// scissi //--------------------------------------------------------------------------- // // Copyright(C) 2016-2018 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/ // //-------------------------------------------------------------------------- // /* ** v_2ddrawer.h ** Device independent 2D draw list ** **/ #include #include "c_cvars.h" #include "v_2ddrawer.h" #include "renderstyle.h" #include "drawparms.h" #include "vectors.h" #include "gamecvars.h" #include "earcut.hpp" //#include "doomtype.h" #include "templates.h" //#include "r_utility.h" #include "v_video.h" //#include "g_levellocals.h" //#include "vm.h" F2DDrawer twodpsp; F2DDrawer twodgen; F2DDrawer *twod = &twodgen; //========================================================================== // // // //========================================================================== int F2DDrawer::AddCommand(const RenderCommand *data) { if (mData.Size() > 0 && data->isCompatible(mData.Last())) { // Merge with the last command. mData.Last().mIndexCount += data->mIndexCount; mData.Last().mVertCount += data->mVertCount; return mData.Size(); } else { return mData.Push(*data); } } //========================================================================== // // // //========================================================================== void F2DDrawer::AddIndices(int firstvert, int count, ...) { va_list ap; va_start(ap, count); int addr = mIndices.Reserve(count); for (int i = 0; i < count; i++) { mIndices[addr + i] = firstvert + va_arg(ap, int); } } void F2DDrawer::AddIndices(int firstvert, TArray &v) { int addr = mIndices.Reserve(v.Size()); for (unsigned i = 0; i < v.Size(); i++) { mIndices[addr + i] = firstvert + v[i]; } } //========================================================================== // // SetStyle // // Patterned after R_SetPatchStyle. // //========================================================================== bool F2DDrawer::SetStyle(FTexture *tex, DrawParms &parms, PalEntry &vertexcolor, RenderCommand &quad) { FRenderStyle style = parms.style; float alpha; bool stencilling; if (style.Flags & STYLEF_Alpha1) { alpha = 1; } else { alpha = clamp(parms.Alpha, 0.f, 1.f); } style.CheckFuzz(); if (style.BlendOp == STYLEOP_Shadow || style.BlendOp == STYLEOP_Fuzz) { style = LegacyRenderStyles[STYLE_TranslucentStencil]; alpha = 0.3f; parms.fillcolor = 0; } else if (style.BlendOp == STYLEOP_FuzzOrAdd) { style.BlendOp = STYLEOP_Add; } else if (style.BlendOp == STYLEOP_FuzzOrSub) { style.BlendOp = STYLEOP_Sub; } else if (style.BlendOp == STYLEOP_FuzzOrRevSub) { style.BlendOp = STYLEOP_RevSub; } stencilling = false; if (style.Flags & STYLEF_InvertOverlay) { // Only the overlay color is inverted, not the overlay alpha. parms.colorOverlay.r = 255 - parms.colorOverlay.r; parms.colorOverlay.g = 255 - parms.colorOverlay.g; parms.colorOverlay.b = 255 - parms.colorOverlay.b; } SetColorOverlay(parms.colorOverlay, alpha, vertexcolor, quad.mColor1); if (style.Flags & STYLEF_ColorIsFixed) { if (style.Flags & STYLEF_InvertSource) { // Since the source color is a constant, we can invert it now // without spending time doing it in the shader. parms.fillcolor.r = 255 - parms.fillcolor.r; parms.fillcolor.g = 255 - parms.fillcolor.g; parms.fillcolor.b = 255 - parms.fillcolor.b; style.Flags &= ~STYLEF_InvertSource; } if (parms.desaturate > 0) { // Desaturation can also be computed here without having to do it in the shader. auto gray = parms.fillcolor.Luminance(); auto notgray = 255 - gray; parms.fillcolor.r = uint8_t((parms.fillcolor.r * notgray + gray * 255) / 255); parms.fillcolor.g = uint8_t((parms.fillcolor.g * notgray + gray * 255) / 255); parms.fillcolor.b = uint8_t((parms.fillcolor.b * notgray + gray * 255) / 255); parms.desaturate = 0; } // Set up the color mod to replace the color from the image data. vertexcolor.r = parms.fillcolor.r; vertexcolor.g = parms.fillcolor.g; vertexcolor.b = parms.fillcolor.b; if (style.Flags & STYLEF_RedIsAlpha) { quad.mDrawMode = TM_ALPHATEXTURE; } else { quad.mDrawMode = TM_STENCIL; } } else { if (style.Flags & STYLEF_RedIsAlpha) { quad.mDrawMode = TM_ALPHATEXTURE; } else if (style.Flags & STYLEF_InvertSource) { quad.mDrawMode = TM_INVERSE; } quad.mDesaturate = parms.desaturate; } // apply the element's own color. This is being blended with anything that came before. vertexcolor = PalEntry((vertexcolor.a * parms.color.a) / 255, (vertexcolor.r * parms.color.r) / 255, (vertexcolor.g * parms.color.g) / 255, (vertexcolor.b * parms.color.b) / 255); if (!parms.masked) { // For TM_ALPHATEXTURE and TM_STENCIL the mask cannot be turned off because it would not yield a usable result. if (quad.mDrawMode == TM_NORMAL) quad.mDrawMode = TM_OPAQUE; else if (quad.mDrawMode == TM_INVERSE) quad.mDrawMode = TM_INVERTOPAQUE; } quad.mRenderStyle = parms.style; // this contains the blend mode and blend equation settings. if (parms.burn) quad.mFlags |= DTF_Burn; return true; } //========================================================================== // // Draws a texture // //========================================================================== void F2DDrawer::SetColorOverlay(PalEntry color, float alpha, PalEntry &vertexcolor, PalEntry &overlaycolor) { if (color.a != 0 && (color & 0xffffff) != 0) { // overlay color uses premultiplied alpha. int a = color.a * 256 / 255; overlaycolor.r = (color.r * a) >> 8; overlaycolor.g = (color.g * a) >> 8; overlaycolor.b = (color.b * a) >> 8; overlaycolor.a = 0; // The overlay gets added on top of the texture data so to preserve the pixel's alpha this must be 0. } else { overlaycolor = 0; } // Vertex intensity is the inverse of the overlay so that the shader can do a simple addition to combine them. uint8_t light = 255 - color.a; vertexcolor = PalEntry(int(alpha * 255), light, light, light); // The real color gets multiplied into vertexcolor later. } //========================================================================== // // Draws a texture // //========================================================================== void F2DDrawer::AddTexture(FTexture *img, DrawParms &parms) { if (parms.style.BlendOp == STYLEOP_None) return; // not supposed to be drawn. double xscale = parms.destwidth / parms.texwidth; double yscale = parms.destheight / parms.texheight; double x = parms.x - parms.left * xscale; double y = parms.y - parms.top * yscale; double w = parms.destwidth; double h = parms.destheight; double u1, v1, u2, v2; PalEntry