/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2005 Peter D'Hoye * * 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 "plugin.h" #include "lib/helper.h" #include "lib/grey.h" #include "lib/pluginlib_touchscreen.h" #include "lib/pluginlib_exit.h" #include "lib/pluginlib_actions.h" /* this set the context to use with PLA */ static const struct button_mapping *plugin_contexts[] = { pla_main_ctx }; #define FPS_QUIT PLA_EXIT #define FPS_QUIT2 PLA_CANCEL #define DURATION (2*HZ) /* longer duration gives more precise results */ /* Screen logging */ static int line; static int max_line; #ifdef HAVE_REMOTE_LCD static int remote_line; static int remote_max_line; #endif static void log_init(void) { int h; rb->lcd_getstringsize("A", NULL, &h); max_line = LCD_HEIGHT / h; line = 0; rb->lcd_clear_display(); rb->lcd_update(); #ifdef HAVE_REMOTE_LCD rb->lcd_remote_getstringsize("A", NULL, &h); remote_max_line = LCD_REMOTE_HEIGHT / h; remote_line = 0; rb->lcd_remote_clear_display(); rb->lcd_remote_update(); #endif } static void log_text(char *text) { rb->lcd_puts(0, line, text); if (++line >= max_line) line = 0; rb->lcd_update(); #ifdef HAVE_REMOTE_LCD rb->lcd_remote_puts(0, remote_line, text); if (++remote_line >= remote_max_line) remote_line = 0; rb->lcd_remote_update(); #endif } static int calc_tenth_fps(int framecount, long ticks) { return (10*HZ) * framecount / ticks; } static void time_main_update(void) { char str[32]; /* text buffer */ long time_start; /* start tickcount */ long time_end; /* end tickcount */ int frame_count; int fps; const int part14_x = LCD_WIDTH/4; /* x-offset for 1/4 update test */ const int part14_w = LCD_WIDTH/2; /* x-size for 1/4 update test */ const int part14_y = LCD_HEIGHT/4; /* y-offset for 1/4 update test */ const int part14_h = LCD_HEIGHT/2; /* y-size for 1/4 update test */ log_text("Main LCD Update"); /* Test 1: full LCD update */ frame_count = 0; rb->sleep(0); /* sync to tick */ time_start = *rb->current_tick; while((time_end = *rb->current_tick) - time_start < DURATION) { rb->lcd_update(); frame_count++; } fps = calc_tenth_fps(frame_count, time_end - time_start); rb->snprintf(str, sizeof(str), "1/1: %d.%d fps", fps / 10, fps % 10); log_text(str); /* Test 2: quarter LCD update */ frame_count = 0; rb->sleep(0); /* sync to tick */ time_start = *rb->current_tick; while((time_end = *rb->current_tick) - time_start < DURATION) { rb->lcd_update_rect(part14_x, part14_y, part14_w, part14_h); frame_count++; } fps = calc_tenth_fps(frame_count, time_end - time_start); rb->snprintf(str, sizeof(str), "1/4: %d.%d fps", fps / 10, fps % 10); log_text(str); } #if defined(HAVE_LCD_COLOR) && (MEMORYSIZE > 2) #if LCD_WIDTH >= LCD_HEIGHT #define YUV_WIDTH LCD_WIDTH #define YUV_HEIGHT LCD_HEIGHT #else /* Assume the screen is rotated on portrait LCDs */ #define YUV_WIDTH LCD_HEIGHT #define YUV_HEIGHT LCD_WIDTH #endif static unsigned char ydata[YUV_HEIGHT][YUV_WIDTH]; static unsigned char udata[YUV_HEIGHT/2][YUV_WIDTH/2]; static unsigned char vdata[YUV_HEIGHT/2][YUV_WIDTH/2]; static unsigned char * const yuvbuf[3] = { (void*)ydata, (void*)udata, (void*)vdata }; static void make_gradient_rect(int width, int height) { unsigned char vline[YUV_WIDTH/2]; int x, y; width /= 2; height /= 2; for (x = 0; x < width; x++) vline[x] = (x << 8) / width; for (y = 0; y < height; y++) { rb->memset(udata[y], (y << 8) / height, width); rb->memcpy(vdata[y], vline, width); } } static void time_main_yuv(void) { char str[32]; /* text buffer */ long time_start; /* start tickcount */ long time_end; /* end tickcount */ int frame_count; int fps; const int part14_x = YUV_WIDTH/4; /* x-offset for 1/4 update test */ const int part14_w = YUV_WIDTH/2; /* x-size for 1/4 update test */ const int part14_y = YUV_HEIGHT/4; /* y-offset for 1/4 update test */ const int part14_h = YUV_HEIGHT/2; /* y-size for 1/4 update test */ log_text("Main LCD YUV"); rb->memset(ydata, 128, sizeof(ydata)); /* medium grey */ /* Test 1: full LCD update */ make_gradient_rect(YUV_WIDTH, YUV_HEIGHT); frame_count = 0; rb->sleep(0); /* sync to tick */ time_start = *rb->current_tick; while((time_end = *rb->current_tick) - time_start < DURATION) { rb->lcd_blit_yuv(yuvbuf, 0, 0, YUV_WIDTH, 0, 0, YUV_WIDTH, YUV_HEIGHT); frame_count++; } fps = calc_tenth_fps(frame_count, time_end - time_start); rb->snprintf(str, sizeof(str), "1/1: %d.%d fps", fps / 10, fps % 10); log_text(str); /* Test 2: quarter LCD update */ make_gradient_rect(YUV_WIDTH/2, YUV_HEIGHT/2); frame_count = 0; rb->sleep(0); /* sync to tick */ time_start = *rb->current_tick; while((time_end = *rb->current_tick) - time_start < DURATION) { rb->lcd_blit_yuv(yuvbuf, 0, 0, YUV_WIDTH, part14_x, part14_y, part14_w, part14_h); frame_count++; } fps = calc_tenth_fps(frame_count, time_end - time_start); rb->snprintf(str, sizeof(str), "1/4: %d.%d fps", fps / 10, fps % 10); log_text(str); } #endif #ifdef HAVE_REMOTE_LCD static void time_remote_update(void) { char str[32]; /* text buffer */ long time_start; /* start tickcount */ long time_end; /* end tickcount */ int frame_count; int fps; const int part14_x = LCD_REMOTE_WIDTH/4; /* x-offset for 1/4 update test */ const int part14_w = LCD_REMOTE_WIDTH/2; /* x-size for 1/4 update test */ const int part14_y = LCD_REMOTE_HEIGHT/4; /* y-offset for 1/4 update test */ const int part14_h = LCD_REMOTE_HEIGHT/2; /* y-size for 1/4 update test */ log_text("Remote LCD Update"); /* Test 1: full LCD update */ frame_count = 0; rb->sleep(0); /* sync to tick */ time_start = *rb->current_tick; while((time_end = *rb->current_tick) - time_start < DURATION) { rb->lcd_remote_update(); frame_count++; } fps = calc_tenth_fps(frame_count, time_end - time_start); rb->snprintf(str, sizeof(str), "1/1: %d.%d fps", fps / 10, fps % 10); log_text(str); /* Test 2: quarter LCD update */ frame_count = 0; rb->sleep(0); /* sync to tick */ time_start = *rb->current_tick; while((time_end = *rb->current_tick) - time_start < DURATION) { rb->lcd_remote_update_rect(part14_x, part14_y, part14_w, part14_h); frame_count++; } fps = calc_tenth_fps(frame_count, time_end - time_start); rb->snprintf(str, sizeof(str), "1/4: %d.%d fps", fps / 10, fps % 10); log_text(str); } #endif #if LCD_DEPTH < 4 GREY_INFO_STRUCT_IRAM static unsigned char greydata[LCD_HEIGHT][LCD_WIDTH]; static void make_grey_rect(int width, int height) { unsigned char vline[LCD_WIDTH]; int x, y; for (x = 0; x < width; x++) vline[x] = (x << 8) / width; for (y = 0; y < height; y++) rb->memcpy(greydata[y], vline, width); } static void time_greyscale(void) { char str[32]; /* text buffer */ long time_start; /* start tickcount */ long time_end; /* end tickcount */ long time_1, time_2; int frames_1, frames_2; int