runtime/vm/compiler/compiler_state.h - sdk - Git at Google

 // Copyright (c) 2018, 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_COMPILER_STATE_H_
 #define RUNTIME_VM_COMPILER_COMPILER_STATE_H_

 #include "vm/compiler/cha.h"
 #include "vm/heap/safepoint.h"
 #include "vm/thread.h"

 namespace dart {

 class LocalScope;
 class LocalVariable;
 class SlotCache;

 // Deoptimization Id logic.
 //
 // Deoptimization ids are used to refer to deoptimization points, at which
 // control can enter unoptimized code from the optimized version of the code.
 //
 // Note: any instruction that does a call has two deoptimization points,
 // one before the call and one after the call - so that we could deoptimize
 // to either before or after the call depending on whether the same call
 // already occured in the optimized code (and potentially produced
 // observable side-effects) or not.
 //
 // To simplify implementation we always allocate two deopt ids (one for before
 // point and one for the after point).
 class DeoptId : public AllStatic {
  public:
   static constexpr intptr_t kNone = -1;

   static inline intptr_t Next(intptr_t deopt_id) { return deopt_id + kStep; }

   static inline intptr_t ToDeoptAfter(intptr_t deopt_id) {
     ASSERT(IsDeoptBefore(deopt_id));
     return deopt_id + kAfterOffset;
   }

   static inline bool IsDeoptBefore(intptr_t deopt_id) {
     return (deopt_id % kStep) == kBeforeOffset;
   }

   static inline bool IsDeoptAfter(intptr_t deopt_id) {
     return (deopt_id % kStep) == kAfterOffset;
   }

  private:
   static constexpr intptr_t kStep = 2;
   static constexpr intptr_t kBeforeOffset = 0;
   static constexpr intptr_t kAfterOffset = 1;
 };

 // Global compiler state attached to the thread.
 class CompilerState : public ThreadStackResource {
  public:
   explicit CompilerState(Thread* thread)
       : ThreadStackResource(thread), cha_(thread) {
     previous_ = thread->SetCompilerState(this);
   }

   ~CompilerState() {
     ASSERT(&thread()->compiler_state() == this);
     thread()->SetCompilerState(previous_);
   }

   CHA& cha() { return cha_; }

   intptr_t deopt_id() const { return deopt_id_; }
   void set_deopt_id(int value) {
     ASSERT(value >= 0);
     deopt_id_ = value;
   }

   intptr_t GetNextDeoptId() {
     ASSERT(deopt_id_ != DeoptId::kNone);
     const intptr_t id = deopt_id_;
     deopt_id_ = DeoptId::Next(deopt_id_);
     return id;
   }

   static CompilerState& Current() {
     return Thread::Current()->compiler_state();
   }

   SlotCache* slot_cache() const { return slot_cache_; }
   void set_slot_cache(SlotCache* cache) { slot_cache_ = cache; }

   // Create a dummy list of local variables representing a context object
   // with the given number of captured variables and given ID.
   //
   // Used during bytecode to IL translation because AllocateContext and
   // CloneContext IL instructions need a list of local varaibles and bytecode
   // does not record this information.
   //
   // TODO(vegorov): create context classes for distinct context IDs and
   // populate them with slots without creating variables.
   const GrowableArray<LocalVariable*>& GetDummyContextVariables(
       intptr_t context_id,
       intptr_t num_context_variables);

   // Create a dummy LocalVariable that represents a captured local variable
   // at the given index in the context with given ID.
   //
   // Used during bytecode to IL translation because StoreInstanceField and
   // LoadField IL instructions need Slot, which can only be created from a
   // LocalVariable.
   //
   // This function returns the same variable when it is called with the
   // same index.
   //
   // TODO(vegorov): disambiguate slots for different context IDs.
   LocalVariable* GetDummyCapturedVariable(intptr_t context_id, intptr_t index);

  private:
   CHA cha_;
   intptr_t deopt_id_ = 0;

   // Cache for Slot objects created during compilation (see slot.h).
   SlotCache* slot_cache_ = nullptr;

   // Caches for dummy LocalVariables and LocalScopes created during
   // bytecode to IL translation.
   ZoneGrowableArray<LocalScope*>* dummy_scopes_ = nullptr;
   ZoneGrowableArray<LocalVariable*>* dummy_captured_vars_ = nullptr;

   CompilerState* previous_;
 };

 class DeoptIdScope : public ThreadStackResource {
  public:
   DeoptIdScope(Thread* thread, intptr_t deopt_id)
       : ThreadStackResource(thread),
         prev_deopt_id_(thread->compiler_state().deopt_id()) {
     thread->compiler_state().set_deopt_id(deopt_id);
   }

   ~DeoptIdScope() { thread()->compiler_state().set_deopt_id(prev_deopt_id_); }

  private:
   const intptr_t prev_deopt_id_;

   DISALLOW_COPY_AND_ASSIGN(DeoptIdScope);
 };

 /// Ensures that there were no deopt id allocations during the lifetime of this
 /// object.
 class AssertNoDeoptIdsAllocatedScope : public ThreadStackResource {
  public:
   explicit AssertNoDeoptIdsAllocatedScope(Thread* thread)
       : ThreadStackResource(thread),
         prev_deopt_id_(thread->compiler_state().deopt_id()) {}

   ~AssertNoDeoptIdsAllocatedScope() {
     ASSERT(thread()->compiler_state().deopt_id() == prev_deopt_id_);
   }

  private:
   const intptr_t prev_deopt_id_;

