SciErr allocMatrixOfBoolean(void* _pvCtx, int _iVar, int _iRows, int _iCols, int** _piBool)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int *piAddr = NULL;
int iNewPos = Top - Rhs + _iVar;
int iAddr = *Lstk(iNewPos);
//return empty matrix
if(_iRows == 0 && _iCols == 0)
{
double dblReal = 0;
sciErr = createMatrixOfDouble(_pvCtx, _iVar, 0, 0, &dblReal);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_EMPTY_MATRIX, _("%s: Unable to create variable in Scilab memory"), "createEmptyMatrix");
}
return sciErr;
}
int iMemSize = (int)(((double)(_iRows * _iCols) / 2) + 2);
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(iAddr));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, iNewPos, &piAddr);
fillMatrixOfBoolean(_pvCtx, piAddr, _iRows, _iCols, _piBool);
updateInterSCI(_iVar, '$', iAddr, sadr(iadr(iAddr) + 3));
updateLstk(iNewPos, sadr(iadr(iAddr) + 3), (_iRows * _iCols) / (sizeof(double) / sizeof(int)));
return sciErr;
}
SciErr createCommonMatrixOfPoly(void* _pvCtx, int _iVar, int _iComplex, char* _pstVarName, int _iRows, int _iCols, const int* _piNbCoef, const double* const* _pdblReal, const double* const* _pdblImg)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int *piAddr = NULL;
int iSize = _iRows * _iCols;
int iNewPos = Top - Rhs + _iVar;
int iAddr = *Lstk(iNewPos);
int iTotalLen = 0;
//return empty matrix
if(_iRows == 0 && _iCols == 0)
{
double dblReal = 0;
sciErr = createMatrixOfDouble(_pvCtx, _iVar, 0, 0, &dblReal);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_EMPTY_MATRIX, _("%s: Unable to create variable in Scilab memory"), "createEmptyMatrix");
}
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, iNewPos, &piAddr);
sciErr = fillCommonMatrixOfPoly(_pvCtx, piAddr, _pstVarName, _iComplex, _iRows, _iCols, _piNbCoef, _pdblReal, _pdblImg, &iTotalLen);
if(sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_POLY, _("%s: Unable to create variable in Scilab memory"), _iComplex ? "createComplexMatrixOfPoly" : "createMatrixOfPoly");
return sciErr;
}
updateInterSCI(_iVar, '$', iAddr, iAddr + 4 + 4 + iSize + 1);
updateLstk(iNewPos, iAddr + 4 + 4 + iSize + 1, iTotalLen);
return sciErr;
}
SciErr allocPointer(void* _pvCtx, int _iVar, void** _pvPtr)
{
SciErr sciErr;
sciErr.iErr = 0;
sciErr.iMsgCount = 0;
int iNewPos = Top - Rhs + _iVar;
int iAddr = *Lstk(iNewPos);
int* piAddr = NULL;
void* pvPtr = NULL;
int iMemSize = 2;
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(iAddr));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, iNewPos, &piAddr);
sciErr = fillPointer(_pvCtx, piAddr, &pvPtr);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_ALLOC_POINTER, _("%s: Unable to create variable in Scilab memory"), "allocPointer");
return sciErr;
}
*_pvPtr = pvPtr;
updateInterSCI(_iVar, '$', iAddr, sadr(iadr(iAddr) + 4));
updateLstk(iNewPos, sadr(iadr(iAddr) + 4), 2);
return sciErr;
}
SciErr createCommonNamedMatrixOfPoly(void* _pvCtx, const char* _pstName, char* _pstVarName, int _iComplex, int _iRows, int _iCols, const int* _piNbCoef, const double* const* _pdblReal, const double* const* _pdblImg)
{
SciErr sciErr;
sciErr.iErr = 0;
sciErr.iMsgCount = 0;
int iVarID[nsiz];
int iSaveRhs = Rhs;
int iSaveTop = Top;
int *piAddr = NULL;
int iTotalLen = 0;
//return named empty matrix
if (_iRows == 0 && _iCols == 0)
{
double dblReal = 0;
sciErr = createNamedMatrixOfDouble(_pvCtx, _pstName, 0, 0, &dblReal);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_EMPTY_MATRIX, _("%s: Unable to create variable in Scilab memory"), "createNamedEmptyMatrix");
