/****************************************************************************
*
* 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/2000/XP/XBox (Win32)
*
* Description: Primitive (points/lines/tris/quads) rendering
*
****************************************************************************/
//#include "../GLDirect.h"
//#include "gld_dx8.h"
#include "dglcontext.h"
#include "ddlog.h"
#include "gld_dx8.h"
#include "glheader.h"
#include "context.h"
#include "colormac.h"
#include "depth.h"
#include "extensions.h"
#include "macros.h"
#include "matrix.h"
// #include "mem.h"
//#include "mmath.h"
#include "mtypes.h"
#include "texformat.h"
#include "texstore.h"
#include "vbo/vbo.h"
#include "swrast/swrast.h"
#include "swrast_setup/swrast_setup.h"
#include "swrast_setup/ss_context.h"
#include "swrast/s_context.h"
#include "swrast/s_depth.h"
#include "swrast/s_lines.h"
#include "swrast/s_triangle.h"
#include "swrast/s_trispan.h"
#include "tnl/tnl.h"
#include "tnl/t_context.h"
#include "tnl/t_pipeline.h"
// Disable compiler complaints about unreferenced local variables
#pragma warning (disable:4101)
//---------------------------------------------------------------------------
// Helper defines for primitives
//---------------------------------------------------------------------------
//static const float ooZ = 1.0f / 65536.0f; // One over Z
#define GLD_COLOUR (D3DCOLOR_RGBA(swv->color[0], swv->color[1], swv->color[2], swv->color[3]))
#define GLD_SPECULAR (D3DCOLOR_RGBA(swv->specular[0], swv->specular[1], swv->specular[2], swv->specular[3]))
#define GLD_FLIP_Y(y) (gldCtx->dwHeight - (y))
//---------------------------------------------------------------------------
// 2D vertex setup
//---------------------------------------------------------------------------
#define GLD_SETUP_2D_VARS_POINTS \
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx); \
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx); \
GLD_2D_VERTEX *pV = (GLD_2D_VERTEX*)gld->PB2d.pPoints; \
SScontext *ss = SWSETUP_CONTEXT(ctx); \
SWvertex *swv; \
DWORD dwSpecularColour; \
DWORD dwFlatColour
#define GLD_SETUP_2D_VARS_LINES \
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx); \
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx); \
GLD_2D_VERTEX *pV = (GLD_2D_VERTEX*)gld->PB2d.pLines; \
SScontext *ss = SWSETUP_CONTEXT(ctx); \
SWvertex *swv; \
DWORD dwSpecularColour; \
DWORD dwFlatColour
#define GLD_SETUP_2D_VARS_TRIANGLES \
BOOL bFog = ctx->Fog.Enabled; \
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx); \
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx); \
GLD_2D_VERTEX *pV = (GLD_2D_VERTEX*)gld->PB2d.pTriangles; \
SScontext *ss = SWSETUP_CONTEXT(ctx); \
SWvertex *swv; \
DWORD dwSpecularColour; \
DWORD dwFlatColour; \
