reactos/win32ss/drivers/font/bmfd/glyph.c

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/*
* PROJECT: ReactOS win32 subsystem
* LICENSE: GPL - See COPYING in the top level directory
* PURPOSE: GDI font driver for bitmap fonts
* PROGRAMMER: Timo Kreuzer (timo.kreuzer@reactos.org)
*/
#include "bmfd.h"
FORCEINLINE
ULONG
_ReadPixel(
CHAR* pjBits,
ULONG x,
ULONG y,
ULONG ulHeight)
{
CHAR j;
j = pjBits[(x/8) * ulHeight + y];
return (j >> (~x & 0x7)) & 1;
}
FORCEINLINE
VOID
_WritePixel(
CHAR* pjBits,
ULONG x,
ULONG y,
ULONG cjRow,
ULONG color)
{
pjBits += y * cjRow;
pjBits += x / 8;
*pjBits |= color << (~x & 0x7);
}
PBMFD_FONT
BmfdGetFontInstance(
FONTOBJ *pfo,
PBMFD_FACE pface)
{
PBMFD_FONT pfont = pfo->pvProducer;
XFORMOBJ *pxo;
FLOATOBJ_XFORM xfo;
if (!pfont)
{
/* Allocate realization info */
pfont = EngAllocMem(0, sizeof(BMFD_FONT), 0);
if (!pfont)
{
return NULL;
}
pxo = FONTOBJ_pxoGetXform(pfo);
XFORMOBJ_iGetFloatObjXform(pxo, &xfo);
pfont->pfo = pfo;
pfont->pface = pface;
pfont->xScale = FLOATOBJ_GetLong(&xfo.eM11);
pfont->yScale = FLOATOBJ_GetLong(&xfo.eM22);
pfont->ulAngle = 0;
/* Set the pvProducer member of the fontobj */
pfo->pvProducer = pfont;
}
return pfont;
}
ULONG
BmfdQueryGlyphAndBitmap(
PBMFD_FONT pfont,
HGLYPH hg,
GLYPHDATA *pgd,
GLYPHBITS *pgb,
ULONG cjSize)
{
PBMFD_FACE pface = pfont->pface;
PGLYPHENTRY pge;
ULONG xSrc, ySrc, cxSrc, cySrc;
ULONG xDst, yDst, cxDst, cyDst;
ULONG xScale, yScale;
ULONG ulGlyphOffset, cjDstRow, color;
PVOID pvSrc0, pvDst0;
/* The glyph handle is the byte offset to the glyph in the table */
pge = (PGLYPHENTRY)(pface->pCharTable + hg);
/* Get the bitmap offset depending on file version */
if (pface->ulVersion >= 0x300)
{
cxSrc = GETVAL(pge->ge20.geWidth);
ulGlyphOffset = GETVAL(pge->ge30.geOffset);
}
else
{
cxSrc = GETVAL(pge->ge30.geWidth);
ulGlyphOffset = GETVAL(pge->ge20.geOffset);
}
cySrc = pface->wPixHeight;
/* Pointer to the bitmap bits */
pvSrc0 = (PBYTE)pface->pFontInfo + ulGlyphOffset;
pvDst0 = pgb->aj;
xScale = pfont->xScale;
yScale = pfont->yScale;
/* Calculate extents of destination bitmap */
if (pfont->ulAngle == 90 || pfont->ulAngle == 270)
{
cxDst = cySrc * xScale;
cyDst = cxSrc * yScale;
}
else
{
cxDst = cxSrc * xScale;
cyDst = cySrc * yScale;
}
cjDstRow = (cxDst + 7) / 8;
if (pgd)
{
/* Fill GLYPHDATA structure */
pgd->gdf.pgb = pgb;
pgd->hg = hg;
pgd->fxD = xScale * (pface->wA + cxDst + pface->wC) << 4;
