Sweden-Number/dlls/d3d8/drawprim.c

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/*
* D3D8 utils
*
* Copyright 2002-2004 Jason Edmeades
* Copyright 2002-2004 Raphael Junqueira
* Copyright 2004 Christian Costa
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include "config.h"
#include <math.h>
#include <stdarg.h>
#define NONAMELESSUNION
#define NONAMELESSSTRUCT
#include "windef.h"
#include "winbase.h"
#include "winuser.h"
#include "wingdi.h"
#include "wine/debug.h"
#include "d3d8_private.h"
WINE_DEFAULT_DEBUG_CHANNEL(d3d);
WINE_DECLARE_DEBUG_CHANNEL(d3d_shader);
extern IDirect3DVertexShaderImpl* VertexShaders[64];
extern IDirect3DVertexShaderDeclarationImpl* VertexShaderDeclarations[64];
extern IDirect3DPixelShaderImpl* PixelShaders[64];
/* Useful holding place for 4 floats */
typedef struct _D3DVECTOR_4 {
float x;
float y;
float z;
float w;
} D3DVECTOR_4;
#undef GL_VERSION_1_4 /* To be fixed, caused by mesa headers */
/* Returns bits for what is expected from the fixed function pipeline, and whether
a vertex shader will be in use. Note the fvf bits returned may be split over
multiple streams only if the vertex shader was created, otherwise it all relates
to stream 0 */
BOOL initializeFVF(LPDIRECT3DDEVICE8 iface,
DWORD *FVFbits, /* What to expect in the FVF across all streams */
BOOL *useVertexShaderFunction) /* Should we use the vertex shader */
{
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
/* The first thing to work out is if we are using the fixed function pipeline
which is either SetVertexShader with < VS_HIGHESTFIXEDFXF - in which case this
is the FVF, or with a shader which was created with no function - in which
case there is an FVF per declared stream. If this occurs, we also maintain
an 'OR' of all the FVF's together so we know what to expect across all the
streams */
if (This->UpdateStateBlock->VertexShader <= VS_HIGHESTFIXEDFXF) {
/* Use this as the FVF */
*FVFbits = This->UpdateStateBlock->VertexShader;
*useVertexShaderFunction = FALSE;
TRACE("FVF explicitally defined, using fixed function pipeline with FVF=%lx\n", *FVFbits);
} else {
/* Use created shader */
IDirect3DVertexShaderImpl* vertex_shader = NULL;
vertex_shader = VERTEX_SHADER(This->UpdateStateBlock->VertexShader);
if (vertex_shader == NULL) {
/* Hmm - User pulled figure out of the air? Unlikely, probably a bug */
ERR("trying to use unitialised vertex shader: %lu\n", This->UpdateStateBlock->VertexShader);
return TRUE;
} else {
*FVFbits = This->UpdateStateBlock->vertexShaderDecl->allFVF;
if (vertex_shader->function == NULL) {
/* No function, so many streams supplied plus FVF definition pre stream */
*useVertexShaderFunction = FALSE;
TRACE("vertex shader (%lx) declared without program, using fixed function pipeline with FVF=%lx\n",
This->StateBlock->VertexShader, *FVFbits);
} else {
/* Vertex shader needs calling */
*useVertexShaderFunction = TRUE;
TRACE("vertex shader will be used (unusued FVF=%lx)\n", *FVFbits);
}
}
}
return FALSE;
}
/* Issues the glBegin call for gl given the primitive type and count */
DWORD primitiveToGl(D3DPRIMITIVETYPE PrimitiveType,
DWORD NumPrimitives,
GLenum *primType)
{
DWORD NumVertexes = NumPrimitives;
switch (PrimitiveType) {
case D3DPT_POINTLIST:
TRACE("POINTS\n");
*primType = GL_POINTS;
NumVertexes = NumPrimitives;
break;
case D3DPT_LINELIST:
TRACE("LINES\n");
*primType = GL_LINES;
NumVertexes = NumPrimitives * 2;
break;
case D3DPT_LINESTRIP:
TRACE("LINE_STRIP\n");
*primType = GL_LINE_STRIP;
NumVertexes = NumPrimitives + 1;
break;
case D3DPT_TRIANGLELIST:
TRACE("TRIANGLES\n");
*primType = GL_TRIANGLES;
NumVertexes = NumPrimitives * 3;
break;
case D3DPT_TRIANGLESTRIP:
TRACE("TRIANGLE_STRIP\n");
*primType = GL_TRIANGLE_STRIP;
NumVertexes = NumPrimitives + 2;
break;
case D3DPT_TRIANGLEFAN:
TRACE("TRIANGLE_FAN\n");
*primType = GL_TRIANGLE_FAN;
NumVertexes = NumPrimitives + 2;
break;
default:
FIXME("Unhandled primitive\n");
*primType = GL_POINTS;
break;
}
return NumVertexes;
}
/* Ensure the appropriate material states are set up - only change
state if really required */
void init_materials(LPDIRECT3DDEVICE8 iface, BOOL isDiffuseSupplied) {
BOOL requires_material_reset = FALSE;
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
if (This->tracking_color == NEEDS_TRACKING && isDiffuseSupplied) {
/* If we have not set up the material color tracking, do it now as required */
glDisable(GL_COLOR_MATERIAL); /* Note: Man pages state must enable AFTER calling glColorMaterial! Required?*/
checkGLcall("glDisable GL_COLOR_MATERIAL");
TRACE("glColorMaterial Parm=%x\n", This->tracking_parm);
glColorMaterial(GL_FRONT_AND_BACK, This->tracking_parm);
checkGLcall("glColorMaterial(GL_FRONT_AND_BACK, Parm)");
glEnable(GL_COLOR_MATERIAL);
checkGLcall("glEnable GL_COLOR_MATERIAL");
This->tracking_color = IS_TRACKING;
requires_material_reset = TRUE; /* Restore material settings as will be used */
} else if ((This->tracking_color == IS_TRACKING && isDiffuseSupplied == FALSE) ||
(This->tracking_color == NEEDS_TRACKING && isDiffuseSupplied == FALSE)) {
2004-01-06 23:08:33 +01:00
/* If we are tracking the current color but one isn't supplied, don't! */
glDisable(GL_COLOR_MATERIAL);
checkGLcall("glDisable GL_COLOR_MATERIAL");
This->tracking_color = NEEDS_TRACKING;
requires_material_reset = TRUE; /* Restore material settings as will be used */
} else if (This->tracking_color == IS_TRACKING && isDiffuseSupplied) {
/* No need to reset material colors since no change to gl_color_material */
requires_material_reset = FALSE;
} else if (This->tracking_color == NEEDS_DISABLE) {
glDisable(GL_COLOR_MATERIAL);
checkGLcall("glDisable GL_COLOR_MATERIAL");
This->tracking_color = DISABLED_TRACKING;
requires_material_reset = TRUE; /* Restore material settings as will be used */
}
/* Reset the material colors which may have been tracking the color*/
if (requires_material_reset) {
glMaterialfv(GL_FRONT_AND_BACK, GL_AMBIENT, (float*) &This->StateBlock->material.Ambient);
checkGLcall("glMaterialfv");
glMaterialfv(GL_FRONT_AND_BACK, GL_DIFFUSE, (float*) &This->StateBlock->material.Diffuse);
checkGLcall("glMaterialfv");
if (This->StateBlock->renderstate[D3DRS_SPECULARENABLE]) {
glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, (float*) &This->StateBlock->material.Specular);
checkGLcall("glMaterialfv");
} else {
float black[4] = {0.0f, 0.0f, 0.0f, 0.0f};
glMaterialfv(GL_FRONT_AND_BACK, GL_SPECULAR, &black[0]);
checkGLcall("glMaterialfv");
}
glMaterialfv(GL_FRONT_AND_BACK, GL_EMISSION, (float*) &This->StateBlock->material.Emissive);
checkGLcall("glMaterialfv");
}
}
static GLfloat invymat[16]={
1.0f, 0.0f, 0.0f, 0.0f,
0.0f, -1.0f, 0.0f, 0.0f,
0.0f, 0.0f, 1.0f, 0.0f,
0.0f, 0.0f, 0.0f, 1.0f};
/* Setup views - Transformed & lit if RHW, else untransformed.
