477 lines
10 KiB
C
477 lines
10 KiB
C
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#ifdef HAVE_XORG_CONFIG_H
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#include <xorg-config.h>
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#endif
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#include "xaa.h"
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#include "xaalocal.h"
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#include "xaacexp.h"
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#include "xf86.h"
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/********** byte swapping ***************/
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#ifdef FIXEDBASE
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# define DEST(i) *dest
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# define RETURN(i) return(dest)
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#else
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# define DEST(i) dest[i]
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# define RETURN(i) return(dest + i)
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#endif
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#ifdef MSBFIRST
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# define SOURCE(i) SWAP_BITS_IN_BYTES(src[i])
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#else
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# define SOURCE(i) src[i]
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#endif
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typedef CARD32 *(* BitmapScanlineProcPtr)(CARD32 *, CARD32 *, int, int);
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#ifdef TRIPLE_BITS
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static CARD32*
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BitmapScanline(
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CARD32 *src, CARD32 *base,
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int count, int skipleft )
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{
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CARD32 bits;
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while(count >= 3) {
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bits = *src;
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WRITE_BITS3(bits);
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src++;
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count -= 3;
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}
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if (count == 2) {
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bits = *src;
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WRITE_BITS2(bits);
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} else if (count == 1) {
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bits = *src;
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WRITE_BITS1(bits);
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}
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return base;
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}
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static CARD32*
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BitmapScanline_Inverted(
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CARD32 *src, CARD32 *base,
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int count, int skipleft )
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{
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CARD32 bits;
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while(count >= 3) {
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bits = ~(*src);
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WRITE_BITS3(bits);
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src++;
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count -= 3;
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}
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if (count == 2) {
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bits = ~(*src);
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WRITE_BITS2(bits);
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} else if (count == 1) {
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bits = ~(*src);
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WRITE_BITS1(bits);
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}
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return base;
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}
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static CARD32*
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BitmapScanline_Shifted(
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CARD32 *src, CARD32 *base,
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int count, int skipleft )
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{
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CARD32 bits;
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while(count >= 3) {
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bits = SHIFT_R(*src,skipleft) | SHIFT_L(*(src + 1),(32 - skipleft));
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WRITE_BITS3(bits);
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src++;
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count -= 3;
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}
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if (count == 2) {
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bits = SHIFT_R(*src,skipleft) | SHIFT_L(*(src + 1),(32 - skipleft));
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WRITE_BITS2(bits);
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} else if (count == 1) {
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bits = SHIFT_R(*src,skipleft) | SHIFT_L(*(src + 1),(32 - skipleft));
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WRITE_BITS1(bits);
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}
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return base;
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}
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static CARD32*
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BitmapScanline_Shifted_Inverted(
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CARD32 *src, CARD32 *base,
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int count, int skipleft )
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{
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CARD32 bits;
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while(count >= 3) {
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bits = ~(SHIFT_R(*src,skipleft) | SHIFT_L(*(src + 1),(32 - skipleft)));
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WRITE_BITS3(bits);
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src++;
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count -= 3;
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}
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if (count == 2) {
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bits = ~(SHIFT_R(*src,skipleft) | SHIFT_L(*(src + 1),(32 - skipleft)));
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WRITE_BITS2(bits);
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} else if (count == 1) {
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bits = ~(SHIFT_R(*src,skipleft) | SHIFT_L(*(src + 1),(32 - skipleft)));
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WRITE_BITS1(bits);
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}
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return base;
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}
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#define BitmapScanline_Shifted_Careful BitmapScanline_Shifted
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#define BitmapScanline_Shifted_Inverted_Careful BitmapScanline_Shifted_Inverted
