/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id: clock.c,v 1.0 2003/12/8 * * Copyright (C) 2003 Zakk Roberts * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #include "plugin.h" #include "time.h" #ifdef HAVE_LCD_BITMAP void draw_7seg_time(int hour, int minute, int x, int y, int width, int height, bool colon); void loadSettings(void); static struct plugin_api* rb; /* Used for hands to define lengths at a given time */ static unsigned char yhour[] = { 47,47,46,46,46,45,44,43,42,41,39,38,36,35,33,32,31,29,28,26,25,23,22,21,20,19,18,18,18,17,17,17,18,18,18,19,20,21,22,23,25,26,28,29,31,32,33,35,36,38,39,41,42,43,44,45,46,46,46,47, }; static unsigned char yminute[] = { 55,54,54,53,53,51,50,49,47,45,43,41,39,36,34,32,30,28,25,23,21,19,17,15,14,13,11,11,10,10,9,10,10,11,11,13,14,15,17,19,21,23,25,28,30,32,34,36,39,41,43,45,47,49,50,51,53,53,54,54, }; static unsigned char xhour[] = { 56,58,59,61,63,65,67,68,70,71,72,73,74,74,75,75,75,74,74,73,72,71,70,68,67,65,63,61,59,58,56,54,53,51,49,47,45,44,42,41,40,39,38,38,37,37,37,38,38,39,40,41,42,44,45,47,49,51,53,54, }; static unsigned char xminute[] = { 56,59,61,64,67,70,72,75,77,79,80,82,83,84,84,84,84,84,83,82,80,79,77,75,72,70,67,64,61,59,56,53,51,48,45,42,40,37,35,33,32,30,29,28,28,28,28,28,29,30,32,33,35,37,40,42,45,48,51,53, }; static char default_filename[] = "/.rockbox/rocks/.clock_settings"; struct saved_settings { bool is_date_displayed; bool are_digits_displayed; bool is_time_displayed; bool is_rect_displayed; bool analog_clock; } settings; void save_settings(void) { int fd; fd = rb->creat(default_filename, O_WRONLY); if(fd >= 0) { rb->write (fd, &settings, sizeof(struct saved_settings)); rb->close(fd); } else { rb->splash(HZ, true, "Setting save failed"); } } void load_settings(void) { int fd; fd = rb->open(default_filename, O_RDONLY); /* if file exists, then load. */ if(fd >= 0) { rb->read (fd, &settings, sizeof(struct saved_settings)); rb->close(fd); } /* Else, loading failed */ else { rb->splash(HZ, true, "Setting load failed, using default settings."); } } enum plugin_status plugin_start(struct plugin_api* api, void* parameter) { /* time ints */ int i; int hour; int minute; int second; int last_second = -1; int pos = 0; /* date ints */ int year; int day; int month; char moday[6]; char dateyr[5]; char tmhrmin[5]; char tmsec[2]; char current_date[12]; struct tm* current_time; bool exit = false; bool used = false; TEST_PLUGIN_API(api); (void)parameter; rb = api; /* load settings from disk */ load_settings(); rb->lcd_clear_display(); rb->splash(HZ, true, "F1 for INFO"); while (!PLUGIN_OK) { /* universal font for better display */ rb->lcd_setfont(FONT_SYSFIXED); /* start all the clock stuff */ /* Time info */ current_time = rb->get_time(); hour = current_time->tm_hour; minute = current_time->tm_min; second = current_time->tm_sec; /* Date info */ year = current_time->tm_year+1900; day = current_time->tm_mday; month = current_time->tm_mon+1; if(second != last_second) { rb->lcd_clear_display(); rb->snprintf( moday, 5, "%d/%d", month, day ); rb->snprintf( dateyr, 4, "%d", year ); rb->snprintf( tmhrmin, 5, "%02d:%02d", hour, minute ); rb->snprintf( tmsec, 2, "%02d", second ); rb->snprintf( current_date, 12, "%d/%d/%d", month, day, year ); if(settings.analog_clock) { /* Now draw the analog clock */ pos = 90-second; if(pos >= 60) pos -= 60; /* Second hand */ rb->lcd_drawline((LCD_WIDTH/2), (LCD_HEIGHT/2), xminute[pos], yminute[pos]); pos = 90-minute; if(pos >= 60) pos -= 60; /* Minute hand, thicker than the second hand */ rb->lcd_drawline(LCD_WIDTH/2, LCD_HEIGHT/2, xminute[pos], yminute[pos]); rb->lcd_drawline(LCD_WIDTH/2-1, LCD_HEIGHT/2-1, xminute[pos], yminute[pos]); rb->lcd_drawline(LCD_WIDTH/2+1, LCD_HEIGHT/2+1, xminute[pos], yminute[pos]); rb->lcd_drawline(LCD_WIDTH/2-1, LCD_HEIGHT/2+1, xminute[pos], yminute[pos]); rb->lcd_drawline(LCD_WIDTH/2+1, LCD_HEIGHT/2-1, xminute[pos], yminute[pos]); if(hour > 12) hour -= 12; hour = hour*5 + minute/12;; pos = 90-hour; if(pos >= 60) pos -= 60; /* Hour hand, thick as the minute hand but shorter */ rb->lcd_drawline(LCD_WIDTH/2, LCD_HEIGHT/2, xhour[pos], yhour[pos]); rb->lcd_drawline(LCD_WIDTH/2-1, LCD_HEIGHT/2-1, xhour[pos], yhour[pos]); rb->lcd_drawline(LCD_WIDTH/2+1, LCD_HEIGHT/2+1, xhour[pos], yhour[pos]); rb->lcd_drawline(LCD_WIDTH/2-1, LCD_HEIGHT/2+1, xhour[pos], yhour[pos]); rb->lcd_drawline(LCD_WIDTH/2+1, LCD_HEIGHT/2-1, xhour[pos], yhour[pos]); /* Draw the circle */ for(i=0; i < 60; i+=5) { rb->lcd_drawpixel(xminute[i], yminute[i]); rb->lcd_drawrect(xminute[i]-1, yminute[i]-1, 3, 3); } /* Draw the cover over the center */ rb->lcd_drawline((LCD_WIDTH/2)-1, (LCD_HEIGHT/2)+3, (LCD_WIDTH/2)+1, (LCD_HEIGHT/2)+3); rb->lcd_drawline((LCD_WIDTH/2)-3, (LCD_HEIGHT/2)+2, (LCD_WIDTH/2)+3, (LCD_HEIGHT/2)+2); rb->lcd_drawline((LCD_WIDTH/2)-4, (LCD_HEIGHT/2)+1, (LCD_WIDTH/2)+4, (LCD_HEIGHT/2)+1); rb->lcd_drawline((LCD_WIDTH/2)-4, LCD_HEIGHT/2, (LCD_WIDTH/2)+4, LCD_HEIGHT/2); rb->lcd_drawline((LCD_WIDTH/2)-4, (LCD_HEIGHT/2)-1, (LCD_WIDTH/2)+4, (LCD_HEIGHT/2)-1); rb->lcd_drawline((LCD_WIDTH/2)-3, (LCD_HEIGHT/2)-2, (LCD_WIDTH/2)+3, (LCD_HEIGHT/2)-2); rb->lcd_drawline((LCD_WIDTH/2)-1, (LCD_HEIGHT/2)-3, (LCD_WIDTH/2)+1, (LCD_HEIGHT/2)-3); rb->lcd_drawpixel(LCD_WIDTH/2, LCD_HEIGHT/2); /* Draw the digits around the clock */ if (settings.are_digits_displayed) { rb->lcd_putsxy((LCD_WIDTH/2)-6, 1, "12"); rb->lcd_putsxy(20, (LCD_HEIGHT/2)-4, "9"); rb->lcd_putsxy((LCD_WIDTH/2)-4, 56, "6"); rb->lcd_putsxy(86, (LCD_HEIGHT/2)-4, "3"); } /* Draw digital readout */ if (settings.is_time_displayed) { /* HH:MM */ rb->lcd_putsxy(1, 4, tmhrmin); /* SS */ rb->lcd_putsxy(10, 12, tmsec); } } else { draw_7seg_time(hour, minute, 8, 16, 16, 32, second & 1); } /* Draw the border */ if (settings.is_rect_displayed) { rb->lcd_drawrect(0, 0, 112, 64); /* top left corner */ rb->lcd_drawpixel(1, 1); rb->lcd_drawpixel(2, 2); rb->lcd_drawpixel(1, 2); rb->lcd_drawpixel(1, 3); rb->lcd_drawpixel(2, 1); rb->lcd_drawpixel(3, 1); /* bottom left corner */ rb->lcd_drawpixel(1, 62); rb->lcd_drawpixel(2, 61); rb->lcd_drawpixel(1, 61); rb->lcd_drawpixel(1, 60); rb->lcd_drawpixel(2, 62); rb->lcd_drawpixel(3, 62); /* top right corner */ rb->lcd_drawpixel(110, 1); rb->lcd_drawpixel(109, 2); rb->lcd_drawpixel(110, 2); rb->lcd_drawpixel(110, 3); rb->lcd_drawpixel(109, 1); rb->lcd_drawpixel(108, 1); /* bottom right corner */ rb->lcd_drawpixel(110, 62); rb->lcd_drawpixel(109, 61); rb->lcd_drawpixel(110, 61); rb->lcd_drawpixel(110, 60); rb->lcd_drawpixel(109, 62); rb->lcd_drawpixel(108, 62); } /* Draw the date */ if (settings.is_date_displayed) { if(settings.analog_clock) { rb->lcd_putsxy(3, 53, moday); rb->lcd_putsxy(80, 53, dateyr); } else rb->lcd_putsxy(25, 3, current_date); } if (settings.is_time_displayed) { if(settings.analog_clock) { /* HH:MM */ rb->lcd_putsxy(1, 4, tmhrmin); /* SS */ rb->lcd_putsxy(10, 12, tmsec); } else { /* Just seconds */ rb->lcd_putsxy(50, 55, tmsec); } } /* Draw all to LCD */ rb->lcd_update(); } switch (rb->button_get_w_tmo(HZ/6)) { /* OFF exits */ case BUTTON_OFF: /* Tell the user what's going on */ rb->lcd_clear_display(); rb->splash(HZ/2, true, "Saving settings..."); /* Save to disk */ save_settings(); rb->lcd_clear_display(); rb->splash(HZ, true, "Saved!"); /* ...and exit. */ return PLUGIN_OK; break; /* F1 & OFF exits without saving */ case BUTTON_F1 | BUTTON_OFF: return PLUGIN_OK; break; /* F1 screen - plugin info */ case BUTTON_F1: while (!exit) { if(settings.analog_clock) { rb->lcd_clear_display(); rb->lcd_puts(0, 0, "F1 > Help"); rb->lcd_puts(0, 1, "PLAY > Digital"); rb->lcd_puts(0, 2, "FF > Show Time"); rb->lcd_puts(0, 3, "DOWN > Border"); rb->lcd_puts(0, 4, "REW > Digits"); rb->lcd_puts(0, 5, "UP > Date"); rb->lcd_puts(0, 6, "OFF > Save & Exit"); rb->lcd_update(); } else { rb->lcd_clear_display(); rb->lcd_puts(0, 0, "F1 > Help"); rb->lcd_puts(0, 1, "PLAY > Analog"); rb->lcd_puts(0, 3, "DOWN > Border"); rb->lcd_puts(0, 4, "UP > Date"); rb->lcd_puts(0, 5, "FF > Show Seconds"); rb->lcd_puts(0, 7, "OFF > Save & Exit"); rb->lcd_update(); } switch (rb->button_get(true)) { case BUTTON_F1 | BUTTON_REL: if (used) exit = true; used = true; break; case BUTTON_OFF: used = true; break; case SYS_USB_CONNECTED: return PLUGIN_USB_CONNECTED; rb->usb_screen(); break; } } break; /* options screen */ case BUTTON_F3: while (!exit) { if(settings.analog_clock) { rb->lcd_clear_display(); rb->lcd_putsxy(7, 0, "FF > Show Time"); rb->lcd_putsxy(7, 10, "DOWN> Show Frame"); rb->lcd_putsxy(7, 20, "UP > Show Date"); rb->lcd_putsxy(7, 30, "REW > Show Digits"); rb->lcd_putsxy(15, 46, "OFF > All OFF"); rb->lcd_putsxy(17, 56, "ON > All ON"); rb->lcd_drawline(0, 41, 112, 41); /* draw checkmarks */ if(settings.is_time_displayed) { rb->lcd_drawline(0, 4, 3, 7); rb->lcd_drawline(3, 7, 5, 0); } if(settings.is_rect_displayed) { rb->lcd_drawline(0, 14, 3, 17); rb->lcd_drawline(3, 17, 5, 10); } if(settings.is_date_displayed) { rb->lcd_drawline(0, 24, 3, 27); rb->lcd_drawline(3, 27, 5, 20); } if(settings.are_digits_displayed) { rb->lcd_drawline(0, 34, 3, 37); rb->lcd_drawline(3, 37, 5, 30); } /* update the LCD after all this madness */ rb->lcd_update(); /* ... and finally, setting options from screen: */ switch (rb->button_get(true)) { case BUTTON_F3 | BUTTON_REL: if (used) exit = true; used = true; break; case BUTTON_RIGHT: settings.is_time_displayed = !settings.is_time_displayed; break; case BUTTON_DOWN: settings.is_rect_displayed = !settings.is_rect_displayed; break; case BUTTON_UP: settings.is_date_displayed = !settings.is_date_displayed; break; case BUTTON_LEFT: