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This commit adds dumping of enumerands in this general form: 0x3: (kind 8) enum eleven_els (size 0x4) (aligned at 0x4) ELEVEN_ONE: 10 ELEVEN_TWO: 11 ELEVEN_THREE: -256 ELEVEN_FOUR: -255 ELEVEN_FIVE: -254 ... ELEVEN_SEVEN: -252 ELEVEN_EIGHT: -251 ELEVEN_NINE: -250 ELEVEN_TEN: -249 ELEVEN_ELEVEN: -248 The first and last enumerands in the enumerated type are printed so that you can tell if they've been cut off at one end or the other. (For now, there is no way to control how many enumerands are printed.) The dump output in general is improved, from this sort of thing a few days ago: 4c: char [0x0:0x8] (size 0x1) [0x0] (ID 0x4c) (kind 1) char:8 (aligned at 0x1, format 0x3, offset:bits 0x0:0x8) 4d: char * (size 0x8) -> 4c: char [0x0:0x8] (size 0x1) [0x0] (ID 0x4d) (kind 3) char * (aligned at 0x8) [...] 5a: struct _IO_FILE (size 0xd8) [0x0] (ID 0x5a) (kind 6) struct _IO_FILE (aligned at 0x4) [0x0] (ID 0x3) (kind 1) int _flags:32 (aligned at 0x4, format 0x1, offset:bits 0x0:0x20) [0x40] (ID 0x4d) (kind 3) char * _IO_read_ptr (aligned at 0x8) [0x80] (ID 0x4d) (kind 3) char * _IO_read_end (aligned at 0x8) [0xc0] (ID 0x4d) (kind 3) char * _IO_read_base (aligned at 0x8) 5b: __FILE (size 0xd8) -> 5a: struct _IO_FILE (size 0xd8) [0x0] (ID 0x5b) (kind 10) __FILE (aligned at 0x4) [0x0] (ID 0x3) (kind 1) int _flags:32 (aligned at 0x4, format 0x1, offset:bits 0x0:0x20) [0x40] (ID 0x4d) (kind 3) char * _IO_read_ptr (aligned at 0x8) [0x80] (ID 0x4d) (kind 3) char * _IO_read_end (aligned at 0x8) [0xc0] (ID 0x4d) (kind 3) char * _IO_read_base (aligned at 0x8) [...] 406: struct coff_link_hash_entry (size 0x60) [0x0] (ID 0x406) (kind 6) struct coff_link_hash_entry (aligned at 0x8) [0x0] (ID 0x2b3) (kind 6) struct bfd_link_hash_entry root (aligned at 0x8) [0x0] (ID 0x1d6) (kind 6) struct bfd_hash_entry root (aligned at 0x8) [0x0] (ID 0x1d7) (kind 3) struct bfd_hash_entry * next (aligned at 0x8) [0x40] (ID 0x61) (kind 3) const char * string (aligned at 0x8) [0x80] (ID 0x1) (kind 1) long unsigned int hash:64 (aligned at 0x8, format 0x0, offset:bits 0x0:0x40) [0xc0] (ID 0x397) (kind 8) enum bfd_link_hash_type type:8 (aligned at 0x1, format 0x0, offset:bits 0x0:0x8) [0xc8] (ID 0x1c7) (kind 1) unsigned int non_ir_ref_regular:1 (aligned at 0x1, format 0x0, offset:bits 0x8:0x1) [0xc9] (ID 0x1c8) (kind 1) unsigned int non_ir_ref_dynamic:1 (aligned at 0x1, format 0x0, offset:bits 0x9:0x1) [0xca] (ID 0x1c9) (kind 1) unsigned int linker_def:1 (aligned at 0x1, format 0x0, offset:bits 0xa:0x1) [0xcb] (ID 0x1ca) (kind 1) unsigned int ldscript_def:1 (aligned at 0x1, format 0x0, offset:bits 0xb:0x1) [0xcc] (ID 0x1cb) (kind 1) unsigned int rel_from_abs:1 (aligned at 0x1, format 0x0, offset:bits 0xc:0x1) ... to this: 0x4c: (kind 1) char (format 0x3) (size 0x1) (aligned at 0x1) 0x4d: (kind 3) char * (size 0x8) (aligned at 0x8) -> 0x4c: (kind 1) char (format 0x3) (size 0x1) (aligned at 0x1) 0x5a: (kind 6) struct _IO_FILE (size 0xd8) (aligned at 0x4) [0x0] _flags: ID 0x3: (kind 1) int (format 0x1) (size 0x4) (aligned at 0x4) [0x40] _IO_read_ptr: ID 0x4d: (kind 3) char * (size 0x8) (aligned at 0x8) [0x80] _IO_read_end: ID 0x4d: (kind 3) char * (size 0x8) (aligned at 0x8) [0xc0] _IO_read_base: ID 0x4d: (kind 3) char * (size 0x8) (aligned at 0x8) [0x100] _IO_write_base: ID 0x4d: (kind 3) char * (size 0x8) (aligned at 0x8) 0x5b: (kind 10) __FILE (size 0xd8) (aligned at 0x4) -> 0x5a: (kind 6) struct _IO_FILE (size 0xd8) (aligned at 0x4) [...] 0x406: (kind 6) struct coff_link_hash_entry (size 0x60) (aligned at 0x8) [0x0] root: ID 0x2b3: (kind 6) struct bfd_link_hash_entry (size 0x38) (aligned at 0x8) [0x0] root: ID 0x1d6: (kind 6) struct bfd_hash_entry (size 0x18) (aligned at 0x8) [0x0] next: ID 0x1d7: (kind 3) struct bfd_hash_entry * (size 0x8) (aligned at 0x8) [0x40] string: ID 0x61: (kind 3) const char * (size 0x8) (aligned at 0x8) [0x80] hash: ID 0x1: (kind 1) long unsigned int (format 0x0) (size 0x8) (aligned at 0x8) [0xc0] type: ID 0x397: (kind 8) enum bfd_link_hash_type (format 0x7f2e) (size 0x1) (aligned at 0x1) [0xc8] non_ir_ref_regular: ID 0x1c7: (kind 1) unsigned int:1 [slice 0x8:0x1] (format 0x0) (size 0x1) (aligned at 0x1) [0xc9] non_ir_ref_dynamic: ID 0x1c8: (kind 1) unsigned int:1 [slice 0x9:0x1] (format 0x0) (size 0x1) (aligned at 