reactos/win32ss/gdi/dib/dib32bpp.c
2024-12-11 08:56:06 +02:00

839 lines
30 KiB
C

/*
* PROJECT: Win32 subsystem
* LICENSE: See COPYING in the top level directory
* FILE: win32ss/gdi/dib/dib32bpp.c
* PURPOSE: Device Independant Bitmap functions, 32bpp
* PROGRAMMERS: Jason Filby
* Thomas Bluemel
* Gregor Anich
* Doug Lyons
*/
#include <win32k.h>
#define NDEBUG
#include <debug.h>
#define DEC_OR_INC(var, decTrue, amount) \
((var) = (decTrue) ? ((var) - (amount)) : ((var) + (amount)))
VOID
DIB_32BPP_PutPixel(SURFOBJ *SurfObj, LONG x, LONG y, ULONG c)
{
PBYTE byteaddr = (PBYTE)SurfObj->pvScan0 + y * SurfObj->lDelta;
PDWORD addr = (PDWORD)byteaddr + x;
*addr = c;
}
ULONG
DIB_32BPP_GetPixel(SURFOBJ *SurfObj, LONG x, LONG y)
{
PBYTE byteaddr = (PBYTE)SurfObj->pvScan0 + y * SurfObj->lDelta;
PDWORD addr = (PDWORD)byteaddr + x;
return (ULONG)(*addr);
}
VOID
DIB_32BPP_VLine(SURFOBJ *SurfObj, LONG x, LONG y1, LONG y2, ULONG c)
{
PBYTE byteaddr = (PBYTE)SurfObj->pvScan0 + y1 * SurfObj->lDelta;
PDWORD addr = (PDWORD)byteaddr + x;
LONG lDelta = SurfObj->lDelta >> 2; // >> 2 == / sizeof(DWORD)
byteaddr = (PBYTE)addr;
while (y1++ < y2)
{
*addr = (DWORD)c;
addr += lDelta;
}
}
BOOLEAN
DIB_32BPP_BitBltSrcCopy(PBLTINFO BltInfo)
{
LONG i, j, sx, sy, xColor, f1;
PBYTE SourceBits, DestBits, SourceLine, DestLine;
PBYTE SourceBitsT, SourceBitsB, DestBitsT, DestBitsB;
PBYTE SourceBits_4BPP, SourceLine_4BPP;
PDWORD Source32, Dest32;
DWORD Index;
LONG DestWidth, DestHeight;
BOOLEAN bTopToBottom, bLeftToRight;
BOOLEAN blDeltaSrcNeg, blDeltaDestNeg;
BOOLEAN blDeltaAdjustDone = FALSE;
DPRINT("DIB_32BPP_BitBltSrcCopy: SourcePoint (%d, %d), SourceSurface cx/cy (%d/%d), "
"DestSurface cx/cy (%d/%d) DestRect: (%d,%d)-(%d,%d)\n",
BltInfo->SourcePoint.x, BltInfo->SourcePoint.y,
BltInfo->SourceSurface->sizlBitmap.cx, BltInfo->SourceSurface->sizlBitmap.cy,
BltInfo->DestSurface->sizlBitmap.cx, BltInfo->DestSurface->sizlBitmap.cy,
BltInfo->DestRect.left, BltInfo->DestRect.top, BltInfo->DestRect.right, BltInfo->DestRect.bottom);
DPRINT("BltInfo->DestSurface->lDelta is '%d' and BltInfo->SourceSurface->lDelta is '%d'.\n",
BltInfo->DestSurface->lDelta, BltInfo->SourceSurface->lDelta);
DPRINT("iBitmapFormat is %d and width,height is (%d,%d).\n", BltInfo->SourceSurface->iBitmapFormat,
BltInfo->DestRect.right - BltInfo->DestRect.left, BltInfo->DestRect.bottom - BltInfo->DestRect.top);
DPRINT("BltInfo->SourcePoint.x is '%d' and BltInfo->SourcePoint.y is '%d'.\n",
BltInfo->SourcePoint.x, BltInfo->SourcePoint.y);
/* Do not deal with negative numbers for these values */
if ((BltInfo->DestRect.left < 0) || (BltInfo->DestRect.top < 0) ||
(BltInfo->DestRect.right < 0) || (BltInfo->DestRect.bottom < 0))
return FALSE;
/* Detect negative lDelta's meaning Bottom-Up bitmaps */
blDeltaSrcNeg = BltInfo->SourceSurface->lDelta < 0;
blDeltaDestNeg = BltInfo->DestSurface->lDelta < 0;
/* Get back left to right flip here */
bLeftToRight = BltInfo->DestRect.left > BltInfo->DestRect.right;
/* Check for top to bottom flip needed. */
bTopToBottom = BltInfo->DestRect.top > BltInfo->DestRect.bottom;
DPRINT("bTopToBottom is '%d' and DestSurface->lDelta < 0 is '%d' and SourceSurface->lDelta < 0 is '%d'.\n",
bTopToBottom, BltInfo->DestSurface->lDelta < 0 ? 1 : 0, BltInfo->SourceSurface->lDelta < 0 ? 1 : 0);
