/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2007 by 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. * ****************************************************************************/ /* This file contains the code to draw the list widget on BITMAP LCDs. */ #include "config.h" #include "lcd.h" #include "font.h" #include "button.h" #include "string.h" #include "settings.h" #include "kernel.h" #include "system.h" #include "file.h" #include "action.h" #include "screen_access.h" #include "list.h" #include "scrollbar.h" #include "lang.h" #include "sound.h" #include "misc.h" #include "viewport.h" #include "statusbar-skinned.h" #include "debug.h" #define ICON_PADDING 1 /* these are static to make scrolling work */ static struct viewport list_text[NB_SCREENS], title_text[NB_SCREENS]; #ifdef HAVE_TOUCHSCREEN /* difference in pixels between draws, above it means enough to start scrolling */ #define SCROLL_BEGIN_THRESHOLD 3 static enum { SCROLL_NONE, /* no scrolling */ SCROLL_BAR, /* scroll by using the scrollbar */ SCROLL_SWIPE, /* scroll by wiping over the screen */ SCROLL_KINETIC, /* state after releasing swipe */ } scroll_mode; static int y_offset; #endif int gui_list_get_item_offset(struct gui_synclist * gui_list, int item_width, int text_pos, struct screen * display, struct viewport *vp); bool list_display_title(struct gui_synclist *list, enum screen_type screen); void gui_synclist_scroll_stop(struct gui_synclist *lists) { int i; FOR_NB_SCREENS(i) { screens[i].scroll_stop(&list_text[i]); screens[i].scroll_stop(&title_text[i]); screens[i].scroll_stop(lists->parent[i]); } } /* Draw the list... internal screen layout: ----------------- |TI| title | TI is title icon ----------------- | | | | |S|I| | S - scrollbar | | | items | I - icons | | | | ------------------ Note: This image is flipped horizontally when the language is a right-to-left one (Hebrew, Arabic) */ static bool draw_title(struct screen *display, struct gui_synclist *list) { const int screen = display->screen_type; int style = STYLE_DEFAULT; struct viewport *title_text_vp = &title_text[screen]; if (sb_set_title_text(list->title, list->title_icon, screen)) return false; /* the sbs is handling the title */ display->scroll_stop(title_text_vp); if (!list_display_title(list, screen)) return false; *title_text_vp = *(list->parent[screen]); title_text_vp->height = font_get(title_text_vp->font)->height; if (list->title_icon != Icon_NOICON && global_settings.show_icons) { struct viewport title_icon = *title_text_vp; title_icon.width = get_icon_width(screen) + ICON_PADDING * 2; if (VP_IS_RTL(&title_icon)) { title_icon.x += title_text_vp->width - title_icon.width; } else { title_text_vp->x += title_icon.width; } title_text_vp->width -= title_icon.width; display->set_viewport(&title_icon); screen_put_icon(display, 0, 0, list->title_icon); } #ifdef HAVE_LCD_COLOR if (list->title_color >= 0) { style |= (STYLE_COLORED|list->title_color); } #endif display->set_viewport(title_text_vp); display->puts_scroll_style(0, 0, list->title, style); return true; } void list_draw(struct screen *display, struct gui_synclist *list) { struct viewport list_icons; int start, end, line_height, style, i; const int screen = display->screen_type; const int list_start_item = list->start_item[screen]; const int icon_width = get_icon_width(screen) + ICON_PADDING; const bool scrollbar_in_left = (global_settings.scrollbar == SCROLLBAR_LEFT); const bool show_cursor = !global_settings.cursor_style && list->show_selection_marker; struct viewport *parent = (list->parent[screen]); #ifdef HAVE_LCD_COLOR unsigned char cur_line = 0; #endif int item_offset; bool show_title; struct viewport *list_text_vp = &list_text[screen]; line_height = font_get(parent->font)->height; display->set_viewport(parent); display->clear_viewport(); display->scroll_stop(list_text_vp); *list_text_vp = *parent; if ((show_title = draw_title(display, list))) { list_text_vp->y += line_height; list_text_vp->height -= line_height; } const int nb_lines = viewport_get_nb_lines(list_text_vp); start = list_start_item; end = start + nb_lines; #ifdef HAVE_TOUCHSCREEN if (list->selected_item == 0 || (list->nb_items < nb_lines)) y_offset = 0; /* reset in case it's a new list */ int draw_offset = y_offset; /* draw some extra items to not have empty lines