mirror of
https://github.com/ptitSeb/Serious-Engine
synced 2024-11-22 18:30:27 +01:00
1999 lines
68 KiB
C++
Executable File
1999 lines
68 KiB
C++
Executable File
/* Copyright (c) 2002-2012 Croteam Ltd.
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This program is free software; you can redistribute it and/or modify
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it under the terms of version 2 of the GNU General Public License as published by
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the Free Software Foundation
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This program is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License along
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with this program; if not, write to the Free Software Foundation, Inc.,
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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>
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#include <Engine/Base/Statistics_Internal.h>
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#include <Engine/Base/Console.h>
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#include <Engine/Math/Projection.h>
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#include <Engine/Graphics/RenderScene.h>
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#include <Engine/Graphics/Texture.h>
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#include <Engine/Graphics/GfxLibrary.h>
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#include <Engine/Graphics/GfxProfile.h>
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#include <Engine/Graphics/ShadowMap.h>
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#include <Engine/Graphics/Fog_internal.h>
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#include <Engine/Brushes/Brush.h>
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#include <Engine/Brushes/BrushTransformed.h>
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#include <Engine/Templates/StaticStackArray.cpp>
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// asm shortcuts
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#define O offset
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#define Q qword ptr
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#define D dword ptr
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#define W word ptr
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#define B byte ptr
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#define MAXTEXUNITS 4
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#define SHADOWTEXTURE 3
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extern INDEX wld_bShowTriangles;
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extern INDEX wld_bShowDetailTextures;
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extern INDEX wld_bRenderShadowMaps;
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extern INDEX wld_bRenderTextures;
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extern INDEX wld_bRenderDetailPolygons;
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extern INDEX wld_iDetailRemovingBias;
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extern INDEX wld_bAccurateColors;
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extern INDEX gfx_bRenderWorld;
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extern INDEX shd_iForceFlats;
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extern INDEX shd_bShowFlats;
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extern BOOL _bMultiPlayer;
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extern BOOL CVA_bWorld;
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static GfxAPIType eAPI;
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// vertex coordinates and elements used by one pass of polygons
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static CStaticStackArray<GFXVertex> _avtxPass;
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static CStaticStackArray<GFXTexCoord> _atexPass[MAXTEXUNITS];
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static CStaticStackArray<GFXColor> _acolPass;
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static CStaticStackArray<INDEX_T> _aiElements;
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// general coordinate stack referenced by the scene polygons
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CStaticStackArray<GFXVertex3> _avtxScene;
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// group flags (single-texturing)
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#define GF_TX0 (1L<<0)
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#define GF_TX1 (1L<<1)
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#define GF_TX2 (1L<<2)
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#define GF_SHD (1L<<3)
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#define GF_FLAT (1L<<4) // flat fill instead of texture 1
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#define GF_TA1 (1L<<5) // texture 2 after shade
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#define GF_TA2 (1L<<6) // texture 3 after shade
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#define GF_FOG (1L<<7)
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#define GF_HAZE (1L<<8)
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#define GF_SEL (1L<<9)
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#define GF_KEY (1L<<10) // first layer requires alpha-keying
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// texture combinations for max 4 texture units (fog, haze and selection not included)
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#define GF_TX0_TX1 (1L<<11)
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#define GF_TX0_TX2 (1L<<12)
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#define GF_TX0_SHD (1L<<13)
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#define GF_TX2_SHD (1L<<14) // second pass
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#define GF_TX0_TX1_TX2 (1L<<15)
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#define GF_TX0_TX1_SHD (1L<<16)
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#define GF_TX0_TX2_SHD (1L<<17)
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#define GF_TX0_TX1_TX2_SHD (1L<<18)
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// total number of groups
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#define GROUPS_MAXCOUNT (1L<<11) // max group +1 !
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#define GROUPS_MINCOUNT (1L<<4)-1 // min group !
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static ScenePolygon *_apspoGroups[GROUPS_MAXCOUNT];
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static INDEX _ctGroupsCount=0;
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// some static vars
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static FLOAT _fHazeMul, _fHazeAdd;
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static FLOAT _fFogMul;
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static COLOR _colSelection;
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static INDEX _ctUsableTexUnits;
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static BOOL _bTranslucentPass; // rendering translucent polygons
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static ULONG _ulLastFlags[MAXTEXUNITS];
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static ULONG _ulLastBlends[MAXTEXUNITS];
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static INDEX _iLastFrameNo[MAXTEXUNITS];
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static CTextureData *_ptdLastTex[MAXTEXUNITS];
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static CDrawPort *_pDP;
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static CPerspectiveProjection3D *_ppr = NULL;
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// draw batched elements
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static void FlushElements(void)
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{
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// skip if empty
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const INDEX ctElements = _aiElements.Count();
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if( ctElements<3) return;
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// draw
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const INDEX ctTris = ctElements/3;
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_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_DRAWELEMENTS);
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_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESOPT, ctTris);
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_sfStats.IncrementCounter( CStatForm::SCI_SCENE_TRIANGLEPASSES, ctTris);
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_pGfx->gl_ctWorldTriangles += ctTris;
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gfxDrawElements( ctElements, &_aiElements[0]);
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_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_DRAWELEMENTS);
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// reset
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_aiElements.PopAll();
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}
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// batch elements of one polygon
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static
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#if (!defined __GNUC__)
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__forceinline
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#endif
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void AddElements( ScenePolygon *pspo)
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{
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const INDEX ctElems = pspo->spo_ctElements;
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INDEX_T *piDst = _aiElements.Push(ctElems);
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#if (defined __MSVC_INLINE__)
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__asm {
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mov eax,D [pspo]
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mov ecx,D [ctElems]
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mov edi,D [piDst]
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mov esi,D [eax]ScenePolygon.spo_piElements
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mov ebx,D [eax]ScenePolygon.spo_iVtx0Pass
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movd mm1,ebx
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movq mm0,mm1
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psllq mm1,32
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por mm1,mm0
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shr ecx,1
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jz elemRest
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elemLoop:
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movq mm0,Q [esi]
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paddd mm0,mm1
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movq Q [edi],mm0
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add esi,8
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add edi,8
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dec ecx
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jnz elemLoop
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elemRest:
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emms
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test [ctElems],1
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jz elemDone
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mov eax,D [esi]
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add eax,ebx
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mov D [edi],eax
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elemDone:
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}
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#elif (defined __GNU_INLINE_X86_32__)
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__asm__ __volatile__ (
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"movl %[ctElems], %%ecx \n\t"
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"movl %[piDst], %%edi \n\t"
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"movl %[piElements], %%esi \n\t"
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"movd %[iVtx0Pass], %%mm1 \n\t"
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"movq %%mm1, %%mm0 \n\t"
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"psllq $32, %%mm1 \n\t"
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"por %%mm0, %%mm1 \n\t"
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"shrl $1, %%ecx \n\t"
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"jz 1f \n\t" // elemRest
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"0: \n\t" // elemLoop
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"movq (%%esi), %%mm0 \n\t"
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"paddd %%mm1, %%mm0 \n\t"
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"movq %%mm0, (%%edi) \n\t"
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"addl $8, %%esi \n\t"
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"addl $8, %%edi \n\t"
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"decl %%ecx \n\t"
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"jnz 0b \n\t" // elemLoop
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"1: \n\t" // elemRest
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"emms \n\t"
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"testl $1, %[ctElems] \n\t"
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"jz 2f \n\t" // elemDone
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"movl (%%esi), %%eax \n\t"
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"addl %[iVtx0Pass], %%eax \n\t"
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"movl %%eax, (%%edi) \n\t"
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"2: \n\t" // elemDone
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: // no outputs.
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: [ctElems] "g" (ctElems), [piDst] "g" (piDst),
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[piElements] "g" (pspo->spo_piElements),
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[iVtx0Pass] "g" (pspo->spo_iVtx0Pass)
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: FPU_REGS, "mm0", "mm1", "eax", "ecx", "esi", "edi",
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"cc", "memory"
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);
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#else
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const INDEX iVtx0Pass = pspo->spo_iVtx0Pass;
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const INDEX *piSrc = pspo->spo_piElements;
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for( INDEX iElem=0; iElem<ctElems; iElem++) {
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// make an element in per-pass arrays
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piDst[iElem] = piSrc[iElem]+iVtx0Pass;
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}
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#endif
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}
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// draw all elements of one pass
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static __forceinline void DrawAllElements( ScenePolygon *pspoFirst)
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{
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ASSERT( _aiElements.Count()==0);
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_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_DRAWELEMENTS);
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for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc) {
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const INDEX ctTris = pspo->spo_ctElements/3;
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_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESOPT, ctTris);
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_sfStats.IncrementCounter( CStatForm::SCI_SCENE_TRIANGLEPASSES, ctTris);
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_pGfx->gl_ctWorldTriangles += ctTris;
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AddElements(pspo);
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}
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FlushElements();
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_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_DRAWELEMENTS);
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}
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// calculate mip factor for a texture and adjust its mapping vectors
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static BOOL RSMakeMipFactorAndAdjustMapping( ScenePolygon *pspo, INDEX iLayer)
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{
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_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_MAKEMIPFACTOR);
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BOOL bRemoved = FALSE;
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MEX mexTexSizeU, mexTexSizeV;
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CMappingVectors &mv = pspo->spo_amvMapping[iLayer];
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// texture map ?
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if( iLayer<SHADOWTEXTURE)
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{
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const ULONG ulBlend = pspo->spo_aubTextureFlags[iLayer] & STXF_BLEND_MASK;
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CTextureData *ptd = (CTextureData*)pspo->spo_aptoTextures[iLayer]->GetData();
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mexTexSizeU = ptd->GetWidth();
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mexTexSizeV = ptd->GetHeight();
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// check whether detail can be rejected (but don't reject colorized textures)
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if( ulBlend==STXF_BLEND_SHADE && (ptd->td_ulFlags&TEX_EQUALIZED)
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&& (pspo->spo_acolColors[iLayer]&0xFFFFFF00)==0xFFFFFF00)
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{ // get nearest vertex Z distance from viewer and u and v steps
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const FLOAT fZ = pspo->spo_fNearestZ;
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const FLOAT f1oPZ1 = fZ / _ppr->ppr_PerspectiveRatios(1);
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const FLOAT f1oPZ2 = fZ / _ppr->ppr_PerspectiveRatios(2);
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const FLOAT fDUoDI = Abs( mv.mv_vU(1) *f1oPZ1);
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const FLOAT fDUoDJ = Abs( mv.mv_vU(2) *f1oPZ2);
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const FLOAT fDVoDI = Abs( mv.mv_vV(1) *f1oPZ1);
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const FLOAT fDVoDJ = Abs( mv.mv_vV(2) *f1oPZ2);
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// find mip factor and adjust removing of texture layer
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const FLOAT fMaxDoD = Max( Max(fDUoDI,fDUoDJ), Max(fDVoDI,fDVoDJ));
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const INDEX iMipFactor = wld_iDetailRemovingBias + (((SLONG&)fMaxDoD)>>23) -127 +10;
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const INDEX iLastMip = ptd->td_iFirstMipLevel + ptd->GetNoOfMips() -1; // determine last mipmap in texture
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bRemoved = (iMipFactor>=iLastMip);
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// check for detail texture showing
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extern INDEX wld_bShowDetailTextures;
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if( wld_bShowDetailTextures) {
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if( iLayer==2) pspo->spo_acolColors[iLayer] = C_MAGENTA|255;
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else pspo->spo_acolColors[iLayer] = C_CYAN |255;
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}
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}
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// check if texture has been blended with low alpha
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else bRemoved = (ulBlend==STXF_BLEND_ALPHA) && ((pspo->spo_acolColors[iLayer]&CT_AMASK)>>CT_ASHIFT)<3;
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}
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// shadow map
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else
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{
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mexTexSizeU = pspo->spo_psmShadowMap->sm_mexWidth;
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mexTexSizeV = pspo->spo_psmShadowMap->sm_mexHeight;
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}
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// adjust texture gradients
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if( mexTexSizeU!=1024) {
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const FLOAT fMul = 1024.0f /mexTexSizeU; // (no need to do shift-opt, because it won't speed up much!)