/* Make WellOrdered with top < bottom and left < right */
RECTL_vMakeWellOrdered(&BltInfo->DestRect);
DestWidth = BltInfo->DestRect.right - BltInfo->DestRect.left;
DestHeight = BltInfo->DestRect.bottom - BltInfo->DestRect.top;
DestBits = (PBYTE)BltInfo->DestSurface->pvScan0
+ (BltInfo->DestRect.top * BltInfo->DestSurface->lDelta)
+ 4 * BltInfo->DestRect.left;
DPRINT("iBitmapFormat is %d and width,height is (%d,%d).\n", BltInfo->SourceSurface->iBitmapFormat,
DestWidth, DestHeight);
switch (BltInfo->SourceSurface->iBitmapFormat)
{
case BMF_1BPP:
DPRINT("1BPP Case Selected with DestRect Width of '%d'.\n",
DestWidth);
if (bLeftToRight || bTopToBottom)
DPRINT("bLeftToRight is '%d' and bTopToBottom is '%d'.\n", bLeftToRight, bTopToBottom);
sx = BltInfo->SourcePoint.x;
/* This sets sy to the top line */
sy = BltInfo->SourcePoint.y;
if (bTopToBottom)
{
/* This sets sy to the bottom line */
sy += BltInfo->SourceSurface->lDelta * (DestHeight - 1);
}
for (j=BltInfo->DestRect.top; j<BltInfo->DestRect.bottom; j++)
{
sx = BltInfo->SourcePoint.x;
if (bLeftToRight)
{
/* This sets the sx to the rightmost pixel */
sx += (DestWidth - 1);
}
for (i = BltInfo->DestRect.left; i < BltInfo->DestRect.right; i++)
{
if (DIB_1BPP_GetPixel(BltInfo->SourceSurface, sx, sy) == 0)
{
DIB_32BPP_PutPixel(BltInfo->DestSurface, i, j, XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, 0));
}
else
{
DIB_32BPP_PutPixel(BltInfo->DestSurface, i, j, XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, 1));
}
DEC_OR_INC(sx, bLeftToRight, 1);
}
DEC_OR_INC(sy, bTopToBottom, 1);
}
break;
case BMF_4BPP:
DPRINT("4BPP Case Selected with DestRect Width of '%d'.\n",
DestWidth);
if (bLeftToRight || bTopToBottom)
DPRINT("bLeftToRight is '%d' and bTopToBottom is '%d'.\n", bLeftToRight, bTopToBottom);
/* This sets SourceBits_4BPP to the top line */
SourceBits_4BPP = (PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta)
+ (BltInfo->SourcePoint.x >> 1);
if (bTopToBottom)
{
/* This sets SourceBits_4BPP to the bottom line */
SourceBits_4BPP += BltInfo->SourceSurface->lDelta * (DestHeight - 1);
}
for (j=BltInfo->DestRect.top; j<BltInfo->DestRect.bottom; j++)
{
SourceLine_4BPP = SourceBits_4BPP;
sx = BltInfo->SourcePoint.x;
if (bLeftToRight)
{
/* This sets sx to the rightmost pixel */
sx += (DestWidth - 1);
}
f1 = sx & 1;
for (i=BltInfo->DestRect.left; i<BltInfo->DestRect.right; i++)
{
xColor = XLATEOBJ_iXlate(BltInfo->XlateSourceToDest,
(*SourceLine_4BPP & altnotmask[f1]) >> (4 * (1 - f1)));
DIB_32BPP_PutPixel(BltInfo->DestSurface, i, j, xColor);
if (f1 == 1) {
DEC_OR_INC(SourceLine_4BPP, bLeftToRight, 1);
f1 = 0;
} else {
f1 = 1;
}
DEC_OR_INC(sx, bLeftToRight, 1);
}
DEC_OR_INC(SourceBits_4BPP, bTopToBottom, BltInfo->SourceSurface->lDelta);
}
break;
case BMF_8BPP:
DPRINT("8BPP Case Selected with DestRect Width of '%d'.\n",
DestWidth);
if (bLeftToRight || bTopToBottom)
DPRINT("bLeftToRight is '%d' and bTopToBottom is '%d'.\n", bLeftToRight, bTopToBottom);
/* This sets SourceLine to the top line */
SourceLine = (PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta)
+ BltInfo->SourcePoint.x;
DestLine = DestBits;
if (bTopToBottom)
{
/* This sets SourceLine to the bottom line */
SourceLine += BltInfo->SourceSurface->lDelta * (DestHeight - 1);
}
