Serious-Engine/Sources/Engine/Graphics/DrawPort.cpp

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2016-03-12 01:20:51 +01:00
/* Copyright (c) 2002-2012 Croteam Ltd.
This program is free software; you can redistribute it and/or modify
it under the terms of version 2 of the GNU General Public License as published by
the Free Software Foundation
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License along
with this program; if not, write to the Free Software Foundation, Inc.,
51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */
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#include <Engine/StdH.h>
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#include <Engine/Graphics/DrawPort.h>
#include <Engine/Base/Memory.h>
#include <Engine/Base/CRC.h>
#include <Engine/Math/Functions.h>
#include <Engine/Math/Projection.h>
#include <Engine/Math/AABBox.h>
#include <Engine/Graphics/Raster.h>
#include <Engine/Graphics/GfxProfile.h>
#include <Engine/Graphics/GfxLibrary.h>
#include <Engine/Graphics/ImageInfo.h>
#include <Engine/Graphics/Color.h>
#include <Engine/Graphics/Texture.h>
#include <Engine/Graphics/ViewPort.h>
#include <Engine/Graphics/Font.h>
#include <Engine/Templates/StaticArray.cpp>
#include <Engine/Templates/StaticStackArray.cpp>
extern INDEX gfx_bDecoratedText;
extern INDEX ogl_iFinish;
extern INDEX d3d_iFinish;
// RECT HANDLING ROUTINES
static BOOL ClipToDrawPort( const CDrawPort *pdp, PIX &pixI, PIX &pixJ, PIX &pixW, PIX &pixH)
{
if( pixI < 0) { pixW += pixI; pixI = 0; }
else if( pixI >= pdp->dp_Width) return FALSE;
if( pixJ < 0) { pixH += pixJ; pixJ = 0; }
else if( pixJ >= pdp->dp_Height) return FALSE;
if( pixW<1 || pixH<1) return FALSE;
if( (pixI+pixW) > pdp->dp_Width) pixW = pdp->dp_Width - pixI;
if( (pixJ+pixH) > pdp->dp_Height) pixH = pdp->dp_Height - pixJ;
ASSERT( pixI>=0 && pixI<pdp->dp_Width);
ASSERT( pixJ>=0 && pixJ<pdp->dp_Height);
ASSERT( pixW>0 && pixH>0);
return TRUE;
}
// set scissor (clipping) to window inside drawport
static void SetScissor( const CDrawPort *pdp, PIX pixI, PIX pixJ, PIX pixW, PIX pixH)
{
ASSERT( pixI>=0 && pixI<pdp->dp_Width);
ASSERT( pixJ>=0 && pixJ<pdp->dp_Height);
ASSERT( pixW>0 && pixH>0);
const PIX pixInvMinJ = pdp->dp_Raster->ra_Height - (pdp->dp_MinJ+pixJ+pixH);
pglScissor( pdp->dp_MinI+pixI, pixInvMinJ, pixW, pixH);
ASSERT( pglIsEnabled(GL_SCISSOR_TEST));
OGL_CHECKERROR;
}
// reset scissor (clipping) to whole drawport
static void ResetScissor( const CDrawPort *pdp)
{
const PIX pixMinSI = pdp->dp_ScissorMinI;
const PIX pixMaxSI = pdp->dp_ScissorMaxI;
const PIX pixMinSJ = pdp->dp_Raster->ra_Height-1 - pdp->dp_ScissorMaxJ;
const PIX pixMaxSJ = pdp->dp_Raster->ra_Height-1 - pdp->dp_ScissorMinJ;
pglScissor( pixMinSI, pixMinSJ, pixMaxSI-pixMinSI+1, pixMaxSJ-pixMinSJ+1);
ASSERT( pglIsEnabled(GL_SCISSOR_TEST));
OGL_CHECKERROR;
}
// DRAWPORT ROUTINES
// set cloned drawport dimensions
void CDrawPort::InitCloned( CDrawPort *pdpBase, DOUBLE rMinI,DOUBLE rMinJ, DOUBLE rSizeI,DOUBLE rSizeJ)
{
// remember the raster structures
dp_Raster = pdpBase->dp_Raster;
// set relative dimensions to make it contain the whole raster
dp_MinIOverRasterSizeI = rMinI * pdpBase->dp_SizeIOverRasterSizeI
+pdpBase->dp_MinIOverRasterSizeI;
dp_MinJOverRasterSizeJ = rMinJ * pdpBase->dp_SizeJOverRasterSizeJ
+pdpBase->dp_MinJOverRasterSizeJ;
dp_SizeIOverRasterSizeI = rSizeI * pdpBase->dp_SizeIOverRasterSizeI;
dp_SizeJOverRasterSizeJ = rSizeJ * pdpBase->dp_SizeJOverRasterSizeJ;
// calculate pixel dimensions from relative dimensions
RecalculateDimensions();
// clip scissor to origin drawport
dp_ScissorMinI = Max( dp_MinI, pdpBase->dp_MinI);
dp_ScissorMinJ = Max( dp_MinJ, pdpBase->dp_MinJ);
dp_ScissorMaxI = Min( dp_MaxI, pdpBase->dp_MaxI);
dp_ScissorMaxJ = Min( dp_MaxJ, pdpBase->dp_MaxJ);
if( dp_ScissorMinI>dp_ScissorMaxI) dp_ScissorMinI = dp_ScissorMaxI = 0;
if( dp_ScissorMinJ>dp_ScissorMaxJ) dp_ScissorMinJ = dp_ScissorMaxJ = 0;
// clone some vars
dp_FontData = pdpBase->dp_FontData;
dp_pixTextCharSpacing = pdpBase->dp_pixTextCharSpacing;
dp_pixTextLineSpacing = pdpBase->dp_pixTextLineSpacing;
dp_fTextScaling = pdpBase->dp_fTextScaling;
dp_fTextAspect = pdpBase->dp_fTextAspect;
dp_iTextMode = pdpBase->dp_iTextMode;
dp_fWideAdjustment = pdpBase->dp_fWideAdjustment;
dp_bRenderingOverlay = pdpBase->dp_bRenderingOverlay;
// reset rest of vars
dp_ulBlendingRA = 0;
dp_ulBlendingGA = 0;
dp_ulBlendingBA = 0;
dp_ulBlendingA = 0;
}
/* Create a drawport for full raster. */
CDrawPort::CDrawPort( CRaster *praBase)
{
// remember the raster structures
dp_Raster = praBase;
dp_fWideAdjustment = 1.0f;
dp_bRenderingOverlay = FALSE;
// set relative dimensions to make it contain the whole raster
dp_MinIOverRasterSizeI = 0.0;
dp_MinJOverRasterSizeJ = 0.0;
dp_SizeIOverRasterSizeI = 1.0;
dp_SizeJOverRasterSizeJ = 1.0;
// clear unknown values
dp_FontData = NULL;
dp_pixTextCharSpacing = 1;
dp_pixTextLineSpacing = 0;
dp_fTextScaling = 1.0f;
dp_fTextAspect = 1.0f;
dp_iTextMode = 1;
dp_ulBlendingRA = 0;
dp_ulBlendingGA = 0;
dp_ulBlendingBA = 0;
dp_ulBlendingA = 0;
}
/* Clone a drawport */
CDrawPort::CDrawPort( CDrawPort *pdpBase,
DOUBLE rMinI,DOUBLE rMinJ, DOUBLE rSizeI,DOUBLE rSizeJ)
{
InitCloned( pdpBase, rMinI,rMinJ, rSizeI,rSizeJ);
}
CDrawPort::CDrawPort( CDrawPort *pdpBase, const PIXaabbox2D &box)
{
// force dimensions
dp_MinI = box.Min()(1) +pdpBase->dp_MinI;
dp_MinJ = box.Min()(2) +pdpBase->dp_MinJ;
dp_Width = box.Size()(1);
dp_Height = box.Size()(2);
dp_MaxI = dp_MinI+dp_Width -1;
dp_MaxJ = dp_MinJ+dp_Height -1;
// clip scissor to origin drawport
dp_ScissorMinI = Max( dp_MinI, pdpBase->dp_MinI);
dp_ScissorMinJ = Max( dp_MinJ, pdpBase->dp_MinJ);
dp_ScissorMaxI = Min( dp_MaxI, pdpBase->dp_MaxI);
dp_ScissorMaxJ = Min( dp_MaxJ, pdpBase->dp_MaxJ);
if( dp_ScissorMinI>dp_ScissorMaxI) dp_ScissorMinI = dp_ScissorMaxI = 0;
if( dp_ScissorMinJ>dp_ScissorMaxJ) dp_ScissorMinJ = dp_ScissorMaxJ = 0;
// remember the raster structures
dp_Raster = pdpBase->dp_Raster;
// set relative dimensions to make it contain the whole raster
dp_MinIOverRasterSizeI = (DOUBLE)dp_MinI / dp_Raster->ra_Width;
dp_MinJOverRasterSizeJ = (DOUBLE)dp_MinJ / dp_Raster->ra_Height;
dp_SizeIOverRasterSizeI = (DOUBLE)dp_Width / dp_Raster->ra_Width;
dp_SizeJOverRasterSizeJ = (DOUBLE)dp_Height / dp_Raster->ra_Height;
// clone some vars
dp_FontData = pdpBase->dp_FontData;
dp_pixTextCharSpacing = pdpBase->dp_pixTextCharSpacing;
dp_pixTextLineSpacing = pdpBase->dp_pixTextLineSpacing;
dp_fTextScaling = pdpBase->dp_fTextScaling;
dp_fTextAspect = pdpBase->dp_fTextAspect;
dp_iTextMode = pdpBase->dp_iTextMode;
dp_fWideAdjustment = pdpBase->dp_fWideAdjustment;
dp_bRenderingOverlay = pdpBase->dp_bRenderingOverlay;
// reset rest of vars
dp_ulBlendingRA = 0;
dp_ulBlendingGA = 0;
dp_ulBlendingBA = 0;
dp_ulBlendingA = 0;
}
// check if a drawport is dualhead
BOOL CDrawPort::IsDualHead(void)
{
return GetWidth()*3 == GetHeight()*8;
}
// check if a drawport is already wide screen
BOOL CDrawPort::IsWideScreen(void)
{
return GetWidth()*9 == GetHeight()*16;
}
// returns unique drawports number
ULONG CDrawPort::GetID(void)
{
ULONG ulCRC;
CRC_Start( ulCRC);
CRC_AddLONG( ulCRC, (ULONG)dp_Raster);
CRC_AddLONG( ulCRC, (ULONG)dp_MinI);
CRC_AddLONG( ulCRC, (ULONG)dp_MinJ);
CRC_AddLONG( ulCRC, (ULONG)dp_MaxI);
CRC_AddLONG( ulCRC, (ULONG)dp_MaxJ);
CRC_Finish( ulCRC);
return ulCRC;
}
// dualhead cloning
CDrawPort::CDrawPort( CDrawPort *pdpBase, BOOL bLeft)
{
// if it is not a dualhead drawport
if (!pdpBase->IsDualHead()) {
// always use entire drawport
InitCloned(pdpBase, 0,0, 1,1);
// if dualhead is on
} else {
// use left or right
if (bLeft) {
InitCloned(pdpBase, 0,0, 0.5,1);
} else {
InitCloned(pdpBase, 0.5,0, 0.5,1);
}
}
}
// wide-screen cloning
void CDrawPort::MakeWideScreen(CDrawPort *pdp)
{
// already wide?
