FreeRDP/libfreerdp-codec/bitmap.c

459 lines
11 KiB
C

/**
* FreeRDP: A Remote Desktop Protocol Client
* Compressed Bitmap
*
* Copyright 2011 Jay Sorg <jay.sorg@gmail.com>
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <freerdp/utils/stream.h>
#include <freerdp/utils/memory.h>
#include <freerdp/codec/bitmap.h>
/*
RLE Compressed Bitmap Stream (RLE_BITMAP_STREAM)
http://msdn.microsoft.com/en-us/library/cc240895%28v=prot.10%29.aspx
pseudo-code
http://msdn.microsoft.com/en-us/library/dd240593%28v=prot.10%29.aspx
*/
#define REGULAR_BG_RUN 0x00
#define MEGA_MEGA_BG_RUN 0xF0
#define REGULAR_FG_RUN 0x01
#define MEGA_MEGA_FG_RUN 0xF1
#define LITE_SET_FG_FG_RUN 0x0C
#define MEGA_MEGA_SET_FG_RUN 0xF6
#define LITE_DITHERED_RUN 0x0E
#define MEGA_MEGA_DITHERED_RUN 0xF8
#define REGULAR_COLOR_RUN 0x03
#define MEGA_MEGA_COLOR_RUN 0xF3
#define REGULAR_FGBG_IMAGE 0x02
#define MEGA_MEGA_FGBG_IMAGE 0xF2
#define LITE_SET_FG_FGBG_IMAGE 0x0D
#define MEGA_MEGA_SET_FGBG_IMAGE 0xF7
#define REGULAR_COLOR_IMAGE 0x04
#define MEGA_MEGA_COLOR_IMAGE 0xF4
#define SPECIAL_FGBG_1 0xF9
#define SPECIAL_FGBG_2 0xFA
#define SPECIAL_WHITE 0xFD
#define SPECIAL_BLACK 0xFE
#define BLACK_PIXEL 0x000000
#define WHITE_PIXEL 0xFFFFFF
typedef uint32 PIXEL;
static uint8 g_MaskBit0 = 0x01; /* Least significant bit */
static uint8 g_MaskBit1 = 0x02;
static uint8 g_MaskBit2 = 0x04;
static uint8 g_MaskBit3 = 0x08;
static uint8 g_MaskBit4 = 0x10;
static uint8 g_MaskBit5 = 0x20;
static uint8 g_MaskBit6 = 0x40;
static uint8 g_MaskBit7 = 0x80; /* Most significant bit */
static uint8 g_MaskSpecialFgBg1 = 0x03;
static uint8 g_MaskSpecialFgBg2 = 0x05;
static uint8 g_MaskRegularRunLength = 0x1F;
static uint8 g_MaskLiteRunLength = 0x0F;
/**
* Reads the supplied order header and extracts the compression
* order code ID.
*/
static uint32 ExtractCodeId(uint8 bOrderHdr)
{
int code;
switch (bOrderHdr)
{
case MEGA_MEGA_BG_RUN:
case MEGA_MEGA_FG_RUN:
case MEGA_MEGA_SET_FG_RUN:
case MEGA_MEGA_DITHERED_RUN:
case MEGA_MEGA_COLOR_RUN:
case MEGA_MEGA_FGBG_IMAGE:
case MEGA_MEGA_SET_FGBG_IMAGE:
case MEGA_MEGA_COLOR_IMAGE:
case SPECIAL_FGBG_1:
case SPECIAL_FGBG_2:
case SPECIAL_WHITE:
case SPECIAL_BLACK:
return bOrderHdr;
}
code = bOrderHdr >> 5;
switch (code)
{
case REGULAR_BG_RUN:
case REGULAR_FG_RUN:
case REGULAR_COLOR_RUN:
case REGULAR_FGBG_IMAGE:
case REGULAR_COLOR_IMAGE:
return code;
}
return bOrderHdr >> 4;
}
/**
* Extract the run length of a compression order.
