binutils-gdb/gas/sb.c

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Add support for macros. * as.c: Include sb.h and macro.h. (max_macro_next): New global variable. (main): Call macro_init. (macro_expr): New static function. * as.h (max_macro_nest): Declare. * read.c (line_label): Rename from mri_line_label. Change all uses. (potable): Add exitm, irp, irpc, macro, mexit, rept. (read_a_source_file): Always clear line_label at the start of a line, not just when flag_mri or LABELS_WITHOUT_COLONS. Fixup MRI/LABELS_WITHOUT_COLONS handling. In MRI mode, permit label: equ val. Set line_label when calling colon. In MRI mode, a leading '.' does not imply a pseudo-op. Check for macro expansion before calling md_assemble. (s_irp): New function. (get_line_sb): New static function. (s_macro): New function. (s_mexit): New function. (s_rept): New function. * read.h (line_label): Rename from mri_line_label. (s_irp, s_rept): Declare. (s_macro, s_mexit): Declare. * input-scrub.c: Include sb.h. (sb_index, from_sb): New static variables. (macro_nest): New static variable. (struct input_save): Add sb_index and from_sb fields. Change next_saved_file field to be struct input_save *. (next_saved_file): Changed to be struct input_save *. (input_scrub_push): Change to return type struct input_save *. Save sb_index and from_sb. (input_scrub_pop): Change parameter type to struct input_save *. Restore sb_index and from_sb. (input_scrub_include_sb): New function. (input_scrub_next_buffer): Handle reading from from_sb. (bump_line_counters): Only increment lines if not using from_sb. * config/tc-m68k.c (opt_table): Add nest. (opt_nest): New static function. * gasp.c: Include sb.h and macro.h. Move all sb related functions and definitions to sb.h and sb.c. Move all macro related functions and definitions to macro.h and macro.c. * sb.h, sb.c: New files, extracted from gasp.c. * macro.h, macro.c: Likewise. * Makefile.in (OBJS): Add sb.o and macro.o (GASPOBJS): Define. (gasp.new): Depend upon $(GASPOBJS). Use $(GASPOBJS) to link. (TARG_CPU_DEP_m68k): Depend upon subsegs.h. (gasp.o): Depend upon sb.h and macro.h. (sb.o): New target. (macro.o): New target. (as.o): Depend upon sb.h and macro.h. (input-scrub.o): Depend upon sb.h. (read.o): Depend upon sb.h and macro.h.
1995-08-22 02:35:11 +08:00
/* sb.c - string buffer manipulation routines
Copyright (C) 1994, 1995 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"
#include <stdio.h>
#include "sb.h"
/* These routines are about manipulating strings.
They are managed in things called `sb's which is an abbreviation
for string buffers. An sb has to be created, things can be glued
on to it, and at the end of it's life it should be freed. The
contents should never be pointed at whilst it is still growing,
since it could be moved at any time
eg:
sb_new (&foo);
sb_grow... (&foo,...);
use foo->ptr[*];
sb_kill (&foo);
*/
#define dsize 5
static void sb_check PARAMS ((sb *, int));
/* Statistics of sb structures. */
int string_count[sb_max_power_two];
/* Free list of sb structures. */
static sb_list_vector free_list;
/* initializes an sb. */
void
sb_build (ptr, size)
sb *ptr;
int size;
{
/* see if we can find one to allocate */
sb_element *e;
if (size > sb_max_power_two)
abort ();
e = free_list.size[size];
