e2fsprogs/e2fsck/dict.h - nest-cam/4320010/e2fsprogs - Git at Google

 /*
  * Dictionary Abstract Data Type
  * Copyright (C) 1997 Kaz Kylheku <kaz@ashi.footprints.net>
  *
  * Free Software License:
  *
  * All rights are reserved by the author, with the following exceptions:
  * Permission is granted to freely reproduce and distribute this software,
  * possibly in exchange for a fee, provided that this copyright notice appears
  * intact. Permission is also granted to adapt this software to produce
  * derivative works, as long as the modified versions carry this copyright
  * notice and additional notices stating that the work has been modified.
  * This source code may be translated into executable form and incorporated
  * into proprietary software; there is no requirement for such software to
  * contain a copyright notice related to this source.
  *
  * $Id: dict.h,v 1.22.2.6 2000/11/13 01:36:44 kaz Exp $
  * $Name: kazlib_1_20 $
  */

 #ifndef DICT_H
 #define DICT_H

 #include <limits.h>
 #ifdef KAZLIB_SIDEEFFECT_DEBUG
 #include "sfx.h"
 #endif

 /*
  * Blurb for inclusion into C++ translation units
  */

 #ifdef __cplusplus
 extern "C" {
 #endif

 typedef unsigned long dictcount_t;
 #define DICTCOUNT_T_MAX ULONG_MAX

 /*
  * The dictionary is implemented as a red-black tree
  */

 typedef enum { dnode_red, dnode_black } dnode_color_t;

 typedef struct dnode_t {
 #if defined(DICT_IMPLEMENTATION) || !defined(KAZLIB_OPAQUE_DEBUG)
     struct dnode_t *dict_left;
     struct dnode_t *dict_right;
     struct dnode_t *dict_parent;
     dnode_color_t dict_color;
     const void *dict_key;
     void *dict_data;
 #else
     int dict_dummy;
 #endif
 } dnode_t;

 typedef int (*dict_comp_t)(const void *, const void *);
 typedef dnode_t *(*dnode_alloc_t)(void *);
 typedef void (*dnode_free_t)(dnode_t *, void *);

 typedef struct dict_t {
 #if defined(DICT_IMPLEMENTATION) || !defined(KAZLIB_OPAQUE_DEBUG)
     dnode_t dict_nilnode;
     dictcount_t dict_nodecount;
     dictcount_t dict_maxcount;
     dict_comp_t dict_compare;
     dnode_alloc_t dict_allocnode;
     dnode_free_t dict_freenode;
     void *dict_context;
     int dict_dupes;
 #else
     int dict_dummmy;
 #endif
 } dict_t;

 typedef void (*dnode_process_t)(dict_t *, dnode_t *, void *);

 typedef struct dict_load_t {
 #if defined(DICT_IMPLEMENTATION) || !defined(KAZLIB_OPAQUE_DEBUG)
     dict_t *dict_dictptr;
     dnode_t dict_nilnode;
 #else
     int dict_dummmy;
 #endif
 } dict_load_t;

