/********************************************************************* uimenu.c Internal MAME menus for the user interface. Copyright Nicola Salmoria and the MAME Team. Visit http://mamedev.org for licensing and usage restrictions. *********************************************************************/ #include "ui.h" #include "rendutil.h" #include "cheat.h" #include "uiinput.h" #include "uimenu.h" #include "audit.h" #include "eminline.h" #ifdef MESS #include "uimess.h" #include "inputx.h" #endif /* MESS */ #include /*************************************************************************** CONSTANTS ***************************************************************************/ #define UI_MENU_POOL_SIZE 65536 #define UI_MENU_ALLOC_ITEMS 256 #define MENU_TEXTCOLOR ARGB_WHITE #define MENU_SELECTCOLOR MAKE_ARGB(0xff,0xff,0xff,0x00) #define MENU_UNAVAILABLECOLOR MAKE_ARGB(0xff,0x40,0x40,0x40) #define VISIBLE_GAMES_IN_LIST 15 #define MAX_PHYSICAL_DIPS 10 #define MAX_INPUT_PORTS 32 #define MAX_BITS_PER_PORT 32 /* DIP switch rendering parameters */ #define DIP_SWITCH_HEIGHT 0.05f #define DIP_SWITCH_SPACING 0.01 #define SINGLE_TOGGLE_SWITCH_FIELD_WIDTH 0.025f #define SINGLE_TOGGLE_SWITCH_WIDTH 0.020f /* make the switch 80% of the width space and 1/2 of the switch height */ #define PERCENTAGE_OF_HALF_FIELD_USED 0.80f #define SINGLE_TOGGLE_SWITCH_HEIGHT ((DIP_SWITCH_HEIGHT / 2) * PERCENTAGE_OF_HALF_FIELD_USED) enum { INPUT_TYPE_DIGITAL = 0, INPUT_TYPE_ANALOG = 1, INPUT_TYPE_ANALOG_DEC = INPUT_TYPE_ANALOG + SEQ_TYPE_DECREMENT, INPUT_TYPE_ANALOG_INC = INPUT_TYPE_ANALOG + SEQ_TYPE_INCREMENT, INPUT_TYPE_TOTAL = INPUT_TYPE_ANALOG + SEQ_TYPE_TOTAL }; enum { ANALOG_ITEM_KEYSPEED = 0, ANALOG_ITEM_CENTERSPEED, ANALOG_ITEM_REVERSE, ANALOG_ITEM_SENSITIVITY, ANALOG_ITEM_COUNT }; enum { MEMCARD_ITEM_SELECT = 1, MEMCARD_ITEM_LOAD, MEMCARD_ITEM_EJECT, MEMCARD_ITEM_CREATE }; enum { VIDEO_ITEM_ROTATE = 0x80000000, VIDEO_ITEM_VIEW }; /*************************************************************************** TYPE DEFINITIONS ***************************************************************************/ typedef struct _ui_menu_pool ui_menu_pool; struct _ui_menu_pool { ui_menu_pool * next; /* chain to next one */ UINT8 * top; /* top of the pool */ UINT8 * end; /* end of the pool */ }; typedef struct _ui_menu_item ui_menu_item; struct _ui_menu_item { const char * text; const char * subtext; UINT32 flags; void * ref; }; struct _ui_menu { running_machine * machine; /* machine we are attached to */ ui_menu_handler_func handler; /* handler callback */ void * parameter; /* parameter */ ui_menu_event event; /* the UI event that occurred */ ui_menu * parent; /* pointer to parent menu */ void * state; /* menu-specific state */ ui_menu_destroy_state_func destroy_state; /* destroy state callback */ int resetpos; /* reset position */ void * resetref; /* reset reference */ int selected; /* which item is selected */ int hover; /* which item is being hovered over */ int visitems; /* number of visible items */ int numitems; /* number of items in the menu */ int allocitems; /* allocated size of array */ ui_menu_item * item; /* pointer to array of items */ ui_menu_custom_func custom; /* callback for custom rendering */ float customtop; /* amount of extra height to add at the top */ float custombottom; /* amount of extra height to add at the bottom */ ui_menu_pool * pool; /* list of memory pools */ }; /* internal input menu item data */ typedef struct _input_item_data input_item_data; struct _input_item_data { input_item_data * next; /* pointer to next item in the list */ const void * ref; /* reference to type description for global inputs or field for game inputs */ int seqtype; /* sequence type */ input_seq seq; /* copy of the live sequence */ const input_seq * defseq; /* pointer to the default sequence */ const char * name; /* pointer to the base name of the item */ UINT16 sortorder; /* sorting information */ UINT8 type; /* type of port */ }; /* internal analog menu item data */ typedef struct _analog_item_data analog_item_data; struct _analog_item_data { const input_field_config *field; int type; int min, max; int cur; }; /* DIP switch descriptor */ typedef struct _dip_descriptor dip_descriptor; struct _dip_descriptor { dip_descriptor * next; const char * name; UINT32 mask; UINT32 state; }; /* extended settings menu state */ typedef struct _settings_menu_state settings_menu_state; struct _settings_menu_state { dip_descriptor * diplist; }; /* extended input menu state */ typedef struct _input_menu_state input_menu_state; struct _input_menu_state { const void * lastref; const void * pollingref; input_item_data * pollingitem; UINT8 record_next; input_seq starting_seq; }; /* extended select game menu state */ typedef struct _select_game_state select_game_state; struct _select_game_state { UINT8 error; UINT8 rerandomize; char search[40]; const game_driver * matchlist[VISIBLE_GAMES_IN_LIST]; const game_driver * driverlist[1]; }; /*************************************************************************** GLOBAL VARIABLES ***************************************************************************/ /* menu states */ static ui_menu *menu_stack; static ui_menu *menu_free; static bitmap_t *hilight_bitmap; static render_texture *hilight_texture; static render_texture *arrow_texture; static const char priortext[] = "Return to Prior Menu"; static const char backtext[] = "Return to " CAPSTARTGAMENOUN; static const char exittext[] = "Exit"; static const rgb_t text_fgcolor = MAKE_ARGB(0xff,0xff,0xff,0xff); static const rgb_t text_bgcolor = MAKE_ARGB(0xe0,0x80,0x80,0x80); static const rgb_t sel_fgcolor = MAKE_ARGB(0xff,0xff,0xff,0x00); static const rgb_t sel_bgcolor = MAKE_ARGB(0xe0,0x80,0x80,0x00); static const rgb_t mouseover_fgcolor = MAKE_ARGB(0xff,0xff,0xff,0x80); static const rgb_t mouseover_bgcolor = MAKE_ARGB(0x70,0x40,0x40,0x00); static const rgb_t mousedown_fgcolor = MAKE_ARGB(0xff,0xff,0xff,0x80); static const rgb_t mousedown_bgcolor = MAKE_ARGB(0xB0,0x60,0x60,0x00); /*************************************************************************** FUNCTION PROTOTYPES ***************************************************************************/ static void ui_menu_exit(running_machine *machine); /* internal menu processing */ static void ui_menu_draw(running_machine *machine, ui_menu *menu, int customonly); static void ui_menu_draw_text_box(ui_menu *menu); static void ui_menu_handle_events(ui_menu *menu); static void ui_menu_handle_keys(ui_menu *menu, UINT32 flags); static void ui_menu_validate_selection(ui_menu *menu, int scandir); static void ui_menu_clear_free_list(running_machine *machine); /* menu handlers */ static void menu_main(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_main_populate(running_machine *machine, ui_menu *menu, void *state); static void menu_input_groups(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_input_groups_populate(running_machine *machine, ui_menu *menu, void *state); static void menu_input_general(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_input_general_populate(running_machine *machine, ui_menu *menu, input_menu_state *menustate, int group); static void menu_input_specific(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_input_specific_populate(running_machine *machine, ui_menu *menu, input_menu_state *menustate); static void menu_input_common(running_machine *machine, ui_menu *menu, void *parameter, void *state); static int CLIB_DECL menu_input_compare_items(const void *i1, const void *i2); static void menu_input_populate_and_sort(ui_menu *menu, input_item_data *itemlist, input_menu_state *menustate); static void menu_settings_dip_switches(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_settings_driver_config(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_settings_categories(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_settings_common(running_machine *machine, ui_menu *menu, void *state, UINT32 type); static void menu_settings_populate(running_machine *machine, ui_menu *menu, settings_menu_state *menustate, UINT32 type); static void menu_analog(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_analog_populate(running_machine *machine, ui_menu *menu); #ifndef MESS static void menu_bookkeeping(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_bookkeeping_populate(running_machine *machine, ui_menu *menu, attotime *curtime); #endif static void menu_game_info(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_cheat(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_cheat_populate(running_machine *machine, ui_menu *menu); static void menu_memory_card(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_memory_card_populate(running_machine *machine, ui_menu *menu, int cardnum); static void menu_sliders(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_sliders_populate(running_machine *machine, ui_menu *menu); static void menu_sliders_custom_render(running_machine *machine, ui_menu *menu, void *state, void *selectedref, float top, float bottom, float x1, float y1, float x2, float y2); static void menu_video_targets(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_video_targets_populate(running_machine *machine, ui_menu *menu); static void menu_video_options(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_video_options_populate(running_machine *machine, ui_menu *menu, render_target *target); static void menu_quit_game(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_select_game(running_machine *machine, ui_menu *menu, void *parameter, void *state); static void menu_select_game_populate(running_machine *machine, ui_menu *menu, select_game_state *menustate); static int CLIB_DECL menu_select_game_driver_compare(const void *elem1, const void *elem2); static void menu_select_game_build_driver_list(ui_menu *menu, select_game_state *menustate); static void menu_select_game_custom_render(running_machine *machine, ui_menu *menu, void *state, void *selectedref, float top, float bottom, float x, float y, float x2, float y2); /* menu helpers */ static void menu_render_triangle(bitmap_t *dest, const bitmap_t *source, const rectangle *sbounds, void *param); static void menu_settings_custom_render_one(float x1, float y1, float x2, float y2, const dip_descriptor *dip, UINT32 selectedmask); static void menu_settings_custom_render(running_machine *machine, ui_menu *menu, void *state, void *selectedref, float top, float bottom, float x, float y, float x2, float y2); /*************************************************************************** INLINE FUNCTIONS ***************************************************************************/ /*------------------------------------------------- get_field_default_seq - return a pointer to the default sequence for the given field -------------------------------------------------*/ INLINE const input_seq *get_field_default_seq(const input_field_config *field, int seqtype) { if (input_seq_get_1(&field->seq[seqtype]) == SEQCODE_DEFAULT) return input_type_seq(field->port->machine, field->type, field->player, seqtype); else return &field->seq[seqtype]; } /*------------------------------------------------- toggle_none_default - toggle between "NONE" and the default item -------------------------------------------------*/ INLINE void toggle_none_default(input_seq *selected_seq, input_seq *original_seq, const input_seq *selected_defseq) { /* if we used to be "none", toggle to the default value */ if (input_seq_get_1(original_seq) == SEQCODE_END) *selected_seq = *selected_defseq; /* otherwise, toggle to "none" */ else input_seq_set_1(selected_seq, SEQCODE_END); } /*------------------------------------------------- item_is_selectable - return TRUE if the given item is selectable -------------------------------------------------*/ INLINE int item_is_selectable(const ui_menu_item *item) { return ((item->flags & (MENU_FLAG_MULTILINE | MENU_FLAG_DISABLE)) == 0 && strcmp(item->text, MENU_SEPARATOR_ITEM) != 0); } /*------------------------------------------------- exclusive_input_pressed - return TRUE if the given key is pressed and we haven't already reported a key -------------------------------------------------*/ INLINE int exclusive_input_pressed(ui_menu *menu, int key, int repeat) { if (menu->event.iptkey == IPT_INVALID && ui_input_pressed_repeat(menu->machine, key, repeat)) { menu->event.iptkey = key; return TRUE; } return FALSE; } /*************************************************************************** CORE SYSTEM MANAGEMENT ***************************************************************************/ /*------------------------------------------------- ui_menu_init - initialize the menu system -------------------------------------------------*/ void ui_menu_init(running_machine *machine) { int x; /* initialize the menu stack */ ui_menu_stack_reset(machine); /* create a texture for hilighting items */ hilight_bitmap = bitmap_alloc(256, 1, BITMAP_FORMAT_ARGB32); for (x = 0; x < 256; x++) { int alpha = 0xff; if (x < 25) alpha = 0xff * x / 25; if (x > 256 - 25) alpha = 0xff * (255 - x) / 25; *BITMAP_ADDR32(hilight_bitmap, 0, x) = MAKE_ARGB(alpha,0xff,0xff,0xff); } hilight_texture = render_texture_alloc(NULL, NULL); render_texture_set_bitmap(hilight_texture, hilight_bitmap, NULL, TEXFORMAT_ARGB32, NULL); /* create a texture for arrow icons */ arrow_texture = render_texture_alloc(menu_render_triangle, NULL); /* add an exit callback to free memory */ add_exit_callback(machine, ui_menu_exit); } /*------------------------------------------------- ui_menu_exit - clean up after ourselves -------------------------------------------------*/ static void ui_menu_exit(running_machine *machine) { /* free menus */ ui_menu_stack_reset(machine); ui_menu_clear_free_list(machine); /* free textures */ render_texture_free(hilight_texture); bitmap_free(hilight_bitmap); render_texture_free(arrow_texture); } /*************************************************************************** CORE MENU MANAGEMENT ***************************************************************************/ /*------------------------------------------------- ui_menu_alloc - allocate a new menu -------------------------------------------------*/ ui_menu *ui_menu_alloc(running_machine *machine, ui_menu_handler_func handler, void *parameter) { ui_menu *menu; /* allocate and clear memory for the menu and the state */ menu = malloc_or_die(sizeof(*menu)); memset(menu, 0, sizeof(*menu)); /* initialize the state */ menu->machine = machine; menu->handler = handler; menu->parameter = parameter; /* reset the menu (adds a default entry) */ ui_menu_reset(menu, UI_MENU_RESET_SELECT_FIRST); return menu; } /*------------------------------------------------- ui_menu_free - free a menu -------------------------------------------------*/ void ui_menu_free(ui_menu *menu) { /* free the pools */ while (menu->pool != NULL) { ui_menu_pool *pool = menu->pool; menu->pool = pool->next; free(pool); } /* free the item array */ if (menu->item != NULL) free(menu->item); /* free the state */ if (menu->state != NULL) { if (menu->destroy_state != NULL) (*menu->destroy_state)(menu, menu->state); free(menu->state); } /* free the menu */ free(menu); } /*------------------------------------------------- ui_menu_reset - free all items in the menu, and all memory allocated from the memory pool -------------------------------------------------*/ void ui_menu_reset(ui_menu *menu, ui_menu_reset_options options) { ui_menu_pool *pool; /* based on the reset option, set the reset info */ menu->resetpos = 0; menu->resetref = NULL; if (options == UI_MENU_RESET_REMEMBER_POSITION) menu->resetpos = menu->selected; else if (options == UI_MENU_RESET_REMEMBER_REF) menu->resetref = menu->item[menu->selected].ref; /* reset all the pools and the numitems back to 0 */ for (pool = menu->pool; pool != NULL; pool = pool->next) pool->top = (UINT8 *)(pool + 1); menu->numitems = 0; menu->visitems = 0; menu->selected = 0; /* add an item to return */ if (menu->parent == NULL) ui_menu_item_append(menu, backtext, NULL, 0, NULL); else if (menu->parent->handler == menu_quit_game) ui_menu_item_append(menu, exittext, NULL, 0, NULL); else ui_menu_item_append(menu, priortext, NULL, 0, NULL); } /*------------------------------------------------- ui_menu_populated - returns TRUE if the menu has any non-default items in it -------------------------------------------------*/ int ui_menu_populated(ui_menu *menu) { return (menu->numitems > 1); } /*------------------------------------------------- ui_menu_item_append - append a new item to the end of the menu -------------------------------------------------*/ void ui_menu_item_append(ui_menu *menu, const char *text, const char *subtext, UINT32 flags, void *ref) { ui_menu_item *item; int index; /* only allow multiline as the first item */ if ((flags & MENU_FLAG_MULTILINE) != 0) assert(menu->numitems == 1); /* only allow a single multi-line item */ else if (menu->numitems >= 2) assert((menu->item[0].flags & MENU_FLAG_MULTILINE) == 0); /* realloc the item array if necessary */ if (menu->numitems >= menu->allocitems) { menu->allocitems += UI_MENU_ALLOC_ITEMS; menu->item = realloc(menu->item, menu->allocitems * sizeof(*item)); } index = menu->numitems++; /* copy the previous last item to the next one */ if (index != 0) { index--; menu->item[index + 1] = menu->item[index]; } /* allocate a new item and populte it */ item = &menu->item[index]; item->text = (text != NULL) ? ui_menu_pool_strdup(menu, text) : NULL; item->subtext = (subtext != NULL) ? ui_menu_pool_strdup(menu, subtext) : NULL; item->flags = flags; item->ref = ref; /* update the selection if we need to */ if (menu->resetpos == index || (menu->resetref != NULL && menu->resetref == ref)) menu->selected = index; if (menu->resetpos == menu->numitems - 1) menu->selected = menu->numitems - 1; } /*------------------------------------------------- ui_menu_process - process a menu, drawing it and returning any interesting events -------------------------------------------------*/ const ui_menu_event *ui_menu_process(running_machine *machine, ui_menu *menu, UINT32 flags) { /* reset the event */ menu->event.iptkey = IPT_INVALID; /* first make sure our selection is valid */ ui_menu_validate_selection(menu, 1); /* draw the menu */ if (menu->numitems > 1 && (menu->item[0].flags & MENU_FLAG_MULTILINE) != 0) ui_menu_draw_text_box(menu); else ui_menu_draw(machine, menu, (flags & UI_MENU_PROCESS_CUSTOM_ONLY) != 0); /* process input */ if (!(flags & UI_MENU_PROCESS_NOKEYS)) { /* read events */ ui_menu_handle_events(menu); /* handle the keys if we don't already have an event */ if (menu->event.iptkey == IPT_INVALID) ui_menu_handle_keys(menu, flags); } /* update the selected item in the event */ if (menu->event.iptkey != IPT_INVALID && menu->selected >= 0 && menu->selected < menu->numitems) { menu->event.itemref = menu->item[menu->selected].ref; return &menu->event; } return NULL; } /*------------------------------------------------- ui_menu_set_custom_render - configure the menu for custom rendering -------------------------------------------------*/ void ui_menu_set_custom_render(ui_menu *menu, ui_menu_custom_func custom, float top, float bottom) { menu->custom = custom; menu->customtop = top; menu->custombottom = bottom; } /*------------------------------------------------- ui_menu_alloc_state - allocate permanent memory to represent the menu's state -------------------------------------------------*/ void *ui_menu_alloc_state(ui_menu *menu, size_t size, ui_menu_destroy_state_func destroy_state) { if (menu->state != NULL) { if (menu->destroy_state != NULL) (*menu->destroy_state)(menu, menu->state); free(menu->state); } menu->state = malloc_or_die(size); menu->destroy_state = destroy_state; memset(menu->state, 0, size); return menu->state; } /*------------------------------------------------- ui_menu_pool_alloc - allocate temporary memory from the menu's memory pool -------------------------------------------------*/ void *ui_menu_pool_alloc(ui_menu *menu, size_t size) { ui_menu_pool *pool; assert(size < UI_MENU_POOL_SIZE); /* find a pool with enough room */ for (pool = menu->pool; pool != NULL; pool = pool->next) if (pool->end - pool->top >= size) { void *result = pool->top; pool->top += size; return result; } /* allocate a new pool */ pool = malloc_or_die(sizeof(*pool) + UI_MENU_POOL_SIZE); memset(pool, 0, sizeof(*pool)); /* wire it up */ pool->next = menu->pool; menu->pool = pool; pool->top = (UINT8 *)(pool + 1); pool->end = pool->top + UI_MENU_POOL_SIZE; return ui_menu_pool_alloc(menu, size); } /*------------------------------------------------- ui_menu_pool_strdup - make a temporary string copy in the menu's memory pool -------------------------------------------------*/ const char *ui_menu_pool_strdup(ui_menu *menu, const char *string) { return strcpy(ui_menu_pool_alloc(menu, strlen(string) + 1), string); } /*------------------------------------------------- ui_menu_get_selection - retrieves the index of the currently selected menu item -------------------------------------------------*/ void *ui_menu_get_selection(ui_menu *menu) { return (menu->selected >= 0 && menu->selected < menu->numitems) ? menu->item[menu->selected].ref : NULL; } /*------------------------------------------------- ui_menu_set_selection - changes the index of the currently selected menu item -------------------------------------------------*/ void ui_menu_set_selection(ui_menu *menu, void *selected_itemref) { int itemnum; menu->selected = -1; for (itemnum = 0; itemnum < menu->numitems; itemnum++) if (menu->item[itemnum].ref == selected_itemref) { menu->selected = itemnum; break; } } /*************************************************************************** INTERNAL MENU PROCESSING ***************************************************************************/ /*------------------------------------------------- ui_menu_draw - draw a menu -------------------------------------------------*/ static void ui_menu_draw(running_machine *machine, ui_menu *menu, int customonly) { float line_height = ui_get_line_height(); float lr_arrow_width = 0.4f * line_height * render_get_ui_aspect(); float ud_arrow_width = line_height * render_get_ui_aspect(); float gutter_width = lr_arrow_width * 1.3f; float x1, y1, x2, y2; float effective_width, effective_left; float visible_width, visible_main_menu_height; float visible_extra_menu_height = 0; float visible_top, visible_left; int selected_subitem_too_big = FALSE; int visible_lines; int top_line; int itemnum, linenum; int mouse_hit, mouse_button; render_target *mouse_target; INT32 mouse_target_x, mouse_target_y; float mouse_x = -1, mouse_y = -1; /* compute the width and height of the full menu */ visible_width = 0; visible_main_menu_height = 0; for (itemnum = 0; itemnum < menu->numitems; itemnum++) { const ui_menu_item *item = &menu->item[itemnum]; float total_width; /* compute width of left hand side */ total_width = gutter_width + ui_get_string_width(item->text) + gutter_width; /* add in width of right hand side */ if (item->subtext) total_width += 2.0f * gutter_width + ui_get_string_width(item->subtext); /* track the maximum */ if (total_width > visible_width) visible_width = total_width; /* track the height as well */ visible_main_menu_height += line_height; } /* account for extra space at the top and bottom */ visible_extra_menu_height = menu->customtop + menu->custombottom; /* add a little bit of slop for rounding */ visible_width += 0.01f; visible_main_menu_height += 0.01f; /* if we are too wide or too tall, clamp it down */ if (visible_width + 2.0f * UI_BOX_LR_BORDER > 1.0f) visible_width = 1.0f - 2.0f * UI_BOX_LR_BORDER; /* if the menu and extra menu won't fit, take away part of the regular menu, it will scroll */ if (visible_main_menu_height + visible_extra_menu_height + 2.0f * UI_BOX_TB_BORDER > 1.0f) visible_main_menu_height = 1.0f - 2.0f * UI_BOX_TB_BORDER - visible_extra_menu_height; visible_lines = floor(visible_main_menu_height / line_height); visible_main_menu_height = (float)visible_lines * line_height; /* compute top/left of inner menu area by centering */ visible_left = (1.0f - visible_width) * 0.5f; visible_top = (1.0f - (visible_main_menu_height + visible_extra_menu_height)) * 0.5f; /* if the menu is at the bottom of the extra, adjust */ visible_top += menu->customtop; /* first add us a box */ x1 = visible_left - UI_BOX_LR_BORDER; y1 = visible_top - UI_BOX_TB_BORDER; x2 = visible_left + visible_width + UI_BOX_LR_BORDER; y2 = visible_top + visible_main_menu_height + UI_BOX_TB_BORDER; if (!customonly) ui_draw_outlined_box(x1, y1, x2, y2, UI_FILLCOLOR); /* determine the first visible line based on the current selection */ top_line = menu->selected - visible_lines / 2; if (top_line < 0) top_line = 0; if (top_line + visible_lines >= menu->numitems) top_line = menu->numitems - visible_lines; /* determine effective positions taking into account the hilighting arrows */ effective_width = visible_width - 2.0f * gutter_width; effective_left = visible_left + gutter_width; /* locate mouse */ mouse_hit = FALSE; mouse_button = FALSE; if (!customonly) { mouse_target = ui_input_find_mouse(machine, &mouse_target_x, &mouse_target_y, &mouse_button); if (mouse_target != NULL) if (render_target_map_point_container(mouse_target, mouse_target_x, mouse_target_y, render_container_get_ui(), &mouse_x, &mouse_y)) mouse_hit = TRUE; } /* loop over visible lines */ menu->hover = menu->numitems + 1; if (!customonly) for (linenum = 0; linenum < visible_lines; linenum++) { float line_y = visible_top + (float)linenum * line_height; int itemnum = top_line + linenum; const ui_menu_item *item = &menu->item[itemnum]; const char *itemtext = item->text; rgb_t fgcolor = text_fgcolor; rgb_t bgcolor = text_bgcolor; float line_x0 = x1 + 0.5f * UI_LINE_WIDTH; float line_y0 = line_y; float line_x1 = x2 - 0.5f * UI_LINE_WIDTH; float line_y1 = line_y + line_height; /* set the hover if this is our item */ if (mouse_hit && line_x0 <= mouse_x && line_x1 > mouse_x && line_y0 <= mouse_y && line_y1 > mouse_y && item_is_selectable(item)) menu->hover = itemnum; /* if