Program: gdcm
Module: $RCSfile: gdcmDataEntry.cxx,v $
Language: C++
- Date: $Date: 2005/10/26 15:56:51 $
- Version: $Revision: 1.13 $
+ Date: $Date: 2007/09/28 14:16:09 $
+ Version: $Revision: 1.50 $
Copyright (c) CREATIS (Centre de Recherche et d'Applications en Traitement de
l'Image). All rights reserved. See Doc/License.txt or
#include <fstream>
-namespace gdcm
+#if defined(__BORLANDC__)
+ #include <mem.h> // for memcpy
+ #include <stdlib.h> // for atof
+ #include <ctype.h> // for isdigit
+#endif
+
+// Could be defined like MAX_SIZE_LOAD_ELEMENT_VALUE
+#define GDCM_MAX_LENGTH_TO_CONVERT_TO_HEXA 8
+
+namespace GDCM_NAME_SPACE
{
//-----------------------------------------------------------------------------
#define MAX_SIZE_PRINT_ELEMENT_VALUE 0x7fffffff
//-----------------------------------------------------------------------------
// Constructor / Destructor
/**
- * \brief Constructor for a given DictEntry
- * @param e Pointer to existing dictionary entry
+ * \brief Constructor for a given DataEntry
+ * @param group group number of the Data Entry to be created
+ * @param elem element number of the Data Entry to be created
+ * @param vr Value Representation of the Data Entry to be created
*/
-DataEntry::DataEntry(DictEntry *e)
- : DocEntry(e)
+DataEntry::DataEntry(uint16_t group,uint16_t elem,
+ VRKey const &vr)
+ : DocEntry(group,elem,vr)
{
State = STATE_LOADED;
Flag = FLAG_NONE;
- BinArea = 0;
- SelfArea = true;
+ StrArea = 0;
+ StrHexaArea = 0;
+ BinArea = 0;
+ SelfArea = true;
}
/**
* @param e Pointer to existing Doc entry
*/
DataEntry::DataEntry(DocEntry *e)
- : DocEntry(e->GetDictEntry())
+ //: DocEntry(e->GetDictEntry())
+ : DocEntry(e->GetGroup(),e->GetElement(), e->GetVR() )
{
Flag = FLAG_NONE;
BinArea = 0;
+
SelfArea = true;
Copy(e);
DataEntry::~DataEntry ()
{
DeleteBinArea();
+
}
-//-----------------------------------------------------------------------------
-// Print
-
//-----------------------------------------------------------------------------
// Public
/**
- * \brief Sets the value (non string) of the current Dicom Header Entry
+ * \brief Sets the value (non string) of the current DataEntry
+ * @param area area
+ * @param self self=true : The area : *belongs" to the DataEntry
+ * : will be delete with the DataEntry
+ * self=false The area *is not* deleted with the DataEntry
+ *
*/
void DataEntry::SetBinArea( uint8_t *area, bool self )
{
State = STATE_LOADED;
}
/**
- * \brief Inserts the value (non string) into the current Dicom Header Entry
+ * \brief Inserts the value (non string) into the current DataEntry
+ * @param area area
+ * @param length length
*/
void DataEntry::CopyBinArea( uint8_t *area, uint32_t length )
{
NewBinArea();
memcpy(BinArea,area,length);
if( length!=lgh )
- BinArea[length]=0;
+ BinArea[length]=0; // padd with zero
State = STATE_LOADED;
}
}
+/**
+ * \brief Inserts the elementary (non string) value into the current DataEntry
+ * @param id index of the elementary value to be set
+ * @param val value, passed as a double
+ */
void DataEntry::SetValue(const uint32_t &id, const double &val)
{
if( !BinArea )
if( id > GetValueCount() )
{
- gdcmErrorMacro("Index (" << id << ")is greater than the data size");
+ gdcmErrorMacro("Index (" << id << ") is greater than the data size");
return;
}
}
}
/**
- * \brief returns, as a double (?!?) one of the values
- // (when entry is multivaluated), identified by its index.
- // Returns 0.0 if index is wrong
- // FIXME : warn the user there was a problem !
+ * \brief returns, as a double one of the values
+ * (when entry is multivaluated), identified by its index.
