/* ** DrawTriangle code generation ** 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 "precomp.h" #include "timestamp.h" #include "fixedfunction/drawtrianglecodegen.h" #include "ssa/ssa_function.h" #include "ssa/ssa_scope.h" #include "ssa/ssa_for_block.h" #include "ssa/ssa_if_block.h" #include "ssa/ssa_stack.h" #include "ssa/ssa_function.h" #include "ssa/ssa_struct_type.h" #include "ssa/ssa_value.h" void DrawTriangleCodegen::Generate(TriDrawVariant variant, TriBlendMode blendmode, bool truecolor, SSAValue args, SSAValue thread_data) { this->variant = variant; this->blendmode = blendmode; this->truecolor = truecolor; LoadArgs(args, thread_data); Setup(); LoopBlockY(); } SSAInt DrawTriangleCodegen::FloatTo28_4(SSAFloat v) { // SSAInt(SSAFloat::round(16.0f * v), false); SSAInt a = SSAInt(v * 32.0f, false); return (a + (a.ashr(31) | SSAInt(1))).ashr(1); } void DrawTriangleCodegen::Setup() { int pixelsize = truecolor ? 4 : 1; // 28.4 fixed-point coordinates Y1 = FloatTo28_4(v1.y); Y2 = FloatTo28_4(v2.y); Y3 = FloatTo28_4(v3.y); X1 = FloatTo28_4(v1.x); X2 = FloatTo28_4(v2.x); X3 = FloatTo28_4(v3.x); // Deltas DX12 = X1 - X2; DX23 = X2 - X3; DX31 = X3 - X1; DY12 = Y1 - Y2; DY23 = Y2 - Y3; DY31 = Y3 - Y1; // Fixed-point deltas FDX12 = DX12 << 4; FDX23 = DX23 << 4; FDX31 = DX31 << 4; FDY12 = DY12 << 4; FDY23 = DY23 << 4; FDY31 = DY31 << 4; // Bounding rectangle minx = SSAInt::MAX((SSAInt::MIN(SSAInt::MIN(X1, X2), X3) + 0xF).ashr(4), SSAInt(0)); maxx = SSAInt::MIN((SSAInt::MAX(SSAInt::MAX(X1, X2), X3) + 0xF).ashr(4), clipright - 1); miny = SSAInt::MAX((SSAInt::MIN(SSAInt::MIN(Y1, Y2), Y3) + 0xF).ashr(4), SSAInt(0)); maxy = SSAInt::MIN((SSAInt::MAX(SSAInt::MAX(Y1, Y2), Y3) + 0xF).ashr(4), clipbottom - 1); SSAIfBlock if0; if0.if_block(minx >= maxx || miny >= maxy); if0.end_retvoid(); // Start in corner of 8x8 block minx = minx & ~(q - 1); miny = miny & ~(q - 1); dest = dest[miny * pitch * pixelsize]; subsectorGBuffer = subsectorGBuffer[miny * pitch]; // Half-edge constants C1 = DY12 * X1 - DX12 * Y1; C2 = DY23 * X2 - DX23 * Y2; C3 = DY31 * X3 - DX31 * Y3; // Correct for fill convention SSAIfBlock if1; if1.if_block(DY12 < SSAInt(0) || (DY12 == SSAInt(0) && DX12 > SSAInt(0))); stack_C1.store(C1 + 1); if1.else_block(); stack_C1.store(C1); if1.end_block(); C1 = stack_C1.load(); SSAIfBlock if2; if2.if_block(DY23 < SSAInt(0) || (DY23 == SSAInt(0) && DX23 > SSAInt(0))); stack_C2.store(C2 + 1); if2.else_block(); stack_C2.store(C2); if2.end_block(); C2 = stack_C2.load(); SSAIfBlock if3; if3.if_block(DY31 < SSAInt(0) || (DY31 == SSAInt(0) && DX31 > SSAInt(0))); stack_C3.store(C3 + 1); if3.else_block(); stack_C3.store(C3); if3.end_block(); C3 = stack_C3.load(); // Gradients v1.x = SSAFloat(X1) * 0.0625f; v2.x = SSAFloat(X2) * 0.0625f; v3.x = SSAFloat(X3) * 0.0625f; v1.y = SSAFloat(Y1) * 0.0625f; v2.y = SSAFloat(Y2) * 0.0625f; v3.y = SSAFloat(Y3) * 0.0625f; gradWX = gradx(v1.x, v1.y, v2.x, v2.y, v3.x, v3.y, v1.w, v2.w, v3.w); gradWY = grady(v1.x, v1.y, v2.x, v2.y, v3.x, v3.y, v1.w, v2.w, v3.w); stack_posy_w.store(v1.w + gradWX * (SSAFloat(minx) - v1.x) + gradWY * (SSAFloat(miny) - v1.y)); for (int i = 0; i < TriVertex::NumVarying; i++) { gradVaryingX[i] = gradx(v1.x, v1.y, v2.x, v2.y, v3.x, v3.y, v1.varying[i] * v1.w, v2.varying[i] * v2.w, v3.varying[i] * v3.w); gradVaryingY[i] = grady(v1.x, v1.y, v2.x, v2.y, v3.x, v3.y, v1.varying[i] * v1.w, v2.varying[i] * v2.w, v3.varying[i] * v3.w); stack_posy_varying[i].store(v1.varying[i] * v1.w + gradVaryingX[i] * (SSAFloat(minx) - v1.x) + gradVaryingY[i] * (SSAFloat(miny) - v1.y)); } gradWX = gradWX * (float)q; for (int i = 0; i < TriVertex::NumVarying; i++) gradVaryingX[i] = gradVaryingX[i] * (float)q; shade = 64.0f - (SSAFloat(light * 255 / 256) + 12.0f) * 32.0f / 128.0f; } SSAFloat DrawTriangleCodegen::gradx(SSAFloat x0, SSAFloat y0, SSAFloat x1, SSAFloat y1, SSAFloat x2, SSAFloat y2, SSAFloat c0, SSAFloat c1, SSAFloat c2) { SSAFloat top = (c1 - c2) * (y0 - y2) - (c0 - c2) * (y1 - y2); SSAFloat bottom = (x1 - x2) * (y0 - y2) - (x0 - x2) * (y1 - y2); return top / bottom; } SSAFloat DrawTriangleCodegen::grady(SSAFloat x0, SSAFloat y0, SSAFloat x1, SSAFloat y1, SSAFloat x2, SSAFloat y2, SSAFloat c0, SSAFloat c1, SSAFloat c2) { SSAFloat top = (c1 - c2) * (x0 - x2) - (c0 - c2) * (x1 - x2); SSAFloat bottom = (x0 - x2) * (y1 - y2) - (x1 - x2) * (y0 - y2); return top / bottom; } void DrawTriangleCodegen::LoopBlockY() { int pixelsize = truecolor ? 