Only unlit if Normals are supplied
Returns: Whether to restore lighting afterwards */
BOOL primitiveInitState(LPDIRECT3DDEVICE8 iface, BOOL vtx_transformed, BOOL vtx_lit, BOOL useVS) {
BOOL isLightingOn = FALSE;
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
2004-01-06 23:08:33 +01:00
/* If no normals, DISABLE lighting otherwise, don't touch lighing as it is
set by the appropriate render state. Note Vertex Shader output is already lit */
if (vtx_lit || useVS) {
isLightingOn = glIsEnabled(GL_LIGHTING);
glDisable(GL_LIGHTING);
checkGLcall("glDisable(GL_LIGHTING);");
TRACE("Disabled lighting as no normals supplied, old state = %d\n", isLightingOn);
}
if (!useVS && vtx_transformed) {
/* If the last draw was transformed as well, no need to reapply all the matrixes */
if (!This->last_was_rhw) {
double X, Y, height, width, minZ, maxZ;
This->last_was_rhw = TRUE;
/* Transformed already into viewport coordinates, so we do not need transform
matrices. Reset all matrices to identity and leave the default matrix in world
mode. */
glMatrixMode(GL_MODELVIEW);
checkGLcall("glMatrixMode");
glLoadIdentity();
checkGLcall("glLoadIdentity");
glMatrixMode(GL_PROJECTION);
checkGLcall("glMatrixMode");
glLoadIdentity();
checkGLcall("glLoadIdentity");
/* Set up the viewport to be full viewport */
X = This->StateBlock->viewport.X;
Y = This->StateBlock->viewport.Y;
height = This->StateBlock->viewport.Height;
width = This->StateBlock->viewport.Width;
minZ = This->StateBlock->viewport.MinZ;
maxZ = This->StateBlock->viewport.MaxZ;
TRACE("Calling glOrtho with %f, %f, %f, %f\n", width, height, -minZ, -maxZ);
glOrtho(X, X + width, Y + height, Y, -minZ, -maxZ);
checkGLcall("glOrtho");
/* Window Coord 0 is the middle of the first pixel, so translate by half
a pixel (See comment above glTranslate below) */
glTranslatef(0.5, 0.5, 0);
checkGLcall("glTranslatef(0.5, 0.5, 0)");
if (This->renderUpsideDown) {
glMultMatrixf(invymat);
checkGLcall("glMultMatrixf(invymat)");
}
}
} else {
/* Untransformed, so relies on the view and projection matrices */
if (!useVS && (This->last_was_rhw || !This->modelview_valid)) {
/* Only reapply when have to */
This->modelview_valid = TRUE;
glMatrixMode(GL_MODELVIEW);
checkGLcall("glMatrixMode");
/* In the general case, the view matrix is the identity matrix */
if (This->view_ident) {
glLoadMatrixf((float *) &This->StateBlock->transforms[D3DTS_WORLDMATRIX(0)].u.m[0][0]);
checkGLcall("glLoadMatrixf");
} else {
glLoadMatrixf((float *) &This->StateBlock->transforms[D3DTS_VIEW].u.m[0][0]);
checkGLcall("glLoadMatrixf");
glMultMatrixf((float *) &This->StateBlock->transforms[D3DTS_WORLDMATRIX(0)].u.m[0][0]);
checkGLcall("glMultMatrixf");
}
}
if (!useVS && (This->last_was_rhw || !This->proj_valid)) {
/* Only reapply when have to */
This->proj_valid = TRUE;
glMatrixMode(GL_PROJECTION);
checkGLcall("glMatrixMode");
/* The rule is that the window coordinate 0 does not correspond to the
beginning of the first pixel, but the center of the first pixel.
As a consequence if you want to correctly draw one line exactly from
the left to the right end of the viewport (with all matrices set to
be identity), the x coords of both ends of the line would be not
-1 and 1 respectively but (-1-1/viewport_widh) and (1-1/viewport_width)
instead. */
glLoadIdentity();
glTranslatef(1.0/This->StateBlock->viewport.Width, -1.0/This->StateBlock->viewport.Height, 0);
checkGLcall("glTranslatef (1.0/width, -1.0/height, 0)");
if (This->renderUpsideDown) {
glMultMatrixf(invymat);
checkGLcall("glMultMatrixf(invymat)");
}
glMultMatrixf((float *) &This->StateBlock->transforms[D3DTS_PROJECTION].u.m[0][0]);
checkGLcall("glLoadMatrixf");
}
/* Vertex Shader output is already transformed, so set up identity matrices */
/* FIXME: Actually, only true for software emulated ones, so when h/w ones
come along this needs to take into account whether s/w ones were
requested or not */
if (useVS) {
glMatrixMode(GL_MODELVIEW);
checkGLcall("glMatrixMode");
glLoadIdentity();
glMatrixMode(GL_PROJECTION);
checkGLcall("glMatrixMode");
glLoadIdentity();
/* Window Coord 0 is the middle of the first pixel, so translate by half
a pixel (See comment above glTranslate above) */
glTranslatef(1.0/This->StateBlock->viewport.Width, -1.0/This->StateBlock->viewport.Height, 0);
checkGLcall("glTranslatef (1.0/width, -1.0/height, 0)");
if (This->renderUpsideDown) {
glMultMatrixf(invymat);
checkGLcall("glMultMatrixf(invymat)");
}
This->modelview_valid = FALSE;
This->proj_valid = FALSE;
}
This->last_was_rhw = FALSE;
}
return isLightingOn;
}
void primitiveConvertToStridedData(LPDIRECT3DDEVICE8 iface, Direct3DVertexStridedData *strided, LONG BaseVertexIndex) {
short LoopThroughTo = 0;
short nStream;
BOOL canDoViaGLPointers = TRUE;
int numBlends;
int numTextures;
int textureNo;
int coordIdxInfo = 0x00; /* Information on number of coords supplied */
int numCoords[8]; /* Holding place for D3DFVF_TEXTUREFORMATx */
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
/* OK, Now to setup the data locations
For the non-created vertex shaders, the VertexShader var holds the real
FVF and only stream 0 matters
For the created vertex shaders, there is an FVF per stream */
if (!This->StateBlock->streamIsUP && (This->UpdateStateBlock->VertexShader > VS_HIGHESTFIXEDFXF)) {
LoopThroughTo = MAX_STREAMS;
} else {
LoopThroughTo = 1;
}
/* Work through stream by stream */
for (nStream=0; nStream<LoopThroughTo; nStream++) {
DWORD stride = This->StateBlock->stream_stride[nStream];
BYTE *data = NULL;
DWORD thisFVF = 0;
/* Skip empty streams */
if (This->StateBlock->stream_source[nStream] == NULL) continue;
/* Retrieve appropriate FVF */
if (LoopThroughTo == 1) { /* VertexShader is FVF */
thisFVF = This->UpdateStateBlock->VertexShader;
/* Handle memory passed directly as well as vertex buffers */
if (This->StateBlock->streamIsUP) {
data = (BYTE *)This->StateBlock->stream_source[nStream];
} else {
data = ((IDirect3DVertexBuffer8Impl *)This->StateBlock->stream_source[nStream])->allocatedMemory;
}
} else {
thisFVF = This->StateBlock->vertexShaderDecl->fvf[nStream];
data = ((IDirect3DVertexBuffer8Impl *)This->StateBlock->stream_source[nStream])->allocatedMemory;
}
VTRACE(("FVF for stream %d is %lx\n", nStream, thisFVF));
if (thisFVF == 0) continue;
/* Now convert the stream into pointers */
/* Shuffle to the beginning of the vertexes to render and index from there */
data = data + (BaseVertexIndex * stride);
/* Either 3 or 4 floats depending on the FVF */
/* FIXME: Can blending data be in a different stream to the position data?