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mv.mv_vU(1) *=fMul; mv.mv_vU(2) *=fMul; mv.mv_vU(3) *=fMul;
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}
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if( mexTexSizeV!=1024) {
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const FLOAT fMul = 1024.0f /mexTexSizeV;
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mv.mv_vV(1) *=fMul; mv.mv_vV(2) *=fMul; mv.mv_vV(3) *=fMul;
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}
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// all done
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_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_MAKEMIPFACTOR);
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return bRemoved;
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}
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// Remove all polygons with no triangles from a list
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static void RSRemoveDummyPolygons( ScenePolygon *pspoAll, ScenePolygon **ppspoNonDummy)
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{
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_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_REMOVEDUMMY);
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*ppspoNonDummy = NULL;
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// for all span polygons in list (remember one ahead to be able to reconnect them)
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ScenePolygon *pspoNext;
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for( ScenePolygon *pspoThis=pspoAll; pspoThis!=NULL; pspoThis=pspoNext) {
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pspoNext = pspoThis->spo_pspoSucc;
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// if the polygon has some triangles
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if( pspoThis->spo_ctElements >0) {
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// move it to the other list
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pspoThis->spo_pspoSucc = *ppspoNonDummy;
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*ppspoNonDummy = pspoThis;
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}
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}
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_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_REMOVEDUMMY);
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}
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// bin polygons into groups
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static void RSBinToGroups( ScenePolygon *pspoFirst)
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{
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_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_BINTOGROUPS);
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// clamp texture layers
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extern INDEX wld_bTextureLayers;
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BOOL bTextureLayer1 =(wld_bTextureLayers /100) || _bMultiPlayer; // must be enabled in multiplayer mode!
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BOOL bTextureLayer2 = wld_bTextureLayers /10 %10;
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BOOL bTextureLayer3 = wld_bTextureLayers %10;
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wld_bTextureLayers = 0;
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if( bTextureLayer1) wld_bTextureLayers += 100;
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if( bTextureLayer2) wld_bTextureLayers += 10;
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if( bTextureLayer3) wld_bTextureLayers += 1;
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// cache rendering states
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bTextureLayer1 = bTextureLayer1 && wld_bRenderTextures;
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bTextureLayer2 = bTextureLayer2 && wld_bRenderTextures;
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bTextureLayer3 = bTextureLayer3 && wld_bRenderTextures;
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// clear all groups initially
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memset( _apspoGroups, 0, sizeof(_apspoGroups));
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_ctGroupsCount = GROUPS_MINCOUNT;
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// for all span polygons in list (remember one ahead to be able to reconnect them)
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for( ScenePolygon *pspoNext, *pspo=pspoFirst; pspo!=NULL; pspo=pspoNext)
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{
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pspoNext = pspo->spo_pspoSucc;
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const INDEX ctTris = pspo->spo_ctElements/3;
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ULONG ulBits = NONE;
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// if it has texture 1 active
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if( pspo->spo_aptoTextures[0]!=NULL && bTextureLayer1) {
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_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESORG, ctTris);
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// prepare mapping for texture 0 and generate its mip factor
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const BOOL bRemoved = RSMakeMipFactorAndAdjustMapping( pspo, 0);
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if( !bRemoved) ulBits |= GF_TX0; // add if not removed
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} else {
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// flat fill is mutually exclusive with texture layer0
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_ctGroupsCount |= GF_FLAT;
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ulBits |= GF_FLAT;
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}
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// if it has texture 2 active
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if( pspo->spo_aptoTextures[1]!=NULL && bTextureLayer2) {
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_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESORG, ctTris);
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// prepare mapping for texture 1 and generate its mip factor
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const BOOL bRemoved = RSMakeMipFactorAndAdjustMapping( pspo, 1);
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if( !bRemoved) { // add if not removed
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if( pspo->spo_aubTextureFlags[1] & STXF_AFTERSHADOW) {
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_ctGroupsCount |= GF_TA1;
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ulBits |= GF_TA1;
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} else {
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ulBits |= GF_TX1;
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}
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}
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}
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// if it has texture 3 active
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if( pspo->spo_aptoTextures[2]!=NULL && bTextureLayer3) {
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_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESORG, ctTris);
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// prepare mapping for texture 2 and generate its mip factor
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const BOOL bRemoved = RSMakeMipFactorAndAdjustMapping( pspo, 2);
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if( !bRemoved) { // add if not removed
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if( pspo->spo_aubTextureFlags[2] & STXF_AFTERSHADOW) {
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_ctGroupsCount |= GF_TA2;
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ulBits |= GF_TA2;
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} else {
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ulBits |= GF_TX2;
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}
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}
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}
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// if it has shadowmap active
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if( pspo->spo_psmShadowMap!=NULL && wld_bRenderShadowMaps) {
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_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESORG, ctTris);
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// prepare shadow map
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CShadowMap *psmShadow = pspo->spo_psmShadowMap;
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psmShadow->Prepare();
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const BOOL bFlat = psmShadow->IsFlat();
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COLOR colFlat = psmShadow->sm_colFlat & 0xFFFFFF00;
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const BOOL bOverbright = (colFlat & 0x80808000);
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// only need to update poly color if shadowmap is flat
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if( bFlat) {
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if( !bOverbright || shd_iForceFlats==1) {
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if( shd_bShowFlats) colFlat = C_mdMAGENTA; // show flat shadows?
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else { // enhance light color to emulate overbrighting
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if( !bOverbright) colFlat<<=1;
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else {
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UBYTE ubR,ubG,ubB;
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ColorToRGB( colFlat, ubR,ubG,ubB);
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const ULONG ulR = ClampUp( ((ULONG)ubR)<<1, (ULONG) 255);
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const ULONG ulG = ClampUp( ((ULONG)ubG)<<1, (ULONG) 255);
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const ULONG ulB = ClampUp( ((ULONG)ubB)<<1, (ULONG) 255);
|
|
colFlat = RGBToColor(ulR,ulG,ulB);
|
|
}
|
|
} // mix color in the first texture layer
|
|
COLOR &colTotal = pspo->spo_acolColors[0];
|
|
COLOR colLayer = pspo->spo_acolColors[3];
|
|
if( colTotal==0xFFFFFFFF) colTotal = colLayer;
|
|
else if( colLayer!=0xFFFFFFFF) colTotal = MulColors( colTotal, colLayer);
|
|
if( colTotal==0xFFFFFFFF) colTotal = colFlat;
|
|
else colTotal = MulColors( colTotal, colFlat);
|
|
psmShadow->MarkDrawn();
|
|
}
|
|
else {
|
|
// need to update poly color if shadowmap is flat and overbrightened
|
|
COLOR &colTotal = pspo->spo_acolColors[3];
|
|
if( shd_bShowFlats) colFlat = C_mdBLUE; // overbrightened!
|
|
if( colTotal==0xFFFFFFFF) colTotal = colFlat;
|
|
else colTotal = MulColors( colTotal, colFlat);
|
|
ulBits |= GF_SHD; // mark the need for shadow layer
|
|
}
|
|
} else {
|
|
// prepare mapping for shadowmap and generate its mip factor
|
|
RSMakeMipFactorAndAdjustMapping( pspo, SHADOWTEXTURE);
|
|
ulBits |= GF_SHD;
|
|
}
|
|
}
|
|
|
|
// if it has fog active
|
|
if( pspo->spo_ulFlags&SPOF_RENDERFOG) {
|
|
_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESORG, ctTris);
|
|
_ctGroupsCount |= GF_FOG;
|
|
ulBits |= GF_FOG;
|
|
}
|
|
// if it has haze active
|
|
if( pspo->spo_ulFlags&SPOF_RENDERHAZE) {
|
|
_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESORG, ctTris);
|
|
_ctGroupsCount |= GF_HAZE;
|
|
ulBits |= GF_HAZE;
|
|
}
|
|
|
|
// if it is selected
|
|
if( pspo->spo_ulFlags&SPOF_SELECTED) {
|
|
_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESORG, ctTris);
|
|
_ctGroupsCount |= GF_SEL;
|
|
ulBits |= GF_SEL;
|
|
}
|
|
|
|
// if it is transparent
|
|
if( pspo->spo_ulFlags&SPOF_TRANSPARENT) {
|
|
_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLEPASSESORG, ctTris);
|
|
_ctGroupsCount |= GF_KEY;
|
|
ulBits |= GF_KEY;
|
|
}
|
|
|
|
// in case of at least one layer, add it to proper group
|
|
if( ulBits) {
|
|
_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_TRIANGLES, ctTris);
|
|
pspo->spo_pspoSucc = _apspoGroups[ulBits];
|
|
_apspoGroups[ulBits] = pspo;
|
|
}
|
|
}
|
|
|
|
// determine maximum used groups
|
|
ASSERT( _ctGroupsCount);
|
|
|
|
#if (defined __MSVC_INLINE__)
|
|
__asm {
|
|
mov eax,2
|
|
bsr ecx,D [_ctGroupsCount]
|
|
shl eax,cl
|
|
mov D [_ctGroupsCount],eax
|
|
}
|
|
|
|
#elif (defined __GNU_INLINE_X86_32__)
|
|
__asm__ __volatile__ (
|
|
"movl $2, %%eax \n\t"
|
|
"bsrl (%%esi), %%ecx \n\t"
|
|
"shll %%cl, %%eax \n\t"
|
|
"movl %%eax, (%%esi) \n\t"
|
|
: // no outputs.
|
|
: "S" (&_ctGroupsCount)
|
|
: "eax", "ecx", "cc", "memory"
|
|
);
|
|
|
|
#else
|
|
// emulate x86's bsr opcode...
