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windows-server-2003/windows/core/ntgdi/gre/gradfill.cxx

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/******************************Module*Header*******************************\
* Module Name: tranblt.cxx
*
* Transparent BLT
*
* Created: 21-Jun-1996
* Author: Mark Enstrom [marke]
*
* Copyright (c) 1996-1999 Microsoft Corporation
\**************************************************************************/
#include "precomp.hxx"
#include "solline.hxx"
/**************************************************************************\
* gulDither32 - 4-4 dither matrix
*
*
* History:
*
* 1/31/1997 Mark Enstrom [marke]
*
\**************************************************************************/
ULONG gulDither32[] =
{
0x00000000,
0x00008000,
0x00002000,
0x0000a000,
0x0000c000,
0x00004000,
0x0000e000,
0x00006000,
0x00003000,
0x0000b000,
0x00001000,
0x00009000,
0x0000f000,
0x00007000,
0x0000d000,
0x00005000
};
/**************************************************************************\
*
* Dither information for 8bpp. This is customized for dithering to
* the halftone palette [6,6,6] color cube.
*
* History:
*
* 2/24/1997 Mark Enstrom [marke]
*
\**************************************************************************/
#define DITHER_8_MASK_Y 0x0F
#define DITHER_8_MASK_X 0x0F
BYTE gDitherMatrix16x16Halftone[256] = {
3, 28, 9, 35, 4, 30, 11, 36, 3, 29, 10, 35, 5, 30, 11, 37,
41, 16, 48, 22, 43, 17, 49, 24, 42, 16, 48, 22, 43, 18, 50, 24,
6, 32, 0, 25, 8, 33, 1, 27, 6, 32, 0, 26, 8, 34, 2, 27,
44, 19, 38, 12, 46, 20, 40, 14, 45, 19, 38, 13, 46, 21, 40, 14,
5, 31, 12, 37, 4, 29, 10, 36, 6, 31, 12, 38, 4, 30, 10, 36,
44, 18, 50, 24, 42, 16, 48, 23, 44, 18, 50, 25, 42, 17, 49, 23,
8, 34, 2, 28, 7, 32, 0, 26, 9, 34, 2, 28, 7, 33, 1, 26,
47, 21, 40, 15, 45, 20, 39, 13, 47, 22, 41, 15, 46, 20, 39, 14,
3, 29, 9, 35, 5, 30, 11, 37, 3, 28, 9, 35, 4, 30, 11, 36,
41, 16, 48, 22, 43, 17, 49, 24, 41, 15, 47, 22, 43, 17, 49, 23,
6, 32, 0, 25, 8, 33, 1, 27, 6, 31, 0, 25, 7, 33, 1, 27,
45, 19, 38, 13, 46, 21, 40, 14, 44, 19, 38, 12, 46, 20, 39, 14,
5, 31, 12, 37, 4, 29, 10, 36, 5, 31, 11, 37, 3, 29, 10, 35,
44, 18, 50, 25, 42, 17, 49, 23, 43, 18, 50, 24, 42, 16, 48, 23,
9, 34, 2, 28, 7, 33, 1, 26, 8, 34, 2, 27, 7, 32, 0, 26,
47, 21, 41, 15, 45, 20, 39, 13, 47, 21, 40, 15, 45, 19, 39, 13
};
BYTE gDitherMatrix16x16Default[256] = {
8, 72, 24, 88, 12, 76, 28, 92, 9, 73, 25, 89, 13, 77, 29, 93,
104, 40,120, 56,108, 44,124, 60,105, 41,121, 57,109, 45,125, 61,
16, 80, 0, 64, 20, 84, 4, 68, 17, 81, 1, 65, 21, 85, 5, 69,
112, 48, 96, 32,116, 52,100, 36,113, 49, 97, 33,117, 53,101, 37,
14, 78, 30, 94, 10, 74, 26, 90, 15, 79, 31, 95, 11, 75, 27, 91,
110, 46,126, 62,106, 42,122, 58,111, 47,126, 63,107, 43,123, 59,
22, 86, 6, 70, 18, 82, 2, 66, 23, 87, 7, 71, 19, 83, 3, 67,
118, 54,102, 38,114, 50, 98, 34,119, 55,103, 39,115, 51, 99, 35,
9, 73, 25, 89, 13, 77, 29, 93, 8, 72, 24, 88, 12, 76, 28, 92,
105, 41,121, 57,109, 45,125, 61,104, 40,120, 56,108, 44,124, 60,
17, 81, 1, 65, 21, 85, 5, 69, 16, 80, 0, 64, 20, 84, 4, 68,
113, 49, 97, 33,117, 53,101, 37,112, 48, 96, 32,116, 52,100, 36,
15, 79, 31, 95, 11, 75, 27, 91, 14, 78, 30, 94, 10, 74, 26, 90,
111, 47,126, 63,107, 43,123, 59,110, 46,126, 62,106, 42,122, 58,
23, 87, 7, 71, 19, 83, 3, 67, 22, 86, 6, 70, 18, 82, 2, 66,
119, 55,103, 39,115, 51, 99, 35,118, 54,102, 38,114, 50, 98, 34
};
//
// identity translate vector for use in non palmanaged 8bpp surfaces
//
/**************************************************************************\
* vTranslateIdentity
*
* identity translate vector for use in non-palmanaged 8bpp surfaces
*
*
* History:
*
* 3/4/1997 Mark Enstrom [marke]
*
\**************************************************************************/
BYTE vTranslateIdentity[256] = {
0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0c,0x0d,0x0e,0x0f,
0x10,0x11,0x12,0x13,0x14,0x15,0x16,0x17,0x18,0x19,0x1a,0x1b,0x1c,0x1d,0x1e,0x1f,
0x20,0x21,0x22,0x23,0x24,0x25,0x26,0x27,0x28,0x29,0x2a,0x2b,0x2c,0x2d,0x2e,0x2f,
0x30,0x31,0x32,0x33,0x34,0x35,0x36,0x37,0x38,0x39,0x3a,0x3b,0x3c,0x3d,0x3e,0x3f,
0x40,0x41,0x42,0x43,0x44,0x45,0x46,0x47,0x48,0x49,0x4a,0x4b,0x4c,0x4d,0x4e,0x4f,
0x50,0x51,0x52,0x53,0x54,0x55,0x56,0x57,0x58,0x59,0x5a,0x5b,0x5c,0x5d,0x5e,0x5f,
0x60,0x61,0x62,0x63,0x64,0x65,0x66,0x67,0x68,0x69,0x6a,0x6b,0x6c,0x6d,0x6e,0x6f,
0x70,0x71,0x72,0x73,0x74,0x75,0x76,0x77,0x78,0x79,0x7a,0x7b,0x7c,0x7d,0x7e,0x7f,
0x80,0x81,0x82,0x83,0x84,0x85,0x86,0x87,0x88,0x89,0x8a,0x8b,0x8c,0x8d,0x8e,0x8f,
0x90,0x91,0x92,0x93,0x94,0x95,0x96,0x97,0x98,0x99,0x9a,0x9b,0x9c,0x9d,0x9e,0x9f,
0xa0,0xa1,0xa2,0xa3,0xa4,0xa5,0xa6,0xa7,0xa8,0xa9,0xaa,0xab,0xac,0xad,0xae,0xaf,
0xb0,0xb1,0xb2,0xb3,0xb4,0xb5,0xb6,0xb7,0xb8,0xb9,0xba,0xbb,0xbc,0xbd,0xbe,0xbf,
0xc0,0xc1,0xc2,0xc3,0xc4,0xc5,0xc6,0xc7,0xc8,0xc9,0xca,0xcb,0xcc,0xcd,0xce,0xcf,
0xd0,0xd1,0xd2,0xd3,0xd4,0xd5,0xd6,0xd7,0xd8,0xd9,0xda,0xdb,0xdc,0xdd,0xde,0xdf,
0xe0,0xe1,0xe2,0xe3,0xe4,0xe5,0xe6,0xe7,0xe8,0xe9,0xea,0xeb,0xec,0xed,0xee,0xef,
0xf0,0xf1,0xf2,0xf3,0xf4,0xf5,0xf6,0xf7,0xf8,0xf9,0xfa,0xfb,0xfc,0xfd,0xfe,0xff
};
/**************************************************************************\
* HalftoneSaturationTable
*
* This table maps a 8 bit pixel plus a dither error term in the range
* of 0 to 51 onto a 8 bit pixel. Overflow of up to 31 is considered
* saturated (255+51 = 255). The level 51 (0x33) is used to map pixels
* and error values to the halftone palette
*
* History:
*
* 3/4/1997 Mark Enstrom [marke]
*
\**************************************************************************/
BYTE HalftoneSaturationTable[256 + 128] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51,
51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51,
51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51, 51,
51, 51, 51, 51, 51, 51,102,102,102,102,102,102,102,102,102,102,
102,102,102,102,102,102,102,102,102,102,102,102,102,102,102,102,
102,102,102,102,102,102,102,102,102,102,102,102,102,102,102,102,
102,102,102,102,102,102,102,102,102,153,153,153,153,153,153,153,
153,153,153,153,153,153,153,153,153,153,153,153,153,153,153,153,
153,153,153,153,153,153,153,153,153,153,153,153,153,153,153,153,
153,153,153,153,153,153,153,153,153,153,153,153,204,204,204,204,
204,204,204,204,204,204,204,204,204,204,204,204,204,204,204,204,
204,204,204,204,204,204,204,204,204,204,204,204,204,204,204,204,
204,204,204,204,204,204,204,204,204,204,204,204,204,204,204,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255
};
BYTE DefaultSaturationTable[256 + 128] = {
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0,
128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,
128,128,128,128,128,128,128,128,128,128,128,128,128,128,128,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,
255,255,255,255,255,255,255,255,255,255,255,255,255,255,255,255
};
BYTE Saturation16_5[64] = {
0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0c,0x0d,0x0e,0x0f,
0x10,0x11,0x12,0x13,0x14,0x15,0x16,0x17,0x18,0x19,0x1a,0x1b,0x1c,0x1d,0x1e,0x1f,
0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,0x1f,
0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00
};
BYTE Saturation16_6[128] = {
0x00,0x01,0x02,0x03,0x04,0x05,0x06,0x07,0x08,0x09,0x0a,0x0b,0x0c,0x0d,0x0e,0x0f,
0x10,0x11,0x12,0x13,0x14,0x15,0x16,0x17,0x18,0x19,0x1a,0x1b,0x1c,0x1d,0x1e,0x1f,
0x20,0x21,0x22,0x23,0x24,0x25,0x26,0x27,0x28,0x29,0x2a,0x2b,0x2c,0x2d,0x2e,0x2f,
0x30,0x31,0x32,0x33,0x34,0x35,0x36,0x37,0x38,0x39,0x3a,0x3b,0x3c,0x3d,0x3e,0x3f,
