Beispiel #1
0
// Save a TIFF image
bool fxsaveTIF(FXStream& store,const FXColor* data,FXint width,FXint height,FXushort codec) {
    tiff_store_handle s_handle;
    long rows_per_strip,line;
    const TIFFCodec* coder;
    TIFF *image;

    // Must make sense
    if(!data || width<=0 || height<=0) return false;

    // Correct for unsupported codecs
    coder=TIFFFindCODEC(codec);
    if(coder==NULL) codec=COMPRESSION_PACKBITS;

    // Due to the infamous UNISYS patent, we can read LZW TIFF's but not
    // write them back as that would require the LZW compression algorithm!
    if(codec==COMPRESSION_LZW) codec=COMPRESSION_PACKBITS;

    //FXTRACE((100,"fxsaveTIF: codec=%d\n",codec));

    // Set error/warning handlers
    TIFFSetErrorHandler(fxerrorhandler);
    TIFFSetWarningHandler(fxwarninghandler);

    // Initialize
    s_handle.store=&store;
    s_handle.begin=store.position();
    s_handle.end=store.position();
    s_handle.error=FALSE;

    // Open image
    image=TIFFClientOpen("tiff","w",(thandle_t)&s_handle,tif_dummy_read_store,tif_write_store,tif_seek_store,tif_close_store,tif_size_store,tif_map_store,tif_unmap_store);
    if(!image) return FALSE;

    // Size of a strip is 16kb
    rows_per_strip=16*1024/width;
    if(rows_per_strip<1) rows_per_strip=1;

    // Set fields
    TIFFSetField(image,TIFFTAG_IMAGEWIDTH,width);
    TIFFSetField(image,TIFFTAG_IMAGELENGTH,height);
    TIFFSetField(image,TIFFTAG_COMPRESSION,codec);
    TIFFSetField(image,TIFFTAG_ORIENTATION,ORIENTATION_TOPLEFT);
    TIFFSetField(image,TIFFTAG_ROWSPERSTRIP,rows_per_strip);
    TIFFSetField(image,TIFFTAG_BITSPERSAMPLE,8);
    TIFFSetField(image,TIFFTAG_SAMPLESPERPIXEL,4);
    TIFFSetField(image,TIFFTAG_PLANARCONFIG,1);
    TIFFSetField(image,TIFFTAG_PHOTOMETRIC,PHOTOMETRIC_RGB);

    // Dump each line
    for(line=0; line<height; line++) {
        if(TIFFWriteScanline(image,(void*)data,line,1)!=1 || s_handle.error) {
            TIFFClose(image);
            return false;
        }
        data+=width;
    }
    TIFFClose(image);
    return true;
}
Beispiel #2
0
// Load image from stream
bool fxloadBMP(FXStream& store,FXColor*& data,FXint& width,FXint& height){
  FXint biXPelsPerMeter,biYPelsPerMeter,biClrUsed,biClrImportant,biCompression,biSize;
  FXint biWidth,biHeight,biSizeImage,bfOffBits,bfSize,i,j,x,y,maxpixels,colormaplen,padw,pad;
  FXushort bfType,bfReserved,biBitCount,biPlanes,rgb16;
  FXColor colormap[256],*pp;
  FXuchar padding[3],c1,c2;
  FXlong base,header;
  bool swap;
  bool ok=false;

  // Null out
  data=NULL;
  width=0;
  height=0;

  // Start of bitmap file header
  base=store.position();

  // Bitmaps are little-endian
  swap=store.swapBytes();
  store.setBigEndian(FALSE);

  // Get size and offset
  store >> bfType;
  store >> bfSize;
  store >> bfReserved;
  store >> bfReserved;
  store >> bfOffBits;

  // Check signature
  if(bfType!=0x4d42) goto x;

  // Start of bitmap info header
  header=store.position();

  // Read bitmap info header
  store >> biSize;
  if(biSize==OS2_OLD){                  // Old format
    store >> bfReserved; biWidth=bfReserved;
    store >> bfReserved; biHeight=bfReserved;
    store >> biPlanes;
    store >> biBitCount;
    biCompression = BIH_RGB;
    biSizeImage = (((biPlanes*biBitCount*biWidth)+31)/32)*4*biHeight;
    biXPelsPerMeter = 0;
    biYPelsPerMeter = 0;
    biClrUsed = 0;
    biClrImportant = 0;
    }
Beispiel #3
0
// Load a TIFF image
FXbool fxloadTIF(FXStream& store,FXColor*& data,FXint& width,FXint& height,FXushort& codec){
  tiff_store_handle s_handle;
  FXuval size,s;

