/**************************************************************************\ * * Copyright (c) 1998-2000, Microsoft Corp. All Rights Reserved. * * Module Name: * * GdiplusBrush.h * * Abstract: * * Brush API related declarations * \**************************************************************************/ #ifndef _GDIPLUSBRUSH_H #define _GDIPLUSBRUSH_H //-------------------------------------------------------------------------- // Abstract base class for various brush types //-------------------------------------------------------------------------- class GraphicsPath; class Brush : public GdiplusBase { public: friend class Pen; friend class Graphics; virtual ~Brush() { DllExports::GdipDeleteBrush(nativeBrush); } virtual Brush* Clone() const { GpBrush *brush = NULL; SetStatus(DllExports::GdipCloneBrush(nativeBrush, &brush)); Brush *newBrush = new Brush(brush, lastResult); if (newBrush == NULL) { DllExports::GdipDeleteBrush(brush); } return newBrush; } BrushType GetType() const { BrushType type = static_cast(-1); SetStatus(DllExports::GdipGetBrushType(nativeBrush, &type)); return type; } Status GetLastStatus() const { Status lastStatus = lastResult; lastResult = Ok; return lastStatus; } protected: Brush() { SetStatus(NotImplemented); } #ifdef DCR_USE_NEW_250932 private: Brush(const Brush& brush); Brush& operator=(const Brush& brush); protected: #else Brush(const Brush& brush) { brush; SetStatus(NotImplemented); } Brush& operator=(const Brush& brush) { brush; SetStatus(NotImplemented); return *this; } #endif Brush(GpBrush* nativeBrush, Status status) { lastResult = status; SetNativeBrush(nativeBrush); } VOID SetNativeBrush(GpBrush* nativeBrush) { this->nativeBrush = nativeBrush; } Status SetStatus(Status status) const { if (status != Ok) return (lastResult = status); else return status; } GpBrush* nativeBrush; mutable Status lastResult; }; //-------------------------------------------------------------------------- // Represent solid fill brush object //-------------------------------------------------------------------------- class SolidBrush : public Brush { public: friend class Pen; SolidBrush(IN const Color& color) { GpSolidFill *brush = NULL; lastResult = DllExports::GdipCreateSolidFill(color.GetValue(), &brush); SetNativeBrush(brush); } Status GetColor(OUT Color* color) const { ARGB argb; if (color == NULL) { return SetStatus(InvalidParameter); } SetStatus(DllExports::GdipGetSolidFillColor((GpSolidFill*)nativeBrush, &argb)); *color = Color(argb); return lastResult; } Status SetColor(IN const Color& color) { return SetStatus(DllExports::GdipSetSolidFillColor((GpSolidFill*)nativeBrush, color.GetValue())); } #ifdef DCR_USE_NEW_250932 private: SolidBrush(const SolidBrush &); SolidBrush& operator=(const SolidBrush &); #endif protected: SolidBrush() { } }; class TextureBrush : public Brush { public: friend class Pen; TextureBrush(IN Image* image, IN WrapMode wrapMode = WrapModeTile) { GpTexture *texture = NULL; lastResult = DllExports::GdipCreateTexture( image->nativeImage, wrapMode, &texture); SetNativeBrush(texture); } // When creating a texture brush from a metafile image, the dstRect // is used to specify the size that the metafile image should be // rendered at in the device units of the destination graphics. // It is NOT used to crop the metafile image, so only the width // and height values matter for metafiles. TextureBrush(IN Image* image, IN WrapMode wrapMode, IN const RectF &dstRect) { GpTexture *texture = NULL; lastResult = DllExports::GdipCreateTexture2( image->nativeImage, wrapMode, dstRect.X, dstRect.Y, dstRect.Width, dstRect.Height, &texture); SetNativeBrush(texture); } // When