/* * i3bar - an xcb-based status- and ws-bar for i3 * * © 2010 Axel Wagner and contributors * * See file LICNSE for license information * * src/workspaces.c: Maintaining the workspace-lists * */ #include #include #include #include #include #include "common.h" /* A datatype to pass through the callbacks to save the state */ struct workspaces_json_params { struct ws_head *workspaces; i3_ws *workspaces_walk; char *cur_key; char *json; }; /* * Parse a booleant-value (visible, focused, urgent) * */ static int workspaces_boolean_cb(void *params_, bool val) { struct workspaces_json_params *params = (struct workspaces_json_params*) params_; if (!strcmp(params->cur_key, "visible")) { params->workspaces_walk->visible = val; FREE(params->cur_key); return 1; } if (!strcmp(params->cur_key, "focused")) { params->workspaces_walk->focused = val; FREE(params->cur_key); return 1; } if (!strcmp(params->cur_key, "urgent")) { params->workspaces_walk->urgent = val; FREE(params->cur_key); return 1; } FREE(params->cur_key); return 0; } /* * Parse an integer (num or the rect) * */ static int workspaces_integer_cb(void *params_, long val) { struct workspaces_json_params *params = (struct workspaces_json_params*) params_; if (!strcmp(params->cur_key, "num")) { params->workspaces_walk->num = (int) val; FREE(params->cur_key); return 1; } if (!strcmp(params->cur_key, "x")) { params->workspaces_walk->rect.x = (int) val; FREE(params->cur_key); return 1; } if (!strcmp(params->cur_key, "y")) { params->workspaces_walk->rect.y = (int) val; FREE(params->cur_key); return 1; } if (!strcmp(params->cur_key, "width")) { params->workspaces_walk->rect.w = (int) val; FREE(params->cur_key); return 1; } if (!strcmp(params->cur_key, "height")) { params->workspaces_walk->rect.h = (int) val; FREE(params->cur_key); return 1; } FREE(params->cur_key); return 0; } /* * Parse a string (name, output) * */ static int workspaces_string_cb(void *params_, const unsigned char *val, unsigned int len) { struct workspaces_json_params *params = (struct workspaces_json_params*) params_; char *output_name; if (!strcmp(params->cur_key, "name")) { /* Save the name */ params->workspaces_walk->name = malloc(sizeof(const unsigned char) * (len + 1)); strncpy(params->workspaces_walk->name, (const char*) val, len); params->workspaces_walk->name[len] = '\0'; /* Convert the name to ucs2, save it's length in glyphs and calculate it'srendered width */ int ucs2_len; xcb_char2b_t *ucs2_name = (xcb_char2b_t*) convert_utf8_to_ucs2(params->workspaces_walk->name, &ucs2_len); params->workspaces_walk->ucs2_name = ucs2_name; params->workspaces_walk->name_glyphs = ucs2_len; params->workspaces_walk->name_width = predict_text_extents(params->workspaces_walk->ucs2_name, params->workspaces_walk->name_glyphs); DLOG("Got Workspace %s, name_width: %d, glyphs: %d\n", params->workspaces_walk->name, params->workspaces_walk->name_width, params->workspaces_walk->name_glyphs); FREE(params->cur_key); return 1; } if (!strcmp(params->cur_key, "output")) { /* We add the ws to the TAILQ of the output, it belongs to */ output_name = malloc(sizeof(const unsigned char) * (len + 1)); strncpy(output_name, (const char*) val, len); output_name[len] = '\0'; params->workspaces_walk->output = get_output_by_name(output_name); TAILQ_INSERT_TAIL(params->workspaces_walk->output->workspaces, params->workspaces_walk, tailq); FREE(output_name); return 1; } return 0; } /* * We hit the start of a json-map (rect or a new output) * */ static int workspaces_start_map_cb(void *params_) { struct workspaces_json_params *params = (struct workspaces_json_params*) params_; i3_ws *new_workspace = NULL; if (params->cur_key == NULL) { new_workspace = malloc(sizeof(i3_ws)); new_workspace->num = -1; new_workspace->name = NULL; new_workspace->visible = 0; new_workspace->focused = 0; new_workspace->urgent = 0; memset(&new_workspace->rect, 0, sizeof(rect)); new_workspace->output = NULL; params->workspaces_walk = new_workspace; return 1; } return 1; } /* * Parse a key. * * Essentially we just save it in the parsing-state * */ static int workspaces_map_key_cb(void *params_, const unsigned char *keyVal, unsigned int keyLen) { struct workspaces_json_params *params = (struct workspaces_json_params*) params_; FREE(params->cur_key); params->cur_key = malloc(sizeof(unsigned char) * (keyLen + 1)); if (params->cur_key == NULL) { ELOG("Could not allocate memory: %s\n", strerror(errno)); exit(EXIT_FAILURE); } strncpy(params->cur_key, (const char*) keyVal, keyLen); params->cur_key[keyLen] = '\0'; return 1; } /* A datastructure to pass all these callbacks to yajl */ yajl_callbacks workspaces_callbacks = { NULL, &workspaces_boolean_cb, &workspaces_integer_cb, NULL, NULL, &workspaces_string_cb, &workspaces_start_map_cb, &workspaces_map_key_cb, NULL, NULL, NULL }; /* * Start parsing the received json-string * */ void parse_workspaces_json(char *json) { /* FIXME: Fasciliate stream-processing, i.e. allow starting to interpret * JSON in chunks */ struct workspaces_json_params params; free_workspaces(); params.workspaces_walk = NULL; params.cur_key = NULL; params.json = json; yajl_handle handle; yajl_parser_config parse_conf = { 0, 0 }; yajl_status state; handle = yajl_alloc(&workspaces_callbacks, &parse_conf, NULL, (void*) ¶ms); state = yajl_parse(handle, (const unsigned char*) json, strlen(json)); /* FIXME: Propper errorhandling for JSON-parsing */ switch (state) { case yajl_status_ok: break; case yajl_status_client_canceled: case yajl_status_insufficient_data: case yajl_status_error: ELOG("Could not parse workspaces-reply!\n"); exit(EXIT_FAILURE); break; } yajl_free(handle); FREE(params.cur_key); } /* * free() all workspace data-structures. Does not free() the heads of the tailqueues. * */ void free_workspaces() { i3_output *outputs_walk; if (outputs == NULL) { return; } i3_ws *ws_walk; SLIST_FOREACH(outputs_walk, outputs, slist) { if (outputs_walk->workspaces != NULL && !TAILQ_EMPTY(outputs_walk->workspaces)) { TAILQ_FOREACH(ws_walk, outputs_walk->workspaces, tailq) { FREE(ws_walk->name); FREE(ws_walk->ucs2_name); } FREE_TAILQ(outputs_walk->workspaces, i3_ws); } } }