for (j = BltInfo->DestRect.top; j < BltInfo->DestRect.bottom; j++)
{
SourceBits = SourceLine;
DestBits = DestLine;
if (bLeftToRight)
{
/* This sets the SourceBits to the rightmost pixel */
SourceBits += (DestWidth - 1);
}
for (i = BltInfo->DestRect.left; i < BltInfo->DestRect.right; i++)
{
xColor = *SourceBits;
*((PDWORD) DestBits) = (DWORD)XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, xColor);
DEC_OR_INC(SourceBits, bLeftToRight, 1);
DestBits += 4;
}
DEC_OR_INC(SourceLine, bTopToBottom, BltInfo->SourceSurface->lDelta);
DestLine += BltInfo->DestSurface->lDelta;
}
break;
case BMF_16BPP:
DPRINT("16BPP Case Selected with DestRect Width of '%d'.\n",
DestWidth);
if (bLeftToRight || bTopToBottom)
DPRINT("bLeftToRight is '%d' and bTopToBottom is '%d'.\n", bLeftToRight, bTopToBottom);
/* This sets SourceLine to the top line */
SourceLine = (PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta)
+ 2 * BltInfo->SourcePoint.x;
DestLine = DestBits;
if (bTopToBottom)
{
/* This sets SourceLine to the bottom line */
SourceLine += BltInfo->SourceSurface->lDelta * (DestHeight - 1);
}
for (j = BltInfo->DestRect.top; j < BltInfo->DestRect.bottom; j++)
{
SourceBits = SourceLine;
DestBits = DestLine;
if (bLeftToRight)
{
/* This sets the SourceBits to the rightmost pixel */
SourceBits += (DestWidth - 1) * 2;
}
for (i = BltInfo->DestRect.left; i < BltInfo->DestRect.right; i++)
{
xColor = *((PWORD) SourceBits);
*((PDWORD) DestBits) = (DWORD)XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, xColor);
DEC_OR_INC(SourceBits, bLeftToRight, 2);
DestBits += 4;
}
DEC_OR_INC(SourceLine, bTopToBottom, BltInfo->SourceSurface->lDelta);
DestLine += BltInfo->DestSurface->lDelta;
}
break;
case BMF_24BPP:
DPRINT("24BPP Case Selected with DestRect Width of '%d'.\n",
DestWidth);
if (bLeftToRight || bTopToBottom)
DPRINT("bLeftToRight is '%d' and bTopToBottom is '%d'.\n", bLeftToRight, bTopToBottom);
/* This sets SourceLine to the top line */
SourceLine = (PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta)
+ 3 * BltInfo->SourcePoint.x;
if (bTopToBottom)
{
/* This sets SourceLine to the bottom line */
SourceLine += BltInfo->SourceSurface->lDelta * (DestHeight - 1);
}
DestLine = DestBits;
for (j = BltInfo->DestRect.top; j < BltInfo->DestRect.bottom; j++)
{
SourceBits = SourceLine;
DestBits = DestLine;
if (bLeftToRight)
{
/* This sets the SourceBits to the rightmost pixel */
SourceBits += (DestWidth - 1) * 3;
}
for (i = BltInfo->DestRect.left; i < BltInfo->DestRect.right; i++)
{
xColor = (*(SourceBits + 2) << 0x10) +
(*(SourceBits + 1) << 0x08) +
(*(SourceBits));
*((PDWORD)DestBits) = (DWORD)XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, xColor);
DEC_OR_INC(SourceBits, bLeftToRight, 3);
DestBits += 4;
}
DEC_OR_INC(SourceLine, bTopToBottom, BltInfo->SourceSurface->lDelta);
DestLine += BltInfo->DestSurface->lDelta;
}
break;
case BMF_32BPP:
DPRINT("32BPP Case Selected with SourcePoint (%d,%d) and DestRect Width/height of '%d/%d' DestRect: (%d,%d)-(%d,%d).\n",
BltInfo->SourcePoint.x, BltInfo->SourcePoint.y, DestWidth, DestHeight,
BltInfo->DestRect.left, BltInfo->DestRect.top, BltInfo->DestRect.right, BltInfo->DestRect.bottom);
if (bLeftToRight || bTopToBottom)
DPRINT("bLeftToRight is '%d' and bTopToBottom is '%d'.\n", bLeftToRight, bTopToBottom);