we're selected, draw with a different background */ if (itemnum == menu->selected) { fgcolor = sel_fgcolor; bgcolor = sel_bgcolor; } /* else if the mouse is over this item, draw with a different background */ else if (itemnum == menu->hover) { fgcolor = mouseover_fgcolor; bgcolor = mouseover_bgcolor; } /* if we have some background hilighting to do, add a quad behind everything else */ if (bgcolor != text_bgcolor) render_ui_add_quad(line_x0, line_y0, line_x1, line_y1, bgcolor, hilight_texture, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA) | PRIMFLAG_TEXWRAP(TRUE)); /* if we're on the top line, display the up arrow */ if (linenum == 0 && top_line != 0) { render_ui_add_quad( 0.5f * (x1 + x2) - 0.5f * ud_arrow_width, line_y + 0.25f * line_height, 0.5f * (x1 + x2) + 0.5f * ud_arrow_width, line_y + 0.75f * line_height, fgcolor, arrow_texture, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA) | PRIMFLAG_TEXORIENT(ROT0)); if (menu->hover == itemnum) menu->hover = -2; } /* if we're on the bottom line, display the down arrow */ else if (linenum == visible_lines - 1 && itemnum != menu->numitems - 1) { render_ui_add_quad( 0.5f * (x1 + x2) - 0.5f * ud_arrow_width, line_y + 0.25f * line_height, 0.5f * (x1 + x2) + 0.5f * ud_arrow_width, line_y + 0.75f * line_height, fgcolor, arrow_texture, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA) | PRIMFLAG_TEXORIENT(ROT0 ^ ORIENTATION_FLIP_Y)); if (menu->hover == itemnum) menu->hover = -1; } /* if we're just a divider, draw a line */ else if (strcmp(itemtext, MENU_SEPARATOR_ITEM) == 0) render_ui_add_line(visible_left, line_y + 0.5f * line_height, visible_left + visible_width, line_y + 0.5f * line_height, UI_LINE_WIDTH, bgcolor, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); /* if we don't have a subitem, just draw the string centered */ else if (item->subtext == NULL) ui_draw_text_full(itemtext, effective_left, line_y, effective_width, JUSTIFY_CENTER, WRAP_TRUNCATE, DRAW_NORMAL, fgcolor, bgcolor, NULL, NULL); /* otherwise, draw the item on the left and the subitem text on the right */ else { int subitem_invert = item->flags & MENU_FLAG_INVERT; const char *subitem_text = item->subtext; float item_width, subitem_width; /* draw the left-side text */ ui_draw_text_full(itemtext, effective_left, line_y, effective_width, JUSTIFY_LEFT, WRAP_TRUNCATE, DRAW_NORMAL, fgcolor, bgcolor, &item_width, NULL); /* give 2 spaces worth of padding */ item_width += 2.0f * gutter_width; /* if the subitem doesn't fit here, display dots */ if (ui_get_string_width(subitem_text) > effective_width - item_width) { subitem_text = "..."; if (itemnum == menu->selected) selected_subitem_too_big = TRUE; } /* draw the subitem right-justified */ ui_draw_text_full(subitem_text, effective_left + item_width, line_y, effective_width - item_width, JUSTIFY_RIGHT, WRAP_TRUNCATE, subitem_invert ? DRAW_OPAQUE : DRAW_NORMAL, fgcolor, bgcolor, &subitem_width, NULL); /* apply arrows */ if (itemnum == menu->selected && (item->flags & MENU_FLAG_LEFT_ARROW)) { render_ui_add_quad( effective_left + effective_width - subitem_width - gutter_width, line_y + 0.1f * line_height, effective_left + effective_width - subitem_width - gutter_width + lr_arrow_width, line_y + 0.9f * line_height, fgcolor, arrow_texture, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA) | PRIMFLAG_TEXORIENT(ROT90 ^ ORIENTATION_FLIP_X)); } if (itemnum == menu->selected && (item->flags & MENU_FLAG_RIGHT_ARROW)) { render_ui_add_quad( effective_left + effective_width + gutter_width - lr_arrow_width, line_y + 0.1f * line_height, effective_left + effective_width + gutter_width, line_y + 0.9f * line_height, fgcolor, arrow_texture, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA) | PRIMFLAG_TEXORIENT(ROT90)); } } } /* if the selected subitem is too big, display it in a separate offset box */ if (selected_subitem_too_big) { const ui_menu_item *item = &menu->item[menu->selected]; int subitem_invert = item->flags & MENU_FLAG_INVERT; int linenum = menu->selected - top_line; float line_y = visible_top + (float)linenum * line_height; float target_width, target_height; float target_x, target_y; /* compute the multi-line target width/height */ ui_draw_text_full(item->subtext, 0, 0, visible_width * 0.75f, JUSTIFY_RIGHT, WRAP_WORD, DRAW_NONE, ARGB_WHITE, ARGB_BLACK, &target_width, &target_height); /* determine the target location */ target_x = visible_left + visible_width - target_width - UI_BOX_LR_BORDER; target_y = line_y + line_height + UI_BOX_TB_BORDER; if (target_y + target_height + UI_BOX_TB_BORDER > visible_main_menu_height) target_y = line_y - target_height - UI_BOX_TB_BORDER; /* add a box around that */ ui_draw_outlined_box(target_x - UI_BOX_LR_BORDER, target_y - UI_BOX_TB_BORDER, target_x + target_width + UI_BOX_LR_BORDER, target_y + target_height + UI_BOX_TB_BORDER, subitem_invert ? sel_bgcolor : UI_FILLCOLOR); ui_draw_text_full(item->subtext, target_x, target_y, target_width, JUSTIFY_RIGHT, WRAP_WORD, DRAW_NORMAL, sel_fgcolor, sel_bgcolor, NULL, NULL); } /* if there is somthing special to add, do it by calling the passed routine */ if (menu->custom != NULL) { void *selectedref = (menu->selected >= 0 && menu->selected < menu->numitems) ? menu->item[menu->selected].ref : NULL; (*menu->custom)(menu->machine, menu, menu->state, selectedref, menu->customtop, menu->custombottom, x1, y1, x2, y2); } /* return the number of visible lines, minus 1 for top arrow and 1 for bottom arrow */ menu->visitems = visible_lines - (top_line != 0) - (top_line + visible_lines != menu->numitems); } /*------------------------------------------------- ui_menu_draw_text_box - draw a multiline word-wrapped text box with a menu item at the bottom -------------------------------------------------*/ static void ui_menu_draw_text_box(ui_menu *menu) { const char *text = menu->item[0].text; const char *backtext = menu->item[1].text; float line_height = ui_get_line_height(); float lr_arrow_width = 0.4f * line_height * render_get_ui_aspect(); float gutter_width = lr_arrow_width; float target_width, target_height, prior_width; float target_x, target_y; /* compute the multi-line target width/height */ ui_draw_text_full(text, 0, 0, 1.0f - 2.0f * UI_BOX_LR_BORDER - 2.0f * gutter_width, JUSTIFY_LEFT, WRAP_WORD, DRAW_NONE, ARGB_WHITE, ARGB_BLACK, &target_width, &target_height); target_height += 2.0f * line_height; if (target_height > 1.0f - 2.0f * UI_BOX_TB_BORDER) target_height = floor((1.0f - 2.0f * UI_BOX_TB_BORDER) / line_height) * line_height; /* maximum against "return to prior menu" text */ prior_width = ui_get_string_width(backtext) + 2.0f * gutter_width; target_width = MAX(target_width, prior_width); /* determine the target location */ target_x = 0.5f - 0.5f * target_width; target_y = 0.5f - 0.5f * target_height; /* make sure we stay on-screen */ if (target_x < UI_BOX_LR_BORDER + gutter_width) target_x = UI_BOX_LR_BORDER + gutter_width; if (target_x + target_width + gutter_width + UI_BOX_LR_BORDER > 1.0f) target_x = 1.0f - UI_BOX_LR_BORDER - gutter_width - target_width; if (target_y < UI_BOX_TB_BORDER) target_y = UI_BOX_TB_BORDER; if (target_y + target_height + UI_BOX_TB_BORDER > 1.0f) target_y = 1.0f - UI_BOX_TB_BORDER - target_height; /* add a box around that */ ui_draw_outlined_box(target_x - UI_BOX_LR_BORDER - gutter_width, target_y - UI_BOX_TB_BORDER, target_x + target_width + gutter_width + UI_BOX_LR_BORDER, target_y + target_height + UI_BOX_TB_BORDER, (menu->item[0].flags & MENU_FLAG_REDTEXT) ? UI_REDCOLOR : UI_FILLCOLOR); ui_draw_text_full(text, target_x, target_y, target_width, JUSTIFY_LEFT, WRAP_WORD, DRAW_NORMAL, ARGB_WHITE, ARGB_BLACK, NULL, NULL); /* draw the "return to prior menu" text with a hilight behind it */ render_ui_add_quad( target_x + 0.5f * UI_LINE_WIDTH, target_y + target_height - line_height, target_x + target_width - 0.5f * UI_LINE_WIDTH, target_y + target_height, sel_bgcolor, hilight_texture, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA) | PRIMFLAG_TEXWRAP(TRUE)); ui_draw_text_full(backtext, target_x, target_y + target_height - line_height, target_width, JUSTIFY_CENTER, WRAP_TRUNCATE, DRAW_NORMAL, sel_fgcolor, sel_bgcolor, NULL, NULL); /* artificially set the hover to the last item so a double-click exits */ menu->hover = menu->numitems - 1; } /*------------------------------------------------- ui_menu_handle_events - generically handle input events for a menu -------------------------------------------------*/ static void ui_menu_handle_events(ui_menu *menu) { int stop = FALSE; ui_event event; /* loop while we have interesting events */ while (ui_input_pop_event(menu->machine, &event) && !stop) { switch (event.event_type) { /* if we are hovering over a valid item, select it with a single click */ case UI_EVENT_MOUSE_DOWN: if (menu->hover >= 0 && menu->hover < menu->numitems) menu->selected = menu->hover; else if (menu->hover == -2) { menu->selected -= menu->visitems - 1; ui_menu_validate_selection(menu, 1); } else if (menu->hover == -1) { menu->selected += menu->visitems - 1; ui_menu_validate_selection(menu, 1); } break; /* if we are hovering over a valid item, fake a UI_SELECT with a double-click */ case UI_EVENT_MOUSE_DOUBLE_CLICK: if (menu->hover >= 0 && menu->hover < menu->numitems) { menu->selected = menu->hover; if (event.event_type == UI_EVENT_MOUSE_DOUBLE_CLICK) { menu->event.iptkey = IPT_UI_SELECT; if (menu->selected == menu->numitems - 1) { menu->event.iptkey = IPT_UI_CANCEL; ui_menu_stack_pop(menu->machine); } } stop = TRUE; } break; /* translate CHAR events into specials */ case UI_EVENT_CHAR: menu->event.iptkey = IPT_SPECIAL; menu->event.unichar = event.ch; stop = TRUE; break; /* ignore everything else */ default: break; } } } /*------------------------------------------------- ui_menu_handle_keys - generically handle keys for a menu -------------------------------------------------*/ static void ui_menu_handle_keys(ui_menu *menu, UINT32 flags) { int ignorepause = ui_menu_is_force_game_select(); int ignoreright = FALSE; int ignoreleft = FALSE; int code; /* bail if no items */ if (menu->numitems == 0) return; /* if we hit select, return TRUE or pop the stack, depending on the item */ if (exclusive_input_pressed(menu, IPT_UI_SELECT, 0)) { if (menu->selected == menu->numitems - 1) { menu->event.iptkey = IPT_UI_CANCEL; ui_menu_stack_pop(menu->machine); } return; } /* hitting cancel also pops the stack */ if (exclusive_input_pressed(menu, IPT_UI_CANCEL, 0)) { ui_menu_stack_pop(menu->machine); return; } /* validate the current selection */ ui_menu_validate_selection(menu, 1); /* swallow left/right keys if they are not appropriate */ ignoreleft = ((menu->item[menu->selected].flags & MENU_FLAG_LEFT_ARROW) == 0); ignoreright = ((menu->item[menu->selected].flags & MENU_FLAG_RIGHT_ARROW) == 0); /* accept left/right keys as-is with repeat */ if (!ignoreleft && exclusive_input_pressed(menu, IPT_UI_LEFT, (flags & UI_MENU_PROCESS_LR_REPEAT) ? 6 : 0)) return; if (!ignoreright && exclusive_input_pressed(menu, IPT_UI_RIGHT, (flags & UI_MENU_PROCESS_LR_REPEAT) ? 6 : 0)) return; /* up backs up by one item */ if (exclusive_input_pressed(menu, IPT_UI_UP, 6)) { menu->selected = (menu->selected + menu->numitems - 1) % menu->numitems; ui_menu_validate_selection(menu, -1); } /* down advances by one item */ if (exclusive_input_pressed(menu, IPT_UI_DOWN, 6)) { menu->selected = (menu->selected + 1) % menu->numitems; ui_menu_validate_selection(menu, 1); } /* page up backs up by visitems */ if (exclusive_input_pressed(menu, IPT_UI_PAGE_UP, 6)) { menu->selected -= menu->visitems - 1; ui_menu_validate_selection(menu, 1); } /* page down advances by visitems */ if (exclusive_input_pressed(menu, IPT_UI_PAGE_DOWN, 6)) { menu->selected += menu->visitems - 1; ui_menu_validate_selection(menu, -1); } /* home goes to the start */ if (exclusive_input_pressed(menu, IPT_UI_HOME, 0)) { menu->selected = 0; ui_menu_validate_selection(menu, 1); } /* end goes to the last */ if (exclusive_input_pressed(menu, IPT_UI_END, 0)) { menu->selected = menu->numitems - 1; ui_menu_validate_selection(menu, -1); } /* pause enables/disables pause */ if (!ignorepause && exclusive_input_pressed(menu, IPT_UI_PAUSE, 0)) mame_pause(menu->machine, !mame_is_paused(menu->machine)); /* see if any other UI keys are pressed */ if (menu->event.iptkey == IPT_INVALID) for (code = __ipt_ui_start; code <= __ipt_ui_end; code++) { if (code == IPT_UI_CONFIGURE || (code == IPT_UI_LEFT && ignoreleft) || (code == IPT_UI_RIGHT && ignoreright) || (code == IPT_UI_PAUSE && ignorepause)) continue; if (exclusive_input_pressed(menu, code, 0)) break; } } /*------------------------------------------------- ui_menu_validate_selection - validate the current selection and ensure it is on a correct item -------------------------------------------------*/ static void ui_menu_validate_selection(ui_menu *menu, int scandir) { /* clamp to be in range */ if (menu->selected < 0) menu->selected = 0; else if (menu->selected >= menu->numitems) menu->selected = menu->numitems - 1; /* skip past unselectable items */ while (!item_is_selectable(&menu->item[menu->selected])) menu->selected = (menu->selected + menu->numitems + scandir) % menu->numitems; } /*------------------------------------------------- ui_menu_clear_free_list - clear out anything accumulated in the free list -------------------------------------------------*/ static void ui_menu_clear_free_list(running_machine *machine) { while (menu_free != NULL) { ui_menu *menu = menu_free; menu_free = menu->parent; ui_menu_free(menu); } } /*************************************************************************** MENU STACK MANAGEMENT ***************************************************************************/ /*------------------------------------------------- ui_menu_stack_reset - reset the menu stack -------------------------------------------------*/ void ui_menu_stack_reset(running_machine *machine) { while (menu_stack != NULL) ui_menu_stack_pop(machine); } /*------------------------------------------------- ui_menu_stack_push - push a new menu onto the stack -------------------------------------------------*/ void ui_menu_stack_push(ui_menu *menu) { menu->parent = menu_stack; menu_stack = menu; ui_menu_reset(menu, UI_MENU_RESET_SELECT_FIRST); ui_input_reset(menu->machine); } /*------------------------------------------------- ui_menu_stack_pop - pop a menu from the stack -------------------------------------------------*/ void ui_menu_stack_pop(running_machine *machine) { if (menu_stack != NULL) { ui_menu *menu = menu_stack; menu_stack = menu->parent; menu->parent = menu_free; menu_free = menu; ui_input_reset(machine); } } /*************************************************************************** UI SYSTEM INTERACTION ***************************************************************************/ /*------------------------------------------------- ui_menu_ui_handler - displays the current menu and calls the menu handler -------------------------------------------------*/ UINT32 ui_menu_ui_handler(running_machine *machine, UINT32 state) { /* if we have no menus stacked up, start with the main menu */ if (menu_stack == NULL) ui_menu_stack_push(ui_menu_alloc(machine, menu_main, NULL)); /* update the menu state */ if (menu_stack != NULL) { ui_menu *menu = menu_stack; (*menu->handler)(machine, menu, menu->parameter, menu->state); } /* clear up anything pending to be released */ ui_menu_clear_free_list(machine); /* if the menus are to be hidden, return a cancel here */ if ((ui_input_pressed(machine, IPT_UI_CONFIGURE) && !ui_menu_is_force_game_select()) || menu_stack == NULL) return UI_HANDLER_CANCEL; return 0; } /*------------------------------------------------- ui_slider_ui_handler - pushes the slider menu on the stack and hands off to the standard menu handler -------------------------------------------------*/ UINT32 ui_slider_ui_handler(running_machine *machine, UINT32 state) { /* if we have no menus stacked up, start with the sliders menu */ if (menu_stack == NULL) ui_menu_stack_push(ui_menu_alloc(machine, menu_sliders, machine)); return ui_menu_ui_handler(machine, state); } /*------------------------------------------------- ui_menu_force_game_select - force the game select menu to be visible and inescapable -------------------------------------------------*/ void ui_menu_force_game_select(running_machine *machine) { char *gamename = (char *)options_get_string(mame_options(), OPTION_GAMENAME); /* reset the menu stack */ ui_menu_stack_reset(machine); /* add the quit entry followed by the game select entry */ ui_menu_stack_push(ui_menu_alloc(machine, menu_quit_game, NULL)); ui_menu_stack_push(ui_menu_alloc(machine, menu_select_game, gamename)); /* force the menus on */ ui_show_menu(); /* make sure MAME is paused */ mame_pause(machine, TRUE); } /*------------------------------------------------- ui_menu_is_force_game_select - return true if we are currently in "force game select" mode -------------------------------------------------*/ int ui_menu_is_force_game_select(void) { ui_menu *menu; for (menu = menu_stack; menu != NULL; menu = menu->parent) if (menu->handler == menu_quit_game && menu->parent == NULL) return TRUE; return FALSE; } /*************************************************************************** MENU HANDLERS ***************************************************************************/ /*------------------------------------------------- menu_main - handle the main menu -------------------------------------------------*/ static void menu_main(running_machine *machine, ui_menu *menu, void *parameter, void *state) { const ui_menu_event *event; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_main_populate(machine, menu, state); /* process the menu */ event = ui_menu_process(machine, menu, 0); if (event != NULL && event->iptkey == IPT_UI_SELECT) ui_menu_stack_push(ui_menu_alloc(machine, event->itemref, NULL)); } /*------------------------------------------------- menu_main_populate - populate the main menu -------------------------------------------------*/ static void menu_main_populate(running_machine *machine, ui_menu *menu, void *state) { const input_field_config *field; const input_port_config *port; int has_categories = FALSE; int has_configs = FALSE; int has_analog = FALSE; int has_dips = FALSE; /* scan the input port array to see what options we need to enable */ for (port = machine->portconfig; port != NULL; port = port->next) for (field = port->fieldlist; field != NULL; field = field->next) { if (field->type == IPT_DIPSWITCH) has_dips = TRUE; if (field->type == IPT_CONFIG) has_configs = TRUE; if (field->category > 0) has_categories = TRUE; if (input_type_is_analog(field->type)) has_analog = TRUE; } /* add input menu items */ ui_menu_item_append(menu, "Input (general)", NULL, 0, menu_input_groups); ui_menu_item_append(menu, "Input (this " CAPSTARTGAMENOUN ")", NULL, 0, menu_input_specific); /* add optional input-related menus */ if (has_dips) ui_menu_item_append(menu, "Dip Switches", NULL, 0, menu_settings_dip_switches); if (has_configs) ui_menu_item_append(menu, "Driver Configuration", NULL, 0, menu_settings_driver_config); if (has_categories) ui_menu_item_append(menu, "Categories", NULL, 0, menu_settings_categories); if (has_analog) ui_menu_item_append(menu, "Analog Controls", NULL, 0, menu_analog); #ifndef MESS /* add bookkeeping menu */ ui_menu_item_append(menu, "Bookkeeping Info", NULL, 0, menu_bookkeeping); #endif /* add game info menu */ ui_menu_item_append(menu, CAPSTARTGAMENOUN " Information", NULL, 0, menu_game_info); #ifdef MESS /* add MESS-specific menus */ ui_mess_main_menu_populate(machine, menu); #endif /* MESS */ /* add sliders menu */ ui_menu_item_append(menu, "Slider Controls", NULL, 0, menu_sliders); /* add video options menu */ ui_menu_item_append(menu, "Video Options", NULL, 0, (render_target_get_indexed(1) != NULL) ? menu_video_targets : menu_video_options); /* add cheat menu */ if (options_get_bool(mame_options(), OPTION_CHEAT) && cheat_get_next_menu_entry(machine, NULL, NULL, NULL, NULL) != NULL) ui_menu_item_append(menu, "Cheat", NULL, 0, menu_cheat); /* add memory card menu */ if (machine->config->memcard_handler != NULL) ui_menu_item_append(menu, "Memory Card", NULL, 0, menu_memory_card); /* add reset and exit menus */ ui_menu_item_append(menu, "Select New " CAPSTARTGAMENOUN, NULL, 0, menu_select_game); } /*------------------------------------------------- menu_input_groups - handle the input groups menu -------------------------------------------------*/ static void menu_input_groups(running_machine *machine, ui_menu *menu, void *parameter, void *state) { const ui_menu_event *event; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_input_groups_populate(machine, menu, state); /* process the menu */ event = ui_menu_process(machine, menu, 0); if (event != NULL && event->iptkey == IPT_UI_SELECT) ui_menu_stack_push(ui_menu_alloc(machine, menu_input_general, event->itemref)); } /*------------------------------------------------- menu_input_groups_populate - populate the input groups menu -------------------------------------------------*/ static void menu_input_groups_populate(running_machine *machine, ui_menu *menu, void *state) { int player; /* build up the menu */ ui_menu_item_append(menu, "User Interface", NULL, 0, (void *)(IPG_UI + 1)); for (player = 0; player < MAX_PLAYERS; player++) { char buffer[40]; sprintf(buffer, "Player %d Controls", player + 1); ui_menu_item_append(menu, buffer, NULL, 0, (void *)(FPTR)(IPG_PLAYER1 + player + 1)); } ui_menu_item_append(menu, "Other Controls", NULL, 0, (void *)(FPTR)(IPG_OTHER + 1)); } /*------------------------------------------------- menu_input_general - handle the general input menu -------------------------------------------------*/ static void menu_input_general(running_machine *machine, ui_menu *menu, void *parameter, void *state) { menu_input_common(machine, menu, parameter, state); } /*------------------------------------------------- menu_input_general_populate - populate the general input menu -------------------------------------------------*/ static void menu_input_general_populate(running_machine *machine, ui_menu *menu, input_menu_state *menustate, int group) { astring *tempstring = astring_alloc(); input_item_data *itemlist = NULL; const input_type_desc *typedesc; int suborder[SEQ_TYPE_TOTAL]; int sortorder = 1; /* create a mini lookup table for sort order based on sequence type */ suborder[SEQ_TYPE_STANDARD] = 0; suborder[SEQ_TYPE_DECREMENT] = 1; suborder[SEQ_TYPE_INCREMENT] = 2; /* iterate over the input ports and add menu items */ for (typedesc = input_type_list(machine); typedesc != NULL; typedesc = typedesc->next) /* add if we match the group and we have a valid name */ if (typedesc->group == group && typedesc->name != NULL && typedesc->name[0] != 0) { input_seq_type seqtype; /* loop over all sequence types */ sortorder++; for (seqtype = SEQ_TYPE_STANDARD; seqtype < SEQ_TYPE_TOTAL; seqtype++) { /* build an entry for the standard sequence */ input_item_data *item = ui_menu_pool_alloc(menu, sizeof(*item)); memset(item, 0, sizeof(*item)); item->ref = typedesc; item->seqtype = seqtype; item->seq = *input_type_seq(machine, typedesc->type, typedesc->player, seqtype); item->defseq = &typedesc->seq[seqtype]; item->sortorder = sortorder * 4 + suborder[seqtype]; item->type = input_type_is_analog(typedesc->type) ? (INPUT_TYPE_ANALOG + seqtype) : INPUT_TYPE_DIGITAL; item->name = typedesc->name; item->next = itemlist; itemlist = item; /* stop after one, unless we're analog */ if (item->type == INPUT_TYPE_DIGITAL) break; } } /* sort and populate the menu in a standard fashion */ menu_input_populate_and_sort(menu, itemlist, menustate); astring_free(tempstring); } /*------------------------------------------------- menu_input_specific - handle the game-specific input menu -------------------------------------------------*/ static void menu_input_specific(running_machine *machine, ui_menu *menu, void *parameter, void *state) { menu_input_common(machine, menu, NULL, state); } /*------------------------------------------------- menu_input_specific_populate - populate the input menu with game-specific items -------------------------------------------------*/ static void menu_input_specific_populate(running_machine *machine, ui_menu *menu, input_menu_state *menustate) { astring *tempstring = astring_alloc(); input_item_data *itemlist = NULL; const input_field_config *field; const input_port_config *port; int suborder[SEQ_TYPE_TOTAL]; /* create a mini lookup table for sort order based on sequence type */ suborder[SEQ_TYPE_STANDARD] = 0; suborder[SEQ_TYPE_DECREMENT] = 1; suborder[SEQ_TYPE_INCREMENT] = 2; /* iterate over the input ports and add menu items */ for (port = machine->portconfig; port != NULL; port = port->next) for (field = port->fieldlist; field != NULL; field = field->next) { const char *name = input_field_name(field); /* add if we match the group and we have a valid name */ if (name != NULL && input_condition_true(machine, &field->condition) && #ifdef MESS (field->category == 0 || input_category_active(machine, field->category)) && #endif /* MESS */ ((field->type == IPT_OTHER && field->name != NULL) || input_type_group(machine, field->type, field->player) != IPG_INVALID)) { input_seq_type seqtype; UINT16 sortorder; /* determine the sorting order */ if (field->type >= IPT_START1 && field->type <= __ipt_analog_end) sortorder = (field->type << 2) | (field->player << 12); else sortorder = field->type | 0xf000; /* loop over all sequence types */ for (seqtype = SEQ_TYPE_STANDARD; seqtype < SEQ_TYPE_TOTAL; seqtype++) { /* build an entry for the standard sequence */ input_item_data *item = ui_menu_pool_alloc(menu, sizeof(*item)); memset(item, 0, sizeof(*item)); item->ref = field; item->seqtype = seqtype; item->seq = *input_field_seq(field, seqtype); item->defseq = get_field_default_seq(field, seqtype); item->sortorder = sortorder + suborder[seqtype]; item->type = input_type_is_analog(field->type) ? (INPUT_TYPE_ANALOG + seqtype) : INPUT_TYPE_DIGITAL; item->name = name; item->next = itemlist; itemlist = item; /* stop