xlint/lint1/init.c

1.218    rillig /*	$NetBSD: init.c,v 1.218 2021/12/18 11:25:15 rillig Exp $	*/
  1.2       cgd
  1.1       cgd /*
  1.1       cgd  * Copyright (c) 1994, 1995 Jochen Pohl
1.179    rillig  * Copyright (c) 2021 Roland Illig
  1.1       cgd  * All Rights Reserved.
  1.1       cgd  *
  1.1       cgd  * Redistribution and use in source and binary forms, with or without
  1.1       cgd  * modification, are permitted provided that the following conditions
  1.1       cgd  * are met:
  1.1       cgd  * 1. Redistributions of source code must retain the above copyright
  1.1       cgd  *    notice, this list of conditions and the following disclaimer.
  1.1       cgd  * 2. Redistributions in binary form must reproduce the above copyright
  1.1       cgd  *    notice, this list of conditions and the following disclaimer in the
  1.1       cgd  *    documentation and/or other materials provided with the distribution.
  1.1       cgd  * 3. All advertising materials mentioning features or use of this software
  1.1       cgd  *    must display the following acknowledgement:
  1.1       cgd  *      This product includes software developed by Jochen Pohl for
  1.1       cgd  *	The NetBSD Project.
  1.1       cgd  * 4. The name of the author may not be used to endorse or promote products
  1.1       cgd  *    derived from this software without specific prior written permission.
  1.1       cgd  *
  1.1       cgd  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
  1.1       cgd  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  1.1       cgd  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  1.1       cgd  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
  1.1       cgd  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  1.1       cgd  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  1.1       cgd  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  1.1       cgd  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  1.1       cgd  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  1.1       cgd  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  1.1       cgd  */
  1.1       cgd
 1.18       jmc #if HAVE_NBTOOL_CONFIG_H
 1.18       jmc #include "nbtool_config.h"
 1.18       jmc #endif
 1.18       jmc
  1.5  christos #include <sys/cdefs.h>
 1.10        tv #if defined(__RCSID) && !defined(lint)
1.218    rillig __RCSID("$NetBSD: init.c,v 1.218 2021/12/18 11:25:15 rillig Exp $");
  1.1       cgd #endif
  1.1       cgd
  1.1       cgd #include <stdlib.h>
 1.17   thorpej #include <string.h>
  1.1       cgd
  1.1       cgd #include "lint1.h"
  1.1       cgd
 1.53    rillig
 1.53    rillig /*
1.179    rillig  * Initialization of global or local objects, like in:
 1.93    rillig  *
 1.93    rillig  *	int number = 12345;
 1.93    rillig  *	int number_with_braces = { 12345 };
 1.93    rillig  *
 1.93    rillig  *	int array_of_unknown_size[] = { 111, 222, 333 };
 1.93    rillig  *	int array_flat[2][2] = { 11, 12, 21, 22 };
 1.93    rillig  *	int array_nested[2][2] = { { 11, 12 }, { 21, 22 } };
 1.93    rillig  *
 1.93    rillig  *	struct { int x, y; } point = { 3, 4 };
1.119    rillig  *	struct { int x, y; } point = { .y = 4, .x = 3 };
 1.93    rillig  *
1.119    rillig  * Any scalar expression in the initializer may be surrounded by arbitrarily
1.119    rillig  * many extra pairs of braces, like in the example 'number_with_braces' (C99
1.119    rillig  * 6.7.8p11).
1.119    rillig  *
1.119    rillig  * For multi-dimensional arrays, the inner braces may be omitted like in
1.179    rillig  * array_flat or spelled out like in array_nested.  This is unusual in
1.179    rillig  * practice and therefore only supported very basically.
 1.93    rillig  *
1.198    rillig  * During an initialization, the grammar parser calls these functions:
 1.93    rillig  *
1.119    rillig  *	begin_initialization
1.119    rillig  *		init_lbrace			for each '{'
1.157    rillig  *		add_designator_member		for each '.member' before '='
1.157    rillig  *		add_designator_subscript	for each '[123]' before '='
1.179    rillig  *		init_expr			for each expression
1.119    rillig  *		init_rbrace			for each '}'
1.119    rillig  *	end_initialization
 1.93    rillig  *
1.139    rillig  * Each '{' begins a new brace level, each '}' ends the current brace level.
1.198    rillig  * Each brace level has an associated "current object", which is the starting
1.198    rillig  * point for resolving the optional designations such as '.member[3]'.
 1.93    rillig  *
 1.93    rillig  * See also:
 1.93    rillig  *	C99 6.7.8 "Initialization"
 1.93    rillig  *	d_c99_init.c for more examples
 1.93    rillig  */
 1.93    rillig
 1.55    rillig /*
1.135    rillig  * A single component on the path to the sub-object that is initialized by an
1.135    rillig  * initializer expression.  Either a struct or union member, or an array
1.135    rillig  * subscript.
 1.55    rillig  *
1.179    rillig  * C99 6.7.8p6, 6.7.8p7
1.128    rillig  */
1.140    rillig struct designator {
1.179    rillig 	const char	*dr_name;	/* for struct and union */
1.179    rillig 	size_t		dr_subscript;	/* for array */
1.140    rillig };
1.128    rillig
1.128    rillig /*
1.135    rillig  * The optional designation for an initializer, saying which sub-object to
1.135    rillig  * initialize.  Examples for designations are '.member' or
1.135    rillig  * '.member[123].member.member[1][1]'.
