/* * File: ximage.h * Purpose: General Purpose Image Class */ /* === C R E D I T S & D I S C L A I M E R S ============== * Permission is given by the author to freely redistribute and include * this code in any program as long as this credit is given where due. * * CxImage (c) 07/Aug/2001 Davide Pizzolato - www.xdp.it * CxImage version 5.99a 08/Feb/2004 * See the file history.htm for the complete bugfix and news report. * * original CImage and CImageIterator implementation are: * Copyright: (c) 1995, Alejandro Aguilar Sierra * * COVERED CODE IS PROVIDED UNDER THIS LICENSE ON AN "AS IS" BASIS, WITHOUT WARRANTY * OF ANY KIND, EITHER EXPRESSED OR IMPLIED, INCLUDING, WITHOUT LIMITATION, WARRANTIES * THAT THE COVERED CODE IS FREE OF DEFECTS, MERCHANTABLE, FIT FOR A PARTICULAR PURPOSE * OR NON-INFRINGING. THE ENTIRE RISK AS TO THE QUALITY AND PERFORMANCE OF THE COVERED * CODE IS WITH YOU. SHOULD ANY COVERED CODE PROVE DEFECTIVE IN ANY RESPECT, YOU (NOT * THE INITIAL DEVELOPER OR ANY OTHER CONTRIBUTOR) ASSUME THE COST OF ANY NECESSARY * SERVICING, REPAIR OR CORRECTION. THIS DISCLAIMER OF WARRANTY CONSTITUTES AN ESSENTIAL * PART OF THIS LICENSE. NO USE OF ANY COVERED CODE IS AUTHORIZED HEREUNDER EXCEPT UNDER * THIS DISCLAIMER. * * Use at your own risk! * ========================================================== */ #if !defined(__CXIMAGE_H) #define __CXIMAGE_H #if _MSC_VER > 1000 #pragma once #endif ///////////////////////////////////////////////////////////////////////////// // CxImage supported features #define CXIMAGE_SUPPORT_ALPHA 1 #define CXIMAGE_SUPPORT_SELECTION 0 #define CXIMAGE_SUPPORT_TRANSFORMATION 0 #define CXIMAGE_SUPPORT_DSP 0 #define CXIMAGE_SUPPORT_LAYERS 0 #define CXIMAGE_SUPPORT_DECODE 1 #define CXIMAGE_SUPPORT_ENCODE 0 // #define CXIMAGE_SUPPORT_WINDOWS 1 #define CXIMAGE_SUPPORT_WINCE 0 // ///////////////////////////////////////////////////////////////////////////// // CxImage supported formats #define CXIMAGE_SUPPORT_BMP 1 #define CXIMAGE_SUPPORT_GIF 0 #define CXIMAGE_SUPPORT_JPG 1 #define CXIMAGE_SUPPORT_PNG 1 #define CXIMAGE_SUPPORT_MNG 0 #define CXIMAGE_SUPPORT_ICO 0 #define CXIMAGE_SUPPORT_TIF 0 #define CXIMAGE_SUPPORT_TGA 0 #define CXIMAGE_SUPPORT_PCX 0 #define CXIMAGE_SUPPORT_WBMP 0 #define CXIMAGE_SUPPORT_WMF 0 #define CXIMAGE_SUPPORT_J2K 0 // Beta, use JP2 #define CXIMAGE_SUPPORT_JBG 0 // GPL'd see ../jbig/copying.txt & ../jbig/patents.htm #define CXIMAGE_SUPPORT_JP2 0 #define CXIMAGE_SUPPORT_JPC 0 #define CXIMAGE_SUPPORT_PGX 0 #define CXIMAGE_SUPPORT_PNM 0 #define CXIMAGE_SUPPORT_RAS 0 ///////////////////////////////////////////////////////////////////////////// #include // For UNICODE support #include "xfile.h" #include "xiofile.h" #include "xmemfile.h" #include "ximadefs.h" // adjust some #define ///////////////////////////////////////////////////////////////////////////// // CxImage formats enumerator enum ENUM_CXIMAGE_FORMATS{ CXIMAGE_FORMAT_UNKNOWN, #if CXIMAGE_SUPPORT_BMP CXIMAGE_FORMAT_BMP, #endif #if CXIMAGE_SUPPORT_GIF CXIMAGE_FORMAT_GIF, #endif #if CXIMAGE_SUPPORT_JPG CXIMAGE_FORMAT_JPG, #endif #if CXIMAGE_SUPPORT_PNG CXIMAGE_FORMAT_PNG, #endif #if CXIMAGE_SUPPORT_MNG CXIMAGE_FORMAT_MNG, #endif #if CXIMAGE_SUPPORT_ICO CXIMAGE_FORMAT_ICO, #endif #if CXIMAGE_SUPPORT_TIF CXIMAGE_FORMAT_TIF, #endif #if CXIMAGE_SUPPORT_TGA CXIMAGE_FORMAT_TGA, #endif #if CXIMAGE_SUPPORT_PCX CXIMAGE_FORMAT_PCX, #endif #if CXIMAGE_SUPPORT_WBMP CXIMAGE_FORMAT_WBMP, #endif #if CXIMAGE_SUPPORT_WMF CXIMAGE_FORMAT_WMF, #endif #if CXIMAGE_SUPPORT_J2K CXIMAGE_FORMAT_J2K, #endif #if CXIMAGE_SUPPORT_JBG CXIMAGE_FORMAT_JBG, #endif #if CXIMAGE_SUPPORT_JP2 CXIMAGE_FORMAT_JP2, #endif #if CXIMAGE_SUPPORT_JPC CXIMAGE_FORMAT_JPC, #endif #if CXIMAGE_SUPPORT_PGX CXIMAGE_FORMAT_PGX, #endif #if CXIMAGE_SUPPORT_PNM CXIMAGE_FORMAT_PNM, #endif #if CXIMAGE_SUPPORT_RAS CXIMAGE_FORMAT_RAS, #endif CMAX_IMAGE_FORMATS }; //color to grey mapping //#define RGB2GRAY(r,g,b) (((b)*114 + (g)*587 + (r)*299)/1000) #define RGB2GRAY(r,g,b) (((b)*117 + (g)*601 + (r)*306) >> 10) struct rgb_color { BYTE r,g,b; }; // text placement data // members must be initialized with the InitTextInfo(&this) function. typedef struct DLL_EXP tagCxTextInfo { char text[4096]; // text LOGFONT lfont; // font and codepage data COLORREF fcolor; // foreground color long align; // DT_CENTER, DT_RIGHT, DT_LEFT aligment for multiline text BYTE opaque; // text has background or hasn't. Default is true. // data for background (ignored if .opaque==FALSE) COLORREF bcolor; // background color float b_opacity; // opacity value for background between 0.0-1.0 Default is 0. (opaque) BYTE b_outline; // outline width for background (zero: no outline) BYTE b_round; // rounding radius for background rectangle. % of the height, between 0-50. Default is 10. // (backgr. always has a frame: width = 3 pixel + 10% of height by default.) } CXTEXTINFO; ///////////////////////////////////////////////////////////////////////////// // CxImage class ///////////////////////////////////////////////////////////////////////////// class DLL_EXP CxImage { //extensible information collector typedef struct tagCxImageInfo { DWORD dwEffWidth; //DWORD aligned scan line width BYTE* pImage; //THE IMAGE BITS CxImage* pGhost; //if this is a ghost, pGhost points to the body CxImage* pParent; //if this is a layer, pParent points to the body DWORD dwType; //original image format char szLastError[256]; //debugging long nProgress; //monitor long nEscape; //escape long nBkgndIndex; //used for GIF, PNG, MNG RGBQUAD nBkgndColor; //used for RGB transparency BYTE nQuality; //used for JPEG BYTE nScale; //used for JPEG long nFrame; //used for TIF, GIF, MNG : actual frame long nNumFrames; //used for TIF, GIF, MNG : total number of frames DWORD dwFrameDelay; //used for GIF, MNG long xDPI; //horizontal resolution long yDPI; //vertical