0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,
0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,0x3f,
0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,
0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00,0x00
};
/******************************Public*Routine******************************\
* vGradientFill32BGRA
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill32BGRA(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
LONGLONG lldAdX = ptData->lldAdX;
COLOR_INTERP clrRed,clrGreen,clrBlue,clrAlpha;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
while(yScan < yScanBottom)
{
PULONG pulDstX;
PULONG pulDstScanRight,pulDstScanLeft;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
clrAlpha.ullColor = pEdge->llAlpha;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
if (xScanLeft < xScanRight)
{
pulDstX = (PULONG)pDst + xScanLeft;
pulDstScanRight = (PULONG)pDst + xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
clrAlpha.ullColor += lldAdX * GradientLeft;
}
//
// fill span
//
while (pulDstX < pulDstScanRight)
{
*pulDstX = (clrAlpha.b[7] << 24) |
(clrRed.b[7] << 16) |
(clrGreen.b[7] << 8) |
(clrBlue.b[7]);
pulDstX++;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
clrAlpha.ullColor += lldAdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/******************************Public*Routine******************************\
* vGradientFill32RGB
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill32RGB(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
while(yScan < yScanBottom)
{
PULONG pulDstX;
PULONG pulDstScanRight,pulDstScanLeft;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
if (xScanLeft < xScanRight)
{
pulDstX = (PULONG)pDst + xScanLeft;
pulDstScanRight = (PULONG)pDst + xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
//
// fill span
//
while (pulDstX < pulDstScanRight)
{
*pulDstX =
(clrBlue.b[7] << 16) |
(clrGreen.b[7] << 8) |
(clrRed.b[7]);
pulDstX++;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/******************************Public*Routine******************************\
* vGradientFill32Bitfields
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill32Bitfields(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
XEPALOBJ *ppalDstSurf = ptData->ppalDstSurf;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
while(yScan < yScanBottom)
{
PULONG pulDstX;
PULONG pulDstScanRight,pulDstScanLeft;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
if (xScanLeft < xScanRight)
{
pulDstX = (PULONG)pDst + xScanLeft;
pulDstScanRight = (PULONG)pDst + xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
while (pulDstX < pulDstScanRight)
{
ULONG ulTemp =
(clrRed.b[7] ) |
(clrGreen.b[7] << 8) |
(clrBlue.b[7] << 16);
*pulDstX = ppalDstSurf->ulGetMatchFromPalentry(ulTemp);
pulDstX++;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/**************************************************************************\
* vGradientFill24BGR
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill24BGR(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
LONG yScanBottom;
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
while(yScan < yScanBottom)
{
PBYTE pDstX;
PBYTE pDstScanRight;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
if (xScanLeft < xScanRight)
{
pDstX = pDst + 3 * xScanLeft;
pDstScanRight = pDst + 3 * xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
while (pDstX < pDstScanRight)
{
*pDstX = clrBlue.b[7];
*(pDstX+1) = clrGreen.b[7];
*(pDstX+2) = clrRed.b[7];
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
pDstX+=3;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/**************************************************************************\
* vGradientFill24RGB
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 08/28/2000 Pravin Santiago [pravins]. Adapted from vGradientFill24BGR
*
\**************************************************************************/
VOID
vGradientFill24RGB(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
LONG yScanBottom;
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
while(yScan < yScanBottom)
{
PBYTE pDstX;
PBYTE pDstScanRight;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
if (xScanLeft < xScanRight)
{
pDstX = pDst + 3 * xScanLeft;
pDstScanRight = pDst + 3 * xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
while (pDstX < pDstScanRight)
{
*pDstX = clrRed.b[7];
*(pDstX+1) = clrGreen.b[7];
*(pDstX+2) = clrBlue.b[7];
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
pDstX+=3;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/******************************Public*Routine******************************\
* vGradientFill24Bitfields
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 08/28/2000 Pravin Santiago [pravins]. Adapted from vGradientFill32Bitfields
*
\**************************************************************************/
VOID
vGradientFill24Bitfields(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
XEPALOBJ *ppalDstSurf = ptData->ppalDstSurf;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
while(yScan < yScanBottom)
{
PBYTE pbDstX;
PBYTE pbDstScanRight,pbDstScanLeft;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
if (xScanLeft < xScanRight)
{
pbDstX = (PBYTE)pDst + xScanLeft*3;
pbDstScanRight = (PBYTE)pDst + xScanRight*3;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
while (pbDstX < pbDstScanRight)
{
ULONG ulTemp =
(clrRed.b[7] ) |
(clrGreen.b[7] << 8) |
(clrBlue.b[7] << 16);
ulTemp = ppalDstSurf->ulGetMatchFromPalentry(ulTemp);
*pbDstX = ((PBYTE)&ulTemp)[0];
*(pbDstX+1) = ((PBYTE)&ulTemp)[1];
*(pbDstX+2) = ((PBYTE)&ulTemp)[2];
pbDstX += 3;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/******************************Public*Routine******************************\
* vGradientFill16_565
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill16_565(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
LONG yDitherOrg = ptData->ptDitherOrg.y;
LONG xDitherOrg = ptData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PUSHORT pusDstX,pusDstScanRight;
PULONG pulDither = &gulDither32[0] + 4 * ((yScan+yDitherOrg) & 3);
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
if (xScanLeft < xScanRight)
{
pusDstX = (PUSHORT)pDst + xScanLeft;
pusDstScanRight = (PUSHORT)pDst + xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
//
// Gradient fill scan line with dither
//
while (pusDstX < pusDstScanRight)
{
ULONG ulDither = pulDither[(xScanLeft + xDitherOrg) & 3];
ULONG iRed = Saturation16_5[((clrRed.ul[1] >> (8+3)) + ulDither) >> 16];
ULONG iGreen = Saturation16_6[((clrGreen.ul[1] >> (8+2)) + ulDither) >> 16];
ULONG iBlue = Saturation16_5[((clrBlue.ul[1] >> (8+3)) + ulDither) >> 16];
*pusDstX = rgb565(iRed,iGreen,iBlue);
xScanLeft++;
pusDstX++;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/******************************Public*Routine******************************\
* vGradientFill16_555
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill16_555(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
LONG yDitherOrg = ptData->ptDitherOrg.y;
LONG xDitherOrg = ptData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PUSHORT pusDstX,pusDstScanRight;
PULONG pulDither = &gulDither32[0] + 4 * ((yScan+yDitherOrg) & 3);
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
if (xScanLeft < xScanRight)
{
pusDstX = (PUSHORT)pDst + xScanLeft;
pusDstScanRight = (PUSHORT)pDst + xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
//
// Gradient fill scan line with dither
//
while (pusDstX < pusDstScanRight)
{
ULONG ulDither = pulDither[(xScanLeft + xDitherOrg) & 3];