1.135    rillig  *
1.179    rillig  * C99 6.7.8p6, 6.7.8p7
 1.55    rillig  */
1.140    rillig struct designation {
1.218    rillig 	struct designator *dn_items;
1.218    rillig 	size_t dn_len;
1.218    rillig 	size_t dn_cap;
1.140    rillig };
 1.53    rillig
1.179    rillig /*
1.179    rillig  * Describes a single brace level of an ongoing initialization.
1.179    rillig  *
1.179    rillig  * See C99 6.7.8p17.
1.179    rillig  */
1.179    rillig struct brace_level {
1.201    rillig 	/*
1.201    rillig 	 * The type of the current object that is initialized at this brace
1.201    rillig 	 * level.
1.201    rillig 	 */
1.201    rillig 	const type_t	*bl_type;
1.193    rillig
1.193    rillig 	struct designation bl_designation;	/* .member[123].member */
1.192    rillig
1.201    rillig 	/*
1.201    rillig 	 * The next member of the struct or union that is to be initialized,
1.201    rillig 	 * unless a specific member is selected by a designator.
1.201    rillig 	 */
1.201    rillig 	const sym_t	*bl_member;
1.201    rillig 	/*
1.201    rillig 	 * The subscript of the next array element that is to be initialized,
1.201    rillig 	 * unless a specific subscript is selected by a designator.
1.201    rillig 	 */
1.201    rillig 	size_t		bl_subscript;
1.201    rillig 	/*
1.201    rillig 	 * The maximum subscript that has ever be seen; only relevant for an
1.201    rillig 	 * array of unknown size at the outermost brace level.
1.201    rillig 	 */
1.201    rillig 	size_t		bl_max_subscript;
1.179    rillig 	bool		bl_scalar_done: 1;	/* for scalars */
1.185    rillig 	bool		bl_confused: 1;		/* skip further checks */
1.192    rillig
1.179    rillig 	struct brace_level *bl_enclosing;
1.179    rillig };
1.179    rillig
1.198    rillig /*
1.198    rillig  * An ongoing initialization.
1.198    rillig  *
1.198    rillig  * In most cases there is only ever a single initialization going on.  See
1.198    rillig  * pointer_to_compound_literal in msg_171.c for an exception.
1.198    rillig  */
1.110    rillig struct initialization {
1.193    rillig 	/* The symbol that is to be initialized. */
1.193    rillig 	sym_t		*in_sym;
1.193    rillig
1.193    rillig 	/* The innermost brace level. */
1.193    rillig 	struct brace_level *in_brace_level;
1.193    rillig
1.110    rillig 	/*
1.214    rillig 	 * Is set when a structural error occurred in the initialization.
1.111    rillig 	 * The effect is that the rest of the initialization is ignored
1.111    rillig 	 * (parsed by yacc, expression trees built, but no initialization
1.111    rillig 	 * takes place).
1.110    rillig 	 */
1.176    rillig 	bool		in_err;
1.110    rillig
1.179    rillig 	struct initialization *in_enclosing;
1.110    rillig };
  1.1       cgd
1.145    rillig
1.175    rillig static void *
1.175    rillig unconst_cast(const void *p)
1.175    rillig {
1.175    rillig 	void *r;
1.175    rillig
1.190    rillig 	memcpy(&r, &p, sizeof(r));
1.175    rillig 	return r;
1.175    rillig }
1.175    rillig
1.177    rillig static bool
1.177    rillig has_automatic_storage_duration(const sym_t *sym)
1.177    rillig {
1.177    rillig
1.177    rillig 	return sym->s_scl == AUTO || sym->s_scl == REG;
1.177    rillig }
1.177    rillig
1.177    rillig /* C99 6.7.8p14, 6.7.8p15 */
1.177    rillig static bool
1.212    rillig is_character_array(const type_t *tp, tspec_t t)
1.177    rillig {
1.177    rillig 	tspec_t st;
1.177    rillig
1.177    rillig 	if (tp == NULL || tp->t_tspec != ARRAY)
1.177    rillig 		return false;
1.177    rillig
1.177    rillig 	st = tp->t_subt->t_tspec;
1.177    rillig 	return t == CHAR
1.177    rillig 	    ? st == CHAR || st == UCHAR || st == SCHAR
1.177    rillig 	    : st == WCHAR;
1.177    rillig }
1.177    rillig
1.177    rillig /* C99 6.7.8p9 */
1.177    rillig static bool
1.179    rillig is_unnamed(const sym_t *m)
1.177    rillig {
1.177    rillig
1.177    rillig 	return m->s_bitfield && m->s_name == unnamed;
1.177    rillig }
1.177    rillig
1.179    rillig /* C99 6.7.8p9 */
1.179    rillig static const sym_t *
1.179    rillig skip_unnamed(const sym_t *m)
1.179    rillig {
1.179    rillig
1.179    rillig 	while (m != NULL && is_unnamed(m))
1.179    rillig 		m = m->s_next;
1.179    rillig 	return m;
1.179    rillig }
1.179    rillig
1.177    rillig static const sym_t *
1.179    rillig first_named_member(const type_t *tp)
1.177    rillig {
1.177    rillig
1.179    rillig 	lint_assert(is_struct_or_union(tp->t_tspec));
1.179    rillig 	return skip_unnamed(tp->t_str->sou_first_member);
1.179    rillig }
1.179    rillig
1.179    rillig static const sym_t *
1.179    rillig look_up_member(const type_t *tp, const char *name)
1.179    rillig {
1.179    rillig 	const sym_t *m;
1.179    rillig
1.179    rillig 	lint_assert(is_struct_or_union(tp->t_tspec));
1.179    rillig 	for (m = tp->t_str->sou_first_member; m != NULL; m = m->s_next)
1.179    rillig 		if (!is_unnamed(m) && strcmp(m->s_name, name) == 0)
1.177    rillig 			return m;
1.177    rillig 	return NULL;
1.177    rillig }
1.177    rillig
1.179    rillig static const type_t *
1.179    rillig sym_type(const sym_t *sym)
1.179    rillig {
1.179    rillig
1.179    rillig 	return sym != NULL ? sym->s_type : NULL;
1.179    rillig }
1.179    rillig
1.179    rillig static const type_t *
1.179    rillig look_up_member_type(const type_t *tp, const char *name)
1.179    rillig {
1.179    rillig 	const sym_t *member;
1.179    rillig
1.179    rillig 	member = look_up_member(tp, name);
1.179    rillig 	if (member == NULL) {
1.182    rillig 		/* type '%s' does not have member '%s' */
1.182    rillig 		error(101, type_name(tp), name);
1.179    rillig 	}
1.179    rillig
1.179    rillig 	return sym_type(member);
1.179    rillig }
1.179    rillig
1.198    rillig /*
1.198    rillig  * C99 6.7.8p22 says that the type of an array of unknown size becomes known
1.198    rillig  * at the end of its initializer list.
