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|
/****************************************************************************
*
* Mesa 3-D graphics library
* Direct3D Driver Interface
*
* ========================================================================
*
* Copyright (C) 1991-2004 SciTech Software, Inc. All rights reserved.
*
* Permission is hereby granted, free of charge, to any person obtaining a
* copy of this software and associated documentation files (the "Software"),
* to deal in the Software without restriction, including without limitation
* the rights to use, copy, modify, merge, publish, distribute, sublicense,
* and/or sell copies of the Software, and to permit persons to whom the
* Software is furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included
* in all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
* OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
* SCITECH SOFTWARE INC BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
* WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF
* OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*
* ======================================================================
*
* Language: ANSI C
* Environment: Windows 9x (Win32)
*
* Description: OpenGL window functions (wgl*).
*
****************************************************************************/
#include "dglwgl.h"
#ifdef _USE_GLD3_WGL
#include "gld_driver.h"
#endif
#include "glu.h" // MUST USE MICROSOFT'S GLU32!
#ifndef _USE_GLD3_WGL
extern DGL_mesaFuncs mesaFuncs;
#endif
// Need to export wgl* functions if using GLD3,
// otherwise export GLD2 DGL_* functions.
#ifdef _USE_GLD3_WGL
#define _GLD_WGL_EXPORT(a) wgl##a
#else
#define _GLD_WGL_EXPORT(a) DGL_##a
#endif
// Calls into Mesa 4.x are different
#ifdef _USE_GLD3_WGL
#include "dlist.h"
#include "drawpix.h"
#include "get.h"
#include "matrix.h"
// NOTE: All the _GLD* macros now call the gl* functions direct.
// This ensures that the correct internal pathway is taken. KeithH
#define _GLD_glNewList glNewList
#define _GLD_glBitmap glBitmap
#define _GLD_glEndList glEndList
#define _GLD_glDeleteLists glDeleteLists
#define _GLD_glGetError glGetError
#define _GLD_glTranslatef glTranslatef
#define _GLD_glBegin glBegin
#define _GLD_glVertex2fv glVertex2fv
#define _GLD_glEnd glEnd
#define _GLD_glNormal3f glNormal3f
#define _GLD_glVertex3f glVertex3f
#define _GLD_glVertex3fv glVertex3fv
#else // _USE_GLD3_WGL
#define _GLD_glNewList (*mesaFuncs.glNewList)
#define _GLD_glBitmap (*mesaFuncs.glBitmap)
#define _GLD_glEndList (*mesaFuncs.glEndList)
#define _GLD_glDeleteLists (*mesaFuncs.glDeleteLists)
#define _GLD_glGetError (*mesaFuncs.glGetError)
#define _GLD_glTranslatef (*mesaFuncs.glTranslatef)
#define _GLD_glBegin (*mesaFuncs.glBegin)
#define _GLD_glVertex2fv (*mesaFuncs.glVertex2fv)
#define _GLD_glEnd (*mesaFuncs.glEnd)
#define _GLD_glNormal3f (*mesaFuncs.glNormal3f)
#define _GLD_glVertex3f (*mesaFuncs.glVertex3f)
#define _GLD_glVertex3fv (*mesaFuncs.glVertex3fv)
#endif // _USE_GLD3_WGL
// ***********************************************************************
// Emulate SGI DDK calls.
#define __wglMalloc(a) GlobalAlloc(GPTR, (a))
#define __wglFree(a) GlobalFree((a))
// ***********************************************************************
// Mesa glu.h and MS glu.h call these different things...
//#define GLUtesselator GLUtriangulatorObj
//#define GLU_TESS_VERTEX_DATA GLU_VERTEX_DATA
// For wglFontOutlines
typedef GLUtesselator *(APIENTRY *gluNewTessProto)(void);
typedef void (APIENTRY *gluDeleteTessProto)(GLUtesselator *tess);
typedef void (APIENTRY *gluTessBeginPolygonProto)(GLUtesselator *tess, void *polygon_data);
typedef void (APIENTRY *gluTessBeginContourProto)(GLUtesselator *tess);
typedef void (APIENTRY *gluTessVertexProto)(GLUtesselator *tess, GLdouble coords[3], void *data);
typedef void (APIENTRY *gluTessEndContourProto)(GLUtesselator *tess);
typedef void (APIENTRY *gluTessEndPolygonProto)(GLUtesselator *tess);
typedef void (APIENTRY *gluTessPropertyProto)(GLUtesselator *tess, GLenum which, GLdouble value);
typedef void (APIENTRY *gluTessNormalProto)(GLUtesselator *tess, GLdouble x, GLdouble y, GLdouble z);
typedef void (APIENTRY *gluTessCallbackProto)(GLUtesselator *tess, GLenum which, void (CALLBACK *)());
static HINSTANCE gluModuleHandle;
static gluNewTessProto gluNewTessProc;
static gluDeleteTessProto gluDeleteTessProc;
static gluTessBeginPolygonProto gluTessBeginPolygonProc;
static gluTessBeginContourProto gluTessBeginContourProc;
static gluTessVertexProto gluTessVertexProc;
static gluTessEndContourProto gluTessEndContourProc;
static gluTessEndPolygonProto gluTessEndPolygonProc;
static gluTessPropertyProto gluTessPropertyProc;
static gluTessNormalProto gluTessNormalProc;
static gluTessCallbackProto gluTessCallbackProc;
static HFONT hNewFont, hOldFont;
static FLOAT ScaleFactor;
#define LINE_BUF_QUANT 4000
#define VERT_BUF_QUANT 4000
static FLOAT* LineBuf;
static DWORD LineBufSize;
static DWORD LineBufIndex;
static FLOAT* VertBuf;
static DWORD VertBufSize;
static DWORD VertBufIndex;
static GLenum TessErrorOccurred;
static int AppendToLineBuf(
FLOAT value);
static int AppendToVertBuf(
FLOAT value);
static int DrawGlyph(
UCHAR* glyphBuf,
DWORD glyphSize,
FLOAT chordalDeviation,
FLOAT extrusion,
INT format);
static void FreeLineBuf(void);
static void FreeVertBuf(void);
static long GetWord(
UCHAR** p);
static long GetDWord(
UCHAR** p);
static double GetFixed(
UCHAR** p);
static int InitLineBuf(void);
static int InitVertBuf(void);
static HFONT CreateHighResolutionFont(
HDC hDC);
static int MakeDisplayListFromGlyph(
DWORD listName,
UCHAR* glyphBuf,
DWORD glyphSize,
LPGLYPHMETRICSFLOAT glyphMetricsFloat,
FLOAT chordalDeviation,
FLOAT extrusion,
INT format);
static BOOL LoadGLUTesselator(void);
static BOOL UnloadGLUTesselator(void);
static int MakeLinesFromArc(
FLOAT x0,
FLOAT y0,
FLOAT x1,
FLOAT y1,
FLOAT x2,
FLOAT y2,
DWORD vertexCountIndex,
FLOAT chordalDeviationSquared);
static int MakeLinesFromGlyph( UCHAR* glyphBuf,
DWORD glyphSize,
FLOAT chordalDeviation);
static int MakeLinesFromTTLine( UCHAR** pp,
DWORD vertexCountIndex,
WORD pointCount);
static int MakeLinesFromTTPolycurve( UCHAR** pp,
DWORD vertexCountIndex,
FLOAT chordalDeviation);
static int MakeLinesFromTTPolygon( UCHAR** pp,
FLOAT chordalDeviation);
static int MakeLinesFromTTQSpline( UCHAR** pp,
DWORD vertexCountIndex,
WORD pointCount,
FLOAT chordalDeviation);
static void CALLBACK TessCombine( double coords[3],
void* vertex_data[4],
FLOAT weight[4],
void** outData);
static void CALLBACK TessError( GLenum error);
static void CALLBACK TessVertexOutData( FLOAT p[3],
GLfloat z);
// ***********************************************************************
#ifdef GLD_THREADS
#pragma message("compiling DGLWGL.C vars for multi-threaded support")
extern CRITICAL_SECTION CriticalSection;
extern DWORD dwTLSPixelFormat; // TLS index for current pixel format
#endif
int curPFD = 0; // Current PFD (static)
// ***********************************************************************
int dglGetPixelFormat(void)
{
#ifdef GLD_THREADS
int iPixelFormat;
// get thread-specific instance
if (glb.bMultiThreaded) {
__try {
iPixelFormat = (int)TlsGetValue(dwTLSPixelFormat);
}
__except(EXCEPTION_EXECUTE_HANDLER) {
iPixelFormat = curPFD;
}
}
// get global static var
else {
iPixelFormat = curPFD;
}
return iPixelFormat;
#else
return curPFD;
#endif
}
// ***********************************************************************
void dglSetPixelFormat(int iPixelFormat)
{
#ifdef GLD_THREADS
// set thread-specific instance
if (glb.bMultiThreaded) {
__try {
TlsSetValue(dwTLSPixelFormat, (LPVOID)iPixelFormat);
}
__except(EXCEPTION_EXECUTE_HANDLER) {
curPFD = iPixelFormat;
}
}
// set global static var
else {
curPFD = iPixelFormat;
}
#else
curPFD = iPixelFormat;
#endif
}
// ***********************************************************************
int APIENTRY _GLD_WGL_EXPORT(ChoosePixelFormat)(
HDC a,
CONST PIXELFORMATDESCRIPTOR *ppfd)
{
DGL_pixelFormat *lpPF = glb.lpPF;
PIXELFORMATDESCRIPTOR ppfdBest;
int i;
int bestIndex = -1;
int numPixelFormats;
DWORD dwFlags;
char buf[128];
char cat[8];
DWORD dwAllFlags =
PFD_DRAW_TO_WINDOW |
PFD_DRAW_TO_BITMAP |
PFD_SUPPORT_GDI |
PFD_SUPPORT_OPENGL |
PFD_GENERIC_FORMAT |
PFD_NEED_PALETTE |
PFD_NEED_SYSTEM_PALETTE |
PFD_DOUBLEBUFFER |
PFD_STEREO |
/*PFD_SWAP_LAYER_BUFFERS |*/
PFD_DOUBLEBUFFER_DONTCARE |