ULONG iRed = Saturation16_5[((clrRed.ul[1] >> (8+3)) + ulDither) >> 16];
ULONG iGreen = Saturation16_5[((clrGreen.ul[1] >> (8+3)) + ulDither) >> 16];
ULONG iBlue = Saturation16_5[((clrBlue.ul[1] >> (8+3)) + ulDither) >> 16];
*pusDstX = rgb555(iRed,iGreen,iBlue);
xScanLeft++;
pusDstX++;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/******************************Public*Routine******************************\
* vGradientFill16Bitfields
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill16Bitfields(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
XEPALOBJ *ppalDstSurf = ptData->ppalDstSurf;
PULONG pulDither;
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
LONG yDitherOrg = ptData->ptDitherOrg.y;
LONG xDitherOrg = ptData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PUSHORT pusDstX,pusDstScanRight;
pulDither = &gulDither32[0] + 4 * ((yScan+yDitherOrg) & 3);
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
if (xScanLeft < xScanRight)
{
pusDstX = (PUSHORT)pDst + xScanLeft;
pusDstScanRight = (PUSHORT)pDst + xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
while (pusDstX < pusDstScanRight)
{
ULONG ulDither = pulDither[(xScanLeft + xDitherOrg) & 3];
ULONG iRed = Saturation16_5[((clrRed.ul[1] >> (8+3)) + ulDither) >> 16];
ULONG iGreen = Saturation16_5[((clrGreen.ul[1] >> (8+3)) + ulDither) >> 16];
ULONG iBlue = Saturation16_5[((clrBlue.ul[1] >> (8+3)) + ulDither) >> 16];
ULONG ulTemp = (iRed << ( 3)) |
(iGreen << (8 +3)) |
(iBlue << (8+8+3));
*pusDstX = (USHORT)ppalDstSurf->ulGetMatchFromPalentry(ulTemp);
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
xScanLeft++;
pusDstX++;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/**************************************************************************\
* GRAD_PALETTE_MATCH
*
*
* Arguments:
*
* palIndex - return surface palette index
* pjVector - translation from DC to surface palette. Identity for non
* palette managed
* pxlate555 - rgb555 to palette index table
* r,g,b - byte colors
*
* Return Value:
*
*
*
* History:
*
* 3/3/1997 Mark Enstrom [marke]
*
\**************************************************************************/
#define GRAD_PALETTE_MATCH(palIndex,pjVector,pxlate555,r,g,b) \
\
palIndex = pxlate555[((r & 0xf8) << 7) | \
((g & 0xf8) << 2) | \
((b & 0xf8) >> 3)]; \
\
palIndex = pjVector[palIndex];
/******************************Public*Routine******************************\
* vGradientFill8
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill8(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
XLATEOBJ *pxlo = ptData->pxlo;
PBYTE pxlate = NULL;
PBYTE pjVector;
PBYTE pDitherMatrix;
PBYTE pSaturationTable;
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
//
// either use default palette or halftone palette dither
//
if (((XEPALOBJ) (((XLATE *) pxlo)->ppalDstDC)).bIsHalftone())
{
pDitherMatrix = gDitherMatrix16x16Halftone;
pSaturationTable = HalftoneSaturationTable;
}
else
{
pDitherMatrix = gDitherMatrix16x16Default;
pSaturationTable = DefaultSaturationTable;
}
//
// determine DC to surface palette translate
//
if (((XLATE *) pxlo)->flPrivate & XLATE_PAL_MANAGED)
{
if (((XLATE *) pxlo)->ppalDstDC == ppalDefault)
{
pjVector = &defaultTranslate.ajVector[0];
}
else
{
if (((XLATE *) pxlo)->flPrivate & XLATE_USE_CURRENT)
{
pjVector = &((XLATE *) pxlo)->ppalDstDC->ptransCurrent->ajVector[0];
}
else
{
pjVector = &((XLATE *) pxlo)->ppalDstDC->ptransFore->ajVector[0];
}
}
}
else
{
pjVector = vTranslateIdentity;
}
//
// get/build rgb555 to palette table
//
pxlate = XLATEOBJ_pGetXlate555(pxlo);
if (pxlate == NULL)
{
WARNING("vGradientFill8:Failed to generate rgb555 xlate table\n");
return;
}
//
// scan from top to bottom of triangle scan lines
//
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
LONG yDitherOrg = ptData->ptDitherOrg.y;
LONG xDitherOrg = ptData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PBYTE pjDstX,pjDstScanRight;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
PBYTE pDitherLevel = &pDitherMatrix[(16 * ((yScan+yDitherOrg) & DITHER_8_MASK_Y))];
if (xScanLeft < xScanRight)
{
pjDstX = pDst + xScanLeft;
pjDstScanRight = pDst + xScanRight;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
//
// gradient fill scan with dither
//
while (pjDstX < pjDstScanRight)
{
BYTE jIndex;
//
// offset into dither array
//
BYTE jDitherMatrix = *(pDitherLevel + ((xScanLeft+xDitherOrg) & DITHER_8_MASK_X));
ULONG iRed = pSaturationTable[clrRed.b[7] + jDitherMatrix];
ULONG iGreen = pSaturationTable[clrGreen.b[7] + jDitherMatrix];
ULONG iBlue = pSaturationTable[clrBlue.b[7] + jDitherMatrix];
GRAD_PALETTE_MATCH(jIndex,pjVector,pxlate,((BYTE)iRed),((BYTE)iGreen),((BYTE)iBlue));
*pjDstX = jIndex;
xScanLeft++;
pjDstX++;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/******************************Public*Routine******************************\
* vGradientFill4
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill4(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
XLATEOBJ *pxlo = ptData->pxlo;
PBYTE pxlate = NULL;
PBYTE pjVector;
PBYTE pDitherMatrix = gDitherMatrix16x16Default;
PBYTE pSaturationTable = DefaultSaturationTable;
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
//
// determine DC to surface palette translate
//
if (((XLATE *) pxlo)->flPrivate & XLATE_PAL_MANAGED)
{
if (((XLATE *) pxlo)->ppalDstDC == ppalDefault)
{
pjVector = &defaultTranslate.ajVector[0];
}
else
{
if (((XLATE *) pxlo)->flPrivate & XLATE_USE_CURRENT)
{
pjVector = &((XLATE *) pxlo)->ppalDstDC->ptransCurrent->ajVector[0];
}
else
{
pjVector = &((XLATE *) pxlo)->ppalDstDC->ptransFore->ajVector[0];
}
}
}
else
{
pjVector = vTranslateIdentity;
}
//
// get/build rgb555 to palette table
//
pxlate = XLATEOBJ_pGetXlate555(pxlo);
if (pxlate == NULL)
{
WARNING("Failed to generate rgb555 xlate table\n");
return;
}
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
LONG yDitherOrg = ptData->ptDitherOrg.y;
LONG xDitherOrg = ptData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PBYTE pjDstX;
LONG iDstX;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
PBYTE pDitherLevel = &pDitherMatrix[(16 * ((yScan+yDitherOrg) & DITHER_8_MASK_Y))];
if (xScanLeft < xScanRight)
{
pjDstX = pDst + (xScanLeft/2);
iDstX = xScanLeft & 1;
//
// skip pixels from left edge to left clip, while
// incrementing gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
//
// fill scan line with dither
//
PALETTEENTRY palEntry;
palEntry.peFlags = 2;
while (xScanLeft < xScanRight)
{
//
// offset into dither array
//
BYTE jDitherMatrix = *(pDitherLevel + ((xScanLeft+xDitherOrg) & DITHER_8_MASK_X));
ULONG iRed = pSaturationTable[clrRed.b[7] + jDitherMatrix];
ULONG iGreen = pSaturationTable[clrGreen.b[7] + jDitherMatrix];
ULONG iBlue = pSaturationTable[clrBlue.b[7] + jDitherMatrix];
BYTE jIndex;
GRAD_PALETTE_MATCH(jIndex,pjVector,pxlate,((BYTE)iRed),((BYTE)iGreen),((BYTE)iBlue));
//
// write nibble
//
if (iDstX)
{
iDstX = 0;
*pjDstX = (*pjDstX & 0xf0) | jIndex;
pjDstX++;
}
else
{
*pjDstX = (*pjDstX & 0x0f) | (jIndex << 4);
iDstX = 1;
}
xScanLeft++;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
/******************************Public*Routine******************************\
* vGradientFill1
*
* Fill scan lines of triangle structure
*
* Arguments:
*
* pSurfDst - destination surface
* ptData - triangle data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vGradientFill1(
SURFACE *pSurfDst,
PTRIANGLEDATA ptData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = ptData->y0;
LONG yScanBottom;
PBYTE pDst = ((PBYTE)pSurfDst->pvScan0() + lDelta * yScan);
