binutils-gdb/gas/macro.c
Jan Beulich e6ca91be4f gas/
2005-04-18  Jan Beulich  <jbeulich@novell.com>

	* macro.c (free_token): New, freeing all the memory associated with a
	macro.
	(do_formals): Move initializers to ...
	(define_macro): ... here.
	(delete_macro): Convert passed in name to lower case. Warn when
	purging macro that doesn't exist. Use hash_jam instead of hash_delete.

gas/testsuite/
2005-04-18  Jan Beulich  <jbeulich@novell.com>

	* gas/macros/purge.[ls]: New.
	* gas/macros/macros.exp: Run new test.
2005-04-18 13:35:46 +00:00

1277 lines
29 KiB
C

/* macro.c - macro support for gas
Copyright 1994, 1995, 1996, 1997, 1998, 1999, 2000, 2001, 2002, 2003,
2004, 2005 Free Software Foundation, Inc.
Written by Steve and Judy Chamberlain of Cygnus Support,
sac@cygnus.com
This file is part of GAS, the GNU Assembler.
GAS 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.
GAS 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 GAS; see the file COPYING. If not, write to the Free
Software Foundation, 59 Temple Place - Suite 330, Boston, MA
02111-1307, USA. */
#include "config.h"
#ifndef __GNUC__
# if HAVE_ALLOCA_H
# include <alloca.h>
# else
# ifdef _AIX
/* Indented so that pre-ansi C compilers will ignore it, rather than
choke on it. Some versions of AIX require this to be the first
thing in the file. */
#pragma alloca
# else
# ifndef alloca /* predefined by HP cc +Olibcalls */
# if !defined (__STDC__) && !defined (__hpux)
extern char *alloca ();
# else
extern void *alloca ();
# endif /* __STDC__, __hpux */
# endif /* alloca */
# endif /* _AIX */
# endif /* HAVE_ALLOCA_H */
#endif /* __GNUC__ */
#include <stdio.h>
#ifdef HAVE_STRING_H
#include <string.h>
#else
#include <strings.h>
#endif
#ifdef HAVE_STDLIB_H
#include <stdlib.h>
#endif
#include "as.h"
#include "libiberty.h"
#include "safe-ctype.h"
#include "sb.h"
#include "hash.h"
#include "macro.h"
#include "asintl.h"
/* The routines in this file handle macro definition and expansion.
They are called by gas. */
/* Internal functions. */
static int get_token (int, sb *, sb *);
static int getstring (int, sb *, sb *);
static int get_any_string (int, sb *, sb *, int, int);
static int do_formals (macro_entry *, int, sb *);
static int get_apost_token (int, sb *, sb *, int);
static int sub_actual (int, sb *, sb *, struct hash_control *, int, sb *, int);
static const char *macro_expand_body
(sb *, sb *, formal_entry *, struct hash_control *, int);
static const char *macro_expand (int, sb *, macro_entry *, sb *);
static void free_macro(macro_entry *);
#define ISWHITE(x) ((x) == ' ' || (x) == '\t')
#define ISSEP(x) \
((x) == ' ' || (x) == '\t' || (x) == ',' || (x) == '"' || (x) == ';' \
|| (x) == ')' || (x) == '(' \
|| ((macro_alternate || macro_mri) && ((x) == '<' || (x) == '>')))
#define ISBASE(x) \
((x) == 'b' || (x) == 'B' \
|| (x) == 'q' || (x) == 'Q' \
|| (x) == 'h' || (x) == 'H' \
|| (x) == 'd' || (x) == 'D')
/* The macro hash table. */
struct hash_control *macro_hash;
/* Whether any macros have been defined. */
int macro_defined;
/* Whether we are in alternate syntax mode. */
static int macro_alternate;
/* Whether we are in MRI mode. */
static int macro_mri;
/* Whether we should strip '@' characters. */
static int macro_strip_at;
/* Function to use to parse an expression. */
static int (*macro_expr) (const char *, int, sb *, int *);
/* Number of macro expansions that have been done. */
static int macro_number;
/* Initialize macro processing. */
void
macro_init (int alternate, int mri, int strip_at,
int (*expr) (const char *, int, sb *, int *))
{
macro_hash = hash_new ();
macro_defined = 0;
macro_alternate = alternate;
macro_mri = mri;
macro_strip_at = strip_at;
macro_expr = expr;
}
/* Switch in and out of alternate mode on the fly. */
void
macro_set_alternate (int alternate)
{
macro_alternate = alternate;
}
/* Switch in and out of MRI mode on the fly. */
void
macro_mri_mode (int mri)
{
macro_mri = mri;
}
/* Read input lines till we get to a TO string.