PFD_STEREO_DONTCARE |
PFD_SWAP_COPY |
PFD_SWAP_EXCHANGE |
PFD_GENERIC_ACCELERATED |
0;
// Validate license
if (!dglValidate())
return 0;
// List may not be built until dglValidate() is called! KeithH
lpPF = glb.lpPF;
//
// Lets print the input pixel format to the log
// ** Based on "wglinfo" by Nate Robins **
//
ddlogMessage(DDLOG_SYSTEM, "ChoosePixelFormat:\n");
ddlogMessage(DDLOG_INFO, "Input pixel format for ChoosePixelFormat:\n");
ddlogMessage(DDLOG_INFO,
" visual x bf lv rg d st r g b a ax dp st accum buffs ms\n");
ddlogMessage(DDLOG_INFO,
" id dep cl sp sz l ci b ro sz sz sz sz bf th cl r g b a ns b\n");
ddlogMessage(DDLOG_INFO,
"-----------------------------------------------------------------\n");
sprintf(buf, " . ");
sprintf(cat, "%2d ", ppfd->cColorBits);
strcat(buf, cat);
if(ppfd->dwFlags & PFD_DRAW_TO_WINDOW) sprintf(cat, "wn ");
else if(ppfd->dwFlags & PFD_DRAW_TO_BITMAP) sprintf(cat, "bm ");
else sprintf(cat, ". ");
strcat(buf, cat);
/* should find transparent pixel from LAYERPLANEDESCRIPTOR */
sprintf(cat, " . ");
strcat(buf, cat);
sprintf(cat, "%2d ", ppfd->cColorBits);
strcat(buf, cat);
/* bReserved field indicates number of over/underlays */
if(ppfd->bReserved) sprintf(cat, " %d ", ppfd->bReserved);
else sprintf(cat, " . ");
strcat(buf, cat);
sprintf(cat, " %c ", ppfd->iPixelType == PFD_TYPE_RGBA ? 'r' : 'c');
strcat(buf, cat);
sprintf(cat, "%c ", ppfd->dwFlags & PFD_DOUBLEBUFFER ? 'y' : '.');
strcat(buf, cat);
sprintf(cat, " %c ", ppfd->dwFlags & PFD_STEREO ? 'y' : '.');
strcat(buf, cat);
if(ppfd->cRedBits && ppfd->iPixelType == PFD_TYPE_RGBA)
sprintf(cat, "%2d ", ppfd->cRedBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cGreenBits && ppfd->iPixelType == PFD_TYPE_RGBA)
sprintf(cat, "%2d ", ppfd->cGreenBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cBlueBits && ppfd->iPixelType == PFD_TYPE_RGBA)
sprintf(cat, "%2d ", ppfd->cBlueBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cAlphaBits && ppfd->iPixelType == PFD_TYPE_RGBA)
sprintf(cat, "%2d ", ppfd->cAlphaBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cAuxBuffers) sprintf(cat, "%2d ", ppfd->cAuxBuffers);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cDepthBits) sprintf(cat, "%2d ", ppfd->cDepthBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cStencilBits) sprintf(cat, "%2d ", ppfd->cStencilBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cAccumRedBits) sprintf(cat, "%2d ", ppfd->cAccumRedBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cAccumGreenBits) sprintf(cat, "%2d ", ppfd->cAccumGreenBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cAccumBlueBits) sprintf(cat, "%2d ", ppfd->cAccumBlueBits);
else sprintf(cat, " . ");
strcat(buf, cat);
if(ppfd->cAccumAlphaBits) sprintf(cat, "%2d ", ppfd->cAccumAlphaBits);
else sprintf(cat, " . ");
strcat(buf, cat);
/* no multisample in Win32 */
sprintf(cat, " . .\n");
strcat(buf, cat);
ddlogMessage(DDLOG_INFO, buf);
ddlogMessage(DDLOG_INFO,
"-----------------------------------------------------------------\n");
ddlogMessage(DDLOG_INFO, "\n");
//
// Examine the flags for correctness
//
dwFlags = ppfd->dwFlags;
if (dwFlags != (dwFlags & dwAllFlags))
{
/* error: bad dwFlags */
ddlogPrintf(DDLOG_WARN,
"ChoosePixelFormat: bad flags (0x%x)",
dwFlags & (~dwAllFlags));
// Mask illegal flags and continue
dwFlags = dwFlags & dwAllFlags;
}
switch (ppfd->iPixelType) {
case PFD_TYPE_RGBA:
case PFD_TYPE_COLORINDEX:
break;
default:
/* error: bad iPixelType */
ddlogMessage(DDLOG_WARN, "ChoosePixelFormat: bad pixel type\n");
return 0;
}
switch (ppfd->iLayerType) {
case PFD_MAIN_PLANE:
case PFD_OVERLAY_PLANE:
case PFD_UNDERLAY_PLANE:
break;
default:
/* error: bad iLayerType */
ddlogMessage(DDLOG_WARN, "ChoosePixelFormat: bad layer type\n");
return 0;
}
numPixelFormats = glb.nPixelFormatCount;
/* loop through candidate pixel format descriptors */
for (i=0; i<numPixelFormats; ++i) {
PIXELFORMATDESCRIPTOR ppfdCandidate;
memcpy(&ppfdCandidate, &lpPF[i].pfd, sizeof(PIXELFORMATDESCRIPTOR));
/*
** Check attributes which must match
*/
if (ppfd->iPixelType != ppfdCandidate.iPixelType) {
continue;
}
if (ppfd->iLayerType != ppfdCandidate.iLayerType) {
continue;
}
if (((dwFlags ^ ppfdCandidate.dwFlags) & dwFlags) &
(PFD_DRAW_TO_WINDOW | PFD_DRAW_TO_BITMAP |
PFD_SUPPORT_GDI | PFD_SUPPORT_OPENGL))
{
continue;
}
if (!(dwFlags & PFD_DOUBLEBUFFER_DONTCARE)) {
if ((dwFlags & PFD_DOUBLEBUFFER) !=
(ppfdCandidate.dwFlags & PFD_DOUBLEBUFFER))
{
continue;
}
}
// if (!(dwFlags & PFD_STEREO_DONTCARE)) {
if ((dwFlags & PFD_STEREO) !=
(ppfdCandidate.dwFlags & PFD_STEREO))
{
continue;
}
// }
if (ppfd->iPixelType==PFD_TYPE_RGBA
&& ppfd->cAlphaBits && !ppfdCandidate.cAlphaBits) {
continue;
}
if (ppfd->iPixelType==PFD_TYPE_RGBA
&& ppfd->cAccumBits && !ppfdCandidate.cAccumBits) {
continue;
}
if (ppfd->cDepthBits && !ppfdCandidate.cDepthBits) {
continue;
}
if (ppfd->cStencilBits && !ppfdCandidate.cStencilBits) {
continue;
}
if (ppfd->cAuxBuffers && !ppfdCandidate.cAuxBuffers) {
continue;
}
/*
** See if candidate is better than the previous best choice
*/
if (bestIndex == -1) {
ppfdBest = ppfdCandidate;
bestIndex = i;
continue;
}
if ((ppfd->cColorBits > ppfdBest.cColorBits &&
ppfdCandidate.cColorBits > ppfdBest.cColorBits) ||
(ppfd->cColorBits <= ppfdCandidate.cColorBits &&
ppfdCandidate.cColorBits < ppfdBest.cColorBits))
{
ppfdBest = ppfdCandidate;
bestIndex = i;
continue;
}
if (ppfd->iPixelType==PFD_TYPE_RGBA
&& ppfd->cAlphaBits
&& ppfdCandidate.cAlphaBits > ppfdBest.cAlphaBits)
{
ppfdBest = ppfdCandidate;
bestIndex = i;
continue;
}
if (ppfd->iPixelType==PFD_TYPE_RGBA
&& ppfd->cAccumBits
&& ppfdCandidate.cAccumBits > ppfdBest.cAccumBits)
{
ppfdBest = ppfdCandidate;
bestIndex = i;
continue;
}
if ((ppfd->cDepthBits > ppfdBest.cDepthBits &&
ppfdCandidate.cDepthBits > ppfdBest.cDepthBits) ||
(ppfd->cDepthBits <= ppfdCandidate.cDepthBits &&
ppfdCandidate.cDepthBits < ppfdBest.cDepthBits))
{
ppfdBest = ppfdCandidate;
bestIndex = i;
continue;
}
if (ppfd->cStencilBits &&
ppfdCandidate.cStencilBits > ppfdBest.cStencilBits)
{
ppfdBest = ppfdCandidate;
bestIndex = i;
continue;
}
if (ppfd->cAuxBuffers &&
ppfdCandidate.cAuxBuffers > ppfdBest.cAuxBuffers)
{
ppfdBest = ppfdCandidate;
bestIndex = i;
continue;
}
}
if (bestIndex != -1) {
ddlogPrintf(DDLOG_SYSTEM, "Pixel Format %d chosen as best match", bestIndex+1);
return bestIndex + 1;
}
// Return the pixelformat that has the most capabilities.
// ** NOTE: This is only possible due to the way the list
// of pixelformats is built. **
// Now picks best pixelformat. KeithH
bestIndex = numPixelFormats; // most capable double buffer format
ddlogPrintf(DDLOG_SYSTEM, "Pixel Format %d chosen by default", bestIndex);
return (bestIndex);
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(CopyContext)(
HGLRC a,
HGLRC b,
UINT c)
{
// Validate license
if (!dglValidate())
return FALSE;
UNSUPPORTED("wglCopyContext")
return FALSE; // Failed
}
// ***********************************************************************
HGLRC APIENTRY _GLD_WGL_EXPORT(CreateContext)(
HDC a)
{
int ipf;
// Validate license
if (!dglValidate())
return 0;
// Check that the current PFD is valid
ipf = dglGetPixelFormat();
if (!IsValidPFD(ipf))
return (HGLRC)0;
return dglCreateContext(a, &glb.lpPF[ipf-1]);
}
// ***********************************************************************
HGLRC APIENTRY _GLD_WGL_EXPORT(CreateLayerContext)(
HDC a,
int b)
{
// Validate license
if (!dglValidate())
return 0;
UNSUPPORTED("wglCreateLayerContext")
return NULL; // Failed
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(DeleteContext)(
HGLRC a)
{
// Validate license
if (!dglValidate())
return FALSE;
return dglDeleteContext(a);
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(DescribeLayerPlane)(
HDC hDC,
int iPixelFormat,
int iLayerPlane,
UINT nBytes,
LPLAYERPLANEDESCRIPTOR plpd)
{
// Validate license
if (!dglValidate())
return FALSE;
UNSUPPORTED("DGL_DescribeLayerPlane")
// gldLogPrintf(GLDLOG_INFO, "DescribeLayerPlane: %d, %d", iPixelFormat, iLayerPlane);
return FALSE;
}
// ***********************************************************************
int APIENTRY _GLD_WGL_EXPORT(DescribePixelFormat)(
HDC a,
int b,
UINT c,
LPPIXELFORMATDESCRIPTOR d)
{
UINT nSize;
// Validate license
if (!dglValidate())
return 0;
if (d == NULL) // Calling app requires max number of PF's
return glb.nPixelFormatCount;
// The supplied buffer may be larger than the info that we
// will be copying.