+ * Returns 0.0 if index is wrong
+ * @param id id
*/
double DataEntry::GetValue(const uint32_t &id) const
{
if( !BinArea )
{
- gdcmErrorMacro("BinArea not set. Can't get the value");
+ if (GetLength() != 0) // avoid stupid messages
+ /// \todo warn the user there was a problem !
+ gdcmErrorMacro("BinArea not set " << std::hex
+ << GetGroup() << " " << GetElement()
+ << " Can't get the value");
return 0.0;
}
uint32_t count = GetValueCount();
if( id > count )
{
- gdcmErrorMacro("Index (" << id << ")is greater than the data size");
+ gdcmErrorMacro("Index (" << id << ") is greater than the data size");
return 0.0;
}
- // FIX the API : user *knows* that entry contains a US
- // and he receives a double ?!?
+ // if user *knows* that entry contains a US,
+ // he just has to cast the double he receives
const VRKey &vr = GetVR();
+
if( vr == "US" || vr == "SS" )
return ((uint16_t *)BinArea)[id];
else if( vr == "UL" || vr == "SL" )
return ((double *)BinArea)[id];
else if( Global::GetVR()->IsVROfStringRepresentable(vr) )
{
+ // this is for VR = "DS", ...
if( GetLength() )
{
// Don't use std::string to accelerate processing
/**
* \brief Checks if the multiplicity of the value follows Dictionary VM
*/
-bool DataEntry::IsValueCountValid() const
+bool DataEntry::IsValueCountValid() /*const*/
{
- bool valid;
uint32_t vm;
const std::string &strVM = GetVM();
uint32_t vc = GetValueCount();
+ bool valid = vc == 0;
+ if( valid )
+ return true;
// FIXME : what shall we do with VM = "2-n", "3-n", etc
if( strVM == "1-n" )
{
- // make sure it is at least one ??? FIXME
- valid = vc >= 1 || vc == 0;
+ // make sure there is at least one ??? FIXME
+ valid = vc >= 1;
}
else
{
os.str( strVM );
os >> vm;
// Two cases:
- // vm respect the one from the dict
+ // vm respects the one from the dict
// vm is 0 (we need to check if this element is allowed to be empty) FIXME
// note (JPR)
// Problem : entry type may depend on the modality and/or the Sequence
// it's embedded in !
// (Get the information in the 'Conformance Statements' ...)
- valid = vc == vm || vc == 0;
+ valid = vc == vm;
}
return valid;
}
return GetLength()/sizeof(uint16_t);
else if( vr == "UL" || vr == "SL" )
return GetLength()/sizeof(uint32_t);
- else if( vr == "FL" )
- return GetLength()/sizeof(float);
+ else if( vr == "FL" || vr == "OF" )
+ return GetLength()/4 ; // FL has a *4* length! sizeof(float);
else if( vr == "FD" )
- return GetLength()/sizeof(double);
+ return GetLength()/8; // FD has a *8* length! sizeof(double);
else if( Global::GetVR()->IsVROfStringRepresentable(vr) )
{
// Some element in DICOM are allowed to be empty
- if( !GetLength() ) return 0;
+ if( !GetLength() )
+ return 0;
// Don't use std::string to accelerate processing
uint32_t count = 1;
for(uint32_t i=0;i<GetLength();i++)
}
return count;
}
-
return GetLength();
}
+
/**
- * \brief Sets the 'value' of an Entry, passed as a std::string
+ * \brief Gets a std::vector of 'double' holding the value(s) of a DS DataEntry
+ * @param valueVector std::vector double of value(s)
+ * \return false if VR not "DS" or DataEntry empty
+ */
+ bool DataEntry::GetDSValue(std::vector <double> &valueVector)
+ {
+ /// \todo rewrite the whole method, in order *not to use* std::string !
+ std::vector<std::string> tokens;
+
+ if (GetVR() != "DS") // never trust a user !