}
return sciErr;
}
if (!checkNamedVarFormat(_pvCtx, _pstName))
{
addErrorMessage(&sciErr, API_ERROR_INVALID_NAME, _("%s: Invalid variable name."), "createCommonNamedMatrixOfPoly");
return sciErr;
}
C2F(str2name)(_pstName, iVarID, (unsigned long)strlen(_pstName));
Top = Top + Nbvars + 1;
getNewVarAddressFromPosition(_pvCtx, Top, &piAddr);
//write matrix information
sciErr = fillCommonMatrixOfPoly(_pvCtx, piAddr, _pstVarName, _iComplex, _iRows, _iCols, _piNbCoef, _pdblReal, _pdblImg, &iTotalLen);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_POLY, _("%s: Unable to create %s named \"%s\""), _iComplex ? "createNamedComplexMatrixOfPoly" : "createNamedMatrixOfPoly", _("matrix of double"), _pstName);
return sciErr;
}
//update "variable index"
updateLstk(Top, *Lstk(Top) + 4, iTotalLen);
Rhs = 0;
//Add name in stack reference list
createNamedVariable(iVarID);
Top = iSaveTop;
Rhs = iSaveRhs;
return sciErr;
}
SciErr createCommonNamedMatrixOfDouble(void* _pvCtx, const char* _pstName, int _iComplex, int _iRows, int _iCols, const double* _pdblReal, const double* _pdblImg)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int iVarID[nsiz];
int iSaveRhs = Rhs;
int iSaveTop = Top;
int iSize = _iRows * _iCols;
int *piAddr = NULL;
double *pdblReal = NULL;
double *pdblImg = NULL;
int iOne = 1;
if (!checkNamedVarFormat(_pvCtx, _pstName))
{
addErrorMessage(&sciErr, API_ERROR_INVALID_NAME, _("%s: Invalid variable name."), "createCommonNamedMatrixOfDouble");
return sciErr;
}
C2F(str2name)(_pstName, iVarID, (int)strlen(_pstName));
Top = Top + Nbvars + 1;
int iMemSize = _iRows * _iCols * (_iComplex + 1) + 2;
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(Top));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, Top, &piAddr);
//write matrix information
fillCommonMatrixOfDouble(_pvCtx, piAddr, _iComplex, _iRows, _iCols, &pdblReal, &pdblImg);
//copy data in stack
C2F(dcopy)(&iSize, const_cast<double*>(_pdblReal), &iOne, pdblReal, &iOne);
if(_iComplex)
{
C2F(dcopy)(&iSize, const_cast<double*>(_pdblImg), &iOne, pdblImg, &iOne);
}
//update "variable index"
updateLstk(Top, *Lstk(Top) + sadr(4), iSize * (_iComplex + 1) * 2);
Rhs = 0;
//Add name in stack reference list
createNamedVariable(iVarID);
Top = iSaveTop;
Rhs = iSaveRhs;
return sciErr;
}
SciErr createNamedPointer(void* _pvCtx, const char* _pstName, int* _pvPtr)
{
SciErr sciErr;
sciErr.iErr = 0;
sciErr.iMsgCount = 0;
int iVarID[nsiz];
int iSaveRhs = Rhs;
int iSaveTop = Top;
void* pvPtr = NULL;
int *piAddr = NULL;
if (!checkNamedVarFormat(_pvCtx, _pstName))
{
addErrorMessage(&sciErr, API_ERROR_INVALID_NAME, _("%s: Invalid variable name."), "createNamedPointer");
return sciErr;
}
C2F(str2name)(_pstName, iVarID, (int)strlen(_pstName));
Top = Top + Nbvars + 1;
int iMemSize = 1;
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(*Lstk(Top)));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, Top, &piAddr);
//write matrix information
sciErr = fillPointer(_pvCtx, piAddr, &pvPtr);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_POINTER, _("%s: Unable to create %s named \"%s\""), "createNamedPointer", _("pointer"), _pstName);
return sciErr;
}
//copy data in stack
((double*)pvPtr)[0] = (double) ((unsigned long int)_pvPtr);
updateLstk(Top, *Lstk(Top) + sadr(4), 2);
Rhs = 0;
//Add name in stack reference list
