runtime/vm/compiler/compiler_pass.h - sdk.git - 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_PASS_H_
 #define RUNTIME_VM_COMPILER_COMPILER_PASS_H_

 #if defined(DART_PRECOMPILED_RUNTIME)
 #error "AOT runtime should not use compiler sources (including header files)"
 #endif  // defined(DART_PRECOMPILED_RUNTIME)

 #include <initializer_list>

 #include "vm/growable_array.h"
 #include "vm/timer.h"
 #include "vm/token_position.h"
 #include "vm/zone.h"

 namespace dart {

 #define COMPILER_PASS_LIST(V)                                                  \
   V(AllocateRegisters)                                                         \
   V(AllocateRegistersForGraphIntrinsic)                                        \
   V(AllocationSinking_DetachMaterializations)                                  \
   V(AllocationSinking_Sink)                                                    \
   V(ApplyClassIds)                                                             \
   V(ApplyICData)                                                               \
   V(BranchSimplify)                                                            \
   V(CSE)                                                                       \
   V(Canonicalize)                                                              \
   V(ComputeSSA)                                                                \
   V(ConstantPropagation)                                                       \
   V(DCE)                                                                       \
   V(DelayAllocations)                                                          \
   V(DSE)                                                                       \
   V(EliminateDeadPhis)                                                         \
   V(EliminateEnvironments)                                                     \
   V(EliminateStackOverflowChecks)                                              \
   V(FinalizeGraph)                                                             \
   V(IfConvert)                                                                 \
   V(Inlining)                                                                  \
   V(LICM)                                                                      \
   V(OptimisticallySpecializeSmiPhis)                                           \
   V(OptimizeBranches)                                                          \
   V(OptimizeTypedDataAccesses)                                                 \
   V(RangeAnalysis)                                                             \
   V(ReorderBlocks)                                                             \
   V(SelectRepresentations)                                                     \
   V(SelectRepresentations_Final)                                               \
   V(SetOuterInliningId)                                                        \
   V(TryCatchOptimization)                                                      \
   V(TryOptimizePatterns)                                                       \
   V(TypePropagation)                                                           \
   V(UseTableDispatch)                                                          \
   V(WidenSmiToInt32)                                                           \
   V(EliminateWriteBarriers)                                                    \
   V(GenerateCode)

 class AllocationSinking;
 class BlockScheduler;
 class CallSpecializer;
 class FlowGraph;
 class FlowGraphCompiler;
 class Function;
 class Precompiler;
 class SpeculativeInliningPolicy;
 class TimelineStream;
 class Thread;

 struct CompilerPassState {
   CompilerPassState(Thread* thread,
                     FlowGraph* flow_graph,
                     SpeculativeInliningPolicy* speculative_policy,
                     Precompiler* precompiler = NULL);

   FlowGraph* flow_graph() const { return flow_graph_; }

   void set_flow_graph(FlowGraph* flow_graph);

   Thread* const thread;
   Precompiler* const precompiler;
   int inlining_depth;
   AllocationSinking* sinking;

   // Maps inline_id_to_function[inline_id] -> function. Top scope
   // function has inline_id 0. The map is populated by the inliner.
   GrowableArray<const Function*> inline_id_to_function;
   // Token position where inlining occured.
   GrowableArray<TokenPosition> inline_id_to_token_pos;
   // For a given inlining-id(index) specifies the caller's inlining-id.
   GrowableArray<intptr_t> caller_inline_id;

   CallSpecializer* call_specializer;

   SpeculativeInliningPolicy* speculative_policy;

   bool reorder_blocks;

   intptr_t sticky_flags;

   FlowGraphCompiler* graph_compiler = nullptr;

  private:
   FlowGraph* flow_graph_;
 };

 class CompilerPass {
  public:
   enum Id {
 #define DEF(name) k##name,
     COMPILER_PASS_LIST(DEF)
 #undef DEF
   };

 #define ADD_ONE(name) +1
   static constexpr intptr_t kNumPasses = 0 COMPILER_PASS_LIST(ADD_ONE);
 #undef ADD_ONE

   CompilerPass(Id id, const char* name) : id_(id), name_(name) {
     ASSERT(passes_[id] == NULL);
     passes_[id] = this;