+ return false;
+
+ Util::Tokenize ( GetString().c_str(), tokens, "\\" );
+
+ int nbValues= tokens.size();
+ if (nbValues == 0)
+ return false;
+
+ for (int loop=0; loop<nbValues; loop++)
+ valueVector.push_back(atof(tokens[loop].c_str()));
+
+ return true;
+ }
+
+/**
+ * \brief Sets the 'value' of a DataEntry, passed as a std::string
* @param value string representation of the value to be set
*/
void DataEntry::SetString(std::string const &value)
{
DeleteBinArea();
-
const VRKey &vr = GetVR();
if ( vr == "US" || vr == "SS" )
{
tokens.clear();
}
else
- {
- if( value.size() > 0 )
- {
- // FIXME : should be quicker if we don't create one more std::string
- // just to make even the length of a char array ...
-
- /*
- std::string finalVal = Util::DicomString( value.c_str() );
- SetLength(finalVal.size());
- NewBinArea();
-
- memcpy(BinArea, &(finalVal[0]), finalVal.size());
- */
-
- size_t l = value.size();
- SetLength(l + l%2);
- NewBinArea();
- //memcpy(BinArea, &(value[0]), l);
- memcpy(BinArea, value.c_str(), l);
- if (l%2)
+ {
+ size_t l = value.size();
+ SetLength(l + l%2);
+ NewBinArea();
+ memcpy(BinArea, value.c_str(), l);
+ if (l%2) // padded with blank except for UI
+ if ( vr == "UI" )
BinArea[l] = '\0';
- }
+ else
+ BinArea[l] = ' ';
}
State = STATE_LOADED;
}
*/
std::string const &DataEntry::GetString() const
{
- static std::ostringstream s;
- const VRKey &vr = GetVR();
-
- s.str("");
- StrArea="";
-
- if( !BinArea )
- return StrArea;
-
- // When short integer(s) are stored, convert the following (n * 2) characters
- // as a displayable string, the values being separated by a back-slash
-
- if( vr == "US" || vr == "SS" )
- {
- uint16_t *data=(uint16_t *)BinArea;
-
- for (unsigned int i=0; i < GetValueCount(); i++)
- {
- if( i!=0 )
- s << '\\';
- s << data[i];
- }
- StrArea=s.str();
+ static std::ostringstream s;
+ const VRKey &vr = GetVR();
+ s.str("");
+
+ if (!StrArea)
+ StrArea = new std::string();
+ else
+ *StrArea="";
+
+ if( !BinArea )
+ return *StrArea;
+ // When short integer(s) are stored, convert the following (n * 2) characters
+ // as a displayable string, the values being separated by a back-slash
+ if( vr == "US" )
+ {
+ uint16_t *data=(uint16_t *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ if( i!=0 )
+ s << '\\';
+ s << data[i];
+ }
+ *StrArea=s.str();
+ }
+ else if (vr == "SS" )
+ {
+ int16_t *data=(int16_t *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ if( i!=0 )
+ s << '\\';
+ s << data[i];
+ }
+ *StrArea=s.str();
+ } // See above comment on multiple short integers (mutatis mutandis).
+ else if( vr == "UL" )
+ {
+ uint32_t *data=(uint32_t *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ if( i!=0 )
+ s << '\\';
+ s << data[i];
+ }
+ *StrArea=s.str();
+ }
+ else if( vr == "SL" )
+ {
+ int32_t *data=(int32_t *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ if( i!=0 )
+ s << '\\';
+ s << data[i];
+ }
+ *StrArea=s.str();
+ } // See above comment on multiple short integers (mutatis mutandis).
+ else if( vr == "FL" )
+ {
+ float *data=(float *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ if( i!=0 )
+ s << '\\';
+ s << data[i];
+ }
+ *StrArea=s.str();
+ } // See above comment on multiple short integers (mutatis mutandis).
+ else if( vr == "FD" )
+ {
+ double *data=(double *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ if( i!=0 )
+ s << '\\';
+ s << data[i];
+ }
+ *StrArea=s.str();
+ }
+ else
+ {
+ StrArea->append((const char *)BinArea,GetLength());
+ // to avoid gdcm to propagate oddities in lengthes
+ if ( GetLength()%2)
+ StrArea->append(" ",1);
}
- // See above comment on multiple short integers (mutatis mutandis).