createNamedVariable(iVarID);
Top = iSaveTop;
Rhs = iSaveRhs;
return sciErr;
}
SciErr allocCommonSparseMatrix(void* _pvCtx, int _iVar, int _iComplex, int _iRows, int _iCols, int _iNbItem, int** _piNbItemRow, int** _piColPos, double** _pdblReal, double** _pdblImg)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int iNewPos = Top - Rhs + _iVar;
int iAddr = *Lstk(iNewPos);
int iTotalSize = 0;
int iOffset = 0;
int* piAddr = NULL;
//return empty matrix
if(_iRows == 0 && _iCols == 0)
{
double dblReal = 0;
sciErr = createMatrixOfDouble(_pvCtx, _iVar, 0, 0, &dblReal);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_EMPTY_MATRIX, _("%s: Unable to create variable in Scilab memory"), "createEmptyMatrix");
}
return sciErr;
}
//header + offset
int iMemSize = (5 + _iRows + _iNbItem + !((_iRows + _iNbItem) % 2)) / 2;
//+ items size
iMemSize += _iNbItem * (_iComplex + 1);
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(iAddr));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, iNewPos, &piAddr);
sciErr = fillCommonSparseMatrix(_pvCtx, piAddr, _iComplex, _iRows, _iCols, _iNbItem, _piNbItemRow, _piColPos, _pdblReal, _pdblImg, &iTotalSize);
if(sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_ALLOC_SPARSE, _("%s: Unable to create variable in Scilab memory"), _iComplex ? "allocComplexSparseMatrix" : "allocSparseMatrix");
return sciErr;
}
iOffset = 5;//4 for header + 1 for NbItem
iOffset += _iRows + _iNbItem + !((_iRows + _iNbItem) % 2);
updateInterSCI(_iVar, '$', iAddr, sadr(iadr(iAddr) + iOffset));
updateLstk(iNewPos, sadr(iadr(iAddr) + iOffset), iTotalSize);
return sciErr;
}
SciErr allocBooleanSparseMatrix(void* _pvCtx, int _iVar, int _iRows, int _iCols, int _iNbItem, int** _piNbItemRow, int** _piColPos)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int iNewPos = Top - Rhs + _iVar;
int iAddr = *Lstk(iNewPos);
int iPos = 5 + _iRows + _iNbItem;
int* piAddr = NULL;
//return empty matrix
if(_iRows == 0 && _iCols == 0)
{
double dblReal = 0;
sciErr = createMatrixOfDouble(_pvCtx, _iVar, 0, 0, &dblReal);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_EMPTY_MATRIX, _("%s: Unable to create variable in Scilab memory"), "createEmptyMatrix");
}
return sciErr;
}
int iMemSize = (int)( ( (double)iPos / 2 ) + 0.5);
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(iAddr));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, iNewPos, &piAddr);
sciErr = fillBooleanSparseMatrix(_pvCtx, piAddr, _iRows, _iCols, _iNbItem, _piNbItemRow, _piColPos);
if(sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_ALLOC_BOOLEAN_SPARSE, _("%s: Unable to create variable in Scilab memory"), "allocBooleanSparseMatrix");
return sciErr;
}
iPos += iAddr;
updateInterSCI(_iVar, '$', iAddr, iPos);
updateLstk(iNewPos, iPos, 0);
return sciErr;
}
SciErr allocCommonMatrixOfDouble(void* _pvCtx, int _iVar, int _iComplex, int _iRows, int _iCols, double** _pdblReal, double** _pdblImg)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int iNewPos = Top - Rhs + _iVar;
int iAddr = *Lstk(iNewPos);
int* piAddr = NULL;
int iMemSize = _iRows * _iCols * (_iComplex + 1) + 2;
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(iAddr));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, iNewPos, &piAddr);
fillCommonMatrixOfDouble(_pvCtx, piAddr, _iComplex, _iRows, _iCols, _pdblReal, _pdblImg);
updateInterSCI(_iVar, '$', iAddr, sadr(iadr(iAddr) + 4));
updateLstk(iNewPos, sadr(iadr(iAddr) + 4), _iRows * _iCols * (_iComplex + 1));
