-// Copyright (C) 2005 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
+// Copyright (C) 2007-2014 CEA/DEN, EDF R&D, OPEN CASCADE
+//
+// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
-//
+//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
-// License as published by the Free Software Foundation; either
-// version 2.1 of the License.
-//
-// This library 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
+// License as published by the Free Software Foundation; either
+// version 2.1 of the License, or (at your option) any later version.
+//
+// This library 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
// Lesser General Public License for more details.
//
-// You should have received a copy of the GNU Lesser General Public
-// License along with this library; if not, write to the Free Software
+// You should have received a copy of the GNU Lesser General Public
+// License along with this library; if not, write to the Free Software
// Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
//
// See http://www.salome-platform.org/ or email : webmaster.salome@opencascade.com
//
+
// File : SALOMEDSImpl_StudyManager.cxx
// Author : Sergey RUIN
// Module : SALOME
-
+//
#include "SALOMEDSImpl_StudyManager.hxx"
#include "DF_ChildIterator.hxx"
#include "HDFexplorer.hxx"
+#include "Basics_Utils.hxx"
+
+//Warning undef of Ascii Winwows define
+#ifdef WIN32
+# undef GetUserName
+#endif
#include "SALOMEDSImpl_Attributes.hxx"
#include "SALOMEDSImpl_Tool.hxx"
#include "SALOMEDSImpl_SComponent.hxx"
#include "SALOMEDSImpl_GenericAttribute.hxx"
+#include "SALOMEDSImpl_ScalarVariable.hxx"
+#include "SALOMEDSImpl_IParameters.hxx"
#include <map>
#include "HDFOI.hxx"
#include <iostream>
#include <stdlib.h>
-
-using namespace std;
+#include <string.h>
#define USE_CASE_LABEL_ID "0:2"
static void ReadAttributes(SALOMEDSImpl_Study*, const SALOMEDSImpl_SObject&, HDFdataset* );
static void BuildTree (SALOMEDSImpl_Study*, HDFgroup*);
static void Translate_IOR_to_persistentID (const SALOMEDSImpl_SObject&,
- SALOMEDSImpl_Driver*, bool isMultiFile, bool isASCII);
+ SALOMEDSImpl_Driver*, bool isMultiFile, bool isASCII);
+static void ReadNoteBookVariables(SALOMEDSImpl_Study* theStudy, HDFgroup* theGroup);
+
+namespace {
+ class StudyUnlocker
+ {
+ public:
+ StudyUnlocker( SALOMEDSImpl_Study* study ): myStudy( study ), myLocked( false )
+ {
+ myPrevLocked = myStudy->GetProperties()->IsLocked();
+ resume();
+ }
+ ~StudyUnlocker()
+ {
+ suspend();
+ }
+ void suspend()
+ {
+ if (myLocked) {
+ myStudy->GetProperties()->SetLocked(true);
+ myPrevLocked = myLocked;
+ myLocked = false;
+ }
+ }
+ void resume()
+ {
+ if (myPrevLocked) {
+ myStudy->GetProperties()->SetLocked(false);
+ myLocked = myPrevLocked;
+ myPrevLocked = false;
+ }
+ }
+ private:
+ SALOMEDSImpl_Study* myStudy;
+ bool myLocked;
+ bool myPrevLocked;
+ };
+}
//============================================================================
/*! Function : SALOMEDSImpl_StudyManager
//============================================================================
SALOMEDSImpl_StudyManager::~SALOMEDSImpl_StudyManager()
{
+ _appli->Close(_clipboard);
// Destroy application
delete _appli;
}
* Purpose : Create a New Study of name study_name
*/
//==================================================T==========================
-SALOMEDSImpl_Study* SALOMEDSImpl_StudyManager::NewStudy(const string& study_name)
+SALOMEDSImpl_Study* SALOMEDSImpl_StudyManager::NewStudy(const std::string& study_name)
{
_errorCode = "";
* Purpose : Open a Study from it's persistent reference
*/
//============================================================================
-SALOMEDSImpl_Study* SALOMEDSImpl_StudyManager::Open(const string& aUrl)
+SALOMEDSImpl_Study* SALOMEDSImpl_StudyManager::Open(const std::string& aUrl)
{
+ // Set "C" locale temporarily to avoid possible localization problems
+ Kernel_Utils::Localizer loc;
+
_errorCode = "";
// open the HDFFile
HDFfile *hdf_file =0;
HDFgroup *hdf_group_study_structure =0;
+ HDFgroup *hdf_notebook_vars = 0;
char* aC_HDFUrl;
- string aHDFUrl;
+ std::string aHDFUrl;
bool isASCII = false;
if (HDFascii::isASCII(aUrl.c_str())) {
isASCII = true;
char* aResultPath = HDFascii::ConvertFromASCIIToHDF(aUrl.c_str());
+ if ( !aResultPath )
+ return NULL;
aC_HDFUrl = new char[strlen(aResultPath) + 19];
sprintf(aC_HDFUrl, "%shdf_from_ascii.hdf", aResultPath);
- delete(aResultPath);
+ delete [] (aResultPath);
aHDFUrl = aC_HDFUrl;
- delete aC_HDFUrl;
+ delete [] aC_HDFUrl;
} else {
aHDFUrl = aUrl;
}
hdf_file->OpenOnDisk(HDF_RDONLY);// mpv: was RDWR, but opened file can be write-protected too
}
catch (HDFexception)
- {
-//#ifndef WNT
-// char eStr[strlen(aUrl.ToCString())+17];
-//#else
- char *eStr;
- eStr = new char[strlen(aUrl.c_str())+17];
-//#endif
- sprintf(eStr,"Can't open file %s",aUrl.c_str());
-//#ifdef WNT
- delete [] eStr;
-//#endif
- _errorCode = string(eStr);
- return NULL;
- }
-
+ {
+ char *eStr;
+ eStr = new char[strlen(aUrl.c_str())+17];
+ sprintf(eStr,"Can't open file %s",aUrl.c_str());
+ delete [] eStr;
+ _errorCode = std::string(eStr);
+ return NULL;
+ }
+
// Temporary aStudyUrl in place of study name
DF_Document* Doc = _appli->NewDocument("SALOME_STUDY");
BuildTree (Study, hdf_group_study_structure);
}
catch (HDFexception)
- {
-//#ifndef WNT
-// char eStr[strlen(aUrl.ToCString())+17];
-//#else
- char *eStr = new char [strlen(aUrl.c_str())+17];
-//#endif
- sprintf(eStr,"Can't open file %s", aUrl.c_str());
- _errorCode = string(eStr);
- return NULL;
- }
+ {
+ char *eStr = new char [strlen(aUrl.c_str())+17];
+ sprintf(eStr,"Can't open file %s", aUrl.c_str());
+ _errorCode = std::string(eStr);
+ return NULL;
+ }
+
+ //Read and create notebook variables
+ if(hdf_file->ExistInternalObject("NOTEBOOK_VARIABLES")) {
+ hdf_notebook_vars = new HDFgroup("NOTEBOOK_VARIABLES",hdf_file);
+ ReadNoteBookVariables(Study,hdf_notebook_vars);
+ hdf_notebook_vars =0; //will be deleted by hdf_sco_group destructor
+ }
hdf_file->CloseOnDisk();
-
+ hdf_group_study_structure = new HDFgroup("STUDY_STRUCTURE",hdf_file);
+
if (isASCII) {
- vector<string> aFilesToRemove;
+ std::vector<std::string> aFilesToRemove;
aFilesToRemove.push_back("hdf_from_ascii.hdf");
SALOMEDSImpl_Tool::RemoveTemporaryFiles(SALOMEDSImpl_Tool::GetDirFromPath(aHDFUrl), aFilesToRemove, true);
}
delete hdf_file; // all related hdf objects will be deleted
+ // unlock study if it is locked, to set components versions
+ StudyUnlocker unlock(Study);
+
+ //For old studies we have to add "unknown" version tag for all stored components