after one, unless we're analog */ if (item->type == INPUT_TYPE_DIGITAL) break; } } } /* sort and populate the menu in a standard fashion */ menu_input_populate_and_sort(menu, itemlist, menustate); astring_free(tempstring); } /*------------------------------------------------- menu_input - display a menu for inputs -------------------------------------------------*/ static void menu_input_common(running_machine *machine, ui_menu *menu, void *parameter, void *state) { input_item_data *seqchangeditem = NULL; input_menu_state *menustate; const ui_menu_event *event; int invalidate = FALSE; /* if no state, allocate now */ if (state == NULL) state = ui_menu_alloc_state(menu, sizeof(*menustate), NULL); menustate = state; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) { if (parameter != NULL) menu_input_general_populate(machine, menu, menustate, (FPTR)parameter - 1); else menu_input_specific_populate(machine, menu, menustate); } /* process the menu */ event = ui_menu_process(machine, menu, (menustate->pollingitem != NULL) ? UI_MENU_PROCESS_NOKEYS : 0); /* if we are polling, handle as a special case */ if (menustate->pollingitem != NULL) { input_item_data *item = menustate->pollingitem; input_seq newseq; /* if UI_CANCEL is pressed, abort */ if (ui_input_pressed(machine, IPT_UI_CANCEL)) { menustate->pollingitem = NULL; menustate->record_next = FALSE; toggle_none_default(&item->seq, &menustate->starting_seq, item->defseq); seqchangeditem = item; } /* poll again; if finished, update the sequence */ if (input_seq_poll(&newseq)) { menustate->pollingitem = NULL; menustate->record_next = TRUE; item->seq = newseq; seqchangeditem = item; } } /* otherwise, handle the events */ else if (event != NULL && event->itemref != NULL) { input_item_data *item = event->itemref; switch (event->iptkey) { /* an item was selected: begin polling */ case IPT_UI_SELECT: menustate->pollingitem = item; menustate->lastref = item->ref; menustate->starting_seq = item->seq; input_seq_poll_start((item->type == INPUT_TYPE_ANALOG) ? ITEM_CLASS_ABSOLUTE : ITEM_CLASS_SWITCH, menustate->record_next ? &item->seq : NULL); invalidate = TRUE; break; /* if the clear key was pressed, reset the selected item */ case IPT_UI_CLEAR: toggle_none_default(&item->seq, &item->seq, item->defseq); menustate->record_next = FALSE; seqchangeditem = item; break; } /* if the selection changed, reset the "record next" flag */ if (item->ref != menustate->lastref) menustate->record_next = FALSE; menustate->lastref = item->ref; } /* if the sequence changed, update it */ if (seqchangeditem != NULL) { /* update a general input */ if (parameter != NULL) { const input_type_desc *typedesc = seqchangeditem->ref; input_type_set_seq(machine, typedesc->type, typedesc->player, seqchangeditem->seqtype, &seqchangeditem->seq); } /* update a game-specific input */ else { input_field_user_settings settings; input_field_get_user_settings(seqchangeditem->ref, &settings); settings.seq[seqchangeditem->seqtype] = seqchangeditem->seq; input_field_set_user_settings(seqchangeditem->ref, &settings); } /* invalidate the menu to force an update */ invalidate = TRUE; } /* if the menu is invalidated, clear it now */ if (invalidate) { menustate->pollingref = NULL; if (menustate->pollingitem != NULL) menustate->pollingref = menustate->pollingitem->ref; ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_POSITION); } } /*------------------------------------------------- menu_input_compare_items - compare two items for quicksort -------------------------------------------------*/ static int menu_input_compare_items(const void *i1, const void *i2) { const input_item_data * const *data1 = i1; const input_item_data * const *data2 = i2; if ((*data1)->sortorder < (*data2)->sortorder) return -1; if ((*data1)->sortorder > (*data2)->sortorder) return 1; return 0; } /*------------------------------------------------- menu_input_populate_and_sort - take a list of input_item_data objects and build up the menu from them -------------------------------------------------*/ static void menu_input_populate_and_sort(ui_menu *menu, input_item_data *itemlist, input_menu_state *menustate) { const char *nameformat[INPUT_TYPE_TOTAL] = { 0 }; input_item_data **itemarray, *item; astring *subtext = astring_alloc(); astring *text = astring_alloc(); int numitems = 0, curitem; /* create a mini lookup table for name format based on type */ nameformat[INPUT_TYPE_DIGITAL] = "%s"; nameformat[INPUT_TYPE_ANALOG] = "%s Analog"; nameformat[INPUT_TYPE_ANALOG_INC] = "%s Analog Inc"; nameformat[INPUT_TYPE_ANALOG_DEC] = "%s Analog Dec"; /* first count the number of items */ for (item = itemlist; item != NULL; item = item->next) numitems++; /* now allocate an array of items and fill it up */ itemarray = ui_menu_pool_alloc(menu, sizeof(*itemarray) * numitems); for (item = itemlist, curitem = 0; item != NULL; item = item->next) itemarray[curitem++] = item; /* sort it */ qsort(itemarray, numitems, sizeof(*itemarray), menu_input_compare_items); /* build the menu */ for (curitem = 0; curitem < numitems; curitem++) { UINT32 flags = 0; /* generate the name of the item itself, based off the base name and the type */ item = itemarray[curitem]; assert(nameformat[item->type] != NULL); astring_printf(text, nameformat[item->type], item->name); /* if we're polling this item, use some spaces with left/right arrows */ if (menustate->pollingref == item->ref) { astring_cpyc(subtext, " "); flags |= MENU_FLAG_LEFT_ARROW | MENU_FLAG_RIGHT_ARROW; } /* otherwise, generate the sequence name and invert it if different from the default */ else { input_seq_name(subtext, &item->seq); flags |= input_seq_cmp(&item->seq, item->defseq) ? MENU_FLAG_INVERT : 0; } /* add the item */ ui_menu_item_append(menu, astring_c(text), astring_c(subtext), flags, item); } /* free our temporary strings */ astring_free(subtext); astring_free(text); } /*------------------------------------------------- menu_settings_dip_switches - handle the DIP switches menu -------------------------------------------------*/ static void menu_settings_dip_switches(running_machine *machine, ui_menu *menu, void *parameter, void *state) { menu_settings_common(machine, menu, state, IPT_DIPSWITCH); } /*------------------------------------------------- menu_settings_driver_config - handle the driver config menu -------------------------------------------------*/ static void menu_settings_driver_config(running_machine *machine, ui_menu *menu, void *parameter, void *state) { menu_settings_common(machine, menu, state, IPT_CONFIG); } /*------------------------------------------------- menu_settings_categories - handle the categories menu -------------------------------------------------*/ static void menu_settings_categories(running_machine *machine, ui_menu *menu, void *parameter, void *state) { menu_settings_common(machine, menu, state, IPT_CATEGORY); } /*------------------------------------------------- menu_settings_common - handle one of the switches menus -------------------------------------------------*/ static void menu_settings_common(running_machine *machine, ui_menu *menu, void *state, UINT32 type) { settings_menu_state *menustate; const ui_menu_event *event; /* if no state, allocate now */ if (state == NULL) state = ui_menu_alloc_state(menu, sizeof(*menustate), NULL); menustate = state; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_settings_populate(machine, menu, menustate, type); /* process the menu */ event = ui_menu_process(machine, menu, 0); /* handle events */ if (event != NULL && event->itemref != NULL) { const input_field_config *field = event->itemref; input_field_user_settings settings; int changed = FALSE; switch (event->iptkey) { /* if selected, reset to default value */ case IPT_UI_SELECT: input_field_get_user_settings(field, &settings); settings.value = field->defvalue; input_field_set_user_settings(field, &settings); changed = TRUE; break; /* left goes to previous setting */ case IPT_UI_LEFT: input_field_select_previous_setting(field); changed = TRUE; break; /* right goes to next setting */ case IPT_UI_RIGHT: input_field_select_next_setting(field); changed = TRUE; break; } /* if anything changed, rebuild the menu, trying to stay on the same field */ if (changed) ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_REF); } } /*------------------------------------------------- menu_settings_populate - populate one of the switches menus -------------------------------------------------*/ static void menu_settings_populate(running_machine *machine, ui_menu *menu, settings_menu_state *menustate, UINT32 type) { const input_field_config *field; const input_port_config *port; dip_descriptor **diplist_tailptr; int dipcount = 0; /* reset the dip switch tracking */ menustate->diplist = NULL; diplist_tailptr = &menustate->diplist; /* loop over input ports and set up the current values */ for (port = machine->portconfig; port != NULL; port = port->next) for (field = port->fieldlist; field != NULL; field = field->next) if (field->type == type && input_condition_true(machine, &field->condition)) { UINT32 flags = 0; /* set the left/right flags appropriately */ if (input_field_has_previous_setting(field)) flags |= MENU_FLAG_LEFT_ARROW; if (input_field_has_next_setting(field)) flags |= MENU_FLAG_RIGHT_ARROW; /* add the menu item */ ui_menu_item_append(menu, input_field_name(field), input_field_setting_name(field), flags, (void *)field); /* for DIP switches, build up the model */ if (type == IPT_DIPSWITCH && field->diploclist != NULL) { const input_field_diplocation *diploc; input_field_user_settings settings; UINT32 accummask = field->mask; /* get current settings */ input_field_get_user_settings(field, &settings); /* iterate over each bit in the field */ for (diploc = field->diploclist; diploc != NULL; diploc = diploc->next) { UINT32 mask = accummask & ~(accummask - 1); dip_descriptor *dip; /* find the matching switch name */ for (dip = menustate->diplist; dip != NULL; dip = dip->next) if (strcmp(dip->name, diploc->swname) == 0) break; /* allocate new if none */ if (dip == NULL) { dip = ui_menu_pool_alloc(menu, sizeof(*dip)); dip->next = NULL; dip->name = diploc->swname; dip->mask = dip->state = 0; *diplist_tailptr = dip; diplist_tailptr = &dip->next; dipcount++; } /* apply the bits */ dip->mask |= 1 << (diploc->swnum - 1); if (((settings.value & mask) != 0 && !diploc->invert) || ((settings.value & mask) == 0 && diploc->invert)) dip->state |= 1 << (diploc->swnum - 1); /* clear the relevant bit in the accumulated mask */ accummask &= ~mask; } } } /* configure the extra menu */ if (type == IPT_DIPSWITCH && menustate->diplist != NULL) ui_menu_set_custom_render(menu, menu_settings_custom_render, 0.0f, dipcount * (DIP_SWITCH_HEIGHT + DIP_SWITCH_SPACING) + DIP_SWITCH_SPACING); } /*------------------------------------------------- menu_settings_custom_render - perform our special rendering -------------------------------------------------*/ static void menu_settings_custom_render(running_machine *machine, ui_menu *menu, void *state, void *selectedref, float top, float bottom, float x1, float y1, float x2, float y2) { const input_field_config *field = selectedref; settings_menu_state *menustate = state; dip_descriptor *dip; /* add borders */ y1 = y2 + UI_BOX_TB_BORDER; y2 = y1 + bottom; /* draw extra menu area */ ui_draw_outlined_box(x1, y1, x2, y2, UI_FILLCOLOR); y1 += (float)DIP_SWITCH_SPACING; /* iterate over DIP switches */ for (dip = menustate->diplist; dip != NULL; dip = dip->next) { const input_field_diplocation *diploc; UINT32 selectedmask = 0; /* determine the mask of selected bits */ if (field != NULL) for (diploc = field->diploclist; diploc != NULL; diploc = diploc->next) if (strcmp(dip->name, diploc->swname) == 0) selectedmask |= 1 << (diploc->swnum - 1); /* draw one switch */ menu_settings_custom_render_one(x1, y1, x2, y1 + DIP_SWITCH_HEIGHT, dip, selectedmask); y1 += (float)(DIP_SWITCH_SPACING + DIP_SWITCH_HEIGHT); } } /*------------------------------------------------- menu_settings_custom_render_one - draw a single DIP switch -------------------------------------------------*/ static void menu_settings_custom_render_one(float x1, float y1, float x2, float y2, const dip_descriptor *dip, UINT32 selectedmask) { float switch_field_width = SINGLE_TOGGLE_SWITCH_FIELD_WIDTH * render_get_ui_aspect(); float switch_width = SINGLE_TOGGLE_SWITCH_WIDTH * render_get_ui_aspect(); int numtoggles, toggle; float switch_toggle_gap; float y1_off, y1_on; /* determine the number of toggles in the DIP */ numtoggles = 32 - count_leading_zeros(dip->mask); /* center based on the number of switches */ x1 += (x2 - x1 - numtoggles * switch_field_width) / 2; /* draw the dip switch name */ ui_draw_text_full( dip->name, 0, y1 + (DIP_SWITCH_HEIGHT - UI_TARGET_FONT_HEIGHT) / 2, x1 - ui_get_string_width(" "), JUSTIFY_RIGHT, WRAP_NEVER, DRAW_NORMAL, ARGB_WHITE, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA), NULL , NULL); /* compute top and bottom for on and off positions */ switch_toggle_gap = ((DIP_SWITCH_HEIGHT/2) - SINGLE_TOGGLE_SWITCH_HEIGHT)/2; y1_off = y1 + UI_LINE_WIDTH + switch_toggle_gap; y1_on = y1 + DIP_SWITCH_HEIGHT/2 + switch_toggle_gap; /* iterate over toggles */ for (toggle = 0; toggle < numtoggles; toggle++) { float innerx1; /* first outline the switch */ ui_draw_outlined_box(x1, y1, x1 + switch_field_width, y2, UI_FILLCOLOR); /* compute x1/x2 for the inner filled in switch */ innerx1 = x1 + (switch_field_width - switch_width) / 2; /* see if the switch is actually used */ if (dip->mask & (1 << toggle)) { float innery1 = (dip->state & (1 << toggle)) ? y1_on : y1_off; render_ui_add_rect(innerx1, innery1, innerx1 + switch_width, innery1 + SINGLE_TOGGLE_SWITCH_HEIGHT, (selectedmask & (1 << toggle)) ? MENU_SELECTCOLOR : ARGB_WHITE, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); } else { render_ui_add_rect(innerx1, y1_off, innerx1 + switch_width, y1_on + SINGLE_TOGGLE_SWITCH_HEIGHT, MENU_UNAVAILABLECOLOR, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); } /* advance to the next switch */ x1 += switch_field_width; } } /*------------------------------------------------- menu_analog - handle the analog settings menu -------------------------------------------------*/ static void menu_analog(running_machine *machine, ui_menu *menu, void *parameter, void *state) { const ui_menu_event *event; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_analog_populate(machine, menu); /* process the menu */ event = ui_menu_process(machine, menu, UI_MENU_PROCESS_LR_REPEAT); /* handle events */ if (event != NULL && event->itemref != NULL) { analog_item_data *data = event->itemref; int newval = data->cur; switch (event->iptkey) { /* if selected, reset to default value */ case IPT_UI_SELECT: newval = data->field->defvalue; break; /* left decrements */ case IPT_UI_LEFT: newval -= input_code_pressed(KEYCODE_LSHIFT) ? 