if (c > sizeof(PIXELFORMATDESCRIPTOR))
nSize = sizeof(PIXELFORMATDESCRIPTOR);
else
nSize = c;
// Setup an empty PFD before doing validation check
memset(d, 0, nSize);
d->nSize = nSize;
d->nVersion = 1;
if (!IsValidPFD(b))
return 0; // Bail if PFD index is invalid
memcpy(d, &glb.lpPF[b-1].pfd, nSize);
return glb.nPixelFormatCount;
}
// ***********************************************************************
HGLRC APIENTRY _GLD_WGL_EXPORT(GetCurrentContext)(void)
{
// Validate license
if (!dglValidate())
return 0;
return dglGetCurrentContext();
}
// ***********************************************************************
HDC APIENTRY _GLD_WGL_EXPORT(GetCurrentDC)(void)
{
// Validate license
if (!dglValidate())
return 0;
return dglGetCurrentDC();
}
// ***********************************************************************
PROC APIENTRY _GLD_WGL_EXPORT(GetDefaultProcAddress)(
LPCSTR a)
{
// Validate license
if (!dglValidate())
return NULL;
UNSUPPORTED("DGL_GetDefaultProcAddress")
return NULL;
}
// ***********************************************************************
int APIENTRY _GLD_WGL_EXPORT(GetLayerPaletteEntries)(
HDC a,
int b,
int c,
int d,
COLORREF *e)
{
// Validate license
if (!dglValidate())
return 0;
UNSUPPORTED("DGL_GetLayerPaletteEntries")
return 0;
}
// ***********************************************************************
int APIENTRY _GLD_WGL_EXPORT(GetPixelFormat)(
HDC a)
{
// Validate license
if (!dglValidate())
return 0;
return dglGetPixelFormat();
}
// ***********************************************************************
PROC APIENTRY _GLD_WGL_EXPORT(GetProcAddress)(
LPCSTR a)
{
PROC dglGetProcAddressD3D(LPCSTR a);
// Validate license
if (!dglValidate())
return NULL;
#ifdef _USE_GLD3_WGL
return _gldDriver.wglGetProcAddress(a);
#else
return dglGetProcAddressD3D(a);
#endif
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(MakeCurrent)(
HDC a,
HGLRC b)
{
// Validate license
if (!dglValidate())
return FALSE;
return dglMakeCurrent(a, b);
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(RealizeLayerPalette)(
HDC a,
int b,
BOOL c)
{
// Validate license
if (!dglValidate())
return FALSE;
UNSUPPORTED("DGL_RealizeLayerPalette")
return FALSE;
}
// ***********************************************************************
int APIENTRY _GLD_WGL_EXPORT(SetLayerPaletteEntries)(
HDC a,
int b,
int c,
int d,
CONST COLORREF *e)
{
// Validate license
if (!dglValidate())
return 0;
UNSUPPORTED("DGL_SetLayerPaletteEntries")
return 0;
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(SetPixelFormat)(
HDC a,
int b,
CONST PIXELFORMATDESCRIPTOR *c)
{
// Validate license
if (!dglValidate())
return FALSE;
if (IsValidPFD(b)) {
ddlogPrintf(DDLOG_SYSTEM, "SetPixelFormat: PixelFormat %d has been set", b);
dglSetPixelFormat(b);
return TRUE;
} else {
ddlogPrintf(DDLOG_ERROR,
"SetPixelFormat: PixelFormat %d is invalid and cannot be set", b);
return FALSE;
}
}
// ***********************************************************************
/*
* Share lists between two gl_context structures.
* This was added for WIN32 WGL function support, since wglShareLists()
* must be called *after* wglCreateContext() with valid GLRCs. (DaveM)
*/
//
// Copied from GLD2.x. KeithH
//
static GLboolean _gldShareLists(
GLcontext *ctx1,
GLcontext *ctx2)
{
/* Sanity check context pointers */
if (ctx1 == NULL || ctx2 == NULL)
return GL_FALSE;
/* Sanity check shared list pointers */
if (ctx1->Shared == NULL || ctx2->Shared == NULL)
return GL_FALSE;
/* Decrement reference count on sharee to release previous list */
ctx2->Shared->RefCount--;
#if 0 /* 3DStudio exits on this memory release */
if (ctx2->Shared->RefCount == 0)
free_shared_state(ctx2, ctx2->Shared);
#endif
/* Re-assign list from sharer to sharee and increment reference count */
ctx2->Shared = ctx1->Shared;
ctx1->Shared->RefCount++;
return GL_TRUE;
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(ShareLists)(
HGLRC a,
HGLRC b)
{
DGL_ctx *dgl1, *dgl2;
// Validate license
if (!dglValidate())
return FALSE;
// Mesa supports shared lists, but you need to supply the shared
// GL context info when calling gl_create_context(). An auxiliary
// function gl_share_lists() has been added to update the shared
// list info after the GL contexts have been created. (DaveM)
dgl1 = dglGetContextAddress(a);
dgl2 = dglGetContextAddress(b);
if (dgl1->bAllocated && dgl2->bAllocated) {
#ifdef _USE_GLD3_WGL
return _gldShareLists(dgl1->glCtx, dgl2->glCtx);
#else
return (*mesaFuncs.gl_share_lists)(dgl1->glCtx, dgl2->glCtx);
#endif
}
return FALSE;
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(SwapBuffers)(
HDC a)
{
// Validate license
if (!dglValidate())
return FALSE;
return dglSwapBuffers(a);
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(SwapLayerBuffers)(
HDC a,
UINT b)
{
// Validate license
if (!dglValidate())
return FALSE;
return dglSwapBuffers(a);
}
// ***********************************************************************
// ***********************************************************************
// Note: This ResizeBuffers() function may be called from
// either MESA glViewport() or GLD wglMakeCurrent().
BOOL dglWglResizeBuffers(
GLcontext *ctx,
BOOL bDefaultDriver)
{
DGL_ctx *dgl = NULL;
RECT rcScreenRect;
DWORD dwWidth;
DWORD dwHeight;
DDSURFACEDESC2 ddsd2;
DDSCAPS2 ddscaps2;
IDirectDrawClipper *lpddClipper = NULL;
DWORD dwFlags;
HRESULT hResult;
DWORD dwMemoryType;
int i;
struct gl_texture_object *tObj;
struct gl_texture_image *image;
BOOL bWasFullscreen;
BOOL bSaveDesktop;
BOOL bFullScrnWin = FALSE;
DDSURFACEDESC2 ddsd2DisplayMode;
DDBLTFX ddbltfx;
POINT pt;
RECT rcDst;
#ifdef _USE_GLD3_WGL
GLD_displayMode glddm;
#endif
#define DDLOG_CRITICAL_OR_WARN (bDefaultDriver ? DDLOG_WARN : DDLOG_CRITICAL)
// Validate license
if (!dglValidate())
return FALSE;
// Sanity checks
if (ctx == NULL)
return FALSE;
dgl = ctx->DriverCtx;
if (dgl == NULL)
return FALSE;
// Get the window size and calculate its dimensions
if (dgl->hWnd == NULL) {
// Check for non-window DC = memory DC ?
if (GetClipBox(dgl->hDC, &rcScreenRect) == ERROR)
SetRect(&rcScreenRect, 0, 0, 0, 0);
}
else if (!GetClientRect(dgl->hWnd, &rcScreenRect))
SetRect(&rcScreenRect, 0, 0, 0, 0);
dwWidth = rcScreenRect.right - rcScreenRect.left;
dwHeight = rcScreenRect.bottom - rcScreenRect.top;
CopyRect(&dgl->rcScreenRect, &rcScreenRect);
// This will occur on Alt-Tab
if ((dwWidth == 0) && (dwHeight == 0)) {
//dgl->bCanRender = FALSE;
return TRUE; // No resize possible!
}
// Some apps zero only 1 dimension for non-visible window... (DaveM)
if ((dwWidth == 0) || (dwHeight == 0)) {
dwWidth = 8;
dwHeight = 8;
}
// Test to see if a resize is required.
// Note that the dimensions will be the same if a prior resize attempt failed.
if ((dwWidth == dgl->dwWidth) && (dwHeight == dgl->dwHeight) && bDefaultDriver) {
return TRUE; // No resize required
}
ddlogPrintf(DDLOG_SYSTEM, "dglResize: %dx%d", dwWidth, dwHeight);
#ifndef _USE_GLD3_WGL
// Work out where we want our surfaces created
dwMemoryType = (bDefaultDriver) ? glb.dwMemoryType : DDSCAPS_SYSTEMMEMORY;
#endif // _USE_GLD3_WGL
// Note previous fullscreen vs window display status
bWasFullscreen = dgl->bFullscreen;
#ifdef _USE_GLD3_WGL
if (_gldDriver.GetDisplayMode(dgl, &glddm)) {
if ( (dwWidth == glddm.Width) &&
(dwHeight == glddm.Height) ) {
bFullScrnWin = TRUE;
}
if (bFullScrnWin && glb.bPrimary && !glb.bFullscreenBlit && !glb.bDirectDrawPersistant) {
dgl->bFullscreen = TRUE;
ddlogMessage(DDLOG_INFO, "Fullscreen window after resize.\n");
}
else {
dgl->bFullscreen = FALSE;
ddlogMessage(DDLOG_INFO, "Non-Fullscreen window after resize.\n");
}
// Cache the display mode dimensions
dgl->dwModeWidth = glddm.Width;
dgl->dwModeHeight = glddm.Height;
}
// Clamp the effective window dimensions to primary surface.
// We need to do this for D3D viewport dimensions even if wide
// surfaces are supported. This also is a good idea for handling
// whacked-out window dimensions passed for non-drawable windows
// like Solid Edge. (DaveM)
if (dgl->dwWidth > glddm.Width)
dgl->dwWidth = glddm.Width;
if (dgl->dwHeight > glddm.Height)
dgl->dwHeight = glddm.Height;
#else // _USE_GLD3_WGL
// Window resize may have changed to fullscreen
ZeroMemory(&ddsd2DisplayMode, sizeof(ddsd2DisplayMode));
ddsd2DisplayMode.dwSize = sizeof(ddsd2DisplayMode);
hResult = IDirectDraw4_GetDisplayMode(
dgl->lpDD4,
&ddsd2DisplayMode);
if (SUCCEEDED(hResult)) {
if ( (dwWidth == ddsd2DisplayMode.dwWidth) &&
(dwHeight == ddsd2DisplayMode.dwHeight) ) {
bFullScrnWin = TRUE;
}
if (bFullScrnWin && glb.bPrimary && !glb.bFullscreenBlit && !glb.bDirectDrawPersistant) {
dgl->bFullscreen = TRUE;
ddlogMessage(DDLOG_INFO, "Fullscreen window after resize.\n");
}
else {
dgl->bFullscreen = FALSE;
ddlogMessage(DDLOG_INFO, "Non-Fullscreen window after resize.\n");
}
// Cache the display mode dimensions
dgl->dwModeWidth = ddsd2DisplayMode.dwWidth;
dgl->dwModeHeight = ddsd2DisplayMode.dwHeight;
}
// Clamp the effective window dimensions to primary surface.
// We need to do this for D3D viewport dimensions even if wide
// surfaces are supported. This also is a good idea for handling
// whacked-out window dimensions passed for non-drawable windows
// like Solid Edge. (DaveM)
if (dgl->dwWidth > ddsd2DisplayMode.dwWidth)
dgl->dwWidth = ddsd2DisplayMode.dwWidth;
if (dgl->dwHeight > ddsd2DisplayMode.dwHeight)
dgl->dwHeight = ddsd2DisplayMode.dwHeight;
#endif // _USE_GLD3_WGL
// Note if fullscreen vs window display has changed?
bSaveDesktop = (!bWasFullscreen && !dgl->bFullscreen) ? TRUE : FALSE;
// Save the desktop primary surface from being destroyed
// whenever remaining in windowed mode, since the stereo mode
// switches are expensive...
