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windows-nt-4.0/private/ntos/w32/ntgdi/displays/cirrus/str.c

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/******************************Module*Header*******************************\
* Module Name: str.c
*
* Copyright (c) 1993-1995 Microsoft Corporation
\**************************************************************************/
#include "precomp.h"
/******************************Public*Routine******************************\
*
* Routine Name
*
* vDirectStretch8
*
* Routine Description:
*
* Stretch blt 8->8
*
* NOTE: This routine doesn't handle cases where the blt stretch starts
* and ends in the same destination dword! vDirectStretchNarrow
* is expected to have been called for that case.
*
* Arguments:
*
* pStrBlt - contains all params for blt
*
* Return Value:
*
* VOID
*
\**************************************************************************/
VOID vDirectStretch8(
STR_BLT* pStrBlt)
{
BYTE* pjSrc;
BYTE* pjDstEnd;
LONG WidthXAln;
ULONG ulDst;
ULONG xAccum;
ULONG xTmp;
ULONG yTmp;
BYTE* pjOldScan;
LONG cyDuplicate;
PDEV* ppdev = pStrBlt->ppdev;
LONG xDst = pStrBlt->XDstStart;
LONG xSrc = pStrBlt->XSrcStart;
BYTE* pjSrcScan = pStrBlt->pjSrcScan + xSrc;
BYTE* pjDst = pStrBlt->pjDstScan + xDst;
LONG yDst = pStrBlt->YDstStart; // + ppdev->yOffset;
LONG yCount = pStrBlt->YDstCount;
ULONG StartAln = (ULONG)pjDst & 0x03;
LONG WidthX = pStrBlt->XDstEnd - xDst;
ULONG EndAln = (ULONG)(pjDst + WidthX) & 0x03;
ULONG xInt = pStrBlt->ulXDstToSrcIntCeil;
ULONG xFrac = pStrBlt->ulXDstToSrcFracCeil;
ULONG yAccum = pStrBlt->ulYFracAccumulator;
ULONG yFrac = pStrBlt->ulYDstToSrcFracCeil;
ULONG yInt = 0;
LONG lDstStride = pStrBlt->lDeltaDst - WidthX;
BYTE* pjPorts = ppdev->pjPorts;
BYTE* pjBase = ppdev->pjBase;
LONG lDelta = ppdev->lDelta;
LONG xyOffset = ppdev->xyOffset;
LONG xDstBytes = xDst;
LONG WidthXBytes = WidthX;
WidthXAln = WidthX - EndAln - ((- (LONG) StartAln) & 0x03);
//
// if this is a shrinking blt, calc src scan line stride
//
if (pStrBlt->ulYDstToSrcIntCeil != 0)
{
yInt = pStrBlt->lDeltaSrc * pStrBlt->ulYDstToSrcIntCeil;
}
//
// loop drawing each scan line
//
//
// at least 7 wide (DST) blt
//
do {
BYTE jSrc0,jSrc1,jSrc2,jSrc3;
