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a2c5833233
The result of running etc/update-copyright.py --this-year, fixing all the files whose mode is changed by the script, plus a build with --enable-maintainer-mode --enable-cgen-maint=yes, then checking out */po/*.pot which we don't update frequently. The copy of cgen was with commit d1dd5fcc38ead reverted as that commit breaks building of bfp opcodes files.
203 lines
5.1 KiB
C
203 lines
5.1 KiB
C
/* C declarator syntax glue.
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Copyright (C) 2019-2022 Free Software Foundation, Inc.
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This file is part of libctf.
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libctf is free software; you can redistribute it and/or modify it under
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the terms of the GNU General Public License as published by the Free
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Software Foundation; either version 3, or (at your option) any later
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version.
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This program is distributed in the hope that it will be useful, but
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WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
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See the GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program; see the file COPYING. If not see
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<http://www.gnu.org/licenses/>. */
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/* CTF Declaration Stack
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In order to implement ctf_type_name(), we must convert a type graph back
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into a C type declaration. Unfortunately, a type graph represents a storage
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class ordering of the type whereas a type declaration must obey the C rules
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for operator precedence, and the two orderings are frequently in conflict.
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For example, consider these CTF type graphs and their C declarations:
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CTF_K_POINTER -> CTF_K_FUNCTION -> CTF_K_INTEGER : int (*)()
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CTF_K_POINTER -> CTF_K_ARRAY -> CTF_K_INTEGER : int (*)[]
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In each case, parentheses are used to raise operator * to higher lexical
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precedence, so the string form of the C declaration cannot be constructed by
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walking the type graph links and forming the string from left to right.
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The functions in this file build a set of stacks from the type graph nodes
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corresponding to the C operator precedence levels in the appropriate order.
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The code in ctf_type_name() can then iterate over the levels and nodes in
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lexical precedence order and construct the final C declaration string. */
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#include <ctf-impl.h>
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#include <string.h>
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void
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ctf_decl_init (ctf_decl_t *cd)
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{
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int i;
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memset (cd, 0, sizeof (ctf_decl_t));
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for (i = CTF_PREC_BASE; i < CTF_PREC_MAX; i++)
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cd->cd_order[i] = CTF_PREC_BASE - 1;
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cd->cd_qualp = CTF_PREC_BASE;
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cd->cd_ordp = CTF_PREC_BASE;
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}
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void
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ctf_decl_fini (ctf_decl_t *cd)
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{
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ctf_decl_node_t *cdp, *ndp;
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int i;
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for (i = CTF_PREC_BASE; i < CTF_PREC_MAX; i++)
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{
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for (cdp = ctf_list_next (&cd->cd_nodes[i]); cdp != NULL; cdp = ndp)
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{
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ndp = ctf_list_next (cdp);
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free (cdp);
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}
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}
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free (cd->cd_buf);
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}
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void
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ctf_decl_push (ctf_decl_t *cd, ctf_dict_t *fp, ctf_id_t type)
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{
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ctf_decl_node_t *cdp;
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ctf_decl_prec_t prec;
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uint32_t kind, n = 1;
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int is_qual = 0;
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const ctf_type_t *tp;
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ctf_arinfo_t ar;
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if ((tp = ctf_lookup_by_id (&fp, type)) == NULL)
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{
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cd->cd_err = fp->ctf_errno;
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return;
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}
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switch (kind = LCTF_INFO_KIND (fp, tp->ctt_info))
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{
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case CTF_K_ARRAY:
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(void) ctf_array_info (fp, type, &ar);
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ctf_decl_push (cd, fp, ar.ctr_contents);
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n = ar.ctr_nelems;
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prec = CTF_PREC_ARRAY;
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break;
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case CTF_K_TYPEDEF:
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if (ctf_strptr (fp, tp->ctt_name)[0] == '\0')
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{
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ctf_decl_push (cd, fp, tp->ctt_type);
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return;
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}
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prec = CTF_PREC_BASE;
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break;
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case CTF_K_FUNCTION:
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ctf_decl_push (cd, fp, tp->ctt_type);
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prec = CTF_PREC_FUNCTION;
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break;
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case CTF_K_POINTER:
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ctf_decl_push (cd, fp, tp->ctt_type);
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prec = CTF_PREC_POINTER;
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break;
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case CTF_K_SLICE:
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/* Slices themselves have no print representation and should not appear in
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the decl stack. */
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ctf_decl_push (cd, fp, ctf_type_reference (fp, type));
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return;
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case CTF_K_VOLATILE:
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case CTF_K_CONST:
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case CTF_K_RESTRICT:
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ctf_decl_push (cd, fp, tp->ctt_type);
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prec = cd->cd_qualp;
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is_qual++;
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break;
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default:
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prec = CTF_PREC_BASE;
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}
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if ((cdp = malloc (sizeof (ctf_decl_node_t))) == NULL)
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{
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cd->cd_err = EAGAIN;
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return;
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}
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cdp->cd_type = type;
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cdp->cd_kind = kind;
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cdp->cd_n = n;
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if (ctf_list_next (&cd->cd_nodes[prec]) == NULL)
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cd->cd_order[prec] = cd->cd_ordp++;
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/* Reset cd_qualp to the highest precedence level that we've seen so
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far that can be qualified (CTF_PREC_BASE or CTF_PREC_POINTER). */
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if (prec > cd->cd_qualp && prec < CTF_PREC_ARRAY)
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cd->cd_qualp = prec;
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/* By convention qualifiers of base types precede the type specifier (e.g.
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const int vs. int const) even though the two forms are equivalent. */
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if (is_qual && prec == CTF_PREC_BASE)
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ctf_list_prepend (&cd->cd_nodes[prec], cdp);
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else
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ctf_list_append (&cd->cd_nodes[prec], cdp);
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}
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_libctf_printflike_ (2, 3)
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void ctf_decl_sprintf (ctf_decl_t *cd, const char *format, ...)
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{
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va_list ap;
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char *str;
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int n;
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if (cd->cd_enomem)
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return;
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va_start (ap, format);
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n = vasprintf (&str, format, ap);
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va_end (ap);
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if (n > 0)
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{
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char *newbuf;
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if ((newbuf = ctf_str_append (cd->cd_buf, str)) != NULL)
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cd->cd_buf = newbuf;
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}
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/* Sticky error condition. */
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if (n < 0 || cd->cd_buf == NULL)
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{
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free (cd->cd_buf);
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cd->cd_buf = NULL;
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cd->cd_enomem = 1;
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}
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free (str);
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}
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char *ctf_decl_buf (ctf_decl_t *cd)
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{
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char *buf = cd->cd_buf;
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cd->cd_buf = NULL;
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return buf;
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}
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