1.198    rillig  */
1.179    rillig static void
1.179    rillig update_type_of_array_of_unknown_size(sym_t *sym, size_t size)
1.179    rillig {
1.179    rillig 	type_t *tp;
1.179    rillig
1.189    rillig 	tp = dup_type(sym->s_type);
1.179    rillig 	tp->t_dim = (int)size;
1.179    rillig 	tp->t_incomplete_array = false;
1.179    rillig 	sym->s_type = tp;
1.179    rillig }
1.179    rillig
1.167    rillig
1.158    rillig /* In traditional C, bit-fields can be initialized only by integer constants. */
1.158    rillig static void
1.158    rillig check_bit_field_init(const tnode_t *ln, tspec_t lt, tspec_t rt)
1.158    rillig {
1.175    rillig
1.158    rillig 	if (tflag &&
1.158    rillig 	    is_integer(lt) &&
1.158    rillig 	    ln->tn_type->t_bitfield &&
1.158    rillig 	    !is_integer(rt)) {
1.158    rillig 		/* bit-field initialization is illegal in traditional C */
1.158    rillig 		warning(186);
1.158    rillig 	}
1.158    rillig }
1.158    rillig
1.158    rillig static void
1.177    rillig check_non_constant_initializer(const tnode_t *tn, const sym_t *sym)
1.158    rillig {
1.177    rillig 	const sym_t *unused_sym;
1.177    rillig 	ptrdiff_t unused_offs;
1.175    rillig
1.158    rillig 	if (tn == NULL || tn->tn_op == CON)
1.158    rillig 		return;
1.158    rillig
1.177    rillig 	if (constant_addr(tn, &unused_sym, &unused_offs))
1.158    rillig 		return;
1.158    rillig
1.177    rillig 	if (has_automatic_storage_duration(sym)) {
1.158    rillig 		/* non-constant initializer */
1.158    rillig 		c99ism(177);
1.158    rillig 	} else {
1.158    rillig 		/* non-constant initializer */
1.158    rillig 		error(177);
1.158    rillig 	}
1.158    rillig }
1.158    rillig
1.158    rillig static void
1.197    rillig check_trad_no_auto_aggregate(const sym_t *sym)
1.179    rillig {
1.179    rillig
1.197    rillig 	if (has_automatic_storage_duration(sym) &&
1.179    rillig 	    !is_scalar(sym->s_type->t_tspec)) {
1.209    rillig 		/* no automatic aggregate initialization in traditional C */
1.179    rillig 		warning(188);
1.179    rillig 	}
1.179    rillig }
1.179    rillig
1.179    rillig static void
1.177    rillig check_init_expr(const type_t *tp, sym_t *sym, tnode_t *tn)
1.158    rillig {
1.158    rillig 	tnode_t *ln;
1.200    rillig 	type_t *ltp;
1.158    rillig 	tspec_t lt, rt;
1.187    rillig 	struct memory_block *tmem;
1.158    rillig
1.204    rillig 	ltp = expr_unqualified_type(tp);
1.200    rillig
1.158    rillig 	/* Create a temporary node for the left side. */
1.190    rillig 	ln = expr_zalloc(sizeof(*ln));
1.158    rillig 	ln->tn_op = NAME;
1.200    rillig 	ln->tn_type = ltp;
1.158    rillig 	ln->tn_lvalue = true;
1.158    rillig 	ln->tn_sym = sym;
1.158    rillig
1.158    rillig 	tn = cconv(tn);
1.158    rillig
1.158    rillig 	lt = ln->tn_type->t_tspec;
1.158    rillig 	rt = tn->tn_type->t_tspec;
1.158    rillig
1.206    rillig 	debug_step("typeok '%s', '%s'",
1.158    rillig 	    type_name(ln->tn_type), type_name(tn->tn_type));
1.158    rillig 	if (!typeok(INIT, 0, ln, tn))
1.158    rillig 		return;
1.158    rillig
1.158    rillig 	/*
1.158    rillig 	 * Preserve the tree memory. This is necessary because otherwise
1.158    rillig 	 * expr() would free it.
1.158    rillig 	 */
1.188    rillig 	tmem = expr_save_memory();
1.158    rillig 	expr(tn, true, false, true, false);
1.188    rillig 	expr_restore_memory(tmem);
1.158    rillig
1.158    rillig 	check_bit_field_init(ln, lt, rt);
1.158    rillig
1.158    rillig 	/*
1.158    rillig 	 * XXX: Is it correct to do this conversion _after_ the typeok above?
