src/kenlm/lm/bhiksha.hh - joshua - Git at Google

 /* Simple implementation of
  * @inproceedings{bhikshacompression,
  *  author={Bhiksha Raj and Ed Whittaker},
  *  year={2003},
  *  title={Lossless Compression of Language Model Structure and Word Identifiers},
  *  booktitle={Proceedings of IEEE International Conference on Acoustics, Speech and Signal Processing},
  *  pages={388--391},
  *  }
  *
  *  Currently only used for next pointers.
  */

 #ifndef LM_BHIKSHA_H
 #define LM_BHIKSHA_H

 #include "lm/model_type.hh"
 #include "lm/trie.hh"
 #include "util/bit_packing.hh"
 #include "util/sorted_uniform.hh"

 #include <algorithm>
 #include <stdint.h>
 #include <cassert>

 namespace lm {
 namespace ngram {
 struct Config;
 class BinaryFormat;

 namespace trie {

 class DontBhiksha {
   public:
     static const ModelType kModelTypeAdd = static_cast<ModelType>(0);

     static void UpdateConfigFromBinary(const BinaryFormat &, uint64_t, Config &/*config*/) {}

     static uint64_t Size(uint64_t /*max_offset*/, uint64_t /*max_next*/, const Config &/*config*/) { return 0; }

     static uint8_t InlineBits(uint64_t /*max_offset*/, uint64_t max_next, const Config &/*config*/) {
       return util::RequiredBits(max_next);
     }

     DontBhiksha(const void *base, uint64_t max_offset, uint64_t max_next, const Config &config);

     void ReadNext(const void *base, uint64_t bit_offset, uint64_t /*index*/, uint8_t total_bits, NodeRange &out) const {
       out.begin = util::ReadInt57(base, bit_offset, next_.bits, next_.mask);
       out.end = util::ReadInt57(base, bit_offset + total_bits, next_.bits, next_.mask);
       //assert(out.end >= out.begin);
     }

     void WriteNext(void *base, uint64_t bit_offset, uint64_t /*index*/, uint64_t value) {
       util::WriteInt57(base, bit_offset, next_.bits, value);
     }

     void FinishedLoading(const Config &/*config*/) {}

     uint8_t InlineBits() const { return next_.bits; }

   private:
     util::BitsMask next_;
 };

 class ArrayBhiksha {
   public:
     static const ModelType kModelTypeAdd = kArrayAdd;

     static void UpdateConfigFromBinary(const BinaryFormat &file, uint64_t offset, Config &config);

     static uint64_t Size(uint64_t max_offset, uint64_t max_next, const Config &config);

     static uint8_t InlineBits(uint64_t max_offset, uint64_t max_next, const Config &config);

     ArrayBhiksha(void *base, uint64_t max_offset, uint64_t max_value, const Config &config);

     void ReadNext(const void *base, uint64_t bit_offset, uint64_t index, uint8_t total_bits, NodeRange &out) const {
       // Some assertions are commented out because they are expensive.
       // assert(*offset_begin_ == 0);
       // std::upper_bound returns the first element that is greater.  Want the
       // last element that is <= to the index.
       const uint64_t *begin_it = std::upper_bound(offset_begin_, offset_end_, index) - 1;
       // Since *offset_begin_ == 0, the position should be in range.
       // assert(begin_it >= offset_begin_);
       const uint64_t *end_it;
       for (end_it = begin_it + 1; (end_it < offset_end_) && (*end_it <= index + 1); ++end_it) {}
       // assert(end_it == std::upper_bound(offset_begin_, offset_end_, index + 1));
       --end_it;
       // assert(end_it >= begin_it);
       out.begin = ((begin_it - offset_begin_) << next_inline_.bits) |
         util::ReadInt57(base, bit_offset, next_inline_.bits, next_inline_.mask);
       out.end = ((end_it - offset_begin_) << next_inline_.bits) |
         util::ReadInt57(base, bit_offset + total_bits, next_inline_.bits, next_inline_.mask);
       // If this fails, consider rebuilding your model using KenLM after 1e333d786b748555e8f368d2bbba29a016c98052
       assert(out.end >= out.begin);
     }

     void WriteNext(void *base, uint64_t bit_offset, uint64_t index, uint64_t value) {
       uint64_t encode = value >> next_inline_.bits;
       for (; write_to_ <= offset_begin_ + encode; ++write_to_) *write_to_ = index;
       util::WriteInt57(base, bit_offset, next_inline_.bits, value & next_inline_.mask);
     }

     void FinishedLoading(const Config &config);

     uint8_t InlineBits() const { return next_inline_.bits; }

   private:
     const util::BitsMask next_inline_;

     const uint64_t *const offset_begin_;
     const uint64_t *const offset_end_;

     uint64_t *write_to_;

     void *original_base_;
 };

