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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [libgfortran/] [intrinsics/] [string_intrinsics_inc.c] - Rev 736
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/* String intrinsics helper functions. Copyright 2002, 2005, 2007, 2008, 2009 Free Software Foundation, Inc. This file is part of the GNU Fortran runtime library (libgfortran). Libgfortran 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. Libgfortran 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. Under Section 7 of GPL version 3, you are granted additional permissions described in the GCC Runtime Library Exception, version 3.1, as published by the Free Software Foundation. You should have received a copy of the GNU General Public License and a copy of the GCC Runtime Library Exception along with this program; see the files COPYING3 and COPYING.RUNTIME respectively. If not, see <http://www.gnu.org/licenses/>. */ /* Rename the functions. */ #define concat_string SUFFIX(concat_string) #define string_len_trim SUFFIX(string_len_trim) #define adjustl SUFFIX(adjustl) #define adjustr SUFFIX(adjustr) #define string_index SUFFIX(string_index) #define string_scan SUFFIX(string_scan) #define string_verify SUFFIX(string_verify) #define string_trim SUFFIX(string_trim) #define string_minmax SUFFIX(string_minmax) #define zero_length_string SUFFIX(zero_length_string) #define compare_string SUFFIX(compare_string) /* The prototypes. */ extern void concat_string (gfc_charlen_type, CHARTYPE *, gfc_charlen_type, const CHARTYPE *, gfc_charlen_type, const CHARTYPE *); export_proto(concat_string); extern gfc_charlen_type string_len_trim (gfc_charlen_type, const CHARTYPE *); export_proto(string_len_trim); extern void adjustl (CHARTYPE *, gfc_charlen_type, const CHARTYPE *); export_proto(adjustl); extern void adjustr (CHARTYPE *, gfc_charlen_type, const CHARTYPE *); export_proto(adjustr); extern gfc_charlen_type string_index (gfc_charlen_type, const CHARTYPE *, gfc_charlen_type, const CHARTYPE *, GFC_LOGICAL_4); export_proto(string_index); extern gfc_charlen_type string_scan (gfc_charlen_type, const CHARTYPE *, gfc_charlen_type, const CHARTYPE *, GFC_LOGICAL_4); export_proto(string_scan); extern gfc_charlen_type string_verify (gfc_charlen_type, const CHARTYPE *, gfc_charlen_type, const CHARTYPE *, GFC_LOGICAL_4); export_proto(string_verify); extern void string_trim (gfc_charlen_type *, CHARTYPE **, gfc_charlen_type, const CHARTYPE *); export_proto(string_trim); extern void string_minmax (gfc_charlen_type *, CHARTYPE **, int, int, ...); export_proto(string_minmax); /* Use for functions which can return a zero-length string. */ static CHARTYPE zero_length_string = 0; /* Strings of unequal length are extended with pad characters. */ int compare_string (gfc_charlen_type len1, const CHARTYPE *s1, gfc_charlen_type len2, const CHARTYPE *s2) { const UCHARTYPE *s; gfc_charlen_type len; int res; res = MEMCMP (s1, s2, ((len1 < len2) ? len1 : len2)); if (res != 0) return res; if (len1 == len2) return 0; if (len1 < len2) { len = len2 - len1; s = (UCHARTYPE *) &s2[len1]; res = -1; } else { len = len1 - len2; s = (UCHARTYPE *) &s1[len2]; res = 1; } while (len--) { if (*s != ' ') { if (*s > ' ') return res; else return -res; } s++; } return 0; } iexport(compare_string); /* The destination and source should not overlap. */ void concat_string (gfc_charlen_type destlen, CHARTYPE * dest, gfc_charlen_type len1, const CHARTYPE * s1, gfc_charlen_type len2, const CHARTYPE * s2) { if (len1 >= destlen) { memcpy (dest, s1, destlen * sizeof (CHARTYPE)); return; } memcpy (dest, s1, len1 * sizeof (CHARTYPE)); dest += len1; destlen -= len1; if (len2 >= destlen) { memcpy (dest, s2, destlen * sizeof (CHARTYPE)); return; } memcpy (dest, s2, len2 * sizeof (CHARTYPE)); MEMSET (&dest[len2], ' ', destlen - len2); } /* Return string with all trailing blanks removed. */ void string_trim (gfc_charlen_type *len, CHARTYPE **dest, gfc_charlen_type slen, const CHARTYPE *src) { *len = string_len_trim (slen, src); if (*len == 0) *dest = &zero_length_string; else { /* Allocate space for result string. */ *dest = internal_malloc_size (*len * sizeof (CHARTYPE)); /* Copy string if necessary. */ memcpy (*dest, src, *len * sizeof (CHARTYPE)); } } /* The length of a string not including trailing blanks. */ gfc_charlen_type string_len_trim (gfc_charlen_type len, const CHARTYPE *s) { const gfc_charlen_type long_len = (gfc_charlen_type) sizeof (unsigned long); gfc_charlen_type i; i = len - 1; /* If we've got the standard (KIND=1) character type, we scan the string in long word chunks to speed it up (until a long word is hit that does not consist