// Before editing this file, make sure it's a file of your own (i.e.: it wasn't generated from xml description; if so : your modifications will be lost)
//=====
+
+vtkImageData* ReadMHDPlane::CreateDefaultImage()
+{
+ int i;
+ int sizeX, sizeY, sizeZ;
+ sizeX = 200;
+ sizeY = sizeX;
+ sizeZ = 1;
+ vtkImageData *newImage = vtkImageData::New();
+ newImage->Initialize();
+ newImage->SetScalarTypeToUnsignedChar();
+ newImage->SetSpacing( 1,1,1 );
+ newImage->SetDimensions( sizeX,sizeY,sizeZ );
+ newImage->SetWholeExtent(0, sizeX-1,0,sizeY-1,0,sizeZ-1 );
+ newImage->SetExtent(0, sizeX-1,0,sizeY-1,0,sizeZ-1 );
+ newImage->SetNumberOfScalarComponents(1);
+ newImage->AllocateScalars();
+ newImage->Update();
+ memset ( (void*)newImage->GetScalarPointer(), 0, sizeX*sizeY*1 );
+ for (i=0; i<sizeX; i++)
+ {
+ newImage->SetScalarComponentFromDouble(i,i,0, 0, 255 );
+ newImage->SetScalarComponentFromDouble(i,sizeY-1-i,0, 0, 255 );
+ } // for i
+ return newImage;
+}
+
+
void ReadMHDPlane::ReadNormalMHD()
{
// THE MAIN PROCESSING METHOD BODY
// std::cout << "Output value = " <<bbGetOutputOut() << std::endl;
std::string inputfilename;
+ int slice;
+ int width;
if (bbGetInputDirectionPlane()=="XY")
{
} // XZ
} // if YZ || XZ
+ width = bbGetInputWidth();
+ if (width<=0 ) { width=1; }
+
+ slice = bbGetInputSlice();
+ if (slice<0 ) { slice=0; }
+
+
vtkImageData *newImage;
long long int newHeaderSize;
std::string newFileName=inputfilename+"-OneSlice";
{
strcpy(mystring,"\n");
fgets(mystring,250,ffIn);
- if (strncmp("NDims",mystring,5)==0) {strcpy(mystring,"NDims = 2\n");}
+ if (strncmp("NDims",mystring,5)==0)
+ {
+ if (width==1)
+ {
+ strcpy(mystring,"NDims = 2\n");
+ } else {
+ strcpy(mystring,"NDims = 3\n");
+ }
+ }
if (strncmp("DimSize",mystring,6)==0)
{
sscanf(mystring,"%s %s %d %d %d",strTmp, strTmp, &sx, &sy,&sz);
- sprintf(mystring,"DimSize = %d %d\n",sx,sy);
- newHeaderSize = (long long int)sx*(long long int)sy*(long long int)bbGetInputSlice();
+
+ if (width==1)
+ {
+ sprintf(mystring,"DimSize = %d %d\n",sx,sy);
+ } else {
+ sprintf(mystring,"DimSize = %d %d %d\n",sx,sy,width);
+ }
+
+ newHeaderSize = (long long int)sx*(long long int)sy*(long long int)slice;
if (bbGetInputSlice()>=sz) {ok=false;}
} // if
if (strncmp("ElementType = MET_CHAR",mystring,22)==0) { newHeaderSize=newHeaderSize*1; }
if (ok==false)
{
- int i;
- int sizeX, sizeY, sizeZ;
- sizeX = 200;
- sizeY = sizeX;
- sizeZ = 1;
- newImage = vtkImageData::New();
- newImage->Initialize();
- newImage->SetScalarTypeToUnsignedChar();
- newImage->SetSpacing( 1,1,1 );
- newImage->SetDimensions( sizeX,sizeY,sizeZ );
- newImage->SetWholeExtent(0, sizeX-1,0,sizeY-1,0,sizeZ-1 );
- newImage->SetExtent(0, sizeX-1,0,sizeY-1,0,sizeZ-1 );
- newImage->SetNumberOfScalarComponents(1);
- newImage->AllocateScalars();
- newImage->Update();
- memset ( (void*)newImage->GetScalarPointer(), 0, sizeX*sizeY*1 );
- for (i=0; i<sizeX; i++)
- {