*/
static uint32 ExtractRunLength(uint32 code, uint8* pbOrderHdr, uint32* advance)
{
uint32 runLength;
uint32 ladvance;
ladvance = 1;
runLength = 0;
switch (code)
{
case REGULAR_FGBG_IMAGE:
runLength = (*pbOrderHdr) & g_MaskRegularRunLength;
if (runLength == 0)
{
runLength = (*(pbOrderHdr + 1)) + 1;
ladvance += 1;
}
else
{
runLength = runLength * 8;
}
break;
case LITE_SET_FG_FGBG_IMAGE:
runLength = (*pbOrderHdr) & g_MaskLiteRunLength;
if (runLength == 0)
{
runLength = (*(pbOrderHdr + 1)) + 1;
ladvance += 1;
}
else
{
runLength = runLength * 8;
}
break;
case REGULAR_BG_RUN:
case REGULAR_FG_RUN:
case REGULAR_COLOR_RUN:
case REGULAR_COLOR_IMAGE:
runLength = (*pbOrderHdr) & g_MaskRegularRunLength;
if (runLength == 0)
{
/* An extended (MEGA) run. */
runLength = (*(pbOrderHdr + 1)) + 32;
ladvance += 1;
}
break;
case LITE_SET_FG_FG_RUN:
case LITE_DITHERED_RUN:
runLength = (*pbOrderHdr) & g_MaskLiteRunLength;
if (runLength == 0)
{
/* An extended (MEGA) run. */
runLength = (*(pbOrderHdr + 1)) + 16;
ladvance += 1;
}
break;
case MEGA_MEGA_BG_RUN:
case MEGA_MEGA_FG_RUN:
case MEGA_MEGA_SET_FG_RUN:
case MEGA_MEGA_DITHERED_RUN:
case MEGA_MEGA_COLOR_RUN:
case MEGA_MEGA_FGBG_IMAGE:
case MEGA_MEGA_SET_FGBG_IMAGE:
case MEGA_MEGA_COLOR_IMAGE:
runLength = ((uint16) pbOrderHdr[1]) | ((uint16) (pbOrderHdr[2] << 8));
ladvance += 2;
break;
}
*advance = ladvance;
return runLength;
}
#define UNROLL_COUNT 4
#define UNROLL(_exp) do { _exp _exp _exp _exp } while (0)
#undef DESTWRITEPIXEL
#undef DESTREADPIXEL
#undef SRCREADPIXEL
#undef DESTNEXTPIXEL
#undef SRCNEXTPIXEL
#undef WRITEFGBGIMAGE
#undef WRITEFIRSTLINEFGBGIMAGE
#undef RLEDECOMPRESS
#undef RLEEXTRA
#define DESTWRITEPIXEL(_buf, _pix) (_buf)[0] = (uint8)(_pix)
#define DESTREADPIXEL(_pix, _buf) _pix = (_buf)[0]
#define SRCREADPIXEL(_pix, _buf) _pix = (_buf)[0]
#define DESTNEXTPIXEL(_buf) _buf += 1
#define SRCNEXTPIXEL(_buf) _buf += 1
#define WRITEFGBGIMAGE WriteFgBgImage8to8
#define WRITEFIRSTLINEFGBGIMAGE WriteFirstLineFgBgImage8to8
#define RLEDECOMPRESS RleDecompress8to8
#define RLEEXTRA
#include "include/bitmap.c"
#undef DESTWRITEPIXEL
#undef DESTREADPIXEL
#undef SRCREADPIXEL
#undef DESTNEXTPIXEL
#undef SRCNEXTPIXEL
#undef WRITEFGBGIMAGE
#undef WRITEFIRSTLINEFGBGIMAGE
#undef RLEDECOMPRESS
#undef RLEEXTRA
#define DESTWRITEPIXEL(_buf, _pix) ((uint16*)(_buf))[0] = (uint16)(_pix)
#define DESTREADPIXEL(_pix, _buf) _pix = ((uint16*)(_buf))[0]
#define SRCREADPIXEL(_pix, _buf) _pix = ((uint16*)(_buf))[0]
#define DESTNEXTPIXEL(_buf) _buf += 2
#define SRCNEXTPIXEL(_buf) _buf += 2
#define WRITEFGBGIMAGE WriteFgBgImage16to16
#define WRITEFIRSTLINEFGBGIMAGE WriteFirstLineFgBgImage16to16
#define RLEDECOMPRESS RleDecompress16to16
#define RLEEXTRA
#include "include/bitmap.c"
#undef DESTWRITEPIXEL
#undef DESTREADPIXEL
#undef SRCREADPIXEL
#undef DESTNEXTPIXEL
#undef SRCNEXTPIXEL
#undef WRITEFGBGIMAGE
#undef WRITEFIRSTLINEFGBGIMAGE
#undef RLEDECOMPRESS
#undef RLEEXTRA
#define DESTWRITEPIXEL(_buf, _pix) do { (_buf)[0] = (uint8)(_pix); \
(_buf)[1] = (uint8)((_pix) >> 8); (_buf)[2] = (uint8)((_pix) >> 16); } while (0)
#define DESTREADPIXEL(_pix, _buf) _pix = (_buf)[0] | ((_buf)[1] << 8) | \
((_buf)[2] << 16)
#define SRCREADPIXEL(_pix, _buf) _pix = (_buf)[0] | ((_buf)[1] << 8) | \
((_buf)[2] << 16)
#define DESTNEXTPIXEL(_buf) _buf += 3
#define SRCNEXTPIXEL(_buf) _buf += 3
#define WRITEFGBGIMAGE WriteFgBgImage24to24
#define WRITEFIRSTLINEFGBGIMAGE WriteFirstLineFgBgImage24to24
#define RLEDECOMPRESS RleDecompress24to24
#define RLEEXTRA
#include "include/bitmap.c"
#define IN_UINT8_MV(_p) (*((_p)++))
/**
* decompress a color plane
* RDP6_BITMAP_STREAM
*/
static int process_plane(uint8* in, int width, int height, uint8* out, int size)