if( IsWideScreen()) {
pdp->InitCloned( this, 0,0, 1,1);
return;
}
// make wide!
else {
// get size
const PIX pixSizeI = GetWidth();
const PIX pixSizeJ = GetHeight();
// make horiz width
PIX pixSizeJW = pixSizeI*9/16;
// if already too wide
if (pixSizeJW>pixSizeJ-10) {
// no wide screen
pdp->InitCloned( this, 0,0, 1,1);
return;
}
// clear upper and lower blanks
const PIX pixJ0 = (pixSizeJ-pixSizeJW)/2;
if( Lock()) {
Fill(0, 0, pixSizeI, pixJ0, C_BLACK|CT_OPAQUE);
Fill(0, pixJ0+pixSizeJW, pixSizeI, pixJ0, C_BLACK|CT_OPAQUE);
Unlock();
}
// init
pdp->InitCloned( this, 0, FLOAT(pixJ0)/pixSizeJ, 1, FLOAT(pixSizeJW)/pixSizeJ);
pdp->dp_fWideAdjustment = 9.0f / 12.0f;
}
}
/*****
* Recalculate pixel dimensions from relative dimensions and raster size.
*/
void CDrawPort::RecalculateDimensions(void)
{
const PIX pixRasterSizeI = dp_Raster->ra_Width;
const PIX pixRasterSizeJ = dp_Raster->ra_Height;
dp_Width = (PIX)(dp_SizeIOverRasterSizeI*pixRasterSizeI);
dp_Height = (PIX)(dp_SizeJOverRasterSizeJ*pixRasterSizeJ);
dp_ScissorMinI = dp_MinI = (PIX)(dp_MinIOverRasterSizeI*pixRasterSizeI);
dp_ScissorMinJ = dp_MinJ = (PIX)(dp_MinJOverRasterSizeJ*pixRasterSizeJ);
dp_ScissorMaxI = dp_MaxI = dp_MinI+dp_Width -1;
dp_ScissorMaxJ = dp_MaxJ = dp_MinJ+dp_Height -1;
}
// set orthogonal projection
void CDrawPort::SetOrtho(void) const
{
// finish all pending render-operations (if required)
ogl_iFinish = Clamp( ogl_iFinish, 0L, 3L);
d3d_iFinish = Clamp( d3d_iFinish, 0L, 3L);
if( (ogl_iFinish==3 && _pGfx->gl_eCurrentAPI==GAT_OGL)
#ifdef SE1_D3D
|| (d3d_iFinish==3 && _pGfx->gl_eCurrentAPI==GAT_D3D)
#endif // SE1_D3D
) gfxFinish();
// prepare ortho dimensions
const PIX pixMinI = dp_MinI;
const PIX pixMinSI = dp_ScissorMinI;
const PIX pixMaxSI = dp_ScissorMaxI;
const PIX pixMaxJ = dp_Raster->ra_Height -1 - dp_MinJ;
const PIX pixMinSJ = dp_Raster->ra_Height -1 - dp_ScissorMaxJ;
const PIX pixMaxSJ = dp_Raster->ra_Height -1 - dp_ScissorMinJ;
// init matrices (D3D needs sub-pixel adjustment)
gfxSetOrtho( pixMinSI-pixMinI, pixMaxSI-pixMinI+1, pixMaxJ-pixMaxSJ, pixMaxJ-pixMinSJ+1, 0.0f, -1.0f, TRUE);
gfxDepthRange(0,1);
gfxSetViewMatrix(NULL);
// disable face culling, custom clip plane and truform
gfxCullFace(GFX_NONE);
gfxDisableClipPlane();
gfxDisableTruform();
}
// set given projection
void CDrawPort::SetProjection(CAnyProjection3D &apr) const
{
// finish all pending render-operations (if required)
ogl_iFinish = Clamp( ogl_iFinish, 0L, 3L);
d3d_iFinish = Clamp( d3d_iFinish, 0L, 3L);
if( (ogl_iFinish==3 && _pGfx->gl_eCurrentAPI==GAT_OGL)
#ifdef SE1_D3D
|| (d3d_iFinish==3 && _pGfx->gl_eCurrentAPI==GAT_D3D)
#endif // SE1_D3D
) gfxFinish();
// if isometric projection
if( apr.IsIsometric()) {
CIsometricProjection3D &ipr = (CIsometricProjection3D&)*apr;
const FLOAT2D vMin = ipr.pr_ScreenBBox.Min()-ipr.pr_ScreenCenter;
const FLOAT2D vMax = ipr.pr_ScreenBBox.Max()-ipr.pr_ScreenCenter;
const FLOAT fFactor = 1.0f / (ipr.ipr_ZoomFactor*ipr.pr_fViewStretch);
const FLOAT fNear = ipr.pr_NearClipDistance;
const FLOAT fLeft = +vMin(1) *fFactor;
const FLOAT fRight = +vMax(1) *fFactor;
const FLOAT fTop = -vMin(2) *fFactor;
const FLOAT fBottom = -vMax(2) *fFactor;
// if far clip plane is not specified use maximum expected dimension of the world
FLOAT fFar = ipr.pr_FarClipDistance;
if( fFar<0) fFar = 1E5f; // max size 32768, 3D (sqrt(3)), rounded up
gfxSetOrtho( fLeft, fRight, fTop, fBottom, fNear, fFar, FALSE);
}
// if perspective projection
else {
ASSERT( apr.IsPerspective());
CPerspectiveProjection3D &ppr = (CPerspectiveProjection3D&)*apr;
const FLOAT fNear = ppr.pr_NearClipDistance;
const FLOAT fLeft = ppr.pr_plClipL(3) / ppr.pr_plClipL(1) *fNear;
const FLOAT fRight = ppr.pr_plClipR(3) / ppr.pr_plClipR(1) *fNear;
const FLOAT fTop = ppr.pr_plClipU(3) / ppr.pr_plClipU(2) *fNear;
const FLOAT fBottom = ppr.pr_plClipD(3) / ppr.pr_plClipD(2) *fNear;
// if far clip plane is not specified use maximum expected dimension of the world
FLOAT fFar = ppr.pr_FarClipDistance;
if( fFar<0) fFar = 1E5f; // max size 32768, 3D (sqrt(3)), rounded up
gfxSetFrustum( fLeft, fRight, fTop, fBottom, fNear, fFar);
}
// set some rendering params
gfxDepthRange( apr->pr_fDepthBufferNear, apr->pr_fDepthBufferFar);
gfxCullFace(GFX_BACK);
gfxSetViewMatrix(NULL);
gfxDisableTruform();
// if projection is mirrored/warped and mirroring is allowed
if( apr->pr_bMirror || apr->pr_bWarp) {
// set custom clip plane 0 to mirror plane
gfxEnableClipPlane();
DOUBLE adViewPlane[4];
adViewPlane[0] = +apr->pr_plMirrorView(1);
adViewPlane[1] = +apr->pr_plMirrorView(2);
adViewPlane[2] = +apr->pr_plMirrorView(3);
adViewPlane[3] = -apr->pr_plMirrorView.Distance();
gfxClipPlane(adViewPlane); // NOTE: view clip plane is multiplied by inverse modelview matrix at time when specified
}
// if projection is not mirrored
else {
// just disable custom clip plane 0
gfxDisableClipPlane();
}
}
// implementation for some drawport routines that uses raster class
void CDrawPort::Unlock(void)
{
dp_Raster->Unlock();
_pGfx->UnlockDrawPort(this);
}
BOOL CDrawPort::Lock(void)
{
_pfGfxProfile.StartTimer( CGfxProfile::PTI_LOCKDRAWPORT);
BOOL bRasterLocked = dp_Raster->Lock();
if( bRasterLocked) {
// try to lock drawport with driver
BOOL bDrawportLocked = _pGfx->LockDrawPort(this);
if( !bDrawportLocked) {
dp_Raster->Unlock();
bRasterLocked = FALSE;
}
} // done
_pfGfxProfile.StopTimer( CGfxProfile::PTI_LOCKDRAWPORT);
return bRasterLocked;
}
// DRAWING ROUTINES -------------------------------------
// draw one point
void CDrawPort::DrawPoint( PIX pixI, PIX pixJ, COLOR col, PIX pixRadius/*=1*/) const
{
// check API and radius
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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ASSERT( pixRadius>=0);
if( pixRadius==0) return; // do nothing if radius is 0
// setup rendering mode
gfxDisableTexture();
gfxDisableDepthTest();
gfxDisableDepthWrite();
gfxDisableAlphaTest();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
// set point color/alpha and radius
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
const FLOAT fR = pixRadius;
// OpenGL
if( eAPI==GAT_OGL) {
const FLOAT fI = pixI+0.5f;
const FLOAT fJ = pixJ+0.5f;
glCOLOR(col);
pglPointSize(fR);
pglBegin(GL_POINTS);
pglVertex2f(fI,fJ);
pglEnd();
OGL_CHECKERROR;
} // Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D) {
HRESULT hr;
const FLOAT fI = pixI+0.75f;
const FLOAT fJ = pixJ+0.75f;
const ULONG d3dColor = rgba2argb(col);
CTVERTEX avtx = {fI,fJ,0, d3dColor, 0,0};
hr = _pGfx->gl_pd3dDevice->SetRenderState( D3DRS_POINTSIZE, *((DWORD*)&fR));
D3D_CHECKERROR(hr);