+ SALOMEDSImpl_SComponentIterator itcomponent = Study->NewComponentIterator();
+ for (; itcomponent.More(); itcomponent.Next())
+ {
+ SALOMEDSImpl_SComponent sco = itcomponent.Value();
+ std::string aCompType = sco.GetComment();
+ if ( aCompType == SALOMEDSImpl_IParameters::getDefaultVisualComponent() ) continue;
+ if ( Study->GetProperties()->GetComponentVersions( aCompType ).empty() )
+ Study->GetProperties()->SetComponentVersion( aCompType, "" ); // empty version means "unknown"
+ }
+
return Study;
}
}
aStudy->Close();
+ DF_Document* doc=aStudy->GetDocument();
+ _appli->Close(doc);
}
//============================================================================
*/
//============================================================================
bool SALOMEDSImpl_StudyManager::Save(SALOMEDSImpl_Study* aStudy,
- SALOMEDSImpl_DriverFactory* aFactory,
- bool theMultiFile)
+ SALOMEDSImpl_DriverFactory* aFactory,
+ bool theMultiFile)
{
_errorCode = "";
- string url = aStudy->URL();
+ std::string url = aStudy->URL();
if (url.empty()) {
_errorCode = "No path specified to save the study. Nothing done";
return false;
}
bool SALOMEDSImpl_StudyManager::SaveASCII(SALOMEDSImpl_Study* aStudy,
- SALOMEDSImpl_DriverFactory* aFactory,
- bool theMultiFile)
+ SALOMEDSImpl_DriverFactory* aFactory,
+ bool theMultiFile)
{
_errorCode = "";
- string url = aStudy->URL();
+ std::string url = aStudy->URL();
if (url.empty()) {
_errorCode = "No path specified to save the study. Nothing done";
return false;
* Purpose : Save a study to the persistent reference aUrl
*/
//============================================================================
-bool SALOMEDSImpl_StudyManager::SaveAs(const string& aUrl,
- SALOMEDSImpl_Study* aStudy,
- SALOMEDSImpl_DriverFactory* aFactory,
- bool theMultiFile)
+bool SALOMEDSImpl_StudyManager::SaveAs(const std::string& aUrl,
+ SALOMEDSImpl_Study* aStudy,
+ SALOMEDSImpl_DriverFactory* aFactory,
+ bool theMultiFile)
{
_errorCode = "";
return Impl_SaveAs(aUrl,aStudy, aFactory, theMultiFile, false);
}
-bool SALOMEDSImpl_StudyManager::SaveAsASCII(const string& aUrl,
- SALOMEDSImpl_Study* aStudy,
- SALOMEDSImpl_DriverFactory* aFactory,
- bool theMultiFile)
+bool SALOMEDSImpl_StudyManager::SaveAsASCII(const std::string& aUrl,
+ SALOMEDSImpl_Study* aStudy,
+ SALOMEDSImpl_DriverFactory* aFactory,
+ bool theMultiFile)
{
_errorCode = "";
return Impl_SaveAs(aUrl,aStudy, aFactory, theMultiFile, true);
* Purpose : Get name list of open studies in the session
*/
//============================================================================
-vector<SALOMEDSImpl_Study*> SALOMEDSImpl_StudyManager::GetOpenStudies()
+std::vector<SALOMEDSImpl_Study*> SALOMEDSImpl_StudyManager::GetOpenStudies()
{
_errorCode = "";
- vector<SALOMEDSImpl_Study*> aList;
+ std::vector<SALOMEDSImpl_Study*> aList;
int nbDocs = _appli->NbDocuments();
}
else {
SALOMEDSImpl_Study* aStudy;
- vector<int> ids = _appli->GetDocumentIDs();
+ std::vector<int> ids = _appli->GetDocumentIDs();
for (int i = 0, len = ids.size(); i<len; i++) {
DF_Document* D = _appli->GetDocument(ids[i]);
if(D == _clipboard) continue;
*/
//============================================================================
SALOMEDSImpl_Study* SALOMEDSImpl_StudyManager::GetStudyByName
- (const string& aStudyName)
+ (const std::string& aStudyName)
{
_errorCode = "";
int nbDocs = _appli->NbDocuments();
return NULL;
}
else {
- vector<SALOMEDSImpl_Study*> studies = GetOpenStudies();
+ std::vector<SALOMEDSImpl_Study*> studies = GetOpenStudies();
for (int i = 0, len = studies.size(); i<len; i++) {
if (studies[i]->Name() == aStudyName) return studies[i];
}
}
- _errorCode = string("Found no study with the name ") + aStudyName;
+ _errorCode = std::string("Found no study with the name ") + aStudyName;
return NULL;
}
return NULL;
}
else {
- vector<SALOMEDSImpl_Study*> studies = GetOpenStudies();
+ std::vector<SALOMEDSImpl_Study*> studies = GetOpenStudies();
for (int i = 0, len = studies.size(); i<len; i++) {
if (studies[i]->StudyId() == aStudyID) return studies[i];
}
// add modifications list (user and date of save)
SALOMEDSImpl_AttributeStudyProperties* aProp = aStudy->GetProperties();
- int aLocked = aProp->IsLocked();
- if (aLocked) aProp->SetLocked(false);
+ // unlock study if it is locked, to set modification date
+ StudyUnlocker unlock(aStudy);
+
int month=0,day=0,year=0,hh=0,mn=0,ss=0;
SALOMEDSImpl_Tool::GetSystemDate(year, month, day, hh, mn, ss);
aProp->SetModification(SALOMEDSImpl_Tool::GetUserName(),
- mn, hh, day, month, year);
-
- if (aLocked) aProp->SetLocked(true);
+ mn, hh, day, month, year);
+
+ // lock study back if it was locked initially, to write correct value of Locked flag
+ unlock.suspend();
- vector<string> aNames;
- vector<int> aMinutes, aHours, aDays, aMonths, aYears;
+ std::vector<std::string> aNames;
+ std::vector<int> aMinutes, aHours, aDays, aMonths, aYears;
aProp->GetModifications(aNames, aMinutes, aHours, aDays, aMonths, aYears);
- int aLength = 0, anIndex, i;
+ std::string units = aProp->GetUnits();
+ std::string comment = aProp->GetComment();
+
+ std::map< std::string, std::vector<std::string> > allVersions = aProp->GetComponentsVersions();
+ std::map<std::string, std::string> versions;
+
+ int aLength = 0, aLength1 = 0, anIndex, i, unitsSize = 0, commentSize = 0;
+
for(i=1; i<=aNames.size(); i++)
aLength += aNames[i-1].size() + 1;
- //string length: 1 byte = locked flag, 1 byte = modified flag, (12 + name length + 1) for each name and date, "zero" byte
- char* aProperty = new char[3 + aLength + 12 * aNames.size()];
+ std::map< std::string, std::vector<std::string> >::const_iterator it;
+ for (it = allVersions.begin(); it != allVersions.end(); ++it ) {
+ std::string vlist = "";
+ std::vector<std::string> vl = it->second;
+ std::vector<std::string>::const_iterator vlit;
+ for ( vlit = vl.begin(); vlit != vl.end(); ++vlit ) {
+ if ( vlist != "" ) vlist += ";";
+ vlist += *vlit;
+ }
+ versions[ it->first ] = vlist;
+ aLength1 += it->first.size() + vlist.size() + 2;
+ }
+ unitsSize = units.size();
+ commentSize = comment.size();
+
+ //string format:
+ //locked flag, modified flag,
+ //minutes, hours, day, months, year, user name, char(1),
+ //minutes, hours, day, months, year, user name, char(1),
+ //.....................................................,
+ //.....................................................,
+ //.....................................................,
+ //minutes, hours, day, months, year, user name, char(1), char(30) <- !!!! used to define end of section with modifications !!!!
