tools/llvm-diff/DifferenceEngine.h - llvm - Git at Google

 //===-- DifferenceEngine.h - Module comparator ------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//
 //
 // This header defines the interface to the LLVM difference engine,
 // which structurally compares functions within a module.
 //
 //===----------------------------------------------------------------------===//

 #ifndef _LLVM_DIFFERENCE_ENGINE_H_
 #define _LLVM_DIFFERENCE_ENGINE_H_

 #include "llvm/ADT/SmallVector.h"
 #include "llvm/ADT/StringRef.h"

 #include <utility>

 namespace llvm {
   class Function;
   class GlobalValue;
   class Instruction;
   class LLVMContext;
   class Module;
   class Twine;
   class Value;

   /// A class for performing structural comparisons of LLVM assembly.
   class DifferenceEngine {
   public:
     /// A temporary-object class for building up log messages.
     class LogBuilder {
       DifferenceEngine &Engine;

       /// The use of a stored StringRef here is okay because
       /// LogBuilder should be used only as a temporary, and as a
       /// temporary it will be destructed before whatever temporary
       /// might be initializing this format.
       StringRef Format;

       SmallVector<Value*, 4> Arguments;

     public:
       LogBuilder(DifferenceEngine &Engine, StringRef Format)
         : Engine(Engine), Format(Format) {}

       LogBuilder &operator<<(Value *V) {
         Arguments.push_back(V);
         return *this;
       }

       ~LogBuilder() {
         Engine.consumer.logf(*this);
       }

       StringRef getFormat() const { return Format; }

       unsigned getNumArguments() const { return Arguments.size(); }
       Value *getArgument(unsigned I) const { return Arguments[I]; }
     };

     enum DiffChange { DC_match, DC_left, DC_right };

     /// A temporary-object class for building up diff messages.
     class DiffLogBuilder {
       typedef std::pair<Instruction*,Instruction*> DiffRecord;
       SmallVector<DiffRecord, 20> Diff;

       DifferenceEngine &Engine;

     public:
       DiffLogBuilder(DifferenceEngine &Engine) : Engine(Engine) {}
       ~DiffLogBuilder() { Engine.consumer.logd(*this); }

       void addMatch(Instruction *L, Instruction *R) {
         Diff.push_back(DiffRecord(L, R));
       }
       void addLeft(Instruction *L) {
         // HACK: VS 2010 has a bug in the stdlib that requires this.
         Diff.push_back(DiffRecord(L, DiffRecord::second_type(0)));
       }
       void addRight(Instruction *R) {
         // HACK: VS 2010 has a bug in the stdlib that requires this.
         Diff.push_back(DiffRecord(DiffRecord::first_type(0), R));
       }

       unsigned getNumLines() const { return Diff.size(); }
       DiffChange getLineKind(unsigned I) const {
         return (Diff[I].first ? (Diff[I].second ? DC_match : DC_left)
                               : DC_right);
       }
       Instruction *getLeft(unsigned I) const { return Diff[I].first; }
       Instruction *getRight(unsigned I) const { return Diff[I].second; }
     };

     /// The interface for consumers of difference data.
     struct Consumer {
       /// Record that a local context has been entered.  Left and
       /// Right are IR "containers" of some sort which are being
       /// considered for structural equivalence: global variables,
       /// functions, blocks, instructions, etc.
       virtual void enterContext(Value *Left, Value *Right) = 0;

       /// Record that a local context has been exited.
       virtual void exitContext() = 0;

       /// Record a difference within the current context.
       virtual void log(StringRef Text) = 0;

       /// Record a formatted difference within the current context.
       virtual void logf(const LogBuilder &Log) = 0;

       /// Record a line-by-line instruction diff.
       virtual void logd(const DiffLogBuilder &Log) = 0;

     protected:
       virtual ~Consumer() {}
     };

     /// A RAII object for recording the current context.
     struct Context {
       Context(DifferenceEngine &Engine, Value *L, Value *R) : Engine(Engine) {
         Engine.consumer.enterContext(L, R);
       }

       ~Context() {
         Engine.consumer.exitContext();
       }

     private:
       DifferenceEngine &Engine;
     };

     /// An oracle for answering whether two values are equivalent as
     /// operands.
     struct Oracle {
       virtual bool operator()(Value *L, Value *R) = 0;

     protected:
       virtual ~Oracle() {}
     };

     DifferenceEngine(LLVMContext &context, Consumer &consumer)
       : context(context), consumer(consumer), globalValueOracle(0) {}

     void diff(Module *L, Module *R);
     void diff(Function *L, Function *R);

     void log(StringRef text) {
       consumer.log(text);
     }

     LogBuilder logf(StringRef text) {
       return LogBuilder(*this, text);
     }

     /// Installs an oracle to decide whether two global values are
     /// equivalent as operands.  Without an oracle, global values are
     /// considered equivalent as operands precisely when they have the
     /// same name.
     void setGlobalValueOracle(Oracle *oracle) {
       globalValueOracle = oracle;
     }

     /// Determines whether two global values are equivalent.
     bool equivalentAsOperands(GlobalValue *L, GlobalValue *R);

   private:
     LLVMContext &context;
     Consumer &consumer;
     Oracle *globalValueOracle;
   };
 }

