/* dbuf.c - Dynamic buffer implementation version 1.4.0, 2011-03-27 Copyright (c) 2002-2011 Borut Razem This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software. Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions: 1. The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required. 2. Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software. 3. This notice may not be removed or altered from any source distribution. Borut Razem borut.razem@siol.net */ #include #include #include #include "dbuf.h" /* * Assure that the buffer is large enough to hold * current length + size bytes; enlarge it if necessary. * * Intended for internal use. */ int _dbuf_expand(struct dbuf_s *dbuf, size_t size) { assert(dbuf->alloc != 0); assert(dbuf->buf != NULL); if (dbuf->len + size > dbuf->alloc) { /* new_allocated_size = current_allocated_size * 2^n */ /* can this be optimized? */ do { dbuf->alloc += dbuf->alloc; } while (dbuf->len + size > dbuf->alloc); if ((dbuf->buf = realloc(dbuf->buf, dbuf->alloc)) == NULL) return 0; } return 1; } /* * Initialize the dbuf structure and * allocate buffer to hold size bytes. */ int dbuf_init(struct dbuf_s *dbuf, size_t size) { assert(size != 0); if (size == 0) size = 1; dbuf->len = 0; dbuf->alloc = size; return ((dbuf->buf = malloc(dbuf->alloc)) != NULL); } /* * Test if dbuf is initialized. * NOTE: the dbuf structure should be set * to all zeroes at definition: * struct dbuf_s dbuf = { 0 }; * * See: dbuf_init() */ int dbuf_is_initialized (struct dbuf_s *dbuf) { if (dbuf->buf == NULL) { assert(dbuf->alloc == 0); assert(dbuf->len == 0); return 0; } else { assert(dbuf->alloc != 0); assert(dbuf->len >= 0 && dbuf->len <= dbuf->alloc); return 1; } } /* * Allocate new dbuf structure on the heap * and initialize it. * * See: dbuf_delete() */ struct dbuf_s *dbuf_new(size_t size) { struct dbuf_s *dbuf; dbuf = (struct dbuf_s *)malloc(sizeof(struct dbuf_s)); if (dbuf != NULL) { if (dbuf_init(dbuf, size) == 0) { free(dbuf); return NULL; } } return dbuf; } /* * Set the buffer size. Buffer size can be only decreased. */ int dbuf_set_length(struct dbuf_s *dbuf, size_t len) { if (!dbuf_is_initialized (dbuf)) dbuf_init (dbuf, len ? len : 1); assert(dbuf != NULL); assert(dbuf->alloc != 0); assert(len <= dbuf->len); if (len <= dbuf->len) { dbuf->len = len; return 1; } return 0; } /* * Append the buf to the end of the buffer. */ int dbuf_append(struct dbuf_s *dbuf, const void *buf, size_t len) { assert(dbuf != NULL); assert(dbuf->alloc != 0); assert(dbuf->buf != NULL); if (_dbuf_expand(dbuf, len) != 0) { memcpy(&(((char *)dbuf->buf)[dbuf->len]), buf, len); dbuf->len += len; return 1; } return 0; } /* * Prepend the buf to the beginning of the buffer. */ int dbuf_prepend(struct dbuf_s *dbuf, const void *buf, size_t len) { assert(dbuf); assert(dbuf->alloc); assert(dbuf->buf); if (_dbuf_expand(dbuf, len) != 0) { memmove(&(((char *)dbuf->buf)[len]), dbuf->buf, dbuf->len); memcpy(dbuf->buf, buf, len); dbuf->len += len; return 1; } return 0; } /* * Add '\0' character at the end of the buffer without * count it in the dbuf->len. */ const char *dbuf_c_str(struct dbuf_s *dbuf) { assert(dbuf != NULL); assert(dbuf->alloc != 0); assert(dbuf->buf != NULL); if (_dbuf_expand(dbuf, 1) != 0) { ((char *)dbuf->buf)[dbuf->len] = '\0'; return dbuf->buf; } return NULL; } /* * Get the buffer pointer. */ const void *dbuf_get_buf(const struct dbuf_s *dbuf) { assert(dbuf != NULL); assert(dbuf->alloc != 0); assert(dbuf->buf != NULL); return dbuf->buf; } /* * Get the buffer length. */ size_t dbuf_get_length(const struct dbuf_s *dbuf) { assert(dbuf != NULL); assert(dbuf->alloc != 0); assert(dbuf->buf != NULL); return dbuf->len; } /* * Trim the allocated buffer to required size */ int dbuf_trim(struct dbuf_s *dbuf) { void *buf; assert(dbuf != NULL); assert(dbuf->alloc != 0); assert(dbuf->buf != NULL); buf = realloc(dbuf->buf, dbuf->len); if (buf != NULL) { dbuf->alloc = dbuf->len; dbuf->buf = buf; } return buf != NULL; } /* * Detach the buffer from dbuf structure. * The dbuf structure can be reused by * reinitializing it. * * See: dbuf_init() */ void *dbuf_detach(struct dbuf_s *dbuf) { void *ret; assert(dbuf != NULL); assert(dbuf->alloc != 0); assert(dbuf->buf != NULL); ret = dbuf->buf; dbuf->buf = NULL; dbuf->len = 0; dbuf->alloc = 0; return ret; } /* * Add '\0' character at the end of the buffer without * count it in the dbuf->len and detach the buffer from dbuf structure. * The dbuf structure can be reused by reinitializing it. * * See: dbuf_init() */ char *dbuf_detach_c_str(struct dbuf_s *dbuf) { dbuf_c_str(dbuf); return dbuf_detach(dbuf); } /* * Destroy the dbuf structure and * free the buffer */ void dbuf_destroy(struct dbuf_s *dbuf) { free(dbuf_detach(dbuf)); } /* * Delete dbuf structure on the heap: * destroy it and free the allocated space. * The user's responsablity is not to use * the pointer any more: the best think to do * is to set the pointer to NULL value. * * See dbuf_new() */ void dbuf_delete(struct dbuf_s *dbuf) { dbuf_destroy(dbuf); free(dbuf); } /* * Free detached buffer. * * See dbuf_detach() */ void dbuf_free(const void *buf) { free((void *)buf); }