/* =========================================================================== Doom 3 BFG Edition GPL Source Code Copyright (C) 1993-2012 id Software LLC, a ZeniMax Media company. This file is part of the Doom 3 BFG Edition GPL Source Code ("Doom 3 BFG Edition Source Code"). Doom 3 BFG Edition Source Code is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. Doom 3 BFG Edition Source Code 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 Doom 3 BFG Edition Source Code. If not, see . In addition, the Doom 3 BFG Edition Source Code is also subject to certain additional terms. You should have received a copy of these additional terms immediately following the terms and conditions of the GNU General Public License which accompanied the Doom 3 BFG Edition Source Code. If not, please request a copy in writing from id Software at the address below. If you have questions concerning this license or the applicable additional terms, you may contact in writing id Software LLC, c/o ZeniMax Media Inc., Suite 120, Rockville, Maryland 20850 USA. =========================================================================== */ #pragma hdrstop #include "../idlib/precompiled.h" #include "tr_local.h" #include "Model_local.h" /* ========================================================================================== SUBVIEW SURFACES ========================================================================================== */ struct orientation_t { idVec3 origin; idMat3 axis; }; /* ================= R_MirrorPoint ================= */ static void R_MirrorPoint( const idVec3 in, orientation_t *surface, orientation_t *camera, idVec3 &out ) { const idVec3 local = in - surface->origin; idVec3 transformed( 0.0f ); for ( int i = 0; i < 3; i++ ) { const float d = local * surface->axis[i]; transformed += d * camera->axis[i]; } out = transformed + camera->origin; } /* ================= R_MirrorVector ================= */ static void R_MirrorVector( const idVec3 in, orientation_t *surface, orientation_t *camera, idVec3 &out ) { out.Zero(); for ( int i = 0; i < 3; i++ ) { const float d = in * surface->axis[i]; out += d * camera->axis[i]; } } /* ============= R_PlaneForSurface Returns the plane for the first triangle in the surface FIXME: check for degenerate triangle? ============= */ static void R_PlaneForSurface( const srfTriangles_t *tri, idPlane &plane ) { idDrawVert * v1 = tri->verts + tri->indexes[0]; idDrawVert * v2 = tri->verts + tri->indexes[1]; idDrawVert * v3 = tri->verts + tri->indexes[2]; plane.FromPoints( v1->xyz, v2->xyz, v3->xyz ); } /* ========================= R_PreciseCullSurface Check the surface for visibility on a per-triangle basis for cases when it is going to be VERY expensive to draw (subviews) If not culled, also returns the bounding box of the surface in Normalized Device Coordinates, so it can be used to crop the scissor rect. OPTIMIZE: we could also take exact portal passing into consideration ========================= */ bool R_PreciseCullSurface( const drawSurf_t *drawSurf, idBounds &ndcBounds ) { const srfTriangles_t * tri = drawSurf->frontEndGeo; unsigned int pointOr = 0; unsigned int pointAnd = (unsigned int)~0; // get an exact bounds of the triangles for scissor cropping ndcBounds.Clear(); const idJointMat * joints = ( tri->staticModelWithJoints != NULL && r_useGPUSkinning.GetBool() ) ? tri->staticModelWithJoints->jointsInverted : NULL; for ( int i = 0; i < tri->numVerts; i++ ) { const idVec3 vXYZ = idDrawVert::GetSkinnedDrawVertPosition( tri->verts[i], joints ); idPlane eye, clip; R_TransformModelToClip( vXYZ, drawSurf->space->modelViewMatrix, tr.viewDef->projectionMatrix, eye, clip ); unsigned int pointFlags = 0; for ( int j = 0; j < 3; j++ ) { if ( clip[j] >= clip[3] ) { pointFlags |= ( 1 << (j*2+0) ); } else if ( clip[j] <= -clip[3] ) { // FIXME: the D3D near clip plane is at zero instead of -1 pointFlags |= ( 1 << (j*2+1) ); } } pointAnd &= pointFlags; pointOr |= pointFlags; } // trivially reject if ( pointAnd != 0 ) { return true; } // backface and frustum cull idVec3 localViewOrigin; R_GlobalPointToLocal( drawSurf->space->modelMatrix, tr.viewDef->renderView.vieworg, localViewOrigin ); for ( int i = 0; i < tri->numIndexes; i += 3 ) { const idVec3 v1 = idDrawVert::GetSkinnedDrawVertPosition( tri->verts[ tri->indexes[ i+0 ] ], joints ); const idVec3 v2 = idDrawVert::GetSkinnedDrawVertPosition( tri->verts[ tri->indexes[ i+1 ] ], joints ); const idVec3 v3 = idDrawVert::GetSkinnedDrawVertPosition( tri->verts[ tri->indexes[ i+2 ] ], joints ); // this is a hack, because R_GlobalPointToLocal doesn't work with the non-normalized // axis that we get from the gui view transform. It doesn't hurt anything, because // we know that all gui generated surfaces are front facing if ( tr.guiRecursionLevel == 0 ) { // we don't care that it isn't normalized, // all we want is the sign const idVec3 d1 = v2 - v1; const idVec3 d2 = v3 - v1; const idVec3 normal = d2.Cross( d1 ); const idVec3 dir = v1 - localViewOrigin; const float dot = normal * dir; if ( dot >= 0.0f ) { return true; } } // now find the exact screen bounds of the clipped triangle idFixedWinding w; w.SetNumPoints( 3 ); R_LocalPointToGlobal( drawSurf->space->modelMatrix, v1, w[0].ToVec3() ); R_LocalPointToGlobal( drawSurf->space->modelMatrix, v2, w[1].ToVec3() ); R_LocalPointToGlobal( drawSurf->space->modelMatrix, v3, w[2].ToVec3() ); w[0].s = w[0].t = w[1].s = w[1].t = w[2].s = w[2].t = 0.0f; for ( int j = 0; j < 4; j++ ) { if ( !w.ClipInPlace( -tr.viewDef->frustum[j], 0.1f ) ) { break; } } for ( int j = 0; j < w.GetNumPoints(); j++ ) { idVec3 screen; R_GlobalToNormalizedDeviceCoordinates( w[j].ToVec3(), screen ); ndcBounds.AddPoint( screen ); } } // if we don't enclose any area, return if ( ndcBounds.IsCleared() ) { return true; } return false; } /* ======================== R_MirrorViewBySurface ======================== */ static viewDef_t *R_MirrorViewBySurface( const drawSurf_t *drawSurf ) { // copy the viewport size from the original viewDef_t * parms = (viewDef_t *)R_FrameAlloc( sizeof( *parms ) ); *parms = *tr.viewDef; parms->renderView.viewID = 0; // clear to allow player bodies to show up, and suppress view weapons parms->isSubview = true; parms->isMirror = true; // create plane axis for the portal we are seeing idPlane originalPlane, plane; R_PlaneForSurface( drawSurf->frontEndGeo, originalPlane ); R_LocalPlaneToGlobal( drawSurf->space->modelMatrix, originalPlane, plane ); orientation_t surface; surface.origin = plane.Normal() * -plane[3]; surface.axis[0] = plane.Normal(); surface.axis[0].NormalVectors( surface.axis[1], surface.axis[2] ); surface.axis[2] = -surface.axis[2]; orientation_t camera; camera.origin = surface.origin; camera.axis[0] = -surface.axis[0]; camera.axis[1] = surface.axis[1]; camera.axis[2] = surface.axis[2]; // set the mirrored origin and axis R_MirrorPoint( tr.viewDef->renderView.vieworg, &surface, &camera, parms->renderView.vieworg ); R_MirrorVector( tr.viewDef->renderView.viewaxis[0], &surface, &camera, parms->renderView.viewaxis[0] ); R_MirrorVector( tr.viewDef->renderView.viewaxis[1], &surface, &camera, parms->renderView.viewaxis[1] ); R_MirrorVector( tr.viewDef->renderView.viewaxis[2], &surface, &camera, parms->renderView.viewaxis[2] ); // make the view origin 16 units away from the center of the surface const idVec3 center = ( drawSurf->frontEndGeo->bounds[0] + drawSurf->frontEndGeo->bounds[1] ) * 0.5f; const idVec3 viewOrigin = center + ( originalPlane.Normal() * 16.0f ); R_LocalPointToGlobal( drawSurf->space->modelMatrix, viewOrigin, parms->initialViewAreaOrigin ); // set the mirror clip plane parms->numClipPlanes = 1; parms->clipPlanes[0] = -camera.axis[0]; parms->clipPlanes[0][3] = -( camera.origin * parms->clipPlanes[0].Normal() ); return parms; } /* ======================== R_XrayViewBySurface ======================== */ static viewDef_t *R_XrayViewBySurface( const drawSurf_t *drawSurf ) { // copy the viewport size from the original viewDef_t * parms = (viewDef_t *)R_FrameAlloc( sizeof( *parms ) ); *parms = *tr.viewDef; parms->renderView.viewID = 0; // clear to allow player bodies to show up, and suppress view weapons parms->isSubview = true; parms->isXraySubview = true; return parms; } /* =============== R_RemoteRender =============== */ static void R_RemoteRender( const drawSurf_t *surf, textureStage_t *stage ) { // remote views can be reused in a single frame if ( stage->dynamicFrameCount == tr.frameCount ) { return; } // if the entity doesn't have a remoteRenderView, do nothing if ( !surf->space->entityDef->parms.remoteRenderView ) { return; } int stageWidth = stage->width; int stageHeight = stage->height; // copy the viewport size from the original viewDef_t * parms = (viewDef_t *)R_FrameAlloc( sizeof( *parms ) ); *parms = *tr.viewDef; parms->renderView = *surf->space->entityDef->parms.remoteRenderView; parms->renderView.viewID = 0; // clear to allow player bodies to show up, and suppress view weapons parms->initialViewAreaOrigin = parms->renderView.vieworg; parms->isSubview = true; parms->isMirror = false; tr.CropRenderSize( stageWidth, stageHeight ); tr.GetCroppedViewport( &parms->viewport ); parms->scissor.x1 = 0; parms->scissor.y1 = 0; parms->scissor.x2 = parms->viewport.x2 - parms->viewport.x1; parms->scissor.y2 = parms->viewport.y2 - parms->viewport.y1; parms->superView = tr.viewDef; parms->subviewSurface = surf; // generate render commands for it R_RenderView( parms ); // copy this rendering to the image stage->dynamicFrameCount = tr.frameCount; if ( stage->image == NULL ) { stage->image = globalImages->scratchImage; } tr.CaptureRenderToImage( stage->image->GetName(), true ); tr.UnCrop(); } /* ================= R_MirrorRender ================= */ void R_MirrorRender( const drawSurf_t *surf, textureStage_t *stage, idScreenRect scissor ) { // remote views can be reused in a single frame if ( stage->dynamicFrameCount == tr.frameCount ) { return; } // issue a new view command viewDef_t * parms = R_MirrorViewBySurface( surf ); if ( parms == NULL ) { return; } tr.CropRenderSize( stage->width, stage->height ); tr.GetCroppedViewport( &parms->viewport ); parms->scissor.x1 = 0; parms->scissor.y1 = 0; parms->scissor.x2 = parms->viewport.x2 - parms->viewport.x1; parms->scissor.y2 = parms->viewport.y2 - parms->viewport.y1; parms->superView = tr.viewDef; parms->subviewSurface = surf; // triangle culling order changes with mirroring parms->isMirror = ( ( (int)parms->isMirror ^ (int)tr.viewDef->isMirror ) != 0 ); // generate render commands for it R_RenderView( parms ); // copy this rendering to the image stage->dynamicFrameCount = tr.frameCount; stage->image = globalImages->scratchImage; tr.CaptureRenderToImage( stage->image->GetName() ); tr.UnCrop(); } /* ================= R_XrayRender ================= */ void R_XrayRender( const drawSurf_t *surf, textureStage_t *stage, idScreenRect scissor ) { // remote views can be reused in a single frame if ( stage->dynamicFrameCount == tr.frameCount ) { return; } // issue a new view command viewDef_t * parms = R_XrayViewBySurface( surf ); if ( parms == NULL ) { return; } int stageWidth = stage->width; int stageHeight = stage->height; tr.CropRenderSize( stageWidth, stageHeight ); tr.GetCroppedViewport( &parms->viewport ); parms->scissor.x1 = 0; parms->scissor.y1 = 