375 lines
12 KiB
C
375 lines
12 KiB
C
/* Copyright (c) 1993 by Olin Shivers.
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**
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** See file COPYING
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*/
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/* If the above copyright notice is a problem for your app, send me mail. */
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/* Using the #! interpreter hack in Unix for making scripts has a big
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** problem: you only get 1 argument after the interpreter on the #! line.
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** This subroutine helps to fix that.
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**
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** Below is a procedure that will arrange for a command-line switch of the
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** form \ <script> to stand for reading more args from line 2 of the file
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** <script>. Replace the \ arg with these args. Now you can have Scheme,
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** Postscript, Forth, Lisp, Smalltalk, tcl, etc. scripts that look like:
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**
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** File foo:
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** #!/usr/local/bin/scheme \
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** -heap 4000000 -batch -script
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** !#
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** (define foo ...) ; Scheme code from here on.
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** ...
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**
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** With this program definition, executing
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** foo arg1 arg2 arg3
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** will turn into
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** /usr/local/bin/scheme \ foo arg1 arg2 arg3
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** which your Scheme interpreter main() (using this routine) will expand during
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** argv processing into:
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** /usr/local/bin/scheme -heap 4000000 -batch -script foo arg1 arg2 arg3
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** That is, the argument processing in main() will *replace* the \ argument
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** with the arguments read in from line 2 of foo. So we have dodged the
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** only-one-argument-on-the-#!-line constraint.
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**
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** The only other thing that needs to be done in this case is arrange for the
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** interpreter to ignore these initial few non-Scheme lines. We can arrange
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** for this in our Scheme example by defining a Scheme read macro #! that
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** skips characters until newline, bang, splat (somewhat like the ; read macro
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** skips characters until newline).
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**
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** Using backslash as the meta-argument switch is handy for two reasons:
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** - It is only one character. Since many Unix systems limit the #!
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** line to 32 characters total, this is important.
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** - It is a helpful visual pun -- implying a continuation line for the
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** arguments.
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** It is also very unlikely to be an already-used switch. However, -2
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** is also a reasonable choice.
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**
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** All you have to do to get this second-line meta-argument functionality is
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** link this file in with your interpreter. You can tweak this routine for
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** various interpreters if you need to have it, for example, skip an initial
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** comment character when it begins to scan the second line.
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**
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** Arguments are parsed from the second line as follows:
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** - The only special chars are space, tab, newline, and \.
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** - Every space char terminates an argument.
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** Multiple spaces therefore introduce empty-string arguments.
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** - A newline terminates an argument, and also terminates the argument list.
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** This means that an empty line parses to the singleton list whose one
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** element is the empty string: (""). The grammar doesn't admit the empty
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** list.
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** - Tab is not allowed.
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** This is to prevent you from being screwed by thinking you had several
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** spaces where you really had a tab, and vice-versa.
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** - The only other special character is \, the knock-down character.
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** \ escapes \, space, tab, and newline, turning off their special
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** functions. The ANSI C escape sequences (\b, \n, \r and \t) are
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** supported; these also produce argument-constituents -- \n doesn't act
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** like a terminating newline. \nnn for *exactly* three octal digits reads
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** as the char whose ASCII code is nnn. It is an error if \ is followed by
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** just 1 or 2 octal digits: \3Q is an error. Octal-escapes are always
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** constituent chars. \ followed by other chars is not allowed (so we can
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** extend the escape-code space later if we like).
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**
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** You have to construct these line-2 arg lines carefully. For example,
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** beware of trailing spaces at the end of the line. They'll give you
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** extra trailing empty-string args.
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**
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** You should also beware of including nul bytes into your arguments, since
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** C's pathetic excuse for a string data-type will lose if you try this.
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**
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**
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** Another way to get this sort of multiple-argument functionality, with
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** the extra cost of starting up a shell, is to simply have the following
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** trampoline at the beginning of your script:
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** #!/bin/sh -
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** exec /usr/local/bin/scheme -heap 4000000 -batch -script $0 $*
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** !#
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** (or use the indir program, same rough idea). This is less appropriate
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** for interpreters intended to replace the shell.
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**
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** Possible extensions:
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** - I considered making the argument line syntax hairier -- adding ~user
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** directory expansion and $(envvar) expansion. But I didn't do it.