1.158    rillig 	 */
1.158    rillig 	if (lt != rt || (tp->t_bitfield && tn->tn_op == CON))
1.175    rillig 		tn = convert(INIT, 0, unconst_cast(tp), tn);
1.158    rillig
1.177    rillig 	check_non_constant_initializer(tn, sym);
1.158    rillig }
1.158    rillig
1.158    rillig
1.179    rillig static const type_t *
1.179    rillig designator_look_up(const struct designator *dr, const type_t *tp)
1.179    rillig {
1.179    rillig 	switch (tp->t_tspec) {
1.179    rillig 	case STRUCT:
1.179    rillig 	case UNION:
1.179    rillig 		if (dr->dr_name == NULL) {
1.179    rillig 			/* syntax error '%s' */
1.179    rillig 			error(249, "designator '[...]' is only for arrays");
1.179    rillig 			return sym_type(first_named_member(tp));
1.179    rillig 		}
1.179    rillig
1.179    rillig 		return look_up_member_type(tp, dr->dr_name);
1.179    rillig 	case ARRAY:
1.179    rillig 		if (dr->dr_name != NULL) {
1.179    rillig 			/* syntax error '%s' */
1.179    rillig 			error(249,
1.181    rillig 			    "designator '.member' is only for struct/union");
1.179    rillig 		}
1.183    rillig 		if (!tp->t_incomplete_array &&
1.183    rillig 		    dr->dr_subscript >= (size_t)tp->t_dim) {
1.183    rillig 			/* array subscript cannot be > %d: %ld */
1.183    rillig 			error(168, tp->t_dim - 1, (long)dr->dr_subscript);
1.183    rillig 		}
1.179    rillig 		return tp->t_subt;
1.179    rillig 	default:
1.179    rillig 		/* syntax error '%s' */
1.179    rillig 		error(249, "scalar type cannot use designator");
1.179    rillig 		return tp;
1.179    rillig 	}
1.179    rillig }
1.179    rillig
1.179    rillig
1.159    rillig #ifdef DEBUG
1.159    rillig static void
1.159    rillig designation_debug(const struct designation *dn)
1.159    rillig {
1.218    rillig 	size_t i;
1.159    rillig
1.218    rillig 	if (dn->dn_len == 0)
1.159    rillig 		return;
1.159    rillig
1.159    rillig 	debug_indent();
1.159    rillig 	debug_printf("designation: ");
1.218    rillig 	for (i = 0; i < dn->dn_len; i++) {
1.218    rillig 		const struct designator *dr = dn->dn_items + i;
1.179    rillig 		if (dr->dr_name != NULL) {
1.179    rillig 			debug_printf(".%s", dr->dr_name);
1.179    rillig 			lint_assert(dr->dr_subscript == 0);
1.179    rillig 		} else
1.179    rillig 			debug_printf("[%zu]", dr->dr_subscript);
1.179    rillig 	}
1.159    rillig 	debug_printf("\n");
1.159    rillig }
1.159    rillig #else
1.159    rillig #define designation_debug(dn) do { } while (false)
1.159    rillig #endif
1.159    rillig
1.159    rillig static void
1.179    rillig designation_add(struct designation *dn, const char *name, size_t subscript)
1.159    rillig {
1.179    rillig
1.218    rillig 	if (dn->dn_len == dn->dn_cap) {
1.218    rillig 		dn->dn_cap += 4;
1.218    rillig 		dn->dn_items = xrealloc(dn->dn_items,
1.218    rillig 		    dn->dn_cap * sizeof(dn->dn_items[0]));
1.218    rillig 	}
1.159    rillig
1.218    rillig 	dn->dn_items[dn->dn_len].dr_name = name;
1.218    rillig 	dn->dn_items[dn->dn_len].dr_subscript = subscript;
1.218    rillig 	dn->dn_len++;
1.159    rillig }
1.159    rillig
1.159    rillig /*
1.179    rillig  * Starting at the type of the current object, resolve the type of the
1.179    rillig  * sub-object by following each designator in the list.