+ //units, char(1), comment, char(30) <- !!!! used to define start of section with components' versions !!!!
+ //component=versions, char(1),
+ //component=versions, char(1),
+ //...........................,
+ //component=versions, char(1), char(0)
+
+ //string length: 1 byte = locked flag, 1 byte = modified flag, (12 + name length + 1) for each name and date, 1 byte (char(30) section delimeter)
+ // unit length + 1, comment length, "zero" byte
+
+ char* aProperty = new char[3 + aLength + 12 * aNames.size() + 1 + unitsSize + 1 + commentSize + 1 + aLength1 ];
sprintf(aProperty,"%c%c", (char)aProp->GetCreationMode(), (aProp->IsLocked())?'l':'u');
int a = 2;
for(anIndex = 0; anIndex<aLength; anIndex++) {
sprintf(&(aProperty[a]),"%2d%2d%2d%2d%4d%s",
- (int)(aMinutes[anIndex]),
- (int)(aHours[anIndex]),
- (int)(aDays[anIndex]),
- (int)(aMonths[anIndex]),
- (int)(aYears[anIndex]),
- aNames[anIndex].c_str());
+ (int)(aMinutes[anIndex]),
+ (int)(aHours[anIndex]),
+ (int)(aDays[anIndex]),
+ (int)(aMonths[anIndex]),
+ (int)(aYears[anIndex]),
+ aNames[anIndex].c_str());
+ a = strlen(aProperty);
+ aProperty[a++] = 1;
+ }
+
+ //Write delimeter of the section to define end of the modifications section
+ aProperty[a++] = 30;
+
+ //Write units if need
+ if(units.size() > 0) {
+ sprintf(&(aProperty[a]),"%s",units.c_str());
a = strlen(aProperty);
+ }
+
+ aProperty[a++] = 1;
+
+ //Write comments if need
+ if(comment.size() > 0) {
+ sprintf(&(aProperty[a]),"%s",comment.c_str());
+ a = strlen(aProperty);
+ }
+
+ aProperty[a++] = 30; //delimeter of the component versions
+
+ std::map<std::string, std::string>::const_iterator versionsIt;
+ for ( versionsIt = versions.begin(); versionsIt != versions.end(); ++versionsIt ) {
+ sprintf(&(aProperty[a]),"%s=%s",
+ (char*)(versionsIt->first.c_str()),
+ (char*)(versionsIt->second.c_str()));
+ a = a + versionsIt->first.size() + versionsIt->second.size() + 1;
aProperty[a++] = 1;
}
+
aProperty[a] = 0;
name_len = (hdf_int32) a;
hdf_dataset->CloseOnDisk();
hdf_dataset=0; //will be deleted by hdf_sco_group destructor
delete [] aProperty;
-
+
aProp->SetModified(0);
return true;
}
* Purpose : save the study in HDF file
*/
//============================================================================
-bool SALOMEDSImpl_StudyManager::Impl_SaveAs(const string& aUrl,
- SALOMEDSImpl_Study* aStudy,
- SALOMEDSImpl_DriverFactory* aFactory,
- bool theMultiFile,
- bool theASCII)
+bool SALOMEDSImpl_StudyManager::Impl_SaveAs(const std::string& aStudyUrl,
+ SALOMEDSImpl_Study* aStudy,
+ SALOMEDSImpl_DriverFactory* aFactory,
+ bool theMultiFile,
+ bool theASCII)
{
+ // Set "C" locale temporarily to avoid possible localization problems
+ Kernel_Utils::Localizer loc;
+
// HDF File will be composed of differents part :
// * For each ComponentDataType, all data created by the component
// Informations in data group hdf_group_datacomponent
HDFgroup *hdf_group_study_structure =0;
HDFgroup *hdf_sco_group =0;
HDFgroup *hdf_sco_group2 =0;
+ HDFgroup *hdf_notebook_vars =0;
+ HDFgroup *hdf_notebook_var = 0;
HDFgroup *hdf_group_datacomponent =0;
HDFdataset *hdf_dataset =0;
hdf_size size[1];
hdf_int32 name_len = 0;
- char *component_name = 0;
+ std::string component_name;
if(!aStudy) {
_errorCode = "Study is null";
return false;
}
- int aLocked = aStudy->GetProperties()->IsLocked();
- if (aLocked) aStudy->GetProperties()->SetLocked(false);
+ // Store previous URL
+ std::string anOldName = aStudy->Name();
+
+ // Map to store components' versions
+ std::map<std::string, std::string> componentVersions;
+
+ //Create a temporary url to which the study is saved
+ std::string aUrl = SALOMEDSImpl_Tool::GetTmpDir() + SALOMEDSImpl_Tool::GetNameFromPath(aStudyUrl);
+
+ // unlock study if it is locked, as some attributes need to be modified
+ StudyUnlocker unlock(aStudy);
SALOMEDSImpl_StudyBuilder* SB= aStudy->NewBuilder();
- map<string, SALOMEDSImpl_Driver*> aMapTypeDriver;
+ std::map<std::string, SALOMEDSImpl_Driver*> aMapTypeDriver;
try
{
// mpv 15.12.2003: for saving components we have to load all data from all modules
- SALOMEDSImpl_SComponentIterator itcomponent1 = aStudy->NewComponentIterator();
- for (; itcomponent1.More(); itcomponent1.Next())
- {
- SALOMEDSImpl_SComponent sco = itcomponent1.Value();
- // if there is an associated Engine call its method for saving
- string IOREngine;
- try {
- if (!sco.ComponentIOR(IOREngine)) {
- string aCompType = sco.GetComment();
- if (!aCompType.empty()) {
-
- SALOMEDSImpl_Driver* aDriver = aFactory->GetDriverByType(aCompType);
- aMapTypeDriver[aCompType] = aDriver;
-
- if (aDriver != NULL) {
- if(!SB->LoadWith(sco, aDriver)) {
- _errorCode = SB->GetErrorCode();
- return false;
- }
- }
- }
+ SALOMEDSImpl_SComponentIterator itcomponent = aStudy->NewComponentIterator();
+ for (; itcomponent.More(); itcomponent.Next())
+ {
+ SALOMEDSImpl_SComponent sco = itcomponent.Value();
+ // if there is an associated Engine call its method for saving
+ std::string IOREngine;
+ try {
+ SALOMEDSImpl_Driver* aDriver = NULL;
+ std::string aCompType = sco.GetComment();
+ if (!sco.ComponentIOR(IOREngine)) {
+ if (!aCompType.empty()) {
+
+ aDriver = aFactory->GetDriverByType(aCompType);
+
+ if (aDriver != NULL) {
+ if(!SB->LoadWith(sco, aDriver)) {
+ _errorCode = SB->GetErrorCode();
+ return false;
+ }
+ }
+ }
+ }
+ else {
+ aDriver = aFactory->GetDriverByIOR(IOREngine);
}
- } catch(...) {
- _errorCode = "Can not restore information to resave it";
- return false;
- }
- }
+ aMapTypeDriver[aCompType] = aDriver;
+ } catch(...) {
+ _errorCode = "Can not restore information to resave it";
+ return false;
+ }
+ }
- string anOldName = aStudy->Name();
- aStudy->URL(aUrl);
+ // VSR: set URL to new file name
+ // VSR: remember to set previous name if save operation fails
+ aStudy->URL(aStudyUrl);
// To change for Save
// Do not have to do a new file but just a Open??? Rewrite all informations after erasing evrything??