- else if( vr == "UL" || vr == "SL" )
- {
- uint32_t *data=(uint32_t *)BinArea;
+ return *StrArea;
+}
- for (unsigned int i=0; i < GetValueCount(); i++)
- {
+/**
+ * \brief returns an hexadecimal representation of the DataEntry value
+ */
+std::string const &DataEntry::GetHexaRepresentation() const
+{
+ static std::ostringstream s2;
+ const VRKey &vr = GetVR();
+
+ s2.str("");
+ if (!StrHexaArea)
+ StrHexaArea = new std::string();
+ else
+ *StrHexaArea="";
+ if( !BinArea )
+ return *StrHexaArea;
+ // When short integer(s) are stored, convert the following (n * 2) characters
+ // as a displayable string, the values being separated by a back-slash
+ s2 << std::hex;
+
+ if( vr == "US" )
+ {
+ uint16_t *data=(uint16_t *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ s2 << std::setw( 2 ) << std::setfill( '0' );
+ if( i!=0 )
+ s2 << '\\';
+ s2 << data[i];
+ }
+ *StrHexaArea=s2.str();
+ }
+ else if (vr == "SS" )
+ {
+ int16_t *data=(int16_t *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ s2 << std::setw( 4 ) << std::setfill( '0' );
+ if( i!=0 )
+ s2 << '\\';
+ s2 << data[i];
+ }
+ *StrHexaArea=s2.str();
+ } // See above comment on multiple short integers (mutatis mutandis).
+ else if( vr == "UL" )
+ {
+ uint32_t *data=(uint32_t *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ s2 << std::setw( 4 ) << std::setfill( '0' );
+ if( i!=0 )
+ s2 << '\\';
+ s2 << data[i];
+ }
+ *StrHexaArea=s2.str();
+ }
+ else if( vr == "SL" )
+ {
+ int32_t *data=(int32_t *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ s2 << std::setw( 4 ) << std::setfill( '0' );
if( i!=0 )
- s << '\\';
- s << data[i];
- }
- StrArea=s.str();
- }
- else if( vr == "FL" )
- {
- float *data=(float *)BinArea;
-
- for (unsigned int i=0; i < GetValueCount(); i++)
- {
+ s2 << '\\';
+ s2 << data[i];
+ }
+ *StrHexaArea=s2.str();
+ } else if( vr == "FL" )
+ {
+ float *data=(float *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ s2 << std::setw( 4 ) << std::setfill( '0' );
if( i!=0 )
- s << '\\';
- s << data[i];
- }
- StrArea=s.str();
- }
- else if( vr == "FD" )
- {
- double *data=(double *)BinArea;
-
- for (unsigned int i=0; i < GetValueCount(); i++)
- {
+ s2 << '\\';
+ s2 << data[i];
+ }
+ *StrHexaArea=s2.str();
+ }
+ else if( vr == "FD" )
+ {
+ double *data=(double *)BinArea;
+ for (unsigned int i=0; i < GetValueCount(); i++)
+ {
+ s2 << std::setw( 8 ) << std::setfill( '0' );
if( i!=0 )
- s << '\\';
- s << data[i];
- }
- StrArea=s.str();
+ s2 << '\\';
+ s2 << data[i];
+ }
+ *StrHexaArea=s2.str();
+ }
+ else
+ {
+ unsigned int l = (Length > GDCM_MAX_LENGTH_TO_CONVERT_TO_HEXA) ? GDCM_MAX_LENGTH_TO_CONVERT_TO_HEXA : Length;
+ uint8_t *data=(uint8_t *)BinArea;
+ for (unsigned int i=0; i < l; i++)
+ {
+ if( i!=0 )
+ s2 << '\\';
+ s2 << std::setw( 2 ) << (int)(data[i]);
+ }
+ if (Length > 16)
+ s2 << "\\...";
+ *StrHexaArea=s2.str();
}
- else
- StrArea.append((const char *)BinArea,GetLength());
-
- return StrArea;
+ return *StrHexaArea;
}
+
/**
- * \brief Copies all the attributes from an other DocEntry
+ * \brief Copies all the attributes from an other DocEntry
* @param doc entry to copy from
+ * @remarks The content BinArea is copied too (StrArea is not)
*/
void DataEntry::Copy(DocEntry *doc)
{
{
State = entry->State;
Flag = entry->Flag;
- CopyBinArea(entry->BinArea,entry->GetLength());
+ CopyBinArea(entry->BinArea,entry->GetLength());
}
}
+
/**
- * \brief Writes the value of a DataEntry
+ * \brief Writes the 'common part' + the 'value' area of a DataEntry
* @param fp already open ofstream pointer
* @param filetype type of the file (ACR, ImplicitVR, ExplicitVR, ...)
