src/joshua/decoder/ff/lm/kenlm/lm/vocab.hh - joshua - Git at Google

 #ifndef LM_VOCAB_H
 #define LM_VOCAB_H

 #include "lm/enumerate_vocab.hh"
 #include "lm/lm_exception.hh"
 #include "lm/virtual_interface.hh"
 #include "util/fake_ofstream.hh"
 #include "util/murmur_hash.hh"
 #include "util/pool.hh"
 #include "util/probing_hash_table.hh"
 #include "util/sorted_uniform.hh"
 #include "util/string_piece.hh"

 #include <limits>
 #include <string>
 #include <vector>

 namespace lm {
 struct ProbBackoff;
 class EnumerateVocab;

 namespace ngram {
 struct Config;

 namespace detail {
 uint64_t HashForVocab(const char *str, std::size_t len);
 inline uint64_t HashForVocab(const StringPiece &str) {
   return HashForVocab(str.data(), str.length());
 }
 struct ProbingVocabularyHeader;
 } // namespace detail

 class WriteWordsWrapper : public EnumerateVocab {
   public:
     WriteWordsWrapper(EnumerateVocab *inner);

     ~WriteWordsWrapper();

     void Add(WordIndex index, const StringPiece &str);

     const std::string &Buffer() const { return buffer_; }

   private:
     EnumerateVocab *inner_;

     std::string buffer_;
 };

 // Vocabulary based on sorted uniform find storing only uint64_t values and using their offsets as indices.
 class SortedVocabulary : public base::Vocabulary {
   public:
     SortedVocabulary();

     WordIndex Index(const StringPiece &str) const {
       const uint64_t *found;
       if (util::BoundedSortedUniformFind<const uint64_t*, util::IdentityAccessor<uint64_t>, util::Pivot64>(
             util::IdentityAccessor<uint64_t>(),
             begin_ - 1, 0,
             end_, std::numeric_limits<uint64_t>::max(),
             detail::HashForVocab(str), found)) {
         return found - begin_ + 1; // +1 because <unk> is 0 and does not appear in the lookup table.
       } else {
         return 0;
       }
     }

     // Size for purposes of file writing
     static uint64_t Size(uint64_t entries, const Config &config);

     // Vocab words are [0, Bound())  Only valid after FinishedLoading/LoadedBinary.
     WordIndex Bound() const { return bound_; }

     // Everything else is for populating.  I'm too lazy to hide and friend these, but you'll only get a const reference anyway.
     void SetupMemory(void *start, std::size_t allocated, std::size_t entries, const Config &config);

     void Relocate(void *new_start);

     void ConfigureEnumerate(EnumerateVocab *to, std::size_t max_entries);

     WordIndex Insert(const StringPiece &str);

     // Reorders reorder_vocab so that the IDs are sorted.
     void FinishedLoading(ProbBackoff *reorder_vocab);

     // Trie stores the correct counts including <unk> in the header.  If this was previously sized based on a count exluding <unk>, padding with 8 bytes will make it the correct size based on a count including <unk>.
     std::size_t UnkCountChangePadding() const { return SawUnk() ? 0 : sizeof(uint64_t); }

     bool SawUnk() const { return saw_unk_; }

     void LoadedBinary(bool have_words, int fd, EnumerateVocab *to, uint64_t offset);

   private:
     uint64_t *begin_, *end_;

     WordIndex bound_;

     bool saw_unk_;

     EnumerateVocab *enumerate_;

     // Actual strings.  Used only when loading from ARPA and enumerate_ != NULL
     util::Pool string_backing_;

     std::vector<StringPiece> strings_to_enumerate_;
 };

 #pragma pack(push)
 #pragma pack(4)
 struct ProbingVocabularyEntry {
   uint64_t key;
   WordIndex value;

   typedef uint64_t Key;
   uint64_t GetKey() const { return key; }
   void SetKey(uint64_t to) { key = to; }

   static ProbingVocabularyEntry Make(uint64_t key, WordIndex value) {
     ProbingVocabularyEntry ret;
     ret.key = key;
     ret.value = value;
     return ret;
   }
 };
 #pragma pack(pop)

 // Vocabulary storing a map from uint64_t to WordIndex.
 class ProbingVocabulary : public base::Vocabulary {
   public:
     ProbingVocabulary();