vertexcolor; RenderCommand dg; dg.mType = DrawTypeTriangles; dg.mVertCount = 4; dg.mTexture = img; dg.mRemapIndex = parms.remap; SetStyle(img, parms, vertexcolor, dg); u1 = parms.srcx; v1 = parms.srcy; u2 = parms.srcx + parms.srcwidth; v2 = parms.srcy + parms.srcheight; if (parms.flipX) std::swap(u1, u2); if (parms.flipY) std::swap(v1, v2); // This is crap. Only kept for backwards compatibility with scripts that may have used it. // Note that this only works for unflipped full textures. if (parms.windowleft > 0 || parms.windowright < parms.texwidth) { double wi = std::min(parms.windowright, parms.texwidth); x += parms.windowleft * xscale; w -= (parms.texwidth - wi + parms.windowleft) * xscale; u1 = float(u1 + parms.windowleft / parms.texwidth); u2 = float(u2 - (parms.texwidth - wi) / parms.texwidth); } if (x < (double)parms.lclip || y < (double)parms.uclip || x + w >(double)parms.rclip || y + h >(double)parms.dclip) { dg.mScissor[0] = parms.lclip; dg.mScissor[1] = parms.uclip; dg.mScissor[2] = parms.rclip; dg.mScissor[3] = parms.dclip; dg.mFlags |= DTF_Scissor; } else { memset(dg.mScissor, 0, sizeof(dg.mScissor)); } dg.mVertCount = 4; dg.mVertIndex = (int)mVertices.Reserve(4); TwoDVertex *ptr = &mVertices[dg.mVertIndex]; ptr->Set(x, y, 0, u1, v1, vertexcolor); ptr++; ptr->Set(x, y + h, 0, u1, v2, vertexcolor); ptr++; ptr->Set(x + w, y, 0, u2, v1, vertexcolor); ptr++; ptr->Set(x + w, y + h, 0, u2, v2, vertexcolor); ptr++; dg.mIndexIndex = mIndices.Size(); dg.mIndexCount += 6; AddIndices(dg.mVertIndex, 6, 0, 1, 2, 1, 3, 2); AddCommand(&dg); } //========================================================================== // // // //========================================================================== void F2DDrawer::AddFlatFill(int left, int top, int right, int bottom, FTexture *src, bool local_origin) { float fU1, fU2, fV1, fV2; RenderCommand dg; dg.mType = DrawTypeTriangles; dg.mRenderStyle = DefaultRenderStyle(); dg.mTexture = src; dg.mVertCount = 4; dg.mTexture = src; dg.mFlags = DTF_Wrap; // scaling is not used here. if (!local_origin) { fU1 = float(left) / src->GetWidth(); fV1 = float(top) / src->GetHeight(); fU2 = float(right) / src->GetWidth(); fV2 = float(bottom) / src->GetHeight(); } else { fU1 = 0; fV1 = 0; fU2 = float(right - left) / src->GetWidth(); fV2 = float(bottom - top) / src->GetHeight(); } dg.mVertIndex = (int)mVertices.Reserve(4); auto ptr = &mVertices[dg.mVertIndex]; ptr->Set(left, top, 0, fU1, fV1, 0xffffffff); ptr++; ptr->Set(left, bottom, 0, fU1, fV2, 0xffffffff); ptr++; ptr->Set(right, top, 0, fU2, fV1, 0xffffffff); ptr++; ptr->Set(right, bottom, 0, fU2, fV2, 0xffffffff); ptr++; dg.mIndexIndex = mIndices.Size(); dg.mIndexCount += 6; AddIndices(dg.mVertIndex, 6, 0, 1, 2, 1, 3, 2); AddCommand(&dg); } //=========================================================================== // // // //=========================================================================== void F2DDrawer::AddColorOnlyQuad(int x1, int y1, int w, int h, PalEntry color, FRenderStyle *style) { RenderCommand dg; dg.mType = DrawTypeTriangles; dg.mVertCount = 4; dg.mVertIndex = (int)mVertices.Reserve(4); dg.mRenderStyle = style? *style : LegacyRenderStyles[STYLE_Translucent]; auto