ULONG yTmp;
pjSrc = pjSrcScan;
xAccum = pStrBlt->ulXFracAccumulator;
//
// a single src scan line is being written
//
if (ppdev->flCaps & CAPS_MM_IO)
{
CP_MM_WAIT_FOR_BLT_COMPLETE(ppdev, pjBase);
}
else
{
CP_IO_WAIT_FOR_BLT_COMPLETE(ppdev, pjPorts);
}
switch (StartAln) {
case 1:
jSrc0 = *pjSrc;
xTmp = xAccum + xFrac;
pjSrc = pjSrc + xInt + (xTmp < xAccum);
*pjDst++ = jSrc0;
xAccum = xTmp;
case 2:
jSrc0 = *pjSrc;
xTmp = xAccum + xFrac;
pjSrc = pjSrc + xInt + (xTmp < xAccum);
*pjDst++ = jSrc0;
xAccum = xTmp;
case 3:
jSrc0 = *pjSrc;
xTmp = xAccum + xFrac;
pjSrc = pjSrc + xInt + (xTmp < xAccum);
*pjDst++ = jSrc0;
xAccum = xTmp;
}
pjDstEnd = pjDst + WidthXAln;
while (pjDst != pjDstEnd)
{
jSrc0 = *pjSrc;
xTmp = xAccum + xFrac;
pjSrc = pjSrc + xInt + (xTmp < xAccum);
jSrc1 = *pjSrc;
xAccum = xTmp + xFrac;
pjSrc = pjSrc + xInt + (xAccum < xTmp);
jSrc2 = *pjSrc;
xTmp = xAccum + xFrac;
pjSrc = pjSrc + xInt + (xTmp < xAccum);
jSrc3 = *pjSrc;
xAccum = xTmp + xFrac;
pjSrc = pjSrc + xInt + (xAccum < xTmp);
ulDst = (jSrc3 << 24) | (jSrc2 << 16) | (jSrc1 << 8) | jSrc0;
*(PULONG)pjDst = ulDst;
pjDst += 4;
}
switch (EndAln) {
case 3:
jSrc0 = *pjSrc;
xTmp = xAccum + xFrac;
pjSrc = pjSrc + xInt + (xTmp < xAccum);
*pjDst++ = jSrc0;
xAccum = xTmp;
case 2:
jSrc0 = *pjSrc;
xTmp = xAccum + xFrac;
pjSrc = pjSrc + xInt + (xTmp < xAccum);
*pjDst++ = jSrc0;
xAccum = xTmp;
case 1:
jSrc0 = *pjSrc;
xTmp = xAccum + xFrac;
pjSrc = pjSrc + xInt + (xTmp < xAccum);
*pjDst++ = jSrc0;
}
pjOldScan = pjSrcScan;
pjSrcScan += yInt;
yTmp = yAccum + yFrac;
if (yTmp < yAccum)
{
pjSrcScan += pStrBlt->lDeltaSrc;
}
yAccum = yTmp;
pjDst = (pjDst + lDstStride);
yDst++;
yCount--;
if ((yCount != 0) && (pjSrcScan == pjOldScan))
{
// It's an expanding stretch in 'y'; the scan we just laid down
// will be copied at least once using the hardware:
cyDuplicate = 0;
do {
cyDuplicate++;
pjSrcScan += yInt;
yTmp = yAccum + yFrac;
if (yTmp < yAccum)
{
pjSrcScan += pStrBlt->lDeltaSrc;
}
yAccum = yTmp;
pjDst = (pjDst + pStrBlt->lDeltaDst);
yCount--;
} while ((yCount != 0) && (pjSrcScan == pjOldScan));
// The scan is to be copied 'cyDuplicate' times using the
// hardware.
//
// We don't need to WAIT_FOR_BLT_COMPLETE since we did it above.
