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|
/***************************************************************************
* __________ __ ___.
* Open \______ \ ____ ____ | | _\_ |__ _______ ___
* Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ /
* Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < <
* Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \
* \/ \/ \/ \/ \/
* $Id$
*
* Copyright (C) 2002 by Linus Nielsen Feltzing
*
* 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.
*
****************************************************************************/
/*
2005-04-16 Tomas Salfischberger:
- New BMP loader function, based on the old one (borrowed a lot of
calculations and checks there.)
- Conversion part needs some optimization, doing unneeded calulations now.
2006-11-18 Jens Arnold: complete rework
- All canonical formats supported now (1, 4, 8, 15/16, 24 and 32 bit)
- better protection against malformed / non-standard BMPs
- code heavily optimised for both size and speed
- dithering for 2 bit targets
*/
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "inttypes.h"
#include "debug.h"
#include "lcd.h"
#include "file.h"
#ifdef HAVE_REMOTE_LCD
#include "lcd-remote.h"
#endif
#ifndef __PCTOOL__
#include "config.h"
#include "system.h"
#include "bmp.h"
#include "debug.h"
#else
#undef DEBUGF
#define DEBUGF(...)
#endif
#ifdef __GNUC__
#define STRUCT_PACKED __attribute__((packed))
#else
#define STRUCT_PACKED
#pragma pack (push, 2)
#endif
/* BMP header structure */
struct bmp_header {
uint16_t type; /* signature - 'BM' */
uint32_t size; /* file size in bytes */
uint16_t reserved1; /* 0 */
uint16_t reserved2; /* 0 */
uint32_t off_bits; /* offset to bitmap */
uint32_t struct_size; /* size of this struct (40) */
int32_t width; /* bmap width in pixels */
int32_t height; /* bmap height in pixels */
uint16_t planes; /* num planes - always 1 */
uint16_t bit_count; /* bits per pixel */
uint32_t compression; /* compression flag */
uint32_t size_image; /* image size in bytes */
int32_t x_pels_per_meter; /* horz resolution */
int32_t y_pels_per_meter; /* vert resolution */
uint32_t clr_used; /* 0 -> color table size */
uint32_t clr_important; /* important color count */
} STRUCT_PACKED;
union rgb_union {
struct { /* Little endian */
unsigned char blue;
unsigned char green;
unsigned char red;
unsigned char reserved;
};
uint32_t raw;
};
/* masks for supported BI_BITFIELDS encodings (16/32 bit), little endian */
static const unsigned char bitfields[3][12] = {
{ 0x00,0x7c,0x00,0, 0xe0,0x03,0x00,0, 0x1f,0x00,0x00,0 }, /* 15 bit */
{ 0x00,0xf8,0x00,0, 0xe0,0x07,0x00,0, 0x1f,0x00,0x00,0 }, /* 16 bit */
{ 0x00,0x00,0xff,0, 0x00,0xff,0x00,0, 0xff,0x00,0x00,0 }, /* 32 bit */
};
#if (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1)