|
|
|
|
// GCC and clang have an architecture-independent intrinsic for this
|
|
// (it counts leading zeros starting at MSB and is undefined for 0)
|
|
#ifdef __GNUC__
|
|
INDEX bsr = 31;
|
|
if(_ctGroupsCount != 0) bsr -= __builtin_clz(_ctGroupsCount);
|
|
else bsr = 0;
|
|
#else // another compiler - doing it manually.. not fast. :/
|
|
register DWORD val = _ctGroupsCount;
|
|
register INDEX bsr = 31;
|
|
if (val != 0)
|
|
{
|
|
while (bsr > 0)
|
|
{
|
|
if (val & (1l << bsr))
|
|
break;
|
|
bsr--;
|
|
}
|
|
}
|
|
#endif
|
|
|
|
_ctGroupsCount = 2 << bsr;
|
|
#endif
|
|
|
|
// done with bining
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_BINTOGROUPS);
|
|
}
|
|
|
|
|
|
|
|
// bin polygons that can use dual-texturing
|
|
static void RSBinByDualTexturing( ScenePolygon *pspoGroup, INDEX iLayer1, INDEX iLayer2,
|
|
ScenePolygon **ppspoST, ScenePolygon **ppspoMT)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_BINBYMULTITEXTURING);
|
|
*ppspoST = NULL;
|
|
*ppspoMT = NULL;
|
|
// for all span polygons in list (remember one ahead to be able to reconnect them)
|
|
for( ScenePolygon *pspoNext, *pspo=pspoGroup; pspo!=NULL; pspo=pspoNext)
|
|
{
|
|
pspoNext = pspo->spo_pspoSucc;
|
|
// if first texture is opaque or shade and second layer is shade
|
|
if( ((pspo->spo_aubTextureFlags[iLayer1]&STXF_BLEND_MASK)==STXF_BLEND_OPAQUE
|
|
|| (pspo->spo_aubTextureFlags[iLayer1]&STXF_BLEND_MASK)==STXF_BLEND_SHADE)
|
|
&& (pspo->spo_aubTextureFlags[iLayer2]&STXF_BLEND_MASK)==STXF_BLEND_SHADE) {
|
|
// can be merged, so put to multi-texture
|
|
pspo->spo_pspoSucc = *ppspoMT;
|
|
*ppspoMT = pspo;
|
|
} else {
|
|
// cannot be merged, so put to single-texture
|
|
pspo->spo_pspoSucc = *ppspoST;
|
|
*ppspoST = pspo;
|
|
}
|
|
}
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_BINBYMULTITEXTURING);
|
|
}
|
|
|
|
|
|
// bin polygons that can use triple-texturing
|
|
static void RSBinByTripleTexturing( ScenePolygon *pspoGroup, INDEX iLayer2, INDEX iLayer3,
|
|
ScenePolygon **ppspoST, ScenePolygon **ppspoMT)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_BINBYMULTITEXTURING);
|
|
*ppspoST = NULL;
|
|
*ppspoMT = NULL;
|
|
// for all span polygons in list (remember one ahead to be able to reconnect them)
|
|
for( ScenePolygon *pspoNext, *pspo=pspoGroup; pspo!=NULL; pspo=pspoNext)
|
|
{
|
|
pspoNext = pspo->spo_pspoSucc;
|
|
// if texture is shade and colors allow merging
|
|
if( (pspo->spo_aubTextureFlags[iLayer3]&STXF_BLEND_MASK)==STXF_BLEND_SHADE) {
|
|
// can be merged, so put to multi-texture
|
|
pspo->spo_pspoSucc = *ppspoMT;
|
|
*ppspoMT = pspo;
|
|
} else {
|
|
// cannot be merged, so put to single-texture
|
|
pspo->spo_pspoSucc = *ppspoST;
|
|
*ppspoST = pspo;
|
|
}
|
|
}
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_BINBYMULTITEXTURING);
|
|
}
|
|
|
|
|
|
// bin polygons that can use quad-texturing
|
|
static void RSBinByQuadTexturing( ScenePolygon *pspoGroup, ScenePolygon **ppspoST, ScenePolygon **ppspoMT)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_BINBYMULTITEXTURING);
|
|
*ppspoST = NULL;
|
|
*ppspoMT = pspoGroup;
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_BINBYMULTITEXTURING);
|
|
}
|
|
|
|
|
|
// check if all layers in all shadow maps are up to date
|
|
static void RSCheckLayersUpToDate( ScenePolygon *pspoFirst)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_CHECKLAYERSUPTODATE);
|
|
// for all span polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc) {
|
|
if( pspo->spo_psmShadowMap!=NULL) pspo->spo_psmShadowMap->CheckLayersUpToDate();
|
|
}
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_CHECKLAYERSUPTODATE);
|
|
}
|
|
|
|
|
|
// prepare parameters individual to a polygon texture
|
|
inline void RSSetTextureWrapping( ULONG ulFlags)
|
|
{
|
|
gfxSetTextureWrapping( (ulFlags&STXF_CLAMPU) ? GFX_CLAMP : GFX_REPEAT,
|
|
(ulFlags&STXF_CLAMPV) ? GFX_CLAMP : GFX_REPEAT);
|
|
}
|
|
|
|
|
|
// prepare parameters individual to a polygon texture
|
|
static void RSSetInitialTextureParameters(void)
|
|
{
|
|
_ulLastFlags[0] = STXF_BLEND_OPAQUE;
|
|
_ulLastBlends[0] = STXF_BLEND_OPAQUE;
|
|
_iLastFrameNo[0] = 0;
|
|
_ptdLastTex[0] = NULL;
|
|
gfxSetTextureModulation(1);
|
|
gfxDisableBlend();
|
|
}
|
|
|
|
|
|
static void RSSetTextureParameters( ULONG ulFlags)
|
|
{
|
|
// if blend flags have changed
|
|
ULONG ulBlendFlags = ulFlags&STXF_BLEND_MASK;
|
|
if( _ulLastBlends[0] != ulBlendFlags)
|
|
{ // determine new texturing mode
|
|
switch( ulBlendFlags) {
|
|
case STXF_BLEND_OPAQUE: // opaque texturing
|
|
gfxDisableBlend();
|
|
break;
|
|
case STXF_BLEND_ALPHA: // blend using texture alpha
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
|
|
break;
|
|
case STXF_BLEND_ADD: // add to screen
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_ONE, GFX_ONE);
|
|
break;
|
|
default: // screen*texture*2
|
|
ASSERT( ulBlendFlags==STXF_BLEND_SHADE);
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_DST_COLOR, GFX_SRC_COLOR);
|
|
break;
|
|
}
|
|
// remember new flags
|
|
_ulLastBlends[0] = ulFlags;
|
|
}
|
|
}
|
|
|
|
|
|
// prepare initial parameters for polygon texture
|
|
static void RSSetInitialTextureParametersMT(void)
|
|
{
|
|
INDEX i;
|
|
// reset bleding modes
|
|
for( i=0; i<MAXTEXUNITS; i++) {
|
|
_ulLastFlags[i] = STXF_BLEND_OPAQUE;
|
|
_ulLastBlends[i] = STXF_BLEND_OPAQUE;
|
|
_iLastFrameNo[i] = 0;
|
|
_ptdLastTex[i] = NULL;
|
|
}
|
|
// reset for texture
|
|
gfxDisableBlend();
|
|
for( i=1; i<_ctUsableTexUnits; i++) {
|
|
gfxSetTextureUnit(i);
|
|
gfxSetTextureModulation(2);
|
|
}
|
|
gfxSetTextureUnit(0);
|
|
gfxSetTextureModulation(1);
|
|
}
|
|
|
|
|
|
// prepare parameters individual to a polygon texture
|
|
static void RSSetTextureParametersMT( ULONG ulFlags)
|
|
{
|
|
// skip if the same as last time
|
|
const ULONG ulBlendFlags = ulFlags&STXF_BLEND_MASK;
|
|
if( _ulLastBlends[0]==ulBlendFlags) return;
|
|
// update
|
|
if( ulBlendFlags==STXF_BLEND_OPAQUE) {
|
|
// opaque texturing
|
|
gfxDisableBlend();
|
|
} else {
|
|
// shade texturing
|
|
ASSERT( ulBlendFlags==STXF_BLEND_SHADE);
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_DST_COLOR, GFX_SRC_COLOR);
|
|
} // keep
|
|
_ulLastBlends[0] = ulBlendFlags;
|
|
}
|
|
|
|
|
|
// make vertex coordinates for all polygons in the group
|
|
static void RSMakeVertexCoordinates( ScenePolygon *pspoGroup)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_MAKEVERTEXCOORDS);
|
|
_avtxPass.PopAll();
|
|
INDEX ctGroupVtx = 0;
|
|
|
|
// for all scene polygons in list
|
|
for( ScenePolygon *pspo=pspoGroup; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{
|
|
// create new vertices for that polygon in per-pass array
|
|
const INDEX ctVtx = pspo->spo_ctVtx;
|
|
pspo->spo_iVtx0Pass = _avtxPass.Count();
|
|
GFXVertex3 *pvtxScene = &_avtxScene[pspo->spo_iVtx0];
|
|
GFXVertex4 *pvtxPass = _avtxPass.Push(ctVtx);
|
|
|
|
// copy the vertex coordinates
|
|
for( INDEX iVtx=0; iVtx<ctVtx; iVtx++) {
|
|
pvtxPass[iVtx].x = pvtxScene[iVtx].x;
|
|
pvtxPass[iVtx].y = pvtxScene[iVtx].y;
|
|
pvtxPass[iVtx].z = pvtxScene[iVtx].z;
|
|
}
|
|
// add polygon vertices to total
|
|
ctGroupVtx += ctVtx;
|
|
}
|
|
|
|
// prepare texture and color arrays
|
|
_acolPass.PopAll();
|
|
_atexPass[0].PopAll();
|
|
_atexPass[1].PopAll();
|
|
_atexPass[2].PopAll();
|
|
_atexPass[3].PopAll();
|
|
_acolPass.Push(ctGroupVtx);
|
|
for( INDEX i=0; i<_ctUsableTexUnits; i++) _atexPass[i].Push(ctGroupVtx);
|
|
|
|
// done
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_MAKEVERTEXCOORDS);
|
|
}
|
|
|
|
|
|
static void RSSetPolygonColors( ScenePolygon *pspoGroup, UBYTE ubAlpha)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_SETCOLORS);
|
|
// for all scene polygons in list
|
|
COLOR col;
|
|
GFXColor *pcol;
|
|
for( ScenePolygon *pspo = pspoGroup; pspo != NULL; pspo = pspo->spo_pspoSucc) {
|
|
col = ByteSwap( AdjustColor( pspo->spo_cColor|ubAlpha, _slTexHueShift, _slTexSaturation));
|
|
pcol = &_acolPass[pspo->spo_iVtx0Pass];
|
|
for( INDEX i=0; i<pspo->spo_ctVtx; i++) pcol[i].ul.abgr = col;
|
|
}
|
|
gfxSetColorArray( &_acolPass[0]);
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_SETCOLORS);
|
|
}
|
|
|
|
|
|
static void RSSetConstantColors( COLOR col)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_SETCOLORS);
|
|
col = ByteSwap( AdjustColor( col, _slTexHueShift, _slTexSaturation));
|
|
GFXColor *pcol = &_acolPass[0];
|
|
for( INDEX i=0; i<_acolPass.Count(); i++) pcol[i].ul.abgr = col;
|
|
gfxSetColorArray( &_acolPass[0]);
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_SETCOLORS);
|
|
}
|
|
|
|
|
|
static void RSSetTextureColors( ScenePolygon *pspoGroup, ULONG ulLayerMask)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_SETCOLORS);
|
|
ASSERT( !(ulLayerMask & (GF_TA1|GF_TA2|GF_FOG|GF_HAZE|GF_SEL)));
|
|
// for all scene polygons in list
|
|
COLOR colLayer, colTotal;
|
|
for( ScenePolygon *pspo = pspoGroup; pspo != NULL; pspo = pspo->spo_pspoSucc)
|
|
{ // adjust hue/saturation and set colors
|
|
colTotal = C_WHITE|CT_OPAQUE;
|
|
if( ulLayerMask&GF_TX0) {
|
|
colLayer = AdjustColor( pspo->spo_acolColors[0], _slTexHueShift, _slTexSaturation);
|
|
if( colLayer!=0xFFFFFFFF) colTotal = MulColors( colTotal, colLayer);
|
|
}
|
|
if( ulLayerMask&GF_TX1) {
|
|
colLayer = AdjustColor( pspo->spo_acolColors[1], _slTexHueShift, _slTexSaturation);
|
|
if( colLayer!=0xFFFFFFFF) colTotal = MulColors( colTotal, colLayer);
|
|
}
|
|
if( ulLayerMask&GF_TX2) {
|
|
colLayer = AdjustColor( pspo->spo_acolColors[2], _slTexHueShift, _slTexSaturation);
|
|
if( colLayer!=0xFFFFFFFF) colTotal = MulColors( colTotal, colLayer);
|
|
}
|
|
if( ulLayerMask&GF_SHD) {
|
|
colLayer = AdjustColor( pspo->spo_acolColors[3], _slShdHueShift, _slShdSaturation);
|
|
if( colLayer!=0xFFFFFFFF) colTotal = MulColors( colTotal, colLayer);
|
|
}
|
|
// store
|
|
colTotal = ByteSwap(colTotal);
|
|
GFXColor *pcol= &_acolPass[pspo->spo_iVtx0Pass];
|
|
for( INDEX i=0; i<pspo->spo_ctVtx; i++) pcol[i].ul.abgr = colTotal;
|
|
}
|
|
// set color array
|
|
gfxSetColorArray( &_acolPass[0]);
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_SETCOLORS);
|
|
}
|
|
|
|
|
|
// make texture coordinates for one texture in all polygons in group
|
|
static INDEX _iLastUnit = -1;
|
|
static void RSSetTextureCoords( ScenePolygon *pspoGroup, INDEX iLayer, INDEX iUnit)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_SETTEXCOORDS);
|
|
// eventualy switch texture unit
|
|
if( _iLastUnit != iUnit) {
|
|
gfxSetTextureUnit(iUnit);
|
|
gfxEnableTexture();
|
|
_iLastUnit = iUnit;
|
|
}
|
|
|
|
// generate tex coord for all scene polygons in list
|
|
const FLOATmatrix3D &mViewer = _ppr->pr_ViewerRotationMatrix;
|
|
const INDEX iMappingOffset = iLayer * sizeof(CMappingVectors);
|
|
(void)iMappingOffset; // shut up compiler, this is used if inline ASM is used
|
|
|
|
for( ScenePolygon *pspo=pspoGroup; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{
|
|
ASSERT( pspo->spo_ctVtx>0);
|
|
const FLOAT3D &vN = ((CBrushPolygon*)pspo->spo_pvPolygon)->bpo_pbplPlane->bpl_pwplWorking->wpl_plView;
|
|
const GFXVertex *pvtx = &_avtxPass[pspo->spo_iVtx0Pass];
|
|
GFXTexCoord *ptex = &_atexPass[iUnit][pspo->spo_iVtx0Pass];
|
|
|
|
// reflective mapping?
