Array::New(kNumArguments));
args.SetAt(0, receiver);
const Object& result = Object::Handle(DartEntry::InvokeFunction(function,
args));
ASSERT(result.IsInstance() || result.IsError());
return result.raw();
}
RawObject* DartLibraryCalls::Equals(const Instance& left,
const Instance& right) {
const int kNumArguments = 2;
const int kNumNamedArguments = 0;
const Function& function = Function::Handle(
Resolver::ResolveDynamic(left,
Symbols::EqualOperator(),
kNumArguments,
kNumNamedArguments));
ASSERT(!function.IsNull());
const Array& args = Array::Handle(Array::New(kNumArguments));
args.SetAt(0, left);
args.SetAt(1, right);
const Object& result = Object::Handle(DartEntry::InvokeFunction(function,
args));
ASSERT(result.IsInstance() || result.IsError());
return result.raw();
}
RawObject* DartLibraryCalls::LookupReceivePort(Dart_Port port_id) {
Isolate* isolate = Isolate::Current();
Function& function =
Function::Handle(isolate,
isolate->object_store()->lookup_receive_port_function());
const int kNumArguments = 1;
if (function.IsNull()) {
Library& isolate_lib = Library::Handle(Library::IsolateLibrary());
ASSERT(!isolate_lib.IsNull());
const String& class_name =
String::Handle(isolate_lib.PrivateName(Symbols::_ReceivePortImpl()));
const String& function_name =
String::Handle(isolate_lib.PrivateName(Symbols::_lookupReceivePort()));
function = Resolver::ResolveStatic(isolate_lib,
class_name,
function_name,
kNumArguments,
Object::empty_array(),
Resolver::kIsQualified);
isolate->object_store()->set_lookup_receive_port_function(function);
}
const Array& args = Array::Handle(Array::New(kNumArguments));
args.SetAt(0, Integer::Handle(Integer::New(port_id)));
const Object& result =
Object::Handle(DartEntry::InvokeFunction(function, args));
return result.raw();
}
RawObject* DartLibraryCalls::HandleMessage(const Object& receive_port,
Dart_Port reply_port_id,
const Instance& message) {
Isolate* isolate = Isolate::Current();
Function& function =
Function::Handle(isolate,
isolate->object_store()->handle_message_function());
const int kNumArguments = 3;
if (function.IsNull()) {
Library& isolate_lib = Library::Handle(Library::IsolateLibrary());
ASSERT(!isolate_lib.IsNull());
const String& class_name =
String::Handle(isolate_lib.PrivateName(Symbols::_ReceivePortImpl()));
const String& function_name =
String::Handle(isolate_lib.PrivateName(Symbols::_handleMessage()));
function = Resolver::ResolveStatic(isolate_lib,
class_name,
function_name,
kNumArguments,
Object::empty_array(),
Resolver::kIsQualified);
isolate->object_store()->set_handle_message_function(function);
}
const Array& args = Array::Handle(isolate, Array::New(kNumArguments));
args.SetAt(0, receive_port);
args.SetAt(1, Integer::Handle(isolate, Integer::New(reply_port_id)));
args.SetAt(2, message);
const Object& result =
Object::Handle(isolate, DartEntry::InvokeFunction(function, args));
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& class_name =
String::Handle(isolate_lib.PrivateName(Symbols::_SendPortImpl()));
const int kNumArguments = 1;
const String& function_name =
String::Handle(isolate_lib.PrivateName(Symbols::_create()));
const Function& function = Function::Handle(
Resolver::ResolveStatic(isolate_lib,
class_name,
function_name,
kNumArguments,
Object::empty_array(),
Resolver::kIsQualified));
const Array& args = Array::Handle(Array::New(kNumArguments));
args.SetAt(0, Integer::Handle(Integer::New(port_id)));
return DartEntry::InvokeFunction(function, args);
}
RawObject* DartLibraryCalls::MapSetAt(const Instance& map,
const Instance& key,
const Instance& value) {
const int kNumArguments = 3;
const Function& function = Function::Handle(
Resolver::ResolveDynamic(map,
Symbols::AssignIndexToken(),
kNumArguments,
0));
ASSERT(!function.IsNull());
const Array& args = Array::Handle(Array::New(kNumArguments));
args.SetAt(0, map);
args.SetAt(1, key);
args.SetAt(2, value);
const Object& result = Object::Handle(DartEntry::InvokeFunction(function,
args));
return result.raw();
}
RawObject* DartLibraryCalls::PortGetId(const Instance& port) {
const Class& cls = Class::Handle(port.clazz());
const Library& isolate_lib = Library::Handle(Library::IsolateLibrary());
const String& func_name =
String::Handle(isolate_lib.PrivateName(
String::Handle(Field::GetterName(Symbols::_id()))));
const Function& func = Function::Handle(cls.LookupDynamicFunction(func_name));
ASSERT(!func.IsNull());
const Array& args = Array::Handle(Array::New(1));
args.SetAt(0, port);
return DartEntry::InvokeFunction(func, args);
}
} // namespace dart