//
if (ppdev->flCaps & CAPS_MM_IO)
{
CP_MM_XCNT(ppdev, pjBase, (WidthXBytes - 1));
CP_MM_YCNT(ppdev, pjBase, (cyDuplicate - 1));
CP_MM_SRC_ADDR(ppdev, pjBase, (xyOffset + ((yDst - 1) * lDelta) + xDstBytes));
CP_MM_DST_ADDR(ppdev, pjBase, ((yDst * lDelta) + xDstBytes));
CP_MM_START_BLT(ppdev, pjBase);
}
else
{
CP_IO_XCNT(ppdev, pjPorts, (WidthXBytes - 1));
CP_IO_YCNT(ppdev, pjPorts, (cyDuplicate - 1));
CP_IO_SRC_ADDR(ppdev, pjPorts, (xyOffset + ((yDst - 1) * lDelta) + xDstBytes));
CP_IO_DST_ADDR(ppdev, pjPorts, ((yDst * lDelta) + xDstBytes));
CP_IO_START_BLT(ppdev, pjPorts);
}
yDst += cyDuplicate;
}
} while (yCount != 0);
}
/******************************Public*Routine******************************\
*
* Routine Name
*
* vDirectStretch16
*
* Routine Description:
*
* Stretch blt 16->16
*
* Arguments:
*
* pStrBlt - contains all params for blt
*
* Return Value:
*
* VOID
*
\**************************************************************************/
VOID vDirectStretch16(
STR_BLT* pStrBlt)
{
BYTE* pjOldScan;
USHORT* pusSrc;
USHORT* pusDstEnd;
LONG WidthXAln;
ULONG ulDst;
ULONG xAccum;
ULONG xTmp;
ULONG yTmp;
LONG cyDuplicate;
PDEV* ppdev = pStrBlt->ppdev;
LONG xDst = pStrBlt->XDstStart;
LONG xSrc = pStrBlt->XSrcStart;
BYTE* pjSrcScan = (pStrBlt->pjSrcScan) + xSrc * 2;
USHORT* pusDst = (USHORT*)(pStrBlt->pjDstScan) + xDst;
LONG yDst = pStrBlt->YDstStart; // + ppdev->yOffset;
LONG yCount = pStrBlt->YDstCount;
ULONG StartAln = ((ULONG)pusDst & 0x02) >> 1;
LONG WidthX = pStrBlt->XDstEnd - xDst;
ULONG EndAln = ((ULONG)(pusDst + WidthX) & 0x02) >> 1;
ULONG xInt = pStrBlt->ulXDstToSrcIntCeil;
ULONG xFrac = pStrBlt->ulXDstToSrcFracCeil;
ULONG yAccum = pStrBlt->ulYFracAccumulator;
ULONG yFrac = pStrBlt->ulYDstToSrcFracCeil;
LONG lDstStride = pStrBlt->lDeltaDst - 2 * WidthX;
ULONG yInt = 0;
BYTE* pjPorts = ppdev->pjPorts;
BYTE* pjBase = ppdev->pjBase;
LONG lDelta = ppdev->lDelta;
LONG xyOffset = ppdev->xyOffset;
LONG xDstBytes = xDst * 2;
LONG WidthXBytes = WidthX * 2;
WidthXAln = WidthX - EndAln - StartAln;
//
// if this is a shrinking blt, calc src scan line stride
//
if (pStrBlt->ulYDstToSrcIntCeil != 0)
{
yInt = pStrBlt->lDeltaSrc * pStrBlt->ulYDstToSrcIntCeil;
}
// Loop stretching each scan line
do {
USHORT usSrc0,usSrc1;
ULONG yTmp;
pusSrc = (USHORT*) pjSrcScan;
xAccum = pStrBlt->ulXFracAccumulator;
// A single source scan line is being written:
if (ppdev->flCaps & CAPS_MM_IO)
{
CP_MM_WAIT_FOR_BLT_COMPLETE(ppdev, pjBase);
}
else
{
CP_IO_WAIT_FOR_BLT_COMPLETE(ppdev, pjPorts);
}
if (StartAln)
{
usSrc0 = *pusSrc;
xTmp = xAccum + xFrac;
pusSrc = pusSrc + xInt + (xTmp < xAccum);
*pusDst++ = usSrc0;
xAccum = xTmp;
}
pusDstEnd = pusDst + WidthXAln;
while (pusDst != pusDstEnd)
{
usSrc0 = *pusSrc;
xTmp = xAccum + xFrac;
pusSrc = pusSrc + xInt + (xTmp < xAccum);
usSrc1 = *pusSrc;
xAccum = xTmp + xFrac;
pusSrc = pusSrc + xInt + (xAccum < xTmp);
ulDst = (ULONG)((usSrc1 << 16) | usSrc0);
*(ULONG*)pusDst = ulDst;
pusDst+=2;
}
if (EndAln)
{
usSrc0 = *pusSrc;
xTmp = xAccum + xFrac;
pusSrc = pusSrc + xInt + (xTmp < xAccum);
*pusDst++ = usSrc0;
}
pjOldScan = pjSrcScan;
pjSrcScan += yInt;
yTmp = yAccum + yFrac;
if (yTmp < yAccum)
{
pjSrcScan += pStrBlt->lDeltaSrc;
}
yAccum = yTmp;
pusDst = (USHORT*) ((BYTE*) pusDst + lDstStride);
yDst++;
yCount--;
if ((yCount != 0) && (pjSrcScan == pjOldScan))
{
// It's an expanding stretch in 'y'; the scan we just laid down
// will be copied at least once using the hardware:
cyDuplicate = 0;
do {
cyDuplicate++;
pjSrcScan += yInt;
yTmp = yAccum + yFrac;
if (yTmp < yAccum)
{
pjSrcScan += pStrBlt->lDeltaSrc;
}
yAccum = yTmp;
pusDst = (USHORT*) ((BYTE*) pusDst + pStrBlt->lDeltaDst);
yCount--;
} while ((yCount != 0) && (pjSrcScan == pjOldScan));
// The scan is to be copied 'cyDuplicate' times using the
// hardware.