GLuint facing = 0; \
struct vertex_buffer *VB; \
GLchan (*vbcolor)[4]; \
GLchan (*vbspec)[4]
#define GLD_SETUP_GET_SWVERT(s) \
swv = &ss->verts[##s]
#define GLD_SETUP_2D_VERTEX \
pV->x = swv->win[0]; \
pV->y = GLD_FLIP_Y(swv->win[1]); \
pV->rhw = swv->win[3]
#define GLD_SETUP_SMOOTH_COLOUR \
pV->diffuse = GLD_COLOUR
#define GLD_SETUP_GET_FLAT_COLOUR \
dwFlatColour = GLD_COLOUR
#define GLD_SETUP_GET_FLAT_FOG_COLOUR \
dwFlatColour = _gldComputeFog(ctx, swv)
#define GLD_SETUP_USE_FLAT_COLOUR \
pV->diffuse = dwFlatColour
#define GLD_SETUP_GET_FLAT_SPECULAR \
dwSpecularColour= GLD_SPECULAR
#define GLD_SETUP_USE_FLAT_SPECULAR \
pV->specular = dwSpecularColour
#define GLD_SETUP_DEPTH \
pV->sz = swv->win[2] / ctx->DepthMaxF
// pV->z = swv->win[2] * ooZ;
#define GLD_SETUP_SPECULAR \
pV->specular = GLD_SPECULAR
#define GLD_SETUP_FOG \
pV->diffuse = _gldComputeFog(ctx, swv)
#define GLD_SETUP_TEX0 \
pV->t0_u = swv->texcoord[0][0]; \
pV->t0_v = swv->texcoord[0][1]
#define GLD_SETUP_TEX1 \
pV->t1_u = swv->texcoord[1][0]; \
pV->t1_v = swv->texcoord[1][1]
#define GLD_SETUP_LIGHTING(v) \
if (facing == 1) { \
pV->diffuse = D3DCOLOR_RGBA(vbcolor[##v][0], vbcolor[##v][1], vbcolor[##v][2], vbcolor[##v][3]); \
if (vbspec) { \
pV->specular = D3DCOLOR_RGBA(vbspec[##v][0], vbspec[##v][1], vbspec[##v][2], vbspec[##v][3]); \
} \
} else { \
if (bFog) \
GLD_SETUP_FOG; \
else \
GLD_SETUP_SMOOTH_COLOUR; \
GLD_SETUP_SPECULAR; \
}
#define GLD_SETUP_GET_FLAT_LIGHTING(v) \
if (facing == 1) { \
dwFlatColour = D3DCOLOR_RGBA(vbcolor[##v][0], vbcolor[##v][1], vbcolor[##v][2], vbcolor[##v][3]); \
if (vbspec) { \
dwSpecularColour = D3DCOLOR_RGBA(vbspec[##v][0], vbspec[##v][1], vbspec[##v][2], vbspec[##v][3]); \
} \
}
#define GLD_SETUP_TWOSIDED_LIGHTING \
/* Two-sided lighting */ \
if (ctx->_TriangleCaps & DD_TRI_LIGHT_TWOSIDE) { \
SWvertex *verts = SWSETUP_CONTEXT(ctx)->verts; \
SWvertex *v[3]; \
GLfloat ex,ey,fx,fy,cc; \
/* Get vars for later */ \
VB = &TNL_CONTEXT(ctx)->vb; \
vbcolor = (GLchan (*)[4])VB->BackfaceColorPtr->data; \
if (VB->BackfaceSecondaryColorPtr) { \
vbspec = (GLchan (*)[4])VB->BackfaceSecondaryColorPtr->data; \
} else { \
vbspec = NULL; \
} \
v[0] = &verts[v0]; \
v[1] = &verts[v1]; \
v[2] = &verts[v2]; \
ex = v[0]->win[0] - v[2]->win[0]; \
ey = v[0]->win[1] - v[2]->win[1]; \
fx = v[1]->win[0] - v[2]->win[0]; \
fy = v[1]->win[1] - v[2]->win[1]; \
cc = ex*fy - ey*fx; \
facing = (cc < 0.0) ^ ctx->Polygon._FrontBit; \
}
//---------------------------------------------------------------------------
// 3D vertex setup
//---------------------------------------------------------------------------
#define GLD_SETUP_3D_VARS_POINTS \
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx); \
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx); \