1.198    rillig  *
1.198    rillig  * C99 6.7.8p18
1.159    rillig  */
1.179    rillig static const type_t *
1.179    rillig designation_look_up(const struct designation *dn, const type_t *tp)
1.179    rillig {
1.218    rillig 	size_t i;
1.179    rillig
1.218    rillig 	for (i = 0; i < dn->dn_len && tp != NULL; i++)
1.218    rillig 		tp = designator_look_up(dn->dn_items + i, tp);
1.179    rillig 	return tp;
1.179    rillig }
1.179    rillig
1.159    rillig static void
1.179    rillig designation_reset(struct designation *dn)
1.159    rillig {
1.159    rillig
1.218    rillig 	dn->dn_len = 0;
1.218    rillig }
1.218    rillig
1.218    rillig static void
1.218    rillig designation_free(struct designation *dn)
1.218    rillig {
1.184    rillig
1.218    rillig 	free(dn->dn_items);
1.159    rillig }
1.159    rillig
1.159    rillig
1.152    rillig static struct brace_level *
1.179    rillig brace_level_new(const type_t *tp, struct brace_level *enclosing)
1.152    rillig {
1.179    rillig 	struct brace_level *bl;
1.152    rillig
1.179    rillig 	bl = xcalloc(1, sizeof(*bl));
1.179    rillig 	bl->bl_type = tp;
1.178    rillig 	bl->bl_enclosing = enclosing;
1.179    rillig 	if (is_struct_or_union(tp->t_tspec))
1.192    rillig 		bl->bl_member = first_named_member(tp);
1.152    rillig
1.178    rillig 	return bl;
1.152    rillig }
1.152    rillig
1.152    rillig static void
1.178    rillig brace_level_free(struct brace_level *bl)
1.152    rillig {
1.179    rillig
1.218    rillig 	designation_free(&bl->bl_designation);
1.178    rillig 	free(bl);
1.152    rillig }
1.152    rillig
1.146    rillig #ifdef DEBUG
 1.78    rillig static void
1.178    rillig brace_level_debug(const struct brace_level *bl)
 1.74    rillig {
 1.78    rillig
1.179    rillig 	lint_assert(bl->bl_type != NULL);
1.192    rillig 	lint_assert(bl->bl_member == NULL || !is_unnamed(bl->bl_member));
1.179    rillig
1.179    rillig 	debug_printf("type '%s'", type_name(bl->bl_type));
1.179    rillig
1.192    rillig 	if (is_struct_or_union(bl->bl_type->t_tspec) && bl->bl_member != NULL)
1.192    rillig 		debug_printf(", member '%s'", bl->bl_member->s_name);
1.179    rillig 	if (bl->bl_type->t_tspec == ARRAY)
1.192    rillig 		debug_printf(", subscript %zu", bl->bl_subscript);
 1.78    rillig
1.179    rillig 	debug_printf("\n");
 1.74    rillig }
1.146    rillig #else
1.179    rillig #define brace_level_debug(level) do { } while (false)
1.146    rillig #endif
1.146    rillig
1.179    rillig /* Return the type of the sub-object that is currently being initialized. */
1.179    rillig static const type_t *
1.194    rillig brace_level_sub_type(const struct brace_level *bl, bool is_string)
1.172    rillig {
1.147    rillig
1.218    rillig 	if (bl->bl_designation.dn_len > 0)
1.179    rillig 		return designation_look_up(&bl->bl_designation, bl->bl_type);
1.174    rillig
1.179    rillig 	switch (bl->bl_type->t_tspec) {
1.179    rillig 	case STRUCT:
1.179    rillig 	case UNION:
1.216    rillig 		if (bl->bl_member == NULL) {
1.216    rillig 			/* too many struct/union initializers */
1.216    rillig 			error(172);
1.216    rillig 			return NULL;
1.216    rillig 		}
1.216    rillig
1.216    rillig 		lint_assert(!is_unnamed(bl->bl_member));
1.216    rillig 		return sym_type(bl->bl_member);
1.216    rillig
1.179    rillig 	case ARRAY:
1.216    rillig 		if (!bl->bl_confused && !bl->bl_type->t_incomplete_array &&
1.216    rillig 		    bl->bl_subscript >= (size_t)bl->bl_type->t_dim) {
1.216    rillig 			/* too many array initializers, expected %d */
1.216    rillig 			error(173, bl->bl_type->t_dim);
1.216    rillig 		}
1.216    rillig
1.216    rillig 		if (is_string && bl->bl_subscript == 0 &&
1.216    rillig 		    bl->bl_type->t_subt->t_tspec != ARRAY)
1.216    rillig 			return bl->bl_type;
1.216    rillig 		return bl->bl_type->t_subt;
1.216    rillig
1.179    rillig 	default:
1.216    rillig 		if (bl->bl_scalar_done) {
1.216    rillig 			/* too many initializers */
1.216    rillig 			error(174);
1.216    rillig 		}
1.216    rillig
1.216    rillig 		return bl->bl_type;
1.147    rillig 	}
1.147    rillig }
1.147    rillig
1.192    rillig /* C99 6.7.8p17 */
1.179    rillig static void
1.179    rillig brace_level_apply_designation(struct brace_level *bl)
1.155    rillig {
1.218    rillig 	const struct designator *dr;
1.179    rillig
1.218    rillig 	if (bl->bl_designation.dn_len == 0)
1.179    rillig 		return;
1.218    rillig 	dr = &bl->bl_designation.dn_items[0];
1.174    rillig
1.179    rillig 	designation_debug(&bl->bl_designation);
1.155    rillig
1.179    rillig 	switch (bl->bl_type->t_tspec) {
1.179    rillig 	case STRUCT:
1.179    rillig 	case UNION:
1.179    rillig 		if (dr->dr_name == NULL)
1.179    rillig 			return;	/* error, silently ignored */
1.192    rillig 		bl->bl_member = look_up_member(bl->bl_type, dr->dr_name);
1.179    rillig 		break;
1.179    rillig 	case ARRAY:
1.179    rillig 		if (dr->dr_name != NULL)
1.179    rillig 			return;	/* error, silently ignored */
1.192    rillig 		bl->bl_subscript = dr->dr_subscript;
1.179    rillig 		break;
1.179    rillig 	default:
1.179    rillig 		break;		/* error, silently ignored */
1.155    rillig 	}
1.155    rillig }
1.155    rillig
1.158    rillig /*
1.179    rillig  * After initializing a sub-object, advance to the next sub-object.