//
// We don't need to WAIT_FOR_BLT_COMPLETE since we did it above.
//
if (ppdev->flCaps & CAPS_MM_IO)
{
CP_MM_XCNT(ppdev, pjBase, (WidthXBytes - 1));
CP_MM_YCNT(ppdev, pjBase, (cyDuplicate - 1));
CP_MM_SRC_ADDR(ppdev, pjBase, (xyOffset + ((yDst - 1) * lDelta) + xDstBytes));
CP_MM_DST_ADDR(ppdev, pjBase, ((yDst * lDelta) + xDstBytes));
CP_MM_START_BLT(ppdev, pjBase);
}
else
{
CP_IO_XCNT(ppdev, pjPorts, (WidthXBytes - 1));
CP_IO_YCNT(ppdev, pjPorts, (cyDuplicate - 1));
CP_IO_SRC_ADDR(ppdev, pjPorts, (xyOffset + ((yDst - 1) * lDelta) + xDstBytes));
CP_IO_DST_ADDR(ppdev, pjPorts, ((yDst * lDelta) + xDstBytes));
CP_IO_START_BLT(ppdev, pjPorts);
}
yDst += cyDuplicate;
}
} while (yCount != 0);
}
/******************************Public*Routine******************************\
*
* Routine Name
*
* vDirectStretch24
*
* Routine Description:
*
* Stretch blt 24->24
*
* Arguments:
*
* pStrBlt - contains all params for blt
*
* Return Value:
*
* VOID
*
\**************************************************************************/
VOID vDirectStretch24(
STR_BLT* pStrBlt)
{
ULONG* pulSrc; // pointer to each 32-bit boundary address
ULONG* pulDstEnd; // pointer to each 32-bit boundary address
LONG WidthXAln;
ULONG ulDst;
ULONG xAccum;
ULONG xTmp;
ULONG yTmp;
BYTE* pjOldScan;
LONG cyDuplicate;
PDEV* ppdev = pStrBlt->ppdev;
LONG xDst = pStrBlt->XDstStart;
LONG xSrc = pStrBlt->XSrcStart;
BYTE* pjSrcScan = (pStrBlt->pjSrcScan) + xSrc * 3; // 3 bytes per pixel
USHORT* pusDst = (USHORT*)(pStrBlt->pjDstScan) + xDst;
BYTE* pbDST = (BYTE*) pusDst;
// Use Byte pointer for access 24-bit
LONG yDst = pStrBlt->YDstStart; // + ppdev->yOffset;
LONG yCount = pStrBlt->YDstCount;
ULONG StartAln = (ULONG)pusDst & 0x03;
// remainder of starting address divided by 4
LONG WidthX = pStrBlt->XDstEnd - xDst;
ULONG EndAln = (ULONG)(pusDst + WidthX) & 0x03;
// remainder of ending address divided by 4
ULONG xInt = pStrBlt->ulXDstToSrcIntCeil;
ULONG xFrac = pStrBlt->ulXDstToSrcFracCeil;
ULONG yAccum = pStrBlt->ulYFracAccumulator;
ULONG yFrac = pStrBlt->ulYDstToSrcFracCeil;
ULONG yInt = 0;
LONG lDstStride = pStrBlt->lDeltaDst - 3 * WidthX;
BYTE* pjPorts = ppdev->pjPorts;
BYTE* pjBase = ppdev->pjBase;
LONG lDelta = ppdev->lDelta;
LONG xyOffset = ppdev->xyOffset;
LONG xDstBytes = xDst * 3;
LONG WidthXBytes = WidthX * 3;
WidthXAln = WidthX - EndAln - StartAln;
// WidthXAln is the full 32-bit operation addressable width
//
// if this is a shrinking blt, calc src scan line stride
//
if (pStrBlt->ulYDstToSrcIntCeil != 0) // enlargement ?
