/* ** Polygon Doom software renderer ** 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. ** */ #pragma once #include "poly_triangle.h" struct PolyLight { uint32_t color; float x, y, z; float radius; }; class PolyTriangleThreadData { public: PolyTriangleThreadData(int32_t core, int32_t num_cores, int32_t numa_node, int32_t num_numa_nodes, int numa_start_y, int numa_end_y); void ClearDepth(float value); void ClearStencil(uint8_t value); void SetViewport(int x, int y, int width, int height, uint8_t *dest, int dest_width, int dest_height, int dest_pitch, bool dest_bgra, PolyDepthStencil *depthstencil, bool topdown); void SetCullCCW(bool value) { ccw = value; } void SetTwoSided(bool value) { twosided = value; } void SetInputAssembly(PolyInputAssembly *input) { inputAssembly = input; } void SetVertexBuffer(const void *data, int offset0, int offset1) { vertices = data; frame0 = offset0; frame1 = offset1;} //[GEC] Save frame params void SetIndexBuffer(const void *data) { elements = (const unsigned int *)data; } void SetLightBuffer(const void *data) { lights = (const FVector4 *)data; } void SetViewpointUniforms(const HWViewpointUniforms *uniforms); void SetDepthClamp(bool on); void SetDepthMask(bool on); void SetDepthFunc(int func); void SetDepthRange(float min, float max); void SetDepthBias(float depthBiasConstantFactor, float depthBiasSlopeFactor); void SetColorMask(bool r, bool g, bool b, bool a); void SetStencil(int stencilRef, int op); void SetCulling(int mode); void EnableStencil(bool on); void SetScissor(int x, int y, int w, int h); void SetRenderStyle(FRenderStyle style); void SetTexture(int unit, const void *pixels, int width, int height, bool bgra); void SetShader(int specialEffect, int effectState, bool alphaTest, bool colormapShader); void UpdateClip(); void PushStreamData(const StreamData &data, const PolyPushConstants &constants); void PushMatrices(const VSMatrix &modelMatrix, const VSMatrix &normalModelMatrix, const VSMatrix &textureMatrix); void DrawIndexed(int index, int count, PolyDrawMode mode); void Draw(int index, int vcount, PolyDrawMode mode); int32_t core; int32_t num_cores; int32_t numa_node; int32_t num_numa_nodes; int numa_start_y; int numa_end_y; bool line_skipped_by_thread(int line) { return line < numa_start_y || line >= numa_end_y || line % num_cores != core; } int skipped_by_thread(int first_line) { int clip_first_line = MAX(first_line, numa_start_y); int core_skip = (num_cores - (clip_first_line - core) % num_cores) % num_cores; return clip_first_line + core_skip - first_line; } int count_for_thread(int first_line, int count) { count = MIN(count, numa_end_y - first_line); int c = (count - skipped_by_thread(first_line) + num_cores - 1) / num_cores; return MAX(c, 0); } struct Scanline { float W[MAXWIDTH]; uint16_t U[MAXWIDTH]; uint16_t V[MAXWIDTH]; float WorldX[MAXWIDTH]; float WorldY[MAXWIDTH]; float WorldZ[MAXWIDTH]; uint8_t vColorA[MAXWIDTH]; uint8_t vColorR[MAXWIDTH]; uint8_t vColorG[MAXWIDTH]; uint8_t vColorB[MAXWIDTH]; float GradientdistZ[MAXWIDTH]; uint32_t FragColor[MAXWIDTH]; uint32_t lightarray[MAXWIDTH]; uint8_t discard[MAXWIDTH]; } scanline; static PolyTriangleThreadData *Get(DrawerThread *thread); int dest_pitch = 0; int dest_width = 0; int dest_height = 0; bool dest_bgra = false; uint8_t *dest = nullptr; PolyDepthStencil *depthstencil = nullptr; bool topdown = true; float depthbias = 0.0f; int viewport_y = 0; struct ClipRect { int left = 0; int top = 0; int right = 0; int bottom = 0; } clip, scissor; FRenderStyle RenderStyle; int SpecialEffect = EFF_NONE; int EffectState = 0; bool AlphaTest = false; bool ColormapShader = false; uint32_t AlphaThreshold = 0x7f000000; const PolyPushConstants* PushConstants = nullptr; // [GEC] Add frame params, necessary to project frames and model interpolation correctly int frame0 = 0; int frame1 = 0; const void *vertices = nullptr; const unsigned int *elements = nullptr; const FVector4 *lights = nullptr; enum { maxPolyLights = 16 }; PolyLight polyLights[maxPolyLights]; int numPolyLights = 0; PolyMainVertexShader mainVertexShader; struct TextureUnit { const void* pixels = nullptr; int width = 0; int height = 0; bool bgra = true; } textures[16]; bool DepthTest = false; bool StencilTest = true; bool WriteStencil = true; bool WriteColor = true; bool WriteDepth = true; uint8_t StencilTestValue = 0; uint8_t StencilWriteValue = 0; void (*FragmentShader)(int x0, int x1, PolyTriangleThreadData* thread) = nullptr; void (*WriteColorFunc)(int y, int x0, int x1, PolyTriangleThreadData* thread) = nullptr; private: ShadedTriVertex ShadeVertex(int index); void DrawShadedPoint(const ShadedTriVertex *const* vertex); void DrawShadedLine(const ShadedTriVertex *const* vertices); void DrawShadedTriangle(const ShadedTriVertex *const* vertices, bool ccw); static bool IsDegenerate(const ShadedTriVertex *const* vertices); static bool IsFrontfacing(TriDrawTriangleArgs *args); int ClipEdge(const ShadedTriVertex *const* verts); int viewport_x = 0; int viewport_width = 0; int viewport_height = 0; bool ccw = true; bool twosided = true; PolyInputAssembly *inputAssembly = nullptr; enum { max_additional_vertices = 16 }; float weightsbuffer[max_additional_vertices * 3 * 2]; float *weights = nullptr; };