#ifndef J3DMATBLOCK_H #define J3DMATBLOCK_H #include "JSystem/J3DGraphBase/J3DGD.h" #include "JSystem/J3DGraphBase/J3DTevs.h" #include "JSystem/J3DGraphBase/J3DTexture.h" #include "JSystem/J3DAssert.h" #include "global.h" /** * @ingroup jsystem-j3d * */ struct J3DGXColorS10 : public GXColorS10 { J3DGXColorS10() {} J3DGXColorS10(J3DGXColorS10 const& other) { __memcpy(this, &other, sizeof(J3DGXColorS10)); } J3DGXColorS10(GXColorS10 const& color) : GXColorS10(color) {} J3DGXColorS10& operator=(const GXColorS10& color) { // FAKE match. __memcpy created issues in J3DTevBlockPatched::initialize ((u32*)this)[0] = ((u32*)&color)[0]; ((u32*)this)[1] = ((u32*)&color)[1]; return *this; } }; /** * @ingroup jsystem-j3d * */ struct J3DGXColor : public GXColor { J3DGXColor() {} J3DGXColor(J3DGXColor const& other) { __memcpy(this, &other, sizeof(J3DGXColor)); } J3DGXColor(GXColor const& color) : GXColor(color) {} // making color a reference breaks J3DColorBlockLightOff::initialize et al J3DGXColor& operator=(GXColor color) { *(GXColor*)this = color; return *this; } J3DGXColor& operator=(const J3DGXColor& other) { r = other.r; g = other.g; b = other.b; a = other.a; return *this; } }; extern const J3DNBTScaleInfo j3dDefaultNBTScaleInfo; /** * @ingroup jsystem-j3d * */ struct J3DNBTScale : public J3DNBTScaleInfo { J3DNBTScale() { mbHasScale = j3dDefaultNBTScaleInfo.mbHasScale; mScale.x = j3dDefaultNBTScaleInfo.mScale.x; mScale.y = j3dDefaultNBTScaleInfo.mScale.y; mScale.z = j3dDefaultNBTScaleInfo.mScale.z; } J3DNBTScale(J3DNBTScaleInfo const& info) { mbHasScale = info.mbHasScale; mScale = info.mScale; } Vec* getScale() { return &mScale; } }; /** * @ingroup jsystem-j3d * */ struct J3DColorChanInfo { /* 0x0 */ u8 mEnable; /* 0x1 */ u8 mMatSrc; /* 0x2 */ u8 mLightMask; /* 0x3 */ u8 mDiffuseFn; /* 0x4 */ u8 mAttnFn; /* 0x5 */ u8 mAmbSrc; /* 0x6 */ u8 pad[2]; }; extern const J3DColorChanInfo j3dDefaultColorChanInfo; static inline u32 setChanCtrlMacro(u8 enable, GXColorSrc ambSrc, GXColorSrc matSrc, u32 lightMask, GXDiffuseFn diffuseFn, GXAttnFn attnFn) { return matSrc << 0 | enable << 1 | (lightMask & 0x0F) << 2 | ambSrc << 6 | ((attnFn == GX_AF_SPEC) ? GX_DF_NONE : diffuseFn) << 7 | (attnFn != GX_AF_NONE) << 9 | (attnFn != GX_AF_SPEC) << 10 | (lightMask >> 4 & 0x0F) << 11; } inline u16 calcColorChanID(u16 enable, u8 matSrc, u8 lightMask, u8 diffuseFn, u8 attnFn, u8 ambSrc) { u32 reg = 0; reg = (reg & ~0x0002) | enable << 1; reg = (reg & ~0x0001) | matSrc; reg = (reg & ~0x0040) | ambSrc << 6; reg = (reg & ~0x0004) | bool(lightMask & 0x01) << 2; reg = (reg & ~0x0008) | bool(lightMask & 0x02) << 3; reg = (reg & ~0x0010) | bool(lightMask & 0x04) << 4; reg = (reg & ~0x0020) | bool(lightMask & 0x08) << 5; reg = (reg & ~0x0800) | bool(lightMask & 0x10) << 11; reg = (reg & ~0x1000) | bool(lightMask & 0x20) << 12; reg = (reg & ~0x2000) | bool(lightMask & 0x40) << 13; reg = (reg & ~0x4000) | bool(lightMask & 0x80) << 14; reg = (reg & ~0x0180) | (attnFn == GX_AF_SPEC ? 0 : diffuseFn) << 7; reg = (reg & ~0x0200) | (attnFn != GX_AF_NONE) << 9; reg = (reg & ~0x0400) | (attnFn != GX_AF_SPEC) << 10; return reg; } #ifdef DECOMPCTX // Hack to mitigate fake mismatches when building from decompctx output - // see comment in sqrtf in math.h static u8 AttnArr[] = {2, 0, 2, 1}; #endif /** * @ingroup jsystem-j3d * */ struct J3DColorChan { J3DColorChan() { setColorChanInfo(j3dDefaultColorChanInfo); } J3DColorChan(J3DColorChanInfo const& info) { u32 ambSrc = info.mAmbSrc == 0xFF ? 0 : info.mAmbSrc; mColorChanID = calcColorChanID(info.mEnable, info.mMatSrc, info.mLightMask, info.mDiffuseFn, info.mAttnFn, ambSrc); } void setColorChanInfo(J3DColorChanInfo const& info) { // Bug: It compares info.mAmbSrc (an 8 bit integer) with 0xFFFF instead of 0xFF. // This inline is only called by the default constructor J3DColorChan(). // The J3DColorChan(const J3DColorChanInfo&) constructor does not call this inline, and instead duplicates the // same logic but without the bug. // See J3DMaterialFactory::newColorChan - both the bugged and correct behavior are present there, as it calls // both constructors. u32 ambSrc = info.mAmbSrc == 0xFFFF ? 0 : info.mAmbSrc; mColorChanID = calcColorChanID(info.mEnable, info.mMatSrc, info.mLightMask, info.mDiffuseFn, info.mAttnFn, ambSrc); } u8 getLightMask() const { return ((mColorChanID >> 2) & 0xf) | ((mColorChanID >> 11) & 0xf) << 4; } void setLightMask(u8 param_1) { mColorChanID = (mColorChanID & ~0x3c) | ((param_1 & 0xf) << 2); mColorChanID = (mColorChanID & ~0x7800) | ((param_1 & 0xf0) << 7); } u8 getEnable() const { return (u32)(mColorChanID & 0x2) >> 1; } u8 getAmbSrc() const { return (GXColorSrc)((u32)(mColorChanID & (1 << 6)) >> 6); } u8 getMatSrc() const { return (GXColorSrc)(mColorChanID & 1); } u8 getDiffuseFn() const { return ((u32)(mColorChanID & (3 << 7)) >> 7); } u8 getAttnFn() const { #ifndef DECOMPCTX u8 AttnArr[] = {2,0,2,1}; #endif return AttnArr[(u32)(mColorChanID & (3 << 9)) >> 9]; } void load() const { J3DGDWrite_u32(setChanCtrlMacro(getEnable(), (GXColorSrc)getAmbSrc(), (GXColorSrc)getMatSrc(), getLightMask(), (GXDiffuseFn)getDiffuseFn(), (GXAttnFn)getAttnFn())); } /* 0x0 */ u16 mColorChanID; }; /** * @ingroup jsystem-j3d * */ class J3DColorBlock { public: virtual void load() {} virtual void reset(J3DColorBlock*) {} virtual void patch() {} virtual void patchMatColor() {} virtual void patchLight() {} virtual void diff(u32) {} virtual void diffAmbColor() {} virtual void diffMatColor() {} virtual void diffColorChan() {} virtual void diffLightObj(u32) {} virtual s32 countDLSize() { return 0; } virtual u32 getType() = 0; virtual void setMatColor(u32, J3DGXColor const*) {} virtual void setMatColor(u32, J3DGXColor) {} virtual J3DGXColor* getMatColor(u32) { return NULL; } virtual void setAmbColor(u32, J3DGXColor const*) {} virtual void setAmbColor(u32, J3DGXColor) {} virtual J3DGXColor* getAmbColor(u32) { return NULL; } virtual void setColorChanNum(u8) {} virtual void setColorChanNum(u8 const*) {} virtual u8 getColorChanNum() const { return 0; } virtual void setColorChan(u32, J3DColorChan const&) {} virtual void setColorChan(u32, J3DColorChan const*) {} virtual J3DColorChan* getColorChan(u32) { return NULL; } virtual void setLight(u32, J3DLightObj*) {} virtual J3DLightObj* getLight(u32) { return NULL; } virtual void setCullMode(u8 const*) {} virtual void setCullMode(u8) {} virtual u8 getCullMode() const { return 2; } virtual u32 getMatColorOffset() const { return 0; } virtual u32 getColorChanOffset() const { return 0; } virtual void setMatColorOffset(u32) {} virtual void setColorChanOffset(u32) {} virtual ~J3DColorBlock() {} }; /** * @ingroup jsystem-j3d * */ class J3DColorBlockLightOff : public J3DColorBlock { public: J3DColorBlockLightOff() { initialize(); } void initialize(); virtual s32 countDLSize(); virtual void load(); virtual void reset(J3DColorBlock*); virtual void patch(); virtual void patchMatColor(); virtual void patchLight(); virtual void diff(u32); virtual void diffMatColor(); virtual void diffColorChan(); virtual u32 getType() { return 'CLOF'; } virtual void setMatColor(u32 idx, J3DGXColor const* color) { J3D_ASSERT_RANGE(0x121, idx >= 0 && idx < ARRAY_SIZEU(mMatColor)); J3D_ASSERT_NULLPTR(0x122, color != 0); mMatColor[idx] = *color; } virtual void setMatColor(u32 idx, J3DGXColor color) { J3D_ASSERT_RANGE(0x128, idx >= 0 && idx < ARRAY_SIZEU(mMatColor)); mMatColor[idx] = color; } virtual J3DGXColor* getMatColor(u32 idx) { J3D_ASSERT_RANGE(0x12d, idx >= 0 && idx < ARRAY_SIZEU(mMatColor)); return &mMatColor[idx]; } virtual void setColorChanNum(u8 num) { mColorChanNum = num; } virtual void setColorChanNum(u8 const* num) { J3D_ASSERT_NULLPTR(0x137, num != 0); mColorChanNum = *num; } virtual u8 getColorChanNum() const { return mColorChanNum; } virtual void setColorChan(u32 idx, J3DColorChan const& chan) { J3D_ASSERT_RANGE(0x142, idx >= 0 && idx < ARRAY_SIZEU(mColorChan)); mColorChan[idx] = chan; } virtual void setColorChan(u32 idx, J3DColorChan