v0_1_5/lib/marisa_alpha/intvector.h - fp2-dev/platform/external/marisa-trie - Gitiles

 #ifndef MARISA_ALPHA_INTVECTOR_H_
 #define MARISA_ALPHA_INTVECTOR_H_

 #include "vector.h"

 namespace marisa_alpha {

 class IntVector {
  public:
   IntVector();

   void build(const Vector<UInt32> &ints);
   void build(UInt32 max_int, std::size_t size);

   void mmap(Mapper *mapper, const char *filename,
       long offset = 0, int whence = SEEK_SET);
   void map(const void *ptr, std::size_t size);
   void map(Mapper &mapper);

   void load(const char *filename,
       long offset = 0, int whence = SEEK_SET);
   void fread(std::FILE *file);
   void read(int fd);
   void read(std::istream &stream);
   void read(Reader &reader);

   void save(const char *filename, bool trunc_flag = true,
       long offset = 0, int whence = SEEK_SET) const;
   void fwrite(std::FILE *file) const;
   void write(int fd) const;
   void write(std::ostream &stream) const;
   void write(Writer &writer) const;

   void set(std::size_t i, UInt32 value) {
     MARISA_ALPHA_DEBUG_IF(i >= size_, MARISA_ALPHA_PARAM_ERROR);
     std::size_t pos = i * num_bits_per_int_;
     std::size_t unit_id = pos / 32;
     std::size_t unit_offset = pos % 32;
     units_[unit_id] &= ~(mask_ << unit_offset);
     units_[unit_id] |= (value & mask_) << unit_offset;
     if ((unit_offset + num_bits_per_int_) > 32) {
       units_[unit_id + 1] &= ~(mask_ >> (32 - unit_offset));
       units_[unit_id + 1] |= (value & mask_) >> (32 - unit_offset);
     }
   }

   UInt32 get(std::size_t i) const {
     MARISA_ALPHA_DEBUG_IF(i >= size_, MARISA_ALPHA_PARAM_ERROR);
     std::size_t pos = i * num_bits_per_int_;
     std::size_t unit_id = pos / 32;
     std::size_t unit_offset = pos % 32;
     if ((unit_offset + num_bits_per_int_) <= 32) {
       return (units_[unit_id] >> unit_offset) & mask_;
     } else {
       return ((units_[unit_id] >> unit_offset)
           | (units_[unit_id + 1] << (32 - unit_offset))) & mask_;
     }
   }

   UInt32 operator[](std::size_t i) const {
     MARISA_ALPHA_DEBUG_IF(i >= size_, MARISA_ALPHA_PARAM_ERROR);
     return get(i);
   }

   std::size_t num_bits_per_int() const {
     return num_bits_per_int_;
   }
   UInt32 mask() const {
     return mask_;
   }
   std::size_t size() const {
     return size_;
   }
   bool empty() const {
     return size_ == 0;
   }
   std::size_t total_size() const {
     return units_.total_size() + sizeof(num_bits_per_int_)
         + sizeof(mask_) + sizeof(size_);
   }

   void clear();
   void swap(IntVector *rhs);

  private:
   Vector<UInt32> units_;
   UInt32 num_bits_per_int_;
   UInt32 mask_;
   UInt32 size_;

   // Disallows copy and assignment.
   IntVector(const IntVector &);
   IntVector &operator=(const IntVector &);
 };

 }  // namespace marisa_alpha

 #endif  // MARISA_ALPHA_INTVECTOR_H_
	#ifndef MARISA_ALPHA_INTVECTOR_H_
	#define MARISA_ALPHA_INTVECTOR_H_

	#include "vector.h"

	namespace marisa_alpha {

	class IntVector {
	public:
	IntVector();

	void build(const Vector<UInt32> &ints);
	void build(UInt32 max_int, std::size_t size);

	void mmap(Mapper mapper, const char filename,
	long offset = 0, int whence = SEEK_SET);
	void map(const void *ptr, std::size_t size);
	void map(Mapper &mapper);

	void load(const char *filename,
	long offset = 0, int whence = SEEK_SET);
	void fread(std::FILE *file);
	void read(int fd);
	void read(std::istream &stream);
	void read(Reader &reader);

	void save(const char *filename, bool trunc_flag = true,
	long offset = 0, int whence = SEEK_SET) const;
	void fwrite(std::FILE *file) const;
	void write(int fd) const;
	void write(std::ostream &stream) const;
	void write(Writer &writer) const;

	void set(std::size_t i, UInt32 value) {
	MARISA_ALPHA_DEBUG_IF(i >= size_, MARISA_ALPHA_PARAM_ERROR);
	std::size_t pos = i * num_bits_per_int_;
	std::size_t unit_id = pos / 32;
	std::size_t unit_offset = pos % 32;
	units_[unit_id] &= ~(mask_ << unit_offset);
	units_[unit_id] \|= (value & mask_) << unit_offset;
	if ((unit_offset + num_bits_per_int_) > 32) {
	units_[unit_id + 1] &= ~(mask_ >> (32 - unit_offset));
	units_[unit_id + 1] \|= (value & mask_) >> (32 - unit_offset);
	}
	}

	UInt32 get(std::size_t i) const {
	MARISA_ALPHA_DEBUG_IF(i >= size_, MARISA_ALPHA_PARAM_ERROR);
	std::size_t pos = i * num_bits_per_int_;
	std::size_t unit_id = pos / 32;
	std::size_t unit_offset = pos % 32;
	if ((unit_offset + num_bits_per_int_) <= 32) {
	return (units_[unit_id] >> unit_offset) & mask_;
	} else {
	return ((units_[unit_id] >> unit_offset)
	\| (units_[unit_id + 1] << (32 - unit_offset))) & mask_;
	}
	}

	UInt32 operator[](std::size_t i) const {
	MARISA_ALPHA_DEBUG_IF(i >= size_, MARISA_ALPHA_PARAM_ERROR);
	return get(i);
	}

	std::size_t num_bits_per_int() const {
	return num_bits_per_int_;
	}
	UInt32 mask() const {
	return mask_;
	}
	std::size_t size() const {
	return size_;
	}
	bool empty() const {
	return size_ == 0;
	}
	std::size_t total_size() const {
	return units_.total_size() + sizeof(num_bits_per_int_)
	+ sizeof(mask_) + sizeof(size_);
	}

	void clear();
	void swap(IntVector *rhs);

	private:
	Vector<UInt32> units_;
	UInt32 num_bits_per_int_;
	UInt32 mask_;
	UInt32 size_;

	// Disallows copy and assignment.
	IntVector(const IntVector &);
	IntVector &operator=(const IntVector &);
	};

	} // namespace marisa_alpha

	#endif // MARISA_ALPHA_INTVECTOR_H_