mirror of
https://github.com/CookiePLMonster/SilentPatch.git
synced 2024-12-29 15:23:02 +05:00
370 lines
No EOL
12 KiB
C++
370 lines
No EOL
12 KiB
C++
#ifndef __MATHS__H
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#define __MATHS__H
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#define RAD_TO_DEG (180.0/M_PI)
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#define DEG_TO_RAD (M_PI/180.0)
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class CVector
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{
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public:
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float x, y, z;
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CVector()
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{}
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constexpr CVector(float fX, float fY, float fZ=0.0f)
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: x(fX), y(fY), z(fZ)
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{}
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constexpr CVector(const RwV3d& rwVec)
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: x(rwVec.x), y(rwVec.y), z(rwVec.z)
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{}
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CVector& operator+=(const CVector& vec)
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{ x += vec.x; y += vec.y; z += vec.z;
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return *this; }
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CVector& operator+=(const RwV3d& vec)
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{ x += vec.x; y += vec.y; z += vec.z;
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return *this; }
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CVector& operator-=(const CVector& vec)
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{ x -= vec.x; y -= vec.y; z -= vec.z;
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return *this; }
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CVector& operator-=(const RwV3d& vec)
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{ x -= vec.x; y -= vec.y; z -= vec.z;
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return *this; }
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inline float Magnitude() const
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{ return sqrt(x * x + y * y + z * z); }
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inline constexpr float MagnitudeSqr() const
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{ return x * x + y * y + z * z; }
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inline CVector& Normalize()
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{ float fInvLen = 1.0f / Magnitude(); x *= fInvLen; y *= fInvLen; z *= fInvLen; return *this; }
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friend inline float DotProduct(const CVector& vec1, const CVector& vec2)
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{ return vec1.x * vec2.x + vec1.x * vec2.y + vec1.z * vec2.z; }
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friend inline CVector CrossProduct(const CVector& vec1, const CVector& vec2)
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{ return CVector( vec1.y * vec2.z - vec1.z * vec2.y,
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vec1.z * vec2.x - vec1.x * vec2.z,
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vec1.x * vec2.y - vec1.y * vec2.x); }
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friend inline CVector operator*(const CVector& in, float fMul)
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{ return CVector(in.x * fMul, in.y * fMul, in.z * fMul); }
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friend inline CVector operator+(const CVector& vec1, const CVector& vec2)
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{ return CVector(vec1.x + vec2.x, vec1.y + vec2.y, vec1.z + vec2.z); }
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friend inline CVector operator+(const CVector& vec1, const RwV3d& vec2)
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{ return CVector(vec1.x + vec2.x, vec1.y + vec2.y, vec1.z + vec2.z); }
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friend inline CVector operator-(const CVector& vec1, const CVector& vec2)
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{ return CVector(vec1.x - vec2.x, vec1.y - vec2.y, vec1.z - vec2.z); }
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friend inline CVector operator-(const CVector& vec1, const RwV3d& vec2)
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{ return CVector(vec1.x - vec2.x, vec1.y - vec2.y, vec1.z - vec2.z); }
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friend inline CVector operator-(const CVector& vec)
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{ return CVector(-vec.x, -vec.y, -vec.z); }
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};
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class CVector2D
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{
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public:
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float x, y;
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CVector2D()
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{}
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constexpr CVector2D(float fX, float fY)
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: x(fX), y(fY)
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{}
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CVector2D& operator+=(const CVector2D& vec)
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{ x += vec.x; y += vec.y;
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return *this; }
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CVector2D& operator-=(const CVector2D& vec)
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{ x -= vec.x; y -= vec.y;
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return *this; }
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inline float Magnitude() const
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{ return sqrt(x * x + y * y); }
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inline constexpr float MagnitudeSqr() const
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{ return x * x + y * y; }
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inline CVector2D& Normalize()
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{ float fInvLen = 1.0f / Magnitude(); x *= fInvLen; y *= fInvLen; return *this; }
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friend inline float DotProduct(const CVector2D& vec1, const CVector2D& vec2)
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{ return vec1.x * vec2.x + vec1.x * vec2.y; }
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friend inline CVector2D operator*(const CVector2D& in, float fMul)
