// // ZoneMinder Image Class Interface, $Date$, $Revision$ // Copyright (C) 2003, 2004, 2005, 2006 Philip Coombes // // 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. // #ifndef ZM_IMAGE_H #define ZM_IMAGE_H #include #include #include #include #include #include #include extern "C" { #include "zm_jpeg.h" } #include "zm_rgb.h" #include "zm_coord.h" #include "zm_box.h" #include "zm_poly.h" // // This is image class, and represents a frame captured from a // camera in raw form. // class Image { protected: enum { CHAR_HEIGHT=11, CHAR_WIDTH=6 }; typedef unsigned char BlendTable[256][256]; typedef BlendTable *BlendTablePtr; struct Edge { int min_y; int max_y; double min_x; double _1_m; static int CompareYX( const void *p1, const void *p2 ) { const Edge *e1 = (const Edge *)p1, *e2 = (const Edge *)p2; if ( e1->min_y == e2->min_y ) return( int(e1->min_x - e2->min_x) ); else return( int(e1->min_y - e2->min_y) ); } static int CompareX( const void *p1, const void *p2 ) { const Edge *e1 = (const Edge *)p1, *e2 = (const Edge *)p2; return( int(e1->min_x - e2->min_x) ); } }; protected: static bool initialised; static unsigned char *abs_table; static unsigned char *y_r_table; static unsigned char *y_g_table; static unsigned char *y_b_table; static BlendTablePtr blend_tables[101]; static jpeg_compress_struct *jpg_ccinfo[100]; static jpeg_decompress_struct *jpg_dcinfo; static struct zm_error_mgr jpg_err; protected: int width; int height; int pixels; int colours; int size; JSAMPLE *buffer; bool our_buffer; char text[256]; protected: mutable unsigned int *blend_buffer; protected: static void Initialise(); static BlendTablePtr GetBlendTable( int ); public: Image() { if ( !initialised ) Initialise(); width = 0; height = 0; pixels = 0; colours = 0; size = 0; our_buffer = true; buffer = 0; blend_buffer = 0; text[0] = '\0'; } Image( const char *filename ) { if ( !initialised ) Initialise(); width = 0; height = 0; pixels = 0; colours = 0; size = 0; buffer = 0; ReadJpeg( filename ); our_buffer = true; blend_buffer = 0; text[0] = '\0'; } Image( int p_width, int p_height, int p_colours, JSAMPLE *p_buffer=0 ) { if ( !initialised ) Initialise(); width = p_width; height = p_height; pixels = width*height; colours = p_colours; size = width*height*colours; if ( p_buffer ) { our_buffer = false; buffer = p_buffer; } else { our_buffer = true; buffer = new JSAMPLE[size]; memset( buffer, 0, size ); } blend_buffer = 0; text[0] = '\0'; } Image( const Image &p_image ) { if ( !initialised ) Initialise(); width = p_image.width; height = p_image.height; pixels = p_image.pixels; colours = p_image.colours; size = p_image.size; buffer = new JSAMPLE[size]; memcpy( buffer, p_image.buffer, size ); our_buffer = true; blend_buffer = 0; strncpy( text, p_image.text, sizeof(text) ); } ~Image() { if ( our_buffer ) { delete[] buffer; } delete[] blend_buffer; } inline int Width() const { return( width ); } inline int Height() const { return( height ); } inline int Pixels() const { return( pixels ); } inline int Colours() const { return( colours ); } inline int Size() const { return( size ); } inline JSAMPLE *Buffer() const { return( buffer ); } inline JSAMPLE *Buffer( unsigned int x, unsigned int y= 0 ) const { return( &buffer[colours*((y*width)+x)] ); } inline void Assign( int p_width, int p_height, int p_colours, unsigned char *new_buffer ) { if ( p_width != width || p_height != height || p_colours != colours ) { width = p_width; height = p_height; pixels = width*height; colours = p_colours; int new_size = width*height*colours; if ( size < new_size ) { size = new_size; delete[] buffer; buffer = new JSAMPLE[size]; memset( buffer, 0, size ); } } memcpy( buffer, new_buffer, size ); } inline void Assign( const Image &image ) { if ( image.width != width || image.height != height || image.colours != colours ) { width = image.width; height = image.height; pixels = width*height; colours = image.colours; int new_size = width*height*colours; if ( size < new_size ) { size = new_size; delete[] buffer; buffer = new JSAMPLE[size]; memset( buffer, 0, size ); } } memcpy( buffer, image.buffer, size ); } inline void CopyBuffer( const Image &image ) { if ( image.size != size ) { Fatal(( "Attempt to copy different size image buffers, expected %d, got %d", size, image.size )); } memcpy( buffer, image.buffer, size ); } inline Image &operator=( const unsigned char *new_buffer ) { memcpy( buffer, new_buffer, size ); return( *this ); } bool ReadRaw( const char *filename ); bool WriteRaw( const char *filename ) const; bool ReadJpeg( const char *filename ); bool WriteJpeg( const char *filename, int quality_override=0 ) const; bool DecodeJpeg( const JOCTET *inbuffer, int inbuffer_size ); bool EncodeJpeg( JOCTET *outbuffer, int *outbuffer_size, int quality_override=0 ) const; bool Unzip( const Bytef *inbuffer, unsigned long inbuffer_size ); bool Zip( Bytef *outbuffer, unsigned long *outbuffer_size, int compression_level=Z_BEST_SPEED ) const; bool Crop( int lo_x, int lo_y, int hi_y, int hi_y ); void Overlay( const Image &image ); void Blend( const Image &image, int transparency=10 ) const; static Image *Merge( int n_images, Image *images[] ); static Image *Merge( int n_images, Image *images[], double weight ); static Image *Highlight( int n_images, Image *images[], const Rgb threshold=RGB_BLACK, const Rgb ref_colour=RGB_RED ); Image *Delta( const Image &image ) const; void Annotate( const char *p_text, const Coord &coord, const Rgb colour ); void Annotate( const char *p_text, const Coord &coord ); Image *HighlightEdges( Rgb colour, const Box *limits=0 ); //Image *HighlightEdges( Rgb colour, const Polygon &polygon ); void Timestamp( const char *label, const time_t when, const Coord &coord ); void Colourise(); void DeColourise(); void Clear() { memset( buffer, 0, size ); } void Fill( Rgb colour, const Box *limits=0 ); void Fill( Rgb colour, int density, const Box *limits=0 ); void Outline( Rgb colour, const Polygon &polygon ); void Fill( Rgb colour, const Polygon &polygon ); void Fill( Rgb colour, int density, const Polygon &polygon ); void Rotate( int angle ); void Flip( bool leftright ); void Scale( unsigned int factor ); }; #endif // ZM_IMAGE_H