include/gdiplus/gdiplusmatrix.h

/*
 * gdiplusmatrix.h
 *
 * GDI+ Matrix class
 *
 * This file is part of the w32api package.
 *
 * Contributors:
 *   Created by Markus Koenig <markus@stber-koenig.de>
 *
 * THIS SOFTWARE IS NOT COPYRIGHTED
 *
 * This source code is offered for use in the public domain. You may
 * use, modify or distribute it freely.
 *
 * This code is distributed in the hope that it will be useful but
 * WITHOUT ANY WARRANTY. ALL WARRANTIES, EXPRESS OR IMPLIED ARE HEREBY
 * DISCLAIMED. This includes but is not limited to warranties of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
 *
 */

#ifndef __GDIPLUS_MATRIX_H
#define __GDIPLUS_MATRIX_H
#if __GNUC__ >=3
#pragma GCC system_header
#endif

#ifndef __cplusplus
#error "A C++ compiler is required to include gdiplusmatrix.h."
#endif

#define GDIP_MATRIX_PI \
        3.1415926535897932384626433832795028841971693993751058209749445923078164

class Matrix: public GdiplusBase
{
        friend class Graphics;
        friend class GraphicsPath;
        friend class LinearGradientBrush;
        friend class PathGradientBrush;
        friend class Pen;
        friend class Region;
        friend class TextureBrush;

public:
        Matrix(): nativeMatrix(NULL), lastStatus(Ok)
        {
                lastStatus = DllExports::GdipCreateMatrix(&nativeMatrix);
        }
        Matrix(REAL m11, REAL m12, REAL m21, REAL m22, REAL dx, REAL dy):
                        nativeMatrix(NULL), lastStatus(Ok)
        {
                lastStatus = DllExports::GdipCreateMatrix2(
                                m11, m12, m21, m22, dx, dy,
                                &nativeMatrix);
        }
        Matrix(const RectF& rect, const PointF *dstplg):
                        nativeMatrix(NULL), lastStatus(Ok)
        {
                lastStatus = DllExports::GdipCreateMatrix3(
                                &rect, dstplg, &nativeMatrix);
        }
        Matrix(const Rect& rect, const Point *dstplg):
                        nativeMatrix(NULL), lastStatus(Ok)
        {
                lastStatus = DllExports::GdipCreateMatrix3I(
                                &rect, dstplg, &nativeMatrix);
        }
        ~Matrix()
        {
                DllExports::GdipDeleteMatrix(nativeMatrix);
        }
        Matrix* Clone() const
        {
                GpMatrix *cloneMatrix = NULL;
                Status status = updateStatus(DllExports::GdipCloneMatrix(
                                nativeMatrix, &cloneMatrix));
                if (status == Ok) {
                        Matrix *result = new Matrix(cloneMatrix, lastStatus);
                        if (!result) {
                                DllExports::GdipDeleteMatrix(cloneMatrix);
                                lastStatus = OutOfMemory;
                        }
                        return result;
                } else {
                        return NULL;
                }
        }

        BOOL Equals(const Matrix *matrix) const
        {
                BOOL result;
                updateStatus(DllExports::GdipIsMatrixEqual(
                                nativeMatrix,
                                matrix ? matrix->nativeMatrix : NULL, &result));
                return result;
        }
        Status GetElements(REAL *m) const
        {
                return updateStatus(DllExports::GdipGetMatrixElements(
                                nativeMatrix, m));
        }
        Status GetLastStatus() const
        {
                Status result = lastStatus;
                lastStatus = Ok;
                return result;
        }
        Status Invert()
        {
                return updateStatus(DllExports::GdipInvertMatrix(nativeMatrix));
        }
        BOOL IsIdentity() const
        {
                BOOL result;
                updateStatus(DllExports::GdipIsMatrixIdentity(
                                nativeMatrix, &result));
                return result;
        }
        BOOL IsInvertible() const
        {
                BOOL result;
                updateStatus(DllExports::GdipIsMatrixInvertible(
                                nativeMatrix, &result));
                return result;
        }
        Status Multiply(const Matrix *matrix,
                        MatrixOrder order = MatrixOrderPrepend)
        {
                return updateStatus(DllExports::GdipMultiplyMatrix(
                                nativeMatrix,
                                matrix ? matrix->nativeMatrix : NULL, order));
        }
        REAL OffsetX() const
        {
                REAL m[6];
                updateStatus(DllExports::GdipGetMatrixElements(nativeMatrix, m));
                return m[4];
        }
        REAL OffsetY() const
        {
                REAL m[6];
                updateStatus(DllExports::GdipGetMatrixElements(nativeMatrix, m));
                return m[5];
        }
        Status Reset()
        {
                return updateStatus(DllExports::GdipSetMatrixElements(
                                nativeMatrix,
                                1.0f, 0.0f, 0.0f, 1.0f, 0.0f, 0.0f));
        }
        Status Rotate(REAL angle, MatrixOrder order = MatrixOrderPrepend)
        {
                return updateStatus(DllExports::GdipRotateMatrix(
                                nativeMatrix, angle, order));
        }
        Status RotateAt(REAL angle, const PointF& center,
                        MatrixOrder order = MatrixOrderPrepend)
        {
                REAL angleRadian = angle * GDIP_MATRIX_PI / 180.0f;
                REAL cosAngle = ::cos(angleRadian);
                REAL sinAngle = ::sin(angleRadian);
                REAL x = center.X;
                REAL y = center.Y;