{ // yes.
yInt = pStrBlt->lDeltaSrc * pStrBlt->ulYDstToSrcIntCeil;
}
// Loop stretching each scan line
do {
ULONG ulSrc0;
BYTE bDst0,bDst1,bDst2;
BYTE *pbDST;
ULONG *pulDst = 0 ; // HACK: to make compile
ULONG yTmp;
pulSrc = (ULONG*) pjSrcScan;
xAccum = pStrBlt->ulXFracAccumulator;
// A single source scan line is being written:
if (ppdev->flCaps & CAPS_MM_IO) // Blt Engine Ready?
{
CP_MM_WAIT_FOR_BLT_COMPLETE(ppdev, pjBase);
}
else
{
CP_IO_WAIT_FOR_BLT_COMPLETE(ppdev, pjPorts);
}
// Process the Starting lines if misaligned
if (StartAln)
pulDst = (PULONG)(pbDST + (4-StartAln));
else
pulDst = (PULONG)pbDST;
switch (StartAln) {
case 1:
ulSrc0 = *pulSrc;
bDst0 = (BYTE) (ulSrc0 & 0xff);
bDst1 = (BYTE) ((ulSrc0 >> 8) & 0xff);
bDst2 = (BYTE) ((ulSrc0 >> 16) & 0xff);
xTmp = xAccum + xFrac;
pulSrc = pulSrc + xInt + (xTmp < xAccum);
*pbDST++ = bDst0;
*pbDST++ = bDst1;
*pbDST++ = bDst2;
case 2:
ulSrc0 = *pulSrc;
bDst0 = (BYTE) (ulSrc0 & 0xff);
bDst1 = (BYTE) ((ulSrc0 >> 8) & 0xff);
bDst2 = (BYTE) ((ulSrc0 >> 16) & 0xff);
xTmp = xAccum + xFrac;
pulSrc = pulSrc + xInt + (xTmp < xAccum);
*pbDST++ = bDst0;
*pbDST++ = bDst1;
*pbDST++ = bDst2;
case 3:
ulSrc0 = *pulSrc;
bDst0 = (BYTE) (ulSrc0 & 0xff);
bDst1 = (BYTE) ((ulSrc0 >> 8) & 0xff);
bDst2 = (BYTE) ((ulSrc0 >> 16) & 0xff);
xTmp = xAccum + xFrac;
pulSrc = pulSrc + xInt + (xTmp < xAccum);
*pbDST++ = bDst0;
*pbDST++ = bDst1;
*pbDST++ = bDst2;
}
pulDstEnd = pulDst + WidthXAln;
while (pulDst != pulDstEnd)
{
ulSrc0 = *pulSrc;
bDst0 = (BYTE) (ulSrc0 & 0xff);
bDst1 = (BYTE) ((ulSrc0 >> 8) & 0xff);
bDst2 = (BYTE) ((ulSrc0 >> 16) & 0xff);
xTmp = xAccum + xFrac;
pulSrc = pulSrc + xInt + (xTmp < xAccum);
*pbDST++ = bDst0;
*pbDST++ = bDst1;
*pbDST++ = bDst2;
}
// Process the Ending lines if misaligned
switch (StartAln) {
case 3:
ulSrc0 = *pulSrc;
bDst0 = (BYTE) (ulSrc0 & 0xff);
bDst1 = (BYTE) ((ulSrc0 >> 8) & 0xff);
bDst2 = (BYTE) ((ulSrc0 >> 16) & 0xff);
xTmp = xAccum + xFrac;
pulSrc = pulSrc + xInt + (xTmp < xAccum);