resolution RECT rSelectionBox; //bounding rectangle BYTE nAlphaMax; //max opacity (fade) bool bAlphaPaletteEnabled; //true if alpha values in the palette are enabled. bool bEnabled; //enables the painting functions long xOffset; long yOffset; DWORD dwCodecOption; //for GIF, TIF : 0=def.1=unc,2=fax3,3=fax4,4=pack,5=jpg RGBQUAD last_c; //for GetNearestIndex optimization BYTE last_c_index; bool last_c_isvalid; long nNumLayers; DWORD dwFlags; // 0x??00000 = reserved, 0x00??0000 = blend mode, 0x0000???? = layer id - user flags } CXIMAGEINFO; public: //constructors CxImage(DWORD imagetype = 0); CxImage(DWORD dwWidth, DWORD dwHeight, DWORD wBpp, DWORD imagetype = 0); CxImage(const CxImage &src, bool copypixels = true, bool copyselection = true, bool copyalpha = true); CxImage(const TCHAR * filename, DWORD imagetype); // For UNICODE support: char -> TCHAR // CxImage(const char * filename, DWORD imagetype); CxImage(FILE * stream, DWORD imagetype); CxImage(CxFile * stream, DWORD imagetype); CxImage(BYTE * buffer, DWORD size, DWORD imagetype); virtual ~CxImage() { Destroy(); }; CxImage& operator = (const CxImage&); //initializzation void* Create(DWORD dwWidth, DWORD dwHeight, DWORD wBpp, DWORD imagetype = 0); bool Destroy(); void Clear(BYTE bval=0); void Copy(const CxImage &src, bool copypixels = true, bool copyselection = true, bool copyalpha = true); bool Transfer(CxImage &from); bool CreateFromArray(BYTE* pArray,DWORD dwWidth,DWORD dwHeight,DWORD dwBitsperpixel, DWORD dwBytesperline, bool bFlipImage); bool CreateFromMatrix(BYTE** ppMatrix,DWORD dwWidth,DWORD dwHeight,DWORD dwBitsperpixel, DWORD dwBytesperline, bool bFlipImage); //Attributes long GetSize(); BYTE* GetBits(DWORD row = 0); BYTE GetColorType(); void* GetDIB() const {return pDib;} DWORD GetHeight() const {return head.biHeight;} DWORD GetWidth() const {return head.biWidth;} DWORD GetEffWidth() const {return info.dwEffWidth;} DWORD GetNumColors() const {return head.biClrUsed;} WORD GetBpp() const {return head.biBitCount;} DWORD GetType() const {return info.dwType;} char* GetLastError() {return info.szLastError;} const TCHAR* GetVersion(); DWORD GetFrameDelay() const {return info.dwFrameDelay;} void SetFrameDelay(DWORD d) {info.dwFrameDelay=d;} void GetOffset(long *x,long *y) {*x=info.xOffset; *y=info.yOffset;} void SetOffset(long x,long y) {info.xOffset=x; info.yOffset=y;} BYTE GetJpegQuality() const {return info.nQuality;} void SetJpegQuality(BYTE q) {info.nQuality = q;} // used for scaling down during JPEG decoding valid numbers are 1, 2, 4, 8 BYTE GetJpegScale() const {return info.nScale;} void SetJpegScale(BYTE q) {info.nScale = q;} long GetXDPI() const {return info.xDPI;} long GetYDPI() const {return info.yDPI;} void SetXDPI(long dpi); void SetYDPI(long dpi); DWORD GetClrImportant() const {return head.biClrImportant;} void SetClrImportant(DWORD ncolors = 0); long GetProgress() const {return info.nProgress;} long