0x1) [0xca] linker_def: ID 0x1c9: (kind 1) unsigned int:1 [slice 0xa:0x1] (format 0x0) (size 0x1) (aligned at 0x1) [0xcb] ldscript_def: ID 0x1ca: (kind 1) unsigned int:1 [slice 0xb:0x1] (format 0x0) (size 0x1) (aligned at 0x1) [0xcc] rel_from_abs: ID 0x1cb: (kind 1) unsigned int:1 [slice 0xc:0x1] (format 0x0) (size 0x1) (aligned at 0x1) [...] In particular, indented subsections are only present for actual structs and unions, not forwards to them, and the structure itself doesn't add a spurious level of indentation; structure field names are easier to spot (at the cost of not making them look so much like C field declarations any more, but they weren't always shown in valid decl syntax even before this change) the size, type kind, and alignment are shown for all types for which they are meaningful; bitfield info is only shown for actual bitfields within structures and not ordinary integral fields; and type IDs are never omitted. Type printing is in general much more consistent and there is much less duplicated code in the type dumper. There is one user-visible effect outside the dumper: ctf_type_(a)name was erroneously emitting a trailing space on the name of slice types, even though a slice of an int and an int with the corresponding encoding represent the same type and should have the same print form. This trailing space is now gone. ld/ChangeLog 2021-01-05 Nick Alcock <nick.alcock@oracle.com> * testsuite/ld-ctf/array.d: Adjust for dumper changes. * testsuite/ld-ctf/conflicting-cycle-1.B-1.d: Likewise. * testsuite/ld-ctf/conflicting-cycle-1.B-2.d: Likewise. * testsuite/ld-ctf/conflicting-cycle-1.parent.d: Likewise. * testsuite/ld-ctf/conflicting-cycle-2.A-1.d: Likewise. * testsuite/ld-ctf/conflicting-cycle-2.A-2.d: Likewise. * testsuite/ld-ctf/conflicting-cycle-2.parent.d: Likewise. * testsuite/ld-ctf/conflicting-cycle-3.C-1.d: Likewise. * testsuite/ld-ctf/conflicting-cycle-3.C-2.d: Likewise. * testsuite/ld-ctf/conflicting-cycle-3.parent.d: Likewise. * testsuite/ld-ctf/conflicting-enums.d: Likewise. * testsuite/ld-ctf/conflicting-typedefs.d: Likewise. * testsuite/ld-ctf/cross-tu-cyclic-conflicting.d: Likewise. * testsuite/ld-ctf/cross-tu-cyclic-nonconflicting.d: Likewise. * testsuite/ld-ctf/cross-tu-into-cycle.d: Likewise. * testsuite/ld-ctf/cross-tu-noncyclic.d: Likewise. * testsuite/ld-ctf/cycle-1.d: Likewise. * testsuite/ld-ctf/cycle-2.A.d: Likewise. * testsuite/ld-ctf/cycle-2.B.d: Likewise. * testsuite/ld-ctf/cycle-2.C.d: Likewise. * testsuite/ld-ctf/data-func-conflicted.d: Likewise. * testsuite/ld-ctf/diag-cttname-null.d: Likewise. * testsuite/ld-ctf/diag-cuname.d: Likewise. * testsuite/ld-ctf/diag-parlabel.d: Likewise. * testsuite/ld-ctf/diag-wrong-magic-number-mixed.d: Likewise. * testsuite/ld-ctf/forward.d: Likewise. * testsuite/ld-ctf/function.d: Likewise. * testsuite/ld-ctf/slice.d: Likewise. * testsuite/ld-ctf/super-sub-cycles.d: Likewise. * testsuite/ld-ctf/enums.c: New test. * testsuite/ld-ctf/enums.d: New test. libctf/ChangeLog 2021-01-05 Nick Alcock <nick.alcock@oracle.com> * ctf-decl.c (ctf_decl_push): Exclude slices from the decl stack. * ctf-types.c (ctf_type_aname): No longer deal with slices here. * ctf-dump.c (ctf_dump_membstate_t) <cdm_toplevel_indent>: Constify. (CTF_FT_REFS): New. (CTF_FT_BITFIELD): Likewise. (CTF_FT_ID): Likewise. (ctf_dump_member): Do not do indentation here. Migrate the type-printing parts of this into... (ctf_dump_format_type): ... here, to be shared by all type printers. Get the errno value for non-representable types right. Do not print bitfield info for non-bitfields. Improve the format and indentation of other type output. Shuffle spacing around to make all indentation either 'width of column' or 4 chars. (ctf_dump_label): Pass CTF_FT_REFS to ctf_dump_format_type. (ctf_dump_objts): Likewise. Spacing shuffle. (ctf_dump_var): Likewise. (type_hex_digits): Migrate down in the file, to above its new user. (ctf_dump_type): Indent here instead. Pass CTF_FT_REFS to ctf_dump_format_type. Don't trim off excess linefeeds now we no longer generate them. Dump enumerated types.
203 lines
5.1 KiB
C
203 lines
5.1 KiB
C
/* C declarator syntax glue.
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Copyright (C) 2019-2021 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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