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https://github.com/zeldaret/tww.git
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Kristopher Early
396599cd7a
* d_a_obj_rcloud * Refactor daObjRcloud_c and update resource usage Renamed enum values and return types in daObjRcloud_c for clarity and consistency. Updated resource indices to use named constants from res_bvkumo.h. Replaced magic numbers and variable names for improved readability. Removed an obsolete comment in J3DTexture.h. * Rename variable o_phase to phase in _create method Refactored the variable name from o_phase to phase in the daObjRcloud_c::_create() method for clarity and consistency. * Set configure.py to matching.
96 lines
3.0 KiB
C++
96 lines
3.0 KiB
C++
#ifndef J3DTEXTURE_H
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#define J3DTEXTURE_H
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#include "JSystem/J3DGraphBase/J3DGD.h"
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#include "JSystem/J3DGraphBase/J3DStruct.h"
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#include "JSystem/J3DGraphBase/J3DTevs.h"
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#include "JSystem/JUtility/JUTAssert.h"
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#include "JSystem/JUtility/JUTTexture.h"
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#include "dolphin/mtx/mtx.h"
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#include "dolphin/types.h"
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inline void J3DGDLoadTexMtxImm(Mtx pMtx, u32 i, GXTexMtxType mType) {
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u16 cmd = i * 4;
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u8 len = mType == GX_MTX2x4 ? 8 : 12;
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J3DGDWriteXFCmdHdr(cmd, len);
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J3DGDWrite_f32(pMtx[0][0]);
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J3DGDWrite_f32(pMtx[0][1]);
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J3DGDWrite_f32(pMtx[0][2]);
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J3DGDWrite_f32(pMtx[0][3]);
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J3DGDWrite_f32(pMtx[1][0]);
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J3DGDWrite_f32(pMtx[1][1]);
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J3DGDWrite_f32(pMtx[1][2]);
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J3DGDWrite_f32(pMtx[1][3]);
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if (mType == GX_MTX3x4) {
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J3DGDWrite_f32(pMtx[2][0]);
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J3DGDWrite_f32(pMtx[2][1]);
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J3DGDWrite_f32(pMtx[2][2]);
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J3DGDWrite_f32(pMtx[2][3]);
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}
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}
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class J3DTexture {
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private:
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/* 0x0 */ u16 mNum;
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/* 0x4 */ ResTIMG* mpRes;
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public:
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J3DTexture(u16 num, ResTIMG* res) : mNum(num), mpRes(res) {}
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virtual ~J3DTexture() {}
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void loadGX(u16, GXTexMapID) const;
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void entryNum(u16);
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void addResTIMG(u16, ResTIMG const*);
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u16 getNum() const { return mNum; }
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ResTIMG* getResTIMG(u16 entry) const {
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J3D_ASSERT(72, entry < mNum, "Error : range over.");
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return &mpRes[entry];
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}
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void setResTIMG(u16 entry, const ResTIMG& timg) {
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mpRes[entry] = timg;
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mpRes[entry].imageOffset = ((mpRes[entry].imageOffset + (u32)&timg - (u32)(mpRes + entry)));
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mpRes[entry].paletteOffset = ((mpRes[entry].paletteOffset + (u32)&timg - (u32)(mpRes + entry)));
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}
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};
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class J3DTexMtx {
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public:
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J3DTexMtx() { mTexMtxInfo = j3dDefaultTexMtxInfo; }
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J3DTexMtx(const J3DTexMtxInfo& info) {
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mTexMtxInfo = info;
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}
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~J3DTexMtx() {}
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void load(u32 texMtxID) const {
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GDOverflowCheck(53);
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J3DGDLoadTexMtxImm((Mtx&)mMtx, GX_TEXMTX0 + texMtxID * 3, (GXTexMtxType)mTexMtxInfo.mProjection);
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};
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void calc();
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J3DTexMtxInfo& getTexMtxInfo() { return mTexMtxInfo; }
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Mtx& getMtx() { return mMtx; }
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void setEffectMtx(Mtx effectMtx) { mTexMtxInfo.setEffectMtx(effectMtx); }
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Mtx& getViewMtx() { return mViewMtx; }
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void setViewMtx(const Mtx viewMtx) { MTXCopy(viewMtx, mViewMtx); }
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void setTranslationX(f32 translationX){ mTexMtxInfo.mSRT.mTranslationX = translationX; } // Fakematch
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J3DTextureSRTInfo& getTextureSRT() { return mTexMtxInfo.mSRT;}
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private:
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/* 0x00 */ J3DTexMtxInfo mTexMtxInfo;
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/* 0x64 */ Mtx mMtx;
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/* 0x94 */ Mtx mViewMtx;
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}; // Size: 0xC4
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struct J3DTexCoord : public J3DTexCoordInfo {
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J3DTexCoord() { *(J3DTexCoordInfo*)this = j3dDefaultTexCoordInfo[0]; }
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J3DTexCoord(const J3DTexCoordInfo& info) { *(J3DTexCoordInfo*)this = info; }
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u8 getTexGenType() const { return mTexGenType; }
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u8 getTexGenSrc() const { return mTexGenSrc; }
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u8 getTexGenMtx() const { return mTexGenMtx; }
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void setTexGenMtx(u8 v) { mTexGenMtx = v; }
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}; // Size: 0x4
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#endif /* J3DTEXTURE_H */
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