/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * BMP image viewer * * 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 "bmp.h" #include "resize.h" #include #include #include "../imageviewer.h" #ifdef HAVE_LCD_COLOR #define resize_bitmap smooth_resize_bitmap #elif defined(USEGSLIB) #define resize_bitmap grey_resize_bitmap #else #define resize_bitmap simple_resize_bitmap #endif /**************** begin Application ********************/ /************************* Types ***************************/ struct t_disp { unsigned char* bitmap; }; /************************* Globals ***************************/ /* decompressed image in the possible sizes (1,2,4,8), wasting the other */ static struct t_disp disp[9]; /* my memory pool (from the mp3 buffer) */ static char print[32]; /* use a common snprintf() buffer */ /* the root of the images, hereafter are decompresed ones */ static unsigned char* buf_root; static int root_size; /* up to here currently used by image(s) */ static unsigned char* buf_images; static ssize_t buf_images_size; struct bitmap bmp; /************************* Implementation ***************************/ #if defined(USEGSLIB) && (CONFIG_PLATFORM & PLATFORM_HOSTED) /* hack: fix error "undefined reference to `_grey_info'". */ GREY_INFO_STRUCT #endif /* USEGSLIB */ static void draw_image_rect(struct image_info *info, int x, int y, int width, int height) { struct t_disp* pdisp = (struct t_disp*)info->data; #ifdef HAVE_LCD_COLOR rb->lcd_bitmap_part( (fb_data*)pdisp->bitmap, info->x + x, info->y + y, STRIDE(SCREEN_MAIN, info->width, info->height), x + MAX(0, (LCD_WIDTH-info->width)/2), y + MAX(0, (LCD_HEIGHT-info->height)/2), width, height); #else mylcd_ub_gray_bitmap_part( pdisp->bitmap, info->x + x, info->y + y, info->width, x + MAX(0, (LCD_WIDTH-info->width)/2), y + MAX(0, (LCD_HEIGHT-info->height)/2), width, height); #endif } static int img_mem(int ds) { #ifndef USEGSLIB return (bmp.width/ds) * (bmp.height/ds) * sizeof (fb_data); #else return (bmp.width/ds) * (bmp.height/ds); #endif } static int load_image(char *filename, struct image_info *info, unsigned char *buf, ssize_t *buf_size) { int w, h; /* used to center output */ long time; /* measured ticks */ int fd; int size; int format = FORMAT_NATIVE; #ifdef USEGSLIB const struct custom_format *cformat = &format_grey; #else const struct custom_format *cformat = &format_native; #endif rb->memset(&disp, 0, sizeof(disp)); rb->memset(&bmp, 0, sizeof(bmp)); /* clear info struct */ if ((intptr_t)buf & 3) { *buf_size -= 4-((intptr_t)buf&3); buf += 4-((intptr_t)buf&3); } fd = rb->open(filename, O_RDONLY); if (fd < 0) { rb->splashf(HZ, "err opening %s: %d", filename, fd); return PLUGIN_ERROR; } int ds = 1; /* check size of image needed to load image. */ size = scaled_read_bmp_fd(fd, &bmp, 0, format | FORMAT_RETURN_SIZE, cformat); #if (LCD_PIXEL_ASPECT_HEIGHT != 1 || LCD_PIXEL_ASPECT_WIDTH != 1) if (size <= *buf_size) { /* correct aspect */ format |= FORMAT_RESIZE|FORMAT_KEEP_ASPECT; bmp.width *= LCD_PIXEL_ASPECT_HEIGHT; bmp.height *= LCD_PIXEL_ASPECT_WIDTH; bmp.width /= MAX(LCD_PIXEL_ASPECT_HEIGHT, LCD_PIXEL_ASPECT_WIDTH); bmp.height /= MAX(LCD_PIXEL_ASPECT_HEIGHT, LCD_PIXEL_ASPECT_WIDTH); } #endif #ifdef USE_PLUG_BUF if (!iv->plug_buf) #endif { while (size > *buf_size && bmp.width >= 2 && bmp.height >= 2 && ds < 8) { /* too large for the buffer. resize on load. */ format |= FORMAT_RESIZE|FORMAT_KEEP_ASPECT; ds *= 2; bmp.width /= 2; bmp.height /= 2; rb->lseek(fd, 0, SEEK_SET); size = scaled_read_bmp_fd(fd, &bmp, 0, format | FORMAT_RETURN_SIZE, cformat); } } if (size <= 0) { rb->close(fd); rb->splashf(HZ, "read error %d", size); return PLUGIN_ERROR; } if (size > *buf_size) { rb->close(fd); return PLUGIN_OUTOFMEM; } if (!iv->running_slideshow) { rb->lcd_puts(0, 0, rb->strrchr(filename,'/')+1); rb->lcd_putsf(0, 1, "loading %dx%d%s", bmp.width, bmp.height, ds == 1?"":"(resize on load)"); rb->lcd_update(); } /* allocate bitmap buffer */ bmp.data = buf; /* actual loading */ time = *rb->current_tick; rb->lseek(fd, 0, SEEK_SET); #ifdef HAVE_ADJUSTABLE_CPU_FREQ rb->cpu_boost(true); size = scaled_read_bmp_fd(fd, &bmp, *buf_size, format, cformat); rb->cpu_boost(false); #else size = scaled_read_bmp_fd(fd, &bmp, *buf_size, format, cformat); #endif /*HAVE_ADJUSTABLE_CPU_FREQ*/ rb->close(fd); time = *rb->current_tick - time; if (size <= 0) { rb->splashf(HZ, "load error %d", size); return PLUGIN_ERROR; } if (!iv->running_slideshow) { rb->snprintf(print, sizeof(print), " %ld.%02ld sec ", time/HZ, time%HZ); rb->lcd_getstringsize(print, &w, &h); /* centered in progress bar */ rb->lcd_putsxy((LCD_WIDTH - w)/2, LCD_HEIGHT - h, print); rb->lcd_update(); } #ifdef DISK_SPINDOWN else if(iv->immediate_ata_off) { /* running slideshow and time is long enough: power down disk */ rb->storage_sleep(); } #endif /* we can start the resized images behind it */ buf_images = buf_root = buf + size; buf_images_size = root_size = *buf_size - size; if (!iv->running_slideshow) { rb->lcd_putsf(0, 2, "image %dx%d", bmp.width, bmp.height); rb->lcd_update(); } info->x_size = bmp.width; info->y_size = bmp.height; *buf_size = buf_images_size; return PLUGIN_OK; } static int get_image(struct image_info *info, int ds) { struct t_disp* p_disp = &disp[ds]; /* short cut */ info->width = bmp.width/ds; info->height = bmp.height/ds; info->data = p_disp; if (p_disp->bitmap != NULL) { /* we still have it */ return PLUGIN_OK; } /* assign image buffer */ if (ds > 1) { int size; /* resized image size */ struct bitmap bmp_dst; size = img_mem(ds); if (buf_images_size <= size) { /* have to discard the current */ int i; for (i=1; i<=8; i++) disp[i].bitmap = NULL; /* invalidate all bitmaps */ buf_images = buf_root; /* start again from the beginning of the buffer */ buf_images_size = root_size; } p_disp->bitmap = buf_images; buf_images += size; buf_images_size -= size; if (!iv->running_slideshow) { rb->lcd_putsf(0, 3, "resizing %d*%d", info->width, info->height); rb->lcd_update(); } bmp_dst.width = info->width; bmp_dst.height = info->height; bmp_dst.data = p_disp->bitmap; #ifdef HAVE_ADJUSTABLE_CPU_FREQ rb->cpu_boost(true); resize_bitmap(&bmp, &bmp_dst); rb->cpu_boost(false); #else resize_bitmap(&bmp, &bmp_dst); #endif /*HAVE_ADJUSTABLE_CPU_FREQ*/ } else { p_disp->bitmap = bmp.data; } return PLUGIN_OK; } const struct image_decoder image_decoder = { true, img_mem, load_image, get_image, draw_image_rect, }; IMGDEC_HEADER