lib/marisa/trie-c.cc - platform/external/marisa-trie - Git at Google

 #include "trie.h"

 extern "C" {

 namespace {

 class FindCallback {
  public:
   typedef int (*Func)(void *, marisa_uint32, size_t);

   FindCallback(Func func, void *first_arg)
       : func_(func), first_arg_(first_arg) {}
   FindCallback(const FindCallback &callback)
       : func_(callback.func_), first_arg_(callback.first_arg_) {}

   bool operator()(marisa::UInt32 key_id, std::size_t key_length) const {
     return func_(first_arg_, key_id, key_length) != 0;
   }

  private:
   Func func_;
   void *first_arg_;

   // Disallows assignment.
   FindCallback &operator=(const FindCallback &);
 };

 class PredictCallback {
  public:
   typedef int (*Func)(void *, marisa_uint32, const char *, size_t);

   PredictCallback(Func func, void *first_arg)
       : func_(func), first_arg_(first_arg) {}
   PredictCallback(const PredictCallback &callback)
       : func_(callback.func_), first_arg_(callback.first_arg_) {}

   bool operator()(marisa::UInt32 key_id, const std::string &key) const {
     return func_(first_arg_, key_id, key.c_str(), key.length()) != 0;
   }

  private:
   Func func_;
   void *first_arg_;

   // Disallows assignment.
   PredictCallback &operator=(const PredictCallback &);
 };

 }  // namespace

 struct marisa_trie_ {
  public:
   marisa_trie_() : trie(), mapper() {}

   marisa::Trie trie;
   marisa::Mapper mapper;

  private:
   // Disallows copy and assignment.
   marisa_trie_(const marisa_trie_ &);
   marisa_trie_ &operator=(const marisa_trie_ &);
 };

 marisa_status marisa_init(marisa_trie **h) {
   if ((h == NULL) || (*h != NULL)) {
     return MARISA_HANDLE_ERROR;
   }
   *h = new (std::nothrow) marisa_trie_();
   return (*h != NULL) ? MARISA_OK : MARISA_MEMORY_ERROR;
 }

 marisa_status marisa_end(marisa_trie *h) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   delete h;
   return MARISA_OK;
 }

 marisa_status marisa_build(marisa_trie *h, const char * const *keys,
     size_t num_keys, const size_t *key_lengths, const double *key_weights,
     marisa_uint32 *key_ids, int flags) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.build(keys, num_keys, key_lengths, key_weights, key_ids, flags);
   h->mapper.clear();
   return MARISA_OK;
 }

 marisa_status marisa_mmap(marisa_trie *h, const char *filename,
     long offset, int whence) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.mmap(&h->mapper, filename, offset, whence);
   return MARISA_OK;
 }

 marisa_status marisa_map(marisa_trie *h, const void *ptr, size_t size) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.map(ptr, size);
   h->mapper.clear();
   return MARISA_OK;
 }

 marisa_status marisa_load(marisa_trie *h, const char *filename,
     long offset, int whence) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.load(filename, offset, whence);
   h->mapper.clear();
   return MARISA_OK;
 }

 marisa_status marisa_fread(marisa_trie *h, FILE *file) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.fread(file);
   h->mapper.clear();
   return MARISA_OK;
 }

 marisa_status marisa_read(marisa_trie *h, int fd) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.read(fd);
   h->mapper.clear();
   return MARISA_OK;
 }

 marisa_status marisa_save(const marisa_trie *h, const char *filename,
     int trunc_flag, long offset, int whence) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.save(filename, trunc_flag != 0, offset, whence);
   return MARISA_OK;
 }

 marisa_status marisa_fwrite(const marisa_trie *h, FILE *file) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.fwrite(file);
   return MARISA_OK;
 }

 marisa_status marisa_write(const marisa_trie *h, int fd) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.write(fd);
   return MARISA_OK;
 }

 marisa_status marisa_restore(const marisa_trie *h, marisa_uint32 key_id,
     char *key_buf, size_t key_buf_size, size_t *key_length) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (key_length == NULL) {
     return MARISA_PARAM_ERROR;
   }
   *key_length = h->trie.restore(key_id, key_buf, key_buf_size);
   return MARISA_OK;
 }

 marisa_status marisa_lookup(const marisa_trie *h,
     const char *ptr, size_t length, marisa_uint32 *key_id) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (key_id == NULL) {
     return MARISA_PARAM_ERROR;
   }
   if (length == MARISA_ZERO_TERMINATED) {
     *key_id = h->trie.lookup(ptr);
   } else {
     *key_id = h->trie.lookup(ptr, length);
   }
   return MARISA_OK;
 }