and if so using the fixed pipeline how do we handle it */
if (thisFVF & D3DFVF_POSITION_MASK) {
strided->u.s.position.lpData = data;
strided->u.s.position.dwType = D3DVSDT_FLOAT3;
strided->u.s.position.dwStride = stride;
data += 3 * sizeof(float);
if (thisFVF & D3DFVF_XYZRHW) {
strided->u.s.position.dwType = D3DVSDT_FLOAT4;
data += sizeof(float);
}
}
/* Blending is numBlends * FLOATs followed by a DWORD for UBYTE4 */
/** do we have to Check This->UpdateStateBlock->renderstate[D3DRS_INDEXEDVERTEXBLENDENABLE] ? */
numBlends = ((thisFVF & D3DFVF_POSITION_MASK) >> 1) - 2 +
((FALSE == (thisFVF & D3DFVF_LASTBETA_UBYTE4)) ? 0 : -1); /* WARNING can be < 0 because -2 */
if (numBlends > 0) {
canDoViaGLPointers = FALSE;
strided->u.s.blendWeights.lpData = data;
strided->u.s.blendWeights.dwType = D3DVSDT_FLOAT1 + (numBlends - 1);
strided->u.s.blendWeights.dwStride = stride;
data += numBlends * sizeof(FLOAT);
if (thisFVF & D3DFVF_LASTBETA_UBYTE4) {
strided->u.s.blendMatrixIndices.lpData = data;
strided->u.s.blendMatrixIndices.dwType = D3DVSDT_UBYTE4;
strided->u.s.blendMatrixIndices.dwStride= stride;
data += sizeof(DWORD);
}
}
/* Normal is always 3 floats */
if (thisFVF & D3DFVF_NORMAL) {
strided->u.s.normal.lpData = data;
strided->u.s.normal.dwType = D3DVSDT_FLOAT3;
strided->u.s.normal.dwStride = stride;
data += 3 * sizeof(FLOAT);
}
/* Pointsize is a single float */
if (thisFVF & D3DFVF_PSIZE) {
strided->u.s.pSize.lpData = data;
strided->u.s.pSize.dwType = D3DVSDT_FLOAT1;
strided->u.s.pSize.dwStride = stride;
data += sizeof(FLOAT);
}
/* Diffuse is 4 unsigned bytes */
if (thisFVF & D3DFVF_DIFFUSE) {
strided->u.s.diffuse.lpData = data;
strided->u.s.diffuse.dwType = D3DVSDT_SHORT4;
strided->u.s.diffuse.dwStride = stride;
data += sizeof(DWORD);
}
/* Specular is 4 unsigned bytes */
if (thisFVF & D3DFVF_SPECULAR) {
strided->u.s.specular.lpData = data;
strided->u.s.specular.dwType = D3DVSDT_SHORT4;
strided->u.s.specular.dwStride = stride;
data += sizeof(DWORD);
}
/* Texture coords */
numTextures = (thisFVF & D3DFVF_TEXCOUNT_MASK) >> D3DFVF_TEXCOUNT_SHIFT;
coordIdxInfo = (thisFVF & 0x00FF0000) >> 16; /* 16 is from definition of D3DFVF_TEXCOORDSIZE1, and is 8 (0-7 stages) * 2bits long */
/* numTextures indicates the number of texture coordinates supplied */
/* However, the first set may not be for stage 0 texture - it all */
/* depends on D3DTSS_TEXCOORDINDEX. */
/* The number of bytes for each coordinate set is based off */
/* D3DFVF_TEXCOORDSIZEn, which are the bottom 2 bits */
/* So, for each supplied texture extract the coords */
for (textureNo = 0; textureNo < numTextures; ++textureNo) {
strided->u.s.texCoords[textureNo].lpData = data;
strided->u.s.texCoords[textureNo].dwType = D3DVSDT_FLOAT1;
strided->u.s.texCoords[textureNo].dwStride = stride;
numCoords[textureNo] = coordIdxInfo & 0x03;
/* Always one set */
data += sizeof(float);
if (numCoords[textureNo] != D3DFVF_TEXTUREFORMAT1) {
strided->u.s.texCoords[textureNo].dwType = D3DVSDT_FLOAT2;
data += sizeof(float);
if (numCoords[textureNo] != D3DFVF_TEXTUREFORMAT2) {
strided->u.s.texCoords[textureNo].dwType = D3DVSDT_FLOAT3;
data += sizeof(float);
if (numCoords[textureNo] != D3DFVF_TEXTUREFORMAT3) {
strided->u.s.texCoords[textureNo].dwType = D3DVSDT_FLOAT4;
data += sizeof(float);
}
}
}
coordIdxInfo = coordIdxInfo >> 2; /* Drop bottom two bits */
}
}
}
/* Draw a single vertex using this information */
void draw_vertex(LPDIRECT3DDEVICE8 iface, /* interface */
BOOL isXYZ, float x, float y, float z, float rhw, /* xyzn position*/
BOOL isNormal, float nx, float ny, float nz, /* normal */
BOOL isDiffuse, float *dRGBA, /* 1st colors */
BOOL isSpecular, float *sRGB, /* 2ndry colors */
BOOL isPtSize, float ptSize, /* pointSize */
D3DVECTOR_4 *texcoords, int *numcoords) /* texture info */
{
unsigned int textureNo;
float s, t, r, q;
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
/* Diffuse -------------------------------- */
if (isDiffuse) {
glColor4fv(dRGBA);
VTRACE(("glColor4f: r,g,b,a=%f,%f,%f,%f\n", dRGBA[0], dRGBA[1], dRGBA[2], dRGBA[3]));
}
/* Specular Colour ------------------------------------------*/
if (isSpecular) {
if (GL_SUPPORT(EXT_SECONDARY_COLOR)) {
GL_EXTCALL(glSecondaryColor3fvEXT(sRGB));
VTRACE(("glSecondaryColor4f: r,g,b=%f,%f,%f\n", sRGB[0], sRGB[1], sRGB[2]));
} else {
VTRACE(("Specular color extensions not supplied\n"));
}
}
/* Normal -------------------------------- */
if (isNormal) {
VTRACE(("glNormal:nx,ny,nz=%f,%f,%f\n", nx,ny,nz));
glNormal3f(nx, ny, nz);
}
/* Point Size ----------------------------------------------*/
if (isPtSize) {
/* no such functionality in the fixed function GL pipeline */
FIXME("Cannot change ptSize here in openGl\n");
}
/* Texture coords --------------------------- */
for (textureNo = 0; textureNo < GL_LIMITS(textures); ++textureNo) {
if (!GL_SUPPORT(ARB_MULTITEXTURE) && textureNo > 0) {
2004-01-06 23:08:33 +01:00
FIXME("Program using multiple concurrent textures which this opengl implementation doesn't support\n");
continue ;
}
/* Query tex coords */
if (This->StateBlock->textures[textureNo] != NULL) {
int coordIdx = This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXCOORDINDEX];
if (coordIdx > 7) {
VTRACE(("tex: %d - Skip tex coords, as being system generated\n", textureNo));
continue;
} else if (numcoords[coordIdx] == 0) {
TRACE("tex: %d - Skipping tex coords, as no data supplied or no coords supplied\n", textureNo);
continue;
} else {
/* Initialize vars */
s = 0.0f;
t = 0.0f;
r = 0.0f;
q = 0.0f;
switch (numcoords[coordIdx]) {
case 4: q = texcoords[coordIdx].w; /* drop through */
case 3: r = texcoords[coordIdx].z; /* drop through */
case 2: t = texcoords[coordIdx].y; /* drop through */
case 1: s = texcoords[coordIdx].x;
}
switch (numcoords[coordIdx]) { /* Supply the provided texture coords */
case D3DTTFF_COUNT1:
VTRACE(("tex:%d, s=%f\n", textureNo, s));
if (GL_SUPPORT(ARB_MULTITEXTURE)) {
#if defined(GL_VERSION_1_3)
glMultiTexCoord1f(GL_TEXTURE0 + textureNo, s);
#else
glMultiTexCoord1fARB(GL_TEXTURE0_ARB + textureNo, s);
#endif
} else {
glTexCoord1f(s);
}
break;
case D3DTTFF_COUNT2:
VTRACE(("tex:%d, s=%f, t=%f\n", textureNo, s, t));
if (GL_SUPPORT(ARB_MULTITEXTURE)) {
#if defined(GL_VERSION_1_3)
glMultiTexCoord2f(GL_TEXTURE0 + textureNo, s, t);
#else
glMultiTexCoord2fARB(GL_TEXTURE0_ARB + textureNo, s, t);
#endif
} else {
glTexCoord2f(s, t);
}
break;
case D3DTTFF_COUNT3:
VTRACE(("tex:%d, s=%f, t=%f, r=%f\n", textureNo, s, t, r));
if (GL_SUPPORT(ARB_MULTITEXTURE)) {
#if defined(GL_VERSION_1_3)
glMultiTexCoord3f(GL_TEXTURE0 + textureNo, s, t, r);
#else
glMultiTexCoord3fARB(GL_TEXTURE0_ARB + textureNo, s, t, r);
#endif
} else {
glTexCoord3f(s, t, r);
}
break;
case D3DTTFF_COUNT4:
VTRACE(("tex:%d, s=%f, t=%f, r=%f, q=%f\n", textureNo, s, t, r, q));
if (GL_SUPPORT(ARB_MULTITEXTURE)) {
#if defined(GL_VERSION_1_3)
glMultiTexCoord4f(GL_TEXTURE0 + textureNo, s, t, r, q);
#else
glMultiTexCoord4fARB(GL_TEXTURE0_ARB + textureNo, s, t, r, q);
#endif
} else {
glTexCoord4f(s, t, r, q);
}
break;
default:
FIXME("Should not get here as numCoords should be 0->4 (%x)!\n", numcoords[coordIdx]);
}
}
}
} /* End of textures */
/* Position -------------------------------- */
if (isXYZ) {
if (1.0f == rhw || rhw < 0.00001f) {
VTRACE(("Vertex: glVertex:x,y,z=%f,%f,%f\n", x,y,z));
glVertex3f(x, y, z);
} else {
/* Cannot optimize by dividing through by rhw as rhw is required
later for perspective in the GL pipeline for vertex shaders */
VTRACE(("Vertex: glVertex:x,y,z=%f,%f,%f / rhw=%f\n", x,y,z,rhw));
glVertex4f(x,y,z,rhw);
}
}
}
/*
* Actually draw using the supplied information.
