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// Copyright 2014 PDFium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
// Original code copyright 2014 Foxit Software Inc. http://www.foxitsoftware.com
#ifndef _FXCRT_COORDINATES_
#define _FXCRT_COORDINATES_
template<class baseType> class CFX_PSVTemplate;
template<class baseType> class CFX_VTemplate;
template<class baseType> class CFX_PRLTemplate;
template<class baseType> class CFX_RTemplate;
template<class baseType> class CFX_ETemplate;
template<class baseType> class CFX_ATemplate;
template<class baseType> class CFX_RRTemplate;
class CFX_Matrix;
template<class baseType>
class CFX_PSVTemplate : public CFX_Object
{
public:
typedef CFX_PSVTemplate<baseType> FXT_PSV;
typedef CFX_PSVTemplate<baseType> FXT_POINT;
typedef CFX_PSVTemplate<baseType> FXT_SIZE;
void Set(baseType x, baseType y)
{
FXT_PSV::x = x, FXT_PSV::y = y;
}
void Set(const FXT_PSV &psv)
{
FXT_PSV::x = psv.x, FXT_PSV::y = psv.y;
}
void Add(baseType x, baseType y)
{
FXT_PSV::x += x, FXT_PSV::y += y;
}
void Subtract(baseType x, baseType y)
{
FXT_PSV::x -= x, FXT_PSV::y -= y;
}
void Reset()
{
FXT_PSV::x = FXT_PSV::y = 0;
}
FXT_PSV& operator += (const FXT_PSV &obj)
{
x += obj.x;
y += obj.y;
return *this;
}
FXT_PSV& operator -= (const FXT_PSV &obj)
{
x -= obj.x;
y -= obj.y;
return *this;
}
FXT_PSV& operator *= (baseType lamda)
{
x *= lamda;
y *= lamda;
return *this;
}
FXT_PSV& operator /= (baseType lamda)
{
x /= lamda;
y /= lamda;
return *this;
}
friend FX_BOOL operator == (const FXT_PSV &obj1, const FXT_PSV &obj2)
{
return obj1.x == obj2.x && obj1.y == obj2.y;
}
friend FX_BOOL operator != (const FXT_PSV &obj1, const FXT_PSV &obj2)
{
return obj1.x != obj2.x || obj1.y != obj2.y;
}
friend FXT_PSV operator + (const FXT_PSV &obj1, const FXT_PSV &obj2)
{
CFX_PSVTemplate obj;
obj.x = obj1.x + obj2.x;
obj.y = obj1.y + obj2.y;
return obj;
}
friend FXT_PSV operator - (const FXT_PSV &obj1, const FXT_PSV &obj2)
{
CFX_PSVTemplate obj;
obj.x = obj1.x - obj2.x;
obj.y = obj1.y - obj2.y;
return obj;
}
friend FXT_PSV operator * (const FXT_PSV &obj, baseType lamda)
{
CFX_PSVTemplate t;
t.x = obj.x * lamda;
t.y = obj.y * lamda;
return t;
}
friend FXT_PSV operator * (baseType lamda, const FXT_PSV &obj)
{
CFX_PSVTemplate t;
t.x = lamda * obj.x;
t.y = lamda * obj.y;
return t;
}
friend FXT_PSV operator / (const FXT_PSV &obj, baseType lamda)
{
CFX_PSVTemplate t;
t.x = obj.x / lamda;
t.y = obj.y / lamda;
return t;
}
baseType x, y;
};
typedef CFX_PSVTemplate<FX_INT32> CFX_Point;
typedef CFX_PSVTemplate<FX_FLOAT> CFX_PointF;
typedef CFX_PSVTemplate<FX_INT32> CFX_Size;
typedef CFX_PSVTemplate<FX_FLOAT> CFX_SizeF;
typedef CFX_ArrayTemplate<CFX_Point> CFX_Points;
typedef CFX_ArrayTemplate<CFX_PointF> CFX_PointsF;
typedef CFX_PSVTemplate<FX_INT32> * FX_LPPOINT;
typedef CFX_PSVTemplate<FX_FLOAT> * FX_LPPOINTF;
typedef CFX_PSVTemplate<FX_INT32> const * FX_LPCPOINT;
typedef CFX_PSVTemplate<FX_FLOAT> const * FX_LPCPOINTF;
#define CFX_FloatPoint CFX_PointF