|
|
if( pspo->spo_aubTextureFlags[iLayer] & STXF_REFLECTION) {
|
|
for( INDEX i=0; i<pspo->spo_ctVtx; i++) {
|
|
const FLOAT fNorm = 1.0f / sqrt(pvtx[i].x*pvtx[i].x + pvtx[i].y*pvtx[i].y + pvtx[i].z*pvtx[i].z);
|
|
const FLOAT fVx = pvtx[i].x *fNorm;
|
|
const FLOAT fVy = pvtx[i].y *fNorm;
|
|
const FLOAT fVz = pvtx[i].z *fNorm;
|
|
const FLOAT fNV = fVx*vN(1) + fVy*vN(2) + fVz*vN(3);
|
|
const FLOAT fRVx = fVx - 2*vN(1)*fNV;
|
|
const FLOAT fRVy = fVy - 2*vN(2)*fNV;
|
|
const FLOAT fRVz = fVz - 2*vN(3)*fNV;
|
|
const FLOAT fRVxT = fRVx*mViewer(1,1) + fRVy*mViewer(2,1) + fRVz*mViewer(3,1);
|
|
const FLOAT fRVzT = fRVx*mViewer(1,3) + fRVy*mViewer(2,3) + fRVz*mViewer(3,3);
|
|
ptex[i].st.s = fRVxT*0.5f +0.5f;
|
|
ptex[i].st.t = fRVzT*0.5f +0.5f;
|
|
}
|
|
// advance to next polygon
|
|
continue;
|
|
}
|
|
|
|
#if (defined __MSVC_INLINE__)
|
|
__asm {
|
|
mov esi,D [pspo]
|
|
mov edi,D [iMappingOffset]
|
|
|
|
// (This doesn't work with the Intel C++ compiler. :( --ryan.)
|
|
#ifdef _MSC_VER
|
|
lea eax,[esi].spo_amvMapping[edi].mv_vO
|
|
lea ebx,[esi].spo_amvMapping[edi].mv_vU
|
|
lea ecx,[esi].spo_amvMapping[edi].mv_vV
|
|
#else
|
|
lea ebx,[esi].spo_amvMapping[edi]
|
|
lea eax,[ebx].mv_vO
|
|
lea ecx,[ebx].mv_vV
|
|
lea ebx,[ebx].mv_vU
|
|
#endif
|
|
|
|
mov edx,D [esi].spo_ctVtx
|
|
mov esi,D [pvtx]
|
|
mov edi,D [ptex]
|
|
vtxLoop:
|
|
fld D [ebx+0]
|
|
fld D [esi]GFXVertex.x
|
|
fsub D [eax+0]
|
|
fmul st(1),st(0)
|
|
fmul D [ecx+0] // vV(1)*fDX, vU(1)*fDX
|
|
fld D [ebx+4]
|
|
fld D [esi]GFXVertex.y
|
|
fsub D [eax+4]
|
|
fmul st(1),st(0)
|
|
fmul D [ecx+4] // vV(2)*fDY, vU(2)*fDY, vV(1)*fDX, vU(1)*fDX
|
|
fld D [ebx+8]
|
|
fld D [esi]GFXVertex.z
|
|
fsub D [eax+8]
|
|
fmul st(1),st(0)
|
|
fmul D [ecx+8] // vV(3)*fDZ, vU(3)*fDZ, vV(2)*fDY, vU(2)*fDY, vV(1)*fDX, vU(1)*fDX
|
|
fxch st(5)
|
|
faddp st(3),st(0) // vU(3)*fDZ, vV(2)*fDY, vU(1)*fDX+vU(2)*fDY, vV(1)*fDX, vV(3)*fDZ
|
|
fxch st(1)
|
|
faddp st(3),st(0) // vU(3)*fDZ, vU(1)*fDX+vU(2)*fDY, vV(1)*fDX+vV(2)*fDY, vV(3)*fDZ
|
|
faddp st(1),st(0) // vU(1)*fDX+vU(2)*fDY+vU(3)*fDZ, vV(1)*fDX+vV(2)*fDY, vV(3)*fDZ
|
|
fxch st(1)
|
|
faddp st(2),st(0) // vU(1)*fDX+vU(2)*fDY+vU(3)*fDZ, vV(1)*fDX+vV(2)*fDY+vV(3)*fDZ
|
|
fstp D [edi]GFXTexCoord.st.s
|
|
fstp D [edi]GFXTexCoord.st.t
|
|
add esi,4*4
|
|
add edi,2*4
|
|
dec edx
|
|
jnz vtxLoop
|
|
}
|
|
|
|
/*
|
|
// !!! FIXME: rcg11232001 This inline conversion is broken. Use the
|
|
// !!! FIXME: rcg11232001 C version for now on Linux.
|
|
#elif (defined __GNU_INLINE_X86_32__)
|
|
STUBBED("debug this");
|
|
__asm__ __volatile__ (
|
|
"0: \n\t" // vtxLoop
|
|
"flds (%%ebx) \n\t"
|
|
"flds (%%esi) \n\t"
|
|
"fsubs (%%eax) \n\t"
|
|
"fmul %%st(0), %%st(1) \n\t"
|
|
"fmuls (%%ecx) \n\t" // vV(1)*fDX, vU(1)*fDX
|
|
"flds 4(%%ebx) \n\t"
|
|
"flds 4(%%esi) \n\t" // GFXVertex.y
|
|
"fsubs 4(%%eax) \n\t"
|
|
"fmul %%st(0), %%st(1) \n\t"
|
|
"fmuls 4(%%ecx) \n\t" // vV(2)*fDY, vU(2)*fDY, vV(1)*fDX, vU(1)*fDX
|
|
"flds 8(%%ebx) \n\t"
|
|
"flds 8(%%esi) \n\t" // GFXVertex.z
|
|
"fsubs 8(%%eax) \n\t"
|
|
"fmul %%st(0), %%st(1) \n\t"
|
|
"fmuls 8(%%ecx) \n\t" // vV(3)*fDZ, vU(3)*fDZ, vV(2)*fDY, vU(2)*fDY, vV(1)*fDX, vU(1)*fDX
|
|
"fxch %%st(5) \n\t"
|
|
"faddp %%st(0), %%st(3) \n\t" // vU(3)*fDZ, vV(2)*fDY, vU(1)*fDX+vU(2)*fDY, vV(1)*fDX, vV(3)*fDZ
|
|
"fxch %%st(1) \n\t"
|
|
"faddp %%st(0), %%st(3) \n\t" // vU(3)*fD Z, vU(1)*fDX+vU(2)*fDY, vV(1)*fDX+vV(2)*fDY, vV(3)*fDZ
|
|
"faddp %%st(0), %%st(1) \n\t" // vU(1)*fDX+vU(2)*fDY+vU(3)*fDZ, vV(1)*fDX+vV(2)*fDY, vV(3)*fDZ
|
|
"fxch %%st(1) \n\t"
|
|
"faddp %%st(0), %%st(2) \n\t" // vU(1)*fDX+vU(2)*fDY+vU(3)*fDZ, vV(1)*fDX+vV(2)*fDY+vV(3)*fDZ
|
|
"fstps 0(%%edi) \n\t" // GFXTexCoord.st.s
|
|
"fstps 4(%%edi) \n\t" // GFXTexCoord.st.t
|
|
"addl $16, %%esi \n\t"
|
|
"addl $8, %%edi \n\t"
|
|
"decl %%edx \n\t"
|
|
"jnz 0b \n\t" // vtxLoop
|
|
: // no outputs.
|
|
: "a" (&pspo->spo_amvMapping[iMappingOffset].mv_vO.vector),
|
|
"b" (&pspo->spo_amvMapping[iMappingOffset].mv_vU.vector),
|
|
"c" (&pspo->spo_amvMapping[iMappingOffset].mv_vV.vector),
|
|
"d" (pspo->spo_ctVtx), "S" (pvtx), "D" (ptex)
|
|
: "cc", "memory"
|
|
);
|
|
*/
|
|
|
|
#else
|
|
|
|
// diffuse mapping
|
|
const FLOAT3D &vO = pspo->spo_amvMapping[iLayer].mv_vO;
|
|
const FLOAT3D &vU = pspo->spo_amvMapping[iLayer].mv_vU;
|
|
const FLOAT3D &vV = pspo->spo_amvMapping[iLayer].mv_vV;
|
|
for( INDEX i=0; i<pspo->spo_ctVtx; i++) {
|
|
const FLOAT fDX = pvtx[i].x -vO(1);
|
|
const FLOAT fDY = pvtx[i].y -vO(2);
|
|
const FLOAT fDZ = pvtx[i].z -vO(3);
|
|
ptex[i].st.s = vU(1)*fDX + vU(2)*fDY + vU(3)*fDZ;
|
|
ptex[i].st.t = vV(1)*fDX + vV(2)*fDY + vV(3)*fDZ;
|
|
}
|
|
#endif
|
|
|
|
}
|
|
|
|
// init array
|
|
gfxSetTexCoordArray( &_atexPass[iUnit][0], FALSE);
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_SETTEXCOORDS);
|
|
}
|
|
|
|
|
|
|
|
// make fog texture coordinates for all polygons in group
|
|
static void RSSetFogCoordinates( ScenePolygon *pspoGroup)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_SETTEXCOORDS);
|
|
// for all scene polygons in list
|
|
for( ScenePolygon *pspo=pspoGroup; pspo!=NULL; pspo=pspo->spo_pspoSucc) {
|
|
const GFXVertex *pvtx = &_avtxPass[pspo->spo_iVtx0Pass];
|
|
GFXTexCoord *ptex = &_atexPass[0][pspo->spo_iVtx0Pass];
|
|
for( INDEX i=0; i<pspo->spo_ctVtx; i++) {
|
|
ptex[i].st.s = pvtx[i].z *_fFogMul;
|
|
ptex[i].st.t = (_fog_vHDirView(1)*pvtx[i].x + _fog_vHDirView(2)*pvtx[i].y
|
|
+ _fog_vHDirView(3)*pvtx[i].z + _fog_fAddH) * _fog_fMulH;
|
|
}
|
|
}
|
|
gfxSetTexCoordArray( &_atexPass[0][0], FALSE);
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_SETTEXCOORDS);
|
|
}
|
|
|
|
|
|
// make haze texture coordinates for all polygons in group
|
|
static void RSSetHazeCoordinates( ScenePolygon *pspoGroup)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_SETTEXCOORDS);
|
|
// for all scene polygons in list
|
|
for( ScenePolygon *pspo=pspoGroup; pspo!=NULL; pspo=pspo->spo_pspoSucc) {
|
|
const GFXVertex *pvtx = &_avtxPass[pspo->spo_iVtx0Pass];
|
|
GFXTexCoord *ptex = &_atexPass[0][pspo->spo_iVtx0Pass];
|
|
for( INDEX i=0; i<pspo->spo_ctVtx; i++) {
|
|
ptex[i].st.s = (pvtx[i].z + _fHazeAdd) *_fHazeMul;
|
|
ptex[i].st.t = 0;
|
|
}
|
|
}
|
|
gfxSetTexCoordArray( &_atexPass[0][0], FALSE);
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_SETTEXCOORDS);
|
|
}
|
|
|
|
|
|
// render textures for all triangles in polygon list
|
|
static void RSRenderTEX( ScenePolygon *pspoFirst, INDEX iLayer)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERTEXTURES);
|
|
RSSetInitialTextureParameters();
|
|
|
|
// for all span polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{
|
|
ASSERT(pspo->spo_aptoTextures[iLayer]!=NULL);
|
|
CTextureData *ptdTextureData = (CTextureData*)pspo->spo_aptoTextures[iLayer]->GetData();
|
|
const INDEX iFrameNo = pspo->spo_aptoTextures[iLayer]->GetFrame();
|
|
|
|
if( _ptdLastTex[0] != ptdTextureData
|
|
|| _ulLastFlags[0] != pspo->spo_aubTextureFlags[iLayer]
|
|
|| _iLastFrameNo[0] != iFrameNo) {
|
|
// flush
|
|
FlushElements();
|
|
_ptdLastTex[0] = ptdTextureData;
|
|
_ulLastFlags[0] = pspo->spo_aubTextureFlags[iLayer];
|
|
_iLastFrameNo[0] = iFrameNo;
|
|
// set texture parameters if needed
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[iLayer]);
|
|
RSSetTextureParameters( pspo->spo_aubTextureFlags[iLayer]);
|
|
// prepare texture to be used by accelerator
|
|
ptdTextureData->SetAsCurrent(iFrameNo);
|
|
}
|
|
// render all triangles
|
|
AddElements(pspo);
|
|
}
|
|
// flush leftovers
|
|
FlushElements();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERTEXTURES);
|
|
}
|
|
|
|
|
|
// render shadows for all triangles in polygon list
|
|
static void RSRenderSHD( ScenePolygon *pspoFirst)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERSHADOWS);
|
|
|
|
RSSetInitialTextureParameters();
|
|
// for all span polygons in list
|
|
for( ScenePolygon *pspo = pspoFirst; pspo != NULL; pspo = pspo->spo_pspoSucc)
|
|
{
|
|
// get shadow map for the polygon
|
|
CShadowMap *psmShadow = pspo->spo_psmShadowMap;
|
|
ASSERT( psmShadow!=NULL); // shadows have been already sorted out
|
|
|
|
// set texture parameters if needed
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[SHADOWTEXTURE]);
|
|
RSSetTextureParameters( pspo->spo_aubTextureFlags[SHADOWTEXTURE]);
