499 lines
12 KiB
C
499 lines
12 KiB
C
/*
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* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
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* See the copyright notice in the ACK home directory, in the file "Copyright".
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*/
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/* $Header$ */
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/* ADMINISTRATION OF STRUCT AND UNION DECLARATIONS */
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#include "nobitfield.h"
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#include "debug.h"
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#include "botch_free.h"
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#include <alloc.h>
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#include "arith.h"
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#include "stack.h"
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#include "idf.h"
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#include "def.h"
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#include "type.h"
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#include "struct.h"
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#include "field.h"
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#include "LLlex.h"
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#include "Lpars.h"
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#include "align.h"
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#include "level.h"
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#include "assert.h"
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#include "sizes.h"
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#include "noRoption.h"
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/* Type of previous selector declared with a field width specified,
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if any. If a selector is declared with no field with it is set to 0.
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*/
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static field_busy = 0;
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extern char options[];
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int lcm();
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/* The semantics of the identification of structure/union tags is
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obscure. Some highly regarded compilers are found out to accept,
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e.g.:
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f(xp) struct aap *xp; {
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struct aap {char *za;};
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xp->za;
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}
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Equally highly regarded software uses this feature, so we shall
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humbly oblige.
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The rules we use are:
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1. A structure definition applies at the level where it is
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found, unless there is a structure declaration without a
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definition on an outer level, in which case the definition
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is applied at that level.
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2. A selector is applied on the same level as on which its
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structure is being defined.
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If below struct is mentioned, union is implied (and sometimes enum
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as well).
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*/
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add_sel(stp, tp, idf, sdefpp, szp, fd) /* this is horrible */
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register struct type *stp; /* type of the structure */
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struct type *tp; /* type of the selector */
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register struct idf *idf; /* idf of the selector */
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struct sdef ***sdefpp; /* address of hook to selector definition */
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arith *szp; /* pointer to struct size upto here */
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struct field *fd;
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{
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/* The selector idf with type tp is added to two chains: the
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selector identification chain starting at idf->id_sdef,
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and to the end of the member list starting at stp->tp_sdef.
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The address of the hook in the latest member (sdef) is
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given in sdefpp; the hook itself must still be empty.
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*/
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arith offset;
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#ifndef NOBITFIELD
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extern arith add_field();
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#endif /* NOBITFIELD */
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struct tag *tg = stp->tp_idf->id_struct; /* or union */
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struct sdef *sdef = idf->id_sdef;
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register struct sdef *newsdef;
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int lvl = tg->tg_level;
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#ifndef NOROPTION
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if (options['R'] && !is_anon_idf(idf)) {
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/* a K & R test */
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if (idf->id_struct && idf->id_struct->tg_level == level)
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warning("%s is also a struct/union tag", idf->id_text);
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}
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#endif
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if (stp->tp_fund == STRUCT) {
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#ifndef NOBITFIELD
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if (fd == 0) { /* no field width specified */
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offset = align(*szp, tp->tp_align);
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field_busy = 0;
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}
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else {
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/* if something is wrong, the type of the
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specified selector remains unchanged; its
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bitfield specifier, however, is thrown away.
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*/
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offset = add_field(szp, fd, &tp, idf, stp);
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}
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#else /* NOBITFIELD */
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offset = align(*szp, tp->tp_align);
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field_busy = 0;
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#endif /* NOBITFIELD */
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}
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else { /* (stp->tp_fund == UNION) */
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if (fd) {
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error("fields not allowed in unions");
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free_field(fd);
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fd = 0;
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}
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offset = (arith)0;
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}
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check_selector(idf, stp);
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#ifndef NOROPTION
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if (options['R']) {
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if ( sdef && sdef->sd_level == lvl &&
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( sdef->sd_offset != offset || sdef->sd_type != tp )
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) /* RM 8.5 */
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warning("selector %s redeclared", idf->id_text);
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}
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#endif
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newsdef = new_sdef();
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newsdef->sd_sdef = (struct sdef *) 0;
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/* link into selector descriptor list of this id
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*/
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newsdef->next = sdef;
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idf->id_sdef = newsdef;
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newsdef->sd_level = lvl;
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newsdef->sd_idf = idf;
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newsdef->sd_stype = stp;
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newsdef->sd_type = tp;
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newsdef->sd_offset = offset;
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#ifndef NOBITFIELD
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if (tp->tp_fund == FIELD)
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tp->tp_field->fd_sdef = newsdef;
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#endif /* NOBITFIELD */
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stack_idf(idf, stack_level_of(lvl));
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/* link into selector definition list of the struct/union
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*/
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**sdefpp = newsdef;
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*sdefpp = &newsdef->sd_sdef;
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/* update the size of the struct/union upward */
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if (stp->tp_fund == STRUCT && fd == 0) {
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/* Note: the case that a bitfield is declared is
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handled by add_field() !