                Matrix matrix2(cosAngle, sinAngle, -sinAngle, cosAngle,
                                x * (1.0f-cosAngle) + y * sinAngle,
                                -x * sinAngle + y * (1.0f-cosAngle));
                Status status = matrix2.GetLastStatus();
                if (status == Ok) {
                        return Multiply(&matrix2, order);
                } else {
                        return lastStatus = status;
                }
        }
        Status Scale(REAL scaleX, REAL scaleY,
                        MatrixOrder order = MatrixOrderPrepend)
        {
                return updateStatus(DllExports::GdipScaleMatrix(
                                nativeMatrix, scaleX, scaleY, order));
        }
        Status SetElements(REAL m11, REAL m12, REAL m21, REAL m22,
                        REAL dx, REAL dy)
        {
                return updateStatus(DllExports::GdipSetMatrixElements(
                                nativeMatrix, m11, m12, m21, m22, dx, dy));
        }
        Status Shear(REAL shearX, REAL shearY,
                        MatrixOrder order = MatrixOrderPrepend)
        {
                return updateStatus(DllExports::GdipShearMatrix(
                                nativeMatrix, shearX, shearY, order));
        }
        Status TransformPoints(PointF *pts, INT count = 1) const
        {
                return updateStatus(DllExports::GdipTransformMatrixPoints(
                                nativeMatrix, pts, count));
        }
        Status TransformPoints(Point *pts, INT count = 1) const
        {
                return updateStatus(DllExports::GdipTransformMatrixPointsI(
                                nativeMatrix, pts, count));
        }
        Status TransformVectors(PointF *pts, INT count = 1) const
        {
                return updateStatus(DllExports::GdipVectorTransformMatrixPoints(
                                nativeMatrix, pts, count));
        }
        Status TransformVectors(Point *pts, INT count = 1) const
        {
                return updateStatus(DllExports::GdipVectorTransformMatrixPointsI(
                                nativeMatrix, pts, count));
        }
        Status Translate(REAL offsetX, REAL offsetY,
                        MatrixOrder order = MatrixOrderPrepend)
        {
                return updateStatus(DllExports::GdipTranslateMatrix(
                                nativeMatrix, offsetX, offsetY, order));
        }

private:
        Matrix(GpMatrix *matrix, Status status):
                nativeMatrix(matrix), lastStatus(status) {}
        Matrix(const Matrix&);
        Matrix& operator=(const Matrix&);

        Status updateStatus(Status newStatus) const
        {
                if (newStatus != Ok) lastStatus = newStatus;
                return newStatus;
        }

        GpMatrix *nativeMatrix;
        mutable Status lastStatus;
};

