// ============================================================================= static int sci_csvDefault_two_rhs(char *fname, void* pvApiCtx) { int iErr = 0; int resultSet = 0; char *fieldname = NULL; char *fieldvalue = NULL; int ifieldvalue = 0; fieldname = csv_getArgumentAsString(pvApiCtx, 1, fname, &iErr); if (iErr) { freeVar(&fieldname, &fieldvalue); return 0; } if (strcmp(fieldname, PRECISION_FIELDNAME) == 0) { if (csv_isEmpty(pvApiCtx, 2)) { freeVar(&fieldname, &fieldvalue); Scierror(999, _("%s: Wrong type for input argument #%d: A double expected.\n"), fname, 2); return 0; } if (csv_isDoubleScalar(pvApiCtx, 2)) { #define FORMAT_FIELDVALUESTR "%%.%dlg" ifieldvalue = (int) csv_getArgumentAsScalarDouble(pvApiCtx, 2, fname, &iErr); if (iErr) { freeVar(&fieldname, &fieldvalue); return 0; } if ((ifieldvalue < 1) || (ifieldvalue > 17)) { freeVar(&fieldname, &fieldvalue); Scierror(999, _("%s: Wrong value for input argument #%d: A double (value %d to %d) expected.\n"), fname, 2, 1, 17); return 0; } fieldvalue = (char*)MALLOC(sizeof(char) * ((int)strlen(FORMAT_FIELDVALUESTR) + 1)); if (fieldvalue == NULL) { freeVar(&fieldname, &fieldvalue); Scierror(999, _("%s: Memory allocation error.\n"), fname); return 0; } sprintf(fieldvalue, FORMAT_FIELDVALUESTR, ifieldvalue); } else { fieldvalue = csv_getArgumentAsString(pvApiCtx, 2, fname, &iErr); if (iErr) { freeVar(&fieldname, &fieldvalue); return 0; } } } else { fieldvalue = csv_getArgumentAsString(pvApiCtx, 2, fname, &iErr); if (iErr) { freeVar(&fieldname, &fieldvalue); return 0; } } if (strcmp(fieldname, SEPARATOR_FIELDNAME) == 0) { resultSet = setCsvDefaultSeparator(fieldvalue); } else if (strcmp(fieldname, DECIMAL_FIELDNAME) == 0) { resultSet = setCsvDefaultDecimal(fieldvalue); } else if (strcmp(fieldname, CONVERSION_FIELDNAME) == 0) { resultSet = setCsvDefaultConversion(fieldvalue); } else if (strcmp(fieldname, PRECISION_FIELDNAME) == 0) { resultSet = setCsvDefaultPrecision(fieldvalue); } else if (strcmp(fieldname, COMMENTSREGEXP_FIELDNAME) == 0) { resultSet = setCsvDefaultCommentsRegExp(fieldvalue); } else if (strcmp(fieldname, EOL_FIELDNAME) == 0) { if (strcmp(fieldvalue, MACOS9_EOL_STRING) == 0) { resultSet = setCsvDefaultEOL(MACOS9_EOL); } else if (strcmp(fieldvalue, WINDOWS_EOL_STRING) == 0) { resultSet = setCsvDefaultEOL(WINDOWS_EOL); } else if (strcmp(fieldvalue, LINUX_EOL_STRING) == 0) { resultSet = setCsvDefaultEOL(LINUX_EOL); } else { resultSet = 1; } } else if (strcmp(fieldname, ENCODING_FIELDNAME) == 0) { resultSet = setCsvDefaultEncoding(fieldvalue); } else if (strcmp(fieldname, BLANK_FIELDNAME) == 0) { resultSet = setCsvDefaultCsvIgnoreBlankLine(fieldvalue); } else { Scierror(999, _("%s: Wrong value for input argument #%d: '%s', '%s', '%s' , '%s', '%s', '%s', '%s' or '%s' expected.\n"), fname, 1, SEPARATOR_FIELDNAME, DECIMAL_FIELDNAME, CONVERSION_FIELDNAME, PRECISION_FIELDNAME, COMMENTSREGEXP_FIELDNAME, EOL_FIELDNAME, ENCODING_FIELDNAME, BLANK_FIELDNAME); freeVar(&fieldname, &fieldvalue); return 0; } createScalarBoolean(pvApiCtx, Rhs + 1, (resultSet == 0)); freeVar(&fieldname, &fieldvalue); LhsVar(1) = Rhs + 1; PutLhsVar(); return 0; }
/* ==================================================================== */ int sci_csvRead(char *fname, unsigned long fname_len) { SciErr sciErr; int iErr = 0; int iErrEmpty = 0; char *filename = NULL; char *separator = NULL; char *decimal = NULL; char *conversion = NULL; int *iRange = NULL; int haveRange = 0; int header = 0; char **toreplace = NULL; int nbElementsToReplace = 0; char *regexp = NULL; int haveRegexp = 0; csvResult *result = NULL; double *dRealValues = NULL; sciErr.iErr = 0; CheckRhs(1, 8); CheckLhs(1, 2); if (Rhs == 8) { header = (int) csv_getArgumentAsScalarDouble(pvApiCtx, 8, fname, &iErr); if (iErr) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, 0, ®exp); return 0; } } if (Rhs == 7) { int m7 = 0, n7 = 0; iRange = csv_getArgumentAsMatrixofIntFromDouble(pvApiCtx, 7, fname, &m7, &n7, &iErr); if (iErr) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, 0, ®exp); return 0; } if ((m7 * n7 != SIZE_RANGE_SUPPORTED) ) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, 0, ®exp); Scierror(999, _("%s: Wrong size for input argument #%d: Four entries expected.