// Copyright (c) 2013- PPSSPP Project. // This program is free software: you can redistribute it and/or modify // it under the terms of the GNU General Public License as published by // the Free Software Foundation, version 2.0 or later versions. // 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 General Public License 2.0 for more details. // A copy of the GPL 2.0 should have been included with the program. // If not, see http://www.gnu.org/licenses/ // Official git repository and contact information can be found at // https://github.com/hrydgard/ppsspp and http://www.ppsspp.org/. #pragma once #include #include "Common/CommonTypes.h" #include "Common/Data/Collections/Hashmaps.h" #include "GPU/GPUState.h" #include "GPU/Common/GPUDebugInterface.h" #include "GPU/Common/IndexGenerator.h" #include "GPU/Common/VertexDecoderCommon.h" class VertexDecoder; enum { VERTEX_BUFFER_MAX = 65536, DECODED_VERTEX_BUFFER_SIZE = VERTEX_BUFFER_MAX * 64, DECODED_INDEX_BUFFER_SIZE = VERTEX_BUFFER_MAX * 16, }; inline uint32_t GetVertTypeID(uint32_t vertType, int uvGenMode) { // As the decoder depends on the UVGenMode when we use UV prescale, we simply mash it // into the top of the verttype where there are unused bits. return (vertType & 0xFFFFFF) | (uvGenMode << 24); } struct SimpleVertex; namespace Spline { struct Weight2D; } class TessellationDataTransfer { public: virtual ~TessellationDataTransfer() {} void CopyControlPoints(float *pos, float *tex, float *col, int posStride, int texStride, int colStride, const SimpleVertex *const *points, int size, u32 vertType); virtual void SendDataToShader(const SimpleVertex *const *points, int size_u, int size_v, u32 vertType, const Spline::Weight2D &weights) = 0; }; class DrawEngineCommon { public: DrawEngineCommon(); virtual ~DrawEngineCommon(); void Init(); bool GetCurrentSimpleVertices(int count, std::vector &vertices, std::vector &indices); static u32 NormalizeVertices(u8 *outPtr, u8 *bufPtr, const u8 *inPtr, VertexDecoder *dec, int lowerBound, int upperBound, u32 vertType); // Flush is normally non-virtual but here's a virtual way to call it, used by the shared spline code, which is expensive anyway. // Not really sure if these wrappers are worth it... virtual void DispatchFlush() = 0; // This would seem to be unnecessary now, but is still required for splines/beziers to work in the software backend since SubmitPrim // is different. Should probably refactor that. // Note that vertTypeID should be computed using GetVertTypeID(). virtual void DispatchSubmitPrim(void *verts, void *inds, GEPrimitiveType prim, int vertexCount, u32 vertTypeID, int cullMode, int *bytesRead) { SubmitPrim(verts, inds, prim, vertexCount, vertTypeID, cullMode, bytesRead); } virtual void DispatchSubmitImm(void *verts, void *inds, GEPrimitiveType prim, int vertexCount, u32 vertTypeID, int cullMode, int *bytesRead) { SubmitPrim(verts, inds, prim, vertexCount, vertTypeID, cullMode, bytesRead); DispatchFlush(); } bool TestBoundingBox(void* control_points, int vertexCount, u32 vertType, int *bytesRead); void SubmitPrim(void *verts, void *inds, GEPrimitiveType prim, int vertexCount, u32 vertTypeID, int cullMode, int *bytesRead); template void SubmitCurve(const void *control_points, const void *indices, Surface &surface, u32 vertType, int *bytesRead, const char *scope); void ClearSplineBezierWeights(); bool CanUseHardwareTransform(int prim); bool CanUseHardwareTessellation(GEPatchPrimType prim); std::vector DebugGetVertexLoaderIDs(); std::string DebugGetVertexLoaderString(std::string id, DebugShaderStringType stringType); virtual void Resized(); bool IsCodePtrVertexDecoder(const u8 *ptr) const { return decJitCache_->IsInSpace(ptr); } int GetNumDrawCalls() const { return numDrawCalls; } VertexDecoder *GetVertexDecoder(u32 vtype); protected: virtual bool UpdateUseHWTessellation(bool enabled) { return enabled; } virtual void ClearTrackedVertexArrays() {} int ComputeNumVertsToDecode() const; void DecodeVerts(u8 *dest); // Preprocessing for spline/bezier u32 NormalizeVertices(u8 *outPtr, u8 *bufPtr, const u8 *inPtr, int lowerBound, int upperBound, u32 vertType, int *vertexSize = nullptr); // Utility for vertex caching u32 ComputeMiniHash(); uint64_t ComputeHash(); // Vertex decoding void DecodeVertsStep(u8 *dest, int &i, int &decodedVerts); void ApplyFramebufferRead(bool *fboTexNeedsBind); inline int IndexSize(u32 vtype) const { const u32 indexType = (vtype & GE_VTYPE_IDX_MASK); if (indexType == GE_VTYPE_IDX_16BIT) { return 2; } else if (indexType == GE_VTYPE_IDX_32BIT) { return 4; } return 1; } bool useHWTransform_ = false; bool useHWTessellation_ = false; // Vertex collector buffers u8 *decoded = nullptr; u16 *decIndex = nullptr; // Cached vertex decoders u32 lastVType_ = -1; DenseHashMap decoderMap_; VertexDecoder *dec_ = nullptr; VertexDecoderJitCache *decJitCache_ = nullptr; VertexDecoderOptions decOptions_{}; TransformedVertex *transformed = nullptr; TransformedVertex *transformedExpanded = nullptr; // Defer all vertex decoding to a "Flush" (except when software skinning) struct DeferredDrawCall { void *verts; void *inds; u32 vertexCount; u8 indexType; s8 prim; u16 indexLowerBound; u16 indexUpperBound; UVScale uvScale; int cullMode; }; enum { MAX_DEFERRED_DRAW_CALLS = 128 }; DeferredDrawCall drawCalls[MAX_DEFERRED_DRAW_CALLS]; int numDrawCalls = 0; int vertexCountInDrawCalls_ = 0; int decimationCounter_ = 0; int decodeCounter_ = 0; u32 dcid_ = 0; // Vertex collector state IndexGenerator indexGen; int decodedVerts_ = 0; GEPrimitiveType prevPrim_ = GE_PRIM_INVALID; // Shader blending state bool fboTexNeedsBind_ = false; bool fboTexBound_ = false; // Hardware tessellation TessellationDataTransfer *tessDataTransfer; };