/* An abstract string datatype. Copyright (C) 1998-2024 Free Software Foundation, Inc. Contributed by Mark Mitchell (mark@markmitchell.com). This file is part of GNU CC. GNU CC 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 2, or (at your option) any later version. In addition to the permissions in the GNU General Public License, the Free Software Foundation gives you unlimited permission to link the compiled version of this file into combinations with other programs, and to distribute those combinations without any restriction coming from the use of this file. (The General Public License restrictions do apply in other respects; for example, they cover modification of the file, and distribution when not linked into a combined executable.) GNU CC 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 GNU CC; see the file COPYING. If not, write to the Free Software Foundation, 51 Franklin Street - Fifth Floor, Boston, MA 02110-1301, USA. */ #ifdef HAVE_CONFIG_H #include "config.h" #endif #include #ifdef HAVE_STRING_H #include #endif #ifdef HAVE_STDLIB_H #include #endif #include "libiberty.h" #include "dyn-string.h" /* Performs in-place initialization of a dyn_string struct. This function can be used with a dyn_string struct on the stack or embedded in another object. The contents of the string itself are still dynamically allocated. The string initially is capable of holding at least SPACE characeters, including the terminating NUL. If SPACE is 0, it will silently be increated to 1. If RETURN_ON_ALLOCATION_FAILURE is defined and memory allocation fails, returns 0. Otherwise returns 1. */ int dyn_string_init (struct dyn_string *ds_struct_ptr, int space) { /* We need at least one byte in which to store the terminating NUL. */ if (space == 0) space = 1; #ifdef RETURN_ON_ALLOCATION_FAILURE ds_struct_ptr->s = (char *) malloc (space); if (ds_struct_ptr->s == NULL) return 0; #else ds_struct_ptr->s = XNEWVEC (char, space); #endif ds_struct_ptr->allocated = space; ds_struct_ptr->length = 0; ds_struct_ptr->s[0] = '\0'; return 1; } /* Create a new dynamic string capable of holding at least SPACE characters, including the terminating NUL. If SPACE is 0, it will be silently increased to 1. If RETURN_ON_ALLOCATION_FAILURE is defined and memory allocation fails, returns NULL. Otherwise returns the newly allocated string. */ dyn_string_t dyn_string_new (int space) { dyn_string_t result; #ifdef RETURN_ON_ALLOCATION_FAILURE result = (dyn_string_t) malloc (sizeof (struct dyn_string)); if (result == NULL) return NULL; if (!dyn_string_init (result, space)) { free (result); return NULL; } #else result = XNEW (struct dyn_string); dyn_string_init (result, space); #endif return result; } /* Free the memory used by DS. */ void dyn_string_delete (dyn_string_t ds) { free (ds->s); free (ds); } /* Returns the contents of DS in a buffer allocated with malloc. It is the caller's responsibility to deallocate the buffer using free. DS is then set to the empty string. Deletes DS itself. */ char* dyn_string_release (dyn_string_t ds) { /* Store the old buffer. */ char* result = ds->s; /* The buffer is no longer owned by DS. */ ds->s = NULL; /* Delete DS. */ free (ds); /* Return the old buffer. */ return result; } /* Increase the capacity of DS so it can hold at least SPACE characters, plus the terminating NUL. This function will not (at present) reduce the capacity of DS. Returns DS on success. If RETURN_ON_ALLOCATION_FAILURE is defined and a memory allocation operation fails, deletes DS and returns NULL. */ dyn_string_t dyn_string_resize (dyn_string_t ds, int space) { int new_allocated = ds->allocated; /* Increase SPACE to hold the NUL termination. */ ++space; /* Increase allocation by factors of two. */ while (space > new_allocated) new_allocated *= 2; if (new_allocated != ds->allocated) { ds->allocated = new_allocated; /* We actually need more space. */ #ifdef RETURN_ON_ALLOCATION_FAILURE ds->s = (char *) realloc (ds->s, ds->allocated); if (ds->s == NULL) { free (ds); return NULL; } #else ds->s = XRESIZEVEC (char, ds->s, ds->allocated); #endif } return ds; } /* Sets the contents of DS to the empty string. */ void dyn_string_clear (dyn_string_t ds) { /* A dyn_string always has room for at least the NUL terminator. */ ds->s[0] = '\0'; ds->length = 0; } /* Makes the contents of DEST the same as the contents of SRC. DEST and SRC must be distinct. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_copy (dyn_string_t dest, dyn_string_t src) { if (dest == src) abort (); /* Make room in DEST. */ if (dyn_string_resize (dest, src->length) == NULL) return 0; /* Copy DEST into SRC. */ strcpy (dest->s, src->s); /* Update the size of DEST. */ dest->length = src->length; return 1; } /* Copies SRC, a NUL-terminated string, into DEST. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_copy_cstr (dyn_string_t dest, const char *src) { int length = strlen (src); /* Make room in DEST. */ if (dyn_string_resize (dest, length) == NULL) return 0; /* Copy DEST into SRC. */ strcpy (dest->s, src); /* Update the size of DEST. */ dest->length = length; return 1; } /* Inserts SRC at the beginning of DEST. DEST is expanded as necessary. SRC and DEST must be distinct. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_prepend (dyn_string_t dest, dyn_string_t src) { return dyn_string_insert (dest, 0, src); } /* Inserts SRC, a NUL-terminated string, at the beginning of DEST. DEST is expanded as necessary. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_prepend_cstr (dyn_string_t dest, const char *src) { return dyn_string_insert_cstr (dest, 0, src); } /* Inserts SRC into DEST starting at position POS. DEST is expanded as necessary. SRC and DEST must be distinct. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_insert (dyn_string_t dest, int pos, dyn_string_t src) { int i; if (src == dest) abort (); if (dyn_string_resize (dest, dest->length + src->length) == NULL) return 0; /* Make room for the insertion. Be sure to copy the NUL. */ for (i = dest->length; i >= pos; --i) dest->s[i + src->length] = dest->s[i]; /* Splice in the new stuff. */ strncpy (dest->s + pos, src->s, src->length); /* Compute the new length. */ dest->length += src->length; return 1; } /* Inserts SRC, a NUL-terminated string, into DEST starting at position POS. DEST is expanded as necessary. Returns 1 on success. On failure, RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_insert_cstr (dyn_string_t dest, int pos, const char *src) { int i; int length = strlen (src); if (dyn_string_resize (dest, dest->length + length) == NULL) return 0; /* Make room for the insertion. Be sure to copy the NUL. */ for (i = dest->length; i >= pos; --i) dest->s[i + length] = dest->s[i]; /* Splice in the new stuff. */ memcpy (dest->s + pos, src, length); /* Compute the new length. */ dest->length += length; return 1; } /* Inserts character C into DEST starting at position POS. DEST is expanded as necessary. Returns 1 on success. On failure, RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_insert_char (dyn_string_t dest, int pos, int c) { int i; if (dyn_string_resize (dest, dest->length + 1) == NULL) return 0; /* Make room for the insertion. Be sure to copy the NUL. */ for (i = dest->length; i >= pos; --i) dest->s[i + 1] = dest->s[i]; /* Add the new character. */ dest->s[pos] = c; /* Compute the new length. */ ++dest->length; return 1; } /* Append S to DS, resizing DS if necessary. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_append (dyn_string_t dest, dyn_string_t s) { if (dyn_string_resize (dest, dest->length + s->length) == 0) return 0; strcpy (dest->s + dest->length, s->s); dest->length += s->length; return 1; } /* Append the NUL-terminated string S to DS, resizing DS if necessary. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_append_cstr (dyn_string_t dest, const char *s) { int len = strlen (s); /* The new length is the old length plus the size of our string, plus one for the null at the end. */ if (dyn_string_resize (dest, dest->length + len) == NULL) return 0; strcpy (dest->s + dest->length, s); dest->length += len; return 1; } /* Appends C to the end of DEST. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_append_char (dyn_string_t dest, int c) { /* Make room for the extra character. */ if (dyn_string_resize (dest, dest->length + 1) == NULL) return 0; /* Append the character; it will overwrite the old NUL. */ dest->s[dest->length] = c; /* Add a new NUL at the end. */ dest->s[dest->length + 1] = '\0'; /* Update the length. */ ++(dest->length); return 1; } /* Sets the contents of DEST to the substring of SRC starting at START and ending before END. START must be less than or equal to END, and both must be between zero and the length of SRC, inclusive. Returns 1 on success. On failure, if RETURN_ON_ALLOCATION_FAILURE, deletes DEST and returns 0. */ int dyn_string_substring (dyn_string_t dest, dyn_string_t src, int start, int end) { int i; int length = end - start; if (start > end || start > src->length || end > src->length) abort (); /* Make room for the substring. */ if (dyn_string_resize (dest, length) == NULL) return 0; /* Copy the characters in the substring, */ for (i = length; --i >= 0; ) dest->s[i] = src->s[start + i]; /* NUL-terimate the result. */ dest->s[length] = '\0'; /* Record the length of the substring. */ dest->length = length; return 1; } /* Returns non-zero if DS1 and DS2 have the same contents. */ int dyn_string_eq (dyn_string_t ds1, dyn_string_t ds2) { /* If DS1 and DS2 have different lengths, they must not be the same. */ if (ds1->length != ds2->length) return 0; else return !strcmp (ds1->s, ds2->s); }