at the top and bottom */ if (y_offset > 0) { /* make it negative for more consistent apparence when switching * directions */ draw_offset -= line_height; if (start > 0) start--; } else if (y_offset < 0) end++; #else #define draw_offset 0 #endif /* draw the scrollbar if its needed */ if (global_settings.scrollbar && nb_lines < list->nb_items) { struct viewport vp = *list_text_vp; vp.width = SCROLLBAR_WIDTH; vp.height = line_height * nb_lines; vp.x = parent->x; list_text_vp->width -= SCROLLBAR_WIDTH; if (scrollbar_in_left) list_text_vp->x += SCROLLBAR_WIDTH; else vp.x += list_text_vp->width; display->set_viewport(&vp); gui_scrollbar_draw(display, (scrollbar_in_left? 0: 1), 0, SCROLLBAR_WIDTH-1, vp.height, list->nb_items, list_start_item, list_start_item + nb_lines, VERTICAL); } else if (show_title) { /* shift everything a bit in relation to the title... */ if (!VP_IS_RTL(list_text_vp) && scrollbar_in_left) { list_text_vp->width -= SCROLLBAR_WIDTH; list_text_vp->x += SCROLLBAR_WIDTH; } else if (VP_IS_RTL(list_text_vp) && !scrollbar_in_left) { list_text_vp->width -= SCROLLBAR_WIDTH; } } /* setup icon placement */ list_icons = *list_text_vp; int icon_count = (list->callback_get_item_icon != NULL) ? 1 : 0; if (show_cursor) icon_count++; if (icon_count) { list_icons.width = icon_width * icon_count; list_text_vp->width -= list_icons.width + ICON_PADDING; if (VP_IS_RTL(&list_icons)) list_icons.x += list_text_vp->width + ICON_PADDING; else list_text_vp->x += list_icons.width + ICON_PADDING; } for (i=start; inb_items; i++) { /* do the text */ unsigned const char *s; char entry_buffer[MAX_PATH]; unsigned char *entry_name; int text_pos = 0; int line = i - start; s = list->callback_get_item_name(i, list->data, entry_buffer, sizeof(entry_buffer)); entry_name = P2STR(s); display->set_viewport(list_text_vp); style = STYLE_DEFAULT; /* position the string at the correct offset place */ int item_width,h; display->getstringsize(entry_name, &item_width, &h); item_offset = gui_list_get_item_offset(list, item_width, text_pos, display, list_text_vp); #ifdef HAVE_LCD_COLOR /* if the list has a color callback */ if (list->callback_get_item_color) { int color = list->callback_get_item_color(i, list->data); /* if color selected */ if (color >= 0) { style |= STYLE_COLORED|color; } } #endif /* draw the selected line */ if( #ifdef HAVE_TOUCHSCREEN /* don't draw it during scrolling */ scroll_mode == SCROLL_NONE && #endif i >= list->selected_item && i < list->selected_item + list->selected_size && list->show_selection_marker) {/* The selected item must be displayed scrolling */ if (global_settings.cursor_style == 1 #ifdef HAVE_REMOTE_LCD /* the global_settings.cursor_style check is here to make * sure if they want the cursor instead of bar it will work */ || (display->depth < 16 && global_settings.cursor_style) #endif ) { /* Display inverted-line-style */ style = STYLE_INVERT; } #ifdef HAVE_LCD_COLOR else if (global_settings.cursor_style == 2) { /* Display colour line selector */ style = STYLE_COLORBAR; } else if (global_settings.cursor_style == 3) { /* Display gradient line selector */ style = STYLE_GRADIENT; /* Make the lcd driver know how many lines the gradient should cover and current line number */ /* number of selected lines */ style |= NUMLN_PACK(list->selected_size); /* current line number, zero based */ style |= CURLN_PACK(cur_line); cur_line++; } #endif /* if the text is smaller than the viewport size */ if (item_offset> item_width - (list_text_vp->width - text_pos)) { /* don't scroll */ display->puts_style_xyoffset(0, line, entry_name, style, item_offset, draw_offset); } else { display->puts_scroll_style_xyoffset(0, line, entry_name, style, item_offset, draw_offset); } } else { if (list->scroll_all) display->puts_scroll_style_xyoffset(0, line, entry_name, style, item_offset, draw_offset); else display->puts_style_xyoffset(0, line, entry_name, style, item_offset, draw_offset); } /* do the icon */ display->set_viewport(&list_icons); if (list->callback_get_item_icon != NULL) { screen_put_icon_with_offset(display, show_cursor?1:0, (line),show_cursor?ICON_PADDING:0,draw_offset, list->callback_get_item_icon(i, list->data)); } if (show_cursor && i >= list->selected_item && i < list->selected_item + list->selected_size) { screen_put_icon_with_offset(display, 