const* chan) { J3D_ASSERT_RANGE(0x148, idx >= 0 && idx < ARRAY_SIZEU(mColorChan)); J3D_ASSERT_NULLPTR(0x149, chan != 0); mColorChan[idx] = *chan; } virtual J3DColorChan* getColorChan(u32 idx) { J3D_ASSERT_RANGE(0x14e, idx >= 0 && idx < ARRAY_SIZEU(mColorChan)); return &mColorChan[idx]; } virtual void setCullMode(u8 const* mode) { J3D_ASSERT_NULLPTR(0x154, mode != 0); mCullMode = *mode; } virtual void setCullMode(u8 mode) { mCullMode = mode; } virtual u8 getCullMode() const { return mCullMode; } virtual u32 getMatColorOffset() const { return mMatColorOffset; } virtual u32 getColorChanOffset() const { return mColorChanOffset; } virtual void setMatColorOffset(u32 offset) { mMatColorOffset = offset; } virtual void setColorChanOffset(u32 offset) { mColorChanOffset = offset; } virtual ~J3DColorBlockLightOff() {} /* 0x04 */ J3DGXColor mMatColor[2]; /* 0x0C */ u8 mColorChanNum; /* 0x0E */ J3DColorChan mColorChan[4]; /* 0x16 */ u8 mCullMode; /* 0x18 */ u32 mMatColorOffset; /* 0x1C */ u32 mColorChanOffset; }; // Size: 0x20 /** * @ingroup jsystem-j3d * */ class J3DColorBlockAmbientOn : public J3DColorBlockLightOff { public: J3DColorBlockAmbientOn() { initialize(); } void initialize(); virtual void load(); virtual void reset(J3DColorBlock*); virtual s32 countDLSize(); virtual u32 getType() { return 'CLAB'; } virtual void setAmbColor(u32 idx, J3DGXColor const* color) { J3D_ASSERT_RANGE(0x1a3, idx >= 0 && idx < ARRAY_SIZEU(mAmbColor)); J3D_ASSERT_NULLPTR(0x1a4, color != 0); mAmbColor[idx] = *color; } virtual void setAmbColor(u32 idx, J3DGXColor color) { J3D_ASSERT_RANGE(0x1aa, idx >= 0 && idx < ARRAY_SIZEU(mAmbColor)); mAmbColor[idx] = color; } virtual J3DGXColor* getAmbColor(u32 idx) { J3D_ASSERT_RANGE(0x1af, idx >= 0 && idx < ARRAY_SIZEU(mAmbColor)); return &mAmbColor[idx]; } virtual ~J3DColorBlockAmbientOn() {} /* 0x20 */ J3DGXColor mAmbColor[2]; }; // Size: 0x28 /** * @ingroup jsystem-j3d * */ class J3DColorBlockLightOn : public J3DColorBlock { public: J3DColorBlockLightOn() { initialize(); } void initialize(); virtual void load(); virtual void reset(J3DColorBlock*); virtual void patch(); virtual void patchMatColor(); virtual void patchLight(); virtual void diff(u32); virtual void diffAmbColor(); virtual void diffMatColor(); virtual void diffColorChan(); virtual void diffLightObj(u32); virtual s32 countDLSize(); virtual u32 getType() { return 'CLON'; } virtual void setMatColor(u32 idx, J3DGXColor const* color) { J3D_ASSERT_RANGE(0x1e9, idx >= 0 && idx < ARRAY_SIZEU(mMatColor)); J3D_ASSERT_NULLPTR(0x1ea, color != 0); mMatColor[idx] = *color; } virtual void setMatColor(u32 idx, J3DGXColor color) { J3D_ASSERT_RANGE(0x1f0, idx >= 0 && idx < ARRAY_SIZEU(mMatColor)); mMatColor[idx] = color; } virtual J3DGXColor* getMatColor(u32 idx) { J3D_ASSERT_RANGE(0x1f5, idx >= 0 && idx < ARRAY_SIZEU(mMatColor)); return &mMatColor[idx]; } virtual void setAmbColor(u32 idx, J3DGXColor const* color) { J3D_ASSERT_RANGE(0x1fc, idx >= 0 && idx < ARRAY_SIZEU(mAmbColor)); J3D_ASSERT_NULLPTR(0x1fd, color != 0); mAmbColor[idx] = *color; } virtual void setAmbColor(u32 idx, J3DGXColor color) { J3D_ASSERT_RANGE(0x203, idx >= 0 && idx < ARRAY_SIZEU(mAmbColor)); mAmbColor[idx] = color; } virtual J3DGXColor* getAmbColor(u32 idx) { J3D_ASSERT_RANGE(0x208, idx >= 0 && idx < ARRAY_SIZEU(mAmbColor)); return &mAmbColor[idx]; } virtual void setColorChanNum(u8 num) { mColorChanNum = num; } virtual void setColorChanNum(u8 const* num) { J3D_ASSERT_NULLPTR(0x212, num != 0); mColorChanNum = *num; } virtual u8 getColorChanNum() const { return mColorChanNum; } virtual void setColorChan(u32 idx, J3DColorChan const& chan) { J3D_ASSERT_RANGE(0x21d, idx >= 0 && idx < ARRAY_SIZEU(mColorChan)); mColorChan[idx] = chan; } virtual void setColorChan(u32 idx, J3DColorChan const* chan) { J3D_ASSERT_RANGE(0x223, idx >= 0 && idx < ARRAY_SIZEU(mColorChan)); J3D_ASSERT_NULLPTR(0x224, chan != 0); mColorChan[idx] = *chan; } virtual J3DColorChan* getColorChan(u32 idx) { J3D_ASSERT_RANGE(0x229, idx >= 0 && idx < ARRAY_SIZEU(mColorChan)); return &mColorChan[idx]; } virtual void setLight(u32 idx, J3DLightObj* light) { J3D_ASSERT_RANGE(0x230, idx >= 0 && idx < ARRAY_SIZEU(mLight)); mLight[idx] = light; } virtual J3DLightObj* getLight(u32 idx) { J3D_ASSERT_RANGE(0x235, idx >= 0 && idx < ARRAY_SIZEU(mLight)); return mLight[idx]; } virtual void setCullMode(u8 const* mode) { J3D_ASSERT_NULLPTR(0x23b, mode != 0); mCullMode = *mode; } virtual void setCullMode(u8 mode) { mCullMode = mode; } virtual u8 getCullMode() const { return mCullMode; } virtual u32 getMatColorOffset() const { return mMatColorOffset; } virtual u32 getColorChanOffset() const { return mColorChanOffset; } virtual void setMatColorOffset(u32 offset) { mMatColorOffset = offset; } virtual void setColorChanOffset(u32 offset) { mColorChanOffset = offset; } virtual ~J3DColorBlockLightOn() {} /* 0x04 */ J3DGXColor mMatColor[2]; /* 0x0C */ J3DGXColor mAmbColor[2]; /* 0x14 */ u8 mColorChanNum; /* 0x16 */ J3DColorChan mColorChan[4]; /* 0x20 */ J3DLightObj* mLight[8]; /* 0x40 */ u8 mCullMode; /* 0x44 */ u32 mMatColorOffset; /* 0x48 */ u32 mColorChanOffset; }; // Size: 0x4C /** * @ingroup jsystem-j3d * */ class J3DTexGenBlock { public: virtual void reset(J3DTexGenBlock*) {} virtual void calc(f32 const (*)[4]) = 0; virtual void calcWithoutViewMtx(f32 const (*)[4]) = 0; virtual void calcPostTexMtx(f32 const (*)[4]) = 0; virtual void calcPostTexMtxWithoutViewMtx(f32 const (*)[4]) = 0; virtual void load() = 0; virtual void patch() = 0; virtual void diff(u32) = 0; virtual void diffTexMtx() = 0; virtual void diffTexGen() = 0; virtual s32 countDLSize() { return 0; } virtual u32 getType() = 0; virtual void setTexGenNum(u32 const*) {} virtual void setTexGenNum(u32) {} virtual u32 getTexGenNum() const { return 0; } virtual void setTexCoord(u32, J3DTexCoord const*) {} virtual J3DTexCoord* getTexCoord(u32) { return NULL; } virtual void setTexMtx(u32, J3DTexMtx*) {} virtual J3DTexMtx* getTexMtx(u32) { return NULL; } virtual void setNBTScale(J3DNBTScale const* scale) {} virtual void setNBTScale(J3DNBTScale) {} virtual J3DNBTScale* getNBTScale() { return NULL; } virtual u32 getTexMtxOffset() const { return 0; } virtual void setTexMtxOffset(u32) {} virtual ~J3DTexGenBlock() {} }; struct J3DTexGenBlockNull : public J3DTexGenBlock { virtual void calc(f32 const (*)[4]) {} virtual void calcWithoutViewMtx(f32 const (*)[4]) {} virtual void calcPostTexMtx(f32 const (*)[4]) {} virtual void calcPostTexMtxWithoutViewMtx(f32 const (*)[4]) {} virtual void load() {} virtual void patch() {} virtual void diff(u32) {} virtual void diffTexMtx() {} virtual void diffTexGen() {} virtual u32 getType() { return 'TGNL'; } virtual ~J3DTexGenBlockNull() {} }; /** * @ingroup jsystem-j3d * */ class J3DTexGenBlockPatched : public J3DTexGenBlock { public: J3DTexGenBlockPatched() { initialize(); } void initialize(); virtual void reset(J3DTexGenBlock*); virtual void calc(f32 const (*)[4]); virtual void calcWithoutViewMtx(f32 const (*)[4]); virtual void calcPostTexMtx(f32 const (*)[4]); virtual void calcPostTexMtxWithoutViewMtx(f32 const (*)[4]); virtual void load() {} virtual void patch(); virtual void diff(u32); virtual void diffTexMtx(); virtual void diffTexGen(); virtual s32 countDLSize(); virtual u32 getType() { return 'TGPT'; } virtual void setTexGenNum(u32 const* num) { J3D_ASSERT_NULLPTR(0x335, num != 0); mTexGenNum = *num; } virtual void setTexGenNum(u32 num) { mTexGenNum = num; } virtual u32 getTexGenNum() const { return mTexGenNum; } virtual void setTexCoord(u32 idx, J3DTexCoord const* coord) { J3D_ASSERT_RANGE(0x344, idx >= 0 && idx < ARRAY_SIZEU(mTexCoord)); J3D_ASSERT_NULLPTR(0x345, coord != 0); mTexCoord[idx] = *coord; } virtual J3DTexCoord* getTexCoord(u32 idx) { J3D_ASSERT_RANGE(0x34a, idx >= 0 && idx < ARRAY_SIZEU(mTexCoord)); return &mTexCoord[idx]; } virtual void setTexMtx(u32 idx, J3DTexMtx* mtx) { J3D_ASSERT_RANGE(0x351, idx >= 0 && idx < ARRAY_SIZEU(mTexMtx)); mTexMtx[idx] = mtx; } virtual