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#else
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static CARD32*
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BitmapScanline(
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CARD32 *src, CARD32 *dest,
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int count, int skipleft )
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{
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while(count >= 4) {
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DEST(0) = SOURCE(0);
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DEST(1) = SOURCE(1);
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DEST(2) = SOURCE(2);
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DEST(3) = SOURCE(3);
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count -= 4;
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src += 4;
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#ifndef FIXEDBASE
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dest += 4;
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#endif
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}
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if(!count) return dest;
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DEST(0) = SOURCE(0);
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if(count == 1) RETURN(1);
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DEST(1) = SOURCE(1);
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if(count == 2) RETURN(2);
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DEST(2) = SOURCE(2);
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RETURN(3);
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}
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static CARD32*
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BitmapScanline_Inverted(
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CARD32 *src, CARD32 *dest,
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int count, int skipleft )
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{
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while(count >= 4) {
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DEST(0) = ~SOURCE(0);
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DEST(1) = ~SOURCE(1);
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DEST(2) = ~SOURCE(2);
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DEST(3) = ~SOURCE(3);
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count -= 4;
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src += 4;
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#ifndef FIXEDBASE
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dest += 4;
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#endif
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}
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if(!count) return dest;
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DEST(0) = ~SOURCE(0);
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if(count == 1) RETURN(1);
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DEST(1) = ~SOURCE(1);
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if(count == 2) RETURN(2);
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DEST(2) = ~SOURCE(2);
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RETURN(3);
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}
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static CARD32*
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BitmapScanline_Shifted(
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CARD32 *bits, CARD32 *base,
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int count, int skipleft )
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{
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while(count--) {
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register CARD32 tmp = SHIFT_R(*bits,skipleft) |
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SHIFT_L(*(bits + 1),(32 - skipleft));
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WRITE_BITS(tmp);
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bits++;
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}
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return base;
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}
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static CARD32*
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BitmapScanline_Shifted_Inverted(
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CARD32 *bits, CARD32 *base,
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int count, int skipleft )
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{
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while(count--) {
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register CARD32 tmp = ~(SHIFT_R(*bits,skipleft) |
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SHIFT_L(*(bits + 1),(32 - skipleft)));
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WRITE_BITS(tmp);
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bits++;
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}
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return base;
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}
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static CARD32*
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BitmapScanline_Shifted_Careful(
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CARD32 *bits, CARD32 *base,
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int count, int skipleft )
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{
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register CARD32 tmp;
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while(--count) {
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tmp = SHIFT_R(*bits,skipleft) | SHIFT_L(*(bits + 1),(32 - skipleft));
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WRITE_BITS(tmp);
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bits++;
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}
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tmp = SHIFT_R(*bits,skipleft);
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WRITE_BITS(tmp);
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return base;
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}
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static CARD32*
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BitmapScanline_Shifted_Inverted_Careful(
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CARD32 *bits, CARD32 *base,
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int count, int skipleft )
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{
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register CARD32 tmp;
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while(--count) {
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tmp = ~(SHIFT_R(*bits,skipleft) | SHIFT_L(*(bits + 1),(32 - skipleft)));
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WRITE_BITS(tmp);
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bits++;
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}
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tmp = ~(SHIFT_R(*bits,skipleft));
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WRITE_BITS(tmp);
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return base;
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}
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#endif
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/*
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When the accelerator is TRANSPARENCY_ONLY, WriteBitmap can do
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the fill in two passes, inverting the source on the second pass.
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For GXcopy we can fill the backing rectangle as a solid rect and
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avoid the invert.
