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

 // Copyright (c) 2012, 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/stub_code.h"

 #include "platform/assert.h"
 #include "platform/globals.h"
 #include "vm/assembler.h"
 #include "vm/disassembler.h"
 #include "vm/flags.h"
 #include "vm/object_store.h"
 #include "vm/virtual_memory.h"
 #include "vm/visitor.h"

 namespace dart {

 DEFINE_FLAG(bool, disassemble_stubs, false, "Disassemble generated stubs.");

 #define STUB_CODE_DECLARE(name)                                                \
   StubEntry* StubCode::name##_entry_ = NULL;
 VM_STUB_CODE_LIST(STUB_CODE_DECLARE);
 #undef STUB_CODE_DECLARE


 StubEntry::StubEntry(const Code& code)
     : code_(code.raw()),
       entry_point_(code.EntryPoint()),
       size_(code.Size()),
       label_(code.EntryPoint()) {
 }


 // Visit all object pointers.
 void StubEntry::VisitObjectPointers(ObjectPointerVisitor* visitor) {
   ASSERT(visitor != NULL);
   visitor->VisitPointer(reinterpret_cast<RawObject**>(&code_));
 }


 StubCode::~StubCode() {
 #define STUB_CODE_DELETER(name)                                                \
   delete name##_entry_;
   STUB_CODE_LIST(STUB_CODE_DELETER);
 #undef STUB_CODE_DELETER
 }


 #define STUB_CODE_GENERATE(name)                                               \
   code ^= Generate("_stub_"#name, StubCode::Generate##name##Stub);             \
   name##_entry_ = new StubEntry(code);


 void StubCode::InitOnce() {
   // Generate all the stubs.
   Code& code = Code::Handle();
   VM_STUB_CODE_LIST(STUB_CODE_GENERATE);
 }


 void StubCode::GenerateBootstrapStubsFor(Isolate* init) {
   // Generate initial stubs.
   Code& code = Code::Handle();
   BOOTSTRAP_STUB_CODE_LIST(STUB_CODE_GENERATE);
 }


 void StubCode::GenerateStubsFor(Isolate* init) {
   // Generate all the other stubs.
   Code& code = Code::Handle();
   REST_STUB_CODE_LIST(STUB_CODE_GENERATE);
 }

 #undef STUB_CODE_GENERATE


 void StubCode::InitBootstrapStubs(Isolate* isolate) {
   StubCode* stubs = new StubCode(isolate);
   isolate->set_stub_code(stubs);
   stubs->GenerateBootstrapStubsFor(isolate);
 }


 void StubCode::Init(Isolate* isolate) {
   isolate->stub_code()->GenerateStubsFor(isolate);
 }


 void StubCode::VisitObjectPointers(ObjectPointerVisitor* visitor) {
   // The current isolate is needed as part of the macro.
   Isolate* isolate = Isolate::Current();
   StubCode* stubs = isolate->stub_code();
   if (stubs == NULL) return;
   StubEntry* entry;
 #define STUB_CODE_VISIT_OBJECT_POINTER(name)                                   \
   entry = stubs->name##_entry();                                               \
   if (entry != NULL) {                                                         \
     entry->VisitObjectPointers(visitor);                                       \
   }

   STUB_CODE_LIST(STUB_CODE_VISIT_OBJECT_POINTER);
 #undef STUB_CODE_VISIT_OBJECT_POINTER
 }


 bool StubCode::InInvocationStub(uword pc) {
   return InInvocationStubForIsolate(Isolate::Current(), pc);
 }


 bool StubCode::InInvocationStubForIsolate(Isolate* isolate, uword pc) {
   StubCode* stub_code = isolate->stub_code();
   uword entry = stub_code->InvokeDartCodeEntryPoint();
   uword size = stub_code->InvokeDartCodeSize();
   return (pc >= entry) && (pc < (entry + size));
 }


 bool StubCode::InJumpToExceptionHandlerStub(uword pc) {
   uword entry = StubCode::JumpToExceptionHandlerEntryPoint();
   uword size = StubCode::JumpToExceptionHandlerSize();
   return (pc >= entry) && (pc < (entry + size));
 }


 RawCode* StubCode::GetAllocateArrayStub() {
   const Class& array_cls = Class::Handle(isolate_,
       isolate_->object_store()->array_class());
   return GetAllocationStubForClass(array_cls);
 }