/* This handles the negative lDelta's which represent Top-to-Bottom bitmaps */
if (((blDeltaSrcNeg || blDeltaDestNeg) && !(blDeltaSrcNeg && blDeltaDestNeg)) && bTopToBottom)
{
DPRINT("Adjusting for lDelta's here.\n");
if (BltInfo->DestRect.top < BltInfo->SourcePoint.y)
{
/* SourceBits points to top-left pixel for lDelta < 0 and bottom-left for lDelta > 0 */
SourceBits = (PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta)
+ 4 * BltInfo->SourcePoint.x;
for (j = BltInfo->DestRect.top; j < BltInfo->DestRect.bottom; j++)
{
RtlMoveMemory(DestBits, SourceBits, 4 * DestWidth);
SourceBits += BltInfo->SourceSurface->lDelta;
DestBits += BltInfo->DestSurface->lDelta;
}
}
else
{
/* SourceBits points to bottom-left pixel for lDelta < 0 and top-left for lDelta > 0 */
SourceBits = (PBYTE)BltInfo->SourceSurface->pvScan0
+ ((BltInfo->SourcePoint.y + DestHeight - 1) * BltInfo->SourceSurface->lDelta)
+ 4 * BltInfo->SourcePoint.x;
/* DestBits points to bottom-left pixel for lDelta < 0 and top-left for lDelta > 0 */
DestBits = (PBYTE)BltInfo->DestSurface->pvScan0
+ ((BltInfo->DestRect.bottom - 1) * BltInfo->DestSurface->lDelta)
+ 4 * BltInfo->DestRect.left;
for (j = BltInfo->DestRect.bottom - 1; BltInfo->DestRect.top <= j; j--)
{
RtlMoveMemory(DestBits, SourceBits, 4 * DestWidth);
SourceBits -= BltInfo->SourceSurface->lDelta;
DestBits -= BltInfo->DestSurface->lDelta;
}
}
blDeltaAdjustDone = TRUE;
}
/* This tests for whether we can use simplified/quicker code below.
* It works for increasing source and destination areas only and there is no overlap and no flip.
*/
if ((BltInfo->XlateSourceToDest == NULL ||
(BltInfo->XlateSourceToDest->flXlate & XO_TRIVIAL) != 0) &&
(!bTopToBottom && !bLeftToRight))
{
DPRINT("XO_TRIVIAL is TRUE.\n");
if (BltInfo->DestRect.top < BltInfo->SourcePoint.y)
{
/* SourceBits points to top-left pixel for lDelta < 0 and bottom-left for lDelta > 0 */
SourceBits = (PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta)
+ 4 * BltInfo->SourcePoint.x;
for (j = BltInfo->DestRect.top; j < BltInfo->DestRect.bottom; j++)
{
RtlMoveMemory(DestBits, SourceBits, 4 * DestWidth);
SourceBits += BltInfo->SourceSurface->lDelta;
DestBits += BltInfo->DestSurface->lDelta;
}
}
else
{
/* SourceBits points to bottom-left pixel for lDelta < 0 and top-left for lDelta > 0 */
SourceBits = (PBYTE)BltInfo->SourceSurface->pvScan0
+ ((BltInfo->SourcePoint.y
+ DestHeight - 1) * BltInfo->SourceSurface->lDelta)
+ 4 * BltInfo->SourcePoint.x;
/* SourceBits points to bottom-left pixel for lDelta < 0 and top-left for lDelta > 0 */
DestBits = (PBYTE)BltInfo->DestSurface->pvScan0
+ ((BltInfo->DestRect.bottom - 1) * BltInfo->DestSurface->lDelta)
+ 4 * BltInfo->DestRect.left;
for (j = BltInfo->DestRect.bottom - 1; BltInfo->DestRect.top <= j; j--)
{
RtlMoveMemory(DestBits, SourceBits, 4 * DestWidth);
SourceBits -= BltInfo->SourceSurface->lDelta;
DestBits -= BltInfo->DestSurface->lDelta;
}
}
}
else
{
DPRINT("XO_TRIVIAL is NOT TRUE.\n");
if (!bTopToBottom && !bLeftToRight)
{
if (BltInfo->DestRect.top < BltInfo->SourcePoint.y)
{
SourceBits = ((PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta)
+ 4 * BltInfo->SourcePoint.x);
for (j = BltInfo->DestRect.top; j < BltInfo->DestRect.bottom; j++)
{
if (BltInfo->DestRect.left < BltInfo->SourcePoint.x)
{
Dest32 = (DWORD *) DestBits;