// set vertex shader and draw
d3dSetVertexShader(D3DFVF_CTVERTEX);
hr = _pGfx->gl_pd3dDevice->DrawPrimitiveUP( D3DPT_POINTLIST, 1, &avtx, sizeof(CTVERTEX));
D3D_CHECKERROR(hr);
}
#endif // SE1_D3D
}
// draw one point in 3D
void CDrawPort::DrawPoint3D( FLOAT3D v, COLOR col, FLOAT fRadius/*=1.0f*/) const
{
// check API and radius
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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ASSERT( fRadius>=0);
if( fRadius==0) return; // do nothing if radius is 0
// setup rendering mode
gfxDisableTexture();
gfxDisableDepthWrite();
gfxDisableAlphaTest();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
// set point color/alpha
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
// OpenGL
if( eAPI==GAT_OGL) {
glCOLOR(col);
pglPointSize(fRadius);
pglBegin(GL_POINTS);
pglVertex3f( v(1),v(2),v(3));
pglEnd();
OGL_CHECKERROR;
} // Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D) {
HRESULT hr;
const ULONG d3dColor = rgba2argb(col);
CTVERTEX avtx = {v(1),v(2),v(3), d3dColor, 0,0};
hr = _pGfx->gl_pd3dDevice->SetRenderState( D3DRS_POINTSIZE, *((DWORD*)&fRadius));
D3D_CHECKERROR(hr);
// set vertex shader and draw
d3dSetVertexShader(D3DFVF_CTVERTEX);
hr = _pGfx->gl_pd3dDevice->DrawPrimitiveUP( D3DPT_POINTLIST, 1, &avtx, sizeof(CTVERTEX));
D3D_CHECKERROR(hr);
}
#endif // SE1_D3D
}
// draw one line
void CDrawPort::DrawLine( PIX pixI0, PIX pixJ0, PIX pixI1, PIX pixJ1, COLOR col, ULONG typ/*=_FULL*/) const
{
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// setup rendering mode
gfxDisableDepthTest();
gfxDisableDepthWrite();
gfxDisableAlphaTest();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
FLOAT fD;
INDEX iTexFilter, iTexAnisotropy;
if( typ==_FULL_) {
// no pattern - just disable texturing
gfxDisableTexture();
fD = 0;
} else {
// revert to simple point-sample filtering without mipmaps
INDEX iNewFilter=10, iNewAnisotropy=1;
gfxGetTextureFiltering( iTexFilter, iTexAnisotropy);
gfxSetTextureFiltering( iNewFilter, iNewAnisotropy);
// prepare line pattern and mapping
extern void gfxSetPattern( ULONG ulPattern);
gfxSetPattern(typ);
fD = Max( Abs(pixI0-pixI1), Abs(pixJ0-pixJ1)) /32.0f;
}
// set line color/alpha and go go go
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
// OpenGL
if( eAPI==GAT_OGL) {
const FLOAT fI0 = pixI0+0.5f; const FLOAT fJ0 = pixJ0+0.5f;
const FLOAT fI1 = pixI1+0.5f; const FLOAT fJ1 = pixJ1+0.5f;
glCOLOR(col);
pglBegin( GL_LINES);
pglTexCoord2f( 0,0); pglVertex2f(fI0,fJ0);
pglTexCoord2f(fD,0); pglVertex2f(fI1,fJ1);
pglEnd();
OGL_CHECKERROR;
} // Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D) {
HRESULT hr;
const FLOAT fI0 = pixI0+0.75f; const FLOAT fJ0 = pixJ0+0.75f;
const FLOAT fI1 = pixI1+0.75f; const FLOAT fJ1 = pixJ1+0.75f;
const ULONG d3dColor = rgba2argb(col);
CTVERTEX avtxLine[2] = {
{fI0,fJ0,0, d3dColor, 0,0},
{fI1,fJ1,0, d3dColor, fD,0} };
// set vertex shader and draw
d3dSetVertexShader(D3DFVF_CTVERTEX);
hr = _pGfx->gl_pd3dDevice->DrawPrimitiveUP( D3DPT_LINELIST, 1, avtxLine, sizeof(CTVERTEX));
D3D_CHECKERROR(hr);
}
#endif // SE1_D3D
// revert to old filtering
if( typ!=_FULL_) gfxSetTextureFiltering( iTexFilter, iTexAnisotropy);
}
// draw one line in 3D
void CDrawPort::DrawLine3D( FLOAT3D v0, FLOAT3D v1, COLOR col) const
{
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// setup rendering mode
gfxDisableTexture();
gfxDisableDepthWrite();
gfxDisableAlphaTest();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
// set line color/alpha and go go go
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
// OpenGL
if( eAPI==GAT_OGL) {
glCOLOR(col);
pglBegin( GL_LINES);
pglVertex3f( v0(1),v0(2),v0(3));
pglVertex3f( v1(1),v1(2),v1(3));
pglEnd();
OGL_CHECKERROR;
} // Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D) {
HRESULT hr;
const ULONG d3dColor = rgba2argb(col);
CTVERTEX avtxLine[2] = {
{v0(1),v0(2),v0(3), d3dColor, 0,0},
{v1(1),v1(2),v1(3), d3dColor, 0,0} };
// set vertex shader and draw
d3dSetVertexShader(D3DFVF_CTVERTEX);
hr = _pGfx->gl_pd3dDevice->DrawPrimitiveUP( D3DPT_LINELIST, 1, avtxLine, sizeof(CTVERTEX));
D3D_CHECKERROR(hr);
}
#endif // SE1_D3D
}
// draw border
void CDrawPort::DrawBorder( PIX pixI, PIX pixJ, PIX pixWidth, PIX pixHeight, COLOR col, ULONG typ/*=_FULL_*/) const
{
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// setup rendering mode
gfxDisableDepthTest();
gfxDisableDepthWrite();
gfxDisableAlphaTest();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
// for non-full lines, must have
FLOAT fD;
INDEX iTexFilter, iTexAnisotropy;
if( typ==_FULL_) {
// no pattern - just disable texturing
gfxDisableTexture();
fD = 0;
} else {
// revert to simple point-sample filtering without mipmaps
INDEX iNewFilter=10, iNewAnisotropy=1;
gfxGetTextureFiltering( iTexFilter, iTexAnisotropy);
gfxSetTextureFiltering( iNewFilter, iNewAnisotropy);
// prepare line pattern
extern void gfxSetPattern( ULONG ulPattern);
gfxSetPattern(typ);
fD = Max( pixWidth, pixHeight) /32.0f;
}
// set line color/alpha and go go go
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
const FLOAT fI0 = pixI+0.5f;
const FLOAT fJ0 = pixJ+0.5f;
const FLOAT fI1 = pixI-0.5f +pixWidth;
const FLOAT fJ1 = pixJ-0.5f +pixHeight;
// OpenGL
if( eAPI==GAT_OGL) {
glCOLOR(col);
pglBegin( GL_LINES);
pglTexCoord2f(0,0); pglVertex2f(fI0,fJ0); pglTexCoord2f(fD,0); pglVertex2f(fI1, fJ0); // up
pglTexCoord2f(0,0); pglVertex2f(fI1,fJ0); pglTexCoord2f(fD,0); pglVertex2f(fI1, fJ1); // right
pglTexCoord2f(0,0); pglVertex2f(fI0,fJ1); pglTexCoord2f(fD,0); pglVertex2f(fI1+1,fJ1); // down
pglTexCoord2f(0,0); pglVertex2f(fI0,fJ0+1); pglTexCoord2f(fD,0); pglVertex2f(fI0, fJ1); // left
pglEnd();
OGL_CHECKERROR;
}
// Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D) {
HRESULT hr;
const ULONG d3dColor = rgba2argb(col);
CTVERTEX avtxLines[8] = { // setup lines
{fI0,fJ0, 0, d3dColor, 0,0}, {fI1, fJ0,0, d3dColor, fD,0}, // up
{fI1,fJ0, 0, d3dColor, 0,0}, {fI1, fJ1,0, d3dColor, fD,0}, // right
{fI0,fJ1, 0, d3dColor, 0,0}, {fI1+1,fJ1,0, d3dColor, fD,0}, // down
{fI0,fJ0+1,0, d3dColor, 0,0}, {fI0, fJ1,0, d3dColor, fD,0} }; // left
// set vertex shader and draw
d3dSetVertexShader(D3DFVF_CTVERTEX);
hr = _pGfx->gl_pd3dDevice->DrawPrimitiveUP( D3DPT_LINELIST, 4, avtxLines, sizeof(CTVERTEX));
D3D_CHECKERROR(hr);
}
#endif // SE1_D3D
// revert to old filtering
if( typ!=_FULL_) gfxSetTextureFiltering( iTexFilter, iTexAnisotropy);
}
// fill part of a drawport with a given color
void CDrawPort::Fill( PIX pixI, PIX pixJ, PIX pixWidth, PIX pixHeight, COLOR col) const
{
// if color is tranlucent