     // By default print the final flow-graph after the register allocation.
     if (id == kAllocateRegisters) {
       flags_[id] = kTraceAfter;
     } else {
       flags_[id] = 0;
     }
   }
   virtual ~CompilerPass() {}

   enum Flag {
     kDisabled = 1 << 0,
     kTraceBefore = 1 << 1,
     kTraceAfter = 1 << 2,
     kSticky = 1 << 3,
     kTraceBeforeOrAfter = kTraceBefore | kTraceAfter,
   };

   void Run(CompilerPassState* state) const;

   uint8_t flags() const { return flags_[id()]; }
   const char* name() const { return name_; }
   Id id() const { return id_; }

   static CompilerPass* Get(Id id) { return passes_[id]; }

   static void ParseFiltersFromFlag(const char* filter);
   static uint8_t* ParseFiltersFromPragma(const char* filter);
   static void ParseFilters(const char* filter, uint8_t* flags);
   static void ParseOneFilter(const char* start,
                              const char* end,
                              uint8_t* flags);

   enum PipelineMode { kJIT, kAOT };

   static void GenerateCode(CompilerPassState* state) {
     CompilerPass::Get(CompilerPass::kGenerateCode)->Run(state);
   }

   static void RunGraphIntrinsicPipeline(CompilerPassState* state);

   static void RunInliningPipeline(PipelineMode mode, CompilerPassState* state);

   // RunPipeline(WithPasses) may have the side effect of changing the FlowGraph
   // stored in the CompilerPassState. However, existing callers may depend on
   // the old invariant that the FlowGraph stored in the CompilerPassState was
   // always updated, never entirely replaced.
   //
   // To make sure callers are updated properly, these methods also return
   // the final FlowGraph and we add a check that callers use this result.
   DART_WARN_UNUSED_RESULT
   static FlowGraph* RunPipeline(PipelineMode mode, CompilerPassState* state);
   DART_WARN_UNUSED_RESULT
   static FlowGraph* RunPipelineWithPasses(
       CompilerPassState* state,
       std::initializer_list<CompilerPass::Id> passes);

   // Pipeline which is used for "force-optimized" functions.
   //
   // Must not include speculative or inter-procedural optimizations.
   DART_WARN_UNUSED_RESULT
   static FlowGraph* RunForceOptimizedPipeline(PipelineMode mode,
                                               CompilerPassState* state);

  protected:
   // This function executes the pass. If it returns true then
   // we will run Canonicalize on the graph and execute the pass
   // again.
   virtual bool DoBody(CompilerPassState* state) const = 0;

  private:
   static CompilerPass* FindPassByName(const char* name) {
     for (intptr_t i = 0; i < kNumPasses; i++) {
       if ((passes_[i] != NULL) && (strcmp(passes_[i]->name_, name) == 0)) {
         return passes_[i];
       }
     }
     return NULL;
   }

   void PrintGraph(CompilerPassState* state, Flag mask, intptr_t round) const;

   static CompilerPass* passes_[];
   static uint8_t flags_[];

   Id id_;
   const char* name_;
 };

 }  // namespace dart

 #endif  // RUNTIME_VM_COMPILER_COMPILER_PASS_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_PASS_H_
	#define RUNTIME_VM_COMPILER_COMPILER_PASS_H_

	#if defined(DART_PRECOMPILED_RUNTIME)
	#error "AOT runtime should not use compiler sources (including header files)"
	#endif // defined(DART_PRECOMPILED_RUNTIME)

	#include <initializer_list>

	#include "vm/growable_array.h"
	#include "vm/timer.h"
	#include "vm/token_position.h"
	#include "vm/zone.h"

	namespace dart {

	#define COMPILER_PASS_LIST(V) \
	V(AllocateRegisters) \
	V(AllocateRegistersForGraphIntrinsic) \
	V(AllocationSinking_DetachMaterializations) \
	V(AllocationSinking_Sink) \
	V(ApplyClassIds) \
	V(ApplyICData) \
	V(BranchSimplify) \
	V(CSE) \
	V(Canonicalize) \
	V(ComputeSSA) \
	V(ConstantPropagation) \
	V(DCE) \
	V(DelayAllocations) \
	V(DSE) \
	V(EliminateDeadPhis) \
	V(EliminateEnvironments) \
	V(EliminateStackOverflowChecks) \
	V(FinalizeGraph) \
	V(IfConvert) \
	V(Inlining) \
	V(LICM) \
	V(OptimisticallySpecializeSmiPhis) \
	V(OptimizeBranches) \
	V(OptimizeTypedDataAccesses) \
	V(RangeAnalysis) \
	V(ReorderBlocks) \
	V(SelectRepresentations) \
	V(SelectRepresentations_Final) \
	V(SetOuterInliningId) \
	V(TryCatchOptimization) \
	V(TryOptimizePatterns) \
	V(TypePropagation) \
	V(UseTableDispatch) \
	V(WidenSmiToInt32) \
	V(EliminateWriteBarriers) \
	V(GenerateCode)

	class AllocationSinking;
	class BlockScheduler;
	class CallSpecializer;
	class FlowGraph;
	class FlowGraphCompiler;
	class Function;
	class Precompiler;
	class SpeculativeInliningPolicy;
	class TimelineStream;
	class Thread;

	struct CompilerPassState {
	CompilerPassState(Thread* thread,
	FlowGraph* flow_graph,
	SpeculativeInliningPolicy* speculative_policy,
	Precompiler* precompiler = NULL);

