#include "plugin.h" #include "lib/helper.h" #include "lib/configfile.h" #include "lib/oldmenuapi.h" #include "mpegplayer.h" #include "mpeg_settings.h" struct mpeg_settings settings; #define THUMB_DELAY (75*HZ/100) /* button definitions */ #if (CONFIG_KEYPAD == IRIVER_H100_PAD) || \ (CONFIG_KEYPAD == IRIVER_H300_PAD) #define MPEG_START_TIME_SELECT BUTTON_ON #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_UP BUTTON_UP #define MPEG_START_TIME_DOWN BUTTON_DOWN #define MPEG_START_TIME_EXIT BUTTON_OFF #elif (CONFIG_KEYPAD == IAUDIO_X5M5_PAD) #define MPEG_START_TIME_SELECT BUTTON_PLAY #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_UP BUTTON_UP #define MPEG_START_TIME_DOWN BUTTON_DOWN #define MPEG_START_TIME_EXIT BUTTON_POWER #elif (CONFIG_KEYPAD == IPOD_4G_PAD) || \ (CONFIG_KEYPAD == IPOD_3G_PAD) || \ (CONFIG_KEYPAD == IPOD_1G2G_PAD) #define MPEG_START_TIME_SELECT BUTTON_SELECT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_UP BUTTON_SCROLL_FWD #define MPEG_START_TIME_DOWN BUTTON_SCROLL_BACK #define MPEG_START_TIME_EXIT BUTTON_MENU #elif CONFIG_KEYPAD == GIGABEAT_PAD #define MPEG_START_TIME_SELECT BUTTON_SELECT #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_UP #define MPEG_START_TIME_DOWN BUTTON_DOWN #define MPEG_START_TIME_SCROLL_DOWN BUTTON_VOL_DOWN #define MPEG_START_TIME_SCROLL_UP BUTTON_VOL_UP #define MPEG_START_TIME_EXIT BUTTON_POWER #define MPEG_START_TIME_RC_SELECT (BUTTON_RC_PLAY | BUTTON_REL) #define MPEG_START_TIME_RC_LEFT BUTTON_RC_REW #define MPEG_START_TIME_RC_RIGHT BUTTON_RC_FF #define MPEG_START_TIME_RC_UP BUTTON_RC_VOL_UP #define MPEG_START_TIME_RC_DOWN BUTTON_RC_VOL_DOWN #define MPEG_START_TIME_RC_EXIT (BUTTON_RC_PLAY | BUTTON_REPEAT) #elif CONFIG_KEYPAD == GIGABEAT_S_PAD #define MPEG_START_TIME_SELECT BUTTON_SELECT #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_UP #define MPEG_START_TIME_DOWN BUTTON_DOWN #define MPEG_START_TIME_SCROLL_DOWN BUTTON_VOL_DOWN #define MPEG_START_TIME_SCROLL_UP BUTTON_VOL_UP #define MPEG_START_TIME_EXIT BUTTON_POWER #elif CONFIG_KEYPAD == IRIVER_H10_PAD #define MPEG_START_TIME_SELECT BUTTON_PLAY #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_SCROLL_UP #define MPEG_START_TIME_DOWN BUTTON_SCROLL_DOWN #define MPEG_START_TIME_EXIT BUTTON_POWER #elif (CONFIG_KEYPAD == SANSA_E200_PAD) \ || (CONFIG_KEYPAD == SANSA_FUZE_PAD) #define MPEG_START_TIME_SELECT BUTTON_SELECT #define MPEG_START_TIME_SCROLL_UP BUTTON_SCROLL_BACK #define MPEG_START_TIME_SCROLL_DOWN BUTTON_SCROLL_FWD #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_UP #define MPEG_START_TIME_DOWN BUTTON_DOWN #define MPEG_START_TIME_EXIT BUTTON_POWER #elif (CONFIG_KEYPAD == SANSA_C200_PAD) || \ (CONFIG_KEYPAD == SANSA_CLIP_PAD) || \ (CONFIG_KEYPAD == SANSA_M200_PAD) #define MPEG_START_TIME_SELECT BUTTON_SELECT #define MPEG_START_TIME_SCROLL_UP BUTTON_VOL_UP #define MPEG_START_TIME_SCROLL_DOWN BUTTON_VOL_DOWN #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_UP #define MPEG_START_TIME_DOWN BUTTON_DOWN #define MPEG_START_TIME_EXIT BUTTON_POWER #elif CONFIG_KEYPAD == MROBE500_PAD #define MPEG_START_TIME_SELECT BUTTON_RC_HEART #define MPEG_START_TIME_SCROLL_UP BUTTON_RC_VOL_UP #define MPEG_START_TIME_SCROLL_DOWN BUTTON_RC_VOL_DOWN #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_RC_PLAY #define MPEG_START_TIME_DOWN BUTTON_RC_DOWN #define MPEG_START_TIME_EXIT BUTTON_POWER #elif CONFIG_KEYPAD == MROBE100_PAD #define MPEG_START_TIME_SELECT BUTTON_SELECT #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_UP #define MPEG_START_TIME_DOWN BUTTON_DOWN #define MPEG_START_TIME_SCROLL_DOWN BUTTON_MENU #define MPEG_START_TIME_SCROLL_UP BUTTON_PLAY #define MPEG_START_TIME_EXIT BUTTON_POWER #elif CONFIG_KEYPAD == IAUDIO_M3_PAD #define MPEG_START_TIME_SELECT BUTTON_RC_PLAY #define MPEG_START_TIME_LEFT BUTTON_RC_REW #define MPEG_START_TIME_RIGHT BUTTON_RC_FF #define MPEG_START_TIME_UP BUTTON_RC_VOL_UP #define MPEG_START_TIME_DOWN BUTTON_RC_VOL_DOWN #define MPEG_START_TIME_EXIT BUTTON_RC_REC #elif CONFIG_KEYPAD == COWOND2_PAD #define MPEG_START_TIME_EXIT BUTTON_POWER #elif CONFIG_KEYPAD == IAUDIO67_PAD #define MPEG_START_TIME_SELECT BUTTON_MENU #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_STOP #define MPEG_START_TIME_DOWN BUTTON_PLAY #define MPEG_START_TIME_EXIT BUTTON_POWER #elif CONFIG_KEYPAD == CREATIVEZVM_PAD #define MPEG_START_TIME_SELECT BUTTON_SELECT #define MPEG_START_TIME_SCROLL_UP BUTTON_PLAY #define MPEG_START_TIME_SCROLL_DOWN BUTTON_MENU #define MPEG_START_TIME_LEFT BUTTON_LEFT #define MPEG_START_TIME_RIGHT BUTTON_RIGHT #define MPEG_START_TIME_UP BUTTON_UP #define MPEG_START_TIME_DOWN BUTTON_DOWN #define MPEG_START_TIME_EXIT BUTTON_BACK #else #error No keymap defined! #endif #ifdef HAVE_TOUCHSCREEN #ifndef MPEG_START_TIME_SELECT #define MPEG_START_TIME_SELECT BUTTON_CENTER #endif #ifndef MPEG_START_TIME_SCROLL_UP #define MPEG_START_TIME_SCROLL_UP BUTTON_TOPRIGHT #endif #ifndef MPEG_START_TIME_SCROLL_DOWN #define MPEG_START_TIME_SCROLL_DOWN BUTTON_TOPLEFT #endif #ifndef MPEG_START_TIME_LEFT #define MPEG_START_TIME_LEFT BUTTON_MIDLEFT #endif #ifndef MPEG_START_TIME_RIGHT #define MPEG_START_TIME_RIGHT BUTTON_MIDRIGHT #endif #ifndef MPEG_START_TIME_UP #define MPEG_START_TIME_UP BUTTON_TOPMIDDLE #endif #ifndef MPEG_START_TIME_DOWN #define MPEG_START_TIME_DOWN BUTTON_BOTTOMMIDDLE #endif #ifndef MPEG_START_TIME_EXIT #define MPEG_START_TIME_EXIT BUTTON_TOPLEFT #endif #endif static struct configdata config[] = { {TYPE_INT, 0, 2, &settings.showfps, "Show FPS", NULL, NULL}, {TYPE_INT, 0, 2, &settings.limitfps, "Limit FPS", NULL, NULL}, {TYPE_INT, 0, 2, &settings.skipframes, "Skip frames", NULL, NULL}, {TYPE_INT, 0, INT_MAX, &settings.resume_count, "Resume count", NULL, NULL}, {TYPE_INT, 0, MPEG_RESUME_NUM_OPTIONS, &settings.resume_options, "Resume options", NULL, NULL}, #if defined(TOSHIBA_GIGABEAT_F) || defined(SANSA_E200) || defined(SANSA_C200) {TYPE_INT, 0, INT_MAX, &settings.displayoptions, "Display options", NULL, NULL}, #endif {TYPE_INT, 0, 2, &settings.tone_controls, "Tone controls", NULL, NULL}, {TYPE_INT, 0, 2, &settings.channel_modes, "Channel modes", NULL, NULL}, {TYPE_INT, 0, 2, &settings.crossfeed, "Crossfeed", NULL, NULL}, {TYPE_INT, 0, 2, &settings.equalizer, "Equalizer", NULL, NULL}, {TYPE_INT, 0, 2, &settings.dithering, "Dithering", NULL, NULL}, #ifdef HAVE_BACKLIGHT_BRIGHTNESS {TYPE_INT, -1, INT_MAX, &settings.backlight_brightness, "Backlight brightness", NULL, NULL}, #endif }; static const struct opt_items noyes[2] = { { "No", -1 }, { "Yes", -1 }, }; static const struct opt_items enabledisable[2] = { { "Disable", -1 }, { "Enable", -1 }, }; static const struct opt_items globaloff[2] = { { "Force off", -1 }, { "Use sound setting", -1 }, }; #ifdef HAVE_BACKLIGHT_BRIGHTNESS #define BACKLIGHT_OPTION_DEFAULT "Use setting" #endif static long mpeg_menu_sysevent_id; void mpeg_menu_sysevent_clear(void) { mpeg_menu_sysevent_id = 0; } int mpeg_menu_sysevent_callback(int btn, int menu) { switch (btn) { case SYS_USB_CONNECTED: case SYS_POWEROFF: mpeg_menu_sysevent_id = btn; return ACTION_STD_CANCEL; } return btn; (void)menu; } long mpeg_menu_sysevent(void) { return mpeg_menu_sysevent_id; } void mpeg_menu_sysevent_handle(void) { long id = mpeg_menu_sysevent(); if (id != 0) rb->default_event_handler(id); } static void format_menu_item(struct menu_item *item, int bufsize, const char *fmt, ...) { va_list