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- 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 This page might be outdated.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.
Double reading (Scilab gateway)
How to read matrix of double in a list.
Calling Sequence
Input argument profile:
SciErr getMatrixOfDoubleInList(void* _pvCtx, int* _piParent, int _iItemPos, int* _piRows, int* _piCols, double** _pdblReal)
SciErr getComplexMatrixOfDoubleInList(void* _pvCtx, int* _piParent, int _iItemPos, int* _piRows, int* _piCols, double** _pdblReal, double** _pdblImg)
Named variable profile:
SciErr readMatrixOfDoubleInNamedList(void* _pvCtx, const char* _pstName, int* _piParent, int _iItemPos, int* _piRows, int* _piCols, double* _pdblReal)
SciErr readComplexMatrixOfDoubleInNamedList(void* _pvCtx, const char* _pstName, int* _piParent, int _iItemPos, int* _piRows, int* _piCols, double* _pdblReal, double* _pdblImg)
Arguments
- _pvCtx
Scilab environment pointer, pass in "pvApiCtx" provided by api_scilab.h.
- _piParent
Address of the parent of the new item.
- _pstName
Name of the variable for "named" functions.
- _iItemPos
Position of the new item in the list.
- _piRows
Return number of rows of the variable.
- _piCols
Return number of columns of the variable.
- _pdblReal
Return address of real part data array (size: _iRows * _iCols).
- _pdblImg
Return address of imaginary part data array (size: _iRows * _iCols).
- SciErr
Error structure where is stored errors messages history and first error number.
Description
This help describes how to read matrix of double in a list.
Gateway Source
static int iTab = 0; void insert_indent(void) { int i = 0; for(i = 0 ; i < iTab ; i++) { sciprint("\t"); } } int get_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_list_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_double_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_poly_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_boolean_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_sparse_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_bsparse_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_integer_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_string_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int get_pointer_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos); int common_read(char *fname,unsigned long fname_len) { SciErr sciErr; int iItem = 0; int iRet = 0; int *piAddr = NULL; CheckRhs(1,1); sciErr = getVarAddressFromPosition(pvApiCtx, 1, &piAddr); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } get_info(1, NULL, piAddr, 0); LhsVar(1) = 0; return 0; } int get_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int iRet = 0; int iType = 0; sciErr = getVarType(pvApiCtx, _piAddr, &iType); switch(iType) { case sci_matrix : iRet = get_double_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_poly : iRet = get_poly_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_boolean : iRet = get_boolean_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_sparse : iRet = get_sparse_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_boolean_sparse : iRet = get_bsparse_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_ints : iRet = get_integer_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_strings : iRet = get_string_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_list : insert_indent(); sciprint("List "); iRet = get_list_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_tlist : insert_indent(); sciprint("TList "); iRet = get_list_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_mlist : insert_indent(); sciprint("MList "); iRet = get_list_info(_iRhs, _piParent, _piAddr, _iItemPos); break; case sci_pointer : iRet = get_pointer_info(_iRhs, _piParent, _piAddr, _iItemPos); break; default : insert_indent(); sciprint("Unknown type\n"); return 1; } return iRet; } int get_list_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int i; int iRet = 0; int iItem = 0; int* piChild = NULL; sciErr = getListItemNumber(pvApiCtx, _piAddr, &iItem); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } sciprint("(%d)\n", iItem); for(i = 0 ; i < iItem ; i++) { sciErr = getListItemAddress(pvApiCtx, _piAddr, i + 1, &piChild); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } iTab++; iRet = get_info(_iRhs, _piAddr, piChild, i + 1); iTab--; } return 0;; } int get_double_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int iRows = 0; int iCols = 0; double* pdblReal = NULL; double* pdblImg = NULL; if(_iItemPos == 0) {//not in list if(isVarComplex(pvApiCtx, _piAddr)) { sciErr = getComplexMatrixOfDouble(pvApiCtx, _piAddr, &iRows, &iCols, &pdblReal, &pdblImg); } else { sciErr = getMatrixOfDouble(pvApiCtx, _piAddr, &iRows, &iCols, &pdblReal); } } else { if(isVarComplex(pvApiCtx, _piAddr)) { sciErr = getComplexMatrixOfDoubleInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &pdblReal, &pdblImg); } else { sciErr = getMatrixOfDoubleInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &pdblReal); } } if(sciErr.iErr) { printError(&sciErr, 0); return 0; } insert_indent(); sciprint("Double (%d x %d)\n", iRows, iCols); return 0;; } int get_poly_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int i; int iLen = 0; int iRows = 0; int iCols = 0; char pstVar[16]; int* piCoeff = NULL; double** pdblReal = NULL; double** pdblImg = NULL; sciErr = getPolyVariableName(pvApiCtx, _piAddr, pstVar, &iLen); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } if(_iItemPos == 0) {//not in list sciErr = getMatrixOfPoly(pvApiCtx, _piAddr, &iRows, &iCols, NULL, NULL); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } piCoeff = (int*)malloc(sizeof(int) * iRows * iCols); sciErr = getMatrixOfPoly(pvApiCtx, _piAddr, &iRows, &iCols, piCoeff, NULL); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } pdblReal = (double**)malloc(sizeof(double*) * iRows * iCols); pdblImg = (double**)malloc(sizeof(double*) * iRows * iCols); for(i = 0 ; i < iRows * iCols ; i++) { pdblReal[i] = (double*)malloc(sizeof(double) * piCoeff[i]); pdblImg[i] = (double*)malloc(sizeof(double) * piCoeff[i]); } if(isVarComplex(pvApiCtx, _piAddr)) { sciErr = getComplexMatrixOfPoly(pvApiCtx, _piAddr, &iRows, &iCols, piCoeff, pdblReal, pdblImg); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } } else { sciErr = getMatrixOfPoly(pvApiCtx, _piAddr, &iRows, &iCols, piCoeff, pdblReal); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } } } else { sciErr = getMatrixOfPolyInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, NULL, NULL); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } piCoeff = (int*)malloc(sizeof(int) * iRows * iCols); sciErr = getMatrixOfPolyInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, piCoeff, NULL); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } pdblReal = (double**)malloc(sizeof(double*) * iRows * iCols); pdblImg = (double**)malloc(sizeof(double*) * iRows * iCols); for(i = 0 ; i < iRows * iCols ; i++) { pdblReal[i] = (double*)malloc(sizeof(double) * piCoeff[i]); pdblImg[i] = (double*)malloc(sizeof(double) * piCoeff[i]); } if(isVarComplex(pvApiCtx, _piAddr)) { sciErr = getComplexMatrixOfPolyInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, piCoeff, pdblReal, pdblImg); } else { sciErr = getMatrixOfPolyInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, piCoeff, pdblReal); } } if(sciErr.iErr) { printError(&sciErr, 0); return 0; } insert_indent(); sciprint("Poly (%d x %d), varname : \'%s\'\n", iRows, iCols, pstVar); for(i = 0 ; i < iRows * iCols ; i++) { free(pdblReal[i]); free(pdblImg[i]); } free(pdblReal); free(pdblImg); free(piCoeff); return 0;; } int get_boolean_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int iRows = 0; int iCols = 0; int* piBool = NULL; if(_iItemPos == 0) { sciErr = getMatrixOfBoolean(pvApiCtx, _piAddr, &iRows, &iCols, &piBool); } else { sciErr = getMatrixOfBooleanInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &piBool); } if(sciErr.iErr) { printError(&sciErr, 0); return 0; } insert_indent(); sciprint("Boolean (%d x %d)\n", iRows, iCols); return 0; } int get_sparse_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int iRows = 0; int iCols = 0; int iItem = 0; int* piNbRow = NULL; int* piColPos = NULL; double* pdblReal = NULL; double* pdblImg = NULL; if(_iItemPos == 0) {//Not in list if(isVarComplex(pvApiCtx, _piAddr)) { sciErr = getComplexSparseMatrix(pvApiCtx, _piAddr, &iRows, &iCols, &iItem, &piNbRow, &piColPos, &pdblReal, &pdblImg); } else { sciErr = getSparseMatrix(pvApiCtx, _piAddr, &iRows, &iCols, &iItem, &piNbRow, &piColPos, &pdblReal); } } else { if(isVarComplex(pvApiCtx, _piAddr)) { sciErr = getComplexSparseMatrixInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &iItem, &piNbRow, &piColPos, &pdblReal, &pdblImg); } else { sciErr = getSparseMatrixInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &iItem, &piNbRow, &piColPos, &pdblReal); } } insert_indent(); sciprint("Sparse (%d x %d), Item(s) : %d \n", iRows, iCols, iItem); return 0;; } int get_bsparse_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int iRows = 0; int iCols = 0; int iItem = 0; int* piNbRow = NULL; int* piColPos = NULL; if(_iItemPos == 0) {//Not in list sciErr = getBooleanSparseMatrix(pvApiCtx, _piAddr, &iRows, &iCols, &iItem, &piNbRow, &piColPos); } else { sciErr = getBooleanSparseMatrixInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &iItem, &piNbRow, &piColPos); } if(sciErr.iErr) { printError(&sciErr, 0); return 0; } insert_indent(); sciprint("Boolean Sparse (%d x %d), Item(s) : %d \n", iRows, iCols, iItem); return 0;; } int get_integer_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int iPrec = 0; int iRows = 0; int iCols = 0; char* pcData = NULL; short* psData = NULL; int* piData = NULL; unsigned char* pucData = NULL; unsigned short* pusData = NULL; unsigned int* puiData = NULL; if(_iItemPos == 0) {//Not in list sciErr = getMatrixOfIntegerPrecision(pvApiCtx, _piAddr, &iPrec); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } switch(iPrec) { case SCI_INT8 : sciErr = getMatrixOfInteger8(pvApiCtx, _piAddr, &iRows, &iCols, &pcData); break; case SCI_INT16 : sciErr = getMatrixOfInteger16(pvApiCtx, _piAddr, &iRows, &iCols, &psData); break; case SCI_INT32 : sciErr = getMatrixOfInteger32(pvApiCtx, _piAddr, &iRows, &iCols, &piData); break; case SCI_UINT8 : sciErr = getMatrixOfUnsignedInteger8(pvApiCtx, _piAddr, &iRows, &iCols, &pucData); break; case SCI_UINT16 : sciErr = getMatrixOfUnsignedInteger16(pvApiCtx, _piAddr, &iRows, &iCols, &pusData); break; case SCI_UINT32 : sciErr = getMatrixOfUnsignedInteger32(pvApiCtx, _piAddr, &iRows, &iCols, &puiData); break; default : return 1; } } else { sciErr = getMatrixOfIntegerPrecision(pvApiCtx, _piAddr, &iPrec); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } switch(iPrec) { case SCI_INT8 : sciErr = getMatrixOfInteger8InList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &pcData); break; case SCI_INT16 : sciErr = getMatrixOfInteger16InList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &psData); break; case SCI_INT32 : sciErr = getMatrixOfInteger32InList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &piData); break; case SCI_UINT8 : sciErr = getMatrixOfUnsignedInteger8InList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &pucData); break; case SCI_UINT16 : sciErr = getMatrixOfUnsignedInteger16InList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &pusData); break; case SCI_UINT32 : sciErr = getMatrixOfUnsignedInteger32InList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, &puiData); break; default : return 1; } } if(sciErr.iErr) { printError(&sciErr, 0); return 0; } insert_indent(); if(iPrec > 10) { sciprint("Unsigned "); } sciprint("Integer %d bits (%d x %d)\n", (iPrec % 10) * 8, iRows, iCols); return 0;; } int get_string_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; int i; int iRows = 0; int iCols = 0; int* piLen = NULL; char **pstData = NULL; if(_iItemPos == 0) {//Not in list sciErr = getMatrixOfString(pvApiCtx, _piAddr, &iRows, &iCols, NULL, NULL); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } piLen = (int*)malloc(sizeof(int) * iRows * iCols); sciErr = getMatrixOfString(pvApiCtx, _piAddr, &iRows, &iCols, piLen, NULL); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } pstData = (char**)malloc(sizeof(char*) * iRows * iCols); for(i = 0 ; i < iRows * iCols ; i++) { pstData[i] = (char*)malloc(sizeof(char) * (piLen[i] + 1));//+ 1 for null termination } sciErr = getMatrixOfString(pvApiCtx, _piAddr, &iRows, &iCols, piLen, pstData); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } } else { sciErr = getMatrixOfStringInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, NULL, NULL); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } piLen = (int*)malloc(sizeof(int) * iRows * iCols); sciErr = getMatrixOfStringInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, piLen, NULL); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } pstData = (char**)malloc(sizeof(char*) * iRows * iCols); for(i = 0 ; i < iRows * iCols ; i++) { pstData[i] = (char*)malloc(sizeof(char) * (piLen[i] + 1));//+ 1 for null termination } sciErr = getMatrixOfStringInList(pvApiCtx, _piParent, _iItemPos, &iRows, &iCols, piLen, pstData); if(sciErr.iErr) { printError(&sciErr, 0); return 0; } } if(sciErr.iErr) { printError(&sciErr, 0); return 0; } insert_indent(); sciprint("Strings (%d x %d)\n", iRows, iCols); return 0;; } int get_pointer_info(int _iRhs, int* _piParent, int *_piAddr, int _iItemPos) { SciErr sciErr; void* pvPtr = NULL; if(_iItemPos == 0) { sciErr = getPointer(pvApiCtx, _piAddr, &pvPtr); } else { sciErr = getPointerInList(pvApiCtx, _piParent, _iItemPos, &pvPtr); } if(sciErr.iErr) { printError(&sciErr, 0); return 0; } insert_indent(); sciprint("Pointer : 0x%08X\n", pvPtr); return 0; }
Scilab test script
function read_all() d = [1,2,3;4,5,6;7,8,9];common_read(d); s=poly(0,"x");p=1+s+2*s^2;p = [(p * 2),(p * s + 3);(p * 2 * s ** 2 - 6),(12 - 4 * p * (- s) ** 2)];common_read(p); b = [%t,%f;%t,%f;%f,%t];common_read(b); sp=sparse([2,-1,0,0,0;-1,2,-1,0,0;0,-1,2,-1,0;0,0,-1,2,-1;0,0,0,-1,2]);common_read(sp); bsp=sparse([1,2;4,5;3,10],[%t,%t,%t]);common_read(bsp); i8 = int8([1,2,3]);common_read(i8); ui32 = uint32([3;2;1]);common_read(ui32); str = ["may", "the", "puffin"; "be", "with","you"];common_read(str); if with_module('umfpack') then Cp = taucs_chfact(sp); l = list(list(d, p, list(b, sp)), list(i8, bsp), list(ui32, str), Cp); else l = list(list(d, p, list(b, sp)), list(i8, bsp), list(ui32, str)); end common_read(l) endfunction read_all;
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