runtime/vm/compiler/jit/compiler.h - 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.

 #ifndef RUNTIME_VM_COMPILER_JIT_COMPILER_H_
 #define RUNTIME_VM_COMPILER_JIT_COMPILER_H_

 #include "vm/allocation.h"
 #include "vm/compiler/api/deopt_id.h"
 #include "vm/growable_array.h"
 #include "vm/runtime_entry.h"
 #include "vm/thread_pool.h"

 namespace dart {

 // Forward declarations.
 class BackgroundCompilationQueue;
 class Class;
 class Code;
 class CompilationWorkQueue;
 class FlowGraph;
 class Function;
 class IndirectGotoInstr;
 class Library;
 class ParsedFunction;
 class QueueElement;
 class Script;
 class SequenceNode;

 class CompilationPipeline : public ZoneAllocated {
  public:
   static CompilationPipeline* New(Zone* zone, const Function& function);

   virtual void ParseFunction(ParsedFunction* parsed_function) = 0;
   virtual FlowGraph* BuildFlowGraph(
       Zone* zone,
       ParsedFunction* parsed_function,
       ZoneGrowableArray<const ICData*>* ic_data_array,
       intptr_t osr_id,
       bool optimized) = 0;
   virtual ~CompilationPipeline() {}
 };

 class DartCompilationPipeline : public CompilationPipeline {
  public:
   void ParseFunction(ParsedFunction* parsed_function) override;

   FlowGraph* BuildFlowGraph(Zone* zone,
                             ParsedFunction* parsed_function,
                             ZoneGrowableArray<const ICData*>* ic_data_array,
                             intptr_t osr_id,
                             bool optimized) override;
 };

 class IrregexpCompilationPipeline : public CompilationPipeline {
  public:
   IrregexpCompilationPipeline() : backtrack_goto_(NULL) {}

   void ParseFunction(ParsedFunction* parsed_function) override;

   FlowGraph* BuildFlowGraph(Zone* zone,
                             ParsedFunction* parsed_function,
                             ZoneGrowableArray<const ICData*>* ic_data_array,
                             intptr_t osr_id,
                             bool optimized) override;

  private:
   IndirectGotoInstr* backtrack_goto_;
 };

 class Compiler : public AllStatic {
  public:
   static const intptr_t kNoOSRDeoptId = DeoptId::kNone;

   static bool IsBackgroundCompilation();
   // The result for a function may change if debugging gets turned on/off.
   static bool CanOptimizeFunction(Thread* thread, const Function& function);

   // Generates code for given function without optimization and sets its code
   // field.
   //
   // Returns the raw code object if compilation succeeds.  Otherwise returns an
   // ErrorPtr.  Also installs the generated code on the function.
   static ObjectPtr CompileFunction(Thread* thread, const Function& function);

   // Generates unoptimized code if not present, current code is unchanged.
   static ErrorPtr EnsureUnoptimizedCode(Thread* thread,
                                         const Function& function);

   // Generates optimized code for function.
   //
   // Returns the code object if compilation succeeds.  Returns an Error if
   // there is a compilation error.  If optimization fails, but there is no
   // error, returns null.  Any generated code is installed unless we are in
   // OSR mode.
   static ObjectPtr CompileOptimizedFunction(Thread* thread,
                                             const Function& function,
                                             intptr_t osr_id = kNoOSRDeoptId);

   // Generates local var descriptors and sets it in 'code'. Do not call if the
   // local var descriptor already exists.
   static void ComputeLocalVarDescriptors(const Code& code);

   // Eagerly compiles all functions in a class.
   //
   // Returns Error::null() if there is no compilation error.
   static ErrorPtr CompileAllFunctions(const Class& cls);

   // Notify the compiler that background (optimized) compilation has failed
   // because the mutator thread changed the state (e.g., deoptimization,
   // deferred loading). The background compilation may retry to compile
   // the same function later.
   static void AbortBackgroundCompilation(intptr_t deopt_id, const char* msg);
 };