J3DTexMtx* getTexMtx(u32 idx) { J3D_ASSERT_RANGE(0x356, idx >= 0 && idx < ARRAY_SIZEU(mTexMtx)); return mTexMtx[idx]; } virtual u32 getTexMtxOffset() const { return mTexMtxOffset; } virtual void setTexMtxOffset(u32 offset) { mTexMtxOffset = offset; } virtual ~J3DTexGenBlockPatched() {} /* 0x04 */ u32 mTexGenNum; /* 0x08 */ J3DTexCoord mTexCoord[8]; /* 0x38 */ J3DTexMtx* mTexMtx[8]; /* 0x58 */ u32 mTexMtxOffset; }; // Size: 0x5C /** * @ingroup jsystem-j3d * */ class J3DTexGenBlock4 : public J3DTexGenBlockPatched { public: J3DTexGenBlock4() : mNBTScale() { initialize(); } void initialize(); virtual void reset(J3DTexGenBlock*); virtual void load(); virtual void patch(); virtual s32 countDLSize(); virtual u32 getType() { return 'TGB4'; } virtual void setNBTScale(J3DNBTScale const* scale) { J3D_ASSERT_NULLPTR(0x393, scale != 0); mNBTScale = *scale; } virtual void setNBTScale(J3DNBTScale scale) { mNBTScale = scale; } virtual J3DNBTScale* getNBTScale() { return &mNBTScale; } virtual ~J3DTexGenBlock4() {} /* 0x5C */ J3DNBTScale mNBTScale; }; // Size: 0x6C /** * @ingroup jsystem-j3d * */ class J3DTexGenBlockBasic : public J3DTexGenBlockPatched { public: J3DTexGenBlockBasic() : mNBTScale() { initialize(); } void initialize(); virtual void reset(J3DTexGenBlock*); virtual void load(); virtual void patch(); virtual s32 countDLSize(); virtual u32 getType() { return 'TGBC'; } virtual void setNBTScale(J3DNBTScale const* scale) { J3D_ASSERT_NULLPTR(0x3ca, scale != 0); mNBTScale = *scale; } virtual void setNBTScale(J3DNBTScale scale) { mNBTScale = scale; } virtual J3DNBTScale* getNBTScale() { return &mNBTScale; } virtual ~J3DTexGenBlockBasic() {} /* 0x5C */ J3DNBTScale mNBTScale; }; // Size: 0x6C /** * @ingroup jsystem-j3d * */ class J3DTevBlock { public: virtual void reset(J3DTevBlock*) {} virtual void load() {} virtual void diff(u32); virtual void diffTexNo(); virtual void diffTevReg(); virtual void diffTexCoordScale(); virtual void diffTevStage(); virtual void diffTevStageIndirect(); virtual void patch() {} virtual void patchTexNo() {} virtual void patchTevReg() {} virtual void patchTexNoAndTexCoordScale() {} virtual void ptrToIndex() = 0; virtual void indexToPtr() = 0; virtual u32 getType() = 0; virtual s32 countDLSize() { return 0; } virtual void setTexNo(u32, u16 const*) {} virtual void setTexNo(u32, u16) {} virtual u16 getTexNo(u32) const { return 0xffff; } virtual void setTevOrder(u32, J3DTevOrder const*) {} virtual void setTevOrder(u32, J3DTevOrder) {} virtual J3DTevOrder* getTevOrder(u32) { return NULL; } virtual void setTevColor(u32, J3DGXColorS10 const*) {} virtual void setTevColor(u32, J3DGXColorS10) {} virtual J3DGXColorS10* getTevColor(u32) { return NULL; } virtual void setTevKColor(u32, J3DGXColor const*) {} virtual void setTevKColor(u32, J3DGXColor) {} virtual J3DGXColor* getTevKColor(u32) { return NULL; } virtual void setTevKColorSel(u32, u8 const*) {} virtual void setTevKColorSel(u32, u8) {} virtual u8 getTevKColorSel(u32) { return false; } virtual void setTevKAlphaSel(u32, u8 const*) {} virtual void setTevKAlphaSel(u32, u8) {} virtual u8 getTevKAlphaSel(u32) { return false; } virtual void setTevStageNum(u8 const*) {} virtual void setTevStageNum(u8) {} virtual u8 getTevStageNum() const { return 1; } virtual void setTevStage(u32, J3DTevStage const*) {} virtual void setTevStage(u32, J3DTevStage) {} virtual J3DTevStage* getTevStage(u32) { return NULL; } virtual void setTevSwapModeInfo(u32, J3DTevSwapModeInfo const*) {} virtual void setTevSwapModeInfo(u32, J3DTevSwapModeInfo) {} virtual void setTevSwapModeTable(u32, J3DTevSwapModeTable const*) {} virtual void setTevSwapModeTable(u32, J3DTevSwapModeTable) {} virtual J3DTevSwapModeTable* getTevSwapModeTable(u32) { return NULL; } virtual void setIndTevStage(u32, J3DIndTevStage const*) {} virtual void setIndTevStage(u32, J3DIndTevStage) {} virtual J3DIndTevStage* getIndTevStage(u32) { return NULL; } virtual u32 getTexNoOffset() const { return 0; } virtual u32 getTevRegOffset() const { return 0; } virtual void setTexNoOffset(u32 offset) { mTexNoOffset = offset; } virtual void setTevRegOffset(u32) {} virtual ~J3DTevBlock() {} protected: void indexToPtr_private(u32); /* 0x4 */ u32 mTexNoOffset; }; /** * @ingroup jsystem-j3d * */ class J3DTevBlockNull : public J3DTevBlock { public: J3DTevBlockNull() { initialize(); } void initialize(); virtual void reset(J3DTevBlock*) {} virtual void ptrToIndex() {} virtual void indexToPtr() { indexToPtr_private(mTexNoOffset); } virtual u32 getType() { return 'TVNL'; } virtual ~J3DTevBlockNull() {} }; /** * @ingroup jsystem-j3d * */ class J3DTevBlockPatched : public J3DTevBlock { public: J3DTevBlockPatched() { initialize(); } void initialize(); virtual void reset(J3DTevBlock*); virtual void load() {} virtual void diffTexNo(); virtual void diffTevReg(); virtual void diffTexCoordScale(); virtual void diffTevStage(); virtual void diffTevStageIndirect(); virtual void patch(); virtual void patchTexNo(); virtual void patchTevReg(); virtual void patchTexNoAndTexCoordScale(); virtual void ptrToIndex(); virtual void indexToPtr() { indexToPtr_private(mTexNoOffset); } virtual u32 getType() { return 'TVPT'; } virtual void setTevStageNum(u8 const* num) { J3D_ASSERT_NULLPTR(0x52c, num != 0); mTevStageNum = *num; } virtual void setTevStageNum(u8 num) { mTevStageNum = num; } virtual u8 getTevStageNum() const { return mTevStageNum; } virtual s32 countDLSize(); virtual void setTexNo(u32 idx, u16 const* texNo) { J3D_ASSERT_RANGE(0x53b, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); J3D_ASSERT_NULLPTR(0x53c, texNo != 0); mTexNo[idx] = *texNo; } virtual void setTexNo(u32 idx, u16 texNo) { J3D_ASSERT_RANGE(0x542, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); mTexNo[idx] = texNo; } virtual u16 getTexNo(u32 idx) const { J3D_ASSERT_RANGE(1353, idx >= 0 && idx < 8); return mTexNo[idx]; } virtual void setTevOrder(u32 idx, J3DTevOrder const* order) { J3D_ASSERT_RANGE(0x550, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); J3D_ASSERT_NULLPTR(0x551, order != 0); mTevOrder[idx] = *order; } virtual void setTevOrder(u32 idx, J3DTevOrder order) { J3D_ASSERT_RANGE(0x557, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); mTevOrder[idx] = order; } virtual J3DTevOrder* getTevOrder(u32 idx) { J3D_ASSERT_RANGE(0x55c, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); return &mTevOrder[idx]; } virtual void setTevStage(u32 idx, J3DTevStage const* stage) { J3D_ASSERT_RANGE(0x563, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); J3D_ASSERT_NULLPTR(0x564, stage != 0); mTevStage[idx] = *stage; } virtual void setTevStage(u32 idx, J3DTevStage stage) { J3D_ASSERT_RANGE(0x56a, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); mTevStage[idx] = stage; } virtual J3DTevStage* getTevStage(u32 idx) { J3D_ASSERT_RANGE(0x56f, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); return &mTevStage[idx]; } virtual void setIndTevStage(u32 idx, J3DIndTevStage const* stage) { J3D_ASSERT_RANGE(0x576, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); J3D_ASSERT_NULLPTR(0x577, stage != 0); mIndTevStage[idx] = *stage; } virtual void setIndTevStage(u32 idx, J3DIndTevStage stage) { J3D_ASSERT_RANGE(0x57d, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); mIndTevStage[idx] = stage; } virtual J3DIndTevStage* getIndTevStage(u32 idx) { J3D_ASSERT_RANGE(0x582, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); return &mIndTevStage[idx]; } virtual void setTevColor(u32 idx, J3DGXColorS10 const* color) { J3D_ASSERT_RANGE(0x589, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); J3D_ASSERT_NULLPTR(0x58a, color != 0); mTevColor[idx] = *color; } virtual void setTevColor(u32 idx, J3DGXColorS10 color) { J3D_ASSERT_RANGE(0x590, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); mTevColor[idx] = color; } virtual J3DGXColorS10* getTevColor(u32 idx) { J3D_ASSERT_RANGE(0x595, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); return &mTevColor[idx]; } virtual void setTevKColor(u32 idx, J3DGXColor