#ifndef _USE_GLD3_WGL
// Don't need to re-allocate persistant buffers. (DaveM)
// Though we should clear the back buffers to hide artifacts.
if (glb.bDirectDrawPersistant && glb.bPersistantBuffers) {
dgl->dwWidth = dwWidth;
dgl->dwHeight = dwHeight;
ZeroMemory(&ddbltfx, sizeof(ddbltfx));
ddbltfx.dwSize = sizeof(ddbltfx);
ddbltfx.dwFillColor = dgl->dwClearColorPF;
IDirectDrawSurface4_Blt(dgl->lpBack4, &rcScreenRect, NULL, NULL,
DDBLT_WAIT | DDBLT_COLORFILL, &ddbltfx);
return TRUE;
}
// Ensure all rendering is complete
if (ctx->Driver.Finish)
(*ctx->Driver.Finish)(ctx);
if (dgl->bSceneStarted == TRUE) {
IDirect3DDevice3_EndScene(dgl->lpDev3);
dgl->bSceneStarted = FALSE;
}
#endif // _USE_GLD3_WGL
dgl->bCanRender = FALSE;
#ifdef GLD_THREADS
// Serialize access to DirectDraw and DDS operations
if (glb.bMultiThreaded)
EnterCriticalSection(&CriticalSection);
#endif
#ifndef _USE_GLD3_WGL
// Release existing surfaces
RELEASE(dgl->lpDev3);
RELEASE(dgl->lpDepth4);
RELEASE(dgl->lpBack4);
if (glb.bDirectDrawPersistant && glb.bDirectDrawPrimary)
;
else
RELEASE(dgl->lpFront4);
#endif // _USE_GLD3_WGL
dgl->dwWidth = dwWidth;
dgl->dwHeight = dwHeight;
// Set defaults
dgl->dwModeWidth = dgl->dwWidth;
dgl->dwModeHeight = dgl->dwHeight;
#ifdef _USE_GLD3_WGL
if (!_gldDriver.ResizeDrawable(dgl, bDefaultDriver, glb.bDirectDrawPersistant, glb.bPersistantBuffers))
goto cleanup_and_return_with_error;
#else // _USE_GLD3_WGL
if (dgl->bFullscreen) {
//
// FULLSCREEN
//
// Disable warning popups when in fullscreen mode
ddlogWarnOption(FALSE);
// Have to release the persistant DirectDraw primary surface
// if switching to fullscreen mode. So if application wants
// persistant display in fullscreen mode, a fullscreen-size
// window should be used instead via fullscreen-blit option.
if (glb.bDirectDrawPersistant && glb.bDirectDrawPrimary) {
RELEASE(glb.lpPrimary4);
glb.bDirectDrawPrimary = FALSE;
}
dwFlags = DDSCL_EXCLUSIVE | DDSCL_FULLSCREEN | DDSCL_ALLOWREBOOT;
if (glb.bFastFPU)
dwFlags |= DDSCL_FPUSETUP; // optional
hResult = IDirectDraw4_SetCooperativeLevel(dgl->lpDD4, dgl->hWnd, dwFlags);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: Unable to set Exclusive Fullscreen mode", hResult);
goto cleanup_and_return_with_error;
}
hResult = IDirectDraw4_SetDisplayMode(dgl->lpDD4,
dgl->dwModeWidth,
dgl->dwModeHeight,
dgl->dwBPP,
0,
0);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: SetDisplayMode failed", hResult);
goto cleanup_and_return_with_error;
}
// ** The display mode has changed, so dont use MessageBox! **
ZeroMemory(&ddsd2, sizeof(ddsd2));
ddsd2.dwSize = sizeof(ddsd2);
if (dgl->bDoubleBuffer) {
// Double buffered
// Primary surface
ddsd2.dwFlags = DDSD_CAPS | DDSD_BACKBUFFERCOUNT;
ddsd2.ddsCaps.dwCaps = DDSCAPS_PRIMARYSURFACE |
DDSCAPS_FLIP |
DDSCAPS_COMPLEX |
DDSCAPS_3DDEVICE |
dwMemoryType;
ddsd2.dwBackBufferCount = 1;
hResult = IDirectDraw4_CreateSurface(dgl->lpDD4, &ddsd2, &dgl->lpFront4, NULL);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: CreateSurface (primary) failed", hResult);
goto cleanup_and_return_with_error;
}
// Render target surface
ZeroMemory(&ddscaps2, sizeof(ddscaps2)); // Clear the entire struct.
ddscaps2.dwCaps = DDSCAPS_BACKBUFFER;
hResult = IDirectDrawSurface4_GetAttachedSurface(dgl->lpFront4, &ddscaps2, &dgl->lpBack4);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: GetAttachedSurface failed", hResult);
goto cleanup_and_return_with_error;
}
} else {
// Single buffered
// Primary surface
ddsd2.dwFlags = DDSD_CAPS;
ddsd2.ddsCaps.dwCaps = DDSCAPS_PRIMARYSURFACE |
//DDSCAPS_3DDEVICE |
dwMemoryType;
hResult = IDirectDraw4_CreateSurface(dgl->lpDD4, &ddsd2, &dgl->lpFront4, NULL);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: CreateSurface (primary) failed", hResult);
goto cleanup_and_return_with_error;
}
dgl->lpBack4 = NULL;
}
} else {
// WINDOWED
// OK to enable warning popups in windowed mode
ddlogWarnOption(glb.bMessageBoxWarnings);
// Ditto if persistant DirectDraw primary
if (glb.bDirectDrawPersistant && glb.bDirectDrawPrimary)
goto DoClipperOnly;
// WINDOWED
dwFlags = DDSCL_NORMAL;
if (glb.bMultiThreaded)
dwFlags |= DDSCL_MULTITHREADED;
if (glb.bFastFPU)
dwFlags |= DDSCL_FPUSETUP; // optional
hResult = IDirectDraw4_SetCooperativeLevel(dgl->lpDD4,
dgl->hWnd,
dwFlags);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: Unable to set Normal coop level", hResult);
goto cleanup_and_return_with_error;
}
// Primary surface
ZeroMemory(&ddsd2, sizeof(ddsd2));
ddsd2.dwSize = sizeof(ddsd2);
ddsd2.dwFlags = DDSD_CAPS;
ddsd2.ddsCaps.dwCaps = DDSCAPS_PRIMARYSURFACE;
hResult = IDirectDraw4_CreateSurface(dgl->lpDD4, &ddsd2, &dgl->lpFront4, NULL);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: CreateSurface (primary) failed", hResult);
goto cleanup_and_return_with_error;
}
// Cache the primary surface for persistant DirectDraw state
if (glb.bDirectDrawPersistant && !glb.bDirectDrawPrimary) {
glb.lpPrimary4 = dgl->lpFront4;
IDirectDrawSurface4_AddRef(glb.lpPrimary4);
glb.bDirectDrawPrimary = TRUE;
}
// Clipper object
hResult = DirectDrawCreateClipper(0, &lpddClipper, NULL);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: CreateClipper failed", hResult);
goto cleanup_and_return_with_error;
}
hResult = IDirectDrawClipper_SetHWnd(lpddClipper, 0, dgl->hWnd);
if (FAILED(hResult)) {
RELEASE(lpddClipper);
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: SetHWnd failed", hResult);
goto cleanup_and_return_with_error;
}
hResult = IDirectDrawSurface4_SetClipper(dgl->lpFront4, lpddClipper);
RELEASE(lpddClipper); // We have finished with it.
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: SetClipper failed", hResult);
goto cleanup_and_return_with_error;
}
DoClipperOnly:
// Update the window for the original clipper
if ((glb.bDirectDrawPersistant && glb.bDirectDrawPrimary) || bSaveDesktop) {
IDirectDrawSurface4_GetClipper(dgl->lpFront4, &lpddClipper);
IDirectDrawClipper_SetHWnd(lpddClipper, 0, dgl->hWnd);
RELEASE(lpddClipper);
}
if (dgl->bDoubleBuffer) {
// Render target surface
ZeroMemory(&ddsd2, sizeof(ddsd2));
ddsd2.dwSize = sizeof(ddsd2);
ddsd2.dwFlags = DDSD_CAPS | DDSD_WIDTH | DDSD_HEIGHT;
ddsd2.dwWidth = dgl->dwWidth;
ddsd2.dwHeight = dgl->dwHeight;
ddsd2.ddsCaps.dwCaps = DDSCAPS_3DDEVICE |
DDSCAPS_OFFSCREENPLAIN |
dwMemoryType;
hResult = IDirectDraw4_CreateSurface(dgl->lpDD4, &ddsd2, &dgl->lpBack4, NULL);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: Create Backbuffer failed", hResult);
goto cleanup_and_return_with_error;
}
} else {
dgl->lpBack4 = NULL;
}
}
//
// Now create the Zbuffer
//
if (dgl->bDepthBuffer) {
// Get z-buffer dimensions from the render target
// Setup the surface desc for the z-buffer.
ZeroMemory(&ddsd2, sizeof(ddsd2));
ddsd2.dwSize = sizeof(ddsd2);
ddsd2.dwFlags = DDSD_CAPS | DDSD_WIDTH | DDSD_HEIGHT | DDSD_PIXELFORMAT;
ddsd2.ddsCaps.dwCaps = DDSCAPS_ZBUFFER | dwMemoryType;
ddsd2.dwWidth = dgl->dwWidth;
ddsd2.dwHeight = dgl->dwHeight;
memcpy(&ddsd2.ddpfPixelFormat,
&glb.lpZBufferPF[dgl->iZBufferPF],
sizeof(DDPIXELFORMAT) );
// Create a z-buffer
hResult = IDirectDraw4_CreateSurface(dgl->lpDD4, &ddsd2, &dgl->lpDepth4, NULL);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: CreateSurface (ZBuffer) failed", hResult);
goto cleanup_and_return_with_error;
}
// Attach Zbuffer to render target
TRY(IDirectDrawSurface4_AddAttachedSurface(
dgl->bDoubleBuffer ? dgl->lpBack4 : dgl->lpFront4,
dgl->lpDepth4),
"dglResize: Attach Zbuffer");
}
// Clear the newly resized back buffers for the window client area.