* Faster GL version using pointers to data, harder to debug though
* Note does not handle vertex shaders yet
*/
void drawStridedFast(LPDIRECT3DDEVICE8 iface, Direct3DVertexStridedData *sd,
int PrimitiveType, ULONG NumPrimitives,
const void *idxData, short idxSize, ULONG minIndex, ULONG startIdx) {
unsigned int textureNo = 0;
GLenum glPrimType = GL_POINTS;
int NumVertexes = NumPrimitives;
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
TRACE("Using fast vertex array code\n");
/* Vertex Pointers -----------------------------------------*/
if (sd->u.s.position.lpData != NULL) {
/* Note dwType == float3 or float4 == 2 or 3 */
VTRACE(("glVertexPointer(%ld, GL_FLOAT, %ld, %p)\n",
sd->u.s.position.dwStride,
sd->u.s.position.dwType + 1,
sd->u.s.position.lpData));
/* Disable RHW mode as 'w' coord handling for rhw mode should
not impact screen position whereas in GL it does. This may
result in very slightly distored textures in rhw mode, but
a very minimal different */
glVertexPointer(3, GL_FLOAT, /* RHW: Was 'sd->u.s.position.dwType + 1' */
sd->u.s.position.dwStride,
sd->u.s.position.lpData);
checkGLcall("glVertexPointer(...)");
glEnableClientState(GL_VERTEX_ARRAY);
checkGLcall("glEnableClientState(GL_VERTEX_ARRAY)");
} else {
glDisableClientState(GL_VERTEX_ARRAY);
checkGLcall("glDisableClientState(GL_VERTEX_ARRAY)");
}
/* Blend Data ----------------------------------------------*/
if ((sd->u.s.blendWeights.lpData != NULL) ||
(sd->u.s.blendMatrixIndices.lpData != NULL)) {
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/* FIXME: Won't get here as will drop to slow method */
FIXME("Blending not supported in fast draw routine\n");
#if 0 /* Vertex blend support needs to be added */
if (GL_SUPPORT(ARB_VERTEX_BLEND)) {
/*FIXME("TODO\n");*/
} else if (GL_SUPPORT(EXT_VERTEX_WEIGHTING)) {
/*FIXME("TODO\n");*/
/*
GLExtCall(glVertexWeightPointerEXT)(numBlends, GL_FLOAT, skip, curPos);
checkGLcall("glVertexWeightPointerEXT(numBlends, ...)");
glEnableClientState(GL_VERTEX_WEIGHT_ARRAY_EXT);
checkGLcall("glEnableClientState(GL_VERTEX_WEIGHT_ARRAY_EXT)");
*/
} else {
FIXME("unsupported blending in openGl\n");
}
} else {
if (GL_SUPPORT(ARB_VERTEX_BLEND)) {
FIXME("TODO\n");
} else if (GL_SUPPORT(EXT_VERTEX_WEIGHTING)) {
FIXME("TODO\n");
/*
glDisableClientState(GL_VERTEX_WEIGHT_ARRAY_EXT);
checkGLcall("glDisableClientState(GL_VERTEX_WEIGHT_ARRAY_EXT)");
*/
}
#endif
}
/* Normals -------------------------------------------------*/
if (sd->u.s.normal.lpData != NULL) {
/* Note dwType == float3 or float4 == 2 or 3 */
VTRACE(("glNormalPointer(GL_FLOAT, %ld, %p)\n",
sd->u.s.normal.dwStride,
sd->u.s.normal.lpData));
glNormalPointer(GL_FLOAT,
sd->u.s.normal.dwStride,
sd->u.s.normal.lpData);
checkGLcall("glNormalPointer(...)");
glEnableClientState(GL_NORMAL_ARRAY);
checkGLcall("glEnableClientState(GL_NORMAL_ARRAY)");
} else {
glDisableClientState(GL_NORMAL_ARRAY);
checkGLcall("glDisableClientState(GL_NORMAL_ARRAY)");
glNormal3f(0, 0, 1);
checkGLcall("glNormal3f(0, 0, 1)");
}
/* Point Size ----------------------------------------------*/
if (sd->u.s.pSize.lpData != NULL) {
/* no such functionality in the fixed function GL pipeline */
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/* FIXME: Won't get here as will drop to slow method */
FIXME("Cannot change ptSize here in openGl\n");
}
/* Diffuse Colour ------------------------------------------*/
/* WARNING: Data here MUST be in RGBA format, so cannot */
/* go directly into fast mode from app pgm, because */
/* directx requires data in BGRA format. */
if (sd->u.s.diffuse.lpData != NULL) {
/* Note dwType == float3 or float4 == 2 or 3 */
VTRACE(("glColorPointer(4, GL_UNSIGNED_BYTE, %ld, %p)\n",
sd->u.s.diffuse.dwStride,
sd->u.s.diffuse.lpData));
glColorPointer(4, GL_UNSIGNED_BYTE,
sd->u.s.diffuse.dwStride,
sd->u.s.diffuse.lpData);
checkGLcall("glColorPointer(4, GL_UNSIGNED_BYTE, ...)");
glEnableClientState(GL_COLOR_ARRAY);
checkGLcall("glEnableClientState(GL_COLOR_ARRAY)");
} else {
glDisableClientState(GL_COLOR_ARRAY);
checkGLcall("glDisableClientState(GL_COLOR_ARRAY)");
glColor4f(1.0f, 1.0f, 1.0f, 1.0f);
checkGLcall("glColor4f(1, 1, 1, 1)");
}
/* Specular Colour ------------------------------------------*/
if (sd->u.s.specular.lpData != NULL) {
/* Note dwType == float3 or float4 == 2 or 3 */
VTRACE(("glSecondaryColorPointer(4, GL_UNSIGNED_BYTE, %ld, %p)\n",
sd->u.s.specular.dwStride,
sd->u.s.specular.lpData));
if (GL_SUPPORT(EXT_SECONDARY_COLOR)) {
GL_EXTCALL(glSecondaryColorPointerEXT)(4, GL_UNSIGNED_BYTE,
sd->u.s.specular.dwStride,
sd->u.s.specular.lpData);
vcheckGLcall("glSecondaryColorPointerEXT(4, GL_UNSIGNED_BYTE, ...)");
glEnableClientState(GL_SECONDARY_COLOR_ARRAY_EXT);
vcheckGLcall("glEnableClientState(GL_SECONDARY_COLOR_ARRAY_EXT)");
} else {
/* Missing specular color is not critical, no warnings */
VTRACE(("Specular colour is not supported in this GL implementation\n"));
}
} else {
if (GL_SUPPORT(EXT_SECONDARY_COLOR)) {
glDisableClientState(GL_SECONDARY_COLOR_ARRAY_EXT);
checkGLcall("glDisableClientState(GL_SECONDARY_COLOR_ARRAY_EXT)");
GL_EXTCALL(glSecondaryColor3fEXT)(0, 0, 0);
checkGLcall("glSecondaryColor3fEXT(0, 0, 0)");
} else {
/* Missing specular color is not critical, no warnings */
VTRACE(("Specular colour is not supported in this GL implementation\n"));
}
}
/* Texture coords -------------------------------------------*/
for (textureNo = 0; textureNo < GL_LIMITS(textures); ++textureNo) {
/* Select the correct texture stage */
#if defined(GL_VERSION_1_3)
glClientActiveTexture(GL_TEXTURE0 + textureNo);
#else
glClientActiveTextureARB(GL_TEXTURE0_ARB + textureNo);
#endif
/* Query tex coords */
if (This->StateBlock->textures[textureNo] != NULL) {
int coordIdx = This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXCOORDINDEX];
if (!GL_SUPPORT(ARB_MULTITEXTURE) && textureNo > 0) {
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FIXME("Program using multiple concurrent textures which this opengl implementation doesn't support\n");
glDisableClientState(GL_TEXTURE_COORD_ARRAY);
#if defined(GL_VERSION_1_3)
glMultiTexCoord4f(GL_TEXTURE0 + textureNo, 0, 0, 0, 1);
#else
glMultiTexCoord4fARB(GL_TEXTURE0_ARB + textureNo, 0, 0, 0, 1);
#endif
continue;
}
if (coordIdx > 7) {
VTRACE(("tex: %d - Skip tex coords, as being system generated\n", textureNo));
glDisableClientState(GL_TEXTURE_COORD_ARRAY);
#if defined(GL_VERSION_1_3)
glMultiTexCoord4f(GL_TEXTURE0 + textureNo, 0, 0, 0, 1);
#else
glMultiTexCoord4fARB(GL_TEXTURE0_ARB + textureNo, 0, 0, 0, 1);
#endif
} else if (sd->u.s.texCoords[coordIdx].lpData == NULL) {
VTRACE(("Bound texture but no texture coordinates supplied, so skipping\n"));
glDisableClientState(GL_TEXTURE_COORD_ARRAY);
#if defined(GL_VERSION_1_3)
glMultiTexCoord4f(GL_TEXTURE0 + textureNo, 0, 0, 0, 1);
#else
glMultiTexCoord4fARB(GL_TEXTURE0_ARB + textureNo, 0, 0, 0, 1);
#endif
} else {
/* The coords to supply depend completely on the fvf / vertex shader */
GLint size;
GLenum type;
switch (sd->u.s.texCoords[coordIdx].dwType) {
case D3DVSDT_FLOAT1: size = 1, type = GL_FLOAT; break;
case D3DVSDT_FLOAT2: size = 2, type = GL_FLOAT; break;
case D3DVSDT_FLOAT3: size = 3, type = GL_FLOAT; break;
