/* * Copyright (C) 2011-2011 Gregory hainaut * Copyright (C) 2007-2009 Gabest * * 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; either version 2, 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with GNU Make; see the file COPYING. If not, write to * the Free Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. * http://www.gnu.org/copyleft/gpl.html * */ #pragma once #include #include "GSDevice.h" #include "GSTextureOGL.h" #include "GSdx.h" #include "GSVertexArrayOGL.h" #include "GSUniformBufferOGL.h" class GSBlendStateOGL { // Note: You can also select the index of the draw buffer for which to set the blend setting // We will keep basic the first try bool m_enable; GLenum m_equation_RGB; GLenum m_equation_ALPHA; GLenum m_func_sRGB; GLenum m_func_dRGB; GLenum m_func_sALPHA; GLenum m_func_dALPHA; bool m_r_msk; bool m_b_msk; bool m_g_msk; bool m_a_msk; bool constant_factor; float debug_factor; public: GSBlendStateOGL() : m_enable(false) , m_equation_RGB(0) , m_equation_ALPHA(GL_FUNC_ADD) , m_func_sRGB(0) , m_func_dRGB(0) , m_func_sALPHA(GL_ONE) , m_func_dALPHA(GL_ZERO) , m_r_msk(GL_TRUE) , m_b_msk(GL_TRUE) , m_g_msk(GL_TRUE) , m_a_msk(GL_TRUE) , constant_factor(false) {} void SetRGB(GLenum op, GLenum src, GLenum dst) { m_equation_RGB = op; m_func_sRGB = src; m_func_dRGB = dst; if (IsConstant(src) || IsConstant(dst)) constant_factor = true; } void SetALPHA(GLenum op, GLenum src, GLenum dst) { m_equation_ALPHA = op; m_func_sALPHA = src; m_func_dALPHA = dst; } void SetMask(bool r, bool g, bool b, bool a) { m_r_msk = r; m_g_msk = g; m_b_msk = b; m_a_msk = a; } void RevertOp() { if(m_equation_RGB == GL_FUNC_ADD) m_equation_RGB = GL_FUNC_REVERSE_SUBTRACT; else if(m_equation_RGB == GL_FUNC_REVERSE_SUBTRACT) m_equation_RGB = GL_FUNC_ADD; } void EnableBlend() { m_enable = true;} bool IsConstant(GLenum factor) { return ((factor == GL_CONSTANT_COLOR) || (factor == GL_ONE_MINUS_CONSTANT_COLOR)); } bool HasConstantFactor() { return constant_factor; } void SetupColorMask() { glColorMask(m_r_msk, m_g_msk, m_b_msk, m_a_msk); } void SetupBlend(float factor) { SetupColorMask(); if (m_enable) { glEnable(GL_BLEND); if (HasConstantFactor()) { debug_factor = factor; glBlendColor(factor, factor, factor, 0); } glBlendEquationSeparate(m_equation_RGB, m_equation_ALPHA); glBlendFuncSeparate(m_func_sRGB, m_func_dRGB, m_func_sALPHA, m_func_dALPHA); } else { glDisable(GL_BLEND); } } char* NameOfParam(GLenum p) { switch (p) { case GL_FUNC_ADD: return "ADD"; case GL_FUNC_SUBTRACT: return "SUB"; case GL_FUNC_REVERSE_SUBTRACT: return "REV SUB"; case GL_ONE: return "ONE"; case GL_ZERO: return "ZERO"; case GL_SRC1_ALPHA: return "SRC1 ALPHA"; case GL_SRC_ALPHA: return "SRC ALPHA"; case GL_ONE_MINUS_DST_ALPHA: return "1 - DST ALPHA"; case GL_DST_ALPHA: return "DST ALPHA"; case GL_DST_COLOR: return "DST COLOR"; case GL_ONE_MINUS_SRC1_ALPHA: return "1 - SRC1 ALPHA"; case GL_ONE_MINUS_SRC_ALPHA: return "1 - SRC ALPHA"; case GL_CONSTANT_COLOR: return "CST"; case GL_ONE_MINUS_CONSTANT_COLOR: return "1 - CST"; default: return "UKN"; } return "UKN"; } void debug() { if (!m_enable) return; fprintf(stderr,"Blend op: %s; src:%s; dst:%s\n", NameOfParam(m_equation_RGB), NameOfParam(m_func_sRGB), NameOfParam(m_func_dRGB)); if (HasConstantFactor()) fprintf(stderr, "Blend constant: %f\n", debug_factor); fprintf(stderr,"Mask. R:%d B:%d G:%d A:%d\n", m_r_msk, m_b_msk, m_g_msk, m_a_msk); } }; class GSDepthStencilOGL { bool m_depth_enable; GLenum m_depth_func; GLboolean