  // Null out
  data=NULL;
  width=0;
  height=0;

  // Set error/warning handlers
  TIFFSetErrorHandler(NULL);
  TIFFSetWarningHandler(NULL);

  // Initialize
  s_handle.store=&store;
  s_handle.begin=store.position();
  s_handle.end=store.position();

  FXTRACE((100,"fxloadTIF\n"));

  // Open image
  TIFF* image=TIFFClientOpen("tiff","rm",(thandle_t)&s_handle,tif_read_store,tif_write_store,tif_seek_store,tif_close_store,tif_size_store,NULL,NULL);
  if(image){

    // Get sizes
    TIFFGetField(image,TIFFTAG_IMAGEWIDTH,&width);
    TIFFGetField(image,TIFFTAG_IMAGELENGTH,&height);
    TIFFGetField(image,TIFFTAG_COMPRESSION,&codec);

    FXTRACE((100,"fxloadTIF: width=%d height=%d codec=%d\n",width,height,codec));

    // Make room for data
    size=width*height;
    if(allocElms(data,size)){
      if(TIFFReadRGBAImageOriented(image,width,height,data,ORIENTATION_TOPLEFT,0)){
        for(s=0; s<size; s++){
          data[s]=((data[s]&0xff)<<16)|((data[s]&0xff0000)>>16)|(data[s]&0xff00)|(data[s]&0xff000000);
          }
        TIFFClose(image);
        return true;
        }
      freeElms(data);
      }
    TIFFClose(image);
    }
  return false;
  }
Beispiel #4
0
// Load a JPEG image
FXbool fxloadJP2(FXStream& store,FXColor*& data,FXint& width,FXint& height,FXint&){
  register FXint x,y,cw,rsh,gsh,bsh,ash,rof,gof,bof,aof;
  register FXuchar r,g,b,a;
  FXbool swap=store.swapBytes();
  FXlong pos=store.position();
  FXbool result=false;
  FXuint box[4];
  FXlong boxsize;
  FXuint size;
  FXuchar *ptr;

  // Null out
  data=NULL;
  width=0;
  height=0;

  // Switch big-endian to grab header
  store.setBigEndian(true);

  // Grab signature
  store.load(box,3);

  // Check signature, bail quickly if no match
  if(box[0]==12 && box[1]==BOX_JP && box[2]==SIGNATURE){

    // Figure size
    store.position(0,FXFromEnd);
    size=store.position()-pos;
    store.position(pos);

    FXTRACE((90,"fxloadJP2: file size=%d\n",size));

    // Allocate chunk for file data
    if(allocElms(ptr,size)){

      // Load entire file
      store.load(ptr,size);

      // Create decompressor
      opj_dinfo_t *decompressor=opj_create_decompress(CODEC_JP2);
      if(decompressor){
        opj_dparameters_t     parameters;
        opj_event_mgr_t       event_mgr;
        opj_cio_t            *cio=NULL;
        opj_image_t          *image=NULL;

        // Set up callbacks
        event_mgr.error_handler=j2k_error_callback;
        event_mgr.warning_handler=j2k_warning_callback;
        event_mgr.info_handler=j2k_info_callback;

        // Set event manager
        opj_set_event_mgr((opj_common_ptr)decompressor,&event_mgr,NULL);

        // Initialize decompression parameters
        opj_set_default_decoder_parameters(&parameters);

        // Setup the decoder decoding parameters using user parameters
        opj_setup_decoder(decompressor,&parameters);

        // Open a byte stream */
        cio=opj_cio_open((opj_common_ptr)decompressor,ptr,size);
        if(cio){

          // Decode the stream and fill the image structure
          image=opj_decode(decompressor,cio);
          if(image){

            // Image size
            width=image->x1-image->x0;
            height=image->y1-image->y0;

            FXTRACE((90,"fxloadJP2: width=%d height=%d numcomps=%d color_space=%d\n",width,height,image->numcomps,image->color_space));

            // Only support GREY, RGB, and RGBA
            if(((image->numcomps==1) && (image->color_space==CLRSPC_GRAY)) || ((image->numcomps==3 || image->numcomps==4) && (image->color_space==CLRSPC_SRGB))){

