using namespace std;
-void SetVariable(Handle(_pyCommand) theCommand,const ObjectStates* theStates, int position, int theArgNb);
+void SetVariable(Handle(_pyCommand) theCommand,const SMESH_ObjectStates* theStates, int position, int theArgNb);
//================================================================================
/*!
* \brief Constructor
*/
//================================================================================
-ObjectStates::ObjectStates(TCollection_AsciiString theType)
+SMESH_ObjectStates::SMESH_ObjectStates(TCollection_AsciiString theType)
{
_type = theType;
_dumpstate = 0;
* \brief Destructor
*/
//================================================================================
-ObjectStates::~ObjectStates()
+SMESH_ObjectStates::~SMESH_ObjectStates()
{
}
* \param theState - Object state (vector of notebook variable)
*/
//================================================================================
-void ObjectStates::AddState(const TState &theState)
+void SMESH_ObjectStates::AddState(const TState &theState)
{
_states.push_back(theState);
}
* \\retval state - Object state (vector of notebook variable)
*/
//================================================================================
-TState ObjectStates::GetCurrectState() const
+TState SMESH_ObjectStates::GetCurrectState() const
{
if(_states.size() > _dumpstate)
return _states[_dumpstate];
*
*/
//================================================================================
-TAllStates ObjectStates::GetAllStates() const
+TAllStates SMESH_ObjectStates::GetAllStates() const
{
return _states;
}
*
*/
//================================================================================
-void ObjectStates::IncrementState()
+void SMESH_ObjectStates::IncrementState()
{
_dumpstate++;
}
*
*/
//================================================================================
-TCollection_AsciiString ObjectStates::GetObjectType() const{
+TCollection_AsciiString SMESH_ObjectStates::GetObjectType() const{
return _type;
}
*/
//================================================================================
LayerDistributionStates::LayerDistributionStates():
- ObjectStates("LayerDistribution")
+ SMESH_ObjectStates("LayerDistribution")
{
}
//================================================================================
TMeshEditorMap::const_iterator meIt = myMeshEditors.find(aObject);
if(meIt != myMeshEditors.end()) {
TCollection_AsciiString aMesh = (*meIt).second;
- it = _objectMap.find(aMesh);
+ it = _objectMap.find(aMesh);
}
}
if(it == _objectMap.end()) { // additional check for pattern mapping
if(aMethod.IsEqual("ApplyToMeshFaces") ||
- aMethod.IsEqual("ApplyToHexahedrons"))
- it = _objectMap.find(aCmd->GetArg(1));
+ aMethod.IsEqual("ApplyToHexahedrons"))
+ it = _objectMap.find(aCmd->GetArg(1));
}
if(it != _objectMap.end()) {
if(MYDEBUG)
- cout << "Found object : " << (*it).first << endl;
- ObjectStates *aStates = (*it).second;
+ cout << "Found object : " << (*it).first << endl;
+ SMESH_ObjectStates *aStates = (*it).second;
// Case for LocalLength hypothesis