if( ((col&CT_AMASK)>>CT_ASHIFT) != CT_OPAQUE)
{ // draw thru polygon
Fill( pixI,pixJ, pixWidth,pixHeight, col,col,col,col);
return;
}
// clip and eventually reject
const BOOL bInside = ClipToDrawPort( this, pixI, pixJ, pixWidth, pixHeight);
if( !bInside) return;
// draw thru fast clear for opaque colors
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// OpenGL
if( eAPI==GAT_OGL)
{
// do fast filling
SetScissor( this, pixI, pixJ, pixWidth, pixHeight);
UBYTE ubR, ubG, ubB;
ColorToRGB( col, ubR,ubG,ubB);
pglClearColor( ubR/255.0f, ubG/255.0f, ubB/255.0f, 1.0f);
pglClear( GL_COLOR_BUFFER_BIT);
ResetScissor(this);
}
// Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D)
{
HRESULT hr;
// must convert coordinates to raster (i.e. surface)
pixI += dp_MinI;
pixJ += dp_MinJ;
const PIX pixRasterW = dp_Raster->ra_Width;
const PIX pixRasterH = dp_Raster->ra_Height;
const ULONG d3dColor = rgba2argb(col);
// do fast filling
if( pixI==0 && pixJ==0 && pixWidth==pixRasterW && pixHeight==pixRasterH) {
hr = _pGfx->gl_pd3dDevice->Clear( 0, NULL, D3DCLEAR_TARGET, d3dColor,0,0);
} else {
D3DRECT d3dRect = { pixI, pixJ, pixI+pixWidth, pixJ+pixHeight };
hr = _pGfx->gl_pd3dDevice->Clear( 1, &d3dRect, D3DCLEAR_TARGET, d3dColor,0,0);
} // done
D3D_CHECKERROR(hr);
}
#endif // SE1_D3D
}
// fill part of a drawport with a four corner colors
void CDrawPort::Fill( PIX pixI, PIX pixJ, PIX pixWidth, PIX pixHeight,
COLOR colUL, COLOR colUR, COLOR colDL, COLOR colDR) const
{
// clip and eventually reject
const BOOL bInside = ClipToDrawPort( this, pixI, pixJ, pixWidth, pixHeight);
if( !bInside) return;
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// setup rendering mode
gfxDisableDepthTest();
gfxDisableDepthWrite();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
gfxDisableAlphaTest();
gfxDisableTexture();
// prepare colors and coords
colUL = AdjustColor( colUL, _slTexHueShift, _slTexSaturation);
colUR = AdjustColor( colUR, _slTexHueShift, _slTexSaturation);
colDL = AdjustColor( colDL, _slTexHueShift, _slTexSaturation);
colDR = AdjustColor( colDR, _slTexHueShift, _slTexSaturation);
const FLOAT fI0 = pixI; const FLOAT fI1 = pixI +pixWidth;
const FLOAT fJ0 = pixJ; const FLOAT fJ1 = pixJ +pixHeight;
// render rectangle
if( eAPI==GAT_OGL) {
// thru OpenGL
gfxResetArrays();
GFXVertex *pvtx = _avtxCommon.Push(4);
GFXTexCoord *ptex = _atexCommon.Push(4);
GFXColor *pcol = _acolCommon.Push(4);
const GFXColor glcolUL(colUL); const GFXColor glcolUR(colUR);
const GFXColor glcolDL(colDL); const GFXColor glcolDR(colDR);
// add to element list and flush (the toilet!:)
pvtx[0].x = fI0; pvtx[0].y = fJ0; pvtx[0].z = 0; pcol[0] = glcolUL;
pvtx[1].x = fI0; pvtx[1].y = fJ1; pvtx[1].z = 0; pcol[1] = glcolDL;
pvtx[2].x = fI1; pvtx[2].y = fJ1; pvtx[2].z = 0; pcol[2] = glcolDR;
pvtx[3].x = fI1; pvtx[3].y = fJ0; pvtx[3].z = 0; pcol[3] = glcolUR;
gfxFlushQuads();
}
#ifdef SE1_D3D
else if( eAPI==GAT_D3D) {
// thru Direct3D
HRESULT hr;
const ULONG d3dColUL = rgba2argb(colUL); const ULONG d3dColUR = rgba2argb(colUR);
const ULONG d3dColDL = rgba2argb(colDL); const ULONG d3dColDR = rgba2argb(colDR);
CTVERTEX avtxTris[6] = {
{fI0,fJ0,0, d3dColUL, 0,0}, {fI0,fJ1,0, d3dColDL, 0,1}, {fI1,fJ1,0, d3dColDR, 1,1},
{fI0,fJ0,0, d3dColUL, 0,0}, {fI1,fJ1,0, d3dColDR, 1,1}, {fI1,fJ0,0, d3dColUR, 1,0} };
// set vertex shader and draw
d3dSetVertexShader(D3DFVF_CTVERTEX);
hr = _pGfx->gl_pd3dDevice->DrawPrimitiveUP( D3DPT_TRIANGLELIST, 2, avtxTris, sizeof(CTVERTEX));
D3D_CHECKERROR(hr);
}
#endif // SE1_D3D
}
// fill an entire drawport with a given color
void CDrawPort::Fill( COLOR col) const
{
// if color is tranlucent
if( ((col&CT_AMASK)>>CT_ASHIFT) != CT_OPAQUE)
{ // draw thru polygon
Fill( 0,0, dp_Width,dp_Height, col,col,col,col);
return;
}
// draw thru fast clear for opaque colors
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// OpenGL
if( eAPI==GAT_OGL)
{
// do fast filling
UBYTE ubR, ubG, ubB;
ColorToRGB( col, ubR,ubG,ubB);
pglClearColor( ubR/255.0f, ubG/255.0f, ubB/255.0f, 1.0f);
pglClear( GL_COLOR_BUFFER_BIT);
}
#ifdef PLATFORM_WIN32 // Direct3D
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else if( eAPI==GAT_D3D)
{
const ULONG d3dColor = rgba2argb(col);
HRESULT hr = _pGfx->gl_pd3dDevice->Clear( 0, NULL, D3DCLEAR_TARGET, d3dColor,0,0);
D3D_CHECKERROR(hr);
}
#endif
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}
// fill an part of Z-Buffer with a given value
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void CDrawPort::FillZBuffer( PIX pixI, PIX pixJ, PIX pixWidth, PIX pixHeight, FLOAT zval) const
{
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// clip and eventually reject
const BOOL bInside = ClipToDrawPort( this, pixI, pixJ, pixWidth, pixHeight);
if( !bInside) return;
gfxEnableDepthWrite();
// OpenGL
if( eAPI==GAT_OGL)
{
// fast clearing thru scissor
SetScissor( this, pixI, pixJ, pixWidth, pixHeight);
pglClearDepth(zval);
pglClearStencil(0);
// must clear stencil buffer too in case it exist (we don't need it) for the performance sake
pglClear( GL_DEPTH_BUFFER_BIT|GL_STENCIL_BUFFER_BIT);
ResetScissor(this);
OGL_CHECKERROR;
}
// Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D)
{
D3DRECT d3dRect = { pixI, pixJ, pixI+pixWidth, pixJ+pixHeight };
HRESULT hr = _pGfx->gl_pd3dDevice->Clear( 1, &d3dRect, D3DCLEAR_ZBUFFER, 0,zval,0);
D3D_CHECKERROR(hr);
}
#endif //SE1_D3D
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}
// fill an entire Z-Buffer with a given value
void CDrawPort::FillZBuffer( FLOAT zval) const
{
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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gfxEnableDepthWrite();
// OpenGL
if( eAPI==GAT_OGL)
{
// fill whole z-buffer
pglClearDepth(zval);
pglClearStencil(0);
pglClear( GL_DEPTH_BUFFER_BIT|GL_STENCIL_BUFFER_BIT);
}
// Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D)
{
HRESULT hr = _pGfx->gl_pd3dDevice->Clear( 0, NULL, D3DCLEAR_ZBUFFER, 0,zval,0);
D3D_CHECKERROR(hr);
}
#endif //SE1_D3D
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}
// grab screen
void CDrawPort::GrabScreen( class CImageInfo &iiGrabbedImage, INDEX iGrabZBuffer/*=0*/) const
{
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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extern INDEX ogl_bGrabDepthBuffer;
const BOOL bGrabDepth = eAPI==GAT_OGL && ((iGrabZBuffer==1 && ogl_bGrabDepthBuffer) || iGrabZBuffer==2);
// prepare image info's dimensions
iiGrabbedImage.Clear();
iiGrabbedImage.ii_Width = dp_Width;
iiGrabbedImage.ii_Height = dp_Height;
iiGrabbedImage.ii_BitsPerPixel = bGrabDepth ? 32 : 24;
