// //--------------------------------------------------------------------------- // // Copyright(C) 2002-2016 Christoph Oelckers // All rights reserved. // // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU Lesser General Public License as published by // the Free Software Foundation, either version 2 of the License, or // (at your option) any later version. // // This program is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // GNU Lesser General Public License for more details. // // You should have received a copy of the GNU Lesser General Public License // along with this program. If not, see http://www.gnu.org/licenses/ // //-------------------------------------------------------------------------- // /* ** gl_sprite.cpp ** Sprite/Particle rendering ** */ #include "matrix.h" //#include "models.h" #include "vectors.h" #include "texturemanager.h" #include "basics.h" //#include "hw_models.h" #include "hw_drawstructs.h" #include "hw_drawinfo.h" #include "hw_portal.h" #include "flatvertices.h" #include "hw_cvars.h" #include "hw_clock.h" #include "hw_material.h" #include "hw_dynlightdata.h" #include "hw_lightbuffer.h" #include "hw_renderstate.h" #include "hw_models.h" #include "hw_viewpointbuffer.h" #include "hw_voxels.h" //========================================================================== // // // //========================================================================== void HWSprite::DrawSprite(HWDrawInfo* di, FRenderState& state, bool translucent) { bool additivefog = false; bool foglayer = false; if (translucent) { // The translucent pass requires special setup for the various modes. // for special render styles brightmaps would not look good - especially for subtractive. if (RenderStyle.BlendOp != STYLEOP_Add) { state.EnableBrightmap(false); } state.SetRenderStyle(RenderStyle); state.SetTextureMode(RenderStyle); if (texture && (hw_int_useindexedcolortextures || !checkTranslucentReplacement(texture->GetID(), palette))) state.AlphaFunc(Alpha_GEqual, texture->alphaThreshold); else state.AlphaFunc(Alpha_Greater, 0.f); if (RenderStyle.BlendOp == STYLEOP_Add && RenderStyle.DestAlpha == STYLEALPHA_One) { additivefog = true; } } if (dynlightindex == -1) // only set if we got no light buffer index. This covers all cases where sprite lighting is used. { float out[3] = {}; //di->GetDynSpriteLight(gl_light_sprites ? actor : nullptr, gl_light_particles ? particle : nullptr, out); //state.SetDynLight(out[0], out[1], out[2]); } if (RenderStyle.Flags & STYLEF_FadeToBlack) { fade = 0; additivefog = true; } if (RenderStyle.BlendOp == STYLEOP_RevSub || RenderStyle.BlendOp == STYLEOP_Sub) { if (!modelframe) { // non-black fog with subtractive style needs special treatment if (fade != 0) { foglayer = true; // Due to the two-layer approach we need to force an alpha test that lets everything pass state.AlphaFunc(Alpha_Greater, 0); } } else RenderStyle.BlendOp = STYLEOP_Fuzz; // subtractive with models is not going to work. } SetLightAndFog(state, fade, palette, shade, visibility, alpha); if (shade >= numshades) state.SetObjectColor(0xff000000); // make sure that nothing lights this up again. if (modelframe == 0) { state.SetMaterial(texture, UF_Texture, 0, CLAMP_XY, TRANSLATION(Translation_Remap + curbasepal, palette), -1); state.SetNormal(0, 0, 0); if (screen->BuffersArePersistent()) { CreateVertices(di); } state.SetLightIndex(-1); state.Draw(DT_TriangleStrip, vertexindex, 4); if (foglayer) { bool foggy = (GlobalMapFog || (fade & 0xffffff)); auto ShadeDiv = lookups.tables[palette].ShadeFactor; if (ShadeDiv >= 1 / 1000.f && foggy) { // If we get here we know that we have colored fog and no fixed colormap. float density = GlobalMapFog ? GlobalFogDensity : 350.f - Scale(numshades - shade, 150, numshades); state.SetFog((GlobalMapFog) ? GlobalMapFog : fade, density * hw_density); state.SetTextureMode(TM_FOGLAYER); state.SetRenderStyle(STYLE_Translucent); state.Draw(DT_TriangleStrip, vertexindex, 4); state.SetTextureMode(TM_NORMAL); } } } else { FHWModelRenderer mr(state, dynlightindex); if (modelframe < 0) { state.mModelMatrix = rotmat; auto model = voxel->model; state.SetDepthFunc(DF_LEqual); state.EnableTexture(true); model->BuildVertexBuffer(&mr); bool mirrored = ((Sprite->cstat & CSTAT_SPRITE_XFLIP) != 0) ^ ((Sprite->cstat & CSTAT_SPRITE_YFLIP) != 0) ^ portalState.isMirrored(); mr.BeginDrawModel(RenderStyle, nullptr, rotmat, mirrored); mr.SetupFrame(model, 0, 0, 0); model->RenderFrame(&mr, TexMan.GetGameTexture(model->GetPaletteTexture()), 0, 0, 0.f, TRANSLATION(Translation_Remap + curbasepal, palette)); mr.EndDrawModel(RenderStyle, nullptr); state.SetDepthFunc(DF_Less); state.SetVertexBuffer(screen->mVertexData); } else { //RenderModel(&renderer, x, y, z, modelframe, actor, di->Viewpoint.TicFrac); } state.SetObjectColor(0xffffffff); state.SetVertexBuffer(screen->mVertexData); } if (translucent) { state.EnableBrightmap(true); state.SetRenderStyle(STYLE_Translucent); state.SetTextureMode(TM_NORMAL); } state.SetObjectColor(0xffffffff); state.SetAddColor(0); state.EnableTexture(true); state.SetDynLight(0, 0, 0); } //========================================================================== // // // //========================================================================== void HWSprite::CalculateVertices(HWDrawInfo* di, FVector3* v, DVector3* vp) { const auto& HWAngles = di->Viewpoint.HWAngles; #if 0 // maybe later, it's a bit more tricky with Build. // [BB] Billboard stuff const bool drawWithXYBillboard = false; const bool drawBillboardFacingCamera = false; // [Nash] check for special sprite drawing modes if (drawWithXYBillboard || drawBillboardFacingCamera) { // Compute center of sprite float xcenter = (x1 + x2) * 0.5; float ycenter = (y1 + y2) * 0.5; float zcenter = (z1 + z2) * 0.5; float xx = -xcenter + x; float zz = -zcenter + z; float yy = -ycenter + y; Matrix3x4 mat; mat.MakeIdentity(); mat.Translate(xcenter, zcenter, ycenter); // move to sprite center // Order of rotations matters. Perform yaw rotation (Y, face camera) before pitch (X, tilt up/down). if (drawBillboardFacingCamera) { // [CMB] Rotate relative to camera XY position, not just camera direction, // which is nicer in VR float xrel = xcenter - vp->X; float yrel = ycenter - vp->Y; float absAngleDeg = RAD2DEG(atan2(-yrel, xrel)); float counterRotationDeg = 270. - HWAngles.Yaw.Degrees; // counteracts existing sprite rotation float relAngleDeg = counterRotationDeg + absAngleDeg; mat.Rotate(0, 1, 0, relAngleDeg); } // [fgsfds] calculate yaw vectors float yawvecX = 0, yawvecY = 0, rollDegrees = 0; float angleRad = (270. - HWAngles.Yaw).Radians(); if (drawWithXYBillboard) { // Rotate the sprite about the vector starting at the center of the sprite // triangle strip and with direction orthogonal to where the player is looking // in the x/y plane. mat.Rotate(-sin(angleRad), 0, cos(angleRad), -HWAngles.Pitch.Degrees); } mat.Translate(-xcenter, -zcenter, -ycenter); // retreat from sprite center v[0] = mat * FVector3(x1, z1, y1); v[1] = mat * FVector3(x2, z1, y2); v[2] = mat * FVector3(x1, z2, y1); v[3] = mat * FVector3(x2, z2, y2); } else // traditional "Y" billboard mode #endif { v[0] = FVector3(x1, z1, y1); v[1] = FVector3(x2, z1, y2); v[2] = FVector3(x1, z2, y1); v[3] = FVector3(x2, z2, y2); } } //========================================================================== // // // //========================================================================== void