if(aStates->GetObjectType().IsEqual("LocalLength") && aStates->GetCurrectState().size() >= 2) {
if(aMethod.IsEqual("SetLength")) {
}
else if(aStates->GetObjectType().IsEqual("Mesh")) {
- TState aCurrentState = aStates->GetCurrectState();
+ TState aCurrentState = aStates->GetCurrectState();
int aCurrentStateSize = aCurrentState.size();
- if(aMethod.IsEqual("Translate") ||
+ if(aMethod.IsEqual("Translate") ||
aMethod.IsEqual("TranslateMakeGroups") ||
aMethod.IsEqual("TranslateMakeMesh") ||
aMethod.IsEqual("TranslateObject") ||
}
}
if(anArgIndex > 0) {
- if(aCurrentStateSize == 3) { // translation by dx, dy, dz
- for(int j = 0; j < aCurrentStateSize; j++) {
- if(!aCurrentState.at(j).IsEmpty()) {
- isVariableFound = true;
- aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
- }
- }
- }
- else if(aCurrentStateSize == 6) { // translation by x1, x2, y1, y2, z1, z2
- // TODO: limitation until operations on the variables will be introduced
- /*
- isVariableFound = true;
- for(int j = 0; j < 3; j++) {
- TCollection_AsciiString anArg = aCmd->GetArg(anArgIndex+j);
- TCollection_AsciiString aValue1 = aCurrentState.at(2*j), aValue2 = aCurrentState.at(2*j+1);
- bool aV1 = !aValue1.IsEmpty();
- bool aV2 = !aValue2.IsEmpty();
- double aValue, aCurrentValue = anArg.IsRealValue() ? anArg.RealValue() : 0;
- if(aV1 && !aV2) {
- if(!GetReal(aValue1, aValue))
- aValue = 0;
- aValue2 = TCollection_AsciiString( aValue + aCurrentValue );
- }
- else if(!aV1 && aV2) {
- if(!GetReal(aValue2, aValue))
- aValue = 0;
- aValue1 = TCollection_AsciiString( aValue - aCurrentValue );
- }
- else if(!aV1 && !aV2) {
- aValue1 = TCollection_AsciiString( 0 );
- aValue2 = TCollection_AsciiString( aCurrentValue );
- }
- aCmd->SetArg(anArgIndex+j, aValue1 + ", " + aValue2 );
- }
- */
- }
+ if(aCurrentStateSize == 3) { // translation by dx, dy, dz
+ for(int j = 0; j < aCurrentStateSize; j++) {
+ if(!aCurrentState.at(j).IsEmpty()) {
+ isVariableFound = true;
+ aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
+ }
+ }
+ }
+ else if(aCurrentStateSize == 6) { // translation by x1, x2, y1, y2, z1, z2
+ // TODO: limitation until operations on the variables will be introduced
+ /*
+ isVariableFound = true;
+ for(int j = 0; j < 3; j++) {
+ TCollection_AsciiString anArg = aCmd->GetArg(anArgIndex+j);
+ TCollection_AsciiString aValue1 = aCurrentState.at(2*j), aValue2 = aCurrentState.at(2*j+1);
+ bool aV1 = !aValue1.IsEmpty();
+ bool aV2 = !aValue2.IsEmpty();
+ double aValue, aCurrentValue = anArg.IsRealValue() ? anArg.RealValue() : 0;
+ if(aV1 && !aV2) {
+ if(!GetReal(aValue1, aValue))
+ aValue = 0;
+ aValue2 = TCollection_AsciiString( aValue + aCurrentValue );
+ }
+ else if(!aV1 && aV2) {
+ if(!GetReal(aValue2, aValue))
+ aValue = 0;
+ aValue1 = TCollection_AsciiString( aValue - aCurrentValue );
+ }
+ else if(!aV1 && !aV2) {
+ aValue1 = TCollection_AsciiString( 0 );
+ aValue2 = TCollection_AsciiString( aCurrentValue );
+ }
+ aCmd->SetArg(anArgIndex+j, aValue1 + ", " + aValue2 );
+ }
+ */
+ }
}
if(isVariableFound) {
TCollection_AsciiString aDim;
- if(aCurrentStateSize == 6)
- aDim = "6";
+ if(aCurrentStateSize == 6)
+ aDim = "6";
