/* ** Handling drawing a plane (ceiling, floor) ** Copyright (c) 2016 Magnus Norddahl ** ** This software is provided 'as-is', without any express or implied ** warranty. In no event will the authors be held liable for any damages ** arising from the use of this software. ** ** Permission is granted to anyone to use this software for any purpose, ** including commercial applications, and to alter it and redistribute it ** freely, subject to the following restrictions: ** ** 1. The origin of this software must not be misrepresented; you must not ** claim that you wrote the original software. If you use this software ** in a product, an acknowledgment in the product documentation would be ** appreciated but is not required. ** 2. Altered source versions must be plainly marked as such, and must not be ** misrepresented as being the original software. ** 3. This notice may not be removed or altered from any source distribution. ** */ #include #include "templates.h" #include "doomdef.h" #include "sbar.h" #include "r_data/r_translate.h" #include "poly_plane.h" #include "poly_portal.h" #include "polyrenderer/poly_renderer.h" #include "r_sky.h" #include "swrenderer/scene/r_light.h" EXTERN_CVAR(Int, r_3dfloors) void RenderPolyPlane::RenderPlanes(const TriMatrix &worldToClip, const Vec4f &clipPlane, PolyCull &cull, subsector_t *sub, uint32_t subsectorDepth, uint32_t stencilValue, double skyCeilingHeight, double skyFloorHeight, std::vector> §orPortals) { RenderPolyPlane plane; if (r_3dfloors) { auto frontsector = sub->sector; auto &ffloors = frontsector->e->XFloor.ffloors; // 3D floor floors for (int i = 0; i < (int)ffloors.Size(); i++) { F3DFloor *fakeFloor = ffloors[i]; if (!(fakeFloor->flags & FF_EXISTS)) continue; if (!fakeFloor->model) continue; if (fakeFloor->bottom.plane->isSlope()) continue; //if (!(fakeFloor->flags & FF_NOSHADE) || (fakeFloor->flags & (FF_RENDERPLANES | FF_RENDERSIDES))) // R_3D_AddHeight(fakeFloor->top.plane, frontsector); if (!(fakeFloor->flags & FF_RENDERPLANES)) continue; if (fakeFloor->alpha == 0) continue; if (fakeFloor->flags & FF_THISINSIDE && fakeFloor->flags & FF_INVERTSECTOR) continue; //fakeFloor->alpha double fakeHeight = fakeFloor->top.plane->ZatPoint(frontsector->centerspot); if (fakeHeight < ViewPos.Z && fakeHeight > frontsector->floorplane.ZatPoint(frontsector->centerspot)) { plane.Render3DFloor(worldToClip, clipPlane, sub, subsectorDepth, stencilValue, false, fakeFloor); } } // 3D floor ceilings for (int i = 0; i < (int)ffloors.Size(); i++) { F3DFloor *fakeFloor = ffloors[i]; if (!(fakeFloor->flags & FF_EXISTS)) continue; if (!fakeFloor->model) continue; if (fakeFloor->top.plane->isSlope()) continue; //if (!(fakeFloor->flags & FF_NOSHADE) || (fakeFloor->flags & (FF_RENDERPLANES | FF_RENDERSIDES))) // R_3D_AddHeight(fakeFloor->bottom.plane, frontsector); if (!(fakeFloor->flags & FF_RENDERPLANES)) continue; if (fakeFloor->alpha == 0) continue; if (!(fakeFloor->flags & FF_THISINSIDE) && (fakeFloor->flags & (FF_SWIMMABLE | FF_INVERTSECTOR)) == (FF_SWIMMABLE | FF_INVERTSECTOR)) continue; //fakeFloor->alpha double fakeHeight = fakeFloor->bottom.plane->ZatPoint(frontsector->centerspot); if (fakeHeight > ViewPos.Z && fakeHeight < frontsector->ceilingplane.ZatPoint(frontsector->centerspot)) { plane.Render3DFloor(worldToClip, clipPlane, sub, subsectorDepth, stencilValue, true, fakeFloor); } } } plane.Render(worldToClip, clipPlane, cull, sub, subsectorDepth, stencilValue, true, skyCeilingHeight, sectorPortals); plane.Render(worldToClip, clipPlane, cull, sub, subsectorDepth, stencilValue, false, skyFloorHeight, sectorPortals); } void RenderPolyPlane::Render3DFloor(const TriMatrix &worldToClip, const Vec4f &clipPlane, subsector_t *sub, uint32_t subsectorDepth, uint32_t stencilValue, bool ceiling, F3DFloor *fakeFloor) { FTextureID picnum = ceiling ? *fakeFloor->bottom.texture : *fakeFloor->top.texture; FTexture *tex = TexMan(picnum); if (tex->UseType == FTexture::TEX_Null) return; swrenderer::CameraLight *cameraLight = swrenderer::CameraLight::Instance(); int lightlevel = 255; bool foggy = false; if (cameraLight->FixedLightLevel() < 0 && sub->sector->e->XFloor.lightlist.Size()) { lightlist_t *light = P_GetPlaneLight(sub->sector, &sub->sector->ceilingplane, false); //basecolormap = light->extra_colormap; lightlevel = *light->p_lightlevel; } UVTransform xform(ceiling ? fakeFloor->top.model->planes[sector_t::ceiling].xform : fakeFloor->top.model->planes[sector_t::floor].xform, tex); PolyDrawArgs args; args.uniforms.globvis = (float)swrenderer::LightVisibility::Instance()->SlopePlaneGlobVis(foggy) * 48.0f; args.uniforms.light = (uint32_t)(lightlevel / 255.0f * 256.0f); if (cameraLight->FixedLightLevel() >= 0 || cameraLight->FixedColormap()) args.uniforms.light = 256; args.uniforms.flags = 0; args.uniforms.subsectorDepth = subsectorDepth; TriVertex *vertices = PolyVertexBuffer::GetVertices(sub->numlines); if (!vertices) return; if (ceiling) { for (uint32_t i = 0; i < sub->numlines; i++) { seg_t *line = &sub->firstline[i]; vertices[sub->numlines - 1 - i] = PlaneVertex(line->v1, fakeFloor->bottom.plane->ZatPoint(line->v1), xform); } } else { for (uint32_t i = 0; i < sub->numlines; i++) { seg_t *line = &sub->firstline[i]; vertices[i] = PlaneVertex(line->v1, fakeFloor->top.plane->ZatPoint(line->v1), xform); } } args.objectToClip = &worldToClip; args.vinput = vertices; args.vcount = sub->numlines; args.mode = TriangleDrawMode::Fan; args.ccw = true; args.stenciltestvalue = stencilValue; args.stencilwritevalue = stencilValue + 1; args.SetTexture(tex); args.SetColormap(sub->sector->ColorMap); args.SetClipPlane(clipPlane.x, clipPlane.y, clipPlane.z, clipPlane.w); args.blendmode = TriBlendMode::Copy; PolyTriangleDrawer::draw(args); } void RenderPolyPlane::Render(const TriMatrix &worldToClip, const Vec4f &clipPlane, PolyCull &cull, subsector_t *sub, uint32_t subsectorDepth, uint32_t stencilValue, bool ceiling, double skyHeight, std::vector> §orPortals) { std::vector portalSegments; FSectorPortal *portal = nullptr;// sub->sector->ValidatePortal(ceiling ? sector_t::ceiling : sector_t::floor); bool foggy = false; PolyDrawSectorPortal *polyportal = nullptr; if (portal && (portal->mFlags & PORTSF_INSKYBOX) == PORTSF_INSKYBOX) // Do not recurse into portals we already recursed into portal = nullptr; if (portal) { for (auto &p : sectorPortals) { if (p->Portal == portal) // To do: what other criteria do we need to check for? { polyportal = p.get(); break; } } if (!polyportal) { sectorPortals.push_back(std::make_unique(portal, ceiling)); polyportal = sectorPortals.back().get(); } // Calculate portal clipping DVector2 v; bool inside = true; double vdist = 1.0e10; portalSegments.reserve(sub->numlines); for (uint32_t i = 0; i < sub->numlines; i++) { seg_t *line = &sub->firstline[i]; DVector2 pt1 = line->v1->fPos() - ViewPos; DVector2 pt2 = line->v2->fPos() - ViewPos; if (pt1.Y * (pt1.X - pt2.X) + pt1.X * (pt2.Y - pt1.Y) >= 0) inside = false; double dist = pt1.LengthSquared(); if (dist < vdist) { v = line->v1->fPos(); vdist = dist; } dist = pt2.LengthSquared(); if (dist < vdist) { v = line->v2->fPos(); vdist = dist; } int sx1, sx2; LineSegmentRange range = cull.GetSegmentRangeForLine(line->v1->fX(), line->v1->fY(), line->v2->fX(), line->v2->fY(), sx1, sx2); if (range == LineSegmentRange::HasSegment) portalSegments.push_back({ sx1, sx2 }); } if (inside) { polyportal->PortalPlane = Vec4f(0.0f, 0.0f, 0.0f, 1.0f); } else if(polyportal->PortalPlane == Vec4f(0.0f) || Vec4f::dot(polyportal->PortalPlane, Vec4f((float)v.X, (float)v.Y, 0.0f, 1.0f)) > 0.0f) { DVector2 planePos = v; DVector2 planeNormal = v - ViewPos; planeNormal.MakeUnit(); double planeD = -(planeNormal | (planePos + planeNormal * 0.001)); polyportal->PortalPlane = Vec4f((float)planeNormal.X, (float)planeNormal.Y, 0.0f, (float)planeD); } } sector_t *fakesector = sub->sector->heightsec; if (fakesector && (fakesector == sub->sector || (fakesector->MoreFlags & SECF_IGNOREHEIGHTSEC) == SECF_IGNOREHEIGHTSEC)) fakesector = nullptr; bool fakeflooronly = fakesector && (fakesector->MoreFlags & SECF_FAKEFLOORONLY) == SECF_FAKEFLOORONLY; FTextureID picnum; bool ccw; sector_t *frontsector; if (fakesector) { // Floor and ceiling texture needs to be swapped sometimes? Why?? :( if (ViewPos.Z < fakesector->floorplane.Zat0()) // In water { if (ceiling) { picnum = fakesector->GetTexture(sector_t::ceiling); ceiling = false; frontsector = fakesector; ccw = false; } else { picnum = fakesector->GetTexture(sector_t::floor); frontsector = sub->sector; ccw = true; } } else if (ViewPos.Z >= fakesector->ceilingplane.Zat0() && !fakeflooronly) // In ceiling water { if (ceiling) { picnum = fakesector->GetTexture(sector_t::ceiling); frontsector = sub->sector; ccw = true; } else { picnum = fakesector->GetTexture(sector_t::floor); frontsector = fakesector; ccw = false; ceiling = true; } } else if (!ceiling) // Water surface { picnum = fakesector->GetTexture(sector_t::ceiling); frontsector = fakesector; ccw = true; } else if (!fakeflooronly) // Ceiling water surface { picnum = fakesector->GetTexture(sector_t::floor); frontsector = fakesector; ccw = true; } else // Upper ceiling { picnum = sub->sector->GetTexture(sector_t::ceiling); ccw = true; frontsector = sub->sector; } } else { picnum = sub->sector->GetTexture(ceiling ? sector_t::ceiling : sector_t::floor); ccw = true; frontsector = sub->sector; } FTexture *tex = TexMan(picnum); if (tex->UseType == FTexture::TEX_Null) return; bool isSky = picnum == skyflatnum; UVTransform transform(ceiling ? frontsector->planes[sector_t::ceiling].xform : frontsector->planes[sector_t::floor].xform, tex); swrenderer::CameraLight *cameraLight = swrenderer::CameraLight::Instance(); PolyDrawArgs args; args.uniforms.globvis = (float)swrenderer::LightVisibility::Instance()->SlopePlaneGlobVis(foggy) * 48.0f; args.uniforms.light = (uint32_t)(frontsector->lightlevel / 255.0f * 256.0f); if (cameraLight->FixedLightLevel() >= 0 || cameraLight->FixedColormap()) args.uniforms.light = 256; args.uniforms.flags = 0; args.uniforms.subsectorDepth = isSky ? RenderPolyScene::SkySubsectorDepth : subsectorDepth; TriVertex *vertices = PolyVertexBuffer::GetVertices(sub->numlines); if (!vertices) return; if (ceiling) { for (uint32_t i = 0; i < sub->numlines; i++) { seg_t *line = &sub->firstline[i]; vertices[sub->numlines - 1 - i] = PlaneVertex(line->v1, isSky ? skyHeight : frontsector->ceilingplane.ZatPoint(line->v1), transform); } } else { for (uint32_t i = 0; i < sub->numlines; i++) { seg_t *line = &sub->firstline[i]; vertices[i] = PlaneVertex(line->v1, isSky ? skyHeight : frontsector->floorplane.ZatPoint(line->v1), transform); } } args.objectToClip = &worldToClip; args.vinput = vertices; args.vcount = sub->numlines; args.mode = TriangleDrawMode::Fan; args.ccw = ccw; args.stenciltestvalue = stencilValue; args.stencilwritevalue = stencilValue + 1; args.SetColormap(frontsector->ColorMap); args.SetClipPlane(clipPlane.x, clipPlane.y, clipPlane.z, clipPlane.w); if (!isSky) { if (!portal) { args.SetTexture(tex); args.blendmode = TriBlendMode::Copy; PolyTriangleDrawer::draw(args); } else { args.stencilwritevalue = polyportal->StencilValue; args.writeColor = false; args.writeSubsector = false; PolyTriangleDrawer::draw(args); polyportal->Shape.push_back({ args.vinput, args.vcount, args.ccw, subsectorDepth }); polyportal->Segments.insert(polyportal->Segments.end(), portalSegments.begin(), portalSegments.end()); } } else { if (portal) { args.stencilwritevalue = polyportal->StencilValue; polyportal->Shape.push_back({ args.vinput, args.vcount, args.ccw, subsectorDepth }); polyportal->Segments.insert(polyportal->Segments.end(), portalSegments.begin(), portalSegments.end()); } else { args.stencilwritevalue = 255; } args.writeColor = false; args.writeSubsector = false; PolyTriangleDrawer::draw(args); for (uint32_t i = 0; i < sub->numlines; i++) { TriVertex *wallvert = PolyVertexBuffer::GetVertices(4); if (!wallvert) return; seg_t *line = &sub->firstline[i]; double skyBottomz1 = frontsector->ceilingplane.ZatPoint(line->v1); double skyBottomz2 = frontsector->ceilingplane.ZatPoint(line->v2); if (line->backsector) { sector_t *backsector = (line->backsector != line->frontsector) ? line->backsector : line->frontsector; double frontceilz1 = frontsector->ceilingplane.ZatPoint(line->v1); double frontfloorz1 = frontsector->floorplane.ZatPoint(line->v1); double frontceilz2 = frontsector->ceilingplane.ZatPoint(line->v2); double frontfloorz2 = frontsector->floorplane.ZatPoint(line->v2); double backceilz1 = backsector->ceilingplane.ZatPoint(line->v1); double backfloorz1 = backsector->floorplane.ZatPoint(line->v1); double backceilz2 = backsector->ceilingplane.ZatPoint(line->v2); double backfloorz2 = backsector->floorplane.ZatPoint(line->v2); double topceilz1 = frontceilz1; double topceilz2 = frontceilz2; double topfloorz1 = MIN(backceilz1, frontceilz1); double topfloorz2 = MIN(backceilz2, frontceilz2); double bottomceilz1 = MAX(frontfloorz1, backfloorz1); double bottomceilz2 = MAX(frontfloorz2, backfloorz2); double middleceilz1 = topfloorz1; double middleceilz2 = topfloorz2; double middlefloorz1 = MIN(bottomceilz1, middleceilz1); double middlefloorz2 = MIN(bottomceilz2, middleceilz2); bool bothSkyCeiling = frontsector->GetTexture(sector_t::ceiling) == skyflatnum && backsector->GetTexture(sector_t::ceiling) == skyflatnum; bool closedSector = backceilz1 == backfloorz1 && backceilz2 == backfloorz2; if (ceiling && bothSkyCeiling && closedSector) { skyBottomz1 = middlefloorz1; skyBottomz2 = middlefloorz2; } else if (bothSkyCeiling) { continue; } } if (ceiling) { wallvert[0] = PlaneVertex(line->v1, skyHeight, transform); wallvert[1] = PlaneVertex(line->v2, skyHeight, transform); wallvert[2] = PlaneVertex(line->v2, skyBottomz2, transform); wallvert[3] = PlaneVertex(line->v1, skyBottomz1, transform); } else { wallvert[0] = PlaneVertex(line->v1, frontsector->floorplane.ZatPoint(line->v1), transform); wallvert[1] = PlaneVertex(line->v2, frontsector->floorplane.ZatPoint(line->v2), transform); wallvert[2] = PlaneVertex(line->v2, skyHeight, transform); wallvert[3] = PlaneVertex(line->v1, skyHeight, transform); } args.vinput = wallvert; args.vcount = 4; PolyTriangleDrawer::draw(args); if (portal) { polyportal->Shape.push_back({ args.vinput, args.vcount, args.ccw, subsectorDepth }); polyportal->Segments.insert(polyportal->Segments.end(), portalSegments.begin(), portalSegments.end()); } } } } TriVertex RenderPolyPlane::PlaneVertex(vertex_t *v1, double height, const UVTransform &transform) { TriVertex v; v.x = (float)v1->fPos().X; v.y = (float)v1->fPos().Y; v.z = (float)height; v.w = 1.0f; v.varying[0] = transform.GetU(v.x, v.y); v.varying[1] = transform.GetV(v.x, v.y); return v; } RenderPolyPlane::UVTransform::UVTransform(const FTransform &transform, FTexture *tex) { if (tex) { xscale = (float)(transform.xScale * tex->Scale.X / tex->GetWidth()); yscale = (float)(transform.yScale * tex->Scale.Y / tex->GetHeight()); double planeang = (transform.Angle + transform.baseAngle).Radians(); cosine = (float)cos(planeang); sine = (float)sin(planeang); xOffs = (float)transform.xOffs; yOffs = (float)transform.yOffs; } else { xscale = 1.0f / 64.0f; yscale = 1.0f / 64.0f; cosine = 1.0f; sine = 0.0f; xOffs = 0.0f; yOffs = 0.0f; } } float RenderPolyPlane::UVTransform::GetU(float x, float y) const { return (xOffs + x * cosine - y * sine) * xscale; } float RenderPolyPlane::UVTransform::GetV(float x, float y) const { return (yOffs - x * sine - y * cosine) * yscale; }