// allocate memory for 24-bit raw picture and copy buffer context
const PIX pixPicSize = iiGrabbedImage.ii_Width * iiGrabbedImage.ii_Height;
const SLONG slBytes = pixPicSize * iiGrabbedImage.ii_BitsPerPixel/8;
iiGrabbedImage.ii_Picture = (UBYTE*)AllocMemory( slBytes);
memset( iiGrabbedImage.ii_Picture, 128, slBytes);
// OpenGL
if( eAPI==GAT_OGL)
{
// determine drawport starting location inside raster
const PIX pixStartI = dp_MinI;
const PIX pixStartJ = dp_Raster->ra_Height-(dp_MinJ+dp_Height);
pglReadPixels( pixStartI, pixStartJ, dp_Width, dp_Height, GL_RGB, GL_UNSIGNED_BYTE, (GLvoid*)iiGrabbedImage.ii_Picture);
OGL_CHECKERROR;
// grab z-buffer to alpha channel, if needed
if( bGrabDepth) {
// grab
FLOAT *pfZBuffer = (FLOAT*)AllocMemory( pixPicSize*sizeof(FLOAT));
pglReadPixels( pixStartI, pixStartJ, dp_Width, dp_Height, GL_DEPTH_COMPONENT, GL_FLOAT, (GLvoid*)pfZBuffer);
OGL_CHECKERROR;
// convert
UBYTE *pubZBuffer = (UBYTE*)pfZBuffer;
for( INDEX i=0; i<pixPicSize; i++) pubZBuffer[i] = 255-NormFloatToByte(pfZBuffer[i]);
// add as alpha channel
AddAlphaChannel( iiGrabbedImage.ii_Picture, (ULONG*)iiGrabbedImage.ii_Picture,
iiGrabbedImage.ii_Width * iiGrabbedImage.ii_Height, pubZBuffer);
FreeMemory(pfZBuffer);
}
// flip image vertically
FlipBitmap( iiGrabbedImage.ii_Picture, iiGrabbedImage.ii_Picture,
iiGrabbedImage.ii_Width, iiGrabbedImage.ii_Height, 1, iiGrabbedImage.ii_BitsPerPixel==32);
}
// Direct3D
#ifdef SE1_D3D
else if( eAPI==GAT_D3D)
{
// get back buffer
HRESULT hr;
D3DLOCKED_RECT rectLocked;
D3DSURFACE_DESC surfDesc;
LPDIRECT3DSURFACE8 pBackBuffer;
const BOOL bFullScreen = _pGfx->gl_ulFlags & GLF_FULLSCREEN;
if( bFullScreen) hr = _pGfx->gl_pd3dDevice->GetBackBuffer( 0, D3DBACKBUFFER_TYPE_MONO, &pBackBuffer);
else hr = dp_Raster->ra_pvpViewPort->vp_pSwapChain->GetBackBuffer( 0, D3DBACKBUFFER_TYPE_MONO, &pBackBuffer);
D3D_CHECKERROR(hr);
pBackBuffer->GetDesc(&surfDesc);
ASSERT( surfDesc.Width==dp_Raster->ra_Width && surfDesc.Height==dp_Raster->ra_Height);
const RECT rectToLock = { dp_MinI, dp_MinJ, dp_MaxI+1, dp_MaxJ+1 };
hr = pBackBuffer->LockRect( &rectLocked, &rectToLock, D3DLOCK_READONLY);
D3D_CHECKERROR(hr);
// prepare to copy'n'convert
SLONG slColSize;
UBYTE *pubSrc = (UBYTE*)rectLocked.pBits;
UBYTE *pubDst = iiGrabbedImage.ii_Picture;
// loop thru rows
for( INDEX j=0; j<dp_Height; j++) {
// loop thru pixles in row
for( INDEX i=0; i<dp_Width; i++) {
UBYTE ubR,ubG,ubB;
extern COLOR UnpackColor_D3D( UBYTE *pd3dColor, D3DFORMAT d3dFormat, SLONG &slColorSize);
COLOR col = UnpackColor_D3D( pubSrc, surfDesc.Format, slColSize);
ColorToRGB( col, ubR,ubG,ubB);
*pubDst++ = ubR;
*pubDst++ = ubG;
*pubDst++ = ubB;
pubSrc += slColSize;
} // advance modulo
pubSrc += rectLocked.Pitch - (dp_Width*slColSize);
} // all done
pBackBuffer->UnlockRect();
D3DRELEASE( pBackBuffer, TRUE);
}
#endif // SE1_D3D
}
BOOL CDrawPort::IsPointVisible( PIX pixI, PIX pixJ, FLOAT fOoK, INDEX iID, INDEX iMirrorLevel/*=0*/) const
{
// must have raster!
if( dp_Raster==NULL) { ASSERT(FALSE); return FALSE; }
// if the point is out or at the edge of drawport, it is not visible by default
if( pixI<1 || pixI>dp_Width-2 || pixJ<1 || pixJ>dp_Height-2) return FALSE;
#ifdef __arm__
// Assuming here that all ARM machine use GLES based GPU, were DEPTH reading is probably not available (or super slow)
return FALSE;
#endif
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// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// use delayed mechanism for checking
extern BOOL CheckDepthPoint( const CDrawPort *pdp, PIX pixI, PIX pixJ, FLOAT fOoK, INDEX iID, INDEX iMirrorLevel=0);
return CheckDepthPoint( this, pixI, pixJ, fOoK, iID, iMirrorLevel);
}
void CDrawPort::RenderLensFlare( CTextureObject *pto, FLOAT fI, FLOAT fJ,
FLOAT fSizeI, FLOAT fSizeJ, ANGLE aRotation, COLOR colLight) const
{
// check API
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// setup rendering mode
gfxEnableDepthTest();
gfxDisableDepthWrite();
gfxEnableBlend();
gfxBlendFunc( GFX_ONE, GFX_ONE);
gfxDisableAlphaTest();
gfxResetArrays();
GFXVertex *pvtx = _avtxCommon.Push(4);
GFXTexCoord *ptex = _atexCommon.Push(4);
GFXColor *pcol = _acolCommon.Push(4);
// find lens location and dimension
const FLOAT fRI = fSizeI*0.5f;
const FLOAT fRJ = fSizeJ*0.5f;
const FLOAT fSinA = SinFast(aRotation);
const FLOAT fCosA = CosFast(aRotation);
const FLOAT fRICosA = fRI * +fCosA;
const FLOAT fRJSinA = fRJ * -fSinA;
const FLOAT fRISinA = fRI * +fSinA;
const FLOAT fRJCosA = fRJ * +fCosA;
// get texture parameters for current frame and needed mip factor and upload texture
CTextureData *ptd = (CTextureData*)pto->GetData();
ptd->SetAsCurrent(pto->GetFrame());
// set lens color
colLight = AdjustColor( colLight, _slShdHueShift, _slShdSaturation);
const GFXColor glcol(colLight);
// prepare coordinates of the rectangle
pvtx[0].x = fI- fRICosA+fRJSinA; pvtx[0].y = fJ- fRISinA+fRJCosA; pvtx[0].z = 0.01f;
pvtx[1].x = fI- fRICosA-fRJSinA; pvtx[1].y = fJ- fRISinA-fRJCosA; pvtx[1].z = 0.01f;
pvtx[2].x = fI+ fRICosA-fRJSinA; pvtx[2].y = fJ+ fRISinA-fRJCosA; pvtx[2].z = 0.01f;
pvtx[3].x = fI+ fRICosA+fRJSinA; pvtx[3].y = fJ+ fRISinA+fRJCosA; pvtx[3].z = 0.01f;
ptex[0].st.s = 0; ptex[0].st.t = 0;
ptex[1].st.s = 0; ptex[1].st.t = 1;
ptex[2].st.s = 1; ptex[2].st.t = 1;
ptex[3].st.s = 1; ptex[3].st.t = 0;
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pcol[0] = glcol;
pcol[1] = glcol;
pcol[2] = glcol;
pcol[3] = glcol;
// render it
_pGfx->gl_ctWorldTriangles += 2;
gfxFlushQuads();
}
/*******************************************************
* Routines for manipulating drawport's text capabilites
*/
// sets font to be used to printout some text on this drawport
// WARNING: this resets text spacing, scaling and mode variables
void CDrawPort::SetFont( CFontData *pfd)
{
// check if we're using font that's not even loaded yet
ASSERT( pfd!=NULL);
dp_FontData = pfd;
dp_pixTextCharSpacing = pfd->fd_pixCharSpacing;
dp_pixTextLineSpacing = pfd->fd_pixLineSpacing;
dp_fTextScaling = 1.0f;
dp_fTextAspect = 1.0f;
dp_iTextMode = 1;
};
// returns width of the longest line in text string
ULONG CDrawPort::GetTextWidth( const CTString &strText) const
{
// prepare scaling factors
PIX pixCellWidth = dp_FontData->fd_pixCharWidth;
SLONG fixTextScalingX = FloatToInt(dp_fTextScaling*dp_fTextAspect*65536.0f);
// calculate width of entire text line
PIX pixStringWidth=0, pixOldWidth=0;
PIX pixCharStart=0, pixCharEnd=pixCellWidth;
INDEX ctCharsPrinted=0;
for( INDEX i=0; i<(INDEX)strlen(strText); i++)
{ // get current letter
unsigned char chrCurrent = strText[i];
// next line situation?