pgd->fxA = xScale * pface->wA << 4;
pgd->fxAB = xScale * (pface->wA + cxDst) << 4;
pgd->fxInkTop = yScale * pface->wAscent << 4;
pgd->fxInkBottom = - yScale * (pface->wDescent << 4);
pgd->rclInk.top = - yScale * pface->wAscent;
pgd->rclInk.bottom = yScale * pface->wDescent;
pgd->rclInk.left = xScale * pface->wA;
pgd->rclInk.right = pgd->rclInk.left + cxDst;
pgd->ptqD.x.LowPart = 0;
pgd->ptqD.x.HighPart = pgd->fxD;
pgd->ptqD.y.LowPart = 0;
pgd->ptqD.y.HighPart = 0;
}
if (pgb)
{
/* Verify that the buffer is big enough */
if (cjSize < FIELD_OFFSET(GLYPHBITS, aj) + cyDst * cjDstRow)
{
DbgPrint("Buffer too small (%ld), %ld,%ld\n",
cjSize, cxSrc, cySrc);
return FD_ERROR;
}
/* Fill GLYPHBITS structure */
pgb->ptlOrigin.x = xScale * pface->wA;
pgb->ptlOrigin.y = - yScale * pface->wAscent;
pgb->sizlBitmap.cx = cxDst;
pgb->sizlBitmap.cy = cyDst;
/* Erase destination surface */
memset(pvDst0, 0, cyDst * cjDstRow);
switch (pfont->ulAngle)
{
case 90:
/* Copy pixels */
for (yDst = 0; yDst < cyDst ; yDst++)
{
xSrc = yDst / yScale;
for (xDst = 0; xDst < cxDst; xDst++)
{
ySrc = (cxDst - xDst) / xScale;
color = _ReadPixel(pvSrc0, xSrc, ySrc, cySrc);
_WritePixel(pvDst0, xDst, yDst, cjDstRow, color);
}
}
break;
case 180:
for (yDst = 0; yDst < cyDst ; yDst++)
{
ySrc = (cyDst - yDst) / yScale;
for (xDst = 0; xDst < cxDst; xDst++)
{
xSrc = (cxDst - xDst) / xScale;
color = _ReadPixel(pvSrc0, xSrc, ySrc, cySrc);
_WritePixel(pvDst0, xDst, yDst, cjDstRow, color);
}
}
break;
case 270:
for (yDst = 0; yDst < cyDst ; yDst++)
{
xSrc = (cyDst - yDst) / yScale;
for (xDst = 0; xDst < cxDst; xDst++)
{
ySrc = xDst / xScale;
color = _ReadPixel(pvSrc0, xSrc, ySrc, cySrc);
_WritePixel(pvDst0, xDst, yDst, cjDstRow, color);
}
}
break;
case 0:
default:
for (yDst = 0; yDst < cyDst ; yDst++)
{
ySrc = yDst / yScale;
for (xDst = 0; xDst < cxDst; xDst++)
{
xSrc = xDst / xScale;
color = _ReadPixel(pvSrc0, xSrc, ySrc, cySrc);
_WritePixel(pvDst0, xDst, yDst, cjDstRow, color);
}
}
}
}
/* Return the size of the GLYPHBITS structure */
return FIELD_OFFSET(GLYPHBITS, aj) + cyDst * cjDstRow;
}
ULONG
BmfdQueryMaxExtents(
PBMFD_FONT pfont,
PFD_DEVICEMETRICS pfddm,
ULONG cjSize)
{
ULONG cjMaxWidth, cjMaxBitmapSize;
PFONTINFO16 pFontInfo;
ULONG xScale, yScale;
if (pfddm)
{
if (cjSize < sizeof(FD_DEVICEMETRICS))
{
/* Not enough space, fail */
return FD_ERROR;
}
pFontInfo = pfont->pface->pFontInfo;
xScale = pfont->xScale;