GLD_3D_VERTEX *pV = (GLD_3D_VERTEX*)gld->PB3d.pPoints; \
TNLcontext *tnl = TNL_CONTEXT(ctx); \
struct vertex_buffer *VB = &tnl->vb; \
GLfloat (*p4f)[4]; \
GLfloat (*tc)[4]; \
DWORD dwColor;
#define GLD_SETUP_3D_VARS_LINES \
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx); \
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx); \
GLD_3D_VERTEX *pV = (GLD_3D_VERTEX*)gld->PB3d.pLines; \
TNLcontext *tnl = TNL_CONTEXT(ctx); \
struct vertex_buffer *VB = &tnl->vb; \
GLfloat (*p4f)[4]; \
GLfloat (*tc)[4]; \
DWORD dwColor;
#define GLD_SETUP_3D_VARS_TRIANGLES \
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx); \
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx); \
GLD_3D_VERTEX *pV = (GLD_3D_VERTEX*)gld->PB3d.pTriangles; \
TNLcontext *tnl = TNL_CONTEXT(ctx); \
struct vertex_buffer *VB = &tnl->vb; \
GLfloat (*p4f)[4]; \
GLfloat (*tc)[4]; \
DWORD dwColor;
#define GLD_SETUP_3D_VERTEX(v) \
p4f = VB->AttribPtr[_TNL_ATTRIB_POS]->data; \
pV->Position.x = p4f[##v][0]; \
pV->Position.y = p4f[##v][1]; \
pV->Position.z = p4f[##v][2];
#define GLD_SETUP_SMOOTH_COLOUR_3D(v) \
p4f = (GLfloat (*)[4])VB->AttribPtr[_TNL_ATTRIB_COLOR0]->data; \
pV->Diffuse = D3DCOLOR_COLORVALUE(p4f[##v][0], p4f[##v][1], p4f[##v][2], p4f[##v][3]);
#define GLD_SETUP_GET_FLAT_COLOUR_3D(v) \
p4f = (GLfloat (*)[4])VB->AttribPtr[_TNL_ATTRIB_COLOR0]->data; \
dwColor = D3DCOLOR_COLORVALUE(p4f[##v][0], p4f[##v][1], p4f[##v][2], p4f[##v][3]);
#define GLD_SETUP_USE_FLAT_COLOUR_3D \
pV->Diffuse = dwColor;
#define GLD_SETUP_TEX0_3D(v) \
if (VB->AttribPtr[_TNL_ATTRIB_TEX0]) { \
tc = VB->TnlAttribPtr[_TNL_ATTRIB_TEX0]->data; \
pV->TexUnit0.x = tc[##v][0]; \
pV->TexUnit0.y = tc[##v][1]; \
}
#define GLD_SETUP_TEX1_3D(v) \
if (VB->TnlAttribPtr[_TNL_ATTRIB_TEX1]) { \
tc = VB->TnlAttribPtr[_TNL_ATTRIB_TEX1]->data; \
pV->TexUnit1.x = tc[##v][0]; \
pV->TexUnit1.y = tc[##v][1]; \
}
//---------------------------------------------------------------------------
// Helper functions
//---------------------------------------------------------------------------
__inline DWORD _gldComputeFog(
GLcontext *ctx,
SWvertex *swv)
{
// Full fog calculation.
// Based on Mesa code.
GLchan rFog, gFog, bFog;
GLchan fR, fG, fB;
const GLfloat f = swv->fog;
const GLfloat g = 1.0f - f;
UNCLAMPED_FLOAT_TO_CHAN(rFog, ctx->Fog.Color[RCOMP]);
UNCLAMPED_FLOAT_TO_CHAN(gFog, ctx->Fog.Color[GCOMP]);
UNCLAMPED_FLOAT_TO_CHAN(bFog, ctx->Fog.Color[BCOMP]);
fR = f * swv->color[0] + g * rFog;
fG = f * swv->color[1] + g * gFog;
fB = f * swv->color[2] + g * bFog;
return D3DCOLOR_RGBA(fR, fG, fB, swv->color[3]);
}
//---------------------------------------------------------------------------
void gld_ResetLineStipple_DX8(
GLcontext *ctx)
{
// TODO: Fake stipple with a 32x32 texture.