1.158    rillig  *
1.179    rillig  * C99 6.7.8p17
1.158    rillig  */
1.158    rillig static void
1.179    rillig brace_level_advance(struct brace_level *bl)
1.158    rillig {
1.158    rillig
1.179    rillig 	switch (bl->bl_type->t_tspec) {
1.179    rillig 	case STRUCT:
1.192    rillig 		lint_assert(bl->bl_member != NULL);
1.192    rillig 		bl->bl_member = skip_unnamed(bl->bl_member->s_next);
1.179    rillig 		break;
1.179    rillig 	case UNION:
1.192    rillig 		bl->bl_member = NULL;
1.179    rillig 		break;
1.179    rillig 	case ARRAY:
1.192    rillig 		bl->bl_subscript++;
1.201    rillig 		if (bl->bl_subscript > bl->bl_max_subscript)
1.201    rillig 			bl->bl_max_subscript = bl->bl_subscript;
1.179    rillig 		break;
1.179    rillig 	default:
1.179    rillig 		bl->bl_scalar_done = true;
1.179    rillig 		break;
1.158    rillig 	}
1.160    rillig }
1.158    rillig
1.146    rillig
1.146    rillig static struct initialization *
1.217    rillig initialization_new(sym_t *sym, struct initialization *enclosing)
1.146    rillig {
1.179    rillig 	struct initialization *in;
1.146    rillig
1.179    rillig 	in = xcalloc(1, sizeof(*in));
1.176    rillig 	in->in_sym = sym;
1.217    rillig 	in->in_enclosing = enclosing;
1.146    rillig
1.146    rillig 	return in;
1.146    rillig }
 1.74    rillig
1.146    rillig static void
1.146    rillig initialization_free(struct initialization *in)
1.146    rillig {
1.176    rillig 	struct brace_level *bl, *next;
1.146    rillig
1.176    rillig 	for (bl = in->in_brace_level; bl != NULL; bl = next) {
1.176    rillig 		next = bl->bl_enclosing;
1.176    rillig 		brace_level_free(bl);
1.146    rillig 	}
1.146    rillig
1.146    rillig 	free(in);
1.146    rillig }
1.146    rillig
1.146    rillig #ifdef DEBUG
 1.73    rillig static void
1.146    rillig initialization_debug(const struct initialization *in)
 1.73    rillig {
1.179    rillig 	size_t i;
1.179    rillig 	const struct brace_level *bl;
1.179    rillig
1.176    rillig 	if (in->in_brace_level == NULL) {
1.179    rillig 		debug_step("no brace level");
 1.73    rillig 		return;
 1.73    rillig 	}
 1.73    rillig
1.179    rillig 	i = 0;
1.179    rillig 	for (bl = in->in_brace_level; bl != NULL; bl = bl->bl_enclosing) {
1.120    rillig 		debug_indent();
1.139    rillig 		debug_printf("brace level %zu: ", i);
1.178    rillig 		brace_level_debug(bl);
 1.73    rillig 		i++;
 1.73    rillig 	}
 1.73    rillig }
1.146    rillig #else
1.146    rillig #define initialization_debug(in) do { } while (false)
1.146    rillig #endif
1.146    rillig
  1.1       cgd /*
1.179    rillig  * Return the type of the object or sub-object that is currently being
1.179    rillig  * initialized.
  1.1       cgd  */
1.179    rillig static const type_t *
1.194    rillig initialization_sub_type(struct initialization *in, bool is_string)
1.179    rillig {
1.179    rillig 	const type_t *tp;
1.179    rillig
1.179    rillig 	tp = in->in_brace_level != NULL
1.194    rillig 	    ? brace_level_sub_type(in->in_brace_level, is_string)
1.179    rillig 	    : in->in_sym->s_type;
1.179    rillig 	if (tp == NULL)
1.179    rillig 		in->in_err = true;
1.179    rillig 	return tp;
1.179    rillig }
1.179    rillig
1.158    rillig static void
1.179    rillig initialization_begin_brace_level(struct initialization *in)
  1.1       cgd {
1.179    rillig 	const type_t *tp;
1.179    rillig
1.176    rillig 	if (in->in_err)
  1.1       cgd 		return;
  1.1       cgd
 1.70    rillig 	debug_enter();
 1.38    rillig
1.194    rillig 	tp = initialization_sub_type(in, false);
1.179    rillig 	if (tp == NULL) {
1.179    rillig 		in->in_err = true;
1.179    rillig 		goto done;
1.179    rillig 	}
  1.1       cgd
1.179    rillig 	if (tflag && in->in_brace_level == NULL)
1.197    rillig 		check_trad_no_auto_aggregate(in->in_sym);
 1.70    rillig
1.179    rillig 	if (tflag && tp->t_tspec == UNION) {
1.179    rillig 		/* initialization of union is illegal in traditional C */
1.179    rillig 		warning(238);
1.179    rillig 	}
  1.1       cgd
1.179    rillig 	if (tp->t_tspec == STRUCT && tp->t_str->sou_incomplete) {
1.180    rillig 		/* initialization of incomplete type '%s' */
1.180    rillig 		error(175, type_name(tp));
1.179    rillig 		in->in_err = true;
1.179    rillig 		goto done;
1.104    rillig 	}
1.104    rillig
1.179    rillig 	if (in->in_brace_level != NULL)
1.179    rillig 		brace_level_apply_designation(in->in_brace_level);
  1.1       cgd
1.179    rillig 	in->in_brace_level = brace_level_new(tp, in->in_brace_level);
 1.68    rillig
1.179    rillig done:
1.153    rillig 	initialization_debug(in);
 1.68    rillig 	debug_leave();
  1.1       cgd }
  1.1       cgd
1.179    rillig /* C99 6.7.8p22 */
  1.1       cgd static void
1.179    rillig initialization_set_size_of_unknown_array(struct initialization *in)
  1.1       cgd {
1.213    rillig 	size_t dim;
1.158    rillig