|
|
|
|
// upload the shadow to accelerator memory
|
|
psmShadow->SetAsCurrent();
|
|
|
|
// batch and render triangles
|
|
AddElements(pspo);
|
|
FlushElements();
|
|
}
|
|
// done
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERSHADOWS);
|
|
}
|
|
|
|
|
|
// render texture and shadow for all triangles in polygon list
|
|
static void RSRenderTEX_SHD( ScenePolygon *pspoFirst, INDEX iLayer)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
RSSetInitialTextureParametersMT();
|
|
|
|
// for all span polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{
|
|
// render batched triangles
|
|
FlushElements();
|
|
ASSERT( pspo->spo_aptoTextures[iLayer]!=NULL && pspo->spo_psmShadowMap!=NULL);
|
|
|
|
// upload the shadow to accelerator memory
|
|
gfxSetTextureUnit(1);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[SHADOWTEXTURE]);
|
|
pspo->spo_psmShadowMap->SetAsCurrent();
|
|
|
|
// prepare texture to be used by accelerator
|
|
CTextureData *ptd = (CTextureData*)pspo->spo_aptoTextures[iLayer]->GetData();
|
|
const INDEX iFrameNo = pspo->spo_aptoTextures[iLayer]->GetFrame();
|
|
|
|
gfxSetTextureUnit(0);
|
|
if( _ptdLastTex[0]!=ptd || _iLastFrameNo[0]!=iFrameNo || _ulLastFlags[0]!=pspo->spo_aubTextureFlags[iLayer]) {
|
|
_ptdLastTex[0]=ptd; _iLastFrameNo[0]=iFrameNo; _ulLastFlags[0]=pspo->spo_aubTextureFlags[iLayer];
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[iLayer]);
|
|
ptd->SetAsCurrent(iFrameNo);
|
|
// set rendering parameters if needed
|
|
RSSetTextureParametersMT( pspo->spo_aubTextureFlags[iLayer]);
|
|
}
|
|
// batch triangles
|
|
AddElements(pspo);
|
|
}
|
|
|
|
// flush leftovers
|
|
FlushElements();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
}
|
|
|
|
|
|
// render two textures for all triangles in polygon list
|
|
static void RSRender2TEX( ScenePolygon *pspoFirst, INDEX iLayer2)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
RSSetInitialTextureParametersMT();
|
|
|
|
// for all span polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{
|
|
ASSERT( pspo->spo_aptoTextures[0]!=NULL && pspo->spo_aptoTextures[iLayer2]!=NULL);
|
|
CTextureData *ptd0 = (CTextureData*)pspo->spo_aptoTextures[0]->GetData();
|
|
CTextureData *ptd1 = (CTextureData*)pspo->spo_aptoTextures[iLayer2]->GetData();
|
|
const INDEX iFrameNo0 = pspo->spo_aptoTextures[0]->GetFrame();
|
|
const INDEX iFrameNo1 = pspo->spo_aptoTextures[iLayer2]->GetFrame();
|
|
|
|
if( _ptdLastTex[0]!=ptd0 || _iLastFrameNo[0]!=iFrameNo0 || _ulLastFlags[0]!=pspo->spo_aubTextureFlags[0]
|
|
|| _ptdLastTex[1]!=ptd1 || _iLastFrameNo[1]!=iFrameNo1 || _ulLastFlags[1]!=pspo->spo_aubTextureFlags[iLayer2]) {
|
|
FlushElements();
|
|
_ptdLastTex[0]=ptd0; _iLastFrameNo[0]=iFrameNo0; _ulLastFlags[0]=pspo->spo_aubTextureFlags[0];
|
|
_ptdLastTex[1]=ptd1; _iLastFrameNo[1]=iFrameNo1; _ulLastFlags[1]=pspo->spo_aubTextureFlags[iLayer2];
|
|
// upload the second texture to unit 1
|
|
gfxSetTextureUnit(1);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[iLayer2]);
|
|
ptd1->SetAsCurrent(iFrameNo1);
|
|
// upload the first texture to unit 0
|
|
gfxSetTextureUnit(0);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[0]);
|
|
ptd0->SetAsCurrent(iFrameNo0);
|
|
// set rendering parameters if needed
|
|
RSSetTextureParametersMT( pspo->spo_aubTextureFlags[0]);
|
|
}
|
|
// render all triangles
|
|
AddElements(pspo);
|
|
}
|
|
|
|
// flush leftovers
|
|
FlushElements();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
}
|
|
|
|
|
|
|
|
// render two textures and shadowmap for all triangles in polygon list
|
|
static void RSRender2TEX_SHD( ScenePolygon *pspoFirst, INDEX iLayer2)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
RSSetInitialTextureParametersMT();
|
|
|
|
// for all span polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{
|
|
ASSERT( pspo->spo_aptoTextures[0]!=NULL
|
|
&& pspo->spo_aptoTextures[iLayer2]!=NULL
|
|
&& pspo->spo_psmShadowMap!=NULL);
|
|
|
|
// render batched triangles
|
|
FlushElements();
|
|
|
|
// upload the shadow to accelerator memory
|
|
gfxSetTextureUnit(2);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[SHADOWTEXTURE]);
|
|
pspo->spo_psmShadowMap->SetAsCurrent();
|
|
|
|
// prepare textures to be used by accelerator
|
|
CTextureData *ptd0 = (CTextureData*)pspo->spo_aptoTextures[0]->GetData();
|
|
CTextureData *ptd1 = (CTextureData*)pspo->spo_aptoTextures[iLayer2]->GetData();
|
|
const INDEX iFrameNo0 = pspo->spo_aptoTextures[0]->GetFrame();
|
|
const INDEX iFrameNo1 = pspo->spo_aptoTextures[iLayer2]->GetFrame();
|
|
|
|
gfxSetTextureUnit(0);
|
|
if( _ptdLastTex[0]!=ptd0 || _iLastFrameNo[0]!=iFrameNo0 || _ulLastFlags[0]!=pspo->spo_aubTextureFlags[0]
|
|
|| _ptdLastTex[1]!=ptd1 || _iLastFrameNo[1]!=iFrameNo1 || _ulLastFlags[1]!=pspo->spo_aubTextureFlags[iLayer2]) {
|
|
_ptdLastTex[0]=ptd0; _iLastFrameNo[0]=iFrameNo0; _ulLastFlags[0]=pspo->spo_aubTextureFlags[0];
|
|
_ptdLastTex[1]=ptd1; _iLastFrameNo[1]=iFrameNo1; _ulLastFlags[1]=pspo->spo_aubTextureFlags[iLayer2];
|
|
// upload the second texture to unit 1
|
|
gfxSetTextureUnit(1);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[iLayer2]);
|
|
ptd1->SetAsCurrent(iFrameNo1);
|
|
// upload the first texture to unit 0
|
|
gfxSetTextureUnit(0);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[0]);
|
|
ptd0->SetAsCurrent(iFrameNo0);
|
|
// set rendering parameters if needed
|
|
RSSetTextureParametersMT( pspo->spo_aubTextureFlags[0]);
|
|
}
|
|
// render all triangles
|
|
AddElements(pspo);
|
|
}
|
|
|
|
// flush leftovers
|
|
FlushElements();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
}
|
|
|
|
|
|
|
|
// render three textures for all triangles in polygon list
|
|
static void RSRender3TEX( ScenePolygon *pspoFirst)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
RSSetInitialTextureParametersMT();
|
|
|
|
// for all span polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{
|
|
ASSERT( pspo->spo_aptoTextures[0]!=NULL
|
|
&& pspo->spo_aptoTextures[1]!=NULL
|
|
&& pspo->spo_aptoTextures[2]!=NULL);
|
|
CTextureData *ptd0 = (CTextureData*)pspo->spo_aptoTextures[0]->GetData();
|
|
CTextureData *ptd1 = (CTextureData*)pspo->spo_aptoTextures[1]->GetData();
|
|
CTextureData *ptd2 = (CTextureData*)pspo->spo_aptoTextures[2]->GetData();
|
|
const INDEX iFrameNo0 = pspo->spo_aptoTextures[0]->GetFrame();
|
|
const INDEX iFrameNo1 = pspo->spo_aptoTextures[1]->GetFrame();
|
|
const INDEX iFrameNo2 = pspo->spo_aptoTextures[2]->GetFrame();
|
|
|
|
if( _ptdLastTex[0]!=ptd0 || _iLastFrameNo[0]!=iFrameNo0 || _ulLastFlags[0]!=pspo->spo_aubTextureFlags[0]
|
|
|| _ptdLastTex[1]!=ptd1 || _iLastFrameNo[1]!=iFrameNo1 || _ulLastFlags[1]!=pspo->spo_aubTextureFlags[1]
|
|
|| _ptdLastTex[2]!=ptd2 || _iLastFrameNo[2]!=iFrameNo2 || _ulLastFlags[2]!=pspo->spo_aubTextureFlags[2]) {
|
|
FlushElements();
|
|
_ptdLastTex[0]=ptd0; _iLastFrameNo[0]=iFrameNo0; _ulLastFlags[0]=pspo->spo_aubTextureFlags[0];
|
|
_ptdLastTex[1]=ptd1; _iLastFrameNo[1]=iFrameNo1; _ulLastFlags[1]=pspo->spo_aubTextureFlags[1];
|
|
_ptdLastTex[2]=ptd2; _iLastFrameNo[2]=iFrameNo2; _ulLastFlags[2]=pspo->spo_aubTextureFlags[2];
|
|
// upload the third texture to unit 2
|
|
gfxSetTextureUnit(2);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[2]);
|
|
ptd2->SetAsCurrent(iFrameNo2);
|
|
// upload the second texture to unit 1
|
|
gfxSetTextureUnit(1);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[1]);
|
|
ptd1->SetAsCurrent(iFrameNo1);
|
|
// upload the first texture to unit 0
|
|
gfxSetTextureUnit(0);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[0]);
|
|
ptd0->SetAsCurrent(iFrameNo0);
|
|
// set rendering parameters if needed
|
|
RSSetTextureParametersMT( pspo->spo_aubTextureFlags[0]);
|
|
}
|
|
// render all triangles
|
|
AddElements(pspo);
|
|
}
|
|
|
|
// flush leftovers
|
|
FlushElements();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
}
|
|
|
|
|
|
// render three textures and shadowmap for all triangles in polygon list
|
|
static void RSRender3TEX_SHD( ScenePolygon *pspoFirst)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
RSSetInitialTextureParametersMT();
|
|
|
|
// for all span polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{
|
|
ASSERT( pspo->spo_aptoTextures[0]!=NULL
|
|