aCmd->SetArg(anArgIndex - 1, TCollection_AsciiString(SMESH_2smeshpy::SmeshpyName())+".PointStructStr"+aDim);
aCmd->SetArg(anArgIndex - 2, TCollection_AsciiString(SMESH_2smeshpy::SmeshpyName())+".DirStructStr");
}
aStates->IncrementState();
}
- else if(aMethod.IsEqual("Rotate") ||
- aMethod.IsEqual("RotateMakeGroups") ||
- aMethod.IsEqual("RotateMakeMesh") ||
+ else if(aMethod.IsEqual("Rotate") ||
+ aMethod.IsEqual("RotateMakeGroups") ||
+ aMethod.IsEqual("RotateMakeMesh") ||
aMethod.IsEqual("RotateObject") ||
aMethod.IsEqual("RotateObjectMakeGroups") ||
aMethod.IsEqual("RotateObjectMakeMesh") ||
- aMethod.IsEqual("RotationSweep") ||
- aMethod.IsEqual("RotationSweepObject") ||
- aMethod.IsEqual("RotationSweepObject1D") ||
- aMethod.IsEqual("RotationSweepObject2D") ||
- aMethod.IsEqual("RotationSweepMakeGroups") ||
- aMethod.IsEqual("RotationSweepObjectMakeGroups") ||
- aMethod.IsEqual("RotationSweepObject1DMakeGroups") ||
- aMethod.IsEqual("RotationSweepObject2DMakeGroups") ||
- aMethod.IsEqual("Mirror") ||
- aMethod.IsEqual("MirrorMakeMesh") ||
+ aMethod.IsEqual("RotationSweep") ||
+ aMethod.IsEqual("RotationSweepObject") ||
+ aMethod.IsEqual("RotationSweepObject1D") ||
+ aMethod.IsEqual("RotationSweepObject2D") ||
+ aMethod.IsEqual("RotationSweepMakeGroups") ||
+ aMethod.IsEqual("RotationSweepObjectMakeGroups") ||
+ aMethod.IsEqual("RotationSweepObject1DMakeGroups") ||
+ aMethod.IsEqual("RotationSweepObject2DMakeGroups") ||
+ aMethod.IsEqual("Mirror") ||
+ aMethod.IsEqual("MirrorMakeMesh") ||
aMethod.IsEqual("MirrorMakeGroups") ||
aMethod.IsEqual("MirrorObject") ||
aMethod.IsEqual("MirrorObjectMakeMesh") ||
aMethod.IsEqual("MirrorObjectMakeGroups")) {
- bool isSubstitute = false;
- int anArgIndex = 0;
- for(int i = 1, n = aCmd->GetNbArgs(); i <= n; i++) {
- if(aCmd->GetArg(i).IsEqual("SMESH.AxisStruct")) {
- anArgIndex = i+1;
- break;
- }
- }
- if(anArgIndex > 0) {
- for(int j = 0; j < aCurrentStateSize; j++) {
- if(!aCurrentState.at(j).IsEmpty()) {
- if(j < 6) // 0-5 - axis struct, 6 - angle (rotation & sweep), 7-8 - nbSteps and tolerance (sweep)
- isSubstitute = true;
- aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
- }
- }
- }
- if(isSubstitute)
- aCmd->SetArg(anArgIndex - 1, TCollection_AsciiString(SMESH_2smeshpy::SmeshpyName())+".AxisStructStr");
- aStates->IncrementState();
- }
- else if(aMethod.IsEqual("AddNode") ||
- aMethod.IsEqual("MoveClosestNodeToPoint")) {
- for(int j = 0; j < aCurrentStateSize; j++) {
- if(!aCurrentState.at(j).IsEmpty())
- aCmd->SetArg(j+1, aCurrentState.at(j));
- }
- aStates->IncrementState();
- }
- else if(aMethod.IsEqual("MoveNode")) {
- for(int j = 0; j < aCurrentStateSize; j++) {
- if(!aCurrentState.at(j).IsEmpty())
- aCmd->SetArg(j+2, aCurrentState.at(j));
- }
- aStates->IncrementState();
- }
- else if(aMethod.IsEqual("ExtrusionSweep") ||
- aMethod.IsEqual("ExtrusionSweepObject") ||
- aMethod.IsEqual("ExtrusionSweepObject1D") ||
- aMethod.IsEqual("ExtrusionSweepObject2D") ||
- aMethod.IsEqual("ExtrusionSweepMakeGroups") ||
- aMethod.IsEqual("ExtrusionSweepObjectMakeGroups") ||
- aMethod.IsEqual("ExtrusionSweepObject1DMakeGroups") ||
