research/durchschlag.h - external/github.com/google/brotli - Git at Google

 #ifndef BROTLI_RESEARCH_DURCHSCHLAG_H_
 #define BROTLI_RESEARCH_DURCHSCHLAG_H_

 #include <cstddef>
 #include <cstdint>
 #include <string>
 #include <vector>

 /**
  * Generate a dictionary for given samples.
  *
  * @param dictionary_size_limit maximal dictionary size
  * @param slice_len text slice size
  * @param block_len score block length
  * @param sample_sizes vector with sample sizes
  * @param sample_data concatenated samples
  * @return generated dictionary
  */
 std::string durchschlag_generate(
     size_t dictionary_size_limit, size_t slice_len, size_t block_len,
     const std::vector<size_t>& sample_sizes, const uint8_t* sample_data);

 //------------------------------------------------------------------------------
 // Lower level API for repetitive dictionary generation.
 //------------------------------------------------------------------------------

 /* Pointer to position in text. */
 typedef uint32_t DurchschlagTextIdx;

 /* Context is made public for flexible serialization / deserialization. */
 typedef struct DurchschlagContext {
   DurchschlagTextIdx dataSize;
   DurchschlagTextIdx sliceLen;
   DurchschlagTextIdx numUniqueSlices;
   std::vector<DurchschlagTextIdx> offsets;
   std::vector<DurchschlagTextIdx> sliceMap;
 } DurchschlagContext;

 DurchschlagContext durchschlag_prepare(size_t slice_len,
     const std::vector<size_t>& sample_sizes, const uint8_t* sample_data);

 typedef enum DurchschalgResourceStrategy {
   // Faster
   DURCHSCHLAG_EXCLUSIVE = 0,
   // Uses much less memory
   DURCHSCHLAG_COLLABORATIVE = 1
 } DurchschalgResourceStrategy;

 std::string durchschlag_generate(DurchschalgResourceStrategy strategy,
     size_t dictionary_size_limit, size_t block_len,
     const DurchschlagContext& context, const uint8_t* sample_data);

 //------------------------------------------------------------------------------
 // Suffix Array based preparation.
 //------------------------------------------------------------------------------

 typedef struct DurchschlagIndex {
   std::vector<DurchschlagTextIdx> lcp;
   std::vector<DurchschlagTextIdx> sa;
 } DurchschlagIndex;

 DurchschlagIndex durchschlag_index(const std::vector<uint8_t>& data);

 DurchschlagContext durchschlag_prepare(size_t slice_len,
     const std::vector<size_t>& sample_sizes, const DurchschlagIndex& index);

 //------------------------------------------------------------------------------
 // Data preparation.
 //------------------------------------------------------------------------------

 /**
  * Cut out unique slices.
  *
  * Both @p sample_sizes and @p sample_data are modified in-place. Number of
  * samples remains unchanged, but some samples become shorter.
  *
  * @param slice_len (unique) slice size
  * @param minimum_population minimum non-unique slice occurrence
  * @param sample_sizes [in / out] vector with sample sizes
  * @param sample_data [in / out] concatenated samples
  */
 void durchschlag_distill(size_t slice_len, size_t minimum_population,
     std::vector<size_t>* sample_sizes, uint8_t* sample_data);

 /**
  * Replace unique slices with zeroes.
  *
  * @p sample_data is modified in-place. Number of samples and their length
  * remain unchanged.
  *
  * @param slice_len (unique) slice size
  * @param minimum_population minimum non-unique slice occurrence
  * @param sample_sizes vector with sample sizes
  * @param sample_data [in / out] concatenated samples
  */
 void durchschlag_purify(size_t slice_len, size_t minimum_population,
     const std::vector<size_t>& sample_sizes, uint8_t* sample_data);

 #endif  // BROTLI_RESEARCH_DURCHSCHLAG_H_
	#ifndef BROTLI_RESEARCH_DURCHSCHLAG_H_
	#define BROTLI_RESEARCH_DURCHSCHLAG_H_

	#include <cstddef>
	#include <cstdint>
	#include <string>
	#include <vector>

	/**
	* Generate a dictionary for given samples.
	*
	* @param dictionary_size_limit maximal dictionary size
	* @param slice_len text slice size
	* @param block_len score block length
	* @param sample_sizes vector with sample sizes
	* @param sample_data concatenated samples
	* @return generated dictionary
	*/
	std::string durchschlag_generate(
	size_t dictionary_size_limit, size_t slice_len, size_t block_len,
	const std::vector<size_t>& sample_sizes, const uint8_t* sample_data);

	//------------------------------------------------------------------------------
	// Lower level API for repetitive dictionary generation.
	//------------------------------------------------------------------------------

	/* Pointer to position in text. */
	typedef uint32_t DurchschlagTextIdx;

	/* Context is made public for flexible serialization / deserialization. */
	typedef struct DurchschlagContext {
	DurchschlagTextIdx dataSize;
	DurchschlagTextIdx sliceLen;
	DurchschlagTextIdx numUniqueSlices;
	std::vector<DurchschlagTextIdx> offsets;
	std::vector<DurchschlagTextIdx> sliceMap;
	} DurchschlagContext;

	DurchschlagContext durchschlag_prepare(size_t slice_len,
	const std::vector<size_t>& sample_sizes, const uint8_t* sample_data);

	typedef enum DurchschalgResourceStrategy {
	// Faster
	DURCHSCHLAG_EXCLUSIVE = 0,
	// Uses much less memory
	DURCHSCHLAG_COLLABORATIVE = 1
	} DurchschalgResourceStrategy;

	std::string durchschlag_generate(DurchschalgResourceStrategy strategy,
	size_t dictionary_size_limit, size_t block_len,
	const DurchschlagContext& context, const uint8_t* sample_data);

	//------------------------------------------------------------------------------
	// Suffix Array based preparation.
	//------------------------------------------------------------------------------

	typedef struct DurchschlagIndex {
	std::vector<DurchschlagTextIdx> lcp;
	std::vector<DurchschlagTextIdx> sa;
	} DurchschlagIndex;

	DurchschlagIndex durchschlag_index(const std::vector<uint8_t>& data);

	DurchschlagContext durchschlag_prepare(size_t slice_len,
	const std::vector<size_t>& sample_sizes, const DurchschlagIndex& index);

	//------------------------------------------------------------------------------
	// Data preparation.
	//------------------------------------------------------------------------------

	/**
	* Cut out unique slices.
	*
	* Both @p sample_sizes and @p sample_data are modified in-place. Number of
	* samples remains unchanged, but some samples become shorter.
	*
	* @param slice_len (unique) slice size
	* @param minimum_population minimum non-unique slice occurrence
	* @param sample_sizes [in / out] vector with sample sizes
	* @param sample_data [in / out] concatenated samples
	*/
	void durchschlag_distill(size_t slice_len, size_t minimum_population,
	std::vector<size_t>* sample_sizes, uint8_t* sample_data);

	/**
	* Replace unique slices with zeroes.
	*
	* @p sample_data is modified in-place. Number of samples and their length
	* remain unchanged.
	*
	* @param slice_len (unique) slice size
	* @param minimum_population minimum non-unique slice occurrence
	* @param sample_sizes vector with sample sizes
	* @param sample_data [in / out] concatenated samples
	*/
	void durchschlag_purify(size_t slice_len, size_t minimum_population,
	const std::vector<size_t>& sample_sizes, uint8_t* sample_data);

	#endif // BROTLI_RESEARCH_DURCHSCHLAG_H_