if( chrCurrent == '\n') {
if( pixOldWidth < pixStringWidth) pixOldWidth = pixStringWidth;
pixStringWidth=0;
continue;
}
// special char encountered and allowed?
else if( chrCurrent=='^' && dp_iTextMode!=-1) {
// get next char
chrCurrent = strText[++i];
switch( chrCurrent) {
// skip corresponding number of characters
case 'c': i += FindZero((UBYTE*)&strText[i],6); continue;
case 'a': i += FindZero((UBYTE*)&strText[i],2); continue;
case 'f': i += 1; continue;
case 'b': case 'i': case 'r': case 'o':
case 'C': case 'A': case 'F': case 'B': case 'I': i+=0; continue;
default: break; // if we get here this means that ^ or an unrecognized special code was specified
}
}
// ignore tab
else if( chrCurrent == '\t') continue;
// add current letter's width to result width
if( !dp_FontData->fd_bFixedWidth) {
// proportional font case
pixCharStart = dp_FontData->fd_fcdFontCharData[chrCurrent].fcd_pixStart;
pixCharEnd = dp_FontData->fd_fcdFontCharData[chrCurrent].fcd_pixEnd;
}
pixStringWidth += (((pixCharEnd-pixCharStart)*fixTextScalingX)>>16) +dp_pixTextCharSpacing;
ctCharsPrinted++;
}
// determine largest width
if( pixStringWidth < pixOldWidth) pixStringWidth = pixOldWidth;
return pixStringWidth;
}
// writes text string on drawport (left aligned if not forced otherwise)
void CDrawPort::PutText( const CTString &strText, PIX pixX0, PIX pixY0, const COLOR colBlend) const
{
// check API and adjust position for D3D by half pixel
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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// skip drawing if text falls above or below draw port
if( pixY0>dp_Height || pixX0>dp_Width) return;
_pfGfxProfile.StartTimer( CGfxProfile::PTI_PUTTEXT);
char acTmp[7]; // needed for strtoul()
char *pcDummy;
INDEX iRet;
// cache char and texture dimensions
FLOAT fTextScalingX = dp_fTextScaling*dp_fTextAspect;
SLONG fixTextScalingX = FloatToInt(fTextScalingX *65536.0f);
SLONG fixTextScalingY = FloatToInt(dp_fTextScaling*65536.0f);
PIX pixCellWidth = dp_FontData->fd_pixCharWidth;
PIX pixCharHeight = dp_FontData->fd_pixCharHeight-1;
PIX pixScaledWidth = (pixCellWidth *fixTextScalingX)>>16;
PIX pixScaledHeight = (pixCharHeight*fixTextScalingY)>>16;
// prepare font texture
gfxSetTextureWrapping( GFX_REPEAT, GFX_REPEAT);
CTextureData &td = *dp_FontData->fd_ptdTextureData;
td.SetAsCurrent();
// setup rendering mode
gfxDisableDepthTest();
gfxDisableDepthWrite();
gfxDisableAlphaTest();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
// calculate and apply correction factor
FLOAT fCorrectionU = 1.0f / td.GetPixWidth();
FLOAT fCorrectionV = 1.0f / td.GetPixHeight();
INDEX ctMaxChars = (INDEX)strlen(strText);
// determine text color
GFXColor glcolDefault( AdjustColor( colBlend, _slTexHueShift, _slTexSaturation));
GFXColor glcol = glcolDefault;
ULONG ulAlphaDefault = (colBlend&CT_AMASK)>>CT_ASHIFT;; // for flasher
ASSERT( dp_iTextMode==-1 || dp_iTextMode==0 || dp_iTextMode==+1);
// prepare some text control and output vars
INDEX ctCharsPrinted=0, ctBoldsPrinted=0;
BOOL bBold = FALSE;
BOOL bItalic = FALSE;
INDEX iFlash = 0;
ULONG ulAlpha = ulAlphaDefault;
TIME tmFrame = _pGfx->gl_tvFrameTime.GetSeconds();
BOOL bParse = dp_iTextMode==1;
// prepare arrays
gfxResetArrays();
GFXVertex *pvtx = _avtxCommon.Push( 2*ctMaxChars*4); // 2* because of bold
GFXTexCoord *ptex = _atexCommon.Push( 2*ctMaxChars*4);
GFXColor *pcol = _acolCommon.Push( 2*ctMaxChars*4);
// loop thru chars
PIX pixAdvancer = ((pixCellWidth*fixTextScalingX)>>16) +dp_pixTextCharSpacing;
PIX pixStartX = pixX0;
for( INDEX iChar=0; iChar<ctMaxChars; iChar++)
{
// get current char
unsigned char chrCurrent = strText[iChar];
// if at end of current line
if( chrCurrent=='\n') {
// advance to next line
pixX0 = pixStartX;
pixY0 += pixScaledHeight+dp_pixTextLineSpacing;
if( pixY0>dp_Height) break;
// skip to next char
continue;
}
// special char encountered and allowed?
else if( chrCurrent=='^' && dp_iTextMode!=-1) {
// get next char
chrCurrent = strText[++iChar];
COLOR col;
switch( chrCurrent)
{
// color change?
case 'c':
strncpy( acTmp, &strText[iChar+1], 6);
iRet = FindZero( (UBYTE*)&strText[iChar+1], 6);
iChar+=iRet;
if( !bParse || iRet<6) continue;
acTmp[6] = '\0'; // terminate string
col = strtoul( acTmp, &pcDummy, 16) <<8;
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
glcol.Set( col|glcol.ub.a); // do color change but keep original alpha
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continue;
// alpha change?
case 'a':
strncpy( acTmp, &strText[iChar+1], 2);
iRet = FindZero( (UBYTE*)&strText[iChar+1], 2);
iChar+=iRet;
if( !bParse || iRet<2) continue;
acTmp[2] = '\0'; // terminate string
ulAlpha = strtoul( acTmp, &pcDummy, 16);
continue;
// flash?
case 'f':
chrCurrent = strText[++iChar];
if( bParse) iFlash = 1+ 2* Clamp( (INDEX)(chrCurrent-'0'), 0L, 9L);
continue;
// reset all?
case 'r':
bBold = FALSE;
bItalic = FALSE;
iFlash = 0;
glcol = glcolDefault;
ulAlpha = ulAlphaDefault;
continue;
// simple codes ...
case 'o': bParse = bParse && gfx_bDecoratedText; continue; // allow console override settings?
case 'b': if( bParse) bBold = TRUE; continue; // bold?
case 'i': if( bParse) bItalic = TRUE; continue; // italic?
case 'C': glcol = glcolDefault; continue; // color reset?
case 'A': ulAlpha = ulAlphaDefault; continue; // alpha reset?
case 'B': bBold = FALSE; continue; // no bold?
case 'I': bItalic = FALSE; continue; // italic?
case 'F': iFlash = 0; continue; // no flash?
default: break;
} // unrecognized special code or just plain ^
if( chrCurrent!='^') { iChar--; break; }
}
// ignore tab
else if( chrCurrent=='\t') continue;
// get current location and dimensions
CFontCharData &fcdCurrent = dp_FontData->fd_fcdFontCharData[chrCurrent];
PIX pixCharX = fcdCurrent.fcd_pixXOffset;
PIX pixCharY = fcdCurrent.fcd_pixYOffset;
PIX pixCharStart = fcdCurrent.fcd_pixStart;
PIX pixCharEnd = fcdCurrent.fcd_pixEnd;
PIX pixXA; // adjusted starting X location of printout
// determine corresponding char width and position adjustments
if( dp_FontData->fd_bFixedWidth) {
// for fixed font
pixXA = pixX0 - ((pixCharStart*fixTextScalingX)>>16)
+ (((pixScaledWidth<<16) - ((pixCharEnd-pixCharStart)*fixTextScalingX) +0x10000) >>17);
} else {
// for proportional font
pixXA = pixX0 - ((pixCharStart*fixTextScalingX)>>16);
pixAdvancer = (((pixCharEnd-pixCharStart)*fixTextScalingX)>>16) +dp_pixTextCharSpacing;
}
// out of screen (left) ?