GetEscape() const {return info.nEscape;} void SetProgress(long p) {info.nProgress = p;} void SetEscape(long i) {info.nEscape = i;} long GetTransIndex() const {return info.nBkgndIndex;} RGBQUAD GetTransColor(); void SetTransIndex(long idx) {info.nBkgndIndex = idx;} void SetTransColor(RGBQUAD rgb) {rgb.rgbReserved=0; info.nBkgndColor = rgb;} bool IsTransparent() const {return info.nBkgndIndex>=0;} // DWORD GetCodecOption() const {return info.dwCodecOption;} void SetCodecOption(DWORD opt) {info.dwCodecOption = opt;} DWORD GetFlags() const {return info.dwFlags;} void SetFlags(DWORD flags, bool bLockReservedFlags = true); //void* GetUserData() const {return info.pUserData;} //void SetUserData(void* pUserData) {info.pUserData = pUserData;} //palette operations bool IsGrayScale(); bool IsIndexed() {return head.biClrUsed!=0;} DWORD GetPaletteSize(); RGBQUAD* GetPalette() const; RGBQUAD GetPaletteColor(BYTE idx); bool GetPaletteColor(BYTE i, BYTE* r, BYTE* g, BYTE* b); BYTE GetNearestIndex(RGBQUAD c); void BlendPalette(COLORREF cr,long perc); void SetGrayPalette(); void SetPalette(DWORD n, BYTE *r, BYTE *g, BYTE *b); void SetPalette(RGBQUAD* pPal,DWORD nColors=256); void SetPalette(rgb_color *rgb,DWORD nColors=256); void SetPaletteColor(BYTE idx, BYTE r, BYTE g, BYTE b, BYTE alpha=0); void SetPaletteColor(BYTE idx, RGBQUAD c); void SetPaletteColor(BYTE idx, COLORREF cr); void SwapIndex(BYTE idx1, BYTE idx2); void SetStdPalette(); //pixel operations bool IsInside(long x, long y); bool IsTransparent(long x,long y); RGBQUAD GetPixelColor(long x,long y, bool bGetAlpha = true); BYTE GetPixelIndex(long x,long y); BYTE GetPixelGray(long x, long y); void SetPixelColor(long x,long y,RGBQUAD c, bool bSetAlpha = false); void SetPixelColor(long x,long y,COLORREF cr); void SetPixelIndex(long x,long y,BYTE i); void DrawLine(int StartX, int EndX, int StartY, int EndY, RGBQUAD color, bool bSetAlpha=false); void DrawLine(int StartX, int EndX, int StartY, int EndY, COLORREF cr); //painting operations #if CXIMAGE_SUPPORT_WINCE long Blt(HDC pDC, long x=0, long y=0); #endif #if CXIMAGE_SUPPORT_WINDOWS HBITMAP MakeBitmap(HDC hdc = NULL); HANDLE CopyToHandle(); bool CreateFromHANDLE(HANDLE hMem); //Windows objects (clipboard) bool CreateFromHBITMAP(HBITMAP hbmp, HPALETTE hpal=0); //Windows resource bool CreateFromHICON(HICON hico); long Draw(HDC hdc, long x=0, long y=0, long cx = -1, long cy = -1, RECT* pClipRect = 0); long Draw(HDC hdc, const RECT& rect, RECT* pClipRect=NULL) { return Draw(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top, pClipRect); } long Stretch(HDC hdc, long xoffset, long yoffset, long xsize, long ysize, DWORD dwRop = SRCCOPY); long Stretch(HDC hdc, const RECT& rect, DWORD dwRop = SRCCOPY) { return Stretch(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top, dwRop); } long Tile(HDC hdc, RECT *rc); long Draw2(HDC hdc, long x=0, long y=0, long cx = -1, long cy = -1); long Draw2(HDC hdc, const RECT& rect) { return Draw2(hdc, rect.left, rect.top, rect.right - rect.left, rect.bottom - rect.top); } //long DrawString(HDC hdc, long x, long y, const char* text, RGBQUAD color, const char* font, long lSize=0, long lWeight=400, BYTE bItalic=0, BYTE bUnderline=0, bool bSetAlpha=false); long DrawString(HDC hdc, long x, long y, const TCHAR* text, RGBQUAD color, const TCHAR* font, long lSize=0, long lWeight=400, BYTE bItalic=0, BYTE bUnderline=0, bool bSetAlpha=false); // extensions long DrawStringEx(HDC hdc, long x, long y, CXTEXTINFO *pTextType, bool bSetAlpha=false ); void InitTextInfo( CXTEXTINFO *txt ); #endif //CXIMAGE_SUPPORT_WINDOWS // file operations #if CXIMAGE_SUPPORT_DECODE #ifdef WIN32 //bool Load(LPCWSTR filename, DWORD imagetype=0); bool LoadResource(HRSRC hRes, DWORD imagetype, HMODULE hModule=NULL); #endif // For UNICODE support: char -> TCHAR bool Load(const TCHAR* filename, DWORD imagetype=0); //bool Load(const char * filename, DWORD imagetype=0); bool Decode(FILE * hFile, DWORD imagetype); bool Decode(CxFile * hFile, DWORD imagetype); bool Decode(BYTE * buffer, DWORD size, DWORD imagetype); #endif //CXIMAGE_SUPPORT_DECODE #if CXIMAGE_SUPPORT_ENCODE protected: bool EncodeSafeCheck(CxFile *hFile); public: #ifdef WIN32 //bool Save(LPCWSTR filename, DWORD imagetype=0); #endif // For UNICODE support: char -> TCHAR bool Save(const TCHAR* filename, DWORD imagetype=0); //bool Save(const char * filename, DWORD imagetype=0); bool Encode(FILE * hFile, DWORD imagetype); bool Encode(CxFile * hFile, DWORD imagetype); bool Encode(CxFile * hFile, CxImage ** pImages, int pagecount, DWORD imagetype); bool Encode(FILE *hFile, CxImage ** pImages, int pagecount, DWORD imagetype); bool Encode(BYTE * &buffer, long &size, DWORD imagetype); #endif //CXIMAGE_SUPPORT_ENCODE //misc. bool IsValid() const {return pDib!=0;} bool IsEnabled() const {return info.bEnabled;} void Enable(bool enable=true){info.bEnabled=enable;} // frame operations long GetNumFrames() const {return info.nNumFrames;} long GetFrame() const {return info.nFrame;} void SetFrame(long nFrame) {info.nFrame=nFrame;} #if CXIMAGE_SUPPORT_BASICTRANSFORMATIONS bool GrayScale(); bool Flip(); bool Mirror(); bool Negative(); bool RotateLeft(CxImage* iDst = NULL); bool RotateRight(CxImage* iDst = NULL); #endif //CXIMAGE_SUPPORT_BASICTRANSFORMATIONS #if CXIMAGE_SUPPORT_TRANSFORMATION // image operations bool Rotate(float angle, CxImage* iDst = NULL); bool Rotate180(CxImage* iDst = NULL); bool Resample(long newx, long newy, int mode = 1, CxImage* iDst = NULL); bool DecreaseBpp(DWORD nbit, bool errordiffusion, RGBQUAD* ppal = 0, DWORD clrimportant = 0); bool IncreaseBpp(DWORD nbit); bool Dither(long method = 0); bool Crop(long left, long top, long right, long bottom, CxImage* iDst = NULL); bool Crop(const RECT& rect, CxImage* iDst = NULL) { return Crop(rect.left, rect.top, rect.right, rect.bottom, iDst); } bool