              // Allocate image data
              if(allocElms(data,width*height)){
                rof=gof=bof=aof=rsh=gsh=bsh=ash=0;
                switch(image->numcomps){
                  case 1:
                    if(image->comps[0].sgnd) gof=1<<(image->comps[0].prec-1);
                    gsh=image->comps[0].prec-8;
                    cw=image->comps[0].w;
                    for(y=0; y<height; ++y){
                      for(x=0; x<width; ++x){
                        g=(image->comps[0].data[y*cw+x]+gof)>>gsh;
                        data[y*width+x]=FXRGB(g,g,g);
                        }
                      }
                    break;
                  case 3:
                    if(image->comps[0].sgnd) rof=1<<(image->comps[0].prec-1);
                    if(image->comps[1].sgnd) gof=1<<(image->comps[1].prec-1);
                    if(image->comps[2].sgnd) bof=1<<(image->comps[2].prec-1);
                    rsh=image->comps[0].prec-8;
                    gsh=image->comps[1].prec-8;
                    bsh=image->comps[2].prec-8;
                    cw=image->comps[0].w;
                    for(y=0; y<height; ++y){
                      for(x=0; x<width; ++x){
                        r=(image->comps[0].data[y*cw+x]+rof)>>rsh;
                        g=(image->comps[1].data[y*cw+x]+gof)>>gsh;
                        b=(image->comps[2].data[y*cw+x]+bof)>>bsh;
                        data[y*width+x]=FXRGB(r,g,b);
                        }
                      }
                    break;
                  default:
                    if(image->comps[0].sgnd) rof=1<<(image->comps[0].prec-1);
                    if(image->comps[1].sgnd) gof=1<<(image->comps[1].prec-1);
                    if(image->comps[2].sgnd) bof=1<<(image->comps[2].prec-1);
                    if(image->comps[3].sgnd) aof=1<<(image->comps[3].prec-1);
                    rsh=image->comps[0].prec-8;
                    gsh=image->comps[1].prec-8;
                    bsh=image->comps[2].prec-8;
                    ash=image->comps[3].prec-8;
                    cw=image->comps[0].w;
                    for(y=0; y<height; ++y){
                      for(x=0; x<width; ++x){
                        r=(image->comps[0].data[y*cw+x]+rof)>>rsh;
                        g=(image->comps[1].data[y*cw+x]+gof)>>gsh;
                        b=(image->comps[2].data[y*cw+x]+bof)>>bsh;
                        a=(image->comps[3].data[y*cw+x]+aof)>>ash;
                        data[y*width+x]=FXRGBA(r,g,b,a);
                        }
                      }
                    break;
                  }
                result=true;
                }
              }
            opj_image_destroy(image);
            }
          opj_cio_close(cio);
          }
        opj_destroy_decompress(decompressor);
        }
      freeElms(ptr);
      }
    }
Beispiel #5
0
// Check if stream contains a JPG
FXbool fxcheckJP2(FXStream& store){
  FXuchar ss[12];
  store.load(ss,12);
  store.position(-12,FXFromCurrent);
  return ss[0]==0 && ss[1]==0 && ss[2]==0 && ss[3]==12 && ss[4]=='j' && ss[5]=='P' && ss[6]==' ' && ss[7]==' ' && ss[8]==0x0D && ss[9]==0x0A && ss[10]==0x87 && ss[11]==0x0A;
  }
Beispiel #6
0
// Check if stream contains a PNG
bool fxcheckPNG(FXStream& store){
  FXuchar signature[8];
  store.load(signature,8);
  store.position(-8,FXFromCurrent);
  return signature[0]==137 && signature[1]==80 && signature[2]==78 && signature[3]==71 && signature[4]==13 && signature[5]==10 && signature[6]==26 && signature[7]==10;
  }
Beispiel #7
0
// Load a TIFF image
bool fxloadTIF(FXStream& store,FXColor*& data,FXint& width,FXint& height,FXushort& codec) {
    tiff_store_handle s_handle;
    TIFFRGBAImage img;
    TIFF *image;
    char emsg[1024];
    register FXColor *up,*dn,t;
    register FXint i;
    register long size;

    // Null out
    data=NULL;
    width=0;
    height=0;

    // Set error/warning handlers
    TIFFSetErrorHandler(fxerrorhandler);
    TIFFSetWarningHandler(fxwarninghandler);

    // Initialize
    s_handle.store=&store;
    s_handle.begin=store.position();
    s_handle.end=store.position();
    s_handle.error=FALSE;

    // Open image
    image=TIFFClientOpen("tiff","rm",(thandle_t)&s_handle,tif_read_store,tif_write_store,tif_seek_store,tif_close_store,tif_size_store,tif_map_store,tif_unmap_store);
    if(!image) return false;