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*/
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*szp = offset + size_of_type(tp, "member");
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stp->tp_align = lcm(stp->tp_align, tp->tp_align);
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}
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else
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if (stp->tp_fund == UNION) {
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arith sel_size = size_of_type(tp, "member");
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if (*szp < sel_size)
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*szp = sel_size;
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stp->tp_align = lcm(stp->tp_align, tp->tp_align);
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}
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}
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check_selector(idf, stp)
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register struct idf *idf;
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struct type *stp; /* the type of the struct */
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{
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/* checks if idf occurs already as a selector in
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struct or union *stp.
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*/
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register struct sdef *sdef = stp->tp_sdef;
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while (sdef) {
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if (sdef->sd_idf == idf)
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error("multiple selector %s", idf->id_text);
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sdef = sdef->sd_sdef;
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}
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}
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declare_struct(fund, idf, tpp)
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register struct idf *idf;
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struct type **tpp;
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{
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/* A struct, union or enum (depending on fund) with tag (!)
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idf is declared, and its type (incomplete as it may be) is
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returned in *tpp.
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The idf may be missing (i.e. idf == 0), in which case an
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anonymous struct etc. is defined.
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*/
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extern char *symbol2str();
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register struct tag **tgp;
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register struct tag *tg;
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if (!idf)
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idf = gen_idf();
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tgp = (fund == ENUM ? &idf->id_enum : &idf->id_struct);
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#ifndef NOROPTION
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if (options['R'] && !is_anon_idf(idf)) {
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/* a K & R test */
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if ( fund != ENUM &&
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idf->id_sdef && idf->id_sdef->sd_level == level
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) {
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warning("%s is also a selector", idf->id_text);
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}
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if ( fund == ENUM &&
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idf->id_def && idf->id_def->df_level == level
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) {
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warning("%s is also a variable", idf->id_text);
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}
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}
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#endif
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tg = *tgp;
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if (tg && tg->tg_type->tp_size < 0 && tg->tg_type->tp_fund == fund) {
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/* An unfinished declaration has preceded it, possibly on
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an earlier level. We just fill in the answer.
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*/
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if (tg->tg_busy) {
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error("recursive declaration of struct/union %s",
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idf->id_text);
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declare_struct(fund, gen_idf(), tpp);
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}
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else {
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#ifndef NOROPTION
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if (options['R'] && tg->tg_level != level)
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warning("%s declares %s in different range",
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idf->id_text, symbol2str(fund));
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#endif
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*tpp = tg->tg_type;
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}
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}
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else
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if (tg && tg->tg_level == level) {
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/* There is an already defined struct/union of this name
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on our level!
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*/
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error("redeclaration of struct/union %s", idf->id_text);
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declare_struct(fund, gen_idf(), tpp);
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/* to allow a second struct_declaration_pack */
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}
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else {
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/* The struct is new. */
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/* Hook in a new struct tag */
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tg = new_tag();
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tg->next = *tgp;
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*tgp = tg;
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tg->tg_level = level;
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/* and supply room for a type */
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tg->tg_type = create_type(fund);
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tg->tg_type->tp_align =
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fund == ENUM ? int_align :
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fund == STRUCT ? struct_align :
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/* fund == UNION */ union_align;
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tg->tg_type->tp_idf = idf;
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*tpp = tg->tg_type;
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stack_idf(idf, local_level);
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}
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}
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apply_struct(fund, idf, tpp)
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register struct idf *idf;
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struct type **tpp;
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{
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/* The occurrence of a struct, union or enum (depending on
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fund) with tag idf is noted. It may or may not have been
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declared before. Its type (complete or incomplete) is
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returned in *tpp.
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*/
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register struct tag **tgp;
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tgp = (is_struct_or_union(fund) ? &idf->id_struct : &idf->id_enum);
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if (*tgp)
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*tpp = (*tgp)->tg_type;
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else
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declare_struct(fund, idf, tpp);
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}
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struct sdef *
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idf2sdef(idf, tp)
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register struct idf *idf;
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struct type *tp;
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{
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/* The identifier idf is identified as a selector, preferably
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in the struct tp, but we will settle for any unique
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identification.
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If the attempt fails, a selector of type error_type is
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created.
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*/
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register struct sdef **sdefp = &idf->id_sdef, *sdef;
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/* Follow chain from idf, to meet tp. */
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while ((sdef = *sdefp)) {
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if (sdef->sd_stype == tp)
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return sdef;
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sdefp = &(*sdefp)->next;
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}
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/* Tp not met; any unique identification will do. */
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if (sdef = idf->id_sdef) {
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/* There is an identification */
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if (uniq_selector(sdef)) {
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/* and it is unique, so we accept */
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warning("selector %s applied to alien type",
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idf->id_text);
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}
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else {
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/* it is ambiguous */
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error("ambiguous use of selector %s", idf->id_text);
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}
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return sdef;
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}
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/* No luck; create an error entry. */
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if (!is_anon_idf(idf))
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error("unknown selector %s", idf->id_text);
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*sdefp = sdef = new_sdef();
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sdef->sd_idf = idf;
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sdef->sd_stype = sdef->sd_type = error_type;
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return sdef;
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}
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int
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uniq_selector(idf_sdef)
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register struct sdef *idf_sdef;
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{
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/* Returns true if idf_sdef (which is guaranteed to exist)
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is unique for this level, i.e there is no other selector
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on this level with the same name or the other selectors
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with the same name have the same offset.