10 : 1; break; /* right increments */ case IPT_UI_RIGHT: newval += input_code_pressed(KEYCODE_LSHIFT) ? 10 : 1; break; } /* clamp to range */ if (newval < data->min) newval = data->min; if (newval > data->max) newval = data->max; /* if things changed, update */ if (newval != data->cur) { input_field_user_settings settings; /* get the settings and set the new value */ input_field_get_user_settings(data->field, &settings); switch (data->type) { case ANALOG_ITEM_KEYSPEED: settings.delta = newval; break; case ANALOG_ITEM_CENTERSPEED: settings.centerdelta = newval; break; case ANALOG_ITEM_REVERSE: settings.reverse = newval; break; case ANALOG_ITEM_SENSITIVITY: settings.sensitivity = newval; break; } input_field_set_user_settings(data->field, &settings); /* rebuild the menu */ ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_POSITION); } } } /*------------------------------------------------- menu_analog_populate - populate the analog settings menu -------------------------------------------------*/ static void menu_analog_populate(running_machine *machine, ui_menu *menu) { astring *subtext = astring_alloc(); astring *text = astring_alloc(); const input_field_config *field; const input_port_config *port; /* loop over input ports and add the items */ for (port = machine->portconfig; port != NULL; port = port->next) for (field = port->fieldlist; field != NULL; field = field->next) if (input_type_is_analog(field->type)) { input_field_user_settings settings; int use_autocenter = FALSE; int type; /* based on the type, determine if we enable autocenter */ switch (field->type) { case IPT_POSITIONAL: case IPT_POSITIONAL_V: if (field->flags & ANALOG_FLAG_WRAPS) break; case IPT_PEDAL: case IPT_PEDAL2: case IPT_PEDAL3: case IPT_PADDLE: case IPT_PADDLE_V: case IPT_AD_STICK_X: case IPT_AD_STICK_Y: case IPT_AD_STICK_Z: use_autocenter = TRUE; break; } /* get the user settings */ input_field_get_user_settings(field, &settings); /* iterate over types */ for (type = 0; type < ANALOG_ITEM_COUNT; type++) if (type != ANALOG_ITEM_CENTERSPEED || use_autocenter) { analog_item_data *data; UINT32 flags = 0; /* allocate a data item for tracking what this menu item refers to */ data = ui_menu_pool_alloc(menu, sizeof(*data)); data->field = field; data->type = type; /* determine the properties of this item */ switch (type) { default: case ANALOG_ITEM_KEYSPEED: astring_printf(text, "%s Digital Speed", input_field_name(field)); astring_printf(subtext, "%d", settings.delta); data->min = 0; data->max = 255; data->cur = settings.delta; break; case ANALOG_ITEM_CENTERSPEED: astring_printf(text, "%s Autocenter Speed", input_field_name(field)); astring_printf(subtext, "%d", settings.centerdelta); data->min = 0; data->max = 255; data->cur = settings.centerdelta; break; case ANALOG_ITEM_REVERSE: astring_printf(text, "%s Reverse", input_field_name(field)); astring_cpyc(subtext, settings.reverse ? "On" : "Off"); data->min = 0; data->max = 1; data->cur = settings.reverse; break; case ANALOG_ITEM_SENSITIVITY: astring_printf(text, "%s Sensitivity", input_field_name(field)); astring_printf(subtext, "%d", settings.sensitivity); data->min = 1; data->max = 255; data->cur = settings.sensitivity; break; } /* put on arrows */ if (data->cur > data->min) flags |= MENU_FLAG_LEFT_ARROW; if (data->cur < data->max) flags |= MENU_FLAG_RIGHT_ARROW; /* append a menu item */ ui_menu_item_append(menu, astring_c(text), astring_c(subtext), flags, data); } } /* release our temporary strings */ astring_free(subtext); astring_free(text); } /*------------------------------------------------- menu_bookkeeping - handle the bookkeeping information menu -------------------------------------------------*/ #ifndef MESS static void menu_bookkeeping(running_machine *machine, ui_menu *menu, void *parameter, void *state) { attotime *prevtime; attotime curtime; /* if no state, allocate some */ if (state == NULL) state = ui_menu_alloc_state(menu, sizeof(*prevtime), NULL); prevtime = state; /* if the time has rolled over another second, regenerate */ curtime = timer_get_time(); if (prevtime->seconds != curtime.seconds) { ui_menu_reset(menu, UI_MENU_RESET_SELECT_FIRST); *prevtime = curtime; menu_bookkeeping_populate(machine, menu, prevtime); } /* process the menu */ ui_menu_process(machine, menu, 0); } #endif /*------------------------------------------------- menu_bookkeeping - handle the bookkeeping information menu -------------------------------------------------*/ #ifndef MESS static void menu_bookkeeping_populate(running_machine *machine, ui_menu *menu, attotime *curtime) { astring *tempstring = astring_alloc(); int ctrnum; /* show total time first */ if (curtime->seconds >= 60 * 60) astring_catprintf(tempstring, "Uptime: %d:%02d:%02d\n\n", curtime->seconds / (60*60), (curtime->seconds / 60) % 60, curtime->seconds % 60); else astring_catprintf(tempstring, "Uptime: %d:%02d\n\n", (curtime->seconds / 60) % 60, curtime->seconds % 60); /* show tickets at the top */ if (dispensed_tickets > 0) astring_catprintf(tempstring, "Tickets dispensed: %d\n\n", dispensed_tickets); /* loop over coin counters */ for (ctrnum = 0; ctrnum < COIN_COUNTERS; ctrnum++) { /* display the coin counter number */ astring_catprintf(tempstring, "Coin %c: ", ctrnum + 'A'); /* display how many coins */ if (coin_count[ctrnum] == 0) astring_catc(tempstring, "NA"); else astring_catprintf(tempstring, "%d", coin_count[ctrnum]); /* display whether or not we are locked out */ if (coinlockedout[ctrnum]) astring_catc(tempstring, " (locked)"); astring_catc(tempstring, "\n"); } /* append the single item */ ui_menu_item_append(menu, astring_c(tempstring), NULL, MENU_FLAG_MULTILINE, NULL); astring_free(tempstring); } #endif /*------------------------------------------------- menu_game_info - handle the game information menu -------------------------------------------------*/ static void menu_game_info(running_machine *machine, ui_menu *menu, void *parameter, void *state) { /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) { astring *tempstring = game_info_astring(machine, astring_alloc()); ui_menu_item_append(menu, astring_c(tempstring), NULL, MENU_FLAG_MULTILINE, NULL); astring_free(tempstring); } /* process the menu */ ui_menu_process(machine, menu, 0); } /*------------------------------------------------- menu_cheat - handle the cheat menu -------------------------------------------------*/ static void menu_cheat(running_machine *machine, ui_menu *menu, void *parameter, void *state) { const ui_menu_event *event; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_cheat_populate(machine, menu); /* process the menu */ event = ui_menu_process(machine, menu, UI_MENU_PROCESS_LR_REPEAT); /* handle events */ if (event != NULL && event->itemref != NULL) { int changed = FALSE; /* handle reset all */ if ((FPTR)event->itemref == 1 && event->iptkey == IPT_UI_SELECT) { void *curcheat; for (curcheat = cheat_get_next_menu_entry(machine, NULL, NULL, NULL, NULL); curcheat != NULL; curcheat = cheat_get_next_menu_entry(machine, curcheat, NULL, NULL, NULL)) { changed |= cheat_select_default_state(machine, curcheat); } } /* handle individual cheats */ else if ((FPTR)event->itemref > 1) { switch (event->iptkey) { /* if selected, activate a oneshot */ case IPT_UI_SELECT: changed = cheat_activate(machine, event->itemref); break; /* if cleared, reset to default value */ case IPT_UI_CLEAR: changed = cheat_select_default_state(machine, event->itemref); break; /* left decrements */ case IPT_UI_LEFT: changed = cheat_select_previous_state(machine, event->itemref); break; /* right increments */ case IPT_UI_RIGHT: changed = cheat_select_next_state(machine, event->itemref); break; } } /* if things changed, update */ if (changed) ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_REF); } } /*------------------------------------------------- menu_cheat_populate - populate the cheat menu -------------------------------------------------*/ static void menu_cheat_populate(running_machine *machine, ui_menu *menu) { const char *text, *subtext; void *curcheat; UINT32 flags; /* iterate over cheats */ for (curcheat = cheat_get_next_menu_entry(machine, NULL, &text, &subtext, &flags); curcheat != NULL; curcheat = cheat_get_next_menu_entry(machine, curcheat, &text, &subtext, &flags)) { ui_menu_item_append(menu, text, subtext, flags, curcheat); } /* add a separator */ ui_menu_item_append(menu, MENU_SEPARATOR_ITEM, NULL, 0, NULL); /* add a reset all option */ ui_menu_item_append(menu, "Reset All", NULL, 0, (void *)1); } /*------------------------------------------------- menu_memory_card - handle the memory card menu -------------------------------------------------*/ static void menu_memory_card(running_machine *machine, ui_menu *menu, void *parameter, void *state) { const ui_menu_event *event; int *cardnum; /* if no state, allocate some */ if (state == NULL) state = ui_menu_alloc_state(menu, sizeof(*cardnum), NULL); cardnum = state; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_memory_card_populate(machine, menu, *cardnum); /* process the menu */ event = ui_menu_process(machine, menu, UI_MENU_PROCESS_LR_REPEAT); /* if something was selected, act on it */ if (event != NULL && event->itemref != NULL) { FPTR item = (FPTR)event->itemref; /* select executes actions on some of the items */ if (event->iptkey == IPT_UI_SELECT) { switch (item) { /* handle card loading; if we succeed, clear the menus */ case MEMCARD_ITEM_LOAD: if (memcard_insert(menu->machine, *cardnum) == 0) { popmessage("Memory card loaded"); ui_menu_stack_reset(menu->machine); } else popmessage("Error loading memory card"); break; /* handle card ejecting */ case MEMCARD_ITEM_EJECT: memcard_eject(menu->machine); popmessage("Memory card ejected"); break; /* handle card creating */ case MEMCARD_ITEM_CREATE: if (memcard_create(menu->machine, *cardnum, FALSE) == 0) popmessage("Memory card created"); else popmessage("Error creating memory card\n(Card may already exist)"); break; } } /* the select item has extra keys */ else if (item == MEMCARD_ITEM_SELECT) { switch (event->iptkey) { /* left decrements the card number */ case IPT_UI_LEFT: *cardnum -= 1; ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_REF); break; /* right decrements the card number */ case IPT_UI_RIGHT: *cardnum += 1; ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_REF); break; } } } } /*------------------------------------------------- menu_memory_card_populate - populate the memory card menu -------------------------------------------------*/ static void menu_memory_card_populate(running_machine *machine, ui_menu *menu, int cardnum) { char tempstring[20]; UINT32 flags = 0; /* add the card select menu */ sprintf(tempstring, "%d", cardnum); if (cardnum > 0) flags |= MENU_FLAG_LEFT_ARROW; if (cardnum < 1000) flags |= MENU_FLAG_RIGHT_ARROW; ui_menu_item_append(menu, "Card Number:", tempstring, flags, (void *)MEMCARD_ITEM_SELECT); /* add the remaining items */ ui_menu_item_append(menu, "Load Selected Card", NULL, 0, (void *)MEMCARD_ITEM_LOAD); if (memcard_present() != -1) ui_menu_item_append(menu, "Eject Current Card", NULL, 0, (void *)MEMCARD_ITEM_EJECT); ui_menu_item_append(menu, "Create New Card", NULL, 0, (void *)MEMCARD_ITEM_CREATE); } /*------------------------------------------------- menu_sliders - handle the sliders menu -------------------------------------------------*/ static void menu_sliders(running_machine *machine, ui_menu *menu, void *parameter, void *state) { const ui_menu_event *event; UINT8 *hidden = state; /* if no state, allocate some */ if (hidden == NULL) hidden = ui_menu_alloc_state(menu, sizeof(*hidden), NULL); /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_sliders_populate(machine, menu); /* process the menu */ event = ui_menu_process(machine, menu, UI_MENU_PROCESS_LR_REPEAT | (*hidden ? UI_MENU_PROCESS_CUSTOM_ONLY : 0)); if (event != NULL) { /* handle keys if there is a valid item selected */ if (event->itemref != NULL) { const slider_state *slider = event->itemref; INT32 curvalue = (*slider->update)(machine, slider->arg, NULL, SLIDER_NOCHANGE); INT32 increment = 0; switch (event->iptkey) { /* toggle visibility */ case IPT_UI_ON_SCREEN_DISPLAY: *hidden = !