ZeroMemory(&ddbltfx, sizeof(ddbltfx));
ddbltfx.dwSize = sizeof(ddbltfx);
ddbltfx.dwFillColor = dgl->dwClearColorPF;
IDirectDrawSurface4_Blt(dgl->lpBack4, &rcScreenRect, NULL, NULL,
DDBLT_WAIT | DDBLT_COLORFILL, &ddbltfx);
//
// Now that we have a zbuffer we can create the 3D device
//
hResult = IDirect3D3_CreateDevice(dgl->lpD3D3,
bDefaultDriver ? &glb.d3dGuid : &IID_IDirect3DRGBDevice,
dgl->bDoubleBuffer ? dgl->lpBack4 : dgl->lpFront4,
&dgl->lpDev3,
NULL);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: Could not create Direct3D device", hResult);
goto cleanup_and_return_with_error;
}
// We must do this as soon as the device is created
dglInitStateCaches(dgl);
//
// Viewport
//
hResult = IDirect3DDevice3_AddViewport(dgl->lpDev3, dgl->lpViewport3);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: AddViewport failed", hResult);
goto cleanup_and_return_with_error;
}
// Initialise the viewport
dgl->d3dViewport.dwSize = sizeof(dgl->d3dViewport);
dgl->d3dViewport.dwX = 0;
dgl->d3dViewport.dwY = 0;
dgl->d3dViewport.dwWidth = dgl->dwWidth;
dgl->d3dViewport.dwHeight = dgl->dwHeight;
dgl->d3dViewport.dvClipX = 0;
dgl->d3dViewport.dvClipY = 0;
dgl->d3dViewport.dvClipWidth = dgl->dwWidth;
dgl->d3dViewport.dvClipHeight = dgl->dwHeight;
// dgl->d3dViewport.dvMinZ = 0.0f;
// dgl->d3dViewport.dvMaxZ = 1.0f;
TRY(IDirect3DViewport3_SetViewport2(dgl->lpViewport3, &dgl->d3dViewport),
"dglResize: SetViewport2");
hResult = IDirect3DDevice3_SetCurrentViewport(dgl->lpDev3, dgl->lpViewport3);
if (FAILED(hResult)) {
ddlogError(DDLOG_CRITICAL_OR_WARN, "dglResize: SetCurrentViewport failed", hResult);
goto cleanup_and_return_with_error;
}
// (Re)Initialise all the Direct3D renderstates
dglInitStateD3D(ctx);
// Now we have to recreate all of our textures (+ mipmaps).
// Walk over all textures in hash table
// XXX what about the default texture objects (id=0)?
{
struct _mesa_HashTable *textures = ctx->Shared->TexObjects;
GLuint id;
for (id = _mesa_HashFirstEntry(textures);
id;
id = _mesa_HashNextEntry(textures, id)) {
tObj = (struct gl_texture_object *) _mesa_HashLookup(textures, id);
if (tObj->DriverData) {
// We could call our TexImage function directly, but it's
// safer to use the driver pointer.
for (i=0; i<MAX_TEXTURE_LEVELS; i++) {
image = tObj->Image[i];
if (image) {
switch (tObj->Dimensions){
case 1:
if (ctx->Driver.TexImage)
(*ctx->Driver.TexImage)(ctx, GL_TEXTURE_1D, tObj, i, image->Format, image);
break;
case 2:
if (ctx->Driver.TexImage)
(*ctx->Driver.TexImage)(ctx, GL_TEXTURE_2D, tObj, i, image->Format, image);
break;
default:
break;
}
}
}
}
}
}
// Re-Bind each texture Unit
for (i=0; i<glb.wMaxSimultaneousTextures; i++) {
tObj = ctx->Texture.Unit[i].Current;
if (tObj) {
DGL_texture *lpTex = (DGL_texture *)tObj->DriverData;
hResult = dglSetTexture(dgl, i, lpTex ? lpTex->lpTexture : NULL);
if (FAILED(hResult)) {
ddlogError(DDLOG_ERROR, "dglResize: SetTexture failed", hResult);
}
}
}
#endif // _USE_GLD3_WGL
dgl->bCanRender = TRUE;
#ifdef GLD_THREADS
// Release serialized access
if (glb.bMultiThreaded)
LeaveCriticalSection(&CriticalSection);
#endif
// SUCCESS.
return TRUE;
cleanup_and_return_with_error:
// Relase all interfaces before returning.
#ifdef _USE_GLD3_WGL
_gldDriver.DestroyDrawable(dgl);
#else // _USE_GLD3_WGL
RELEASE(dgl->lpDev3);
RELEASE(dgl->lpDepth4);
RELEASE(dgl->lpBack4);
if (glb.bDirectDrawPersistant && glb.bDirectDrawPrimary)
;
else
RELEASE(dgl->lpFront4);
#undef DDLOG_CRITICAL_OR_WARN
#endif // _USE_GLD3_WGL
// Mark context as not being able to render
dgl->bCanRender = FALSE;
#ifdef GLD_THREADS
// Release serialized access
if (glb.bMultiThreaded)
LeaveCriticalSection(&CriticalSection);
#endif
return FALSE;
}
// ***********************************************************************
// ***********************************************************************
// Support for bitmap fonts.
// ***********************************************************************
// ***********************************************************************
/*****************************************************************************
**
** InvertGlyphBitmap.
**
** Invert the bitmap so that it suits OpenGL's representation.
** Each row starts on a double word boundary.
**
*****************************************************************************/
static void InvertGlyphBitmap(
int w,
int h,
DWORD *fptr,
DWORD *tptr)
{
int dWordsInRow = (w+31)/32;
int i, j;
DWORD *tmp = tptr;
if (w <= 0 || h <= 0) {
return;
}
tptr += ((h-1)*dWordsInRow);
for (i = 0; i < h; i++) {
for (j = 0; j < dWordsInRow; j++) {
*(tptr + j) = *(fptr + j);
}
tptr -= dWordsInRow;
fptr += dWordsInRow;
}
}
// ***********************************************************************
/*****************************************************************************
* wglUseFontBitmaps
*
* Converts a subrange of the glyphs in a GDI font to OpenGL display
* lists.
*
* Extended to support any GDI font, not just TrueType fonts. (DaveM)
*
*****************************************************************************/
BOOL APIENTRY _GLD_WGL_EXPORT(UseFontBitmapsA)(
HDC hDC,
DWORD first,
DWORD count,
DWORD listBase)
{
int i, ox, oy, ix, iy;
int w, h;
int iBufSize, iCurBufSize = 0;
DWORD *bitmapBuffer = NULL;
DWORD *invertedBitmapBuffer = NULL;
BOOL bSuccessOrFail = TRUE;
BOOL bTrueType = FALSE;
TEXTMETRIC tm;
GLYPHMETRICS gm;
RASTERIZER_STATUS rs;
MAT2 mat;
SIZE size;
RECT rect;
HDC hDCMem;
HBITMAP hBitmap;
BITMAPINFO bmi;
HFONT hFont;
// Validate SciTech DirectGL license
if (!dglValidate())
return FALSE;
// Set up a unity matrix.
ZeroMemory(&mat, sizeof(mat));
mat.eM11.value = 1;
mat.eM22.value = 1;
// Test to see if selected font is TrueType or not
ZeroMemory(&tm, sizeof(tm));
if (!GetTextMetrics(hDC, &tm)) {
ddlogMessage(DDLOG_ERROR, "DGL_UseFontBitmaps: Font metrics error\n");
return (FALSE);
}
bTrueType = (tm.tmPitchAndFamily & TMPF_TRUETYPE) ? TRUE : FALSE;
// Test to see if TRUE-TYPE capabilities are installed
// (only necessary if TrueType font selected)
ZeroMemory(&rs, sizeof(rs));
if (bTrueType) {
if (!GetRasterizerCaps (&rs, sizeof (RASTERIZER_STATUS))) {
ddlogMessage(DDLOG_ERROR, "DGL_UseFontBitmaps: Raster caps error\n");
return (FALSE);
}
if (!(rs.wFlags & TT_ENABLED)) {
ddlogMessage(DDLOG_ERROR, "DGL_UseFontBitmaps: No TrueType caps\n");
return (FALSE);
}
}
// Trick to get the current font handle
hFont = SelectObject(hDC, GetStockObject(SYSTEM_FONT));
SelectObject(hDC, hFont);
// Have memory device context available for holding bitmaps of font glyphs
hDCMem = CreateCompatibleDC(hDC);
SelectObject(hDCMem, hFont);
SetTextColor(hDCMem, RGB(0xFF, 0xFF, 0xFF));
SetBkColor(hDCMem, 0);
for (i = first; (DWORD) i < (first + count); i++) {
// Find out how much space is needed for the bitmap so we can
// Set the buffer size correctly.
if (bTrueType) {
// Use TrueType support to get bitmap size of glyph
iBufSize = GetGlyphOutline(hDC, i, GGO_BITMAP, &gm,
0, NULL, &mat);
if (iBufSize == GDI_ERROR) {
bSuccessOrFail = FALSE;
break;
}
}
else {
// Use generic GDI support to compute bitmap size of glyph
w = tm.tmMaxCharWidth;
h = tm.tmHeight;
if (GetTextExtentPoint32(hDC, (LPCTSTR)&i, 1, &size)) {
w = size.cx;
h = size.cy;
}
iBufSize = w * h;
// Use DWORD multiple for compatibility
iBufSize += 3;
iBufSize /= 4;
iBufSize *= 4;
}
// If we need to allocate Larger Buffers, then do so - but allocate
// An extra 50 % so that we don't do too many mallocs !
if (iBufSize > iCurBufSize) {
if (bitmapBuffer) {
__wglFree(bitmapBuffer);
}
if (invertedBitmapBuffer) {
__wglFree(invertedBitmapBuffer);
}
iCurBufSize = iBufSize * 2;
bitmapBuffer = (DWORD *) __wglMalloc(iCurBufSize);
invertedBitmapBuffer = (DWORD *) __wglMalloc(iCurBufSize);
if (bitmapBuffer == NULL || invertedBitmapBuffer == NULL) {
bSuccessOrFail = FALSE;
break;
}
}
// If we fail to get the Glyph data, delete the display lists
// Created so far and return FALSE.
if (bTrueType) {
// Use TrueType support to get bitmap of glyph
if (GetGlyphOutline(hDC, i, GGO_BITMAP, &gm,
iBufSize, bitmapBuffer, &mat) == GDI_ERROR) {
bSuccessOrFail = FALSE;
break;
}
// Setup glBitmap parameters for current font glyph
w = gm.gmBlackBoxX;
h = gm.gmBlackBoxY;
ox = gm.gmptGlyphOrigin.x;
oy = gm.gmptGlyphOrigin.y;
ix = gm.gmCellIncX;
iy = gm.gmCellIncY;
}
else {
// Use generic GDI support to create bitmap of glyph
ZeroMemory(bitmapBuffer, iBufSize);
if (i >= tm.tmFirstChar && i <= tm.tmLastChar) {
// Only create bitmaps for actual font glyphs
hBitmap = CreateBitmap(w, h, 1, 1, NULL);
SelectObject(hDCMem, hBitmap);
// Make bitmap of current font glyph
SetRect(&rect, 0, 0, w, h);
DrawText(hDCMem, (LPCTSTR)&i, 1, &rect,
DT_LEFT | DT_BOTTOM | DT_SINGLELINE | DT_NOCLIP);
// Make copy of bitmap in our local buffer
ZeroMemory(&bmi, sizeof(bmi));
bmi.bmiHeader.biSize = sizeof(BITMAPINFOHEADER);
bmi.bmiHeader.biWidth = w;
bmi.bmiHeader.biHeight = -h;
bmi.bmiHeader.biPlanes = 1;
bmi.bmiHeader.biBitCount = 1;
bmi.bmiHeader.biCompression = BI_RGB;
GetDIBits(hDCMem, hBitmap, 0, h, bitmapBuffer, &bmi, 0);
DeleteObject(hBitmap);
}
else {
// Otherwise use empty display list for non-existing glyph
iBufSize = 0;
}
// Setup glBitmap parameters for current font glyph
ox = 0;
oy = tm.tmDescent;
ix = w;
iy = 0;
}
// Create an OpenGL display list.