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{ return CVector2D(in.x * fMul, in.y * fMul); }
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friend inline CVector2D operator+(const CVector2D& vec1, const CVector2D& vec2)
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{ return CVector2D(vec1.x + vec2.x, vec1.y + vec2.y); }
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friend inline CVector2D operator-(const CVector2D& vec1, const CVector2D& vec2)
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{ return CVector2D(vec1.x - vec2.x, vec1.y - vec2.y); }
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friend inline CVector2D operator-(const CVector2D& vec)
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{ return CVector2D(-vec.x, -vec.y); }
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};
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class CMatrix
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{
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public:
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RwMatrix matrix;
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RwMatrix* pMatrix;
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BOOL haveRwMatrix;
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public:
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inline CMatrix()
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: pMatrix(nullptr), haveRwMatrix(FALSE)
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{}
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inline CMatrix(RwMatrix* pMatrix, bool bHasMatrix=false)
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: pMatrix(nullptr)
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{ Attach(pMatrix, bHasMatrix); }
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inline CMatrix(const CMatrix& theMatrix)
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: pMatrix(nullptr), haveRwMatrix(FALSE), matrix(theMatrix.matrix)
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{}
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inline CMatrix(const CVector& vecRight, const CVector& vecUp, const CVector& vecAt, const CVector& vecPos)
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{
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matrix.right.x = vecRight.x;
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matrix.right.y = vecRight.y;
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matrix.right.z = vecRight.z;
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matrix.up.x = vecUp.x;
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matrix.up.y = vecUp.y;
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matrix.up.z = vecUp.z;
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matrix.at.x = vecAt.x;
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matrix.at.y = vecAt.y;
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matrix.at.z = vecAt.z;
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matrix.pos.x = vecPos.x;
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matrix.pos.y = vecPos.y;
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matrix.pos.z = vecPos.z;
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}
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inline ~CMatrix()
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{ if ( haveRwMatrix && pMatrix )
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RwMatrixDestroy(pMatrix); }
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friend inline CMatrix operator*(const CMatrix& Rot1, const CMatrix& Rot2)
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{ return CMatrix( CVector(Rot1.matrix.right.x * Rot2.matrix.right.x + Rot1.matrix.right.y * Rot2.matrix.up.x + Rot1.matrix.right.z * Rot2.matrix.at.x + Rot2.matrix.pos.x,
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Rot1.matrix.right.x * Rot2.matrix.right.y + Rot1.matrix.right.y * Rot2.matrix.up.y + Rot1.matrix.right.z * Rot2.matrix.at.y + Rot2.matrix.pos.y,
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Rot1.matrix.right.x * Rot2.matrix.right.z + Rot1.matrix.right.y * Rot2.matrix.up.z + Rot1.matrix.right.z * Rot2.matrix.at.z + Rot2.matrix.pos.z),
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CVector(Rot1.matrix.up.x * Rot2.matrix.right.x + Rot1.matrix.up.y * Rot2.matrix.up.x + Rot1.matrix.up.z * Rot2.matrix.at.x + Rot2.matrix.pos.x,
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Rot1.matrix.up.x * Rot2.matrix.right.y + Rot1.matrix.up.y * Rot2.matrix.up.y + Rot1.matrix.up.z * Rot2.matrix.at.y + Rot2.matrix.pos.y,
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Rot1.matrix.up.x * Rot2.matrix.right.z + Rot1.matrix.up.y * Rot2.matrix.up.z + Rot1.matrix.up.z * Rot2.matrix.at.z + Rot2.matrix.pos.z),
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CVector(Rot1.matrix.at.x * Rot2.matrix.right.x + Rot1.matrix.at.y * Rot2.matrix.up.x + Rot1.matrix.at.z * Rot2.matrix.at.x + Rot2.matrix.pos.x,
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Rot1.matrix.at.x * Rot2.matrix.right.y + Rot1.matrix.at.y * Rot2.matrix.up.y + Rot1.matrix.at.z * Rot2.matrix.at.y + Rot2.matrix.pos.y,
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Rot1.matrix.at.x * Rot2.matrix.right.z + Rot1.matrix.at.y * Rot2.matrix.up.z + Rot1.matrix.at.z * Rot2.matrix.at.z + Rot2.matrix.pos.z),
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CVector(Rot1.matrix.pos.x * Rot2.matrix.right.x + Rot1.matrix.pos.y * Rot2.matrix.up.x + Rot1.matrix.pos.z * Rot2.matrix.at.x + Rot2.matrix.pos.x,
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Rot1.matrix.pos.x * Rot2.matrix.right.y + Rot1.matrix.pos.y * Rot2.matrix.up.y + Rot1.matrix.pos.z * Rot2.matrix.at.y + Rot2.matrix.pos.y,
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Rot1.matrix.pos.x * Rot2.matrix.right.z + Rot1.matrix.pos.y * Rot2.matrix.up.z + Rot1.matrix.pos.z * Rot2.matrix.at.z + Rot2.matrix.pos.z)); };
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friend inline CVector operator*(const CMatrix& matrix, const CVector& vec)
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{ return CVector(matrix.matrix.up.x * vec.y + matrix.matrix.right.x * vec.x + matrix.matrix.at.x * vec.z + matrix.matrix.pos.x,
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matrix.matrix.up.y * vec.y + matrix.matrix.right.y * vec.x + matrix.matrix.at.y * vec.z + matrix.matrix.pos.y,
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matrix.matrix.up.z * vec.y + matrix.matrix.right.z * vec.x + matrix.matrix.at.z * vec.z + matrix.matrix.pos.z); };
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inline CVector* GetRight()
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{ return reinterpret_cast<CVector*>(&matrix.right); }
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inline CVector* GetUp()