if( pixXA>dp_Width || (pixXA+pixCharEnd)<0) {
// skip to next char
pixX0 += pixAdvancer;
continue;
}
// adjust alpha for flashing
if( iFlash>0) glcol.ub.a = (UBYTE) (ulAlpha*(sin(iFlash*tmFrame)*0.5f+0.5f));
else glcol.ub.a = ulAlpha;
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// prepare coordinates for screen and texture
const FLOAT fX0 = pixXA; const FLOAT fX1 = fX0 +pixScaledWidth;
const FLOAT fY0 = pixY0; const FLOAT fY1 = fY0 +pixScaledHeight;
const FLOAT fU0 = pixCharX *fCorrectionU; const FLOAT fU1 = (pixCharX+pixCellWidth) *fCorrectionU;
const FLOAT fV0 = pixCharY *fCorrectionV; const FLOAT fV1 = (pixCharY+pixCharHeight) *fCorrectionV;
pvtx[0].x = fX0; pvtx[0].y = fY0; pvtx[0].z = 0;
pvtx[1].x = fX0; pvtx[1].y = fY1; pvtx[1].z = 0;
pvtx[2].x = fX1; pvtx[2].y = fY1; pvtx[2].z = 0;
pvtx[3].x = fX1; pvtx[3].y = fY0; pvtx[3].z = 0;
ptex[0].st.s = fU0; ptex[0].st.t = fV0;
ptex[1].st.s = fU0; ptex[1].st.t = fV1;
ptex[2].st.s = fU1; ptex[2].st.t = fV1;
ptex[3].st.s = fU1; ptex[3].st.t = fV0;
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pcol[0] = glcol;
pcol[1] = glcol;
pcol[2] = glcol;
pcol[3] = glcol;
// adjust for italic
if( bItalic) {
const FLOAT fAdjustX = fTextScalingX * (fY1-fY0)*0.2f; // 20% slanted
pvtx[0].x += fAdjustX;
pvtx[3].x += fAdjustX;
}
// advance to next vetrices group
pvtx += 4;
ptex += 4;
pcol += 4;
// add bold char
if( bBold) {
const FLOAT fAdjustX = fTextScalingX * ((FLOAT)pixCellWidth)*0.1f; // 10% fat (extra light mayonnaise:)
pvtx[0].x = pvtx[0-4].x +fAdjustX; pvtx[0].y = fY0; pvtx[0].z = 0;
pvtx[1].x = pvtx[1-4].x +fAdjustX; pvtx[1].y = fY1; pvtx[1].z = 0;
pvtx[2].x = pvtx[2-4].x +fAdjustX; pvtx[2].y = fY1; pvtx[2].z = 0;
pvtx[3].x = pvtx[3-4].x +fAdjustX; pvtx[3].y = fY0; pvtx[3].z = 0;
ptex[0].st.s = fU0; ptex[0].st.t = fV0;
ptex[1].st.s = fU0; ptex[1].st.t = fV1;
ptex[2].st.s = fU1; ptex[2].st.t = fV1;
ptex[3].st.s = fU1; ptex[3].st.t = fV0;
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pcol[0] = glcol;
pcol[1] = glcol;
pcol[2] = glcol;
pcol[3] = glcol;
pvtx += 4;
ptex += 4;
pcol += 4;
ctBoldsPrinted++;
}
// advance to next char
pixX0 += pixAdvancer;
ctCharsPrinted++;
}
// adjust vertex arrays size according to chars that really got printed out
ctCharsPrinted += ctBoldsPrinted;
_avtxCommon.PopUntil( ctCharsPrinted*4-1);
_atexCommon.PopUntil( ctCharsPrinted*4-1);
_acolCommon.PopUntil( ctCharsPrinted*4-1);
gfxFlushQuads();
// all done
_pfGfxProfile.StopTimer( CGfxProfile::PTI_PUTTEXT);
}
// writes text string on drawport (centered arround X)
void CDrawPort::PutTextC( const CTString &strText, PIX pixX0, PIX pixY0,
const COLOR colBlend/*=0xFFFFFFFF*/) const
{
PutText( strText, pixX0-GetTextWidth(strText)/2, pixY0, colBlend);
}
// writes text string on drawport (centered arround X and Y)
void CDrawPort::PutTextCXY( const CTString &strText, PIX pixX0, PIX pixY0,
const COLOR colBlend/*=0xFFFFFFFF*/) const
{
PIX pixTextWidth = GetTextWidth(strText);
PIX pixTextHeight = (PIX) (dp_FontData->fd_pixCharHeight * dp_fTextScaling);
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PutText( strText, pixX0-pixTextWidth/2, pixY0-pixTextHeight/2, colBlend);
}
// writes text string on drawport (right-aligned)
void CDrawPort::PutTextR( const CTString &strText, PIX pixX0, PIX pixY0,
const COLOR colBlend/*=0xFFFFFFFF*/) const
{
PutText( strText, pixX0-GetTextWidth(strText), pixY0, colBlend);
}
/**********************************************************
* Routines for putting and getting textures strictly in 2D
*/
void CDrawPort::PutTexture( class CTextureObject *pTO, const PIXaabbox2D &boxScreen,
const COLOR colBlend/*=0xFFFFFFFF*/) const
{
PutTexture( pTO, boxScreen, colBlend, colBlend, colBlend, colBlend);
}
void CDrawPort::PutTexture( class CTextureObject *pTO, const PIXaabbox2D &boxScreen,
const MEXaabbox2D &boxTexture, const COLOR colBlend/*=0xFFFFFFFF*/) const
{
PutTexture( pTO, boxScreen, boxTexture, colBlend, colBlend, colBlend, colBlend);
}
void CDrawPort::PutTexture( class CTextureObject *pTO, const PIXaabbox2D &boxScreen,
const COLOR colUL, const COLOR colUR, const COLOR colDL, const COLOR colDR) const
{
MEXaabbox2D boxTexture( MEX2D(0,0), MEX2D(pTO->GetWidth(), pTO->GetHeight()));
PutTexture( pTO, boxScreen, boxTexture, colUL, colUR, colDL, colDR);
}
// complete put texture routine
void CDrawPort::PutTexture( class CTextureObject *pTO,
const PIXaabbox2D &boxScreen, const MEXaabbox2D &boxTexture,
const COLOR colUL, const COLOR colUR, const COLOR colDL, const COLOR colDR) const
{
_pfGfxProfile.StartTimer( CGfxProfile::PTI_PUTTEXTURE);
// extract screen and texture coordinates
const PIX pixI0 = boxScreen.Min()(1); const PIX pixI1 = boxScreen.Max()(1);
const PIX pixJ0 = boxScreen.Min()(2); const PIX pixJ1 = boxScreen.Max()(2);
// if whole texture is out of drawport
if( pixI0>dp_Width || pixJ0>dp_Height || pixI1<0 || pixJ1<0) {
// skip it (just to reduce OpenGL call overhead)
_pfGfxProfile.StopTimer( CGfxProfile::PTI_PUTTEXTURE);
return;
}
// check API and adjust position for D3D by half pixel
const GfxAPIType eAPI = _pGfx->gl_eCurrentAPI;
ASSERT( GfxValidApi(eAPI) );
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FLOAT fI0 = pixI0; FLOAT fI1 = pixI1;
FLOAT fJ0 = pixJ0; FLOAT fJ1 = pixJ1;
// prepare texture
gfxSetTextureWrapping( GFX_REPEAT, GFX_REPEAT);
CTextureData *ptd = (CTextureData*)pTO->GetData();
ptd->SetAsCurrent(pTO->GetFrame());
// setup rendering mode
gfxDisableDepthTest();
gfxDisableDepthWrite();
gfxDisableAlphaTest();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
gfxResetArrays();
GFXVertex *pvtx = _avtxCommon.Push(4);
GFXTexCoord *ptex = _atexCommon.Push(4);
GFXColor *pcol = _acolCommon.Push(4);
// extract texture coordinates and apply correction factor
const PIX pixWidth = ptd->GetPixWidth();
const PIX pixHeight = ptd->GetPixHeight();
FLOAT fCorrectionU, fCorrectionV;
(SLONG&)fCorrectionU = (127-FastLog2(pixWidth)) <<23; // fCorrectionU = 1.0f / ptd->GetPixWidth()
(SLONG&)fCorrectionV = (127-FastLog2(pixHeight)) <<23; // fCorrectionV = 1.0f / ptd->GetPixHeight()
FLOAT fU0 = (boxTexture.Min()(1)>>ptd->td_iFirstMipLevel) *fCorrectionU;
FLOAT fU1 = (boxTexture.Max()(1)>>ptd->td_iFirstMipLevel) *fCorrectionU;
FLOAT fV0 = (boxTexture.Min()(2)>>ptd->td_iFirstMipLevel) *fCorrectionV;
FLOAT fV1 = (boxTexture.Max()(2)>>ptd->td_iFirstMipLevel) *fCorrectionV;
// if not tiled
const BOOL bTiled = Abs(fU0-fU1)>1 || Abs(fV0-fV1)>1;
if( !bTiled) {
// slight adjust for sub-pixel precision
fU0 += +0.25f *fCorrectionU;
fU1 += -0.25f *fCorrectionU;
fV0 += +0.25f *fCorrectionV;
fV1 += -0.25f *fCorrectionV;
}
// prepare colors
const GFXColor glcolUL( AdjustColor( colUL, _slTexHueShift, _slTexSaturation));
const GFXColor glcolUR( AdjustColor( colUR, _slTexHueShift, _slTexSaturation));
const GFXColor glcolDL( AdjustColor( colDL, _slTexHueShift, _slTexSaturation));
const GFXColor glcolDR( AdjustColor( colDR, _slTexHueShift, _slTexSaturation));
// prepare coordinates of the rectangle
pvtx[0].x = fI0; pvtx[0].y = fJ0; pvtx[0].z = 0;