/* canonical ordered dither matrix */
static const unsigned char dither_matrix[16][16] = {
{ 0,192, 48,240, 12,204, 60,252, 3,195, 51,243, 15,207, 63,255 },
{ 128, 64,176,112,140, 76,188,124,131, 67,179,115,143, 79,191,127 },
{ 32,224, 16,208, 44,236, 28,220, 35,227, 19,211, 47,239, 31,223 },
{ 160, 96,144, 80,172,108,156, 92,163, 99,147, 83,175,111,159, 95 },
{ 8,200, 56,248, 4,196, 52,244, 11,203, 59,251, 7,199, 55,247 },
{ 136, 72,184,120,132, 68,180,116,139, 75,187,123,135, 71,183,119 },
{ 40,232, 24,216, 36,228, 20,212, 43,235, 27,219, 39,231, 23,215 },
{ 168,104,152, 88,164,100,148, 84,171,107,155, 91,167,103,151, 87 },
{ 2,194, 50,242, 14,206, 62,254, 1,193, 49,241, 13,205, 61,253 },
{ 130, 66,178,114,142, 78,190,126,129, 65,177,113,141, 77,189,125 },
{ 34,226, 18,210, 46,238, 30,222, 33,225, 17,209, 45,237, 29,221 },
{ 162, 98,146, 82,174,110,158, 94,161, 97,145, 81,173,109,157, 93 },
{ 10,202, 58,250, 6,198, 54,246, 9,201, 57,249, 5,197, 53,245 },
{ 138, 74,186,122,134, 70,182,118,137, 73,185,121,133, 69,181,117 },
{ 42,234, 26,218, 38,230, 22,214, 41,233, 25,217, 37,229, 21,213 },
{ 170,106,154, 90,166,102,150, 86,169,105,153, 89,165,101,149, 85 }
};
#endif
#if ((LCD_DEPTH == 2) && (LCD_PIXELFORMAT == VERTICAL_INTERLEAVED)) \
|| (defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH == 2) \
&& (LCD_REMOTE_PIXELFORMAT == VERTICAL_INTERLEAVED))
static const unsigned short vi_pattern[4] = {
0x0101, 0x0100, 0x0001, 0x0000
};
#endif
/* little endian functions */
static inline unsigned readshort(uint16_t *value)
{
unsigned char* bytes = (unsigned char*) value;
return (unsigned)bytes[0] | ((unsigned)bytes[1] << 8);
}
static inline uint32_t readlong(uint32_t *value)
{
unsigned char* bytes = (unsigned char*) value;
return (uint32_t)bytes[0] | ((uint32_t)bytes[1] << 8) |
((uint32_t)bytes[2] << 16) | ((uint32_t)bytes[3] << 24);
}
static inline unsigned brightness(union rgb_union color)
{
return (3 * (unsigned)color.red + 6 * (unsigned)color.green
+ (unsigned)color.blue) / 10;
}
/******************************************************************************
* read_bmp_file()
*
* Reads a BMP file and puts the data in rockbox format in *bitmap.
*
*****************************************************************************/
int read_bmp_file(const char* filename,
struct bitmap *bm,
int maxsize,
int format)
{
int fd, ret;
fd = open(filename, O_RDONLY);
/* Exit if file opening failed */
if (fd < 0) {
DEBUGF("read_bmp_file: can't open '%s', rc: %d\n", filename, fd);
return fd * 10 - 1;
}
ret = read_bmp_fd(fd, bm, maxsize, format);
close(fd);
return ret;
}
/******************************************************************************
* read_bmp_fd()
*
* Reads a BMP file in an open file descriptor and puts the data in rockbox
* format in *bitmap.