template<class baseType>
class CFX_VTemplate: public CFX_PSVTemplate<baseType>
{
public:
typedef CFX_PSVTemplate<baseType> FXT_PSV;
typedef CFX_PSVTemplate<baseType> FXT_POINT;
typedef CFX_PSVTemplate<baseType> FXT_SIZE;
typedef CFX_VTemplate<baseType> FXT_VECTOR;
void Set(baseType x, baseType y)
{
FXT_PSV::x = x, FXT_PSV::y = y;
}
void Set(const FXT_PSV &psv)
{
FXT_PSV::x = psv.x, FXT_PSV::y = psv.y;
}
void Set(const FXT_POINT &p1, const FXT_POINT &p2)
{
FXT_PSV::x = p2.x - p1.x, FXT_PSV::y = p2.y - p1.y;
}
void Reset()
{
FXT_PSV::x = FXT_PSV::y = 0;
}
baseType SquareLength() const
{
return FXT_PSV::x * FXT_PSV::x + FXT_PSV::y * FXT_PSV::y;
}
baseType Length() const
{
return FXSYS_sqrt(FXT_PSV::x * FXT_PSV::x + FXT_PSV::y * FXT_PSV::y);
}
void Normalize()
{
FX_FLOAT fLen = FXSYS_sqrt(FXT_PSV::x * FXT_PSV::x + FXT_PSV::y * FXT_PSV::y);
if (fLen < 0.0001f) {
return;
}
FXT_PSV::x = ((baseType)FXT_PSV::x) / fLen;
FXT_PSV::y = ((baseType)FXT_PSV::y) / fLen;
}
baseType DotProduct(baseType x, baseType y) const
{
return FXT_PSV::x * x + FXT_PSV::y * y;
}
baseType DotProduct(const FXT_VECTOR &v) const
{
return FXT_PSV::x * v.x + FXT_PSV::y * v.y;
}
FX_BOOL IsParallel(baseType x, baseType y) const
{
baseType t = FXT_PSV::x * y - FXT_PSV::y * x;
return FXSYS_fabs(t) < 0x0001f;
}
FX_BOOL IsParallel(const FXT_VECTOR &v) const
{
return IsParallel(v.x, v.y);
}
FX_BOOL IsPerpendicular(baseType x, baseType y) const
{
baseType t = DotProduct(x, y);
return FXSYS_fabs(t) < 0x0001f;
}
FX_BOOL IsPerpendicular(const FXT_VECTOR &v) const
{
return IsPerpendicular(v.x, v.y);
}
void Translate(baseType dx, baseType dy)
{
FXT_PSV::x += dx, FXT_PSV::y += dy;
}
void Scale(baseType sx, baseType sy)
{
FXT_PSV::x *= sx, FXT_PSV::y *= sy;
}
void Rotate(FX_FLOAT fRadian)
{
FX_FLOAT xx = (FX_FLOAT)FXT_PSV::x;
FX_FLOAT yy = (FX_FLOAT)FXT_PSV::y;
FX_FLOAT cosValue = FXSYS_cos(fRadian);
FX_FLOAT sinValue = FXSYS_sin(fRadian);
FXT_PSV::x = xx * cosValue - yy * sinValue;
FXT_PSV::y = xx * sinValue + yy * cosValue;
}
friend FX_FLOAT Cosine(const FXT_VECTOR &v1, const FXT_VECTOR &v2)
{
FXSYS_assert(v1.SquareLength() != 0 && v2.SquareLength() != 0);
FX_FLOAT dotProduct = v1.DotProduct(v2);
return dotProduct / (FX_FLOAT)FXSYS_sqrt(v1.SquareLength() * v2.SquareLength());
}
friend FX_FLOAT ArcCosine(const FXT_VECTOR &v1, const FXT_VECTOR &v2)
{
return (FX_FLOAT)FXSYS_acos(Cosine(v1, v2));
}
friend FX_FLOAT SlopeAngle(const FXT_VECTOR &v)
{
CFX_VTemplate vx;
vx.Set(1, 0);
FX_FLOAT fSlope = ArcCosine(v, vx);
return v.y < 0 ? -fSlope : fSlope;
}
};
typedef CFX_VTemplate<FX_INT32> CFX_Vector;
typedef CFX_VTemplate<FX_FLOAT> CFX_VectorF;
template<class baseType>
class CFX_RTemplate: public CFX_Object
{
public:
typedef CFX_PSVTemplate<baseType> FXT_POINT;
typedef CFX_PSVTemplate<baseType> FXT_SIZE;
typedef CFX_VTemplate<baseType> FXT_VECTOR;
typedef CFX_PRLTemplate<baseType> FXT_PARAL;
typedef CFX_RTemplate<baseType> FXT_RECT;
void Set(baseType left, baseType top, baseType width, baseType height)