- newImage->SetScalarComponentFromDouble(i,i,0, 0, 255 );
- newImage->SetScalarComponentFromDouble(i,sizeY-1-i,0, 0, 255 );
- } // for i
+ newImage=CreateDefaultImage();
} // if ok
bbSetOutputOut( newImage );
-
}
+
+
+
+
void ReadMHDPlane::Read64lseek()
{
+ int slice;
+ int width;
+
+ width = bbGetInputWidth();
+ if (width<=0 ) { width=1; }
+
+ slice = bbGetInputSlice();
+ if (slice<0 ) { slice=0; }
int dimX=-1,dimY=-1,dimZ=-1;
int dim=-1;
float ox=-1,oy=-1,oz=-1;
long int headersize=0;
- vtkImageData *newImage;
+ vtkImageData *newImage=NULL;
char mystring[250];
char strTmp[30];
FILE *ffIn = fopen(bbGetInputFileName().c_str(),"r");
long long dataSize;
-
-
if (ffIn!=NULL)
{
newImage = vtkImageData::New();
if (strncmp("NDims",mystring,5)==0) { sscanf(mystring,"%s %s %d" ,strTmp, strTmp, &dim); }
if (strncmp("DimSize",mystring,6)==0) { sscanf(mystring,"%s %s %d %d %d" ,strTmp, strTmp, &dimX, &dimY,&dimZ); }
if (strncmp("ElementType",mystring,11)==0) { sscanf(mystring,"%s %s %s" ,strTmp, strTmp, strTmp2); formattype=strTmp2; }
- if (strncmp("ElementSpacing",mystring,11)==0) { sscanf(mystring,"%s %s %f %f %f" ,strTmp, strTmp, &spcX,&spcY,&spcZ); }
+ if (strncmp("ElementSpacing",mystring,14)==0) { sscanf(mystring,"%s %s %f %f %f" ,strTmp, strTmp, &spcX,&spcY,&spcZ); }
+ if (strncmp("ElementSize",mystring,11)==0) { sscanf(mystring,"%s %s %f %f %f" ,strTmp, strTmp, &spcX,&spcY,&spcZ); }
if (strncmp("Offset",mystring,6)==0) { sscanf(mystring,"%s %s %f %f %f" ,strTmp, strTmp, &ox, &oy, &oz); }
if (strncmp("HeaderSize",mystring,10)==0) { sscanf(mystring,"%s %s %ld" ,strTmp, strTmp, &headersize); }
if (strncmp("ElementDataFile",mystring,15)==0) { sscanf(mystring,"%s %s %s" ,strTmp, strTmp, strTmp2); elementdatafile=strTmp2; }
- if (strncmp("ElementType = MET_CHAR",mystring,22)==0) { newImage->SetScalarTypeToChar(); dataSize=sizeof(char); }
- if (strncmp("ElementType = VTK_CHAR",mystring,22)==0) { newImage->SetScalarTypeToChar(); dataSize=sizeof(char); }
- if (strncmp("ElementType = MET_UCHAR",mystring,23)==0) { newImage->SetScalarTypeToUnsignedChar(); dataSize=sizeof(unsigned char); }
+ if (strncmp("ElementType = MET_CHAR",mystring,22)==0) { newImage->SetScalarTypeToChar(); dataSize=sizeof(char); }
+ if (strncmp("ElementType = VTK_CHAR",mystring,22)==0) { newImage->SetScalarTypeToChar(); dataSize=sizeof(char); }
+ if (strncmp("ElementType = MET_UCHAR",mystring,23)==0) { newImage->SetScalarTypeToUnsignedChar(); dataSize=sizeof(unsigned char); }
if (strncmp("ElementType = VTK_UNSIGNED_CHAR",mystring,31)==0) { newImage->SetScalarTypeToUnsignedChar(); dataSize=sizeof(unsigned char); }
- if (strncmp("ElementType = MET_USHORT",mystring,24)==0) { newImage->SetScalarTypeToUnsignedShort(); dataSize=sizeof(unsigned short);}
+ if (strncmp("ElementType = MET_USHORT",mystring,24)==0) { newImage->SetScalarTypeToUnsignedShort(); dataSize=sizeof(unsigned short);}