ptr = &mVertices[dg.mVertIndex]; ptr->Set(x1, y1, 0, 0, 0, color); ptr++; ptr->Set(x1, y1 + h, 0, 0, 0, color); ptr++; ptr->Set(x1 + w, y1, 0, 0, 0, color); ptr++; ptr->Set(x1 + w, y1 + h, 0, 0, 0, color); ptr++; dg.mIndexIndex = mIndices.Size(); dg.mIndexCount += 6; AddIndices(dg.mVertIndex, 6, 0, 1, 2, 1, 3, 2); AddCommand(&dg); } void F2DDrawer::ClearScreen(PalEntry color) { AddColorOnlyQuad(0, 0, screen->GetWidth(), screen->GetHeight(), color); } //========================================================================== // // // //========================================================================== void F2DDrawer::AddLine(float x1, float y1, float x2, float y2, int clipx1, int clipy1, int clipx2, int clipy2, uint32_t color, uint8_t alpha) { PalEntry p = (PalEntry)color; p.a = alpha; RenderCommand dg; if (clipx1 > 0 || clipy1 > 0 || clipx2 < screen->GetWidth()- 1 || clipy2 < screen->GetHeight() - 1) { dg.mScissor[0] = clipx1; dg.mScissor[1] = clipy1; dg.mScissor[2] = clipx2 + 1; dg.mScissor[3] = clipy2 + 1; dg.mFlags |= DTF_Scissor; } dg.mType = DrawTypeLines; dg.mRenderStyle = LegacyRenderStyles[STYLE_Translucent]; dg.mVertCount = 2; dg.mVertIndex = (int)mVertices.Reserve(2); mVertices[dg.mVertIndex].Set(x1, y1, 0, 0, 0, p); mVertices[dg.mVertIndex+1].Set(x2, y2, 0, 0, 0, p); AddCommand(&dg); } //========================================================================== // // // //========================================================================== void F2DDrawer::AddThickLine(int x1, int y1, int x2, int y2, double thickness, uint32_t color, uint8_t alpha) { PalEntry p = (PalEntry)color; p.a = alpha; DVector2 point0(x1, y1); DVector2 point1(x2, y2); DVector2 delta = point1 - point0; DVector2 perp(-delta.Y, delta.X); perp.MakeUnit(); perp *= thickness / 2; DVector2 corner0 = point0 + perp; DVector2 corner1 = point0 - perp; DVector2 corner2 = point1 + perp; DVector2 corner3 = point1 - perp; RenderCommand dg; dg.mType = DrawTypeTriangles; dg.mVertCount = 4; dg.mVertIndex = (int)mVertices.Reserve(4); dg.mRenderStyle = LegacyRenderStyles[STYLE_Translucent]; auto ptr = &mVertices[dg.mVertIndex]; ptr->Set(corner0.X, corner0.Y, 0, 0, 0, p); ptr++; ptr->Set(corner1.X, corner1.Y, 0, 0, 0, p); ptr++; ptr->Set(corner2.X, corner2.Y, 0, 0, 0, p); ptr++; ptr->Set(corner3.X, corner3.Y, 0, 0, 0, p); ptr++; dg.mIndexIndex = mIndices.Size(); dg.mIndexCount += 6; AddIndices(dg.mVertIndex, 6, 0, 1, 2, 1, 3, 2); AddCommand(&dg); } //========================================================================== // // // //========================================================================== void F2DDrawer::AddPixel(int x1, int y1, uint32_t color) { PalEntry p = (PalEntry)color; p.a = 255; RenderCommand dg; dg.mType = DrawTypePoints; dg.mRenderStyle = LegacyRenderStyles[STYLE_Translucent]; dg.mVertCount = 1; dg.mVertIndex = (int)mVertices.Reserve(1); mVertices[dg.mVertIndex].Set(x1, y1, 0, 0, 0, p); AddCommand(&dg); } //========================================================================== // // // //========================================================================== void F2DDrawer::Clear() { mVertices.Clear(); mIndices.Clear(); mData.Clear(); mIsFirstPass = true; } //========================================================================== // // // //========================================================================== #include "build.h" #include "../src/engine_priv.h" //sx,sy center of sprite; screen coords*65536 //z zoom*65536. > is zoomed in //a angle (0 is default) //dastat&1 1:translucence //dastat&2 1:auto-scale mode (use 320*200 coordinates) //dastat&4 1:y-flip //dastat&8 1:don't clip to startumost/startdmost //dastat&16 1:force point passed to be top-left corner, 0:Editart center //dastat&32 1:reverse translucence //dastat&64 1:non-masked, 0:masked //dastat&128 1:draw all pages (permanent - no longer used) //cx1,... clip window (actual screen coords) //========================================================================== // // INTERNAL helper function for classic/polymost dorotatesprite // sxptr, sxptr, z: in/out // ret_yxaspect, ret_xyaspect: out // //========================================================================== static int32_t dorotspr_handle_bit2(int32_t* sxptr, int32_t* syptr, int32_t* z, int32_t dastat, int32_t cx1_plus_cx2, int32_t cy1_plus_cy2) { if ((dastat & RS_AUTO) == 0) { if (!(dastat & RS_STRETCH) && 4 * ydim <= 3 * xdim) { return (10 << 16) / 12; } else { return xyaspect; } } else { // dastat&2: Auto window size scaling const int32_t oxdim = xdim; const int32_t oydim = ydim; int32_t xdim = oxdim; // SHADOWS global int32_t ydim = oydim; int32_t zoomsc, sx = *sxptr, sy = *syptr; int32_t ouryxaspect = yxaspect, ourxyaspect = xyaspect; sy += rotatesprite_y_offset; if (!(dastat & RS_STRETCH) && 4 * ydim <= 3 * xdim) { if ((dastat & RS_ALIGN_MASK) && (dastat & RS_ALIGN_MASK) != RS_ALIGN_MASK) sx += NEGATE_ON_CONDITION(scale(120 << 16, xdim, ydim) - (160 << 16), !(dastat & RS_ALIGN_R)); if ((dastat & RS_ALIGN_MASK) == RS_ALIGN_MASK) ydim = scale(xdim, 3, 4); else xdim = scale(ydim, 4, 3); ouryxaspect = (12 << 16) / 10; ourxyaspect = (10 << 16) / 12; } ouryxaspect = mulscale16(ouryxaspect, rotatesprite_yxaspect); ourxyaspect = divscale16(ourxyaspect, rotatesprite_yxaspect); // screen center to s[xy], 320<<16 coords. const int32_t normxofs = sx - (320 << 15), normyofs = sy - (200 << 15); // nasty hacks go here if (!(dastat & RS_NOCLIP)) { const int32_t twice_midcx = cx1_plus_cx2 + 2; // screen x center to sx1, scaled to viewport const int32_t scaledxofs = scale(normxofs, scale(xdimen, xdim, oxdim), 320); sx = ((twice_midcx) << 15) + scaledxofs; zoomsc = xdimenscale; //= scale(xdimen,yxaspect,320); zoomsc = mulscale16(zoomsc, rotatesprite_yxaspect); if ((dastat & RS_ALIGN_MASK) == RS_ALIGN_MASK) zoomsc = scale(zoomsc, ydim, oydim); sy = ((cy1_plus_cy2 + 2) << 15) + mulscale16(normyofs, zoomsc); } else { //If not clipping to startmosts, & auto-scaling on, as a //hard-coded bonus, scale to full screen instead sx = (xdim << 15) + 32768 + scale(normxofs, xdim, 320); zoomsc = scale(xdim, ouryxaspect, 320); sy = (ydim << 15) + 32768 + mulscale16(normyofs, zoomsc); if ((dastat & RS_ALIGN_MASK) == RS_ALIGN_MASK) sy += (oydim - ydim) << 15; else sx += (oxdim - xdim) << 15; if (dastat & RS_CENTERORIGIN) sx += oxdim << 15; } *sxptr = sx; *syptr = sy; *z = mulscale16(*z, zoomsc); return