{
FXT_RECT::left = left, FXT_RECT::top = top, FXT_RECT::width = width, FXT_RECT::height = height;
}
void Set(baseType left, baseType top, const FXT_SIZE &size)
{
FXT_RECT::left = left, FXT_RECT::top = top, FXT_RECT::Size(size);
}
void Set(const FXT_POINT &p, baseType width, baseType height)
{
TopLeft(p), FXT_RECT::width = width, FXT_RECT::height = height;
}
void Set(const FXT_POINT &p1, const FXT_POINT &p2)
{
TopLeft(p1), FXT_RECT::width = p2.x - p1.x, FXT_RECT::height = p2.y - p1.y, FXT_RECT::Normalize();
}
void Set(const FXT_POINT &p, const FXT_VECTOR &v)
{
TopLeft(p), FXT_RECT::width = v.x, FXT_RECT::height = v.y, FXT_RECT::Normalize();
}
void Reset()
{
FXT_RECT::left = FXT_RECT::top = FXT_RECT::width = FXT_RECT::height = 0;
}
FXT_RECT& operator += (const FXT_POINT &p)
{
left += p.x, top += p.y;
return *this;
}
FXT_RECT& operator -= (const FXT_POINT &p)
{
left -= p.x, top -= p.y;
return *this;
}
baseType right() const
{
return left + width;
}
baseType bottom() const
{
return top + height;
}
void Normalize()
{
if (width < 0) {
left += width;
width = -width;
}
if (height < 0) {
top += height;
height = -height;
}
}
void Offset(baseType dx, baseType dy)
{
left += dx;
top += dy;
}
void Inflate(baseType x, baseType y)
{
left -= x;
width += x * 2;
top -= y;
height += y * 2;
}
void Inflate(const FXT_POINT &p)
{
Inflate(p.x, p.y);
}
void Inflate(baseType left, baseType top, baseType right, baseType bottom)
{
FXT_RECT::left -= left;
FXT_RECT::top -= top;
FXT_RECT::width += left + right;
FXT_RECT::height += top + bottom;
}
void Inflate(const FXT_RECT &rt)
{
Inflate(rt.left, rt.top, rt.left + rt.width, rt.top + rt.height);
}
void Deflate(baseType x, baseType y)
{
left += x;
width -= x * 2;
top += y;
height -= y * 2;
}
void Deflate(const FXT_POINT &p)
{
Deflate(p.x, p.y);
}
void Deflate(baseType left, baseType top, baseType right, baseType bottom)
{
FXT_RECT::left += left;
FXT_RECT::top += top;
FXT_RECT::width -= left + right;
FXT_RECT::height -= top + bottom;
}
void Deflate(const FXT_RECT &rt)
{
Deflate(rt.left, rt.top, rt.top + rt.width, rt.top + rt.height);
}
FX_BOOL IsEmpty() const
{
return width <= 0 || height <= 0;
}
FX_BOOL IsEmpty(FX_FLOAT fEpsilon) const
{
return width <= fEpsilon || height <= fEpsilon;
}
void Empty()
{
width = height = 0;
}
FX_BOOL Contains(baseType x, baseType y) const
{
return x >= left && x < left + width && y >= top && y < top + height;
}
FX_BOOL Contains(const FXT_POINT &p) const
{
return Contains(p.x, p.y);
}
FX_BOOL Contains(const FXT_RECT &rt) const
{
return rt.left >= left && rt.right() <= right() && rt.top >= top && rt.bottom() <= bottom();
}
baseType Width() const
{
return width;
}
baseType Height() const
{
return height;
}
FXT_SIZE Size() const
{
FXT_SIZE size;
size.Set(width, height);
return size;
}
void Size(FXT_SIZE s)
{
width = s.x, height = s.y;
}
FXT_POINT TopLeft() const
{
FXT_POINT p;
p.x = left;
p.y = top;
return p;
}
FXT_POINT TopRight() const
{
FXT_POINT p;
p.x = left + width;