PTRIEDGE pEdge = &ptData->TriEdge[0];
XLATEOBJ *pxlo = ptData->pxlo;
PBYTE pxlate = NULL;
PBYTE pjVector = vTranslateIdentity;
PBYTE pDitherMatrix = gDitherMatrix16x16Default;
LONGLONG lldRdX = ptData->lldRdX;
LONGLONG lldGdX = ptData->lldGdX;
LONGLONG lldBdX = ptData->lldBdX;
COLOR_INTERP clrRed,clrGreen,clrBlue;
//
// get/build rgb555 to palette table
//
pxlate = XLATEOBJ_pGetXlate555(pxlo);
if (pxlate == NULL)
{
WARNING("Failed to generate rgb555 xlate table\n");
return;
}
//
// must have palette xlate
//
yScanBottom = MIN(ptData->rcl.bottom,ptData->y1);
LONG yDitherOrg = ptData->ptDitherOrg.y;
LONG xDitherOrg = ptData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PBYTE pjDstX;
LONG iDstX;
LONG ScanRight;
LONG ScanLeft;
LONG xScan;
clrRed.ullColor = pEdge->llRed;
clrGreen.ullColor = pEdge->llGreen;
clrBlue.ullColor = pEdge->llBlue;
LONG xScanLeft = MAX(pEdge->xLeft,ptData->rcl.left);
LONG xScanRight = MIN(pEdge->xRight,ptData->rcl.right);
PBYTE pDitherLevel = &pDitherMatrix[(16 * ((yScan+yDitherOrg) & DITHER_8_MASK_Y))];
if (xScanLeft < xScanRight)
{
pjDstX = pDst + (xScanLeft/8);
iDstX = xScanLeft & 7;
//
// skip clipped out portion of scan line whille
// running color gradient
//
LONG GradientLeft = ptData->rcl.left - pEdge->xLeft;
if (GradientLeft > 0)
{
clrRed.ullColor += lldRdX * GradientLeft;
clrGreen.ullColor += lldGdX * GradientLeft;
clrBlue.ullColor += lldBdX * GradientLeft;
}
PALETTEENTRY palEntry;
palEntry.peFlags = 2;
while (xScanLeft < xScanRight)
{
//
// offset into dither array
//
BYTE jDitherMatrix = 2 * (*(pDitherLevel + ((xScanLeft+xDitherOrg) & DITHER_8_MASK_X)));
ULONG iRed = clrRed.b[7];
ULONG iGreen = clrGreen.b[7];
ULONG iBlue = clrBlue.b[7];
//
// add dither and saturate. 1bpp non-optimized (overflow will not be noticable in a dither
// case it would at higher color depth
//
iRed = iRed + jDitherMatrix;
if (iRed >= 255)
{
iRed = 255;
}
else
{
iRed = 0;
}
iGreen = iGreen + jDitherMatrix;
if (iGreen >= 255)
{
iGreen = 255;
}
else
{
iGreen = 0;
}
iBlue = iBlue + jDitherMatrix;
if (iBlue >= 255)
{
iBlue = 255;
}
else
{
iBlue = 0;
}
BYTE jIndex;
//
// pjVector is known to be identity, so could make new macro for
// palette_match_1 if perf ever an issue
//
GRAD_PALETTE_MATCH(jIndex,pjVector,pxlate,((BYTE)iRed),((BYTE)iGreen),((BYTE)iBlue));
LONG iShift = 7 - iDstX;
BYTE OrMask = 1 << iShift;
BYTE AndMask = ~OrMask;
jIndex = jIndex << iShift;
*pjDstX = (*pjDstX & AndMask) | jIndex;
iDstX++;
if (iDstX == 8)
{
iDstX = 0;
pjDstX++;
}
xScanLeft++;
clrRed.ullColor += lldRdX;
clrGreen.ullColor += lldGdX;
clrBlue.ullColor += lldBdX;
}
}
pDst += lDelta;
pEdge++;
yScan++;
}
}
//
// Gradient fill rectangle routines
//
//
// Gradient Rectangles us 8.48 fixed point color
// as oppesed to triangles that use 8.56
//
//
//
//
//
//
//
//
//
//
//
//
//
/******************************Public*Routine******************************\
* vFillGRectDIB32BGRA
*
* Fill gradient rect from structure
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* none
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB32BGRA(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cyClip = pgData->szDraw.cy;
//
// fill rect with gradient fill. if this is horizontal mode then
// draw one scan line and replicate in v, if this is vertical mode then
// draw one vertical stripe and replicate in h
//
COLOR_INTERP clrR,clrG,clrB,clrA;
if (pgData->ulMode == GRADIENT_FILL_RECT_H)
{
PBYTE pjDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
PULONG pulBuffer = (PULONG)AllocFreeTmpBuffer(4 * pgData->szDraw.cx);
if (pulBuffer)
{
clrR.ullColor = pgData->llRed;
clrG.ullColor = pgData->llGreen;
clrB.ullColor = pgData->llBlue;
clrA.ullColor = pgData->llAlpha;
LONGLONG lldRdX = pgData->lldRdX;
LONGLONG lldGdX = pgData->lldGdX;
LONGLONG lldBdX = pgData->lldBdX;
LONGLONG lldAdX = pgData->lldAdX;
//
// adjust gradient fill for clipped portion
//
if (pgData->xScanAdjust > 0)
{
clrR.ullColor += lldRdX * (pgData->xScanAdjust);
clrG.ullColor += lldGdX * (pgData->xScanAdjust);
clrB.ullColor += lldBdX * (pgData->xScanAdjust);
clrA.ullColor += lldAdX * (pgData->xScanAdjust);
}
//
// draw 1 scan line
//
PULONG pulDstX = pulBuffer;
PULONG pulEndX = pulDstX + pgData->szDraw.cx;
while (pulDstX != pulEndX)
{
*pulDstX = (ULONG)(((clrA.b[6]) << 24) |
((clrR.b[6]) << 16) |
((clrG.b[6]) << 8) |
((clrB.b[6])));
clrR.ullColor += lldRdX;
clrG.ullColor += lldGdX;
clrB.ullColor += lldBdX;
clrA.ullColor += lldAdX;
pulDstX++;
}
//
// replicate
//
PULONG pulDstY = (PULONG)pjDst + pgData->ptDraw.x;
PULONG pulEndY = (PULONG)((PBYTE)pulDstY + lDelta * cyClip);
while (pulDstY != pulEndY)
{
memcpy(pulDstY,pulBuffer,4*pgData->szDraw.cx);
pulDstY = (PULONG)((PBYTE)pulDstY + lDelta);
}
FreeTmpBuffer(pulBuffer);
}
}
else
{
clrR.ullColor = pgData->llRed;
clrG.ullColor = pgData->llGreen;
clrB.ullColor = pgData->llBlue;
clrA.ullColor = pgData->llAlpha;
LONGLONG lldRdY = pgData->lldRdY;
LONGLONG lldGdY = pgData->lldGdY;
LONGLONG lldBdY = pgData->lldBdY;
LONGLONG lldAdY = pgData->lldAdY;
//
// vertical gradient.
// replicate each x value accross whole scan line
//
if (pgData->yScanAdjust > 0)
{
clrR.ullColor += lldRdY * (pgData->yScanAdjust);
clrG.ullColor += lldGdY * (pgData->yScanAdjust);
clrB.ullColor += lldBdY * (pgData->yScanAdjust);
clrA.ullColor += lldAdY * (pgData->yScanAdjust);
}
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
pDst = pDst + 4 * pgData->ptDraw.x;
while (cyClip--)
{
ULONG ul = (ULONG)(((clrA.b[6]) << 24) |
((clrR.b[6]) << 16) |
((clrG.b[6]) << 8) |
((clrB.b[6])));
RtlFillMemoryUlong(pDst,pgData->szDraw.cx*4,ul);
clrR.ullColor += lldRdY;
clrG.ullColor += lldGdY;
clrB.ullColor += lldBdY;
clrA.ullColor += lldAdY;
pDst += lDelta;
}
}
}
/******************************Public*Routine******************************\
* vFillGRectDIB32RGB
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB32RGB(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cyClip = pgData->szDraw.cy;
//
// fill rect with gradient fill. if this is horizontal mode then
// draw one scan line and replicate in v, if this is vertical mode then
// draw one vertical stripe and replicate in h
//
COLOR_INTERP clrR,clrG,clrB,clrA;
clrR.ullColor = pgData->llRed;
clrG.ullColor = pgData->llGreen;
clrB.ullColor = pgData->llBlue;
if (pgData->ulMode == GRADIENT_FILL_RECT_H)
{
PBYTE pjDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
PULONG pulBuffer = (PULONG)AllocFreeTmpBuffer(4 * pgData->szDraw.cx);
if (pulBuffer)
{
LONGLONG lldRed = pgData->lldRdX;
LONGLONG lldGreen = pgData->lldGdX;
LONGLONG lldBlue = pgData->lldBdX;
//
// adjust gradient fill for clipped portion
//
if (pgData->xScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->xScanAdjust);
clrG.ullColor += lldGreen * (pgData->xScanAdjust);
clrB.ullColor += lldBlue * (pgData->xScanAdjust);
}
//
// draw 1 scan line to temp buffer
//
PULONG pulDstX = pulBuffer;
PULONG pulEndX = pulDstX + pgData->szDraw.cx;
while (pulDstX != pulEndX)
{
*pulDstX = (ULONG)(
((clrR.b[6])) |
((clrG.b[6]) << 8) |
((clrB.b[6]) << 16));
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
pulDstX++;
}
//
// replicate
//
PULONG pulDstY = (PULONG)pjDst + pgData->ptDraw.x;
PULONG pulEndY = (PULONG)((PBYTE)pulDstY + lDelta * cyClip);
while (pulDstY != pulEndY)
{
memcpy(pulDstY,pulBuffer,4*pgData->szDraw.cx);
pulDstY = (PULONG)((PBYTE)pulDstY + lDelta);
}
FreeTmpBuffer(pulBuffer);
}
}
else
{
LONGLONG lldRed = pgData->lldRdY;
LONGLONG lldGreen = pgData->lldGdY;
LONGLONG lldBlue = pgData->lldBdY;
//
// vertical gradient.
