// license:BSD-3-Clause // copyright-holders:Nicola Salmoria, Aaron Giles, Nathan Woods /********************************************************************* ui/menu.c Internal MAME menus for the user interface. *********************************************************************/ #include "emu.h" #include "emuopts.h" #include "rendutil.h" #include "cheat.h" #include "uiinput.h" #include "ui/ui.h" #include "ui/mainmenu.h" #include "ui/cheatopt.h" /*************************************************************************** CONSTANTS ***************************************************************************/ #define UI_MENU_POOL_SIZE 65536 #define UI_MENU_ALLOC_ITEMS 256 /*************************************************************************** GLOBAL VARIABLES ***************************************************************************/ ui_menu *ui_menu::menu_stack; ui_menu *ui_menu::menu_free; bitmap_rgb32 *ui_menu::hilight_bitmap; render_texture *ui_menu::hilight_texture; render_texture *ui_menu::arrow_texture; /*************************************************************************** INLINE FUNCTIONS ***************************************************************************/ //------------------------------------------------- // is_selectable - return TRUE if the given // item is selectable //------------------------------------------------- inline bool ui_menu_item::is_selectable() const { return ((flags & (MENU_FLAG_MULTILINE | MENU_FLAG_DISABLE)) == 0 && strcmp(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 bool ui_menu::exclusive_input_pressed(int key, int repeat) { if (menu_event.iptkey == IPT_INVALID && ui_input_pressed_repeat(machine(), key, repeat)) { menu_event.iptkey = key; return true; } return false; } /*************************************************************************** CORE SYSTEM MANAGEMENT ***************************************************************************/ //------------------------------------------------- // 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 = auto_bitmap_rgb32_alloc(machine, 256, 1); 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; hilight_bitmap->pix32(0, x) = rgb_t(alpha,0xff,0xff,0xff); } hilight_texture = machine.render().texture_alloc(); hilight_texture->set_bitmap(*hilight_bitmap, hilight_bitmap->cliprect(), TEXFORMAT_ARGB32); // create a texture for arrow icons arrow_texture = machine.render().texture_alloc(render_triangle); // add an exit callback to free memory machine.add_notifier(MACHINE_NOTIFY_EXIT, machine_notify_delegate(FUNC(ui_menu::exit), &machine)); } //------------------------------------------------- // exit - clean up after ourselves //------------------------------------------------- void ui_menu::exit(running_machine &machine) { // free menus ui_menu::stack_reset(machine); ui_menu::clear_free_list(machine); // free textures machine.render().texture_free(hilight_texture); machine.render().texture_free(arrow_texture); } /*************************************************************************** CORE MENU MANAGEMENT ***************************************************************************/ //------------------------------------------------- // ui_menu - menu constructor //------------------------------------------------- ui_menu::ui_menu(running_machine &machine, render_container *_container) : m_machine(machine) { m_special_main_menu = false; container = _container; reset(UI_MENU_RESET_SELECT_FIRST); } //------------------------------------------------- // ~ui_menu - menu destructor //------------------------------------------------- ui_menu::~ui_menu() { // free the pools while (pool) { ui_menu_pool *ppool = pool; pool = pool->next; auto_free(machine(), ppool); } // free the item array if (item) auto_free(machine(), item); } //------------------------------------------------- // reset - free all items in the menu, // and all memory allocated from the memory pool //------------------------------------------------- void ui_menu::reset(ui_menu_reset_options options) { // based on the reset option, set the reset info resetpos = 0; resetref = NULL; if (options == UI_MENU_RESET_REMEMBER_POSITION) resetpos = selected; else if (options == UI_MENU_RESET_REMEMBER_REF) resetref = item[selected].ref; // reset all the pools and the numitems back to 0 for (ui_menu_pool *ppool = pool; ppool != NULL; ppool = ppool->next) ppool->top = (UINT8 *)(ppool + 1); numitems = 0; visitems = 0; selected = 0; std::string backtext; strprintf(backtext, "Return to %s", emulator_info::get_capstartgamenoun()); // add an item to return if (parent == NULL) item_append(backtext.c_str(), NULL, 0, NULL); else if (parent->is_special_main_menu()) item_append("Exit", NULL, 0, NULL); else item_append("Return to Previous Menu", NULL, 0, NULL); } //------------------------------------------------- // is_special_main_menu - returns whether the // menu has special needs //------------------------------------------------- bool ui_menu::is_special_main_menu() const { return m_special_main_menu; } //------------------------------------------------- // set_special_main_menu - set whether the // menu has special needs //------------------------------------------------- void ui_menu::set_special_main_menu(bool special) { m_special_main_menu = special; } //------------------------------------------------- // populated - returns true if the menu // has any non-default items in it //------------------------------------------------- bool ui_menu::populated() { return numitems > 1; } //------------------------------------------------- // item_append - append a new item to the // end of the menu //------------------------------------------------- void ui_menu::item_append(const char *text, const char *subtext, UINT32 flags, void *ref) { ui_menu_item *pitem; int index; // only allow multiline as the first item if ((flags & MENU_FLAG_MULTILINE) != 0) assert(numitems == 1); // only allow a single multi-line item else if (numitems >= 2) assert((item[0].flags & MENU_FLAG_MULTILINE) == 0); // realloc the item array if necessary if (numitems >= allocitems) { int olditems = allocitems; allocitems += UI_MENU_ALLOC_ITEMS; ui_menu_item *newitems = auto_alloc_array(machine(), ui_menu_item, allocitems); for (int itemnum = 0; itemnum < olditems; itemnum++) newitems[itemnum] = item[itemnum]; auto_free(machine(), item); item = newitems; } index = numitems++; // copy the previous last item to the next one if (index != 0) { index--; item[index + 1] = item[index]; } // allocate a new item and populate it pitem = &item[index]; pitem->text = (text != NULL) ? pool_strdup(text) : NULL; pitem->subtext = (subtext != NULL) ? pool_strdup(subtext) : NULL; pitem->flags = flags; pitem->ref = ref; // update the selection if we need to if (resetpos == index || (resetref != NULL && resetref == ref)) selected = index; if (resetpos == numitems - 1) selected = numitems - 1; } //------------------------------------------------- // process - process a menu, drawing it // and returning any interesting events //------------------------------------------------- const ui_menu_event *ui_menu::process(UINT32 flags) { // reset the menu_event menu_event.iptkey = IPT_INVALID; // first make sure our selection is valid validate_selection(1); // draw the menu if (numitems > 1 && (item[0].flags & MENU_FLAG_MULTILINE) != 0) draw_text_box(); else draw(flags & UI_MENU_PROCESS_CUSTOM_ONLY); // process input if (!(flags & UI_MENU_PROCESS_NOKEYS)) { // read events handle_events(); // handle the keys if we don't already have an menu_event if (menu_event.iptkey == IPT_INVALID) handle_keys(flags); } // update the selected item in the menu_event if (menu_event.iptkey != IPT_INVALID && selected >= 0 && selected < numitems) { menu_event.itemref = item[selected].ref; return &menu_event; } return NULL; } //------------------------------------------------- // m_pool_alloc - allocate temporary memory // from the menu's memory pool //------------------------------------------------- void *ui_menu::m_pool_alloc(size_t size) { ui_menu_pool *ppool; assert(size < UI_MENU_POOL_SIZE); // find a pool with enough room for (ppool = pool; ppool != NULL; ppool = ppool->next) if (ppool->end - ppool->top >= size) { void *result = ppool->top; ppool->top += size; return result; } // allocate a new pool ppool = (ui_menu_pool *)auto_alloc_array_clear(machine(), UINT8, sizeof(*ppool) + UI_MENU_POOL_SIZE); // wire