p.y = top;
return p;
}
FXT_POINT BottomLeft() const
{
FXT_POINT p;
p.x = left;
p.y = top + height;
return p;
}
FXT_POINT BottomRight() const
{
FXT_POINT p;
p.x = left + width;
p.y = top + height;
return p;
}
void TopLeft(FXT_POINT tl)
{
left = tl.x;
top = tl.y;
}
void TopRight(FXT_POINT tr)
{
width = tr.x - left;
top = tr.y;
}
void BottomLeft(FXT_POINT bl)
{
left = bl.x;
height = bl.y - top;
}
void BottomRight(FXT_POINT br)
{
width = br.x - left;
height = br.y - top;
}
FXT_POINT Center() const
{
FXT_POINT p;
p.x = left + width / 2;
p.y = top + height / 2;
return p;
}
void GetParallelogram(FXT_PARAL &pg) const
{
pg.x = left, pg.y = top;
pg.x1 = width, pg.y1 = 0;
pg.x2 = 0, pg.y2 = height;
}
void Union(baseType x, baseType y)
{
baseType r = right(), b = bottom();
if (left > x) {
left = x;
}
if (r < x) {
r = x;
}
if (top > y) {
top = y;
}
if (b < y) {
b = y;
}
width = r - left;
height = b - top;
}
void Union(const FXT_POINT &p)
{
Union(p.x, p.y);
}
void Union(const FXT_RECT &rt)
{
baseType r = right(), b = bottom();
if (left > rt.left) {
left = rt.left;
}
if (r < rt.right()) {
r = rt.right();
}
if (top > rt.top) {
top = rt.top;
}
if (b < rt.bottom()) {
b = rt.bottom();
}
width = r - left;
height = b - top;
}
void Intersect(const FXT_RECT &rt)
{
baseType r = right(), b = bottom();
if (left < rt.left) {
left = rt.left;
}
if (r > rt.right()) {
r = rt.right();
}
if (top < rt.top) {
top = rt.top;
}
if (b > rt.bottom()) {
b = rt.bottom();
}
width = r - left;
height = b - top;
}
FX_BOOL IntersectWith(const FXT_RECT &rt) const
{
FXT_RECT rect = rt;
rect.Intersect(*this);
return !rect.IsEmpty();
}
FX_BOOL IntersectWith(const FXT_RECT &rt, FX_FLOAT fEpsilon) const
{
FXT_RECT rect = rt;
rect.Intersect(*this);
return !rect.IsEmpty(fEpsilon);
}
friend FX_BOOL operator == (const FXT_RECT &rc1, const FXT_RECT &rc2)
{
return rc1.left == rc2.left && rc1.top == rc2.top && rc1.width == rc2.width && rc1.height == rc2.height;
}
friend FX_BOOL operator != (const FXT_RECT &rc1, const FXT_RECT &rc2)
{
return rc1.left != rc2.left || rc1.top != rc2.top || rc1.width != rc2.width || rc1.height != rc2.height;
}
baseType left, top;
baseType width, height;
};
typedef CFX_RTemplate<FX_INT32> CFX_Rect;
typedef CFX_RTemplate<FX_FLOAT> CFX_RectF;
typedef CFX_RTemplate<FX_INT32> * FX_LPRECT;
typedef CFX_RTemplate<FX_FLOAT> * FX_LPRECTF;
typedef CFX_RTemplate<FX_INT32> const * FX_LPCRECT;
typedef CFX_RTemplate<FX_FLOAT> const * FX_LPCRECTF;
typedef CFX_ArrayTemplate<CFX_RectF> CFX_RectFArray;
struct FX_RECT {
int left;
int top;
int right;
int bottom;
FX_RECT() {}
FX_RECT(int left1, int top1, int right1, int bottom1)
{
left = left1;
top = top1;
right = right1;
bottom = bottom1;
}
int Width() const
{
return right - left;
}
int Height() const
{
return bottom - top;
}
FX_BOOL IsEmpty() const
{
return right <= left || bottom <= top;
}
void Normalize();
void Intersect(const FX_RECT& src);
void Intersect(int left1, int top1, int right1, int bottom1)
{
Intersect(FX_RECT(left1, top1, right1, bottom1));
