#if !defined(VECT3_INC) #define VECT3_INC #include #include class Vect3 { float v[3]; public: Vect3(const float val) {v[0]=val;v[1]=val;v[2]=val;} Vect3() {}//never put anything in here! too slow} Vect3(const float x,const float y,const float z) {v[0]=x;v[1]=y;v[2]=z;} Vect3(const Vect3& t) {v[0]=t.v[0];v[1]=t.v[1];v[2]=t.v[2];} Vect3(const float *t) {v[0]=t[0];v[1]=t[1];v[2]=t[2];} float& operator[](int i) {return v[i];} float& x() {return v[0];} float& y() {return v[1];} float& z() {return v[2];} const float& operator[](int i) const {return v[i];} const float& x() const {return v[0];} const float& y() const {return v[1];} const float& z() const {return v[2];} void Set(const float x,const float y,const float z) {v[0]=x;v[1]=y;v[2]=z;} float Len() const {return (float)sqrt(v[0]*v[0]+v[1]*v[1]+v[2]*v[2]);} float Len2() const {return v[0]*v[0]+v[1]*v[1]+v[2]*v[2];} void Norm() {(*this)/=this->Len();} bool ZeroNorm() {float d=this->Len();if (d>1E-10) {(*this)/=d;return true;} (*this)=0.0f; return false;} void SafeNorm() {assert(this->Len()>1E-10);(*this)/=this->Len();} const Vect3 &operator= (const float d) {v[0]=d;v[1]=d;v[2]=d; return *this; } const Vect3 &operator= (const Vect3& t) {v[0]=t.v[0];v[1]=t.v[1];v[2]=t.v[2]; return *this; } const Vect3 &operator+= (const float d) {v[0]+=d;v[1]+=d;v[2]+=d; return *this; } const Vect3 &operator+= (const Vect3& t) {v[0]+=t.v[0];v[1]+=t.v[1];v[2]+=t.v[2]; return *this; } const Vect3 &operator-= (const float d) {v[0]-=d;v[1]-=d;v[2]-=d; return *this; } const Vect3 &operator-= (const Vect3& t) {v[0]-=t.v[0];v[1]-=t.v[1];v[2]-=t.v[2]; return *this; } const Vect3 &operator*= (const float d) {v[0]*=d;v[1]*=d;v[2]*=d; return *this; } const Vect3 &operator*= (const Vect3& t) {v[0]*=t.v[0];v[1]*=t.v[1];v[2]*=t.v[2]; return *this; } const Vect3 &operator/= (const float d); const Vect3 &operator/= (const Vect3& t) {v[0]/=t.v[0];v[1]/=t.v[1];v[2]/=t.v[2]; return *this; } float operator^ (const Vect3& t) const {return v[0]*t.v[0]+v[1]*t.v[1]+v[2]*t.v[2];} float Dist(const Vect3&) const; float Dist2(const Vect3&) const; void Cross(const Vect3&); void NegCross(const Vect3&); void Perp(); void Min(const Vect3&); void Max(const Vect3&); float MaxElement() const; int MaxElementIndex() const; void Interp(const Vect3 &v1,const Vect3 &v2,float t) {*this=v1;*this-=v2;*this*=t;*this+=v2;} // bool operator== (const Vect3& t) const {return v[0]==t.v[0]&&v[1]==t.v[1]&&v[2]==t.v[2];} bool operator== (const Vect3& t) const {return fabs(v[0]-t.v[0])<.001f&&fabs(v[1]-t.v[1])<.001f&&fabs(v[2]-t.v[2])<.001f;} bool operator< (const Vect3& t) const {assert(0);return false;} bool operator!= (const Vect3& t) const {return !(v[0]==t.v[0]&&v[1]==t.v[1]&&v[2]==t.v[2]);} bool operator> (const Vect3& t) const {assert(0);return false;} inline Vect3 operator +(const Vect3 &rhs) const { return Vect3(v[0]+rhs.v[0], v[1]+rhs.v[1], v[2]+rhs.v[2]); } inline Vect3 operator -(const Vect3 &rhs) const { return Vect3(v[0]-rhs.v[0], v[1]-rhs.v[1], v[2]-rhs.v[2]); } inline Vect3 operator *(const Vect3 &rhs) const { return Vect3(v[0]*rhs.v[0], v[1]*rhs.v[1], v[2]*rhs.v[2]); } inline Vect3 operator *(const float scalar) const { return Vect3(v[0]*scalar, v[1]*scalar, v[2]*scalar); } inline friend Vect3 operator *(const float scalar, const Vect3 &rhs); inline Vect3 operator /(const Vect3 &rhs) const { return Vect3(v[0]/rhs.v[0], v[1]/rhs.v[1], v[2]/rhs.v[2]); } inline Vect3 operator /(const float scalar) const { return Vect3(v[0]/scalar, v[1]/scalar, v[2]/scalar); } }; inline Vect3 operator *(const float scalar, const Vect3 &rhs) { return Vect3(scalar*rhs.v[0], scalar*rhs.v[1], scalar*rhs.v[2]); } extern const Vect3 Vect3X; extern const Vect3 Vect3Y; extern const Vect3 Vect3Z; extern const Vect3 Vect3negX; extern const Vect3 Vect3negY; extern const Vect3 Vect3negZ; extern const Vect3 Vect3Zero; #endif