_GLD_glNewList((listBase + i), GL_COMPILE);
// Some fonts have no data for the space character, yet advertise
// a non-zero size.
if (0 == iBufSize) {
_GLD_glBitmap(0, 0, 0.0f, 0.0f, (GLfloat) ix, (GLfloat) iy, NULL);
} else {
// Invert the Glyph data.
InvertGlyphBitmap(w, h, bitmapBuffer, invertedBitmapBuffer);
// Render an OpenGL bitmap and invert the origin.
_GLD_glBitmap(w, h,
(GLfloat) ox, (GLfloat) (h-oy),
(GLfloat) ix, (GLfloat) iy,
(GLubyte *) invertedBitmapBuffer);
}
// Close this display list.
_GLD_glEndList();
}
if (bSuccessOrFail == FALSE) {
ddlogMessage(DDLOG_ERROR, "DGL_UseFontBitmaps: Get glyph failed\n");
_GLD_glDeleteLists((i+listBase), (i-first));
}
// Release resources used
DeleteObject(hFont);
DeleteDC(hDCMem);
if (bitmapBuffer)
__wglFree(bitmapBuffer);
if (invertedBitmapBuffer)
__wglFree(invertedBitmapBuffer);
return(bSuccessOrFail);
}
// ***********************************************************************
BOOL APIENTRY _GLD_WGL_EXPORT(UseFontBitmapsW)(
HDC a,
DWORD b,
DWORD c,
DWORD d)
{
// Validate license
if (!dglValidate())
return FALSE;
return _GLD_WGL_EXPORT(UseFontBitmapsA)(a, b, c, d);
}
// ***********************************************************************
// ***********************************************************************
// Support for outline TrueType fonts.
// ***********************************************************************
// ***********************************************************************
void * __wglRealloc(
void *oldPtr,
size_t newSize)
{
void *newPtr = NULL;
if (newSize != 0) {
newPtr = (void *) GlobalAlloc(GPTR, newSize);
if (oldPtr && newPtr) {
DWORD oldSize = GlobalSize(oldPtr);
memcpy(newPtr, oldPtr, (oldSize <= newSize ? oldSize : newSize));
GlobalFree(oldPtr);
}
} else if (oldPtr) {
GlobalFree(oldPtr);
}
if (newPtr == NULL) {
return NULL; /* XXX out of memory error */
}
return newPtr;
}
// ***********************************************************************
/*****************************************************************************
* wglUseFontOutlinesW
*
* Converts a subrange of the glyphs in a TrueType font to OpenGL display
* lists.
*****************************************************************************/
BOOL APIENTRY _GLD_WGL_EXPORT(UseFontOutlinesW)(
IN HDC hDC,
IN DWORD first,
IN DWORD count,
IN DWORD listBase,
IN FLOAT chordalDeviation,
IN FLOAT extrusion,
IN INT format,
OUT LPGLYPHMETRICSFLOAT lpgmf)
{
return _GLD_WGL_EXPORT(UseFontOutlinesA)(hDC, first, count, listBase,
chordalDeviation, extrusion, format, lpgmf);
}
/*****************************************************************************
* wglUseFontOutlinesA
*
* Converts a subrange of the glyphs in a TrueType font to OpenGL display
* lists.
*****************************************************************************/
BOOL APIENTRY _GLD_WGL_EXPORT(UseFontOutlinesA)(
IN HDC hDC,
IN DWORD first,
IN DWORD count,
IN DWORD listBase,
IN FLOAT chordalDeviation,
IN FLOAT extrusion,
IN INT format,
OUT LPGLYPHMETRICSFLOAT glyphMetricsFloatArray)
{
DWORD glyphIndex;
UCHAR* glyphBuf;
DWORD glyphBufSize;
/*
* Flush any previous OpenGL errors. This allows us to check for
* new errors so they can be reported via the function return value.
*/
while (_GLD_glGetError() != GL_NO_ERROR)
;
/*
* Make sure that the current font can be sampled accurately.
*/
hNewFont = CreateHighResolutionFont(hDC);
if (!hNewFont)
return FALSE;
hOldFont = SelectObject(hDC, hNewFont);
if (!hOldFont)
return FALSE;
/*
* Preallocate a buffer for the outline data, and track its size:
*/
glyphBuf = (UCHAR*) __wglMalloc(glyphBufSize = 10240);
if (!glyphBuf)
return FALSE; /*WGL_STATUS_NOT_ENOUGH_MEMORY*/
/*
* Process each glyph in the given range:
*/
for (glyphIndex = first; glyphIndex - first < count; ++glyphIndex)
{
GLYPHMETRICS glyphMetrics;
DWORD glyphSize;
static MAT2 matrix =
{
{0, 1}, {0, 0},
{0, 0}, {0, 1}
};
LPGLYPHMETRICSFLOAT glyphMetricsFloat =
&glyphMetricsFloatArray[glyphIndex - first];
/*
* Determine how much space is needed to store the glyph's
* outlines. If our glyph buffer isn't large enough,
* resize it.
*/
glyphSize = GetGlyphOutline( hDC,
glyphIndex,
GGO_NATIVE,
&glyphMetrics,
0,
NULL,
&matrix
);
if (glyphSize < 0)
return FALSE; /*WGL_STATUS_FAILURE*/
if (glyphSize > glyphBufSize)
{
__wglFree(glyphBuf);
glyphBuf = (UCHAR*) __wglMalloc(glyphBufSize = glyphSize);
if (!glyphBuf)
return FALSE; /*WGL_STATUS_NOT_ENOUGH_MEMORY*/
}
/*
* Get the glyph's outlines.
*/
if (GetGlyphOutline( hDC,
glyphIndex,
GGO_NATIVE,
&glyphMetrics,
glyphBufSize,
glyphBuf,
&matrix
) < 0)
{
__wglFree(glyphBuf);
return FALSE; /*WGL_STATUS_FAILURE*/
}
glyphMetricsFloat->gmfBlackBoxX =
(FLOAT) glyphMetrics.gmBlackBoxX * ScaleFactor;
glyphMetricsFloat->gmfBlackBoxY =
(FLOAT) glyphMetrics.gmBlackBoxY * ScaleFactor;
glyphMetricsFloat->gmfptGlyphOrigin.x =
(FLOAT) glyphMetrics.gmptGlyphOrigin.x * ScaleFactor;
glyphMetricsFloat->gmfptGlyphOrigin.y =
(FLOAT) glyphMetrics.gmptGlyphOrigin.y * ScaleFactor;
glyphMetricsFloat->gmfCellIncX =
(FLOAT) glyphMetrics.gmCellIncX * ScaleFactor;
glyphMetricsFloat->gmfCellIncY =
(FLOAT) glyphMetrics.gmCellIncY * ScaleFactor;
/*
* Turn the glyph into a display list:
*/
if (!MakeDisplayListFromGlyph( (glyphIndex - first) + listBase,
glyphBuf,
glyphSize,
glyphMetricsFloat,
chordalDeviation + ScaleFactor,
extrusion,
format))
{
__wglFree(glyphBuf);
return FALSE; /*WGL_STATUS_FAILURE*/
}
}
/*
* Clean up temporary storage and return. If an error occurred,
* clear all OpenGL error flags and return FAILURE status;
* otherwise just return SUCCESS.
*/
__wglFree(glyphBuf);
SelectObject(hDC, hOldFont);
if (_GLD_glGetError() == GL_NO_ERROR)
return TRUE; /*WGL_STATUS_SUCCESS*/
else
{
while (_GLD_glGetError() != GL_NO_ERROR)
;
return FALSE; /*WGL_STATUS_FAILURE*/
}
}
/*****************************************************************************
* CreateHighResolutionFont
*
* Gets metrics for the current font and creates an equivalent font
* scaled to the design units of the font.
*
*****************************************************************************/
static HFONT
CreateHighResolutionFont(HDC hDC)
{
UINT otmSize;
OUTLINETEXTMETRIC *otm;
LONG fontHeight, fontWidth, fontUnits;
LOGFONT logFont;
otmSize = GetOutlineTextMetrics(hDC, 0, NULL);
if (otmSize == 0)
return NULL;
otm = (OUTLINETEXTMETRIC *) __wglMalloc(otmSize);
if (otm == NULL)
return NULL;
otm->otmSize = otmSize;
if (GetOutlineTextMetrics(hDC, otmSize, otm) == 0)
return NULL;
fontHeight = otm->otmTextMetrics.tmHeight -
otm->otmTextMetrics.tmInternalLeading;
fontWidth = otm->otmTextMetrics.tmAveCharWidth;
fontUnits = (LONG) otm->otmEMSquare;
ScaleFactor = 1.0F / (FLOAT) fontUnits;
logFont.lfHeight = - ((LONG) fontUnits);
logFont.lfWidth = (LONG)
((FLOAT) (fontWidth * fontUnits) / (FLOAT) fontHeight);
logFont.lfEscapement = 0;
logFont.lfOrientation = 0;
logFont.lfWeight = otm->otmTextMetrics.tmWeight;
logFont.lfItalic = otm->otmTextMetrics.tmItalic;
logFont.lfUnderline = otm->otmTextMetrics.tmUnderlined;
logFont.lfStrikeOut = otm->otmTextMetrics.tmStruckOut;
logFont.lfCharSet = otm->otmTextMetrics.tmCharSet;
logFont.lfOutPrecision = OUT_OUTLINE_PRECIS;
logFont.lfClipPrecision = CLIP_DEFAULT_PRECIS;
logFont.lfQuality = DEFAULT_QUALITY;
logFont.lfPitchAndFamily =
otm->otmTextMetrics.tmPitchAndFamily & 0xf0;
strcpy(logFont.lfFaceName,
(char *)otm + (int)otm->otmpFaceName);
hNewFont = CreateFontIndirect(&logFont);
if (hNewFont == NULL)
return NULL;
__wglFree(otm);
return hNewFont;
}
/*****************************************************************************
* MakeDisplayListFromGlyph
*
* Converts the outline of a glyph to an OpenGL display list.
*
* Return value is nonzero for success, zero for failure.
*
* Does not check for OpenGL errors, so if the caller needs to know about them,
* it should call glGetError().
*****************************************************************************/
static int
MakeDisplayListFromGlyph( IN DWORD listName,
IN UCHAR* glyphBuf,
IN DWORD glyphSize,
IN LPGLYPHMETRICSFLOAT glyphMetricsFloat,
IN FLOAT chordalDeviation,
IN FLOAT extrusion,
IN INT format)
{
int status;
_GLD_glNewList(listName, GL_COMPILE);
status = DrawGlyph( glyphBuf,
glyphSize,
chordalDeviation,
extrusion,
format);
_GLD_glTranslatef(glyphMetricsFloat->gmfCellIncX,
glyphMetricsFloat->gmfCellIncY,
0.0F);
_GLD_glEndList();
return status;
}
/*****************************************************************************
* DrawGlyph
*
* Converts the outline of a glyph to OpenGL drawing primitives, tessellating
* as needed, and then draws the glyph. Tessellation of the quadratic splines
* in the outline is controlled by "chordalDeviation", and the drawing
* primitives (lines or polygons) are selected by "format".