}
//---------------------------------------------------------------------------
// 2D (post-transformed) primitives
//---------------------------------------------------------------------------
void gld_Points2D_DX8(
GLcontext *ctx,
GLuint first,
GLuint last)
{
GLD_SETUP_2D_VARS_POINTS;
unsigned i;
struct vertex_buffer *VB = &TNL_CONTEXT(ctx)->vb;
// _Size is already clamped to MaxPointSize and MinPointSize
IDirect3DDevice8_SetRenderState(gld->pDev, D3DRS_POINTSIZE, *((DWORD*)&ctx->Point._Size));
if (VB->Elts) {
for (i=first; i<last; i++, pV++) {
if (VB->ClipMask[VB->Elts[i]] == 0) {
// _swrast_Point( ctx, &verts[VB->Elts[i]] );
GLD_SETUP_GET_SWVERT(VB->Elts[i]);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_SPECULAR;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
}
}
} else {
GLD_SETUP_GET_SWVERT(first);
for (i=first; i<last; i++, swv++, pV++) {
if (VB->ClipMask[i] == 0) {
// _swrast_Point( ctx, &verts[i] );
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_SPECULAR;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
}
}
}
gld->PB2d.pPoints = (BYTE*)pV;
gld->PB2d.nPoints += (last-first);
}
//---------------------------------------------------------------------------
void gld_Line2DFlat_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1)
{
GLD_SETUP_2D_VARS_LINES;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_GET_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_GET_FLAT_SPECULAR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
gld->PB2d.pLines = (BYTE*)pV;
gld->PB2d.nLines++;
}
//---------------------------------------------------------------------------
void gld_Line2DSmooth_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1)
{
GLD_SETUP_2D_VARS_LINES;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_SPECULAR;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_SPECULAR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
gld->PB2d.pLines = (BYTE*)pV;
gld->PB2d.nLines++;
}
//---------------------------------------------------------------------------
void gld_Triangle2DFlat_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2)
{
GLD_SETUP_2D_VARS_TRIANGLES;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_GET_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;
gld->PB2d.pTriangles = (BYTE*)pV;
gld->PB2d.nTriangles++;
}
//---------------------------------------------------------------------------
void gld_Triangle2DSmooth_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2)
{
GLD_SETUP_2D_VARS_TRIANGLES;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
gld->PB2d.pTriangles = (BYTE*)pV;
gld->PB2d.nTriangles++;
}
//---------------------------------------------------------------------------
void gld_Triangle2DFlatExtras_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2)
{
GLD_SETUP_2D_VARS_TRIANGLES;
GLD_SETUP_TWOSIDED_LIGHTING(v2);
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
if (bFog)
GLD_SETUP_GET_FLAT_FOG_COLOUR;
else
GLD_SETUP_GET_FLAT_COLOUR;
GLD_SETUP_GET_FLAT_SPECULAR;
GLD_SETUP_GET_FLAT_LIGHTING(v2);
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
gld->PB2d.pTriangles = (BYTE*)pV;
gld->PB2d.nTriangles++;
}
//---------------------------------------------------------------------------