Increase nesting depth if we get a FROM string.
Put the results into sb at PTR.
FROM may be NULL (or will be ignored) if TO is "ENDR".
Add a new input line to an sb using GET_LINE.
Return 1 on success, 0 on unexpected EOF. */
int
buffer_and_nest (const char *from, const char *to, sb *ptr,
int (*get_line) (sb *))
{
int from_len;
int to_len = strlen (to);
int depth = 1;
int line_start = ptr->len;
int more = get_line (ptr);
if (to_len == 4 && strcasecmp(to, "ENDR") == 0)
{
from = NULL;
from_len = 0;
}
else
from_len = strlen (from);
while (more)
{
/* Try and find the first pseudo op on the line. */
int i = line_start;
if (! NO_PSEUDO_DOT && ! flag_m68k_mri)
{
/* With normal syntax we can suck what we want till we get
to the dot. With the alternate, labels have to start in
the first column, since we can't tell what's a label and
whats a pseudoop. */
if (! LABELS_WITHOUT_COLONS)
{
/* Skip leading whitespace. */
while (i < ptr->len && ISWHITE (ptr->ptr[i]))
i++;
}
for (;;)
{
/* Skip over a label, if any. */
if (i >= ptr->len || ! is_name_beginner (ptr->ptr[i]))
break;
i++;
while (i < ptr->len && is_part_of_name (ptr->ptr[i]))
i++;
if (i < ptr->len && is_name_ender (ptr->ptr[i]))
i++;
if (LABELS_WITHOUT_COLONS)
break;
/* Skip whitespace. */
while (i < ptr->len && ISWHITE (ptr->ptr[i]))
i++;
/* Check for the colon. */
if (i >= ptr->len || ptr->ptr[i] != ':')
{
i = line_start;
break;
}
i++;
line_start = i;
}
}
/* Skip trailing whitespace. */
while (i < ptr->len && ISWHITE (ptr->ptr[i]))
i++;
if (i < ptr->len && (ptr->ptr[i] == '.'
|| NO_PSEUDO_DOT
|| macro_mri))
{
if (! flag_m68k_mri && ptr->ptr[i] == '.')
i++;
if (from == NULL
&& strncasecmp (ptr->ptr + i, "IRPC", from_len = 4) != 0
&& strncasecmp (ptr->ptr + i, "IRP", from_len = 3) != 0
&& strncasecmp (ptr->ptr + i, "IREPC", from_len = 5) != 0
&& strncasecmp (ptr->ptr + i, "IREP", from_len = 4) != 0
&& strncasecmp (ptr->ptr + i, "REPT", from_len = 4) != 0
&& strncasecmp (ptr->ptr + i, "REP", from_len = 3) != 0)
from_len = 0;
if ((from != NULL
? strncasecmp (ptr->ptr + i, from, from_len) == 0
: from_len > 0)
&& (ptr->len == (i + from_len)
|| ! (is_part_of_name (ptr->ptr[i + from_len])
|| is_name_ender (ptr->ptr[i + from_len]))))
depth++;
if (strncasecmp (ptr->ptr + i, to, to_len) == 0
&& (ptr->len == (i + to_len)
|| ! (is_part_of_name (ptr->ptr[i + to_len])
|| is_name_ender (ptr->ptr[i + to_len]))))
{
depth--;
if (depth == 0)
{
/* Reset the string to not include the ending rune. */
ptr->len = line_start;
break;
}
}
}
/* Add the original end-of-line char to the end and keep running. */
sb_add_char (ptr, more);
line_start = ptr->len;
more = get_line (ptr);
}
/* Return 1 on success, 0 on unexpected EOF. */
return depth == 0;
}
/* Pick up a token. */
static int
get_token (int idx, sb *in, sb *name)
{
if (idx < in->len
&& is_name_beginner (in->ptr[idx]))
{
sb_add_char (name, in->ptr[idx++]);
while (idx < in->len
&& is_part_of_name (in->ptr[idx]))
{
sb_add_char (name, in->ptr[idx++]);
}
if (idx < in->len
&& is_name_ender (in->ptr[idx]))
{
sb_add_char (name, in->ptr[idx++]);