 #endif
	//===-- DifferenceEngine.h - Module comparator ------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//
	//
	// This header defines the interface to the LLVM difference engine,
	// which structurally compares functions within a module.
	//
	//===----------------------------------------------------------------------===//

	#ifndef _LLVM_DIFFERENCE_ENGINE_H_
	#define _LLVM_DIFFERENCE_ENGINE_H_

	#include "llvm/ADT/SmallVector.h"
	#include "llvm/ADT/StringRef.h"

	#include <utility>

	namespace llvm {
	class Function;
	class GlobalValue;
	class Instruction;
	class LLVMContext;
	class Module;
	class Twine;
	class Value;

	/// A class for performing structural comparisons of LLVM assembly.
	class DifferenceEngine {
	public:
	/// A temporary-object class for building up log messages.
	class LogBuilder {
	DifferenceEngine &Engine;

	/// The use of a stored StringRef here is okay because
	/// LogBuilder should be used only as a temporary, and as a
	/// temporary it will be destructed before whatever temporary
	/// might be initializing this format.
	StringRef Format;

	SmallVector<Value*, 4> Arguments;

	public:
	LogBuilder(DifferenceEngine &Engine, StringRef Format)
	: Engine(Engine), Format(Format) {}

	LogBuilder &operator<<(Value *V) {
	Arguments.push_back(V);
	return *this;
	}

	~LogBuilder() {
	Engine.consumer.logf(*this);
	}

	StringRef getFormat() const { return Format; }

	unsigned getNumArguments() const { return Arguments.size(); }
	Value *getArgument(unsigned I) const { return Arguments[I]; }
	};

	enum DiffChange { DC_match, DC_left, DC_right };

	/// A temporary-object class for building up diff messages.
	class DiffLogBuilder {
	typedef std::pair<Instruction,Instruction> DiffRecord;
	SmallVector<DiffRecord, 20> Diff;

	DifferenceEngine &Engine;

	public:
	DiffLogBuilder(DifferenceEngine &Engine) : Engine(Engine) {}
	~DiffLogBuilder() { Engine.consumer.logd(*this); }

	void addMatch(Instruction L, Instruction R) {
	Diff.push_back(DiffRecord(L, R));
	}
	void addLeft(Instruction *L) {
	// HACK: VS 2010 has a bug in the stdlib that requires this.
	Diff.push_back(DiffRecord(L, DiffRecord::second_type(0)));
	}
	void addRight(Instruction *R) {
	// HACK: VS 2010 has a bug in the stdlib that requires this.
	Diff.push_back(DiffRecord(DiffRecord::first_type(0), R));
	}

	unsigned getNumLines() const { return Diff.size(); }
	DiffChange getLineKind(unsigned I) const {
	return (Diff[I].first ? (Diff[I].second ? DC_match : DC_left)
	: DC_right);
	}
	Instruction *getLeft(unsigned I) const { return Diff[I].first; }
	Instruction *getRight(unsigned I) const { return Diff[I].second; }
	};

	/// The interface for consumers of difference data.
	struct Consumer {
	/// Record that a local context has been entered. Left and
	/// Right are IR "containers" of some sort which are being
	/// considered for structural equivalence: global variables,
	/// functions, blocks, instructions, etc.
	virtual void enterContext(Value Left, Value Right) = 0;

	/// Record that a local context has been exited.
	virtual void exitContext() = 0;

	/// Record a difference within the current context.
	virtual void log(StringRef Text) = 0;

	/// Record a formatted difference within the current context.
	virtual void logf(const LogBuilder &Log) = 0;

	/// Record a line-by-line instruction diff.
	virtual void logd(const DiffLogBuilder &Log) = 0;

	protected:
	virtual ~Consumer() {}
	};

	/// A RAII object for recording the current context.
	struct Context {
	Context(DifferenceEngine &Engine, Value L, Value R) : Engine(Engine) {
	Engine.consumer.enterContext(L, R);
	}

	~Context() {
	Engine.consumer.exitContext();
	}

	private:
	DifferenceEngine &Engine;
	};

	/// An oracle for answering whether two values are equivalent as
	/// operands.
	struct Oracle {
	virtual bool operator()(Value L, Value R) = 0;

	protected:
	virtual ~Oracle() {}
	};

	DifferenceEngine(LLVMContext &context, Consumer &consumer)
	: context(context), consumer(consumer), globalValueOracle(0) {}

	void diff(Module L, Module R);
	void diff(Function L, Function R);

	void log(StringRef text) {
	consumer.log(text);
	}

	LogBuilder logf(StringRef text) {
	return LogBuilder(*this, text);
	}

	/// Installs an oracle to decide whether two global values are
	/// equivalent as operands. Without an oracle, global values are
	/// considered equivalent as operands precisely when they have the
	/// same name.
	void setGlobalValueOracle(Oracle *oracle) {
	globalValueOracle = oracle;
	}

	/// Determines whether two global values are equivalent.
	bool equivalentAsOperands(GlobalValue L, GlobalValue R);

	private:
	LLVMContext &context;
	Consumer &consumer;
	Oracle *globalValueOracle;
	};
	}

	#endif