&& pspo->spo_aptoTextures[1]!=NULL
|
|
&& pspo->spo_aptoTextures[2]!=NULL
|
|
&& pspo->spo_psmShadowMap!=NULL);
|
|
|
|
// render batched triangles
|
|
FlushElements();
|
|
|
|
// upload the shadow to accelerator memory
|
|
gfxSetTextureUnit(3);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[SHADOWTEXTURE]);
|
|
pspo->spo_psmShadowMap->SetAsCurrent();
|
|
|
|
// prepare textures to be used by accelerator
|
|
CTextureData *ptd0 = (CTextureData*)pspo->spo_aptoTextures[0]->GetData();
|
|
CTextureData *ptd1 = (CTextureData*)pspo->spo_aptoTextures[1]->GetData();
|
|
CTextureData *ptd2 = (CTextureData*)pspo->spo_aptoTextures[2]->GetData();
|
|
const INDEX iFrameNo0 = pspo->spo_aptoTextures[0]->GetFrame();
|
|
const INDEX iFrameNo1 = pspo->spo_aptoTextures[1]->GetFrame();
|
|
const INDEX iFrameNo2 = pspo->spo_aptoTextures[2]->GetFrame();
|
|
|
|
gfxSetTextureUnit(0);
|
|
if( _ptdLastTex[0]!=ptd0 || _iLastFrameNo[0]!=iFrameNo0 || _ulLastFlags[0]!=pspo->spo_aubTextureFlags[0]
|
|
|| _ptdLastTex[1]!=ptd1 || _iLastFrameNo[1]!=iFrameNo1 || _ulLastFlags[1]!=pspo->spo_aubTextureFlags[1]
|
|
|| _ptdLastTex[2]!=ptd2 || _iLastFrameNo[2]!=iFrameNo2 || _ulLastFlags[2]!=pspo->spo_aubTextureFlags[2]) {
|
|
_ptdLastTex[0]=ptd0; _iLastFrameNo[0]=iFrameNo0; _ulLastFlags[0]=pspo->spo_aubTextureFlags[0];
|
|
_ptdLastTex[1]=ptd1; _iLastFrameNo[1]=iFrameNo1; _ulLastFlags[1]=pspo->spo_aubTextureFlags[1];
|
|
_ptdLastTex[2]=ptd2; _iLastFrameNo[2]=iFrameNo2; _ulLastFlags[2]=pspo->spo_aubTextureFlags[2];
|
|
// upload the third texture to unit 2
|
|
gfxSetTextureUnit(2);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[2]);
|
|
ptd2->SetAsCurrent(iFrameNo2);
|
|
// upload the second texture to unit 1
|
|
gfxSetTextureUnit(1);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[1]);
|
|
ptd1->SetAsCurrent(iFrameNo1);
|
|
// upload the first texture to unit 0
|
|
gfxSetTextureUnit(0);
|
|
RSSetTextureWrapping( pspo->spo_aubTextureFlags[0]);
|
|
ptd0->SetAsCurrent(iFrameNo0);
|
|
// set rendering parameters if needed
|
|
RSSetTextureParametersMT( pspo->spo_aubTextureFlags[0]);
|
|
}
|
|
// render all triangles
|
|
AddElements(pspo);
|
|
}
|
|
|
|
// flush leftovers
|
|
FlushElements();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERMT);
|
|
}
|
|
|
|
|
|
// render fog for all affected triangles in polygon list
|
|
__forceinline void RSRenderFog( ScenePolygon *pspoFirst)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERFOG);
|
|
// for all scene polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{ // for all vertices in the polygon
|
|
const GFXTexCoord *ptex = &_atexPass[0][pspo->spo_iVtx0Pass];
|
|
for( INDEX i=0; i<pspo->spo_ctVtx; i++) {
|
|
// polygon is in fog, stop searching
|
|
if( InFog(ptex[i].st.t)) goto hasFog;
|
|
}
|
|
// hasn't got any fog, so skip it
|
|
continue;
|
|
hasFog:
|
|
// render all triangles
|
|
AddElements(pspo);
|
|
}
|
|
// all done
|
|
FlushElements();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERFOG);
|
|
}
|
|
|
|
|
|
// render haze for all affected triangles in polygon list
|
|
__forceinline void RSRenderHaze( ScenePolygon *pspoFirst)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERFOG);
|
|
// for all scene polygons in list
|
|
for( ScenePolygon *pspo=pspoFirst; pspo!=NULL; pspo=pspo->spo_pspoSucc)
|
|
{ // for all vertices in the polygon
|
|
const GFXTexCoord *ptex = &_atexPass[0][pspo->spo_iVtx0Pass];
|
|
for( INDEX i=0; i<pspo->spo_ctVtx; i++) {
|
|
// polygon is in haze, stop searching
|
|
if( InHaze(ptex[i].st.s)) goto hasHaze;
|
|
}
|
|
// hasn't got any haze, so skip it
|
|
continue;
|
|
hasHaze:
|
|
// render all triangles
|
|
AddElements(pspo);
|
|
}
|
|
// all done
|
|
FlushElements();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERFOG);
|
|
}
|
|
|
|
|
|
|
|
static void RSStartupFog(void)
|
|
{
|
|
// upload fog texture
|
|
gfxSetTextureWrapping( GFX_CLAMP, GFX_CLAMP);
|
|
gfxSetTexture( _fog_ulTexture, _fog_tpLocal);
|
|
// prepare fog rendering parameters
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
|
|
// calculate fog mapping
|
|
_fFogMul = -1.0f / _fog_fp.fp_fFar;
|
|
}
|
|
|
|
|
|
static void RSStartupHaze(void)
|
|
{
|
|
// upload haze texture
|
|
gfxEnableTexture();
|
|
gfxSetTextureWrapping( GFX_CLAMP, GFX_CLAMP);
|
|
gfxSetTexture( _haze_ulTexture, _haze_tpLocal);
|
|
// prepare haze rendering parameters
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
|
|
// calculate haze mapping
|
|
_fHazeMul = -1.0f / (_haze_hp.hp_fFar - _haze_hp.hp_fNear);
|
|
_fHazeAdd = _haze_hp.hp_fNear;
|
|
}
|
|
|
|
|
|
// process one group of polygons
|
|
void RSRenderGroupInternal( ScenePolygon *pspoGroup, ULONG ulGroupFlags);
|
|
void RSRenderGroup( ScenePolygon *pspoGroup, ULONG ulGroupFlags, ULONG ulTestedFlags)
|
|
{
|
|
// skip if the group is empty
|
|
if( pspoGroup==NULL) return;
|
|
ASSERT( !(ulTestedFlags&(GF_FOG|GF_HAZE))); // paranoia
|
|
|
|
// if multitexturing is enabled (start with 2-layer MT)
|
|
if( _ctUsableTexUnits>=2)
|
|
{
|
|
// if texture 1 could be merged with shadow
|
|
if( !(ulTestedFlags&GF_TX0_SHD)
|
|
&& (ulGroupFlags &GF_TX0)
|
|
&& !(ulGroupFlags &GF_TX1)
|
|
&& !(ulGroupFlags &GF_TX2)
|
|
&& (ulGroupFlags &GF_SHD))
|
|
{ // bin polygons that can use the merge and those that cannot
|
|
ScenePolygon *pspoST, *pspoMT;
|
|
RSBinByDualTexturing( pspoGroup, 0, SHADOWTEXTURE, &pspoST, &pspoMT);
|
|
// process the two groups separately
|
|
ulTestedFlags |= GF_TX0_SHD;
|
|
RSRenderGroup( pspoST, ulGroupFlags, ulTestedFlags);
|
|
ulGroupFlags &= ~(GF_TX0|GF_SHD);
|
|
ulGroupFlags |= GF_TX0_SHD;
|
|
RSRenderGroup( pspoMT, ulGroupFlags, ulTestedFlags);
|
|
return;
|
|
}
|
|
|
|
// if texture 1 could be merged with texture 2
|
|
if( !(ulTestedFlags&GF_TX0_TX1)
|
|
&& (ulGroupFlags &GF_TX0)
|
|
&& (ulGroupFlags &GF_TX1))
|
|
{ // bin polygons that can use the merge and those that cannot
|
|
ScenePolygon *pspoST, *pspoMT;
|
|
RSBinByDualTexturing( pspoGroup, 0, 1, &pspoST, &pspoMT);
|
|
// process the two groups separately
|
|
ulTestedFlags |= GF_TX0_TX1;
|
|
RSRenderGroup( pspoST, ulGroupFlags, ulTestedFlags);
|
|
ulGroupFlags &= ~(GF_TX0|GF_TX1);
|
|
ulGroupFlags |= GF_TX0_TX1;
|
|
RSRenderGroup( pspoMT, ulGroupFlags, ulTestedFlags);
|
|
return;
|
|
}
|
|
|
|
// if texture 1 could be merged with texture 3
|
|
if( !(ulTestedFlags&GF_TX0_TX2)
|
|
&& (ulGroupFlags &GF_TX0)
|
|
&& !(ulGroupFlags &GF_TX1)
|
|
&& (ulGroupFlags &GF_TX2))
|
|
{ // bin polygons that can use the merge and those that cannot
|
|
ScenePolygon *pspoST, *pspoMT;
|
|
RSBinByDualTexturing( pspoGroup, 0, 2, &pspoST, &pspoMT);
|
|
// process the two groups separately
|
|
ulTestedFlags |= GF_TX0_TX2;
|
|
RSRenderGroup( pspoST, ulGroupFlags, ulTestedFlags);
|
|
ulGroupFlags &= ~(GF_TX0|GF_TX2);
|
|
ulGroupFlags |= GF_TX0_TX2;
|
|
RSRenderGroup( pspoMT, ulGroupFlags, ulTestedFlags);
|
|
return;
|
|
}
|
|
|
|
// if texture 3 could be merged with shadow
|
|
if( !(ulTestedFlags&GF_TX2_SHD)
|
|
&& (ulGroupFlags &GF_TX0_TX1)
|
|
&& (ulGroupFlags &GF_TX2)
|
|
&& (ulGroupFlags &GF_SHD))
|
|
{ // bin polygons that can use the merge and those that cannot
|
|
ScenePolygon *pspoST, *pspoMT;
|
|
RSBinByDualTexturing( pspoGroup, 2, SHADOWTEXTURE, &pspoST, &pspoMT);
|
|
// process the two groups separately
|
|
ulTestedFlags |= GF_TX2_SHD;
|
|
RSRenderGroup( pspoST, ulGroupFlags, ulTestedFlags);
|
|
ulGroupFlags &= ~(GF_TX2|GF_SHD);
|
|
ulGroupFlags |= GF_TX2_SHD;
|
|
RSRenderGroup( pspoMT, ulGroupFlags, ulTestedFlags);
|
|
return;
|
|
}
|
|
}
|
|
|
|
// 4-layer multitexturing?
|
|
if( _ctUsableTexUnits>=4)
|
|
{
|
|
// if texture 1 and 2 could be merged with 3 and shadow
|
|
if( !(ulTestedFlags&GF_TX0_TX1_TX2_SHD)
|
|
&& (ulGroupFlags &GF_TX0_TX1)
|
|
&& (ulGroupFlags &GF_TX2_SHD))
|
|
{ // bin polygons that can use the merge and those that cannot
|
|
ScenePolygon *pspoST, *pspoMT;
|
|
RSBinByQuadTexturing( pspoGroup, &pspoST, &pspoMT);
|
|
// process the two groups separately
|
|
ulTestedFlags |= GF_TX0_TX1_TX2_SHD;
|
|
RSRenderGroup( pspoST, ulGroupFlags, ulTestedFlags);
|
|
ulGroupFlags &= ~(GF_TX0_TX1|GF_TX2_SHD);
|
|
ulGroupFlags |= GF_TX0_TX1_TX2_SHD;
|
|
RSRenderGroup( pspoMT, ulGroupFlags, ulTestedFlags);
|
|
return;
|
|
}
|
|
}
|
|
|
|
// 3-layer multitexturing?