it up ppool->next = pool; pool = ppool; ppool->top = (UINT8 *)(ppool + 1); ppool->end = ppool->top + UI_MENU_POOL_SIZE; return m_pool_alloc(size); } //------------------------------------------------- // pool_strdup - make a temporary string // copy in the menu's memory pool //------------------------------------------------- const char *ui_menu::pool_strdup(const char *string) { return strcpy((char *)m_pool_alloc(strlen(string) + 1), string); } //------------------------------------------------- // get_selection - retrieves the index // of the currently selected menu item //------------------------------------------------- void *ui_menu::get_selection() { return (selected >= 0 && selected < numitems) ? item[selected].ref : NULL; } //------------------------------------------------- // set_selection - changes the index // of the currently selected menu item //------------------------------------------------- void ui_menu::set_selection(void *selected_itemref) { int itemnum; selected = -1; for (itemnum = 0; itemnum < numitems; itemnum++) if (item[itemnum].ref == selected_itemref) { selected = itemnum; break; } } /*************************************************************************** INTERNAL MENU PROCESSING ***************************************************************************/ //------------------------------------------------- // draw - draw a menu //------------------------------------------------- void ui_menu::draw(bool customonly) { float line_height = machine().ui().get_line_height(); float lr_arrow_width = 0.4f * line_height * machine().render().ui_aspect(); float ud_arrow_width = line_height * machine().render().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; bool 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 < numitems; itemnum++) { const ui_menu_item &pitem = item[itemnum]; float total_width; // compute width of left hand side total_width = gutter_width + machine().ui().get_string_width(pitem.text) + gutter_width; // add in width of right hand side if (pitem.subtext) total_width += 2.0f * gutter_width + machine().ui().get_string_width(pitem.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 = customtop + 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 += 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) machine().ui().draw_outlined_box(container, x1, y1, x2, y2, UI_BACKGROUND_COLOR); // determine the first visible line based on the current selection top_line = selected - visible_lines / 2; if (top_line < 0) top_line = 0; if (top_line + visible_lines >= numitems) top_line = 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 (mouse_target->map_point_container(mouse_target_x, mouse_target_y, *container, mouse_x, mouse_y)) mouse_hit = true; } // loop over visible lines hover = numitems + 1; if (!customonly) for (linenum = 0; linenum < visible_lines; linenum++) { float line_y = visible_top + (float)linenum * line_height; itemnum = top_line + linenum; const ui_menu_item &pitem = item[itemnum]; const char *itemtext = pitem.text; rgb_t fgcolor = UI_TEXT_COLOR; rgb_t bgcolor = UI_TEXT_BG_COLOR; rgb_t fgcolor2 = UI_SUBITEM_COLOR; rgb_t fgcolor3 = UI_CLONE_COLOR; 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 && pitem.is_selectable()) hover = itemnum; // if we're selected, draw with a different background if (itemnum == selected) { fgcolor = UI_SELECTED_COLOR; bgcolor = UI_SELECTED_BG_COLOR; fgcolor2 = UI_SELECTED_COLOR; fgcolor3 = UI_SELECTED_COLOR; } // else if the mouse is over this item, draw with a different background else if (itemnum == hover) { fgcolor = UI_MOUSEOVER_COLOR; bgcolor = UI_MOUSEOVER_BG_COLOR; fgcolor2 = UI_MOUSEOVER_COLOR; fgcolor3 = UI_MOUSEOVER_COLOR; } // if we have some background hilighting to do, add a quad behind everything else if (bgcolor != UI_TEXT_BG_COLOR) highlight(container, line_x0, line_y0, line_x1, line_y1, bgcolor); // if we're on the top line, display the up arrow if (linenum == 0 && top_line != 0) { draw_arrow( container, 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, ROT0); if (hover == itemnum) hover = -2; } // if we're on the bottom line, display the down arrow else if (linenum == visible_lines - 1 && itemnum != numitems - 1) { draw_arrow( container, 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, ROT0 ^ ORIENTATION_FLIP_Y); if (hover == itemnum) hover = -1; } // if we're just a divider, draw a line else if (strcmp(itemtext, MENU_SEPARATOR_ITEM) == 0) container->add_line(visible_left, line_y + 0.5f * line_height, visible_left + visible_width, line_y + 0.5f * line_height, UI_LINE_WIDTH, UI_BORDER_COLOR, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA)); // if we don't have a subitem, just draw the string centered else if (pitem.subtext == NULL) machine().ui().draw_text_full(container, 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 = pitem.flags & MENU_FLAG_INVERT; const char *subitem_text = pitem.subtext; float item_width, subitem_width; // draw the left-side text machine().ui().draw_text_full(container, 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 (machine().ui().get_string_width(subitem_text) > effective_width - item_width) { subitem_text = "..."; if (itemnum == selected) selected_subitem_too_big = TRUE; } // draw the subitem right-justified machine().ui().draw_text_full(container, subitem_text, effective_left + item_width, line_y, effective_width - item_width, JUSTIFY_RIGHT, WRAP_TRUNCATE, DRAW_NORMAL, subitem_invert ? fgcolor3 : fgcolor2, bgcolor, &subitem_width, NULL); // apply arrows if (itemnum == selected && (pitem.flags & MENU_FLAG_LEFT_ARROW)) { draw_arrow( container, 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, ROT90 ^ ORIENTATION_FLIP_X); } if (itemnum == selected && (pitem.flags & MENU_FLAG_RIGHT_ARROW)) { draw_arrow( container, 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, ROT90); } } } // if the selected subitem is too big, display it in a separate offset box if (selected_subitem_too_big) { const ui_menu_item &pitem = item[selected]; int subitem_invert = pitem.flags & MENU_FLAG_INVERT; linenum = 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 machine().ui().draw_text_full(container, pitem.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 machine().ui().draw_outlined_box(container, 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 ? UI_SELECTED_BG_COLOR : UI_BACKGROUND_COLOR); machine().ui().draw_text_full(container, pitem.subtext, target_x, target_y, target_width, JUSTIFY_RIGHT, WRAP_WORD, DRAW_NORMAL, UI_SELECTED_COLOR, UI_SELECTED_BG_COLOR, NULL, NULL); } // if there is something special to add, do it by calling the virtual method custom_render((selected >= 0 && selected < numitems) ? item[selected].ref : NULL, customtop, custombottom, x1, y1, x2, y2); // return the number of visible lines, minus 1 for top arrow and 1 for bottom arrow visitems = visible_lines - (top_line != 0) - (top_line + visible_lines != numitems); } void ui_menu::custom_render(void *selectedref, float top, float bottom, float x, float y, float x2, float y2) { } //------------------------------------------------- // draw_text_box - draw a multiline // word-wrapped text box with a menu item at the // bottom //------------------------------------------------- void ui_menu::draw_text_box() { const char *text = item[0].text; const char *backtext = item[1].text; float line_height = machine().ui().get_line_height(); float lr_arrow_width = 0.4f * line_height * machine().render().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 machine().ui().draw_text_full(container, 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 = machine().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 machine().ui().draw_outlined_box(container, 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, (item[0].flags & MENU_FLAG_REDTEXT) ? UI_RED_COLOR : UI_BACKGROUND_COLOR); machine().ui().draw_text_full(container, text, target_x, target_y, target_width, JUSTIFY_LEFT, WRAP_WORD, DRAW_NORMAL, UI_TEXT_COLOR, UI_TEXT_BG_COLOR, NULL, NULL); // draw the "return to prior menu" text with a hilight behind it highlight( container, 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, UI_SELECTED_BG_COLOR); machine().ui().draw_text_full(container, backtext, target_x, target_y + target_height - line_height, target_width, JUSTIFY_CENTER, WRAP_TRUNCATE, DRAW_NORMAL, UI_SELECTED_COLOR, UI_SELECTED_BG_COLOR, NULL, NULL); // artificially