- aMethod.IsEqual("ExtrusionSweepObject2DMakeGroups")) {
- bool isSubstitute = false;
- int anArgIndex = 0;
- for(int i = 1, n = aCmd->GetNbArgs(); i <= n; i++) {
- if(aCmd->GetArg(i).IsEqual("SMESH.PointStruct")) {
- anArgIndex = i+1;
- break;
- }
- }
- if(anArgIndex > 0) {
- for(int j = 0; j < aCurrentStateSize; j++) {
- if(!aCurrentState.at(j).IsEmpty()) {
- if(j < 3) // 0-2 - dir struct, 3 - number of steps
- isSubstitute = true;
- aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
- }
- }
- }
- if(isSubstitute) {
+ bool isSubstitute = false;
+ int anArgIndex = 0;
+ for(int i = 1, n = aCmd->GetNbArgs(); i <= n; i++) {
+ if(aCmd->GetArg(i).IsEqual("SMESH.AxisStruct")) {
+ anArgIndex = i+1;
+ break;
+ }
+ }
+ if(anArgIndex > 0) {
+ for(int j = 0; j < aCurrentStateSize; j++) {
+ if(!aCurrentState.at(j).IsEmpty()) {
+ if(j < 6) // 0-5 - axis struct, 6 - angle (rotation & sweep), 7-8 - nbSteps and tolerance (sweep)
+ isSubstitute = true;
+ aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
+ }
+ }
+ }
+ if(isSubstitute)
+ aCmd->SetArg(anArgIndex - 1, TCollection_AsciiString(SMESH_2smeshpy::SmeshpyName())+".AxisStructStr");
+ aStates->IncrementState();
+ }
+ else if(aMethod.IsEqual("AddNode") ||
+ aMethod.IsEqual("MoveClosestNodeToPoint")) {
+ for(int j = 0; j < aCurrentStateSize; j++) {
+ if(!aCurrentState.at(j).IsEmpty())
+ aCmd->SetArg(j+1, aCurrentState.at(j));
+ }
+ aStates->IncrementState();
+ }
+ else if(aMethod.IsEqual("MoveNode")) {
+ for(int j = 0; j < aCurrentStateSize; j++) {
+ if(!aCurrentState.at(j).IsEmpty())
+ aCmd->SetArg(j+2, aCurrentState.at(j));
+ }
+ aStates->IncrementState();
+ }
+ else if(aMethod.IsEqual("ExtrusionSweep") ||
+ aMethod.IsEqual("ExtrusionSweepObject") ||
+ aMethod.IsEqual("ExtrusionSweepObject1D") ||
+ aMethod.IsEqual("ExtrusionSweepObject2D") ||
+ aMethod.IsEqual("ExtrusionSweepMakeGroups") ||
+ aMethod.IsEqual("ExtrusionSweepObjectMakeGroups") ||
+ aMethod.IsEqual("ExtrusionSweepObject1DMakeGroups") ||
+ aMethod.IsEqual("ExtrusionSweepObject2DMakeGroups")) {
+ bool isSubstitute = false;
+ int anArgIndex = 0;
+ for(int i = 1, n = aCmd->GetNbArgs(); i <= n; i++) {
+ if(aCmd->GetArg(i).IsEqual("SMESH.PointStruct")) {
+ anArgIndex = i+1;
+ break;
+ }
+ }
+ if(anArgIndex > 0) {
+ for(int j = 0; j < aCurrentStateSize; j++) {
+ if(!aCurrentState.at(j).IsEmpty()) {
+ if(j < 3) // 0-2 - dir struct, 3 - number of steps
+ isSubstitute = true;
+ aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
+ }
+ }
+ }
+ if(isSubstitute) {
aCmd->SetArg(anArgIndex - 1, TCollection_AsciiString(SMESH_2smeshpy::SmeshpyName())+".PointStructStr");
aCmd->SetArg(anArgIndex - 2, TCollection_AsciiString(SMESH_2smeshpy::SmeshpyName())+".DirStructStr");
- }
- aStates->IncrementState();
- }
- else if(aMethod.IsEqual("ExtrusionAlongPath") ||
- aMethod.IsEqual("ExtrusionAlongPathObject") ||
- aMethod.IsEqual("ExtrusionAlongPathObject1D") ||
- aMethod.IsEqual("ExtrusionAlongPathObject2D") ||
- aMethod.IsEqual("ExtrusionAlongPathMakeGroups") ||
- aMethod.IsEqual("ExtrusionAlongPathObjectMakeGroups") ||
- aMethod.IsEqual("ExtrusionAlongPathObject1DMakeGroups") ||