hdf_group_datacomponent = new HDFgroup("DATACOMPONENT",hdf_file);
hdf_group_datacomponent->CreateOnDisk();
- SALOMEDSImpl_SComponentIterator itcomponent = aStudy->NewComponentIterator();
+ for (itcomponent.Init(); itcomponent.More(); itcomponent.Next())
+ {
+ SALOMEDSImpl_SComponent sco = itcomponent.Value();
- for (; itcomponent.More(); itcomponent.Next())
- {
- SALOMEDSImpl_SComponent sco = itcomponent.Value();
-
- string scoid = sco.GetID();
- hdf_sco_group = new HDFgroup((char*)scoid.c_str(), hdf_group_datacomponent);
- hdf_sco_group->CreateOnDisk();
-
- string componentDataType = sco.ComponentDataType();
- string IOREngine;
- if (sco.ComponentIOR(IOREngine))
- {
- SALOMEDSImpl_Driver* Engine = NULL;
- if(aMapTypeDriver.find(componentDataType) != aMapTypeDriver.end()) {
- // we have found the associated engine to write the data
- Engine = aMapTypeDriver[componentDataType];
- }
- else {
- Engine = aFactory->GetDriverByIOR(IOREngine);
- }
-
- if (Engine != NULL)
- {
- SALOMEDSImpl_TMPFile* aStream = NULL;
- long length = 0;
+ std::string scoid = sco.GetID();
+ hdf_sco_group = new HDFgroup((char*)scoid.c_str(), hdf_group_datacomponent);
+ hdf_sco_group->CreateOnDisk();
+
+ std::string componentDataType = sco.ComponentDataType();
+ std::string IOREngine;
+ if (sco.ComponentIOR(IOREngine))
+ {
+ // Engine should be already in the map as it was to added before
+ SALOMEDSImpl_Driver* Engine = aMapTypeDriver[componentDataType];
+ if (Engine != NULL)
+ {
+ SALOMEDSImpl_TMPFile* aStream = NULL;
+ long length = 0;
+
+ componentVersions[ componentDataType ] = Engine->Version();
if (theASCII) aStream = Engine->SaveASCII(sco,
- SALOMEDSImpl_Tool::GetDirFromPath(aUrl),
- length,
- theMultiFile);
- else aStream = Engine->Save(sco,
- SALOMEDSImpl_Tool::GetDirFromPath(aUrl),
- length,
- theMultiFile);
- HDFdataset *hdf_dataset;
- hdf_size aHDFSize[1];
- if(length > 0) { //The component saved some auxiliary files, then put them into HDF file
-
- aHDFSize[0] = length;
-
- HDFdataset *hdf_dataset = new HDFdataset("FILE_STREAM", hdf_sco_group, HDF_STRING, aHDFSize, 1);
- hdf_dataset->CreateOnDisk();
- hdf_dataset->WriteOnDisk(aStream->Data()); //Save the stream in the HDF file
- hdf_dataset->CloseOnDisk();
- }
-
- if(aStream) delete aStream;
-
- // store multifile state
- aHDFSize[0] = 2;
- hdf_dataset = new HDFdataset("MULTIFILE_STATE", hdf_sco_group, HDF_STRING, aHDFSize, 1);
- hdf_dataset->CreateOnDisk();
- hdf_dataset->WriteOnDisk((void*)(theMultiFile?"M":"S")); // save: multi or single
- hdf_dataset->CloseOnDisk();
- hdf_dataset=0; //will be deleted by hdf_sco_AuxFiles destructor
- // store ASCII state
- aHDFSize[0] = 2;
- hdf_dataset = new HDFdataset("ASCII_STATE", hdf_sco_group, HDF_STRING, aHDFSize, 1);
- hdf_dataset->CreateOnDisk();
- hdf_dataset->WriteOnDisk((void*)(theASCII?"A":"B")); // save: ASCII or BINARY
- hdf_dataset->CloseOnDisk();
- hdf_dataset=0; //will be deleted by hdf_sco_AuxFiles destructor
- // Creation of the persistance reference attribute
- Translate_IOR_to_persistentID (sco, Engine, theMultiFile, theASCII);
- }
- }
- hdf_sco_group->CloseOnDisk();
- hdf_sco_group=0; // will be deleted by hdf_group_datacomponent destructor
- }
+ SALOMEDSImpl_Tool::GetDirFromPath(aUrl),
+ length,
+ theMultiFile);
+ else aStream = Engine->Save(sco,
+ SALOMEDSImpl_Tool::GetDirFromPath(aUrl),
+ length,
+ theMultiFile);
+ HDFdataset *hdf_dataset;
+ hdf_size aHDFSize[1];
+ if(length > 0) { //The component saved some auxiliary files, then put them into HDF file
+
+ aHDFSize[0] = length;
+
+ HDFdataset *hdf_dataset = new HDFdataset("FILE_STREAM", hdf_sco_group, HDF_STRING, aHDFSize, 1);
+ hdf_dataset->CreateOnDisk();
+ hdf_dataset->WriteOnDisk(aStream->Data()); //Save the stream in the HDF file
+ hdf_dataset->CloseOnDisk();
+ }
+
+ if(aStream) delete aStream;
+
+ // store multifile state
+ aHDFSize[0] = 2;
+ hdf_dataset = new HDFdataset("MULTIFILE_STATE", hdf_sco_group, HDF_STRING, aHDFSize, 1);
+ hdf_dataset->CreateOnDisk();
+ hdf_dataset->WriteOnDisk((void*)(theMultiFile?"M":"S")); // save: multi or single
+ hdf_dataset->CloseOnDisk();
+ hdf_dataset=0; //will be deleted by hdf_sco_AuxFiles destructor
+ // store ASCII state
+ aHDFSize[0] = 2;
+ hdf_dataset = new HDFdataset("ASCII_STATE", hdf_sco_group, HDF_STRING, aHDFSize, 1);
+ hdf_dataset->CreateOnDisk();
+ hdf_dataset->WriteOnDisk((void*)(theASCII?"A":"B")); // save: ASCII or BINARY
+ hdf_dataset->CloseOnDisk();
+ hdf_dataset=0; //will be deleted by hdf_sco_AuxFiles destructor
+ // Creation of the persistance reference attribute
+ Translate_IOR_to_persistentID (sco, Engine, theMultiFile, theASCII);
+ }
+ }
+ hdf_sco_group->CloseOnDisk();
+ hdf_sco_group=0; // will be deleted by hdf_group_datacomponent destructor
+ }
hdf_group_datacomponent->CloseOnDisk();
hdf_group_datacomponent =0; // will be deleted by hdf_file destructor
hdf_group_study_structure = new HDFgroup("STUDY_STRUCTURE",hdf_file);
hdf_group_study_structure->CreateOnDisk();
// save component attributes
- SALOMEDSImpl_SComponentIterator itcomp = aStudy->NewComponentIterator();
- for (; itcomp.More(); itcomp.Next())
- {
- SALOMEDSImpl_SComponent SC = itcomp.Value();
- string scid = SC.GetID();
- hdf_sco_group2 = new HDFgroup((char*)scid.c_str(), hdf_group_study_structure);
- hdf_sco_group2->CreateOnDisk();
+ for (itcomponent.Init(); itcomponent.More(); itcomponent.Next())
+ {
+ SALOMEDSImpl_SComponent SC = itcomponent.Value();
+ std::string scid = SC.GetID();
+ hdf_sco_group2 = new HDFgroup((char*)scid.c_str(), hdf_group_study_structure);
+ hdf_sco_group2->CreateOnDisk();