{
int indexw;
int indexh;
int code;
int collen;
int replen;
int color;
int x;
int revcode;
uint8* last_line;
uint8* this_line;
uint8* org_in;
uint8* org_out;
org_in = in;
org_out = out;
last_line = 0;
indexh = 0;
while (indexh < height)
{
out = (org_out + width * height * 4) - ((indexh + 1) * width * 4);
color = 0;
this_line = out;
indexw = 0;
if (last_line == 0)
{
while (indexw < width)
{
code = IN_UINT8_MV(in);
replen = code & 0xf;
collen = (code >> 4) & 0xf;
revcode = (replen << 4) | collen;
if ((revcode <= 47) && (revcode >= 16))
{
replen = revcode;
collen = 0;
}
while (collen > 0)
{
color = IN_UINT8_MV(in);
*out = color;
out += 4;
indexw++;
collen--;
}
while (replen > 0)
{
*out = color;
out += 4;
indexw++;
replen--;
}
}
}
else
{
while (indexw < width)
{
code = IN_UINT8_MV(in);
replen = code & 0xf;
collen = (code >> 4) & 0xf;
revcode = (replen << 4) | collen;
if ((revcode <= 47) && (revcode >= 16))
{
replen = revcode;
collen = 0;
}
while (collen > 0)
{
x = IN_UINT8_MV(in);
if (x & 1)
{
x = x >> 1;
x = x + 1;
color = -x;
}
else
{
x = x >> 1;
color = x;
}
x = last_line[indexw * 4] + color;
*out = x;
out += 4;
indexw++;
collen--;
}
while (replen > 0)
{
x = last_line[indexw * 4] + color;
*out = x;
out += 4;
indexw++;
replen--;
}
}
}
indexh++;
last_line = this_line;
}
return (int) (in - org_in);
}
/**
* 4 byte bitmap decompress
* RDP6_BITMAP_STREAM
*/
static boolean bitmap_decompress4(uint8* srcData, uint8* dstData, int width, int height, int size)
{
int code;
int bytes_pro;
int total_pro;
int RLE;
int NA; /* no alpha */
code = IN_UINT8_MV(srcData);
RLE = code & 0x10;
if (RLE == 0)
return false;
total_pro = 1;
NA = code & 0x20;
if (NA == 0)
{
bytes_pro = process_plane(srcData, width, height, dstData + 3, size - total_pro);
total_pro += bytes_pro;
srcData += bytes_pro;
}
bytes_pro = process_plane(srcData, width, height, dstData + 2, size - total_pro);
total_pro += bytes_pro;
srcData += bytes_pro;
bytes_pro = process_plane(srcData, width, height, dstData + 1, size - total_pro);
total_pro += bytes_pro;
srcData += bytes_pro;
bytes_pro = process_plane(srcData, width, height, dstData + 0, size - total_pro);
total_pro += bytes_pro;
return (size == total_pro) ? true : false;
}
/**
* bitmap flip
*/
static int bitmap_flip(uint8* src, uint8* dst, int delta, int height)
{
int index;
dst = (dst + delta * height) - delta;
for (index = 0; index < height; index++)
{
memcpy(dst, src, delta);
src += delta;
dst -= delta;
}
return 0;
}
/**
* bitmap decompression routine
*/
boolean bitmap_decompress(uint8* srcData, uint8* dstData, int width, int height, int size, int srcBpp, int dstBpp)
{
uint8* data;
if (srcBpp == 16 && dstBpp == 16)
{
data = (uint8*) xmalloc(width * height * 2);
RleDecompress16to16(srcData, size, data, width * 2, width, height);
bitmap_flip(data, dstData, width * 2, height);
xfree(data);
}
else if (srcBpp == 32 && dstBpp == 32)
{
if (!bitmap_decompress4(srcData, dstData, width, height, size))
return false;
}
else if (srcBpp == 15 && dstBpp == 15)
{
data = (uint8*) xmalloc(width * height * 2);
RleDecompress16to16(srcData, size, data, width * 2, width, height);
bitmap_flip(data, dstData, width * 2, height);
xfree(data);
}
else if (srcBpp == 8 && dstBpp == 8)
{
data = (uint8*) xmalloc(width * height);
RleDecompress8to8(srcData, size, data, width, width, height);
bitmap_flip(data, dstData, width, height);
xfree(data);
}
else if (srcBpp == 24 && dstBpp == 24)
{
data = (uint8*) xmalloc(width * height * 3);
RleDecompress24to24(srcData, size, data, width * 3, width, height);
bitmap_flip(data, dstData, width * 3, height);
xfree(data);
}
else
{
return false;
}
return true;
}