/* * File: pngread.h * Purpose: PNG file reader * Author: Alejandro Aguilar Sierra/Julian Smart * Created: 1995 * Copyright: (c) 1995, Alejandro Aguilar Sierra * * */ #ifndef _WX_PNGREAD__ #define _WX_PNGREAD__ #if defined(__GNUG__) && !defined(NO_GCC_PRAGMA) #pragma interface "pngread.h" #endif #ifndef byte typedef unsigned char byte; #endif #define WXIMA_COLORS DIB_PAL_COLORS typedef byte * ImagePointerType; typedef struct { byte red; byte green; byte blue; } rgb_color_struct; #define COLORTYPE_PALETTE 1 #define COLORTYPE_COLOR 2 #define COLORTYPE_ALPHA 4 class wxPNGReader { protected: int filetype; char filename[255]; ImagePointerType RawImage; // Image data int Width, Height; // Dimensions int Depth; // (bits x pixel) int ColorType; // Bit 1 = Palette used // Bit 2 = Color used // Bit 3 = Alpha used long EfeWidth; // Efective Width void *lpbi; int bgindex; wxPalette* m_palette; bool imageOK; friend class wxPNGReaderIter; public: wxPNGReader(void); wxPNGReader (char* ImageFileName); // Read an image file virtual ~wxPNGReader (); void Create(int width, int height, int deep, int colortype=-1); bool ReadFile( char* ImageFileName=0 ); bool SaveFile( char* ImageFileName=0 ); bool SaveXPM(char *filename, char *name = 0); int GetWidth( void ) const { return Width; }; int GetHeight( void ) const { return Height; }; int GetDepth( void ) const { return Depth; }; int GetColorType( void ) const { return ColorType; }; int GetIndex(int x, int y); bool GetRGB(int x, int y, byte* r, byte* g, byte* b); bool SetIndex(int x, int y, int index); bool SetRGB(int x, int y, byte r, byte g, byte b); // ColorMap settings bool SetPalette(wxPalette* colourmap); bool SetPalette(int n, rgb_color_struct *rgb_struct); bool SetPalette(int n, byte *r, byte *g=0, byte *b=0); wxPalette* GetPalette() const { return m_palette; } void NullData(); inline int GetBGIndex(void) { return bgindex; } inline bool Inside(int x, int y) { return (0<=y && yRawImage; Itx = Ity = 0; Stepx = Stepy = 0; } inline wxPNGReaderIter::operator wxPNGReader* () { return ima; } inline bool wxPNGReaderIter::ItOK () { if (ima) return ima->Inside(Itx, Ity); else return FALSE; } inline void wxPNGReaderIter::reset() { IterImage = ima->RawImage; Itx = Ity = 0; } inline void wxPNGReaderIter::upset() { Itx = 0; Ity = ima->Height-1; IterImage = ima->RawImage + ima->EfeWidth*(ima->Height-1); } inline bool wxPNGReaderIter::NextRow() { if (++Ity >= ima->Height) return 0; IterImage += ima->EfeWidth; return 1; } inline bool wxPNGReaderIter::PrevRow() { if (--Ity < 0) return 0; IterImage -= ima->EfeWidth; return 1; } ////////////////////////// AD - for interlace /////////////////////////////// inline void wxPNGReaderIter::SetY(int y) { if ((y < 0) || (y > ima->Height)) return; Ity = y; IterImage = ima->RawImage + ima->EfeWidth*y; } ///////////////////////////////////////////////////////////////////////////// inline void wxPNGReaderIter::SetRow(byte *buf, int n) { // Here should be bcopy or memcpy //_fmemcpy(IterImage, (void far *)buf, n); if (n<0) n = ima->GetWidth(); for (int i=0; iEfeWidth) return 1; else if (++Ity < ima->Height) { IterImage += ima->EfeWidth; Itx = 0; return 1; } else return 0; } inline bool wxPNGReaderIter::PrevByte() { if (--Itx >= 0) return 1; else if (--Ity >= 0) { IterImage -= ima->EfeWidth; Itx = 0; return 1; } else return 0; } inline bool wxPNGReaderIter::NextStep() { Itx += Stepx; if (Itx < ima->EfeWidth) return 1; else { Ity += Stepy; if (Ity < ima->Height) { IterImage += ima->EfeWidth; Itx = 0; return 1; } else return 0; } } inline bool wxPNGReaderIter::PrevStep() { Itx -= Stepx; if (Itx >= 0) return 1; else { Ity -= Stepy; if (Ity >= 0 && Ity < ima->Height) { IterImage -= ima->EfeWidth; Itx = 0; return 1; } else return 0; } } #endif