SaveAttributes(SC, hdf_sco_group2);
- // ComponentDataType treatment
- component_name = (char*)SC.ComponentDataType().c_str();
- name_len = (hdf_int32)strlen(component_name);
- size[0] = name_len +1 ;
- hdf_dataset = new HDFdataset("COMPONENTDATATYPE",hdf_sco_group2,HDF_STRING,size,1);
- hdf_dataset->CreateOnDisk();
- hdf_dataset->WriteOnDisk(component_name);
- hdf_dataset->CloseOnDisk();
- hdf_dataset=0; //will be deleted by hdf_sco_group destructor
- Impl_SaveObject(SC, hdf_sco_group2);
- hdf_sco_group2->CloseOnDisk();
- hdf_sco_group2=0; // will be deleted by hdf_group_study_structure destructor
- }
+ // ComponentDataType treatment
+ component_name = SC.ComponentDataType();
+ name_len = (hdf_int32)component_name.length();
+ size[0] = name_len +1 ;
+ hdf_dataset = new HDFdataset("COMPONENTDATATYPE",hdf_sco_group2,HDF_STRING,size,1);
+ hdf_dataset->CreateOnDisk();
+ hdf_dataset->WriteOnDisk((char*)component_name.c_str());
+ hdf_dataset->CloseOnDisk();
+ hdf_dataset=0; //will be deleted by hdf_sco_group destructor
+ Impl_SaveObject(SC, hdf_sco_group2);
+ hdf_sco_group2->CloseOnDisk();
+ hdf_sco_group2=0; // will be deleted by hdf_group_study_structure destructor
+ }
//-----------------------------------------------------------------------
//4 - Write the Study UseCases Structure
//-----------------------------------------------------------------------
SALOMEDSImpl_SObject aSO = aStudy->FindObjectID(USE_CASE_LABEL_ID);
if (aSO) {
- HDFgroup *hdf_soo_group = new HDFgroup(USE_CASE_LABEL_ID,hdf_group_study_structure);
- hdf_soo_group->CreateOnDisk();
- SaveAttributes(aSO, hdf_soo_group);
- Impl_SaveObject(aSO, hdf_soo_group);
- hdf_soo_group->CloseOnDisk();
- hdf_soo_group=0; // will be deleted by hdf_group_study_structure destructor
+ HDFgroup *hdf_soo_group = new HDFgroup(USE_CASE_LABEL_ID,hdf_group_study_structure);
+ hdf_soo_group->CreateOnDisk();
+ SaveAttributes(aSO, hdf_soo_group);
+ Impl_SaveObject(aSO, hdf_soo_group);
+ hdf_soo_group->CloseOnDisk();
+ hdf_soo_group=0; // will be deleted by hdf_group_study_structure destructor
+ }
+ //-----------------------------------------------------------------------
+ //5 - Write the NoteBook Variables
+ //-----------------------------------------------------------------------
+
+ //5.1 Create group to store all note book variables
+ hdf_notebook_vars = new HDFgroup("NOTEBOOK_VARIABLES",hdf_file);
+ hdf_notebook_vars->CreateOnDisk();
+
+ std::string varValue;
+ std::string varType;
+ std::string varIndex;
+
+ for(int i=0 ;i < aStudy->myNoteBookVars.size(); i++ ){
+ // For each variable create HDF group
+ hdf_notebook_var = new HDFgroup((char*)aStudy->myNoteBookVars[i]->Name().c_str(),hdf_notebook_vars);
+ hdf_notebook_var->CreateOnDisk();
+
+ // Save Variable type
+ varType = aStudy->myNoteBookVars[i]->SaveType();
+ name_len = (hdf_int32) varType.length();
+ size[0] = name_len +1 ;
+ hdf_dataset = new HDFdataset("VARIABLE_TYPE",hdf_notebook_var,HDF_STRING,size,1);
+ hdf_dataset->CreateOnDisk();
+ hdf_dataset->WriteOnDisk((char*)varType.c_str());
+ hdf_dataset->CloseOnDisk();
+ hdf_dataset=0; //will be deleted by hdf_sco_group destructor
+
+ char buffer[256];
+ sprintf(buffer,"%d",i);
+ varIndex= std::string(buffer);
+ name_len = (hdf_int32) varIndex.length();
+ size[0] = name_len +1 ;
+ hdf_dataset = new HDFdataset("VARIABLE_INDEX",hdf_notebook_var,HDF_STRING,size,1);
+ hdf_dataset->CreateOnDisk();
+ hdf_dataset->WriteOnDisk((char*)varIndex.c_str());
+ hdf_dataset->CloseOnDisk();
+ hdf_dataset=0; //will be deleted by hdf_sco_group destructor
+
+
+ // Save Variable value
+ varValue = aStudy->myNoteBookVars[i]->Save();
+ name_len = (hdf_int32) varValue.length();
+ size[0] = name_len +1 ;
+ hdf_dataset = new HDFdataset("VARIABLE_VALUE",hdf_notebook_var,HDF_STRING,size,1);
+ hdf_dataset->CreateOnDisk();
+ hdf_dataset->WriteOnDisk((char*)varValue.c_str());
+ hdf_dataset->CloseOnDisk();
+ hdf_dataset=0; //will be deleted by hdf_sco_group destructor
+ hdf_notebook_var->CloseOnDisk();
+ hdf_notebook_var = 0; //will be deleted by hdf_sco_group destructor
}
+ hdf_notebook_vars->CloseOnDisk();
+ hdf_notebook_vars = 0; //will be deleted by hdf_sco_group destructor
+
+ // record component versions
+ std::map<std::string, std::string>::const_iterator itVersions;
+ for ( itVersions = componentVersions.begin(); itVersions != componentVersions.end(); ++itVersions )
+ aStudy->GetProperties()->SetComponentVersion( itVersions->first, itVersions->second );
+
+ // lock study back if it was locked initially, to write correct value of Locked flag
+ unlock.suspend();
- if (aLocked) aStudy->GetProperties()->SetLocked(true);
//-----------------------------------------------------------------------
- //5 - Write the Study Properties
+ //6 - Write the Study Properties
//-----------------------------------------------------------------------
- name_len = (hdf_int32) aStudy->Name().size();
+ std::string study_name = aStudy->Name();
+ name_len = (hdf_int32) study_name.size();
size[0] = name_len +1 ;
hdf_dataset = new HDFdataset("STUDY_NAME",hdf_group_study_structure,HDF_STRING,size,1);
hdf_dataset->CreateOnDisk();
- char* studid = (char*)aStudy->Name().c_str();
- hdf_dataset->WriteOnDisk(studid);
+ hdf_dataset->WriteOnDisk((char*)study_name.c_str());
hdf_dataset->CloseOnDisk();
hdf_dataset=0; // will be deleted by hdf_group_study_structure destructor
hdf_group_study_structure->CloseOnDisk();
hdf_file->CloseOnDisk();
- aStudy->IsSaved(true);
hdf_group_study_structure =0; // will be deleted by hdf_file destructor
delete hdf_file; // recursively deletes all hdf objects...