}
}
/* Ignore trailing &. */
if (macro_alternate && idx < in->len && in->ptr[idx] == '&')
idx++;
return idx;
}
/* Pick up a string. */
static int
getstring (int idx, sb *in, sb *acc)
{
idx = sb_skip_white (idx, in);
while (idx < in->len
&& (in->ptr[idx] == '"'
|| (in->ptr[idx] == '<' && (macro_alternate || macro_mri))
|| (in->ptr[idx] == '\'' && macro_alternate)))
{
if (in->ptr[idx] == '<')
{
int nest = 0;
idx++;
while ((in->ptr[idx] != '>' || nest)
&& idx < in->len)
{
if (in->ptr[idx] == '!')
{
idx++;
sb_add_char (acc, in->ptr[idx++]);
}
else
{
if (in->ptr[idx] == '>')
nest--;
if (in->ptr[idx] == '<')
nest++;
sb_add_char (acc, in->ptr[idx++]);
}
}
idx++;
}
else if (in->ptr[idx] == '"' || in->ptr[idx] == '\'')
{
char tchar = in->ptr[idx];
int escaped = 0;
idx++;
while (idx < in->len)
{
if (in->ptr[idx - 1] == '\\')
escaped ^= 1;
else
escaped = 0;
if (macro_alternate && in->ptr[idx] == '!')
{
idx ++;
sb_add_char (acc, in->ptr[idx]);
idx ++;
}
else if (escaped && in->ptr[idx] == tchar)
{
sb_add_char (acc, tchar);
idx ++;
}
else
{
if (in->ptr[idx] == tchar)
{
idx ++;
if (idx >= in->len || in->ptr[idx] != tchar)
break;
}
sb_add_char (acc, in->ptr[idx]);
idx ++;
}
}
}
}
return idx;
}
/* Fetch string from the input stream,
rules:
'Bxyx<whitespace> -> return 'Bxyza
%<char> -> return string of decimal value of x
"<string>" -> return string
xyx<whitespace> -> return xyz
*/
static int
get_any_string (int idx, sb *in, sb *out, int expand, int pretend_quoted)
{
sb_reset (out);
idx = sb_skip_white (idx, in);
if (idx < in->len)
{
if (in->len > idx + 2 && in->ptr[idx + 1] == '\'' && ISBASE (in->ptr[idx]))
{
while (!ISSEP (in->ptr[idx]))
sb_add_char (out, in->ptr[idx++]);
}
else if (in->ptr[idx] == '%'
&& macro_alternate
&& expand)
{
int val;
char buf[20];
/* Turns the next expression into a string. */
/* xgettext: no-c-format */
idx = (*macro_expr) (_("% operator needs absolute expression"),
idx + 1,
in,
&val);
sprintf (buf, "%d", val);
sb_add_string (out, buf);
}
else if (in->ptr[idx] == '"'
|| (in->ptr[idx] == '<' && (macro_alternate || macro_mri))
|| (macro_alternate && in->ptr[idx] == '\''))
{
if (macro_alternate
&& ! macro_strip_at
&& expand)
{
/* Keep the quotes. */
sb_add_char (out, '\"');
idx = getstring (idx, in, out);
sb_add_char (out, '\"');
}
else
{
idx = getstring (idx, in, out);
}
}
else
{
while (idx < in->len
&& (in->ptr[idx] == '"'
|| in->ptr[idx] == '\''
|| pretend_quoted
|| (in->ptr[idx] != ' '
&& in->ptr[idx] != '\t'
&& in->ptr[idx] != ','
&& (in->ptr[idx] != '<'
|| (! macro_alternate && ! macro_mri)))))
{
if (in->ptr[idx] == '"'
|| in->ptr[idx] == '\'')
{
char tchar = in->ptr[idx];
sb_add_char (out, in->ptr[idx++]);
while (idx < in->len
&& in->ptr[idx] != tchar)
sb_add_char (out, in->ptr[idx++]);
if (idx == in->len)
return idx;
}
sb_add_char (out, in->ptr[idx++]);
}
}
}
return idx;
}
/* Pick up the formal parameters of a macro definition. */
static int
do_formals (macro_entry *macro, int idx, sb *in)
{
formal_entry **p = &macro->formals;
idx = sb_skip_white (idx, in);
while (idx < in->len)