0, line, 0, draw_offset, Icon_Cursor); } } display->set_viewport(parent); display->update_viewport(); display->set_viewport(NULL); } #if defined(HAVE_TOUCHSCREEN) /* This needs to be fixed if we ever get more than 1 touchscreen on a target. */ static bool released = false; /* Used for kinetic scrolling as we need to know the last position to * recognize the scroll direction. * This gets reset to 0 at the end of scrolling */ static int last_position=0; static int scrollbar_scroll(struct gui_synclist * gui_list, int y) { const int screen = screens[SCREEN_MAIN].screen_type; const int nb_lines = viewport_get_nb_lines(&list_text[screen]); if (nb_lines < gui_list->nb_items) { /* scrollbar scrolling is still line based */ y_offset = 0; int scrollbar_size = nb_lines* font_get(gui_list->parent[screen]->font)->height; int actual_y = y - list_text[screen].y; int new_selection = (actual_y * gui_list->nb_items) / scrollbar_size; int start_item = new_selection - nb_lines/2; if(start_item < 0) start_item = 0; else if(start_item > gui_list->nb_items - nb_lines) start_item = gui_list->nb_items - nb_lines; gui_list->start_item[screen] = start_item; return ACTION_REDRAW; } return ACTION_NONE; } /* kinetic scrolling, based on * * v = a*t + v0 and ds = v*dt * * In each (fixed interval) timeout, the list is advanced by ds, then * the v is reduced by a. * This way we get a linear and smooth deceleration of the scrolling * * As v is the difference of distance per time unit, v is passed (as * pixels moved since the last call) to the scrolling function which takes * care of the pixel accurate drawing * * v0 is dertermined by averaging the last 4 movements of the list * (the pixel and time difference is used to compute each v) * * influenced by http://stechz.com/tag/kinetic/ * We take the easy and smooth first approach (until section "Drawbacks"), * since its drawbacks don't apply for us since our timers seem to be * relatively accurate */ #define SIGN(a) ((a) < 0 ? -1 : 1) /* these could possibly be configurable */ /* the lower the smoother */ #define RELOAD_INTERVAL (HZ/25) /* the higher the earler the list stops */ #define DECELERATION (1000*RELOAD_INTERVAL/HZ) /* this array holds data to compute the initial velocity v0 */ static struct kinetic_info { int difference; long ticks; } kinetic_data[4]; static size_t cur_idx; static struct cb_data { struct gui_synclist *list; /* current list */ int velocity; /* in pixel/s */ } cb_data; /* data member points to the above struct */ static struct timeout kinetic_tmo; static bool is_kinetic_over(void) { return !cb_data.velocity && (scroll_mode == SCROLL_KINETIC); } /* * collect data about how fast the list is moved in order to compute * the initial velocity from it later */ static void kinetic_stats_collect(const int difference) { static long last_tick; /* collect velocity statistics */ kinetic_data[cur_idx].difference = difference; kinetic_data[cur_idx].ticks = current_tick - last_tick; last_tick = current_tick; cur_idx += 1; if (cur_idx >= ARRAYLEN(kinetic_data)) cur_idx = 0; /* rewind the index */ } /* * resets the statistic */ static void kinetic_stats_reset(void) { memset(kinetic_data, 0, sizeof(kinetic_data)); cur_idx = 0; } /* cancels all currently active kinetic scrolling */ static void kinetic_force_stop(void) { timeout_cancel(&kinetic_tmo); kinetic_stats_reset(); } /* helper for gui/list.c to cancel scrolling if a normal button event comes * through dpad or keyboard or whatever */ void _gui_synclist_stop_kinetic_scrolling(void) { y_offset = 0; if (scroll_mode == SCROLL_KINETIC) kinetic_force_stop(); scroll_mode = SCROLL_NONE; } /* * returns false if scrolling should be stopped entirely * * otherwise it returns true even if it didn't actually scroll, * but scrolling mode shouldn't be changed **/ static int scroll_begin_threshold; static int threshold_accumulation; static bool swipe_scroll(struct gui_synclist * gui_list, int line_height, int difference) { /* fixme */ const enum screen_type screen = screens[SCREEN_MAIN].screen_type; const int nb_lines = viewport_get_nb_lines(&list_text[screen]); if (UNLIKELY(scroll_begin_threshold == 0)) scroll_begin_threshold = touchscreen_get_scroll_threshold(); /* make selecting items easier */ threshold_accumulation += abs(difference); if (threshold_accumulation < scroll_begin_threshold && scroll_mode == SCROLL_NONE) return false; threshold_accumulation = 0; /* does the list even scroll? if no, return but still show * the caller that we would scroll */ if (nb_lines >= gui_list->nb_items) return true; const int old_start = gui_list->start_item[screen]; int new_start_item = -1; int line_diff = 0; /* don't scroll at the edges of the list */ if ((old_start == 0 && difference > 0) || (old_start == (gui_list->nb_items - nb_lines) && difference < 0)) { y_offset = 0; gui_list->start_item[screen] = old_start; return scroll_mode != SCROLL_KINETIC; /* stop kinetic at the edges */ } /* add up y_offset over time and translate to lines * if scrolled enough */ y_offset += difference; if (abs(y_offset) > line_height) { line_diff = y_offset/line_height; y_offset -= line_diff * line_height; } if(line_diff != 0) { int selection_offset = gui_list->selected_item - old_start; new_start_item = old_start - line_diff; /* check if new_start_item is bigger than list item count */ if(new_start_item > gui_list->nb_items - nb_lines) new_start_item = gui_list->nb_items - nb_lines; /* set new_start_item to 0 if it's negative */ if(new_start_item < 0) new_start_item = 0; gui_list->start_item[screen] = new_start_item; /* keep selected item in sync */ gui_list->selected_item = new_start_item + selection_offset; } return true; } static int kinetic_callback(struct timeout *tmo) { /* cancel if screen was pressed */ if (scroll_mode != SCROLL_KINETIC) return 0; struct cb_data *data = (struct cb_data*)tmo->data; int line_height = font_get(data->list->parent[0]->font)->height; /* ds = v*dt */ int pixel_diff = data->velocity * RELOAD_INTERVAL / HZ; /* remember signedness to detect stopping */ int old_sign = SIGN(data->velocity); /* advance the list */ if (!swipe_scroll(data->list, line_height, pixel_diff)) { /* nothing to scroll? */ data->velocity = 0; } else { /* decelerate by a fixed amount * decrementing v0 over time by the deceleration is * equivalent to computing v = a*t + v0 */ data->velocity -= SIGN(data->velocity)*DECELERATION; if (SIGN(data->velocity) != old_sign) data->velocity = 0; } queue_post(&button_queue, BUTTON_TOUCHSCREEN, 0); /* stop if the velocity hit or crossed zero */ if (!data->velocity) { kinetic_stats_reset(); return 0; } /* let get_action() timeout, which loads to a * gui_synclist_draw() call from the main thread */ return RELOAD_INTERVAL; /* cancel or reload */ } /* * computes the initial velocity v0 and sets up the timer */ static bool kinetic_setup_scroll(struct gui_synclist *list) { /* compute initial velocity */ int i, _i, v0, len = ARRAYLEN(kinetic_data); for(i = 0, _i = 0, v0 = 0; i < len; i++) { /* in pixel/s */ if (kinetic_data[i].ticks > 0) { v0 += kinetic_data[i].difference*HZ/kinetic_data[i].ticks; _i++; } } if (_i > 0) v0 /= _i; else v0 = 0; if (v0 != 0) { cb_data.list = list; cb_data.velocity = v0; timeout_register(&kinetic_tmo, kinetic_callback, RELOAD_INTERVAL, (intptr_t)&cb_data); return true; } return false; } unsigned gui_synclist_do_touchscreen(struct gui_synclist * gui_list) { short x, y; const enum screen_type screen = SCREEN_MAIN; struct viewport *info_vp = sb_skin_get_info_vp(screen); const int button = action_get_touchscreen_press_in_vp(&x, &y, info_vp); const int list_start_item = gui_list->start_item[screen]; const int line_height = font_get(gui_list->parent[screen]->font)->height; const struct viewport *list_text_vp = &list_text[screen]; const bool old_released = released; const bool show_title = list_display_title(gui_list, screen); const bool show_cursor = !global_settings.cursor_style && gui_list->show_selection_marker; const bool on_title_clicked = show_title && y < line_height && (button&BUTTON_REL); const bool cancelled_kinetic = (scroll_mode == SCROLL_KINETIC && button != ACTION_NONE && button != ACTION_UNKNOWN && !is_kinetic_over()); int icon_width = 0; int line, list_width = list_text_vp->width; released = (button&BUTTON_REL) != 0; if (button == ACTION_NONE || button == ACTION_UNKNOWN) { /* this happens when we hit edges of the list while kinetic scrolling, * but not when manually cancelling */ if (scroll_mode == SCROLL_KINETIC) return ACTION_REDRAW; return ACTION_NONE; } /* x and y are relative to info_vp */ if (gui_list->callback_get_item_icon != NULL) icon_width += get_icon_width(screen); if (show_cursor) icon_width += get_icon_width(screen); if (on_title_clicked) { if (scroll_mode == SCROLL_NONE || is_kinetic_over()) { if (x < icon_width) { /* Top left corner is GO_TO_ROOT */ if (button == BUTTON_REL) return ACTION_STD_MENU; else if (button == (BUTTON_REPEAT|BUTTON_REL)) return ACTION_STD_CONTEXT; return ACTION_NONE; } else /* click on title text is cancel */ if (button == BUTTON_REL) return ACTION_STD_CANCEL; } /* do this after the above so the scrolling stops without * going back in the list with the same touch */ if (scroll_mode == SCROLL_KINETIC) { kinetic_force_stop(); scroll_mode = SCROLL_NONE; } } else /* list area clicked (or not released) */ { const int actual_y = y - (show_title ? line_height : 0); bool on_scrollbar_clicked; switch (global_settings.scrollbar) { case SCROLLBAR_LEFT: on_scrollbar_clicked = x <= SCROLLBAR_WIDTH; break; case SCROLLBAR_RIGHT: on_scrollbar_clicked = x > (icon_width + list_width); break; default: on_scrollbar_clicked = false; break; } /* conditions for scrollbar scrolling: * * pen is on the scrollbar * AND scrollbar is on the right (left case is handled above) * OR * pen is in the somewhere else but we did scrollbar scrolling before * * scrollbar scrolling must end if the pen is released * scrollbar scrolling must not happen if we're currently scrolling * via swiping the screen **/ if (!released && scroll_mode != SCROLL_SWIPE && (on_scrollbar_clicked || scroll_mode == SCROLL_BAR)) { if (scroll_mode == SCROLL_KINETIC) kinetic_force_stop(); scroll_mode = SCROLL_BAR; return scrollbar_scroll(gui_list, y); } /* |--------------------------------------------------------| * | Description of the touchscreen list interface: | * |--------------------------------------------------------| * | Pressing an item will select it and "enter" it. | * | | * | Pressing and holding your pen down will scroll through | * | the list of items. | * | | * | Pressing and holding your pen down on a single item | * | will bring up the context menu of it. | * |--------------------------------------------------------| */ if (actual_y > 0 || button & BUTTON_REPEAT) { /* selection needs to be corrected if an items are only * partially visible */ line = (actual_y - y_offset) / line_height; if (cancelled_kinetic) { kinetic_force_stop(); scroll_mode = SCROLL_SWIPE; } /* Pressed below the list*/ if (list_start_item + line >= gui_list->nb_items) { /* don't collect last_position outside of the list area * it'd break selecting after such a situation */ last_position = 0; return ACTION_NONE; } if (button & BUTTON_REPEAT && scroll_mode == SCROLL_NONE) { /* held a single line for a while, bring up the context menu */ gui_synclist_select_item(gui_list, list_start_item + line); /* don't sent context repeatedly */ action_wait_for_release(); last_position = 0; return ACTION_STD_CONTEXT; } if (released && !cancelled_kinetic) { /* Pen was released anywhere on the screen */ last_position = 0; if (scroll_mode == SCROLL_NONE) { /* select current line */ gui_synclist_select_item(gui_list, list_start_item + line); return ACTION_STD_OK; } else { /* we were scrolling * -> reset scrolling but do nothing else */ if (scroll_mode == SCROLL_SWIPE) { if (kinetic_setup_scroll(gui_list)) scroll_mode = SCROLL_KINETIC; } if (scroll_mode != SCROLL_KINETIC) scroll_mode = SCROLL_NONE; return ACTION_NONE; } } else { /* pen is on the screen */ bool redraw = false, result = false; /* beginning of list interaction denoted by release in * the previous call */ if (old_released || is_kinetic_over()) { scroll_mode = SCROLL_NONE; redraw = true; } /* select current item; gui_synclist_select_item() * is not called because it has side effects that * disturb kinetic scrolling */ gui_list->selected_item = list_start_item+line; gui_synclist_speak_item(gui_list); if (last_position == 0) { redraw = true; last_position = actual_y; } else { /* record speed data in case we do kinetic scrolling */ int diff = actual_y - last_position; kinetic_stats_collect(diff); result = swipe_scroll(gui_list, line_height, diff); } /* Start scrolling once the pen is moved without * releasing it inbetween */ if (result) { redraw = true; scroll_mode = SCROLL_SWIPE; } last_position = actual_y; return redraw ? ACTION_REDRAW:ACTION_NONE; } } } return ACTION_REDRAW; } #endif