ap; va_start(ap, fmt); rb->vsnprintf(item->desc, bufsize, fmt, ap); va_end(ap); } static bool mpeg_set_option(const char* string, void* variable, enum optiontype type, const struct opt_items* options, int numoptions, void (*function)(int)) { mpeg_menu_sysevent_clear(); /* This eats SYS_POWEROFF - :\ */ bool usb = rb->set_option(string, variable, type, options, numoptions, function); if (usb) mpeg_menu_sysevent_id = ACTION_STD_CANCEL; return usb; } #ifdef HAVE_BACKLIGHT_BRIGHTNESS /* Only used for this atm */ static bool mpeg_set_int(const char *string, const char *unit, int voice_unit, const int *variable, void (*function)(int), int step, int min, int max, void (*formatter)(char*, size_t, int, const char*)) { mpeg_menu_sysevent_clear(); bool usb = rb->set_int(string, unit, voice_unit, variable, function, step, min, max, formatter); if (usb) mpeg_menu_sysevent_id = ACTION_STD_CANCEL; return usb; } #endif /* HAVE_BACKLIGHT_BRIGHTNESS */ #ifdef HAVE_BACKLIGHT_BRIGHTNESS void mpeg_backlight_update_brightness(int value) { if (value >= 0) { value += MIN_BRIGHTNESS_SETTING; backlight_brightness_set(rb, value); } else { backlight_brightness_use_setting(rb); } } static void backlight_brightness_function(int value) { mpeg_backlight_update_brightness(value); } static void backlight_brightness_formatter(char *buf, size_t length, int value, const char *input) { if (value < 0) rb->strncpy(buf, BACKLIGHT_OPTION_DEFAULT, length); else rb->snprintf(buf, length, "%d", value + MIN_BRIGHTNESS_SETTING); (void)input; } #endif /* HAVE_BACKLIGHT_BRIGHTNESS */ /* Sync a particular audio setting to global or mpegplayer forced off */ static void sync_audio_setting(int setting, bool global) { int val0, val1; switch (setting) { case MPEG_AUDIO_TONE_CONTROLS: if (global || settings.tone_controls) { val0 = rb->global_settings->bass; val1 = rb->global_settings->treble; } else { val0 = rb->sound_default(SOUND_BASS); val1 = rb->sound_default(SOUND_TREBLE); } rb->sound_set(SOUND_BASS, val0); rb->sound_set(SOUND_TREBLE, val1); break; case MPEG_AUDIO_CHANNEL_MODES: val0 = (global || settings.channel_modes) ? rb->global_settings->channel_config : SOUND_CHAN_STEREO; rb->sound_set(SOUND_CHANNELS, val0); break; case MPEG_AUDIO_CROSSFEED: rb->dsp_set_crossfeed((global || settings.crossfeed) ? rb->global_settings->crossfeed : false); break; case MPEG_AUDIO_EQUALIZER: rb->dsp_set_eq((global || settings.equalizer) ? rb->global_settings->eq_enabled : false); break; case MPEG_AUDIO_DITHERING: rb->dsp_dither_enable((global || settings.dithering) ? rb->global_settings->dithering_enabled : false); break; } } /* Sync all audio settings to global or mpegplayer forced off */ static void sync_audio_settings(bool global) { static const int setting_index[] = { MPEG_AUDIO_TONE_CONTROLS, MPEG_AUDIO_CHANNEL_MODES, MPEG_AUDIO_CROSSFEED, MPEG_AUDIO_EQUALIZER, MPEG_AUDIO_DITHERING, }; unsigned i; for (i = 0; i < ARRAYLEN(setting_index); i++) { sync_audio_setting(setting_index[i], global); } } #ifndef HAVE_LCD_COLOR /* Cheapo splash implementation for the grey surface */ static void grey_splash(int ticks, const unsigned char *fmt, ...) { unsigned char buffer[256]; int x, y, w, h; int oldfg, oldmode; va_list ap; va_start(ap, fmt); rb->vsnprintf(buffer, sizeof (buffer), fmt, ap); va_end(ap); grey_getstringsize(buffer, &w, &h); oldfg = grey_get_foreground(); oldmode = grey_get_drawmode(); grey_set_drawmode(DRMODE_FG); grey_set_foreground(GREY_LIGHTGRAY); x = (LCD_WIDTH - w) / 2; y = (LCD_HEIGHT - h) / 2; grey_fillrect(x - 1, y - 1, w + 2, h + 2); grey_set_foreground(GREY_BLACK); grey_putsxy(x, y, buffer); grey_drawrect(x - 2, y - 2, w + 4, h + 4); grey_set_foreground(oldfg); grey_set_drawmode(oldmode); grey_update(); if (ticks > 0) rb->sleep(ticks); } #endif /* !HAVE_LCD_COLOR */ static void show_loading(struct vo_rect *rc) { int oldmode = lcd_(get_drawmode)(); lcd_(set_drawmode)(DRMODE_SOLID | DRMODE_INVERSEVID); lcd_(fillrect)(rc->l-1, rc->t-1, rc->r - rc->l + 2, rc->b - rc->t + 2); lcd_(set_drawmode)(oldmode); lcd_(splash)(0, "Loading..."); } static void draw_slider(uint32_t range, uint32_t pos, struct vo_rect *rc) { #define SLIDER_WIDTH (LCD_WIDTH-SLIDER_LMARGIN-SLIDER_RMARGIN) #define SLIDER_X SLIDER_LMARGIN #define SLIDER_Y (LCD_HEIGHT-SLIDER_HEIGHT-SLIDER_BMARGIN) #define SLIDER_HEIGHT 8 #define SLIDER_TEXTMARGIN 1 #define SLIDER_LMARGIN 1 #define SLIDER_RMARGIN 1 #define SLIDER_TMARGIN 1 #define SLIDER_BMARGIN 1 #define SCREEN_MARGIN 1 struct hms hms; char str[32]; int text_w, text_h, text_y; /* Put positition on left */ ts_to_hms(pos, &hms); hms_format(str, sizeof(str), &hms); lcd_(getstringsize)(str, NULL, &text_h); text_y = SLIDER_Y - SLIDER_TEXTMARGIN - text_h; if (rc == NULL) { int oldmode = lcd_(get_drawmode)(); lcd_(set_drawmode)(DRMODE_BG | DRMODE_INVERSEVID); lcd_(fillrect)(SLIDER_X, text_y, SLIDER_WIDTH, LCD_HEIGHT - SLIDER_BMARGIN - text_y - SLIDER_TMARGIN); lcd_(set_drawmode)(oldmode); lcd_(putsxy)(SLIDER_X, text_y, str); /* Put duration on right */ ts_to_hms(range, &hms); hms_format(str, sizeof(str), &hms); lcd_(getstringsize)(str, &text_w, NULL); lcd_(putsxy)(SLIDER_X + SLIDER_WIDTH - text_w, text_y, str); /* Draw slider */ lcd_(drawrect)(SLIDER_X, SLIDER_Y, SLIDER_WIDTH, SLIDER_HEIGHT); lcd_(fillrect)(SLIDER_X, SLIDER_Y, muldiv_uint32(pos, SLIDER_WIDTH, range), SLIDER_HEIGHT); /* Update screen */ lcd_(update_rect)(SLIDER_X, text_y - SLIDER_TMARGIN, SLIDER_WIDTH, LCD_HEIGHT - SLIDER_BMARGIN - text_y + SLIDER_TEXTMARGIN); } else { /* Just return slider rectangle */ rc->l = SLIDER_X; rc->t = text_y - SLIDER_TMARGIN; rc->r = rc->l + SLIDER_WIDTH; rc->b = rc->t + LCD_HEIGHT - SLIDER_BMARGIN - text_y; } } static bool display_thumb_image(const struct vo_rect *rc) { if (!stream_display_thumb(rc)) { lcd_(splash)(0, "Frame not available"); return false; } /* Draw a raised border around the frame */ int oldcolor = lcd_(get_foreground)(); lcd_(set_foreground)(DRAW_LIGHTGRAY); lcd_(hline)(rc->l-1, rc->r-1, rc->t-1); lcd_(vline)(rc->l-1, rc->t, rc->b-1); lcd_(set_foreground)(DRAW_DARKGRAY); lcd_(hline)(rc->l-1, rc->r, rc->b); lcd_(vline)(rc->r, rc->t-1, rc->b); lcd_(set_foreground)(oldcolor); lcd_(update_rect)(rc->l-1, rc->t-1, rc->r - rc->l + 2, 1); lcd_(update_rect)(rc->l-1, rc->t, 1, rc->b - rc->t); lcd_(update_rect)(rc->l-1, rc->b, rc->r - rc->l + 2, 1); lcd_(update_rect)(rc->r, rc->t, 1, rc->b - rc->t); return true; } /* Add an amount to the specified time - with saturation */ static uint32_t increment_time(uint32_t val, int32_t amount, uint32_t range) { if (amount < 0) { uint32_t off = -amount; if (range > off && val >= off) val -= off; else val = 0; } else if (amount > 0) { uint32_t off = amount; if (range > off && val <= range - off) val += off; else val = range; } return val; } #if defined(HAVE_LCD_ENABLE) && defined(HAVE_LCD_COLOR) static void get_start_time_lcd_enable_hook(void) { rb->queue_post(rb->button_queue, LCD_ENABLE_EVENT_0, 0); } #endif /* HAVE_LCD_ENABLE */ static int get_start_time(uint32_t duration) { int button = 0; int tmo = TIMEOUT_NOBLOCK; uint32_t resume_time = settings.resume_time; struct vo_rect rc_vid, rc_bound; uint32_t aspect_vid, aspect_bound; enum state_enum slider_state = state0; lcd_(clear_display)(); lcd_(update)(); #if defined(HAVE_LCD_ENABLE) && defined(HAVE_LCD_COLOR) rb->lcd_set_enable_hook(get_start_time_lcd_enable_hook); #endif draw_slider(0, 100, &rc_bound); rc_bound.b = rc_bound.t - SLIDER_TMARGIN; rc_bound.t = SCREEN_MARGIN; DEBUGF("rc_bound: %d, %d, %d, %d\n", rc_bound.l, rc_bound.t, rc_bound.r, rc_bound.b); rc_vid.l = rc_vid.t = 0; if (!stream_vo_get_size((struct vo_ext *)&rc_vid.r)) { /* Can't get size - fill whole thing */ rc_vid.r = rc_bound.r - rc_bound.l; rc_vid.b = rc_bound.b - rc_bound.t; } /* Get aspect ratio of bounding rectangle and video in u16.16 */ aspect_bound = ((rc_bound.r - rc_bound.l) << 16) / (rc_bound.b - rc_bound.t); DEBUGF("aspect_bound: %u.