/* * Copyright (c) 1999 Matthias Elter * Copyright (c) 2002 Patrick Julien * Copyright (c) 2004 Boudewijn Rempt * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #ifndef KIS_BRUSH_ #define KIS_BRUSH_ #include #include #include #include #include #include #include "kis_resource.h" #include "kis_types.h" #include "kis_point.h" #include "kis_alpha_mask.h" #include "koffice_export.h" #include "kis_boundary.h" #include "kis_paintop.h" class TQPoint; class TQPixmap; class KisBoundary; class KisColorSpace; class TQIODevice; enum enumBrushType { INVALID, MASK, IMAGE, PIPE_MASK, PIPE_IMAGE, AIRBRUSH }; class KRITACORE_EXPORT KisBrush : public KisResource { typedef KisResource super; Q_OBJECT public: /// Construct brush to load filename later as brush KisBrush(const TQString& filename); /// Load brush from the specified data, at position dataPos, and set the filename KisBrush(const TQString& filename, const TQByteArray & data, TQ_UINT32 & dataPos); /// Load brush from the specified paint device, in the specified region KisBrush(KisPaintDevice* image, int x, int y, int w, int h); /// Load brush as a copy from the specified TQImage (handy when you need to copy a brush!) KisBrush(const TQImage& image, const TQString& name = TQString("")); virtual ~KisBrush(); virtual bool load(); /// synchronous, doesn't emit any signal (none defined!) virtual bool save(); virtual TQImage img(); virtual bool saveToDevice(TQIODevice* dev) const; /** @return a mask computed from the grey-level values of the pixels in the brush. */ virtual KisAlphaMaskSP mask(const KisPaintInformation& info, double subPixelX = 0, double subPixelY = 0) const; // XXX: return non-tiled simple buffer virtual KisPaintDeviceSP image(KisColorSpace * colorSpace, const KisPaintInformation& info, double subPixelX = 0, double subPixelY = 0) const; void setHotSpot(KisPoint); KisPoint hotSpot(const KisPaintInformation& info = KisPaintInformation()) const; void setSpacing(double s) { m_spacing = s; } double spacing() const { return m_spacing; } double xSpacing(double pressure = PRESSURE_DEFAULT) const; double ySpacing(double pressure = PRESSURE_DEFAULT) const; // Dimensions in pixels of the mask/image at a given pressure. TQ_INT32 maskWidth(const KisPaintInformation& info) const; TQ_INT32 maskHeight(const KisPaintInformation& info) const; virtual void setUseColorAsMask(bool useColorAsMask) { m_useColorAsMask = useColorAsMask; } virtual bool useColorAsMask() const { return m_useColorAsMask; } virtual bool hasColor() const; virtual void makeMaskImage(); TQ_INT32 width() const; TQ_INT32 height() const; virtual enumBrushType brushType() const; //TQImage outline(double pressure = PRESSURE_DEFAULT); virtual KisBoundary boundary(); /** * Returns true if this brush can return something useful for the info. This is used * by Pipe Brushes that can't paint sometimes **/ virtual bool canPaintFor(const KisPaintInformation& /*info*/) { return true; } virtual KisBrush* clone() const; protected: void setWidth(TQ_INT32 w); void setHeight(TQ_INT32 h); void setImage(const TQImage& img); void setBrushType(enumBrushType type) { m_brushType = type; }; static double scaleForPressure(double pressure); private: class ScaledBrush { public: ScaledBrush(); ScaledBrush(KisAlphaMaskSP scaledMask, const TQImage& scaledImage, double scale, double xScale, double yScale); double scale() const { return m_scale; } double xScale() const { return m_xScale; } double yScale() const { return m_yScale; } KisAlphaMaskSP mask() const { return m_mask; } TQImage image() const { return m_image; } private: KisAlphaMaskSP m_mask; TQImage m_image; double m_scale; double m_xScale; double m_yScale; }; bool init(); bool initFromPaintDev(KisPaintDevice* image, int x, int y, int w, int h); void createScaledBrushes() const; KisAlphaMaskSP scaleMask(const ScaledBrush *srcBrush, double scale, double subPixelX, double subPixelY) const; TQImage scaleImage(const ScaledBrush *srcBrush, double scale, double subPixelX, double subPixelY) const; static TQImage scaleImage(const TQImage& srcImage, int width, int height); static TQImage interpolate(const TQImage& image1, const TQImage& image2, double t); static KisAlphaMaskSP scaleSinglePixelMask(double scale, TQ_UINT8 maskValue, double subPixelX, double subPixelY); static TQImage scaleSinglePixelImage(double scale, TQRgb pixel, double subPixelX, double subPixelY); // Find the scaled brush(es) nearest to the given scale. void findScaledBrushes(double scale, const ScaledBrush **aboveBrush, const ScaledBrush **belowBrush) const; // Initialize our boundary void generateBoundary(); TQByteArray m_data; bool m_ownData; KisPoint m_hotSpot; double m_spacing; bool m_useColorAsMask; bool m_hasColor; TQImage m_img; mutable TQValueVector m_scaledBrushes; TQ_INT32 m_width; TQ_INT32 m_height; TQ_UINT32 m_header_size; /* header_size = sizeof (BrushHeader) + brush name */ TQ_UINT32 m_version; /* brush file version # */ TQ_UINT32 m_bytes; /* depth of brush in bytes */ TQ_UINT32 m_magic_number; /* GIMP brush magic number */ enumBrushType m_brushType; KisBoundary* m_boundary; }; #endif // KIS_BRUSH_