if (strncmp("ElementType = VTK_UNSIGNED_SHORT",mystring,32)==0) { newImage->SetScalarTypeToUnsignedShort(); dataSize=sizeof(unsigned short);}
- if (strncmp("ElementType = MET_SHORT",mystring,23)==0) { newImage->SetScalarTypeToShort(); dataSize=sizeof(short); }
- if (strncmp("ElementType = VTK_SHORT",mystring,23)==0) { newImage->SetScalarTypeToShort(); dataSize=sizeof(short); }
- if (strncmp("ElementType = MET_FLOAT",mystring,23)==0) { newImage->SetScalarTypeToFloat(); dataSize=sizeof(float); }
- if (strncmp("ElementType = VTK_FLOAT",mystring,23)==0) { newImage->SetScalarTypeToFloat(); dataSize=sizeof(float); }
- if (strncmp("ElementType = MET_DOUBLE",mystring,24)==0) { newImage->SetScalarTypeToDouble(); dataSize=sizeof(double); }
- if (strncmp("ElementType = VTK_DOUBLE",mystring,24)==0) { newImage->SetScalarTypeToDouble(); dataSize=sizeof(double); }
+ if (strncmp("ElementType = MET_SHORT",mystring,23)==0) { newImage->SetScalarTypeToShort(); dataSize=sizeof(short); }
+ if (strncmp("ElementType = VTK_SHORT",mystring,23)==0) { newImage->SetScalarTypeToShort(); dataSize=sizeof(short); }
+ if (strncmp("ElementType = MET_UINT",mystring,24)==0) { newImage->SetScalarTypeToUnsignedInt(); dataSize=sizeof(unsigned int); }
+ if (strncmp("ElementType = VTK_UNSIGNED_INT",mystring,32)==0) { newImage->SetScalarTypeToUnsignedInt(); dataSize=sizeof(unsigned int); }
+ if (strncmp("ElementType = MET_INT",mystring,24)==0) { newImage->SetScalarTypeToInt(); dataSize=sizeof(int); }
+ if (strncmp("ElementType = VTK_INT",mystring,32)==0) { newImage->SetScalarTypeToInt(); dataSize=sizeof(int); }
+ if (strncmp("ElementType = MET_FLOAT",mystring,23)==0) { newImage->SetScalarTypeToFloat(); dataSize=sizeof(float); }
+ if (strncmp("ElementType = VTK_FLOAT",mystring,23)==0) { newImage->SetScalarTypeToFloat(); dataSize=sizeof(float); }
+ if (strncmp("ElementType = MET_LONG",mystring,23)==0) { newImage->SetScalarTypeToLong(); dataSize=sizeof(long); }
+ if (strncmp("ElementType = VTK_LONG",mystring,23)==0) { newImage->SetScalarTypeToLong(); dataSize=sizeof(long); }
+ if (strncmp("ElementType = MET_DOUBLE",mystring,24)==0) { newImage->SetScalarTypeToDouble(); dataSize=sizeof(double); }
+ if (strncmp("ElementType = VTK_DOUBLE",mystring,24)==0) { newImage->SetScalarTypeToDouble(); dataSize=sizeof(double); }
} // while
fclose(ffIn);
newImage->Initialize();
- int fd;
- long long ret;
+ int fd;
+ long long ret;
std::size_t found;
std::string filename;
- found = bbGetInputFileName().find_last_of("/\\");
+ found = bbGetInputFileName().find_last_of("/\\");
filename = bbGetInputFileName().substr(0,found+1) + elementdatafile ;
- long long pos;
+ long long pos;
- long long lsize = dimX*dimY*1 *dataSize;
+ long long lsize = dimX*dimY*width *dataSize;
#if defined(_WIN32)
#endif // defined(_WIN32)
-
if (fd < 0)
{
- printf("EED ReadMHDPlane::Read64lseek \n");
+ printf("EED ReadMHDPlane::Read64lseek WARNNING! raw file not exist\n");
fprintf(stderr, "%s\n", strerror(errno));
