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| author | clustalomega |
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| date | Thu, 21 Jul 2011 13:35:08 -0400 |
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/***************************************************************** * SQUID - a library of functions for biological sequence analysis * Copyright (C) 1992-2002 Washington University School of Medicine * * This source code is freely distributed under the terms of the * GNU General Public License. See the files COPYRIGHT and LICENSE * for details. *****************************************************************/ /* sre_string.c * * my library of extra string functions. Some for portability * across UNIXes * * RCS $Id: sre_string.c 217 2011-03-19 10:27:10Z andreas $ (Original squid RCS Id: sre_string.c,v 1.11 2001/06/07 16:59:37 eddy Exp) */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <stdarg.h> #include <ctype.h> #include "squid.h" /* Function: Strdup() * * Purpose: Implementation of the common (but non-ANSI) function * strdup(). Robust against being passed a NULL pointer. * */ char * Strdup(char *s) { char *new; if (s == NULL) return NULL; if ((new = (char *) malloc (strlen(s) +1)) == NULL) return NULL; strcpy(new, s); return new; } /* Function: StringChop() * Date: SRE, Wed Oct 29 12:10:02 1997 [TWA 721] * * Purpose: Chop trailing whitespace off of a string. */ void StringChop(char *s) { int i; i = strlen(s) - 1; /* set i at last char in string */ while (i >= 0 && isspace((int) s[i])) i--; /* i now at last non-whitespace char, or -1 */ s[i+1] = '\0'; } int Strinsert(char *s1, /* string to insert a char into */ char c, /* char to insert */ int pos) /* position in s1 to insert c at */ { char oldc; char *s; for (s = s1 + pos; c; s++) { /* swap current char for inserted one */ oldc = *s; /* pick up current */ *s = c; /* put down inserted one */ c = oldc; /* old becomes next to insert */ } *s = '\0'; return 1; } int Strdelete(char *s1, /* string to delete a char from */ int pos) /* position of char to delete 0..n-1 */ { char *s; for (s = s1 + pos; *s; s++) *s = *(s + 1); return 1; } void s2lower(char *s) { for (; *s != '\0'; s++) *s = sre_tolower((int) *s); } void s2upper(char *s) { for (; *s != '\0'; s++) *s = sre_toupper((int) *s); } void * sre_malloc(char *file, int line, size_t size) { void *ptr; SQD_DPRINTF3(("MALLOC: %d bytes (file %s line %d)\n", size, file, line)); if ((ptr = malloc (size)) == NULL) Die("malloc of %ld bytes failed: file %s line %d", size, file, line); return ptr; } void * sre_realloc(char *file, int line, void *p, size_t size) { void *ptr; if ((ptr = realloc(p, size)) == NULL) Die("realloc of %ld bytes failed: file %s line %d", size, file, line); return ptr; } /* Function: Free2DArray(), Free3DArray() * Date: SRE, Tue Jun 1 14:47:14 1999 [St. Louis] * * Purpose: Convenience functions for free'ing 2D * and 3D pointer arrays. Tolerates any of the * pointers being NULL, to allow "sparse" * arrays. * * Args: p - array to be freed * dim1 - n for first dimension * dim2 - n for second dimension * * e.g. a 2d array is indexed p[0..dim1-1][] * a 3D array is indexed p[0..dim1-1][0..dim2-1][] * * Returns: void * * Diagnostics: (void) * "never fails" */ void Free2DArray(void **p, int dim1) { int i; if (p != NULL) { for (i = 0; i < dim1; i++) if (p[i] != NULL) free(p[i]); free(p); } } void Free3DArray(void ***p, int dim1, int dim2) { int i, j; if (p != NULL) { for (i = 0; i < dim1; i++) if (p[i] != NULL) { for (j = 0; j < dim2; j++) if (p[i][j] != NULL) free(p[i][j]); free(p[i]); } free(p); } } /* Function: RandomSequence() * * Purpose: Generate an iid symbol sequence according * to some alphabet, alphabet_size, probability * distribution, and length. Return the * sequence. * * Args: alphabet - e.g. "ACGT" * p - probability distribution [0..n-1] * n - number of symbols in alphabet * len - length of generated sequence * * Return: ptr to random sequence, or NULL on failure. */ char * RandomSequence(char *alphabet, float *p, int n, int len) { char *s; int x; s = (char *) MallocOrDie (sizeof(char) * (len+1)); for (x = 0; x < len; x++) s[x] = alphabet[FChoose(p,n)]; s[x] = '\0'; return s; } /* Function: sre_fgets() * Date: SRE, Thu May 13 10:56:28 1999 [St. Louis] * * Purpose: Dynamic allocation version of fgets(), * capable of reading unlimited line lengths. * * Args: buf - ptr to a string (may be reallocated) * n - ptr to current allocated length of buf, * (may be changed) * fp - open file ptr for reading * * Before the first call to sre_fgets(), * buf should be initialized to NULL and n to 0. * They're a linked pair, so don't muck with the * allocation of buf or the value of n while * you're still doing sre_fgets() calls with them. * * Returns: ptr to the buffer on success. * NULL on EOF (buf isn't to be used in this case) * sre_fgets() *always* results in an allocation * in buf. * * The reason to have it return a ptr to buf * is that it makes wrapper macros easy; see * MSAFileGetLine() for an example. * * Example: char *buf; * int n; * FILE *fp; * * fp = fopen("my_file", "r"); * buf = NULL; * n = 0; * while (sre_fgets(&buf, &n, fp) != NULL) * { * do stuff with buf; * } */ char * sre_fgets(char **buf, int *n, FILE *fp) { char *s; int len; int pos; if (*n == 0) { *buf = MallocOrDie(sizeof(char) * 128); *n = 128; } /* Simple case 1. We're sitting at EOF, or there's an error. * fgets() returns NULL, so we return NULL. */ if (fgets(*buf, *n, fp) == NULL) return NULL; /* Simple case 2. fgets() got a string, and it reached EOF. * return success status, so caller can use * the last line; on the next call we'll * return the 0 for the EOF. */ if (feof(fp)) return *buf; /* Simple case 3. We got a complete string, with \n, * and don't need to extend the buffer. */ len = strlen(*buf); if ((*buf)[len-1] == '\n') return *buf; /* The case we're waiting for. We have an incomplete string, * and we have to extend the buffer one or more times. Make * sure we overwrite the previous fgets's \0 (hence +(n-1) * in first step, rather than 128, and reads of 129, not 128). */ pos = (*n)-1; while (1) { *n += 128; *buf = ReallocOrDie(*buf, sizeof(char) * (*n)); s = *buf + pos; if (fgets(s, 129, fp) == NULL) return *buf; len = strlen(s); if (s[len-1] == '\n') return *buf; pos += 128; } /*NOTREACHED*/ } /* Function: sre_strcat() * Date: SRE, Thu May 13 09:36:32 1999 [St. Louis] * * Purpose: Dynamic memory version of strcat(). * appends src to the string that dest points to, * extending allocation for dest if necessary. * * One timing experiment (100 successive appends of * 1-255 char) shows sre_strcat() has about a 20% * overhead relative to strcat(). However, if optional * length info is passed, sre_strcat() is about 30% * faster than strcat(). * * Args: dest - ptr to string (char **), '\0' terminated * ldest - length of dest, if known; or -1 if length unknown. * src - string to append to dest, '\0' terminated * lsrc - length of src, if known; or -1 if length unknown. * * dest may be NULL, in which case this is * the equivalent of dest = Strdup(src). * * src may also be NULL, in which case * dest is unmodified (but why would you want to pass * a NULL src?) * * if both dest and src are NULL, dest is * unmodified; it stays NULL. * * the length parameters are optional. If a -1 * is passed, sre_strcat() will call strlen() to * determine the length itself. Passing length * info saves the strlen() calls and can speed things * up if lots of successive appends need to be done. * * Returns: new length of dest (>=0 on success); * dest is (probably) reallocated, and modified * to a longer string, '\0' terminated. */ int sre_strcat(char **dest, int ldest, char *src, int lsrc) { int len1, len2; if (ldest < 0) len1 = ((*dest == NULL) ? 0 : strlen(*dest)); else len1 = ldest; if (lsrc < 0) len2 = (( src == NULL) ? 