 extern dict_t *dict_create(dictcount_t, dict_comp_t);
 extern void dict_set_allocator(dict_t *, dnode_alloc_t, dnode_free_t, void *);
 extern void dict_destroy(dict_t *);
 extern void dict_free_nodes(dict_t *);
 extern void dict_free(dict_t *);
 extern dict_t *dict_init(dict_t *, dictcount_t, dict_comp_t);
 extern void dict_init_like(dict_t *, const dict_t *);
 extern int dict_verify(dict_t *);
 extern int dict_similar(const dict_t *, const dict_t *);
 extern dnode_t *dict_lookup(dict_t *, const void *);
 extern dnode_t *dict_lower_bound(dict_t *, const void *);
 extern dnode_t *dict_upper_bound(dict_t *, const void *);
 extern void dict_insert(dict_t *, dnode_t *, const void *);
 extern dnode_t *dict_delete(dict_t *, dnode_t *);
 extern int dict_alloc_insert(dict_t *, const void *, void *);
 extern void dict_delete_free(dict_t *, dnode_t *);
 extern dnode_t *dict_first(dict_t *);
 extern dnode_t *dict_last(dict_t *);
 extern dnode_t *dict_next(dict_t *, dnode_t *);
 extern dnode_t *dict_prev(dict_t *, dnode_t *);
 extern dictcount_t dict_count(dict_t *);
 extern int dict_isempty(dict_t *);
 extern int dict_isfull(dict_t *);
 extern int dict_contains(dict_t *, dnode_t *);
 extern void dict_allow_dupes(dict_t *);
 extern int dnode_is_in_a_dict(dnode_t *);
 extern dnode_t *dnode_create(void *);
 extern dnode_t *dnode_init(dnode_t *, void *);
 extern void dnode_destroy(dnode_t *);
 extern void *dnode_get(dnode_t *);
 extern const void *dnode_getkey(dnode_t *);
 extern void dnode_put(dnode_t *, void *);
 extern void dict_process(dict_t *, void *, dnode_process_t);
 extern void dict_load_begin(dict_load_t *, dict_t *);
 extern void dict_load_next(dict_load_t *, dnode_t *, const void *);
 extern void dict_load_end(dict_load_t *);
 extern void dict_merge(dict_t *, dict_t *);

 #if defined(DICT_IMPLEMENTATION) || !defined(KAZLIB_OPAQUE_DEBUG)
 #ifdef KAZLIB_SIDEEFFECT_DEBUG
 #define dict_isfull(D) (SFX_CHECK(D)->dict_nodecount == (D)->dict_maxcount)
 #else
 #define dict_isfull(D) ((D)->dict_nodecount == (D)->dict_maxcount)
 #endif
 #define dict_count(D) ((D)->dict_nodecount)
 #define dict_isempty(D) ((D)->dict_nodecount == 0)
 #define dnode_get(N) ((N)->dict_data)
 #define dnode_getkey(N) ((N)->dict_key)
 #define dnode_put(N, X) ((N)->dict_data = (X))
 #endif

 #ifdef __cplusplus
 }
 #endif

 #endif
	/*
	* Dictionary Abstract Data Type
	* Copyright (C) 1997 Kaz Kylheku <kaz@ashi.footprints.net>
	*
	* Free Software License:
	*
	* All rights are reserved by the author, with the following exceptions:
	* Permission is granted to freely reproduce and distribute this software,
	* possibly in exchange for a fee, provided that this copyright notice appears
	* intact. Permission is also granted to adapt this software to produce
	* derivative works, as long as the modified versions carry this copyright
	* notice and additional notices stating that the work has been modified.
	* This source code may be translated into executable form and incorporated
	* into proprietary software; there is no requirement for such software to
	* contain a copyright notice related to this source.
	*
	* $Id: dict.h,v 1.22.2.6 2000/11/13 01:36:44 kaz Exp $
	* $Name: kazlib_1_20 $
	*/

	#ifndef DICT_H
	#define DICT_H

	#include <limits.h>
	#ifdef KAZLIB_SIDEEFFECT_DEBUG
	#include "sfx.h"
	#endif

	/*
	* Blurb for inclusion into C++ translation units
	*/

	#ifdef __cplusplus
	extern "C" {
	#endif

	typedef unsigned long dictcount_t;
	#define DICTCOUNT_T_MAX ULONG_MAX

	/*
	* The dictionary is implemented as a red-black tree
	*/

	typedef enum { dnode_red, dnode_black } dnode_color_t;

	typedef struct dnode_t {
	#if defined(DICT_IMPLEMENTATION) \|\| !defined(KAZLIB_OPAQUE_DEBUG)
	struct dnode_t *dict_left;
	struct dnode_t *dict_right;
	struct dnode_t *dict_parent;
	dnode_color_t dict_color;
	const void *dict_key;
	void *dict_data;
	#else
	int dict_dummy;
	#endif
	} dnode_t;

