rockbox/apps/plugins/imageviewer/jpeg/jpeg.c

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/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* JPEG image viewer
* (This is a real mess if it has to be coded in one single C file)
*
* File scrolling addition (C) 2005 Alexander Spyridakis
* Copyright (C) 2004 Jörg Hohensohn aka [IDC]Dragon
* Heavily borrowed from the IJG implementation (C) Thomas G. Lane
* Small & fast downscaling IDCT (C) 2002 by Guido Vollbeding JPEGclub.org
*
* 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 "../imageviewer.h"
#include "jpeg_decoder.h"
#ifdef HAVE_LCD_COLOR
#include "yuv2rgb.h"
#endif
/**************** begin Application ********************/
/************************* Types ***************************/
struct t_disp
{
#ifdef HAVE_LCD_COLOR
unsigned char* bitmap[3]; /* Y, Cr, Cb */
int csub_x, csub_y;
#else
unsigned char* bitmap[1]; /* Y only */
#endif
int stride;
};
/************************* 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;
static struct jpeg jpg; /* too large for stack */
/************************* Implementation ***************************/
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
yuv_bitmap_part(
pdisp->bitmap, pdisp->csub_x, pdisp->csub_y,
info->x + x, info->y + y, pdisp->stride,
x + MAX(0, (LCD_WIDTH - info->width) / 2),
y + MAX(0, (LCD_HEIGHT - info->height) / 2),
width, height,
iv->settings->jpeg_colour_mode, iv->settings->jpeg_dither_mode);
#else
mylcd_ub_gray_bitmap_part(
pdisp->bitmap[0], info->x + x, info->y + y, pdisp->stride,
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)
{
int size;
struct jpeg *p_jpg = &jpg;
size = (p_jpg->x_phys/ds/p_jpg->subsample_x[0])
* (p_jpg->y_phys/ds/p_jpg->subsample_y[0]);
#ifdef HAVE_LCD_COLOR
if (p_jpg->blocks > 1) /* colour, add requirements for chroma */
{
size += (p_jpg->x_phys/ds/p_jpg->subsample_x[1])
* (p_jpg->y_phys/ds/p_jpg->subsample_y[1]);
size += (p_jpg->x_phys/ds/p_jpg->subsample_x[2])
* (p_jpg->y_phys/ds/p_jpg->subsample_y[2]);
}
#endif
return size;
}
static int load_image(char *filename, struct image_info *info,
unsigned char *buf, ssize_t *buf_size)
{
int fd;
int filesize;
unsigned char* buf_jpeg; /* compressed JPEG image */
int status;
struct jpeg *p_jpg = &jpg;
rb->memset(&disp, 0, sizeof(disp));
rb->memset(&jpg, 0, sizeof(jpg));
fd = rb->open(filename, O_RDONLY);
if (fd < 0)
{
rb->splashf(HZ, "err opening %s: %d", filename, fd);
return PLUGIN_ERROR;
}
filesize = rb->filesize(fd);
/* allocate JPEG buffer */
buf_jpeg = buf;
/* we can start the decompressed images behind it */
buf_images = buf_root = buf + filesize;
buf_images_size = root_size = *buf_size - filesize;
if (buf_images_size <= 0)
{
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 %d bytes", filesize);
rb->lcd_update();
}
rb->read(fd, buf_jpeg, filesize);
rb->close(fd);
if(!iv->running_slideshow)
{
rb->lcd_puts(0, 2, "decoding markers");
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
/* process markers, unstuffing */
status = process_markers(buf_jpeg, filesize, p_jpg);
if (status < 0 || (status & (DQT | SOF0)) != (DQT | SOF0))
{ /* bad format or minimum components not contained */
rb->splashf(HZ, "unsupported %d", status);
return PLUGIN_ERROR;
}
if (!(status & DHT)) /* if no Huffman table present: */
default_huff_tbl(p_jpg); /* use default */
build_lut(p_jpg); /* derive Huffman and other lookup-tables */
if(!iv->running_slideshow)
{
rb->lcd_putsf(0, 2, "image %dx%d", p_jpg->x_size, p_jpg->y_size);
rb->lcd_update();
}
info->x_size = p_jpg->x_size;
info->y_size = p_jpg->y_size;
*buf_size = buf_images_size;
return PLUGIN_OK;
}
static int get_image(struct image_info *info, int frame, int ds)
{
(void)frame;
int w, h; /* used to center output */
int size; /* decompressed image size */
long time; /* measured ticks */
int status;
struct jpeg* p_jpg = &jpg;
struct t_disp* p_disp = &disp[ds]; /* short cut */
info->width = p_jpg->x_size / ds;
info->height = p_jpg->y_size / ds;
info->data = p_disp;
if (p_disp->bitmap[0] != NULL)
{
/* we still have it */
return PLUGIN_OK;
}
/* assign image buffer */
/* physical size needed for decoding */
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[0] = NULL; /* invalidate all bitmaps */
buf_images = buf_root; /* start again from the beginning of the buffer */
buf_images_size = root_size;
}
#ifdef HAVE_LCD_COLOR
if (p_jpg->blocks > 1) /* colour jpeg */
{
int i;
for (i = 1; i < 3; i++)
{
size = (p_jpg->x_phys / ds / p_jpg->subsample_x[i])
* (p_jpg->y_phys / ds / p_jpg->subsample_y[i]);
p_disp->bitmap[i] = buf_images;
buf_images += size;
buf_images_size -= size;
}
p_disp->csub_x = p_jpg->subsample_x[1];
p_disp->csub_y = p_jpg->subsample_y[1];
}
else
{
p_disp->csub_x = p_disp->csub_y = 0;
p_disp->bitmap[1] = p_disp->bitmap[2] = buf_images;
}
#endif
/* size may be less when decoded (if height is not block aligned) */
size = (p_jpg->x_phys/ds) * (p_jpg->y_size/ds);
p_disp->bitmap[0] = buf_images;
buf_images += size;
buf_images_size -= size;
if(!iv->running_slideshow)
{
rb->lcd_putsf(0, 3, "decoding %d*%d", info->width, info->height);
rb->lcd_update();
}
/* update image properties */
p_disp->stride = p_jpg->x_phys / ds; /* use physical size for stride */
/* the actual decoding */
time = *rb->current_tick;
#ifdef HAVE_ADJUSTABLE_CPU_FREQ
rb->cpu_boost(true);
status = jpeg_decode(p_jpg, p_disp->bitmap, ds, iv->cb_progress);
rb->cpu_boost(false);
#else
status = jpeg_decode(p_jpg, p_disp->bitmap, ds, iv->cb_progress);
#endif
if (status)
{
rb->splashf(HZ, "decode error %d", status);
return PLUGIN_ERROR;
}
time = *rb->current_tick - time;
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();
}
return PLUGIN_OK;
}
const struct image_decoder image_decoder = {
false,
img_mem,
load_image,
get_image,
draw_image_rect,
};
IMGDEC_HEADER