compiler/driver/compiler_options.h - platform/art - Git at Google

 /*
  * Copyright (C) 2014 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ART_COMPILER_DRIVER_COMPILER_OPTIONS_H_
 #define ART_COMPILER_DRIVER_COMPILER_OPTIONS_H_

 #include <ostream>
 #include <string>
 #include <vector>

 #include "base/macros.h"
 #include "dex/pass_manager.h"
 #include "globals.h"
 #include "utils.h"

 namespace art {

 class CompilerOptions FINAL {
  public:
   enum CompilerFilter {
     kVerifyNone,          // Skip verification and compile nothing except JNI stubs.
     kInterpretOnly,       // Verify, and compile only JNI stubs.
     kVerifyAtRuntime,     // Only compile JNI stubs and verify at runtime.
     kSpace,               // Maximize space savings.
     kBalanced,            // Try to get the best performance return on compilation investment.
     kSpeed,               // Maximize runtime performance.
     kEverything,          // Force compilation of everything capable of being compiled.
     kTime,                // Compile methods, but minimize compilation time.
   };

   // Guide heuristics to determine whether to compile method if profile data not available.
   static const CompilerFilter kDefaultCompilerFilter = kSpeed;
   static const size_t kDefaultHugeMethodThreshold = 10000;
   static const size_t kDefaultLargeMethodThreshold = 600;
   static const size_t kDefaultSmallMethodThreshold = 60;
   static const size_t kDefaultTinyMethodThreshold = 20;
   static const size_t kDefaultNumDexMethodsThreshold = 900;
   static constexpr double kDefaultTopKProfileThreshold = 90.0;
   static const bool kDefaultNativeDebuggable = false;
   static const bool kDefaultGenerateDebugInfo = kIsDebugBuild;
   static const bool kDefaultIncludePatchInformation = false;
   static const size_t kDefaultInlineDepthLimit = 3;
   static const size_t kDefaultInlineMaxCodeUnits = 20;
   static constexpr size_t kUnsetInlineDepthLimit = -1;
   static constexpr size_t kUnsetInlineMaxCodeUnits = -1;

   // Default inlining settings when the space filter is used.
   static constexpr size_t kSpaceFilterInlineDepthLimit = 3;
   static constexpr size_t kSpaceFilterInlineMaxCodeUnits = 10;

   CompilerOptions();
   ~CompilerOptions();

   CompilerOptions(CompilerFilter compiler_filter,
                   size_t huge_method_threshold,
                   size_t large_method_threshold,
                   size_t small_method_threshold,
                   size_t tiny_method_threshold,
                   size_t num_dex_methods_threshold,
                   size_t inline_depth_limit,
                   size_t inline_max_code_units,
                   const DexFile* no_inline_from,
                   bool include_patch_information,
                   double top_k_profile_threshold,
                   bool debuggable,
                   bool generate_debug_info,
                   bool implicit_null_checks,
                   bool implicit_so_checks,
                   bool implicit_suspend_checks,
                   bool compile_pic,
                   const std::vector<std::string>* verbose_methods,
                   std::ostream* init_failure_output,
                   bool abort_on_hard_verifier_failure);

   CompilerFilter GetCompilerFilter() const {
     return compiler_filter_;
   }

   void SetCompilerFilter(CompilerFilter compiler_filter) {
     compiler_filter_ = compiler_filter;
   }

   bool VerifyAtRuntime() const {
     return compiler_filter_ == CompilerOptions::kVerifyAtRuntime;
   }

   bool IsCompilationEnabled() const {
     return compiler_filter_ != CompilerOptions::kVerifyNone &&
         compiler_filter_ != CompilerOptions::kInterpretOnly &&
         compiler_filter_ != CompilerOptions::kVerifyAtRuntime;
   }

   bool IsVerificationEnabled() const {
     return compiler_filter_ != CompilerOptions::kVerifyNone &&
         compiler_filter_ != CompilerOptions::kVerifyAtRuntime;
   }

   bool NeverVerify() const {
     return compiler_filter_ == CompilerOptions::kVerifyNone;
   }

   size_t GetHugeMethodThreshold() const {
     return huge_method_threshold_;
   }

   size_t GetLargeMethodThreshold() const {
     return large_method_threshold_;
   }

   size_t GetSmallMethodThreshold() const {
     return small_method_threshold_;
   }

   size_t GetTinyMethodThreshold() const {
     return tiny_method_threshold_;
   }

   bool IsHugeMethod(size_t num_dalvik_instructions) const {
     return num_dalvik_instructions > huge_method_threshold_;
   }

   bool IsLargeMethod(size_t num_dalvik_instructions) const {
     return num_dalvik_instructions > large_method_threshold_;
   }