}
catch (HDFexception)
{
_errorCode = "HDFexception ! ";
+ aStudy->URL( anOldName ); // VSR: restore previous url if operation is failed
return false;
}
catch(std::exception& exc)
{
_errorCode = const_cast<char*>(exc.what());
+ aStudy->URL( anOldName ); // VSR: restore previous url if operation is failed
return false;
}
catch(...)
{
_errorCode = "Unknown exception ! ";
+ aStudy->URL( anOldName ); // VSR: restore previous url if operation is failed
return false;
}
if (theASCII) { // save file in ASCII format
HDFascii::ConvertFromHDFToASCII(aUrl.c_str(), true);
}
+
+ //Now it's necessary to copy files from the temporary directory to the user defined directory.
- return true;
+ // The easiest way to get a list of file in the temporary directory
+
+ std::string aCmd, aTmpFileDir = SALOMEDSImpl_Tool::GetTmpDir();
+ std::string aTmpFile = aTmpFileDir +"files";
+ std::string aStudyTmpDir = SALOMEDSImpl_Tool::GetDirFromPath(aUrl);
+
+#ifdef WIN32
+ aCmd = "dir /B \"" + aStudyTmpDir +"\" > " + aTmpFile;
+#else
+ aCmd ="ls -1 \"" + aStudyTmpDir +"\" > " + aTmpFile;
+#endif
+ system(aCmd.c_str());
+
+ // Iterate and move files in the temporary directory
+ FILE* fp = fopen(aTmpFile.c_str(), "rb");
+ if(!fp) {
+ aStudy->URL( anOldName ); // VSR: restore previous url if operation is failed
+ return false;
+ }
+ char* buffer = new char[2047];
+ int errors = 0;
+ while(!feof(fp) && !errors) {
+ if((fgets(buffer, 2046, fp)) == NULL) break;
+ size_t aLen = strlen(buffer);
+ if(buffer[aLen-1] == '\n') buffer[aLen-1] = char(0);
+#ifdef WIN32
+ aCmd = "move /Y \"" + aStudyTmpDir + std::string(buffer) + "\" \"" + SALOMEDSImpl_Tool::GetDirFromPath(aStudyUrl) +"\"";
+#else
+ aCmd = "mv -f \"" + aStudyTmpDir + std::string(buffer) + "\" \"" + SALOMEDSImpl_Tool::GetDirFromPath(aStudyUrl)+"\"";
+#endif
+ errors = system(aCmd.c_str());
+ }
+
+ delete []buffer;
+ fclose(fp);
+
+ // Perform cleanup
+#ifdef WIN32
+ DeleteFileA(aTmpFile.c_str());
+#else
+ unlink(aTmpFile.c_str());
+#endif
+
+#ifdef WIN32
+ RemoveDirectoryA(aTmpFileDir.c_str());
+ RemoveDirectoryA(aStudyTmpDir.c_str());
+#else
+ rmdir(aTmpFileDir.c_str());
+ rmdir(aStudyTmpDir.c_str());
+#endif
+
+ if ( !errors ) {
+ // VSR: finally, if all is done without errors, mark study as Saved
+ aStudy->IsSaved(true);
+ }
+
+ return !errors;
}
//============================================================================
*/
//============================================================================
bool SALOMEDSImpl_StudyManager::Impl_SaveObject(const SALOMEDSImpl_SObject& SC,
- HDFgroup *hdf_group_datatype)
+ HDFgroup *hdf_group_datatype)
{
_errorCode = "";
{
// mpv: don't save empty labels
- vector<DF_Attribute*> attr = itchild.Value().GetAttributes();
+ std::vector<DF_Attribute*> attr = itchild.Value().GetAttributes();
if (attr.size() == 0) { //No attributes on the label
- DF_ChildIterator subchild(itchild.Value());
- if (!subchild.More()) {
- continue;
- }
- subchild.Init(itchild.Value(), true);
- bool anEmpty = true;
- for (; subchild.More() && anEmpty; subchild.Next()) {
- vector<DF_Attribute*> attr2 = subchild.Value().GetAttributes();
- if (attr2.size()) {
- anEmpty = false; //There are attributes on the child label
- break;
- }
- }
- if (anEmpty) continue;
+ DF_ChildIterator subchild(itchild.Value());
+ if (!subchild.More()) {
+ continue;
+ }
+ subchild.Init(itchild.Value(), true);
+ bool anEmpty = true;
+ for (; subchild.More() && anEmpty; subchild.Next()) {
+ std::vector<DF_Attribute*> attr2 = subchild.Value().GetAttributes();
+ if (attr2.size()) {
+ anEmpty = false; //There are attributes on the child label
+ break;
+ }
+ }
+ if (anEmpty) continue;
}
SALOMEDSImpl_SObject SO = SALOMEDSImpl_Study::SObject(itchild.Value());
- char* scoid = (char*) SO.GetID().c_str();
- hdf_group_sobject = new HDFgroup(scoid, hdf_group_datatype);
+ std::string scoid = SO.GetID();
+ hdf_group_sobject = new HDFgroup(scoid.c_str(), hdf_group_datatype);
hdf_group_sobject->CreateOnDisk();
SaveAttributes(SO, hdf_group_sobject);
Impl_SaveObject(SO, hdf_group_sobject);
* Purpose :
*/
//============================================================================
-string SALOMEDSImpl_StudyManager::Impl_SubstituteSlash(const string& aUrl)
+std::string SALOMEDSImpl_StudyManager::Impl_SubstituteSlash(const std::string& aUrl)
{
_errorCode = "";
*/
//============================================================================
bool SALOMEDSImpl_StudyManager::CanCopy(const SALOMEDSImpl_SObject& theObject,
- SALOMEDSImpl_Driver* theEngine)
+ SALOMEDSImpl_Driver* theEngine)
{
_errorCode = "";
SALOMEDSImpl_SComponent aComponent = theObject.GetFatherComponent();
if (!aComponent) return false;
if (aComponent.GetLabel() == theObject.GetLabel()) return false;
- string IOREngine;
+ std::string IOREngine;
if (!aComponent.ComponentIOR(IOREngine)) return false;
if (theEngine == NULL) return false;
return theEngine->CanCopy(theObject);
*/
//============================================================================
bool SALOMEDSImpl_StudyManager::CopyLabel(SALOMEDSImpl_Study* theSourceStudy,
- SALOMEDSImpl_Driver* theEngine,
- const int theSourceStartDepth,
- const DF_Label& theSource,
- const DF_Label& theDestinationMain)
+ SALOMEDSImpl_Driver* theEngine,
+ const int theSourceStartDepth,
+ const DF_Label& theSource,
+ const DF_Label& theDestinationMain)
{
_errorCode = "";
aAuxTargetLabel = aAuxTargetLabel.FindChild(aSourceLabel.Tag());
}
// iterate attributes
- vector<DF_Attribute*> attrList = theSource.GetAttributes();
+ std::vector<DF_Attribute*> attrList = theSource.GetAttributes();
for(int i = 0, len = attrList.size(); i<len; i++) {
DF_Attribute* anAttr = attrList[i];