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*/
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void
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#ifdef TRIPLE_BITS
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EXPNAME(XAAWriteBitmapColorExpand3)(
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#else
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EXPNAME(XAAWriteBitmapColorExpand)(
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#endif
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ScrnInfoPtr pScrn,
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int x, int y, int w, int H,
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unsigned char *src,
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int srcwidth,
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int skipleft,
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int fg, int bg,
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int rop,
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unsigned int planemask
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)
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{
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XAAInfoRecPtr infoRec = GET_XAAINFORECPTR_FROM_SCRNINFOPTR(pScrn);
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CARD32* base;
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unsigned char *srcp = src;
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int SecondPassColor = -1;
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int shift = 0, dwords;
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BitmapScanlineProcPtr firstFunc;
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BitmapScanlineProcPtr secondFunc;
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int flag;
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int h = H;
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#ifdef TRIPLE_BITS
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if((bg != -1) &&
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((infoRec->CPUToScreenColorExpandFillFlags & TRANSPARENCY_ONLY) ||
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((infoRec->CPUToScreenColorExpandFillFlags & RGB_EQUAL) &&
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(!CHECK_RGB_EQUAL(bg))))) {
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#else
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if((bg != -1) &&
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(infoRec->CPUToScreenColorExpandFillFlags & TRANSPARENCY_ONLY)) {
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#endif
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if((rop == GXcopy) && infoRec->SetupForSolidFill) {
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(*infoRec->SetupForSolidFill)(pScrn, bg, rop, planemask);
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(*infoRec->SubsequentSolidFillRect)(pScrn, x, y, w, h);
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} else SecondPassColor = bg;
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bg = -1;
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}
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#ifdef TRIPLE_BITS
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if(skipleft) {
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#else
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if(skipleft &&
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(!(infoRec->CPUToScreenColorExpandFillFlags & LEFT_EDGE_CLIPPING) ||
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(!(infoRec->CPUToScreenColorExpandFillFlags & LEFT_EDGE_CLIPPING_NEGATIVE_X) &&
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(skipleft > x)))) {
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#endif
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if((skipleft + ((w + 31) & ~31)) > ((skipleft + w + 31) & ~31)) {
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/* don't read past the end */
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firstFunc = BitmapScanline_Shifted_Careful;
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secondFunc = BitmapScanline_Shifted_Inverted_Careful;
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} else {
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firstFunc = BitmapScanline_Shifted;
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secondFunc = BitmapScanline_Shifted_Inverted;
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}
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shift = skipleft;
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skipleft = 0;
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} else {
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firstFunc = BitmapScanline;
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secondFunc = BitmapScanline_Inverted;
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w += skipleft;
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x -= skipleft;
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}
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#ifdef TRIPLE_BITS
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dwords = (3 * w + 31) >> 5;
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#else
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dwords = (w + 31) >> 5;
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#endif
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SECOND_PASS:
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flag = (infoRec->CPUToScreenColorExpandFillFlags
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& CPU_TRANSFER_PAD_QWORD) && ((dwords * h) & 0x01);
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(*infoRec->SetupForCPUToScreenColorExpandFill)(
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pScrn, fg, bg, rop, planemask);
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(*infoRec->SubsequentCPUToScreenColorExpandFill)(
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pScrn, x, y, w, h, skipleft);
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base = (CARD32*)infoRec->ColorExpandBase;
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#ifndef FIXEDBASE
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if((dwords * h) <= infoRec->ColorExpandRange)
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while(h--) {
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base = (*firstFunc)((CARD32*)srcp, base, dwords, shift);
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srcp += srcwidth;
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}
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else
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#endif
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while(h--) {
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(*firstFunc)((CARD32*)srcp, base, dwords, shift);
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srcp += srcwidth;
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}
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if(flag){
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base = (CARD32*)infoRec->ColorExpandBase;
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base[0] = 0x00000000;
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}
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if(SecondPassColor != -1) {
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h = H; /* Reset height */