void gld_Triangle2DSmoothExtras_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2)
{
GLD_SETUP_2D_VARS_TRIANGLES;
GLD_SETUP_TWOSIDED_LIGHTING(v0);
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v0);
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v1);
pV++;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v2);
pV++;
gld->PB2d.pTriangles = (BYTE*)pV;
gld->PB2d.nTriangles++;
}
//---------------------------------------------------------------------------
void gld_Quad2DFlat_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2,
GLuint v3)
{
GLD_SETUP_2D_VARS_TRIANGLES;
GLD_SETUP_GET_SWVERT(v3);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_GET_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;
GLD_SETUP_GET_SWVERT(v3);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
pV++;
gld->PB2d.pTriangles = (BYTE*)pV;
gld->PB2d.nTriangles += 2;
}
//---------------------------------------------------------------------------
void gld_Quad2DSmooth_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2,
GLuint v3)
{
GLD_SETUP_2D_VARS_TRIANGLES;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
GLD_SETUP_GET_SWVERT(v3);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_SMOOTH_COLOUR;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
pV++;
gld->PB2d.pTriangles = (BYTE*)pV;
gld->PB2d.nTriangles += 2;
}
//---------------------------------------------------------------------------
void gld_Quad2DFlatExtras_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2,
GLuint v3)
{
GLD_SETUP_2D_VARS_TRIANGLES;
GLD_SETUP_TWOSIDED_LIGHTING(v3);
GLD_SETUP_GET_SWVERT(v3);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
if (bFog)
GLD_SETUP_GET_FLAT_FOG_COLOUR;
else
GLD_SETUP_GET_FLAT_COLOUR;
GLD_SETUP_GET_FLAT_SPECULAR;
GLD_SETUP_GET_FLAT_LIGHTING(v3);
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
GLD_SETUP_GET_SWVERT(v3);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_USE_FLAT_COLOUR;
GLD_SETUP_USE_FLAT_SPECULAR;
pV++;
gld->PB2d.pTriangles = (BYTE*)pV;
gld->PB2d.nTriangles += 2;
}
//---------------------------------------------------------------------------
void gld_Quad2DSmoothExtras_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2,
GLuint v3)
{
GLD_SETUP_2D_VARS_TRIANGLES;
GLD_SETUP_TWOSIDED_LIGHTING(v0);
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v0);
pV++;
GLD_SETUP_GET_SWVERT(v1);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v1);
pV++;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v2);
pV++;
GLD_SETUP_GET_SWVERT(v2);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v2);
pV++;
GLD_SETUP_GET_SWVERT(v3);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v3);
pV++;
GLD_SETUP_GET_SWVERT(v0);
GLD_SETUP_2D_VERTEX;
GLD_SETUP_DEPTH;
GLD_SETUP_TEX0;
GLD_SETUP_TEX1;
GLD_SETUP_LIGHTING(v0);
pV++;
gld->PB2d.pTriangles = (BYTE*)pV;
gld->PB2d.nTriangles += 2;
}
//---------------------------------------------------------------------------
// 3D (pre-transformed) primitives
//---------------------------------------------------------------------------
void gld_Points3D_DX8(
GLcontext *ctx,
GLuint first,
GLuint last)
{
GLD_SETUP_3D_VARS_POINTS
unsigned i;
// struct vertex_buffer *VB = &TNL_CONTEXT(ctx)->vb;