 marisa_status marisa_find(const marisa_trie *h,
     const char *ptr, size_t length,
     marisa_uint32 *key_ids, size_t *key_lengths,
     size_t max_num_results, size_t *num_results) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (num_results == NULL) {
     return MARISA_PARAM_ERROR;
   }
   if (length == MARISA_ZERO_TERMINATED) {
     *num_results = h->trie.find(ptr, key_ids, key_lengths, max_num_results);
   } else {
     *num_results = h->trie.find(ptr, length,
         key_ids, key_lengths, max_num_results);
   }
   return MARISA_OK;
 }

 marisa_status marisa_find_first(const marisa_trie *h,
     const char *ptr, size_t length,
     marisa_uint32 *key_id, size_t *key_length) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (key_id == NULL) {
     return MARISA_PARAM_ERROR;
   }
   if (length == MARISA_ZERO_TERMINATED) {
     *key_id = h->trie.find_first(ptr, key_length);
   } else {
     *key_id = h->trie.find_first(ptr, length, key_length);
   }
   return MARISA_OK;
 }

 marisa_status marisa_find_last(const marisa_trie *h,
     const char *ptr, size_t length,
     marisa_uint32 *key_id, size_t *key_length) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (key_id == NULL) {
     return MARISA_PARAM_ERROR;
   }
   if (length == MARISA_ZERO_TERMINATED) {
     *key_id = h->trie.find_last(ptr, key_length);
   } else {
     *key_id = h->trie.find_last(ptr, length, key_length);
   }
   return MARISA_OK;
 }

 marisa_status marisa_find_callback(const marisa_trie *h,
     const char *ptr, size_t length,
     int (*callback)(void *, marisa_uint32, size_t),
     void *first_arg_to_callback) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (callback == NULL) {
     return MARISA_PARAM_ERROR;
   }
   if (length == MARISA_ZERO_TERMINATED) {
     h->trie.find_callback(ptr,
         ::FindCallback(callback, first_arg_to_callback));
   } else {
     h->trie.find_callback(ptr, length,
         ::FindCallback(callback, first_arg_to_callback));
   }
   return MARISA_OK;
 }

 marisa_status marisa_predict(const marisa_trie *h,
     const char *ptr, size_t length, marisa_uint32 *key_ids,
     size_t max_num_results, size_t *num_results) {
   return marisa_predict_breadth_first(h, ptr, length,
       key_ids, max_num_results, num_results);
 }

 marisa_status marisa_predict_breadth_first(const marisa_trie *h,
     const char *ptr, size_t length, marisa_uint32 *key_ids,
     size_t max_num_results, size_t *num_results) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (num_results == NULL) {
     return MARISA_PARAM_ERROR;
   }
   if (length == MARISA_ZERO_TERMINATED) {
     *num_results = h->trie.predict_breadth_first(
         ptr, key_ids, NULL, max_num_results);
   } else {
     *num_results = h->trie.predict_breadth_first(
         ptr, length, key_ids, NULL, max_num_results);
   }
   return MARISA_OK;
 }

 marisa_status marisa_predict_depth_first(const marisa_trie *h,
     const char *ptr, size_t length, marisa_uint32 *key_ids,
     size_t max_num_results, size_t *num_results) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (num_results == NULL) {
     return MARISA_PARAM_ERROR;
   }
   if (length == MARISA_ZERO_TERMINATED) {
     *num_results = h->trie.predict_depth_first(
         ptr, key_ids, NULL, max_num_results);
   } else {
     *num_results = h->trie.predict_depth_first(
         ptr, length, key_ids, NULL, max_num_results);
   }
   return MARISA_OK;
 }

 marisa_status marisa_predict_callback(const marisa_trie *h,
     const char *ptr, size_t length,
     int (*callback)(void *, marisa_uint32, const char *, size_t),
     void *first_arg_to_callback) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   } else if (callback == NULL) {
     return MARISA_PARAM_ERROR;
   }
   if (length == MARISA_ZERO_TERMINATED) {
     h->trie.predict_callback(ptr,
         ::PredictCallback(callback, first_arg_to_callback));
   } else {
     h->trie.predict_callback(ptr, length,
         ::PredictCallback(callback, first_arg_to_callback));
   }
   return MARISA_OK;
 }

 size_t marisa_get_num_tries(const marisa_trie *h) {
   return (h != NULL) ? h->trie.num_tries() : 0;
 }

 size_t marisa_get_num_keys(const marisa_trie *h) {
   return (h != NULL) ? h->trie.num_keys() : 0;
 }

 size_t marisa_get_num_nodes(const marisa_trie *h) {
   return (h != NULL) ? h->trie.num_nodes() : 0;
 }

 size_t marisa_get_total_size(const marisa_trie *h) {
   return (h != NULL) ? h->trie.total_size() : 0;
 }

 marisa_status marisa_clear(marisa_trie *h) {
   if (h == NULL) {
     return MARISA_HANDLE_ERROR;
   }
   h->trie.clear();
   h->mapper.clear();
   return MARISA_OK;
 }

