boolean LoadTableDict(TableMetaData* tableMetaData) { char strCode[MAX_CODE_LENGTH + 1]; char *strHZ = 0; FILE *fpDict; RECORD *recTemp; unsigned int i = 0; uint32_t iTemp, iTempCount; char cChar = 0, cTemp; int8_t iVersion = 1; int iRecordIndex; TableDict *tableDict; //读入码表 FcitxLog(DEBUG, _("Loading Table Dict")); int reload = 0; do { boolean error = false; if (!reload) { /** * kcm saves a absolute path here but it is then interpreted as * a relative path? **/ fpDict = FcitxXDGGetFileWithPrefix("table", tableMetaData->strPath, "r", NULL); } else { char *tablepath; char *path = fcitx_utils_get_fcitx_path("pkgdatadir"); fcitx_utils_alloc_cat_str(tablepath, path, "/table/", tableMetaData->strPath); fpDict = fopen(tablepath, "r"); free(tablepath); } if (!fpDict) return false; tableMetaData->tableDict = fcitx_utils_new(TableDict); tableDict = tableMetaData->tableDict; tableDict->pool = fcitx_memory_pool_create(); #define CHECK_LOAD_TABLE_ERROR(SIZE) if (size < (SIZE)) { error = true; goto table_load_error; } //先读取码表的信息 //判断版本信息 size_t size; size = fcitx_utils_read_uint32(fpDict, &iTemp); CHECK_LOAD_TABLE_ERROR(1); if (!iTemp) { size = fread(&iVersion, sizeof(int8_t), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); iVersion = (iVersion < INTERNAL_VERSION); size = fcitx_utils_read_uint32(fpDict, &iTemp); CHECK_LOAD_TABLE_ERROR(1); } tableDict->strInputCode = (char*)realloc(tableDict->strInputCode, sizeof(char) * (iTemp + 1)); size = fread(tableDict->strInputCode, sizeof(char), iTemp + 1, fpDict); CHECK_LOAD_TABLE_ERROR(iTemp + 1); /* * 建立索引,加26是为了为拼音编码预留空间 */ size_t tmp_len = strlen(tableDict->strInputCode) + 26; tableDict->recordIndex = (RECORD_INDEX*)fcitx_memory_pool_alloc(tableDict->pool, tmp_len * sizeof(RECORD_INDEX)); for (iTemp = 0; iTemp < tmp_len; iTemp++) { tableDict->recordIndex[iTemp].cCode = 0; tableDict->recordIndex[iTemp].record = NULL; } /********************************************************************/ size = fread(&(tableDict->iCodeLength), sizeof(uint8_t), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); UpdateTableMetaData(tableMetaData); if (!iVersion) { size = fread(&(tableDict->iPYCodeLength), sizeof(uint8_t), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); } else tableDict->iPYCodeLength = tableDict->iCodeLength; size = fcitx_utils_read_uint32(fpDict, &iTemp); CHECK_LOAD_TABLE_ERROR(1); tableDict->strIgnoreChars = (char*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(char) * (iTemp + 1)); size = fread(tableDict->strIgnoreChars, sizeof(char), iTemp + 1, fpDict); CHECK_LOAD_TABLE_ERROR(iTemp + 1); size = fread(&(tableDict->bRule), sizeof(unsigned char), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); if (tableDict->bRule) { //表示有组词规则 tableDict->rule = (RULE*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(RULE) * (tableDict->iCodeLength - 1)); for (i = 0; i < tableDict->iCodeLength - 1; i++) { size = fread(&(tableDict->rule[i].iFlag), sizeof(unsigned char), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); size = fread(&(tableDict->rule[i].iWords), sizeof(unsigned char), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); tableDict->rule[i].rule = (RULE_RULE*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(RULE_RULE) * tableDict->iCodeLength); for (iTemp = 0; iTemp < tableDict->iCodeLength; iTemp++) { size = fread(&(tableDict->rule[i].rule[iTemp].iFlag), sizeof(unsigned char), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); size = fread(&(tableDict->rule[i].rule[iTemp].iWhich), sizeof(unsigned char), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); size = fread(&(tableDict->rule[i].rule[iTemp].iIndex), sizeof(unsigned char), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); } } } tableDict->recordHead = (RECORD*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(RECORD)); tableDict->currentRecord = tableDict->recordHead; size = fcitx_utils_read_uint32(fpDict, &tableDict->iRecordCount); CHECK_LOAD_TABLE_ERROR(1); for (i = 0; i < SINGLE_HZ_COUNT; i++) { tableDict->tableSingleHZ[i] = (RECORD*)NULL; tableDict->tableSingleHZCons[i] = (RECORD*)NULL; } iRecordIndex = 0; size_t bufSize = 0; for (i = 0; i < tableDict->iRecordCount; i++) { size = fread(strCode, sizeof(int8_t), tableDict->iPYCodeLength + 1, fpDict); CHECK_LOAD_TABLE_ERROR(tableDict->iPYCodeLength + 1); size = fcitx_utils_read_uint32(fpDict, &iTemp); CHECK_LOAD_TABLE_ERROR(1); /* we don't actually have such limit, but sometimes, broken table * may break this, so we need to give a limitation. */ if (iTemp > UTF8_MAX_LENGTH * 30) { error = true; goto table_load_error; } if (iTemp > bufSize) { bufSize = iTemp; strHZ = realloc(strHZ, bufSize); } size = fread(strHZ, sizeof(int8_t), iTemp, fpDict); CHECK_LOAD_TABLE_ERROR(iTemp); recTemp = (RECORD*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(RECORD)); recTemp->strCode = (char*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(char) * (tableDict->iPYCodeLength + 1)); memset(recTemp->strCode, 0, sizeof(char) * (tableDict->iPYCodeLength + 1)); strcpy(recTemp->strCode, strCode); recTemp->strHZ = (char*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(char) * iTemp); strcpy(recTemp->strHZ, strHZ); if (!iVersion) { size = fread(&cTemp, sizeof(int8_t), 1, fpDict); CHECK_LOAD_TABLE_ERROR(1); recTemp->type = cTemp; } size = fcitx_utils_read_uint32(fpDict, &recTemp->iHit); CHECK_LOAD_TABLE_ERROR(1); size = fcitx_utils_read_uint32(fpDict, &recTemp->iIndex); CHECK_LOAD_TABLE_ERROR(1); if (recTemp->iIndex > tableDict->iTableIndex) tableDict->iTableIndex = recTemp->iIndex; /* 建立索引 */ if (cChar != recTemp->strCode[0]) { cChar = recTemp->strCode[0]; tableDict->recordIndex[iRecordIndex].cCode = cChar; tableDict->recordIndex[iRecordIndex].record = recTemp; iRecordIndex++; } /******************************************************************/ /** 为单字生成一个表 */ if (fcitx_utf8_strlen(recTemp->strHZ) == 1 && !IsIgnoreChar(tableDict, strCode[0])) { RECORD** tableSingleHZ = NULL; if (recTemp->type == RECORDTYPE_NORMAL) tableSingleHZ = tableDict->tableSingleHZ; else if (recTemp->type == RECORDTYPE_CONSTRUCT) tableSingleHZ = tableDict->tableSingleHZCons; if (tableSingleHZ) { iTemp = CalHZIndex(recTemp->strHZ); if (iTemp < SINGLE_HZ_COUNT) { if (tableSingleHZ[iTemp]) { if (strlen(strCode) > strlen(tableDict->tableSingleHZ[iTemp]->strCode)) tableSingleHZ[iTemp] = recTemp; } else tableSingleHZ[iTemp] = recTemp; } } } if (recTemp->type == RECORDTYPE_PINYIN) tableDict->bHasPinyin = true; if (recTemp->type == RECORDTYPE_PROMPT && strlen(recTemp->strCode) == 1) tableDict->promptCode[(uint8_t) recTemp->strCode[0]] = recTemp; tableDict->currentRecord->next = recTemp; recTemp->prev = tableDict->currentRecord; tableDict->currentRecord = recTemp; } if (strHZ) { free(strHZ); strHZ = NULL; } tableDict->currentRecord->next = tableDict->recordHead; tableDict->recordHead->prev = tableDict->currentRecord; table_load_error: fclose(fpDict); if (error) { fcitx_memory_pool_destroy(tableDict->pool); tableDict->pool = NULL; reload++; } else { break; } } while(reload < 2); if (!tableDict->pool) return false; FcitxLog(DEBUG, _("Load Table Dict OK")); //读取相应的特殊符号表 fpDict = FcitxXDGGetFileWithPrefix("table", tableMetaData->strSymbolFile, "r", NULL); if (fpDict) { tableDict->iFH = fcitx_utils_calculate_record_number(fpDict); tableDict->fh = (FH*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(FH) * tableDict->iFH); char* strBuf = NULL; size_t bufLen = 0; for (i = 0; i < tableDict->iFH; i++) { if (getline(&strBuf, &bufLen, fpDict) == -1) break; if (!fcitx_utf8_check_string(strBuf)) break; if (fcitx_utf8_strlen(strBuf) > FH_MAX_LENGTH) break; strcpy(tableDict->fh[i].strFH, strBuf); } fcitx_utils_free(strBuf); tableDict->iFH = i; fclose(fpDict); } tableDict->strNewPhraseCode = (char*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(char) * (tableDict->iCodeLength + 1)); tableDict->strNewPhraseCode[tableDict->iCodeLength] = '\0'; tableDict->iAutoPhrase = 0; if (tableMetaData->bAutoPhrase) { tableDict->autoPhrase = (AUTOPHRASE*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(AUTOPHRASE) * AUTO_PHRASE_COUNT); //读取上次保存的自动词组信息 FcitxLog(DEBUG, _("Loading Autophrase.")); char *temppath; fcitx_utils_alloc_cat_str(temppath, tableMetaData->uniqueName, "_LastAutoPhrase.tmp"); fpDict = FcitxXDGGetFileWithPrefix("table", temppath, "r", NULL); free(temppath); i = 0; if (fpDict) { size_t size = fcitx_utils_read_int32(fpDict, &tableDict->iAutoPhrase); if (size == 1) { for (; i < tableDict->iAutoPhrase; i++) { tableDict->autoPhrase[i].strCode = (char*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(char) * (tableDict->iCodeLength + 1)); tableDict->autoPhrase[i].strHZ = (char*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(char) * (PHRASE_MAX_LENGTH * UTF8_MAX_LENGTH + 1)); size = fread(tableDict->autoPhrase[i].strCode, tableDict->iCodeLength + 1, 1, fpDict); if (size != 1) { tableDict->iAutoPhrase = i; break; } size = fread(tableDict->autoPhrase[i].strHZ, PHRASE_MAX_LENGTH * UTF8_MAX_LENGTH + 1, 1, fpDict); tableDict->autoPhrase[i].strHZ[PHRASE_MAX_LENGTH * UTF8_MAX_LENGTH] = 0; if (size != 1 || !fcitx_utf8_check_string(tableDict->autoPhrase[i].strHZ)) { tableDict->iAutoPhrase = i; break; } size = fcitx_utils_read_uint32(fpDict, &iTempCount); if (size != 1) { tableDict->iAutoPhrase = i; break; } tableDict->autoPhrase[i].iSelected = iTempCount; if (i == AUTO_PHRASE_COUNT - 1) tableDict->autoPhrase[i].next = &tableDict->autoPhrase[0]; else tableDict->autoPhrase[i].next = &tableDict->autoPhrase[i + 1]; } } fclose(fpDict); } for (; i < AUTO_PHRASE_COUNT; i++) { tableDict->autoPhrase[i].strCode = (char*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(char) * (tableDict->iCodeLength + 1)); tableDict->autoPhrase[i].strHZ = (char*)fcitx_memory_pool_alloc(tableDict->pool, sizeof(char) * (PHRASE_MAX_LENGTH * UTF8_MAX_LENGTH + 1)); tableDict->autoPhrase[i].iSelected = 0; if (i == AUTO_PHRASE_COUNT - 1) tableDict->autoPhrase[i].next = &tableDict->autoPhrase[0]; else tableDict->autoPhrase[i].next = &tableDict->autoPhrase[i + 1]; } if (i == AUTO_PHRASE_COUNT) tableDict->insertPoint = &tableDict->autoPhrase[0]; else tableDict->insertPoint = &tableDict->autoPhrase[i - 1]; FcitxLog(DEBUG, _("Load Autophrase OK")); } else tableDict->autoPhrase = (AUTOPHRASE *) NULL; return true; }