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{ return reinterpret_cast<CVector*>(&matrix.up); }
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inline CVector* GetAt()
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{ return reinterpret_cast<CVector*>(&matrix.at); }
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inline CVector* GetPos()
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{ return reinterpret_cast<CVector*>(&matrix.pos); }
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inline void SetTranslateOnly(float fX, float fY, float fZ)
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{ matrix.pos.x = fX; matrix.pos.y = fY; matrix.pos.z = fZ; }
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inline void SetRotateX(float fAngle)
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{ SetRotateXOnly(fAngle); matrix.pos.x = 0.0f; matrix.pos.y = 0.0f; matrix.pos.z = 0.0f; }
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inline void SetRotateY(float fAngle)
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{ SetRotateYOnly(fAngle); matrix.pos.x = 0.0f; matrix.pos.y = 0.0f; matrix.pos.z = 0.0f; }
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inline void SetRotateZ(float fAngle)
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{ SetRotateZOnly(fAngle); matrix.pos.x = 0.0f; matrix.pos.y = 0.0f; matrix.pos.z = 0.0f; }
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inline void SetRotate(float fAngleX, float fAngleY, float fAngleZ)
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{ SetRotateOnly(fAngleX, fAngleY, fAngleZ); matrix.pos.x = 0.0f; matrix.pos.y = 0.0f; matrix.pos.z = 0.0f; }
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inline void SetTranslate(float fX, float fY, float fZ)
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{ matrix.right.x = 1.0f; matrix.right.y = 0.0f; matrix.right.z = 0.0f;
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matrix.up.x = 0.0f; matrix.up.y = 1.0f; matrix.up.z = 0.0f;
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matrix.at.x = 0.0f; matrix.at.y = 0.0f; matrix.at.z = 1.0f;
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SetTranslateOnly(fX, fY, fZ); }
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inline void SetUnity()
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{
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matrix.right.x = 1.0f; matrix.right.y = 0.0f; matrix.right.z = 0.0f;
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matrix.up.x = 0.0f; matrix.up.y = 1.0f; matrix.up.z = 0.0f;
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matrix.at.x = 0.0f; matrix.at.y = 0.0f; matrix.at.z = 1.0f;
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matrix.pos.x = 0.0f; matrix.pos.y = 0.0f; matrix.pos.z = 0.0f;
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}
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inline void SetScale(float fScale)
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{
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matrix.right.x = fScale; matrix.right.y = 0.0f; matrix.right.z = 0.0f;
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matrix.up.x = 0.0f; matrix.up.y = fScale; matrix.up.z = 0.0f;
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matrix.at.x = 0.0f; matrix.at.y = 0.0f; matrix.at.z = fScale;
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matrix.pos.x = 0.0f; matrix.pos.y = 0.0f; matrix.pos.z = 0.0f;
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}
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inline void RotateX(float fAngle)
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{
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CMatrix RotationMatrix;
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RotationMatrix.SetRotateX(fAngle);
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*this = *this * RotationMatrix;
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}
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inline void RotateY(float fAngle)
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{
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CMatrix RotationMatrix;
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RotationMatrix.SetRotateY(fAngle);
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*this = *this * RotationMatrix;
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}
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inline void RotateZ(float fAngle)
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{
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CMatrix RotationMatrix;
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RotationMatrix.SetRotateZ(fAngle);
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*this = *this * RotationMatrix;
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}
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inline void Rotate(float fAngleX, float fAngleY, float fAngleZ)
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{
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CMatrix RotationMatrix;
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RotationMatrix.SetRotate(fAngleX, fAngleY, fAngleZ);
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*this = *this * RotationMatrix;
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}
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inline void SetRotateXOnly(float fAngle)
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{
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matrix.right.x = 1.0f;
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matrix.right.y = 0.0f;
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matrix.right.z = 0.0f;
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matrix.up.x = 0.0f;
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matrix.up.y = cos(fAngle);
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matrix.up.z = sin(fAngle);
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matrix.at.x = 0.0f;
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matrix.at.y = -sin(fAngle);
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matrix.at.z = cos(fAngle);
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}
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inline void SetRotateYOnly(float fAngle)
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{
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matrix.right.x = cos(fAngle);
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matrix.right.y = 0.0f;
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matrix.right.z = sin(fAngle);
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matrix.up.x = 0.0f;
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matrix.up.y = 1.0f;
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matrix.up.z = 0.0f;
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matrix.at.x = -sin(fAngle);