// replicate each x value accross whole scan line
//
if (pgData->yScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->yScanAdjust);
clrG.ullColor += lldGreen * (pgData->yScanAdjust);
clrB.ullColor += lldBlue * (pgData->yScanAdjust);
}
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
pDst = pDst + 4 * pgData->ptDraw.x;
while (cyClip--)
{
ULONG ul = (ULONG)(
((clrR.b[6]) ) |
((clrG.b[6]) << 8) |
((clrB.b[6]) << 16));
RtlFillMemoryUlong(pDst,pgData->szDraw.cx*4,ul);
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
pDst += lDelta;
}
}
}
/**************************************************************************\
* vFillGRectDIB32Bitfields
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 2/18/1997 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB32Bitfields(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cyClip = pgData->szDraw.cy;
XEPALOBJ *ppalDstSurf = pgData->ppalDstSurf;
//
// fill rect with gradient fill. if this is horizontal mode then
// draw one scan line and replicate in v, if this is vertical mode then
// draw one vertical stripe and replicate in h
//
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
clrR.ullColor = pgData->llRed;
clrG.ullColor = pgData->llGreen;
clrB.ullColor = pgData->llBlue;
if (pgData->ulMode == GRADIENT_FILL_RECT_H)
{
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldRed = pgData->lldRdX;
LONGLONG lldGreen = pgData->lldGdX;
LONGLONG lldBlue = pgData->lldBdX;
//
// adjust gradient fill for clipped portion
//
if (pgData->xScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->xScanAdjust);
clrG.ullColor += lldGreen * (pgData->xScanAdjust);
clrB.ullColor += lldBlue * (pgData->xScanAdjust);
}
//
// draw 1 scan line
//
PULONG pulDstX = (PULONG)pDst + pgData->ptDraw.x;
PULONG pulEndX = pulDstX + pgData->szDraw.cx;
PULONG pulScanX = pulDstX;
PBYTE pScan = (PBYTE)pulDstX;
while (pulDstX != pulEndX)
{
ULONG ulPix = (ULONG)(
((clrR.b[6] )) |
((clrG.b[6]) << 8) |
((clrB.b[6] ) << 16));
*pulDstX = ppalDstSurf->ulGetMatchFromPalentry(ulPix);
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
pulDstX++;
}
cyClip--;
pScan += lDelta;
//
// replicate
//
while (cyClip-- > 0)
{
memcpy(pScan,pulScanX,4*pgData->szDraw.cx);
pScan += lDelta;
}
}
else
{
LONGLONG lldRed = pgData->lldRdY;
LONGLONG lldGreen = pgData->lldGdY;
LONGLONG lldBlue = pgData->lldBdY;
//
// vertical gradient.
// replicate each x value accross whole scan line
//
if (pgData->yScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->yScanAdjust);
clrG.ullColor += lldGreen * (pgData->yScanAdjust);
clrB.ullColor += lldBlue * (pgData->yScanAdjust);
}
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
pDst = pDst + 4 * pgData->ptDraw.x;
while (cyClip--)
{
ULONG ul = (ULONG)(
((clrR.b[6])) |
((clrG.b[6]) << 8) |
((clrB.b[6]) << 16));
ul = ppalDstSurf->ulGetMatchFromPalentry(ul);
RtlFillMemoryUlong(pDst,pgData->szDraw.cx*4,ul);
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
pDst += lDelta;
}
}
}
/**************************************************************************\
* vFillGRectDIB24Bitfields
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 08/28/2000 Pravin Santiago [pravins]. Adapted from vFillGRectDIB32Bitfields
*
\**************************************************************************/
VOID
vFillGRectDIB24Bitfields(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cyClip = pgData->szDraw.cy;
XEPALOBJ *ppalDstSurf = pgData->ppalDstSurf;
//
// fill rect with gradient fill. if this is horizontal mode then
// draw one scan line and replicate in v, if this is vertical mode then
// draw one vertical stripe and replicate in h
//
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
clrR.ullColor = pgData->llRed;
clrG.ullColor = pgData->llGreen;
clrB.ullColor = pgData->llBlue;
if (pgData->ulMode == GRADIENT_FILL_RECT_H)
{
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldRed = pgData->lldRdX;
LONGLONG lldGreen = pgData->lldGdX;
LONGLONG lldBlue = pgData->lldBdX;
//
// adjust gradient fill for clipped portion
//
if (pgData->xScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->xScanAdjust);
clrG.ullColor += lldGreen * (pgData->xScanAdjust);
clrB.ullColor += lldBlue * (pgData->xScanAdjust);
}
//
// draw 1 scan line
//
PBYTE pbDstX = pDst + pgData->ptDraw.x*3;
PBYTE pbEndX = pbDstX + pgData->szDraw.cx*3;
PBYTE pbScanX = pbDstX;
PBYTE pScan = pbDstX;
while (pbDstX != pbEndX)
{
ULONG ulPix = (ULONG)(
((clrR.b[6] )) |
((clrG.b[6]) << 8) |
((clrB.b[6] ) << 16));
ulPix = ppalDstSurf->ulGetMatchFromPalentry(ulPix);
*pbDstX = ((PBYTE)&ulPix)[0];
*(pbDstX+1) = ((PBYTE)&ulPix)[1];
*(pbDstX+2) = ((PBYTE)&ulPix)[2];
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
pbDstX += 3;
}
cyClip--;
pScan += lDelta;
//
// replicate
//
while (cyClip-- > 0)
{
memcpy(pScan,pbScanX,3*pgData->szDraw.cx);
pScan += lDelta;
}
}
else
{
LONGLONG lldRed = pgData->lldRdY;
LONGLONG lldGreen = pgData->lldGdY;
LONGLONG lldBlue = pgData->lldBdY;
//
// vertical gradient.
// replicate each x value accross whole scan line
//
if (pgData->yScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->yScanAdjust);
clrG.ullColor += lldGreen * (pgData->yScanAdjust);
clrB.ullColor += lldBlue * (pgData->yScanAdjust);
}
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
pDst = pDst + 3 * pgData->ptDraw.x;
while (cyClip--)
{
PBYTE pTemp = pDst;
PBYTE pEnd = pDst + 3 * pgData->szDraw.cx;
ULONG ul = (ULONG)(
((clrR.b[6])) |
((clrG.b[6]) << 8) |
((clrB.b[6]) << 16));
ul = ppalDstSurf->ulGetMatchFromPalentry(ul);
while(pTemp != pEnd)
{
*pTemp = ((PBYTE)&ul)[0];
*(pTemp+1) = ((PBYTE)&ul)[1];
*(pTemp+2) = ((PBYTE)&ul)[2];
pTemp += 3;
}
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
pDst += lDelta;
}
}
}
/******************************Public*Routine******************************\
* vFillGRectDIB24BGR
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB24BGR(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cyClip = pgData->szDraw.cy;
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
clrR.ullColor = pgData->llRed;
clrG.ullColor = pgData->llGreen;
clrB.ullColor = pgData->llBlue;
//
// fill rect with gradient fill. if this is horizontal mode then
// draw one scan line and replicate in v, if this is vertical mode then
// draw one vertical stripe and replicate in h
//
if (pgData->ulMode == GRADIENT_FILL_RECT_H)
{
LONGLONG lldRed = pgData->lldRdX;
LONGLONG lldGreen = pgData->lldGdX;
LONGLONG lldBlue = pgData->lldBdX;
//
// adjust gradient fill for clipped portion
//
if (pgData->xScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->xScanAdjust);
clrG.ullColor += lldGreen * (pgData->xScanAdjust);
clrB.ullColor += lldBlue * (pgData->xScanAdjust);
}
PBYTE pBuffer = (PBYTE)AllocFreeTmpBuffer(3 * pgData->szDraw.cx);
if (pBuffer)
{
if (pBuffer)
{
PBYTE pDstX = pBuffer;
PBYTE pLast = pDstX + 3 * pgData->szDraw.cx;
while (pDstX != pLast)
{
*pDstX = (clrB.b[6]);
*(pDstX+1) = (clrG.b[6]);
*(pDstX+2) = (clrR.b[6]);
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
pDstX+=3;
}
//
// Replicate the scan line. It would be much better to write the scan line
// out to a memory buffer for drawing to a device surface
//
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() +
lDelta * pgData->ptDraw.y +
3 * pgData->ptDraw.x;
while (cyClip--)
{
memcpy(pDst,pBuffer,3*pgData->szDraw.cx);
pDst += lDelta;
}
FreeTmpBuffer(pBuffer);
}
}
}
else
{
//
// vertical gradient.
// replicate each x value accross whole scan line
//
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldRed = pgData->lldRdY;
LONGLONG lldGreen = pgData->lldGdY;
LONGLONG lldBlue = pgData->lldBdY;
//
// vertical gradient.