\n"), fname, 7); return 0; } if ((m7 != 1) && (n7 != 1)) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, 0, ®exp); Scierror(999, _("%s: Wrong size for input argument #%d: A column or row vector expected.\n"), fname, 7); return 0; } if (isValidRange(iRange, m7 * n7)) { haveRange = 1; } else { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, 0, ®exp); Scierror(999, _("%s: Wrong value for input argument #%d: Inconsistent range.\n"), fname, 7); return 0; } } if (Rhs >= 6) { regexp = csv_getArgumentAsStringWithEmptyManagement(pvApiCtx, 6, fname, getCsvDefaultCommentsRegExp(), &iErr); if (regexp) { if (strcmp(regexp, "") == 0) { FREE(regexp); regexp = NULL; } else { haveRegexp = 1; } } if (iErr) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, 0, ®exp); return 0; } } else { regexp = strdup(getCsvDefaultCommentsRegExp()); if (regexp) { if (strcmp(regexp, "") == 0) { FREE(regexp); regexp = NULL; } } } if (Rhs >= 5) { if (csv_isEmpty(pvApiCtx, 5)) { toreplace = NULL; nbElementsToReplace = 0; } else { int m5 = 0, n5 = 0; toreplace = csv_getArgumentAsMatrixOfString(pvApiCtx, 5, fname, &m5, &n5, &iErr); if (iErr) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, m5 * n5, ®exp); return 0; } if (n5 != 2) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, m5 * n5, ®exp); Scierror(999, _("%s: Wrong size for input argument #%d.\n"), fname, 5); return 0; } nbElementsToReplace = m5; } } else { toreplace = NULL; nbElementsToReplace = 0; } if (Rhs >= 4) { int iErr = 0; conversion = csv_getArgumentAsStringWithEmptyManagement(pvApiCtx, 4, fname, getCsvDefaultConversion(), &iErr); if (iErr) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } if (!((strcmp(conversion, CONVTOSTR) == 0) || (strcmp(conversion, CONVTODOUBLE) == 0))) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); Scierror(999, _("%s: Wrong value for input argument #%d: '%s' or '%s' string expected.\n"), fname, 4, "double", "string"); return 0; } } else { /* read_csv is using a 'string' conversion while csvRead is doing a 'double' conversion */ if (strcmp(fname, "read_csv") == 0) { conversion = (char*)MALLOC((strlen("string") + 1) * sizeof(char)); strcpy(conversion, "string"); } else { conversion = strdup(getCsvDefaultConversion()); } } if (Rhs >= 3) { int iErr = 0; decimal = csv_getArgumentAsStringWithEmptyManagement(pvApiCtx, 3, fname, getCsvDefaultDecimal(), &iErr); if (iErr) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } } else { decimal = strdup(getCsvDefaultDecimal()); } if (Rhs >= 2) { int iErr = 0; separator = csv_getArgumentAsStringWithEmptyManagement(pvApiCtx, 2, fname, getCsvDefaultSeparator(), &iErr); if (iErr) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } } else { separator = strdup(getCsvDefaultSeparator()); } if (strcmp(separator, "\\t") == 0) { /* In Scilab, if the user is providing \t as separator, transform it to a real tab. Example: read_csv(filename,"\t"); */ strcpy(separator, "\t"); } filename = csv_getArgumentAsString(pvApiCtx, 1, fname, &iErr); if (iErr) { freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } result = csvRead(filename, separator, decimal, (const char**)toreplace, nbElementsToReplace * 2, regexp, header); freeVar(NULL, &separator, &decimal, NULL, NULL, &toreplace, nbElementsToReplace, ®exp); if (result) { switch (result->err) { case CSV_READ_REGEXP_ERROR: { Scierror(999, _("%s: Wrong value for input argument #%d.\n"), fname, 6); } break; case CSV_READ_SEPARATOR_DECIMAL_EQUAL: { Scierror(999, _("%s: separator and decimal must have different values.\n"), fname); } break; case CSV_READ_NO_ERROR: { if (strcmp(conversion, CONVTOSTR) == 0) { if (haveRange) { int newM = 0; int newN = 0; char **pStrRange = getRangeAsString((const char**)result->pstrValues, result->m, result->n, iRange, &newM, &newN); if (pStrRange) { sciErr = createMatrixOfString(pvApiCtx, Rhs + 1, newM, newN, pStrRange); freeArrayOfString(pStrRange, newM * newN); } else { if ((newM == 0) || (newN == 0)) { Scierror(999, _("%s: Range row or/and column left indice(s) out of bounds.