 }  // extern "C"
	#include "trie.h"

	extern "C" {

	namespace {

	class FindCallback {
	public:
	typedef int (Func)(void , marisa_uint32, size_t);

	FindCallback(Func func, void *first_arg)
	: func_(func), first_arg_(first_arg) {}
	FindCallback(const FindCallback &callback)
	: func_(callback.func_), first_arg_(callback.first_arg_) {}

	bool operator()(marisa::UInt32 key_id, std::size_t key_length) const {
	return func_(first_arg_, key_id, key_length) != 0;
	}

	private:
	Func func_;
	void *first_arg_;

	// Disallows assignment.
	FindCallback &operator=(const FindCallback &);
	};

	class PredictCallback {
	public:
	typedef int (Func)(void , marisa_uint32, const char *, size_t);

	PredictCallback(Func func, void *first_arg)
	: func_(func), first_arg_(first_arg) {}
	PredictCallback(const PredictCallback &callback)
	: func_(callback.func_), first_arg_(callback.first_arg_) {}

	bool operator()(marisa::UInt32 key_id, const std::string &key) const {
	return func_(first_arg_, key_id, key.c_str(), key.length()) != 0;
	}

	private:
	Func func_;
	void *first_arg_;

	// Disallows assignment.
	PredictCallback &operator=(const PredictCallback &);
	};

	} // namespace

	struct marisa_trie_ {
	public:
	marisa_trie_() : trie(), mapper() {}

	marisa::Trie trie;
	marisa::Mapper mapper;

	private:
	// Disallows copy and assignment.
	marisa_trie_(const marisa_trie_ &);
	marisa_trie_ &operator=(const marisa_trie_ &);
	};

	marisa_status marisa_init(marisa_trie **h) {
	if ((h == NULL) \|\| (*h != NULL)) {
	return MARISA_HANDLE_ERROR;
	}
	*h = new (std::nothrow) marisa_trie_();
	return (*h != NULL) ? MARISA_OK : MARISA_MEMORY_ERROR;
	}

	marisa_status marisa_end(marisa_trie *h) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	delete h;
	return MARISA_OK;
	}

	marisa_status marisa_build(marisa_trie h, const char const *keys,
	size_t num_keys, const size_t key_lengths, const double key_weights,
	marisa_uint32 *key_ids, int flags) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.build(keys, num_keys, key_lengths, key_weights, key_ids, flags);
	h->mapper.clear();
	return MARISA_OK;
	}

	marisa_status marisa_mmap(marisa_trie h, const char filename,
	long offset, int whence) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.mmap(&h->mapper, filename, offset, whence);
	return MARISA_OK;
	}

	marisa_status marisa_map(marisa_trie h, const void ptr, size_t size) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.map(ptr, size);
	h->mapper.clear();
	return MARISA_OK;
	}

	marisa_status marisa_load(marisa_trie h, const char filename,
	long offset, int whence) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.load(filename, offset, whence);
	h->mapper.clear();
	return MARISA_OK;
	}

	marisa_status marisa_fread(marisa_trie h, FILE file) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.fread(file);
	h->mapper.clear();
	return MARISA_OK;
	}

	marisa_status marisa_read(marisa_trie *h, int fd) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.read(fd);
	h->mapper.clear();
	return MARISA_OK;
	}

	marisa_status marisa_save(const marisa_trie h, const char filename,
	int trunc_flag, long offset, int whence) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.save(filename, trunc_flag != 0, offset, whence);
	return MARISA_OK;
	}

	marisa_status marisa_fwrite(const marisa_trie h, FILE file) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.fwrite(file);
	return MARISA_OK;
	}

	marisa_status marisa_write(const marisa_trie *h, int fd) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.write(fd);
	return MARISA_OK;
	}

	marisa_status marisa_restore(const marisa_trie *h, marisa_uint32 key_id,
	char key_buf, size_t key_buf_size, size_t key_length) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (key_length == NULL) {
	return MARISA_PARAM_ERROR;
	}
	*key_length = h->trie.restore(key_id, key_buf, key_buf_size);
	return MARISA_OK;
	}

	marisa_status marisa_lookup(const marisa_trie *h,
	const char ptr, size_t length, marisa_uint32 key_id) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (key_id == NULL) {
	return MARISA_PARAM_ERROR;
	}
	if (length == MARISA_ZERO_TERMINATED) {
	*key_id = h->trie.lookup(ptr);
	} else {
	*key_id = h->trie.lookup(ptr, length);
	}
	return MARISA_OK;
	}