of ' 's). */ if (sizeof (CHARTYPE) == 1 && i >= long_len) { int starting; unsigned long blank_longword; /* Handle the first characters until we're aligned on a long word boundary. Actually, s + i + 1 must be properly aligned, because s + i will be the last byte of a long word read. */ starting = ((unsigned long) #ifdef __INTPTR_TYPE__ (__INTPTR_TYPE__) #endif (s + i + 1)) % long_len; i -= starting; for (; starting > 0; --starting) if (s[i + starting] != ' ') return i + starting + 1; /* Handle the others in a batch until first non-blank long word is found. Here again, s + i is the last byte of the current chunk, to it starts at s + i - sizeof (long) + 1. */ #if __SIZEOF_LONG__ == 4 blank_longword = 0x20202020L; #elif __SIZEOF_LONG__ == 8 blank_longword = 0x2020202020202020L; #else #error Invalid size of long! #endif while (i >= long_len) { i -= long_len; if (*((unsigned long*) (s + i + 1)) != blank_longword) { i += long_len; break; } } /* Now continue for the last characters with naive approach below. */ assert (i >= 0); } /* Simply look for the first non-blank character. */ while (i >= 0 && s[i] == ' ') --i; return i + 1; } /* Find a substring within a string. */ gfc_charlen_type string_index (gfc_charlen_type slen, const CHARTYPE *str, gfc_charlen_type sslen, const CHARTYPE *sstr, GFC_LOGICAL_4 back) { gfc_charlen_type start, last, delta, i; if (sslen == 0) return back ? (slen + 1) : 1; if (sslen > slen) return 0; if (!back) { last = slen + 1 - sslen; start = 0; delta = 1; } else { last = -1; start = slen - sslen; delta = -1; } for (; start != last; start+= delta) { for (i = 0; i < sslen; i++) { if (str[start + i] != sstr[i]) break; } if (i == sslen) return (start + 1); } return 0; } /* Remove leading blanks from a string, padding at end. The src and dest should not overlap. */ void adjustl (CHARTYPE *dest, gfc_charlen_type len, const CHARTYPE *src) { gfc_charlen_type i; i = 0; while (i < len && src[i] == ' ') i++; if (i < len) memcpy (dest, &src[i], (len - i) * sizeof (CHARTYPE)); if (i > 0) MEMSET (&dest[len - i], ' ', i); } /* Remove trailing blanks from a string. */ void adjustr (CHARTYPE *dest, gfc_charlen_type len, const CHARTYPE *src) { gfc_charlen_type i; i = len; while (i > 0 && src[i - 1] == ' ') i--; if (i < len) MEMSET (dest, ' ', len - i); memcpy (&dest[len - i], src, i * sizeof (CHARTYPE)); } /* Scan a string for any one of the characters in a set of characters. */ gfc_charlen_type string_scan (gfc_charlen_type slen, const CHARTYPE *str, gfc_charlen_type setlen, const CHARTYPE *set, GFC_LOGICAL_4 back) { gfc_charlen_type i, j; if (slen == 0 || setlen == 0) return 0; if (back) { for (i = slen - 1; i >= 0; i--) { for (j = 0; j < setlen; j++) { if (str[i] == set[j]) return (i + 1); } } } else { for (i = 0; i < slen; i++) { for (j = 0; j < setlen; j++) { if (str[i] == set[j]) return (i + 1); } } } return 0; } /* Verify that a set of characters contains all the characters in a string by identifying the position of the first character in a characters that does not appear in a given set of characters. */ gfc_charlen_type string_verify (gfc_charlen_type slen, const CHARTYPE *str, gfc_charlen_type setlen, const CHARTYPE *set, GFC_LOGICAL_4 back) { gfc_charlen_type start, last, delta, i; if (slen == 0) return 0; if (back) { last = -1; start = slen - 1; delta = -1; } else { last = slen; start = 0; delta = 1; } for (; start != last; start += delta) { for (i = 0; i < setlen; i++) { if (str[start] == set[i]) break; } if (i == setlen) return (start + 1); } return 0; } /* MIN and MAX intrinsics for strings. The front-end makes sure that nargs is at least 2. */ void string_minmax (gfc_charlen_type *rlen, CHARTYPE **dest, int op, int nargs, ...) { va_list ap; int i; CHARTYPE *next, *res; gfc_charlen_type nextlen, reslen; va_start (ap, nargs); reslen = va_arg (ap, gfc_charlen_type); res = va_arg (ap, CHARTYPE *); *rlen = reslen; if (res == NULL) runtime_error ("First argument of '%s' intrinsic should be present", op > 0 ? "MAX" : "MIN"); for (i = 1; i < nargs; i++) { nextlen = va_arg (ap, gfc_charlen_type); next = va_arg (ap, CHARTYPE *); if (next == NULL) { if (i == 1) runtime_error ("Second argument of '%s' intrinsic should be " "present", op > 0 ? "MAX" : "MIN"); else continue; } if (nextlen > *rlen) *rlen = nextlen; if (op * compare_string (reslen, res, nextlen, next) < 0) { reslen = nextlen; res = next; } } va_end (ap); if (*rlen == 0) *dest = &zero_length_string; else { CHARTYPE *tmp = internal_malloc_size (*rlen * sizeof (CHARTYPE)); memcpy (tmp, res, reslen * sizeof (CHARTYPE)); MEMSET (&tmp[reslen], ' ', *rlen - reslen); *dest = tmp; } }
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