if (!e)
{
/* nothing there, allocate one and stick into the free list */
e = (sb_element *) xmalloc (sizeof (sb_element) + (1 << size));
e->next = free_list.size[size];
e->size = 1 << size;
free_list.size[size] = e;
string_count[size]++;
}
/* remove from free list */
free_list.size[size] = e->next;
/* copy into callers world */
ptr->ptr = e->data;
ptr->pot = size;
ptr->len = 0;
ptr->item = e;
}
void
sb_new (ptr)
sb *ptr;
{
sb_build (ptr, dsize);
}
/* deallocate the sb at ptr */
void
sb_kill (ptr)
sb *ptr;
{
/* return item to free list */
ptr->item->next = free_list.size[ptr->pot];
free_list.size[ptr->pot] = ptr->item;
}
/* add the sb at s to the end of the sb at ptr */
void
sb_add_sb (ptr, s)
sb *ptr;
sb *s;
{
sb_check (ptr, s->len);
memcpy (ptr->ptr + ptr->len, s->ptr, s->len);
ptr->len += s->len;
}
/* make sure that the sb at ptr has room for another len characters,
and grow it if it doesn't. */
static void
sb_check (ptr, len)
sb *ptr;
int len;
{
if (ptr->len + len >= 1 << ptr->pot)
{
sb tmp;
int pot = ptr->pot;
while (ptr->len + len >= 1 << pot)
pot++;
sb_build (&tmp, pot);
sb_add_sb (&tmp, ptr);
sb_kill (ptr);
*ptr = tmp;
}
}
/* make the sb at ptr point back to the beginning. */
void
sb_reset (ptr)
sb *ptr;
{
ptr->len = 0;
}
/* add character c to the end of the sb at ptr. */
void
sb_add_char (ptr, c)
sb *ptr;
int c;
{
sb_check (ptr, 1);
ptr->ptr[ptr->len++] = c;
}
/* add null terminated string s to the end of sb at ptr. */
void
sb_add_string (ptr, s)
sb *ptr;
const char *s;
{
int len = strlen (s);
sb_check (ptr, len);
memcpy (ptr->ptr + ptr->len, s, len);
ptr->len += len;
}
/* add string at s of length len to sb at ptr */
void
sb_add_buffer (ptr, s, len)
sb *ptr;
const char *s;
int len;
{
sb_check (ptr, len);
memcpy (ptr->ptr + ptr->len, s, len);
ptr->len += len;
}
/* print the sb at ptr to the output file */
void
sb_print (outfile, ptr)
FILE *outfile;
sb *ptr;
{
int i;
int nc = 0;
for (i = 0; i < ptr->len; i++)
{
if (nc)
{
fprintf (outfile, ",");
}
fprintf (outfile, "%d", ptr->ptr[i]);
nc = 1;
}
}
void
sb_print_at (outfile, idx, ptr)
FILE *outfile;
int idx;
sb *ptr;
{
int i;
for (i = idx; i < ptr->len; i++)
putc (ptr->ptr[i], outfile);
}
/* put a null at the end of the sb at in and return the start of the
string, so that it can be used as an arg to printf %s. */
char *
sb_name (in)
sb *in;
{
/* stick a null on the end of the string */
sb_add_char (in, 0);
return in->ptr;
}
/* like sb_name, but don't include the null byte in the string. */
char *
sb_terminate (in)
sb *in;
{
sb_add_char (in, 0);
--in->len;
return in->ptr;
}
/* start at the index idx into the string in sb at ptr and skip
whitespace. return the index of the first non whitespace character */
int
sb_skip_white (idx, ptr)
int idx;
sb *ptr;
{
while (idx < ptr->len
&& (ptr->ptr[idx] == ' '
|| ptr->ptr[idx] == '\t'))
idx++;
return idx;
}
/* start at the index idx into the sb at ptr. skips whitespace,
a comma and any following whitespace. returnes the index of the
next character. */
int
sb_skip_comma (idx, ptr)
int idx;
sb *ptr;
{
while (idx < ptr->len
&& (ptr->ptr[idx] == ' '
|| ptr->ptr[idx] == '\t'))
idx++;
if (idx < ptr->len
&& ptr->ptr[idx] == ',')
idx++;
while (idx < ptr->len
&& (ptr->ptr[idx] == ' '
|| ptr->ptr[idx] == '\t'))
idx++;
return idx;
}