Scilab-Branch-5.3-GIT
- Scilab help
- API Scilab
- Low level functions
- Boolean reading (Scilab gateway)
- Boolean writing (Scilab gateway)
- Boolean sparse reading (Scilab gateway)
- Boolean sparse writing (Scilab gateway)
- Variable Reference (Scilab gateway)
- Variable dimension (Scilab gateway)
- Variable Type (Scilab gateway)
- Variable Complexity (Scilab gateway)
- Matrix Type (Scilab gateway)
- Double reading (Scilab gateway)
- Double writing (Scilab gateway)
- Integer Precision (Scilab gateway)
- Integer reading (Scilab gateway)
- Integer writing (Scilab gateway)
- Pointer reading (Scilab gateway)
- Pointer writing (Scilab gateway)
- Polynomial Symbolic Variable (Scilab gateway)
- Polynomial reading (Scilab gateway)
- Polynomial writing (Scilab gateway)
- Sparse matrix reading (Scilab gateway)
- Sparse writing (Scilab gateway)
- String reading (Scilab gateway)
- String writing (Scilab gateway)
Please note that the recommended version of Scilab is 2025.0.0. This page might be outdated.
However, this page did not exist in the previous stable version.
Integer Precision (Scilab gateway)
How to get precision of an integer matrix.
Calling Sequence
SciErr getMatrixOfIntegerPrecision(void* _pvCtx, int* _piAddress, int* _piPrecision)
SciErr getNamedMatrixOfIntegerPrecision(void* _pvCtx, const char* _pstName, int* _piPrecision)
Arguments
- _pvCtx
Scilab environment pointer, pass in "pvApiCtx" provided by api_scilab.h
- _piAddress
Address of the variable.
- _pstName
Name of the variable for "named" functions.
- _piPrecision
Return precision of an integer variable. ( SCI_INT8, SCI_UINT8, SCI_INT16, ... )
- SciErr
Error structure where is stored errors messages history and first error number.
Description
This help describes how to get precision of an integer matrix.
Gateway Source
SciErr printf_info(int _iVar); int common_function(char *fname,unsigned long fname_len) { SciErr sciErr; int i; int *piAddr1 = NULL; int iBool = 0; for(i = 0 ; i < Rhs ; i++) { sciErr = printf_info(i + 1); if(sciErr.iErr) { printError(&sciErr, 0); break; } sciprint("\n\n"); } //1 for true, 0 for false iBool = sciErr.iErr == 0 ? 1 : 0; sciErr = createMatrixOfBoolean(pvApiCtx, 1, 1, 1, &iBool); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } //assign allocated variables to Lhs position LhsVar(1) = 1; return 0; } SciErr printf_info(int _iVar) { SciErr sciErr; int* piAddr = NULL; int iType = 0; int iRows = 0; int iCols = 0; int iItem = 0; int iComplex = 0; sciErr = getVarAddressFromPosition(pvApiCtx, _iVar, &piAddr); if(sciErr.iErr) { return sciErr; } sciprint("Variable %d information:\n", _iVar); sciErr = getVarType(pvApiCtx, piAddr, &iType); if(sciErr.iErr) { return sciErr; } sciprint("\tType: "); switch(iType) { case sci_matrix : sciprint("double\n"); break; case sci_poly : sciprint("polynomial\n"); break; case sci_boolean : sciprint("boolean\n"); break; case sci_sparse : sciprint("sparse\n"); break; case sci_boolean_sparse : sciprint("boolean_sparse\n"); break; case sci_ints : { char pstSigned[] = "signed"; char pstUnsigned[] = "unsigned"; char* pstSign = pstSigned; int iPrec = 0; sciErr = getMatrixOfIntegerPrecision(pvApiCtx, piAddr, &iPrec); if(sciErr.iErr) { return sciErr; } if(iPrec > 10) { pstSign = pstUnsigned; } sciprint("%s integer %d bits\n", pstSign, (iPrec % 10) * 8); } break; case sci_strings : sciprint("strings\n"); break; case sci_list : sciprint("list\n"); break; case sci_tlist : sciprint("tlist\n"); break; case sci_mlist : sciprint("mlist\n"); break; default : sciprint("Not manage by this function\n"); return sciErr; } if(isVarComplex(pvApiCtx, piAddr)) { sciprint("\tComplex: Yes\n"); } sciprint("\tDimensions: "); if(isVarMatrixType(pvApiCtx, piAddr)) { sciErr = getVarDimension(pvApiCtx, piAddr, &iRows, &iCols); if(sciErr.iErr) { return sciErr; } sciprint("%d x %d", iRows, iCols); } else { sciErr = getListItemNumber(pvApiCtx, piAddr, &iItem); if(sciErr.iErr) { return sciErr; } sciprint("%d", iItem); } return sciErr; }
Scilab test script
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