 // Class to run optimizing compilation in a background thread.
 // Current implementation: one task per isolate, it dies with the owning
 // isolate.
 // No OSR compilation in the background compiler.
 class BackgroundCompiler {
  public:
   explicit BackgroundCompiler(Isolate* isolate);
   virtual ~BackgroundCompiler();

   static void Stop(Isolate* isolate) {
     ASSERT(Thread::Current()->IsMutatorThread());
     isolate->background_compiler()->Stop();
   }

   // Enqueues a function to be compiled in the background.
   //
   // Return `true` if successful.
   bool EnqueueCompilation(const Function& function);

   void VisitPointers(ObjectPointerVisitor* visitor);

   BackgroundCompilationQueue* function_queue() const { return function_queue_; }
   bool is_running() const { return running_; }

   void Run();

  private:
   friend class NoBackgroundCompilerScope;

   void Stop();
   void StopLocked(Thread* thread, SafepointMonitorLocker* done_locker);
   void Enable();
   void Disable();
   bool IsRunning() { return !done_; }

   Isolate* isolate_;

   Monitor queue_monitor_;  // Controls access to the queue.
   BackgroundCompilationQueue* function_queue_;

   Monitor done_monitor_;    // Notify/wait that the thread is done.
   bool running_;            // While true, will try to read queue and compile.
   bool done_;               // True if the thread is done.

   int16_t disabled_depth_;

   DISALLOW_IMPLICIT_CONSTRUCTORS(BackgroundCompiler);
 };

 class NoBackgroundCompilerScope : public StackResource {
  public:
   explicit NoBackgroundCompilerScope(Thread* thread)
       : StackResource(thread), isolate_(thread->isolate()) {
     isolate_->background_compiler()->Disable();
   }
   ~NoBackgroundCompilerScope() { isolate_->background_compiler()->Enable(); }

  private:
   Isolate* isolate_;
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_COMPILER_JIT_COMPILER_H_
	// 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.

	#ifndef RUNTIME_VM_COMPILER_JIT_COMPILER_H_
	#define RUNTIME_VM_COMPILER_JIT_COMPILER_H_

	#include "vm/allocation.h"
	#include "vm/compiler/api/deopt_id.h"
	#include "vm/growable_array.h"
	#include "vm/runtime_entry.h"
	#include "vm/thread_pool.h"

	namespace dart {

	// Forward declarations.
	class BackgroundCompilationQueue;
	class Class;
	class Code;
	class CompilationWorkQueue;
	class FlowGraph;
	class Function;
	class IndirectGotoInstr;
	class Library;
	class ParsedFunction;
	class QueueElement;
	class Script;
	class SequenceNode;

	class CompilationPipeline : public ZoneAllocated {
	public:
	static CompilationPipeline* New(Zone* zone, const Function& function);

	virtual void ParseFunction(ParsedFunction* parsed_function) = 0;
	virtual FlowGraph* BuildFlowGraph(
	Zone* zone,
	ParsedFunction* parsed_function,
	ZoneGrowableArray<const ICData> ic_data_array,
	intptr_t osr_id,
	bool optimized) = 0;
	virtual ~CompilationPipeline() {}
	};

	class DartCompilationPipeline : public CompilationPipeline {
	public:
	void ParseFunction(ParsedFunction* parsed_function) override;

	FlowGraph* BuildFlowGraph(Zone* zone,
	ParsedFunction* parsed_function,
	ZoneGrowableArray<const ICData> ic_data_array,
	intptr_t osr_id,
	bool optimized) override;
	};

	class IrregexpCompilationPipeline : public CompilationPipeline {
	public:
	IrregexpCompilationPipeline() : backtrack_goto_(NULL) {}

	void ParseFunction(ParsedFunction* parsed_function) override;