CropRotatedRectangle( long topx, long topy, long width, long height, float angle, CxImage* iDst = NULL); bool Skew(float xgain, float ygain, long xpivot=0, long ypivot=0); bool Expand(long left, long top, long right, long bottom, RGBQUAD canvascolor, CxImage* iDst = 0); bool Expand(long newx, long newy, RGBQUAD canvascolor, CxImage* iDst = 0); bool Thumbnail(long newx, long newy, RGBQUAD canvascolor, CxImage* iDst = 0); bool CircleTransform(int type,long rmax=0,float Koeff=1.0f); protected: float b3spline(float x); public: #endif //CXIMAGE_SUPPORT_TRANSFORMATION #if CXIMAGE_SUPPORT_DSP bool Contour(); bool HistogramStretch(long method = 0); bool HistogramEqualize(); bool HistogramNormalize(); bool HistogramRoot(); bool HistogramLog(); long Histogram(long* red, long* green = 0, long* blue = 0, long* gray = 0, long colorspace = 0); bool Jitter(long radius=2); bool Repair(float radius = 0.25f, long niterations = 1, long colorspace = 0); bool Combine(CxImage* r,CxImage* g,CxImage* b,CxImage* a, long colorspace = 0); bool FFT2(CxImage* srcReal, CxImage* srcImag, CxImage* dstReal, CxImage* dstImag, long direction = 1, bool bForceFFT = true, bool bMagnitude = true); bool Noise(long level); bool Median(long Ksize=3); bool Gamma(float gamma); bool ShiftRGB(long r, long g, long b); bool Threshold(BYTE level); bool Colorize(BYTE hue, BYTE sat); bool Light(long brightness, long contrast = 0); float Mean(); bool Filter(long* kernel, long Ksize, long Kfactor, long Koffset); bool Erode(long Ksize=2); bool Dilate(long Ksize=2); void HuePalette(float correction=1); enum ImageOpType { OpAdd, OpAnd, OpXor, OpOr, OpMask, OpSrcCopy, OpDstCopy, OpSub, OpSrcBlend }; void Mix(CxImage & imgsrc2, ImageOpType op, long lXOffset = 0, long lYOffset = 0); void MixFrom(CxImage & imagesrc2, long lXOffset, long lYOffset); bool UnsharpMask(float radius = 5.0, float amount = 0.5, int threshold = 0); bool Lut(BYTE* pLut); bool Lut(BYTE* pLutR, BYTE* pLutG, BYTE* pLutB, BYTE* pLutA = 0); protected: bool IsPowerof2(long x); bool FFT(int dir,int m,double *x,double *y); bool DFT(int dir,long m,double *x1,double *y1,double *x2,double *y2); bool RepairChannel(CxImage *ch, float radius); // int gen_convolve_matrix (float radius, float **cmatrix_p); float* gen_lookup_table (float *cmatrix, int cmatrix_length); void blur_line (float *ctable, float *cmatrix, int cmatrix_length, BYTE* cur_col, BYTE* dest_col, int y, long bytes); public: //color conversion utilities bool SplitRGB(CxImage* r,CxImage* g,CxImage* b); bool SplitYUV(CxImage* y,CxImage* u,CxImage* v); bool SplitHSL(CxImage* h,CxImage* s,CxImage* l); bool SplitYIQ(CxImage* y,CxImage* i,CxImage* q); bool SplitXYZ(CxImage* x,CxImage* y,CxImage* z); bool SplitCMYK(CxImage* c,CxImage* m,CxImage* y,CxImage* k); RGBQUAD HSLtoRGB(COLORREF cHSLColor); RGBQUAD RGBtoHSL(RGBQUAD lRGBColor); RGBQUAD HSLtoRGB(RGBQUAD lHSLColor); RGBQUAD YUVtoRGB(RGBQUAD