     WordIndex Index(const StringPiece &str) const {
       Lookup::ConstIterator i;
       return lookup_.Find(detail::HashForVocab(str), i) ? i->value : 0;
     }

     static uint64_t Size(uint64_t entries, float probing_multiplier);
     // This just unwraps Config to get the probing_multiplier.
     static uint64_t Size(uint64_t entries, const Config &config);

     // Vocab words are [0, Bound()).
     WordIndex Bound() const { return bound_; }

     // Everything else is for populating.  I'm too lazy to hide and friend these, but you'll only get a const reference anyway.
     void SetupMemory(void *start, std::size_t allocated);
     void SetupMemory(void *start, std::size_t allocated, std::size_t /*entries*/, const Config &/*config*/) {
       SetupMemory(start, allocated);
     }

     void Relocate(void *new_start);

     void ConfigureEnumerate(EnumerateVocab *to, std::size_t max_entries);

     WordIndex Insert(const StringPiece &str);

     template <class Weights> void FinishedLoading(Weights * /*reorder_vocab*/) {
       FinishedLoading();
     }
     void FinishedLoading();

     std::size_t UnkCountChangePadding() const { return 0; }

     bool SawUnk() const { return saw_unk_; }

     void LoadedBinary(bool have_words, int fd, EnumerateVocab *to, uint64_t offset);

   private:
     typedef util::ProbingHashTable<ProbingVocabularyEntry, util::IdentityHash> Lookup;

     Lookup lookup_;

     WordIndex bound_;

     bool saw_unk_;

     EnumerateVocab *enumerate_;

     detail::ProbingVocabularyHeader *header_;
 };

 void MissingUnknown(const Config &config) throw(SpecialWordMissingException);
 void MissingSentenceMarker(const Config &config, const char *str) throw(SpecialWordMissingException);

 template <class Vocab> void CheckSpecials(const Config &config, const Vocab &vocab) throw(SpecialWordMissingException) {
   if (!vocab.SawUnk()) MissingUnknown(config);
   if (vocab.BeginSentence() == vocab.NotFound()) MissingSentenceMarker(config, "<s>");
   if (vocab.EndSentence() == vocab.NotFound()) MissingSentenceMarker(config, "</s>");
 }

 class WriteUniqueWords {
   public:
     explicit WriteUniqueWords(int fd) : word_list_(fd) {}

     void operator()(const StringPiece &word) {
       word_list_ << word << '\0';
     }

   private:
     util::FakeOFStream word_list_;
 };

 class NoOpUniqueWords {
   public:
     NoOpUniqueWords() {}
     void operator()(const StringPiece &word) {}
 };

 template <class NewWordAction = NoOpUniqueWords> class GrowableVocab {
   public:
     static std::size_t MemUsage(WordIndex content) {
       return Lookup::MemUsage(content > 2 ? content : 2);
     }

     // Does not take ownership of write_wordi
     template <class NewWordConstruct> GrowableVocab(WordIndex initial_size, const NewWordConstruct &new_word_construct = NewWordAction())
       : lookup_(initial_size), new_word_(new_word_construct) {
       FindOrInsert("<unk>"); // Force 0
       FindOrInsert("<s>"); // Force 1
       FindOrInsert("</s>"); // Force 2
     }

     WordIndex Index(const StringPiece &str) const {
       Lookup::ConstIterator i;
       return lookup_.Find(detail::HashForVocab(str), i) ? i->value : 0;
     }

     WordIndex FindOrInsert(const StringPiece &word) {
       ProbingVocabularyEntry entry = ProbingVocabularyEntry::Make(util::MurmurHashNative(word.data(), word.size()), Size());
       Lookup::MutableIterator it;
       if (!lookup_.FindOrInsert(entry, it)) {
         new_word_(word);
         UTIL_THROW_IF(Size() >= std::numeric_limits<lm::WordIndex>::max(), VocabLoadException, "Too many vocabulary words.  Change WordIndex to uint64_t in lm/word_index.hh");
       }
       return it->value;
     }

     WordIndex Size() const { return lookup_.Size(); }

   private:
     typedef util::AutoProbing<ProbingVocabularyEntry, util::IdentityHash> Lookup;

     Lookup lookup_;

     NewWordAction new_word_;
 };