- exit(1);
- }
+ newImage=CreateDefaultImage();
+// exit(1);
+ }
+
- if (bbGetInputDirectionPlane()=="XY")
+ if ((bbGetInputDirectionPlane()=="XY") && (fd>=0))
{
newImage->SetSpacing( spcX,spcY,spcZ );
- newImage->SetDimensions( dimX,dimY,1 );
- newImage->SetWholeExtent(0, dimX-1,0,dimY-1,0,0 );
- newImage->SetExtent(0, dimX-1,0,dimY-1,0,0 );
+ newImage->SetDimensions( dimX,dimY,width );
+ newImage->SetWholeExtent(0, dimX-1,0,dimY-1,0,width-1 );
+ newImage->SetExtent(0, dimX-1,0,dimY-1,0,width-1 );
newImage->SetNumberOfScalarComponents(1);
newImage->AllocateScalars();
newImage->Update();
- pos = dimX*dimY*(long long)bbGetInputSlice()*dataSize;
-
-
-
+ pos = dimX*dimY*(long long)slice*dataSize;
#if defined(_WIN32)
if (_lseeki64( fd, pos, SEEK_SET ) < 0)
#else
if (lseek64(fd, pos, SEEK_SET) < 0)
#endif // defined(_WIN32)
-
{
printf("EED ReadMHDPlane::Read64lseek \n");
fprintf(stderr, "Failed seeking to %lld, %s\n", pos, strerror(errno));
}
} // if PLANE XY
- /*
- if (bbGetInputDirectionPlane()=="XZ")
+ if ((bbGetInputDirectionPlane()=="XZ") && (fd>=0))
{
- long long int j;
newImage->SetSpacing( spcX,spcZ,spcY );
- newImage->SetDimensions( dimX,dimZ,1 );
- newImage->SetWholeExtent(0, dimX-1,0,dimZ-1,0,0 );
- newImage->SetExtent(0, dimX-1,0,dimZ-1,0,0 );
+ newImage->SetDimensions( dimX,dimZ,width );
+ newImage->SetWholeExtent(0, dimX-1,0,dimZ-1,0,width-1 );
+ newImage->SetExtent(0, dimX-1,0,dimZ-1,0,width-1 );
newImage->SetNumberOfScalarComponents(1);
newImage->AllocateScalars();
newImage->Update();
- long long sizeBytesPlane = dimX*dimY*dataSize;
- pos = dimX*(long long int)bbGetInputSlice()*dataSize;
- void *pImage = newImage->GetScalarPointer();
- for (j=0;j<dimZ;j++)
+ int iWidth;
+ for (iWidth=0;iWidth<width;iWidth++)
{
-printf("EED EED ReadMHDPlane::Read64lseek XZ j=%d \n", j);
- if (lseek64(fd, pos + j*sizeBytesPlane , SEEK_SET) < 0)
- {
- printf("EED ReadMHDPlane::Read64lseek \n");
- fprintf(stderr, "Failed seeking to %lld, %s\n", pos, strerror(errno));
- exit(1);
- }
-
- if ((ret = read(fd, pImage , dimX*dataSize)) < 0)
- {
- fprintf(stderr, "Failed reading: %s\n", strerror(errno));
- exit(1);
- }
- pImage=pImage+dimX*dataSize;
- } // for j
+ copy_XZ_plane(fd,newImage,slice+iWidth,iWidth,dimX,dimY,dimZ,dataSize);
+ }
} // if PLANE XZ
-
- if (bbGetInputDirectionPlane()=="YZ")
+ if ((bbGetInputDirectionPlane()=="YZ") && (fd>=0))
{
- long long int j;
- long long int i;
newImage->SetSpacing( spcY,spcZ,spcX );
- newImage->SetDimensions( dimY,dimZ,1 );
- newImage->SetWholeExtent(0, dimY-1,0,dimZ-1,0,0 );
- newImage->SetExtent(0, dimY-1,0,dimZ-1,0,0 );
+ newImage->SetDimensions( dimY,dimZ,width );
+ newImage->SetWholeExtent(0, dimY-1,0,dimZ-1,0,width-1 );
+ newImage->SetExtent(0, dimY-1,0,dimZ-1,0,width-1 );
newImage->SetNumberOfScalarComponents(1);
newImage->AllocateScalars();
newImage->Update();
- long long sizeBytesPlane = dimX*dimY*dataSize;
-// pos = dimX*(long long int)bbGetInputSlice()*dataSize;
