compiler/dex/pass_me.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_DEX_PASS_ME_H_
 #define ART_COMPILER_DEX_PASS_ME_H_

 #include <string>

 #include "base/logging.h"
 #include "pass.h"
 #include "safe_map.h"

 namespace art {

 // Forward declarations.
 class BasicBlock;
 struct CompilationUnit;

 /**
  * @brief OptimizationFlag is an enumeration to perform certain tasks for a given pass.
  * @details Each enum should be a power of 2 to be correctly used.
  */
 enum OptimizationFlag {
   kOptimizationBasicBlockChange = 1,  /// @brief Has there been a change to a BasicBlock?
   kOptimizationDefUsesChange = 2,     /// @brief Has there been a change to a def-use?
   kLoopStructureChange = 4,           /// @brief Has there been a loop structural change?
 };
 std::ostream& operator<<(std::ostream& os, const OptimizationFlag& rhs);

 // Data holder class.
 class PassMEDataHolder: public PassDataHolder {
   public:
     CompilationUnit* c_unit;
     BasicBlock* bb;
     void* data;               /**< @brief Any data the pass wants to use */
     bool dirty;               /**< @brief Has the pass rendered the CFG dirty, requiring post-opt? */
 };

 enum DataFlowAnalysisMode {
   kAllNodes = 0,                           /// @brief All nodes.
   kPreOrderDFSTraversal,                   /// @brief Depth-First-Search / Pre-Order.
   kRepeatingPreOrderDFSTraversal,          /// @brief Depth-First-Search / Repeating Pre-Order.
   kReversePostOrderDFSTraversal,           /// @brief Depth-First-Search / Reverse Post-Order.
   kRepeatingPostOrderDFSTraversal,         /// @brief Depth-First-Search / Repeating Post-Order.
   kRepeatingReversePostOrderDFSTraversal,  /// @brief Depth-First-Search / Repeating Reverse Post-Order.
   kPostOrderDOMTraversal,                  /// @brief Dominator tree / Post-Order.
   kTopologicalSortTraversal,               /// @brief Topological Order traversal.
   kLoopRepeatingTopologicalSortTraversal,  /// @brief Loop-repeating Topological Order traversal.
   kNoNodes,                                /// @brief Skip BasicBlock traversal.
 };
 std::ostream& operator<<(std::ostream& os, const DataFlowAnalysisMode& rhs);

 /**
  * @class Pass
  * @brief Pass is the Pass structure for the optimizations.
  * @details The following structure has the different optimization passes that we are going to do.
  */
 class PassME : public Pass {
  public:
   explicit PassME(const char* name, DataFlowAnalysisMode type = kAllNodes,
           unsigned int flags = 0u, const char* dump = "")
     : Pass(name), traversal_type_(type), flags_(flags), dump_cfg_folder_(dump) {
   }

   PassME(const char* name, DataFlowAnalysisMode type, const char* dump)
     : Pass(name), traversal_type_(type), flags_(0), dump_cfg_folder_(dump) {
   }

   PassME(const char* name, const char* dump)
     : Pass(name), traversal_type_(kAllNodes), flags_(0), dump_cfg_folder_(dump) {
   }

   ~PassME() {
     default_options_.clear();
   }

   virtual DataFlowAnalysisMode GetTraversal() const {
     return traversal_type_;
   }

   /**
    * @return Returns whether the pass has any configurable options.
    */
   bool HasOptions() const {
     return default_options_.size() != 0;
   }

   /**
    * @brief Prints the pass options along with default settings if there are any.
    * @details The printing is done using LOG(INFO).
    */
   void PrintPassDefaultOptions() const {
     for (auto option_it = default_options_.begin(); option_it != default_options_.end(); option_it++) {
       LOG(INFO) << "\t" << option_it->first << ":" << std::dec << option_it->second;
     }
   }

   /**
    * @brief Prints the pass options along with either default or overridden setting.
    * @param overridden_options The overridden settings for this pass.
    */
   void PrintPassOptions(SafeMap<const std::string, int>& overridden_options) const {
     // We walk through the default options only to get the pass names. We use GetPassOption to
     // also consider the overridden ones.
     for (auto option_it = default_options_.begin(); option_it != default_options_.end(); option_it++) {
       LOG(INFO) << "\t" << option_it->first << ":" << std::dec << GetPassOption(option_it->first, overridden_options);
     }
   }

   const char* GetDumpCFGFolder() const {
     return dump_cfg_folder_;
   }

   bool GetFlag(OptimizationFlag flag) const {
     return (flags_ & flag);
   }

  protected:
   int GetPassOption(const char* option_name, const SafeMap<const std::string, int>& overridden_options) const {
     // First check if there are any overridden settings.
     auto overridden_it = overridden_options.find(std::string(option_name));
     if (overridden_it != overridden_options.end()) {
       return overridden_it->second;
     }

     // Next check the default options.
     auto default_it = default_options_.find(option_name);

     if (default_it == default_options_.end()) {
       // An invalid option is being requested.
       DCHECK(false);
       return 0;
     }

     return default_it->second;
   }

   /** @brief Type of traversal: determines the order to execute the pass on the BasicBlocks. */
   const DataFlowAnalysisMode traversal_type_;

   /** @brief Flags for additional directives: used to determine if a particular post-optimization pass is necessary. */
   const unsigned int flags_;

   /** @brief CFG Dump Folder: what sub-folder to use for dumping the CFGs post pass. */
   const char* const dump_cfg_folder_;

   /**
    * @brief Contains a map of options with the default settings.
    * @details The constructor of the specific pass instance should fill this
    * with default options.
    * */
   SafeMap<const char*, int> default_options_;
 };
 }  // namespace art
 #endif  // ART_COMPILER_DEX_PASS_ME_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_DEX_PASS_ME_H_
	#define ART_COMPILER_DEX_PASS_ME_H_