HWSprite::CreateVertices(HWDrawInfo* di) { if (modelframe == 0) { FVector3 v[4]; CalculateVertices(di, v, &di->Viewpoint.Pos); auto vert = screen->mVertexData->AllocVertices(4); auto vp = vert.first; vertexindex = vert.second; vp[0].Set(v[0][0], v[0][1], v[0][2], ul, vt); vp[1].Set(v[1][0], v[1][1], v[1][2], ur, vt); vp[2].Set(v[2][0], v[2][1], v[2][2], ul, vb); vp[3].Set(v[3][0], v[3][1], v[3][2], ur, vb); } } //========================================================================== // // // //========================================================================== inline void HWSprite::PutSprite(HWDrawInfo* di, bool translucent) { // That's a lot of checks... /* if (modelframe == 1 && gl_light_sprites) { hw_GetDynModelLight(actor, lightdata); dynlightindex = screen->mLights->UploadLights(lightdata); } else*/ dynlightindex = -1; vertexindex = -1; if (!screen->BuffersArePersistent()) { CreateVertices(di); } di->AddSprite(this, translucent); } //========================================================================== // // // //========================================================================== void HWSprite::Process(HWDrawInfo* di, spritetype* spr, sectortype* sector, int thruportal) { if (spr == nullptr) return; auto tex = tileGetTexture(spr->picnum); if (!tex || !tex->isValid()) return; texture = tex; Sprite = spr; modelframe = 0; dynlightindex = -1; shade = spr->shade; palette = spr->pal; fade = lookups.getFade(sector->floorpal); // fog is per sector. visibility = sectorVisibility(sector); SetSpriteTranslucency(spr, alpha, RenderStyle); x = spr->x * (1 / 16.f); z = spr->z * (1 / -256.f); y = spr->y * (1 / -16.f); auto vp = di->Viewpoint; if ((vp.Pos.XY() - DVector2(x, y)).LengthSquared() < 0.125) return; if (modelframe == 0) { int flags = spr->cstat; int tilenum = spr->picnum; int xsize, ysize, tilexoff, tileyoff; if (hw_hightile && TileFiles.tiledata[tilenum].hiofs.xsize) { xsize = TileFiles.tiledata[tilenum].hiofs.xsize; ysize = TileFiles.tiledata[tilenum].hiofs.ysize; tilexoff = TileFiles.tiledata[tilenum].hiofs.xoffs; tileyoff = TileFiles.tiledata[tilenum].hiofs.yoffs; } else { xsize = (int)tex->GetDisplayWidth(); ysize = (int)tex->GetDisplayHeight(); tilexoff = (int)tex->GetDisplayLeftOffset(); tileyoff = (int)tex->GetDisplayTopOffset(); } int heinum = 0; // tspriteGetSlope(tspr); // todo: slope sprites if (heinum == 0) { tilexoff += spr->xoffset; tileyoff += spr->yoffset; } // convert to render space. float width = (xsize * spr->xrepeat) * (0.2f / 16.f); // weird Build fuckery. Face sprites are rendered at 80% width only. float height = (ysize * spr->yrepeat) * (0.25f / 16.f); float xoff = (tilexoff * spr->xrepeat) * (0.2f / 16.f); float yoff = (tileyoff * spr->yrepeat) * (0.25f / 16.f); if (xsize & 1) xoff -= spr->xrepeat * (0.1f / 16.f); // Odd xspans (taken from polymost as-is) if (spr->cstat & CSTAT_SPRITE_YCENTER) { yoff -= height * 0.5; if (ysize & 1) yoff -= spr->yrepeat * (0.125f / 16.f); // Odd yspans (taken from polymost as-is) } if (flags & CSTAT_SPRITE_XFLIP) xoff = -xoff; //if (flags & CSTAT_SPRITE_YFLIP) yoff = -yoff; According to Polymost this must not be done. ul = (spr->cstat & CSTAT_SPRITE_XFLIP) ? 0.f : 1.f; ur = (spr->cstat & CSTAT_SPRITE_XFLIP) ? 1.f : 0.f; vt = (spr->cstat & CSTAT_SPRITE_YFLIP) ? 0.f : 1.f; vb = (spr->cstat & CSTAT_SPRITE_YFLIP) ? 