#include #include #include #include #include "../../mp_msg.h" #include "bitmap.h" int pngRead( unsigned char * fname,txSample * bf ) { unsigned char header[8]; png_structp png; png_infop info; png_infop endinfo; png_bytep * row_p; png_bytep palette = NULL; int color; png_uint_32 i; FILE *fp=fopen( fname,"rb" ); if ( !fp ) { mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[png] file read error ( %s ).\n",fname ); return 1; } fread( header,1,8,fp ); if ( !png_check_sig( header,8 ) ) return 1; png=png_create_read_struct( PNG_LIBPNG_VER_STRING,NULL,NULL,NULL ); info=png_create_info_struct( png ); endinfo=png_create_info_struct( png ); png_init_io( png,fp ); png_set_sig_bytes( png,8 ); png_read_info( png,info ); png_get_IHDR( png,info,&bf->Width,&bf->Height,&bf->BPP,&color,NULL,NULL,NULL ); row_p=(png_bytep *)malloc( sizeof( png_bytep ) * bf->Height ); if ( !row_p ) { mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[png] Not enough memory for row buffer.\n" ); return 2; } bf->Image=(png_bytep)malloc( png_get_rowbytes( png,info ) * bf->Height ); if ( !bf->Image ) { mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[png] Not enough memory for image buffer.\n" ); return 2; } for ( i=0; i < bf->Height; i++ ) row_p[i]=&bf->Image[png_get_rowbytes( png,info ) * i]; png_read_image( png,row_p ); free( row_p ); #if 0 if ( color == PNG_COLOR_TYPE_PALETTE ) { int cols; png_get_PLTE( png,info,(png_colorp *)&palette,&cols ); } #endif if ( color&PNG_COLOR_MASK_ALPHA ) { if ( color&PNG_COLOR_MASK_PALETTE || color == PNG_COLOR_TYPE_GRAY_ALPHA ) bf->BPP*=2; else bf->BPP*=4; } else { if ( color&PNG_COLOR_MASK_PALETTE || color == PNG_COLOR_TYPE_GRAY ) bf->BPP*=1; else bf->BPP*=3; } png_read_end( png,endinfo ); png_destroy_read_struct( &png,&info,&endinfo ); if ( fclose( fp ) != 0 ) { free( bf->Image ); free( palette ); return 1; } bf->ImageSize=bf->Width * bf->Height * ( bf->BPP / 8 ); mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[png] filename: %s.\n",fname ); mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[png] size: %dx%d bits: %d\n",bf->Width,bf->Height,bf->BPP ); mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[png] imagesize: %lu\n",bf->ImageSize ); return 0; } int conv24to32( txSample * bf ) { unsigned char * tmpImage; int i,c; if ( bf->BPP == 24 ) { tmpImage=bf->Image; bf->ImageSize=bf->Width * bf->Height * 4; bf->BPP=32; if ( ( bf->Image=malloc( bf->ImageSize ) ) == NULL ) { mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[bitmap] Not enough memory for image.\n" ); return 1; } memset( bf->Image,0,bf->ImageSize ); for ( c=0,i=0;i < (int)(bf->Width * bf->Height * 3); ) { #ifndef WORDS_BIGENDIAN bf->Image[c++]=tmpImage[i++]; //red bf->Image[c++]=tmpImage[i++]; //green bf->Image[c++]=tmpImage[i++]; c++; //blue #else unsigned char t=tmpImage[i++]; bf->Image[c++]=tmpImage[i++]; //green bf->Image[c++]=t; c++; //red bf->Image[c++]=tmpImage[i++]; //blue #endif } free( tmpImage ); } return 0; } void bgr2rgb( txSample * bf ) { unsigned char c; int i; for ( i=0;i < (int)bf->ImageSize;i+=4 ) { c=bf->Image[i]; bf->Image[i]=bf->Image[i+2]; bf->Image[i+2]=c; } } void Normalize( txSample * bf ) { int i; #ifndef WORDS_BIGENDIAN for ( i=0;i < (int)bf->ImageSize;i+=4 ) bf->Image[i+3]=0; #else for ( i=0;i < (int)bf->ImageSize;i+=4 ) bf->Image[i]=0; #endif } unsigned char tmp[512]; unsigned char * fExist( unsigned char * fname ) { FILE * fl; unsigned char ext[][6] = { ".png\0",".PNG\0" }; int i; fl=fopen( fname,"rb" ); if ( fl != NULL ) { fclose( fl ); return fname; } for ( i=0;i<2;i++ ) { sprintf( tmp,"%s%s",fname,ext[i] ); fl=fopen( tmp,"rb" ); if ( fl != NULL ) { fclose( fl ); return tmp; } } return NULL; } int bpRead( char * fname, txSample * bf ) { fname=fExist( fname ); if ( fname == NULL ) return -2; if ( pngRead( fname,bf ) ) { mp_dbg( MSGT_GPLAYER,MSGL_FATAL,"[bitmap] Unknown file type ( %s ).\n",fname ); return -5; } if ( bf->BPP < 24 ) { mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[bitmap] sorry, 16 or less bitmaps not supported.\n" ); return -1; } if ( conv24to32( bf ) ) return -8; bgr2rgb( bf ); Normalize( bf ); return 0; } void Convert32to1( txSample * in,txSample * out,int adaptivlimit ) { out->Width=in->Width; out->Height=in->Height; out->BPP=1; out->ImageSize=(out->Width * out->Height + 7) / 8; mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[c1to32] imagesize: %d\n",out->ImageSize ); out->Image=(char *)calloc( 1,out->ImageSize ); if ( out->Image == NULL ) mp_msg( MSGT_GPLAYER,MSGL_STATUS,"nem van ram baze\n" ); { int i,b,c=0; unsigned int * buf = NULL; unsigned char tmp = 0; int nothaveshape = 1; buf=(unsigned int *)in->Image; for ( b=0,i=0;i < (int)(out->Width * out->Height);i++ ) { if ( (int)buf[i] != adaptivlimit ) tmp=( tmp >> 1 )|128; else { tmp=tmp >> 1; buf[i]=nothaveshape=0; } if ( b++ == 7 ) { out->Image[c++]=tmp; tmp=b=0; } } if ( b ) out->Image[c]=tmp; if ( nothaveshape ) { free( out->Image ); out->Image=NULL; } } } void Convert1to32( txSample * in,txSample * out ) { if ( in->Image == NULL ) return; out->Width=in->Width; out->Height=in->Height; out->BPP=32; out->ImageSize=out->Width * out->Height * 4; out->Image=(char *)calloc( 1,out->ImageSize ); mp_dbg( MSGT_GPLAYER,MSGL_DBG2,"[c32to1] imagesize: %d\n",out->ImageSize ); if ( out->Image == NULL ) mp_msg( MSGT_GPLAYER,MSGL_STATUS,"nem van ram baze\n" ); { int i,b,c=0; unsigned int * buf = NULL; unsigned char tmp = 0; buf=(unsigned int *)out->Image; for ( c=0,i=0;i < (int)(in->Width * in->Height / 8);i++ ) { tmp=in->Image[i]; for ( b=0;b<8;b++ ) { buf[c]=0; if ( tmp&0x1 ) buf[c]=0xffffffff; c++; tmp=tmp>>1; } } } }