*
*****************************************************************************/
int read_bmp_fd(int fd,
struct bitmap *bm,
int maxsize,
int format)
{
struct bmp_header bmph;
int width, height, padded_width;
int dst_height, dst_width;
int depth, numcolors, compression, totalsize;
int row, col, ret;
int rowstart, rowstop, rowstep;
unsigned char *bitmap = bm->data;
uint32_t bmpbuf[LCD_WIDTH]; /* Buffer for one line */
uint32_t palette[256];
#if (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1)
bool transparent = false;
bool dither = false;
#ifdef HAVE_REMOTE_LCD
bool remote = false;
if (format & FORMAT_REMOTE) {
remote = true;
#if LCD_REMOTE_DEPTH == 1
format = FORMAT_MONO;
#else
format &= ~FORMAT_REMOTE;
#endif
}
#endif /* HAVE_REMOTE_LCD */
if (format & FORMAT_TRANSPARENT) {
transparent = true;
format &= ~FORMAT_TRANSPARENT;
}
if (format & FORMAT_DITHER) {
dither = true;
format &= ~FORMAT_DITHER;
}
#else
(void)format;
#endif /* (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1) */
/* read fileheader */
ret = read(fd, &bmph, sizeof(struct bmp_header));
if (ret < 0) {
return ret * 10 - 2;
}
if (ret != sizeof(struct bmp_header)) {
DEBUGF("read_bmp_fd: can't read BMP header.");
return -3;
}
width = readlong(&bmph.width);
if (width > LCD_WIDTH) {
DEBUGF("read_bmp_fd: Bitmap too wide (%d pixels, max is %d)\n",
width, LCD_WIDTH);
return -4;
}
height = readlong(&bmph.height);
if (height < 0) { /* Top-down BMP file */
height = -height;
rowstart = 0;
rowstop = height;
rowstep = 1;
} else { /* normal BMP */
rowstart = height - 1;
rowstop = -1;
rowstep = -1;
}
depth = readshort(&bmph.bit_count);
padded_width = ((width * depth + 31) >> 3) & ~3; /* 4-byte boundary aligned */
#if (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1)
if (format == FORMAT_ANY) {
if (depth == 1)
format = FORMAT_MONO;
else
format = FORMAT_NATIVE;
}
bm->format = format;
#endif /* (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1) */
/* returning image size */
bm->width = width;
bm->height = height;
#if (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1)
if (format == FORMAT_NATIVE) {
#if defined(HAVE_REMOTE_LCD) && LCD_REMOTE_DEPTH > 1
if (remote) {
#if (LCD_REMOTE_DEPTH == 2) && (LCD_REMOTE_PIXELFORMAT == VERTICAL_INTERLEAVED)
dst_width = width;
dst_height = (height + 7) >> 3;
#endif /* LCD_REMOTE_DEPTH / LCD_REMOTE_PIXELFORMAT */
totalsize = dst_width * dst_height * sizeof(fb_remote_data);
} else
#endif /* defined(HAVE_REMOTE_LCD) && LCD_REMOTE_DEPTH > 1 */
{
#if LCD_DEPTH == 2
#if LCD_PIXELFORMAT == HORIZONTAL_PACKING
dst_width = (width + 3) >> 2;
dst_height = height;
#elif LCD_PIXELFORMAT == VERTICAL_PACKING
dst_width = width;
dst_height = (height + 3) >> 2;
#elif LCD_PIXELFORMAT == VERTICAL_INTERLEAVED
dst_width = width;
dst_height = (height + 7) >> 3;
#endif /* LCD_PIXELFORMAT */
#elif LCD_DEPTH == 16
dst_width = width;
dst_height = height;
#endif /* LCD_DEPTH */
totalsize = dst_width * dst_height * sizeof(fb_data);
}
} else
#endif /* (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1) */
{
dst_width = width;
dst_height = (height + 7) >> 3;
totalsize = dst_width * dst_height;
}
/* Check if this fits the buffer */
if (totalsize > maxsize) {
DEBUGF("read_bmp_fd: Bitmap too large for buffer: "