1.f : 0.f; if (tex->isHardwareCanvas()) std::swap(vt, vb); float viewvecX = vp.ViewVector.X; float viewvecY = vp.ViewVector.Y; x = spr->x * (1 / 16.f); y = spr->y * (1 / -16.f); z = spr->z * (1 / -256.f); x1 = x - viewvecY * (xoff - (width * 0.5f)); x2 = x - viewvecY * (xoff + (width * 0.5f)); y1 = y + viewvecX * (xoff - (width * 0.5f)); y2 = y + viewvecX * (xoff + (width * 0.5f)); z1 = z + yoff; z2 = z + height + yoff; if (z1 < z2) { // Make sure that z1 is the higher one. Some utilities expect it to be oriented this way. std::swap(z1, z2); std::swap(vt, vb); } } else { x1 = x2 = x; y1 = y2 = y; z1 = z2 = z; texture = nullptr; } depth = (float)((x - vp.Pos.X) * vp.TanCos + (y - vp.Pos.Y) * vp.TanSin); #if 0 // huh? if ((texture && texture->GetTranslucency()) || (RenderStyle.Flags & STYLEF_RedIsAlpha) || (modelframe && spr->RenderStyle != DefaultRenderStyle())) { if (hw_styleflags == STYLEHW_Solid) { RenderStyle.SrcAlpha = STYLEALPHA_Src; RenderStyle.DestAlpha = STYLEALPHA_InvSrc; } hw_styleflags = STYLEHW_NoAlphaTest; } #endif PutSprite(di, true); rendered_sprites++; } //========================================================================== // // // //========================================================================== bool HWSprite::ProcessVoxel(HWDrawInfo* di, voxmodel_t* vox, spritetype* spr, sectortype* sector, bool rotate) { Sprite = spr; auto sprext = &spriteext[spr->owner]; texture = nullptr; modelframe = -1; dynlightindex = -1; shade = spr->shade; palette = spr->pal; fade = lookups.getFade(sector->floorpal); // fog is per sector. visibility = sectorVisibility(sector); voxel = vox; auto ang = spr->ang + sprext->angoff; if ((spr->cstat2 & CSTAT2_SPRITE_MDLROTATE) || rotate) { int myclock = (PlayClock << 3) + MulScale(4 << 3, (int)di->Viewpoint.TicFrac, 16); ang = (ang + myclock) & 2047; } if (!vox || (spr->cstat & CSTAT_SPRITE_ALIGNMENT) == CSTAT_SPRITE_ALIGNMENT_FLOOR) return false; SetSpriteTranslucency(spr, alpha, RenderStyle); FVector3 scalevec = { voxel->scale, voxel->scale, voxel->scale }; FVector3 translatevec = { 0, 0, voxel->zadd * voxel->scale }; float basescale = voxel->bscale / 64.f; float sprxscale = (float)spr->xrepeat * (256.f / 320.f) * basescale; if ((::sprite[spr->owner].cstat & CSTAT_SPRITE_ALIGNMENT) == CSTAT_SPRITE_ALIGNMENT_WALL) { sprxscale *= 1.25f; translatevec.Y -= spr->xoffset * bcosf(sprext->angoff, -20); translatevec.X += spr->xoffset * bsinf(sprext->angoff, -20); } if (spr->cstat & CSTAT_SPRITE_YFLIP) { scalevec.Z = -scalevec.Z; translatevec.Z = -translatevec.Z; } if (spr->cstat & CSTAT_SPRITE_XFLIP) { scalevec.X = -scalevec.X; translatevec.X = -translatevec.X; translatevec.Y = -translatevec.Y; } scalevec.X *= sprxscale; translatevec.X *= sprxscale; scalevec.Y *= sprxscale; translatevec.Y *= sprxscale; float sprzscale = (float)spr->yrepeat * basescale; scalevec.Z *= sprzscale; translatevec.Z *= sprzscale; float zpos = (float)(spr->z + sprext->position_offset.z); float zscale = ((spr->cstat & CSTAT_SPRITE_YFLIP) && (::sprite[spr->owner].cstat & CSTAT_SPRITE_ALIGNMENT) != 0) ? -4.f : 4.f; zpos -= (spr->yoffset * spr->yrepeat) * zscale * voxel->bscale; x = (spr->x + sprext->position_offset.x) * (1 / 16.f); z = zpos * (1 / -256.f); y = (spr->y + sprext->position_offset.y) * (1 / -16.f); float zoff = voxel->siz.z * .5f; if (!(spr->cstat & CSTAT_SPRITE_YCENTER)) zoff += voxel->piv.Z; else if ((spr->cstat & CSTAT_SPRITE_ALIGNMENT) != CSTAT_SPRITE_ALIGNMENT_SLAB) { zoff += voxel->piv.Z; zoff -= voxel->siz.z * .5f; } if (spr->cstat & CSTAT_SPRITE_YFLIP) zoff = voxel->siz.z - zoff; rotmat.loadIdentity(); rotmat.translate(x + translatevec.X, z - translatevec.Z, y - translatevec.Y); rotmat.rotate(buildang(ang).asdeg() - 90.f, 0, 1, 0); rotmat.scale(scalevec.X, scalevec.Z, scalevec.Y); // Apply pivot last rotmat.translate(-voxel->piv.X, zoff, voxel->piv.Y); auto vp = di->Viewpoint; depth = (float)((x - vp.Pos.X) * vp.TanCos + (y - vp.Pos.Y) * vp.TanSin); PutSprite(di, spriteHasTranslucency(Sprite)); rendered_sprites++; return true; }