1.213    rillig 	if (!(in->in_sym->s_type->t_incomplete_array &&
1.213    rillig 	      in->in_brace_level->bl_enclosing == NULL))
1.213    rillig 		return;
1.213    rillig
1.213    rillig 	dim = in->in_brace_level->bl_max_subscript;
1.214    rillig 	if (dim == 0 && (in->in_err || in->in_brace_level->bl_confused))
1.213    rillig 		dim = 1;	/* prevent "empty array declaration: %s" */
1.213    rillig
1.213    rillig 	update_type_of_array_of_unknown_size(in->in_sym, dim);
1.158    rillig }
1.158    rillig
1.158    rillig static void
1.179    rillig initialization_end_brace_level(struct initialization *in)
1.158    rillig {
1.178    rillig 	struct brace_level *bl;
1.158    rillig
1.158    rillig 	debug_enter();
1.158    rillig
1.179    rillig 	initialization_set_size_of_unknown_array(in);
1.213    rillig 	if (in->in_err)
1.213    rillig 		goto done;
1.179    rillig
1.178    rillig 	bl = in->in_brace_level;
1.178    rillig 	in->in_brace_level = bl->bl_enclosing;
1.178    rillig 	brace_level_free(bl);
1.184    rillig 	bl = in->in_brace_level;
  1.7     lukem
1.184    rillig 	if (bl != NULL)
1.184    rillig 		brace_level_advance(bl);
1.184    rillig 	if (bl != NULL)
1.184    rillig 		designation_reset(&bl->bl_designation);
 1.68    rillig
1.213    rillig done:
1.153    rillig 	initialization_debug(in);
 1.68    rillig 	debug_leave();
 1.37    rillig }
 1.37    rillig
 1.37    rillig static void
1.179    rillig initialization_add_designator(struct initialization *in,
1.179    rillig 			      const char *name, size_t subscript)
1.164    rillig {
1.164    rillig
1.176    rillig 	if (in->in_err)
  1.1       cgd 		return;
  1.1       cgd
1.179    rillig 	lint_assert(in->in_brace_level != NULL);
1.179    rillig 	designation_add(&in->in_brace_level->bl_designation, name, subscript);
  1.1       cgd }
  1.1       cgd
1.114    rillig /*
1.208    rillig  * Initialize an object with automatic storage duration that has an
1.208    rillig  * initializer expression without braces.
1.114    rillig  */
1.179    rillig static bool
1.208    rillig initialization_expr_using_op(struct initialization *in, tnode_t *rn)
1.116    rillig {
1.179    rillig 	tnode_t *ln, *tn;
1.179    rillig
1.179    rillig 	if (!has_automatic_storage_duration(in->in_sym))
1.179    rillig 		return false;
1.179    rillig 	if (in->in_brace_level != NULL)
1.179    rillig 		return false;
1.179    rillig 	if (in->in_sym->s_type->t_tspec == ARRAY)
1.179    rillig 		return false;
  1.1       cgd
1.208    rillig 	debug_step("handing over to INIT");
 1.55    rillig
1.211    rillig 	ln = build_name(in->in_sym, false);
1.204    rillig 	ln->tn_type = expr_unqualified_type(ln->tn_type);
  1.1       cgd
1.210    rillig 	tn = build_binary(ln, INIT, false /* XXX */, rn);
1.179    rillig 	expr(tn, false, false, false, false);
  1.1       cgd
1.179    rillig 	return true;
  1.1       cgd }
  1.1       cgd
 1.82    rillig /* Initialize a character array or wchar_t array with a string literal. */
 1.62    rillig static bool
1.158    rillig initialization_init_array_using_string(struct initialization *in, tnode_t *tn)
  1.1       cgd {
1.178    rillig 	struct brace_level *bl;
1.179    rillig 	const type_t *tp;
  1.1       cgd 	strg_t	*strg;
  1.1       cgd
  1.1       cgd 	if (tn->tn_op != STRING)
 1.63    rillig 		return false;
  1.1       cgd
1.178    rillig 	bl = in->in_brace_level;
1.194    rillig 	tp = initialization_sub_type(in, true);
 1.47    rillig 	strg = tn->tn_string;
  1.1       cgd
1.213    rillig 	if (!is_character_array(tp, strg->st_tspec)) {
1.213    rillig 		/* TODO: recursively try first member or [0] */
1.213    rillig 		if (is_struct_or_union(tp->t_tspec) ||
1.213    rillig 		    (tp->t_tspec == ARRAY &&
1.213    rillig 		     is_struct_or_union(tp->t_subt->t_tspec)))
1.213    rillig 			in->in_err = true;
1.179    rillig 		return false;
1.213    rillig 	}
1.213    rillig
1.192    rillig 	if (bl != NULL && tp->t_tspec != ARRAY && bl->bl_subscript != 0)
1.179    rillig 		return false;
1.119    rillig
1.194    rillig 	if (!tp->t_incomplete_array && tp->t_dim < (int)strg->st_len) {
1.179    rillig 		/* non-null byte ignored in string initializer */
1.179    rillig 		warning(187);
1.179    rillig 	}
1.119    rillig
1.179    rillig 	if (tp == in->in_sym->s_type && tp->t_incomplete_array) {
1.179    rillig 		if (bl != NULL) {
1.194    rillig 			bl->bl_subscript = strg->st_len;
1.194    rillig 			/* see brace_level_advance for the +1 */
1.179    rillig 			/* see initialization_set_size_of_unknown_array */
1.179    rillig 		} else
1.179    rillig 			update_type_of_array_of_unknown_size(in->in_sym,
1.179    rillig 			    strg->st_len + 1);
  1.1       cgd 	}
  1.1       cgd
 1.63    rillig 	return true;
  1.1       cgd }
1.158    rillig
1.158    rillig /*
1.179    rillig  * Initialize a single sub-object as part of the currently ongoing
1.179    rillig  * initialization.