case D3DVSDT_FLOAT4: size = 4, type = GL_FLOAT; break;
case D3DVSDT_SHORT2: size = 2, type = GL_SHORT; break;
case D3DVSDT_SHORT4: size = 4, type = GL_SHORT; break;
case D3DVSDT_UBYTE4: size = 4, type = GL_UNSIGNED_BYTE; break;
default: FIXME("Unrecognized data type %ld\n", sd->u.s.texCoords[coordIdx].dwType);
size = 4; type = GL_UNSIGNED_BYTE;
}
glTexCoordPointer(size, type, sd->u.s.texCoords[coordIdx].dwStride, sd->u.s.texCoords[coordIdx].lpData);
glEnableClientState(GL_TEXTURE_COORD_ARRAY);
}
} else {
glDisableClientState(GL_TEXTURE_COORD_ARRAY);
#if defined(GL_VERSION_1_3)
glMultiTexCoord4f(GL_TEXTURE0 + textureNo, 0, 0, 0, 1);
#else
glMultiTexCoord4fARB(GL_TEXTURE0_ARB + textureNo, 0, 0, 0, 1);
#endif
}
}
/* Ok, Work out which primitive is requested and how many vertexes that
will be */
NumVertexes = primitiveToGl(PrimitiveType, NumPrimitives, &glPrimType);
/* Finally do the drawing */
if (idxData != NULL) {
TRACE("glElements(%x, %d, %ld, ...)\n", glPrimType, NumVertexes, minIndex);
#if 1 /* FIXME: Want to use DrawRangeElements, but wrong calculation! */
glDrawElements(glPrimType, NumVertexes, idxSize==2?GL_UNSIGNED_SHORT:GL_UNSIGNED_INT,
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(const char *)idxData+(idxSize * startIdx));
#else
glDrawRangeElements(glPrimType, minIndex, minIndex+NumVertexes-1, NumVertexes,
idxSize==2?GL_UNSIGNED_SHORT:GL_UNSIGNED_INT,
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(const char *)idxData+(idxSize * startIdx));
#endif
checkGLcall("glDrawRangeElements");
} else {
/* Note first is now zero as we shuffled along earlier */
TRACE("glDrawArrays(%x, 0, %d)\n", glPrimType, NumVertexes);
glDrawArrays(glPrimType, 0, NumVertexes);
checkGLcall("glDrawArrays");
}
}
/*
* Actually draw using the supplied information.
* Slower GL version which extracts info about each vertex in turn
*/
void drawStridedSlow(LPDIRECT3DDEVICE8 iface, Direct3DVertexStridedData *sd,
int PrimitiveType, ULONG NumPrimitives,
const void *idxData, short idxSize, ULONG minIndex, ULONG startIdx) {
unsigned int textureNo = 0;
GLenum glPrimType = GL_POINTS;
int NumVertexes = NumPrimitives;
const short *pIdxBufS = NULL;
const long *pIdxBufL = NULL;
LONG SkipnStrides = 0;
LONG vx_index;
float x = 0.0f, y = 0.0f, z = 0.0f; /* x,y,z coordinates */
float nx = 0.0f, ny = 0.0, nz = 0.0f; /* normal x,y,z coordinates */
float rhw = 0.0f; /* rhw */
float ptSize = 0.0f; /* Point size */
DWORD diffuseColor = 0xFFFFFFFF; /* Diffuse Color */
DWORD specularColor = 0; /* Specular Color */
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
TRACE("Using slow vertex array code\n");
/* Variable Initialization */
if (idxData != NULL) {
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if (idxSize == 2) pIdxBufS = (const short *) idxData;
else pIdxBufL = (const long *) idxData;
}
/* Ok, Work out which primitive is requested and how many vertexes that will be */
NumVertexes = primitiveToGl(PrimitiveType, NumPrimitives, &glPrimType);
/* Start drawing in GL */
VTRACE(("glBegin(%x)\n", glPrimType));
glBegin(glPrimType);
/* For each primitive */
for (vx_index = 0; vx_index < NumVertexes; vx_index++) {
/* Initialize diffuse color */
diffuseColor = 0xFFFFFFFF;
/* For indexed data, we need to go a few more strides in */
if (idxData != NULL) {
/* Indexed so work out the number of strides to skip */
if (idxSize == 2) {
VTRACE(("Idx for vertex %ld = %d\n", vx_index, pIdxBufS[startIdx+vx_index]));
SkipnStrides = pIdxBufS[startIdx+vx_index];
} else {
VTRACE(("Idx for vertex %ld = %ld\n", vx_index, pIdxBufL[startIdx+vx_index]));
SkipnStrides = pIdxBufL[startIdx+vx_index];
}
}
/* Position Information ------------------ */
if (sd->u.s.position.lpData != NULL) {
float *ptrToCoords = (float *)(sd->u.s.position.lpData + (SkipnStrides * sd->u.s.position.dwStride));
x = ptrToCoords[0];
y = ptrToCoords[1];
z = ptrToCoords[2];
rhw = 1.0;
VTRACE(("x,y,z=%f,%f,%f\n", x,y,z));
/* RHW follows, only if transformed, ie 4 floats were provided */
if (sd->u.s.position.dwType == D3DVSDT_FLOAT4) {
rhw = ptrToCoords[3];
VTRACE(("rhw=%f\n", rhw));
}
}
/* Blending data -------------------------- */
if (sd->u.s.blendWeights.lpData != NULL) {
/*float *ptrToCoords = (float *)(sd->u.s.blendWeights.lpData + (SkipnStrides * sd->u.s.blendWeights.dwStride));*/
FIXME("Blending not supported yet\n");
if (sd->u.s.blendMatrixIndices.lpData != NULL) {
/*DWORD *ptrToCoords = (DWORD *)(sd->u.s.blendMatrixIndices.lpData + (SkipnStrides * sd->u.s.blendMatrixIndices.dwStride));*/
}
}
/* Vertex Normal Data (untransformed only)- */
if (sd->u.s.normal.lpData != NULL) {
float *ptrToCoords = (float *)(sd->u.s.normal.lpData + (SkipnStrides * sd->u.s.normal.dwStride));
nx = ptrToCoords[0];
ny = ptrToCoords[1];
nz = ptrToCoords[2];
VTRACE(("nx,ny,nz=%f,%f,%f\n", nx, ny, nz));
}
/* Point Size ----------------------------- */
if (sd->u.s.pSize.lpData != NULL) {
float *ptrToCoords = (float *)(sd->u.s.pSize.lpData + (SkipnStrides * sd->u.s.pSize.dwStride));
ptSize = ptrToCoords[0];
VTRACE(("ptSize=%f\n", ptSize));
FIXME("No support for ptSize yet\n");
}
/* Diffuse -------------------------------- */
if (sd->u.s.diffuse.lpData != NULL) {
DWORD *ptrToCoords = (DWORD *)(sd->u.s.diffuse.lpData + (SkipnStrides * sd->u.s.diffuse.dwStride));
diffuseColor = ptrToCoords[0];
VTRACE(("diffuseColor=%lx\n", diffuseColor));
}
/* Specular -------------------------------- */
if (sd->u.s.specular.lpData != NULL) {
DWORD *ptrToCoords = (DWORD *)(sd->u.s.specular.lpData + (SkipnStrides * sd->u.s.specular.dwStride));
specularColor = ptrToCoords[0];
VTRACE(("specularColor=%lx\n", specularColor));
}
/* Texture coords --------------------------- */
for (textureNo = 0; textureNo < GL_LIMITS(textures); ++textureNo) {
if (!GL_SUPPORT(ARB_MULTITEXTURE) && textureNo > 0) {
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FIXME("Program using multiple concurrent textures which this opengl implementation doesn't support\n");
continue ;
}
/* Query tex coords */
if (This->StateBlock->textures[textureNo] != NULL) {
int coordIdx = This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXCOORDINDEX];
float *ptrToCoords = (float *)(sd->u.s.texCoords[coordIdx].lpData + (SkipnStrides * sd->u.s.texCoords[coordIdx].dwStride));
float s = 0.0, t = 0.0, r = 0.0, q = 0.0;
if (coordIdx > 7) {
VTRACE(("tex: %d - Skip tex coords, as being system generated\n", textureNo));
continue;
} else if (sd->u.s.texCoords[coordIdx].lpData == NULL) {
TRACE("tex: %d - Skipping tex coords, as no data supplied\n", textureNo);
continue;
} else {
int coordsToUse = sd->u.s.texCoords[coordIdx].dwType + 1; /* 0 == D3DVSDT_FLOAT1 etc */
/* The coords to supply depend completely on the fvf / vertex shader */
switch (coordsToUse) {
case 4: q = ptrToCoords[3]; /* drop through */
case 3: r = ptrToCoords[2]; /* drop through */
case 2: t = ptrToCoords[1]; /* drop through */
case 1: s = ptrToCoords[0];
}
/* Projected is more 'fun' - Move the last coord to the 'q'
parameter (see comments under D3DTSS_TEXTURETRANSFORMFLAGS */
if ((This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXTURETRANSFORMFLAGS] != D3DTTFF_DISABLE) &&