Source32 = (DWORD *) SourceBits;
for (i = BltInfo->DestRect.left; i < BltInfo->DestRect.right; i++)
{
*Dest32++ = XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, *Source32++);
}
}
else
{
Dest32 = (DWORD *) DestBits + (DestWidth - 1);
Source32 = (DWORD *) SourceBits + (DestWidth - 1);
for (i = BltInfo->DestRect.right - 1; BltInfo->DestRect.left <= i; i--)
{
*Dest32-- = XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, *Source32--);
}
}
SourceBits += BltInfo->SourceSurface->lDelta;
DestBits += BltInfo->DestSurface->lDelta;
}
}
else
{
SourceBits = (PBYTE)BltInfo->SourceSurface->pvScan0
+ ((BltInfo->SourcePoint.y
+ DestHeight - 1) * BltInfo->SourceSurface->lDelta)
+ 4 * BltInfo->SourcePoint.x;
DestBits = (PBYTE)BltInfo->DestSurface->pvScan0
+ ((BltInfo->DestRect.bottom - 1) * BltInfo->DestSurface->lDelta)
+ 4 * BltInfo->DestRect.left;
for (j = BltInfo->DestRect.bottom - 1; BltInfo->DestRect.top <= j; j--)
{
if (BltInfo->DestRect.left < BltInfo->SourcePoint.x)
{
Dest32 = (DWORD *) DestBits;
Source32 = (DWORD *) SourceBits;
for (i = BltInfo->DestRect.left; i < BltInfo->DestRect.right; i++)
{
*Dest32++ = XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, *Source32++);
}
}
else
{
Dest32 = (DWORD *) DestBits + (DestWidth - 1);
Source32 = (DWORD *) SourceBits + (DestWidth - 1);
for (i = BltInfo->DestRect.right - 1; BltInfo->DestRect.left <= i; i--)
{
*Dest32-- = XLATEOBJ_iXlate(BltInfo->XlateSourceToDest, *Source32--);
}
}
SourceBits -= BltInfo->SourceSurface->lDelta;
DestBits -= BltInfo->DestSurface->lDelta;
}
}
}
else
{
/* Buffering for source and destination flip overlaps. Fixes KHMZ MirrorTest CORE-16642 */
BOOL TopToBottomDone = FALSE;
/* No need to flip a LeftToRight bitmap only one pixel wide */
if ((bLeftToRight) && (DestWidth > 1))
{
DPRINT("Flip is bLeftToRight.\n");
/* Allocate enough pixels for a row in DWORD's */
DWORD *store = ExAllocatePoolWithTag(NonPagedPool,
(DestWidth + 1) * 4, TAG_DIB);
if (store == NULL)
{
DPRINT1("Storage Allocation Failed.\n");
return FALSE;
}
/* This sets SourceBits to the bottom line */
SourceBits = (PBYTE)BltInfo->SourceSurface->pvScan0
+ ((BltInfo->SourcePoint.y + DestHeight - 1)
* BltInfo->SourceSurface->lDelta) + 4 * BltInfo->SourcePoint.x;
/* This sets DestBits to the bottom line */
DestBits = (PBYTE)BltInfo->DestSurface->pvScan0
+ (BltInfo->DestRect.bottom - 1) * BltInfo->DestSurface->lDelta
+ 4 * BltInfo->DestRect.left;
for (j = BltInfo->DestRect.bottom - 1; BltInfo->DestRect.top <= j; j--)
{
/* Set Dest32 to right pixel */
Dest32 = (DWORD *) DestBits + (DestWidth - 1);
Source32 = (DWORD *) SourceBits;
Index = 0;
/* Store pixels from left to right */
for (i = BltInfo->DestRect.right - 1; BltInfo->DestRect.left <= i; i--)
{
store[Index] = *Source32++;
Index++;
}
Index = 0;
/* Copy stored dat to pixels from right to left */
for (i = BltInfo->DestRect.right - 1; BltInfo->DestRect.left <= i; i--)
{
*Dest32-- = store[Index];
Index++;
}
SourceBits -= BltInfo->SourceSurface->lDelta;
DestBits -= BltInfo->DestSurface->lDelta;
}
ExFreePoolWithTag(store, TAG_DIB);
TopToBottomDone = TRUE;
}
/* Top to Botoom Handling if bitmap more than one pixel high */
if ((bTopToBottom) && (DestHeight > 1))
{
/* Note: It is very important that this code remain optimized for time used.
