monofonIC/include/math/vec3.hh

/*******************************************************************\
 vec3_t.hh - This file is part of MUSIC2 -
 a code to generate initial conditions for cosmological simulations 
 
 CHANGELOG (only majors, for details see repo):
    06/2019 - Oliver Hahn - first implementation
\*******************************************************************/
#pragma once

//! implements a simple class of 3-vectors of arbitrary scalar type
template< typename T >
class vec3_t{
private:
    //! holds the data
    std::array<T,3> data_;
    
public: 
    //! expose access to elements via references
    T &x,&y,&z;

    //! empty constructor
    vec3_t()
    : x(data_[0]),y(data_[1]),z(data_[2]){}

    //! copy constructor
    vec3_t( const vec3_t<T> &v)
    : data_(v.data_), x(data_[0]),y(data_[1]),z(data_[2]){}

    //! copy constructor for non-const reference, needed to avoid variadic template being called for non-const reference
    vec3_t( vec3_t<T>& v)
    : data_(v.data_), x(data_[0]),y(data_[1]),z(data_[2]){}

    //! move constructor
    vec3_t( vec3_t<T> &&v)
    : data_(std::move(v.data_)), x(data_[0]), y(data_[1]), z(data_[2]){}

    //! construct vec3_t from initializer list
    template<typename ...E>
    vec3_t(E&&...e) 
    : data_{{std::forward<E>(e)...}}, x{data_[0]}, y{data_[1]}, z{data_[2]}
    {}
    // vec3_t( T a, T b, T c ) 
    // : data_{{a,b,c}}, x(data_[0]), y(data_[1]), z(data_[2]){}
    
    //! bracket index access to vector components
    T &operator[](size_t i) noexcept{ return data_[i];}
    
    //! const bracket index access to vector components
    const T &operator[](size_t i) const noexcept { return data_[i]; }

    // assignment operator
    vec3_t<T>& operator=( const vec3_t<T>& v ) noexcept { data_=v.data_; return *this; }

    //! implementation of summation of vec3_t
    vec3_t<T> operator+( const vec3_t<T>& v ) const noexcept{ return vec3_t<T>({x+v.x,y+v.y,z+v.z}); }

    //! implementation of difference of vec3_t
    vec3_t<T> operator-( const vec3_t<T>& v ) const noexcept{ return vec3_t<T>({x-v.x,y-v.y,z-v.z}); }

    //! implementation of unary negative
    vec3_t<T> operator-() const noexcept{ return vec3_t<T>({-x,-y,-z}); }

    //! implementation of scalar multiplication
    vec3_t<T> operator*( T s ) const noexcept{ return vec3_t<T>({x*s,y*s,z*s}); }

    //! implementation of scalar division
    vec3_t<T> operator/( T s ) const noexcept{ return vec3_t<T>({x/s,y/s,z/s}); }

    //! implementation of += operator
    vec3_t<T>& operator+=( const vec3_t<T>& v ) noexcept{ x+=v.x; y+=v.y; z+=v.z; return *this; }

    //! implementation of -= operator
    vec3_t<T>& operator-=( const vec3_t<T>& v ) noexcept{ x-=v.x; y-=v.y; z-=v.z; return *this; }

    //! multiply with scalar
    vec3_t<T>& operator*=( T s ) noexcept{ x*=s; y*=s; z*=s; return *this; }
    
    //! divide by scalar
    vec3_t<T>& operator/=( T s ) noexcept{ x/=s; y/=s; z/=s; return *this; }

    //! compute dot product with another vector
    T dot(const vec3_t<T> &a) const noexcept
    {
        return data_[0] * a.data_[0] + data_[1] * a.data_[1] + data_[2] * a.data_[2];
    }
    
    //! returns 2-norm squared of vector
    T norm_squared(void) const noexcept { return this->dot(*this); }

    //! returns 2-norm of vector
    T norm(void) const noexcept { return std::sqrt( this->norm_squared() ); }

    //! wrap absolute vector to box of size p
    vec3_t<T>& wrap_abs( T p = 1.0 ) noexcept{
        for( auto& x : data_ ) x = std::fmod( 2*p + x, p );
        return *this;
    }

    //! wrap relative vector to box of size p
    vec3_t<T>& wrap_rel( T p = 1.0 ) noexcept{
        for( auto& x : data_ ) x = (x<-p/2)? x+p : (x>=p/2)? x-p : x;
        return *this;
    }