const* color) { J3D_ASSERT_RANGE(0x59c, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); J3D_ASSERT_NULLPTR(0x59d, color != 0); mTevKColor[idx] = *color; } virtual void setTevKColor(u32 idx, J3DGXColor color) { J3D_ASSERT_RANGE(0x5a3, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); mTevKColor[idx] = color; } virtual J3DGXColor* getTevKColor(u32 idx) { J3D_ASSERT_RANGE(0x5a8, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); return &mTevKColor[idx]; } virtual void setTevKColorSel(u32 idx, u8 const* sel) { J3D_ASSERT_RANGE(0x5af, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); J3D_ASSERT_NULLPTR(0x5b0, sel != 0); mTevKColorSel[idx] = *sel; } virtual void setTevKColorSel(u32 idx, u8 sel) { J3D_ASSERT_RANGE(0x5b6, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); mTevKColorSel[idx] = sel; } virtual u8 getTevKColorSel(u32 idx) { J3D_ASSERT_RANGE(0x5bb, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); return mTevKColorSel[idx]; } virtual u32 getTexNoOffset() const { return mTexNoOffset; } virtual u32 getTevRegOffset() const { return mTevRegOffset; } virtual void setTevRegOffset(u32 offset) { J3D_ASSERT_RANGE(0x53b, offset >= 0); mTevRegOffset = offset; } virtual ~J3DTevBlockPatched() {} /* 0x08 */ u16 mTexNo[8]; /* 0x18 */ J3DTevOrder mTevOrder[8]; /* 0x38 */ J3DTevStage mTevStage[8]; /* 0x78 */ J3DIndTevStage mIndTevStage[8]; /* 0x98 */ J3DGXColorS10 mTevColor[4]; /* 0xB8 */ J3DGXColor mTevKColor[4]; /* 0xC8 */ u8 mTevKColorSel[8]; /* 0xD0 */ u8 mTevStageNum; /* 0xD4 */ u32 mTevRegOffset; }; // Size: 0xD8 /** * @ingroup jsystem-j3d * */ class J3DTevBlock1 : public J3DTevBlock { public: J3DTevBlock1() { initialize(); } void initialize(); virtual void reset(J3DTevBlock*); virtual void load(); virtual void diffTexNo(); virtual void diffTevReg(); virtual void diffTexCoordScale(); virtual void diffTevStage(); virtual void diffTevStageIndirect(); virtual void patch(); virtual void patchTexNo(); virtual void patchTevReg(); virtual void patchTexNoAndTexCoordScale(); virtual void ptrToIndex() {} virtual void indexToPtr() { indexToPtr_private(mTexNoOffset); } virtual u32 getType() { return 'TVB1'; } virtual s32 countDLSize(); virtual void setTexNo(u32 idx, u16 const* no) { J3D_ASSERT_RANGE(0x618, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); J3D_ASSERT_NULLPTR(0x619, no != 0); mTexNo[idx] = *no; } virtual void setTexNo(u32 idx, u16 no) { J3D_ASSERT_RANGE(0x61f, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); mTexNo[idx] = no; } virtual u16 getTexNo(u32 idx) const { J3D_ASSERT_RANGE(1574, idx >= 0 && idx < 1); return mTexNo[idx]; } virtual void setTevOrder(u32 idx, J3DTevOrder const* order) { J3D_ASSERT_RANGE(0x62d, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); J3D_ASSERT_NULLPTR(0x62e, order != 0); mTevOrder[idx] = *order; } virtual void setTevOrder(u32 idx, J3DTevOrder order) { J3D_ASSERT_RANGE(0x634, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); mTevOrder[idx] = order; } virtual J3DTevOrder* getTevOrder(u32 idx) { J3D_ASSERT_RANGE(0x639, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); return &mTevOrder[idx]; } virtual void setTevStageNum(u8 const* num) {} virtual void setTevStageNum(u8 num) {} virtual u8 getTevStageNum() const { return 1; } virtual void setTevStage(u32 idx, J3DTevStage const* stage) { J3D_ASSERT_RANGE(0x64b, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); J3D_ASSERT_NULLPTR(0x64c, stage != 0); mTevStage[idx] = *stage; } virtual void setTevStage(u32 idx, J3DTevStage stage) { J3D_ASSERT_RANGE(0x652, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); mTevStage[idx] = stage; } virtual J3DTevStage* getTevStage(u32 idx) { J3D_ASSERT_RANGE(0x657, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); return &mTevStage[idx]; } virtual void setIndTevStage(u32 idx, J3DIndTevStage const* stage) { J3D_ASSERT_RANGE(0x65e, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); J3D_ASSERT_NULLPTR(0x65f, stage != 0); mIndTevStage[idx] = *stage; } virtual void setIndTevStage(u32 idx, J3DIndTevStage stage) { J3D_ASSERT_RANGE(0x665, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); mIndTevStage[idx] = stage; } virtual J3DIndTevStage* getIndTevStage(u32 idx) { J3D_ASSERT_RANGE(0x66a, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); return &mIndTevStage[idx]; } virtual u32 getTexNoOffset() const { return mTexNoOffset; } virtual ~J3DTevBlock1() {} /* 0x08 */ u16 mTexNo[1]; /* 0x0A */ J3DTevOrder mTevOrder[1]; /* 0x0E */ J3DTevStage mTevStage[1]; /* 0x18 */ J3DIndTevStage mIndTevStage[1]; }; // Size: 0x1C /** * @ingroup jsystem-j3d * */ class J3DTevBlock2 : public J3DTevBlock { public: J3DTevBlock2() { initialize(); } void initialize(); virtual void reset(J3DTevBlock*); virtual void load(); virtual void diffTexNo(); virtual void diffTevReg(); virtual void diffTexCoordScale(); virtual void diffTevStage(); virtual void diffTevStageIndirect(); virtual void patch(); virtual void patchTexNo(); virtual void patchTevReg(); virtual void patchTexNoAndTexCoordScale(); virtual void ptrToIndex() {} virtual void indexToPtr() { indexToPtr_private(mTexNoOffset); } virtual u32 getType() { return 'TVB2'; } virtual s32 countDLSize(); virtual void setTexNo(u32 idx, u16 const* texNo) { J3D_ASSERT_RANGE(0x6b4, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); J3D_ASSERT_NULLPTR(0x6b5, texNo != 0); mTexNo[idx] = *texNo; } virtual void setTexNo(u32 idx, u16 texNo) { J3D_ASSERT_RANGE(0x6bb, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); mTexNo[idx] = texNo; } virtual u16 getTexNo(u32 idx) const { J3D_ASSERT_RANGE(0x6c2, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); return mTexNo[idx]; } virtual void setTevOrder(u32 idx, J3DTevOrder const* order) { J3D_ASSERT_RANGE(0x6c9, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); J3D_ASSERT_NULLPTR(0x6ca, order != 0); mTevOrder[idx] = *order; } virtual void setTevOrder(u32 idx, J3DTevOrder order) { J3D_ASSERT_RANGE(0x6d0, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); mTevOrder[idx] = order; } virtual J3DTevOrder* getTevOrder(u32 idx) { J3D_ASSERT_RANGE(0x6d5, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); return &mTevOrder[idx]; } virtual void setTevColor(u32 idx, J3DGXColorS10 const* color) { J3D_ASSERT_RANGE(0x6dc, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); J3D_ASSERT_NULLPTR(0x6dd, color != 0); mTevColor[idx] = *color; } virtual void setTevColor(u32 idx, J3DGXColorS10 color) { J3D_ASSERT_RANGE(0x6e3, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); mTevColor[idx] = color; } virtual J3DGXColorS10* getTevColor(u32 idx) { J3D_ASSERT_RANGE(0x6e8, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); return &mTevColor[idx]; } virtual void setTevKColor(u32 idx, J3DGXColor const* color) { J3D_ASSERT_RANGE(0x6ef, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); J3D_ASSERT_NULLPTR(0x6f0, color != 0); mTevKColor[idx] = *color; } virtual void setTevKColor(u32 idx, J3DGXColor color) { J3D_ASSERT_RANGE(0x6f6, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); mTevKColor[idx] = color; } virtual J3DGXColor* getTevKColor(u32 idx) { J3D_ASSERT_RANGE(0x6fb, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); return &mTevKColor[idx]; } virtual void setTevKColorSel(u32 idx, u8 const* sel) { J3D_ASSERT_RANGE(0x702, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); J3D_ASSERT_NULLPTR(0x703, sel != 0); mTevKColorSel[idx] = *sel; } virtual void setTevKColorSel(u32 idx, u8 sel) { J3D_ASSERT_RANGE(0x709, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); mTevKColorSel[idx] = sel; } virtual u8 getTevKColorSel(u32 idx) { J3D_ASSERT_RANGE(0x70e, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); return mTevKColorSel[idx]; } virtual void setTevKAlphaSel(u32 idx, u8 const* sel) { J3D_ASSERT_RANGE(0x715, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); J3D_ASSERT_NULLPTR(0x716, sel != 0); mTevKAlphaSel[idx] = *sel; } virtual void setTevKAlphaSel(u32 idx, u8 