{
formal_entry *formal;
int cidx;
formal = (formal_entry *) xmalloc (sizeof (formal_entry));
sb_new (&formal->name);
sb_new (&formal->def);
sb_new (&formal->actual);
idx = get_token (idx, in, &formal->name);
if (formal->name.len == 0)
{
if (macro->formal_count)
--idx;
break;
}
idx = sb_skip_white (idx, in);
/* This is a formal. */
if (idx < in->len && in->ptr[idx] == '=')
{
/* Got a default. */
idx = get_any_string (idx + 1, in, &formal->def, 1, 0);
idx = sb_skip_white (idx, in);
}
/* Add to macro's hash table. */
hash_jam (macro->formal_hash, sb_terminate (&formal->name), formal);
formal->index = macro->formal_count++;
cidx = idx;
idx = sb_skip_comma (idx, in);
if (idx != cidx && idx >= in->len)
{
idx = cidx;
break;
}
*p = formal;
p = &formal->next;
*p = NULL;
}
if (macro_mri)
{
formal_entry *formal;
const char *name;
/* Add a special NARG formal, which macro_expand will set to the
number of arguments. */
formal = (formal_entry *) xmalloc (sizeof (formal_entry));
sb_new (&formal->name);
sb_new (&formal->def);
sb_new (&formal->actual);
/* The same MRI assemblers which treat '@' characters also use
the name $NARG. At least until we find an exception. */
if (macro_strip_at)
name = "$NARG";
else
name = "NARG";
sb_add_string (&formal->name, name);
/* Add to macro's hash table. */
hash_jam (macro->formal_hash, name, formal);
formal->index = NARG_INDEX;
*p = formal;
formal->next = NULL;
}
return idx;
}
/* Define a new macro. Returns NULL on success, otherwise returns an
error message. If NAMEP is not NULL, *NAMEP is set to the name of
the macro which was defined. */
const char *
define_macro (int idx, sb *in, sb *label,
int (*get_line) (sb *), const char **namep)
{
macro_entry *macro;
sb name;
const char *namestr;
macro = (macro_entry *) xmalloc (sizeof (macro_entry));
sb_new (&macro->sub);
sb_new (&name);
macro->formal_count = 0;
macro->formals = 0;
macro->formal_hash = hash_new ();
idx = sb_skip_white (idx, in);
if (! buffer_and_nest ("MACRO", "ENDM", &macro->sub, get_line))
return _("unexpected end of file in macro definition");
if (label != NULL && label->len != 0)
{
sb_add_sb (&name, label);
if (idx < in->len && in->ptr[idx] == '(')
{
/* It's the label: MACRO (formals,...) sort */
idx = do_formals (macro, idx + 1, in);
if (idx >= in->len || in->ptr[idx] != ')')
return _("missing ) after formals");
idx = sb_skip_white (idx + 1, in);
}
else
{
/* It's the label: MACRO formals,... sort */
idx = do_formals (macro, idx, in);
}
}
else
{
int cidx;
idx = get_token (idx, in, &name);
if (name.len == 0)
return _("Missing macro name");
cidx = sb_skip_white (idx, in);
idx = sb_skip_comma (cidx, in);
if (idx == cidx || idx < in->len)
idx = do_formals (macro, idx, in);
else
idx = cidx;
}
if (idx < in->len)
return _("Bad macro parameter list");
/* And stick it in the macro hash table. */
for (idx = 0; idx < name.len; idx++)
name.ptr[idx] = TOLOWER (name.ptr[idx]);
namestr = sb_terminate (&name);
if (hash_find (macro_hash, namestr))
return _("Macro with this name was already defined");
hash_jam (macro_hash, namestr, (PTR) macro);