	typedef int (dict_comp_t)(const void , const void *);
	typedef dnode_t (dnode_alloc_t)(void *);
	typedef void (dnode_free_t)(dnode_t , void *);

	typedef struct dict_t {
	#if defined(DICT_IMPLEMENTATION) \|\| !defined(KAZLIB_OPAQUE_DEBUG)
	dnode_t dict_nilnode;
	dictcount_t dict_nodecount;
	dictcount_t dict_maxcount;
	dict_comp_t dict_compare;
	dnode_alloc_t dict_allocnode;
	dnode_free_t dict_freenode;
	void *dict_context;
	int dict_dupes;
	#else
	int dict_dummmy;
	#endif
	} dict_t;

	typedef void (dnode_process_t)(dict_t , dnode_t , void );

	typedef struct dict_load_t {
	#if defined(DICT_IMPLEMENTATION) \|\| !defined(KAZLIB_OPAQUE_DEBUG)
	dict_t *dict_dictptr;
	dnode_t dict_nilnode;
	#else
	int dict_dummmy;
	#endif
	} dict_load_t;

	extern dict_t *dict_create(dictcount_t, dict_comp_t);
	extern void dict_set_allocator(dict_t , dnode_alloc_t, dnode_free_t, void );
	extern void dict_destroy(dict_t *);
	extern void dict_free_nodes(dict_t *);
	extern void dict_free(dict_t *);
	extern dict_t dict_init(dict_t , dictcount_t, dict_comp_t);
	extern void dict_init_like(dict_t , const dict_t );
	extern int dict_verify(dict_t *);
	extern int dict_similar(const dict_t , const dict_t );
	extern dnode_t dict_lookup(dict_t , const void *);
	extern dnode_t dict_lower_bound(dict_t , const void *);
	extern dnode_t dict_upper_bound(dict_t , const void *);
	extern void dict_insert(dict_t , dnode_t , const void *);
	extern dnode_t dict_delete(dict_t , dnode_t *);
	extern int dict_alloc_insert(dict_t , const void , void *);
	extern void dict_delete_free(dict_t , dnode_t );
	extern dnode_t dict_first(dict_t );
	extern dnode_t dict_last(dict_t );
	extern dnode_t dict_next(dict_t , dnode_t *);
	extern dnode_t dict_prev(dict_t , dnode_t *);
	extern dictcount_t dict_count(dict_t *);
	extern int dict_isempty(dict_t *);
	extern int dict_isfull(dict_t *);
	extern int dict_contains(dict_t , dnode_t );
	extern void dict_allow_dupes(dict_t *);
	extern int dnode_is_in_a_dict(dnode_t *);
	extern dnode_t dnode_create(void );
	extern dnode_t dnode_init(dnode_t , void *);
	extern void dnode_destroy(dnode_t *);
	extern void dnode_get(dnode_t );
	extern const void dnode_getkey(dnode_t );
	extern void dnode_put(dnode_t , void );
	extern void dict_process(dict_t , void , dnode_process_t);
	extern void dict_load_begin(dict_load_t , dict_t );
	extern void dict_load_next(dict_load_t , dnode_t , const void *);
	extern void dict_load_end(dict_load_t *);
	extern void dict_merge(dict_t , dict_t );

	#if defined(DICT_IMPLEMENTATION) \|\| !defined(KAZLIB_OPAQUE_DEBUG)
	#ifdef KAZLIB_SIDEEFFECT_DEBUG
	#define dict_isfull(D) (SFX_CHECK(D)->dict_nodecount == (D)->dict_maxcount)
	#else
	#define dict_isfull(D) ((D)->dict_nodecount == (D)->dict_maxcount)
	#endif
	#define dict_count(D) ((D)->dict_nodecount)
	#define dict_isempty(D) ((D)->dict_nodecount == 0)
	#define dnode_get(N) ((N)->dict_data)
	#define dnode_getkey(N) ((N)->dict_key)
	#define dnode_put(N, X) ((N)->dict_data = (X))
	#endif

	#ifdef __cplusplus
	}
	#endif

	#endif