\n"), fname); } else { Scierror(999, _("%s: Memory allocation error.\n"), fname); } freeCsvResult(result); freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } } else { sciErr = createMatrixOfString(pvApiCtx, Rhs + 1, result->m, result->n, result->pstrValues); } } else /* to double */ { stringToComplexError ierr = STRINGTOCOMPLEX_ERROR; complexArray *ptrComplexArray = stringsToComplexArray((const char**)result->pstrValues, result->m * result->n, decimal, TRUE, &ierr); if (ptrComplexArray == NULL) { freeCsvResult(result); if (ierr == STRINGTOCOMPLEX_ERROR) { Scierror(999, _("%s: can not convert data.\n"), fname); } else { Scierror(999, _("%s: Memory allocation error.\n"), fname); } freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } switch (ierr) { case STRINGTOCOMPLEX_NOT_A_NUMBER: case STRINGTOCOMPLEX_NO_ERROR: { if (haveRange) { int newM = 0; int newN = 0; complexArray *complexRange = getRangeAsComplexArray(ptrComplexArray, result->m, result->n, iRange, &newM, &newN); if (complexRange) { if (complexRange->isComplex) { sciErr = createComplexMatrixOfDouble(pvApiCtx, Rhs + 1, newM, newN, ptrComplexArray->realPart, ptrComplexArray->imagPart); } else { sciErr = createMatrixOfDouble(pvApiCtx, Rhs + 1, newM, newN, complexRange->realPart); } freeComplexArray(complexRange); complexRange = NULL; } else { if ((newM == 0) || (newN == 0)) { Scierror(999, _("%s: Range row or/and column left indice(s) out of bounds.\n"), fname); } else { Scierror(999, _("%s: Memory allocation error.\n"), fname); } freeCsvResult(result); freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } } else { if (ptrComplexArray->isComplex) { sciErr = createComplexMatrixOfDouble(pvApiCtx, Rhs + 1, result->m, result->n, ptrComplexArray->realPart, ptrComplexArray->imagPart); } else { sciErr = createMatrixOfDouble(pvApiCtx, Rhs + 1, result->m, result->n, ptrComplexArray->realPart); } freeComplexArray(ptrComplexArray); ptrComplexArray = NULL; } } break; case STRINGTOCOMPLEX_MEMORY_ALLOCATION: { Scierror(999, _("%s: Memory allocation error.\n"), fname); freeCsvResult(result); freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } default: case STRINGTOCOMPLEX_ERROR: { Scierror(999, _("%s: can not convert data.\n"), fname); freeCsvResult(result); freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } } } if (sciErr.iErr) { Scierror(999, _("%s: Memory allocation error.\n"), fname); freeCsvResult(result); freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } else { LhsVar(1) = Rhs + 1; if (Lhs == 2) { if (haveRegexp == 0) { char **emptyStringMatrix = NULL; emptyStringMatrix = (char**) malloc(sizeof(char*)); emptyStringMatrix[0] = ""; sciErr = createMatrixOfString(pvApiCtx, Rhs + 2, 1, 1, emptyStringMatrix); free(emptyStringMatrix); } else { if (result->nbComments > 0) { sciErr = createMatrixOfString(pvApiCtx, Rhs + 2, result->nbComments, 1, result->pstrComments); } else { iErrEmpty = createEmptyMatrix(pvApiCtx, Rhs+2); sciErr.iErr = iErrEmpty; } } if (sciErr.iErr) { Scierror(999, _("%s: Memory allocation error.\n"), fname); freeCsvResult(result); freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; } LhsVar(2) = Rhs + 2; } PutLhsVar(); } } break; case CSV_READ_FILE_NOT_EXIST: { Scierror(999, _("%s: %s does not exist.\n"), fname, filename); } break; case CSV_READ_MOPEN_ERROR: { Scierror(999, _("%s: can not open file %s.\n"), fname, filename); } break; case CSV_READ_MEMORY_ALLOCATION: { Scierror(999, _("%s: Memory allocation error.\n"), fname); } break; case CSV_READ_COLUMNS_ERROR: { Scierror(999, _("%s: can not read file %s: Error in the column structure\n"), fname, filename); } break; case CSV_READ_READLINES_ERROR: case CSV_READ_ERROR: { Scierror(999, _("%s: can not read file %s.\n"), fname, filename); } break; } } else { Scierror(999, _("%s: Memory allocation error.\n"), fname); } freeCsvResult(result); freeVar(&filename, &separator, &decimal, &conversion, &iRange, &toreplace, nbElementsToReplace, ®exp); return 0; }