0; parms->scissor.x2 = parms->viewport.x2 - parms->viewport.x1; parms->scissor.y2 = parms->viewport.y2 - parms->viewport.y1; parms->superView = tr.viewDef; parms->subviewSurface = surf; // triangle culling order changes with mirroring parms->isMirror = ( ( (int)parms->isMirror ^ (int)tr.viewDef->isMirror ) != 0 ); // generate render commands for it R_RenderView( parms ); // copy this rendering to the image stage->dynamicFrameCount = tr.frameCount; stage->image = globalImages->scratchImage2; tr.CaptureRenderToImage( stage->image->GetName(), true ); tr.UnCrop(); } /* ================== R_GenerateSurfaceSubview ================== */ bool R_GenerateSurfaceSubview( const drawSurf_t *drawSurf ) { // for testing the performance hit if ( r_skipSubviews.GetBool() ) { return false; } idBounds ndcBounds; if ( R_PreciseCullSurface( drawSurf, ndcBounds ) ) { return false; } const idMaterial * shader = drawSurf->material; // never recurse through a subview surface that we are // already seeing through viewDef_t * parms = NULL; for ( parms = tr.viewDef; parms != NULL; parms = parms->superView ) { if ( parms->subviewSurface != NULL && parms->subviewSurface->frontEndGeo == drawSurf->frontEndGeo && parms->subviewSurface->space->entityDef == drawSurf->space->entityDef ) { break; } } if ( parms ) { return false; } // crop the scissor bounds based on the precise cull assert( tr.viewDef != NULL ); idScreenRect * v = &tr.viewDef->viewport; idScreenRect scissor; scissor.x1 = v->x1 + idMath::Ftoi( ( v->x2 - v->x1 + 1 ) * 0.5f * ( ndcBounds[0][0] + 1.0f ) ); scissor.y1 = v->y1 + idMath::Ftoi( ( v->y2 - v->y1 + 1 ) * 0.5f * ( ndcBounds[0][1] + 1.0f ) ); scissor.x2 = v->x1 + idMath::Ftoi( ( v->x2 - v->x1 + 1 ) * 0.5f * ( ndcBounds[1][0] + 1.0f ) ); scissor.y2 = v->y1 + idMath::Ftoi( ( v->y2 - v->y1 + 1 ) * 0.5f * ( ndcBounds[1][1] + 1.0f ) ); // nudge a bit for safety scissor.Expand(); scissor.Intersect( tr.viewDef->scissor ); if ( scissor.IsEmpty() ) { // cropped out return false; } // see what kind of subview we are making if ( shader->GetSort() != SS_SUBVIEW ) { for ( int i = 0; i < shader->GetNumStages(); i++ ) { const shaderStage_t *stage = shader->GetStage( i ); switch ( stage->texture.dynamic ) { case DI_REMOTE_RENDER: R_RemoteRender( drawSurf, const_cast(&stage->texture) ); break; case DI_MIRROR_RENDER: R_MirrorRender( drawSurf, const_cast(&stage->texture), scissor ); break; case DI_XRAY_RENDER: R_XrayRender( drawSurf, const_cast(&stage->texture), scissor ); break; } } return true; } // issue a new view command parms = R_MirrorViewBySurface( drawSurf ); if ( parms == NULL ) { return false; } parms->scissor = scissor; parms->superView = tr.viewDef; parms->subviewSurface = drawSurf; // triangle culling order changes with mirroring parms->isMirror = ( ( (int)parms->isMirror ^ (int)tr.viewDef->isMirror ) != 0 ); // generate render commands for it R_RenderView( parms ); return true; } /* ================ R_GenerateSubViews If we need to render another view to complete the current view, generate it first. It is important to do this after all drawSurfs for the current view have been generated, because it may create a subview which would change tr.viewCount. ================ */ bool R_GenerateSubViews( const drawSurf_t * const drawSurfs[], const int numDrawSurfs ) { SCOPED_PROFILE_EVENT( "R_GenerateSubViews" ); // for testing the performance hit if ( r_skipSubviews.GetBool() ) { return false; } // scan the surfaces until we either find a subview, or determine // there are no more subview surfaces. bool subviews = false; for ( int i = 0; i < numDrawSurfs; i++ ) { const drawSurf_t * drawSurf = drawSurfs[i]; if ( !drawSurf->material->HasSubview() ) { continue; } if ( R_GenerateSurfaceSubview( drawSurf ) ) { subviews = true; } } return subviews; }