macro_defined = 1;
if (namep != NULL)
*namep = namestr;
return NULL;
}
/* Scan a token, and then skip KIND. */
static int
get_apost_token (int idx, sb *in, sb *name, int kind)
{
idx = get_token (idx, in, name);
if (idx < in->len
&& in->ptr[idx] == kind
&& (! macro_mri || macro_strip_at)
&& (! macro_strip_at || kind == '@'))
idx++;
return idx;
}
/* Substitute the actual value for a formal parameter. */
static int
sub_actual (int start, sb *in, sb *t, struct hash_control *formal_hash,
int kind, sb *out, int copyifnotthere)
{
int src;
formal_entry *ptr;
src = get_apost_token (start, in, t, kind);
/* See if it's in the macro's hash table, unless this is
macro_strip_at and kind is '@' and the token did not end in '@'. */
if (macro_strip_at
&& kind == '@'
&& (src == start || in->ptr[src - 1] != '@'))
ptr = NULL;
else
ptr = (formal_entry *) hash_find (formal_hash, sb_terminate (t));
if (ptr)
{
if (ptr->actual.len)
{
sb_add_sb (out, &ptr->actual);
}
else
{
sb_add_sb (out, &ptr->def);
}
}
else if (kind == '&')
{
/* Doing this permits people to use & in macro bodies. */
sb_add_char (out, '&');
sb_add_sb (out, t);
}
else if (copyifnotthere)
{
sb_add_sb (out, t);
}
else
{
sb_add_char (out, '\\');
sb_add_sb (out, t);
}
return src;
}
/* Expand the body of a macro. */
static const char *
macro_expand_body (sb *in, sb *out, formal_entry *formals,
struct hash_control *formal_hash, int locals)
{
sb t;
int src = 0;
int inquote = 0;
formal_entry *loclist = NULL;
sb_new (&t);
while (src < in->len)
{
if (in->ptr[src] == '&')
{
sb_reset (&t);
if (macro_mri)
{
if (src + 1 < in->len && in->ptr[src + 1] == '&')
src = sub_actual (src + 2, in, &t, formal_hash, '\'', out, 1);
else
sb_add_char (out, in->ptr[src++]);
}
else
{
/* FIXME: Why do we do this? */
/* At least in alternate mode this seems correct. */
src = sub_actual (src + 1, in, &t, formal_hash, '&', out, 0);
}
}
else if (in->ptr[src] == '\\')
{
src++;
if (src < in->len && in->ptr[src] == '(')
{
/* Sub in till the next ')' literally. */
src++;
while (src < in->len && in->ptr[src] != ')')
{
sb_add_char (out, in->ptr[src++]);
}
if (in->ptr[src] == ')')
src++;
else
return _("misplaced `)'");
}
else if (src < in->len && in->ptr[src] == '@')
{
/* Sub in the macro invocation number. */
char buffer[10];
src++;
sprintf (buffer, "%d", macro_number);
sb_add_string (out, buffer);
}
else if (src < in->len && in->ptr[src] == '&')
{
/* This is a preprocessor variable name, we don't do them
here. */
sb_add_char (out, '\\');
sb_add_char (out, '&');
src++;
}
else if (macro_mri && src < in->len && ISALNUM (in->ptr[src]))
{
int ind;
formal_entry *f;
if (ISDIGIT (in->ptr[src]))
ind = in->ptr[src] - '0';
else if (ISUPPER (in->ptr[src]))
ind = in->ptr[src] - 'A' + 10;
else
ind = in->ptr[src] - 'a' + 10;
++src;
for (f = formals; f != NULL; f = f->next)
{
if (f->index == ind - 1)
{
if (f->actual.len != 0)
sb_add_sb (out, &f->actual);
else
sb_add_sb (out, &f->def);
break;
}
}
}
else
{
sb_reset (&t);
src = sub_actual (src, in, &t, formal_hash, '\'', out, 0);
}
}