*/
-void DataEntry::WriteContent(std::ofstream *fp, FileType filetype)
+void DataEntry::WriteContent(std::ofstream *fp, FileType filetype,
+ bool insideMetaElements, bool insideSequence)
{
- DocEntry::WriteContent(fp, filetype);
+ // writes the 'common part'
+ DocEntry::WriteContent(fp, filetype, insideMetaElements, insideSequence);
if ( GetGroup() == 0xfffe )
{
return; //delimitors have NO value
}
-
- uint8_t *binArea8 = BinArea; //safe notation
- size_t lgr = GetLength();
- if (BinArea) // the binArea was *actually* loaded
- {
-
- // The same operation should be done if we wanted
- // to write image with Big Endian Transfer Syntax,
- // while working on Little Endian Processor
+
+ // --> We only deal with Little Endian writting.
// --> forget Big Endian Transfer Syntax writting!
// Next DICOM version will give it up ...
-
- // --> FIXME
- // The stuff looks nice, but it's probably bugged,
- // since troubles occur on big endian processors (SunSparc, Motorola)
- // while reading the pixels of a
- // gdcm-written Little-Endian 16 bits per pixel image
-
+
+ // WARNING - For Implicit VR private element,
+ // we have *no choice* but considering them as
+ // something like 'OB' values.
+ // we rewrite them as we found them on disc.
+ // Some trouble will occur if element was
+ // *actually* OW, if image was produced
+ // on Big endian based processor, read and writen
+ // on Little endian based processor
+ // and, later on, somebody needs
+ // this 'OW' Implicit VR private element (?!?)
+ // (Same stuff, mutatis mutandis, for Little/Big)
+
+ // 8/16 bits Pixels problem should be solved automatiquely,
+ // since we ensure the VR (OB vs OW) is conform to Pixel size.
+
+ uint8_t *data = BinArea; //safe notation
+ size_t l = GetLength();
+// gdcmDebugMacro("in DataEntry::WriteContent " << GetKey() << " AtomicLength: "
+// << Global::GetVR()->GetAtomicElementLength(this->GetVR() ) // << " BinArea in :" << &BinArea
+// );
+ if (BinArea) // the binArea was *actually* loaded
+ {
#if defined(GDCM_WORDS_BIGENDIAN) || defined(GDCM_FORCE_BIGENDIAN_EMULATION)
-
- /// \todo FIXME : Right now, we only care of Pixels element
- /// we should deal with *all* the BinEntries
- /// Well, not really since we are not interpreting values read...
-
- // 8 Bits Pixels *are* OB, 16 Bits Pixels *are* OW
- // -value forced while Reading process-
-
- // --> WARNING
- // --> the following lines *looked* very clever,
- // --> but they don't work on big endian processors.
