GraphicsPath.Warp
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]Warp(PointF[], RectangleF)
Applies a warp transform, defined by a rectangle and a parallelogram, to this GraphicsPath.
public void Warp(PointF[] destPoints, RectangleF srcRect)
| Parameter | Type | Description |
|---|---|---|
| destPoints | PointF[] | An array of PointF structures that define a parallelogram to which the rectangle defined by srcRect is transformed. The array can contain either three or four elements. If the array contains three elements, the lower-right corner of the parallelogram is implied by the first three points. |
| srcRect | RectangleF | A RectangleF that represents the rectangle that is transformed to the parallelogram defined by destPoints. |
See Also
- struct PointF
- struct RectangleF
- class GraphicsPath
- namespace Aspose.Imaging
- assembly Aspose.Imaging
Warp(PointF[], RectangleF, Matrix)
Applies a warp transform, defined by a rectangle and a parallelogram, to this GraphicsPath.
public void Warp(PointF[] destPoints, RectangleF srcRect, Matrix matrix)
| Parameter | Type | Description |
|---|---|---|
| destPoints | PointF[] | An array of PointF structures that define a parallelogram to which the rectangle defined by srcRect is transformed. The array can contain either three or four elements. If the array contains three elements, the lower-right corner of the parallelogram is implied by the first three points. |
| srcRect | RectangleF | A RectangleF that represents the rectangle that is transformed to the parallelogram defined by destPoints. |
| matrix | Matrix | A Matrix that specifies a geometric transform to apply to the path. |
See Also
- struct PointF
- struct RectangleF
- class Matrix
- class GraphicsPath
- namespace Aspose.Imaging
- assembly Aspose.Imaging
Warp(PointF[], RectangleF, Matrix, WarpMode)
Applies a warp transform, defined by a rectangle and a parallelogram, to this GraphicsPath.
public void Warp(PointF[] destPoints, RectangleF srcRect, Matrix matrix, WarpMode warpMode)
| Parameter | Type | Description |
|---|---|---|
| destPoints | PointF[] | An array of PointF structures that defines a parallelogram to which the rectangle defined by srcRect is transformed. The array can contain either three or four elements. If the array contains three elements, the lower-right corner of the parallelogram is implied by the first three points. |
| srcRect | RectangleF | A RectangleF that represents the rectangle that is transformed to the parallelogram defined by destPoints. |
| matrix | Matrix | A Matrix that specifies a geometric transform to apply to the path. |
| warpMode | WarpMode | A WarpMode enumeration that specifies whether this warp operation uses perspective or bilinear mode. |
See Also
- struct PointF
- struct RectangleF
- class Matrix
- enum WarpMode
- class GraphicsPath
- namespace Aspose.Imaging
- assembly Aspose.Imaging
Warp(PointF[], RectangleF, Matrix, WarpMode, float)
Applies a warp transform, defined by a rectangle and a parallelogram, to this GraphicsPath.
public void Warp(PointF[] destPoints, RectangleF srcRect, Matrix matrix, WarpMode warpMode,
float flatness)
| Parameter | Type | Description |
|---|---|---|
| destPoints | PointF[] | An array of PointF structures that define a parallelogram to which the rectangle defined by srcRect is transformed. The array can contain either three or four elements. If the array contains three elements, the lower-right corner of the parallelogram is implied by the first three points. |
| srcRect | RectangleF | A RectangleF that represents the rectangle that is transformed to the parallelogram defined by destPoints. |
| matrix | Matrix | A Matrix that specifies a geometric transform to apply to the path. |
| warpMode | WarpMode | A WarpMode enumeration that specifies whether this warp operation uses perspective or bilinear mode. |
| flatness | Single | A value from 0 through 1 that specifies how flat the resulting path is. For more information, see the Flatten methods. |
See Also
- struct PointF
- struct RectangleF
- class Matrix
- enum WarpMode
- class GraphicsPath
- namespace Aspose.Imaging
- assembly Aspose.Imaging