4 : 1; SSAInt blocks_skipped = skipped_by_thread(miny / q, thread); stack_y.store(miny + blocks_skipped * q); stack_dest.store(dest[blocks_skipped * q * pitch * pixelsize]); stack_subsectorGBuffer.store(subsectorGBuffer[blocks_skipped * q * pitch]); stack_posy_w.store(stack_posy_w.load() + gradWY * (q * blocks_skipped)); for (int i = 0; i < TriVertex::NumVarying; i++) stack_posy_varying[i].store(stack_posy_varying[i].load() + gradVaryingY[i] * (blocks_skipped * q)); SSAForBlock loop; y = stack_y.load(); dest = stack_dest.load(); subsectorGBuffer = stack_subsectorGBuffer.load(); posy_w = stack_posy_w.load(); for (int i = 0; i < TriVertex::NumVarying; i++) posy_varying[i] = stack_posy_varying[i].load(); loop.loop_block(y < maxy, 0); { LoopBlockX(); stack_posy_w.store(posy_w + gradWY * (q * thread.num_cores)); for (int i = 0; i < TriVertex::NumVarying; i++) stack_posy_varying[i].store(posy_varying[i] + gradVaryingY[i] * (q * thread.num_cores)); stack_dest.store(dest[q * pitch * pixelsize * thread.num_cores]); stack_subsectorGBuffer.store(subsectorGBuffer[q * pitch * thread.num_cores]); stack_y.store(y + thread.num_cores * q); } loop.end_block(); } void DrawTriangleCodegen::LoopBlockX() { stack_x.store(minx); stack_posx_w.store(posy_w); for (int i = 0; i < TriVertex::NumVarying; i++) stack_posx_varying[i].store(posy_varying[i]); SSAForBlock loop; x = stack_x.load(); posx_w = stack_posx_w.load(); for (int i = 0; i < TriVertex::NumVarying; i++) posx_varying[i] = stack_posx_varying[i].load(); loop.loop_block(x < maxx, 0); { // Corners of block x0 = x << 4; x1 = (x + q - 1) << 4; y0 = y << 4; y1 = (y + q - 1) << 4; // Evaluate half-space functions SSABool a00 = C1 + DX12 * y0 - DY12 * x0 > SSAInt(0); SSABool a10 = C1 + DX12 * y0 - DY12 * x1 > SSAInt(0); SSABool a01 = C1 + DX12 * y1 - DY12 * x0 > SSAInt(0); SSABool a11 = C1 + DX12 * y1 - DY12 * x1 > SSAInt(0); SSAInt a = (a00.zext_int() << 0) | (a10.zext_int() << 1) | (a01.zext_int() << 2) | (a11.zext_int() << 3); SSABool b00 = C2 + DX23 * y0 - DY23 * x0 > SSAInt(0); SSABool b10 = C2 + DX23 * y0 - DY23 * x1 > SSAInt(0); SSABool b01 = C2 + DX23 * y1 - DY23 * x0 > SSAInt(0); SSABool b11 = C2 + DX23 * y1 - DY23 * x1 > SSAInt(0); SSAInt b = (b00.zext_int() << 0) | (b10.zext_int() << 1) | (b01.zext_int() << 2) | (b11.zext_int() << 3); SSABool c00 = C3 + DX31 * y0 - DY31 * x0 > SSAInt(0); SSABool c10 = C3 + DX31 * y0 - DY31 * x1 > SSAInt(0); SSABool c01 = C3 + DX31 * y1 - DY31 * x0 > SSAInt(0); SSABool c11 = C3 + DX31 * y1 - DY31 * x1 > SSAInt(0); SSAInt c = (c00.zext_int() << 0) | (c10.zext_int() << 1) | (c01.zext_int() << 2) | (c11.zext_int() << 3); // Skip block when outside an edge SSABool process_block = !(a == SSAInt(0) || b == SSAInt(0) || c == SSAInt(0)); SetStencilBlock(x / 8 + y / 8 * stencilPitch); // Stencil test the whole block, if possible if (variant == TriDrawVariant::DrawSubsector || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector || variant == TriDrawVariant::StencilClose) { process_block = process_block && (!StencilIsSingleValue() || SSABool::compare_uge(StencilGetSingle(), stencilTestValue)); } else { process_block = process_block && (!StencilIsSingleValue() || StencilGetSingle() == stencilTestValue); } SSAIfBlock branch; branch.if_block(process_block); // Check if block needs clipping SSABool clipneeded = (x + q) > clipright || (y + q) > clipbottom; SSAFloat globVis = SSAFloat(1706.0f); SSAFloat vis = globVis * posx_w; SSAInt lightscale = SSAInt(SSAFloat::clamp((shade - SSAFloat::MIN(SSAFloat(24.0f), vis)) / 32.0f, SSAFloat(0.0f), SSAFloat(31.0f / 32.0f)) * 256.0f, true); SSAInt diminishedlight = 256 - lightscale; if (!truecolor) { SSAInt diminishedindex = lightscale / 8; SSAInt lightindex = SSAInt::MIN((256 - light) * 32 / 256, SSAInt(31)); SSAInt colormapindex = (!is_fixed_light).select(diminishedindex, lightindex); currentcolormap = Colormaps[colormapindex << 8]; } else { currentlight = (!is_fixed_light).select(diminishedlight, light); } SSABool covered = a == SSAInt(0xF) && b == SSAInt(0xF) && c == SSAInt(0xF) && !clipneeded && StencilIsSingleValue(); // Accept whole block when totally covered SSAIfBlock branch_covered; branch_covered.if_block(covered); { LoopFullBlock(); } branch_covered.else_block(); { SSAIfBlock branch_covered_stencil; branch_covered_stencil.if_block(StencilIsSingleValue()); { SSABool stenciltestpass; if (variant == TriDrawVariant::DrawSubsector || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector || variant == TriDrawVariant::StencilClose) { stenciltestpass = SSABool::compare_uge(StencilGetSingle(), stencilTestValue); } else { stenciltestpass = StencilGetSingle() == stencilTestValue; } SSAIfBlock branch_stenciltestpass; branch_stenciltestpass.if_block(stenciltestpass); { LoopPartialBlock(true); } branch_stenciltestpass.end_block(); } branch_covered_stencil.else_block(); { LoopPartialBlock(false); } branch_covered_stencil.end_block(); } branch_covered.end_block(); branch.end_block(); stack_posx_w.store(posx_w + gradWX); for (int i = 0; i < TriVertex::NumVarying; i++) stack_posx_varying[i].store(posx_varying[i] + gradVaryingX[i]); stack_x.store(x + q); } loop.end_block(); } void DrawTriangleCodegen::SetupAffineBlock() { SSAFloat rcpW0 = (float)0x01000000 / AffineW; SSAFloat rcpW1 = (float)0x01000000 / (AffineW + gradWX); for (int i = 0; i < TriVertex::NumVarying; i++) { AffineVaryingPosX[i] = SSAInt(AffineVaryingPosY[i] * rcpW0, false); AffineVaryingStepX[i] = (SSAInt((AffineVaryingPosY[i] + gradVaryingX[i]) * rcpW1, false) - AffineVaryingPosX[i]) / q; AffineVaryingPosX[i] = AffineVaryingPosX[i] << 8; AffineVaryingStepX[i] = AffineVaryingStepX[i] << 8; } } void DrawTriangleCodegen::LoopFullBlock() { if (variant == TriDrawVariant::Stencil) { StencilClear(stencilWriteValue); } else if (variant == TriDrawVariant::StencilClose) { StencilClear(stencilWriteValue); for (int iy = 0; iy < q; iy++) { SSAIntPtr subsectorbuffer = subsectorGBuffer[x + iy * pitch]; for (int ix = 0; ix < q; ix += 4) { subsectorbuffer[ix].store_unaligned_vec4i(SSAVec4i(subsectorDepth)); } } } else { int pixelsize = truecolor ? 4 : 1; AffineW = posx_w; for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosY[i] = posx_varying[i]; for (int iy = 0; iy < q; iy++) { SSAUBytePtr buffer = dest[(x + iy * pitch) * pixelsize]; SSAIntPtr subsectorbuffer = subsectorGBuffer[x + iy * pitch]; SetupAffineBlock(); for (int ix = 0; ix < q; ix += 4) { SSAUBytePtr buf = buffer[ix * pixelsize]; if (truecolor) { SSAVec16ub pixels16 = buf.load_unaligned_vec16ub(false); SSAVec8s pixels8hi = SSAVec8s::extendhi(pixels16); SSAVec8s pixels8lo = SSAVec8s::extendlo(pixels16); SSAVec4i pixels[4] = { SSAVec4i::extendlo(pixels8lo), SSAVec4i::extendhi(pixels8lo), SSAVec4i::extendlo(pixels8hi), SSAVec4i::extendhi(pixels8hi) }; for (int sse = 0; sse < 4; sse++) { if (variant == TriDrawVariant::DrawSubsector || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) { SSABool subsectorTest = subsectorbuffer[ix].load(true) >= subsectorDepth; pixels[sse] = subsectorTest.select(ProcessPixel32(pixels[sse], AffineVaryingPosX), pixels[sse]); } else { pixels[sse] = ProcessPixel32(pixels[sse], AffineVaryingPosX); } for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosX[i] = AffineVaryingPosX[i] + AffineVaryingStepX[i]; } buf.store_unaligned_vec16ub(SSAVec16ub(SSAVec8s(pixels[0], pixels[1]), SSAVec8s(pixels[2], pixels[3]))); } else { SSAVec4i pixelsvec = buf.load_vec4ub(false); SSAInt pixels[4] = { pixelsvec[0], pixelsvec[1], pixelsvec[2], pixelsvec[3] }; for (int sse = 0; sse < 4; sse++) { if (variant == TriDrawVariant::DrawSubsector || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) { SSABool subsectorTest = subsectorbuffer[ix].load(true) >= subsectorDepth; pixels[sse] = subsectorTest.select(ProcessPixel8(pixels[sse], AffineVaryingPosX), pixels[sse]); } else { pixels[sse] = ProcessPixel8(pixels[sse], AffineVaryingPosX); } for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosX[i] = AffineVaryingPosX[i] + AffineVaryingStepX[i]; } buf.store_vec4ub(SSAVec4i(pixels[0], pixels[1], pixels[2], pixels[3])); } if (variant != TriDrawVariant::DrawSubsector && variant != TriDrawVariant::FillSubsector && variant != TriDrawVariant::FuzzSubsector) subsectorbuffer[ix].store_unaligned_vec4i(SSAVec4i(subsectorDepth)); } AffineW = AffineW + gradWY; for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosY[i] = AffineVaryingPosY[i] + gradVaryingY[i]; } } } void DrawTriangleCodegen::LoopPartialBlock(bool isSingleStencilValue) { int pixelsize = truecolor ? 4 : 1; if (variant == TriDrawVariant::Stencil || variant == TriDrawVariant::StencilClose) { if (isSingleStencilValue) { SSAInt stencilMask = StencilBlockMask.load(false); SSAUByte val0 = stencilMask.trunc_ubyte(); for (int i = 0; i < 8 * 8; i++) StencilBlock[i].store(val0); StencilBlockMask.store(SSAInt(0)); } SSAUByte lastStencilValue = StencilBlock[0].load(false); stack_stencilblock_restored.store(SSABool(true)); stack_stencilblock_lastval.store(lastStencilValue); } stack_CY1.store(C1 + DX12 * y0 - DY12 * x0); stack_CY2.store(C2 + DX23 * y0 - DY23 * x0); stack_CY3.store(C3 + DX31 * y0 - DY31 * x0); stack_iy.store(SSAInt(0)); stack_buffer.store(dest[x * pixelsize]); stack_subsectorbuffer.store(subsectorGBuffer[x]); stack_AffineW.store(posx_w); for (int i = 0; i < TriVertex::NumVarying; i++) { stack_AffineVaryingPosY[i].store(posx_varying[i]); } SSAForBlock loopy; SSAInt iy = stack_iy.load(); SSAUBytePtr buffer = stack_buffer.load(); SSAIntPtr subsectorbuffer = stack_subsectorbuffer.load(); SSAInt CY1 = stack_CY1.load(); SSAInt CY2 = stack_CY2.load(); SSAInt CY3 = stack_CY3.load(); AffineW = stack_AffineW.load(); for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosY[i] = stack_AffineVaryingPosY[i].load(); loopy.loop_block(iy < SSAInt(q), q); { SetupAffineBlock(); for (int i = 0; i < TriVertex::NumVarying; i++) stack_AffineVaryingPosX[i].store(AffineVaryingPosX[i]); stack_CX1.store(CY1); stack_CX2.store(CY2); stack_CX3.store(CY3); stack_ix.store(SSAInt(0)); SSAForBlock loopx; SSABool stencilblock_restored; SSAUByte lastStencilValue; if (variant == TriDrawVariant::Stencil || variant == TriDrawVariant::StencilClose) { stencilblock_restored = stack_stencilblock_restored.load(); lastStencilValue = stack_stencilblock_lastval.load(); } SSAInt ix = stack_ix.load(); SSAInt CX1 = stack_CX1.load(); SSAInt CX2 = stack_CX2.load(); SSAInt CX3 = stack_CX3.load(); for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosX[i] = stack_AffineVaryingPosX[i].load(); loopx.loop_block(ix < SSAInt(q), q); { SSABool visible = (ix + x < clipright) && (iy + y < clipbottom); SSABool covered = CX1 > SSAInt(0) && CX2 > SSAInt(0) && CX3 > SSAInt(0) && visible; if (!isSingleStencilValue) { SSAUByte stencilValue = StencilBlock[ix + iy * 8].load(false); if (variant == TriDrawVariant::DrawSubsector || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) { covered = covered && SSABool::compare_uge(stencilValue, stencilTestValue) && subsectorbuffer[ix].load(true) >= subsectorDepth; } else if (variant == TriDrawVariant::StencilClose) { covered = covered && SSABool::compare_uge(stencilValue, stencilTestValue); } else { covered = covered && stencilValue == stencilTestValue; } } else if (variant == TriDrawVariant::DrawSubsector || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) { covered = covered && subsectorbuffer[ix].load(true) >= subsectorDepth; } SSAIfBlock branch; branch.if_block(covered); { if (variant == TriDrawVariant::Stencil) { StencilBlock[ix + iy * 8].store(stencilWriteValue); } else if (variant == TriDrawVariant::StencilClose) { StencilBlock[ix + iy * 8].store(stencilWriteValue); subsectorbuffer[ix].store(subsectorDepth); } else { SSAUBytePtr buf = buffer[ix * pixelsize]; if (truecolor) { SSAVec4i bg = buf.load_vec4ub(false); buf.store_vec4ub(ProcessPixel32(bg, AffineVaryingPosX)); } else { SSAUByte bg = buf.load(false); buf.store(ProcessPixel8(bg.zext_int(), AffineVaryingPosX).trunc_ubyte()); } if (variant != TriDrawVariant::DrawSubsector && variant != TriDrawVariant::FillSubsector && variant != TriDrawVariant::FuzzSubsector) subsectorbuffer[ix].store(subsectorDepth); } } branch.end_block(); if (variant == TriDrawVariant::Stencil || variant == TriDrawVariant::StencilClose) { SSAUByte newStencilValue = StencilBlock[ix + iy * 8].load(false); stack_stencilblock_restored.store(stencilblock_restored && newStencilValue == lastStencilValue); stack_stencilblock_lastval.store(newStencilValue); } for (int i = 0; i < TriVertex::NumVarying; i++) stack_AffineVaryingPosX[i].store(AffineVaryingPosX[i] + AffineVaryingStepX[i]); stack_CX1.store(CX1 - FDY12); stack_CX2.store(CX2 - FDY23); stack_CX3.store(CX3 - FDY31); stack_ix.store(ix + 1); } loopx.end_block(); stack_AffineW.store(AffineW + gradWY); for (int i = 0; i < TriVertex::NumVarying; i++) stack_AffineVaryingPosY[i].store(AffineVaryingPosY[i] + gradVaryingY[i]); stack_CY1.store(CY1 + FDX12); stack_CY2.store(CY2 + FDX23); stack_CY3.store(CY3 + FDX31); stack_buffer.store(buffer[pitch * pixelsize]); stack_subsectorbuffer.store(subsectorbuffer[pitch]); stack_iy.store(iy + 1); } loopy.end_block(); if (variant == TriDrawVariant::Stencil || variant == TriDrawVariant::StencilClose) { SSAIfBlock branch; SSABool restored = stack_stencilblock_restored.load(); branch.if_block(restored); { SSAUByte lastStencilValue = stack_stencilblock_lastval.load(); StencilClear(lastStencilValue); } branch.end_block(); } } #if 0 void DrawTriangleCodegen::LoopMaskedStoreBlock() { if (variant == TriDrawVariant::Stencil) { } else if (variant == TriDrawVariant::StencilClose) { } else { int pixelsize = truecolor ? 4 : 1; AffineW = posx_w; for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosY[i] = posx_varying[i]; SSAInt CY1 = C1 + DX12 * y0 - DY12 * x0; SSAInt CY2 = C2 + DX23 * y0 - DY23 * x0; SSAInt CY3 = C3 + DX31 * y0 - DY31 * x0; for (int iy = 0; iy < q; iy++) { SSAUBytePtr buffer = dest[(x + iy * pitch) * pixelsize]; SSAIntPtr subsectorbuffer = subsectorGBuffer[x + iy * pitch]; SetupAffineBlock(); SSAInt CX1 = CY1; SSAInt CX2 = CY2; SSAInt CX3 = CY3; for (int ix = 0; ix < q; ix += 4) { SSABool covered[4]; for (int maskindex = 0; maskindex < 4; maskindex++) { covered[maskindex] = CX1 > SSAInt(0) && CX2 > SSAInt(0) && CX3 > SSAInt(0); if (variant == TriDrawVariant::DrawSubsector || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) { auto xx = SSAInt(ix + maskindex); auto yy = SSAInt(iy); covered[maskindex] = covered[maskindex] && SSABool::compare_uge(StencilGet(xx, yy), stencilTestValue) && subsectorbuffer[ix + maskindex].load(true) >= subsectorDepth; } else if (variant == TriDrawVariant::StencilClose) { auto xx = SSAInt(ix + maskindex); auto yy = SSAInt(iy); covered[maskindex] = covered[maskindex] && SSABool::compare_uge(StencilGet(xx, yy), stencilTestValue); } else { auto xx = SSAInt(ix + maskindex); auto yy = SSAInt(iy); covered[maskindex] = covered[maskindex] && StencilGet(xx, yy) == stencilTestValue; } CX1 = CX1 - FDY12; CX2 = CX2 - FDY23; CX3 = CX3 - FDY31; } SSAUBytePtr buf = buffer[ix * pixelsize]; if (truecolor) { SSAVec16ub