- string type = SALOMEDSImpl_GenericAttribute::Impl_GetType(anAttr);
- if (type.substr(0, 17) == string("AttributeTreeNode")) continue; // never copy tree node attribute
- if (type == string("AttributeTarget")) continue; // and target attribute
+ std::string type = SALOMEDSImpl_GenericAttribute::Impl_GetType(anAttr);
+ if (type.substr(0, 17) == std::string("AttributeTreeNode")) continue; // never copy tree node attribute
+ if (type == std::string("AttributeTarget")) continue; // and target attribute
- if (type == string("AttributeReference")) { // reference copied as Comment in aux tree
+ if (type == std::string("AttributeReference")) { // reference copied as Comment in aux tree
DF_Label aReferenced = dynamic_cast<SALOMEDSImpl_AttributeReference*>(anAttr)->Get();
- string anEntry = aReferenced.Entry();
+ std::string anEntry = aReferenced.Entry();
// store the value of name attribute of referenced label
SALOMEDSImpl_AttributeName* aNameAttribute;
if ((aNameAttribute=(SALOMEDSImpl_AttributeName*)aReferenced.FindAttribute(SALOMEDSImpl_AttributeName::GetID()))) {
- anEntry += " ";
- anEntry += aNameAttribute->Value();
+ anEntry += " ";
+ anEntry += aNameAttribute->Value();
}
SALOMEDSImpl_AttributeComment::Set(aAuxTargetLabel, anEntry);
continue;
}
- if (type == string("AttributeIOR")) { // IOR => ID and TMPFile of Engine
- string anEntry = theSource.Entry();
+ if (type == std::string("AttributeIOR")) { // IOR => ID and TMPFile of Engine
+ std::string anEntry = theSource.Entry();
SALOMEDSImpl_SObject aSO = theSourceStudy->FindObjectID(anEntry);
int anObjID;
long aLen;
SALOMEDSImpl_TMPFile* aStream = theEngine->CopyFrom(aSO, anObjID, aLen);
- string aResStr("");
+ std::string aResStr("");
for(a = 0; a < aLen; a++) {
- aResStr += (char)(aStream->Get(a));
+ aResStr += (char)(aStream->Get(a));
}
if(aStream) delete aStream;
*/
//============================================================================
bool SALOMEDSImpl_StudyManager::Copy(const SALOMEDSImpl_SObject& theObject,
- SALOMEDSImpl_Driver* theEngine)
+ SALOMEDSImpl_Driver* theEngine)
{
_errorCode = "";
// set component data type to the name attribute of root label
if (!aStructureOnly) {
SALOMEDSImpl_AttributeComment::Set(_clipboard->Main().Root(),
- theEngine->ComponentDataType());
+ theEngine->ComponentDataType());
}
// set to the Root label integer attribute: study id
SALOMEDSImpl_AttributeInteger::Set(_clipboard->Main().Root(), aStudy->StudyId());
*/
//============================================================================
bool SALOMEDSImpl_StudyManager::CanPaste(const SALOMEDSImpl_SObject& theObject,
- SALOMEDSImpl_Driver* theEngine)
+ SALOMEDSImpl_Driver* theEngine)
{
_errorCode = "";
return false;
}
- string IOREngine;
+ std::string IOREngine;
if (!aComponent.ComponentIOR(IOREngine)) {
_errorCode = "component has no IOR";
return false;
*/
//============================================================================
DF_Label SALOMEDSImpl_StudyManager::PasteLabel(SALOMEDSImpl_Study* theDestinationStudy,
- SALOMEDSImpl_Driver* theEngine,
- const DF_Label& theSource,
- const DF_Label& theDestinationStart,
- const int theCopiedStudyID,
- const bool isFirstElement)
+ SALOMEDSImpl_Driver* theEngine,
+ const DF_Label& theSource,
+ const DF_Label& theDestinationStart,
+ const int theCopiedStudyID,
+ const bool isFirstElement)
{
_errorCode = "";
aTargetLabel = aTargetLabel.FindChild(aSourceLabel.Tag());
aAuxSourceLabel = aAuxSourceLabel.FindChild(aSourceLabel.Tag());
}
+ SALOMEDSImpl_SObject so = theDestinationStudy->GetSObject(aTargetLabel);
+ theDestinationStudy->addSO_Notification(so);
}
// check auxiliary label for TMPFile => IOR
if ((aNameAttribute=(SALOMEDSImpl_AttributeName*)aAuxSourceLabel.FindAttribute(SALOMEDSImpl_AttributeName::GetID()))) {
SALOMEDSImpl_AttributeInteger* anObjID = (SALOMEDSImpl_AttributeInteger*)aAuxSourceLabel.FindAttribute(SALOMEDSImpl_AttributeInteger::GetID());
SALOMEDSImpl_AttributeComment* aComponentName = (SALOMEDSImpl_AttributeComment*)theSource.Root().FindAttribute(SALOMEDSImpl_AttributeComment::GetID());
- string aCompName = aComponentName->Value();
+ std::string aCompName = aComponentName->Value();
if (theEngine->CanPaste(aCompName, anObjID->Value())) {
std::string aTMPStr = aNameAttribute->Value();
int aLen = aTMPStr.size();
unsigned char* aStream = NULL;
if(aLen > 0) {
- aStream = new unsigned char[aLen+10];
- for(a = 0; a < aLen; a++) {
- aStream[a] = aTMPStr[a];
- }
+ aStream = new unsigned char[aLen+10];
+ for(a = 0; a < aLen; a++) {
+ aStream[a] = aTMPStr[a];
+ }
}
- string anEntry = aTargetLabel.Entry();
+ std::string anEntry = aTargetLabel.Entry();
SALOMEDSImpl_SObject aPastedSO = theDestinationStudy->FindObjectID(anEntry);
if (isFirstElement) {
- string aDestEntry = theEngine->PasteInto(aStream,
- aLen,
- anObjID->Value(),
- aPastedSO.GetFatherComponent());
- aTargetLabel = DF_Label::Label(theDestinationStart, aDestEntry);
+ std::string aDestEntry = theEngine->PasteInto(aStream,
+ aLen,
+ anObjID->Value(),
+ aPastedSO.GetFatherComponent());
+ aTargetLabel = DF_Label::Label(theDestinationStart, aDestEntry);
} else
- theEngine->PasteInto(aStream, aLen, anObjID->Value(), aPastedSO);
+ theEngine->PasteInto(aStream, aLen, anObjID->Value(), aPastedSO);
if(aStream != NULL) delete []aStream;
}
}
// iterate attributes
- vector<DF_Attribute*> attrList = theSource.GetAttributes();
+ std::vector<DF_Attribute*> attrList = theSource.GetAttributes();
for(int i = 0, len = attrList.size(); i<len; i++) {
DF_Attribute* anAttr = attrList[i];
if (aTargetLabel.FindAttribute(anAttr->ID())) {
SALOMEDSImpl_AttributeComment* aCommentAttribute = NULL;