*
* Return value is nonzero for success, zero for failure.
*
* Does not check for OpenGL errors, so if the caller needs to know about them,
* it should call glGetError().
*****************************************************************************/
static int
DrawGlyph( IN UCHAR* glyphBuf,
IN DWORD glyphSize,
IN FLOAT chordalDeviation,
IN FLOAT extrusion,
IN INT format)
{
INT status = 0;
FLOAT* p;
DWORD loop;
DWORD point;
GLUtesselator* tess = NULL;
/*
* Initialize the global buffer into which we place the outlines:
*/
if (!InitLineBuf())
goto exit;
/*
* Convert the glyph outlines to a set of polyline loops.
* (See MakeLinesFromGlyph() for the format of the loop data
* structure.)
*/
if (!MakeLinesFromGlyph(glyphBuf, glyphSize, chordalDeviation))
goto exit;
p = LineBuf;
/*
* Now draw the loops in the appropriate format:
*/
if (format == WGL_FONT_LINES)
{
/*
* This is the easy case. Just draw the outlines.
*/
for (loop = (DWORD) *p++; loop; --loop)
{
_GLD_glBegin(GL_LINE_LOOP);
for (point = (DWORD) *p++; point; --point)
{
_GLD_glVertex2fv(p);
p += 2;
}
_GLD_glEnd();
}
status = 1;
}
else if (format == WGL_FONT_POLYGONS)
{
double v[3];
FLOAT *save_p = p;
GLfloat z_value;
/*
* This is the hard case. We have to set up a tessellator
* to convert the outlines into a set of polygonal
* primitives, which the tessellator passes to some
* auxiliary routines for drawing.
*/
if (!LoadGLUTesselator())
goto exit;
if (!InitVertBuf())
goto exit;
if (!(tess = gluNewTessProc()))
goto exit;
gluTessCallbackProc(tess, GLU_BEGIN, (void(CALLBACK *)()) _GLD_glBegin);
gluTessCallbackProc(tess, GLU_TESS_VERTEX_DATA,
(void(CALLBACK *)()) TessVertexOutData);
gluTessCallbackProc(tess, GLU_END, (void(CALLBACK *)()) _GLD_glEnd);
gluTessCallbackProc(tess, GLU_ERROR, (void(CALLBACK *)()) TessError);
gluTessCallbackProc(tess, GLU_TESS_COMBINE, (void(CALLBACK *)()) TessCombine);
gluTessNormalProc(tess, 0.0F, 0.0F, 1.0F);
TessErrorOccurred = 0;
_GLD_glNormal3f(0.0f, 0.0f, 1.0f);
v[2] = 0.0;
z_value = 0.0f;
gluTessBeginPolygonProc(tess, (void *)*(int *)&z_value);
for (loop = (DWORD) *p++; loop; --loop)
{
gluTessBeginContourProc(tess);
for (point = (DWORD) *p++; point; --point)
{
v[0] = p[0];
v[1] = p[1];
gluTessVertexProc(tess, v, p);
p += 2;
}
gluTessEndContourProc(tess);
}
gluTessEndPolygonProc(tess);
status = !TessErrorOccurred;
/* Extrusion code */
if (extrusion) {
DWORD loops;
GLfloat thickness = (GLfloat) -extrusion;
FLOAT *vert, *vert2;
DWORD count;
p = save_p;
loops = (DWORD) *p++;
for (loop = 0; loop < loops; loop++) {
GLfloat dx, dy, len;
DWORD last;
count = (DWORD) *p++;
_GLD_glBegin(GL_QUAD_STRIP);
/* Check if the first and last vertex are identical
* so we don't draw the same quad twice.
*/
vert = p + (count-1)*2;
last = (p[0] == vert[0] && p[1] == vert[1]) ? count-1 : count;
for (point = 0; point <= last; point++) {
vert = p + 2 * (point % last);
vert2 = p + 2 * ((point+1) % last);
dx = vert[0] - vert2[0];
dy = vert[1] - vert2[1];
len = (GLfloat)sqrt(dx * dx + dy * dy);
_GLD_glNormal3f(dy / len, -dx / len, 0.0f);
_GLD_glVertex3f((GLfloat) vert[0],
(GLfloat) vert[1], thickness);
_GLD_glVertex3f((GLfloat) vert[0],
(GLfloat) vert[1], 0.0f);
}
_GLD_glEnd();
p += count*2;
}
/* Draw the back face */
p = save_p;
v[2] = thickness;
_GLD_glNormal3f(0.0f, 0.0f, -1.0f);
gluTessNormalProc(tess, 0.0F, 0.0F, -1.0F);
gluTessBeginPolygonProc(tess, (void *)*(int *)&thickness);
for (loop = (DWORD) *p++; loop; --loop)
{
count = (DWORD) *p++;
gluTessBeginContourProc(tess);
for (point = 0; point < count; point++)
{
vert = p + ((count-point-1)<<1);
v[0] = vert[0];
v[1] = vert[1];
gluTessVertexProc(tess, v, vert);
}
p += count*2;
gluTessEndContourProc(tess);
}
gluTessEndPolygonProc(tess);
}
#if DEBUG
if (TessErrorOccurred)
printf("Tessellation error %s\n",
gluErrorString(TessErrorOccurred));
#endif
}
exit:
FreeLineBuf();
if (tess)
gluDeleteTessProc(tess);
// UnloadGLUTesselator();
FreeVertBuf();
return status;
}
/*****************************************************************************
* LoadGLUTesselator
*
* Maps the glu32.dll module and gets function pointers for the
* tesselator functions.
*****************************************************************************/
static BOOL
LoadGLUTesselator(void)
{
if (gluModuleHandle != NULL)
return TRUE;
{
extern HINSTANCE hInstanceOpenGL;
char *gluName = "GLU32.DLL";
// char name[256];
// char *ptr;
// int len;
/*
len = GetModuleFileName(hInstanceOpenGL, name, 255);
if (len != 0)
{
ptr = name+len-1;
while (ptr > name && *ptr != '\\')
ptr--;
if (*ptr == '\\')
ptr++;
if (!stricmp(ptr, "cosmogl.dll"))
{
gluName = "COSMOGLU.DLL";
}
else if (!stricmp(ptr, "opengl32.dll"))
{
gluName = "GLU32.DLL";
}
}
*/
if ((gluModuleHandle = LoadLibrary(gluName)) == NULL)
return FALSE;
}
if ((gluNewTessProc = (gluNewTessProto)
GetProcAddress(gluModuleHandle, "gluNewTess")) == NULL)
return FALSE;
if ((gluDeleteTessProc = (gluDeleteTessProto)
GetProcAddress(gluModuleHandle, "gluDeleteTess")) == NULL)
return FALSE;
if ((gluTessBeginPolygonProc = (gluTessBeginPolygonProto)
GetProcAddress(gluModuleHandle, "gluTessBeginPolygon")) == NULL)
return FALSE;
if ((gluTessBeginContourProc = (gluTessBeginContourProto)
GetProcAddress(gluModuleHandle, "gluTessBeginContour")) == NULL)
return FALSE;
if ((gluTessVertexProc = (gluTessVertexProto)
GetProcAddress(gluModuleHandle, "gluTessVertex")) == NULL)
return FALSE;
if ((gluTessEndContourProc = (gluTessEndContourProto)
GetProcAddress(gluModuleHandle, "gluTessEndContour")) == NULL)
return FALSE;
if ((gluTessEndPolygonProc = (gluTessEndPolygonProto)
GetProcAddress(gluModuleHandle, "gluTessEndPolygon")) == NULL)
return FALSE;
if ((gluTessPropertyProc = (gluTessPropertyProto)
GetProcAddress(gluModuleHandle, "gluTessProperty")) == NULL)
return FALSE;
if ((gluTessNormalProc = (gluTessNormalProto)
GetProcAddress(gluModuleHandle, "gluTessNormal")) == NULL)
return FALSE;
if ((gluTessCallbackProc = (gluTessCallbackProto)
GetProcAddress(gluModuleHandle, "gluTessCallback")) == NULL)
return FALSE;
return TRUE;
}
/*****************************************************************************
* UnloadGLUTesselator
*
* Unmaps the glu32.dll module.
*****************************************************************************/
static BOOL
UnloadGLUTesselator(void)
{
if (gluModuleHandle != NULL)
if (FreeLibrary(gluModuleHandle) == FALSE)
return FALSE;
gluModuleHandle = NULL;
}
/*****************************************************************************
* TessVertexOut
*
* Used by tessellator to handle output vertexes.
*****************************************************************************/
static void CALLBACK
TessVertexOut(FLOAT p[3])
{
GLfloat v[2];
v[0] = p[0] * ScaleFactor;
v[1] = p[1] * ScaleFactor;
_GLD_glVertex2fv(v);
}
static void CALLBACK
TessVertexOutData(FLOAT p[3], GLfloat z)
{
GLfloat v[3];
v[0] = (GLfloat) p[0];
v[1] = (GLfloat) p[1];
v[2] = z;
_GLD_glVertex3fv(v);
}
/*****************************************************************************
* TessCombine
*
* Used by tessellator to handle self-intersecting contours and degenerate
* geometry.
*****************************************************************************/
static void CALLBACK
TessCombine(double coords[3],
void* vertex_data[4],
FLOAT weight[4],
void** outData)
{
if (!AppendToVertBuf((FLOAT) coords[0])
|| !AppendToVertBuf((FLOAT) coords[1])
|| !AppendToVertBuf((FLOAT) coords[2]))
TessErrorOccurred = GL_OUT_OF_MEMORY;
*outData = VertBuf + (VertBufIndex - 3);
}
/*****************************************************************************
* TessError
*
* Saves the last tessellator error code in the global TessErrorOccurred.
*****************************************************************************/
static void CALLBACK
TessError(GLenum error)
{
TessErrorOccurred = error;
}
/*****************************************************************************
* MakeLinesFromGlyph
*
* Converts the outline of a glyph from the TTPOLYGON format to a simple
* array of floating-point values containing one or more loops.
*
* The first element of the output array is a count of the number of loops.
* The loop data follows this count. Each loop consists of a count of the
* number of vertices it contains, followed by the vertices. Each vertex
* is an X and Y coordinate. For example, a single triangle might be
* described by this array:
*
* 1., 3., 0., 0., 1., 0., 0., 1.