#undef GDIP_MATRIX_PI

#endif /* __GDIPLUS_MATRIX_H */
Revision:	1166
Committed:	Tue Oct 26 14:22:36 2021 UTC (4 years ago) by rossy
Content type:	text/x-chdr
File size:	6133 byte(s)
Log Message:	Daodan: Replace MinGW build env with an up-to-date MSYS2 env
#	Content
1	/*
2	* gdiplusmatrix.h
3	*
4	* GDI+ Matrix class
5	*
6	* This file is part of the w32api package.
7	*
8	* Contributors:
9	* Created by Markus Koenig <markus@stber-koenig.de>
10	*
11	* THIS SOFTWARE IS NOT COPYRIGHTED
12	*
13	* This source code is offered for use in the public domain. You may
14	* use, modify or distribute it freely.
15	*
16	* This code is distributed in the hope that it will be useful but
17	* WITHOUT ANY WARRANTY. ALL WARRANTIES, EXPRESS OR IMPLIED ARE HEREBY
18	* DISCLAIMED. This includes but is not limited to warranties of
19	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
20	*
21	*/
22
23	#ifndef __GDIPLUS_MATRIX_H
24	#define __GDIPLUS_MATRIX_H
25	#if __GNUC__ >=3
26	#pragma GCC system_header
27	#endif
28
29	#ifndef __cplusplus
30	#error "A C++ compiler is required to include gdiplusmatrix.h."
31	#endif
32
33	#define GDIP_MATRIX_PI \
34	3.1415926535897932384626433832795028841971693993751058209749445923078164
35
36	class Matrix: public GdiplusBase
37	{
38	friend class Graphics;
39	friend class GraphicsPath;
40	friend class LinearGradientBrush;
41	friend class PathGradientBrush;
42	friend class Pen;
43	friend class Region;
44	friend class TextureBrush;
45
46	public:
47	Matrix(): nativeMatrix(NULL), lastStatus(Ok)
48	{
49	lastStatus = DllExports::GdipCreateMatrix(&nativeMatrix);
50	}
51	Matrix(REAL m11, REAL m12, REAL m21, REAL m22, REAL dx, REAL dy):
52	nativeMatrix(NULL), lastStatus(Ok)
53	{
54	lastStatus = DllExports::GdipCreateMatrix2(
55	m11, m12, m21, m22, dx, dy,
56	&nativeMatrix);
57	}
58	Matrix(const RectF& rect, const PointF *dstplg):
59	nativeMatrix(NULL), lastStatus(Ok)
60	{
61	lastStatus = DllExports::GdipCreateMatrix3(
62	&rect, dstplg, &nativeMatrix);
63	}
64	Matrix(const Rect& rect, const Point *dstplg):
65	nativeMatrix(NULL), lastStatus(Ok)
66	{
67	lastStatus = DllExports::GdipCreateMatrix3I(
68	&rect, dstplg, &nativeMatrix);
69	}
70	~Matrix()
71	{
72	DllExports::GdipDeleteMatrix(nativeMatrix);
73	}
74	Matrix* Clone() const
75	{
76	GpMatrix *cloneMatrix = NULL;
77	Status status = updateStatus(DllExports::GdipCloneMatrix(
78	nativeMatrix, &cloneMatrix));
79	if (status == Ok) {
80	Matrix *result = new Matrix(cloneMatrix, lastStatus);
81	if (!result) {
82	DllExports::GdipDeleteMatrix(cloneMatrix);
83	lastStatus = OutOfMemory;
84	}
85	return result;
86	} else {
87	return NULL;
88	}
89	}
90
91	BOOL Equals(const Matrix *matrix) const
92	{
93	BOOL result;
94	updateStatus(DllExports::GdipIsMatrixEqual(
95	nativeMatrix,
96	matrix ? matrix->nativeMatrix : NULL, &result));
97	return result;
98	}
99	Status GetElements(REAL *m) const
100	{
101	return updateStatus(DllExports::GdipGetMatrixElements(
102	nativeMatrix, m));
103	}
104	Status GetLastStatus() const
105	{
106	Status result = lastStatus;
107	lastStatus = Ok;
108	return result;
109	}
110	Status Invert()
111	{
112	return updateStatus(DllExports::GdipInvertMatrix(nativeMatrix));
113	}
114	BOOL IsIdentity() const
115	{
116	BOOL result;
117	updateStatus(DllExports::GdipIsMatrixIdentity(
118	nativeMatrix, &result));
119	return result;
120	}
121	BOOL IsInvertible() const
122	{
123	BOOL result;
124	updateStatus(DllExports::GdipIsMatrixInvertible(