*hidden; break; /* decrease value */ case IPT_UI_LEFT: if (input_code_pressed(KEYCODE_LALT) || input_code_pressed(KEYCODE_RALT)) increment = -1; else if (input_code_pressed(KEYCODE_LSHIFT) || input_code_pressed(KEYCODE_RSHIFT)) increment = (slider->incval > 10) ? -(slider->incval / 10) : -1; else if (input_code_pressed(KEYCODE_LCONTROL) || input_code_pressed(KEYCODE_RCONTROL)) increment = -slider->incval * 10; else increment = -slider->incval; break; /* increase value */ case IPT_UI_RIGHT: if (input_code_pressed(KEYCODE_LALT) || input_code_pressed(KEYCODE_RALT)) increment = 1; else if (input_code_pressed(KEYCODE_LSHIFT) || input_code_pressed(KEYCODE_RSHIFT)) increment = (slider->incval > 10) ? (slider->incval / 10) : 1; else if (input_code_pressed(KEYCODE_LCONTROL) || input_code_pressed(KEYCODE_RCONTROL)) increment = slider->incval * 10; else increment = slider->incval; break; /* restore default */ case IPT_UI_SELECT: increment = slider->defval - curvalue; break; } /* handle any changes */ if (increment != 0) { INT32 newvalue = curvalue + increment; /* clamp within bounds */ if (newvalue < slider->minval) newvalue = slider->minval; if (newvalue > slider->maxval) newvalue = slider->maxval; /* update the slider and recompute the menu */ (*slider->update)(machine, slider->arg, NULL, newvalue); ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_REF); } } /* if we are selecting an invalid item and we are hidden, skip to the next one */ else if (*hidden) { /* if we got here via up or page up, select the previous item */ if (event->iptkey == IPT_UI_UP || event->iptkey == IPT_UI_PAGE_UP) { menu->selected = (menu->selected + menu->numitems - 1) % menu->numitems; ui_menu_validate_selection(menu, -1); } /* otherwise select the next item */ else if (event->iptkey == IPT_UI_DOWN || event->iptkey == IPT_UI_PAGE_DOWN) { menu->selected = (menu->selected + 1) % menu->numitems; ui_menu_validate_selection(menu, 1); } } } } /*------------------------------------------------- menu_sliders_populate - populate the sliders menu -------------------------------------------------*/ static void menu_sliders_populate(running_machine *machine, ui_menu *menu) { astring *tempstring = astring_alloc(); const slider_state *curslider; /* add all sliders */ for (curslider = ui_get_slider_list(); curslider != NULL; curslider = curslider->next) { INT32 curval = (*curslider->update)(machine, curslider->arg, tempstring, SLIDER_NOCHANGE); UINT32 flags = 0; if (curval > curslider->minval) flags |= MENU_FLAG_LEFT_ARROW; if (curval < curslider->maxval) flags |= MENU_FLAG_RIGHT_ARROW; ui_menu_item_append(menu, curslider->description, astring_c(tempstring), flags, (void *)curslider); } ui_menu_set_custom_render(menu, menu_sliders_custom_render, 0.0f, 2.0f * ui_get_line_height()); astring_free(tempstring); } /*------------------------------------------------- menu_sliders_custom_render - perform our special rendering -------------------------------------------------*/ static void menu_sliders_custom_render(running_machine *machine, ui_menu *menu, void *state, void *selectedref, float top, float bottom, float x1, float y1, float x2, float y2) { const slider_state *curslider = selectedref; if (curslider != NULL) { astring *tempstring = astring_alloc(); INT32 curval = (*curslider->update)(machine, curslider->arg, tempstring, SLIDER_NOCHANGE); float percentage = (float)(curval - curslider->minval) / (float)(curslider->maxval - curslider->minval); float default_percentage = (float)(curslider->defval - curslider->minval) / (float)(curslider->maxval - curslider->minval); float bar_left, bar_area_top, bar_width, bar_area_height, bar_top, bar_bottom, default_x, current_x; float space_width = ui_get_char_width(' '); float line_height = ui_get_line_height(); float ui_width, ui_height; float text_height; /* finish assembling the text */ astring_insc(tempstring, 0, " "); astring_insc(tempstring, 0, curslider->description); /* leave a spaces' worth of room along the left/right sides, and a lines' worth on the top/bottom */ ui_width = 1.0f - 2.0f * space_width; ui_height = 1.0f - 2.0f * line_height; /* determine the text height */ ui_draw_text_full(astring_c(tempstring), 0, 0, ui_width - 2 * UI_BOX_LR_BORDER, JUSTIFY_CENTER, WRAP_WORD, DRAW_NONE, ARGB_WHITE, ARGB_BLACK, NULL, &text_height); /* add a box around the whole area */ ui_draw_outlined_box(space_width, line_height + ui_height - text_height - line_height - 2 * UI_BOX_TB_BORDER, space_width + ui_width, line_height + ui_height, UI_FILLCOLOR); /* draw the thermometer */ bar_left = 2.0f * space_width; bar_area_top = line_height + ui_height - UI_BOX_TB_BORDER - text_height - line_height * 0.75f; bar_width = ui_width - 2.0f * space_width; bar_area_height = line_height * 0.75f; /* compute positions */ bar_top = bar_area_top + 0.125f * bar_area_height; bar_bottom = bar_area_top + 0.875f * bar_area_height; default_x = bar_left + bar_width * default_percentage; current_x = bar_left + bar_width * percentage; /* fill in the percentage */ render_ui_add_rect(bar_left, bar_top, current_x, bar_bottom, ARGB_WHITE, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); /* draw the top and bottom lines */ render_ui_add_line(bar_left, bar_top, bar_left + bar_width, bar_top, UI_LINE_WIDTH, ARGB_WHITE, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); render_ui_add_line(bar_left, bar_bottom, bar_left + bar_width, bar_bottom, UI_LINE_WIDTH, ARGB_WHITE, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); /* draw default marker */ render_ui_add_line(default_x, bar_area_top, default_x, bar_top, UI_LINE_WIDTH, ARGB_WHITE, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); render_ui_add_line(default_x, bar_bottom, default_x, bar_area_top + bar_area_height, UI_LINE_WIDTH, ARGB_WHITE, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); /* draw the actual text */ ui_draw_text_full(astring_c(tempstring), space_width + UI_BOX_LR_BORDER, line_height + ui_height - UI_BOX_TB_BORDER - text_height, ui_width - 2.0f * UI_BOX_LR_BORDER, JUSTIFY_CENTER, WRAP_WORD, DRAW_NORMAL, ARGB_WHITE, ARGB_BLACK, NULL, &text_height); astring_free(tempstring); } } /*------------------------------------------------- menu_video_targets - handle the video targets menu -------------------------------------------------*/ static void menu_video_targets(running_machine *machine, ui_menu *menu, void *parameter, void *state) { const ui_menu_event *event; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_video_targets_populate(machine, menu); /* process the menu */ event = ui_menu_process(machine, menu, 0); if (event != NULL && event->iptkey == IPT_UI_SELECT) ui_menu_stack_push(ui_menu_alloc(machine, menu_video_options, event->itemref)); } /*------------------------------------------------- menu_video_targets_populate - populate the video targets menu -------------------------------------------------*/ static void menu_video_targets_populate(running_machine *machine, ui_menu *menu) { int targetnum; /* find the targets */ for (targetnum = 0; ; targetnum++) { render_target *target = render_target_get_indexed(targetnum); char buffer[40]; /* stop when we run out */ if (target == NULL) break; /* add a menu item */ sprintf(buffer, "Screen #%d", targetnum); ui_menu_item_append(menu, buffer, NULL, 0, target); } } /*------------------------------------------------- menu_video_options - handle the video options menu -------------------------------------------------*/ static void menu_video_options(running_machine *machine, ui_menu *menu, void *parameter, void *state) { render_target *target = (parameter != NULL) ? parameter : render_target_get_indexed(0); const ui_menu_event *event; int changed = FALSE; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_video_options_populate(machine, menu, target); /* process the menu */ event = ui_menu_process(machine, menu, 0); if (event != NULL && event->itemref != NULL) { switch ((FPTR)event->itemref) { /* rotate adds rotation depending on the direction */ case VIDEO_ITEM_ROTATE: if (event->iptkey == IPT_UI_LEFT || event->iptkey == IPT_UI_RIGHT) { int delta = (event->iptkey == IPT_UI_LEFT) ? ROT270 : ROT90; render_target_set_orientation(target, orientation_add(delta, render_target_get_orientation(target))); if (target == render_get_ui_target()) { render_container_user_settings settings; render_container_get_user_settings(render_container_get_ui(), &settings); settings.orientation = orientation_add(delta ^ ROT180, settings.orientation); render_container_set_user_settings(render_container_get_ui(), &settings); } changed = TRUE; } break; /* layer config bitmasks handle left/right keys the same (toggle) */ case LAYER_CONFIG_ENABLE_BACKDROP: case LAYER_CONFIG_ENABLE_OVERLAY: case LAYER_CONFIG_ENABLE_BEZEL: case LAYER_CONFIG_ZOOM_TO_SCREEN: if (event->iptkey == IPT_UI_LEFT || event->iptkey == IPT_UI_RIGHT) { render_target_set_layer_config(target, render_target_get_layer_config(target) ^ (FPTR)event->itemref); changed = TRUE; } break; /* anything else is a view item */ default: if (event->iptkey == IPT_UI_SELECT && (int)(FPTR)event->itemref >= VIDEO_ITEM_VIEW) { render_target_set_view(target, (FPTR)event->itemref - VIDEO_ITEM_VIEW); changed = TRUE; } break; } } /* if something changed, rebuild the menu */ if (changed) ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_REF); } /*------------------------------------------------- menu_video_options_populate - populate the video options menu -------------------------------------------------*/ static void menu_video_options_populate(running_machine *machine, ui_menu *menu, render_target *target) { int layermask = render_target_get_layer_config(target); astring *tempstring = astring_alloc(); const char *subtext = ""; int viewnum; int enabled; /* add items for each view */ for (viewnum = 0; ; viewnum++) { const char *name = render_target_get_view_name(target, viewnum); if (name == NULL) break; /* create a string for the item, replacing underscores with spaces */ astring_replacec(astring_cpyc(tempstring, name), 0, "_", " "); ui_menu_item_append(menu, astring_c(tempstring), NULL, 0, (void *)(FPTR)(VIDEO_ITEM_VIEW + viewnum)); } /* add a separator */ ui_menu_item_append(menu, MENU_SEPARATOR_ITEM, NULL, 0, NULL); /* add a rotate item */ switch (render_target_get_orientation(target)) { case ROT0: subtext = "None"; break; case ROT90: subtext = "CW 90" UTF8_DEGREES; break; case ROT180: subtext = "180" UTF8_DEGREES; break; case ROT270: subtext = "CCW 90" UTF8_DEGREES; break; } ui_menu_item_append(menu, "Rotate", subtext, MENU_FLAG_LEFT_ARROW | MENU_FLAG_RIGHT_ARROW, (void *)VIDEO_ITEM_ROTATE); /* backdrop item */ enabled = layermask & LAYER_CONFIG_ENABLE_BACKDROP; ui_menu_item_append(menu, "Backdrops", enabled ? "Enabled" : "Disabled", enabled ? MENU_FLAG_LEFT_ARROW : MENU_FLAG_RIGHT_ARROW, (void *)LAYER_CONFIG_ENABLE_BACKDROP); /* overlay item */ enabled = layermask & LAYER_CONFIG_ENABLE_OVERLAY; ui_menu_item_append(menu, "Overlays", enabled ? "Enabled" : "Disabled", enabled ? MENU_FLAG_LEFT_ARROW : MENU_FLAG_RIGHT_ARROW, (void *)LAYER_CONFIG_ENABLE_OVERLAY); /* bezel item */ enabled = layermask & LAYER_CONFIG_ENABLE_BEZEL; ui_menu_item_append(menu, "Bezels", enabled ? "Enabled" : "Disabled", enabled ? MENU_FLAG_LEFT_ARROW : MENU_FLAG_RIGHT_ARROW, (void *)LAYER_CONFIG_ENABLE_BEZEL); /* cropping */ enabled = layermask & LAYER_CONFIG_ZOOM_TO_SCREEN; ui_menu_item_append(menu, "View", enabled ? "Cropped" : "Full", enabled ? MENU_FLAG_RIGHT_ARROW : MENU_FLAG_LEFT_ARROW, (void *)LAYER_CONFIG_ZOOM_TO_SCREEN); astring_free(tempstring); } /*------------------------------------------------- menu_quit_game - handle the "menu" for quitting the game -------------------------------------------------*/ static void menu_quit_game(running_machine *machine, ui_menu *menu, void *parameter, void *state) { /* request a reset */ mame_schedule_exit(machine); /* reset the menu stack */ ui_menu_stack_reset(machine); } /*------------------------------------------------- menu_select_game - handle the game select menu -------------------------------------------------*/ static void menu_select_game(running_machine *machine, ui_menu *menu, void *parameter, void *state) { select_game_state *menustate; const ui_menu_event *event; /* if no state, allocate some */ if (state == NULL) { state = ui_menu_alloc_state(menu, sizeof(*menustate) + sizeof(menustate->driverlist) * driver_list_get_count(drivers), NULL); if (parameter != NULL) strcpy(((select_game_state *)state)->search, parameter); } menustate = state; /* if the menu isn't built, populate now */ if (!ui_menu_populated(menu)) menu_select_game_populate(machine, menu, menustate); /* ignore pause keys by swallowing them before we process the menu */ ui_input_pressed(machine, IPT_UI_PAUSE); /* process the menu */ event = ui_menu_process(machine, menu, 0); if (event != NULL && event->itemref != NULL) { /* reset the error on any future event */ if (menustate->error) menustate->error = FALSE; /* handle selections */ else if (event->iptkey == IPT_UI_SELECT) { const game_driver *driver = (const game_driver *)event->itemref; /* special case for configure inputs */ if ((FPTR)driver == 1) ui_menu_stack_push(ui_menu_alloc(menu->machine, menu_input_groups, NULL)); /* anything else is a driver */ else { audit_record *audit; int audit_records; int audit_result; /* audit the game first to see if we're going to work */ audit_records = audit_images(mame_options(), driver, AUDIT_VALIDATE_FAST, &audit); audit_result = audit_summary(driver, audit_records, audit, FALSE); if (audit_records > 0) free(audit); /* if everything looks good, schedule the new driver */ if (audit_result == CORRECT || audit_result == BEST_AVAILABLE) { mame_schedule_new_driver(machine, driver); ui_menu_stack_reset(machine); } /* otherwise, display an error */ else { ui_menu_reset(menu, UI_MENU_RESET_REMEMBER_REF); menustate->error = TRUE; } } } /* escape pressed with non-empty text clears the text */ else if (event->iptkey == IPT_UI_CANCEL && menustate->search[0] != 0) { /* since we have already been popped, we must recreate ourself from scratch */ ui_menu_stack_push(ui_menu_alloc(menu->machine, menu_select_game, NULL)); } /* typed characters append to the buffer */ else if (event->iptkey == IPT_SPECIAL) { int buflen = strlen(menustate->search); /* if it's a backspace and we can handle it, do so */ if ((event->unichar == 8 || event->unichar == 0x7f) && buflen > 0) { *(char *)utf8_previous_char(&menustate->search[buflen]) = 0; menustate->rerandomize = TRUE; ui_menu_reset(menu, UI_MENU_RESET_SELECT_FIRST); } /* if it's any other key and we're not maxed out, update */ else if (event->unichar >= ' ' && event->unichar < 0x7f) { buflen += utf8_from_uchar(&menustate->search[buflen], ARRAY_LENGTH(menustate->search) - buflen, event->unichar); menustate->search[buflen] = 0; ui_menu_reset(menu, UI_MENU_RESET_SELECT_FIRST); } } } /* if we're in an error state, overlay an error message */ if (menustate->error) ui_draw_text_box("The selected game is missing one or more required ROM or CHD images. " "Please select a different game.\n\nPress any key to continue.", JUSTIFY_CENTER, 0.5f, 0.5f, UI_REDCOLOR); } /*------------------------------------------------- menu_select_game_populate - populate the game select menu -------------------------------------------------*/ static void menu_select_game_populate(running_machine *machine, ui_menu *menu, select_game_state *menustate) { int matchcount; int curitem; /* update our driver list if necessary */ if (menustate->driverlist[0] == NULL) menu_select_game_build_driver_list(menu, menustate); for (curitem = matchcount = 0; menustate->driverlist[curitem] != NULL && matchcount < VISIBLE_GAMES_IN_LIST; curitem++) if (!(menustate->driverlist[curitem]->flags & GAME_NO_STANDALONE)) matchcount++; /* if nothing there, add a single multiline item and return */ if (matchcount == 0) { ui_menu_item_append(menu, "No "GAMESNOUN" found. Please check the rompath specified in the "CONFIGNAME".ini file.\n\n" "If this is your first time using "APPNAME", please see the config.txt file in " "the docs directory for information on configuring "APPNAME, NULL, MENU_FLAG_MULTILINE | MENU_FLAG_REDTEXT, NULL); return; } /* otherwise, rebuild the match list */ if (menustate->search[0] != 0 || menustate->matchlist[0] == NULL || menustate->rerandomize) driver_list_get_approx_matches(menustate->driverlist, menustate->search, matchcount, menustate->matchlist); menustate->rerandomize = FALSE; /* iterate over entries */ for (curitem = 0; curitem < matchcount; curitem++) { const game_driver *driver = menustate->matchlist[curitem]; if (driver != NULL) { const game_driver *cloneof = driver_get_clone(driver); ui_menu_item_append(menu, driver->name, driver->description, (cloneof == NULL || (cloneof->flags & GAME_IS_BIOS_ROOT)) ? 0 : MENU_FLAG_INVERT, (void *)driver); } } /* if we're forced into this, allow general input configuration as well */ if (ui_menu_is_force_game_select()) { ui_menu_item_append(menu, MENU_SEPARATOR_ITEM, NULL, 0, NULL); ui_menu_item_append(menu, "Configure General Inputs", NULL, 0, (void *)1); } /* configure the custom rendering */ ui_menu_set_custom_render(menu, menu_select_game_custom_render, ui_get_line_height() + 3.0f * UI_BOX_TB_BORDER, 4.0f * ui_get_line_height() + 3.0f * UI_BOX_TB_BORDER); } /*------------------------------------------------- menu_select_game_driver_compare - compare the names of two drivers -------------------------------------------------*/ static int CLIB_DECL menu_select_game_driver_compare(const void *elem1, const void *elem2) { const game_driver **driver1_ptr = (const game_driver **)elem1; const game_driver **driver2_ptr = (const game_driver **)elem2; const char *driver1 = (*driver1_ptr)->name; const char *driver2 = (*driver2_ptr)->name; while (*driver1 == *driver2 && *driver1 != 0) driver1++, driver2++; return *driver1 - *driver2; } /*------------------------------------------------- menu_select_game_build_driver_list - build a list of available drivers -------------------------------------------------*/ static void menu_select_game_build_driver_list(ui_menu *menu, select_game_state *menustate) { int driver_count = driver_list_get_count(drivers); int drivnum, listnum; mame_path *path; UINT8 *found; /* create a sorted copy of the main driver list */ memcpy((void *)menustate->driverlist, drivers, driver_count * sizeof(menustate->driverlist[0])); qsort((void *)menustate->driverlist, driver_count, sizeof(menustate->driverlist[0]), menu_select_game_driver_compare); /* allocate a temporary array to track which ones we found */ found = ui_menu_pool_alloc(menu, (driver_count + 7) / 8); memset(found, 0, (driver_count + 7) / 8); /* open a path to the ROMs and find them in the array */ path = mame_openpath(mame_options(), OPTION_ROMPATH); if (path != NULL) { const osd_directory_entry *dir; /* iterate while we get new objects */ while ((dir = mame_readpath(path)) != NULL) { game_driver tempdriver; game_driver *tempdriver_ptr; const game_driver **found_driver; char drivername[50]; char *dst = drivername; const char *src; /* build a name for it */ for (src = dir->name; *src != 0 && *src != '.' && dst < &drivername[ARRAY_LENGTH(drivername) - 1]; src++) *dst++ = tolower(*src); *dst = 0; /* find it in the array */ tempdriver.name = drivername; tempdriver_ptr = &tempdriver; found_driver = bsearch(&tempdriver_ptr, menustate->driverlist, driver_count, sizeof(*menustate->driverlist), menu_select_game_driver_compare); /* if found, mark the corresponding entry in the array */ if (found_driver != NULL) { int index = found_driver - menustate->driverlist; found[index / 8] |= 1 << (index % 8); } } mame_closepath(path); } /* now build the final list */ for (drivnum = listnum = 0; drivnum < driver_count; drivnum++) if (found[drivnum / 8] & (1 << (drivnum % 8))) menustate->driverlist[listnum++] = menustate->driverlist[drivnum]; /* NULL-terminate */ menustate->driverlist[listnum] = NULL; } /*------------------------------------------------- menu_select_game_custom_render - perform our special rendering -------------------------------------------------*/ static void menu_select_game_custom_render(running_machine *machine, ui_menu *menu, void *state, void *selectedref, float top, float bottom, float origx1, float origy1, float origx2, float origy2) { select_game_state *menustate = state; const game_driver *driver; float width, maxwidth; float x1, y1, x2, y2; char tempbuf[4][256]; rgb_t color; int line; /* display the current typeahead */ if (menustate->search[0] != 0) sprintf(&tempbuf[0][0], "Type name or select: %s_", menustate->search); else sprintf(&tempbuf[0][0], "Type name or select: (random)"); /* get the size of the text */ ui_draw_text_full(&tempbuf[0][0], 0.0f, 0.0f, 1.0f, JUSTIFY_CENTER, WRAP_TRUNCATE, DRAW_NONE, ARGB_WHITE, ARGB_BLACK, &width, NULL); width += 2 * UI_BOX_LR_BORDER; maxwidth = MAX(width, origx2 - origx1); /* compute our bounds */ x1 = 0.5f - 0.5f * maxwidth; x2 = x1 + maxwidth; y1 = origy1 - top; y2 = origy1 - UI_BOX_TB_BORDER; /* draw a box */ ui_draw_outlined_box(x1, y1, x2, y2, UI_FILLCOLOR); /* take off the borders */ x1 += UI_BOX_LR_BORDER; x2 -= UI_BOX_LR_BORDER; y1 += UI_BOX_TB_BORDER; y2 -= UI_BOX_TB_BORDER; /* draw the text within it */ ui_draw_text_full(&tempbuf[0][0], x1, y1, x2 - x1, JUSTIFY_CENTER, WRAP_TRUNCATE, DRAW_NORMAL, ARGB_WHITE, ARGB_BLACK, NULL, NULL); /* determine the text to render below */ driver = ((FPTR)selectedref > 1) ? selectedref : NULL; if ((FPTR)driver > 1) { const char *gfxstat, *soundstat; /* first line is game name */ sprintf(&tempbuf[0][0], "%-.100s", driver->description); /* next line is year, manufacturer */ sprintf(&tempbuf[1][0], "%s, %-.100s", driver->year, driver->manufacturer); /* next line is overall driver status */ if (driver->flags & GAME_NOT_WORKING) strcpy(&tempbuf[2][0], "Overall: NOT WORKING"); else if (driver->flags & GAME_UNEMULATED_PROTECTION) strcpy(&tempbuf[2][0], "Overall: Unemulated Protection"); else strcpy(&tempbuf[2][0], "Overall: Working"); /* next line is graphics, sound status */ if (driver->flags & (GAME_IMPERFECT_GRAPHICS | GAME_WRONG_COLORS | GAME_IMPERFECT_COLORS)) gfxstat = "Imperfect"; else gfxstat = "OK"; if (driver->flags & GAME_NO_SOUND) soundstat = "Unimplemented"; else if (driver->flags & GAME_IMPERFECT_SOUND) soundstat = "Imperfect"; else soundstat = "OK"; sprintf(&tempbuf[3][0], "Gfx: %s, Sound: %s", gfxstat, soundstat); } else { const char *s = COPYRIGHT; int line = 0; int col = 0; /* first line is version string */ sprintf(&tempbuf[line++][0], "%s %s", APPLONGNAME, build_version); /* output message */ while (line < ARRAY_LENGTH(tempbuf)) { if (*s == 0 || *s == '\n') { tempbuf[line++][col] = 0; col = 0; } else tempbuf[line][col++] = *s; if (*s != 0) s++; } } /* get the size of the text */ maxwidth = origx2 - origx1; for (line = 0; line < 4; line++) { ui_draw_text_full(&tempbuf[line][0], 0.0f, 0.0f, 1.0f, JUSTIFY_CENTER, WRAP_TRUNCATE, DRAW_NONE, ARGB_WHITE, ARGB_BLACK, &width, NULL); width += 2 * UI_BOX_LR_BORDER; maxwidth = MAX(maxwidth, width); } /* compute our bounds */ x1 = 0.5f - 0.5f * maxwidth; x2 = x1 + maxwidth; y1 = origy2 + UI_BOX_TB_BORDER; y2 = origy2 + bottom; /* draw a box */ color = UI_FILLCOLOR; if (driver != NULL && (driver->flags & (GAME_NOT_WORKING | GAME_UNEMULATED_PROTECTION)) != 0) color = UI_REDCOLOR; ui_draw_outlined_box(x1, y1, x2, y2, color); /* take off the borders */ x1 += UI_BOX_LR_BORDER; x2 -= UI_BOX_LR_BORDER; y1 += UI_BOX_TB_BORDER; y2 -= UI_BOX_TB_BORDER; /* draw all lines */ for (line = 0; line < 4; line++) { ui_draw_text_full(&tempbuf[line][0], x1, y1, x2 - x1, JUSTIFY_CENTER, WRAP_TRUNCATE, DRAW_NORMAL, ARGB_WHITE, ARGB_BLACK, NULL, NULL); y1 += ui_get_line_height(); } } /*************************************************************************** MENU HELPERS ***************************************************************************/ /*------------------------------------------------- menu_render_triangle - render a triangle that is used for up/down arrows and left/right indicators -------------------------------------------------*/ static void menu_render_triangle(bitmap_t *dest, const bitmap_t *source, const rectangle *sbounds, void *param) { int halfwidth = dest->width / 2; int height = dest->height; int x, y; /* start with all-transparent */ bitmap_fill(dest, NULL, MAKE_ARGB(0x00,0x00,0x00,0x00)); /* render from the tip to the bottom */ for (y = 0; y < height; y++) { int linewidth = (y * (halfwidth - 1) + (height / 2)) * 255 * 2 / height; UINT32 *target = BITMAP_ADDR32(dest, y, halfwidth); /* don't antialias if height < 12 */ if (dest->height < 12) { int pixels = (linewidth + 254) / 255; if (pixels % 2 == 0) pixels++; linewidth = pixels * 255; } /* loop while we still have data to generate */ for (x = 0; linewidth > 0; x++) { int dalpha; /* first colum we only consume one pixel */ if (x == 0) { dalpha = MIN(0xff, linewidth); target[x] = MAKE_ARGB(dalpha,0xff,0xff,0xff); } /* remaining columns consume two pixels, one on each side */ else { dalpha = MIN(0x1fe, linewidth); target[x] = target[-x] = MAKE_ARGB(dalpha/2,0xff,0xff,0xff); } /* account for the weight we consumed */ linewidth -= dalpha; } } }