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**
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** - Not much error information. If something is wrong -- file can't
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** be read, no second line, illegal syntax on second line, malloc
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** loses -- you just get a NULL return value. You can examine errno
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** if the problem is a Unix error (e.g., file error). But if the call
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** fails for another reason (e.g., bad arg syntax on the second line),
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** then errno won't help. This code could be modified to take an additional
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** &error_code argument, and assign an integer into the var indicating
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** just exactly what the problem was, if that's important to your
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** application.
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**
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** This code is fairly robust, careful code. ANSI standard C. No dependencies
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** on fixed-size buffers. It won't blow up if the inputs are pathological.
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** It all type-checks. No core leaks. Feel free to customise it for the
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** particular needs of a given interpreter; the core functionality is there.
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**
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** See the end of this file for a sample program with an arg processing loop.
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** Please send me bug reports, fixes, and improvements.
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**
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** Some interpreters that might use this: tcl (wish, hope), perl, Smalltalk,
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** little Schemes (scm, elk, s48, ...), big Schemes, Postscript, emacs,
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** Dylan, Lisp, Prolog.
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** -Olin Shivers 2/93
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** shivers@cs.cmu.edu
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** shivers@csd.hku.hk
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*/
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#include <stdio.h>
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#include <stdlib.h> /* malloc */
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#include <ctype.h>
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#define Alloc(type) ((type *) malloc(sizeof(type)))
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#define Malloc(type,n) ((type *) malloc(sizeof(type)*(n)))
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#define Realloc(type,ptr,size) \
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((type *) realloc((void *)ptr, sizeof(type)*(size)))
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#define Free(p) (free((void *)(p)))
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/* Is character c an octal digit? */
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#define isodigit(c) (isdigit(c) && (c) != '8' && (c) != '9')
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/* Double the vector if we've overflowed it. Return the vector.
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** If we double the vector, lenptr is updated with the new length.
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** If we fail, return NULL.
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*/
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static void *maybe_grow_vec(void *vec, int *lenptr, int index, int elt_size)
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{
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int len = *lenptr;
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if( index < len ) return vec;
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len *= 2;
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*lenptr = len; /* Update the length pointer. */
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return realloc(vec, len*elt_size);
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}
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/* The do ... while(0) is a trick to make this macro accept a terminating
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** semicolon.
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*/
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#define Maybe_Grow_Vec(vec, size, index, elt_t, lose) \
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do {elt_t *mgv_tmp =(elt_t*)maybe_grow_vec((void*)vec, &size, \
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index, sizeof(elt_t)); \
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if(mgv_tmp) vec = mgv_tmp; else goto lose;} while (0);
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/* process_meta_arg(fname, av)
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** -----------------------
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** The main routine.
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**
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** Expand a \ <fname> switch. Return NULL on error, otherwise a new arg
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** vector composed of (1) the args scanned in from line 2 of fname, followed
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** by (2) the arguments in av. The argument vector av starts with the
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** argument following the \ switch, i.e., the <fname> argument.
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*/
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static char* read_arg(FILE*);
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char **process_meta_arg(char **av)
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{
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char **argv, *arg, **ap;
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int c;
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FILE *script;
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char *fname;
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int av_len;
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int argv_i=0, argv_len=100;
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if( !*av ) return NULL;
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fname = *av;
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script = fopen(fname, "rb");
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if( !script ) return NULL;
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/* Skip line 1. */
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while( '\n' != getc(script) )
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if( feof(script) || ferror(script) ) goto lose3;
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argv = Malloc(char*, argv_len);
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if( !argv ) goto lose3;
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do {
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char *arg;
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arg = read_arg(script);
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if( !arg ) goto lose2;
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Maybe_Grow_Vec(argv, argv_len, argv_i, char*, lose1);
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argv[argv_i++] = arg;
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}
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while( EOF != (c=getc(script)) && '\n' != c );
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for(av_len=0; av[av_len]; av_len++); /* Compute length of av. */
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/* Precisely re-size argv. */
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if( NULL == (ap=Realloc(char*, argv, argv_len + av_len + 1)) ) goto lose2;
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argv = ap;
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while( argv[argv_i++] = *av++ ); /* Copy over av & null terminate. */
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fclose(script);
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return argv;
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/* Exception handlers: free storage and lose. */
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lose1:
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Free(arg);
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lose2:
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while( argv_i ) Free(argv[--argv_i]);
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Free(argv);
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lose3:
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fclose(script);
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return NULL;
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}
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/* Read in one arg, but not its terminating space or newline.