ourxyaspect; } } //========================================================================== // // // //========================================================================== void F2DDrawer::rotatesprite(int32_t sx, int32_t sy, int32_t z, int16_t a, int16_t picnum, int8_t dashade, uint8_t dapalnum, int32_t dastat, uint8_t daalpha, uint8_t dablend, int32_t clipx1, int32_t clipy1, int32_t clipx2, int32_t clipy2) { RenderCommand dg = {}; int method = 0; dg.mType = DrawTypeRotateSprite; if (clipx1 > 0 || clipy1 > 0 || clipx2 < screen->GetWidth() - 1 || clipy2 < screen->GetHeight() - 1) { dg.mScissor[0] = clipx1; dg.mScissor[1] = clipy1; dg.mScissor[2] = clipx2 + 1; dg.mScissor[3] = clipy2 + 1; dg.mFlags |= DTF_Scissor; } if (!(dastat & RS_NOMASK)) { if (dastat & RS_TRANS1) method |= (dastat & RS_TRANS2) ? DAMETH_TRANS2 : DAMETH_TRANS1; else method |= DAMETH_MASK; dg.mRenderStyle = GetBlend(dablend, (dastat & RS_TRANS2) ? 1 : 0); } else { dg.mRenderStyle = LegacyRenderStyles[STYLE_Normal]; } PalEntry p = 0xffffffff; dg.mTexture = TileFiles.tiles[picnum]; dg.mRemapIndex = dapalnum | (dashade << 16); dg.mVertCount = 4; dg.mVertIndex = (int)mVertices.Reserve(4); auto ptr = &mVertices[dg.mVertIndex]; float drawpoly_alpha = daalpha * (1.0f / 255.0f); float alpha = float_trans(method, dablend) * (1.f - drawpoly_alpha); // Hmmm... p.a = (uint8_t)(alpha * 255); vec2_16_t const siz = tilesiz[picnum]; vec2_16_t ofs = { 0, 0 }; if (!(dastat & RS_TOPLEFT)) { ofs = { int16_t(picanm[picnum].xofs + (siz.x >> 1)), int16_t(picanm[picnum].yofs + (siz.y >> 1)) }; } if (dastat & RS_YFLIP) ofs.y = siz.y - ofs.y; int32_t aspectcorrect = dorotspr_handle_bit2(&sx, &sy, &z, dastat, clipx1 + clipx2, clipy1 + clipy2); int32_t cosang = mulscale14(sintable[(a + 512) & 2047], z); int32_t cosang2 = cosang; int32_t sinang = mulscale14(sintable[a & 2047], z); int32_t sinang2 = sinang; if ((dastat & RS_AUTO) || (!(dastat & RS_NOCLIP))) // Don't aspect unscaled perms { cosang2 = mulscale16(cosang2, aspectcorrect); sinang2 = mulscale16(sinang2, aspectcorrect); } int cx0 = sx - ofs.x * cosang2 + ofs.y * sinang2; int cy0 = sy - ofs.x * sinang - ofs.y * cosang; int cx1 = cx0 + siz.x * cosang2; int cy1 = cy0 + siz.x * sinang; int cx3 = cx0 - siz.y * sinang2; int cy3 = cy0 + siz.y * cosang; int cx2 = cx1 + cx3 - cx0; int cy2 = cy1 + cy3 - cy0; float y = (dastat & RS_YFLIP) ? 1.f : 0.f; ptr->Set(cx0 / 65536.f, cy0 / 65536.f, 0.f, 0.f, y, p); ptr++; ptr->Set(cx1 / 65536.f, cy1 / 65536.f, 0.f, 1.f, y, p); ptr++; ptr->Set(cx2 / 65536.f, cy2 / 65536.f, 0.f, 1.f, 1.f-y, p); ptr++; ptr->Set(cx3 / 65536.f, cy3 / 65536.f, 0.f, 0.f, 1.f-y, p); ptr++; dg.mIndexIndex = mIndices.Size(); dg.mIndexCount += 6; AddIndices(dg.mVertIndex, 6, 0, 1, 2, 0, 2, 3); AddCommand(&dg); } //========================================================================== // // // //========================================================================== void F2DDrawer::AddPoly(FTexture* img, FVector4* vt, size_t vtcount, unsigned int* ind, size_t idxcount, int palette, int shade, int maskprops, int clipx1, int clipy1, int clipx2, int clipy2) { RenderCommand dg = {}; int method = 0; dg.mType = DrawTypeRotateSprite; if (clipx1 > 0 || clipy1 > 0 || clipx2 < screen->GetWidth() - 