else if ((macro_alternate || macro_mri)
&& is_name_beginner (in->ptr[src])
&& (! inquote
|| ! macro_strip_at
|| (src > 0 && in->ptr[src - 1] == '@')))
{
if (! locals
|| src + 5 >= in->len
|| strncasecmp (in->ptr + src, "LOCAL", 5) != 0
|| ! ISWHITE (in->ptr[src + 5]))
{
sb_reset (&t);
src = sub_actual (src, in, &t, formal_hash,
(macro_strip_at && inquote) ? '@' : '\'',
out, 1);
}
else
{
formal_entry *f;
src = sb_skip_white (src + 5, in);
while (in->ptr[src] != '\n')
{
static int loccnt;
char buf[20];
const char *err;
f = (formal_entry *) xmalloc (sizeof (formal_entry));
sb_new (&f->name);
sb_new (&f->def);
sb_new (&f->actual);
f->index = LOCAL_INDEX;
f->next = loclist;
loclist = f;
src = get_token (src, in, &f->name);
++loccnt;
sprintf (buf, IS_ELF ? ".LL%04x" : "LL%04x", loccnt);
sb_add_string (&f->actual, buf);
err = hash_jam (formal_hash, sb_terminate (&f->name), f);
if (err != NULL)
return err;
src = sb_skip_comma (src, in);
}
}
}
else if (in->ptr[src] == '"'
|| (macro_mri && in->ptr[src] == '\''))
{
inquote = !inquote;
sb_add_char (out, in->ptr[src++]);
}
else if (in->ptr[src] == '@' && macro_strip_at)
{
++src;
if (src < in->len
&& in->ptr[src] == '@')
{
sb_add_char (out, '@');
++src;
}
}
else if (macro_mri
&& in->ptr[src] == '='
&& src + 1 < in->len
&& in->ptr[src + 1] == '=')
{
formal_entry *ptr;
sb_reset (&t);
src = get_token (src + 2, in, &t);
ptr = (formal_entry *) hash_find (formal_hash, sb_terminate (&t));
if (ptr == NULL)
{
/* FIXME: We should really return a warning string here,
but we can't, because the == might be in the MRI
comment field, and, since the nature of the MRI
comment field depends upon the exact instruction
being used, we don't have enough information here to
figure out whether it is or not. Instead, we leave
the == in place, which should cause a syntax error if
it is not in a comment. */
sb_add_char (out, '=');
sb_add_char (out, '=');
sb_add_sb (out, &t);
}
else
{
if (ptr->actual.len)
{
sb_add_string (out, "-1");
}
else
{
sb_add_char (out, '0');
}
}
}
else
{
sb_add_char (out, in->ptr[src++]);
}
}
sb_kill (&t);
while (loclist != NULL)
{
formal_entry *f;
f = loclist->next;
/* Setting the value to NULL effectively deletes the entry. We
avoid calling hash_delete because it doesn't reclaim memory. */
hash_jam (formal_hash, sb_terminate (&loclist->name), NULL);
sb_kill (&loclist->name);
sb_kill (&loclist->def);
sb_kill (&loclist->actual);
free (loclist);
loclist = f;
}
return NULL;
}
/* Assign values to the formal parameters of a macro, and expand the
body. */
static const char *
macro_expand (int idx, sb *in, macro_entry *m, sb *out)
{
sb t;
formal_entry *ptr;
formal_entry *f;
int is_positional = 0;
int is_keyword = 0;
int narg = 0;
const char *err;
sb_new (&t);
/* Reset any old value the actuals may have. */
for (f = m->formals; f; f = f->next)
sb_reset (&f->actual);
f = m->formals;
while (f != NULL && f->index < 0)
f = f->next;
if (macro_mri)
{
/* The macro may be called with an optional qualifier, which may
be referred to in the macro body as \0. */
if (idx < in->len && in->ptr[idx] == '.')