 } // namespace ngram
 } // namespace lm

 #endif // LM_VOCAB_H
	#ifndef LM_VOCAB_H
	#define LM_VOCAB_H

	#include "lm/enumerate_vocab.hh"
	#include "lm/lm_exception.hh"
	#include "lm/virtual_interface.hh"
	#include "util/fake_ofstream.hh"
	#include "util/murmur_hash.hh"
	#include "util/pool.hh"
	#include "util/probing_hash_table.hh"
	#include "util/sorted_uniform.hh"
	#include "util/string_piece.hh"

	#include <limits>
	#include <string>
	#include <vector>

	namespace lm {
	struct ProbBackoff;
	class EnumerateVocab;

	namespace ngram {
	struct Config;

	namespace detail {
	uint64_t HashForVocab(const char *str, std::size_t len);
	inline uint64_t HashForVocab(const StringPiece &str) {
	return HashForVocab(str.data(), str.length());
	}
	struct ProbingVocabularyHeader;
	} // namespace detail

	class WriteWordsWrapper : public EnumerateVocab {
	public:
	WriteWordsWrapper(EnumerateVocab *inner);

	~WriteWordsWrapper();

	void Add(WordIndex index, const StringPiece &str);

	const std::string &Buffer() const { return buffer_; }

	private:
	EnumerateVocab *inner_;

	std::string buffer_;
	};

	// Vocabulary based on sorted uniform find storing only uint64_t values and using their offsets as indices.
	class SortedVocabulary : public base::Vocabulary {
	public:
	SortedVocabulary();

	WordIndex Index(const StringPiece &str) const {
	const uint64_t *found;
	if (util::BoundedSortedUniformFind<const uint64_t*, util::IdentityAccessor<uint64_t>, util::Pivot64>(
	util::IdentityAccessor<uint64_t>(),
	begin_ - 1, 0,
	end_, std::numeric_limits<uint64_t>::max(),
	detail::HashForVocab(str), found)) {
	return found - begin_ + 1; // +1 because <unk> is 0 and does not appear in the lookup table.
	} else {
	return 0;
	}
	}

	// Size for purposes of file writing
	static uint64_t Size(uint64_t entries, const Config &config);

	// Vocab words are [0, Bound()) Only valid after FinishedLoading/LoadedBinary.
	WordIndex Bound() const { return bound_; }

	// Everything else is for populating. I'm too lazy to hide and friend these, but you'll only get a const reference anyway.
	void SetupMemory(void *start, std::size_t allocated, std::size_t entries, const Config &config);

	void Relocate(void *new_start);

	void ConfigureEnumerate(EnumerateVocab *to, std::size_t max_entries);

	WordIndex Insert(const StringPiece &str);

	// Reorders reorder_vocab so that the IDs are sorted.
	void FinishedLoading(ProbBackoff *reorder_vocab);

	// Trie stores the correct counts including <unk> in the header. If this was previously sized based on a count exluding <unk>, padding with 8 bytes will make it the correct size based on a count including <unk>.
	std::size_t UnkCountChangePadding() const { return SawUnk() ? 0 : sizeof(uint64_t); }

	bool SawUnk() const { return saw_unk_; }

	void LoadedBinary(bool have_words, int fd, EnumerateVocab *to, uint64_t offset);

	private:
	uint64_t begin_, end_;

	WordIndex bound_;

	bool saw_unk_;

	EnumerateVocab *enumerate_;

	// Actual strings. Used only when loading from ARPA and enumerate_ != NULL
	util::Pool string_backing_;

	std::vector<StringPiece> strings_to_enumerate_;
	};

	#pragma pack(push)
	#pragma pack(4)
	struct ProbingVocabularyEntry {
	uint64_t key;
	WordIndex value;

	typedef uint64_t Key;
	uint64_t GetKey() const { return key; }
	void SetKey(uint64_t to) { key = to; }

	static ProbingVocabularyEntry Make(uint64_t key, WordIndex value) {
	ProbingVocabularyEntry ret;
	ret.key = key;
	ret.value = value;
	return ret;
	}
	};
	#pragma pack(pop)

	// Vocabulary storing a map from uint64_t to WordIndex.
	class ProbingVocabulary : public base::Vocabulary {
	public:
	ProbingVocabulary();

