/* * "streamable kanji code filter and converter" * Copyright (c) 1998-2002 HappySize, Inc. All rights reserved. * * LICENSE NOTICES * * This file is part of "streamable kanji code filter and converter", * which is distributed under the terms of GNU Lesser General Public * License (version 2) as published by the Free Software Foundation. * * This software is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU Lesser General Public License for more details. * * You should have received a copy of the GNU Lesser General Public * License along with "streamable kanji code filter and converter"; * if not, write to the Free Software Foundation, Inc., 59 Temple Place, * Suite 330, Boston, MA 02111-1307 USA * * The author of this file: * */ /* * The source code included in this files was separated from mbfilter.c * by Moriyoshi Koizumi on 20 Dec 2002. The file * mbfilter.c is included in this package . * */ #include #include #include "zend.h" #include "mbfl_memory_device.h" /* * memory device output functions */ void mbfl_memory_device_init(mbfl_memory_device *device, size_t initsz, size_t allocsz) { if (device) { device->length = 0; device->buffer = NULL; if (initsz > 0) { device->buffer = emalloc(initsz); device->length = initsz; } device->pos = 0; if (allocsz > MBFL_MEMORY_DEVICE_ALLOC_SIZE) { device->allocsz = allocsz; } else { device->allocsz = MBFL_MEMORY_DEVICE_ALLOC_SIZE; } } } void mbfl_memory_device_realloc(mbfl_memory_device *device, size_t initsz, size_t allocsz) { if (device) { if (initsz > device->length) { device->buffer = erealloc(device->buffer, initsz); device->length = initsz; } if (allocsz > MBFL_MEMORY_DEVICE_ALLOC_SIZE) { device->allocsz = allocsz; } else { device->allocsz = MBFL_MEMORY_DEVICE_ALLOC_SIZE; } } } void mbfl_memory_device_clear(mbfl_memory_device *device) { if (device) { if (device->buffer) { efree(device->buffer); } device->buffer = NULL; device->length = 0; device->pos = 0; } } void mbfl_memory_device_reset(mbfl_memory_device *device) { if (device) { device->pos = 0; } } void mbfl_memory_device_unput(mbfl_memory_device *device) { if (device->pos > 0) { device->pos--; } } mbfl_string * mbfl_memory_device_result(mbfl_memory_device *device, mbfl_string *result) { if (device && result) { result->len = device->pos; mbfl_memory_device_output('\0', device); result->val = device->buffer; device->buffer = NULL; device->length = 0; device->pos= 0; if (result->val == NULL) { result->len = 0; result = NULL; } } else { result = NULL; } return result; } int mbfl_memory_device_output(int c, void *data) { mbfl_memory_device *device = (mbfl_memory_device *)data; if (device->pos >= device->length) { /* reallocate buffer */ size_t newlen; if (device->length > SIZE_MAX - device->allocsz) { /* overflow */ return -1; } newlen = device->length + device->allocsz; device->buffer = erealloc(device->buffer, newlen); device->length = newlen; } device->buffer[device->pos++] = (unsigned char)c; return c; } int mbfl_memory_device_strcat(mbfl_memory_device *device, const char *psrc) { return mbfl_memory_device_strncat(device, psrc, strlen(psrc)); } int mbfl_memory_device_strncat(mbfl_memory_device *device, const char *psrc, size_t len) { unsigned char *w; if (len > device->length - device->pos) { /* reallocate buffer */ size_t newlen; if (len > SIZE_MAX - MBFL_MEMORY_DEVICE_ALLOC_SIZE || device->length > SIZE_MAX - (len + MBFL_MEMORY_DEVICE_ALLOC_SIZE)) { /* overflow */ return -1; } newlen = device->length + len + MBFL_MEMORY_DEVICE_ALLOC_SIZE; device->buffer = erealloc(device->buffer, newlen); device->length = newlen; } w = &device->buffer[device->pos]; memcpy(w, psrc, len); device->pos += len; return 0; } int mbfl_memory_device_devcat(mbfl_memory_device *dest, mbfl_memory_device *src) { return mbfl_memory_device_strncat(dest, (const char *) src->buffer, src->pos); } void mbfl_wchar_device_init(mbfl_wchar_device *device) { if (device) { device->buffer = NULL; device->length = 0; device->pos= 0; device->allocsz = MBFL_MEMORY_DEVICE_ALLOC_SIZE; } } void mbfl_wchar_device_clear(mbfl_wchar_device *device) { if (device) { if (device->buffer) { efree(device->buffer); } device->buffer = NULL; device->length = 0; device->pos = 0; } } int mbfl_wchar_device_output(int c, void *data) { mbfl_wchar_device *device = (mbfl_wchar_device *)data; if (device->pos >= device->length) { /* reallocate buffer */ size_t newlen; if (device->length > SIZE_MAX - device->allocsz) { /* overflow */ return -1; } newlen = device->length + device->allocsz; if (newlen > SIZE_MAX / sizeof(int)) { /* overflow */ return -1; } device->buffer = erealloc(device->buffer, newlen*sizeof(int)); device->length = newlen; } device->buffer[device->pos++] = c; return c; }