}
void Union(const FX_RECT& other_rect);
FX_BOOL operator == (const FX_RECT& src) const
{
return left == src.left && right == src.right && top == src.top && bottom == src.bottom;
}
void Offset(int dx, int dy)
{
left += dx;
right += dx;
top += dy;
bottom += dy;
}
FX_BOOL Contains(const FX_RECT& other_rect) const
{
return other_rect.left >= left && other_rect.right <= right && other_rect.top >= top && other_rect.bottom <= bottom;
}
FX_BOOL Contains(int x, int y) const
{
return x >= left && x < right && y >= top && y < bottom;
}
};
struct FX_SMALL_RECT {
FX_SHORT Left;
FX_SHORT Top;
FX_SHORT Right;
FX_SHORT Bottom;
};
class CFX_FloatRect : public CFX_Object
{
public:
CFX_FloatRect()
{
left = right = bottom = top = 0;
}
CFX_FloatRect(FX_FLOAT left1, FX_FLOAT bottom1, FX_FLOAT right1, FX_FLOAT top1)
{
left = left1;
bottom = bottom1;
right = right1;
top = top1;
}
CFX_FloatRect(const FX_FLOAT* pArray)
{
left = pArray[0];
bottom = pArray[1];
right = pArray[2];
top = pArray[3];
}
CFX_FloatRect(const FX_RECT& rect);
FX_BOOL IsEmpty() const
{
return left >= right || bottom >= top;
}
void Normalize();
void Reset()
{
left = right = bottom = top = 0;
}
FX_BOOL Contains(const CFX_FloatRect& other_rect) const;
FX_BOOL Contains(FX_FLOAT x, FX_FLOAT y) const;
void Transform(const CFX_Matrix* pMatrix);
void Intersect(const CFX_FloatRect& other_rect);
void Union(const CFX_FloatRect& other_rect);
FX_RECT GetInnerRect() const;
FX_RECT GetOutterRect() const;
FX_RECT GetClosestRect() const;
int Substract4(CFX_FloatRect& substract_rect, CFX_FloatRect* pRects);
void InitRect(FX_FLOAT x, FX_FLOAT y)
{
left = right = x;
bottom = top = y;
}
void UpdateRect(FX_FLOAT x, FX_FLOAT y);
FX_FLOAT Width() const
{
return right - left;
}
FX_FLOAT Height() const
{
return top - bottom;
}
void Inflate(FX_FLOAT x, FX_FLOAT y)
{
Normalize();
left -= x;
right += x;
bottom -= y;
top += y;
}
void Inflate(FX_FLOAT left, FX_FLOAT bottom, FX_FLOAT right, FX_FLOAT top)
{
Normalize();
this->left -= left;
this->bottom -= bottom;
this->right += right;
this->top += top;
}
void Inflate(const CFX_FloatRect &rt)
{
Inflate(rt.left, rt.bottom, rt.right, rt.top);
}
void Deflate(FX_FLOAT x, FX_FLOAT y)
{
Normalize();
left += x;
right -= x;
bottom += y;
top -= y;
}
void Deflate(FX_FLOAT left, FX_FLOAT bottom, FX_FLOAT right, FX_FLOAT top)
{
Normalize();
this->left += left;
this->bottom += bottom;
this->right -= right;
this->top -= top;
}
void Deflate(const CFX_FloatRect &rt)
{
Deflate(rt.left, rt.bottom, rt.right, rt.top);
}
void Translate(FX_FLOAT e, FX_FLOAT f)
{
left += e;
right += e;
top += f;
bottom += f;
}
static CFX_FloatRect GetBBox(const CFX_FloatPoint* pPoints, int nPoints);
FX_FLOAT left;
FX_FLOAT right;
FX_FLOAT bottom;
FX_FLOAT top;
};
class CFX_Matrix : public CFX_Object
{
public:
CFX_Matrix()
{
a = d = 1;
b = c = e = f = 0;
}
CFX_Matrix(FX_FLOAT a1, FX_FLOAT b1, FX_FLOAT c1, FX_FLOAT d1, FX_FLOAT e1, FX_FLOAT f1)
{
a = a1;
b = b1;
c = c1;
d = d1;
e = e1;