   bool IsSmallMethod(size_t num_dalvik_instructions) const {
     return num_dalvik_instructions > small_method_threshold_;
   }

   bool IsTinyMethod(size_t num_dalvik_instructions) const {
     return num_dalvik_instructions > tiny_method_threshold_;
   }

   size_t GetNumDexMethodsThreshold() const {
     return num_dex_methods_threshold_;
   }

   size_t GetInlineDepthLimit() const {
     return inline_depth_limit_;
   }

   size_t GetInlineMaxCodeUnits() const {
     return inline_max_code_units_;
   }

   double GetTopKProfileThreshold() const {
     return top_k_profile_threshold_;
   }

   bool GetDebuggable() const {
     return debuggable_;
   }

   bool GetNativeDebuggable() const {
     return native_debuggable_;
   }

   bool GetGenerateDebugInfo() const {
     return generate_debug_info_;
   }

   bool GetImplicitNullChecks() const {
     return implicit_null_checks_;
   }

   bool GetImplicitStackOverflowChecks() const {
     return implicit_so_checks_;
   }

   bool GetImplicitSuspendChecks() const {
     return implicit_suspend_checks_;
   }

   bool GetIncludePatchInformation() const {
     return include_patch_information_;
   }

   // Should the code be compiled as position independent?
   bool GetCompilePic() const {
     return compile_pic_;
   }

   bool HasVerboseMethods() const {
     return verbose_methods_ != nullptr && !verbose_methods_->empty();
   }

   bool IsVerboseMethod(const std::string& pretty_method) const {
     for (const std::string& cur_method : *verbose_methods_) {
       if (pretty_method.find(cur_method) != std::string::npos) {
         return true;
       }
     }
     return false;
   }

   std::ostream* GetInitFailureOutput() const {
     return init_failure_output_.get();
   }

   const PassManagerOptions* GetPassManagerOptions() const {
     return &pass_manager_options_;
   }

   bool AbortOnHardVerifierFailure() const {
     return abort_on_hard_verifier_failure_;
   }

   const DexFile* GetNoInlineFromDexFile() const {
     return no_inline_from_;
   }

   bool ParseCompilerOption(const StringPiece& option, UsageFn Usage);

  private:
   void ParseDumpInitFailures(const StringPiece& option, UsageFn Usage);
   void ParsePassOptions(const StringPiece& option, UsageFn Usage);
   void ParseDumpCfgPasses(const StringPiece& option, UsageFn Usage);
   void ParsePrintPasses(const StringPiece& option, UsageFn Usage);
   void ParseDisablePasses(const StringPiece& option, UsageFn Usage);
   void ParseInlineMaxCodeUnits(const StringPiece& option, UsageFn Usage);
   void ParseInlineDepthLimit(const StringPiece& option, UsageFn Usage);
   void ParseNumDexMethods(const StringPiece& option, UsageFn Usage);
   void ParseTinyMethodMax(const StringPiece& option, UsageFn Usage);
   void ParseSmallMethodMax(const StringPiece& option, UsageFn Usage);
   void ParseLargeMethodMax(const StringPiece& option, UsageFn Usage);
   void ParseHugeMethodMax(const StringPiece& option, UsageFn Usage);

   CompilerFilter compiler_filter_;
   size_t huge_method_threshold_;
   size_t large_method_threshold_;
   size_t small_method_threshold_;
   size_t tiny_method_threshold_;
   size_t num_dex_methods_threshold_;
   size_t inline_depth_limit_;
   size_t inline_max_code_units_;

   // A dex file from which we should not inline code.
   const DexFile* no_inline_from_;

   bool include_patch_information_;
   // When using a profile file only the top K% of the profiled samples will be compiled.
   double top_k_profile_threshold_;
   bool debuggable_;
   bool native_debuggable_;
   bool generate_debug_info_;
   bool implicit_null_checks_;
   bool implicit_so_checks_;
   bool implicit_suspend_checks_;
   bool compile_pic_;

   // Vector of methods to have verbose output enabled for.
   const std::vector<std::string>* verbose_methods_;

   PassManagerOptions pass_manager_options_;

   // Abort compilation with an error if we find a class that fails verification with a hard
   // failure.
   bool abort_on_hard_verifier_failure_;

   // Log initialization of initialization failures to this stream if not null.
   std::unique_ptr<std::ostream> init_failure_output_;

   friend class Dex2Oat;

   DISALLOW_COPY_AND_ASSIGN(CompilerOptions);
 };
 std::ostream& operator<<(std::ostream& os, const CompilerOptions::CompilerFilter& rhs);