"%d bytes.\n", totalsize);
return -6;
}
compression = readlong(&bmph.compression);
if (depth <= 8) {
numcolors = readlong(&bmph.clr_used);
if (numcolors == 0)
numcolors = 1 << depth;
} else
numcolors = (compression == 3) ? 3 : 0;
if (numcolors > 0 && numcolors <= 256) {
if (read(fd, palette, numcolors * sizeof(uint32_t))
!= numcolors * (int)sizeof(uint32_t))
{
DEBUGF("read_bmp_fd: Can't read color palette\n");
return -7;
}
}
switch (depth) {
case 16:
#if LCD_DEPTH >= 16
/* don't dither 16 bit BMP to LCD with same or larger depth */
#ifdef HAVE_REMOTE_LCD
if (!remote)
#endif
dither = false;
#endif
if (compression == 0) { /* BI_RGB, i.e. 15 bit */
depth = 15;
break;
} /* else fall through */
case 32:
if (compression == 3) { /* BI_BITFIELDS */
if (!memcmp(palette, bitfields[0], 12)) { /* 15 bit */
depth = 15;
break;
}
if (!memcmp(palette, bitfields[1], 12) /* 16 bit */
|| !memcmp(palette, bitfields[2], 12)) /* 32 bit */
{
break;
}
} /* else fall through */
default:
if (compression != 0) { /* not BI_RGB */
DEBUGF("read_bmp_fd: Unsupported compression (type %d)\n",
compression);
return -8;
}
break;
}
/* Search to the beginning of the image data */
lseek(fd, (off_t)readlong(&bmph.off_bits), SEEK_SET);
memset(bitmap, 0, totalsize);
/* loop to read rows and put them to buffer */
for (row = rowstart; row != rowstop; row += rowstep) {
unsigned data, mask;
unsigned char *p;
uint16_t *p2;
uint32_t *rp;
union rgb_union *qp;
union rgb_union q0, q1;
/* read one row */
ret = read(fd, bmpbuf, padded_width);
if (ret != padded_width) {
DEBUGF("read_bmp_fd: error reading image, read returned: %d "
"expected: %d\n", ret, padded_width);
return -9;
}
/* convert whole line in-place to XRGB8888 (little endian) */
rp = bmpbuf + width;
switch (depth) {
case 1:
q0.raw = palette[0];
q1.raw = palette[1];
p = (unsigned char*)bmpbuf + ((width + 7) >> 3);
mask = 0x80 >> ((width + 7) & 7);
while (p > (unsigned char*)bmpbuf) {
data = *(--p);
for (; mask <= 0x80; mask <<= 1)
*(--rp) = (data & mask) ? q1.raw : q0.raw;
mask = 0x01;
}
break;
case 4:
if (width & 1)
rp++;
p = (unsigned char*)bmpbuf + ((width + 1) >> 1);
while (p > (unsigned char*)bmpbuf) {
data = *(--p);
*(--rp) = palette[data & 0x0f];
*(--rp) = palette[data >> 4];
}
break;
case 8:
p = (unsigned char*)bmpbuf + width;
while (p > (unsigned char*)bmpbuf)
*(--rp) = palette[*(--p)];
break;
case 15:
case 16:
p2 = (uint16_t *)bmpbuf + width;
while (p2 > (uint16_t *)bmpbuf) {
unsigned component, rgb;
data = letoh16(*(--p2));
/* blue */
component = (data << 3) & 0xf8;
#ifdef ROCKBOX_BIG_ENDIAN
rgb = (component | (component >> 5)) << 8;
/* green */
data >>= 2;
if (depth == 15) {
component = data & 0xf8;
rgb |= component | (component >> 5);
} else {
data >>= 1;
component = data & 0xfc;
rgb |= component | (component >> 6);
}
/* red */
data >>= 5;
component = data & 0xf8;
rgb = (rgb << 8) | component | (component >> 5);
*(--rp) = rgb << 8;
#else /* little endian */
rgb = component | (component >> 5);
/* green */
data >>= 2;
if (depth == 15) {
component = data & 0xf8;
rgb |= (component | (component >> 5)) << 8;
} else {
data >>= 1;
component = data & 0xfc;
rgb |= (component | (component >> 6)) << 8;
}
/* red */
data >>= 5;
component = data & 0xf8;