|
|
if( _ctUsableTexUnits>=3)
|
|
{
|
|
// if texture 1 and 2 could be merged with 3
|
|
if( !(ulTestedFlags&GF_TX0_TX1_TX2)
|
|
&& (ulGroupFlags &GF_TX0_TX1)
|
|
&& (ulGroupFlags &GF_TX2))
|
|
{ // bin polygons that can use the merge and those that cannot
|
|
ScenePolygon *pspoST, *pspoMT;
|
|
RSBinByTripleTexturing( pspoGroup, 1, 2, &pspoST, &pspoMT);
|
|
// process the two groups separately
|
|
ulTestedFlags |= GF_TX0_TX1_TX2;
|
|
RSRenderGroup( pspoST, ulGroupFlags, ulTestedFlags);
|
|
ulGroupFlags &= ~(GF_TX0_TX1|GF_TX2);
|
|
ulGroupFlags |= GF_TX0_TX1_TX2;
|
|
RSRenderGroup( pspoMT, ulGroupFlags, ulTestedFlags);
|
|
return;
|
|
}
|
|
|
|
// if texture 1 and 2 could be merged with shadow
|
|
if( !(ulTestedFlags&GF_TX0_TX1_SHD)
|
|
&& (ulGroupFlags &GF_TX0_TX1)
|
|
&& !(ulGroupFlags &GF_TX2)
|
|
&& (ulGroupFlags &GF_SHD))
|
|
{ // bin polygons that can use the merge and those that cannot
|
|
ScenePolygon *pspoST, *pspoMT;
|
|
RSBinByTripleTexturing( pspoGroup, 1, SHADOWTEXTURE, &pspoST, &pspoMT);
|
|
// process the two groups separately
|
|
ulTestedFlags |= GF_TX0_TX1_SHD;
|
|
RSRenderGroup( pspoST, ulGroupFlags, ulTestedFlags);
|
|
ulGroupFlags &= ~(GF_TX0_TX1|GF_SHD);
|
|
ulGroupFlags |= GF_TX0_TX1_SHD;
|
|
RSRenderGroup( pspoMT, ulGroupFlags, ulTestedFlags);
|
|
return;
|
|
}
|
|
|
|
// if texture 1 and 3 could be merged with shadow
|
|
if( !(ulTestedFlags&GF_TX0_TX2_SHD)
|
|
&& (ulGroupFlags &GF_TX0_TX2)
|
|
&& !(ulGroupFlags &GF_TX1)
|
|
&& (ulGroupFlags &GF_SHD))
|
|
{ // bin polygons that can use the merge and those that cannot
|
|
ScenePolygon *pspoST, *pspoMT;
|
|
RSBinByTripleTexturing( pspoGroup, 2, SHADOWTEXTURE, &pspoST, &pspoMT);
|
|
// process the two groups separately
|
|
ulTestedFlags |= GF_TX0_TX2_SHD;
|
|
RSRenderGroup( pspoST, ulGroupFlags, ulTestedFlags);
|
|
ulGroupFlags &= ~(GF_TX0_TX2|GF_SHD);
|
|
ulGroupFlags |= GF_TX0_TX2_SHD;
|
|
RSRenderGroup( pspoMT, ulGroupFlags, ulTestedFlags);
|
|
return;
|
|
}
|
|
}
|
|
|
|
// render one group
|
|
extern INDEX ogl_iMaxBurstSize;
|
|
extern INDEX d3d_iMaxBurstSize;
|
|
ogl_iMaxBurstSize = Clamp( ogl_iMaxBurstSize, 0, 9999);
|
|
d3d_iMaxBurstSize = Clamp( d3d_iMaxBurstSize, 0, 9999);
|
|
const INDEX iMaxBurstSize = (eAPI==GAT_OGL) ? ogl_iMaxBurstSize : d3d_iMaxBurstSize;
|
|
|
|
// if unlimited lock count
|
|
if( iMaxBurstSize==0)
|
|
{ // render whole group
|
|
RSRenderGroupInternal( pspoGroup, ulGroupFlags);
|
|
}
|
|
// if lock count is specified
|
|
else
|
|
{ // render group in segments
|
|
while( pspoGroup!=NULL)
|
|
{ // find segment size
|
|
INDEX ctVtx = 0;
|
|
ScenePolygon *pspoThis = pspoGroup;
|
|
ScenePolygon *pspoLast = pspoGroup;
|
|
while( ctVtx<iMaxBurstSize && pspoGroup!=NULL) {
|
|
ctVtx += pspoGroup->spo_ctVtx;
|
|
pspoLast = pspoGroup;
|
|
pspoGroup = pspoGroup->spo_pspoSucc;
|
|
} // render one group segment
|
|
pspoLast->spo_pspoSucc = NULL;
|
|
RSRenderGroupInternal( pspoThis, ulGroupFlags);
|
|
}
|
|
}
|
|
}
|
|
|
|
|
|
|
|
// internal group rendering routine
|
|
void RSRenderGroupInternal( ScenePolygon *pspoGroup, ULONG ulGroupFlags)
|
|
{
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERGROUPINTERNAL);
|
|
_pfGfxProfile.IncrementCounter( CGfxProfile::PCI_RS_POLYGONGROUPS);
|
|
|
|
// make vertex coordinates for all polygons in the group
|
|
RSMakeVertexCoordinates(pspoGroup);
|
|
// prepare vertex, texture and color arrays
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_LOCKARRAYS);
|
|
gfxSetVertexArray( &_avtxPass[0], _avtxPass.Count());
|
|
if(CVA_bWorld) gfxLockArrays();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_LOCKARRAYS);
|
|
|
|
// set alpha keying if required
|
|
if( ulGroupFlags & GF_KEY) gfxEnableAlphaTest();
|
|
else gfxDisableAlphaTest();
|
|
|
|
_iLastUnit = 0; // reset mulitex unit change
|
|
BOOL bUsedMT = FALSE;
|
|
BOOL bUsesMT = ulGroupFlags & (GF_TX0_TX1 | GF_TX0_TX2 | GF_TX0_SHD | GF_TX2_SHD
|
|
| GF_TX0_TX1_TX2 | GF_TX0_TX1_SHD | GF_TX0_TX2_SHD
|
|
| GF_TX0_TX1_TX2_SHD);
|
|
// dual texturing
|
|
if( ulGroupFlags & GF_TX0_SHD) {
|
|
RSSetTextureCoords( pspoGroup, SHADOWTEXTURE, 1);
|
|
RSSetTextureCoords( pspoGroup, 0, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX0|GF_SHD);
|
|
RSRenderTEX_SHD( pspoGroup, 0);
|
|
bUsedMT = TRUE;
|
|
}
|
|
else if( ulGroupFlags & GF_TX0_TX1) {
|
|
RSSetTextureCoords( pspoGroup, 1, 1);
|
|
RSSetTextureCoords( pspoGroup, 0, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX0|GF_TX1);
|
|
RSRender2TEX( pspoGroup, 1);
|
|
bUsedMT = TRUE;
|
|
}
|
|
else if( ulGroupFlags & GF_TX0_TX2) {
|
|
RSSetTextureCoords( pspoGroup, 2, 1);
|
|
RSSetTextureCoords( pspoGroup, 0, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX0|GF_TX2);
|
|
RSRender2TEX( pspoGroup, 2);
|
|
bUsedMT = TRUE;
|
|
}
|
|
|
|
// triple texturing
|
|
else if( ulGroupFlags & GF_TX0_TX1_TX2) {
|
|
RSSetTextureCoords( pspoGroup, 2, 2);
|
|
RSSetTextureCoords( pspoGroup, 1, 1);
|
|
RSSetTextureCoords( pspoGroup, 0, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX0|GF_TX1|GF_TX2);
|
|
RSRender3TEX( pspoGroup);
|
|
bUsedMT = TRUE;
|
|
}
|
|
else if( ulGroupFlags & GF_TX0_TX1_SHD) {
|
|
RSSetTextureCoords( pspoGroup, SHADOWTEXTURE, 2);
|
|
RSSetTextureCoords( pspoGroup, 1, 1);
|
|
RSSetTextureCoords( pspoGroup, 0, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX0|GF_TX1|GF_SHD);
|
|
RSRender2TEX_SHD( pspoGroup, 1);
|
|
bUsedMT = TRUE;
|
|
}
|
|
else if( ulGroupFlags & GF_TX0_TX2_SHD) {
|
|
RSSetTextureCoords( pspoGroup, SHADOWTEXTURE, 2);
|
|
RSSetTextureCoords( pspoGroup, 2, 1);
|
|
RSSetTextureCoords( pspoGroup, 0, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX0|GF_TX2|GF_SHD);
|
|
RSRender2TEX_SHD( pspoGroup, 2);
|
|
bUsedMT = TRUE;
|
|
}
|
|
|
|
// quad texturing
|
|
else if( ulGroupFlags & GF_TX0_TX1_TX2_SHD) {
|
|
RSSetTextureCoords( pspoGroup, SHADOWTEXTURE, 3);
|
|
RSSetTextureCoords( pspoGroup, 2, 2);
|
|
RSSetTextureCoords( pspoGroup, 1, 1);
|
|
RSSetTextureCoords( pspoGroup, 0, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX0|GF_TX1|GF_TX2|GF_SHD);
|
|
RSRender3TEX_SHD( pspoGroup);
|
|
bUsedMT = TRUE;
|
|
}
|
|
|
|
// if something was drawn and alpha keying was used
|
|
if( bUsedMT && (ulGroupFlags&GF_KEY)) {
|
|
// force z-buffer test to equal and disable subsequent alpha tests
|
|
gfxDepthFunc( GFX_EQUAL);
|
|
gfxDisableAlphaTest();
|
|
}
|
|
|
|
// dual texturing leftover
|
|
if( ulGroupFlags & GF_TX2_SHD) {
|
|
RSSetTextureCoords( pspoGroup, SHADOWTEXTURE, 1);
|
|
RSSetTextureCoords( pspoGroup, 2, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX2|GF_SHD);
|
|
RSRenderTEX_SHD( pspoGroup, 2);
|
|
bUsedMT = TRUE;
|
|
}
|
|
|
|
ASSERT( !bUsedMT==!bUsesMT);
|
|
|
|
// if some multi-tex units were used
|
|
if( bUsesMT) {
|
|
// disable them now
|
|
for( INDEX i=1; i<_ctUsableTexUnits; i++) {
|
|
gfxSetTextureUnit(i);
|
|
gfxDisableTexture();
|
|
}
|
|
_iLastUnit = 0;
|
|
gfxSetTextureUnit(0);
|
|
}
|
|
|
|
// if group has color for first layer
|
|
if( ulGroupFlags&GF_FLAT)
|
|
{ // render colors
|
|
if( _bTranslucentPass) {
|
|
// set opacity to 50%
|
|
if( !wld_bRenderTextures) RSSetConstantColors( 0x3F3F3F7F);
|
|
else RSSetPolygonColors( pspoGroup, 0x7F);
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
|
|
} else {
|
|
// set opacity to 100%
|
|
if( !wld_bRenderTextures) RSSetConstantColors( 0x7F7F7FFF);
|
|
else RSSetPolygonColors( pspoGroup, CT_OPAQUE);
|
|
gfxDisableBlend();
|
|
}
|
|
gfxDisableTexture();
|
|
DrawAllElements( pspoGroup);
|
|
}
|
|
|
|
// if group has texture for first layer
|
|
if( ulGroupFlags&GF_TX0) {
|
|
// render texture 0
|
|
RSSetTextureCoords( pspoGroup, 0, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX0);
|
|
RSRenderTEX( pspoGroup, 0);
|
|
// eventually prepare subsequent layers for transparency
|
|
if( ulGroupFlags & GF_KEY) {
|
|
gfxDepthFunc( GFX_EQUAL);
|
|
gfxDisableAlphaTest();
|
|
}
|
|
}
|
|
// if group has texture for second layer
|
|
if( ulGroupFlags & GF_TX1) {
|
|
// render texture 1
|
|
RSSetTextureCoords( pspoGroup, 1, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX1);
|
|
RSRenderTEX( pspoGroup, 1);
