#pragma once #include "ap_AggPlusEnums.h" #include "ap_AggPlusTypes.h" #include "agg_trans_affine.h" namespace NSCommon { class CMatrix { public: CMatrix(double m11, double m12, double m21, double m22, double dx, double dy) : m_agg_mtx(m11, m12, m21, m22, dx, dy) { } CMatrix() : m_agg_mtx() { } ~CMatrix() { } void Translate(double offsetX, double offsetY, Aggplus::MatrixOrder order = Aggplus::MatrixOrderPrepend) { if (order == Aggplus::MatrixOrderPrepend) { m_agg_mtx.premultiply(agg::trans_affine_translation(offsetX, offsetY)); } else { m_agg_mtx.multiply(agg::trans_affine_translation(offsetX, offsetY)); } } void Scale(double scaleX, double scaleY, Aggplus::MatrixOrder order = Aggplus::MatrixOrderPrepend) { if (order == Aggplus::MatrixOrderPrepend) { m_agg_mtx.premultiply(agg::trans_affine_scaling(scaleX, scaleY)); } else { m_agg_mtx.multiply(agg::trans_affine_scaling(scaleX, scaleY)); } } void Shear(double shearX, double shearY, Aggplus::MatrixOrder order = Aggplus::MatrixOrderPrepend) { if (order == Aggplus::MatrixOrderPrepend) { m_agg_mtx.premultiply(agg::trans_affine_skewing(shearX, shearY)); } else { m_agg_mtx.multiply(agg::trans_affine_skewing(shearX, shearY)); } } void TransformPoint(double& x, double& y) { m_agg_mtx.transform(&x, &y); } void Rotate(double angle, Aggplus::MatrixOrder order = Aggplus::MatrixOrderPrepend) { if (order == Aggplus::MatrixOrderPrepend) { m_agg_mtx.premultiply(agg::trans_affine_rotation(agg::deg2rad(angle))); } else { m_agg_mtx.multiply(agg::trans_affine_rotation(agg::deg2rad(angle))); } } void RotateAt(double angle, double x, double y, Aggplus::MatrixOrder order = Aggplus::MatrixOrderPrepend) { Translate(-x, -y, order); if (order == Aggplus::MatrixOrderPrepend) { m_agg_mtx.premultiply(agg::trans_affine_rotation(agg::deg2rad(angle))); } else { m_agg_mtx.multiply(agg::trans_affine_rotation(agg::deg2rad(angle))); } Translate(x, y, order); } void Multiply(const CMatrix* matrix, Aggplus::MatrixOrder order = Aggplus::MatrixOrderPrepend) { if (order == Aggplus::MatrixOrderPrepend) { m_agg_mtx.premultiply(matrix->m_agg_mtx); } else { m_agg_mtx.multiply(matrix->m_agg_mtx); } } double OffsetX() const { double M[6]; m_agg_mtx.store_to(M); return (M[4]); } double OffsetY() const { double M[6]; m_agg_mtx.store_to(M); return (M[5]); } bool GetElements(float* m) const { double M[6]; m_agg_mtx.store_to(M); m[0]=(float)M[0]; m[1]=(float)M[1]; m[2]=(float)M[2]; m[3]=(float)M[3]; m[4]=(float)M[4]; m[5]=(float)M[5]; return true; } bool GetElements(double* m) const { m_agg_mtx.store_to(m); return true; } void Reset() { m_agg_mtx.reset(); } const CMatrix& operator=(const CMatrix& Src) { m_agg_mtx = Src.m_agg_mtx; return *this; } bool Invert() { double d = m_agg_mtx.determinant(); if (0.0001 >= abs(d)) return false; m_agg_mtx.invert(); return true; } //Temp //Used in X_BrushLinearGradient constructor double z_Rotation() const { return agg::rad2deg(m_agg_mtx.rotation()); } __forceinline void SetElements(const double& m11, const double& m12, const double& m21, const double& m22, const double& dx, const double& dy) { m_agg_mtx.sx = m11; m_agg_mtx.shy = m12; m_agg_mtx.shx = m21; m_agg_mtx.sy = m22; m_agg_mtx.tx = dx; m_agg_mtx.ty = dy; } public: agg::trans_affine m_agg_mtx; }; }