m_depth_mask; // Note front face and back might be split but it seems they have same parameter configuration bool m_stencil_enable; GLuint m_stencil_mask; GLuint m_stencil_func; GLuint m_stencil_ref; GLuint m_stencil_sfail_op; GLuint m_stencil_spass_dfail_op; GLuint m_stencil_spass_dpass_op; char* NameOfParam(GLenum p) { switch(p) { case GL_NEVER: return "NEVER"; case GL_ALWAYS: return "ALWAYS"; case GL_GEQUAL: return "GEQUAL"; case GL_GREATER: return "GREATER"; case GL_KEEP: return "KEEP"; case GL_EQUAL: return "EQUAL"; case GL_REPLACE: return "REPLACE"; default: return "UKN"; } return "UKN"; } public: GSDepthStencilOGL() : m_depth_enable(false) , m_depth_func(0) , m_depth_mask(0) , m_stencil_enable(false) , m_stencil_mask(1) , m_stencil_func(0) , m_stencil_ref(0) , m_stencil_sfail_op(GL_KEEP) , m_stencil_spass_dfail_op(GL_KEEP) , m_stencil_spass_dpass_op(GL_KEEP) {} void EnableDepth() { m_depth_enable = true; } void EnableStencil() { m_stencil_enable = true; } void SetDepth(GLenum func, GLboolean mask) { m_depth_func = func; m_depth_mask = mask; } void SetStencil(GLuint func, GLuint pass) { m_stencil_func = func; m_stencil_spass_dpass_op = pass; } void SetupDepth() { if (m_depth_enable) { glEnable(GL_DEPTH_TEST); glDepthFunc(m_depth_func); glDepthMask(m_depth_mask); } else glDisable(GL_DEPTH_TEST); } void SetupStencil(uint8 sref) { uint ref = sref; if (m_stencil_enable) { glEnable(GL_STENCIL_TEST); glStencilFunc(m_stencil_func, ref, m_stencil_mask); glStencilOp(m_stencil_sfail_op, m_stencil_spass_dfail_op, m_stencil_spass_dpass_op); } else glDisable(GL_STENCIL_TEST); } void debug() { debug_depth(); debug_stencil(); } void debug_depth() { if (!m_depth_enable) return; fprintf(stderr, "Depth %s. Mask %x\n", NameOfParam(m_depth_func), m_depth_mask); } void debug_stencil() { if (!m_stencil_enable) return; fprintf(stderr, "Stencil %s. Both pass op %s\n", NameOfParam(m_stencil_func), NameOfParam(m_stencil_spass_dpass_op)); } }; class GSDeviceOGL : public GSDevice { public: __aligned(struct, 32) VSConstantBuffer { GSVector4 VertexScale; GSVector4 VertexOffset; GSVector4 TextureScale; VSConstantBuffer() { VertexScale = GSVector4::zero(); VertexOffset = GSVector4::zero(); TextureScale = GSVector4::zero(); } __forceinline bool Update(const VSConstantBuffer* cb) { GSVector4i* a = (GSVector4i*)this; GSVector4i* b = (GSVector4i*)cb; GSVector4i b0 = b[0]; GSVector4i b1 = b[1]; GSVector4i b2 = b[2]; if(!((a[0] == b0) & (a[1] == b1) & (a[2] == b2)).alltrue()) { a[0] = b0; a[1] = b1; a[2] = b2; return true; } return false; } }; struct VSSelector { union { struct { uint32 bppz:2; uint32 tme:1; uint32 fst:1; uint32 logz:1; uint32 rtcopy:1; uint32 wildhack:2; }; uint32 key; }; operator uint32() {return key & 0x3f;} VSSelector() : key(0) {} }; __aligned(struct, 32) PSConstantBuffer { GSVector4 FogColor_AREF; GSVector4 HalfTexel; GSVector4 WH; GSVector4 MinMax; GSVector4 MinF_TA; GSVector4i MskFix; PSConstantBuffer() { FogColor_AREF = GSVector4::zero(); HalfTexel = GSVector4::zero(); WH = GSVector4::zero(); MinMax = GSVector4::zero(); MinF_TA = GSVector4::zero(); MskFix = GSVector4i::zero(); } __forceinline bool Update(const PSConstantBuffer* cb) { GSVector4i* a = (GSVector4i*)this; GSVector4i* b = (GSVector4i*)cb; GSVector4i b0 = b[0]; GSVector4i b1 = b[1]; GSVector4i b2 = b[2]; GSVector4i b3 = b[3]; GSVector4i b4 = b[4]; GSVector4i b5 = b[5]; if(!