// replicate each x value accross whole scan line
//
if (pgData->yScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->yScanAdjust);
clrG.ullColor += lldGreen * (pgData->yScanAdjust);
clrB.ullColor += lldBlue * (pgData->yScanAdjust);
}
pDst = pDst + 3 * pgData->ptDraw.x;
while (cyClip--)
{
//
// fill scan line with solid color
//
PBYTE pTemp = pDst;
PBYTE pEnd = pDst + 3 * pgData->szDraw.cx;
while (pTemp != pEnd)
{
*pTemp = clrB.b[6];
*(pTemp+1) = clrG.b[6];
*(pTemp+2) = clrR.b[6];
pTemp+=3;
}
//
// increment colors for next scan line
//
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
//
// inc pointer to next scan line
//
pDst += lDelta;
}
}
}
/******************************Public*Routine******************************\
* vFillGRectDIB24RGB
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 08/28/2000 Pravin Santiago [pravins]. Adapted from vFillGrectDIB24BGR
*
\**************************************************************************/
VOID
vFillGRectDIB24RGB(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cyClip = pgData->szDraw.cy;
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
clrR.ullColor = pgData->llRed;
clrG.ullColor = pgData->llGreen;
clrB.ullColor = pgData->llBlue;
//
// fill rect with gradient fill. if this is horizontal mode then
// draw one scan line and replicate in v, if this is vertical mode then
// draw one vertical stripe and replicate in h
//
if (pgData->ulMode == GRADIENT_FILL_RECT_H)
{
LONGLONG lldRed = pgData->lldRdX;
LONGLONG lldGreen = pgData->lldGdX;
LONGLONG lldBlue = pgData->lldBdX;
//
// adjust gradient fill for clipped portion
//
if (pgData->xScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->xScanAdjust);
clrG.ullColor += lldGreen * (pgData->xScanAdjust);
clrB.ullColor += lldBlue * (pgData->xScanAdjust);
}
PBYTE pBuffer = (PBYTE)AllocFreeTmpBuffer(3 * pgData->szDraw.cx);
if (pBuffer)
{
if (pBuffer)
{
PBYTE pDstX = pBuffer;
PBYTE pLast = pDstX + 3 * pgData->szDraw.cx;
while (pDstX != pLast)
{
*pDstX = (clrR.b[6]);
*(pDstX+1) = (clrG.b[6]);
*(pDstX+2) = (clrB.b[6]);
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
pDstX+=3;
}
//
// Replicate the scan line. It would be much better to write the scan line
// out to a memory buffer for drawing to a device surface
//
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() +
lDelta * pgData->ptDraw.y +
3 * pgData->ptDraw.x;
while (cyClip--)
{
memcpy(pDst,pBuffer,3*pgData->szDraw.cx);
pDst += lDelta;
}
FreeTmpBuffer(pBuffer);
}
}
}
else
{
//
// vertical gradient.
// replicate each x value accross whole scan line
//
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldRed = pgData->lldRdY;
LONGLONG lldGreen = pgData->lldGdY;
LONGLONG lldBlue = pgData->lldBdY;
//
// vertical gradient.
// replicate each x value accross whole scan line
//
if (pgData->yScanAdjust > 0)
{
clrR.ullColor += lldRed * (pgData->yScanAdjust);
clrG.ullColor += lldGreen * (pgData->yScanAdjust);
clrB.ullColor += lldBlue * (pgData->yScanAdjust);
}
pDst = pDst + 3 * pgData->ptDraw.x;
while (cyClip--)
{
//
// fill scan line with solid color
//
PBYTE pTemp = pDst;
PBYTE pEnd = pDst + 3 * pgData->szDraw.cx;
while (pTemp != pEnd)
{
*pTemp = clrR.b[6];
*(pTemp+1) = clrG.b[6];
*(pTemp+2) = clrB.b[6];
pTemp+=3;
}
//
// increment colors for next scan line
//
clrR.ullColor += lldRed;
clrG.ullColor += lldGreen;
clrB.ullColor += lldBlue;
//
// inc pointer to next scan line
//
pDst += lDelta;
}
}
}
/******************************Public*Routine******************************\
* vFillGRectDIB16_565
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB16_565(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cxClip = pgData->szDraw.cx;
LONG yScan = pgData->ptDraw.y;
LONG yScanBottom = yScan + pgData->szDraw.cy;
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldxRed = pgData->lldRdX;
LONGLONG lldxGreen = pgData->lldGdX;
LONGLONG lldxBlue = pgData->lldBdX;
LONGLONG lldyRed = pgData->lldRdY;
LONGLONG lldyGreen = pgData->lldGdY;
LONGLONG lldyBlue = pgData->lldBdY;
//
// lleRed,Green,Blue keep track of color gradient
// in y. This may be repeated each scan line for different
// dither values. PERF could allocate temp scan line
// buffer, run gradient 1 time and dither from this source
//
ULONGLONG lleRed;
ULONGLONG lleGreen;
ULONGLONG lleBlue;
lleRed = pgData->llRed;
lleGreen = pgData->llGreen;
lleBlue = pgData->llBlue;
PULONG pulDither;
//
// skip down to left edge
//
if (pgData->yScanAdjust)
{
lleRed += lldyRed * (pgData->yScanAdjust);
lleGreen += lldyGreen * (pgData->yScanAdjust);
lleBlue += lldyBlue * (pgData->yScanAdjust);
}
LONG yDitherOrg = pgData->ptDitherOrg.y;
LONG xDitherOrg = pgData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PUSHORT pusDstX;
PUSHORT pusDstScanRight,pusDstScanLeft;
LONG xScan;
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
pulDither = &gulDither32[0] + 4 * ((yScan + yDitherOrg) & 3);
clrR.ullColor = lleRed;
clrG.ullColor = lleGreen;
clrB.ullColor = lleBlue;
if (pgData->xScanAdjust)
{
clrR.ullColor += lldxRed * (pgData->xScanAdjust);
clrG.ullColor += lldxGreen * (pgData->xScanAdjust);
clrB.ullColor += lldxBlue * (pgData->xScanAdjust);
}
xScan = pgData->ptDraw.x + xDitherOrg;
pusDstX = (PUSHORT)pDst + pgData->ptDraw.x;
pusDstScanRight = pusDstX + pgData->szDraw.cx;
while (pusDstX < pusDstScanRight)
{
ULONG ulDither = pulDither[xScan & 3];
ULONG iRed = Saturation16_5[((clrR.ul[1] >> (3)) + ulDither) >> 16];
ULONG iGreen = Saturation16_6[((clrG.ul[1] >> (2)) + ulDither) >> 16];
ULONG iBlue = Saturation16_5[((clrB.ul[1] >> (3)) + ulDither) >> 16];
*pusDstX = rgb565(iRed,iGreen,iBlue);
pusDstX++;
xScan++;
clrR.ullColor += lldxRed;
clrG.ullColor += lldxGreen;
clrB.ullColor += lldxBlue;
}
lleRed += lldyRed;
lleGreen += lldyGreen;
lleBlue += lldyBlue;
yScan++;
pDst += lDelta;
}
}
/******************************Public*Routine******************************\
* vFillGRectDIB16_555
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB16_555(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cxClip = pgData->szDraw.cx;
LONG yScan = pgData->ptDraw.y;
LONG yScanBottom = yScan + pgData->szDraw.cy;
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldxRed = pgData->lldRdX;
LONGLONG lldxGreen = pgData->lldGdX;
LONGLONG lldxBlue = pgData->lldBdX;
LONGLONG lldyRed = pgData->lldRdY;
LONGLONG lldyGreen = pgData->lldGdY;
LONGLONG lldyBlue = pgData->lldBdY;
//
// lleRed,Green,Blue keep track of color gradient
// in y. This may be repeated each scan line for different
// dither values. PERF could allocate temp scan line
// buffer, run gradient 1 time and dither from this source
//
ULONGLONG lleRed;
ULONGLONG lleGreen;
ULONGLONG lleBlue;
PULONG pulDither;
//
// skip down to left edge
//
lleRed = pgData->llRed;
lleGreen = pgData->llGreen;
lleBlue = pgData->llBlue;
if (pgData->yScanAdjust)
{
lleRed += lldyRed * (pgData->yScanAdjust);
lleGreen += lldyGreen * (pgData->yScanAdjust);
lleBlue += lldyBlue * (pgData->yScanAdjust);
}
LONG yDitherOrg = pgData->ptDitherOrg.y;
while(yScan < yScanBottom)
{
PUSHORT pusDstX;
PUSHORT pusDstScanRight,pusDstScanLeft;