* Otherwise you will have random crashes in ReactOS that are undesirable.
* For an example of this just try executing the code here two times.
*/
DPRINT("Flip is bTopToBottom.\n");
/* Allocate enough pixels for a row in DWORD's */
DWORD *store = ExAllocatePoolWithTag(NonPagedPool,
(DestWidth + 1) * 4, TAG_DIB);
if (store == NULL)
{
DPRINT1("Storage Allocation Failed.\n");
return FALSE;
}
/* This set DestBitsT to the top line */
DestBitsT = (PBYTE)BltInfo->DestSurface->pvScan0
+ ((BltInfo->DestRect.top) * BltInfo->DestSurface->lDelta)
+ 4 * BltInfo->DestRect.left;
/* This sets DestBitsB to the bottom line */
DestBitsB = (PBYTE)BltInfo->DestSurface->pvScan0
+ (BltInfo->DestRect.bottom - 1) * BltInfo->DestSurface->lDelta
+ 4 * BltInfo->DestRect.left;
/* The TopToBottomDone flag indicates that we are flipping for bTopToBottom and bLeftToRight
* and have already completed the bLeftToRight. So we will lose our first flip output
* unless we work with its output which is at the destination site. So in this case
* our new Source becomes the previous outputs Destination.
* Also in we use the same logic when we have corrected for negative lDelta's above
* and already completed a flip from Source to Destination for the first step
*/
if (TopToBottomDone || blDeltaAdjustDone)
{
/* This sets SourceBitsB to the bottom line */
SourceBitsB = DestBitsB;
/* This sets SourceBitsT to the top line */
SourceBitsT = DestBitsT;
}
else
{
/* This sets SourceBitsB to the bottom line */
SourceBitsB = (PBYTE)BltInfo->SourceSurface->pvScan0
+ ((BltInfo->SourcePoint.y + DestHeight - 1)
* BltInfo->SourceSurface->lDelta) + 4 * BltInfo->SourcePoint.x;
/* This sets SourceBitsT to the top line */
SourceBitsT = (PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta) + 4 * BltInfo->SourcePoint.x;
}
/* Overlaps and Vertical flips do not mix well. So we test for this and handle it
* by using two operations. First we just do a copy of the source to the destination.
* Then we do a flip in place at the destination location and we are done.
*/
if ((BltInfo->SourcePoint.y != BltInfo->DestRect.top) && // The values are not equal and
(abs(BltInfo->SourcePoint.y - BltInfo->DestRect.top) < (DestHeight + 2)) && // they are NOT separated by > DestHeight
(BltInfo->SourceSurface->pvScan0 == BltInfo->DestSurface->pvScan0)) // and same surface (probably screen)
{
DPRINT("Flips Need Adjustments, so do move here.\n");
if (BltInfo->DestRect.top < BltInfo->SourcePoint.y)
{
/* SourceBits points to top-left pixel for lDelta < 0 and bottom-left for lDelta > 0 */
SourceBits = (PBYTE)BltInfo->SourceSurface->pvScan0
+ (BltInfo->SourcePoint.y * BltInfo->SourceSurface->lDelta)
+ 4 * BltInfo->SourcePoint.x;
for (j = BltInfo->DestRect.top; j < BltInfo->DestRect.bottom; j++)
{
RtlMoveMemory(DestBits, SourceBits, 4 * DestWidth);
SourceBits += BltInfo->SourceSurface->lDelta;
DestBits += BltInfo->DestSurface->lDelta;
}
}
else
{
/* SourceBits points to bottom-left pixel for lDelta < 0 and top-left for lDelta > 0 */