 } // namespace trie
 } // namespace ngram
 } // namespace lm

 #endif // LM_BHIKSHA_H
	/* Simple implementation of
	* @inproceedings{bhikshacompression,
	* author={Bhiksha Raj and Ed Whittaker},
	* year={2003},
	* title={Lossless Compression of Language Model Structure and Word Identifiers},
	* booktitle={Proceedings of IEEE International Conference on Acoustics, Speech and Signal Processing},
	* pages={388--391},
	* }
	*
	* Currently only used for next pointers.
	*/

	#ifndef LM_BHIKSHA_H
	#define LM_BHIKSHA_H

	#include "lm/model_type.hh"
	#include "lm/trie.hh"
	#include "util/bit_packing.hh"
	#include "util/sorted_uniform.hh"

	#include <algorithm>
	#include <stdint.h>
	#include <cassert>

	namespace lm {
	namespace ngram {
	struct Config;
	class BinaryFormat;

	namespace trie {

	class DontBhiksha {
	public:
	static const ModelType kModelTypeAdd = static_cast<ModelType>(0);

	static void UpdateConfigFromBinary(const BinaryFormat &, uint64_t, Config &/config/) {}

	static uint64_t Size(uint64_t /max_offset/, uint64_t /max_next/, const Config &/config/) { return 0; }

	static uint8_t InlineBits(uint64_t /max_offset/, uint64_t max_next, const Config &/config/) {
	return util::RequiredBits(max_next);
	}

	DontBhiksha(const void *base, uint64_t max_offset, uint64_t max_next, const Config &config);

	void ReadNext(const void base, uint64_t bit_offset, uint64_t /index*/, uint8_t total_bits, NodeRange &out) const {
	out.begin = util::ReadInt57(base, bit_offset, next_.bits, next_.mask);
	out.end = util::ReadInt57(base, bit_offset + total_bits, next_.bits, next_.mask);
	//assert(out.end >= out.begin);
	}

	void WriteNext(void base, uint64_t bit_offset, uint64_t /index*/, uint64_t value) {
	util::WriteInt57(base, bit_offset, next_.bits, value);
	}

	void FinishedLoading(const Config &/config/) {}

	uint8_t InlineBits() const { return next_.bits; }

	private:
	util::BitsMask next_;
	};

	class ArrayBhiksha {
	public:
	static const ModelType kModelTypeAdd = kArrayAdd;

	static void UpdateConfigFromBinary(const BinaryFormat &file, uint64_t offset, Config &config);

	static uint64_t Size(uint64_t max_offset, uint64_t max_next, const Config &config);

	static uint8_t InlineBits(uint64_t max_offset, uint64_t max_next, const Config &config);

	ArrayBhiksha(void *base, uint64_t max_offset, uint64_t max_value, const Config &config);

	void ReadNext(const void *base, uint64_t bit_offset, uint64_t index, uint8_t total_bits, NodeRange &out) const {
	// Some assertions are commented out because they are expensive.
	// assert(*offset_begin_ == 0);
	// std::upper_bound returns the first element that is greater. Want the
	// last element that is <= to the index.
	const uint64_t *begin_it = std::upper_bound(offset_begin_, offset_end_, index) - 1;
	// Since *offset_begin_ == 0, the position should be in range.
	// assert(begin_it >= offset_begin_);
	const uint64_t *end_it;
	for (end_it = begin_it + 1; (end_it < offset_end_) && (*end_it <= index + 1); ++end_it) {}
	// assert(end_it == std::upper_bound(offset_begin_, offset_end_, index + 1));
	--end_it;
	// assert(end_it >= begin_it);
	out.begin = ((begin_it - offset_begin_) << next_inline_.bits) \|
	util::ReadInt57(base, bit_offset, next_inline_.bits, next_inline_.mask);
	out.end = ((end_it - offset_begin_) << next_inline_.bits) \|
	util::ReadInt57(base, bit_offset + total_bits, next_inline_.bits, next_inline_.mask);
	// If this fails, consider rebuilding your model using KenLM after 1e333d786b748555e8f368d2bbba29a016c98052
	assert(out.end >= out.begin);
	}

	void WriteNext(void *base, uint64_t bit_offset, uint64_t index, uint64_t value) {
	uint64_t encode = value >> next_inline_.bits;
	for (; write_to_ <= offset_begin_ + encode; ++write_to_) *write_to_ = index;
	util::WriteInt57(base, bit_offset, next_inline_.bits, value & next_inline_.mask);
	}

	void FinishedLoading(const Config &config);

	uint8_t InlineBits() const { return next_inline_.bits; }

	private:
	const util::BitsMask next_inline_;

	const uint64_t *const offset_begin_;
	const uint64_t *const offset_end_;

	uint64_t *write_to_;

	void *original_base_;
	};

	} // namespace trie
	} // namespace ngram
	} // namespace lm

	#endif // LM_BHIKSHA_H