f = f1;
}
void Set(FX_FLOAT a, FX_FLOAT b, FX_FLOAT c, FX_FLOAT d, FX_FLOAT e, FX_FLOAT f);
void Set(const FX_FLOAT n[6]);
void SetIdentity()
{
a = d = 1;
b = c = e = f = 0;
}
void SetReverse(const CFX_Matrix &m);
void Concat(FX_FLOAT a, FX_FLOAT b, FX_FLOAT c, FX_FLOAT d, FX_FLOAT e, FX_FLOAT f, FX_BOOL bPrepended = FALSE);
void Concat(const CFX_Matrix &m, FX_BOOL bPrepended = FALSE);
void ConcatInverse(const CFX_Matrix& m, FX_BOOL bPrepended = FALSE);
void Reset()
{
SetIdentity();
}
void Copy(const CFX_Matrix& m)
{
*this = m;
}
FX_BOOL IsIdentity() const
{
return a == 1 && b == 0 && c == 0 && d == 1 && e == 0 && f == 0;
}
FX_BOOL IsInvertible() const;
FX_BOOL Is90Rotated() const;
FX_BOOL IsScaled() const;
void Translate(FX_FLOAT x, FX_FLOAT y, FX_BOOL bPrepended = FALSE);
void TranslateI(FX_INT32 x, FX_INT32 y, FX_BOOL bPrepended = FALSE)
{
Translate((FX_FLOAT)x, (FX_FLOAT)y, bPrepended);
}
void Scale(FX_FLOAT sx, FX_FLOAT sy, FX_BOOL bPrepended = FALSE);
void Rotate(FX_FLOAT fRadian, FX_BOOL bPrepended = FALSE);
void RotateAt(FX_FLOAT fRadian, FX_FLOAT x, FX_FLOAT y, FX_BOOL bPrepended = FALSE);
void Shear(FX_FLOAT fAlphaRadian, FX_FLOAT fBetaRadian, FX_BOOL bPrepended = FALSE);
void MatchRect(const CFX_FloatRect &dest, const CFX_FloatRect &src);
FX_FLOAT GetXUnit() const;
FX_FLOAT GetYUnit() const;
void GetUnitRect(CFX_RectF &rect) const;
CFX_FloatRect GetUnitRect() const;
FX_FLOAT GetUnitArea() const;
FX_FLOAT TransformXDistance(FX_FLOAT dx) const;
FX_INT32 TransformXDistance(FX_INT32 dx) const;
FX_FLOAT TransformYDistance(FX_FLOAT dy) const;
FX_INT32 TransformYDistance(FX_INT32 dy) const;
FX_FLOAT TransformDistance(FX_FLOAT dx, FX_FLOAT dy) const;
FX_INT32 TransformDistance(FX_INT32 dx, FX_INT32 dy) const;
FX_FLOAT TransformDistance(FX_FLOAT distance) const;
void TransformPoint(FX_FLOAT &x, FX_FLOAT &y) const;
void TransformPoint(FX_INT32 &x, FX_INT32 &y) const;
void TransformPoints(CFX_PointF *points, FX_INT32 iCount) const;
void TransformPoints(CFX_Point *points, FX_INT32 iCount) const;
void Transform(FX_FLOAT& x, FX_FLOAT& y) const
{
TransformPoint(x, y);
}
void Transform(FX_FLOAT x, FX_FLOAT y, FX_FLOAT& x1, FX_FLOAT& y1) const
{
x1 = x, y1 = y;
TransformPoint(x1, y1);
}
void TransformVector(CFX_VectorF &v) const;
void TransformVector(CFX_Vector &v) const;
void TransformRect(CFX_RectF &rect) const;
void TransformRect(CFX_Rect &rect) const;
void TransformRect(FX_FLOAT& left, FX_FLOAT& right, FX_FLOAT& top, FX_FLOAT& bottom) const;
void TransformRect(CFX_FloatRect& rect) const
{
TransformRect(rect.left, rect.right, rect.top, rect.bottom);
}
FX_FLOAT GetA() const
{
return a;
}
FX_FLOAT GetB() const
{
return b;
}
FX_FLOAT GetC() const
{
return c;
}
FX_FLOAT GetD() const
{
return d;
}
FX_FLOAT GetE() const
{
return e;
}
FX_FLOAT GetF() const
{
return f;
}
public:
FX_FLOAT a;
FX_FLOAT b;
FX_FLOAT c;
FX_FLOAT d;
FX_FLOAT e;
FX_FLOAT f;
};
#define CFX_AffineMatrix CFX_Matrix
#endif
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