 }  // namespace art

 #endif  // ART_COMPILER_DRIVER_COMPILER_OPTIONS_H_
	/*
	* Copyright (C) 2014 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ART_COMPILER_DRIVER_COMPILER_OPTIONS_H_
	#define ART_COMPILER_DRIVER_COMPILER_OPTIONS_H_

	#include <ostream>
	#include <string>
	#include <vector>

	#include "base/macros.h"
	#include "dex/pass_manager.h"
	#include "globals.h"
	#include "utils.h"

	namespace art {

	class CompilerOptions FINAL {
	public:
	enum CompilerFilter {
	kVerifyNone, // Skip verification and compile nothing except JNI stubs.
	kInterpretOnly, // Verify, and compile only JNI stubs.
	kVerifyAtRuntime, // Only compile JNI stubs and verify at runtime.
	kSpace, // Maximize space savings.
	kBalanced, // Try to get the best performance return on compilation investment.
	kSpeed, // Maximize runtime performance.
	kEverything, // Force compilation of everything capable of being compiled.
	kTime, // Compile methods, but minimize compilation time.
	};

	// Guide heuristics to determine whether to compile method if profile data not available.
	static const CompilerFilter kDefaultCompilerFilter = kSpeed;
	static const size_t kDefaultHugeMethodThreshold = 10000;
	static const size_t kDefaultLargeMethodThreshold = 600;
	static const size_t kDefaultSmallMethodThreshold = 60;
	static const size_t kDefaultTinyMethodThreshold = 20;
	static const size_t kDefaultNumDexMethodsThreshold = 900;
	static constexpr double kDefaultTopKProfileThreshold = 90.0;
	static const bool kDefaultNativeDebuggable = false;
	static const bool kDefaultGenerateDebugInfo = kIsDebugBuild;
	static const bool kDefaultIncludePatchInformation = false;
	static const size_t kDefaultInlineDepthLimit = 3;
	static const size_t kDefaultInlineMaxCodeUnits = 20;
	static constexpr size_t kUnsetInlineDepthLimit = -1;
	static constexpr size_t kUnsetInlineMaxCodeUnits = -1;

	// Default inlining settings when the space filter is used.
	static constexpr size_t kSpaceFilterInlineDepthLimit = 3;
	static constexpr size_t kSpaceFilterInlineMaxCodeUnits = 10;

	CompilerOptions();
	~CompilerOptions();

	CompilerOptions(CompilerFilter compiler_filter,
	size_t huge_method_threshold,
	size_t large_method_threshold,
	size_t small_method_threshold,
	size_t tiny_method_threshold,
	size_t num_dex_methods_threshold,
	size_t inline_depth_limit,
	size_t inline_max_code_units,
	const DexFile* no_inline_from,
	bool include_patch_information,
	double top_k_profile_threshold,
	bool debuggable,
	bool generate_debug_info,
	bool implicit_null_checks,
	bool implicit_so_checks,
	bool implicit_suspend_checks,
	bool compile_pic,
	const std::vector<std::string>* verbose_methods,
	std::ostream* init_failure_output,
	bool abort_on_hard_verifier_failure);

	CompilerFilter GetCompilerFilter() const {
	return compiler_filter_;
	}

	void SetCompilerFilter(CompilerFilter compiler_filter) {
	compiler_filter_ = compiler_filter;
	}

	bool VerifyAtRuntime() const {
	return compiler_filter_ == CompilerOptions::kVerifyAtRuntime;
	}

	bool IsCompilationEnabled() const {
	return compiler_filter_ != CompilerOptions::kVerifyNone &&
	compiler_filter_ != CompilerOptions::kInterpretOnly &&
	compiler_filter_ != CompilerOptions::kVerifyAtRuntime;
	}

	bool IsVerificationEnabled() const {
	return compiler_filter_ != CompilerOptions::kVerifyNone &&
	compiler_filter_ != CompilerOptions::kVerifyAtRuntime;
	}

	bool NeverVerify() const {
	return compiler_filter_ == CompilerOptions::kVerifyNone;
	}

	size_t GetHugeMethodThreshold() const {
	return huge_method_threshold_;
	}

	size_t GetLargeMethodThreshold() const {
	return large_method_threshold_;
	}

	size_t GetSmallMethodThreshold() const {
	return small_method_threshold_;
	}

	size_t GetTinyMethodThreshold() const {
	return tiny_method_threshold_;
	}

	bool IsHugeMethod(size_t num_dalvik_instructions) const {
	return num_dalvik_instructions > huge_method_threshold_;
	}

	bool IsLargeMethod(size_t num_dalvik_instructions) const {
	return num_dalvik_instructions > large_method_threshold_;
	}

