/* ieee-utils/read.c * * Copyright (C) 1996, 1997, 1998, 1999, 2000, 2007 Brian Gough * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ #include #include #include #include #include static int lookup_string (const char * p, int * precision, int * rounding, int * exception_mask) ; int gsl_ieee_read_mode_string (const char * description, int * precision, int * rounding, int * exception_mask) { char * start ; char * end; char * p; int precision_count = 0 ; int rounding_count = 0 ; int exception_count = 0 ; start = (char *) malloc(strlen(description) + 1) ; if (start == 0) { GSL_ERROR ("no memory to parse mode string", GSL_ENOMEM) ; } strcpy (start, description) ; p = start ; *precision = 0 ; *rounding = 0 ; *exception_mask = 0 ; do { int status ; int new_precision, new_rounding, new_exception ; end = strchr (p,',') ; if (end) { *end = '\0' ; do { end++ ; /* skip over trailing whitespace */ } while (*end == ' ' || *end == ',') ; } new_precision = 0 ; new_rounding = 0 ; new_exception = 0 ; status = lookup_string (p, &new_precision, &new_rounding, &new_exception) ; if (status) { free(start); GSL_ERROR ("unrecognized GSL_IEEE_MODE string.\nValid settings are:\n\n" " single-precision double-precision extended-precision\n" " round-to-nearest round-down round-up round-to-zero\n" " mask-invalid mask-denormalized mask-division-by-zero\n" " mask-overflow mask-underflow mask-all\n" " trap-common trap-inexact\n" "\n" "separated by commas. " "(e.g. GSL_IEEE_MODE=\"round-down,mask-underflow\")", GSL_EINVAL) ; } if (new_precision) { *precision = new_precision ; precision_count ++ ; if (precision_count > 1) { free(start); GSL_ERROR ("attempted to set IEEE precision twice", GSL_EINVAL) ; } } if (new_rounding) { *rounding = new_rounding ; rounding_count ++ ; if (rounding_count > 1) { free(start); GSL_ERROR ("attempted to set IEEE rounding mode twice", GSL_EINVAL) ; } } if (new_exception) { *exception_mask |= new_exception ; exception_count ++ ; } p = end ; } while (end && *p != '\0') ; free(start) ; return GSL_SUCCESS ; } static int lookup_string (const char * p, int * precision, int * rounding, int * exception_mask) { if (strcmp(p,"single-precision") == 0) { *precision = GSL_IEEE_SINGLE_PRECISION ; } else if (strcmp(p,"double-precision") == 0) { *precision = GSL_IEEE_DOUBLE_PRECISION ; } else if (strcmp(p,"extended-precision") == 0) { *precision = GSL_IEEE_EXTENDED_PRECISION ; } else if (strcmp(p,"round-to-nearest") == 0) { *rounding = GSL_IEEE_ROUND_TO_NEAREST ; } else if (strcmp(p,"round-down") == 0) { *rounding = GSL_IEEE_ROUND_DOWN ; } else if (strcmp(p,"round-up") == 0) { *rounding = GSL_IEEE_ROUND_UP ; } else if (strcmp(p,"round-to-zero") == 0) { *rounding = GSL_IEEE_ROUND_TO_ZERO ; } else if (strcmp(p,"mask-all") == 0) { *exception_mask = GSL_IEEE_MASK_ALL ; } else if (strcmp(p,"mask-invalid") == 0) { *exception_mask = GSL_IEEE_MASK_INVALID ; } else if (strcmp(p,"mask-denormalized") == 0) { *exception_mask = GSL_IEEE_MASK_DENORMALIZED ; } else if (strcmp(p,"mask-division-by-zero") == 0) { *exception_mask = GSL_IEEE_MASK_DIVISION_BY_ZERO ; } else if (strcmp(p,"mask-overflow") == 0) { *exception_mask = GSL_IEEE_MASK_OVERFLOW ; } else if (strcmp(p,"mask-underflow") == 0) { *exception_mask = GSL_IEEE_MASK_UNDERFLOW ; } else if (strcmp(p,"trap-inexact") == 0) { *exception_mask = GSL_IEEE_TRAP_INEXACT ; } else if (strcmp(p,"trap-common") == 0) { return 0 ; } else { return 1 ; } return 0 ; }