int main (int argc, char* argv[]) { char *servicename = NULL; char *address = NULL; DBusMessage* message = NULL; DBusConnection* conn = NULL; int c; int ret = 1; int messageType = FCITX_DBUS_GET_CURRENT_STATE; char *imname = NULL; while ((c = getopt(argc, argv, "chortTeam:")) != -1) { switch (c) { case 'o': messageType = FCITX_DBUS_ACTIVATE; break; case 'c': messageType = FCITX_DBUS_INACTIVATE; break; case 'r': messageType = FCITX_DBUS_RELOAD_CONFIG; break; case 't': case 'T': messageType = FCITX_DBUS_TOGGLE; break; case 'e': messageType = FCITX_DBUS_EXIT; break; case 'm': messageType = FCITX_DBUS_GET_IM_ADDON; imname = strdup(optarg); break; case 'a': address = _fcitx_get_address(); if (address) { printf("%s\n", address); return 0; } else return 1; break; case 'h': usage(stdout); return 0; default: usage(stderr); return 1; break; } } #define CASE(ENUMNAME, MESSAGENAME) \ case FCITX_DBUS_##ENUMNAME: \ message = dbus_message_new_method_call(servicename, FCITX_IM_DBUS_PATH, FCITX_IM_DBUS_INTERFACE, #MESSAGENAME); \ break; asprintf(&servicename, "%s-%d", FCITX_DBUS_SERVICE, fcitx_utils_get_display_number()); switch(messageType) { CASE(ACTIVATE, ActivateIM); CASE(INACTIVATE, InactivateIM); CASE(RELOAD_CONFIG, ReloadConfig); CASE(EXIT, Exit); CASE(TOGGLE, ToggleIM); CASE(GET_CURRENT_STATE, GetCurrentState); CASE(GET_IM_ADDON, GetIMAddon); default: goto some_error; }; if (!message) { goto some_error; } address = _fcitx_get_address(); do { if (!address) break; conn = dbus_connection_open(address, NULL); if (!conn) break; if (!dbus_bus_register(conn, NULL)) { dbus_connection_unref(conn); conn = NULL; break; } } while(0); if (!conn) { conn = dbus_bus_get(DBUS_BUS_SESSION, NULL); if (!conn) { goto some_error; } dbus_connection_set_exit_on_disconnect(conn, FALSE); } if (messageType == FCITX_DBUS_GET_CURRENT_STATE) { DBusMessage* reply = dbus_connection_send_with_reply_and_block(conn, message, 1000, NULL); int result = 0; if (reply && dbus_message_get_args(reply, NULL, DBUS_TYPE_INT32, &result, DBUS_TYPE_INVALID)) { printf("%d\n", result); ret = 0; } else { fprintf(stderr, "Not get reply\n"); } } else if (messageType == FCITX_DBUS_GET_IM_ADDON) { do { if (!fcitx_utf8_check_string(imname)) break; dbus_message_append_args(message, DBUS_TYPE_STRING, &imname, DBUS_TYPE_INVALID); DBusMessage* reply = dbus_connection_send_with_reply_and_block(conn, message, 1000, NULL); char *result = NULL; if (reply && dbus_message_get_args(reply, NULL, DBUS_TYPE_STRING, &result, DBUS_TYPE_INVALID)) { printf("%s\n", result); ret = 0; } else { fprintf(stderr, "Not get reply\n"); } } while(0); } else { dbus_connection_send(conn, message, NULL); dbus_connection_flush(conn); ret = 0; } some_error: if (message) dbus_message_unref(message); if (conn) dbus_connection_unref(conn); fcitx_utils_free(address); fcitx_utils_free(servicename); fcitx_utils_free(imname); return ret; }
char* BaiduParsePinyin(FcitxCloudPinyin* cloudpinyin, CurlQueue* queue) { char *start = NULL, *end = NULL; static iconv_t conv = 0; if (conv == 0) conv = iconv_open("utf-8", "utf-16be"); if (conv == (iconv_t)(-1)) return NULL; if ((start = strstr(queue->str, "[[[\"")) != NULL) { start += strlen( "[[[\""); if ((end = strstr(start, "\",")) != NULL) { size_t length = end - start; if (length % 6 != 0 || length == 0) return NULL; size_t i = 0, j = 0; char* buf = fcitx_utils_malloc0((length / 6 + 1) * 2); while (i < length) { if (start[i] == '\\' && start[i+1] == 'u') { if (ishex(start[i+2]) && ishex(start[i+3]) && ishex(start[i+4]) && ishex(start[i+5])) { buf[j++] = (tohex(start[i+2]) << 4) | tohex(start[i+3]); buf[j++] = (tohex(start[i+4]) << 4) | tohex(start[i+5]); } else break; } i += 6; } if (i != length) { free(buf); return NULL; } buf[j++] = 0; buf[j++] = 0; size_t len = UTF8_MAX_LENGTH * (length / 6) * sizeof(char); char* realstring = fcitx_utils_malloc0(UTF8_MAX_LENGTH * (length / 6) * sizeof(char)); IconvStr p = buf; char *pp = realstring; iconv(conv, &p, &j, &pp, &len); free(buf); if (fcitx_utf8_check_string(realstring)) return realstring; else { free(realstring); return NULL; } } } return NULL; }