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
LONG xScan;
pulDither = &gulDither32[0] + 4 * ((yScan + yDitherOrg) & 3);
clrR.ullColor = lleRed;
clrG.ullColor = lleGreen;
clrB.ullColor = lleBlue;
if (pgData->xScanAdjust)
{
clrR.ullColor += lldxRed * (pgData->xScanAdjust);
clrG.ullColor += lldxGreen * (pgData->xScanAdjust);
clrB.ullColor += lldxBlue * (pgData->xScanAdjust);
}
xScan = pgData->ptDraw.x + pgData->ptDitherOrg.x;
pusDstX = (PUSHORT)pDst + pgData->ptDraw.x;
pusDstScanRight = pusDstX + pgData->szDraw.cx;
while (pusDstX < pusDstScanRight)
{
ULONG ulDither = pulDither[xScan & 3];
ULONG iRed = Saturation16_5[((clrR.ul[1] >> (3)) + ulDither) >> 16];
ULONG iGreen = Saturation16_5[((clrG.ul[1] >> (3)) + ulDither) >> 16];
ULONG iBlue = Saturation16_5[((clrB.ul[1] >> (3)) + ulDither) >> 16];
*pusDstX = rgb555(iRed,iGreen,iBlue);
pusDstX++;
xScan++;
clrR.ullColor += lldxRed;
clrG.ullColor += lldxGreen;
clrB.ullColor += lldxBlue;
}
lleRed += lldyRed;
lleGreen += lldyGreen;
lleBlue += lldyBlue;
yScan ++;
pDst += lDelta;
}
}
/**************************************************************************\
* vFillGRectDIB16Bitfields
*
* Run gradient at 16bpp and use 555 dither
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 2/18/1997 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB16Bitfields(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG yScan = pgData->ptDraw.y;
LONG yScanBottom = yScan + pgData->szDraw.cy;
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldxRed = pgData->lldRdX;
LONGLONG lldxGreen = pgData->lldGdX;
LONGLONG lldxBlue = pgData->lldBdX;
LONGLONG lldyRed = pgData->lldRdY;
LONGLONG lldyGreen = pgData->lldGdY;
LONGLONG lldyBlue = pgData->lldBdY;
ULONGLONG lleRed;
ULONGLONG lleGreen;
ULONGLONG lleBlue;
PULONG pulDither;
XEPALOBJ *ppalDstSurf = pgData->ppalDstSurf;
//
// skip down to left edge
//
lleRed = pgData->llRed;
lleGreen = pgData->llGreen;
lleBlue = pgData->llBlue;
if (pgData->yScanAdjust)
{
lleRed += lldyRed * (pgData->yScanAdjust);
lleGreen += lldyGreen * (pgData->yScanAdjust);
lleBlue += lldyBlue * (pgData->yScanAdjust);
}
LONG yDitherOrg = pgData->ptDitherOrg.y;
LONG xDitherOrg = pgData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PUSHORT pusDstX;
PUSHORT pusDstScanRight,pusDstScanLeft;
LONG xScan;
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
pulDither = &gulDither32[0] + 4 * ((yScan + yDitherOrg) & 3);
clrR.ullColor = lleRed;
clrG.ullColor = lleGreen;
clrB.ullColor = lleBlue;
if (pgData->xScanAdjust)
{
clrR.ullColor += lldxRed * (pgData->xScanAdjust);
clrG.ullColor += lldxGreen * (pgData->xScanAdjust);
clrB.ullColor += lldxBlue * (pgData->xScanAdjust);
}
xScan = pgData->ptDraw.x + pgData->ptDitherOrg.x;
pusDstX = (PUSHORT)pDst + pgData->ptDraw.x;
pusDstScanRight = pusDstX + pgData->szDraw.cx;
while (pusDstX < pusDstScanRight)
{
ULONG ulDither = pulDither[xScan & 3];
ULONG iRed = Saturation16_5[((clrR.ul[1] >> (3)) + ulDither) >> 16];
ULONG iGreen = Saturation16_5[((clrG.ul[1] >> (3)) + ulDither) >> 16];
ULONG iBlue = Saturation16_5[((clrB.ul[1] >> (3)) + ulDither) >> 16];
//
// convert to 8 bit RGB for translation to bitfields
//
ULONG ulTemp = (iRed << ( 3)) |
(iGreen << (8 +3)) |
(iBlue << (8+8+3));
*pusDstX = (USHORT)ppalDstSurf->ulGetMatchFromPalentry(ulTemp);
pusDstX++;
xScan++;
clrR.ullColor += lldxRed;
clrG.ullColor += lldxGreen;
clrB.ullColor += lldxBlue;
}
lleRed += lldyRed;
lleGreen += lldyGreen;
lleBlue += lldyBlue;
yScan ++;
pDst += lDelta;
}
}
/******************************Public*Routine******************************\
* vFillGRectDIB8
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
*
* Return Value:
*
* None
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB8(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cxClip = pgData->szDraw.cx;
LONG yScan = pgData->ptDraw.y;
LONG yScanBottom = yScan + pgData->szDraw.cy;
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldxRed = pgData->lldRdX;
LONGLONG lldxGreen = pgData->lldGdX;
LONGLONG lldxBlue = pgData->lldBdX;
LONGLONG lldyRed = pgData->lldRdY;
LONGLONG lldyGreen = pgData->lldGdY;
LONGLONG lldyBlue = pgData->lldBdY;
//
// lleRed,Green,Blue keep track of color gradient
// in y. This may be repeated each scan line for different
// dither values. PERF could allocate temp scan line
// buffer, run gradient 1 time and dither from this source
//
ULONGLONG lleRed;
ULONGLONG lleGreen;
ULONGLONG lleBlue;
XLATEOBJ *pxlo = pgData->pxlo;
PBYTE pxlate = NULL;
PBYTE pjVector;
PBYTE pDitherMatrix;
PBYTE pSaturationTable;
//
// either use default palette or halftone palette dither
//
if (((XEPALOBJ) (((XLATE *) pxlo)->ppalDstDC)).bIsHalftone())
{
pDitherMatrix = gDitherMatrix16x16Halftone;
pSaturationTable = HalftoneSaturationTable;
}
else
{
pDitherMatrix = gDitherMatrix16x16Default;
pSaturationTable = DefaultSaturationTable;
}
//
// get/build rgb555 to palette table
//
pxlate = XLATEOBJ_pGetXlate555(pxlo);
if (pxlate == NULL)
{
WARNING("Failed to generate rgb333 xlate table\n");
return;
}
//
// determine DC to surface palette translate
//
if (((XLATE *) pxlo)->flPrivate & XLATE_PAL_MANAGED)
{
if (((XLATE *) pxlo)->ppalDstDC == ppalDefault)
{
pjVector = &defaultTranslate.ajVector[0];
pDitherMatrix = gDitherMatrix16x16Default;
pSaturationTable = DefaultSaturationTable;
}
else
{
if (((XLATE *) pxlo)->flPrivate & XLATE_USE_CURRENT)
{
pjVector = &((XLATE *) pxlo)->ppalDstDC->ptransCurrent->ajVector[0];
}
else
{
pjVector = &((XLATE *) pxlo)->ppalDstDC->ptransFore->ajVector[0];
}
}
}
else
{
pjVector = vTranslateIdentity;
}
//
// skip down to left edge
//
lleRed = pgData->llRed;
lleGreen = pgData->llGreen;
lleBlue = pgData->llBlue;
if (pgData->yScanAdjust)
{
lleRed += lldyRed * (pgData->yScanAdjust);
lleGreen += lldyGreen * (pgData->yScanAdjust);
lleBlue += lldyBlue * (pgData->yScanAdjust);
}
LONG xDitherOrg = pgData->ptDitherOrg.x;
LONG yDitherOrg = pgData->ptDitherOrg.y;
while(yScan < yScanBottom)
{
PBYTE pjDstX;
PBYTE pjDstScanRight;
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
clrR.ullColor = lleRed;
clrG.ullColor = lleGreen;
clrB.ullColor = lleBlue;
if (pgData->xScanAdjust)
{
clrR.ullColor += lldxRed * (pgData->xScanAdjust);
clrG.ullColor += lldxGreen * (pgData->xScanAdjust);
clrB.ullColor += lldxBlue * (pgData->xScanAdjust);
}
pjDstX = pDst + pgData->ptDraw.x;
LONG xScan = pgData->ptDraw.x;
LONG xScanRight = xScan + pgData->szDraw.cx;
PBYTE pDitherLevel = &pDitherMatrix[(16 * ((yScan + yDitherOrg) & DITHER_8_MASK_Y))];
while (xScan < xScanRight)
{
//
// calculate x component of dither
//
BYTE jDitherMatrix = *(pDitherLevel + ((xScan + xDitherOrg) & DITHER_8_MASK_X));
ULONG iRed = pSaturationTable[clrR.b[6] + jDitherMatrix];
ULONG iGreen = pSaturationTable[clrG.b[6] + jDitherMatrix];
ULONG iBlue = pSaturationTable[clrB.b[6] + jDitherMatrix];
BYTE jIndex;
GRAD_PALETTE_MATCH(jIndex,pjVector,pxlate,((BYTE)iRed),((BYTE)iGreen),((BYTE)iBlue));
*pjDstX = jIndex;
pjDstX++;
xScan++;
clrR.ullColor += lldxRed;
clrG.ullColor += lldxGreen;
clrB.ullColor += lldxBlue;
}
pDst += lDelta;
//
// add y color increment
//
lleRed += lldyRed;
