/* sts.c -- Implementation File (module.c template V1.0) Copyright (C) 1995 Free Software Foundation, Inc. Contributed by James Craig Burley. This file is part of GNU Fortran. GNU Fortran 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. GNU Fortran 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 Fortran; see the file COPYING. If not, write to the Free Software Foundation, 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. Related Modules: None (despite the name, it doesn't really depend on ffest*) Description: Provides an arbitrary-length string facility for the limited needs of GNU Fortran FORMAT statement generation. Modifications: */ /* Include files. */ #include "proj.h" #include "sts.h" #include "com.h" #include "malloc.h" /* Externals defined here. */ /* Simple definitions and enumerations. */ /* Internal typedefs. */ /* Private include files. */ /* Internal structure definitions. */ /* Static objects accessed by functions in this module. */ /* Static functions (internal). */ /* Internal macros. */ /* ffests_kill -- Kill a varying-length string ffests s; ffests_kill(s); The storage associated with the string is freed. */ void ffests_kill (ffests s) { if (s->text_ != NULL) malloc_kill_ksr (s->pool_, s->text_, s->max_); } /* ffests_new -- Make a varying-length string ffests s; ffests_new(s,malloc_pool_image(),0); The string is initialized to hold, in this case, 0 characters, and current and future heap manipulations to hold the string will use the image pool. */ void ffests_new (ffests s, mallocPool pool, ffestsLength size) { s->pool_ = pool; s->len_ = 0; s->max_ = size; if (size == 0) s->text_ = NULL; else s->text_ = malloc_new_ksr (pool, "ffests", size); } /* ffests_printf_1D -- printf("...%ld...",(long)) to a string ffests s; ffests_printf_1D(s,"...%ld...",1); Like printf, but into a string. */ void ffests_printf_1D (ffests s, const char *ctl, long arg1) { char quickbuf[40]; char *buff; ffestsLength len; if ((len = strlen (ctl) + 21) < ARRAY_SIZE (quickbuf)) /* No # bigger than 20 digits. */ { sprintf (&quickbuf[0], ctl, arg1); ffests_puttext (s, &quickbuf[0], strlen (quickbuf)); } else { buff = malloc_new_ks (malloc_pool_image (), "ffests_printf_1D", len); sprintf (buff, ctl, arg1); ffests_puttext (s, buff, strlen (buff)); malloc_kill_ks (malloc_pool_image (), buff, len); } } /* ffests_printf_1U -- printf("...%lu...",(unsigned long)) to a string ffests s; ffests_printf_1U(s,"...%lu...",1); Like printf, but into a string. */ void ffests_printf_1U (ffests s, const char *ctl, unsigned long arg1) { char quickbuf[40]; char *buff; ffestsLength len; if ((len = strlen (ctl) + 21) < ARRAY_SIZE (quickbuf)) /* No # bigger than 20 digits. */ { sprintf (&quickbuf[0], ctl, arg1); ffests_puttext (s, &quickbuf[0], strlen (quickbuf)); } else { buff = malloc_new_ks (malloc_pool_image (), "ffests_printf_1U", len); sprintf (buff, ctl, arg1); ffests_puttext (s, buff, strlen (buff)); malloc_kill_ks (malloc_pool_image (), buff, len); } } /* ffests_printf_1s -- printf("...%s...",(char *)) to a string ffests s; ffests_printf_1s(s,"...%s...","hi there!"); Like printf, but into a string. */ void ffests_printf_1s (ffests s, const char *ctl, const char *arg1) { char quickbuf[40]; char *buff; ffestsLength len; if ((len = strlen (ctl) + strlen (arg1) - 1) < ARRAY_SIZE (quickbuf)) { sprintf (&quickbuf[0], ctl, arg1); ffests_puttext (s, &quickbuf[0], strlen (quickbuf)); } else { buff = malloc_new_ks (malloc_pool_image (), "ffests_printf_1s", len); sprintf (buff, ctl, arg1); ffests_puttext (s, buff, strlen (buff)); malloc_kill_ks (malloc_pool_image (), buff, len); } } /* ffests_printf_2Us -- printf("...%lu...%s...",...) to a string ffests s; ffests_printf_2Us(s,"...%lu...%s...",1,"hi there!"); Like printf, but into a string. */ void ffests_printf_2Us (ffests s, const char *ctl, unsigned long arg1, const char *arg2) { char quickbuf[60]; char *buff; ffestsLength len; if ((len = strlen (ctl) + 21 + strlen (arg2) - 1) < ARRAY_SIZE (quickbuf)) /* No # bigger than 20 digits. */ { sprintf (&quickbuf[0], ctl, arg1, arg2); ffests_puttext (s, &quickbuf[0], strlen (quickbuf)); } else { buff = malloc_new_ks (malloc_pool_image (), "ffests_printf_2Us", len); sprintf (buff, ctl, arg1, arg2); ffests_puttext (s, buff, strlen (buff)); malloc_kill_ks (malloc_pool_image (), buff, len); } } /* ffests_putc -- Put a single character into string ffests s; ffests_putc(s,'*'); */ void ffests_putc (ffests s, char c) { ffests_puttext (s, &c, 1); } /* ffests_puts -- Put a zero-terminated (C-style) string into string ffests s; ffests_puts(s,"append me"); */ void ffests_puts (ffests s, const char *string) { ffests_puttext (s, string, strlen (string)); } /* ffests_puttext -- Put a number of characters into string ffests s; ffests_puttext(s,"hi there",8); The string need not be 0-terminated, because the passed length is used, and may be 0. */ void ffests_puttext (ffests s, const char *text, ffestsLength length) { ffestsLength newlen; ffestsLength newmax; if (length <= 0) return; newlen = s->len_ + length; if (newlen > s->max_) { if (s->text_ == NULL) { s->max_ = 40; s->text_ = malloc_new_ksr (s->pool_, "ffests", s->max_); } else { newmax = s->max_ << 1; while (newmax < newlen) newmax <<= 1; s->text_ = malloc_resize_ksr (s->pool_, s->text_, newmax, s->max_); s->max_ = newmax; } } memcpy (s->text_ + s->len_, text, length); s->len_ = newlen; }