/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2009 - Jonathan Gordon * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "config.h" #include #include "action.h" #include "skin_engine.h" #include "wps_internals.h" #include "misc.h" #include "option_select.h" #include "sound.h" #include "settings_list.h" #include "wps.h" #include "lang.h" #include "splash.h" #include "playlist.h" #include "dsp_misc.h" /** Disarms all touchregions. */ void skin_disarm_touchregions(struct gui_wps *gwps) { struct wps_data *data = gwps->data; char* skin_buffer = get_skin_buffer(data); struct skin_token_list *regions = SKINOFFSETTOPTR(skin_buffer, data->touchregions); while (regions) { struct wps_token *token = SKINOFFSETTOPTR(skin_buffer, regions->token); struct touchregion *region = SKINOFFSETTOPTR(skin_buffer, token->value.data); region->armed = false; regions = SKINOFFSETTOPTR(skin_buffer, regions->next); } } /* Get the touched action. * egde_offset is a percentage value for the position of the touch * inside the bar for regions which arnt WPS_TOUCHREGION_ACTION type. */ int skin_get_touchaction(struct gui_wps *gwps, int* edge_offset) { struct wps_data *data = gwps->data; int returncode = ACTION_NONE; short x,y; short vx, vy; int type = action_get_touchscreen_press(&x, &y); struct skin_viewport *wvp; struct touchregion *r, *temp = NULL; char* skin_buffer = get_skin_buffer(data); bool repeated = (type == BUTTON_REPEAT); bool released = (type == BUTTON_REL); bool pressed = (type == BUTTON_TOUCHSCREEN); struct skin_token_list *regions = SKINOFFSETTOPTR(skin_buffer, data->touchregions); bool needs_repeat; while (regions) { struct wps_token *token = SKINOFFSETTOPTR(skin_buffer, regions->token); r = SKINOFFSETTOPTR(skin_buffer, token->value.data); wvp = SKINOFFSETTOPTR(skin_buffer, r->wvp); /* make sure this region's viewport is visible */ if (wvp->hidden_flags&VP_DRAW_HIDDEN) { regions = SKINOFFSETTOPTR(skin_buffer, regions->next); continue; } if (data->touchscreen_locked && (r->action != ACTION_TOUCH_SOFTLOCK && !r->allow_while_locked)) { regions = SKINOFFSETTOPTR(skin_buffer, regions->next); continue; } needs_repeat = r->press_length != PRESS; /* check if it's inside this viewport */ if (viewport_point_within_vp(&(wvp->vp), x, y)) { /* reposition the touch inside the viewport since touchregions * are relative to a preceding viewport */ vx = x - wvp->vp.x; vy = y - wvp->vp.y; /* project touches in the padding region so they clamp to the * edge of the region instead */ if(r->x - r->wpad <= vx && vx < r->x) vx = r->x; else if(r->x + r->width <= vx && vx < r->x + r->width + r->wpad) vx = r->x + r->width - 1; if(r->y - r->hpad <= vy && vy < r->y) vy = r->y; else if(r->y + r->height <= vy && vy < r->y + r->height + r->hpad) vy = r->y + r->height - 1; /* now see if the point is inside this region */ if (vx >= r->x && vx < r->x+r->width && vy >= r->y && vy < r->y+r->height) { /* reposition the touch within the area */ vx -= r->x; vy -= r->y; switch(r->action) { case ACTION_TOUCH_SCROLLBAR: case ACTION_TOUCH_VOLUME: case ACTION_TOUCH_SETTING: if (edge_offset) { struct progressbar *bar = SKINOFFSETTOPTR(skin_buffer, r->bar); if(r->width > r->height) { if(r->width > 1) *edge_offset = vx*1000/(r->width - 1); else *edge_offset = 0; } else { /* vertical bars are bottom-up by default */ if(r->height > 1) *edge_offset = 1000 - vy*1000/(r->height - 1); else *edge_offset = 0; } if (r->reverse_bar || (bar && bar->invert_fill_direction)) *edge_offset = 1000 - *edge_offset; } temp = r; returncode = r->action; r->last_press = current_tick; break; default: if (r->armed && ((repeated && needs_repeat) || (released && !needs_repeat))) { returncode = r->action; temp = r; } if (pressed) { r->armed = true; r->last_press = current_tick; } break; } } } regions = SKINOFFSETTOPTR(skin_buffer, regions->next); } /* On release, all regions are disarmed. */ if (released) skin_disarm_touchregions(gwps); if (temp && temp->press_length == LONG_PRESS) temp->armed = false; if (returncode != ACTION_NONE) { if (global_settings.party_mode) { switch (returncode) { case ACTION_WPS_PLAY: case ACTION_WPS_SKIPPREV: case ACTION_WPS_SKIPNEXT: case ACTION_WPS_STOP: returncode = ACTION_NONE; break; default: break; } } switch (returncode) { case ACTION_TOUCH_SOFTLOCK: data->touchscreen_locked = !data->touchscreen_locked; returncode = ACTION_NONE; break; case ACTION_WPS_PLAY: if (!audio_status()) { if ( global_status.resume_index != -1 ) { if (playlist_resume() != -1) { playlist_start(global_status.resume_index, global_status.resume_elapsed, global_status.resume_offset); } } else { splash(HZ*2, ID2P(LANG_NOTHING_TO_RESUME)); } } else { wps_do_playpause(false); } returncode = ACTION_REDRAW; break; case ACTION_WPS_SKIPPREV: audio_prev(); returncode = ACTION_REDRAW; break; case ACTION_WPS_SKIPNEXT: audio_next(); returncode = ACTION_REDRAW; break; case ACTION_WPS_STOP: audio_stop(); returncode = ACTION_REDRAW; break; case ACTION_SETTINGS_INC: case ACTION_SETTINGS_DEC: { const struct settings_list *setting = temp->setting_data.setting; option_select_next_val(setting, returncode == ACTION_SETTINGS_DEC, true); returncode = ACTION_REDRAW; } break; case ACTION_SETTINGS_SET: { struct touchsetting *data = &temp->setting_data; const struct settings_list *s = data->setting; void (*f)(int) = NULL; switch (s->flags&F_T_MASK) { case F_T_CUSTOM: s->custom_setting ->load_from_cfg(s->setting, SKINOFFSETTOPTR(skin_buffer, data->value.text)); break; case F_T_INT: case F_T_UINT: *(int*)s->setting = data->value.number; if ((s->flags & F_T_SOUND) == F_T_SOUND) sound_set(s->sound_setting->setting, data->value.number); else if (s->flags&F_CHOICE_SETTING) f = s->choice_setting->option_callback; else if (s->flags&F_TABLE_SETTING) f = s->table_setting->option_callback; else f = s->int_setting->option_callback; if (f) f(data->value.number); break; case F_T_BOOL: *(bool*)s->setting = data->value.number ? true : false; if (s->bool_setting->option_callback) s->bool_setting ->option_callback(data->value.number ? true : false); break; } returncode = ACTION_REDRAW; } break; case ACTION_TOUCH_MUTE: { const int min_vol = sound_min(SOUND_VOLUME); if (global_settings.volume == min_vol) global_settings.volume = temp->value; else { temp->value = global_settings.volume; global_settings.volume = min_vol; } setvol(); returncode = ACTION_REDRAW; } break; case ACTION_TOUCH_SHUFFLE: /* toggle shuffle mode */ { global_settings.playlist_shuffle = !global_settings.playlist_shuffle; replaygain_update(); if (global_settings.playlist_shuffle) playlist_randomise(NULL, current_tick, true); else playlist_sort(NULL, true); returncode = ACTION_REDRAW; } break; case ACTION_TOUCH_REPMODE: /* cycle the repeat mode setting */ { const struct settings_list *rep_setting = find_setting(&global_settings.repeat_mode); option_select_next_val(rep_setting, false, true); audio_flush_and_reload_tracks(); returncode = ACTION_REDRAW; } break; case ACTION_TOUCH_SETTING: { struct progressbar *bar = SKINOFFSETTOPTR(skin_buffer, temp->bar); if (bar && edge_offset) { int val, count; get_setting_info_for_bar(bar->setting, &count, &val); val = *edge_offset * count / 1000; update_setting_value_from_touch(bar->setting, val); } } break; } return returncode; } return ACTION_TOUCHSCREEN; }