prime/include/Kyoto/Math/CVector3f.hpp

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#ifndef _CVECTOR3F
#define _CVECTOR3F
#include "types.h"
#include "Kyoto/Math/CVector2f.hpp"
#include "float.h"
class CInputStream;
class COutputStream;
class CRelAngle;
enum EDimX { kDX };
enum EDimY { kDY };
enum EDimZ { kDZ };
class CVector3f {
public:
CVector3f() {}
explicit CVector3f(float x, float y, float z) : mX(x), mY(y), mZ(z) {}
CVector3f(const CVector2f& v, float z) : mX(v.GetX()), mY(v.GetY()), mZ(z) {}
CVector3f(CInputStream& in);
void PutTo(COutputStream& out) const;
const float GetX() const { return mX; }
const float GetY() const { return mY; }
const float GetZ() const { return mZ; }
void SetX(float x) { mX = x; }
void SetY(float y) { mY = y; }
void SetZ(float z) { mZ = z; }
static CVector3f ByElementMultiply(const CVector3f& lhs, const CVector3f& rhs) {
return CVector3f(lhs.GetX() * rhs.GetX(), lhs.GetY() * rhs.GetY(), lhs.GetZ() * rhs.GetZ());
}
// ByElementMultiply__9CVector3fFRC9CVector3fRC9CVector3f
static CVector3f Slerp(const CVector3f& a, const CVector3f& b, const CRelAngle& angle);
CVector3f& Normalize();
float Magnitude() const;
CVector3f AsNormalized() const;
bool IsNotInf() const;
bool IsMagnitudeSafe() const;
bool CanBeNormalized() const;
static float GetAngleDiff(const CVector3f& a, const CVector3f& b);
bool IsEqu(const CVector3f& other, float epsilon = FLT_EPSILON) const;
static CVector3f Lerp(const CVector3f& a, const CVector3f& b, float v) {
float inv = 1.f - v;
float x = a.mX * inv + b.mX * v;
float y = a.mY * inv + b.mY * v;
float z = a.mZ * inv + b.mZ * v;
return CVector3f(x, y, z);
}
inline float MagSquared() const { return GetX() * GetX() + GetY() * GetY() + GetZ() * GetZ(); }
static CVector3f Cross(const CVector3f& lhs, const CVector3f& rhs) {
const float lX = lhs.GetX();
const float lY = lhs.GetY();
const float lZ = lhs.GetZ();
const float rX = rhs.GetX();
const float rY = rhs.GetY();
const float rZ = rhs.GetZ();
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float z = lX * rY - rX * lY;
float y = lZ * rX - rZ * lX;
float x = lY * rZ - rY * lZ;
return CVector3f(x, y, z);
}
float& operator[](EDimX dim) { return mX; }
float& operator[](EDimY dim) { return mY; }
float& operator[](EDimZ dim) { return mZ; }
const float& operator[](EDimX) const { return mX; }
const float& operator[](EDimY) const { return mY; }
const float& operator[](EDimZ) const { return mZ; }
float& operator[](int i) { return (&mX)[i]; }
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const float operator[](int i) const { return (&mX)[i]; }
bool IsNonZero() const { return mX != 0.f || mY != 0.f || mZ != 0.f; }
CVector3f DropZ() const { return CVector3f(mX, mY, 0.f); }
CVector3f& operator+=(const CVector3f& other) {
mX += other.mX;
mY += other.mY;
mZ += other.mZ;
return *this;
}
CVector3f& operator-=(const CVector3f& other) {
mX -= other.mX;
mY -= other.mY;
mZ -= other.mZ;
return *this;
}
CVector3f& operator*=(const float v) {
mX *= v;
mY *= v;
mZ *= v;
return *this;
}
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CVector3f& operator/=(const float v) { return *this *= (1.f / v); }
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CVector2f ToVec2f() const { return CVector2f(mX, mY); }
static float Dot(const CVector3f& a, const CVector3f& b) {
return (a.GetX() * b.GetX()) + (a.GetY() * b.GetY()) + (a.GetZ() * b.GetZ());
}
static const CVector3f& Zero() { return sZeroVector; }
static const CVector3f& Up() { return sUpVector; }
static const CVector3f& Down() { return sDownVector; }
static const CVector3f& Left() { return sLeftVector; }
static const CVector3f& Right() { return sRightVector; }
static const CVector3f& Forward() { return sForwardVector; }
static const CVector3f& Back() { return sBackVector; }
protected:
float mX;
float mY;
float mZ;
static CVector3f sZeroVector;
static CVector3f sUpVector;
static CVector3f sDownVector;
static CVector3f sLeftVector;
static CVector3f sRightVector;
static CVector3f sForwardVector;
static CVector3f sBackVector;
};
CHECK_SIZEOF(CVector3f, 0xc)
// ClassifyVector__FRC9CVector3f
// TGetType<9CVector3f>__FRC9CVector3f
// close_enough__FRC9CVector3fRC9CVector3ff in CloseEnough.cpp
inline bool operator==(const CVector3f& lhs, const CVector3f& rhs) {
return lhs.GetX() == rhs.GetX() && lhs.GetY() == rhs.GetY() && lhs.GetZ() == rhs.GetZ();
}
inline bool operator!=(const CVector3f& lhs, const CVector3f& rhs) {
return lhs.GetX() != rhs.GetX() || lhs.GetY() != rhs.GetY() || lhs.GetZ() != rhs.GetZ();
}
inline CVector3f operator-(const CVector3f& lhs, const CVector3f& rhs) {
float x = lhs.GetX() - rhs.GetX();
float y = lhs.GetY() - rhs.GetY();
float z = lhs.GetZ() - rhs.GetZ();
return CVector3f(x, y, z);
}
inline CVector3f operator+(const CVector3f& lhs, const CVector3f& rhs) {
float x = lhs.GetX() + rhs.GetX();
float y = lhs.GetY() + rhs.GetY();
float z = lhs.GetZ() + rhs.GetZ();
return CVector3f(x, y, z);
}
// TODO real?
inline CVector3f operator*(const CVector3f& lhs, const CVector3f& rhs) {
float x = lhs.GetX() * rhs.GetX();
float y = lhs.GetY() * rhs.GetY();
float z = lhs.GetZ() * rhs.GetZ();
return CVector3f(x, y, z);
}
inline CVector3f operator*(const CVector3f& vec, const float f) {
float x = vec.GetX() * f;
float y = vec.GetY() * f;
float z = vec.GetZ() * f;
return CVector3f(x, y, z);
}
inline CVector3f operator*(const float f, const CVector3f& vec) {
float x = f * vec.GetX();
float y = f * vec.GetY();
float z = f * vec.GetZ();
return CVector3f(x, y, z);
}
inline CVector3f operator/(const CVector3f& vec, const float f) {
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float n = (1.f / f);
float x = vec.GetX() * n;
float y = vec.GetY() * n;
float z = vec.GetZ() * n;
return CVector3f(x, y, z);
}
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inline CVector3f operator-(const CVector3f& vec) {
return CVector3f(-vec.GetX(), -vec.GetY(), -vec.GetZ());
}
#endif // _CVECTOR3F