125	nativeMatrix, &result));
126	return result;
127	}
128	Status Multiply(const Matrix *matrix,
129	MatrixOrder order = MatrixOrderPrepend)
130	{
131	return updateStatus(DllExports::GdipMultiplyMatrix(
132	nativeMatrix,
133	matrix ? matrix->nativeMatrix : NULL, order));
134	}
135	REAL OffsetX() const
136	{
137	REAL m[6];
138	updateStatus(DllExports::GdipGetMatrixElements(nativeMatrix, m));
139	return m[4];
140	}
141	REAL OffsetY() const
142	{
143	REAL m[6];
144	updateStatus(DllExports::GdipGetMatrixElements(nativeMatrix, m));
145	return m[5];
146	}
147	Status Reset()
148	{
149	return updateStatus(DllExports::GdipSetMatrixElements(
150	nativeMatrix,
151	1.0f, 0.0f, 0.0f, 1.0f, 0.0f, 0.0f));
152	}
153	Status Rotate(REAL angle, MatrixOrder order = MatrixOrderPrepend)
154	{
155	return updateStatus(DllExports::GdipRotateMatrix(
156	nativeMatrix, angle, order));
157	}
158	Status RotateAt(REAL angle, const PointF& center,
159	MatrixOrder order = MatrixOrderPrepend)
160	{
161	REAL angleRadian = angle * GDIP_MATRIX_PI / 180.0f;
162	REAL cosAngle = ::cos(angleRadian);
163	REAL sinAngle = ::sin(angleRadian);
164	REAL x = center.X;
165	REAL y = center.Y;
166
167	Matrix matrix2(cosAngle, sinAngle, -sinAngle, cosAngle,
168	x * (1.0f-cosAngle) + y * sinAngle,
169	-x * sinAngle + y * (1.0f-cosAngle));
170	Status status = matrix2.GetLastStatus();
171	if (status == Ok) {
172	return Multiply(&matrix2, order);
173	} else {
174	return lastStatus = status;
175	}
176	}
177	Status Scale(REAL scaleX, REAL scaleY,
178	MatrixOrder order = MatrixOrderPrepend)
179	{
180	return updateStatus(DllExports::GdipScaleMatrix(
181	nativeMatrix, scaleX, scaleY, order));
182	}
183	Status SetElements(REAL m11, REAL m12, REAL m21, REAL m22,
184	REAL dx, REAL dy)
185	{
186	return updateStatus(DllExports::GdipSetMatrixElements(
187	nativeMatrix, m11, m12, m21, m22, dx, dy));
188	}
189	Status Shear(REAL shearX, REAL shearY,
190	MatrixOrder order = MatrixOrderPrepend)
191	{
192	return updateStatus(DllExports::GdipShearMatrix(
193	nativeMatrix, shearX, shearY, order));
194	}
195	Status TransformPoints(PointF *pts, INT count = 1) const
196	{
197	return updateStatus(DllExports::GdipTransformMatrixPoints(
198	nativeMatrix, pts, count));
199	}
200	Status TransformPoints(Point *pts, INT count = 1) const
201	{
202	return updateStatus(DllExports::GdipTransformMatrixPointsI(
203	nativeMatrix, pts, count));
204	}
205	Status TransformVectors(PointF *pts, INT count = 1) const
206	{
207	return updateStatus(DllExports::GdipVectorTransformMatrixPoints(
208	nativeMatrix, pts, count));
209	}
210	Status TransformVectors(Point *pts, INT count = 1) const
211	{
212	return updateStatus(DllExports::GdipVectorTransformMatrixPointsI(
213	nativeMatrix, pts, count));
214	}
215	Status Translate(REAL offsetX, REAL offsetY,
216	MatrixOrder order = MatrixOrderPrepend)
217	{
218	return updateStatus(DllExports::GdipTranslateMatrix(
219	nativeMatrix, offsetX, offsetY, order));
220	}
221
222	private:
223	Matrix(GpMatrix *matrix, Status status):
224	nativeMatrix(matrix), lastStatus(status) {}
225	Matrix(const Matrix&);
226	Matrix& operator=(const Matrix&);
227
228	Status updateStatus(Status newStatus) const
229	{
230	if (newStatus != Ok) lastStatus = newStatus;
231	return newStatus;
232	}
233
234	GpMatrix *nativeMatrix;
235	mutable Status lastStatus;
236	};
237
238	#undef GDIP_MATRIX_PI
239
240	#endif /* __GDIPLUS_MATRIX_H */