    // We try to remember the codec for later when we save the image back out...
    TIFFGetField(image,TIFFTAG_COMPRESSION,&codec);
    //FXTRACE((100,"fxloadTIF: codec=%d\n",codec));

    // FIXME TIFFRGBAImage{Begin,Get,End} is too broken!
    if(TIFFRGBAImageBegin(&img,image,0,emsg)!=1) {
        TIFFClose(image);
        return false;
    }

    //FXTRACE((1,"fxloadTIF: width=%u height=%u alpha=%d bitspersample=%u samplesperpixel=%u orientation=%u photometric=%u\n",img.width,img.height,img.alpha,img.bitspersample,img.samplesperpixel,img.orientation,img.photometric));

    // Make room for data
    size=img.width*img.height;
    if(!FXMALLOC(&data,FXColor,size)) {
        TIFFClose(image);
        return false;
    }

    // Get the pixels
    if(TIFFRGBAImageGet(&img,(uint32*)data,img.width,img.height)!=1) {
        FXFREE(&data);
        TIFFClose(image);
        return false;
    }

    // If we got this far, we have the data;
    // nothing can go wrong from here on.
    width=(FXint)img.width;
    height=(FXint)img.height;

    // Maybe flip image upside down?
    if(img.orientation==ORIENTATION_TOPLEFT) {
        for(up=data,dn=data+(height-1)*width; up<dn; up+=width,dn-=width) {
            for(i=0; i<width; i++) {
                t=up[i];
                up[i]=dn[i];
                dn[i]=t;
            }
        }
    }

    TIFFRGBAImageEnd(&img);
    TIFFClose(image);
    return true;
}
Beispiel #8
0
// Check if stream contains a TIFF
bool fxcheckTIF(FXStream& store) {
    FXuchar signature[2];
    store.load(signature,2);
    store.position(-2,FXFromCurrent);
    return (signature[0]==0x4d && signature[1]==0x4d) || (signature[0]==0x49 && signature[1]==0x49);
}
Beispiel #9
0
// Load image from stream
bool fxloadGIF(FXStream& store,FXColor*& data,FXint& width,FXint& height){
  const   FXint Yinit[4]={0,4,2,1};
  const   FXint Yinc[4]={8,8,4,2};
  FXint   imwidth,imheight,interlace,ncolors,npixels,maxpixels,i;
  FXuchar c1,c2,c3,sbsize,flags,alpha,*ptr,*buf,*pix;
  FXColor colormap[256];
  FXint   BitOffset;                  // Bit Offset of next code
  FXint   ByteOffset;                 // Byte offset of next code
  FXint   XC,YC;                      // Output X and Y coords of current pixel
  FXint   Pass;                       // Used by output routine if interlaced pic
  FXint   OutCount;                   // Decompressor output 'stack count'
  FXint   CodeSize;                   // Code size, read from GIF header
  FXint   InitCodeSize;               // Starting code size, used during Clear
  FXint   Code;                       // Value returned by ReadCode
  FXint   MaxCode;                    // limiting value for current code size
  FXint   ClearCode;                  // GIF clear code
  FXint   EOFCode;                    // GIF end-of-information code
  FXint   CurCode,OldCode,InCode;     // Decompressor variables
  FXint   FirstFree;                  // First free code, generated per GIF spec
  FXint   FreeCode;                   // Decompressor,next free slot in hash table
  FXint   FinChar;                    // Decompressor variable
  FXint   BitMask;                    // AND mask for data size
  FXint   ReadMask;                   // Code AND mask for current code size
  FXint   Prefix[4096];               // The hash table used by the decompressor
  FXint   Suffix[4096];               // The hash table used by the decompressor
  FXint   OutCode[4097];              // An output array used by the decompressor

  // Null out
  data=NULL;
  width=0;
  height=0;

  // Load signature
  store >> c1;
  store >> c2;
  store >> c3;

  // Check signature
  if(c1!=TAG_SIG1 || c2!=TAG_SIG2 || c3!=TAG_SIG3) return false;

  // Load version
  store >> c1;
  store >> c2;
  store >> c3;

  // Check version
  if(c1!=TAG_VER || (c2!=TAG_OLD && c2!=TAG_NEW) || c3!=TAG_SUF) return false;

  // Get screen descriptor
  store >> c1 >> c2;    // Skip screen width
  store >> c1 >> c2;    // Skip screen height
  store >> flags;       // Get flags
  store >> alpha;       // Background
  store >> c2;          // Skip aspect ratio