pvtx[1].x = fI0; pvtx[1].y = fJ1; pvtx[1].z = 0;
pvtx[2].x = fI1; pvtx[2].y = fJ1; pvtx[2].z = 0;
pvtx[3].x = fI1; pvtx[3].y = fJ0; pvtx[3].z = 0;
ptex[0].st.s = fU0; ptex[0].st.t = fV0;
ptex[1].st.s = fU0; ptex[1].st.t = fV1;
ptex[2].st.s = fU1; ptex[2].st.t = fV1;
ptex[3].st.s = fU1; ptex[3].st.t = fV0;
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pcol[0] = glcolUL;
pcol[1] = glcolDL;
pcol[2] = glcolDR;
pcol[3] = glcolUR;
gfxFlushQuads();
_pfGfxProfile.StopTimer( CGfxProfile::PTI_PUTTEXTURE);
}
// prepares texture and rendering arrays
void CDrawPort::InitTexture( class CTextureObject *pTO, const BOOL bClamp/*=FALSE*/) const
{
// prepare
if( pTO!=NULL) {
// has texture
CTextureData *ptd = (CTextureData*)pTO->GetData();
GfxWrap eWrap = GFX_REPEAT;
if( bClamp) eWrap = GFX_CLAMP;
gfxSetTextureWrapping( eWrap, eWrap);
ptd->SetAsCurrent(pTO->GetFrame());
} else {
// no texture
gfxDisableTexture();
}
// setup rendering mode
gfxDisableDepthTest();
gfxDisableDepthWrite();
gfxDisableAlphaTest();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
// prepare arrays
gfxResetArrays();
}
// adds one full texture to rendering queue
void CDrawPort::AddTexture( const FLOAT fI0, const FLOAT fJ0, const FLOAT fI1, const FLOAT fJ1, const COLOR col) const
{
const GFXColor glCol( AdjustColor( col, _slTexHueShift, _slTexSaturation));
const INDEX iStart = _avtxCommon.Count();
GFXVertex *pvtx = _avtxCommon.Push(4);
GFXTexCoord *ptex = _atexCommon.Push(4);
GFXColor *pcol = _acolCommon.Push(4);
INDEX *pelm = _aiCommonElements.Push(6);
pvtx[0].x = fI0; pvtx[0].y = fJ0; pvtx[0].z = 0;
pvtx[1].x = fI0; pvtx[1].y = fJ1; pvtx[1].z = 0;
pvtx[2].x = fI1; pvtx[2].y = fJ1; pvtx[2].z = 0;
pvtx[3].x = fI1; pvtx[3].y = fJ0; pvtx[3].z = 0;
ptex[0].st.s = 0; ptex[0].st.t = 0;
ptex[1].st.s = 0; ptex[1].st.t = 1;
ptex[2].st.s = 1; ptex[2].st.t = 1;
ptex[3].st.s = 1; ptex[3].st.t = 0;
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pcol[0] = glCol; pcol[1] = glCol; pcol[2] = glCol; pcol[3] = glCol;
pelm[0] = iStart+0; pelm[1] = iStart+1; pelm[2] = iStart+2;
pelm[3] = iStart+2; pelm[4] = iStart+3; pelm[5] = iStart+0;
}
// adds one part of texture to rendering queue
void CDrawPort::AddTexture( const FLOAT fI0, const FLOAT fJ0, const FLOAT fI1, const FLOAT fJ1,
const FLOAT fU0, const FLOAT fV0, const FLOAT fU1, const FLOAT fV1, const COLOR col) const
{
const GFXColor glCol( AdjustColor( col, _slTexHueShift, _slTexSaturation));
const INDEX iStart = _avtxCommon.Count();
GFXVertex *pvtx = _avtxCommon.Push(4);
GFXTexCoord *ptex = _atexCommon.Push(4);
GFXColor *pcol = _acolCommon.Push(4);
INDEX *pelm = _aiCommonElements.Push(6);
pvtx[0].x = fI0; pvtx[0].y = fJ0; pvtx[0].z = 0;
pvtx[1].x = fI0; pvtx[1].y = fJ1; pvtx[1].z = 0;
pvtx[2].x = fI1; pvtx[2].y = fJ1; pvtx[2].z = 0;
pvtx[3].x = fI1; pvtx[3].y = fJ0; pvtx[3].z = 0;
ptex[0].st.s = fU0; ptex[0].st.t = fV0;
ptex[1].st.s = fU0; ptex[1].st.t = fV1;
ptex[2].st.s = fU1; ptex[2].st.t = fV1;
ptex[3].st.s = fU1; ptex[3].st.t = fV0;
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pcol[0] = glCol;
pcol[1] = glCol;
pcol[2] = glCol;
pcol[3] = glCol;
pelm[0] = iStart+0; pelm[1] = iStart+1; pelm[2] = iStart+2;
pelm[3] = iStart+2; pelm[4] = iStart+3; pelm[5] = iStart+0;
}
// adds one triangle to rendering queue
void CDrawPort::AddTriangle( const FLOAT fI0, const FLOAT fJ0,
const FLOAT fI1, const FLOAT fJ1,
const FLOAT fI2, const FLOAT fJ2, const COLOR col) const
{
const GFXColor glCol( AdjustColor( col, _slTexHueShift, _slTexSaturation));
const INDEX iStart = _avtxCommon.Count();
GFXVertex *pvtx = _avtxCommon.Push(3);
GFXTexCoord *ptex = _atexCommon.Push(3);
GFXColor *pcol = _acolCommon.Push(3);
INDEX *pelm = _aiCommonElements.Push(3);
pvtx[0].x = fI0; pvtx[0].y = fJ0; pvtx[0].z = 0;
pvtx[1].x = fI1; pvtx[1].y = fJ1; pvtx[1].z = 0;
pvtx[2].x = fI2; pvtx[2].y = fJ2; pvtx[2].z = 0;
pcol[0] = glCol;
pcol[1] = glCol;
pcol[2] = glCol;
pelm[0] = iStart+0;
pelm[1] = iStart+1;
pelm[2] = iStart+2;
}
// adds one textured quad (up-left start, counter-clockwise)
void CDrawPort::AddTexture( const FLOAT fI0, const FLOAT fJ0, const FLOAT fU0, const FLOAT fV0, const COLOR col0,
const FLOAT fI1, const FLOAT fJ1, const FLOAT fU1, const FLOAT fV1, const COLOR col1,
const FLOAT fI2, const FLOAT fJ2, const FLOAT fU2, const FLOAT fV2, const COLOR col2,
const FLOAT fI3, const FLOAT fJ3, const FLOAT fU3, const FLOAT fV3, const COLOR col3) const
{
const GFXColor glCol0( AdjustColor( col0, _slTexHueShift, _slTexSaturation));
const GFXColor glCol1( AdjustColor( col1, _slTexHueShift, _slTexSaturation));
const GFXColor glCol2( AdjustColor( col2, _slTexHueShift, _slTexSaturation));
const GFXColor glCol3( AdjustColor( col3, _slTexHueShift, _slTexSaturation));
const INDEX iStart = _avtxCommon.Count();
GFXVertex *pvtx = _avtxCommon.Push(4);
GFXTexCoord *ptex = _atexCommon.Push(4);
GFXColor *pcol = _acolCommon.Push(4);
INDEX *pelm = _aiCommonElements.Push(6);
pvtx[0].x = fI0; pvtx[0].y = fJ0; pvtx[0].z = 0;
pvtx[1].x = fI1; pvtx[1].y = fJ1; pvtx[1].z = 0;
pvtx[2].x = fI2; pvtx[2].y = fJ2; pvtx[2].z = 0;
pvtx[3].x = fI3; pvtx[3].y = fJ3; pvtx[3].z = 0;
ptex[0].st.s = fU0; ptex[0].st.t = fV0;
ptex[1].st.s = fU1; ptex[1].st.t = fV1;
ptex[2].st.s = fU2; ptex[2].st.t = fV2;
ptex[3].st.s = fU3; ptex[3].st.t = fV3;
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pcol[0] = glCol0;
pcol[1] = glCol1;
pcol[2] = glCol2;
pcol[3] = glCol3;
pelm[0] = iStart+0; pelm[1] = iStart+1; pelm[2] = iStart+2;
pelm[3] = iStart+2; pelm[4] = iStart+3; pelm[5] = iStart+0;
}
// renders all textures from rendering queue and flushed rendering arrays
void CDrawPort::FlushRenderingQueue(void) const
{
gfxFlushElements();
gfxResetArrays();
}
// blends screen with accumulation color
void CDrawPort::BlendScreen(void)
{
if( dp_ulBlendingA==0) return;
ULONG fix1oA = 65536 / dp_ulBlendingA;
ULONG ulRA = (dp_ulBlendingRA*fix1oA)>>16;
ULONG ulGA = (dp_ulBlendingGA*fix1oA)>>16;
ULONG ulBA = (dp_ulBlendingBA*fix1oA)>>16;
ULONG ulA = ClampUp( dp_ulBlendingA, 255UL);
COLOR colBlending = RGBAToColor( ulRA, ulGA, ulBA, ulA);
// blend drawport (thru z-buffer because of elimination of pixel artefacts)
gfxEnableDepthTest();
gfxDisableDepthWrite();
gfxEnableBlend();
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
gfxDisableAlphaTest();
gfxDisableTexture();
// prepare color
colBlending = AdjustColor( colBlending, _slTexHueShift, _slTexSaturation);
GFXColor glcol(colBlending);
// set arrays
gfxResetArrays();
GFXVertex *pvtx = _avtxCommon.Push(4);
GFXTexCoord *ptex = _atexCommon.Push(4);
GFXColor *pcol = _acolCommon.Push(4);
const INDEX iW = dp_Width;
const INDEX iH = dp_Height;
pvtx[0].x = 0; pvtx[0].y = 0; pvtx[0].z = 0.01f;
pvtx[1].x = 0; pvtx[1].y = iH; pvtx[1].z = 0.01f;
pvtx[2].x = iW; pvtx[2].y = iH; pvtx[2].z = 0.01f;
pvtx[3].x = iW; pvtx[3].y = 0; pvtx[3].z = 0.01f;
pcol[0] = glcol;
pcol[1] = glcol;
pcol[2] = glcol;
pcol[3] = glcol;
gfxFlushQuads();
// reset accumulation color
dp_ulBlendingRA = 0;
dp_ulBlendingGA = 0;
dp_ulBlendingBA = 0;
dp_ulBlendingA = 0;
}