	bool IsSmallMethod(size_t num_dalvik_instructions) const {
	return num_dalvik_instructions > small_method_threshold_;
	}

	bool IsTinyMethod(size_t num_dalvik_instructions) const {
	return num_dalvik_instructions > tiny_method_threshold_;
	}

	size_t GetNumDexMethodsThreshold() const {
	return num_dex_methods_threshold_;
	}

	size_t GetInlineDepthLimit() const {
	return inline_depth_limit_;
	}

	size_t GetInlineMaxCodeUnits() const {
	return inline_max_code_units_;
	}

	double GetTopKProfileThreshold() const {
	return top_k_profile_threshold_;
	}

	bool GetDebuggable() const {
	return debuggable_;
	}

	bool GetNativeDebuggable() const {
	return native_debuggable_;
	}

	bool GetGenerateDebugInfo() const {
	return generate_debug_info_;
	}

	bool GetImplicitNullChecks() const {
	return implicit_null_checks_;
	}

	bool GetImplicitStackOverflowChecks() const {
	return implicit_so_checks_;
	}

	bool GetImplicitSuspendChecks() const {
	return implicit_suspend_checks_;
	}

	bool GetIncludePatchInformation() const {
	return include_patch_information_;
	}

	// Should the code be compiled as position independent?
	bool GetCompilePic() const {
	return compile_pic_;
	}

	bool HasVerboseMethods() const {
	return verbose_methods_ != nullptr && !verbose_methods_->empty();
	}

	bool IsVerboseMethod(const std::string& pretty_method) const {
	for (const std::string& cur_method : *verbose_methods_) {
	if (pretty_method.find(cur_method) != std::string::npos) {
	return true;
	}
	}
	return false;
	}

	std::ostream* GetInitFailureOutput() const {
	return init_failure_output_.get();
	}

	const PassManagerOptions* GetPassManagerOptions() const {
	return &pass_manager_options_;
	}

	bool AbortOnHardVerifierFailure() const {
	return abort_on_hard_verifier_failure_;
	}

	const DexFile* GetNoInlineFromDexFile() const {
	return no_inline_from_;
	}

	bool ParseCompilerOption(const StringPiece& option, UsageFn Usage);

	private:
	void ParseDumpInitFailures(const StringPiece& option, UsageFn Usage);
	void ParsePassOptions(const StringPiece& option, UsageFn Usage);
	void ParseDumpCfgPasses(const StringPiece& option, UsageFn Usage);
	void ParsePrintPasses(const StringPiece& option, UsageFn Usage);
	void ParseDisablePasses(const StringPiece& option, UsageFn Usage);
	void ParseInlineMaxCodeUnits(const StringPiece& option, UsageFn Usage);
	void ParseInlineDepthLimit(const StringPiece& option, UsageFn Usage);
	void ParseNumDexMethods(const StringPiece& option, UsageFn Usage);
	void ParseTinyMethodMax(const StringPiece& option, UsageFn Usage);
	void ParseSmallMethodMax(const StringPiece& option, UsageFn Usage);
	void ParseLargeMethodMax(const StringPiece& option, UsageFn Usage);
	void ParseHugeMethodMax(const StringPiece& option, UsageFn Usage);

	CompilerFilter compiler_filter_;
	size_t huge_method_threshold_;
	size_t large_method_threshold_;
	size_t small_method_threshold_;
	size_t tiny_method_threshold_;
	size_t num_dex_methods_threshold_;
	size_t inline_depth_limit_;
	size_t inline_max_code_units_;

	// A dex file from which we should not inline code.
	const DexFile* no_inline_from_;

	bool include_patch_information_;
	// When using a profile file only the top K% of the profiled samples will be compiled.
	double top_k_profile_threshold_;
	bool debuggable_;
	bool native_debuggable_;
	bool generate_debug_info_;
	bool implicit_null_checks_;
	bool implicit_so_checks_;
	bool implicit_suspend_checks_;
	bool compile_pic_;

	// Vector of methods to have verbose output enabled for.
	const std::vector<std::string>* verbose_methods_;

	PassManagerOptions pass_manager_options_;

	// Abort compilation with an error if we find a class that fails verification with a hard
	// failure.
	bool abort_on_hard_verifier_failure_;

	// Log initialization of initialization failures to this stream if not null.
	std::unique_ptr<std::ostream> init_failure_output_;

	friend class Dex2Oat;

	DISALLOW_COPY_AND_ASSIGN(CompilerOptions);
	};
	std::ostream& operator<<(std::ostream& os, const CompilerOptions::CompilerFilter& rhs);

	} // namespace art

	#endif // ART_COMPILER_DRIVER_COMPILER_OPTIONS_H_