    //! ordering, allows 3d sorting of vec3_ts
    bool operator<( const vec3_t<T>& o ) const noexcept{
        if( x!=o.x ) return x<o.x?true:false;
        if( y!=o.y ) return y<o.y?true:false;
        if( z!=o.z ) return z<o.z?true:false;
        return false;
    }
};

//! multiplication with scalar
template<typename T>
vec3_t<T> operator*( T s, const vec3_t<T>& v ){
    return vec3_t<T>({v.x*s,v.y*s,v.z*s});
}
added file headers 2019-11-01 12:02:09 +01:00			`/*******************************************************************\`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t.hh - This file is part of MUSIC2 -`
added file headers 2019-11-01 12:02:09 +01:00			`a code to generate initial conditions for cosmological simulations`

			`CHANGELOG (only majors, for details see repo):`
			`06/2019 - Oliver Hahn - first implementation`
			`\*******************************************************************/`
initial commit 2019-05-07 01:05:16 +02:00			`#pragma once`

cosmetic changes 2019-11-01 13:16:05 +01:00			`//! implements a simple class of 3-vectors of arbitrary scalar type`
initial commit 2019-05-07 01:05:16 +02:00			`template< typename T >`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`class vec3_t{`
initial commit 2019-05-07 01:05:16 +02:00			`private:`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00			`//! holds the data`
initial commit 2019-05-07 01:05:16 +02:00			`std::array<T,3> data_;`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
			`public:`
			`//! expose access to elements via references`
added convolution class 2019-05-10 04:48:35 +02:00			`T &x,&y,&z;`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
			`//! empty constructor`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t()`
added convolution class 2019-05-10 04:48:35 +02:00			`: x(data_[0]),y(data_[1]),z(data_[2]){}`

updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00			`//! copy constructor`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t( const vec3_t<T> &v)`
added convolution class 2019-05-10 04:48:35 +02:00			`: data_(v.data_), x(data_[0]),y(data_[1]),z(data_[2]){}`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00
			`//! copy constructor for non-const reference, needed to avoid variadic template being called for non-const reference`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t( vec3_t<T>& v)`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`: data_(v.data_), x(data_[0]),y(data_[1]),z(data_[2]){}`
added gridding back of dynamical matrix to ordinary Fourier space 2019-12-01 18:52:53 +01:00
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00			`//! move constructor`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t( vec3_t<T> &&v)`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00			`: data_(std::move(v.data_)), x(data_[0]), y(data_[1]), z(data_[2]){}`
added convolution class 2019-05-10 04:48:35 +02:00
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`//! construct vec3_t from initializer list`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00			`template<typename ...E>`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t(E&&...e)`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`: data_{{std::forward<E>(e)...}}, x{data_[0]}, y{data_[1]}, z{data_[2]}`
			`{}`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`// vec3_t( T a, T b, T c )`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`// : data_{{a,b,c}}, x(data_[0]), y(data_[1]), z(data_[2]){}`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
started implementation of PLT (working commit) 2019-11-03 15:54:17 +01:00			`//! bracket index access to vector components`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`T &operator[](size_t i) noexcept{ return data_[i];}`
initial commit 2019-05-07 01:05:16 +02:00
started implementation of PLT (working commit) 2019-11-03 15:54:17 +01:00			`//! const bracket index access to vector components`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`const T &operator[](size_t i) const noexcept { return data_[i]; }`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
added calculation of Brillouin zone (from Bruno's Code) 2019-11-05 00:29:33 +01:00			`// assignment operator`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T>& operator=( const vec3_t<T>& v ) noexcept { data_=v.data_; return *this; }`
added calculation of Brillouin zone (from Bruno's Code) 2019-11-05 00:29:33 +01:00
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`//! implementation of summation of vec3_t`
			`vec3_t<T> operator+( const vec3_t<T>& v ) const noexcept{ return vec3_t<T>({x+v.x,y+v.y,z+v.z}); }`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`//! implementation of difference of vec3_t`
			`vec3_t<T> operator-( const vec3_t<T>& v ) const noexcept{ return vec3_t<T>({x-v.x,y-v.y,z-v.z}); }`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
added gridding back of dynamical matrix to ordinary Fourier space 2019-12-01 18:52:53 +01:00			`//! implementation of unary negative`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T> operator-() const noexcept{ return vec3_t<T>({-x,-y,-z}); }`
added gridding back of dynamical matrix to ordinary Fourier space 2019-12-01 18:52:53 +01:00
cosmetic changes 2019-11-01 13:16:05 +01:00			`//! implementation of scalar multiplication`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T> operator( T s ) const noexcept{ return vec3_t<T>({xs,ys,zs}); }`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
added calculation of Brillouin zone (from Bruno's Code) 2019-11-05 00:29:33 +01:00			`//! implementation of scalar division`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T> operator/( T s ) const noexcept{ return vec3_t<T>({x/s,y/s,z/s}); }`
added calculation of Brillouin zone (from Bruno's Code) 2019-11-05 00:29:33 +01:00
cosmetic changes 2019-11-01 13:16:05 +01:00			`//! implementation of += operator`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T>& operator+=( const vec3_t<T>& v ) noexcept{ x+=v.x; y+=v.y; z+=v.z; return *this; }`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
cosmetic changes 2019-11-01 13:16:05 +01:00			`//! implementation of -= operator`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T>& operator-=( const vec3_t<T>& v ) noexcept{ x-=v.x; y-=v.y; z-=v.z; return *this; }`
updates to vec3 class, mostly arithmetics 2019-11-01 04:45:34 +01:00
cosmetic changes 2019-11-01 13:16:05 +01:00			`//! multiply with scalar`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T>& operator=( T s ) noexcept{ x=s; y=s; z=s; return *this; }`
initial commit 2019-05-07 01:05:16 +02:00
improved PLT field interpolation, still has problems for FCC though 2019-12-04 14:26:42 +01:00			`//! divide by scalar`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T>& operator/=( T s ) noexcept{ x/=s; y/=s; z/=s; return *this; }`
improved PLT field interpolation, still has problems for FCC though 2019-12-04 14:26:42 +01:00
cosmetic changes 2019-11-01 13:16:05 +01:00			`//! compute dot product with another vector`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`T dot(const vec3_t<T> &a) const noexcept`
initial commit 2019-05-07 01:05:16 +02:00			`{`
			`return data_[0] * a.data_[0] + data_[1] * a.data_[1] + data_[2] * a.data_[2];`
			`}`