   DISALLOW_COPY_AND_ASSIGN(AssertNoDeoptIdsAllocatedScope);
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_COMPILER_COMPILER_STATE_H_
	// Copyright (c) 2018, 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_COMPILER_STATE_H_
	#define RUNTIME_VM_COMPILER_COMPILER_STATE_H_

	#include "vm/compiler/cha.h"
	#include "vm/heap/safepoint.h"
	#include "vm/thread.h"

	namespace dart {

	class LocalScope;
	class LocalVariable;
	class SlotCache;

	// Deoptimization Id logic.
	//
	// Deoptimization ids are used to refer to deoptimization points, at which
	// control can enter unoptimized code from the optimized version of the code.
	//
	// Note: any instruction that does a call has two deoptimization points,
	// one before the call and one after the call - so that we could deoptimize
	// to either before or after the call depending on whether the same call
	// already occured in the optimized code (and potentially produced
	// observable side-effects) or not.
	//
	// To simplify implementation we always allocate two deopt ids (one for before
	// point and one for the after point).
	class DeoptId : public AllStatic {
	public:
	static constexpr intptr_t kNone = -1;

	static inline intptr_t Next(intptr_t deopt_id) { return deopt_id + kStep; }

	static inline intptr_t ToDeoptAfter(intptr_t deopt_id) {
	ASSERT(IsDeoptBefore(deopt_id));
	return deopt_id + kAfterOffset;
	}

	static inline bool IsDeoptBefore(intptr_t deopt_id) {
	return (deopt_id % kStep) == kBeforeOffset;
	}

	static inline bool IsDeoptAfter(intptr_t deopt_id) {
	return (deopt_id % kStep) == kAfterOffset;
	}

	private:
	static constexpr intptr_t kStep = 2;
	static constexpr intptr_t kBeforeOffset = 0;
	static constexpr intptr_t kAfterOffset = 1;
	};

	// Global compiler state attached to the thread.
	class CompilerState : public ThreadStackResource {
	public:
	explicit CompilerState(Thread* thread)
	: ThreadStackResource(thread), cha_(thread) {
	previous_ = thread->SetCompilerState(this);
	}

	~CompilerState() {
	ASSERT(&thread()->compiler_state() == this);
	thread()->SetCompilerState(previous_);
	}

	CHA& cha() { return cha_; }

	intptr_t deopt_id() const { return deopt_id_; }
	void set_deopt_id(int value) {
	ASSERT(value >= 0);
	deopt_id_ = value;
	}

	intptr_t GetNextDeoptId() {
	ASSERT(deopt_id_ != DeoptId::kNone);
	const intptr_t id = deopt_id_;
	deopt_id_ = DeoptId::Next(deopt_id_);
	return id;
	}

	static CompilerState& Current() {
	return Thread::Current()->compiler_state();
	}

	SlotCache* slot_cache() const { return slot_cache_; }
	void set_slot_cache(SlotCache* cache) { slot_cache_ = cache; }

	// Create a dummy list of local variables representing a context object
	// with the given number of captured variables and given ID.
	//
	// Used during bytecode to IL translation because AllocateContext and
	// CloneContext IL instructions need a list of local varaibles and bytecode
	// does not record this information.
	//
	// TODO(vegorov): create context classes for distinct context IDs and
	// populate them with slots without creating variables.
	const GrowableArray<LocalVariable*>& GetDummyContextVariables(
	intptr_t context_id,
	intptr_t num_context_variables);

	// Create a dummy LocalVariable that represents a captured local variable
	// at the given index in the context with given ID.
	//
	// Used during bytecode to IL translation because StoreInstanceField and
	// LoadField IL instructions need Slot, which can only be created from a
	// LocalVariable.
	//
	// This function returns the same variable when it is called with the
	// same index.
	//
	// TODO(vegorov): disambiguate slots for different context IDs.
	LocalVariable* GetDummyCapturedVariable(intptr_t context_id, intptr_t index);

	private:
	CHA cha_;
	intptr_t deopt_id_ = 0;

	// Cache for Slot objects created during compilation (see slot.h).
	SlotCache* slot_cache_ = nullptr;

	// Caches for dummy LocalVariables and LocalScopes created during
	// bytecode to IL translation.
	ZoneGrowableArray<LocalScope> dummy_scopes_ = nullptr;
	ZoneGrowableArray<LocalVariable> dummy_captured_vars_ = nullptr;

	CompilerState* previous_;
	};

	class DeoptIdScope : public ThreadStackResource {
	public:
	DeoptIdScope(Thread* thread, intptr_t deopt_id)
	: ThreadStackResource(thread),
	prev_deopt_id_(thread->compiler_state().deopt_id()) {
	thread->compiler_state().set_deopt_id(deopt_id);
	}

	~DeoptIdScope() { thread()->compiler_state().set_deopt_id(prev_deopt_id_); }

	private:
	const intptr_t prev_deopt_id_;

	DISALLOW_COPY_AND_ASSIGN(DeoptIdScope);
	};

	/// Ensures that there were no deopt id allocations during the lifetime of this
	/// object.
	class AssertNoDeoptIdsAllocatedScope : public ThreadStackResource {
	public:
	explicit AssertNoDeoptIdsAllocatedScope(Thread* thread)
	: ThreadStackResource(thread),
	prev_deopt_id_(thread->compiler_state().deopt_id()) {}

	~AssertNoDeoptIdsAllocatedScope() {
	ASSERT(thread()->compiler_state().deopt_id() == prev_deopt_id_);
	}

	private:
	const intptr_t prev_deopt_id_;

	DISALLOW_COPY_AND_ASSIGN(AssertNoDeoptIdsAllocatedScope);
	};

	} // namespace dart

	#endif // RUNTIME_VM_COMPILER_COMPILER_STATE_H_