xlint/lint1/lex.c

1.178    rillig /* $NetBSD: lex.c,v 1.178 2023/07/12 20:13:28 rillig Exp $ */
  1.1    rillig
  1.1    rillig /*
  1.1    rillig  * Copyright (c) 1996 Christopher G. Demetriou.  All Rights Reserved.
  1.1    rillig  * Copyright (c) 1994, 1995 Jochen Pohl
  1.1    rillig  * All Rights Reserved.
  1.1    rillig  *
  1.1    rillig  * Redistribution and use in source and binary forms, with or without
  1.1    rillig  * modification, are permitted provided that the following conditions
  1.1    rillig  * are met:
  1.1    rillig  * 1. Redistributions of source code must retain the above copyright
  1.1    rillig  *    notice, this list of conditions and the following disclaimer.
  1.1    rillig  * 2. Redistributions in binary form must reproduce the above copyright
  1.1    rillig  *    notice, this list of conditions and the following disclaimer in the
  1.1    rillig  *    documentation and/or other materials provided with the distribution.
  1.1    rillig  * 3. All advertising materials mentioning features or use of this software
  1.1    rillig  *    must display the following acknowledgement:
  1.1    rillig  *      This product includes software developed by Jochen Pohl for
  1.1    rillig  *      The NetBSD Project.
  1.1    rillig  * 4. The name of the author may not be used to endorse or promote products
  1.1    rillig  *    derived from this software without specific prior written permission.
  1.1    rillig  *
  1.1    rillig  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
  1.1    rillig  * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
  1.1    rillig  * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
  1.1    rillig  * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
  1.1    rillig  * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
  1.1    rillig  * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
  1.1    rillig  * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
  1.1    rillig  * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  1.1    rillig  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
  1.1    rillig  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  1.1    rillig  */
  1.1    rillig
  1.4  christos #if HAVE_NBTOOL_CONFIG_H
  1.4  christos #include "nbtool_config.h"
  1.4  christos #endif
  1.4  christos
  1.1    rillig #include <sys/cdefs.h>
1.131    rillig #if defined(__RCSID)
1.178    rillig __RCSID("$NetBSD: lex.c,v 1.178 2023/07/12 20:13:28 rillig Exp $");
  1.1    rillig #endif
  1.1    rillig
  1.1    rillig #include <ctype.h>
  1.1    rillig #include <errno.h>
  1.1    rillig #include <float.h>
  1.1    rillig #include <limits.h>
  1.1    rillig #include <math.h>
  1.1    rillig #include <stdlib.h>
  1.1    rillig #include <string.h>
  1.1    rillig
  1.1    rillig #include "lint1.h"
  1.1    rillig #include "cgram.h"
  1.1    rillig
 1.72    rillig #define CHAR_MASK	((1U << CHAR_SIZE) - 1)
  1.1    rillig
  1.1    rillig
  1.1    rillig /* Current position (it's also updated when an included file is parsed) */
 1.23    rillig pos_t	curr_pos = { "", 1, 0 };
  1.1    rillig
  1.1    rillig /*
  1.1    rillig  * Current position in C source (not updated when an included file is
  1.1    rillig  * parsed).
  1.1    rillig  */
 1.23    rillig pos_t	csrc_pos = { "", 1, 0 };
  1.1    rillig
 1.94    rillig bool in_gcc_attribute;
 1.94    rillig bool in_system_header;
  1.1    rillig
1.125    rillig /*
1.125    rillig  * Valid values for 'since' are 78, 90, 99, 11.
1.125    rillig  *
1.146    rillig  * The C11 keywords are added in C99 mode as well, to provide good error
1.125    rillig  * messages instead of a simple parse error.  If the keyword '_Generic' were
1.125    rillig  * not defined, it would be interpreted as an implicit function call, leading
1.125    rillig  * to a parse error.