- void *pImage;
- for (j=0;j<dimZ;j++)
+ int iWidth;
+ for (iWidth=0;iWidth<width;iWidth++)
{
-printf("EED EED ReadMHDPlane::Read64lseek YZ i=%d j=%d \n", i,j);
- for (i=0;i<dimY;i++)
- {
- pos = ((long long int)bbGetInputSlice() + i*dimX + j*dimX*dimY)*dataSize ;
- if (lseek64(fd, pos , SEEK_SET) < 0)
- {
- printf("EED ReadMHDPlane::Read64lseek \n");
- fprintf(stderr, "Failed seeking to %lld, %s\n", pos, strerror(errno));
- exit(1);
- }
-
- pImage=newImage->GetScalarPointer(i, j,0 );
- if ((ret = read(fd, pImage , dataSize)) < 0)
- {
- fprintf(stderr, "Failed reading: %s\n", strerror(errno));
- exit(1);
- }
- }
- } // for j
- } // if PLANE YZ
- */
-
+ copy_YZ_plane(fd,newImage,slice+iWidth,iWidth,dimX,dimY,dimZ,dataSize);
+ }
+
+ } // if PLANE YZ
#if defined(_WIN32)
_close (fd);
#else
close (fd);
#endif // defined(_WIN32)
+ } else {
+ newImage=CreateDefaultImage();
+ } // if ffIn
+
+ bbSetOutputOut( newImage );
+}
- bbSetOutputOut( newImage );
- } // if
+void ReadMHDPlane::copy_YZ_plane(int fd,vtkImageData *newImage,int slice,int iWidth,int dimX,int dimY,int dimZ,int dataSize)
+{
+ long long int j;
+ long long int i;
+ long long ret;
+ long long pos;
+ long long sizeBytesPlane = dimX*dimY*dataSize;
+ char *pImage;
+ for (j=0;j<dimZ;j++)
+ {
+ for (i=0;i<dimY;i++)
+ {
+ pos = ((long long int)slice+iWidth + i*dimX + j*dimX*dimY)*dataSize ;
+#if defined(_WIN32)
+ if (_lseeki64( fd, pos , SEEK_SET ) < 0)
+#else
+ if (lseek64(fd, pos , SEEK_SET) < 0)
+#endif // defined(_WIN32)
+ {
+ printf("EED ReadMHDPlane::Read64lseek \n");
+ fprintf(stderr, "Failed seeking to %lld, %s\n", pos, strerror(errno));
+ exit(1);
+ }
+ pImage=(char*)(newImage->GetScalarPointer(i, dimZ-1-j,iWidth ));
+ if ((ret = read(fd, pImage , dataSize)) < 0)
+ {
+ fprintf(stderr, "Failed reading: %s\n", strerror(errno));
+ exit(1);
+ }
+ } // for i
+ } // for j
}
+void ReadMHDPlane::copy_XZ_plane(int fd,vtkImageData *newImage,int slice,int iWidth,int dimX,int dimY,int dimZ,int dataSize)
+{
+ long long int j;
+ long long ret;
+ long long pos;
+ pos = dimX*(long long int)slice*dataSize;
+ long long sizeBytesPlane = dimX*dimY*dataSize;
+ char *pImage = (char*)( newImage->GetScalarPointer(0,0,iWidth) );
+ for (j=dimZ-1;j>=0;j--)
+ {
+#if defined(_WIN32)
+ if (_lseeki64( fd, pos + j*sizeBytesPlane , SEEK_SET ) < 0)
+#else
+ if (lseek64(fd, pos + j*sizeBytesPlane , SEEK_SET) < 0)
+#endif // defined(_WIN32)
+ {
+ printf("EED ReadMHDPlane::Read64lseek \n");
+ fprintf(stderr, "Failed seeking to %lld, %s\n", pos, strerror(errno));
+ exit(1);
+ }
+
+ if ((ret = read(fd, pImage , dimX*dataSize)) < 0)
+ {
+ fprintf(stderr, "Failed reading: %s\n", strerror(errno));
+ exit(1);
+ }
+ pImage = pImage+dimX*dataSize;
+ } // for j
+}
+
+
+
void ReadMHDPlane::Process()
{
if (bbGetInputType()==0)
bbSetInputFileName("");
bbSetInputSlice(0);
bbSetInputType(1);
+ bbSetInputWidth(1);
bbSetInputDirectionPlane("XY");
}