{
/* The Microtec assembler ignores this if followed by a white space.
(Macro invocation with empty extension) */
idx++;
if ( idx < in->len
&& in->ptr[idx] != ' '
&& in->ptr[idx] != '\t')
{
formal_entry *n;
n = (formal_entry *) xmalloc (sizeof (formal_entry));
sb_new (&n->name);
sb_new (&n->def);
sb_new (&n->actual);
n->index = QUAL_INDEX;
n->next = m->formals;
m->formals = n;
idx = get_any_string (idx, in, &n->actual, 1, 0);
}
}
}
/* Peel off the actuals and store them away in the hash tables' actuals. */
idx = sb_skip_white (idx, in);
while (idx < in->len)
{
int scan;
/* Look and see if it's a positional or keyword arg. */
scan = idx;
while (scan < in->len
&& !ISSEP (in->ptr[scan])
&& !(macro_mri && in->ptr[scan] == '\'')
&& (!macro_alternate && in->ptr[scan] != '='))
scan++;
if (scan < in->len && !macro_alternate && in->ptr[scan] == '=')
{
is_keyword = 1;
/* It's OK to go from positional to keyword. */
/* This is a keyword arg, fetch the formal name and
then the actual stuff. */
sb_reset (&t);
idx = get_token (idx, in, &t);
if (in->ptr[idx] != '=')
return _("confusion in formal parameters");
/* Lookup the formal in the macro's list. */
ptr = (formal_entry *) hash_find (m->formal_hash, sb_terminate (&t));
if (!ptr)
return _("macro formal argument does not exist");
else
{
/* Insert this value into the right place. */
sb_reset (&ptr->actual);
idx = get_any_string (idx + 1, in, &ptr->actual, 0, 0);
if (ptr->actual.len > 0)
++narg;
}
}
else
{
/* This is a positional arg. */
is_positional = 1;
if (is_keyword)
return _("can't mix positional and keyword arguments");
if (!f)
{
formal_entry **pf;
int c;
if (!macro_mri)
return _("too many positional arguments");
f = (formal_entry *) xmalloc (sizeof (formal_entry));
sb_new (&f->name);
sb_new (&f->def);
sb_new (&f->actual);
f->next = NULL;
c = -1;
for (pf = &m->formals; *pf != NULL; pf = &(*pf)->next)
if ((*pf)->index >= c)
c = (*pf)->index + 1;
if (c == -1)
c = 0;
*pf = f;
f->index = c;
}
sb_reset (&f->actual);
idx = get_any_string (idx, in, &f->actual, 1, 0);
if (f->actual.len > 0)
++narg;
do
{
f = f->next;
}
while (f != NULL && f->index < 0);
}
if (! macro_mri)
idx = sb_skip_comma (idx, in);
else
{
if (in->ptr[idx] == ',')
++idx;
if (ISWHITE (in->ptr[idx]))
break;
}
}
if (macro_mri)
{
char buffer[20];
sb_reset (&t);
sb_add_string (&t, macro_strip_at ? "$NARG" : "NARG");
ptr = (formal_entry *) hash_find (m->formal_hash, sb_terminate (&t));
sb_reset (&ptr->actual);
sprintf (buffer, "%d", narg);
sb_add_string (&ptr->actual, buffer);
}
err = macro_expand_body (&m->sub, out, m->formals, m->formal_hash, 1);
if (err != NULL)
return err;
/* Discard any unnamed formal arguments. */
if (macro_mri)
{
formal_entry **pf;
pf = &m->formals;
while (*pf != NULL)
{
if ((*pf)->name.len != 0)
pf = &(*pf)->next;
else
{
sb_kill (&(*pf)->name);
sb_kill (&(*pf)->def);
sb_kill (&(*pf)->actual);
f = (*pf)->next;
free (*pf);
*pf = f;
}
}
}
sb_kill (&t);
macro_number++;
return NULL;
}
/* Check for a macro. If one is found, put the expansion into
*EXPAND. Return 1 if a macro is found, 0 otherwise. */
int
check_macro (const char *line, sb *expand,
const char **error, macro_entry **info)
{
const char *s;
char *copy, *cs;
macro_entry *macro;
sb line_sb;
if (! is_name_beginner (*line)
&& (! macro_mri || *line != '.'))