  // Determine number of colors
  ncolors=2<<(flags&7);
  BitMask=ncolors-1;

  // If no colormap, spec says first 2 colors are black and white
  colormap[0]=FXRGB(0,0,0);
  colormap[1]=FXRGB(255,255,255);

  // Read global map if there is one
  if(flags&0x80){
    for(i=0; i<ncolors; i++){
      store >> ((FXuchar*)(colormap+i))[0];     // Blue
      store >> ((FXuchar*)(colormap+i))[1];     // Green
      store >> ((FXuchar*)(colormap+i))[2];     // Red
      ((FXuchar*)(colormap+i))[3]=255;          // Alpha
      }
    }

  // Process it
  while(1){
    store >> c1;
    if(c1==TAG_EXTENSION){

      // Read extension code
      store >> c2;

      // Graphic Control Extension
      if(c2==TAG_GRAPHIC){
        store >> sbsize;
        if(sbsize!=TAG_GRAPHICSIZE) return false;
        store >> flags;         // Flags
        store >> c3 >> c3;      // Delay time
        store >> alpha;         // Alpha color index; we suspect alpha<ncolors not always true...
        store >> c3;
        if(flags&1){            // Clear alpha channel of alpha color
          colormap[alpha]&=FXRGBA(255,255,255,0);       // Clear the alpha channel but keep the RGB
          }
        continue;
        }

      // Other extension
      do{
        store >> sbsize;
        store.position(store.position()+sbsize);
        }
      while(sbsize>0 && !store.eof());    // FIXME this logic still flawed
      continue;
      }
Beispiel #10
0
// Save a TIFF image
FXbool fxsaveTIF(FXStream& store,const FXColor* data,FXint width,FXint height,FXushort codec){
  register FXbool result=false;

  // Must make sense
  if(data && 0<width && 0<height){

    // Correct for unsupported codecs
    const TIFFCodec* coder=TIFFFindCODEC(codec);
    if(coder==NULL) codec=COMPRESSION_PACKBITS;

    // Due to the infamous UNISYS patent, we can read LZW TIFF's but not
    // write them back as that would require the LZW compression algorithm!
    if(codec==COMPRESSION_LZW) codec=COMPRESSION_PACKBITS;

    FXTRACE((100,"fxsaveTIF: codec=%d\n",codec));

    // Set error/warning handlers
    TIFFSetErrorHandler(NULL);
    TIFFSetWarningHandler(NULL);

    // Initialize
    tiff_store_handle s_handle;
    s_handle.store=&store;
    s_handle.begin=store.position();
    s_handle.end=store.position();

    // Open image
    TIFF* image=TIFFClientOpen("tiff","w",(thandle_t)&s_handle,tif_dummy_read_store,tif_write_store,tif_seek_store,tif_close_store,tif_size_store,NULL,NULL);
    if(image){
      FXColor *buffer=NULL;

      // Size of a strip is 16kb
      FXint rows_per_strip=16*1024/width;
      if(rows_per_strip<1) rows_per_strip=1;

      // Set fields
      TIFFSetField(image,TIFFTAG_IMAGEWIDTH,width);
      TIFFSetField(image,TIFFTAG_IMAGELENGTH,height);
      TIFFSetField(image,TIFFTAG_COMPRESSION,codec);
      TIFFSetField(image,TIFFTAG_ORIENTATION,ORIENTATION_TOPLEFT);
      TIFFSetField(image,TIFFTAG_ROWSPERSTRIP,rows_per_strip);
      TIFFSetField(image,TIFFTAG_BITSPERSAMPLE,8);
      TIFFSetField(image,TIFFTAG_SAMPLESPERPIXEL,4);
      TIFFSetField(image,TIFFTAG_PLANARCONFIG,PLANARCONFIG_CONTIG);
      TIFFSetField(image,TIFFTAG_PHOTOMETRIC,PHOTOMETRIC_RGB);

      // Allocate scanline buffer
      if(allocElms(buffer,width)){

        // Dump each line
        for(FXint y=0; y<height; data+=width,y++){

          // Convert byte order
          for(FXint x=0; x<width; x++){
            buffer[x]=FXREDVAL(data[x]) | FXGREENVAL(data[x])<<8 | FXBLUEVAL(data[x])<<16 | FXALPHAVAL(data[x])<<24;
            }

          // Write scanline
          if(TIFFWriteScanline(image,buffer,y,1)!=1) goto x;
          }