- // --> since I've no access for the moment to a big endian proc :-(
- // --> I comment them out, to see the result on the dash board
- // -->
-
- // --> Revert to initial code : TestWriteSimple hangs on Darwin :-(
- if (GetGroup() == 0x7fe0 && GetVR() == "OW")
- {
- uint16_t *binArea16 = (uint16_t*)binArea8;
- binary_write (*fp, binArea16, lgr );
- }
- else
- {
- // For any other VR, DataEntry is re-written as-is
- binary_write (*fp, binArea8, lgr );
+ unsigned short vrLgth =
+ Global::GetVR()->GetAtomicElementLength(this->GetVR());
+ unsigned int i;
+ switch(vrLgth)
+ {
+ case 1:
+ {
+ binary_write (*fp, data, l );
+ break;
+ }
+ case 2:
+ {
+ uint16_t *data16 = (uint16_t *)data;
+ for(i=0;i<l/vrLgth;i++)
+ binary_write( *fp, data16[i]);
+ break;
+ }
+ case 4:
+ {
+ uint32_t *data32 = (uint32_t *)data;
+ for(i=0;i<l/vrLgth;i++)
+ binary_write( *fp, data32[i]);
+ break;
+ }
+ case 8:
+ {
+ double *data64 = (double *)data;
+ for(i=0;i<l/vrLgth;i++)
+ binary_write( *fp, data64[i]);
+ break;
+ }
}
-
- // --> WARNING
- // --> remove the following line, an uncomment the previous ones,
- // --> if it doesn't work better
- // -->
- /*binary_write ( *fp, binArea8, lgr ); // Elem value*/
-
#else
- binary_write ( *fp, binArea8, lgr ); // Elem value
+ binary_write (*fp, data, l );
#endif //GDCM_WORDS_BIGENDIAN
+
}
else
{
- // nothing was loaded, but we need to skip space on disc
-
+ // nothing was loaded, but we need to skip space on disc
+ if (l != 0)
+ {
// --> WARNING : nothing is written;
// --> the initial data (on the the source image) is lost
- // --> user is *not* informed !
-
- fp->seekp(lgr, std::ios::cur);
+ // --> user is *not* informed !
+ gdcmDebugMacro ("Nothing was loaded, but we need to skip space on disc. "
+ << "Length =" << l << " for " << GetKey() );
+ fp->seekp(l, std::ios::cur); // At Write time, for unloaded elems
+ }
}
+ // to avoid gdcm to propagate oddities
+ // (length was already modified)
+ if (l%2)
+ fp->seekp(1, std::ios::cur); // At Write time, for non even length elems
+}
+
+/**
+ * \brief Compute the full length of the elementary DataEntry (not only value
+ * length) depending on the VR.
+ */
+uint32_t DataEntry::ComputeFullLength()
+{
+ return GetFullLength();
}
//-----------------------------------------------------------------------------
// Protected
-void DataEntry::NewBinArea(void)
+
+/// \brief Creates a DataEntry owned BinArea
+/// (remove previous one if any and relevant StrArea if any)
+void DataEntry::NewBinArea( )
{
DeleteBinArea();
if( GetLength() > 0 )
BinArea = new uint8_t[GetLength()];
SelfArea = true;
}
-
+/// \brief Removes the BinArea, if owned by the DataEntry,
+/// and the relevant StrArea if any
void DataEntry::DeleteBinArea(void)
{
if (BinArea && SelfArea)
delete[] BinArea;
BinArea = NULL;
}
+ if (StrArea)
+ {
+ delete StrArea;
+ StrArea = 0;
+ }
+ if (StrArea)
+ {
+ delete StrHexaArea;
+ StrHexaArea = 0;
+ }
}
//-----------------------------------------------------------------------------
*/
void DataEntry::Print(std::ostream &os, std::string const & )
{
- os << "D ";
+ //os << "D ";
+
+ // First, Print the common part (vr [length offset] name).
DocEntry::Print(os);
uint16_t g = GetGroup();
v = GetString();
const VRKey &vr = GetVR();
- if( vr == "US" || vr == "SS" )
- s << " [" << GetString() << "]";
- else if( vr == "UL" || vr == "SL" )
- s << " [" << GetString() << "]";
- else if ( vr == "FL" )
- s << " [" << GetString() << "]";
- else if ( vr == "FD" )
- s << " [" << GetString() << "]";
+ if( vr == "US" || vr == "SS" || vr == "UL" || vr == "SL"
+ || vr == "FL" || vr == "FD")
+ s << " [" << GetString() << "] =0x(" << GetHexaRepresentation() << ")";
else
{
if(Global::GetVR()->IsVROfStringRepresentable(vr))
}
else
{
- s << " [gdcm::too long for print (" << cleanString.length() << ") ]";
+ s << " [GDCM_NAME_SPACE::too long for print (" << cleanString.length() << ") ]";
}
}
else
else
{
s << " [" << GDCM_BINLOADED << ";"
- << "length = " << GetLength() << "]";
+ << "length = " << GetLength() << "] =0x(" << GetHexaRepresentation() << ")";
}
}
}