(This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXTURETRANSFORMFLAGS] & D3DTTFF_PROJECTED)) {
if (This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXTURETRANSFORMFLAGS] & D3DTTFF_PROJECTED) {
switch (coordsToUse) {
case 0: /* Drop Through */
case 1:
FIXME("D3DTTFF_PROJECTED but only zero or one coordinate?\n");
break;
case 2:
q = t;
t = 0.0;
coordsToUse = 4;
break;
case 3:
q = r;
r = 0.0;
coordsToUse = 4;
break;
case 4: /* Nop here */
break;
default:
FIXME("Unexpected D3DTSS_TEXTURETRANSFORMFLAGS value of %ld\n",
This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXTURETRANSFORMFLAGS] & D3DTTFF_PROJECTED);
}
}
}
switch (coordsToUse) { /* Supply the provided texture coords */
case D3DTTFF_COUNT1:
VTRACE(("tex:%d, s=%f\n", textureNo, s));
if (GL_SUPPORT(ARB_MULTITEXTURE)) {
#if defined(GL_VERSION_1_3)
glMultiTexCoord1f(GL_TEXTURE0 + textureNo, s);
#else
glMultiTexCoord1fARB(GL_TEXTURE0_ARB + textureNo, s);
#endif
} else {
glTexCoord1f(s);
}
break;
case D3DTTFF_COUNT2:
VTRACE(("tex:%d, s=%f, t=%f\n", textureNo, s, t));
if (GL_SUPPORT(ARB_MULTITEXTURE)) {
#if defined(GL_VERSION_1_3)
glMultiTexCoord2f(GL_TEXTURE0 + textureNo, s, t);
#else
glMultiTexCoord2fARB(GL_TEXTURE0_ARB + textureNo, s, t);
#endif
} else {
glTexCoord2f(s, t);
}
break;
case D3DTTFF_COUNT3:
VTRACE(("tex:%d, s=%f, t=%f, r=%f\n", textureNo, s, t, r));
if (GL_SUPPORT(ARB_MULTITEXTURE)) {
#if defined(GL_VERSION_1_3)
glMultiTexCoord3f(GL_TEXTURE0 + textureNo, s, t, r);
#else
glMultiTexCoord3fARB(GL_TEXTURE0_ARB + textureNo, s, t, r);
#endif
} else {
glTexCoord3f(s, t, r);
}
break;
case D3DTTFF_COUNT4:
VTRACE(("tex:%d, s=%f, t=%f, r=%f, q=%f\n", textureNo, s, t, r, q));
if (GL_SUPPORT(ARB_MULTITEXTURE)) {
#if defined(GL_VERSION_1_3)
glMultiTexCoord4f(GL_TEXTURE0 + textureNo, s, t, r, q);
#else
glMultiTexCoord4fARB(GL_TEXTURE0_ARB + textureNo, s, t, r, q);
#endif
} else {
glTexCoord4f(s, t, r, q);
}
break;
default:
FIXME("Should not get here as coordsToUse is two bits only (%x)!\n", coordsToUse);
}
}
}
} /* End of textures */
/* Diffuse -------------------------------- */
if (sd->u.s.diffuse.lpData != NULL) {
glColor4ub((diffuseColor >> 16) & 0xFF,
(diffuseColor >> 8) & 0xFF,
(diffuseColor >> 0) & 0xFF,
(diffuseColor >> 24) & 0xFF);
VTRACE(("glColor4f: r,g,b,a=%f,%f,%f,%f\n",
((diffuseColor >> 16) & 0xFF) / 255.0f,
((diffuseColor >> 8) & 0xFF) / 255.0f,
((diffuseColor >> 0) & 0xFF) / 255.0f,
((diffuseColor >> 24) & 0xFF) / 255.0f));
} else {
if (vx_index == 0) glColor4f(1.0f, 1.0f, 1.0f, 1.0f);
}
/* Specular ------------------------------- */
if (sd->u.s.diffuse.lpData != NULL) {
VTRACE(("glSecondaryColor4ub: r,g,b=%f,%f,%f\n",
((specularColor >> 16) & 0xFF) / 255.0f,
((specularColor >> 8) & 0xFF) / 255.0f,
((specularColor >> 0) & 0xFF) / 255.0f));
if (GL_SUPPORT(EXT_SECONDARY_COLOR)) {
GL_EXTCALL(glSecondaryColor3ubEXT)(
(specularColor >> 16) & 0xFF,
(specularColor >> 8) & 0xFF,
(specularColor >> 0) & 0xFF);
} else {
/* Do not worry if specular colour missing and disable request */
VTRACE(("Specular color extensions not supplied\n"));
}
} else {
if (vx_index == 0) {
if (GL_SUPPORT(EXT_SECONDARY_COLOR)) {
GL_EXTCALL(glSecondaryColor3fEXT)(0, 0, 0);
} else {
/* Do not worry if specular colour missing and disable request */
VTRACE(("Specular color extensions not supplied\n"));
}
}
}
/* Normal -------------------------------- */
if (sd->u.s.normal.lpData != NULL) {
VTRACE(("glNormal:nx,ny,nz=%f,%f,%f\n", nx,ny,nz));
glNormal3f(nx, ny, nz);
} else {
if (vx_index == 0) glNormal3f(0, 0, 1);
}
/* Position -------------------------------- */
if (sd->u.s.position.lpData != NULL) {
if (1.0f == rhw || ((rhw < 0.0001f) && (rhw > -0.0001f))) {
VTRACE(("Vertex: glVertex:x,y,z=%f,%f,%f\n", x,y,z));
glVertex3f(x, y, z);
} else {
GLfloat w = 1.0 / rhw;
VTRACE(("Vertex: glVertex:x,y,z=%f,%f,%f / rhw=%f\n", x,y,z,rhw));
glVertex4f(x*w, y*w, z*w, w);
}
}
/* For non indexed mode, step onto next parts */
if (idxData == NULL) {
SkipnStrides += 1;
}
}
glEnd();
checkGLcall("glEnd and previous calls");
}
/*
* Draw with emulated vertex shaders
* Note: strided data is uninitialized, as we need to pass the vertex
* shader directly as ordering irs yet
*/
void drawStridedSoftwareVS(LPDIRECT3DDEVICE8 iface, Direct3DVertexStridedData *sd,
int PrimitiveType, ULONG NumPrimitives,
const void *idxData, short idxSize, ULONG minIndex, ULONG startIdx) {
unsigned int textureNo = 0;
GLenum glPrimType = GL_POINTS;
int NumVertexes = NumPrimitives;
const short *pIdxBufS = NULL;
const long *pIdxBufL = NULL;
LONG SkipnStrides = 0;
LONG vx_index;
float x = 0.0f, y = 0.0f, z = 0.0f; /* x,y,z coordinates */
float rhw = 0.0f; /* rhw */
float ptSize = 0.0f; /* Point size */
D3DVECTOR_4 texcoords[8]; /* Texture Coords */
int numcoords[8]; /* Number of coords */
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
IDirect3DVertexShaderImpl* vertex_shader = NULL;
TRACE("Using slow software vertex shader code\n");
/* Variable Initialization */
if (idxData != NULL) {
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if (idxSize == 2) pIdxBufS = (const short *) idxData;
else pIdxBufL = (const long *) idxData;
}
/* Ok, Work out which primitive is requested and how many vertexes that will be */
NumVertexes = primitiveToGl(PrimitiveType, NumPrimitives, &glPrimType);
/* Retrieve the VS information */
vertex_shader = VERTEX_SHADER(This->StateBlock->VertexShader);
/* Start drawing in GL */
VTRACE(("glBegin(%x)\n", glPrimType));
glBegin(glPrimType);
/* For each primitive */
for (vx_index = 0; vx_index < NumVertexes; vx_index++) {
/* For indexed data, we need to go a few more strides in */
if (idxData != NULL) {
/* Indexed so work out the number of strides to skip */
if (idxSize == 2) {
VTRACE(("Idx for vertex %ld = %d\n", vx_index, pIdxBufS[startIdx+vx_index]));
SkipnStrides = pIdxBufS[startIdx+vx_index];
} else {
VTRACE(("Idx for vertex %ld = %ld\n", vx_index, pIdxBufL[startIdx+vx_index]));
SkipnStrides = pIdxBufL[startIdx+vx_index];
}
}
/* Fill the vertex shader input */
IDirect3DDeviceImpl_FillVertexShaderInputSW(This, vertex_shader, SkipnStrides);
/* Initialize the output fields to the same defaults as it would normally have */
memset(&vertex_shader->output, 0, sizeof(VSHADEROUTPUTDATA8));
vertex_shader->output.oD[0].x = 1.0;
vertex_shader->output.oD[0].y = 1.0;
vertex_shader->output.oD[0].z = 1.0;
vertex_shader->output.oD[0].w = 1.0;
/* Now execute the vertex shader */
IDirect3DVertexShaderImpl_ExecuteSW(vertex_shader, &vertex_shader->input, &vertex_shader->output);
/*
TRACE_VECTOR(vertex_shader->output.oPos);
TRACE_VECTOR(vertex_shader->output.oD[0]);
TRACE_VECTOR(vertex_shader->output.oD[1]);
TRACE_VECTOR(vertex_shader->output.oT[0]);
TRACE_VECTOR(vertex_shader->output.oT[1]);
TRACE_VECTOR(vertex_shader->input.V[0]);
TRACE_VECTOR(vertex_shader->data->C[0]);
TRACE_VECTOR(vertex_shader->data->C[1]);
TRACE_VECTOR(vertex_shader->data->C[2]);
TRACE_VECTOR(vertex_shader->data->C[3]);
TRACE_VECTOR(vertex_shader->data->C[4]);
TRACE_VECTOR(vertex_shader->data->C[5]);
TRACE_VECTOR(vertex_shader->data->C[6]);
TRACE_VECTOR(vertex_shader->data->C[7]);
*/
/* Extract out the output */
/*FIXME: Fog coords? */