// _Size is already clamped to MaxPointSize and MinPointSize
IDirect3DDevice8_SetRenderState(gld->pDev, D3DRS_POINTSIZE, *((DWORD*)&ctx->Point._Size));
if (VB->Elts) {
for (i=first; i<last; i++, pV++) {
if (VB->ClipMask[VB->Elts[i]] == 0) {
// _swrast_Point( ctx, &verts[VB->Elts[i]] );
// GLD_SETUP_GET_SWVERT(VB->Elts[i]);
GLD_SETUP_3D_VERTEX(VB->Elts[i])
GLD_SETUP_SMOOTH_COLOUR_3D(i)
GLD_SETUP_TEX0_3D(i)
GLD_SETUP_TEX1_3D(i)
}
}
} else {
// GLD_SETUP_GET_SWVERT(first);
for (i=first; i<last; i++, pV++) {
if (VB->ClipMask[i] == 0) {
// _swrast_Point( ctx, &verts[i] );
GLD_SETUP_3D_VERTEX(i)
GLD_SETUP_SMOOTH_COLOUR_3D(i)
GLD_SETUP_TEX0_3D(i)
GLD_SETUP_TEX1_3D(i)
}
}
}
/*
for (i=first; i<last; i++, pV++) {
GLD_SETUP_3D_VERTEX(i)
GLD_SETUP_SMOOTH_COLOUR_3D(i)
GLD_SETUP_TEX0_3D(i)
GLD_SETUP_TEX1_3D(i)
}
*/
gld->PB3d.pPoints = (BYTE*)pV;
gld->PB3d.nPoints += (last-first);
}
//---------------------------------------------------------------------------
// Line functions
//---------------------------------------------------------------------------
void gld_Line3DFlat_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1)
{
GLD_SETUP_3D_VARS_LINES
GLD_SETUP_3D_VERTEX(v1)
GLD_SETUP_GET_FLAT_COLOUR_3D(v1)
GLD_SETUP_USE_FLAT_COLOUR_3D
GLD_SETUP_TEX0_3D(v1)
GLD_SETUP_TEX1_3D(v1)
pV++;
GLD_SETUP_3D_VERTEX(v0)
GLD_SETUP_USE_FLAT_COLOUR_3D
GLD_SETUP_TEX0_3D(v0)
GLD_SETUP_TEX1_3D(v0)
pV++;
gld->PB3d.pLines = (BYTE*)pV;
gld->PB3d.nLines++;
}
//---------------------------------------------------------------------------
void gld_Line3DSmooth_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1)
{
GLD_SETUP_3D_VARS_LINES
GLD_SETUP_3D_VERTEX(v1)
GLD_SETUP_SMOOTH_COLOUR_3D(v1)
GLD_SETUP_TEX0_3D(v1)
GLD_SETUP_TEX1_3D(v1)
pV++;
GLD_SETUP_3D_VERTEX(v0)
GLD_SETUP_SMOOTH_COLOUR_3D(v0)
GLD_SETUP_TEX0_3D(v0)
GLD_SETUP_TEX1_3D(v0)
pV++;
gld->PB3d.pLines = (BYTE*)pV;
gld->PB3d.nLines++;
}
//---------------------------------------------------------------------------
// Triangle functions
//---------------------------------------------------------------------------
void gld_Triangle3DFlat_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2)
{
GLD_SETUP_3D_VARS_TRIANGLES
GLD_SETUP_3D_VERTEX(v2)
GLD_SETUP_TEX0_3D(v2)
GLD_SETUP_TEX1_3D(v2)
GLD_SETUP_GET_FLAT_COLOUR_3D(v2)
GLD_SETUP_USE_FLAT_COLOUR_3D
pV++;
GLD_SETUP_3D_VERTEX(v0)
GLD_SETUP_TEX0_3D(v0)
GLD_SETUP_TEX1_3D(v0)
GLD_SETUP_USE_FLAT_COLOUR_3D
pV++;
GLD_SETUP_3D_VERTEX(v1)
GLD_SETUP_TEX0_3D(v1)
GLD_SETUP_TEX1_3D(v1)
GLD_SETUP_USE_FLAT_COLOUR_3D
pV++;
gld->PB3d.pTriangles = (BYTE*)pV;
gld->PB3d.nTriangles++;
}
//---------------------------------------------------------------------------
void gld_Triangle3DSmooth_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2)
{
GLD_SETUP_3D_VARS_TRIANGLES
GLD_SETUP_3D_VERTEX(v0)
GLD_SETUP_SMOOTH_COLOUR_3D(v0)
GLD_SETUP_TEX0_3D(v0)
GLD_SETUP_TEX1_3D(v0)
pV++;
GLD_SETUP_3D_VERTEX(v1)
GLD_SETUP_SMOOTH_COLOUR_3D(v1)
GLD_SETUP_TEX0_3D(v1)
GLD_SETUP_TEX1_3D(v1)
pV++;
GLD_SETUP_3D_VERTEX(v2)
GLD_SETUP_SMOOTH_COLOUR_3D(v2)
GLD_SETUP_TEX0_3D(v2)
GLD_SETUP_TEX1_3D(v2)
pV++;
gld->PB3d.pTriangles = (BYTE*)pV;
gld->PB3d.nTriangles++;
}
//---------------------------------------------------------------------------
// Quad functions