settings.are_digits_displayed = !settings.are_digits_displayed; break; case BUTTON_ON: settings.is_time_displayed = true; settings.is_rect_displayed = true; settings.is_date_displayed = true; settings.are_digits_displayed = true; break; case BUTTON_OFF: settings.is_time_displayed = false; settings.is_rect_displayed = false; settings.is_date_displayed = false; settings.are_digits_displayed = false; break; case SYS_USB_CONNECTED: return PLUGIN_USB_CONNECTED; rb->usb_screen(); break; } } else /* 7-Segment clock shown, less options */ { rb->lcd_clear_display(); rb->lcd_putsxy(7, 0, "DOWN> Show Frame"); rb->lcd_putsxy(7, 10, "UP > Show Date"); rb->lcd_putsxy(7, 20, "FF > Seconds"); rb->lcd_putsxy(15, 46, "OFF > All OFF"); rb->lcd_putsxy(17, 56, "ON > All ON"); rb->lcd_drawline(0, 41, 112, 41); /* draw checkmarks */ if(settings.is_rect_displayed) { rb->lcd_drawline(0, 4, 3, 7); rb->lcd_drawline(3, 7, 5, 0); } if(settings.is_date_displayed) { rb->lcd_drawline(0, 14, 3, 17); rb->lcd_drawline(3, 17, 5, 10); } if(settings.is_time_displayed) { rb->lcd_drawline(0, 24, 3, 27); rb->lcd_drawline(3, 27, 5, 20); } /* And finally, update the LCD */ rb->lcd_update(); switch (rb->button_get(true)) { case BUTTON_F3 | BUTTON_REL: if (used) exit = true; used = true; break; case BUTTON_DOWN: settings.is_rect_displayed = !settings.is_rect_displayed; break; case BUTTON_UP: settings.is_date_displayed = !settings.is_date_displayed; break; case BUTTON_RIGHT: settings.is_time_displayed = !settings.is_time_displayed; break; case BUTTON_ON: settings.is_time_displayed = true; settings.is_rect_displayed = true; settings.is_date_displayed = true; break; case BUTTON_OFF: settings.is_time_displayed = false; settings.is_rect_displayed = false; settings.is_date_displayed = false; break; case SYS_USB_CONNECTED: return PLUGIN_USB_CONNECTED; rb->usb_screen(); break; } } } break; /* Toggle analog/digital */ case BUTTON_PLAY: settings.analog_clock = !settings.analog_clock; break; /* Show time */ case BUTTON_RIGHT: settings.is_time_displayed = !settings.is_time_displayed; break; /* Show border */ case BUTTON_DOWN: settings.is_rect_displayed = !settings.is_rect_displayed ; break; /* Show date */ case BUTTON_UP: settings.is_date_displayed = !settings.is_date_displayed; break; /* Show digits */ case BUTTON_LEFT: settings.are_digits_displayed = !settings.are_digits_displayed; break; /* USB plugged? */ case SYS_USB_CONNECTED: rb->usb_screen(); return PLUGIN_USB_CONNECTED; break; } } } /* 7 Segment LED imitation code by Linus Nielsen Feltzing */ /* a 0 b ######### # # # # 1# #2 # # # 3 # c ######### d # # # # 4# #5 # # # 6 # e ######### f */ /* The coordinates of each end point (a-f) of the segment lines (0-6) */ static unsigned int point_coords[6][2] = { {0, 0}, /* a */ {1, 0}, /* b */ {0, 1}, /* c */ {1, 1}, /* d */ {0, 2}, /* e */ {1, 2} /* f */ }; /* The end points (a-f) for each segment line */ static unsigned int seg_points[7][2] = { {0,1}, /* a to b */ {0,2}, /* a to c */ {1,3}, /* b to d */ {2,3}, /* c to d */ {2,4}, /* c to e */ {3,5}, /* d to f */ {4,5} /* e to f */ }; /* Lists that tell which segments (0-6) to enable for each digit (0-9), the list is terminated with -1 */ static int digit_segs[10][8] = { {0,1,2,4,5,6, -1}, /* 0 */ {2,5, -1}, /* 1 */ {0,2,3,4,6, -1}, /* 2 */ {0,2,3,5,6, -1}, /* 3 */ {1,2,3,5, -1}, /* 4 */ {0,1,3,5,6, -1}, /* 5 */ {0,1,3,4,5,6, -1}, /* 6 */ {0,2,5, -1}, /* 7 */ {0,1,2,3,4,5,6, -1}, /* 8 */ {0,1,2,3,5,6, -1} /* 9 */ }; /* Draws one segment */ void draw_seg(int seg, int x, int y, int width, int height) { int p1 = seg_points[seg][0]; int p2 = seg_points[seg][1]; int x1 = point_coords[p1][0]; int y1 = point_coords[p1][1]; int x2 = point_coords[p2][0]; int y2 = point_coords[p2][1]; /* It draws parallel lines of different lengths for thicker segments */ if(seg == 0 || seg == 3 || seg == 6) { rb->lcd_drawline(x + x1 * width + 1, y + y1 * height / 2, x + x2 * width - 1 , y + y2 * height / 2); rb->lcd_drawline(x + x1 * width + 2, y + y1 * height / 2 - 1, x + x2 * width - 2, y + y2 * height / 2 - 1); rb->lcd_drawline(x + x1 * width + 2, y + y1 * height / 2 + 1, x + x2 * width - 2, y + y2 * height / 2 + 1); rb->lcd_drawline(x + x1 * width + 3, y + y1 * height / 2 - 2, x + x2 * width - 3, y + y2 * height / 2 - 2); rb->lcd_drawline(x + x1 * width + 3, y + y1 * height / 2 + 2, x + x2 * width - 3, y + y2 * height / 2 + 2); } else { rb->lcd_drawline(x + x1 * width, y + y1 * height / 2 + 1, x + x2 * width , y + y2 * height / 2 - 1); rb->lcd_drawline(x + x1 * width - 1, y + y1 * height / 2 + 2, x + x2 * width - 1, y + y2 * height / 2 - 2); rb->lcd_drawline(x + x1 * width + 1, y + y1 * height / 2 + 2, x + x2 * width + 1, y + y2 * height / 2 - 2); rb->lcd_drawline(x + x1 * width - 2, y + y1 * height / 2 + 3, x + x2 * width - 2, y + y2 * height / 2 - 3); rb->lcd_drawline(x + x1 * width + 2, y + y1 * height / 2 + 3, x + x2 * width + 2, y + y2 * height / 2 - 3); } } /* Draws one digit */ void draw_7seg_digit(int digit, int x, int y, int width, int height) { int i; int c; for(i = 0;digit_segs[digit][i] >= 0;i++) { c = digit_segs[digit][i]; draw_seg(c, x, y, width, height); } } /* Draws the entire 7-segment hour-minute time display */ void draw_7seg_time(int hour, int minute, int x, int y, int width, int height, bool colon) { int xpos = x; draw_7seg_digit(hour / 10, xpos, y, width, height); xpos += width + 6; draw_7seg_digit(hour % 10, xpos, y, width, height); xpos += width + 6; if(colon) { rb->lcd_drawline(xpos, y + height/3 + 2, xpos, y + height/3 + 2); rb->lcd_drawline(xpos+1, y + height/3 + 1, xpos+1, y + height/3 + 3); rb->lcd_drawline(xpos+2, y + height/3, xpos+2, y + height/3 + 4); rb->lcd_drawline(xpos+3, y + height/3 + 1, xpos+3, y + height/3 + 3); rb->lcd_drawline(xpos+4, y + height/3 + 2, xpos+4, y + height/3 + 2); rb->lcd_drawline(xpos, y + height-height/3 + 2, xpos, y + height-height/3 + 2); rb->lcd_drawline(xpos+1, y + height-height/3 + 1, xpos+1, y + height-height/3 + 3); rb->lcd_drawline(xpos+2, y + height-height/3, xpos+2, y + height-height/3 + 4); rb->lcd_drawline(xpos+3, y + height-height/3 + 1, xpos+3, y + height-height/3 + 3); rb->lcd_drawline(xpos+4, y + height-height/3 + 2, xpos+4, y + height-height/3 + 2); } xpos += 12; draw_7seg_digit(minute / 10, xpos, y, width, height); xpos += width + 6; draw_7seg_digit(minute % 10, xpos, y, width, height); xpos += width + 6; } #endif