	WordIndex Index(const StringPiece &str) const {
	Lookup::ConstIterator i;
	return lookup_.Find(detail::HashForVocab(str), i) ? i->value : 0;
	}

	static uint64_t Size(uint64_t entries, float probing_multiplier);
	// This just unwraps Config to get the probing_multiplier.
	static uint64_t Size(uint64_t entries, const Config &config);

	// Vocab words are [0, Bound()).
	WordIndex Bound() const { return bound_; }

	// Everything else is for populating. I'm too lazy to hide and friend these, but you'll only get a const reference anyway.
	void SetupMemory(void *start, std::size_t allocated);
	void SetupMemory(void start, std::size_t allocated, std::size_t /entries/, const Config &/config*/) {
	SetupMemory(start, allocated);
	}

	void Relocate(void *new_start);

	void ConfigureEnumerate(EnumerateVocab *to, std::size_t max_entries);

	WordIndex Insert(const StringPiece &str);

	template <class Weights> void FinishedLoading(Weights * /reorder_vocab/) {
	FinishedLoading();
	}
	void FinishedLoading();

	std::size_t UnkCountChangePadding() const { return 0; }

	bool SawUnk() const { return saw_unk_; }

	void LoadedBinary(bool have_words, int fd, EnumerateVocab *to, uint64_t offset);

	private:
	typedef util::ProbingHashTable<ProbingVocabularyEntry, util::IdentityHash> Lookup;

	Lookup lookup_;

	WordIndex bound_;

	bool saw_unk_;

	EnumerateVocab *enumerate_;

	detail::ProbingVocabularyHeader *header_;
	};

	void MissingUnknown(const Config &config) throw(SpecialWordMissingException);
	void MissingSentenceMarker(const Config &config, const char *str) throw(SpecialWordMissingException);

	template <class Vocab> void CheckSpecials(const Config &config, const Vocab &vocab) throw(SpecialWordMissingException) {
	if (!vocab.SawUnk()) MissingUnknown(config);
	if (vocab.BeginSentence() == vocab.NotFound()) MissingSentenceMarker(config, "<s>");
	if (vocab.EndSentence() == vocab.NotFound()) MissingSentenceMarker(config, "</s>");
	}

	class WriteUniqueWords {
	public:
	explicit WriteUniqueWords(int fd) : word_list_(fd) {}

	void operator()(const StringPiece &word) {
	word_list_ << word << '\0';
	}

	private:
	util::FakeOFStream word_list_;
	};

	class NoOpUniqueWords {
	public:
	NoOpUniqueWords() {}
	void operator()(const StringPiece &word) {}
	};

	template <class NewWordAction = NoOpUniqueWords> class GrowableVocab {
	public:
	static std::size_t MemUsage(WordIndex content) {
	return Lookup::MemUsage(content > 2 ? content : 2);
	}

	// Does not take ownership of write_wordi
	template <class NewWordConstruct> GrowableVocab(WordIndex initial_size, const NewWordConstruct &new_word_construct = NewWordAction())
	: lookup_(initial_size), new_word_(new_word_construct) {
	FindOrInsert("<unk>"); // Force 0
	FindOrInsert("<s>"); // Force 1
	FindOrInsert("</s>"); // Force 2
	}

	WordIndex Index(const StringPiece &str) const {
	Lookup::ConstIterator i;
	return lookup_.Find(detail::HashForVocab(str), i) ? i->value : 0;
	}

	WordIndex FindOrInsert(const StringPiece &word) {
	ProbingVocabularyEntry entry = ProbingVocabularyEntry::Make(util::MurmurHashNative(word.data(), word.size()), Size());
	Lookup::MutableIterator it;
	if (!lookup_.FindOrInsert(entry, it)) {
	new_word_(word);
	UTIL_THROW_IF(Size() >= std::numeric_limits<lm::WordIndex>::max(), VocabLoadException, "Too many vocabulary words. Change WordIndex to uint64_t in lm/word_index.hh");
	}
	return it->value;
	}

	WordIndex Size() const { return lookup_.Size(); }

	private:
	typedef util::AutoProbing<ProbingVocabularyEntry, util::IdentityHash> Lookup;

	Lookup lookup_;

	NewWordAction new_word_;
	};

	} // namespace ngram
	} // namespace lm

	#endif // LM_VOCAB_H