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See /usr/src/cmd/sed/sed.h for an example of this absurd
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case!
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*/
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register struct sdef *sdef = idf_sdef->next;
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while (sdef && sdef->sd_level == idf_sdef->sd_level) {
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if ( sdef->sd_type != idf_sdef->sd_type
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|| sdef->sd_offset != idf_sdef->sd_offset
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) {
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return 0; /* ambiguity found */
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}
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sdef = sdef->next;
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}
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return 1;
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}
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#ifndef NOBITFIELD
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arith
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add_field(szp, fd, fdtpp, idf, stp)
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arith *szp; /* size of struct upto here */
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register struct field *fd; /* bitfield, containing width */
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register struct type **fdtpp; /* type of selector */
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struct idf *idf; /* name of selector */
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register struct type *stp; /* current struct descriptor */
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{
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/* The address where this selector is put is returned. If the
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selector with specified width does not fit in the word, or
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an explicit alignment is given, a new address is needed.
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Note that the fields are packed into machine words (according
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to the RM.)
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*/
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int bits_in_type = (int) (*fdtpp)->tp_size * 8;
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static int field_offset = (arith)0;
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static struct type *current_struct = 0;
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static int bits_declared; /* nr of bits used in *field_offset */
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if (current_struct != stp) {
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/* This struct differs from the last one
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*/
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field_busy = 0;
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current_struct = stp;
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}
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if ( fd->fd_width < 0 ||
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(fd->fd_width == 0 && !is_anon_idf(idf)) ||
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fd->fd_width > bits_in_type
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) {
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error("illegal field-width specified");
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*fdtpp = error_type;
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return field_offset;
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}
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switch ((*fdtpp)->tp_fund) {
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case CHAR:
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case SHORT:
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case INT:
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case ENUM:
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case LONG:
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/* right type; size OK? */
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if ((int) (*fdtpp)->tp_size > (int) word_size) {
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error("bit field type %s does not fit in a word",
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symbol2str((*fdtpp)->tp_fund));
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*fdtpp = error_type;
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return field_offset;
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}
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break;
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default:
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/* wrong type altogether */
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error("field type cannot be %s",
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symbol2str((*fdtpp)->tp_fund));
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*fdtpp = error_type;
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return field_offset;
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}
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if (field_busy == 0) {
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/* align this selector on the next boundary :
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the previous selector wasn't a bitfield.
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*/
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field_offset = align(*szp, int_align);
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*szp = field_offset + int_size;
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stp->tp_align = lcm(stp->tp_align, int_align);
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bits_declared = 0;
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field_busy = 1;
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}
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if (fd->fd_width > bits_in_type - bits_declared) {
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/* field overflow: fetch next memory unit
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*/
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field_offset = align(*szp, int_align);
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*szp = field_offset + int_size;
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stp->tp_align = lcm(stp->tp_align, int_align);
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bits_declared = fd->fd_width;
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}
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else
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if (fd->fd_width == 0)
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/* next field should be aligned on the next boundary.
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This will take care that no field will fit in the
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space allocated upto here.
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*/
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bits_declared = bits_in_type + 1;
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else /* the bitfield fits in the current field */
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bits_declared += fd->fd_width;
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/* Arrived here, the place where the selector is stored in the
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struct is computed.
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Now we need a mask to use its value in expressions.
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*/
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*fdtpp = construct_type(FIELD, *fdtpp, (arith)0);
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(*fdtpp)->tp_field = fd;
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/* Set the mask right shifted. This solution avoids the
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problem of having sign extension when using the mask for
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extracting the value from the field-int.
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Sign extension could occur on some machines when shifting
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the mask to the left.
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*/
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if (fd->fd_width >= 8*sizeof(arith)) fd->fd_mask = -1;
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else fd->fd_mask = (1L << fd->fd_width) - 1;
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if (options['r']) /* adjust the field at the right */
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fd->fd_shift = bits_declared - fd->fd_width;
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else /* adjust the field at the left */
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fd->fd_shift = bits_in_type - bits_declared;
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return field_offset;
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}
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#endif /* NOBITFIELD */
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/* some utilities */
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int
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is_struct_or_union(fund)
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register int fund;
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{
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return fund == STRUCT || fund == UNION;
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}
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/* Greatest Common Divisor
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*/
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int
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gcd(m, n)
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register int m, n;
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{
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register int r;
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while (n) {
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r = m % n;
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m = n;
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n = r;
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}
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return m;
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}
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/* Least Common Multiple
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*/
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int
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lcm(m, n)
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register int m, n;
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{
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return m * (n / gcd(m, n));
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}
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