SourceBits = (PBYTE)BltInfo->SourceSurface->pvScan0
+ ((BltInfo->SourcePoint.y
+ DestHeight - 1) * BltInfo->SourceSurface->lDelta)
+ 4 * BltInfo->SourcePoint.x;
/* SourceBits points to bottom-left pixel for lDelta < 0 and top-left for lDelta > 0 */
DestBits = (PBYTE)BltInfo->DestSurface->pvScan0
+ ((BltInfo->DestRect.bottom - 1) * BltInfo->DestSurface->lDelta)
+ 4 * BltInfo->DestRect.left;
for (j = BltInfo->DestRect.bottom - 1; BltInfo->DestRect.top <= j; j--)
{
RtlMoveMemory(DestBits, SourceBits, 4 * DestWidth);
SourceBits -= BltInfo->SourceSurface->lDelta;
DestBits -= BltInfo->DestSurface->lDelta;
}
}
/* This sets SourceBitsB to the bottom line */
SourceBitsB = DestBitsB;
/* This sets SourceBitsT to the top line */
SourceBitsT = DestBitsT;
}
/* Vertical Flip code starts here */
for (j = 0; j < DestHeight / 2 ; j++)
{
/* Store bottom row of Source pixels */
RtlMoveMemory(store, SourceBitsB, 4 * DestWidth);
/* Copy top Source row to bottom Destination row overwriting it */
RtlMoveMemory(DestBitsB, SourceBitsT, 4 * DestWidth);
/* Copy stored bottom row of Source pixels to Destination top row of pixels */
RtlMoveMemory(DestBitsT, store, 4 * DestWidth);
/* Index top rows down and bottom rows up */
SourceBitsT += BltInfo->SourceSurface->lDelta;
SourceBitsB -= BltInfo->SourceSurface->lDelta;
DestBitsT += BltInfo->DestSurface->lDelta;
DestBitsB -= BltInfo->DestSurface->lDelta;
}
if (DestHeight % 2)
{
/* If we had an odd number of lines we handle the center one here */
DPRINT("Handling Top To Bottom with Odd Number of lines.\n");
RtlMoveMemory(DestBitsB, SourceBitsT, 4 * DestWidth);
}
ExFreePoolWithTag(store, TAG_DIB);
}
}
}
break;
default:
DPRINT1("DIB_32BPP_BitBltSrcCopy: Unhandled Source BPP: %u\n", BitsPerFormat(BltInfo->SourceSurface->iBitmapFormat));
return FALSE;
}
return TRUE;
}
BOOLEAN
DIB_32BPP_TransparentBlt(SURFOBJ *DestSurf, SURFOBJ *SourceSurf,
RECTL* DestRect, RECTL *SourceRect,
XLATEOBJ *ColorTranslation, ULONG iTransColor)
{
LONG X, Y, SourceX, SourceY = 0, wd;
ULONG *DestBits, Source = 0;
LONG DstHeight;
LONG DstWidth;
LONG SrcHeight;
LONG SrcWidth;
DstHeight = DestRect->bottom - DestRect->top;
DstWidth = DestRect->right - DestRect->left;
SrcHeight = SourceRect->bottom - SourceRect->top;
SrcWidth = SourceRect->right - SourceRect->left;
DestBits = (ULONG*)((PBYTE)DestSurf->pvScan0 +
(DestRect->left << 2) +
DestRect->top * DestSurf->lDelta);
wd = DestSurf->lDelta - ((DestRect->right - DestRect->left) << 2);
for (Y = DestRect->top; Y < DestRect->bottom; Y++)
{
SourceY = SourceRect->top+(Y - DestRect->top) * SrcHeight / DstHeight;
for (X = DestRect->left; X < DestRect->right; X++, DestBits++)
{
SourceX = SourceRect->left+(X - DestRect->left) * SrcWidth / DstWidth;
if (SourceX >= 0 && SourceY >= 0 &&
SourceSurf->sizlBitmap.cx > SourceX && SourceSurf->sizlBitmap.cy > SourceY)
{
Source = DIB_GetSourceIndex(SourceSurf, SourceX, SourceY);
if ((0x00FFFFFF & Source) != (0x00FFFFFF & iTransColor))
{