	marisa_status marisa_find(const marisa_trie *h,
	const char *ptr, size_t length,
	marisa_uint32 key_ids, size_t key_lengths,
	size_t max_num_results, size_t *num_results) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (num_results == NULL) {
	return MARISA_PARAM_ERROR;
	}
	if (length == MARISA_ZERO_TERMINATED) {
	*num_results = h->trie.find(ptr, key_ids, key_lengths, max_num_results);
	} else {
	*num_results = h->trie.find(ptr, length,
	key_ids, key_lengths, max_num_results);
	}
	return MARISA_OK;
	}

	marisa_status marisa_find_first(const marisa_trie *h,
	const char *ptr, size_t length,
	marisa_uint32 key_id, size_t key_length) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (key_id == NULL) {
	return MARISA_PARAM_ERROR;
	}
	if (length == MARISA_ZERO_TERMINATED) {
	*key_id = h->trie.find_first(ptr, key_length);
	} else {
	*key_id = h->trie.find_first(ptr, length, key_length);
	}
	return MARISA_OK;
	}

	marisa_status marisa_find_last(const marisa_trie *h,
	const char *ptr, size_t length,
	marisa_uint32 key_id, size_t key_length) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (key_id == NULL) {
	return MARISA_PARAM_ERROR;
	}
	if (length == MARISA_ZERO_TERMINATED) {
	*key_id = h->trie.find_last(ptr, key_length);
	} else {
	*key_id = h->trie.find_last(ptr, length, key_length);
	}
	return MARISA_OK;
	}

	marisa_status marisa_find_callback(const marisa_trie *h,
	const char *ptr, size_t length,
	int (callback)(void , marisa_uint32, size_t),
	void *first_arg_to_callback) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (callback == NULL) {
	return MARISA_PARAM_ERROR;
	}
	if (length == MARISA_ZERO_TERMINATED) {
	h->trie.find_callback(ptr,
	::FindCallback(callback, first_arg_to_callback));
	} else {
	h->trie.find_callback(ptr, length,
	::FindCallback(callback, first_arg_to_callback));
	}
	return MARISA_OK;
	}

	marisa_status marisa_predict(const marisa_trie *h,
	const char ptr, size_t length, marisa_uint32 key_ids,
	size_t max_num_results, size_t *num_results) {
	return marisa_predict_breadth_first(h, ptr, length,
	key_ids, max_num_results, num_results);
	}

	marisa_status marisa_predict_breadth_first(const marisa_trie *h,
	const char ptr, size_t length, marisa_uint32 key_ids,
	size_t max_num_results, size_t *num_results) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (num_results == NULL) {
	return MARISA_PARAM_ERROR;
	}
	if (length == MARISA_ZERO_TERMINATED) {
	*num_results = h->trie.predict_breadth_first(
	ptr, key_ids, NULL, max_num_results);
	} else {
	*num_results = h->trie.predict_breadth_first(
	ptr, length, key_ids, NULL, max_num_results);
	}
	return MARISA_OK;
	}

	marisa_status marisa_predict_depth_first(const marisa_trie *h,
	const char ptr, size_t length, marisa_uint32 key_ids,
	size_t max_num_results, size_t *num_results) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (num_results == NULL) {
	return MARISA_PARAM_ERROR;
	}
	if (length == MARISA_ZERO_TERMINATED) {
	*num_results = h->trie.predict_depth_first(
	ptr, key_ids, NULL, max_num_results);
	} else {
	*num_results = h->trie.predict_depth_first(
	ptr, length, key_ids, NULL, max_num_results);
	}
	return MARISA_OK;
	}

	marisa_status marisa_predict_callback(const marisa_trie *h,
	const char *ptr, size_t length,
	int (callback)(void , marisa_uint32, const char *, size_t),
	void *first_arg_to_callback) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	} else if (callback == NULL) {
	return MARISA_PARAM_ERROR;
	}
	if (length == MARISA_ZERO_TERMINATED) {
	h->trie.predict_callback(ptr,
	::PredictCallback(callback, first_arg_to_callback));
	} else {
	h->trie.predict_callback(ptr, length,
	::PredictCallback(callback, first_arg_to_callback));
	}
	return MARISA_OK;
	}

	size_t marisa_get_num_tries(const marisa_trie *h) {
	return (h != NULL) ? h->trie.num_tries() : 0;
	}

	size_t marisa_get_num_keys(const marisa_trie *h) {
	return (h != NULL) ? h->trie.num_keys() : 0;
	}

	size_t marisa_get_num_nodes(const marisa_trie *h) {
	return (h != NULL) ? h->trie.num_nodes() : 0;
	}

	size_t marisa_get_total_size(const marisa_trie *h) {
	return (h != NULL) ? h->trie.total_size() : 0;
	}

	marisa_status marisa_clear(marisa_trie *h) {
	if (h == NULL) {
	return MARISA_HANDLE_ERROR;
	}
	h->trie.clear();
	h->mapper.clear();
	return MARISA_OK;
	}

	} // extern "C"