        // All done
        result=true;

        // Delete scanline buffer
x:      freeElms(buffer);
        }

      // Close image
      TIFFClose(image);
      }
    }
  return result;
  }
Beispiel #11
0
// Load GEO TIFF
FXbool fxloadTIF__(FXStream& store,FXColor*& data,FXint& width,FXint& height,FXushort& codec){
  tiff_store_handle s_handle;
  FXbool result=false;
  TIFF* image;

  // Null out
  data=NULL;
  width=0;
  height=0;
  codec=0;

  // Set error/warning handlers
  TIFFSetErrorHandler(NULL);
  TIFFSetWarningHandler(NULL);

  // Initialize
  s_handle.store=&store;
  s_handle.begin=store.position();
  s_handle.end=store.position();

  FXTRACE((100,"fxloadGEOTIF\n"));

  // Open image
  if((image=TIFFClientOpen("tiff","rm",(thandle_t)&s_handle,tif_read_store,tif_write_store,tif_seek_store,tif_close_store,tif_size_store,NULL,NULL))!=NULL){
    FXushort samples=0;
    FXushort samplebits=0;
    FXushort format=0;
    FXuint   scanlinesize;
    FXuchar *scanline;

    // Get size
    TIFFGetField(image,TIFFTAG_IMAGEWIDTH,&width);
    TIFFGetField(image,TIFFTAG_IMAGELENGTH,&height);
    TIFFGetField(image,TIFFTAG_SAMPLESPERPIXEL,&samples);
    TIFFGetField(image,TIFFTAG_BITSPERSAMPLE,&samplebits);
    TIFFGetField(image,TIFFTAG_SAMPLEFORMAT,&format);

    // We try to remember the codec for later when we save the image back out...
    TIFFGetField(image,TIFFTAG_COMPRESSION,&codec);

    // Get line size (bytes)
    scanlinesize=TIFFScanlineSize(image);

    // Show image configuration
    FXTRACE((100,"width=%d height=%d codec=%u samples=%u samplebits=%u format=%u scanlinesize=%u\n",width,height,codec,samples,samplebits,format,scanlinesize));

    // Supported formats
    if((format==SAMPLEFORMAT_UINT || format==SAMPLEFORMAT_INT || format==SAMPLEFORMAT_IEEEFP) && (samples==1 || samples==3)){

      // Allocate scanline buffer
      if(callocElms(scanline,scanlinesize)){

        // Make room for data
        if(callocElms(data,width*height)){

/*

    FXuint nPlanarConfig=0;
    FXuint nCompressFlag=0;
    FXuint nPhotometric=0;




    TIFFGetField(image,TIFFTAG_PLANARCONFIG,&nPlanarConfig);
    TIFFGetField(image,TIFFTAG_COMPRESSION,&nCompressFlag);
    TIFFGetField(image,TIFFTAG_PHOTOMETRIC,&nPhotometric);

    FXTRACE((100,"nPlanarConfig=%u\n",nPlanarConfig));
    FXTRACE((100,"nCompressFlag=%u\n",nCompressFlag));
    FXTRACE((100,"nPhotometric=%u\n",nPhotometric));

    switch(nSampleFormat){
      case SAMPLEFORMAT_UINT:
        break;
      case SAMPLEFORMAT_INT:
        break;
      case SAMPLEFORMAT_IEEEFP:
        break;
      case SAMPLEFORMAT_VOID:
        break;
      case SAMPLEFORMAT_COMPLEXINT:
        break;
      case SAMPLEFORMAT_COMPLEXIEEEFP:
        break;
      default:
        break;
      }
*/

          // Read lines
          for(FXint y=0; y<height; ++y){
            TIFFReadScanline(image,scanline,y,0);