	FlowGraph* BuildFlowGraph(Zone* zone,
	ParsedFunction* parsed_function,
	ZoneGrowableArray<const ICData> ic_data_array,
	intptr_t osr_id,
	bool optimized) override;

	private:
	IndirectGotoInstr* backtrack_goto_;
	};

	class Compiler : public AllStatic {
	public:
	static const intptr_t kNoOSRDeoptId = DeoptId::kNone;

	static bool IsBackgroundCompilation();
	// The result for a function may change if debugging gets turned on/off.
	static bool CanOptimizeFunction(Thread* thread, const Function& function);

	// Generates code for given function without optimization and sets its code
	// field.
	//
	// Returns the raw code object if compilation succeeds. Otherwise returns an
	// ErrorPtr. Also installs the generated code on the function.
	static ObjectPtr CompileFunction(Thread* thread, const Function& function);

	// Generates unoptimized code if not present, current code is unchanged.
	static ErrorPtr EnsureUnoptimizedCode(Thread* thread,
	const Function& function);

	// Generates optimized code for function.
	//
	// Returns the code object if compilation succeeds. Returns an Error if
	// there is a compilation error. If optimization fails, but there is no
	// error, returns null. Any generated code is installed unless we are in
	// OSR mode.
	static ObjectPtr CompileOptimizedFunction(Thread* thread,
	const Function& function,
	intptr_t osr_id = kNoOSRDeoptId);

	// Generates local var descriptors and sets it in 'code'. Do not call if the
	// local var descriptor already exists.
	static void ComputeLocalVarDescriptors(const Code& code);

	// Eagerly compiles all functions in a class.
	//
	// Returns Error::null() if there is no compilation error.
	static ErrorPtr CompileAllFunctions(const Class& cls);

	// Notify the compiler that background (optimized) compilation has failed
	// because the mutator thread changed the state (e.g., deoptimization,
	// deferred loading). The background compilation may retry to compile
	// the same function later.
	static void AbortBackgroundCompilation(intptr_t deopt_id, const char* msg);
	};

	// Class to run optimizing compilation in a background thread.
	// Current implementation: one task per isolate, it dies with the owning
	// isolate.
	// No OSR compilation in the background compiler.
	class BackgroundCompiler {
	public:
	explicit BackgroundCompiler(Isolate* isolate);
	virtual ~BackgroundCompiler();

	static void Stop(Isolate* isolate) {
	ASSERT(Thread::Current()->IsMutatorThread());
	isolate->background_compiler()->Stop();
	}

	// Enqueues a function to be compiled in the background.
	//
	// Return `true` if successful.
	bool EnqueueCompilation(const Function& function);

	void VisitPointers(ObjectPointerVisitor* visitor);

	BackgroundCompilationQueue* function_queue() const { return function_queue_; }
	bool is_running() const { return running_; }

	void Run();

	private:
	friend class NoBackgroundCompilerScope;

	void Stop();
	void StopLocked(Thread* thread, SafepointMonitorLocker* done_locker);
	void Enable();
	void Disable();
	bool IsRunning() { return !done_; }

	Isolate* isolate_;

	Monitor queue_monitor_; // Controls access to the queue.
	BackgroundCompilationQueue* function_queue_;

	Monitor done_monitor_; // Notify/wait that the thread is done.
	bool running_; // While true, will try to read queue and compile.
	bool done_; // True if the thread is done.

	int16_t disabled_depth_;

	DISALLOW_IMPLICIT_CONSTRUCTORS(BackgroundCompiler);
	};

	class NoBackgroundCompilerScope : public StackResource {
	public:
	explicit NoBackgroundCompilerScope(Thread* thread)
	: StackResource(thread), isolate_(thread->isolate()) {
	isolate_->background_compiler()->Disable();
	}
	~NoBackgroundCompilerScope() { isolate_->background_compiler()->Enable(); }

	private:
	Isolate* isolate_;
	};

	} // namespace dart

	#endif // RUNTIME_VM_COMPILER_JIT_COMPILER_H_