1.158    rillig  */
1.179    rillig static void
1.179    rillig initialization_expr(struct initialization *in, tnode_t *tn)
1.158    rillig {
1.184    rillig 	struct brace_level *bl;
1.179    rillig 	const type_t *tp;
1.158    rillig
1.179    rillig 	if (in->in_err)
1.179    rillig 		return;
1.158    rillig
1.184    rillig 	bl = in->in_brace_level;
1.185    rillig 	if (bl != NULL && bl->bl_confused)
1.179    rillig 		return;
1.158    rillig
1.179    rillig 	debug_enter();
1.158    rillig
1.179    rillig 	if (tn == NULL)
1.179    rillig 		goto advance;
1.208    rillig 	if (initialization_expr_using_op(in, tn))
1.179    rillig 		goto done;
1.179    rillig 	if (initialization_init_array_using_string(in, tn))
1.179    rillig 		goto advance;
1.213    rillig 	if (in->in_err)
1.213    rillig 		goto done;
1.158    rillig
1.184    rillig 	if (bl != NULL)
1.184    rillig 		brace_level_apply_designation(bl);
1.194    rillig 	tp = initialization_sub_type(in, false);
1.179    rillig 	if (tp == NULL)
1.179    rillig 		goto done;
1.158    rillig
1.184    rillig 	if (bl == NULL && !is_scalar(tp->t_tspec)) {
1.158    rillig 		/* {}-enclosed initializer required */
1.158    rillig 		error(181);
1.179    rillig 		goto done;
1.158    rillig 	}
1.158    rillig
1.179    rillig 	/*
1.179    rillig 	 * Hack to accept initializations with omitted braces, see
1.179    rillig 	 * c99_6_7_8_p28_example5 in test d_c99_init.c.  Since both GCC and
1.179    rillig 	 * Clang already warn about this at level -Wall, there is no point
1.185    rillig 	 * in repeating the same check in lint.  If needed, support for these
1.185    rillig 	 * edge cases could be added, but that would increase the complexity.
1.179    rillig 	 */
1.215    rillig 	if ((is_scalar(tn->tn_type->t_tspec) ||
1.215    rillig 	     tn->tn_type->t_tspec == FUNC) &&
1.185    rillig 	    (tp->t_tspec == ARRAY || is_struct_or_union(tp->t_tspec)) &&
1.184    rillig 	    bl != NULL) {
1.185    rillig 		bl->bl_confused = true;
1.179    rillig 		goto done;
1.158    rillig 	}
1.158    rillig
1.206    rillig 	debug_step("expecting '%s', expression has '%s'",
1.179    rillig 	    type_name(tp), type_name(tn->tn_type));
1.179    rillig 	check_init_expr(tp, in->in_sym, tn);
1.179    rillig
1.179    rillig advance:
1.184    rillig 	if (bl != NULL)
1.184    rillig 		brace_level_advance(bl);
1.179    rillig done:
1.184    rillig 	if (bl != NULL)
1.184    rillig 		designation_reset(&bl->bl_designation);
1.184    rillig
1.158    rillig 	initialization_debug(in);
1.158    rillig 	debug_leave();
1.158    rillig }
1.158    rillig
1.158    rillig
1.179    rillig static struct initialization *init;
1.158    rillig
1.158    rillig
1.158    rillig static struct initialization *
1.158    rillig current_init(void)
1.158    rillig {
1.175    rillig
1.158    rillig 	lint_assert(init != NULL);
1.158    rillig 	return init;
1.158    rillig }
1.158    rillig
1.158    rillig sym_t **
1.158    rillig current_initsym(void)
1.158    rillig {
1.175    rillig
1.176    rillig 	return &current_init()->in_sym;
1.158    rillig }
1.158    rillig
1.158    rillig void
1.158    rillig begin_initialization(sym_t *sym)
1.158    rillig {
1.158    rillig
1.206    rillig 	debug_step("begin initialization of '%s'", type_name(sym->s_type));
1.205    rillig 	debug_indent_inc();
1.179    rillig
1.217    rillig 	init = initialization_new(sym, init);
1.158    rillig }
1.158    rillig
1.158    rillig void
1.158    rillig end_initialization(void)
1.158    rillig {
1.158    rillig 	struct initialization *in;
1.158    rillig
1.158    rillig 	in = init;
1.179    rillig 	init = in->in_enclosing;
1.158    rillig 	initialization_free(in);
1.179    rillig
1.205    rillig 	debug_indent_dec();
1.206    rillig 	debug_step("end initialization");
1.158    rillig }
1.158    rillig
1.158    rillig void
1.158    rillig add_designator_member(sbuf_t *sb)
1.158    rillig {
1.175    rillig
1.179    rillig 	initialization_add_designator(current_init(), sb->sb_name, 0);
1.158    rillig }
1.158    rillig
1.158    rillig void
1.158    rillig add_designator_subscript(range_t range)
1.158    rillig {
1.175    rillig
1.179    rillig 	initialization_add_designator(current_init(), NULL, range.hi);
1.158    rillig }
1.158    rillig
1.158    rillig void
1.158    rillig init_lbrace(void)
1.158    rillig {
1.175    rillig
1.179    rillig 	initialization_begin_brace_level(current_init());
1.158    rillig }
1.158    rillig
1.158    rillig void
1.179    rillig init_expr(tnode_t *tn)
1.158    rillig {
1.175    rillig
1.158    rillig 	initialization_expr(current_init(), tn);
1.158    rillig }
1.158    rillig
1.158    rillig void
1.158    rillig init_rbrace(void)
1.158    rillig {
1.175    rillig
1.179    rillig 	initialization_end_brace_level(current_init());
1.158    rillig }