//---------------------------------------------------------------------------
void gld_Quad3DFlat_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2,
GLuint v3)
{
GLD_SETUP_3D_VARS_TRIANGLES
GLD_SETUP_3D_VERTEX(v3)
GLD_SETUP_GET_FLAT_COLOUR_3D(v3)
GLD_SETUP_USE_FLAT_COLOUR_3D
GLD_SETUP_TEX0_3D(v3)
GLD_SETUP_TEX1_3D(v3)
pV++;
GLD_SETUP_3D_VERTEX(v0)
GLD_SETUP_USE_FLAT_COLOUR_3D
GLD_SETUP_TEX0_3D(v0)
GLD_SETUP_TEX1_3D(v0)
pV++;
GLD_SETUP_3D_VERTEX(v1)
GLD_SETUP_USE_FLAT_COLOUR_3D
GLD_SETUP_TEX0_3D(v1)
GLD_SETUP_TEX1_3D(v1)
pV++;
GLD_SETUP_3D_VERTEX(v1)
GLD_SETUP_USE_FLAT_COLOUR_3D
GLD_SETUP_TEX0_3D(v1)
GLD_SETUP_TEX1_3D(v1)
pV++;
GLD_SETUP_3D_VERTEX(v2)
GLD_SETUP_USE_FLAT_COLOUR_3D
GLD_SETUP_TEX0_3D(v2)
GLD_SETUP_TEX1_3D(v2)
pV++;
GLD_SETUP_3D_VERTEX(v3)
GLD_SETUP_USE_FLAT_COLOUR_3D
GLD_SETUP_TEX0_3D(v3)
GLD_SETUP_TEX1_3D(v3)
pV++;
gld->PB3d.pTriangles = (BYTE*)pV;
gld->PB3d.nTriangles += 2;
}
//---------------------------------------------------------------------------
void gld_Quad3DSmooth_DX8(
GLcontext *ctx,
GLuint v0,
GLuint v1,
GLuint v2,
GLuint v3)
{
GLD_SETUP_3D_VARS_TRIANGLES
GLD_SETUP_3D_VERTEX(v0)
GLD_SETUP_SMOOTH_COLOUR_3D(v0)
GLD_SETUP_TEX0_3D(v0)
GLD_SETUP_TEX1_3D(v0)
pV++;
GLD_SETUP_3D_VERTEX(v1)
GLD_SETUP_SMOOTH_COLOUR_3D(v1)
GLD_SETUP_TEX0_3D(v1)
GLD_SETUP_TEX1_3D(v1)
pV++;
GLD_SETUP_3D_VERTEX(v2)
GLD_SETUP_SMOOTH_COLOUR_3D(v2)
GLD_SETUP_TEX0_3D(v2)
GLD_SETUP_TEX1_3D(v2)
pV++;
GLD_SETUP_3D_VERTEX(v2)
GLD_SETUP_SMOOTH_COLOUR_3D(v2)
GLD_SETUP_TEX0_3D(v2)
GLD_SETUP_TEX1_3D(v2)
pV++;
GLD_SETUP_3D_VERTEX(v3)
GLD_SETUP_SMOOTH_COLOUR_3D(v3)
GLD_SETUP_TEX0_3D(v3)
GLD_SETUP_TEX1_3D(v3)
pV++;
GLD_SETUP_3D_VERTEX(v0)
GLD_SETUP_SMOOTH_COLOUR_3D(v0)
GLD_SETUP_TEX0_3D(v0)
GLD_SETUP_TEX1_3D(v0)
pV++;
gld->PB3d.pTriangles = (BYTE*)pV;
gld->PB3d.nTriangles += 2;
}
//---------------------------------------------------------------------------
// Vertex setup for two-sided-lighting vertex shader
//---------------------------------------------------------------------------
/*
void gld_Points2DTwoside_DX8(GLcontext *ctx, GLuint first, GLuint last)
{
// NOTE: Two-sided lighting does not apply to Points
}
//---------------------------------------------------------------------------
void gld_Line2DFlatTwoside_DX8(GLcontext *ctx, GLuint v0, GLuint v1)
{
// NOTE: Two-sided lighting does not apply to Lines
}
//---------------------------------------------------------------------------
void gld_Line2DSmoothTwoside_DX8(GLcontext *ctx, GLuint v0, GLuint v1)
{
// NOTE: Two-sided lighting does not apply to Lines
}
//---------------------------------------------------------------------------
void gld_Triangle2DFlatTwoside_DX8(GLcontext *ctx, GLuint v0, GLuint v1, GLuint v2)
{
}
//---------------------------------------------------------------------------
void gld_Triangle2DSmoothTwoside_DX8(GLcontext *ctx, GLuint v0, GLuint v1, GLuint v2)
{
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx);
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx);
GLD_TWOSIDED_VERTEX *pV = (GLD_TWOSIDED_VERTEX*)gld->PBtwosidelight.pTriangles;
SScontext *ss = SWSETUP_CONTEXT(ctx);
SWvertex *swv;
DWORD dwSpecularColour;
DWORD dwFlatColour;
GLuint facing = 0;
struct vertex_buffer *VB;
GLchan (*vbcolor)[4];