return 0;
s = line + 1;
while (is_part_of_name (*s))
++s;
if (is_name_ender (*s))
++s;
copy = (char *) alloca (s - line + 1);
memcpy (copy, line, s - line);
copy[s - line] = '\0';
for (cs = copy; *cs != '\0'; cs++)
*cs = TOLOWER (*cs);
macro = (macro_entry *) hash_find (macro_hash, copy);
if (macro == NULL)
return 0;
/* Wrap the line up in an sb. */
sb_new (&line_sb);
while (*s != '\0' && *s != '\n' && *s != '\r')
sb_add_char (&line_sb, *s++);
sb_new (expand);
*error = macro_expand (0, &line_sb, macro, expand);
sb_kill (&line_sb);
/* Export the macro information if requested. */
if (info)
*info = macro;
return 1;
}
/* Free the memory allocated to a macro. */
static void
free_macro(macro_entry *macro)
{
formal_entry *formal;
for (formal = macro->formals; formal; )
{
void *ptr;
sb_kill (&formal->name);
sb_kill (&formal->def);
sb_kill (&formal->actual);
ptr = formal;
formal = formal->next;
free (ptr);
}
hash_die (macro->formal_hash);
sb_kill (&macro->sub);
free (macro);
}
/* Delete a macro. */
void
delete_macro (const char *name)
{
char *copy;
size_t i, len;
macro_entry *macro;
len = strlen (name);
copy = (char *) alloca (len + 1);
for (i = 0; i < len; ++i)
copy[i] = TOLOWER (name[i]);
copy[i] = '\0';
/* Since hash_delete doesn't free memory, just clear out the entry. */
if ((macro = hash_find (macro_hash, copy)) != NULL)
{
hash_jam (macro_hash, copy, NULL);
free_macro (macro);
}
else
as_warn (_("Attempt to purge non-existant macro `%s'"), copy);
}
/* Handle the MRI IRP and IRPC pseudo-ops. These are handled as a
combined macro definition and execution. This returns NULL on
success, or an error message otherwise. */
const char *
expand_irp (int irpc, int idx, sb *in, sb *out, int (*get_line) (sb *))
{
sb sub;
formal_entry f;
struct hash_control *h;
const char *err;
idx = sb_skip_white (idx, in);
sb_new (&sub);
if (! buffer_and_nest (NULL, "ENDR", &sub, get_line))
return _("unexpected end of file in irp or irpc");
sb_new (&f.name);
sb_new (&f.def);
sb_new (&f.actual);
idx = get_token (idx, in, &f.name);
if (f.name.len == 0)
return _("missing model parameter");
h = hash_new ();
err = hash_jam (h, sb_terminate (&f.name), &f);
if (err != NULL)
return err;
f.index = 1;
f.next = NULL;
sb_reset (out);
idx = sb_skip_comma (idx, in);
if (idx >= in->len)
{
/* Expand once with a null string. */
err = macro_expand_body (&sub, out, &f, h, 0);
if (err != NULL)
return err;
}
else
{
if (irpc && in->ptr[idx] == '"')
++idx;
while (idx < in->len)
{
if (!irpc)
idx = get_any_string (idx, in, &f.actual, 1, 0);
else
{
if (in->ptr[idx] == '"')
{
int nxt;
nxt = sb_skip_white (idx + 1, in);
if (nxt >= in->len)
{
idx = nxt;
break;
}
}
sb_reset (&f.actual);
sb_add_char (&f.actual, in->ptr[idx]);
++idx;
}
err = macro_expand_body (&sub, out, &f, h, 0);
if (err != NULL)
return err;
if (!irpc)
idx = sb_skip_comma (idx, in);
else
idx = sb_skip_white (idx, in);
}
}
hash_die (h);
sb_kill (&sub);
return NULL;
}