/* RetroArch - A frontend for libretro. * Copyright (C) 2011-2016 - Daniel De Matteis * * RetroArch is free software: you can redistribute it and/or modify it under the terms * of the GNU General Public License as published by the Free Software Found- * ation, either version 3 of the License, or (at your option) any later version. * * RetroArch 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 General Public License for more details. * * You should have received a copy of the GNU General Public License along with RetroArch. * If not, see . */ #include #include #include #include #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifdef HAVE_MENU #include "menu/menu_driver.h" #include "menu/widgets/menu_input_dialog.h" #include "menu/widgets/menu_input_bind_dialog.h" #endif #include "configuration.h" #include "config.def.h" #include "input/input_config.h" #include "input/input_autodetect.h" #include "setting_list.h" rarch_setting_t setting_terminator_setting(void) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = ST_NONE; result.size = 0; result.name = NULL; result.name_hash = 0; result.short_description = NULL; result.group = NULL; result.subgroup = NULL; result.parent_group = NULL; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = NULL; result.read_handler = NULL; result.action_start = NULL; result.action_left = NULL; result.action_right = NULL; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = NULL; result.action_select = NULL; result.get_string_representation = NULL; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.dont_use_enum_idx_representation = false; return result; } bool settings_list_append(rarch_setting_t **list, rarch_setting_info_t *list_info) { if (!list || !*list || !list_info) return false; if (list_info->index == list_info->size) { list_info->size *= 2; *list = (rarch_setting_t*) realloc(*list, sizeof(rarch_setting_t) * list_info->size); if (!*list) return false; } return true; } enum setting_type setting_get_type(rarch_setting_t *setting) { if (!setting) return ST_NONE; return setting->type; } unsigned setting_get_bind_type(rarch_setting_t *setting) { if (!setting) return 0; return setting->bind_type; } static int setting_bind_action_ok(void *data, bool wraparound) { (void)wraparound; /* TODO/FIXME - handle this */ #ifdef HAVE_MENU /* TODO - get rid of menu dependency */ if (!menu_input_key_bind_set_mode(MENU_INPUT_BINDS_CTL_BIND_SINGLE, data)) return -1; #endif return 0; } static int setting_int_action_right_default(void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; double min = 0.0f; double max = 0.0f; if (!setting) return -1; min = setting->min; max = setting->max; (void)wraparound; /* TODO/FIXME - handle this */ *setting->value.target.integer = *setting->value.target.integer + setting->step; if (setting->enforce_maxrange) { if (*setting->value.target.integer > max) { settings_t *settings = config_get_ptr(); #ifdef HAVE_MENU if (settings && settings->menu.navigation.wraparound.enable) *setting->value.target.integer = min; else #endif *setting->value.target.integer = max; } } return 0; } #ifdef HAVE_MENU static int setting_bind_action_start(void *data) { unsigned bind_type; struct retro_keybind *keybind = NULL; rarch_setting_t *setting = (rarch_setting_t*)data; struct retro_keybind *def_binds = (struct retro_keybind *)retro_keybinds_1; if (!setting) return -1; keybind = (struct retro_keybind*)setting->value.target.keybind; if (!keybind) return -1; keybind->joykey = NO_BTN; keybind->joyaxis = AXIS_NONE; if (setting->index_offset) def_binds = (struct retro_keybind*)retro_keybinds_rest; bind_type = setting_get_bind_type(setting); keybind->key = def_binds[bind_type - MENU_SETTINGS_BIND_BEGIN].key; return 0; } #endif static void setting_get_string_representation_hex(void *data, char *s, size_t len) { rarch_setting_t *setting = (rarch_setting_t*)data; if (setting) snprintf(s, len, "%08x", *setting->value.target.unsigned_integer); } static void setting_get_string_representation_uint(void *data, char *s, size_t len) { rarch_setting_t *setting = (rarch_setting_t*)data; if (setting) snprintf(s, len, "%u", *setting->value.target.unsigned_integer); } static int setting_uint_action_left_default(void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; double min = 0.0f; if (!setting) return -1; min = setting->min; (void)wraparound; /* TODO/FIXME - handle this */ if (*setting->value.target.unsigned_integer != min) *setting->value.target.unsigned_integer = *setting->value.target.unsigned_integer - setting->step; if (setting->enforce_minrange) { if (*setting->value.target.unsigned_integer < min) *setting->value.target.unsigned_integer = min; } return 0; } static int setting_uint_action_right_default(void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; double min = 0.0f; double max = 0.0f; if (!setting) return -1; min = setting->min; max = setting->max; (void)wraparound; /* TODO/FIXME - handle this */ *setting->value.target.unsigned_integer = *setting->value.target.unsigned_integer + setting->step; if (setting->enforce_maxrange) { if (*setting->value.target.unsigned_integer > max) { settings_t *settings = config_get_ptr(); #ifdef HAVE_MENU if (settings && settings->menu.navigation.wraparound.enable) *setting->value.target.unsigned_integer = min; else #endif *setting->value.target.unsigned_integer = max; } } return 0; } int setting_generic_action_ok_default(void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; if (!setting) return -1; (void)wraparound; /* TODO/FIXME - handle this */ if (setting->cmd_trigger.idx != CMD_EVENT_NONE) setting->cmd_trigger.triggered = true; return 0; } static void setting_get_string_representation_int(void *data, char *s, size_t len) { rarch_setting_t *setting = (rarch_setting_t*)data; if (setting) snprintf(s, len, "%d", *setting->value.target.integer); } /** * setting_set_with_string_representation: * @setting : pointer to setting * @value : value for the setting (string) * * Set a settings' value with a string. It is assumed * that the string has been properly formatted. **/ int setting_set_with_string_representation(rarch_setting_t* setting, const char* value) { double min, max; uint64_t flags; if (!setting || !value) return -1; min = setting->min; max = setting->max; flags = setting->flags; switch (setting_get_type(setting)) { case ST_INT: sscanf(value, "%d", setting->value.target.integer); if (flags & SD_FLAG_HAS_RANGE) { if (setting->enforce_minrange && *setting->value.target.integer < min) *setting->value.target.integer = min; if (setting->enforce_maxrange && *setting->value.target.integer > max) { settings_t *settings = config_get_ptr(); #ifdef HAVE_MENU if (settings && settings->menu.navigation.wraparound.enable) *setting->value.target.integer = min; else #endif *setting->value.target.integer = max; } } break; case ST_UINT: sscanf(value, "%u", setting->value.target.unsigned_integer); if (flags & SD_FLAG_HAS_RANGE) { if (setting->enforce_minrange && *setting->value.target.unsigned_integer < min) *setting->value.target.unsigned_integer = min; if (setting->enforce_maxrange && *setting->value.target.unsigned_integer > max) { settings_t *settings = config_get_ptr(); #ifdef HAVE_MENU if (settings && settings->menu.navigation.wraparound.enable) *setting->value.target.unsigned_integer = min; else #endif *setting->value.target.unsigned_integer = max; } } break; case ST_FLOAT: sscanf(value, "%f", setting->value.target.fraction); if (flags & SD_FLAG_HAS_RANGE) { if (setting->enforce_minrange && *setting->value.target.fraction < min) *setting->value.target.fraction = min; if (setting->enforce_maxrange && *setting->value.target.fraction > max) { settings_t *settings = config_get_ptr(); #ifdef HAVE_MENU if (settings && settings->menu.navigation.wraparound.enable) *setting->value.target.fraction = min; else #endif *setting->value.target.fraction = max; } } break; case ST_PATH: case ST_DIR: case ST_STRING: case ST_STRING_OPTIONS: case ST_ACTION: strlcpy(setting->value.target.string, value, setting->size); break; case ST_BOOL: if (string_is_equal(value, "true")) *setting->value.target.boolean = true; else if (string_is_equal(value, "false")) *setting->value.target.boolean = false; break; default: break; } if (setting->change_handler) setting->change_handler(setting); return 0; } static int setting_fraction_action_left_default( void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; double min = 0.0f; if (!setting) return -1; min = setting->min; (void)wraparound; /* TODO/FIXME - handle this */ *setting->value.target.fraction = *setting->value.target.fraction - setting->step; if (setting->enforce_minrange) { if (*setting->value.target.fraction < min) *setting->value.target.fraction = min; } return 0; } static int setting_fraction_action_right_default( void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; double min = 0.0f; double max = 0.0f; if (!setting) return -1; min = setting->min; max = setting->max; (void)wraparound; /* TODO/FIXME - handle this */ *setting->value.target.fraction = *setting->value.target.fraction + setting->step; if (setting->enforce_maxrange) { if (*setting->value.target.fraction > max) { settings_t *settings = config_get_ptr(); #ifdef HAVE_MENU if (settings && settings->menu.navigation.wraparound.enable) *setting->value.target.fraction = min; else #endif *setting->value.target.fraction = max; } } return 0; } /** * setting_reset_setting: * @setting : pointer to setting * * Reset a setting's value to its defaults. **/ static void setting_reset_setting(rarch_setting_t* setting) { if (!setting) return; switch (setting_get_type(setting)) { case ST_BOOL: *setting->value.target.boolean = setting->default_value.boolean; break; case ST_INT: *setting->value.target.integer = setting->default_value.integer; break; case ST_UINT: *setting->value.target.unsigned_integer = setting->default_value.unsigned_integer; break; case ST_FLOAT: *setting->value.target.fraction = setting->default_value.fraction; break; case ST_BIND: *setting->value.target.keybind = *setting->default_value.keybind; break; case ST_STRING: case ST_STRING_OPTIONS: case ST_PATH: case ST_DIR: if (setting->default_value.string) { if (setting_get_type(setting) == ST_STRING) setting_set_with_string_representation(setting, setting->default_value.string); else fill_pathname_expand_special(setting->value.target.string, setting->default_value.string, setting->size); } break; default: break; } if (setting->change_handler) setting->change_handler(setting); } int setting_generic_action_start_default(void *data) { rarch_setting_t *setting = (rarch_setting_t*)data; if (!setting) return -1; setting_reset_setting(setting); return 0; } static void setting_get_string_representation_default(void *data, char *s, size_t len) { (void)data; strlcpy(s, "...", len); } /** * setting_get_string_representation_st_bool: * @setting : pointer to setting * @s : string for the type to be represented on-screen as * a label. * @len : size of @s * * Set a settings' label value. The setting is of type ST_BOOL. **/ static void