x = vertex_shader->output.oPos.x;
y = vertex_shader->output.oPos.y;
z = vertex_shader->output.oPos.z;
rhw = vertex_shader->output.oPos.w;
ptSize = vertex_shader->output.oPts.x; /* Fixme - Is this right? */
/** Update textures coords using vertex_shader->output.oT[0->7] */
memset(texcoords, 0x00, sizeof(texcoords));
memset(numcoords, 0x00, sizeof(numcoords));
for (textureNo = 0; textureNo < GL_LIMITS(textures); ++textureNo) {
if (This->StateBlock->textures[textureNo] != NULL) {
texcoords[textureNo].x = vertex_shader->output.oT[textureNo].x;
texcoords[textureNo].y = vertex_shader->output.oT[textureNo].y;
texcoords[textureNo].z = vertex_shader->output.oT[textureNo].z;
texcoords[textureNo].w = vertex_shader->output.oT[textureNo].w;
if (This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXTURETRANSFORMFLAGS] != D3DTTFF_DISABLE) {
numcoords[textureNo] = This->UpdateStateBlock->texture_state[textureNo][D3DTSS_TEXTURETRANSFORMFLAGS] & ~D3DTTFF_PROJECTED;
} else {
switch (IDirect3DBaseTexture8Impl_GetType((LPDIRECT3DBASETEXTURE8) This->StateBlock->textures[textureNo])) {
case D3DRTYPE_TEXTURE: numcoords[textureNo] = 2; break;
case D3DRTYPE_VOLUMETEXTURE: numcoords[textureNo] = 3; break;
default: numcoords[textureNo] = 4;
}
}
} else {
numcoords[textureNo] = 0;
}
}
/* Draw using this information */
draw_vertex(iface,
TRUE, x, y, z, rhw,
TRUE, 0.0f, 0.0f, 1.0f,
TRUE, (float*) &vertex_shader->output.oD[0],
TRUE, (float*) &vertex_shader->output.oD[1],
FALSE, ptSize, /* FIXME: Change back when supported */
texcoords, numcoords);
/* For non indexed mode, step onto next parts */
if (idxData == NULL) {
SkipnStrides += 1;
}
} /* for each vertex */
glEnd();
checkGLcall("glEnd and previous calls");
}
void drawStridedHardwareVS(LPDIRECT3DDEVICE8 iface, Direct3DVertexStridedData *sd,
int PrimitiveType, ULONG NumPrimitives,
const void *idxData, short idxSize, ULONG minIndex, ULONG startIdx) {
IDirect3DVertexShaderImpl* vertex_shader = NULL;
int i;
int NumVertexes;
int glPrimType;
int maxAttribs;
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
TRACE("Drawing with hardware vertex shaders\n");
/* Retrieve the VS information */
vertex_shader = VERTEX_SHADER(This->StateBlock->VertexShader);
/* Enable the Vertex Shader */
GL_EXTCALL(glBindProgramARB(GL_VERTEX_PROGRAM_ARB, vertex_shader->prgId));
checkGLcall("glBindProgramARB(GL_VERTEX_PROGRAM_ARB, vertex_shader->prgId);");
glEnable(GL_VERTEX_PROGRAM_ARB);
checkGLcall("glEnable(GL_VERTEX_PROGRAM_ARB);");
/* Update the constants */
for (i=0; i<D3D8_VSHADER_MAX_CONSTANTS; i++) {
GL_EXTCALL(glProgramEnvParameter4fvARB(GL_VERTEX_PROGRAM_ARB, i, (GLfloat *)&This->StateBlock->vertexShaderConstant[i]));
checkGLcall("glProgramEnvParameter4fvARB(GL_VERTEX_PROGRAM_ARB");
}
/* Set up the vertex.attr[n] inputs */
IDirect3DDeviceImpl_FillVertexShaderInputArbHW(This, vertex_shader, 0);
/* Ok, Work out which primitive is requested and how many vertexes that
will be */
NumVertexes = primitiveToGl(PrimitiveType, NumPrimitives, &glPrimType);
/* Finally do the drawing */
if (idxData != NULL) {
TRACE("glElements(%x, %d, %ld, ...)\n", glPrimType, NumVertexes, minIndex);
#if 1 /* FIXME: Want to use DrawRangeElements, but wrong calculation! */
glDrawElements(glPrimType, NumVertexes, idxSize==2?GL_UNSIGNED_SHORT:GL_UNSIGNED_INT,
2004-11-30 22:38:57 +01:00
(const char *)idxData+(idxSize * startIdx));
#else
glDrawRangeElements(glPrimType, minIndex, minIndex+NumVertexes-1, NumVertexes,
idxSize==2?GL_UNSIGNED_SHORT:GL_UNSIGNED_INT,
2004-11-30 22:38:57 +01:00
(const char *)idxData+(idxSize * startIdx));
#endif
checkGLcall("glDrawRangeElements");
} else {
/* Note first is now zero as we shuffled along earlier */
TRACE("glDrawArrays(%x, 0, %d)\n", glPrimType, NumVertexes);
glDrawArrays(glPrimType, 0, NumVertexes);
checkGLcall("glDrawArrays");
}
{
GLint errPos;
glGetIntegerv( GL_PROGRAM_ERROR_POSITION_ARB, &errPos );
if (errPos != -1)
FIXME("HW VertexShader Error at position: %d\n%s\n", errPos, glGetString( GL_PROGRAM_ERROR_STRING_ARB) );
}
/* Leave all the attribs disabled */
glGetIntegerv( GL_MAX_VERTEX_ATTRIBS_ARB, &maxAttribs);
/* MESA does not support it right not */
if (glGetError() != GL_NO_ERROR)
maxAttribs = 16;
for (i=0; i<maxAttribs; i++) {
GL_EXTCALL(glDisableVertexAttribArrayARB(i));
checkGLcall("glDisableVertexAttribArrayARB(reg);");
}
/* Done */
glDisable(GL_VERTEX_PROGRAM_ARB);
}
/* Routine common to the draw primitive and draw indexed primitive routines */
void drawPrimitive(LPDIRECT3DDEVICE8 iface,
int PrimitiveType, long NumPrimitives,
/* for Indexed: */
long StartVertexIndex,
long StartIdx,
short idxSize,
const void *idxData,
int minIndex) {
BOOL rc = FALSE;
DWORD fvf = 0;
IDirect3DVertexShaderImpl *vertex_shader = NULL;
IDirect3DPixelShaderImpl *pixel_shader = NULL;
BOOL useVertexShaderFunction = FALSE;
BOOL isLightingOn = FALSE;
Direct3DVertexStridedData dataLocations;
IDirect3DDevice8Impl *This = (IDirect3DDevice8Impl *)iface;
unsigned int i;
int useHW = FALSE;
/* Work out what the FVF should look like */
rc = initializeFVF(iface, &fvf, &useVertexShaderFunction);
if (rc) return;
/* If we will be using a vertex shader, do some initialization for it */
if (useVertexShaderFunction) {
vertex_shader = VERTEX_SHADER(This->UpdateStateBlock->VertexShader);
memset(&vertex_shader->input, 0, sizeof(VSHADERINPUTDATA8));
useHW = (((vs_mode == VS_HW) && GL_SUPPORT(ARB_VERTEX_PROGRAM)) &&
This->devType != D3DDEVTYPE_REF &&
!This->StateBlock->renderstate[D3DRS_SOFTWAREVERTEXPROCESSING] &&
vertex_shader->usage != D3DUSAGE_SOFTWAREPROCESSING);
/** init Constants */
if (This->UpdateStateBlock->Changed.vertexShaderConstant) {
TRACE_(d3d_shader)("vertex shader initializing constants\n");
IDirect3DVertexShaderImpl_SetConstantF(vertex_shader, 0, (CONST FLOAT*) &This->UpdateStateBlock->vertexShaderConstant[0], 96);
}
}
/* Ok, we will be updating the screen from here onwards so grab the lock */
ENTER_GL();
/* If we will be using a pixel, do some initialization for it */
if ((pixel_shader = PIXEL_SHADER(This->UpdateStateBlock->PixelShader))) {
TRACE("drawing with pixel shader handle %p\n", pixel_shader);
memset(&pixel_shader->input, 0, sizeof(PSHADERINPUTDATA8));
GL_EXTCALL(glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, pixel_shader->prgId));
checkGLcall("glBindProgramARB(GL_FRAGMENT_PROGRAM_ARB, pixel_shader->prgId);");
glEnable(GL_FRAGMENT_PROGRAM_ARB);
checkGLcall("glEnable(GL_FRAGMENT_PROGRAM_ARB);");
/* init Constants */
if (This->UpdateStateBlock->Changed.pixelShaderConstant) {
TRACE_(d3d_shader)("pixel shader initializing constants %p\n",pixel_shader);
IDirect3DPixelShaderImpl_SetConstantF(pixel_shader, 0, (CONST FLOAT*) &This->UpdateStateBlock->pixelShaderConstant[0], 8);
}
/* Update the constants */
for (i=0; i<D3D8_PSHADER_MAX_CONSTANTS; i++) {
GL_EXTCALL(glProgramEnvParameter4fvARB(GL_FRAGMENT_PROGRAM_ARB, i, (GLfloat *)&This->StateBlock->pixelShaderConstant[i]));
checkGLcall("glProgramEnvParameter4fvARB(GL_FRAGMENT_PROGRAM_ARB");
}
}
/* Setup transform matrices and sort out */
if (useHW) {
/* Lighting is not completely bypassed with ATI drivers although it should be. Mesa is ok from this respect...