return sciErr;
}
SciErr createNamedComplexZMatrixOfDouble(void* _pvCtx, const char* _pstName, int _iRows, int _iCols, const doublecomplex* _pdblData)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int iVarID[nsiz];
int iSaveRhs = Rhs;
int iSaveTop = Top;
int iSize = _iRows * _iCols;
int *piAddr = NULL;
double *pdblReal = NULL;
double *pdblImg = NULL;
if (!checkNamedVarFormat(_pvCtx, _pstName))
{
addErrorMessage(&sciErr, API_ERROR_INVALID_NAME, _("%s: Invalid variable name."), "createNamedComplexZMatrixOfDouble");
return sciErr;
}
C2F(str2name)(_pstName, iVarID, (int)strlen(_pstName));
Top = Top + Nbvars + 1;
getNewVarAddressFromPosition(_pvCtx, Top, &piAddr);
//write matrix information
fillCommonMatrixOfDouble(_pvCtx, piAddr, 1, _iRows, _iCols, &pdblReal, &pdblImg);
vGetPointerFromDoubleComplex(_pdblData, _iRows * _iCols, pdblReal, pdblImg);
//update "variable index"
updateLstk(Top, *Lstk(Top) + sadr(4), iSize * (2) * 2);
Rhs = 0;
//Add name in stack reference list
createNamedVariable(iVarID);
Top = iSaveTop;
Rhs = iSaveRhs;
return sciErr;
}
SciErr createNamedBooleanSparseMatrix(void* _pvCtx, const char* _pstName, int _iRows, int _iCols, int _iNbItem, const int* _piNbItemRow, const int* _piColPos)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int iVarID[nsiz];
int iSaveRhs = Rhs;
int iSaveTop = Top;
int iPos = 0;
int* piAddr = NULL;
int* piNbItemRow = NULL;
int* piColPos = NULL;
//return named empty matrix
if(_iRows == 0 && _iCols == 0)
{
double dblReal = 0;
sciErr = createNamedMatrixOfDouble(_pvCtx, _pstName, 0, 0, &dblReal);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_EMPTY_MATRIX, _("%s: Unable to create variable in Scilab memory"), "createNamedEmptyMatrix");
}
return sciErr;
}
if (!checkNamedVarFormat(_pvCtx, _pstName))
{
addErrorMessage(&sciErr, API_ERROR_INVALID_NAME, _("%s: Invalid variable name."), "createNamedBooleanSparseMatrix");
return sciErr;
}
C2F(str2name)(_pstName, iVarID, (int)strlen(_pstName));
Top = Top + Nbvars + 1;
int iMemSize = (int)( ( (double)iPos / 2) + 0.5);
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(Top));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, Top, &piAddr);
sciErr = fillBooleanSparseMatrix(_pvCtx, piAddr, _iRows, _iCols, _iNbItem, &piNbItemRow, &piColPos);
if(sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_BOOLEAN_SPARSE, _("%s: Unable to create %s named \"%s\""), "createNamedBooleanSparseMatrix", _("boolean sparse matrix"), _pstName);
return sciErr;
}
memcpy(piNbItemRow, _piNbItemRow, _iRows * sizeof(int));
memcpy(piColPos, _piColPos, _iNbItem * sizeof(int));
iPos = 5;//4 for header + 1 for NbItem
iPos += _iRows + _iNbItem;
//update "variable index"
updateLstk(Top, *Lstk(Top) + iPos, 0);
Rhs = 0;
//Add name in stack reference list
createNamedVariable(iVarID);
Top = iSaveTop;
Rhs = iSaveRhs;
return sciErr;
}
SciErr createNamedMatrixOfBoolean(void* _pvCtx, const char* _pstName, int _iRows, int _iCols, const int* _piBool)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int iVarID[nsiz];
int iSaveRhs = Rhs;
int iSaveTop = Top;
int* piBool = NULL;
int *piAddr = NULL;
//return named empty matrix
if(_iRows == 0 && _iCols == 0)
{
double dblReal = 0;
sciErr = createNamedMatrixOfDouble(_pvCtx, _pstName, 0, 0, &dblReal);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_EMPTY_MATRIX, _("%s: Unable to create variable in Scilab memory"), "createNamedEmptyMatrix");