sel) { J3D_ASSERT_RANGE(0x71c, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); mTevKAlphaSel[idx] = sel; } virtual u8 getTevKAlphaSel(u32 idx) { J3D_ASSERT_RANGE(0x721, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); return mTevKAlphaSel[idx]; } virtual void setTevStageNum(u8 const* num) { J3D_ASSERT_NULLPTR(0x727, num != 0); mTevStageNum = *num; } virtual void setTevStageNum(u8 num) { mTevStageNum = num; } virtual u8 getTevStageNum() const { return mTevStageNum; } virtual void setTevStage(u32 idx, J3DTevStage const* stage) { J3D_ASSERT_RANGE(0x736, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); J3D_ASSERT_NULLPTR(0x737, stage != 0); mTevStage[idx] = *stage; } virtual void setTevStage(u32 idx, J3DTevStage stage) { J3D_ASSERT_RANGE(0x73d, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); mTevStage[idx] = stage; } virtual J3DTevStage* getTevStage(u32 idx) { J3D_ASSERT_RANGE(0x742, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); return &mTevStage[idx]; } virtual void setTevSwapModeInfo(u32 idx, J3DTevSwapModeInfo const* info) { J3D_ASSERT_RANGE(0x749, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); J3D_ASSERT_NULLPTR(0x74a, info != 0); mTevStage[idx].setTevSwapModeInfo(*info); } virtual void setTevSwapModeInfo(u32 idx, J3DTevSwapModeInfo info) { J3D_ASSERT_RANGE(0x750, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); mTevStage[idx].setTevSwapModeInfo(info); } virtual void setTevSwapModeTable(u32 idx, J3DTevSwapModeTable const* table) { J3D_ASSERT_RANGE(0x757, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); J3D_ASSERT_NULLPTR(0x758, table != 0); mTevSwapModeTable[idx] = *table; } virtual void setTevSwapModeTable(u32 idx, J3DTevSwapModeTable table) { J3D_ASSERT_RANGE(0x75e, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); mTevSwapModeTable[idx] = table; } virtual J3DTevSwapModeTable* getTevSwapModeTable(u32 idx) { J3D_ASSERT_RANGE(0x763, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); return &mTevSwapModeTable[idx]; } virtual void setIndTevStage(u32 idx, J3DIndTevStage const* stage) { J3D_ASSERT_RANGE(0x76a, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); J3D_ASSERT_NULLPTR(0x76b, stage != 0); mIndTevStage[idx] = *stage; } virtual void setIndTevStage(u32 idx, J3DIndTevStage stage) { J3D_ASSERT_RANGE(0x771, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); mIndTevStage[idx] = stage; } virtual J3DIndTevStage* getIndTevStage(u32 idx) { J3D_ASSERT_RANGE(0x776, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); return &mIndTevStage[idx]; } virtual u32 getTexNoOffset() const { return mTexNoOffset; } virtual u32 getTevRegOffset() const { return mTevRegOffset; } virtual void setTevRegOffset(u32 offset) { mTevRegOffset = offset; } virtual ~J3DTevBlock2() {} /* 0x08 */ u16 mTexNo[2]; /* 0x0C */ J3DTevOrder mTevOrder[2]; /* 0x14 */ J3DGXColorS10 mTevColor[4]; /* 0x34 */ u8 mTevStageNum; /* 0x35 */ J3DTevStage mTevStage[2]; /* 0x45 */ J3DGXColor mTevKColor[4]; /* 0x55 */ u8 mTevKColorSel[2]; /* 0x57 */ u8 mTevKAlphaSel[2]; /* 0x59 */ J3DTevSwapModeTable mTevSwapModeTable[4]; /* 0x60 */ J3DIndTevStage mIndTevStage[2]; /* 0x68 */ u32 mTevRegOffset; }; // Size: 0x6C /** * @ingroup jsystem-j3d * */ class J3DTevBlock4 : public J3DTevBlock { public: J3DTevBlock4() { initialize(); } void initialize(); virtual void reset(J3DTevBlock*); virtual void load(); virtual void diffTexNo(); virtual void diffTevReg(); virtual void diffTexCoordScale(); virtual void diffTevStage(); virtual void diffTevStageIndirect(); virtual void patch(); virtual void patchTexNo(); virtual void patchTevReg(); virtual void patchTexNoAndTexCoordScale(); virtual void ptrToIndex() {} virtual void indexToPtr() { indexToPtr_private(mTexNoOffset); } virtual u32 getType() { return 'TVB4'; } virtual s32 countDLSize(); virtual void setTexNo(u32 idx, u16 const* texNo) { J3D_ASSERT_RANGE(0x7d5, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); J3D_ASSERT_NULLPTR(0x7d6, texNo != 0); mTexNo[idx] = *texNo; } virtual void setTexNo(u32 idx, u16 texNo) { J3D_ASSERT_RANGE(0x7dc, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); mTexNo[idx] = texNo; } virtual u16 getTexNo(u32 idx) const { J3D_ASSERT_RANGE(2019, idx >= 0 && idx < 4); return mTexNo[idx]; } virtual void setTevOrder(u32 idx, J3DTevOrder const* order) { J3D_ASSERT_RANGE(0x7ea, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); J3D_ASSERT_NULLPTR(0x7eb, order != 0); mTevOrder[idx] = *order; } virtual void setTevOrder(u32 idx, J3DTevOrder order) { J3D_ASSERT_RANGE(0x7f1, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); mTevOrder[idx] = order; } virtual J3DTevOrder* getTevOrder(u32 idx) { J3D_ASSERT_RANGE(0x7f6, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); return &mTevOrder[idx]; } virtual void setTevColor(u32 idx, J3DGXColorS10 const* color) { J3D_ASSERT_RANGE(0x7fd, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); J3D_ASSERT_NULLPTR(0x7fe, color != 0); mTevColor[idx] = *color; } virtual void setTevColor(u32 idx, J3DGXColorS10 color) { J3D_ASSERT_RANGE(0x804, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); mTevColor[idx] = color; } virtual J3DGXColorS10* getTevColor(u32 idx) { J3D_ASSERT_RANGE(0x809, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); return &mTevColor[idx]; } virtual void setTevKColor(u32 idx, J3DGXColor const* color) { J3D_ASSERT_RANGE(0x810, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); J3D_ASSERT_NULLPTR(0x811, color != 0); mTevKColor[idx] = *color; } virtual void setTevKColor(u32 idx, J3DGXColor color) { J3D_ASSERT_RANGE(0x817, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); mTevKColor[idx] = color; } virtual J3DGXColor* getTevKColor(u32 idx) { J3D_ASSERT_RANGE(0x81c, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); return &mTevKColor[idx]; } virtual void setTevKColorSel(u32 idx, u8 const* sel) { J3D_ASSERT_RANGE(0x823, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); J3D_ASSERT_NULLPTR(0x824, sel != 0); mTevKColorSel[idx] = *sel; } virtual void setTevKColorSel(u32 idx, u8 sel) { J3D_ASSERT_RANGE(0x82a, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); mTevKColorSel[idx] = sel; } virtual u8 getTevKColorSel(u32 idx) { J3D_ASSERT_RANGE(0x82f, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); return mTevKColorSel[idx]; } virtual void setTevKAlphaSel(u32 idx, u8 const* sel) { J3D_ASSERT_RANGE(0x836, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); J3D_ASSERT_NULLPTR(0x837, sel != 0); mTevKAlphaSel[idx] = *sel; } virtual void setTevKAlphaSel(u32 idx, u8 sel) { J3D_ASSERT_RANGE(0x83d, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); mTevKAlphaSel[idx] = sel; } virtual u8 getTevKAlphaSel(u32 idx) { J3D_ASSERT_RANGE(0x842, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); return mTevKAlphaSel[idx]; } virtual void setTevStageNum(u8 const* num) { J3D_ASSERT_NULLPTR(0x848, num != 0); mTevStageNum = *num; } virtual void setTevStageNum(u8 num) { mTevStageNum = num; } virtual u8 getTevStageNum() const { return mTevStageNum; } virtual void setTevStage(u32 idx, J3DTevStage const* stage) { J3D_ASSERT_RANGE(0x857, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); J3D_ASSERT_NULLPTR(0x858, stage != 0); mTevStage[idx] = *stage; } virtual void setTevStage(u32 idx, J3DTevStage stage) { J3D_ASSERT_RANGE(0x85e, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); mTevStage[idx] = stage; } virtual J3DTevStage* getTevStage(u32 idx) { J3D_ASSERT_RANGE(0x863, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); return &mTevStage[idx]; } virtual void setTevSwapModeInfo(u32 idx, J3DTevSwapModeInfo const* info) { J3D_ASSERT_RANGE(0x86a, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); J3D_ASSERT_NULLPTR(0x86b, info != 0); mTevStage[idx].setTevSwapModeInfo(*info); } virtual void setTevSwapModeInfo(u32 idx, J3DTevSwapModeInfo info) { J3D_ASSERT_RANGE(0x871, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); mTevStage[idx].setTevSwapModeInfo(info); } virtual void setTevSwapModeTable(u32 