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** Return a newly-allocated string containing the arg;
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** NULL if there's an error.
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*/
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static char *read_arg(FILE *f)
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{
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char *buf, *tmp;
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int buflen, i;
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/* Allocate a buffer for the arg. */
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i = 0;
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buflen=20;
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if( !(buf = Malloc(char, buflen)) ) return NULL;
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/* Read in the arg. */
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while(1) {
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int c = getc(f);
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if( c == EOF || c == ' ' || c == '\n' ) {ungetc(c, f); break;}
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/* Do knock-down processing. */
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if( c == '\\' ) {
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int c1, c2, c3;
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switch (c1=getc(f)) {
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case EOF:
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goto lose;
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/* \nnn octal escape. */
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case '0': case '1':
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case '2': case '3':
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case '4': case '5':
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case '6': case '7':
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if( EOF == (c2=getc(f)) || !isodigit(c2) ) goto lose;
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if( EOF == (c3=getc(f)) || !isodigit(c3) ) goto lose;
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c = ((c1-'0')<<6) | ((c2-'0')<<3) | (c3-'0');
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break;
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/* ANSI C escapes. */
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case 'n': c='\n'; break;
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case 'r': c='\r'; break;
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case 't': c='\t'; break;
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case 'b': c='\b'; break;
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/* Simple knock-down: \, space, tab, newline. */
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case '\\': case ' ':
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case '\t': case '\n':
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c=c1; break;
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/* Nothing else allowed. */
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default: goto lose;
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}
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}
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/* No tab allowed. */
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else if( c == '\t' ) goto lose;
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Maybe_Grow_Vec(buf, buflen, i, char, lose);
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buf[i++] = c;
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}
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/* Null terminate the arg. */
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Maybe_Grow_Vec(buf, buflen, i, char, lose);
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buf[i++] = '\0';
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/* Precisely re-size buf and return. */
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if( tmp=Realloc(char,buf,i) ) return tmp;
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lose:
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Free(buf);
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return NULL;
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}
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/*****************************************************************************/
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#if 0
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/*
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** Debugging test stub and example argument scanner.
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** Like echo, but with \ <fname> expansion.
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**/
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char *prog_name;
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static void usage(void)
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{
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fprintf(stderr,
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"Usage: %s [\\ <fname>] [-n] [--] arg1 ... argn\n",
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prog_name);
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exit(1);
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}
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/* Expand away a leading meta-arg if there is one. Die informatively on error.
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** I can't think of a reason why you might want to have recursive meta
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** arguments, but we handle this case to be complete.
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*/
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static char **maybe_expand_meta_arg(char **argv)
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{
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if( *argv )
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while( strcmp(*argv, "\\") == 0 ) {
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argv++;
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if( !*argv ) {
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fprintf(stderr, "%s: \\ switch without following filename.\n",
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prog_name);
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usage();
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}
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argv = process_meta_arg(argv);
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if( !argv ) {
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fprintf(stderr, "%s: unable to expand \\ <filename> switch.\n",
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prog_name);
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usage();
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}
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}
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return argv;
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}
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main(int argc, char **argv)
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{
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int n_flag=0;
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prog_name = *argv++;
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/* Handle an initial meta-arg expansion. */
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argv = maybe_expand_meta_arg(argv);
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/* Process switches. */
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for(;*argv;argv++) {
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/* Process arg. */
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if( argv[0][0] == '-' )
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switch( argv[0][1] ) {
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/* -n means no terminating newline. */
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case 'n':
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n_flag++;
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break;
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/* -- terminates args, so you can echo \, -n, -- args. */
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case '-':
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argv++;
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goto args_done;
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break;
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default:
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fprintf(stderr, "%s: unknown flag %s.\n", prog_name, *argv);
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usage();
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}
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else goto args_done; /* Not a switch. We are done. */
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}
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args_done:
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if( *argv ) printf("\"%s\"", *argv++);
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while( *argv ) printf(" \"%s\"", *argv++);
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if( !n_flag ) putchar('\n');
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}
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#endif /* 0 */
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