creating a texture brush from a metafile image, the dstRect // is used to specify the size that the metafile image should be // rendered at in the device units of the destination graphics. // It is NOT used to crop the metafile image, so only the width // and height values matter for metafiles. TextureBrush(IN Image *image, IN const RectF &dstRect, IN const ImageAttributes *imageAttributes = NULL) { GpTexture *texture = NULL; lastResult = DllExports::GdipCreateTextureIA( image->nativeImage, (imageAttributes)?imageAttributes->nativeImageAttr:NULL, dstRect.X, dstRect.Y, dstRect.Width, dstRect.Height, &texture ); SetNativeBrush(texture); } #ifdef DCR_USE_NEW_145138 TextureBrush(IN Image *image, IN const Rect &dstRect, IN const ImageAttributes *imageAttributes = NULL) { GpTexture *texture = NULL; lastResult = DllExports::GdipCreateTextureIAI( image->nativeImage, (imageAttributes)?imageAttributes->nativeImageAttr:NULL, dstRect.X, dstRect.Y, dstRect.Width, dstRect.Height, &texture ); SetNativeBrush(texture); } #endif // When creating a texture brush from a metafile image, the dstRect // is used to specify the size that the metafile image should be // rendered at in the device units of the destination graphics. // It is NOT used to crop the metafile image, so only the width // and height values matter for metafiles. TextureBrush( IN Image* image, IN WrapMode wrapMode, #ifdef DCR_USE_NEW_145138 const IN Rect &dstRect #else IN Rect &dstRect #endif ) { GpTexture *texture = NULL; lastResult = DllExports::GdipCreateTexture2I( image->nativeImage, wrapMode, dstRect.X, dstRect.Y, dstRect.Width, dstRect.Height, &texture); SetNativeBrush(texture); } // When creating a texture brush from a metafile image, the dstRect // is used to specify the size that the metafile image should be // rendered at in the device units of the destination graphics. // It is NOT used to crop the metafile image, so only the width // and height values matter for metafiles. TextureBrush(IN Image* image, IN WrapMode wrapMode, IN REAL dstX, IN REAL dstY, IN REAL dstWidth, IN REAL dstHeight) { GpTexture *texture = NULL; lastResult = DllExports::GdipCreateTexture2( image->nativeImage, wrapMode, dstX, dstY, dstWidth, dstHeight, &texture); SetNativeBrush(texture); } // When creating a texture brush from a metafile image, the dstRect // is used to specify the size that the metafile image should be // rendered at in the device units of the destination graphics. // It is NOT used to crop the metafile image, so only the width // and height values matter for metafiles. TextureBrush(IN Image* image, IN WrapMode wrapMode, IN INT dstX, IN INT dstY, IN INT dstWidth, IN INT dstHeight) { GpTexture *texture = NULL; lastResult = DllExports::GdipCreateTexture2I( image->nativeImage, wrapMode, dstX, dstY, dstWidth, dstHeight, &texture); SetNativeBrush(texture); } /** * Set/get brush transform */ Status SetTransform(IN const Matrix* matrix) { return SetStatus(DllExports::GdipSetTextureTransform((GpTexture*)nativeBrush, matrix->nativeMatrix)); } Status GetTransform(OUT Matrix* matrix) const { return SetStatus(DllExports::GdipGetTextureTransform((GpTexture*)nativeBrush, matrix->nativeMatrix)); } Status ResetTransform() { return SetStatus(DllExports::GdipResetTextureTransform((GpTexture*)nativeBrush)); } Status MultiplyTransform(IN const Matrix* matrix, IN MatrixOrder order = MatrixOrderPrepend) { return SetStatus(DllExports::GdipMultiplyTextureTransform((GpTexture*)nativeBrush, matrix->nativeMatrix, order)); } Status TranslateTransform(IN REAL dx, IN REAL dy, IN MatrixOrder order = MatrixOrderPrepend) { return SetStatus(DllExports::GdipTranslateTextureTransform((GpTexture*)nativeBrush, dx, dy, order)); } Status ScaleTransform(IN REAL sx, IN REAL sy, IN MatrixOrder order = MatrixOrderPrepend) { return SetStatus(DllExports::GdipScaleTextureTransform((GpTexture*)nativeBrush, sx, sy, order)); } Status RotateTransform(IN REAL angle, IN MatrixOrder order = MatrixOrderPrepend) { return SetStatus(DllExports::GdipRotateTextureTransform((GpTexture*)nativeBrush, angle, order)); } /** * Set/get brush wrapping mode */ Status SetWrapMode(IN WrapMode wrapMode) { return SetStatus(DllExports::GdipSetTextureWrapMode((GpTexture*)nativeBrush, wrapMode)); } WrapMode GetWrapMode() const { WrapMode wrapMode; SetStatus(DllExports::GdipGetTextureWrapMode((GpTexture*)nativeBrush, &wrapMode)); return wrapMode; } // Get texture brush attributes Image *GetImage() const { GpImage *image; SetStatus(DllExports::GdipGetTextureImage((GpTexture *)nativeBrush, &image)); Image *retimage = new Image(image, lastResult); if (retimage == NULL) { DllExports::GdipDisposeImage(image); } return retimage; } #ifdef DCR_USE_NEW_250932 private: TextureBrush(const TextureBrush &); TextureBrush& operator=(const TextureBrush &); #endif protected: TextureBrush() { } }; //-------------------------------------------------------------------------- // Represent line gradient brush object //-------------------------------------------------------------------------- class LinearGradientBrush : public Brush { public: friend class Pen; LinearGradientBrush(IN const PointF& point1, IN const PointF& point2, IN const Color& color1, IN const Color& color2) { GpLineGradient *brush = NULL; lastResult = DllExports::GdipCreateLineBrush(&point1, &point2, color1.GetValue(), color2.GetValue(), WrapModeTile, &brush); SetNativeBrush(brush); } LinearGradientBrush(IN const Point& point1, IN const Point& point2, IN const Color& color1, IN const Color& color2) { GpLineGradient *brush = NULL; lastResult = DllExports::GdipCreateLineBrushI(&point1, &point2, color1.GetValue(), color2.GetValue(), WrapModeTile, &brush); SetNativeBrush(brush); } LinearGradientBrush(IN const RectF& rect, IN const Color& color1, IN const Color& color2, IN LinearGradientMode mode) { GpLineGradient *brush = NULL; lastResult = DllExports::GdipCreateLineBrushFromRect(&rect, color1.GetValue(), color2.GetValue(), mode, WrapModeTile, &brush); SetNativeBrush(brush); } LinearGradientBrush(IN const Rect& rect, IN const Color& color1, IN const Color& color2, IN LinearGradientMode mode) { GpLineGradient *brush = NULL; lastResult = DllExports::GdipCreateLineBrushFromRectI(&rect, color1.GetValue(), color2.GetValue(), mode, WrapModeTile, &brush); SetNativeBrush(brush); } LinearGradientBrush(IN const RectF& rect, IN const Color& color1, IN const Color& color2, IN REAL angle, IN BOOL isAngleScalable = FALSE) { GpLineGradient *brush = NULL; lastResult = DllExports::GdipCreateLineBrushFromRectWithAngle(&rect, color1.GetValue(), color2.GetValue(), angle, isAngleScalable, WrapModeTile, &brush); SetNativeBrush(brush); } LinearGradientBrush(IN const Rect& rect, IN const Color& color1, IN const Color& color2, IN REAL angle, IN BOOL isAngleScalable = FALSE) { GpLineGradient *brush = NULL; lastResult = DllExports::GdipCreateLineBrushFromRectWithAngleI(&rect, color1.GetValue(), color2.GetValue(), angle, isAngleScalable, WrapModeTile, &brush); SetNativeBrush(brush); } // Get/set point attributes Status SetLinearPoints(IN const PointF& point1, IN const PointF& point2) { return SetStatus(DllExports::GdipSetLinePoints((GpLineGradient*)nativeBrush, &point1, &point2)); } Status