fps, load; size_t gbuf_size; unsigned char *gbuf = (unsigned char *) rb->plugin_get_buffer(&gbuf_size); #if NUM_CORES > 1 int i; for (i = 0; i < NUM_CORES; i++) { rb->snprintf(str, sizeof(str), "Greyscale (%s)", (i > 0) ? "COP" : "CPU"); log_text(str); #else const int i = 0; log_text("Greyscale library"); { #endif if (!grey_init(gbuf, gbuf_size, (i > 0) ? GREY_ON_COP : 0, LCD_WIDTH, LCD_HEIGHT, NULL)) { log_text("greylib: out of memory."); return; } make_grey_rect(LCD_WIDTH, LCD_HEIGHT); /* Test 1 - greyscale overlay not yet enabled */ frames_1 = 0; rb->sleep(0); /* sync to tick */ time_start = *rb->current_tick; while((time_end = *rb->current_tick) - time_start < DURATION) { grey_ub_gray_bitmap(greydata[0], 0, 0, LCD_WIDTH, LCD_HEIGHT); frames_1++; } time_1 = time_end - time_start; /* Test 2 - greyscale overlay enabled */ grey_show(true); frames_2 = 0; rb->sleep(0); /* sync to tick */ time_start = *rb->current_tick; while((time_end = *rb->current_tick) - time_start < DURATION) { grey_ub_gray_bitmap(greydata[0], 0, 0, LCD_WIDTH, LCD_HEIGHT); frames_2++; } time_2 = time_end - time_start; grey_release(); fps = calc_tenth_fps(frames_2, time_2); load = 100 - (100 * frames_2 * time_1) / (frames_1 * time_2); rb->snprintf(str, sizeof(str), "1/1: %d.%d fps", fps / 10, fps % 10); log_text(str); if (load > 0 && load < 100) { rb->snprintf(str, sizeof(str), "CPU load: %d%%", load); log_text(str); } else log_text("CPU load err (boost?)"); } } #endif void plugin_quit(void) { #ifdef HAVE_TOUCHSCREEN static struct touchbutton button[] = {{ .action = ACTION_STD_OK, .title = "OK", /* .vp runtime initialized, rest false/NULL */ }}; struct viewport *vp = &button[0].vp; struct screen *lcd = rb->screens[SCREEN_MAIN]; rb->viewport_set_defaults(vp, SCREEN_MAIN); const int border = 10; const int height = 50; lcd->set_viewport(vp); /* button matches the bottom center in the grid */ vp->x = lcd->lcdwidth/3; vp->width = lcd->lcdwidth/3; vp->height = height; vp->y = lcd->lcdheight - height - border; touchbutton_draw(button, ARRAYLEN(button)); lcd->update_viewport(); if (rb->touchscreen_get_mode() == TOUCHSCREEN_POINT) { while(touchbutton_get(button, ARRAYLEN(button)) != ACTION_STD_OK); } else #endif while (1) { int btn = pluginlib_getaction(TIMEOUT_BLOCK, plugin_contexts, ARRAYLEN(plugin_contexts)); exit_on_usb(btn); if ((btn == FPS_QUIT) || (btn == FPS_QUIT2)) break; } } /* plugin entry point */ enum plugin_status plugin_start(const void* parameter) { #if (CONFIG_PLATFORM & PLATFORM_NATIVE) char str[32]; int cpu_freq; #endif /* standard stuff */ (void)parameter; #ifdef HAVE_TOUCHSCREEN rb->touchscreen_set_mode(rb->global_settings->touch_mode); #endif log_init(); #if (CONFIG_PLATFORM & PLATFORM_NATIVE) cpu_freq = *rb->cpu_frequency; /* remember CPU frequency */ #endif backlight_ignore_timeout(); time_main_update(); rb->sleep(HZ); #if defined(HAVE_LCD_COLOR) && (MEMORYSIZE > 2) time_main_yuv(); #endif #if LCD_DEPTH < 4 time_greyscale(); #endif #ifdef HAVE_REMOTE_LCD time_remote_update(); #endif #if (CONFIG_PLATFORM & PLATFORM_NATIVE) if (*rb->cpu_frequency != cpu_freq) rb->snprintf(str, sizeof(str), "CPU clock changed!"); else rb->snprintf(str, sizeof(str), "CPU: %d MHz", (cpu_freq + 500000) / 1000000); log_text(str); #endif backlight_use_settings(); /* wait until user closes plugin */ plugin_quit(); return PLUGIN_OK; }