lleGreen += lldyGreen;
lleBlue += lldyBlue;
yScan++;
}
}
/******************************Public*Routine******************************\
* vFillGRectDIB4
*
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
*
* Return Value:
*
* None
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB4(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cxClip = pgData->szDraw.cx;
LONG cyClip = pgData->szDraw.cy;
LONG yScan = pgData->ptDraw.y;
LONG yScanBottom = yScan + cyClip;
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldxRed = pgData->lldRdX;
LONGLONG lldxGreen = pgData->lldGdX;
LONGLONG lldxBlue = pgData->lldBdX;
LONGLONG lldyRed = pgData->lldRdY;
LONGLONG lldyGreen = pgData->lldGdY;
LONGLONG lldyBlue = pgData->lldBdY;
//
// lleRed,Green,Blue keep track of color gradient
// in y. This may be repeated each scan line for different
// dither values. PERF could allocate temp scan line
// buffer, run gradient 1 time and dither from this source
//
ULONGLONG lleRed;
ULONGLONG lleGreen;
ULONGLONG lleBlue;
XLATEOBJ *pxlo = pgData->pxlo;
PBYTE pxlate = NULL;
PBYTE pjVector;
PBYTE pDitherMatrix = gDitherMatrix16x16Default;
PBYTE pSaturationTable = DefaultSaturationTable;
//
// determine DC to surface palette translate
//
if (((XLATE *) pxlo)->flPrivate & XLATE_PAL_MANAGED)
{
if (((XLATE *) pxlo)->ppalDstDC == ppalDefault)
{
pjVector = &defaultTranslate.ajVector[0];
}
else
{
if (((XLATE *) pxlo)->flPrivate & XLATE_USE_CURRENT)
{
pjVector = &((XLATE *) pxlo)->ppalDstDC->ptransCurrent->ajVector[0];
}
else
{
pjVector = &((XLATE *) pxlo)->ppalDstDC->ptransFore->ajVector[0];
}
}
}
else
{
pjVector = vTranslateIdentity;
}
//
// get/build rgb555 to palette table
//
pxlate = XLATEOBJ_pGetXlate555(pxlo);
if (pxlate == NULL)
{
WARNING("Failed to generate rgb333 xlate table\n");
return;
}
//
// skip down to left edge
//
lleRed = pgData->llRed;
lleGreen = pgData->llGreen;
lleBlue = pgData->llBlue;
if (pgData->yScanAdjust)
{
lleRed += lldyRed * (pgData->yScanAdjust);
lleGreen += lldyGreen * (pgData->yScanAdjust);
lleBlue += lldyBlue * (pgData->yScanAdjust);
}
LONG yDitherOrg = pgData->ptDitherOrg.y;
LONG xDitherOrg = pgData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PBYTE pjDstX;
PBYTE pDitherLevel = &pDitherMatrix[(16 * ((yScan + yDitherOrg) & DITHER_8_MASK_Y))];
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
clrR.ullColor = lleRed;
clrG.ullColor = lleGreen;
clrB.ullColor = lleBlue;
if (pgData->xScanAdjust)
{
clrR.ullColor += lldxRed * (pgData->xScanAdjust);
clrG.ullColor += lldxGreen * (pgData->xScanAdjust);
clrB.ullColor += lldxBlue * (pgData->xScanAdjust);
}
pjDstX = pDst + pgData->ptDraw.x/2;
LONG xScan = pgData->ptDraw.x;
LONG xScanRight = xScan + pgData->szDraw.cx;
while (xScan < xScanRight)
{
//
// offset into dither array
//
BYTE jDitherMatrix;
jDitherMatrix = *(pDitherLevel + ((xScan + xDitherOrg) & DITHER_8_MASK_X));
ULONG iRed = pSaturationTable[clrR.b[6] + jDitherMatrix];
ULONG iGreen = pSaturationTable[clrG.b[6] + jDitherMatrix];
ULONG iBlue = pSaturationTable[clrB.b[6] + jDitherMatrix];
BYTE jIndex;
GRAD_PALETTE_MATCH(jIndex,pjVector,pxlate,((BYTE)iRed),((BYTE)iGreen),((BYTE)iBlue));
if (xScan & 1)
{
*pjDstX = (*pjDstX & 0xf0) | jIndex;
pjDstX++;
}
else
{
*pjDstX = (*pjDstX & 0x0f) | (jIndex << 4);
}
xScan++;
clrR.ullColor += lldxRed;
clrG.ullColor += lldxGreen;
clrB.ullColor += lldxBlue;
}
pDst += lDelta;
//
// add y color increment
//
lleRed += lldyRed;
lleGreen += lldyGreen;
lleBlue += lldyBlue;
yScan++;
}
}
/******************************Public*Routine******************************\
* vFillGRectDIB1
*
* Fill gradient rect
*
* Arguments:
*
* pSurfDst - destination surface
* pgData - gradient rect data
*
* Return Value:
*
* None
*
* History:
*
* 11/21/1996 Mark Enstrom [marke]
*
\**************************************************************************/
VOID
vFillGRectDIB1(
SURFACE *pSurfDst,
PGRADIENTRECTDATA pgData
)
{
LONG lDelta = pSurfDst->lDelta();
LONG cxClip = pgData->szDraw.cx;
LONG cyClip = pgData->szDraw.cy;
LONG yScan = pgData->ptDraw.y;
LONG yScanBottom = yScan + cyClip;
PBYTE pDst = (PBYTE)pSurfDst->pvScan0() + lDelta * pgData->ptDraw.y;
LONGLONG lldxRed = pgData->lldRdX;
LONGLONG lldxGreen = pgData->lldGdX;
LONGLONG lldxBlue = pgData->lldBdX;
LONGLONG lldyRed = pgData->lldRdY;
LONGLONG lldyGreen = pgData->lldGdY;
LONGLONG lldyBlue = pgData->lldBdY;
//
// lleRed,Green,Blue keep track of color gradient
// in y. This may be repeated each scan line for different
// dither values. PERF could allocate temp scan line
// buffer, run gradient 1 time and dither from this source
//
ULONGLONG lleRed;
ULONGLONG lleGreen;
ULONGLONG lleBlue;
XLATEOBJ *pxlo = pgData->pxlo;
PBYTE pxlate = NULL;
PBYTE pjVector = vTranslateIdentity;
PBYTE pDitherMatrix = gDitherMatrix16x16Default;
//
// get/build rgb555 to palette table
//
pxlate = XLATEOBJ_pGetXlate555(pxlo);
if (pxlate == NULL)
{
WARNING("Failed to generate rgb555 xlate table\n");
return;
}
//
// skip down to left edge
//
lleRed = pgData->llRed;
lleGreen = pgData->llGreen;
lleBlue = pgData->llBlue;
if (pgData->yScanAdjust)
{
lleRed += lldyRed * (pgData->yScanAdjust);
lleGreen += lldyGreen * (pgData->yScanAdjust);
lleBlue += lldyBlue * (pgData->yScanAdjust);
}
LONG yDitherOrg = pgData->ptDitherOrg.y;
LONG xDitherOrg = pgData->ptDitherOrg.x;
while(yScan < yScanBottom)
{
PBYTE pjDstX;
LONG ixDst;
LONG cx = cxClip;
LONG xScanLeft = pgData->ptDraw.x;
LONG xScanRight = xScanLeft + cx;
PBYTE pDitherLevel = &pDitherMatrix[(16 * ((yScan + yDitherOrg) & DITHER_8_MASK_Y))];
COLOR_INTERP clrR,clrG,clrB,clrAlpha;
clrR.ullColor = lleRed;
clrG.ullColor = lleGreen;
clrB.ullColor = lleBlue;
if (pgData->xScanAdjust)
{
clrR.ullColor += lldxRed * (pgData->xScanAdjust);
clrG.ullColor += lldxGreen * (pgData->xScanAdjust);
clrB.ullColor += lldxBlue * (pgData->xScanAdjust);
}
pjDstX = pDst + pgData->ptDraw.x/8;
ixDst = pgData->ptDraw.x & 7;
while (xScanLeft < xScanRight)
{
//
// offset into dither array
//
BYTE jDitherMatrix = 2 * (*(pDitherLevel + ((xScanLeft + xDitherOrg) & DITHER_8_MASK_X)));
ULONG iRed = (ULONG)(clrR.b[6]);
ULONG iGreen = (ULONG)(clrG.b[6]);
ULONG iBlue = (ULONG)(clrB.b[6]);
//
// add dither and saturate. 1bpp non-optimized
//
iRed = iRed + jDitherMatrix;
if (iRed >= 255)
{
iRed = 255;
}
else
{
iRed = 0;
}
iGreen = iGreen + jDitherMatrix;
if (iGreen >= 255)
{
iGreen = 255;
}
else
{
iGreen = 0;
}
iBlue = iBlue + jDitherMatrix;
if (iBlue >= 255)
{
iBlue = 255;
}
else
{
iBlue = 0;
}
BYTE jIndex;
//
// pjVector is known to be identity, so could make new macro for
// palette_match_1 if perf ever an issue
//
GRAD_PALETTE_MATCH(jIndex,pjVector,pxlate,((BYTE)iRed),((BYTE)iGreen),((BYTE)iBlue));
LONG iShift = 7 - ixDst;
BYTE OrMask = 1 << iShift;
BYTE AndMask = ~OrMask;
jIndex = jIndex << iShift;
*pjDstX = (*pjDstX & AndMask) | jIndex;
ixDst++;
if (ixDst == 8)
{
ixDst = 0;
pjDstX++;
}
clrR.ullColor += lldxRed;
clrG.ullColor += lldxGreen;
clrB.ullColor += lldxBlue;
xScanLeft++;
}
pDst += lDelta;
//
// add y color increment
//
lleRed += lldyRed;
lleGreen += lldyGreen;
lleBlue += lldyBlue;
yScan++;
}
}