GetLinearPoints(OUT PointF* points) const { return SetStatus(DllExports::GdipGetLinePoints((GpLineGradient*) nativeBrush, points)); } Status SetLinearPoints(IN const Point& point1, IN const Point& point2) { return SetStatus(DllExports::GdipSetLinePointsI((GpLineGradient*)nativeBrush, &point1, &point2)); } Status GetLinearPoints(OUT Point* points) const { return SetStatus(DllExports::GdipGetLinePointsI((GpLineGradient*) nativeBrush, points)); } // Get/set color attributes Status SetLinearColors(IN const Color& color1, IN const Color& color2) { return SetStatus(DllExports::GdipSetLineColors((GpLineGradient*)nativeBrush, color1.GetValue(), color2.GetValue())); } Status GetLinearColors(OUT Color* colors) const { ARGB argb[2]; if (colors == NULL) { return SetStatus(InvalidParameter); } SetStatus(DllExports::GdipGetLineColors((GpLineGradient*) nativeBrush, argb)); if (lastResult == Ok) { // use bitwise copy operator for Color copy colors[0] = Color(argb[0]); colors[1] = Color(argb[1]); } return lastResult; } Status GetRectangle(OUT RectF* rect) const { return SetStatus(DllExports::GdipGetLineRect((GpLineGradient*)nativeBrush, rect)); } // integer version Status GetRectangle(OUT Rect* rect) const { return SetStatus(DllExports::GdipGetLineRectI((GpLineGradient*)nativeBrush, rect)); } // Gamma correction in interporlation. Status SetGammaCorrection(IN BOOL useGammaCorrection) { return SetStatus(DllExports::GdipSetLineGammaCorrection((GpLineGradient*)nativeBrush, useGammaCorrection)); } BOOL GetGammaCorrection() const { BOOL useGammaCorrection; SetStatus(DllExports::GdipGetLineGammaCorrection((GpLineGradient*)nativeBrush, &useGammaCorrection)); return useGammaCorrection; } INT GetBlendCount() const { INT count = 0; SetStatus(DllExports::GdipGetLineBlendCount((GpLineGradient*) nativeBrush, &count)); return count; } Status SetBlend(IN const REAL* blendFactors, IN const REAL* blendPositions, IN INT count) { return SetStatus(DllExports::GdipSetLineBlend((GpLineGradient*) nativeBrush, blendFactors, blendPositions, count)); } Status GetBlend(OUT REAL* blendFactors, OUT REAL* blendPositions, IN INT count) const { return SetStatus(DllExports::GdipGetLineBlend((GpLineGradient*)nativeBrush, blendFactors, blendPositions, count)); } INT GetInterpolationColorCount() const { INT count = 0; SetStatus(DllExports::GdipGetLinePresetBlendCount((GpLineGradient*) nativeBrush, &count)); return count; } Status SetInterpolationColors(IN const Color* presetColors, IN const REAL* blendPositions, IN INT count) { if ((count <= 0) || !presetColors) return SetStatus(InvalidParameter); ARGB *argbs = (ARGB*) new BYTE[count*sizeof(ARGB)]; if (argbs) { for (INT i = 0; i < count; i++) { argbs[i] = presetColors[i].GetValue(); } Status status = SetStatus(DllExports::GdipSetLinePresetBlend( (GpLineGradient*) nativeBrush, argbs, blendPositions, count)); delete [] argbs; return status; } else { return SetStatus(OutOfMemory); } } Status GetInterpolationColors(OUT Color* presetColors, OUT REAL* blendPositions, IN INT count) const { if ((count <= 0) || !presetColors) return SetStatus(InvalidParameter); ARGB* argbs = (ARGB*) new BYTE[count*sizeof(ARGB)]; if (!argbs) { return SetStatus(OutOfMemory); } Status status = SetStatus(DllExports::GdipGetLinePresetBlend((GpLineGradient*)nativeBrush, argbs, blendPositions, count)); if (status == Ok) { for (INT i = 0; i < count; i++) { presetColors[i] = Color(argbs[i]); } } delete [] argbs; return status; } Status SetBlendBellShape(IN REAL focus, IN REAL scale = 1.0) { return SetStatus(DllExports::GdipSetLineSigmaBlend((GpLineGradient*)nativeBrush, focus, scale)); } #ifdef