setting_get_string_representation_st_bool(void *data, char *s, size_t len) { rarch_setting_t *setting = (rarch_setting_t*)data; if (setting) strlcpy(s, *setting->value.target.boolean ? setting->boolean.on_label : setting->boolean.off_label, len); } /** * setting_get_string_representation_st_float: * @setting : pointer to setting * @s : string for the type to be represented on-screen as * a label. * @len : size of @s * * Set a settings' label value. The setting is of type ST_FLOAT. **/ static void setting_get_string_representation_st_float(void *data, char *s, size_t len) { rarch_setting_t *setting = (rarch_setting_t*)data; if (setting) snprintf(s, len, setting->rounding_fraction, *setting->value.target.fraction); } static void setting_get_string_representation_st_dir(void *data, char *s, size_t len) { rarch_setting_t *setting = (rarch_setting_t*)data; if (setting) strlcpy(s, *setting->value.target.string ? setting->value.target.string : setting->dir.empty_path, len); } static void setting_get_string_representation_st_path(void *data, char *s, size_t len) { rarch_setting_t *setting = (rarch_setting_t*)data; if (setting) fill_short_pathname_representation(s, setting->value.target.string, len); } static void setting_get_string_representation_st_string(void *data, char *s, size_t len) { rarch_setting_t *setting = (rarch_setting_t*)data; if (setting) strlcpy(s, setting->value.target.string, len); } static void setting_get_string_representation_st_bind(void *data, char *s, size_t len) { unsigned index_offset; rarch_setting_t *setting = (rarch_setting_t*)data; const struct retro_keybind* keybind = NULL; const struct retro_keybind* auto_bind = NULL; if (!setting) return; index_offset = setting->index_offset; keybind = (const struct retro_keybind*)setting->value.target.keybind; auto_bind = (const struct retro_keybind*) input_get_auto_bind(index_offset, keybind->id); input_config_get_bind_string(s, keybind, auto_bind, len); } static int setting_action_action_ok(void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; if (!setting) return -1; (void)wraparound; /* TODO/FIXME - handle this */ if (setting->cmd_trigger.idx != CMD_EVENT_NONE) command_event(setting->cmd_trigger.idx, NULL); return 0; } /** * setting_action_setting: * @name : Name of setting. * @short_description : Short description of setting. * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * * Initializes a setting of type ST_ACTION. * * Returns: setting of type ST_ACTION. **/ static rarch_setting_t setting_action_setting(const char* name, const char* short_description, const char *group, const char *subgroup, const char *parent_group, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = ST_ACTION; result.size = 0; result.name = name; result.name_hash = 0; result.short_description = short_description; result.group = group; result.subgroup = subgroup; result.parent_group = parent_group; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = NULL; result.read_handler = NULL; result.action_start = NULL; result.action_left = NULL; result.action_right = NULL; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = setting_action_action_ok; result.action_select = setting_action_action_ok; result.get_string_representation = &setting_get_string_representation_default; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } /** * setting_group_setting: * @type : type of settting. * @name : name of setting. * * Initializes a setting of type ST_GROUP. * * Returns: setting of type ST_GROUP. **/ static rarch_setting_t setting_group_setting(enum setting_type type, const char* name, const char *parent_group) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = type; result.size = 0; result.name = name; result.name_hash = 0; result.short_description = name; result.group = NULL; result.subgroup = NULL; result.parent_group = parent_group; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = NULL; result.read_handler = NULL; result.action_start = NULL; result.action_left = NULL; result.action_right = NULL; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = NULL; result.action_select = NULL; result.get_string_representation = &setting_get_string_representation_default; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.dont_use_enum_idx_representation = false; return result; } /** * setting_float_setting: * @name : name of setting. * @short_description : Short description of setting. * @target : Target of float setting. * @default_value : Default value (in float). * @rounding : Rounding (for float-to-string representation). * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * @change_handler : Function callback for change handler function pointer. * @read_handler : Function callback for read handler function pointer. * * Initializes a setting of type ST_FLOAT. * * Returns: setting of type ST_FLOAT. **/ static rarch_setting_t setting_float_setting(const char* name, const char* short_description, float* target, float default_value, const char *rounding, const char *group, const char *subgroup, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = ST_FLOAT; result.size = sizeof(float); result.name = name; result.name_hash = 0; result.short_description = short_description; result.group = group; result.subgroup = subgroup; result.parent_group = parent_group; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = change_handler; result.read_handler = read_handler; result.action_start = setting_generic_action_start_default; result.action_left = setting_fraction_action_left_default; result.action_right = setting_fraction_action_right_default; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = setting_generic_action_ok_default; result.action_select = setting_generic_action_ok_default; result.get_string_representation = &setting_get_string_representation_st_float; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = rounding; result.enforce_minrange = false; result.enforce_maxrange = false; result.value.target.fraction = target; result.original_value.fraction = *target; result.default_value.fraction = default_value; result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } /** * setting_uint_setting: * @name : name of setting. * @short_description : Short description of setting. * @target : Target of unsigned integer setting. * @default_value : Default value (in unsigned integer format). * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * @change_handler : Function callback for change handler function pointer. * @read_handler : Function callback for read handler function pointer. * * Initializes a setting of type ST_UINT. * * Returns: setting of type ST_UINT. **/ static rarch_setting_t setting_uint_setting(const char* name, const char* short_description, unsigned int* target, unsigned int default_value, const char *group, const char *subgroup, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = ST_UINT; result.size = sizeof(unsigned int); result.name = name; result.name_hash = 0; result.short_description = short_description; result.group = group; result.subgroup = subgroup; result.parent_group = parent_group; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = change_handler; result.read_handler = read_handler; result.action_start = setting_generic_action_start_default; result.action_left = setting_uint_action_left_default; result.action_right = setting_uint_action_right_default; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = setting_generic_action_ok_default; result.action_select = setting_generic_action_ok_default; result.get_string_representation = &setting_get_string_representation_uint; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.value.target.unsigned_integer = target; result.original_value.unsigned_integer = *target; result.default_value.unsigned_integer = default_value; result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } /** * setting_hex_setting: * @name : name of setting. * @short_description : Short description of setting. * @target : Target of unsigned integer setting. * @default_value : Default value (in unsigned integer format). * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * @change_handler : Function callback for change handler function pointer. * @read_handler : Function callback for read handler function pointer. * * Initializes a setting of type ST_HEX. * * Returns: setting of type ST_HEX. **/ static rarch_setting_t setting_hex_setting(const char* name, const char* short_description, unsigned int* target, unsigned int default_value, const char *group, const char *subgroup, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = ST_HEX; result.size = sizeof(unsigned int); result.name = name; result.name_hash = 0; result.short_description = short_description; result.group = group; result.subgroup = subgroup; result.parent_group = parent_group; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = change_handler; result.read_handler = read_handler; result.action_start = setting_generic_action_start_default; result.action_left = NULL; result.action_right = NULL; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = setting_generic_action_ok_default; result.action_select = setting_generic_action_ok_default; result.get_string_representation = &setting_get_string_representation_hex; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.value.target.unsigned_integer = target; result.original_value.unsigned_integer = *target; result.default_value.unsigned_integer = default_value; result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } /** * setting_bind_setting: * @name : name of setting. * @short_description : Short description of setting. * @target : Target of bind setting. * @idx : Index of bind setting. * @idx_offset : Index offset of bind setting. * @default_value : Default value (in bind format). * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * * Initializes a setting of type ST_BIND. * * Returns: setting of type ST_BIND. **/ static rarch_setting_t setting_bind_setting(const char* name, const char* short_description, struct retro_keybind* target, uint32_t idx, uint32_t idx_offset, const struct retro_keybind* default_value, const char *group, const char *subgroup, const char *parent_group, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = ST_BIND; result.size = 0; result.name = name; result.name_hash = 0; result.short_description = short_description; result.group = group; result.subgroup = subgroup; result.parent_group = parent_group; result.values = NULL; result.index = idx; result.index_offset = idx_offset; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = NULL; result.read_handler = NULL; #ifdef HAVE_MENU result.action_start = setting_bind_action_start; #else result.action_start = NULL; #endif result.action_left = NULL; result.action_right = NULL; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = setting_bind_action_ok; result.action_select = setting_bind_action_ok; result.get_string_representation = &setting_get_string_representation_st_bind; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.value.target.keybind = target; result.default_value.keybind = default_value; result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } static int setting_int_action_left_default(void *data, bool wraparound) { double min = 0.0f; rarch_setting_t *setting = (rarch_setting_t*)data; if (!setting) return -1; min = setting->min; (void)wraparound; /* TODO/FIXME - handle this */ if (*setting->value.target.integer != min) *setting->value.target.integer = *setting->value.target.integer - setting->step; if (setting->enforce_minrange) { if (*setting->value.target.integer < min) *setting->value.target.integer = min; } return 0; } static int setting_bool_action_ok_default(void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; if (!setting) return -1; (void)wraparound; /* TODO/FIXME - handle this */ setting_set_with_string_representation(setting, *setting->value.target.boolean ? "false" : "true"); return 0; } static int setting_bool_action_toggle_default(void *data, bool wraparound) { rarch_setting_t *setting = (rarch_setting_t*)data; if (!setting) return -1; (void)wraparound; /* TODO/FIXME - handle this */ setting_set_with_string_representation(setting, *setting->value.target.boolean ? "false" : "true"); return 0; } int setting_string_action_start_generic(void *data) { rarch_setting_t *setting = (rarch_setting_t*)data; if (!setting) return -1; setting->value.target.string[0] = '\0'; return 0; } /** * setting_string_setting: * @type : type of setting. * @name : name of setting. * @short_description : Short description of setting. * @target : Target of string setting. * @size : Size of string setting. * @default_value : Default value (in string format). * @empty : TODO/FIXME: ??? * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * @change_handler : Function callback for change handler function pointer. * @read_handler : Function callback for read handler function pointer. * * Initializes a string setting (of type @type). * * Returns: String setting of type @type. **/ static rarch_setting_t setting_string_setting(enum setting_type type, const char* name, const char* short_description, char* target, unsigned size, const char* default_value, const char *empty, const char *group, const char *subgroup, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = type; result.size = size; result.name = name; result.name_hash = 0; result.short_description = short_description; result.group = group; result.subgroup = subgroup; result.parent_group = parent_group; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = change_handler; result.read_handler = read_handler; result.action_start = NULL; result.action_left = NULL; result.action_right = NULL; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = NULL; result.action_select = NULL; result.get_string_representation = &setting_get_string_representation_st_string; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.dir.empty_path = empty; result.value.target.string = target; result.default_value.string = default_value; switch (type) { case ST_DIR: result.action_start = setting_string_action_start_generic; result.browser_selection_type = ST_DIR; result.get_string_representation = &setting_get_string_representation_st_dir; break; case ST_PATH: result.action_start = setting_string_action_start_generic; result.browser_selection_type = ST_PATH; result.get_string_representation = &setting_get_string_representation_st_path; break; default: break; } result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } /** * setting_string_setting_options: * @type : type of settting. * @name : name of setting. * @short_description : Short description of setting. * @target : Target of bind setting. * @size : Size of string setting. * @default_value : Default value. * @empty : N/A. * @values : Values, separated by a delimiter. * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * @change_handler : Function callback for change handler function pointer. * @read_handler : Function callback for read handler function pointer. * * Initializes a string options list setting. * * Returns: string option list setting. **/ static rarch_setting_t setting_string_setting_options(enum setting_type type, const char* name, const char* short_description, char* target, unsigned size, const char* default_value, const char *empty, const char *values, const char *group, const char *subgroup, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, bool dont_use_enum_idx) { rarch_setting_t result = setting_string_setting(type, name, short_description, target, size, default_value, empty, group, subgroup, parent_group, change_handler, read_handler, dont_use_enum_idx); result.parent_group = parent_group; result.values = values; return result; } /** * setting_subgroup_setting: * @type : type of settting. * @name : name of setting. * @parent_name : group that the subgroup setting belongs to. * * Initializes a setting of type ST_SUBGROUP. * * Returns: setting of type ST_SUBGROUP. **/ static rarch_setting_t setting_subgroup_setting(enum setting_type type, const char* name, const char *parent_name, const char *parent_group, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = type; result.size = 0; result.name = name; result.name_hash = 0; result.short_description = name; result.group = parent_name; result.parent_group = parent_group; result.values = NULL; result.subgroup = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = NULL; result.read_handler = NULL; result.action_start = NULL; result.action_left = NULL; result.action_right = NULL; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = NULL; result.action_select = NULL; result.get_string_representation = &setting_get_string_representation_default; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } /** * setting_bool_setting: * @name : name of setting. * @short_description : Short description of setting. * @target : Target of bool setting. * @default_value : Default value (in bool format). * @off : String value for "Off" label. * @on : String value for "On" label. * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * @change_handler : Function callback for change handler function pointer. * @read_handler : Function callback for read handler function pointer. * * Initializes a setting of type ST_BOOL. * * Returns: setting of type ST_BOOL. **/ static rarch_setting_t setting_bool_setting(const char* name, const char* short_description, bool* target, bool default_value, const char *off, const char *on, const char *group, const char *subgroup, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = ST_BOOL; result.size = sizeof(bool); result.name = name; result.name_hash = name ? msg_hash_calculate(name) : 0; result.short_description = short_description; result.group = group; result.subgroup = subgroup; result.parent_group = parent_group; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = change_handler; result.read_handler = read_handler; result.action_start = setting_generic_action_start_default; result.action_left = setting_bool_action_toggle_default; result.action_right = setting_bool_action_toggle_default; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = setting_bool_action_ok_default; result.action_select = setting_generic_action_ok_default; result.get_string_representation = &setting_get_string_representation_st_bool; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.value.target.boolean = target; result.original_value.boolean = *target; result.default_value.boolean = default_value; result.boolean.off_label = off; result.boolean.on_label = on; result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } /** * setting_int_setting: * @name : name of setting. * @short_description : Short description of setting. * @target : Target of signed integer setting. * @default_value : Default value (in signed integer format). * @group : Group that the setting belongs to. * @subgroup : Subgroup that the setting belongs to. * @change_handler : Function callback for change handler function pointer. * @read_handler : Function callback for read handler function pointer. * * Initializes a setting of type ST_INT. * * Returns: setting of type ST_INT. **/ static rarch_setting_t setting_int_setting(const char* name, const char* short_description, int* target, int default_value, const char *group, const char *subgroup, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, bool dont_use_enum_idx) { rarch_setting_t result; result.enum_idx = MSG_UNKNOWN; result.type = ST_INT; result.size = sizeof(int); result.name = name; result.name_hash = name ? msg_hash_calculate(name) : 0; result.short_description = short_description; result.group = group; result.subgroup = subgroup; result.parent_group = parent_group; result.values = NULL; result.index = 0; result.index_offset = 0; result.min = 0.0; result.max = 0.0; result.flags = 0; result.free_flags = 0; result.change_handler = change_handler; result.read_handler = read_handler; result.action_start = setting_generic_action_start_default; result.action_left = setting_int_action_left_default; result.action_right = setting_int_action_right_default; result.action_up = NULL; result.action_down = NULL; result.action_cancel = NULL; result.action_ok = setting_generic_action_ok_default; result.action_select = setting_generic_action_ok_default; result.get_string_representation = &setting_get_string_representation_int; result.bind_type = 0; result.browser_selection_type = ST_NONE; result.step = 0.0f; result.rounding_fraction = NULL; result.enforce_minrange = false; result.enforce_maxrange = false; result.value.target.integer = target; result.original_value.integer = *target; result.default_value.integer = default_value; result.dont_use_enum_idx_representation = dont_use_enum_idx; return result; } bool CONFIG_BOOL_ALT( rarch_setting_t **list, rarch_setting_info_t *list_info, bool *target, const char *name, const char *SHORT, bool default_value, enum msg_hash_enums off_enum_idx, enum msg_hash_enums on_enum_idx, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, uint32_t flags) { rarch_setting_t value = setting_bool_setting(name, SHORT, target, default_value, msg_hash_to_str(off_enum_idx), msg_hash_to_str(on_enum_idx), group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, true); if (!settings_list_append(list, list_info)) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; if (flags != SD_FLAG_NONE) settings_data_list_current_add_flags(list, list_info, flags); return true; } bool CONFIG_BOOL( rarch_setting_t **list, rarch_setting_info_t *list_info, bool *target, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, bool default_value, enum msg_hash_enums off_enum_idx, enum msg_hash_enums on_enum_idx, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler, uint32_t flags) { rarch_setting_t value = setting_bool_setting( msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, default_value, msg_hash_to_str(off_enum_idx), msg_hash_to_str(on_enum_idx), group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!settings_list_append(list, list_info)) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; if (flags != SD_FLAG_NONE) settings_data_list_current_add_flags(list, list_info, flags); menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } bool CONFIG_INT( rarch_setting_t **list, rarch_setting_info_t *list_info, int *target, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, int default_value, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_int_setting( msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, default_value, group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } bool CONFIG_UINT_ALT( rarch_setting_t **list, rarch_setting_info_t *list_info, unsigned int *target, const char *name, const char *SHORT, unsigned int default_value, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_uint_setting(name, SHORT, target, default_value, group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, true); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; return true; } bool CONFIG_UINT( rarch_setting_t **list, rarch_setting_info_t *list_info, unsigned int *target, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, unsigned int default_value, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_uint_setting ( msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, default_value, group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } bool CONFIG_FLOAT( rarch_setting_t **list, rarch_setting_info_t *list_info, float *target, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, float default_value, const char *rounding, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_float_setting(msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, default_value, rounding, group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } bool CONFIG_PATH( rarch_setting_t **list, rarch_setting_info_t *list_info, char *target, size_t len, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, const char *default_value, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_string_setting(ST_PATH, msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, len, default_value, "", group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; settings_data_list_current_add_flags(list, list_info, SD_FLAG_ALLOW_EMPTY); menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } bool CONFIG_DIR( rarch_setting_t **list, rarch_setting_info_t *list_info, char *target, size_t len, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, const char *default_value, enum msg_hash_enums empty_enum_idx, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_string_setting(ST_DIR, msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, len, default_value, msg_hash_to_str(empty_enum_idx), group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; settings_data_list_current_add_flags( list, list_info, SD_FLAG_ALLOW_EMPTY | SD_FLAG_PATH_DIR | SD_FLAG_BROWSER_ACTION); menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } bool CONFIG_STRING( rarch_setting_t **list, rarch_setting_info_t *list_info, char *target, size_t len, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, const char *default_value, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_string_setting(ST_STRING, msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, len, default_value, "", group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } bool CONFIG_STRING_OPTIONS( rarch_setting_t **list, rarch_setting_info_t *list_info, char *target, size_t len, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, const char *default_value, const char *values, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_string_setting_options(ST_STRING_OPTIONS, msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, len, default_value, "", values, group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); /* Request values to be freed later */ settings_data_list_current_add_free_flags(list, list_info, SD_FREE_FLAG_VALUES); return true; } bool CONFIG_HEX( rarch_setting_t **list, rarch_setting_info_t *list_info, unsigned int *target, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, unsigned int default_value, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group, change_handler_t change_handler, change_handler_t read_handler) { rarch_setting_t value = setting_hex_setting( msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), target, default_value, group_info->name, subgroup_info->name, parent_group, change_handler, read_handler, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } /* Please strdup() NAME and SHORT */ bool CONFIG_BIND( rarch_setting_t **list, rarch_setting_info_t *list_info, struct retro_keybind *target, uint32_t player, uint32_t player_offset, const char *name, const char *SHORT, const struct retro_keybind *default_value, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group) { rarch_setting_t value = setting_bind_setting(name, SHORT, target, player, player_offset, default_value, group_info->name, subgroup_info->name, parent_group, false); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; /* Request name and short description to be freed later */ settings_data_list_current_add_free_flags(list, list_info, SD_FREE_FLAG_NAME | SD_FREE_FLAG_SHORT); return true; } bool CONFIG_BIND_ALT( rarch_setting_t **list, rarch_setting_info_t *list_info, struct retro_keybind *target, uint32_t player, uint32_t player_offset, const char *name, const char *SHORT, const struct retro_keybind *default_value, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group) { rarch_setting_t value = setting_bind_setting(name, SHORT, target, player, player_offset, default_value, group_info->name, subgroup_info->name, parent_group, true); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; /* Request name and short description to be freed later */ settings_data_list_current_add_free_flags(list, list_info, SD_FREE_FLAG_NAME | SD_FREE_FLAG_SHORT); return true; } bool CONFIG_ACTION_ALT( rarch_setting_t **list, rarch_setting_info_t *list_info, const char *name, const char *SHORT, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group) { rarch_setting_t value = setting_action_setting(name, SHORT, group_info->name, subgroup_info->name, parent_group, true); if (!settings_list_append(list, list_info)) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; return true; } bool CONFIG_ACTION( rarch_setting_t **list, rarch_setting_info_t *list_info, enum msg_hash_enums name_enum_idx, enum msg_hash_enums SHORT_enum_idx, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group) { rarch_setting_t value = setting_action_setting( msg_hash_to_str(name_enum_idx), msg_hash_to_str(SHORT_enum_idx), group_info->name, subgroup_info->name, parent_group, false); if (!settings_list_append(list, list_info)) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; menu_settings_list_current_add_enum_idx(list, list_info, name_enum_idx); menu_settings_list_current_add_enum_value_idx(list, list_info, SHORT_enum_idx); return true; } bool START_GROUP(rarch_setting_t **list, rarch_setting_info_t *list_info, rarch_setting_group_info_t *group_info, const char *name, const char *parent_group) { rarch_setting_t value = setting_group_setting (ST_GROUP, name, parent_group); group_info->name = name; if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; return true; } bool END_GROUP(rarch_setting_t **list, rarch_setting_info_t *list_info, const char *parent_group) { rarch_setting_t value = setting_group_setting (ST_END_GROUP, 0, parent_group); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; return true; } bool START_SUB_GROUP(rarch_setting_t **list, rarch_setting_info_t *list_info, const char *name, rarch_setting_group_info_t *group_info, rarch_setting_group_info_t *subgroup_info, const char *parent_group) { rarch_setting_t value = setting_subgroup_setting (ST_SUB_GROUP, name, group_info->name, parent_group, false); subgroup_info->name = name; if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; return true; } bool END_SUB_GROUP( rarch_setting_t **list, rarch_setting_info_t *list_info, const char *parent_group) { rarch_setting_t value = setting_group_setting (ST_END_SUB_GROUP, 0, parent_group); if (!(settings_list_append(list, list_info))) return false; if (value.name) value.name_hash = msg_hash_calculate(value.name); (*list)[list_info->index++] = value; return true; } #ifdef HAVE_MENU static void menu_input_st_string_cb(void *userdata, const char *str) { if (str && *str) { rarch_setting_t *setting = NULL; const char *label = menu_input_dialog_get_label_setting_buffer(); if (!string_is_empty(label)) setting = menu_setting_find(label); if (setting) { setting_set_with_string_representation(setting, str); menu_setting_generic(setting, false); } } menu_input_dialog_end(); } static void menu_input_st_uint_cb(void *userdata, const char *str) { if (str && *str) { const char *label = menu_input_dialog_get_label_setting_buffer(); rarch_setting_t *setting = menu_setting_find(label); setting_set_with_string_representation(setting, str); } menu_input_dialog_end(); } static void menu_input_st_hex_cb(void *userdata, const char *str) { if (str && *str) { const char *label = menu_input_dialog_get_label_setting_buffer(); rarch_setting_t *setting = menu_setting_find(label); if (setting) { unsigned *ptr = (unsigned*)setting_get_ptr(setting); if (str[0] == '#') str++; if (ptr) *ptr = strtoul(str, NULL, 16); } } menu_input_dialog_end(); } static int setting_generic_action_ok_linefeed(void *data, bool wraparound) { menu_input_ctx_line_t line; input_keyboard_line_complete_t cb = NULL; rarch_setting_t *setting = (rarch_setting_t*)data; if (!setting) return -1; (void)wraparound; switch (setting_get_type(setting)) { case ST_UINT: cb = menu_input_st_uint_cb; break; case ST_HEX: cb = menu_input_st_hex_cb; break; case ST_STRING: case ST_STRING_OPTIONS: cb = menu_input_st_string_cb; break; default: break; } line.label = setting->short_description; line.label_setting = setting->name; line.type = 0; line.idx = 0; line.cb = cb; if (!menu_input_dialog_start(&line)) return -1; return 0; } #endif static void setting_add_special_callbacks( rarch_setting_t **list, rarch_setting_info_t *list_info, unsigned values) { unsigned idx = list_info->index - 1; if (values & SD_FLAG_ALLOW_INPUT) { #ifdef HAVE_MENU (*list)[idx].action_ok = setting_generic_action_ok_linefeed; (*list)[idx].action_select = setting_generic_action_ok_linefeed; #else (*list)[idx].action_ok = NULL; (*list)[idx].action_select = NULL; #endif switch ((*list)[idx].type) { case ST_UINT: (*list)[idx].action_cancel = NULL; break; case ST_HEX: (*list)[idx].action_cancel = NULL; break; case ST_STRING: (*list)[idx].action_start = setting_string_action_start_generic; (*list)[idx].action_cancel = NULL; break; default: break; } } } void settings_data_list_current_add_flags( rarch_setting_t **list, rarch_setting_info_t *list_info, unsigned values) { (*list)[list_info->index - 1].flags |= values; setting_add_special_callbacks(list, list_info, values); } void settings_data_list_current_add_free_flags( rarch_setting_t **list, rarch_setting_info_t *list_info, unsigned values) { (*list)[list_info->index - 1].free_flags |= values; }