0 : strlen(src)); else len2 = lsrc; if (len2 == 0) return len1; if (*dest == NULL) *dest = MallocOrDie(sizeof(char) * (len2+1)); else *dest = ReallocOrDie(*dest, sizeof(char) * (len1+len2+1)); memcpy((*dest)+len1, src, len2+1); return len1+len2; } /* Function: sre_strtok() * Date: SRE, Wed May 19 16:30:20 1999 [St. Louis] * * Purpose: Thread-safe version of strtok(). * * Returns ptr to next token in a string: skips * until it reaches a character that is not in the delim * string, and sets beginning of token. Skips to * next delim character (or '\0') to set the end; replaces that * character with '\0'. * If there's still more string left, sets s to point to next * character after the '\0' that was written, so successive * calls extract tokens in succession. If there was no string * left, s points at the terminal '\0'. * * If no token is found, returns NULL. * * Also returns the length of the token, which * may save us a strlen() call in some applications. * * Limitations: * *s can't be a constant string, since we write to it. * * Example: * char *tok; * int len; * char *s; * char buf[50] = "This is a sentence."; * * s = buf; * tok = sre_strtok(&s, " ", &len); * tok is "This"; s is "is a sentence."; len is 4. * tok = sre_strtok(&s, " ", &len); * tok is "is"; s is " a sentence."; len is 2. * tok = sre_strtok(&s, " ", &len); * tok is "a"; s is "sentence."; len is 1. * tok = sre_strtok(&s, " ", &len); * tok is "sentence."; s is "\0"; len is 9. * tok = sre_strtok(&s, " ", &len); * tok is NULL; s is "\0", len is undefined. * * Args: s - a tmp, modifiable ptr to string * delim - characters that delimits tokens * len - RETURN: length of token; pass NULL if not wanted * * Returns: ptr to next token, or NULL if there aren't any. */ char * sre_strtok(char **s, char *delim, int *len) { char *begin, *end; int n; begin = *s; begin += strspn(begin, delim); if (! *begin) return NULL; n = strcspn(begin, delim); end = begin + n; if (*end == '\0') { *s = end;} else { *end = '\0'; *s = end+1; } if (len != NULL) *len = n; return begin; } /* Function: sre_strdup() * Date: SRE, Wed May 19 17:57:28 1999 [St. Louis] * * Purpose: A version of the common but non-ANSI strdup() * function. Can pass len, if known, to save a * strlen() call. * * Args: s - string to duplicate * n - length of string, if known; -1 if unknown. * * Returns: allocated copy of string. * NULL on failure. */ char * sre_strdup(char *s, int n) { char *new; if (s == NULL) return NULL; if (n < 0) n = strlen(s); new = MallocOrDie (sizeof(char) * (n+1)); strcpy(new, s); return new; } /* Function: sre_strncpy() * Date: SRE, Tue Jun 22 10:10:46 1999 [Sanger Centre] * * Purpose: a strncpy() that makes sure it adds a trailing \0. * * Args: s1 - string to copy to (allocated n+1 or larger) * s2 - string to copy from * n - number of chars to copy * * Returns: s1. * Done only for consistency with strncpy(). Not clear * why it's useful for a strncpy() to return s1. */ char * sre_strncpy(char *s1, char *s2, int n) { strncpy(s1,s2,n); s1[n] = '\0'; return s1; } /* Function: IsBlankline() * Date: SRE, Fri Jun 18 14:36:08 1999 [St. Louis] * * Purpose: Returns TRUE if string consists solely of whitespace. * * Args: s - string to check */ int IsBlankline(char *s) { for (; *s != '\0'; s++) if (! isspace(*s)) return FALSE; return TRUE; } #ifdef CUBS_WIN /* A timing test for sre_strcat() * cc -O2 -g sre_string.c sre_ctype.c sqerror.c sre_math.c hsregex.c -lm * 15.200u - 5.360u = 9.84u if sre_strcat() with no length info passed * 13.660u - 5.360u = 8.30u if strcat(), with a single malloc(). * 11.370u - 5.360u = 6.01u if sre_strcat() with length info passed. */ int main(void) { float p[4] = {0.25, 0.25, 0.25, 0.25}; int buflen; int len; int nappends; int nstrings; char *s1 = NULL; char *s2; int i; nappends = 100; nstrings = 1000; while (nstrings--) { /* s1 = malloc(sizeof(char) * (255*nappends+1)); s1[0] = '\0'; */ s1 = NULL; len = 0; for (i = 0; i < nappends; i++) { buflen = CHOOSE(255) + 1; s2 = RandomSequence("ACGT", p, 4, buflen); /* strcat(s1,s2); */ if ((len = sre_strcat(&s1, len, s2, buflen)) < 0) exit(1); free(s2); } free(s1); } exit(0); } #endif /*CUBS_WIN*/