            if(samples==3){
              if(samplebits==8){
                for(FXint x=0; x<width; ++x){
                  ((FXuchar*)&data[y*width+x])[0]=scanline[3*x+2];        // Blue
                  ((FXuchar*)&data[y*width+x])[1]=scanline[3*x+1];        // Green
                  ((FXuchar*)&data[y*width+x])[2]=scanline[3*x+0];        // Red
                  ((FXuchar*)&data[y*width+x])[3]=255;                    // Alpha
                  }
                }
              else if(samplebits==16){
                for(FXint x=0; x<width; ++x){
                  ((FXuchar*)&data[y*width+x])[0]=((FXushort*)scanline)[3*x+2]/257;
                  ((FXuchar*)&data[y*width+x])[1]=((FXushort*)scanline)[3*x+1]/257;
                  ((FXuchar*)&data[y*width+x])[2]=((FXushort*)scanline)[3*x+0]/257;
                  ((FXuchar*)&data[y*width+x])[3]=255;
                  }
                }
              }
            else{
              if(samplebits==8){
                for(FXint x=0; x<width; ++x){
                  ((FXuchar*)&data[y*width+x])[0]=scanline[x];          // Blue
                  ((FXuchar*)&data[y*width+x])[1]=scanline[x];          // Green
                  ((FXuchar*)&data[y*width+x])[2]=scanline[x];          // Red
                  ((FXuchar*)&data[y*width+x])[3]=255;                  // Alpha
                  }
                }
              else if(samplebits==16){
                for(FXint x=0; x<width; ++x){
                  ((FXuchar*)&data[y*width+x])[0]=((FXushort*)scanline)[x]/257;
                  ((FXuchar*)&data[y*width+x])[1]=((FXushort*)scanline)[x]/257;
                  ((FXuchar*)&data[y*width+x])[2]=((FXushort*)scanline)[x]/257;
                  ((FXuchar*)&data[y*width+x])[3]=255;
                  }
                }
              }
            }

          // Got as far as this if success
          result=true;
          }
        }
      freeElms(scanline);
      }
    TIFFClose(image);
    }
  return result;
  }
Beispiel #12
0
// Load image from stream
bool fxloadRGB(FXStream& store,FXColor*& data,FXint& width,FXint& height){
  FXint i,j,c,tablen,sub,t,total;
  FXuchar temp[4096],*array,storage,bpc,swap;
  FXuint *starttab,*lengthtab;
  FXushort magic,dimension,nchannels,w,h;
  FXlong base,start;

  // Null out
  data=NULL;
  width=0;
  height=0;

  // Remember swap state
  swap=store.swapBytes();
  store.setBigEndian(TRUE);

  // Where the image format starts
  base=store.position();

  // Load header
  store >> magic;       // MAGIC (2)
  store >> storage;     // STORAGE (1)
  store >> bpc;         // BPC (1)
  store >> dimension;   // DIMENSION (2)
  store >> w;           // XSIZE (2)
  store >> h;           // YSIZE (2)
  store >> nchannels;   // ZSIZE (2)

  FXTRACE((50,"fxloadRGB: magic=%d width=%d height=%d nchannels=%d dimension=%d storage=%d bpc=%d\n",magic,w,h,nchannels,dimension,storage,bpc));

  // Check magic number and other parameters
  if(magic==474 && nchannels==3 && bpc==1 && w>0 && h>0){

    // Make room for image
    if(FXMALLOC(&data,FXColor,w*h)){

      // Clear
      memset(data,0xff,sizeof(FXColor)*w*h);

      // Skip stuff
      store.position(500,FXFromCurrent);

      // RLE compressed
      if(storage){
        tablen=h*3;

        // Allocate line tables
        if(FXMALLOC(&starttab,FXuint,tablen*2)){
          lengthtab=&starttab[tablen];

          // Read line tables
          store.load(starttab,tablen);
          store.load(lengthtab,tablen);

          // Where the RLE chunks start
          start=store.position();

          // Substract this amount to get offset from chunk start
          sub=start-base;

          total=0;

          // Fix up the line table & figure space for RLE chunks
          // Intelligent RGB writers (not ours ;-)) may re-use RLE
          // chunks for more than 1 line...
          for(i=0; i<tablen; i++){
            starttab[i]-=sub;
            t=starttab[i]+lengthtab[i];
            if(t>total) total=t;
            }

          // Make room for the compressed lines
          if(FXMALLOC(&array,FXuchar,total)){

            // Load all RLE chunks
            store.load(array,total);
            for(c=0; c<3; c++){
              for(j=h-1; j>=0; j--){
                expandrow(((FXuchar*)(data+j*w))+c,&array[starttab[h-1-j+c*h]]);
                }
              }

            // Free RLE chunks
            FXFREE(&array);
            }

          // Free line tables
          FXFREE(&starttab);
          }
        }

      // NON compressed
      else{
        for(c=0; c<3; c++){
          for(j=h-1; j>=0; j--){
            store.load(temp,w);
            for(i=0; i<w; i++) ((FXuchar*)(data+j*w+i))[c]=temp[i];
            }
          }
        }

      // Set width and height
      width=w;
      height=h;

