src/pattern.h - platform/external/stressapptest - Git at Google

 // Copyright 2006 Google Inc. All Rights Reserved.

 // 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.

 // pattern.h : global pattern references and initialization

 // This file implements easy access to statically declared
 // data patterns.

 #ifndef STRESSAPPTEST_PATTERN_H_
 #define STRESSAPPTEST_PATTERN_H_

 #include <vector>
 #include <string>

 // This file must work with autoconf on its public version,
 // so these includes are correct.
 #include "adler32memcpy.h"
 #include "sattypes.h"

 // 2 = 128 bit bus, 1 = 64 bit bus, 0 = 32 bit bus
 const int kBusShift = 2;

 // Pattern and CRC data structure
 struct PatternData {
   const char *name;          // Name of this pattern.
   unsigned int *pat;         // Data array.
   unsigned int mask;         // Size - 1. data[index & mask] is always valid.
   unsigned char weight[4];   // Weighted frequency of this pattern.
                              // Each pattern has 32,64,128,256 width versions.
                              // All weights are added up, a random number is
                              // chosen between 0-sum(weights), and the
                              // appropriate pattern is chosen. Thus a weight of
                              // 1 is rare, a weight of 10 is 2x as likely to be
                              // chosen as a weight of 5.
 };

 // Data structure to access data patterns.
 class Pattern {
  public:
   Pattern();
   ~Pattern();
   // Fill pattern data and calculate CRC.
   int Initialize(const struct PatternData &pattern_init,
                  int buswidth,
                  bool invert,
                  int weight);

   // Access data members.
   // "busshift_" allows for repeating each pattern word 1, 2, 4, etc. times.
   // in order to create patterns of different width.
   unsigned int pattern(unsigned int offset) {
     unsigned int data = pattern_->pat[(offset >> busshift_) & pattern_->mask];
     if (inverse_)
       data = ~data;
     return data;
   }
   const AdlerChecksum *crc() {return crc_;}
   unsigned int mask() {return pattern_->mask;}
   unsigned int weight() {return weight_;}
   const char *name() {return name_.c_str();}

  private:
   int CalculateCrc();
   const struct PatternData *pattern_;
   int busshift_;        // Target data bus width.
   bool inverse_;        // Invert the data from the original pattern.
   AdlerChecksum *crc_;  // CRC of this pattern.
   string name_;         // The human readable pattern name.
   int weight_;          // This is the likelihood that this
                         // pattern will be chosen.
   // We want to copy this!
   // DISALLOW_COPY_AND_ASSIGN(Pattern);
 };

 // Object used to access global pattern list.
 class PatternList {
  public:
   PatternList();
   ~PatternList();
   // Initialize pointers to global data patterns, and calculate CRC.
   int Initialize();
   int Destroy();

   // Return the pattern designated by index i.
   Pattern *GetPattern(int i);
   // Return a random pattern according to the specified weighted probability.
   Pattern *GetRandomPattern();
   // Return the number of patterns available.
   int Size() {return size_;}

  private:
   vector<class Pattern> patterns_;
   int weightcount_;  // Total count of pattern weights.
   unsigned int size_;
   int initialized_;
   DISALLOW_COPY_AND_ASSIGN(PatternList);
 };

 // CrcIncrement allows an abstracted way to add a 32bit
 // value into a running CRC. This function should be fast, and
 // generate meaningful CRCs for the types of data patterns that
 // we are using here.
 // This CRC formula may not be optimal, but it does work.
 // It may be improved in the future.
 static inline uint32 CrcIncrement(uint32 crc, uint32 expected, int index) {
   uint32 addition = (expected ^ index);
   uint32 carry = (addition & crc) >> 31;

   return crc + addition + carry;
 }


 #endif  // STRESSAPPTEST_PATTERN_H_
	// Copyright 2006 Google Inc. All Rights Reserved.

	// 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.

	// pattern.h : global pattern references and initialization

	// This file implements easy access to statically declared
	// data patterns.

	#ifndef STRESSAPPTEST_PATTERN_H_
	#define STRESSAPPTEST_PATTERN_H_

	#include <vector>
	#include <string>

	// This file must work with autoconf on its public version,
	// so these includes are correct.
	#include "adler32memcpy.h"
	#include "sattypes.h"

	// 2 = 128 bit bus, 1 = 64 bit bus, 0 = 32 bit bus
	const int kBusShift = 2;

	// Pattern and CRC data structure
	struct PatternData {
	const char *name; // Name of this pattern.
	unsigned int *pat; // Data array.
	unsigned int mask; // Size - 1. data[index & mask] is always valid.
	unsigned char weight[4]; // Weighted frequency of this pattern.
	// Each pattern has 32,64,128,256 width versions.
	// All weights are added up, a random number is
	// chosen between 0-sum(weights), and the
	// appropriate pattern is chosen. Thus a weight of
	// 1 is rare, a weight of 10 is 2x as likely to be
	// chosen as a weight of 5.
	};

	// Data structure to access data patterns.
	class Pattern {
	public:
	Pattern();
	~Pattern();
	// Fill pattern data and calculate CRC.
	int Initialize(const struct PatternData &pattern_init,
	int buswidth,
	bool invert,
	int weight);

	// Access data members.
	// "busshift_" allows for repeating each pattern word 1, 2, 4, etc. times.
	// in order to create patterns of different width.
	unsigned int pattern(unsigned int offset) {
	unsigned int data = pattern_->pat[(offset >> busshift_) & pattern_->mask];
	if (inverse_)
	data = ~data;
	return data;
	}
	const AdlerChecksum *crc() {return crc_;}
	unsigned int mask() {return pattern_->mask;}
	unsigned int weight() {return weight_;}
	const char *name() {return name_.c_str();}

	private:
	int CalculateCrc();
	const struct PatternData *pattern_;
	int busshift_; // Target data bus width.
	bool inverse_; // Invert the data from the original pattern.
	AdlerChecksum *crc_; // CRC of this pattern.
	string name_; // The human readable pattern name.
	int weight_; // This is the likelihood that this
	// pattern will be chosen.
	// We want to copy this!
	// DISALLOW_COPY_AND_ASSIGN(Pattern);
	};

	// Object used to access global pattern list.
	class PatternList {
	public:
	PatternList();
	~PatternList();
	// Initialize pointers to global data patterns, and calculate CRC.
	int Initialize();
	int Destroy();

	// Return the pattern designated by index i.
	Pattern *GetPattern(int i);
	// Return a random pattern according to the specified weighted probability.
	Pattern *GetRandomPattern();
	// Return the number of patterns available.
	int Size() {return size_;}

	private:
	vector<class Pattern> patterns_;
	int weightcount_; // Total count of pattern weights.
	unsigned int size_;
	int initialized_;
	DISALLOW_COPY_AND_ASSIGN(PatternList);
	};

	// CrcIncrement allows an abstracted way to add a 32bit
	// value into a running CRC. This function should be fast, and
	// generate meaningful CRCs for the types of data patterns that
	// we are using here.
	// This CRC formula may not be optimal, but it does work.
	// It may be improved in the future.
	static inline uint32 CrcIncrement(uint32 crc, uint32 expected, int index) {
	uint32 addition = (expected ^ index);
	uint32 carry = (addition & crc) >> 31;

	return crc + addition + carry;
	}


	#endif // STRESSAPPTEST_PATTERN_H_