- aMethod.IsEqual("ExtrusionAlongPathObject2DMakeGroups") ||
- /* workaround for a bug in the command parsing algorithm */
- aCmd->GetString().Search("ExtrusionAlongPathMakeGroups") != -1 ||
- aCmd->GetString().Search("ExtrusionAlongPathObjectMakeGroups") != -1 ||
- aCmd->GetString().Search("ExtrusionAlongPathObject1DMakeGroups") != -1 ||
- aCmd->GetString().Search("ExtrusionAlongPathObject2DMakeGroups") != -1 ) {
- int aNbAngles = aCurrentStateSize-3; // State looks like "Angle1:...:AngleN:X:Y:Z"
- bool isSubstitute = false;
- int anArgIndex = 0;
- for(int i = 1, n = aCmd->GetNbArgs(); i <= n; i++) {
- if(aCmd->GetArg(i).IsEqual("SMESH.PointStruct")) {
- anArgIndex = i-1-aNbAngles;
- break;
- }
- }
- if(anArgIndex > 0) {
- int j = 0;
- for(; j < aNbAngles; j++) {
- if(!aCurrentState.at(j).IsEmpty()) {
- aCmd->SetArg(anArgIndex+j-1, aCurrentState.at(j));
- }
- }
- for(; j < aNbAngles+3; j++) {
- if(!aCurrentState.at(j).IsEmpty()) {
- isSubstitute = true;
- aCmd->SetArg(anArgIndex+j+2, aCurrentState.at(j));
- }
- }
- }
- if(isSubstitute)
- aCmd->SetArg(anArgIndex + aNbAngles + 1,
- TCollection_AsciiString(SMESH_2smeshpy::SmeshpyName())+".PointStructStr");
- aStates->IncrementState();
- }
- else if(aMethod.IsEqual("TriToQuad") ||
- aMethod.IsEqual("Concatenate") ||
- aMethod.IsEqual("ConcatenateWithGroups")) {
- if(aCurrentStateSize && !aCurrentState.at(0).IsEmpty())
- aCmd->SetArg(aCmd->GetNbArgs(), aCurrentState.at(0));
- aStates->IncrementState();
- }
- else if(aMethod.IsEqual("Smooth") ||
- aMethod.IsEqual("SmoothObject") ||
- aMethod.IsEqual("SmoothParametric") ||
- aMethod.IsEqual("SmoothParametricObject")) {
- int anArgIndex = aCmd->GetNbArgs() - 2;
- for(int j = 0; j < aCurrentStateSize; j++) {
- if(!aCurrentState.at(j).IsEmpty())
- aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
- }
- aStates->IncrementState();
- }
- else if(aMethod.IsEqual("ApplyToMeshFaces") ||
- aMethod.IsEqual("ApplyToHexahedrons")) {
- int anArgIndex = aCmd->GetNbArgs()-1;
- for(int j = 0; j < aCurrentStateSize; j++)
- if(!aCurrentState.at(j).IsEmpty())
- aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
- aStates->IncrementState();
- }
+ }
+ aStates->IncrementState();
+ }
+ else if(aMethod.IsEqual("ExtrusionAlongPath") ||
+ aMethod.IsEqual("ExtrusionAlongPathObject") ||
+ aMethod.IsEqual("ExtrusionAlongPathObject1D") ||
+ aMethod.IsEqual("ExtrusionAlongPathObject2D") ||
+ aMethod.IsEqual("ExtrusionAlongPathMakeGroups") ||
+ aMethod.IsEqual("ExtrusionAlongPathObjectMakeGroups") ||
+ aMethod.IsEqual("ExtrusionAlongPathObject1DMakeGroups") ||
+ aMethod.IsEqual("ExtrusionAlongPathObject2DMakeGroups") ||
+ /* workaround for a bug in the command parsing algorithm */
+ aCmd->GetString().Search("ExtrusionAlongPathMakeGroups") != -1 ||
+ aCmd->GetString().Search("ExtrusionAlongPathObjectMakeGroups") != -1 ||
+ aCmd->GetString().Search("ExtrusionAlongPathObject1DMakeGroups") != -1 ||
+ aCmd->GetString().Search("ExtrusionAlongPathObject2DMakeGroups") != -1 ) {
+ int aNbAngles = aCurrentStateSize-3; // State looks like "Angle1:...:AngleN:X:Y:Z"
+ bool isSubstitute = false;
+ int anArgIndex = 0;