((a[0] == b0) /*& (a[1] == b1)*/ & (a[2] == b2) & (a[3] == b3) & (a[4] == b4) & (a[5] == b5)).alltrue()) // if WH matches HalfTexel does too { a[0] = b0; a[1] = b1; a[2] = b2; a[3] = b3; a[4] = b4; a[5] = b5; return true; } return false; } }; struct GSSelector { union { struct { uint32 iip:1; uint32 prim:2; }; uint32 key; }; operator uint32() {return key & 0x7;} GSSelector() : key(0) {} }; struct PSSelector { union { struct { uint32 fst:1; uint32 wms:2; uint32 wmt:2; uint32 fmt:3; uint32 aem:1; uint32 tfx:3; uint32 tcc:1; uint32 atst:3; uint32 fog:1; uint32 clr1:1; uint32 fba:1; uint32 aout:1; uint32 rt:1; uint32 ltf:1; uint32 colclip:2; uint32 date:2; uint32 spritehack:1; }; uint32 key; }; operator uint32() {return key & 0x3ffffff;} PSSelector() : key(0) {} }; struct PSSamplerSelector { union { struct { uint32 tau:1; uint32 tav:1; uint32 ltf:1; }; uint32 key; }; operator uint32() {return key & 0x7;} PSSamplerSelector() : key(0) {} }; struct OMDepthStencilSelector { union { struct { uint32 ztst:2; uint32 zwe:1; uint32 date:1; uint32 fba:1; }; uint32 key; }; operator uint32() {return key & 0x1f;} OMDepthStencilSelector() : key(0) {} }; struct OMBlendSelector { union { struct { uint32 abe:1; uint32 a:2; uint32 b:2; uint32 c:2; uint32 d:2; uint32 wr:1; uint32 wg:1; uint32 wb:1; uint32 wa:1; uint32 negative:1; }; struct { uint32 _pad:1; uint32 abcd:8; uint32 wrgba:4; }; uint32 key; }; operator uint32() {return key & 0x3fff;} OMBlendSelector() : key(0) {} bool IsCLR1() const { return (key & 0x19f) == 0x93; // abe == 1 && a == 1 && b == 2 && d == 1 } }; struct D3D9Blend {int bogus, op, src, dst;}; static const D3D9Blend m_blendMapD3D9[3*3*3*3]; private: uint32 m_msaa; // Level of Msaa bool m_free_window; GSWnd* m_window; GLuint m_pipeline; // pipeline to attach program shader GLuint m_fbo; // frame buffer container GLuint m_fbo_read; // frame buffer container only for reading GSVertexBufferStateOGL* m_vb; // vb_state for HW renderer GSVertexBufferStateOGL* m_vb_sr; // vb_state for StretchRect struct { GLuint ps[2]; // program object GSUniformBufferOGL* cb; // uniform buffer object GSBlendStateOGL* bs; } m_merge_obj; struct { GLuint ps[4]; // program object GSUniformBufferOGL* cb; // uniform buffer object } m_interlace; struct { GLuint vs; // program object GLuint ps[8]; // program object GLuint ln; // sampler object GLuint pt; // sampler object GLuint gs; GSDepthStencilOGL* dss; GSBlendStateOGL* bs; } m_convert; struct { GLuint ps; GSUniformBufferOGL *cb; } m_fxaa; struct { GSDepthStencilOGL* dss; GSBlendStateOGL* bs; } m_date; struct { GLuint ps; GSUniformBufferOGL *cb; } m_shadeboost; struct { GSVertexBufferStateOGL* vb; GLuint vs; // program GSUniformBufferOGL* cb; // uniform current buffer GLuint gs; // program // FIXME texture binding. Maybe not equivalent for the state but the best I could find. GSTextureOGL* ps_srv[3]; // ID3D11ShaderResourceView* ps_srv[3]; GLuint ps; // program GLuint ps_ss[3]; // sampler GSVector2i viewport; GSVector4i scissor; GSDepthStencilOGL* dss; uint8 sref; GSBlendStateOGL* bs; float bf; // FIXME texture attachment in the FBO // ID3D11RenderTargetView* rtv; // ID3D11DepthStencilView* dsv; GSTextureOGL* rtv; GSTextureOGL* dsv; GLuint fbo; GLenum draw; } m_state; bool m_srv_changed; bool m_ss_changed; hash_map m_vs; hash_map m_gs; hash_map m_ps; hash_map m_ps_ss; hash_map m_om_dss; hash_map m_om_bs; GLuint m_palette_ss; GLuint m_rt_ss; GSUniformBufferOGL* m_vs_cb; GSUniformBufferOGL* m_ps_cb; VSConstantBuffer m_vs_cb_cache; PSConstantBuffer m_ps_cb_cache; protected: GSTexture* CreateSurface(int type, int w, int h, bool