pixels16 = buf.load_unaligned_vec16ub(false); SSAVec8s pixels8hi = SSAVec8s::extendhi(pixels16); SSAVec8s pixels8lo = SSAVec8s::extendlo(pixels16); SSAVec4i pixels[4] = { SSAVec4i::extendlo(pixels8lo), SSAVec4i::extendhi(pixels8lo), SSAVec4i::extendlo(pixels8hi), SSAVec4i::extendhi(pixels8hi) }; for (int sse = 0; sse < 4; sse++) { pixels[sse] = ProcessPixel32(pixels[sse], AffineVaryingPosX); for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosX[i] = AffineVaryingPosX[i] + AffineVaryingStepX[i]; } buf.store_masked_vec16ub(SSAVec16ub(SSAVec8s(pixels[0], pixels[1]), SSAVec8s(pixels[2], pixels[3])), covered); } else { SSAVec4i pixelsvec = buf.load_vec4ub(false); SSAInt pixels[4] = { pixelsvec[0], pixelsvec[1], pixelsvec[2], pixelsvec[3] }; for (int sse = 0; sse < 4; sse++) { pixels[sse] = ProcessPixel8(pixels[sse], AffineVaryingPosX); for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosX[i] = AffineVaryingPosX[i] + AffineVaryingStepX[i]; } buf.store_masked_vec4ub(SSAVec4i(pixels[0], pixels[1], pixels[2], pixels[3]), covered); } if (variant != TriDrawVariant::DrawSubsector && variant != TriDrawVariant::FillSubsector && variant != TriDrawVariant::FuzzSubsector) subsectorbuffer[ix].store_masked_vec4i(SSAVec4i(subsectorDepth), covered); } AffineW = AffineW + gradWY; for (int i = 0; i < TriVertex::NumVarying; i++) AffineVaryingPosY[i] = AffineVaryingPosY[i] + gradVaryingY[i]; CY1 = CY1 + FDX12; CY2 = CY2 + FDX23; CY3 = CY3 + FDX31; } } } #endif SSAVec4i DrawTriangleCodegen::TranslateSample32(SSAInt uvoffset) { if (variant == TriDrawVariant::FillNormal || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) return translation[color * 4].load_vec4ub(true); else return translation[texturePixels[uvoffset].load(true).zext_int() * 4].load_vec4ub(true); } SSAInt DrawTriangleCodegen::TranslateSample8(SSAInt uvoffset) { if (variant == TriDrawVariant::FillNormal || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) return translation[color].load(true).zext_int(); else return translation[texturePixels[uvoffset].load(true).zext_int()].load(true).zext_int(); } SSAVec4i DrawTriangleCodegen::Sample32(SSAInt uvoffset) { if (variant == TriDrawVariant::FillNormal || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) return SSAVec4i::unpack(color); else return texturePixels[uvoffset * 4].load_vec4ub(true); } SSAInt DrawTriangleCodegen::Sample8(SSAInt uvoffset) { if (variant == TriDrawVariant::FillNormal || variant == TriDrawVariant::FillSubsector || variant == TriDrawVariant::FuzzSubsector) return color; else return texturePixels[uvoffset].load(true).zext_int(); } SSAInt DrawTriangleCodegen::Shade8(SSAInt c) { return currentcolormap[c].load(true).zext_int(); } SSAVec4i DrawTriangleCodegen::ProcessPixel32(SSAVec4i bg, SSAInt *varying) { SSAInt ufrac = varying[0]; SSAInt vfrac = varying[1]; SSAInt upos = ((ufrac >> 16) * textureWidth) >> 16; SSAInt vpos = ((vfrac >> 16) * textureHeight) >> 16; SSAInt uvoffset = upos * textureHeight + vpos; SSAVec4i fg; SSAVec4i output; switch (blendmode) { default: case TriBlendMode::Copy: fg = Sample32(uvoffset); output = blend_copy(shade_bgra_simple(fg, currentlight)); break; case TriBlendMode::AlphaBlend: fg = Sample32(uvoffset); output = blend_alpha_blend(shade_bgra_simple(fg, currentlight), bg); break; case TriBlendMode::AddSolid: fg = Sample32(uvoffset); output = blend_add(shade_bgra_simple(fg, currentlight), bg, srcalpha, destalpha); break; case TriBlendMode::Add: fg = Sample32(uvoffset); output = blend_add(shade_bgra_simple(fg, currentlight), bg, srcalpha, calc_blend_bgalpha(fg, destalpha)); break; case TriBlendMode::Sub: fg = Sample32(uvoffset); output = blend_sub(shade_bgra_simple(fg, currentlight), bg, srcalpha, calc_blend_bgalpha(fg, destalpha)); break; case TriBlendMode::RevSub: fg = Sample32(uvoffset); output = blend_revsub(shade_bgra_simple(fg, currentlight), bg, srcalpha, calc_blend_bgalpha(fg, destalpha)); break; case