*DestBits = XLATEOBJ_iXlate(ColorTranslation, Source);
}
}
}
DestBits = (ULONG*)((ULONG_PTR)DestBits + wd);
}
return TRUE;
}
typedef union {
ULONG ul;
struct {
UCHAR red;
UCHAR green;
UCHAR blue;
UCHAR alpha;
} col;
} NICEPIXEL32;
static __inline UCHAR
Clamp8(ULONG val)
{
return (val > 255) ? 255 : (UCHAR)val;
}
BOOLEAN
DIB_32BPP_AlphaBlend(SURFOBJ* Dest, SURFOBJ* Source, RECTL* DestRect,
RECTL* SourceRect, CLIPOBJ* ClipRegion,
XLATEOBJ* ColorTranslation, BLENDOBJ* BlendObj)
{
INT Rows, Cols, SrcX, SrcY;
register PULONG Dst;
BLENDFUNCTION BlendFunc;
register NICEPIXEL32 DstPixel, SrcPixel;
UCHAR Alpha, SrcBpp;
DPRINT("DIB_32BPP_AlphaBlend: SourceRect: (%d,%d)-(%d,%d), DestRect: (%d,%d)-(%d,%d)\n",
SourceRect->left, SourceRect->top, SourceRect->right, SourceRect->bottom,
DestRect->left, DestRect->top, DestRect->right, DestRect->bottom);
BlendFunc = BlendObj->BlendFunction;
if (BlendFunc.BlendOp != AC_SRC_OVER)
{
DPRINT1("BlendOp != AC_SRC_OVER\n");
return FALSE;
}
if (BlendFunc.BlendFlags != 0)
{
DPRINT1("BlendFlags != 0\n");
return FALSE;
}
if ((BlendFunc.AlphaFormat & ~AC_SRC_ALPHA) != 0)
{
DPRINT1("Unsupported AlphaFormat (0x%x)\n", BlendFunc.AlphaFormat);
return FALSE;
}
if ((BlendFunc.AlphaFormat & AC_SRC_ALPHA) != 0 &&
BitsPerFormat(Source->iBitmapFormat) != 32)
{
DPRINT1("Source bitmap must be 32bpp when AC_SRC_ALPHA is set\n");
return FALSE;
}
Dst = (PULONG)((ULONG_PTR)Dest->pvScan0 + (DestRect->top * Dest->lDelta) +
(DestRect->left << 2));
SrcBpp = BitsPerFormat(Source->iBitmapFormat);
Rows = 0;
SrcY = SourceRect->top;
while (++Rows <= DestRect->bottom - DestRect->top)
{
Cols = 0;
SrcX = SourceRect->left;
while (++Cols <= DestRect->right - DestRect->left)
{
SrcPixel.ul = DIB_GetSource(Source, SrcX, SrcY, ColorTranslation);
SrcPixel.col.red = (SrcPixel.col.red * BlendFunc.SourceConstantAlpha) / 255;
SrcPixel.col.green = (SrcPixel.col.green * BlendFunc.SourceConstantAlpha) / 255;
SrcPixel.col.blue = (SrcPixel.col.blue * BlendFunc.SourceConstantAlpha) / 255;
SrcPixel.col.alpha = (32 == SrcBpp) ?
(SrcPixel.col.alpha * BlendFunc.SourceConstantAlpha) / 255 :
BlendFunc.SourceConstantAlpha ;
Alpha = ((BlendFunc.AlphaFormat & AC_SRC_ALPHA) != 0) ?
SrcPixel.col.alpha : BlendFunc.SourceConstantAlpha ;
DstPixel.ul = *Dst;
DstPixel.col.red = Clamp8((DstPixel.col.red * (255 - Alpha)) / 255 + SrcPixel.col.red) ;
DstPixel.col.green = Clamp8((DstPixel.col.green * (255 - Alpha)) / 255 + SrcPixel.col.green) ;
DstPixel.col.blue = Clamp8((DstPixel.col.blue * (255 - Alpha)) / 255 + SrcPixel.col.blue) ;
DstPixel.col.alpha = Clamp8((DstPixel.col.alpha * (255 - Alpha)) / 255 + SrcPixel.col.alpha) ;
*Dst++ = DstPixel.ul;
SrcX = SourceRect->left + (Cols*(SourceRect->right - SourceRect->left))/(DestRect->right - DestRect->left);
}
Dst = (PULONG)((ULONG_PTR)Dest->pvScan0 + ((DestRect->top + Rows) * Dest->lDelta) +
(DestRect->left << 2));
SrcY = SourceRect->top + (Rows*(SourceRect->bottom - SourceRect->top))/(DestRect->bottom - DestRect->top);
}
return TRUE;
}
/* EOF */