 RawCode* StubCode::GetAllocationStubForClass(const Class& cls) {
   Isolate* isolate = Isolate::Current();
   const Error& error = Error::Handle(isolate, cls.EnsureIsFinalized(isolate));
   ASSERT(error.IsNull());
   Code& stub = Code::Handle(isolate, cls.allocation_stub());
   if (stub.IsNull()) {
     Assembler assembler;
     const char* name = cls.ToCString();
     uword patch_code_offset = 0;
     uword entry_patch_offset = 0;
     if (cls.id() == kArrayCid) {
       StubCode::GeneratePatchableAllocateArrayStub(
           &assembler, &entry_patch_offset, &patch_code_offset);
     } else {
       StubCode::GenerateAllocationStubForClass(
           &assembler, cls, &entry_patch_offset, &patch_code_offset);
     }
     stub ^= Code::FinalizeCode(name, &assembler);
     stub.set_owner(cls);
     cls.set_allocation_stub(stub);
     if (FLAG_disassemble_stubs) {
       OS::Print("Code for allocation stub '%s': {\n", name);
       DisassembleToStdout formatter;
       stub.Disassemble(&formatter);
       OS::Print("}\n");
     }
     stub.set_entry_patch_pc_offset(entry_patch_offset);
     stub.set_patch_code_pc_offset(patch_code_offset);
   }
   return stub.raw();
 }


 uword StubCode::UnoptimizedStaticCallEntryPoint(intptr_t num_args_tested) {
   switch (num_args_tested) {
     case 0:
       return ZeroArgsUnoptimizedStaticCallEntryPoint();
     case 1:
       return OneArgUnoptimizedStaticCallEntryPoint();
     case 2:
       return TwoArgsUnoptimizedStaticCallEntryPoint();
     default:
       UNIMPLEMENTED();
       return 0;
   }
 }


 RawCode* StubCode::Generate(const char* name,
                             void (*GenerateStub)(Assembler* assembler)) {
   Assembler assembler;
   GenerateStub(&assembler);
   const Code& code = Code::Handle(Code::FinalizeCode(name, &assembler));
   if (FLAG_disassemble_stubs) {
     OS::Print("Code for stub '%s': {\n", name);
     DisassembleToStdout formatter;
     code.Disassemble(&formatter);
     OS::Print("}\n");
   }
   return code.raw();
 }


 const char* StubCode::NameOfStub(uword entry_point) {
 #define VM_STUB_CODE_TESTER(name)                                              \
   if ((name##_entry() != NULL) && (entry_point == name##EntryPoint())) {       \
     return ""#name;                                                            \
   }
   VM_STUB_CODE_LIST(VM_STUB_CODE_TESTER);

 #define STUB_CODE_TESTER(name)                                                 \
   if ((isolate->stub_code()->name##_entry() != NULL) &&                        \
       (entry_point == isolate->stub_code()->name##EntryPoint())) {             \
     return ""#name;                                                            \
   }
   Isolate* isolate = Isolate::Current();
   if ((isolate != NULL) && (isolate->stub_code() != NULL)) {
     STUB_CODE_LIST(STUB_CODE_TESTER);
   }
 #undef VM_STUB_CODE_TESTER
 #undef STUB_CODE_TESTER
   return NULL;
 }

 }  // namespace dart
	// Copyright (c) 2012, 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/stub_code.h"

	#include "platform/assert.h"
	#include "platform/globals.h"
	#include "vm/assembler.h"
	#include "vm/disassembler.h"
	#include "vm/flags.h"
	#include "vm/object_store.h"
	#include "vm/virtual_memory.h"
	#include "vm/visitor.h"

	namespace dart {

	DEFINE_FLAG(bool, disassemble_stubs, false, "Disassemble generated stubs.");

	#define STUB_CODE_DECLARE(name) \
	StubEntry* StubCode::name##_entry_ = NULL;
	VM_STUB_CODE_LIST(STUB_CODE_DECLARE);
	#undef STUB_CODE_DECLARE


	StubEntry::StubEntry(const Code& code)
	: code_(code.raw()),
	entry_point_(code.EntryPoint()),
	size_(code.Size()),
	label_(code.EntryPoint()) {
	}


	// Visit all object pointers.
	void StubEntry::VisitObjectPointers(ObjectPointerVisitor* visitor) {
	ASSERT(visitor != NULL);
	visitor->VisitPointer(reinterpret_cast<RawObject**>(&code_));
	}


	StubCode::~StubCode() {
	#define STUB_CODE_DELETER(name) \
	delete name##_entry_;
	STUB_CODE_LIST(STUB_CODE_DELETER);
	#undef STUB_CODE_DELETER
	}


	#define STUB_CODE_GENERATE(name) \
	code ^= Generate("_stub_"#name, StubCode::Generate##name##Stub); \
	name##_entry_ = new StubEntry(code);


	void StubCode::InitOnce() {
	// Generate all the stubs.
	Code& code = Code::Handle();
	VM_STUB_CODE_LIST(STUB_CODE_GENERATE);
	}


	void StubCode::GenerateBootstrapStubsFor(Isolate* init) {
	// Generate initial stubs.
	Code& code = Code::Handle();
	BOOTSTRAP_STUB_CODE_LIST(STUB_CODE_GENERATE);
	}


	void StubCode::GenerateStubsFor(Isolate* init) {
	// Generate all the other stubs.
	Code& code = Code::Handle();
	REST_STUB_CODE_LIST(STUB_CODE_GENERATE);
	}