set the hover to the last item so a double-click exits hover = numitems - 1; } //------------------------------------------------- // handle_events - generically handle // input events for a menu //------------------------------------------------- void ui_menu::handle_events() { int stop = FALSE; ui_event local_menu_event; // loop while we have interesting events while (!stop && ui_input_pop_event(machine(), &local_menu_event)) { switch (local_menu_event.event_type) { // if we are hovering over a valid item, select it with a single click case UI_EVENT_MOUSE_DOWN: if (hover >= 0 && hover < numitems) selected = hover; else if (hover == -2) { selected -= visitems - 1; validate_selection(1); } else if (hover == -1) { selected += visitems - 1; validate_selection(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 (hover >= 0 && hover < numitems) { selected = hover; if (local_menu_event.event_type == UI_EVENT_MOUSE_DOUBLE_CLICK) { menu_event.iptkey = IPT_UI_SELECT; if (selected == numitems - 1) { menu_event.iptkey = IPT_UI_CANCEL; ui_menu::stack_pop(machine()); } } stop = TRUE; } break; // translate CHAR events into specials case UI_EVENT_CHAR: menu_event.iptkey = IPT_SPECIAL; menu_event.unichar = local_menu_event.ch; stop = TRUE; break; // ignore everything else default: break; } } } //------------------------------------------------- // handle_keys - generically handle // keys for a menu //------------------------------------------------- void ui_menu::handle_keys(UINT32 flags) { int ignorepause = ui_menu::stack_has_special_main_menu(); int ignoreright = FALSE; int ignoreleft = FALSE; int code; // bail if no items if (numitems == 0) return; // if we hit select, return TRUE or pop the stack, depending on the item if (exclusive_input_pressed(IPT_UI_SELECT, 0)) { if (selected == numitems - 1) { menu_event.iptkey = IPT_UI_CANCEL; ui_menu::stack_pop(machine()); } return; } // hitting cancel also pops the stack if (exclusive_input_pressed(IPT_UI_CANCEL, 0)) { ui_menu::stack_pop(machine()); return; } // validate the current selection validate_selection(1); // swallow left/right keys if they are not appropriate ignoreleft = ((item[selected].flags & MENU_FLAG_LEFT_ARROW) == 0); ignoreright = ((item[selected].flags & MENU_FLAG_RIGHT_ARROW) == 0); // accept left/right keys as-is with repeat if (!ignoreleft && exclusive_input_pressed(IPT_UI_LEFT, (flags & UI_MENU_PROCESS_LR_REPEAT) ? 6 : 0)) return; if (!ignoreright && exclusive_input_pressed(IPT_UI_RIGHT, (flags & UI_MENU_PROCESS_LR_REPEAT) ? 6 : 0)) return; // up backs up by one item if (exclusive_input_pressed(IPT_UI_UP, 6)) { selected = (selected + numitems - 1) % numitems; validate_selection(-1); } // down advances by one item if (exclusive_input_pressed(IPT_UI_DOWN, 6)) { selected = (selected + 1) % numitems; validate_selection(1); } // page up backs up by visitems if (exclusive_input_pressed(IPT_UI_PAGE_UP, 6)) { selected -= visitems - 1; validate_selection(1); } // page down advances by visitems if (exclusive_input_pressed(IPT_UI_PAGE_DOWN, 6)) { selected += visitems - 1; validate_selection(-1); } // home goes to the start if (exclusive_input_pressed(IPT_UI_HOME, 0)) { selected = 0; validate_selection(1); } // end goes to the last if (exclusive_input_pressed(IPT_UI_END, 0)) { selected = numitems - 1; validate_selection(-1); } // pause enables/disables pause if (!ignorepause && exclusive_input_pressed(IPT_UI_PAUSE, 0)) { if (machine().paused()) machine().resume(); else machine().pause(); } // handle a toggle cheats request if (ui_input_pressed_repeat(machine(), IPT_UI_TOGGLE_CHEAT, 0)) machine().cheat().set_enable(!machine().cheat().enabled()); // see if any other UI keys are pressed if (menu_event.iptkey == IPT_INVALID) for (code = IPT_UI_FIRST + 1; code < IPT_UI_LAST; 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(code, 0)) break; } } //------------------------------------------------- // validate_selection - validate the // current selection and ensure it is on a // correct item //------------------------------------------------- void ui_menu::validate_selection(int scandir) { // clamp to be in range if (selected < 0) selected = 0; else if (selected >= numitems) selected = numitems - 1; // skip past unselectable items while (!item[selected].is_selectable()) selected = (selected + numitems + scandir) % numitems; } //------------------------------------------------- // clear_free_list - clear out anything // accumulated in the free list //------------------------------------------------- void ui_menu::clear_free_list(running_machine &machine) { while (menu_free != NULL) { ui_menu *menu = menu_free; menu_free = menu->parent; auto_free(machine, 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); } //------------------------------------------------- // stack_push - push a new menu onto the // stack //------------------------------------------------- void ui_menu::stack_push(ui_menu *menu) { menu->parent = menu_stack; menu_stack = menu; menu->reset(UI_MENU_RESET_SELECT_FIRST); ui_input_reset(menu->machine()); } //------------------------------------------------- // 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_menu::stack_has_special_main_menu - // check in the special main menu is in the stack //------------------------------------------------- bool ui_menu::stack_has_special_main_menu() { ui_menu *menu; for (menu = menu_stack; menu != NULL; menu = menu->parent) if (menu->is_special_main_menu()) return true; return false; } void ui_menu::do_handle() { if(!populated()) populate(); handle(); } /*************************************************************************** UI SYSTEM INTERACTION ***************************************************************************/ //------------------------------------------------- // ui_menu_ui_handler - displays the current menu // and calls the menu handler //------------------------------------------------- UINT32 ui_menu::ui_handler(running_machine &machine, render_container *container, UINT32 state) { // if we have no menus stacked up, start with the main menu if (menu_stack == NULL) stack_push(auto_alloc_clear(machine, ui_menu_main(machine, container))); // update the menu state if (menu_stack != NULL) menu_stack->do_handle(); // clear up anything pending to be released clear_free_list(machine); // if the menus are to be hidden, return a cancel here if (machine.ui().is_menu_active() && ((ui_input_pressed(machine, IPT_UI_CONFIGURE) && !stack_has_special_main_menu()) || menu_stack == NULL)) return UI_HANDLER_CANCEL; return 0; } /*************************************************************************** MENU HELPERS ***************************************************************************/ //------------------------------------------------- // render_triangle - render a triangle that // is used for up/down arrows and left/right // indicators //------------------------------------------------- void ui_menu::render_triangle(bitmap_argb32 &dest, bitmap_argb32 &source, const rectangle &sbounds, void *param) { int halfwidth = dest.width() / 2; int height = dest.height(); int x, y; // start with all-transparent dest.fill(rgb_t(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 = &dest.pix32(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 column we only consume one pixel if (x == 0) { dalpha = MIN(0xff, linewidth); target[x] = rgb_t(dalpha,0xff,0xff,0xff); } // remaining columns consume two pixels, one on each side else { dalpha = MIN(0x1fe, linewidth); target[x] = target[-x] = rgb_t(dalpha/2,0xff,0xff,0xff); } // account for the weight we consumed */ linewidth -= dalpha; } } } //------------------------------------------------- // highlight //------------------------------------------------- void ui_menu::highlight(render_container *container, float x0, float y0, float x1, float y1, rgb_t bgcolor) { container->add_quad(x0, y0, x1, y1, bgcolor, hilight_texture, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA) | PRIMFLAG_TEXWRAP(TRUE)); } //------------------------------------------------- // draw_arrow //------------------------------------------------- void ui_menu::draw_arrow(render_container *container, float x0, float y0, float x1, float y1, rgb_t fgcolor, UINT32 orientation) { container->add_quad( x0, y0, x1, y1, fgcolor, arrow_texture, PRIMFLAG_BLENDMODE(BLENDMODE_ALPHA) | PRIMFLAG_TEXORIENT(orientation)); }