msaa, int format); GSTexture* FetchSurface(int type, int w, int h, bool msaa, int format); void DoMerge(GSTexture* st[2], GSVector4* sr, GSTexture* dt, GSVector4* dr, bool slbg, bool mmod, const GSVector4& c); void DoInterlace(GSTexture* st, GSTexture* dt, int shader, bool linear, float yoffset = 0); void DoShadeBoost(GSTexture* st, GSTexture* dt); public: GSDeviceOGL(); virtual ~GSDeviceOGL(); void CheckDebugLog(); static void DebugOutputToFile(unsigned int source, unsigned int type, unsigned int id, unsigned int severity, const char* message); void DebugOutput(); void DebugInput(); void DebugBB(); bool HasStencil() { return true; } bool HasDepth32() { return true; } bool Create(GSWnd* wnd); bool Reset(int w, int h); void Flip(); void DrawPrimitive(); void DrawIndexedPrimitive(); void DrawIndexedPrimitive(int offset, int count); void ClearRenderTarget(GSTexture* t, const GSVector4& c); void ClearRenderTarget(GSTexture* t, uint32 c); void ClearDepth(GSTexture* t, float c); void ClearStencil(GSTexture* t, uint8 c); GSTexture* CreateRenderTarget(int w, int h, bool msaa, int format = 0); GSTexture* CreateDepthStencil(int w, int h, bool msaa, int format = 0); GSTexture* CreateTexture(int w, int h, int format = 0); GSTexture* CreateOffscreen(int w, int h, int format = 0); GSTexture* CopyOffscreen(GSTexture* src, const GSVector4& sr, int w, int h, int format = 0); void CopyRect(GSTexture* st, GSTexture* dt, const GSVector4i& r); void StretchRect(GSTexture* st, const GSVector4& sr, GSTexture* dt, const GSVector4& dr, int shader = 0, bool linear = true); void StretchRect(GSTexture* st, const GSVector4& sr, GSTexture* dt, const GSVector4& dr, GLuint ps, bool linear = true); void StretchRect(GSTexture* st, const GSVector4& sr, GSTexture* dt, const GSVector4& dr, GLuint ps, GSBlendStateOGL* bs, bool linear = true); void SetupDATE(GSTexture* rt, GSTexture* ds, const GSVertexPT1* vertices, bool datm); GSTexture* Resolve(GSTexture* t); void CompileShaderFromSource(const std::string& glsl_file, const std::string& entry, GLenum type, GLuint* program, const std::string& macro_sel = ""); void EndScene(); void IASetPrimitiveTopology(GLenum topology); void IASetVertexBuffer(const void* vertices, size_t count); bool IAMapVertexBuffer(void** vertex, size_t stride, size_t count); void IAUnmapVertexBuffer(); void IASetIndexBuffer(const void* index, size_t count); void IASetVertexState(GSVertexBufferStateOGL* vb = NULL); void SetUniformBuffer(GSUniformBufferOGL* cb); void VSSetShader(GLuint vs); void GSSetShader(GLuint gs); void PSSetShaderResources(GSTexture* sr0, GSTexture* sr1); void PSSetShaderResource(int i, GSTexture* sr); void PSSetSamplerState(GLuint ss0, GLuint ss1, GLuint ss2 = 0); void PSSetShader(GLuint ps); void OMSetFBO(GLuint fbo, GLenum buffer = GL_COLOR_ATTACHMENT0); void OMSetDepthStencilState(GSDepthStencilOGL* dss, uint8 sref); void OMSetBlendState(GSBlendStateOGL* bs, float bf); void OMSetRenderTargets(GSTexture* rt, GSTexture* ds, const GSVector4i* scissor = NULL); void CreateTextureFX(); void SetupIA(const void* vertex, int vertex_count, const uint32* index, int index_count, int prim); void SetupVS(VSSelector sel, const VSConstantBuffer* cb); void SetupGS(GSSelector sel); void SetupPS(PSSelector sel, const PSConstantBuffer* cb, PSSamplerSelector ssel); void SetupOM(OMDepthStencilSelector dssel, OMBlendSelector bsel, uint8 afix); GLuint glCreateShaderProgramv_AMD_BUG_WORKAROUND(GLenum type, GLsizei count, const char ** strings); };