%02u\n", (unsigned)(aspect_bound >> 16), (unsigned)(100*(aspect_bound & 0xffff) >> 16)); aspect_vid = (rc_vid.r << 16) / rc_vid.b; DEBUGF("aspect_vid: %u.%02u\n", (unsigned)(aspect_vid >> 16), (unsigned)(100*(aspect_vid & 0xffff) >> 16)); if (aspect_vid >= aspect_bound) { /* Video proportionally wider than or same as bounding rectangle */ if (rc_vid.r > rc_bound.r - rc_bound.l) { rc_vid.r = rc_bound.r - rc_bound.l; rc_vid.b = (rc_vid.r << 16) / aspect_vid; } /* else already fits */ } else { /* Video proportionally narrower than bounding rectangle */ if (rc_vid.b > rc_bound.b - rc_bound.t) { rc_vid.b = rc_bound.b - rc_bound.t; rc_vid.r = (aspect_vid * rc_vid.b) >> 16; } /* else already fits */ } /* Even width and height >= 2 */ rc_vid.r = (rc_vid.r < 2) ? 2 : (rc_vid.r & ~1); rc_vid.b = (rc_vid.b < 2) ? 2 : (rc_vid.b & ~1); /* Center display in bounding rectangle */ rc_vid.l = ((rc_bound.l + rc_bound.r) - rc_vid.r) / 2; rc_vid.r += rc_vid.l; rc_vid.t = ((rc_bound.t + rc_bound.b) - rc_vid.b) / 2; rc_vid.b += rc_vid.t; DEBUGF("rc_vid: %d, %d, %d, %d\n", rc_vid.l, rc_vid.t, rc_vid.r, rc_vid.b); #ifndef HAVE_LCD_COLOR stream_gray_show(true); #endif while (slider_state < state9) { mpeg_menu_sysevent_clear(); button = tmo == TIMEOUT_BLOCK ? rb->button_get(true) : rb->button_get_w_tmo(tmo); button = mpeg_menu_sysevent_callback(button, -1); switch (button) { case BUTTON_NONE: break; /* Coarse (1 minute) control */ case MPEG_START_TIME_DOWN: case MPEG_START_TIME_DOWN | BUTTON_REPEAT: #ifdef MPEG_START_TIME_RC_DOWN case MPEG_START_TIME_RC_DOWN: case MPEG_START_TIME_RC_DOWN | BUTTON_REPEAT: #endif resume_time = increment_time(resume_time, -60*TS_SECOND, duration); slider_state = state0; break; case MPEG_START_TIME_UP: case MPEG_START_TIME_UP | BUTTON_REPEAT: #ifdef MPEG_START_TIME_RC_UP case MPEG_START_TIME_RC_UP: case MPEG_START_TIME_RC_UP | BUTTON_REPEAT: #endif resume_time = increment_time(resume_time, 60*TS_SECOND, duration); slider_state = state0; break; /* Fine (1 second) control */ case MPEG_START_TIME_LEFT: case MPEG_START_TIME_LEFT | BUTTON_REPEAT: #ifdef MPEG_START_TIME_RC_LEFT case MPEG_START_TIME_RC_LEFT: case MPEG_START_TIME_RC_LEFT | BUTTON_REPEAT: #endif #ifdef MPEG_START_TIME_SCROLL_UP case MPEG_START_TIME_SCROLL_UP: case MPEG_START_TIME_SCROLL_UP | BUTTON_REPEAT: #endif resume_time = increment_time(resume_time, -TS_SECOND, duration); slider_state = state0; break; case MPEG_START_TIME_RIGHT: case MPEG_START_TIME_RIGHT | BUTTON_REPEAT: #ifdef MPEG_START_TIME_RC_RIGHT case MPEG_START_TIME_RC_RIGHT: case MPEG_START_TIME_RC_RIGHT | BUTTON_REPEAT: #endif #ifdef MPEG_START_TIME_SCROLL_DOWN case MPEG_START_TIME_SCROLL_DOWN: case MPEG_START_TIME_SCROLL_DOWN | BUTTON_REPEAT: #endif resume_time = increment_time(resume_time, TS_SECOND, duration); slider_state = state0; break; case MPEG_START_TIME_SELECT: #ifdef MPEG_START_TIME_RC_SELECT case MPEG_START_TIME_RC_SELECT: #endif settings.resume_time = resume_time; button = MPEG_START_SEEK; slider_state = state9; break; case MPEG_START_TIME_EXIT: #ifdef MPEG_START_TIME_RC_EXIT case MPEG_START_TIME_RC_EXIT: #endif button = MPEG_START_EXIT; slider_state = state9; break; case ACTION_STD_CANCEL: button = MPEG_START_QUIT; slider_state = state9; break; #ifdef HAVE_LCD_ENABLE case LCD_ENABLE_EVENT_0: if (slider_state == state2) display_thumb_image(&rc_vid); continue; #endif default: rb->default_event_handler(button); rb->yield(); continue; } switch (slider_state) { case state0: trigger_cpu_boost(); stream_seek(resume_time, SEEK_SET); show_loading(&rc_bound); draw_slider(duration, resume_time, NULL); slider_state = state1; tmo = THUMB_DELAY; break; case state1: display_thumb_image(&rc_vid); slider_state = state2; case state2: cancel_cpu_boost(); tmo = TIMEOUT_BLOCK; default: break; } rb->yield(); } #ifdef HAVE_LCD_COLOR #ifdef HAVE_LCD_ENABLE rb->lcd_set_enable_hook(NULL); #endif #else stream_gray_show(false); grey_clear_display(); grey_update(); #endif cancel_cpu_boost(); return button; } static int show_start_menu(uint32_t duration) { int menu_id; int result = 0; bool menu_quit = false; /* add the resume time to the menu display */ char resume_str[32]; char hms_str[32]; struct hms hms; struct menu_item items[] = { [MPEG_START_RESTART] = { "Play from beginning", NULL }, [MPEG_START_RESUME] = { resume_str, NULL }, [MPEG_START_SEEK] = { "Set start time", NULL }, [MPEG_START_SETTINGS] = { "Settings", NULL }, [MPEG_START_QUIT] = { "Quit mpegplayer", NULL }, }; ts_to_hms(settings.resume_time, &hms); hms_format(hms_str, sizeof(hms_str), &hms); format_menu_item(&items[MPEG_START_RESUME], sizeof (resume_str), "Resume at: %s", hms_str); menu_id = menu_init(rb, items, ARRAYLEN(items), mpeg_menu_sysevent_callback, NULL, NULL, NULL); rb->button_clear_queue(); while (!menu_quit) { mpeg_menu_sysevent_clear(); result = menu_show(menu_id); switch (result) { case MPEG_START_RESTART: settings.resume_time = 0; menu_quit = true; break; case MPEG_START_RESUME: menu_quit = true; break; case MPEG_START_SEEK: if (!stream_can_seek()) { rb->splash(HZ, "Unavailable"); break; } result = get_start_time(duration); if (result != MPEG_START_EXIT) menu_quit = true; break; case MPEG_START_SETTINGS: if (mpeg_menu(MPEG_MENU_HIDE_QUIT_ITEM) != MPEG_MENU_QUIT) break; /* Fall-through */ default: result = MPEG_START_QUIT; menu_quit = true; break; } if (mpeg_menu_sysevent() != 0) { result = MPEG_START_QUIT; menu_quit = true; } } menu_exit(menu_id); rb->lcd_clear_display(); rb->lcd_update(); return result; } /* Return the desired resume action */ int mpeg_start_menu(uint32_t duration) { mpeg_menu_sysevent_clear(); switch (settings.resume_options) { case MPEG_RESUME_MENU_IF_INCOMPLETE: if (!stream_can_seek() || settings.resume_time == 0) { case MPEG_RESUME_RESTART: settings.resume_time = 0; return MPEG_START_RESTART; } default: case MPEG_RESUME_MENU_ALWAYS: return show_start_menu(duration); case MPEG_RESUME_ALWAYS: return MPEG_START_SEEK; } } /** MPEG Menu **/ static void display_options(void) { int result; int menu_id; bool menu_quit = false; static const struct menu_item items[] = { #if MPEG_OPTION_DITHERING_ENABLED [MPEG_OPTION_DITHERING] = { "Dithering", NULL }, #endif [MPEG_OPTION_DISPLAY_FPS] = { "Display FPS", NULL }, [MPEG_OPTION_LIMIT_FPS] = { "Limit FPS", NULL }, [MPEG_OPTION_SKIP_FRAMES] = { "Skip frames", NULL }, #ifdef HAVE_BACKLIGHT_BRIGHTNESS [MPEG_OPTION_BACKLIGHT_BRIGHTNESS] = { "Backlight brightness", NULL }, #endif }; menu_id = menu_init(rb, items, ARRAYLEN(items), mpeg_menu_sysevent_callback, NULL, NULL, NULL); rb->button_clear_queue(); while (!menu_quit) { mpeg_menu_sysevent_clear(); result = menu_show(menu_id); switch (result) { #if MPEG_OPTION_DITHERING_ENABLED case MPEG_OPTION_DITHERING: result = (settings.displayoptions & LCD_YUV_DITHER) ? 