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matrix.at.y = 0.0f;
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matrix.at.z = cos(fAngle);
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}
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inline void SetRotateZOnly(float fAngle)
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{
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matrix.at.x = 0.0f;
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matrix.at.y = 0.0f;
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matrix.at.z = 1.0f;
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matrix.up.x = -sin(fAngle);
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matrix.up.y = cos(fAngle);
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matrix.up.z = 0.0f;
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matrix.right.x = cos(fAngle);
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matrix.right.y = sin(fAngle);
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matrix.right.z = 0.0f;
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}
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inline void SetRotateOnly(float fAngleX, float fAngleY, float fAngleZ)
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{
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matrix.right.x = cos(fAngleZ) * cos(fAngleY) - sin(fAngleZ) * sin(fAngleX) * sin(fAngleY);
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matrix.right.y = cos(fAngleZ) * sin(fAngleX) * sin(fAngleY) + sin(fAngleZ) * cos(fAngleY);
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matrix.right.z = -cos(fAngleX) * sin(fAngleY);
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matrix.up.x = -sin(fAngleZ) * cos(fAngleX);
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matrix.up.y = cos(fAngleZ) * cos(fAngleX);
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matrix.up.z = sin(fAngleX);
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matrix.at.x = sin(fAngleZ) * sin(fAngleX) * cos(fAngleY) + cos(fAngleZ) * sin(fAngleY);
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matrix.at.y = sin(fAngleZ) * sin(fAngleY) - cos(fAngleZ) * sin(fAngleX) * cos(fAngleY);
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matrix.at.z = cos(fAngleX) * cos(fAngleY);
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}
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inline void Attach(RwMatrix* pMatrix, bool bHasMatrix)
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{
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if ( this->pMatrix && haveRwMatrix )
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RwMatrixDestroy(this->pMatrix);
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this->pMatrix = pMatrix;
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haveRwMatrix = bHasMatrix;
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Update();
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}
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inline void AttachRw(RwMatrix* pMatrix, bool bHasMatrix)
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{
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if ( this->pMatrix && haveRwMatrix )
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RwMatrixDestroy(this->pMatrix);
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this->pMatrix = pMatrix;
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haveRwMatrix = bHasMatrix;
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UpdateRW();
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}
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inline void Detach()
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{
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if ( pMatrix )
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{
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if ( haveRwMatrix )
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RwMatrixDestroy(pMatrix);
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pMatrix = nullptr;
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}
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}
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inline void UpdateRW() const
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{
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if ( pMatrix )
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UpdateRwMatrix(pMatrix);
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}
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inline void Update()
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{
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UpdateMatrix(pMatrix);
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}
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inline void UpdateMatrix(RwMatrix* pMatrix)
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{
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matrix.right = pMatrix->right;
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matrix.up = pMatrix->up;
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matrix.at = pMatrix->at;
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matrix.pos = pMatrix->pos;
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}
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inline void UpdateRwMatrix(RwMatrix* pMatrix) const
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{
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pMatrix->right = matrix.right;
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pMatrix->up = matrix.up;
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pMatrix->at = matrix.at;
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pMatrix->pos = matrix.pos;
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RwMatrixUpdate(pMatrix);
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}
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inline void CopyToRwMatrix(RwMatrix* pMatrix) const
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{
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pMatrix->right = this->pMatrix->right;
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pMatrix->up = this->pMatrix->up;
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pMatrix->at = this->pMatrix->at;
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pMatrix->pos = this->pMatrix->pos;
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RwMatrixUpdate(pMatrix);
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}
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inline void CopyOnlyMatrix(const CMatrix& from)
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{
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matrix = from.matrix;
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}
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};
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#endif |