      // Reset swap status
      store.swapBytes(swap);
      return TRUE;
      }
    }

  // Reset swap status
  store.swapBytes(swap);
  return false;
  }
Beispiel #13
0
// Check if stream contains a RGB
bool fxcheckRGB(FXStream& store){
  FXuchar signature[2];
  store.load(signature,2);
  store.position(-2,FXFromCurrent);
  return signature[0]==0x01 && signature[1]==0xDA;
  }
Beispiel #14
0
// Load SUN raster image file format
bool fxloadRAS(FXStream& store,FXColor*& data,FXint& width,FXint& height){
  FXuchar red[256],green[256],blue[256],*line,count,c,*p,*q,bit;
  register FXint npixels,depth,linesize,x,y,i;
  HEADER header;

  // Null out
  data=NULL;
  line=NULL;
  width=0;
  height=0;

  // Read header
  header.magic=read32(store);
  header.width=read32(store);
  header.height=read32(store);
  header.depth=read32(store);
  header.length=read32(store);
  header.type=read32(store);
  header.maptype=read32(store);
  header.maplength=read32(store);

  //FXTRACE((1,"fxloadRAS: magic=%08x width=%d height=%d depth=%d length=%d type=%d maptype=%d maplength=%d\n",header.magic,header.width,header.height,header.depth,header.length,header.type,header.maptype,header.maplength));

  // Check magic code
  if(header.magic!=RAS_MAGIC) return false;

  // Trivial reject
  if(header.width<1 || header.height<1) return false;

  // Bad colormap size
  if(header.maplength<0 || header.maplength>768) return false;

  // Verify depth options; must be 1,8,24, or 32
  if(header.depth!=1 && header.depth!=8 && header.depth!=24 && header.depth!=32) return false;

  // Verify supported types
  if(header.type!=RT_OLD && header.type!=RT_STANDARD && header.type!=RT_BYTE_ENCODED && header.type!=RT_FORMAT_RGB) return false;

  // Verify map types
  if(header.maptype!=RMT_RAW && header.maptype!=RMT_NONE && header.maptype!=RMT_EQUAL_RGB) return false;

  // Get size
  width=header.width;
  height=header.height;
  depth=header.depth;
  npixels=width*height;
  linesize=((width*depth+15)/16)*2;

  //FXTRACE((1,"fxloadRAS: header.length=%d linesize=%d 4*npixels=%d\n",header.length,linesize,4*npixels));

  // Read in the colormap
  if(header.maptype==RMT_EQUAL_RGB && header.maplength){
    //FXTRACE((1,"fxloadRAS: RMT_EQUAL_RGB\n"));
    store.load(red,header.maplength/3);
    store.load(green,header.maplength/3);
    store.load(blue,header.maplength/3);
    }

  // Skip colormap
  else if(header.maptype==RMT_RAW && header.maplength){
    //FXTRACE((1,"fxloadRAS: RMT_RAW\n"));
    store.position(header.maplength,FXFromCurrent);
    }

  // Black and white
  else if(header.depth==1){
    //FXTRACE((1,"fxloadRAS: 1 bit\n"));
    red[0]=green[0]=blue[0]=0;
    red[1]=green[1]=blue[1]=255;
    }

  // Gray scale
  else if(header.depth==8){
    //FXTRACE((1,"fxloadRAS: 8 bit\n"));
    for(i=0; i<256; i++){
      red[i]=green[i]=blue[i]=i;
      }
    }

  // Allocate pixel data
  if(!FXMALLOC(&data,FXColor,npixels)) return false;

  // Allocate scanline
  if(!FXMALLOC(&line,FXuchar,linesize)){ FXFREE(&data); return false; }

  // Now read the image
  for(y=0,p=(FXuchar*)data,count=c=0; y<height; y++){
    if(header.type!=RT_BYTE_ENCODED){           // Load uncompressed
      store.load(line,linesize);
      }
    else{
      for(i=0; i<linesize; i++){                // Load RLE compressed
        if(count){
          line[i]=c;
          count--;
          }
        else{
          store >> c;
          if(c==0x80){
            store >> count;
            if(count==0){
              line[i]=0x80;
              }
            else{
              store >> c;
              line[i]=c;
              }
            }
          else{
            line[i]=c;
            }
          }
        }
      }
Beispiel #15
0
// Check if stream contains a RAS
bool fxcheckRAS(FXStream& store){
  FXint signature;
  signature=read32(store);
  store.position(-4,FXFromCurrent);
  return signature==RAS_MAGIC;
  }