GLchan (*vbspec)[4];
// Reciprocal of DepthMax
const float ooDepthMax = 1.0f / ctx->DepthMaxF;
// 1st vert
swv = &ss->verts[v0];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 2nd vert
swv = &ss->verts[v1];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 3rd vert
swv = &ss->verts[v2];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
gld->PBtwosidelight.pTriangles = (BYTE*)pV;
gld->PBtwosidelight.nTriangles++;
}
//---------------------------------------------------------------------------
void gld_Quad2DFlatTwoside_DX8(GLcontext *ctx, GLuint v0, GLuint v1, GLuint v2, GLuint v3)
{
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx);
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx);
GLD_TWOSIDED_VERTEX *pV = (GLD_TWOSIDED_VERTEX*)gld->PBtwosidelight.pTriangles;
SScontext *ss = SWSETUP_CONTEXT(ctx);
SWvertex *swv;
DWORD dwSpecularColour;
DWORD dwFlatColour;
GLuint facing = 0;
struct vertex_buffer *VB;
GLchan (*vbcolor)[4];
GLchan (*vbspec)[4];
// Reciprocal of DepthMax
const float ooDepthMax = 1.0f / ctx->DepthMaxF;
// 1st vert
swv = &ss->verts[v0];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 2nd vert
swv = &ss->verts[v1];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 3rd vert
swv = &ss->verts[v2];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 4th vert
swv = &ss->verts[v2];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 5th vert
swv = &ss->verts[v3];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 6th vert
swv = &ss->verts[v0];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
gld->PBtwosidelight.pTriangles = (BYTE*)pV;
gld->PBtwosidelight.nTriangles += 2;
}
//---------------------------------------------------------------------------
void gld_Quad2DSmoothTwoside_DX8(GLcontext *ctx, GLuint v0, GLuint v1, GLuint v2, GLuint v3)
{
GLD_context *gldCtx = GLD_GET_CONTEXT(ctx);
GLD_driver_dx8 *gld = GLD_GET_DX8_DRIVER(gldCtx);
GLD_TWOSIDED_VERTEX *pV = (GLD_TWOSIDED_VERTEX*)gld->PBtwosidelight.pTriangles;
SScontext *ss = SWSETUP_CONTEXT(ctx);
SWvertex *swv;
DWORD dwSpecularColour;
DWORD dwFlatColour;
GLuint facing = 0;
struct vertex_buffer *VB;
GLchan (*vbcolor)[4];
GLchan (*vbspec)[4];
// Reciprocal of DepthMax
const float ooDepthMax = 1.0f / ctx->DepthMaxF;
// 1st vert
swv = &ss->verts[v0];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 2nd vert
swv = &ss->verts[v1];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 3rd vert
swv = &ss->verts[v2];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 4th vert
swv = &ss->verts[v2];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 5th vert
swv = &ss->verts[v3];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
// 6th vert
swv = &ss->verts[v0];
pV->Position.x = swv->win[0];
pV->Position.y = GLD_FLIP_Y(swv->win[1]);
pV->Position.z = swv->win[2] * ooDepthMax;
pV->Position.w = swv->win[3];
pV->TexUnit0.x = swv->texcoord[0][0];
pV->TexUnit0.y = swv->texcoord[0][1];
pV->TexUnit1.x = swv->texcoord[1][0];
pV->TexUnit1.y = swv->texcoord[1][1];
pV->FrontDiffuse = GLD_COLOUR;
pV->FrontSpecular = GLD_SPECULAR;
pV++;
gld->PBtwosidelight.pTriangles = (BYTE*)pV;
gld->PBtwosidelight.nTriangles += 2;
}
//---------------------------------------------------------------------------
*/