yScale = pfont->yScale;
/* Fill FD_DEVICEMETRICS */
pfddm->flRealizedType = FDM_MASK;
pfddm->pteBase.x = FLOATL_1;
pfddm->pteBase.y = 0;
pfddm->pteSide.x = 0;
pfddm->pteSide.y = FLOATL_1;
pfddm->ptlUnderline1.x = 0;
pfddm->ptlUnderline1.y = 1;
pfddm->ptlStrikeout.x = 0;
pfddm->ptlStrikeout.y = -4;
pfddm->ptlULThickness.x = 0;
pfddm->ptlULThickness.y = 1;
pfddm->ptlSOThickness.x = 0;
pfddm->ptlSOThickness.y = 1;
pfddm->lMinA = 0;
pfddm->lMinC = 0;
pfddm->lMinD = 0;
if (pfont->ulAngle == 90 || pfont->ulAngle == 270)
{
pfddm->cxMax = xScale * GETVAL(pFontInfo->dfPixHeight);
pfddm->cyMax = yScale * GETVAL(pFontInfo->dfMaxWidth);
pfddm->fxMaxAscender = yScale * GETVAL(pFontInfo->dfAscent) << 4;
pfddm->fxMaxDescender = (pfddm->cyMax << 4) - pfddm->fxMaxAscender;
}
else
{
pfddm->cxMax = xScale * GETVAL(pFontInfo->dfMaxWidth);
pfddm->cyMax = yScale * GETVAL(pFontInfo->dfPixHeight);
pfddm->fxMaxAscender = yScale * GETVAL(pFontInfo->dfAscent) << 4;
pfddm->fxMaxDescender = (pfddm->cyMax << 4) - pfddm->fxMaxAscender;
}
pfddm->lD = pfddm->cxMax;
/* Calculate Width in bytes */
cjMaxWidth = ((pfddm->cxMax + 7) >> 3);
/* Calculate size of the bitmap, rounded to DWORDs */
cjMaxBitmapSize = ((cjMaxWidth * pfddm->cyMax) + 3) & ~3;
/* cjGlyphMax is the full size of the GLYPHBITS structure */
pfddm->cjGlyphMax = FIELD_OFFSET(GLYPHBITS, aj) + cjMaxBitmapSize;
/* NOTE: fdxQuantized and NonLinear... stay unchanged */
}
/* Return the size of the structure */
return sizeof(FD_DEVICEMETRICS);
}
/** Public Interface **********************************************************/
PFD_GLYPHATTR
APIENTRY
BmfdQueryGlyphAttrs(
FONTOBJ *pfo,
ULONG iMode)
{
DbgPrint("BmfdQueryGlyphAttrs()\n");
/* We don't support FO_ATTR_MODE_ROTATE */
return NULL;
}
LONG
APIENTRY
BmfdQueryFontData(
DHPDEV dhpdev,
FONTOBJ *pfo,
ULONG iMode,
HGLYPH hg,
OUT GLYPHDATA *pgd,
PVOID pv,
ULONG cjSize)
{
PBMFD_FILE pfile = (PBMFD_FILE)pfo->iFile;
PBMFD_FACE pface = &pfile->aface[pfo->iFace - 1];
PBMFD_FONT pfont= BmfdGetFontInstance(pfo, pface);
DbgPrint("BmfdQueryFontData(pfo=%p, iMode=%ld, hg=%p, pgd=%p, pv=%p, cjSize=%ld)\n",
pfo, iMode, hg, pgd, pv, cjSize);
// __debugbreak();
switch (iMode)
{
case QFD_GLYPHANDBITMAP: /* 1 */
return BmfdQueryGlyphAndBitmap(pfont, hg, pgd, pv, cjSize);
case QFD_MAXEXTENTS: /* 3 */
return BmfdQueryMaxExtents(pfont, pv, cjSize);
/* we support nothing else */
default:
return FD_ERROR;
}
return FD_ERROR;
}