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fg = SecondPassColor;
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SecondPassColor = -1;
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firstFunc = secondFunc;
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srcp = src;
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goto SECOND_PASS;
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}
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if(infoRec->CPUToScreenColorExpandFillFlags & SYNC_AFTER_COLOR_EXPAND)
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(*infoRec->Sync)(pScrn);
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else SET_SYNC_FLAG(infoRec);
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}
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#ifndef FIXEDBASE
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void
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#ifdef TRIPLE_BITS
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EXPNAME(XAAWriteBitmapScanlineColorExpand3)(
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#else
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EXPNAME(XAAWriteBitmapScanlineColorExpand)(
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#endif
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ScrnInfoPtr pScrn,
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int x, int y, int w, int h,
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unsigned char *src,
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int srcwidth,
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int skipleft,
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int fg, int bg,
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int rop,
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unsigned int planemask
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)
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{
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XAAInfoRecPtr infoRec = GET_XAAINFORECPTR_FROM_SCRNINFOPTR(pScrn);
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CARD32* base;
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unsigned char *srcp = src;
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int SecondPassColor = -1;
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int shift = 0, dwords, bufferNo;
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BitmapScanlineProcPtr firstFunc;
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BitmapScanlineProcPtr secondFunc;
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#ifdef TRIPLE_BITS
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if((bg != -1) &&
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((infoRec->ScanlineCPUToScreenColorExpandFillFlags & TRANSPARENCY_ONLY)
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|| ((infoRec->ScanlineCPUToScreenColorExpandFillFlags & RGB_EQUAL) &&
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(!CHECK_RGB_EQUAL(bg))))) {
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#else
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if((bg != -1) &&
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(infoRec->ScanlineCPUToScreenColorExpandFillFlags & TRANSPARENCY_ONLY)){
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#endif
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if((rop == GXcopy) && infoRec->SetupForSolidFill) {
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(*infoRec->SetupForSolidFill)(pScrn, bg, rop, planemask);
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(*infoRec->SubsequentSolidFillRect)(pScrn, x, y, w, h);
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} else SecondPassColor = bg;
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bg = -1;
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}
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#ifdef TRIPLE_BITS
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if(skipleft) {
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#else
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if(skipleft &&
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(!(infoRec->ScanlineCPUToScreenColorExpandFillFlags &
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LEFT_EDGE_CLIPPING) ||
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(!(infoRec->ScanlineCPUToScreenColorExpandFillFlags &
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LEFT_EDGE_CLIPPING_NEGATIVE_X) && (skipleft > x)))) {
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#endif
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if((skipleft + ((w + 31) & ~31)) > ((skipleft + w + 31) & ~31)) {
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/* don't read past the end */
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firstFunc = BitmapScanline_Shifted_Careful;
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secondFunc = BitmapScanline_Shifted_Inverted_Careful;
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} else {
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firstFunc = BitmapScanline_Shifted;
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secondFunc = BitmapScanline_Shifted_Inverted;
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}
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shift = skipleft;
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skipleft = 0;
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} else {
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firstFunc = BitmapScanline;
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secondFunc = BitmapScanline_Inverted;
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w += skipleft;
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x -= skipleft;
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}
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#ifdef TRIPLE_BITS
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dwords = (3 * w + 31) >> 5;
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#else
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dwords = (w + 31) >> 5;
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#endif
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SECOND_PASS:
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(*infoRec->SetupForScanlineCPUToScreenColorExpandFill)(pScrn, fg, bg, rop, planemask);
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(*infoRec->SubsequentScanlineCPUToScreenColorExpandFill)(
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pScrn, x, y, w, h, skipleft);
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bufferNo = 0;
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while(h--) {
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base = (CARD32*)infoRec->ScanlineColorExpandBuffers[bufferNo];
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(*firstFunc)((CARD32*)srcp, base, dwords, shift);
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||
|
(*infoRec->SubsequentColorExpandScanline)(pScrn, bufferNo++);
|
||
|
srcp += srcwidth;
|
||
|
if(bufferNo >= infoRec->NumScanlineColorExpandBuffers)
|
||
|
bufferNo = 0;
|
||
|
}
|
||
|
|
||
|
if(SecondPassColor != -1) {
|
||
|
fg = SecondPassColor;
|
||
|
SecondPassColor = -1;
|
||
|
firstFunc = secondFunc;
|
||
|
srcp = src;
|
||
|
goto SECOND_PASS;
|
||
|
}
|
||
|
|
||
|
SET_SYNC_FLAG(infoRec);
|
||
|
}
|
||
|
|
||
|
#endif
|