TriBlendMode::Stencil: fg = Sample32(uvoffset); output = blend_stencil(shade_bgra_simple(SSAVec4i::unpack(color), currentlight), fg[3], bg, srcalpha, destalpha); break; case TriBlendMode::Shaded: output = blend_stencil(shade_bgra_simple(SSAVec4i::unpack(color), currentlight), Sample8(uvoffset), bg, srcalpha, destalpha); break; case TriBlendMode::TranslateCopy: fg = TranslateSample32(uvoffset); output = blend_copy(shade_bgra_simple(fg, currentlight)); break; case TriBlendMode::TranslateAlphaBlend: fg = TranslateSample32(uvoffset); output = blend_alpha_blend(shade_bgra_simple(fg, currentlight), bg); break; case TriBlendMode::TranslateAdd: fg = TranslateSample32(uvoffset); output = blend_add(shade_bgra_simple(fg, currentlight), bg, srcalpha, calc_blend_bgalpha(fg, destalpha)); break; case TriBlendMode::TranslateSub: fg = TranslateSample32(uvoffset); output = blend_sub(shade_bgra_simple(fg, currentlight), bg, srcalpha, calc_blend_bgalpha(fg, destalpha)); break; case TriBlendMode::TranslateRevSub: fg = TranslateSample32(uvoffset); output = blend_revsub(shade_bgra_simple(fg, currentlight), bg, srcalpha, calc_blend_bgalpha(fg, destalpha)); break; case TriBlendMode::AddSrcColorOneMinusSrcColor: fg = Sample32(uvoffset); output = blend_add_srccolor_oneminussrccolor(shade_bgra_simple(fg, currentlight), bg); break; } return output; } SSAVec4i DrawTriangleCodegen::ToBgra(SSAInt index) { SSAVec4i c = BaseColors[index * 4].load_vec4ub(true); c = c.insert(3, 255); return c; } SSAInt DrawTriangleCodegen::ToPal8(SSAVec4i c) { return RGB32k[((c[2] >> 3) * 32 + (c[1] >> 3)) * 32 + (c[0] >> 3)].load(true).zext_int(); } SSAInt DrawTriangleCodegen::ProcessPixel8(SSAInt bg, SSAInt *varying) { SSAInt ufrac = varying[0]; SSAInt vfrac = varying[1]; SSAInt upos = ((ufrac >> 16) * textureWidth) >> 16; SSAInt vpos = ((vfrac >> 16) * textureHeight) >> 16; SSAInt uvoffset = upos * textureHeight + vpos; SSAVec4i fg; SSAInt alpha, inv_alpha; SSAInt output; SSAInt palindex; switch (blendmode) { default: case TriBlendMode::Copy: output = Shade8(Sample8(uvoffset)); break; case TriBlendMode::AlphaBlend: palindex = Sample8(uvoffset); output = Shade8(palindex); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::AddSolid: palindex = Sample8(uvoffset); fg = ToBgra(Shade8(palindex)); output = ToPal8(blend_add(fg, ToBgra(bg), srcalpha, destalpha)); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::Add: palindex = Sample8(uvoffset); fg = ToBgra(Shade8(palindex)); output = ToPal8(blend_add(fg, ToBgra(bg), srcalpha, calc_blend_bgalpha(fg, destalpha))); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::Sub: palindex = Sample8(uvoffset); fg = ToBgra(Shade8(palindex)); output = ToPal8(blend_sub(fg, ToBgra(bg), srcalpha, calc_blend_bgalpha(fg, destalpha))); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::RevSub: palindex = Sample8(uvoffset); fg = ToBgra(Shade8(palindex)); output = ToPal8(blend_revsub(fg, ToBgra(bg), srcalpha, calc_blend_bgalpha(fg, destalpha))); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::Stencil: output = ToPal8(blend_stencil(ToBgra(Shade8(color)), (Sample8(uvoffset) == SSAInt(0)).select(SSAInt(0), SSAInt(256)), ToBgra(bg), srcalpha, destalpha)); break; case TriBlendMode::Shaded: palindex = Sample8(uvoffset); output = ToPal8(blend_stencil(ToBgra(Shade8(color)), palindex, ToBgra(bg), srcalpha, destalpha)); break; case TriBlendMode::TranslateCopy: palindex = TranslateSample8(uvoffset); output = Shade8(palindex); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::TranslateAlphaBlend: palindex = TranslateSample8(uvoffset); output = Shade8(palindex); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::TranslateAdd: palindex = TranslateSample8(uvoffset); fg = ToBgra(Shade8(palindex)); output = ToPal8(blend_add(fg, ToBgra(bg), srcalpha, calc_blend_bgalpha(fg, destalpha))); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::TranslateSub: palindex = TranslateSample8(uvoffset); fg = ToBgra(Shade8(palindex)); output = ToPal8(blend_sub(fg, ToBgra(bg), srcalpha, calc_blend_bgalpha(fg, destalpha))); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::TranslateRevSub: palindex = TranslateSample8(uvoffset); fg = ToBgra(Shade8(palindex)); output = ToPal8(blend_revsub(fg, ToBgra(bg), srcalpha, calc_blend_bgalpha(fg, destalpha))); output = (palindex == SSAInt(0)).select(bg, output); break; case TriBlendMode::AddSrcColorOneMinusSrcColor: palindex = Sample8(uvoffset); fg = ToBgra(Shade8(palindex)); output = ToPal8(blend_add_srccolor_oneminussrccolor(fg, ToBgra(bg))); output = (palindex == SSAInt(0)).select(bg, output); break; } return output; } void DrawTriangleCodegen::SetStencilBlock(SSAInt block) { StencilBlock = stencilValues[block * 64]; StencilBlockMask = stencilMasks[block]; } SSAUByte DrawTriangleCodegen::StencilGetSingle() { return StencilBlockMask.load(false).trunc_ubyte(); } void DrawTriangleCodegen::StencilClear(SSAUByte value) { StencilBlockMask.store(SSAInt(0xffffff00) | value.zext_int()); } SSABool DrawTriangleCodegen::StencilIsSingleValue() { return (StencilBlockMask.load(false) & SSAInt(0xffffff00)) == SSAInt(0xffffff00); } void DrawTriangleCodegen::LoadArgs(SSAValue args, SSAValue thread_data) { dest = args[0][0].load(true); pitch = args[0][1].load(true); v1 = LoadTriVertex(args[0][2].load(true)); v2 = LoadTriVertex(args[0][3].load(true)); v3 = LoadTriVertex(args[0][4].load(true)); clipright = args[0][6].load(true); clipbottom = args[0][8].load(true); texturePixels = args[0][9].load(true); textureWidth = args[0][10].load(true); textureHeight = args[0][11].load(true); translation = args[0][12].load(true); LoadUniforms(args[0][13].load(true)); stencilValues = args[0][14].load(true); stencilMasks = args[0][15].load(true); stencilPitch = args[0][16].load(true); stencilTestValue = args[0][17].load(true); stencilWriteValue = args[0][18].load(true); subsectorGBuffer = args[0][19].load(true); if (!truecolor) { Colormaps = args[0][20].load(true); RGB32k = args[0][21].load(true); BaseColors = args[0][22].load(true); } thread.core = thread_data[0][0].load(true); thread.num_cores = thread_data[0][1].load(true); thread.pass_start_y = SSAInt(0); thread.pass_end_y = SSAInt(32000); } SSATriVertex DrawTriangleCodegen::LoadTriVertex(SSAValue ptr) { SSATriVertex v; v.x = ptr[0][0].load(true); v.y = ptr[0][1].load(true); v.z = ptr[0][2].load(true); v.w = ptr[0][3].load(true); for (int i = 0; i < TriVertex::NumVarying; i++) v.varying[i] = ptr[0][4 + i].load(true); return v; } void DrawTriangleCodegen::LoadUniforms(SSAValue uniforms) { light = uniforms[0][0].load(true); subsectorDepth = uniforms[0][1].load(true); color = uniforms[0][2].load(true); srcalpha = uniforms[0][3].load(true); destalpha = uniforms[0][4].load(true); SSAShort light_alpha = uniforms[0][5].load(true); SSAShort light_red = uniforms[0][6].load(true); SSAShort light_green = uniforms[0][7].load(true); SSAShort light_blue = uniforms[0][8].load(true); SSAShort fade_alpha = uniforms[0][9].load(true); SSAShort fade_red = uniforms[0][10].load(true); SSAShort fade_green = uniforms[0][11].load(true); SSAShort fade_blue = uniforms[0][12].load(true); SSAShort desaturate = uniforms[0][13].load(true); SSAInt flags = uniforms[0][14].load(true); shade_constants.light = SSAVec4i(light_blue.zext_int(), light_green.zext_int(), light_red.zext_int(), light_alpha.zext_int()); shade_constants.fade = SSAVec4i(fade_blue.zext_int(), fade_green.zext_int(), fade_red.zext_int(), fade_alpha.zext_int()); shade_constants.desaturate = desaturate.zext_int(); is_simple_shade = (flags & TriUniforms::simple_shade) == SSAInt(TriUniforms::simple_shade); is_nearest_filter = (flags & TriUniforms::nearest_filter) == SSAInt(TriUniforms::nearest_filter); is_fixed_light = (flags & TriUniforms::fixed_light) == SSAInt(TriUniforms::fixed_light); }