*pbDST++ = bDst0;
*pbDST++ = bDst1;
*pbDST++ = bDst2;
case 2:
ulSrc0 = *pulSrc;
bDst0 = (BYTE) (ulSrc0 & 0xff);
bDst1 = (BYTE) ((ulSrc0 >> 8) & 0xff);
bDst2 = (BYTE) ((ulSrc0 >> 16) & 0xff);
xTmp = xAccum + xFrac;
pulSrc = pulSrc + xInt + (xTmp < xAccum);
*pbDST++ = bDst0;
*pbDST++ = bDst1;
*pbDST++ = bDst2;
case 1:
ulSrc0 = *pulSrc;
bDst0 = (BYTE) (ulSrc0 & 0xff);
bDst1 = (BYTE) ((ulSrc0 >> 8) & 0xff);
bDst2 = (BYTE) ((ulSrc0 >> 16) & 0xff);
xTmp = xAccum + xFrac;
pulSrc = pulSrc + xInt + (xTmp < xAccum);
*pbDST++ = bDst0;
*pbDST++ = bDst1;
*pbDST++ = bDst2;
}
pjOldScan = pjSrcScan;
pjSrcScan += yInt;
yTmp = yAccum + yFrac;
if (yTmp < yAccum)
{
pjSrcScan += pStrBlt->lDeltaSrc;
}
yAccum = yTmp;
pusDst = (USHORT*) ((BYTE*) pusDst + lDstStride);
yDst++;
yCount--;
if ((yCount != 0) && (pjSrcScan == pjOldScan))
{
// It's an expanding stretch in 'y'; the scan we just laid down
// will be copied at least once using the hardware:
cyDuplicate = 0;
do {
cyDuplicate++;
pjSrcScan += yInt;
yTmp = yAccum + yFrac;
if (yTmp < yAccum)
{
pjSrcScan += pStrBlt->lDeltaSrc;
}
yAccum = yTmp;
pusDst = (USHORT*) ((BYTE*) pusDst + pStrBlt->lDeltaDst);
yCount--;
} while ((yCount != 0) && (pjSrcScan == pjOldScan));
// The scan is to be copied 'cyDuplicate' times using the
// hardware.
//
// We don't need to WAIT_FOR_BLT_COMPLETE since we did it above.
//
if (ppdev->flCaps & CAPS_MM_IO)
{
CP_MM_XCNT(ppdev, pjBase, (WidthXBytes - 1));
CP_MM_YCNT(ppdev, pjBase, (cyDuplicate - 1));
CP_MM_SRC_ADDR(ppdev, pjBase, (xyOffset + ((yDst - 1) * lDelta) + xDstBytes));
CP_MM_DST_ADDR(ppdev, pjBase, ((yDst * lDelta) + xDstBytes));
CP_MM_START_BLT(ppdev, pjBase);
}
else
{
CP_IO_XCNT(ppdev, pjPorts, (WidthXBytes - 1));
CP_IO_YCNT(ppdev, pjPorts, (cyDuplicate - 1));
CP_IO_SRC_ADDR(ppdev, pjPorts, (xyOffset + ((yDst - 1) * lDelta) + xDstBytes));
CP_IO_DST_ADDR(ppdev, pjPorts, ((yDst * lDelta) + xDstBytes));
CP_IO_START_BLT(ppdev, pjPorts);
}
yDst += cyDuplicate;
}
} while (yCount != 0);
}