	#include <string>

	#include "base/logging.h"
	#include "pass.h"
	#include "safe_map.h"

	namespace art {

	// Forward declarations.
	class BasicBlock;
	struct CompilationUnit;

	/**
	* @brief OptimizationFlag is an enumeration to perform certain tasks for a given pass.
	* @details Each enum should be a power of 2 to be correctly used.
	*/
	enum OptimizationFlag {
	kOptimizationBasicBlockChange = 1, /// @brief Has there been a change to a BasicBlock?
	kOptimizationDefUsesChange = 2, /// @brief Has there been a change to a def-use?
	kLoopStructureChange = 4, /// @brief Has there been a loop structural change?
	};
	std::ostream& operator<<(std::ostream& os, const OptimizationFlag& rhs);

	// Data holder class.
	class PassMEDataHolder: public PassDataHolder {
	public:
	CompilationUnit* c_unit;
	BasicBlock* bb;
	void* data; /*< @brief Any data the pass wants to use /
	bool dirty; /*< @brief Has the pass rendered the CFG dirty, requiring post-opt? /
	};

	enum DataFlowAnalysisMode {
	kAllNodes = 0, /// @brief All nodes.
	kPreOrderDFSTraversal, /// @brief Depth-First-Search / Pre-Order.
	kRepeatingPreOrderDFSTraversal, /// @brief Depth-First-Search / Repeating Pre-Order.
	kReversePostOrderDFSTraversal, /// @brief Depth-First-Search / Reverse Post-Order.
	kRepeatingPostOrderDFSTraversal, /// @brief Depth-First-Search / Repeating Post-Order.
	kRepeatingReversePostOrderDFSTraversal, /// @brief Depth-First-Search / Repeating Reverse Post-Order.
	kPostOrderDOMTraversal, /// @brief Dominator tree / Post-Order.
	kTopologicalSortTraversal, /// @brief Topological Order traversal.
	kLoopRepeatingTopologicalSortTraversal, /// @brief Loop-repeating Topological Order traversal.
	kNoNodes, /// @brief Skip BasicBlock traversal.
	};
	std::ostream& operator<<(std::ostream& os, const DataFlowAnalysisMode& rhs);

	/**
	* @class Pass
	* @brief Pass is the Pass structure for the optimizations.
	* @details The following structure has the different optimization passes that we are going to do.
	*/
	class PassME : public Pass {
	public:
	explicit PassME(const char* name, DataFlowAnalysisMode type = kAllNodes,
	unsigned int flags = 0u, const char* dump = "")
	: Pass(name), traversal_type_(type), flags_(flags), dump_cfg_folder_(dump) {
	}

	PassME(const char* name, DataFlowAnalysisMode type, const char* dump)
	: Pass(name), traversal_type_(type), flags_(0), dump_cfg_folder_(dump) {
	}

	PassME(const char* name, const char* dump)
	: Pass(name), traversal_type_(kAllNodes), flags_(0), dump_cfg_folder_(dump) {
	}

	~PassME() {
	default_options_.clear();
	}

	virtual DataFlowAnalysisMode GetTraversal() const {
	return traversal_type_;
	}

	/**
	* @return Returns whether the pass has any configurable options.
	*/
	bool HasOptions() const {
	return default_options_.size() != 0;
	}

	/**
	* @brief Prints the pass options along with default settings if there are any.
	* @details The printing is done using LOG(INFO).
	*/
	void PrintPassDefaultOptions() const {
	for (auto option_it = default_options_.begin(); option_it != default_options_.end(); option_it++) {
	LOG(INFO) << "\t" << option_it->first << ":" << std::dec << option_it->second;
	}
	}

	/**
	* @brief Prints the pass options along with either default or overridden setting.
	* @param overridden_options The overridden settings for this pass.
	*/
	void PrintPassOptions(SafeMap<const std::string, int>& overridden_options) const {
	// We walk through the default options only to get the pass names. We use GetPassOption to
	// also consider the overridden ones.
	for (auto option_it = default_options_.begin(); option_it != default_options_.end(); option_it++) {
	LOG(INFO) << "\t" << option_it->first << ":" << std::dec << GetPassOption(option_it->first, overridden_options);
	}
	}

	const char* GetDumpCFGFolder() const {
	return dump_cfg_folder_;
	}

	bool GetFlag(OptimizationFlag flag) const {
	return (flags_ & flag);
	}

	protected:
	int GetPassOption(const char* option_name, const SafeMap<const std::string, int>& overridden_options) const {
	// First check if there are any overridden settings.
	auto overridden_it = overridden_options.find(std::string(option_name));
	if (overridden_it != overridden_options.end()) {
	return overridden_it->second;
	}

	// Next check the default options.
	auto default_it = default_options_.find(option_name);

	if (default_it == default_options_.end()) {
	// An invalid option is being requested.
	DCHECK(false);
	return 0;
	}

	return default_it->second;
	}

	/** @brief Type of traversal: determines the order to execute the pass on the BasicBlocks. */
	const DataFlowAnalysisMode traversal_type_;

	/** @brief Flags for additional directives: used to determine if a particular post-optimization pass is necessary. */
	const unsigned int flags_;

	/** @brief CFG Dump Folder: what sub-folder to use for dumping the CFGs post pass. */
	const char* const dump_cfg_folder_;

	/**
	* @brief Contains a map of options with the default settings.
	* @details The constructor of the specific pass instance should fill this
	* with default options.
	* */
	SafeMap<const char*, int> default_options_;
	};
	} // namespace art
	#endif // ART_COMPILER_DEX_PASS_ME_H_