1 : 0; mpeg_set_option("Dithering", &result, INT, noyes, 2, NULL); settings.displayoptions = (settings.displayoptions & ~LCD_YUV_DITHER) | ((result != 0) ? LCD_YUV_DITHER : 0); rb->lcd_yuv_set_options(settings.displayoptions); break; #endif /* MPEG_OPTION_DITHERING_ENABLED */ case MPEG_OPTION_DISPLAY_FPS: mpeg_set_option("Display FPS", &settings.showfps, INT, noyes, 2, NULL); break; case MPEG_OPTION_LIMIT_FPS: mpeg_set_option("Limit FPS", &settings.limitfps, INT, noyes, 2, NULL); break; case MPEG_OPTION_SKIP_FRAMES: mpeg_set_option("Skip frames", &settings.skipframes, INT, noyes, 2, NULL); break; #ifdef HAVE_BACKLIGHT_BRIGHTNESS case MPEG_OPTION_BACKLIGHT_BRIGHTNESS: result = settings.backlight_brightness; mpeg_backlight_update_brightness(result); mpeg_set_int("Backlight brightness", NULL, -1, &result, backlight_brightness_function, 1, -1, MAX_BRIGHTNESS_SETTING - MIN_BRIGHTNESS_SETTING, backlight_brightness_formatter); settings.backlight_brightness = result; mpeg_backlight_update_brightness(-1); break; #endif /* HAVE_BACKLIGHT_BRIGHTNESS */ default: menu_quit = true; break; } if (mpeg_menu_sysevent() != 0) menu_quit = true; } menu_exit(menu_id); } static void audio_options(void) { int result; int menu_id; bool menu_quit = false; static const struct menu_item items[] = { [MPEG_AUDIO_TONE_CONTROLS] = { "Tone Controls", NULL }, [MPEG_AUDIO_CHANNEL_MODES] = { "Channel Modes", NULL }, [MPEG_AUDIO_CROSSFEED] = { "Crossfeed", NULL }, [MPEG_AUDIO_EQUALIZER] = { "Equalizer", NULL }, [MPEG_AUDIO_DITHERING] = { "Dithering", NULL }, }; menu_id = menu_init(rb, items, ARRAYLEN(items), mpeg_menu_sysevent_callback, NULL, NULL, NULL); rb->button_clear_queue(); while (!menu_quit) { mpeg_menu_sysevent_clear(); result = menu_show(menu_id); switch (result) { case MPEG_AUDIO_TONE_CONTROLS: mpeg_set_option("Tone Controls", &settings.tone_controls, INT, globaloff, 2, NULL); sync_audio_setting(result, false); break; case MPEG_AUDIO_CHANNEL_MODES: mpeg_set_option("Channel Modes", &settings.channel_modes, INT, globaloff, 2, NULL); sync_audio_setting(result, false); break; case MPEG_AUDIO_CROSSFEED: mpeg_set_option("Crossfeed", &settings.crossfeed, INT, globaloff, 2, NULL); sync_audio_setting(result, false); break; case MPEG_AUDIO_EQUALIZER: mpeg_set_option("Equalizer", &settings.equalizer, INT, globaloff, 2, NULL); sync_audio_setting(result, false); break; case MPEG_AUDIO_DITHERING: mpeg_set_option("Dithering", &settings.dithering, INT, globaloff, 2, NULL); sync_audio_setting(result, false); break; default: menu_quit = true; break; } if (mpeg_menu_sysevent() != 0) menu_quit = true; } menu_exit(menu_id); } static void resume_options(void) { static const struct opt_items items[MPEG_RESUME_NUM_OPTIONS] = { [MPEG_RESUME_MENU_ALWAYS] = { "Start menu", -1 }, [MPEG_RESUME_MENU_IF_INCOMPLETE] = { "Start menu if not completed", -1 }, [MPEG_RESUME_ALWAYS] = { "Resume automatically", -1 }, [MPEG_RESUME_RESTART] = { "Play from beginning", -1 }, }; mpeg_set_option("Resume Options", &settings.resume_options, INT, items, MPEG_RESUME_NUM_OPTIONS, NULL); } static void clear_resume_count(void) { configfile_save(SETTINGS_FILENAME, config, ARRAYLEN(config), SETTINGS_VERSION); settings.resume_count = 0; /* add this place holder so the count is above resume entries */ configfile_update_entry(SETTINGS_FILENAME, "Resume count", 0); } int mpeg_menu(unsigned flags) { int menu_id; int result; bool menu_quit = false; int item_count; char clear_str[32]; struct menu_item items[] = { [MPEG_MENU_DISPLAY_SETTINGS] = { "Display Options", NULL }, [MPEG_MENU_AUDIO_SETTINGS] = { "Audio Options", NULL }, [MPEG_MENU_ENABLE_START_MENU] = { "Resume Options", NULL }, [MPEG_MENU_CLEAR_RESUMES] = { clear_str, NULL }, [MPEG_MENU_QUIT] = { "Quit mpegplayer", NULL }, }; item_count = ARRAYLEN(items); if (flags & MPEG_MENU_HIDE_QUIT_ITEM) item_count--; menu_id = menu_init(rb, items, item_count, mpeg_menu_sysevent_callback, NULL, NULL, NULL); rb->button_clear_queue(); while (!menu_quit) { mpeg_menu_sysevent_clear(); /* Format and add resume option to the menu display */ format_menu_item(&items[MPEG_MENU_CLEAR_RESUMES], sizeof(clear_str), "Clear all resumes: %u", settings.resume_count); result = menu_show(menu_id); switch (result) { case MPEG_MENU_DISPLAY_SETTINGS: display_options(); break; case MPEG_MENU_AUDIO_SETTINGS: audio_options(); break; case MPEG_MENU_ENABLE_START_MENU: resume_options(); break; case MPEG_MENU_CLEAR_RESUMES: clear_resume_count(); break; case MPEG_MENU_QUIT: default: menu_quit = true; break; } if (mpeg_menu_sysevent() != 0) { result = MPEG_MENU_QUIT; menu_quit = true; } } menu_exit(menu_id); rb->lcd_clear_display(); rb->lcd_update(); return result; } void init_settings(const char* filename) { /* Set the default settings */ settings.showfps = 0; /* Do not show FPS */ settings.limitfps = 1; /* Limit FPS */ settings.skipframes = 1; /* Skip frames */ settings.resume_options = MPEG_RESUME_MENU_ALWAYS; /* Enable start menu */ settings.resume_count = -1; #ifdef HAVE_BACKLIGHT_BRIGHTNESS settings.backlight_brightness = -1; /* Use default setting */ #endif #if MPEG_OPTION_DITHERING_ENABLED settings.displayoptions = 0; /* No visual effects */ #endif settings.tone_controls = false; settings.channel_modes = false; settings.crossfeed = false; settings.equalizer = false; settings.dithering = false; configfile_init(rb); if (configfile_load(SETTINGS_FILENAME, config, sizeof(config)/sizeof(*config), SETTINGS_MIN_VERSION) < 0) { /* Generate a new config file with default values */ configfile_save(SETTINGS_FILENAME, config, sizeof(config)/sizeof(*config), SETTINGS_VERSION); } #if MPEG_OPTION_DITHERING_ENABLED if ((settings.displayoptions = configfile_get_value(SETTINGS_FILENAME, "Display options")) < 0) { configfile_update_entry(SETTINGS_FILENAME, "Display options", (settings.displayoptions=0)); } rb->lcd_yuv_set_options(settings.displayoptions); #endif if (settings.resume_count < 0) { settings.resume_count = 0; configfile_update_entry(SETTINGS_FILENAME, "Resume count", 0); } rb->snprintf(settings.resume_filename, MAX_PATH, "%s", filename); /* get the resume time for the current mpeg if it exist */ if ((settings.resume_time = configfile_get_value (SETTINGS_FILENAME, filename)) < 0) { settings.resume_time = 0; } /* Set our audio options */ sync_audio_settings(false); } void save_settings(void) { configfile_update_entry(SETTINGS_FILENAME, "Show FPS", settings.showfps); configfile_update_entry(SETTINGS_FILENAME, "Limit FPS", settings.limitfps); configfile_update_entry(SETTINGS_FILENAME, "Skip frames", settings.skipframes); configfile_update_entry(SETTINGS_FILENAME, "Resume options", settings.resume_options); /* If this was a new resume entry then update the total resume count */ if (configfile_update_entry(SETTINGS_FILENAME, settings.resume_filename, settings.resume_time) == 0) { configfile_update_entry(SETTINGS_FILENAME, "Resume count", ++settings.resume_count); } #ifdef HAVE_BACKLIGHT_BRIGHTNESS configfile_update_entry(SETTINGS_FILENAME, "Backlight brightness", settings.backlight_brightness); #endif #if MPEG_OPTION_DITHERING_ENABLED configfile_update_entry(SETTINGS_FILENAME, "Display options", settings.displayoptions); #endif configfile_update_entry(SETTINGS_FILENAME, "Tone controls", settings.tone_controls); configfile_update_entry(SETTINGS_FILENAME, "Channel modes", settings.channel_modes); configfile_update_entry(SETTINGS_FILENAME, "Crossfeed", settings.crossfeed); configfile_update_entry(SETTINGS_FILENAME, "Equalizer", settings.equalizer); configfile_update_entry(SETTINGS_FILENAME, "Dithering", settings.dithering); /* Restore audio options */ sync_audio_settings(true); }