if ((aCommentAttribute=(SALOMEDSImpl_AttributeComment*)aAuxSourceLabel.FindAttribute(SALOMEDSImpl_AttributeComment::GetID()))) {
char * anEntry = new char[aCommentAttribute->Value().size() + 1];
- strcpy(anEntry, string(aCommentAttribute->Value()).c_str());
+ strcpy(anEntry, std::string(aCommentAttribute->Value()).c_str());
char* aNameStart = strchr(anEntry, ' ');
if (aNameStart) {
*aNameStart = '\0';
*/
//============================================================================
SALOMEDSImpl_SObject SALOMEDSImpl_StudyManager::Paste(const SALOMEDSImpl_SObject& theObject,
- SALOMEDSImpl_Driver* theEngine)
+ SALOMEDSImpl_Driver* theEngine)
{
_errorCode = "";
static void SaveAttributes(const SALOMEDSImpl_SObject& aSO, HDFgroup *hdf_group_sobject)
{
hdf_size size[1];
- vector<DF_Attribute*> attrList = aSO.GetLabel().GetAttributes();
+ std::vector<DF_Attribute*> attrList = aSO.GetLabel().GetAttributes();
DF_Attribute* anAttr = NULL;
for(int i = 0, len = attrList.size(); i<len; i++) {
anAttr = attrList[i];
//The following attributes are not supposed to be written to the file
- string type = SALOMEDSImpl_GenericAttribute::Impl_GetType(anAttr);
- if(type == string("AttributeIOR")) continue; //IOR attribute is not saved
- string aSaveStr =anAttr->Save();
+ std::string type = SALOMEDSImpl_GenericAttribute::Impl_GetType(anAttr);
+ if(type == std::string("AttributeIOR")) continue; //IOR attribute is not saved
+ std::string aSaveStr =anAttr->Save();
//cout << "Saving: " << aSO.GetID() << " type: "<< type<<"|" << endl;
size[0] = (hdf_int32) strlen(aSaveStr.c_str()) + 1;
HDFdataset *hdf_dataset = new HDFdataset((char*)type.c_str(), hdf_group_sobject, HDF_STRING,size, 1);
//Function : ReadAttributes
//===========================================================================
static void ReadAttributes(SALOMEDSImpl_Study* theStudy,
- const SALOMEDSImpl_SObject& aSO,
- HDFdataset* hdf_dataset)
+ const SALOMEDSImpl_SObject& aSO,
+ HDFdataset* hdf_dataset)
{
hdf_dataset->OpenOnDisk();
} else if (!strcmp(hdf_dataset->GetName(),"AttributeReference") ||
!strcmp(hdf_dataset->GetName(),"Reference")) { // Old format maintainance
theStudy->NewBuilder()->Addreference(aSO, theStudy->CreateObjectID(current_string));
- delete(current_string);
+ delete [] (current_string);
hdf_dataset->CloseOnDisk();
return;
} else {
anAttr->Load(current_string);
}
- delete(current_string);
+ delete [] (current_string);
hdf_dataset->CloseOnDisk();
}
//Function : Translate_IOR_to_persistentID
//============================================================================
static void Translate_IOR_to_persistentID (const SALOMEDSImpl_SObject& so,
- SALOMEDSImpl_Driver* engine,
- bool isMultiFile,
- bool isASCII)
+ SALOMEDSImpl_Driver* engine,
+ bool isMultiFile,
+ bool isASCII)
{
DF_ChildIterator itchild(so.GetLabel());
- string ior_string, persistent_string, curid;
+ std::string ior_string, persistent_string, curid;
for (; itchild.More(); itchild.Next()) {
SALOMEDSImpl_SObject current = SALOMEDSImpl_Study::SObject(itchild.Value());
}
}
+void ReadNoteBookVariables(SALOMEDSImpl_Study* theStudy, HDFgroup* theGroup)
+{
+ if(!theGroup)
+ return;
+
+ HDFgroup* new_group =0;
+ HDFdataset* new_dataset =0;
+
+ char aVarName[HDF_NAME_MAX_LEN+1];
+ char *currentVarType = 0;
+ char *currentVarValue = 0;
+ char *currentVarIndex = 0;
+ int order = 0;
+ //Open HDF group with notebook variables
+ theGroup->OpenOnDisk();
+
+ //Get Nb of variables
+ int aNbVars = theGroup->nInternalObjects();
+
+ std::map<int,SALOMEDSImpl_GenericVariable*> aVarsMap;
+
+ for( int iVar=0;iVar < aNbVars;iVar++ ) {
+ theGroup->InternalObjectIndentify(iVar,aVarName);
+ hdf_object_type type = theGroup->InternalObjectType(aVarName);
+ if(type == HDF_GROUP) {
+
+ //Read Variable
+ new_group = new HDFgroup(aVarName,theGroup);
+ new_group->OpenOnDisk();
+
+ //Read Type
+ new_dataset = new HDFdataset("VARIABLE_TYPE",new_group);
+ new_dataset->OpenOnDisk();
+ currentVarType = new char[new_dataset->GetSize()+1];
+ new_dataset->ReadFromDisk(currentVarType);
+ new_dataset->CloseOnDisk();
+ new_dataset = 0; //will be deleted by hdf_sco_group destructor
+
+ //Read Order
+ if(new_group->ExistInternalObject("VARIABLE_INDEX")) {
+ new_dataset = new HDFdataset("VARIABLE_INDEX",new_group);
+ new_dataset->OpenOnDisk();
+ currentVarIndex = new char[new_dataset->GetSize()+1];
+ new_dataset->ReadFromDisk(currentVarIndex);
+ new_dataset->CloseOnDisk();
+ new_dataset = 0; //will be deleted by hdf_sco_group destructor
+ order = atoi(currentVarIndex);
+ delete [] currentVarIndex;
+ }
+ else
+ order = iVar;
+
+ //Read Value
+ new_dataset = new HDFdataset("VARIABLE_VALUE",new_group);
+ new_dataset->OpenOnDisk();
+ currentVarValue = new char[new_dataset->GetSize()+1];
+ new_dataset->ReadFromDisk(currentVarValue);
+ new_dataset->CloseOnDisk();
+ new_dataset = 0; //will be deleted by hdf_sco_group destructor
+
+ new_group->CloseOnDisk();
+ new_group = 0; //will be deleted by hdf_sco_group destructor
+
+ SALOMEDSImpl_GenericVariable::VariableTypes aVarType =
+ SALOMEDSImpl_GenericVariable::String2VariableType(std::string(currentVarType));
+ delete [] currentVarType;
+
+ //Create variable and add it in the study
+ SALOMEDSImpl_GenericVariable* aVariable =
+ new SALOMEDSImpl_ScalarVariable(aVarType,std::string(aVarName));
+ aVariable->Load(std::string(currentVarValue));
+ aVarsMap.insert(std::make_pair<int,SALOMEDSImpl_GenericVariable*>(order,aVariable));
+ delete [] currentVarValue;
+ }
+ }
+
+ std::map<int,SALOMEDSImpl_GenericVariable*>::const_iterator it= aVarsMap.begin();
+ for(;it!=aVarsMap.end();it++)
+ theStudy->AddVariable((*it).second);
+
+ theGroup->CloseOnDisk();
+}