}
return sciErr;
}
if (!checkNamedVarFormat(_pvCtx, _pstName))
{
addErrorMessage(&sciErr, API_ERROR_INVALID_NAME, _("%s: Invalid variable name."), "createNamedMatrixOfBoolean");
return sciErr;
}
C2F(str2name)(_pstName, iVarID, (int)strlen(_pstName));
Top = Top + Nbvars + 1;
int iMemSize = (int)(((double)(_iRows * _iCols) / 2) + 2);
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(*Lstk(Top)));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, Top, &piAddr);
//write matrix information
sciErr = fillMatrixOfBoolean(_pvCtx, piAddr, _iRows, _iCols, &piBool);
if(sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_BOOLEAN, _("%s: Unable to create %s named \"%s\""), "createNamedMatrixOfBoolean", _("matrix of boolean"), _pstName);
return sciErr;
}
//copy data in stack
memcpy(piBool, _piBool, sizeof(int) * _iRows * _iCols);
updateLstk(Top, *Lstk(Top) + sadr(3), (_iRows * _iCols) / (sizeof(double)/sizeof(int)));
Rhs = 0;
//Add name in stack reference list
createNamedVariable(iVarID);
Top = iSaveTop;
Rhs = iSaveRhs;
return sciErr;
}
SciErr createCommonNamedSparseMatrix(void* _pvCtx, const char* _pstName, int _iComplex, int _iRows, int _iCols, int _iNbItem, const int* _piNbItemRow, const int* _piColPos, const double* _pdblReal, const double* _pdblImg)
{
SciErr sciErr; sciErr.iErr = 0; sciErr.iMsgCount = 0;
int iVarID[nsiz];
int iSaveRhs = Rhs;
int iSaveTop = Top;
int iTotalSize = 0;
int iPos = 0;
int* piAddr = NULL;
int* piNbItemRow = NULL;
int* piColPos = NULL;
int iOne = 1;
double* pdblReal = NULL;
double* pdblImg = NULL;
//return named empty matrix
if(_iRows == 0 && _iCols == 0)
{
double dblReal = 0;
sciErr = createNamedMatrixOfDouble(_pvCtx, _pstName, 0, 0, &dblReal);
if (sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_EMPTY_MATRIX, _("%s: Unable to create variable in Scilab memory"), "createNamedEmptyMatrix");
}
return sciErr;
}
if (!checkNamedVarFormat(_pvCtx, _pstName))
{
addErrorMessage(&sciErr, API_ERROR_INVALID_NAME, _("%s: Invalid variable name."), "createCommonNamedSparseMatrix");
return sciErr;
}
C2F(str2name)(_pstName, iVarID, (int)strlen(_pstName));
Top = Top + Nbvars + 1;
//header + offset
int iMemSize = (5 + _iRows + _iNbItem + !((_iRows + _iNbItem) % 2)) / 2;
//+ items size
iMemSize += _iNbItem * (_iComplex + 1);
int iFreeSpace = iadr(*Lstk(Bot)) - (iadr(*Lstk(Top)));
if (iMemSize > iFreeSpace)
{
addStackSizeError(&sciErr, ((StrCtx*)_pvCtx)->pstName, iMemSize);
return sciErr;
}
getNewVarAddressFromPosition(_pvCtx, Top, &piAddr);
sciErr = fillCommonSparseMatrix(_pvCtx, piAddr, _iComplex, _iRows, _iCols, _iNbItem, &piNbItemRow, &piColPos, &pdblReal, &pdblImg, &iTotalSize);
if(sciErr.iErr)
{
addErrorMessage(&sciErr, API_ERROR_CREATE_NAMED_SPARSE, _("%s: Unable to create %s named \"%s\""), _iComplex ? "createNamedComplexSparseMatrix" : "createNamedSparseMatrix", _("sparse matrix"), _pstName);
return sciErr;
}
memcpy(piNbItemRow, _piNbItemRow, _iRows * sizeof(int));
memcpy(piColPos, _piColPos, _iNbItem * sizeof(int));
C2F(dcopy)(&_iNbItem, const_cast<double*>(_pdblReal), &iOne, pdblReal, &iOne);
if(_iComplex)
{
C2F(dcopy)(&_iNbItem, const_cast<double*>(_pdblImg), &iOne, pdblImg, &iOne);
}
iPos = 5;//4 for header + 1 for NbItem
iPos += _iRows + _iNbItem;
//update "variable index"
updateLstk(Top, *Lstk(Top) + iPos, iTotalSize);
Rhs = 0;
//Add name in stack reference list
createNamedVariable(iVarID);
Top = iSaveTop;
Rhs = iSaveRhs;
return sciErr;
}