idx, J3DTevSwapModeTable const* table) { J3D_ASSERT_RANGE(0x878, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); J3D_ASSERT_NULLPTR(0x879, table != 0); mTevSwapModeTable[idx] = *table; } virtual void setTevSwapModeTable(u32 idx, J3DTevSwapModeTable table) { J3D_ASSERT_RANGE(0x87f, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); mTevSwapModeTable[idx] = table; } virtual J3DTevSwapModeTable* getTevSwapModeTable(u32 idx) { J3D_ASSERT_RANGE(0x884, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); return &mTevSwapModeTable[idx]; } virtual void setIndTevStage(u32 idx, J3DIndTevStage const* stage) { J3D_ASSERT_RANGE(0x88b, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); J3D_ASSERT_NULLPTR(0x88c, stage != 0); mIndTevStage[idx] = *stage; } virtual void setIndTevStage(u32 idx, J3DIndTevStage stage) { J3D_ASSERT_RANGE(0x892, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); mIndTevStage[idx] = stage; } virtual J3DIndTevStage* getIndTevStage(u32 idx) { J3D_ASSERT_RANGE(0x897, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); return &mIndTevStage[idx]; } virtual u32 getTexNoOffset() const { return mTexNoOffset; } virtual u32 getTevRegOffset() const { return mTevRegOffset; } virtual void setTevRegOffset(u32 offset) { mTevRegOffset = offset; } virtual ~J3DTevBlock4() {} /* 0x08 */ u16 mTexNo[4]; /* 0x10 */ J3DTevOrder mTevOrder[4]; /* 0x20 */ u8 mTevStageNum; /* 0x21 */ J3DTevStage mTevStage[4]; /* 0x42 */ J3DGXColorS10 mTevColor[4]; /* 0x62 */ J3DGXColor mTevKColor[4]; /* 0x72 */ u8 mTevKColorSel[4]; /* 0x76 */ u8 mTevKAlphaSel[4]; /* 0x7A */ J3DTevSwapModeTable mTevSwapModeTable[4]; /* 0x80 */ J3DIndTevStage mIndTevStage[4]; /* 0x90 */ u32 mTevRegOffset; }; // Size: 0x94 /** * @ingroup jsystem-j3d * */ class J3DTevBlock16 : public J3DTevBlock { public: J3DTevBlock16() { initialize(); } void initialize(); virtual void reset(J3DTevBlock*); virtual void load(); virtual void diffTexNo(); virtual void diffTevReg(); virtual void diffTexCoordScale(); virtual void diffTevStage(); virtual void diffTevStageIndirect(); virtual void patch(); virtual void patchTexNo(); virtual void patchTevReg(); virtual void patchTexNoAndTexCoordScale(); virtual void ptrToIndex(); virtual void indexToPtr() { indexToPtr_private(mTexNoOffset); } virtual u32 getType() { return 'TV16'; } virtual s32 countDLSize(); virtual void setTexNo(u32 idx, u16 const* texNo) { J3D_ASSERT_RANGE(0x8f6, idx >= 0 && idx < ARRAY_SIZEU(mTexNo)); J3D_ASSERT_NULLPTR(0x8f7, texNo != 0); mTexNo[idx] = *texNo; } virtual void setTexNo(u32 idx, u16 texNo) { J3D_ASSERT_RANGE(0x8fd, idx >= 0 && idx < 8); mTexNo[idx] = texNo; } virtual u16 getTexNo(u32 idx) const { J3D_ASSERT_RANGE(2308, idx >= 0 && idx < 8); return mTexNo[idx]; } virtual void setTevOrder(u32 idx, J3DTevOrder const* order) { J3D_ASSERT_RANGE(0x90b, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); J3D_ASSERT_NULLPTR(0x90c, order != 0); mTevOrder[idx] = *order; } virtual void setTevOrder(u32 idx, J3DTevOrder order) { J3D_ASSERT_RANGE(0x912, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); mTevOrder[idx] = order; } virtual J3DTevOrder* getTevOrder(u32 idx) { J3D_ASSERT_RANGE(0x917, idx >= 0 && idx < ARRAY_SIZEU(mTevOrder)); return &mTevOrder[idx]; } virtual void setTevColor(u32 idx, J3DGXColorS10 const* color) { J3D_ASSERT_RANGE(0x91e, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); J3D_ASSERT_NULLPTR(0x91f, color != 0); mTevColor[idx] = *color; } virtual void setTevColor(u32 idx, J3DGXColorS10 color) { J3D_ASSERT_RANGE(0x925, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); mTevColor[idx] = color; } virtual J3DGXColorS10* getTevColor(u32 idx) { J3D_ASSERT_RANGE(0x92a, idx >= 0 && idx < ARRAY_SIZEU(mTevColor)); return &mTevColor[idx]; } virtual void setTevKColor(u32 idx, J3DGXColor const* color) { J3D_ASSERT_RANGE(0x931, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); J3D_ASSERT_NULLPTR(0x932, color != 0); mTevKColor[idx] = *color; } virtual void setTevKColor(u32 idx, J3DGXColor color) { J3D_ASSERT_RANGE(0x938, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); mTevKColor[idx] = color; } virtual J3DGXColor* getTevKColor(u32 idx) { J3D_ASSERT_RANGE(0x93d, idx >= 0 && idx < ARRAY_SIZEU(mTevKColor)); return &mTevKColor[idx]; } virtual void setTevKColorSel(u32 idx, u8 const* sel) { J3D_ASSERT_RANGE(0x944, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); J3D_ASSERT_NULLPTR(0x945, sel != 0); mTevKColorSel[idx] = *sel; } virtual void setTevKColorSel(u32 idx, u8 sel) { J3D_ASSERT_RANGE(0x94b, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); mTevKColorSel[idx] = sel; } virtual u8 getTevKColorSel(u32 idx) { J3D_ASSERT_RANGE(0x950, idx >= 0 && idx < ARRAY_SIZEU(mTevKColorSel)); return mTevKColorSel[idx]; } virtual void setTevKAlphaSel(u32 idx, u8 const* sel) { J3D_ASSERT_RANGE(0x957, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); J3D_ASSERT_NULLPTR(0x958, sel != 0); mTevKAlphaSel[idx] = *sel; } virtual void setTevKAlphaSel(u32 idx, u8 sel) { J3D_ASSERT_RANGE(0x95e, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); mTevKAlphaSel[idx] = sel; } virtual u8 getTevKAlphaSel(u32 idx) { J3D_ASSERT_RANGE(0x963, idx >= 0 && idx < ARRAY_SIZEU(mTevKAlphaSel)); return mTevKAlphaSel[idx]; } virtual void setTevStageNum(u8 const* num) { J3D_ASSERT_NULLPTR(0x969, num != 0); mTevStageNum = *num; } virtual void setTevStageNum(u8 num) { mTevStageNum = num; } virtual u8 getTevStageNum() const { return mTevStageNum; } virtual void setTevStage(u32 idx, J3DTevStage const* stage) { J3D_ASSERT_RANGE(0x978, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); J3D_ASSERT_NULLPTR(0x979, stage != 0); mTevStage[idx] = *stage; } virtual void setTevStage(u32 idx, J3DTevStage stage) { J3D_ASSERT_RANGE(0x97f, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); mTevStage[idx] = stage; } virtual J3DTevStage* getTevStage(u32 idx) { J3D_ASSERT_RANGE(0x984, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); return &mTevStage[idx]; } virtual void setTevSwapModeInfo(u32 idx, J3DTevSwapModeInfo const* info) { J3D_ASSERT_RANGE(0x98b, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); J3D_ASSERT_NULLPTR(0x98c, info != 0); mTevStage[idx].setTevSwapModeInfo(*info); } virtual void setTevSwapModeInfo(u32 idx, J3DTevSwapModeInfo info) { J3D_ASSERT_RANGE(0x992, idx >= 0 && idx < ARRAY_SIZEU(mTevStage)); mTevStage[idx].setTevSwapModeInfo(info); } virtual void setTevSwapModeTable(u32 idx, J3DTevSwapModeTable const* table) { J3D_ASSERT_RANGE(0x999, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); J3D_ASSERT_NULLPTR(0x99a, table != 0); mTevSwapModeTable[idx] = *table; } virtual void setTevSwapModeTable(u32 idx, J3DTevSwapModeTable table) { J3D_ASSERT_RANGE(0x9a0, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); mTevSwapModeTable[idx] = table; } virtual J3DTevSwapModeTable* getTevSwapModeTable(u32 idx) { J3D_ASSERT_RANGE(0x9a5, idx >= 0 && idx < ARRAY_SIZEU(mTevSwapModeTable)); return &mTevSwapModeTable[idx]; } virtual void setIndTevStage(u32 idx, J3DIndTevStage const* stage) { J3D_ASSERT_RANGE(0x9ac, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); J3D_ASSERT_NULLPTR(0x9ad, stage != 0); mIndTevStage[idx] = *stage; } virtual void setIndTevStage(u32 idx, J3DIndTevStage stage) { J3D_ASSERT_RANGE(0x9b3, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); mIndTevStage[idx] = stage; } virtual J3DIndTevStage* getIndTevStage(u32 idx) { J3D_ASSERT_RANGE(0x9b8, idx >= 0 && idx < ARRAY_SIZEU(mIndTevStage)); return &mIndTevStage[idx]; } virtual u32 getTexNoOffset() const { return mTexNoOffset; } virtual u32 getTevRegOffset() const { return mTevRegOffset; } virtual void setTevRegOffset(u32 offset) { mTevRegOffset = offset; } virtual ~J3DTevBlock16() {} /* 0x008 */ u16 mTexNo[8]; /* 0x018 */ J3DTevOrder mTevOrder[16]; /* 0x058 */ u8 mTevStageNum; /* 0x059 */ J3DTevStage mTevStage[16]; /* 0x0DA */ J3DGXColorS10 mTevColor[4]; /* 0x0FA */ J3DGXColor mTevKColor[4]; /* 0x10A */ u8 mTevKColorSel[16]; /* 0x11A */ u8 mTevKAlphaSel[16]; /* 0x12A */ J3DTevSwapModeTable mTevSwapModeTable[4]; /* 0x130 */ J3DIndTevStage mIndTevStage[16]; /* 0x170 */ u32 mTevRegOffset; }; // Size: 0x174 extern const u16 j3dDefaultZModeID; inline u16 calcZModeID(u8 param_0, u8 param_1, u8 param_2) { return param_1 * 2 + param_0 * 0x10 + param_2; } /** * @ingroup jsystem-j3d * */ struct J3DZModeInfo { /* 0x0 */ u8 field_0x0; /* 0x1 */ u8 field_0x1; /* 0x2 */ u8 field_0x2; /* 0x3 */ u8 pad; }; extern u8 j3dZModeTable[96]; /** * @ingroup jsystem-j3d * */ struct J3DZMode { J3DZMode() : mZModeID(j3dDefaultZModeID) {} J3DZMode(J3DZModeInfo const& info) : mZModeID(calcZModeID(info.field_0x0, info.field_0x1, info.field_0x2)) {} J3DZMode& operator=(u16 zModeID) { mZModeID = zModeID; return *this; } void setZModeInfo(const J3DZModeInfo& info) { mZModeID = calcZModeID(info.field_0x0, info.field_0x1, info.field_0x2); } void setCompareEnable(u8 i_compare) { mZModeID = calcZModeID(i_compare, j3dZModeTable[mZModeID * 3 + 1], j3dZModeTable[mZModeID * 3 + 2]); } void setFunc(u8 i_func) { mZModeID = calcZModeID(j3dZModeTable[mZModeID * 3], i_func, j3dZModeTable[mZModeID * 3 + 2]); } void setUpdateEnable(u8 i_enable) { mZModeID = calcZModeID(j3dZModeTable[mZModeID * 3], j3dZModeTable[mZModeID * 3 + 1], i_enable); } void load() const { J3DGDSetZMode(getCompareEnable(), GXCompare(getFunc()), getUpdateEnable()); } u8 getCompareEnable() const { return *(&j3dZModeTable[mZModeID * 3] + 0); } u8 getFunc() const { return *(&j3dZModeTable[mZModeID * 3] + 1); } u8 getUpdateEnable() const { return *(&j3dZModeTable[mZModeID * 3] + 2); } /* 0x0 */ u16 mZModeID; }; /** * @ingroup jsystem-j3d * */ struct J3DBlendInfo { void operator=(J3DBlendInfo const& other) { *(int*)&mType = *(int*)&other.mType; } /* 0x0 */ u8 mType; /* 0x1 */ u8 mSrcFactor; /* 0x2 */ u8 mDstFactor; /* 0x3 */ u8 mOp; }; extern const J3DBlendInfo j3dDefaultBlendInfo; /** * @ingroup jsystem-j3d * */ struct J3DBlend : public J3DBlendInfo { J3DBlend() : J3DBlendInfo(j3dDefaultBlendInfo) {} J3DBlend(J3DBlendInfo const& info) : J3DBlendInfo(info) {} void setType(u8 i_type) { mType = i_type; } void setSrcFactor(u8 i_factor) { mSrcFactor = i_factor; } void setDstFactor(u8 i_factor) { mDstFactor = i_factor; } GXBlendMode getBlendMode() const { return (GXBlendMode)mType; } GXBlendFactor getSrcFactor() const { return (GXBlendFactor)mSrcFactor; } GXBlendFactor getDstFactor() const { return (GXBlendFactor)mDstFactor; } GXLogicOp getLogicOp() const { return (GXLogicOp)mOp; } void load(u8 ditherEnable) const { J3DGDSetBlendMode((GXBlendMode)mType, (GXBlendFactor)mSrcFactor, (GXBlendFactor)mDstFactor, (GXLogicOp)mOp, ditherEnable); } void setBlendInfo(const J3DBlendInfo& i_blendInfo) { *static_cast(this) = i_blendInfo; } }; extern const J3DFogInfo j3dDefaultFogInfo; /** * @ingroup jsystem-j3d * */ struct J3DFog : public J3DFogInfo { J3DFog() { *(J3DFogInfo*)this = j3dDefaultFogInfo; } ~J3DFog() {} J3DFogInfo* getFogInfo() { return this; } void setFogInfo(J3DFogInfo info) { *(J3DFogInfo*)this = info; } void setFogInfo(const J3DFogInfo* info) { *(J3DFogInfo*)this = *info; } void load() const { J3DGDSetFog(GXFogType(mType), mStartZ, mEndZ, mNearZ, mFarZ, mColor); J3DGDSetFogRangeAdj(mAdjEnable, mCenter, (GXFogAdjTable*)&mFogAdjTable); } }; /** * @ingroup jsystem-j3d * */ struct J3DAlphaCompInfo { /* 0x0 */ u8 mComp0; /* 0x1 */ u8 mRef0; /* 0x2 */ u8 mOp; /* 0x3 */ u8 mComp1; /* 0x4 */ u8 mRef1; /* 0x5 */ u8 field_0x5; /* 0x6 */ u8 field_0x6; /* 0x7 */ u8 field_0x7; }; extern const u16 j3dDefaultAlphaCmpID; inline u16 calcAlphaCmpID(u8 comp0, u8 op, u8 comp1) { return (comp0 << 5) + (op << 3) + (comp1); } /** * @ingroup jsystem-j3d * */ struct J3DAlphaComp { J3DAlphaComp() : mID(j3dDefaultAlphaCmpID), mRef0(0), mRef1(0) {} J3DAlphaComp(u16 id) : mID(id), mRef0(0), mRef1(0) {} explicit J3DAlphaComp(const J3DAlphaCompInfo& info) { mID = calcAlphaCmpID(info.mComp0, info.mOp, info.mComp1); mRef0 = info.mRef0; mRef1 = info.mRef1; } J3DAlphaComp& operator=(u16 id) { mID = id; return *this; } J3DAlphaComp& operator=(const J3DAlphaComp& rhs) { mID = rhs.mID; mRef0 = rhs.mRef0; mRef1 = rhs.mRef1; return *this; } J3DAlphaComp& operator=(J3DAlphaComp& rhs) { mID = rhs.mID; mRef0 = rhs.mRef0; mRef1 = rhs.mRef1; return *this; } void setAlphaCompInfo(const J3DAlphaCompInfo& info) { mRef0 = info.mRef0; mRef1 = info.mRef1; mID = calcAlphaCmpID(info.mComp0, info.mOp, info.mComp1); } u8 getComp0() const { return *(&j3dAlphaCmpTable[mID * 3] + 0); } u8 getOp() const { return *(&j3dAlphaCmpTable[mID * 3] + 1); } u8 getComp1() const { return *(&j3dAlphaCmpTable[mID * 3] + 2); } u8 getRef0() const { return mRef0; } u8 getRef1() const { return mRef1; } void load() const { J3DGDSetAlphaCompare((GXCompare)getComp0(), mRef0, (GXAlphaOp)getOp(), (GXCompare)getComp1(), mRef1); } /* 0x00 */ u16 mID; /* 0x02 */ u8 mRef0; /* 0x03 */ u8 mRef1; }; // Size: 0x4 /** * @ingroup jsystem-j3d * */ struct J3DIndTexOrderInfo { /* 0x0 */ u8 mCoord; /* 0x1 */ u8 mMap; /* 0x2 */ u8 field_0x2; /* 0x3 */ u8 field_0x3; }; // Size: 0x04 extern const J3DIndTexOrderInfo j3dDefaultIndTexOrderNull; /** * @ingroup jsystem-j3d * */ struct J3DIndTexOrder : public J3DIndTexOrderInfo { J3DIndTexOrder() : J3DIndTexOrderInfo(j3dDefaultIndTexOrderNull) {} J3DIndTexOrder& operator=(J3DIndTexOrder const& other) { *(u32*)this = *(u32*)&other; return *this; } J3DIndTexOrder(J3DIndTexOrderInfo const& info) : J3DIndTexOrderInfo(info) {} u8 getMap() const { return (GXTexMapID)mMap; } u8 getCoord() const { return (GXTexCoordID)mCoord; } }; // Size: 0x04 extern J3DIndTexMtxInfo const j3dDefaultIndTexMtxInfo; /** * @ingroup jsystem-j3d * */ struct J3DIndTexMtx : public J3DIndTexMtxInfo { J3DIndTexMtx() { *(J3DIndTexMtxInfo*)this = j3dDefaultIndTexMtxInfo; } J3DIndTexMtx(J3DIndTexMtxInfo const& info) { *(J3DIndTexMtxInfo*)this = info; } ~J3DIndTexMtx() {} void load(u32 param_1) const { J3DGDSetIndTexMtx((GXIndTexMtxID)(param_1 + GX_ITM_0), (Mtx3P)field_0x0, field_0x18); } }; // Size: 0x1C /** * @ingroup jsystem-j3d * */ struct J3DIndTexCoordScaleInfo { /* 0x0 */ u8 mScaleS; /* 0x1 */ u8 mScaleT; /* 0x2 */ u8 field_0x2; /* 0x3 */ u8 field_0x3; }; // Size: 0x4 extern const J3DIndTexCoordScaleInfo j3dDefaultIndTexCoordScaleInfo; /** * @ingroup jsystem-j3d * */ struct J3DIndTexCoordScale : public J3DIndTexCoordScaleInfo { J3DIndTexCoordScale() : J3DIndTexCoordScaleInfo(j3dDefaultIndTexCoordScaleInfo) {} J3DIndTexCoordScale(J3DIndTexCoordScaleInfo const& info) : J3DIndTexCoordScaleInfo(info) {} ~J3DIndTexCoordScale() {} u8 getScaleS() { return mScaleS; } u8 getScaleT() { return mScaleT; } J3DIndTexCoordScale& operator=(const J3DIndTexCoordScale& other) { //__memcpy(this, &other, sizeof(J3DIndTexCoordScaleInfo)); *(u32*)this = *(u32*)&other; return *this; } }; // Size: 0x4 /** * @ingroup jsystem-j3d * */ class J3DIndBlock { public: virtual void reset(J3DIndBlock*) {} virtual void diff(u32) = 0; virtual void load() = 0; virtual s32 countDLSize() { return 0; } virtual u32 getType() = 0; virtual void setIndTexStageNum(u8) {} virtual u8 getIndTexStageNum() const { return 0; } virtual void setIndTexOrder(u32, J3DIndTexOrder) {} virtual void setIndTexOrder(u32, J3DIndTexOrder const*) {} virtual J3DIndTexOrder* getIndTexOrder(u32) { return NULL; } virtual void setIndTexMtx(u32, J3DIndTexMtx const*) {} virtual void setIndTexMtx(u32, J3DIndTexMtx) {} virtual J3DIndTexMtx* getIndTexMtx(u32) { return NULL; } virtual void setIndTexCoordScale(u32, J3DIndTexCoordScale const*) {} virtual void setIndTexCoordScale(u32, J3DIndTexCoordScale) {} virtual J3DIndTexCoordScale* getIndTexCoordScale(u32) { return NULL; } virtual ~J3DIndBlock() {} }; /** * @ingroup jsystem-j3d * */ class J3DIndBlockNull : public J3DIndBlock { public: virtual void diff(u32) {} virtual void load() {} virtual void reset(J3DIndBlock*) {} virtual u32 getType() { return 'IBLN'; } virtual ~J3DIndBlockNull() {} }; /** * @ingroup jsystem-j3d * */ class J3DIndBlockFull : public