	#undef STUB_CODE_GENERATE


	void StubCode::InitBootstrapStubs(Isolate* isolate) {
	StubCode* stubs = new StubCode(isolate);
	isolate->set_stub_code(stubs);
	stubs->GenerateBootstrapStubsFor(isolate);
	}


	void StubCode::Init(Isolate* isolate) {
	isolate->stub_code()->GenerateStubsFor(isolate);
	}


	void StubCode::VisitObjectPointers(ObjectPointerVisitor* visitor) {
	// The current isolate is needed as part of the macro.
	Isolate* isolate = Isolate::Current();
	StubCode* stubs = isolate->stub_code();
	if (stubs == NULL) return;
	StubEntry* entry;
	#define STUB_CODE_VISIT_OBJECT_POINTER(name) \
	entry = stubs->name##_entry(); \
	if (entry != NULL) { \
	entry->VisitObjectPointers(visitor); \
	}

	STUB_CODE_LIST(STUB_CODE_VISIT_OBJECT_POINTER);
	#undef STUB_CODE_VISIT_OBJECT_POINTER
	}


	bool StubCode::InInvocationStub(uword pc) {
	return InInvocationStubForIsolate(Isolate::Current(), pc);
	}


	bool StubCode::InInvocationStubForIsolate(Isolate* isolate, uword pc) {
	StubCode* stub_code = isolate->stub_code();
	uword entry = stub_code->InvokeDartCodeEntryPoint();
	uword size = stub_code->InvokeDartCodeSize();
	return (pc >= entry) && (pc < (entry + size));
	}


	bool StubCode::InJumpToExceptionHandlerStub(uword pc) {
	uword entry = StubCode::JumpToExceptionHandlerEntryPoint();
	uword size = StubCode::JumpToExceptionHandlerSize();
	return (pc >= entry) && (pc < (entry + size));
	}


	RawCode* StubCode::GetAllocateArrayStub() {
	const Class& array_cls = Class::Handle(isolate_,
	isolate_->object_store()->array_class());
	return GetAllocationStubForClass(array_cls);
	}


	RawCode* StubCode::GetAllocationStubForClass(const Class& cls) {
	Isolate* isolate = Isolate::Current();
	const Error& error = Error::Handle(isolate, cls.EnsureIsFinalized(isolate));
	ASSERT(error.IsNull());
	Code& stub = Code::Handle(isolate, cls.allocation_stub());
	if (stub.IsNull()) {
	Assembler assembler;
	const char* name = cls.ToCString();
	uword patch_code_offset = 0;
	uword entry_patch_offset = 0;
	if (cls.id() == kArrayCid) {
	StubCode::GeneratePatchableAllocateArrayStub(
	&assembler, &entry_patch_offset, &patch_code_offset);
	} else {
	StubCode::GenerateAllocationStubForClass(
	&assembler, cls, &entry_patch_offset, &patch_code_offset);
	}
	stub ^= Code::FinalizeCode(name, &assembler);
	stub.set_owner(cls);
	cls.set_allocation_stub(stub);
	if (FLAG_disassemble_stubs) {
	OS::Print("Code for allocation stub '%s': {\n", name);
	DisassembleToStdout formatter;
	stub.Disassemble(&formatter);
	OS::Print("}\n");
	}
	stub.set_entry_patch_pc_offset(entry_patch_offset);
	stub.set_patch_code_pc_offset(patch_code_offset);
	}
	return stub.raw();
	}


	uword StubCode::UnoptimizedStaticCallEntryPoint(intptr_t num_args_tested) {
	switch (num_args_tested) {
	case 0:
	return ZeroArgsUnoptimizedStaticCallEntryPoint();
	case 1:
	return OneArgUnoptimizedStaticCallEntryPoint();
	case 2:
	return TwoArgsUnoptimizedStaticCallEntryPoint();
	default:
	UNIMPLEMENTED();
	return 0;
	}
	}


	RawCode* StubCode::Generate(const char* name,
	void (GenerateStub)(Assembler assembler)) {
	Assembler assembler;
	GenerateStub(&assembler);
	const Code& code = Code::Handle(Code::FinalizeCode(name, &assembler));
	if (FLAG_disassemble_stubs) {
	OS::Print("Code for stub '%s': {\n", name);
	DisassembleToStdout formatter;
	code.Disassemble(&formatter);
	OS::Print("}\n");
	}
	return code.raw();
	}


	const char* StubCode::NameOfStub(uword entry_point) {
	#define VM_STUB_CODE_TESTER(name) \
	if ((name##_entry() != NULL) && (entry_point == name##EntryPoint())) { \
	return ""#name; \
	}
	VM_STUB_CODE_LIST(VM_STUB_CODE_TESTER);

	#define STUB_CODE_TESTER(name) \
	if ((isolate->stub_code()->name##_entry() != NULL) && \
	(entry_point == isolate->stub_code()->name##EntryPoint())) { \
	return ""#name; \
	}
	Isolate* isolate = Isolate::Current();
	if ((isolate != NULL) && (isolate->stub_code() != NULL)) {
	STUB_CODE_LIST(STUB_CODE_TESTER);
	}
	#undef VM_STUB_CODE_TESTER
	#undef STUB_CODE_TESTER
	return NULL;
	}

	} // namespace dart