#pragma once
#include "Utils.h"
/// <summary>
/// Affine2D class.
/// </summary>
namespace EmberNs
{
/// <summary>
/// Uses matrix composition to handle the
/// affine matrix. Taken almost entirely from
/// Fractron, but using glm, and in C++.
/// Note that the matrix layout differs from flam3 so it's best to use
/// the A, B, C, D, E, F wrappers around the underlying matrix indices. But if the matrix must
/// be accessed directly, the two are laid out as such:
/// flam3: 3 columns of 2 rows each. Accessed col, row.
/// [a(0,0)][b(1,0)][c(2,0)]
/// [d(0,1)][e(1,1)][f(2,1)]
/// Ember: 2 columns of 3 rows each. Accessed col, row.
/// [a(0,0)][d(1,0)]
/// [b(0,1)][e(1,1)]
/// [c(0,2)][f(1,2)]
/// Template argument expected to be float or double.
/// </summary>
template <typename T>
class EMBER_API Affine2D
{
public:
Affine2D();
Affine2D(const Affine2D<T>& affine);
/// <summary>
/// Copy constructor to copy an Affine2D object of type U.
/// Special case that must be here in the header because it has
/// a second template parameter.
/// </summary>
/// <param name="affine">The Affine2D object to copy</param>
template <typename U>
Affine2D(const Affine2D<U>& affine)
{
Affine2D<T>::operator=<U>(affine);
}
Affine2D(v2T& x, v2T& y, v2T& t);
Affine2D(T xx, T xy, T yx, T yy, T tx, T ty);
Affine2D(m4T& mat);
Affine2D<T>& operator = (const Affine2D<T>& affine);
/// <summary>
/// Assignment operator to assign an Affine2D object of type U.
/// Special case that must be here in the header because it has
/// a second template parameter.
/// </summary>
/// <param name="affine">The Affine2D object to copy.</param>
/// <returns>Reference to updated self</returns>
template <typename U>
Affine2D<T>& operator = (const Affine2D<U>& affine)
{
A(T(affine.A()));
B(T(affine.B()));
C(T(affine.C()));
D(T(affine.D()));
E(T(affine.E()));
F(T(affine.F()));
return *this;
}
bool operator == (const Affine2D<T>& affine);
v2T operator * (const v2T& v);
void MakeID();
bool IsID() const;
bool IsZero() const;
bool IsEmpty() const;
void Rotate(T angle);
void Translate(const v2T& v);
void RotateScaleXTo(const v2T& v);
void RotateScaleYTo(const v2T& v);
Affine2D<T> Inverse() const;
v2T TransformNormal(const v2T& v) const;
v2T TransformVector(const v2T& v) const;
m2T ToMat2ColMajor() const;
m2T ToMat2RowMajor() const;
m4T ToMat4ColMajor(bool center = false) const;
m4T ToMat4RowMajor(bool center = false) const;
//Note that returning a copy is actually faster than a const ref&.
T A() const;
T B() const;
T C() const;
T D() const;
T E() const;
T F() const;
void A(T a);
void B(T b);
void C(T c);
void D(T d);
void E(T e);
void F(T f);
v2T X() const;
v2T Y() const;
v2T O() const;
void X(const v2T& x);
void Y(const v2T& y);
void O(const v2T& t);
static Affine2D CalcRotateScale(const v2T& from, const v2T& to);
static void CalcRSAC(const v2T& from, const v2T& to, T& a, T& c);
m23T m_Mat;
};
//This class had to be implemented in a cpp file because the compiler was breaking.
//So the explicit instantiation must be declared here rather than in Ember.cpp where
//all of the other classes are done.
//template EMBER_API class Affine2D<float>;
//#ifdef DO_DOUBLE
// template EMBER_API class Affine2D<double>;
//#endif
}