+ for(int i = 1, n = aCmd->GetNbArgs(); i <= n; i++) {
+ if(aCmd->GetArg(i).IsEqual("SMESH.PointStruct")) {
+ anArgIndex = i-1-aNbAngles;
+ break;
+ }
+ }
+ if(anArgIndex > 0) {
+ int j = 0;
+ for(; j < aNbAngles; j++) {
+ if(!aCurrentState.at(j).IsEmpty()) {
+ aCmd->SetArg(anArgIndex+j-1, aCurrentState.at(j));
+ }
+ }
+ for(; j < aNbAngles+3; j++) {
+ if(!aCurrentState.at(j).IsEmpty()) {
+ isSubstitute = true;
+ aCmd->SetArg(anArgIndex+j+2, aCurrentState.at(j));
+ }
+ }
+ }
+ if(isSubstitute)
+ aCmd->SetArg(anArgIndex + aNbAngles + 1,
+ TCollection_AsciiString(SMESH_2smeshpy::SmeshpyName())+".PointStructStr");
+ aStates->IncrementState();
+ }
+ else if(aMethod.IsEqual("TriToQuad") ||
+ aMethod.IsEqual("Concatenate") ||
+ aMethod.IsEqual("ConcatenateWithGroups")) {
+ if(aCurrentStateSize && !aCurrentState.at(0).IsEmpty())
+ aCmd->SetArg(aCmd->GetNbArgs(), aCurrentState.at(0));
+ aStates->IncrementState();
+ }
+ else if(aMethod.IsEqual("Smooth") ||
+ aMethod.IsEqual("SmoothObject") ||
+ aMethod.IsEqual("SmoothParametric") ||
+ aMethod.IsEqual("SmoothParametricObject")) {
+ int anArgIndex = aCmd->GetNbArgs() - 2;
+ for(int j = 0; j < aCurrentStateSize; j++) {
+ if(!aCurrentState.at(j).IsEmpty())
+ aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
+ }
+ aStates->IncrementState();
+ }
+ else if(aMethod.IsEqual("ApplyToMeshFaces") ||
+ aMethod.IsEqual("ApplyToHexahedrons")) {
+ int anArgIndex = aCmd->GetNbArgs()-1;
+ for(int j = 0; j < aCurrentStateSize; j++)
+ if(!aCurrentState.at(j).IsEmpty())
+ aCmd->SetArg(anArgIndex+j, aCurrentState.at(j));
+ aStates->IncrementState();
+ }
}
}
else {
if(MYDEBUG)
- cout << "Object not found" << endl;
+ cout << "Object not found" << endl;
}
if(MYDEBUG) {
cout<<"Command after: "<< aCmd->GetString()<<endl;
}
if(MYDEBUG)
cout<<"The object Type : "<<anObjType<<endl;
- ObjectStates *aState = NULL;
+ SMESH_ObjectStates *aState = NULL;
if(anObjType == "LayerDistribution") {
aState = new LayerDistributionStates();
}
else
- aState = new ObjectStates(anObjType);
+ aState = new SMESH_ObjectStates(anObjType);
for(int i = 0; i < aSections->length(); i++) {
TState aVars;
}
aState->AddState(aVars);
}
- _objectMap.insert(pair<TCollection_AsciiString,ObjectStates*>(TCollection_AsciiString(aSObject->GetID()),aState));
+ _objectMap.insert(pair<TCollection_AsciiString,SMESH_ObjectStates*>(TCollection_AsciiString(aSObject->GetID()),aState));
}
}
}
if ( aCommand->GetMethod() == "GetMeshEditor" ) { // MeshEditor creation
myMeshEditors.insert( make_pair( aCommand->GetResultValue(),
- aCommand->GetObject() ) );
+ aCommand->GetObject() ) );
}
}
/*!
- * Set variable of the ObjectStates from position to the _pyCommand
+ * Set variable of the SMESH_ObjectStates from position to the _pyCommand
* method as nbArg argument
*/
-void SetVariable(Handle(_pyCommand) theCommand, const ObjectStates* theStates, int position, int theArgNb)
+void SetVariable(Handle(_pyCommand) theCommand, const SMESH_ObjectStates* theStates, int position, int theArgNb)
{
if(theStates->GetCurrectState().size() > position)
if(!theStates->GetCurrectState().at(position).IsEmpty())