#ifndef _CGRAPHICS #define _CGRAPHICS #include "types.h" #include "Kyoto/Graphics/CColor.hpp" #include "Kyoto/Math/CTransform4f.hpp" #include "Kyoto/Math/CVector3f.hpp" #include "Kyoto/Graphics/CTevCombiners.hpp" enum ERglTevStage { kTS_Stage0, kTS_Stage1, kTS_Stage2, kTS_Stage3, kTS_Stage4, kTS_Stage5, kTS_Stage6, kTS_Stage7, kTS_Stage8, kTS_Stage9, kTS_Stage10, kTS_Stage11, kTS_Stage12, kTS_Stage13, kTS_Stage14, kTS_Stage15, kTS_MaxStage, }; enum ERglPrimitive { kP_Quads = GX_QUADS, kP_Triangles = GX_TRIANGLES, kP_TriangleStrip = GX_TRIANGLESTRIP, kP_TriangleFan = GX_TRIANGLEFAN, kP_Lines = GX_LINES, kP_LineStrip = GX_LINESTRIP, kP_Points = GX_POINTS, }; enum ERglBlendMode { kBM_None = GX_BM_NONE, kBM_Blend = GX_BM_BLEND, kBM_Logic = GX_BM_LOGIC, kBM_Subtract = GX_BM_SUBTRACT, kBM_Max = GX_MAX_BLENDMODE, }; enum ERglBlendFactor { kBF_Zero = GX_BL_ZERO, kBF_One = GX_BL_ONE, kBF_SrcColor = GX_BL_SRCCLR, kBF_InvSrcColor = GX_BL_INVSRCCLR, kBF_SrcAlpha = GX_BL_SRCALPHA, kBF_InvSrcAlpha = GX_BL_INVSRCALPHA, kBF_DstAlpha = GX_BL_DSTALPHA, kBF_InvDstAlpha = GX_BL_INVDSTALPHA, kBF_DstColor = GX_BL_DSTCLR, kBF_InvDstColor = GX_BL_INVDSTCLR, }; enum ERglLogicOp { kLO_Clear = GX_LO_CLEAR, kLO_And = GX_LO_AND, kLO_RevAnd = GX_LO_REVAND, kLO_Copy = GX_LO_COPY, kLO_InvAnd = GX_LO_INVAND, kLO_NoOp = GX_LO_NOOP, kLO_Xor = GX_LO_XOR, kLO_Or = GX_LO_OR, kLO_Nor = GX_LO_NOR, kLO_Equiv = GX_LO_EQUIV, kLO_Inv = GX_LO_INV, kLO_RevOr = GX_LO_REVOR, kLO_InvCopy = GX_LO_INVCOPY, kLO_InvOr = GX_LO_INVOR, kLO_NAnd = GX_LO_NAND, kLO_Set = GX_LO_SET, }; enum ERglAlphaFunc { kAF_Never = GX_NEVER, kAF_Less = GX_LESS, kAF_Equal = GX_EQUAL, kAF_LEqual = GX_LEQUAL, kAF_Greater = GX_GREATER, kAF_NEqual = GX_NEQUAL, kAF_GEqual = GX_GEQUAL, kAF_Always = GX_ALWAYS, }; enum ERglAlphaOp { kAO_And = GX_AOP_AND, kAO_Or = GX_AOP_OR, kAO_Xor = GX_AOP_XOR, kAO_XNor = GX_AOP_XNOR, kAO_Max = GX_MAX_ALPHAOP, }; enum ERglEnum { kE_Never = GX_NEVER, kE_Less = GX_LESS, kE_Equal = GX_EQUAL, kE_LEqual = GX_LEQUAL, kE_Greater = GX_GREATER, kE_NEqual = GX_NEQUAL, kE_GEqual = GX_GEQUAL, kE_Always = GX_ALWAYS, }; class CTimeProvider; class CGraphics { public: static void SetIsBeginSceneClearFb(bool); static void BeginScene(); static void EndScene(); static void SetTevOp(ERglTevStage stage, const CTevCombiners::CTevPass& pass); static void StreamBegin(ERglPrimitive primitive); static void StreamColor(const CColor& color); static void StreamTexcoord(float u, float v); static void StreamVertex(const CVector3f& vtx); static void StreamEnd(); static const CTransform4f& GetViewMatrix() { return mViewMatrix; } static const CTransform4f& GetModelMatrix() { return mModelMatrix; } static float GetSecondsMod900(); static void SetExternalTimeProvider(CTimeProvider* provider); static void DisableAllLights(); static void SetModelMatrix(const CTransform4f& xf); static void SetAlphaCompare(ERglAlphaFunc comp0, u8 ref0, ERglAlphaOp op, ERglAlphaFunc comp1, u8 ref1); static void SetDepthWriteMode(bool test, ERglEnum comp, bool write); static void SetBlendMode(ERglBlendMode, ERglBlendFactor, ERglBlendFactor, ERglLogicOp); static CTevCombiners::CTevPass& kEnvPassthru; static CTevCombiners::CTevPass kEnvModulateConstColor; static CTevCombiners::CTevPass kEnvConstColor; static CTevCombiners::CTevPass kEnvModulate; static CTevCombiners::CTevPass kEnvDecal; static CTevCombiners::CTevPass kEnvBlend; static CTevCombiners::CTevPass kEnvReplace; static CTevCombiners::CTevPass kEnvModulateAlpha; static CTevCombiners::CTevPass kEnvModulateColor; static CTevCombiners::CTevPass kEnvModulateColorByalpha; private: static CTransform4f mViewMatrix; static CTransform4f mModelMatrix; }; #endif // _CGRAPHICS