DCR_USE_NEW_145135 Status SetBlendTriangularShape( IN REAL focus, IN REAL scale = 1.0 ) #else Status SetBlendTrianglarShape(IN REAL focus, IN REAL scale = 1.0) #endif { return SetStatus(DllExports::GdipSetLineLinearBlend((GpLineGradient*)nativeBrush, focus, scale)); } /** * Set/get brush transform */ Status SetTransform(IN const Matrix* matrix) { return SetStatus(DllExports::GdipSetLineTransform((GpLineGradient*)nativeBrush, matrix->nativeMatrix)); } Status GetTransform(OUT Matrix *matrix) const { return SetStatus(DllExports::GdipGetLineTransform((GpLineGradient*)nativeBrush, matrix->nativeMatrix)); } Status ResetTransform() { return SetStatus(DllExports::GdipResetLineTransform((GpLineGradient*)nativeBrush)); } Status MultiplyTransform(IN const Matrix* matrix, IN MatrixOrder order = MatrixOrderPrepend) { return SetStatus(DllExports::GdipMultiplyLineTransform((GpLineGradient*)nativeBrush, matrix->nativeMatrix, order)); } Status TranslateTransform(IN REAL dx, IN REAL dy, IN MatrixOrder order = MatrixOrderPrepend) { return SetStatus(DllExports::GdipTranslateLineTransform((GpLineGradient*)nativeBrush, dx, dy, order)); } Status ScaleTransform(IN REAL sx, IN REAL sy, IN MatrixOrder order = MatrixOrderPrepend) { return SetStatus(DllExports::GdipScaleLineTransform((GpLineGradient*)nativeBrush, sx, sy, order)); } Status RotateTransform(IN REAL angle, IN MatrixOrder order = MatrixOrderPrepend) { return SetStatus(DllExports::GdipRotateLineTransform((GpLineGradient*)nativeBrush, angle, order)); } /** * Set/get brush wrapping mode */ Status SetWrapMode(IN WrapMode wrapMode) { return SetStatus(DllExports::GdipSetLineWrapMode((GpLineGradient*)nativeBrush, wrapMode)); } WrapMode GetWrapMode() const { WrapMode wrapMode; SetStatus(DllExports::GdipGetLineWrapMode((GpLineGradient*) nativeBrush, &wrapMode)); return wrapMode; } #ifdef DCR_USE_NEW_250932 private: LinearGradientBrush(const LinearGradientBrush &); LinearGradientBrush& operator=(const LinearGradientBrush &); #endif protected: LinearGradientBrush() { } }; //-------------------------------------------------------------------------- // PathGradientBrush object is defined // in gdipluspath.h. //-------------------------------------------------------------------------- //-------------------------------------------------------------------------- // Represent hatch brush object //-------------------------------------------------------------------------- class HatchBrush : public Brush { public: friend class Pen; // Constructors HatchBrush(IN HatchStyle hatchStyle, IN const Color& foreColor, IN const Color& backColor = Color()) { GpHatch *brush = NULL; lastResult = DllExports::GdipCreateHatchBrush(hatchStyle, foreColor.GetValue(), backColor.GetValue(), &brush); SetNativeBrush(brush); } HatchStyle GetHatchStyle() const { HatchStyle hatchStyle; SetStatus(DllExports::GdipGetHatchStyle((GpHatch*)nativeBrush, &hatchStyle)); return hatchStyle; } Status GetForegroundColor(OUT Color* color) const { ARGB argb; if (color == NULL) { return SetStatus(InvalidParameter); } Status status = SetStatus(DllExports::GdipGetHatchForegroundColor( (GpHatch*)nativeBrush, &argb)); color->SetValue(argb); return status; } Status GetBackgroundColor(OUT Color *color) const { ARGB argb; if (color == NULL) { return SetStatus(InvalidParameter); } Status status = SetStatus(DllExports::GdipGetHatchBackgroundColor( (GpHatch*)nativeBrush, &argb)); color->SetValue(argb); return status; } #ifdef DCR_USE_NEW_250932 private: HatchBrush(const HatchBrush &); HatchBrush& operator=(const HatchBrush &); #endif protected: HatchBrush() { } }; #endif