|
|
}
|
|
// if group has texture for third layer
|
|
if( ulGroupFlags & GF_TX2) {
|
|
// render texture 2
|
|
RSSetTextureCoords( pspoGroup, 2, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX2);
|
|
RSRenderTEX( pspoGroup, 2);
|
|
}
|
|
|
|
// if group has shadow
|
|
if( ulGroupFlags & GF_SHD) {
|
|
// render shadow
|
|
RSSetTextureCoords( pspoGroup, SHADOWTEXTURE, 0);
|
|
RSSetTextureColors( pspoGroup, GF_SHD);
|
|
RSRenderSHD( pspoGroup);
|
|
}
|
|
|
|
// if group has aftershadow texture for second layer
|
|
if( ulGroupFlags & GF_TA1) {
|
|
// render texture 1
|
|
RSSetTextureCoords( pspoGroup, 1, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX1);
|
|
RSRenderTEX( pspoGroup, 1);
|
|
}
|
|
// if group has aftershadow texture for third layer
|
|
if( ulGroupFlags & GF_TA2) {
|
|
// render texture 2
|
|
RSSetTextureCoords( pspoGroup, 2, 0);
|
|
RSSetTextureColors( pspoGroup, GF_TX2);
|
|
RSRenderTEX( pspoGroup, 2);
|
|
}
|
|
|
|
// if group has fog
|
|
if( ulGroupFlags & GF_FOG) {
|
|
// render fog
|
|
RSStartupFog();
|
|
RSSetConstantColors( _fog_fp.fp_colColor);
|
|
RSSetFogCoordinates( pspoGroup);
|
|
RSRenderFog( pspoGroup);
|
|
}
|
|
// if group has haze
|
|
if( ulGroupFlags & GF_HAZE) {
|
|
// render haze
|
|
RSStartupHaze();
|
|
RSSetConstantColors( _haze_hp.hp_colColor);
|
|
RSSetHazeCoordinates( pspoGroup);
|
|
RSRenderHaze( pspoGroup);
|
|
}
|
|
|
|
// reset depth function and alpha keying back
|
|
// (maybe it was altered for transparent polygon rendering)
|
|
gfxDepthFunc( GFX_LESS_EQUAL);
|
|
gfxDisableAlphaTest();
|
|
|
|
// if group has selection
|
|
if( ulGroupFlags & GF_SEL) {
|
|
// render selection
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
|
|
RSSetConstantColors( _colSelection|128);
|
|
gfxDisableTexture();
|
|
DrawAllElements( pspoGroup);
|
|
}
|
|
|
|
// render triangle wireframe if needed
|
|
extern INDEX wld_bShowTriangles;
|
|
if( wld_bShowTriangles) {
|
|
gfxEnableBlend();
|
|
gfxBlendFunc( GFX_SRC_ALPHA, GFX_INV_SRC_ALPHA);
|
|
RSSetConstantColors( C_mdYELLOW|222);
|
|
gfxDisableTexture();
|
|
// must write to front in z-buffer
|
|
gfxPolygonMode(GFX_LINE);
|
|
gfxEnableDepthTest();
|
|
gfxEnableDepthWrite();
|
|
gfxDepthFunc(GFX_ALWAYS);
|
|
gfxDepthRange( 0,0);
|
|
DrawAllElements(pspoGroup);
|
|
gfxDepthRange( _ppr->pr_fDepthBufferNear, _ppr->pr_fDepthBufferFar);
|
|
gfxDepthFunc(GFX_LESS_EQUAL);
|
|
if( _bTranslucentPass) gfxDisableDepthWrite();
|
|
gfxPolygonMode(GFX_FILL);
|
|
}
|
|
|
|
// all done
|
|
gfxUnlockArrays();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERGROUPINTERNAL);
|
|
}
|
|
|
|
|
|
static void RSPrepare(void)
|
|
{
|
|
// set general params
|
|
gfxCullFace(GFX_NONE);
|
|
gfxEnableDepthTest();
|
|
gfxEnableClipping();
|
|
}
|
|
|
|
|
|
static void RSEnd(void)
|
|
{
|
|
// reset unusual gfx API parameters
|
|
gfxSetTextureUnit(0);
|
|
gfxSetTextureModulation(1);
|
|
}
|
|
|
|
|
|
void RenderScene( CDrawPort *pDP, ScenePolygon *pspoFirst, CAnyProjection3D &prProjection,
|
|
COLOR colSelection, BOOL bTranslucent)
|
|
{
|
|
// check API
|
|
eAPI = _pGfx->gl_eCurrentAPI;
|
|
ASSERT( GfxValidApi(eAPI) );
|
|
|
|
#ifdef SE1_D3D
|
|
if( eAPI!=GAT_OGL && eAPI!=GAT_D3D) return;
|
|
#else
|
|
if( eAPI!=GAT_OGL) return;
|
|
#endif
|
|
|
|
// some cvars cannot be altered in multiplayer mode!
|
|
if( _bMultiPlayer) {
|
|
shd_bShowFlats = FALSE;
|
|
gfx_bRenderWorld = TRUE;
|
|
wld_bRenderShadowMaps = TRUE;
|
|
wld_bRenderTextures = TRUE;
|
|
wld_bRenderDetailPolygons = TRUE;
|
|
wld_bShowDetailTextures = FALSE;
|
|
wld_bShowTriangles = FALSE;
|
|
}
|
|
|
|
// skip if not rendering world
|
|
if( !gfx_bRenderWorld) return;
|
|
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RENDERSCENE);
|
|
|
|
// remember input parameters
|
|
ASSERT( pDP != NULL);
|
|
_ppr = (CPerspectiveProjection3D*)&*prProjection;
|
|
_pDP = pDP;
|
|
_colSelection = colSelection;
|
|
_bTranslucentPass = bTranslucent;
|
|
|
|
// clamp detail textures LOD biasing
|
|
wld_iDetailRemovingBias = Clamp( wld_iDetailRemovingBias, -9, 9);
|
|
|
|
// set perspective projection
|
|
_pDP->SetProjection(prProjection);
|
|
|
|
// adjust multi-texturing support (for clip-plane emulation thru texture units)
|
|
extern BOOL GFX_bClipPlane; // WATCHOUT: set by 'SetProjection()' !
|
|
extern INDEX gap_iUseTextureUnits;
|
|
extern INDEX ogl_bAlternateClipPlane;
|
|
INDEX ctMaxUsableTexUnits = _pGfx->gl_ctTextureUnits;
|
|
if( eAPI==GAT_OGL && ogl_bAlternateClipPlane && GFX_bClipPlane && ctMaxUsableTexUnits>1) ctMaxUsableTexUnits--;
|
|
_ctUsableTexUnits = Clamp( gap_iUseTextureUnits, 1, ctMaxUsableTexUnits);
|
|
|
|
// prepare
|
|
RSPrepare();
|
|
|
|
// turn depth buffer writing on or off
|
|
if( bTranslucent) gfxDisableDepthWrite();
|
|
else gfxEnableDepthWrite();
|
|
|
|
// remove all polygons with no triangles from the polygon list
|
|
ScenePolygon *pspoNonDummy;
|
|
RSRemoveDummyPolygons( pspoFirst, &pspoNonDummy);
|
|
|
|
// check that layers of all shadows are up to date
|
|
RSCheckLayersUpToDate(pspoNonDummy);
|
|
|
|
// bin polygons to groups by texture passes
|
|
RSBinToGroups(pspoNonDummy);
|
|
|
|
// for each group
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RS_RENDERGROUP);
|
|
ASSERT( _apspoGroups[0]==NULL); // zero group must always be empty
|
|
for( INDEX iGroup=1; iGroup<_ctGroupsCount; iGroup++) {
|
|
// get the group polygon list and render it if not empty
|
|
ScenePolygon *pspoGroup = _apspoGroups[iGroup];
|
|
if( pspoGroup!=NULL) RSRenderGroup( pspoGroup, iGroup, 0);
|
|
}
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RS_RENDERGROUP);
|
|
|
|
// all done
|
|
RSEnd();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RENDERSCENE);
|
|
}
|
|
|
|
|
|
// renders only scene z-buffer
|
|
void RenderSceneZOnly( CDrawPort *pDP, ScenePolygon *pspoFirst, CAnyProjection3D &prProjection)
|
|
{
|
|
if( _bMultiPlayer) gfx_bRenderWorld = 1;
|
|
if( !gfx_bRenderWorld) return;
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RENDERSCENE_ZONLY);
|
|
|
|
// set perspective projection
|
|
ASSERT(pDP!=NULL);
|
|
pDP->SetProjection(prProjection);
|
|
|
|
// prepare
|
|
RSPrepare();
|
|
|
|
// set for depth-only rendering
|
|
const ULONG ulCurrentColorMask = gfxGetColorMask();
|
|
gfxSetColorMask(NONE);
|
|
gfxEnableDepthTest();
|
|
gfxEnableDepthWrite();
|
|
gfxDisableTexture();
|
|
|
|
// make vertex coordinates for all polygons in the group and render the polygons
|
|
RSMakeVertexCoordinates(pspoFirst);
|
|
gfxSetVertexArray( &_avtxPass[0], _avtxPass.Count());
|
|
gfxDisableColorArray();
|
|
DrawAllElements(pspoFirst);
|
|
|
|
// restore color masking
|
|
gfxSetColorMask( ulCurrentColorMask);
|
|
RSEnd();
|
|
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RENDERSCENE_ZONLY);
|
|
}
|
|
|
|
|
|
// renders flat background of the scene
|
|
void RenderSceneBackground(CDrawPort *pDP, COLOR col)
|
|
{
|
|
if( _bMultiPlayer) gfx_bRenderWorld = 1;
|
|
if( !gfx_bRenderWorld) return;
|
|
|
|
// set orthographic projection
|
|
ASSERT(pDP!=NULL);
|
|
pDP->SetOrtho();
|
|
|
|
_pfGfxProfile.StartTimer( CGfxProfile::PTI_RENDERSCENE_BCG);
|
|
// prepare
|
|
gfxEnableDepthTest();
|
|
gfxDisableDepthWrite();
|
|
gfxDisableBlend();
|
|
gfxDisableAlphaTest();
|
|
gfxDisableTexture();
|
|
gfxEnableClipping();
|
|
|
|
col = AdjustColor( col, _slTexHueShift, _slTexSaturation);
|
|
GFXColor glcol(col|CT_OPAQUE);
|
|
const INDEX iW = pDP->GetWidth();
|
|
const INDEX iH = pDP->GetHeight();
|
|
|
|
// set arrays
|
|
gfxResetArrays();
|
|
GFXVertex *pvtx = _avtxCommon.Push(4);
|
|
/* GFXTexCoord *ptex = */ _atexCommon.Push(4);
|
|
GFXColor *pcol = _acolCommon.Push(4);
|
|
pvtx[0].x = 0; pvtx[0].y = 0; pvtx[0].z = 1;
|
|
pvtx[1].x = 0; pvtx[1].y = iH; pvtx[1].z = 1;
|
|
pvtx[2].x = iW; pvtx[2].y = iH; pvtx[2].z = 1;
|
|
pvtx[3].x = iW; pvtx[3].y = 0; pvtx[3].z = 1;
|
|
pcol[0] = glcol;
|
|
pcol[1] = glcol;
|
|
pcol[2] = glcol;
|
|
pcol[3] = glcol;
|
|
|
|
// render
|
|
_pGfx->gl_ctWorldTriangles += 2;
|
|
gfxFlushQuads();
|
|
_pfGfxProfile.StopTimer( CGfxProfile::PTI_RENDERSCENE_BCG);
|
|
}
|