So make sure lighting is disabled. */
isLightingOn = glIsEnabled(GL_LIGHTING);
glDisable(GL_LIGHTING);
checkGLcall("glDisable(GL_LIGHTING);");
TRACE("Disabled lighting as no normals supplied, old state = %d\n", isLightingOn);
} else
isLightingOn = primitiveInitState(iface,
fvf & D3DFVF_XYZRHW,
!(fvf & D3DFVF_NORMAL),
useVertexShaderFunction);
/* Initialize all values to null */
if (useVertexShaderFunction == FALSE) {
memset(&dataLocations, 0x00, sizeof(dataLocations));
/* Convert to strided data */
primitiveConvertToStridedData(iface, &dataLocations, StartVertexIndex);
/* Dump out what parts we have supplied */
TRACE("Strided Data (from FVF/VS): %lx\n", fvf);
TRACE_STRIDED((&dataLocations), position);
TRACE_STRIDED((&dataLocations), blendWeights);
TRACE_STRIDED((&dataLocations), blendMatrixIndices);
TRACE_STRIDED((&dataLocations), normal);
TRACE_STRIDED((&dataLocations), pSize);
TRACE_STRIDED((&dataLocations), diffuse);
TRACE_STRIDED((&dataLocations), specular);
TRACE_STRIDED((&dataLocations), texCoords[0]);
TRACE_STRIDED((&dataLocations), texCoords[1]);
TRACE_STRIDED((&dataLocations), texCoords[2]);
TRACE_STRIDED((&dataLocations), texCoords[3]);
TRACE_STRIDED((&dataLocations), texCoords[4]);
TRACE_STRIDED((&dataLocations), texCoords[5]);
TRACE_STRIDED((&dataLocations), texCoords[6]);
TRACE_STRIDED((&dataLocations), texCoords[7]);
}
/* Now initialize the materials state */
init_materials(iface, (dataLocations.u.s.diffuse.lpData != NULL));
/* And re-upload any dirty textures */
for (i=0; i<GL_LIMITS(textures); i++) {
if ((This->StateBlock->textures[i] != NULL) &&
(IDirect3DBaseTexture8Impl_IsDirty(This->StateBlock->textures[i])))
{
/* Load up the texture now */
IDirect3DTexture8Impl_PreLoad((LPDIRECT3DTEXTURE8) This->StateBlock->textures[i]);
}
}
/* Now draw the graphics to the screen */
if (useVertexShaderFunction) {
/* Ideally, we should have software FV and hardware VS, possibly
depending on the device type? */
if (useHW) {
TRACE("Swap HW vertex shader\n");
drawStridedHardwareVS(iface, &dataLocations, PrimitiveType, NumPrimitives,
idxData, idxSize, minIndex, StartIdx);
} else {
/* We will have to use the very, very slow emulation layer */
TRACE("Swap SW vertex shader\n");
drawStridedSoftwareVS(iface, &dataLocations, PrimitiveType, NumPrimitives,
idxData, idxSize, minIndex, StartIdx);
}
} else if ((dataLocations.u.s.pSize.lpData != NULL) ||
(dataLocations.u.s.diffuse.lpData != NULL) ||
(dataLocations.u.s.blendWeights.lpData != NULL)) {
/* Fixme, Ideally, only use the per-vertex code for software HAL
but until opengl supports all the functions returned to setup
vertex arrays, we need to drop down to the slow mechanism for
certain functions */
/* We will have to use the slow version of GL per vertex setup */
drawStridedSlow(iface, &dataLocations, PrimitiveType, NumPrimitives,
idxData, idxSize, minIndex, StartIdx);
} else {
/* We can use the fast version of GL pointers */
drawStridedFast(iface, &dataLocations, PrimitiveType, NumPrimitives,
idxData, idxSize, minIndex, StartIdx);
}
/* If vertex shaders or no normals, restore previous lighting state */
if (useVertexShaderFunction || !(fvf & D3DFVF_NORMAL)) {
if (isLightingOn) glEnable(GL_LIGHTING);
else glDisable(GL_LIGHTING);
TRACE("Restored lighting to original state\n");
}
if (pixel_shader)
{
#if 0
GLint errPos;
glGetIntegerv( GL_PROGRAM_ERROR_POSITION_ARB, &errPos );
if (errPos != -1)
FIXME("HW PixelShader Error at position: %d\n%s\n", errPos, glGetString( GL_PROGRAM_ERROR_STRING_ARB) );
#endif
glDisable(GL_FRAGMENT_PROGRAM_ARB);
}
/* Finshed updating the screen, restore lock */
LEAVE_GL();
TRACE("Done all gl drawing\n");
/* Diagnostics */
#if defined(SHOW_FRAME_MAKEUP)
{
if (isDumpingFrames) {
D3DLOCKED_RECT r;
char buffer[80];
IDirect3DSurface8Impl_LockRect((LPDIRECT3DSURFACE8) This->renderTarget, &r, NULL, D3DLOCK_READONLY);
sprintf(buffer, "/tmp/backbuffer_%ld.ppm", primCounter);
TRACE("Saving screenshot %s\n", buffer);
IDirect3DSurface8Impl_SaveSnapshot((LPDIRECT3DSURFACE8) This->renderTarget, buffer);
IDirect3DSurface8Impl_UnlockRect((LPDIRECT3DSURFACE8) This->renderTarget);
#if defined(SHOW_TEXTURE_MAKEUP)
{
LPDIRECT3DSURFACE8 pSur;
int textureNo;
for (textureNo = 0; textureNo < GL_LIMITS(textures); ++textureNo) {
if (This->StateBlock->textures[textureNo] != NULL) {
sprintf(buffer, "/tmp/texture_%ld_%d.ppm", primCounter, textureNo);
TRACE("Saving texture %s (Format:%s)\n", buffer, debug_d3dformat(((IDirect3DBaseTexture8Impl *)This->StateBlock->textures[textureNo])->format));
IDirect3DTexture8Impl_GetSurfaceLevel((LPDIRECT3DTEXTURE8) This->StateBlock->textures[textureNo], 0, &pSur);
IDirect3DSurface8Impl_SaveSnapshot(pSur, buffer);
IDirect3DSurface8Impl_Release(pSur);
}
}
}
#endif
primCounter = primCounter + 1;
}
}
#endif
}