J3DIndBlock { public: J3DIndBlockFull() { initialize(); } void initialize(); virtual s32 countDLSize(); virtual void reset(J3DIndBlock*); virtual void diff(u32); virtual void load(); virtual u32 getType() { return 'IBLF'; } virtual void setIndTexStageNum(u8 num) { mIndTexStageNum = num; } virtual u8 getIndTexStageNum() const { return mIndTexStageNum; } virtual void setIndTexOrder(u32 idx, J3DIndTexOrder const* order) { J3D_ASSERT_NULLPTR(0xa94, order != 0); J3D_ASSERT_RANGE(0xa95, idx >= 0 && idx < ARRAY_SIZEU(mIndTexOrder)); mIndTexOrder[idx] = *order; } virtual void setIndTexOrder(u32 idx, J3DIndTexOrder order) { J3D_ASSERT_RANGE(0xa9b, idx >= 0 && idx < ARRAY_SIZEU(mIndTexOrder)); mIndTexOrder[idx] = order; } virtual J3DIndTexOrder* getIndTexOrder(u32 idx) { J3D_ASSERT_RANGE(0xaa0, idx >= 0 && idx < ARRAY_SIZEU(mIndTexOrder)); return &mIndTexOrder[idx]; } virtual void setIndTexMtx(u32 idx, J3DIndTexMtx const* mtx) { J3D_ASSERT_NULLPTR(0xaa7, mtx != 0); J3D_ASSERT_RANGE(0xaa8, idx >= 0 && idx < ARRAY_SIZEU(mIndTexMtx)); mIndTexMtx[idx] = *mtx; } virtual void setIndTexMtx(u32 idx, J3DIndTexMtx mtx) { J3D_ASSERT_RANGE(0xaae, idx >= 0 && idx < ARRAY_SIZEU(mIndTexMtx)); mIndTexMtx[idx] = mtx; } virtual J3DIndTexMtx* getIndTexMtx(u32 idx) { J3D_ASSERT_RANGE(0xab3, idx >= 0 && idx < ARRAY_SIZEU(mIndTexMtx)); return &mIndTexMtx[idx]; } virtual void setIndTexCoordScale(u32 idx, J3DIndTexCoordScale const* scale) { J3D_ASSERT_NULLPTR(0xaba, scale != 0); J3D_ASSERT_RANGE(0xabb, idx >= 0 && idx < ARRAY_SIZEU(mIndTexCoordScale)); mIndTexCoordScale[idx] = *scale; } virtual void setIndTexCoordScale(u32 idx, J3DIndTexCoordScale scale) { J3D_ASSERT_RANGE(0xac1, idx >= 0 && idx < ARRAY_SIZEU(mIndTexCoordScale)); mIndTexCoordScale[idx] = scale; } virtual J3DIndTexCoordScale* getIndTexCoordScale(u32 idx) { J3D_ASSERT_RANGE(0xac6, idx >= 0 && idx < ARRAY_SIZEU(mIndTexCoordScale)); return &mIndTexCoordScale[idx]; } virtual ~J3DIndBlockFull() {} /* 0x04 */ u8 mIndTexStageNum; /* 0x05 */ J3DIndTexOrder mIndTexOrder[4]; /* 0x18 */ J3DIndTexMtx mIndTexMtx[3]; /* 0x6C */ J3DIndTexCoordScale mIndTexCoordScale[4]; }; // Size: 0x7C /** * @ingroup jsystem-j3d * */ class J3DPEBlock { public: virtual void reset(J3DPEBlock*) {} virtual void load() = 0; virtual void patch() {} virtual void diff(u32) {} virtual void diffFog() {} virtual void diffBlend() {} virtual s32 countDLSize() { return 0; } virtual u32 getType() = 0; virtual void setFog(J3DFog) {} virtual void setFog(J3DFog*) {} virtual J3DFog* getFog() { return NULL; } virtual void setAlphaComp(J3DAlphaComp const*) {} virtual void setAlphaComp(J3DAlphaComp const&) {} virtual J3DAlphaComp* getAlphaComp() { return NULL; } virtual void setBlend(J3DBlend const*) {} virtual void setBlend(J3DBlend const&) {} virtual J3DBlend* getBlend() { return NULL; } virtual void setZMode(J3DZMode const*) {} virtual void setZMode(J3DZMode) {} virtual J3DZMode* getZMode() { return NULL; } virtual void setZCompLoc(u8 const*) {} virtual void setZCompLoc(u8) {} virtual u8 getZCompLoc() const { return 0; } virtual void setDither(u8 const*) {} virtual void setDither(u8) {} virtual u8 getDither() const { return 0; } virtual u32 getFogOffset() const { return 0; } virtual void setFogOffset(u32) {} virtual ~J3DPEBlock() {} }; /** * @ingroup jsystem-j3d * */ struct J3DPEBlockNull : public J3DPEBlock { virtual void load() {} virtual u32 getType() { return 'PENL'; } virtual ~J3DPEBlockNull() {} }; /** * @ingroup jsystem-j3d * */ class J3DPEBlockOpa : public J3DPEBlock { public: virtual s32 countDLSize(); virtual void load(); virtual u32 getType() { return 'PEOP'; } virtual ~J3DPEBlockOpa() {} }; /** * @ingroup jsystem-j3d * */ class J3DPEBlockTexEdge : public J3DPEBlock { public: virtual s32 countDLSize(); virtual void load(); virtual u32 getType() { return 'PEED'; } virtual ~J3DPEBlockTexEdge() {} }; /** * @ingroup jsystem-j3d * */ class J3DPEBlockXlu : public J3DPEBlock { public: virtual s32 countDLSize(); virtual void load(); virtual u32 getType() { return 'PEXL'; } virtual ~J3DPEBlockXlu() {} }; /** * @ingroup jsystem-j3d * */ class J3DPEBlockFogOff : public J3DPEBlock { public: J3DPEBlockFogOff() { initialize(); } void initialize(); virtual void reset(J3DPEBlock*); virtual void load(); virtual void diff(u32 param_0) { if (param_0 & 0x20000000) diffBlend(); }; virtual void diffBlend(); virtual s32 countDLSize(); virtual u32 getType() { return 'PEFG'; } virtual void setAlphaComp(J3DAlphaComp const* alphaComp) { J3D_ASSERT_NULLPTR(0xbf9, alphaComp != 0); mAlphaComp = *alphaComp; } virtual void setAlphaComp(J3DAlphaComp const& alphaComp) { mAlphaComp = alphaComp; } virtual J3DAlphaComp* getAlphaComp() { return &mAlphaComp; } virtual void setBlend(J3DBlend const* blend) { J3D_ASSERT_NULLPTR(0xc07, blend != 0); mBlend = *blend; } virtual void setBlend(J3DBlend const& blend) { mBlend = blend; } virtual J3DBlend* getBlend() { return &mBlend; } virtual void setZMode(J3DZMode const* zMode) { J3D_ASSERT_NULLPTR(0xc15, zMode != 0); mZMode = *zMode; } virtual void setZMode(J3DZMode zMode) { mZMode = zMode; } virtual J3DZMode* getZMode() { return &mZMode; } virtual void setZCompLoc(u8 const* zCompLoc) { J3D_ASSERT_NULLPTR(0xc23, zCompLoc != 0); mZCompLoc = *zCompLoc; } virtual void setZCompLoc(u8 zCompLoc) { mZCompLoc = zCompLoc; } virtual u8 getZCompLoc() const { return mZCompLoc; } virtual void setDither(u8 const* dither) { J3D_ASSERT_NULLPTR(0xc31, dither != 0); mDither = *dither; } virtual void setDither(u8 dither) { mDither = dither; } virtual u8 getDither() const { return mDither; } virtual ~J3DPEBlockFogOff() {} /* 0x04 */ J3DAlphaComp mAlphaComp; /* 0x08 */ J3DBlend mBlend; /* 0x0C */ J3DZMode mZMode; /* 0x0E */ u8 mZCompLoc; /* 0x0F */ u8 mDither; }; // Size: 0x10 /** * @ingroup jsystem-j3d * */ class J3DPEBlockFull : public J3DPEBlock { public: J3DPEBlockFull() { initialize(); } void initialize(); virtual void reset(J3DPEBlock*); virtual void load(); virtual void patch(); virtual void diff(u32); virtual void diffFog(); virtual void diffBlend(); virtual s32 countDLSize(); virtual u32 getType() { return 'PEFL'; } virtual void setFog(J3DFog fog) { mFog.setFogInfo(fog.getFogInfo()); } virtual void setFog(J3DFog* pFog) { mFog.setFogInfo(pFog->getFogInfo()); } virtual J3DFog* getFog() { return &mFog; } virtual void setAlphaComp(J3DAlphaComp const* alphaComp) { J3D_ASSERT_NULLPTR(0xc7d, alphaComp != 0); mAlphaComp = *alphaComp; } virtual void setAlphaComp(J3DAlphaComp const& alphaComp) { mAlphaComp = alphaComp; } virtual J3DAlphaComp* getAlphaComp() { return &mAlphaComp; } virtual void setBlend(J3DBlend const* blend) { J3D_ASSERT_NULLPTR(0xc8b, blend != 0); mBlend = *blend; } virtual void setBlend(J3DBlend const& blend) { mBlend = blend; } virtual J3DBlend* getBlend() { return &mBlend; } virtual void setZMode(J3DZMode const* zMode) { J3D_ASSERT_NULLPTR(0xc99, zMode != 0); mZMode = *zMode; } virtual void setZMode(J3DZMode zMode) { mZMode = zMode; } virtual J3DZMode* getZMode() { return &mZMode; } virtual void setZCompLoc(u8 const* zCompLoc) { J3D_ASSERT_NULLPTR(0xca7, zCompLoc != 0); mZCompLoc = *zCompLoc; } virtual void setZCompLoc(u8 zCompLoc) { mZCompLoc = zCompLoc; } virtual u8 getZCompLoc() const { return mZCompLoc; } virtual void setDither(u8 const* dither) { J3D_ASSERT_NULLPTR(0xcb5, dither != 0); mDither = *dither; } virtual void setDither(u8 dither) { mDither = dither; } virtual u8 getDither() const { return mDither; } virtual u32 getFogOffset() const { return mFogOffset; } virtual void setFogOffset(u32 fogOffset) { mFogOffset = fogOffset; } virtual ~J3DPEBlockFull() {} /* 0x04 */ J3DFog mFog; /* 0x30 */ J3DAlphaComp mAlphaComp; /* 0x34 */ J3DBlend mBlend; /* 0x38 */ J3DZMode mZMode; /* 0x3A */ u8 mZCompLoc; /* 0x3B */ u8 mDither; /* 0x3C */ u32 mFogOffset; }; // Size: 0x40 /** * @ingroup jsystem-j3d * */ struct J3DColorBlockNull : public J3DColorBlock { virtual u32 getType() { return 'CLNL'; } virtual ~J3DColorBlockNull() {} }; #endif /* J3DMATBLOCK_H */