rgb |= (component | (component >> 5)) << 16;
*(--rp) = rgb;
#endif
}
break;
case 24:
p = (unsigned char*)bmpbuf + 3 * width;
while (p > (unsigned char*)bmpbuf) {
data = *(--p);
data = (data << 8) | *(--p);
data = (data << 8) | *(--p);
*(--rp) = htole32(data);
}
break;
case 32: /* already in desired format */
break;
}
/* Convert to destination format */
qp = (union rgb_union *)bmpbuf;
#if (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1)
if (format == FORMAT_NATIVE) {
#if defined(HAVE_REMOTE_LCD) && LCD_REMOTE_DEPTH > 1
if (remote) {
#if (LCD_REMOTE_DEPTH == 2) && (LCD_REMOTE_PIXELFORMAT == VERTICAL_INTERLEAVED)
/* iAudio X5/M5 remote */
fb_remote_data *dest = (fb_remote_data *)bitmap
+ dst_width * (row >> 3);
int shift = row & 7;
int delta = 127;
unsigned bright;
for (col = 0; col < width; col++) {
if (dither)
delta = dither_matrix[row & 0xf][col & 0xf];
bright = brightness(*qp++);
bright = (3 * bright + (bright >> 6) + delta) >> 8;
*dest++ |= vi_pattern[bright] << shift;
}
#endif /* LCD_REMOTE_DEPTH / LCD_REMOTE_PIXELFORMAT */
} else
#endif /* defined(HAVE_REMOTE_LCD) && LCD_REMOTE_DEPTH > 1 */
{
#if LCD_DEPTH == 2
#if LCD_PIXELFORMAT == HORIZONTAL_PACKING
/* greyscale iPods */
fb_data *dest = (fb_data *)bitmap + dst_width * row;
int shift = 6;
int delta = 127;
unsigned bright;
unsigned data = 0;
for (col = 0; col < width; col++) {
if (dither)
delta = dither_matrix[row & 0xf][col & 0xf];
bright = brightness(*qp++);
bright = (3 * bright + (bright >> 6) + delta) >> 8;
data |= (~bright & 3) << shift;
shift -= 2;
if (shift < 0) {
*dest++ = data;
data = 0;
shift = 6;
}
}
if (shift < 6)
*dest++ = data;
#elif LCD_PIXELFORMAT == VERTICAL_PACKING
/* iriver H1x0 */
fb_data *dest = (fb_data *)bitmap + dst_width * (row >> 2);
int shift = 2 * (row & 3);
int delta = 127;
unsigned bright;
for (col = 0; col < width; col++) {
if (dither)
delta = dither_matrix[row & 0xf][col & 0xf];
bright = brightness(*qp++);
bright = (3 * bright + (bright >> 6) + delta) >> 8;
*dest++ |= (~bright & 3) << shift;
}
#elif LCD_PIXELFORMAT == VERTICAL_INTERLEAVED
/* iAudio M3 */
fb_data *dest = (fb_data *)bitmap + dst_width * (row >> 3);
int shift = row & 7;
int delta = 127;
unsigned bright;
for (col = 0; col < width; col++) {
if (dither)
delta = dither_matrix[row & 0xf][col & 0xf];
bright = brightness(*qp++);
bright = (3 * bright + (bright >> 6) + delta) >> 8;
*dest++ |= vi_pattern[bright] << shift;
}
#endif /* LCD_PIXELFORMAT */
#elif LCD_DEPTH == 16
/* iriver h300, colour iPods, X5 */
fb_data *dest = (fb_data *)bitmap + dst_width * row;
int delta = 127;
unsigned r, g, b;
for (col = 0; col < width; col++) {
if (dither)
delta = dither_matrix[row & 0xf][col & 0xf];
q0 = *qp++;
r = (31 * q0.red + (q0.red >> 3) + delta) >> 8;
g = (63 * q0.green + (q0.green >> 2) + delta) >> 8;
b = (31 * q0.blue + (q0.blue >> 3) + delta) >> 8;
*dest++ = LCD_RGBPACK_LCD(r, g, b);
}
#endif /* LCD_DEPTH */
}
} else
#endif /* (LCD_DEPTH > 1) || defined(HAVE_REMOTE_LCD) && (LCD_REMOTE_DEPTH > 1) */
{
p = bitmap + dst_width * (row >> 3);
mask = 1 << (row & 7);
for (col = 0; col < width; col++, p++)
if (brightness(*qp++) < 128)
*p |= mask;
}
}
return totalsize; /* return the used buffer size. */
}
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