	FlowGraph* flow_graph() const { return flow_graph_; }

	void set_flow_graph(FlowGraph* flow_graph);

	Thread* const thread;
	Precompiler* const precompiler;
	int inlining_depth;
	AllocationSinking* sinking;

	// Maps inline_id_to_function[inline_id] -> function. Top scope
	// function has inline_id 0. The map is populated by the inliner.
	GrowableArray<const Function*> inline_id_to_function;
	// Token position where inlining occured.
	GrowableArray<TokenPosition> inline_id_to_token_pos;
	// For a given inlining-id(index) specifies the caller's inlining-id.
	GrowableArray<intptr_t> caller_inline_id;

	CallSpecializer* call_specializer;

	SpeculativeInliningPolicy* speculative_policy;

	bool reorder_blocks;

	intptr_t sticky_flags;

	FlowGraphCompiler* graph_compiler = nullptr;

	private:
	FlowGraph* flow_graph_;
	};

	class CompilerPass {
	public:
	enum Id {
	#define DEF(name) k##name,
	COMPILER_PASS_LIST(DEF)
	#undef DEF
	};

	#define ADD_ONE(name) +1
	static constexpr intptr_t kNumPasses = 0 COMPILER_PASS_LIST(ADD_ONE);
	#undef ADD_ONE

	CompilerPass(Id id, const char* name) : id_(id), name_(name) {
	ASSERT(passes_[id] == NULL);
	passes_[id] = this;

	// By default print the final flow-graph after the register allocation.
	if (id == kAllocateRegisters) {
	flags_[id] = kTraceAfter;
	} else {
	flags_[id] = 0;
	}
	}
	virtual ~CompilerPass() {}

	enum Flag {
	kDisabled = 1 << 0,
	kTraceBefore = 1 << 1,
	kTraceAfter = 1 << 2,
	kSticky = 1 << 3,
	kTraceBeforeOrAfter = kTraceBefore \| kTraceAfter,
	};

	void Run(CompilerPassState* state) const;

	uint8_t flags() const { return flags_[id()]; }
	const char* name() const { return name_; }
	Id id() const { return id_; }

	static CompilerPass* Get(Id id) { return passes_[id]; }

	static void ParseFiltersFromFlag(const char* filter);
	static uint8_t* ParseFiltersFromPragma(const char* filter);
	static void ParseFilters(const char* filter, uint8_t* flags);
	static void ParseOneFilter(const char* start,
	const char* end,
	uint8_t* flags);

	enum PipelineMode { kJIT, kAOT };

	static void GenerateCode(CompilerPassState* state) {
	CompilerPass::Get(CompilerPass::kGenerateCode)->Run(state);
	}

	static void RunGraphIntrinsicPipeline(CompilerPassState* state);

	static void RunInliningPipeline(PipelineMode mode, CompilerPassState* state);

	// RunPipeline(WithPasses) may have the side effect of changing the FlowGraph
	// stored in the CompilerPassState. However, existing callers may depend on
	// the old invariant that the FlowGraph stored in the CompilerPassState was
	// always updated, never entirely replaced.
	//
	// To make sure callers are updated properly, these methods also return
	// the final FlowGraph and we add a check that callers use this result.
	DART_WARN_UNUSED_RESULT
	static FlowGraph* RunPipeline(PipelineMode mode, CompilerPassState* state);
	DART_WARN_UNUSED_RESULT
	static FlowGraph* RunPipelineWithPasses(
	CompilerPassState* state,
	std::initializer_list<CompilerPass::Id> passes);

	// Pipeline which is used for "force-optimized" functions.
	//
	// Must not include speculative or inter-procedural optimizations.
	DART_WARN_UNUSED_RESULT
	static FlowGraph* RunForceOptimizedPipeline(PipelineMode mode,
	CompilerPassState* state);

	protected:
	// This function executes the pass. If it returns true then
	// we will run Canonicalize on the graph and execute the pass
	// again.
	virtual bool DoBody(CompilerPassState* state) const = 0;

	private:
	static CompilerPass* FindPassByName(const char* name) {
	for (intptr_t i = 0; i < kNumPasses; i++) {
	if ((passes_[i] != NULL) && (strcmp(passes_[i]->name_, name) == 0)) {
	return passes_[i];
	}
	}
	return NULL;
	}

	void PrintGraph(CompilerPassState* state, Flag mask, intptr_t round) const;

	static CompilerPass* passes_[];
	static uint8_t flags_[];

	Id id_;
	const char* name_;
	};

	} // namespace dart

	#endif // RUNTIME_VM_COMPILER_COMPILER_PASS_H_