1 || clipy2 < screen->GetHeight() - 1) { dg.mScissor[0] = clipx1; dg.mScissor[1] = clipy1; dg.mScissor[2] = clipx2 + 1; dg.mScissor[3] = clipy2 + 1; dg.mFlags |= DTF_Scissor; } PalEntry p = 0xffffffff; if (maskprops > DAMETH_MASK) { dg.mRenderStyle = GetBlend(0, maskprops == DAMETH_TRANS2); p.a = (uint8_t)(float_trans(maskprops, 0) * 255); } dg.mTexture = img; dg.mRemapIndex = palette | (shade << 16); dg.mVertCount = vtcount; dg.mVertIndex = (int)mVertices.Reserve(vtcount); dg.mRenderStyle = LegacyRenderStyles[STYLE_Translucent]; dg.mIndexIndex = mIndices.Size(); dg.mFlags |= DTF_Wrap; auto ptr = &mVertices[dg.mVertIndex]; for (size_t i=0;iSet(vt[i].X, vt[i].Y, 0.f, vt[i].Z, vt[i].W, p); ptr++; } dg.mIndexIndex = mIndices.Size(); mIndices.Reserve(idxcount); for (size_t i = 0; i < idxcount; i++) { mIndices[dg.mIndexIndex + i] = ind[i] + dg.mVertIndex; } dg.mIndexCount = idxcount; AddCommand(&dg); } //========================================================================== // // // //========================================================================== void F2DDrawer::FillPolygon(int *rx1, int *ry1, int *xb1, int32_t npoints, int picnum, int palette, int shade, int props, const FVector2& xtex, const FVector2& ytex, const FVector2 &otex, int clipx1, int clipy1, int clipx2, int clipy2) { //Convert int32_t to float (in-place) TArray points(npoints, true); using Point = std::pair; std::vector> polygon; std::vector* curPoly; polygon.resize(1); curPoly = &polygon.back(); for (bssize_t i = 0; i < npoints; ++i) { auto X = ((float)rx1[i]) * (1.0f / 4096.f); auto Y = ((float)ry1[i]) * (1.0f / 4096.f); curPoly->push_back(std::make_pair(X, Y)); if (xb1[i] < i && i < npoints - 1) { polygon.resize(polygon.size() + 1); curPoly = &polygon.back(); } } // Now make sure that the outer boundary is the first polygon by picking a point that's as much to the outside as possible. int outer = 0; float minx = FLT_MAX; float miny = FLT_MAX; for (size_t a = 0; a < polygon.size(); a++) { for (auto& pt : polygon[a]) { if (pt.first < minx || (pt.first == minx && pt.second < miny)) { minx = pt.first; miny = pt.second; outer = a; } } } if (outer != 0) std::swap(polygon[0], polygon[outer]); auto indices = mapbox::earcut(polygon); int p = 0; for (size_t a = 0; a < polygon.size(); a++) { for (auto& pt : polygon[a]) { FVector4 point = { pt.first, pt.second, float(pt.first * xtex.X + pt.second * ytex.X + otex.X), float(pt.first * xtex.Y + pt.second * ytex.Y + otex.Y) }; points[p++] = point; } } AddPoly(TileFiles.tiles[picnum], points.Data(), points.Size(), indices.data(), indices.size(), palette, shade, (props >> 7)& DAMETH_MASKPROPS, clipx1, clipy1, clipx2, clipy2); } void drawlinergb(int32_t x1, int32_t y1, int32_t x2, int32_t y2, PalEntry p) { twod->AddLine(x1 / 4096.f, y1 / 4096.f, x2 / 4096.f, y2 / 4096.f, windowxy1.x, windowxy1.y, windowxy2.x, windowxy2.y, p); } void drawlinergb(int32_t x1, int32_t y1, int32_t x2, int32_t y2, palette_t p) { drawlinergb(x1, y1, x2, y2, PalEntry(p.r, p.g, p.b)); } void renderDrawLine(int32_t x1, int32_t y1, int32_t x2, int32_t y2, uint8_t col) { PalEntry color(255, palette[col * 3], palette[col * 3 + 1], palette[col * 3 + 2]); drawlinergb(x1, y1, x2, y2, color); }