cosmetic changes 2019-11-01 13:16:05 +01:00			`//! returns 2-norm squared of vector`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`T norm_squared(void) const noexcept { return this->dot(*this); }`
initial commit 2019-05-07 01:05:16 +02:00
cosmetic changes 2019-11-01 13:16:05 +01:00			`//! returns 2-norm of vector`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`T norm(void) const noexcept { return std::sqrt( this->norm_squared() ); }`

			`//! wrap absolute vector to box of size p`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T>& wrap_abs( T p = 1.0 ) noexcept{`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`for( auto& x : data_ ) x = std::fmod( 2*p + x, p );`
			`return *this;`
			`}`

			`//! wrap relative vector to box of size p`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T>& wrap_rel( T p = 1.0 ) noexcept{`
working commit: optimizations/cleanup 2019-12-01 14:34:28 +01:00			`for( auto& x : data_ ) x = (x<-p/2)? x+p : (x>=p/2)? x-p : x;`
			`return *this;`
			`}`
improved implementation of plt field interpolation 2019-12-05 05:43:49 +01:00
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`//! ordering, allows 3d sorting of vec3_ts`
			`bool operator<( const vec3_t<T>& o ) const noexcept{`
improved implementation of plt field interpolation 2019-12-05 05:43:49 +01:00			`if( x!=o.x ) return x<o.x?true:false;`
			`if( y!=o.y ) return y<o.y?true:false;`
			`if( z!=o.z ) return z<o.z?true:false;`
			`return false;`
			`}`
initial commit 2019-05-07 01:05:16 +02:00			`};`
cosmetic changes 2019-11-01 13:16:05 +01:00
			`//! multiplication with scalar`
			`template<typename T>`
some refactoring (add '_t' to vec3 and mat3) 2020-03-29 14:45:43 +02:00			`vec3_t<T> operator*( T s, const vec3_t<T>& v ){`
			`return vec3_t<T>({v.xs,v.ys,v.z*s});`
cosmetic changes 2019-11-01 13:16:05 +01:00			`}`