lYUVColor); RGBQUAD RGBtoYUV(RGBQUAD lRGBColor); RGBQUAD YIQtoRGB(RGBQUAD lYIQColor); RGBQUAD RGBtoYIQ(RGBQUAD lRGBColor); RGBQUAD XYZtoRGB(RGBQUAD lXYZColor); RGBQUAD RGBtoXYZ(RGBQUAD lRGBColor); #endif //CXIMAGE_SUPPORT_DSP RGBQUAD RGBtoRGBQUAD(COLORREF cr); COLORREF RGBQUADtoRGB (RGBQUAD c); #if CXIMAGE_SUPPORT_SELECTION //selection bool SelectionClear(); bool SelectionCreate(); bool SelectionDelete(); bool SelectionInvert(); bool SelectionAddRect(RECT r); bool SelectionAddEllipse(RECT r); bool SelectionAddPolygon(POINT *points, long npoints); bool SelectionAddColor(RGBQUAD c); bool SelectionAddPixel(int x, int y); bool SelectionCopy(CxImage &from); bool SelectionIsInside(long x, long y); bool SelectionIsValid(){return pSelection!=0;} void SelectionGetBox(RECT& r){memcpy(&r,&info.rSelectionBox,sizeof(RECT));} bool SelectionToHRGN(HRGN& region); #endif //CXIMAGE_SUPPORT_SELECTION #if CXIMAGE_SUPPORT_ALPHA //Alpha void AlphaClear(); void AlphaCreate(); void AlphaDelete(); void AlphaInvert(); bool AlphaMirror(); bool AlphaFlip(); bool AlphaCopy(CxImage &from); bool AlphaSplit(CxImage *dest); void AlphaStrip(); void AlphaSet(BYTE level); bool AlphaSet(CxImage &from); void AlphaSet(long x,long y,BYTE level); BYTE AlphaGet(long x,long y); BYTE AlphaGetMax() const {return info.nAlphaMax;} void AlphaSetMax(BYTE nAlphaMax) {info.nAlphaMax=nAlphaMax;} bool AlphaIsValid(){return pAlpha!=0;} BYTE* AlphaGetBits() const {return pAlpha;} void AlphaPaletteClear(); void AlphaPaletteEnable(bool enable=true){info.bAlphaPaletteEnabled=enable;} bool AlphaPaletteIsEnabled(){return info.bAlphaPaletteEnabled;} bool AlphaPaletteIsValid(); bool AlphaPaletteSplit(CxImage *dest); #endif //CXIMAGE_SUPPORT_ALPHA #if CXIMAGE_SUPPORT_LAYERS bool LayerCreate(long position = -1); bool LayerDelete(long position = -1); void LayerDeleteAll(); CxImage* GetLayer(long position); CxImage* GetParent() const {return info.pParent;} long GetNumLayers() const {return info.nNumLayers;} #endif //CXIMAGE_SUPPORT_LAYERS protected: void Startup(DWORD imagetype = 0); void CopyInfo(const CxImage &src); void Ghost(CxImage *src); void RGBtoBGR(BYTE *buffer, int length); float HueToRGB(float n1,float n2, float hue); void Bitfield2RGB(BYTE *src, WORD redmask, WORD greenmask, WORD bluemask, BYTE bpp); static int CompareColors(const void *elem1, const void *elem2); void* pDib; //contains the header, the palette, the pixels BITMAPINFOHEADER head; //standard header CXIMAGEINFO info; //extended information BYTE* pSelection; //selected region BYTE* pAlpha; //alpha channel CxImage** pLayers; //generic layers }; //////////////////////////////////////////////////////////////////////////// #define CXIMAGE_MAX_MEMORY 256000000 #define CXIMAGE_ERR_NOFILE "null file handler" #define CXIMAGE_ERR_NOIMAGE "null image!!!" //////////////////////////////////////////////////////////////////////////// #endif // !defined(__CXIMAGE_H)