* ^ ^ ^ ^ ^ ^ ^ ^
* #loops #verts x1 y1 x2 y2 x3 y3
*
* A two-loop glyph would look like this:
*
* 2., 3., 0.,0., 1.,0., 0.,1., 3., .2,.2, .4,.2, .2,.4
*
* Line segments from the TTPOLYGON are transferred to the output array in
* the obvious way. Quadratic splines in the TTPOLYGON are converted to
* collections of line segments
*****************************************************************************/
static int
MakeLinesFromGlyph(IN UCHAR* glyphBuf,
IN DWORD glyphSize,
IN FLOAT chordalDeviation)
{
UCHAR* p;
int status = 0;
/*
* Pick up all the polygons (aka loops) that make up the glyph:
*/
if (!AppendToLineBuf(0.0F)) /* loop count at LineBuf[0] */
goto exit;
p = glyphBuf;
while (p < glyphBuf + glyphSize)
{
if (!MakeLinesFromTTPolygon(&p, chordalDeviation))
goto exit;
LineBuf[0] += 1.0F; /* increment loop count */
}
status = 1;
exit:
return status;
}
/*****************************************************************************
* MakeLinesFromTTPolygon
*
* Converts a TTPOLYGONHEADER and its associated curve structures into a
* single polyline loop in the global LineBuf.
*****************************************************************************/
static int
MakeLinesFromTTPolygon( IN OUT UCHAR** pp,
IN FLOAT chordalDeviation)
{
DWORD polySize;
UCHAR* polyStart;
DWORD vertexCountIndex;
/*
* Record where the polygon data begins, and where the loop's
* vertex count resides:
*/
polyStart = *pp;
vertexCountIndex = LineBufIndex;
if (!AppendToLineBuf(0.0F))
return 0;
/*
* Extract relevant data from the TTPOLYGONHEADER:
*/
polySize = GetDWord(pp);
if (GetDWord(pp) != TT_POLYGON_TYPE) /* polygon type */
return 0;
if (!AppendToLineBuf((FLOAT) GetFixed(pp))) /* first X coord */
return 0;
if (!AppendToLineBuf((FLOAT) GetFixed(pp))) /* first Y coord */
return 0;
LineBuf[vertexCountIndex] += 1.0F;
/*
* Process each of the TTPOLYCURVE structures in the polygon:
*/
while (*pp < polyStart + polySize)
if (!MakeLinesFromTTPolycurve( pp,
vertexCountIndex,
chordalDeviation))
return 0;
return 1;
}
/*****************************************************************************
* MakeLinesFromTTPolyCurve
*
* Converts the lines and splines in a single TTPOLYCURVE structure to points
* in the global LineBuf.
*****************************************************************************/
static int
MakeLinesFromTTPolycurve( IN OUT UCHAR** pp,
IN DWORD vertexCountIndex,
IN FLOAT chordalDeviation)
{
WORD type;
WORD pointCount;
/*
* Pick up the relevant fields of the TTPOLYCURVE structure:
*/
type = (WORD) GetWord(pp);
pointCount = (WORD) GetWord(pp);
/*
* Convert the "curve" to line segments:
*/
if (type == TT_PRIM_LINE)
return MakeLinesFromTTLine( pp,
vertexCountIndex,
pointCount);
else if (type == TT_PRIM_QSPLINE)
return MakeLinesFromTTQSpline( pp,
vertexCountIndex,
pointCount,
chordalDeviation);
else
return 0;
}
/*****************************************************************************
* MakeLinesFromTTLine
*
* Converts points from the polyline in a TT_PRIM_LINE structure to
* equivalent points in the global LineBuf.
*****************************************************************************/
static int
MakeLinesFromTTLine( IN OUT UCHAR** pp,
IN DWORD vertexCountIndex,
IN WORD pointCount)
{
/*
* Just copy the line segments into the line buffer (converting
* type as we go):
*/
LineBuf[vertexCountIndex] += pointCount;
while (pointCount--)
{
if (!AppendToLineBuf((FLOAT) GetFixed(pp)) /* X coord */
|| !AppendToLineBuf((FLOAT) GetFixed(pp))) /* Y coord */
return 0;
}
return 1;
}
/*****************************************************************************
* MakeLinesFromTTQSpline
*
* Converts points from the poly quadratic spline in a TT_PRIM_QSPLINE
* structure to polyline points in the global LineBuf.
*****************************************************************************/
static int
MakeLinesFromTTQSpline( IN OUT UCHAR** pp,
IN DWORD vertexCountIndex,
IN WORD pointCount,
IN FLOAT chordalDeviation)
{
FLOAT x0, y0, x1, y1, x2, y2;
WORD point;
/*
* Process each of the non-interpolated points in the outline.
* To do this, we need to generate two interpolated points (the
* start and end of the arc) for each non-interpolated point.
* The first interpolated point is always the one most recently
* stored in LineBuf, so we just extract it from there. The
* second interpolated point is either the average of the next
* two points in the QSpline, or the last point in the QSpline
* if only one remains.
*/
for (point = 0; point < pointCount - 1; ++point)
{
x0 = LineBuf[LineBufIndex - 2];
y0 = LineBuf[LineBufIndex - 1];
x1 = (FLOAT) GetFixed(pp);
y1 = (FLOAT) GetFixed(pp);
if (point == pointCount - 2)
{
/*
* This is the last arc in the QSpline. The final
* point is the end of the arc.
*/
x2 = (FLOAT) GetFixed(pp);
y2 = (FLOAT) GetFixed(pp);
}
else
{
/*
* Peek at the next point in the input to compute
* the end of the arc:
*/
x2 = 0.5F * (x1 + (FLOAT) GetFixed(pp));
y2 = 0.5F * (y1 + (FLOAT) GetFixed(pp));
/*
* Push the point back onto the input so it will
* be reused as the next off-curve point:
*/
*pp -= 8;
}
if (!MakeLinesFromArc( x0, y0,
x1, y1,
x2, y2,
vertexCountIndex,
chordalDeviation * chordalDeviation))
return 0;
}
return 1;
}
/*****************************************************************************
* MakeLinesFromArc
*
* Subdivides one arc of a quadratic spline until the chordal deviation
* tolerance requirement is met, then places the resulting set of line
* segments in the global LineBuf.
*****************************************************************************/
static int
MakeLinesFromArc( IN FLOAT x0,
IN FLOAT y0,
IN FLOAT x1,
IN FLOAT y1,
IN FLOAT x2,
IN FLOAT y2,
IN DWORD vertexCountIndex,
IN FLOAT chordalDeviationSquared)
{
FLOAT x01;
FLOAT y01;
FLOAT x12;
FLOAT y12;
FLOAT midPointX;
FLOAT midPointY;
FLOAT deltaX;
FLOAT deltaY;
/*
* Calculate midpoint of the curve by de Casteljau:
*/
x01 = 0.5F * (x0 + x1);
y01 = 0.5F * (y0 + y1);
x12 = 0.5F * (x1 + x2);
y12 = 0.5F * (y1 + y2);
midPointX = 0.5F * (x01 + x12);
midPointY = 0.5F * (y01 + y12);
/*
* Estimate chordal deviation by the distance from the midpoint
* of the curve to its non-interpolated control point. If this
* distance is greater than the specified chordal deviation
* constraint, then subdivide. Otherwise, generate polylines
* from the three control points.
*/
deltaX = midPointX - x1;
deltaY = midPointY - y1;
if (deltaX * deltaX + deltaY * deltaY > chordalDeviationSquared)
{
MakeLinesFromArc( x0, y0,
x01, y01,
midPointX, midPointY,
vertexCountIndex,
chordalDeviationSquared);
MakeLinesFromArc( midPointX, midPointY,
x12, y12,
x2, y2,
vertexCountIndex,
chordalDeviationSquared);
}
else
{
/*
* The "pen" is already at (x0, y0), so we don't need to
* add that point to the LineBuf.
*/
if (!AppendToLineBuf(x1)
|| !AppendToLineBuf(y1)
|| !AppendToLineBuf(x2)
|| !AppendToLineBuf(y2))
return 0;
LineBuf[vertexCountIndex] += 2.0F;
}
return 1;
}
/*****************************************************************************
* InitLineBuf
*
* Initializes the global LineBuf and its associated size and current-element
* counters.
*****************************************************************************/
static int
InitLineBuf(void)
{
if (!(LineBuf = (FLOAT*)
__wglMalloc((LineBufSize = LINE_BUF_QUANT) * sizeof(FLOAT))))
return 0;
LineBufIndex = 0;
return 1;
}
/*****************************************************************************
* InitVertBuf
*
* Initializes the global VertBuf and its associated size and current-element
* counters.
*****************************************************************************/
static int
InitVertBuf(void)
{
if (!(VertBuf = (FLOAT*)
__wglMalloc((VertBufSize = VERT_BUF_QUANT) * sizeof(FLOAT))))
return 0;
VertBufIndex = 0;
return 1;
}
/*****************************************************************************
* AppendToLineBuf
*
* Appends one floating-point value to the global LineBuf array. Return value
* is non-zero for success, zero for failure.
*****************************************************************************/
static int
AppendToLineBuf(FLOAT value)
{
if (LineBufIndex >= LineBufSize)
{
FLOAT* f;
f = (FLOAT*) __wglRealloc(LineBuf,
(LineBufSize += LINE_BUF_QUANT) * sizeof(FLOAT));
if (!f)
return 0;
LineBuf = f;
}
LineBuf[LineBufIndex++] = value;
return 1;
}
/*****************************************************************************
* AppendToVertBuf
*
* Appends one floating-point value to the global VertBuf array. Return value
* is non-zero for success, zero for failure.
*
* Note that we can't realloc this one, because the tessellator is using
* pointers into it.
*****************************************************************************/
static int
AppendToVertBuf(FLOAT value)
{
if (VertBufIndex >= VertBufSize)
return 0;
VertBuf[VertBufIndex++] = value;
return 1;
}
/*****************************************************************************
* FreeLineBuf
*
* Cleans up vertex buffer structure.
*****************************************************************************/
static void
FreeLineBuf(void)
{
if (LineBuf)
{
__wglFree(LineBuf);
LineBuf = NULL;
}
}
/*****************************************************************************
* FreeVertBuf
*
* Cleans up vertex buffer structure.
*****************************************************************************/
static void
FreeVertBuf(void)
{
if (VertBuf)
{
__wglFree(VertBuf);
VertBuf = NULL;
}
}
/*****************************************************************************
* GetWord
*
* Fetch the next 16-bit word from a little-endian byte stream, and increment
* the stream pointer to the next unscanned byte.
*****************************************************************************/
static long GetWord(UCHAR** p)
{
long value;
value = ((*p)[1] << 8) + (*p)[0];
*p += 2;
return value;
}
/*****************************************************************************
* GetDWord
*
* Fetch the next 32-bit word from a little-endian byte stream, and increment
* the stream pointer to the next unscanned byte.
*****************************************************************************/
static long GetDWord(UCHAR** p)
{
long value;
value = ((*p)[3] << 24) + ((*p)[2] << 16) + ((*p)[1] << 8) + (*p)[0];
*p += 4;
return value;
}
/*****************************************************************************
* GetFixed
*
* Fetch the next 32-bit fixed-point value from a little-endian byte stream,
* convert it to floating-point, and increment the stream pointer to the next
* unscanned byte.
*****************************************************************************/
static double GetFixed(
UCHAR** p)
{
long hiBits, loBits;
double value;
loBits = GetWord(p);
hiBits = GetWord(p);
value = (double) ((hiBits << 16) | loBits) / 65536.0;
return value * ScaleFactor;
}
// ***********************************************************************
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