1.125    rillig  */
1.175    rillig #define kwdef(name, token, detail,	since, gcc, deco) \
 1.13    rillig 	{ \
1.175    rillig 		name, token, detail, \
1.122    rillig 		(since) == 90, \
1.122    rillig 		/* CONSTCOND */ (since) == 99 || (since) == 11, \
1.133    rillig 		(gcc) > 0, \
 1.66    rillig 		((deco) & 1) != 0, ((deco) & 2) != 0, ((deco) & 4) != 0, \
 1.13    rillig 	}
1.122    rillig #define kwdef_token(name, token,		since, gcc, deco) \
1.175    rillig 	kwdef(name, token, {false},		since, gcc, deco)
1.122    rillig #define kwdef_sclass(name, sclass,		since, gcc, deco) \
1.175    rillig 	kwdef(name, T_SCLASS, .u.kw_scl = (sclass), since, gcc, deco)
1.132    rillig #define kwdef_type(name, tspec,			since) \
1.175    rillig 	kwdef(name, T_TYPE, .u.kw_tspec = (tspec), since, 0, 1)
1.122    rillig #define kwdef_tqual(name, tqual,		since, gcc, deco) \
1.175    rillig 	kwdef(name, T_QUAL, .u.kw_tqual = (tqual), since, gcc, deco)
 1.35    rillig #define kwdef_keyword(name, token) \
1.175    rillig 	kwdef(name, token, {false},		78, 0, 1)
 1.13    rillig
 1.94    rillig /* During initialization, these keywords are written to the symbol table. */
1.106    rillig static const struct keyword {
1.178    rillig 	const	char kw_name[20];
1.176    rillig 	int	kw_token;	/* token to be returned by yylex() */
1.175    rillig 	union {
1.175    rillig 		bool kw_dummy;
1.175    rillig 		scl_t kw_scl;		/* if kw_token is T_SCLASS */
1.175    rillig 		tspec_t kw_tspec;	/* if kw_token is T_TYPE or
1.175    rillig 					 * T_STRUCT_OR_UNION */
1.175    rillig 		tqual_t kw_tqual;	/* if kw_token is T_QUAL */
1.176    rillig 		function_specifier kw_fs;	/* if kw_token is
1.176    rillig 						 * T_FUNCTION_SPECIFIER */
1.175    rillig 	} u;
1.146    rillig 	bool	kw_c90:1;	/* available in C90 mode */
1.146    rillig 	bool	kw_c99_or_c11:1; /* available in C99 or C11 mode */
1.146    rillig 	bool	kw_gcc:1;	/* available in GCC mode */
 1.93    rillig 	bool	kw_plain:1;	/* 'name' */
 1.93    rillig 	bool	kw_leading:1;	/* '__name' */
 1.93    rillig 	bool	kw_both:1;	/* '__name__' */
 1.94    rillig } keywords[] = {
 1.35    rillig 	kwdef_keyword(	"_Alignas",	T_ALIGNAS),
 1.35    rillig 	kwdef_keyword(	"_Alignof",	T_ALIGNOF),
1.130    rillig 	kwdef_token(	"alignof",	T_ALIGNOF,		78,0,6),
1.146    rillig 	kwdef_token(	"asm",		T_ASM,			78,1,7),
1.142    rillig 	kwdef_token(	"_Atomic",	T_ATOMIC,		11,0,1),
1.122    rillig 	kwdef_token(	"attribute",	T_ATTRIBUTE,		78,1,6),
1.122    rillig 	kwdef_sclass(	"auto",		AUTO,			78,0,1),
1.132    rillig 	kwdef_type(	"_Bool",	BOOL,			99),
 1.35    rillig 	kwdef_keyword(	"break",	T_BREAK),
1.122    rillig 	kwdef_token(	"__builtin_offsetof", T_BUILTIN_OFFSETOF, 78,1,1),
 1.35    rillig 	kwdef_keyword(	"case",		T_CASE),
1.132    rillig 	kwdef_type(	"char",		CHAR,			78),
1.132    rillig 	kwdef_type(	"_Complex",	COMPLEX,		99),
1.122    rillig 	kwdef_tqual(	"const",	CONST,			90,0,7),
 1.35    rillig 	kwdef_keyword(	"continue",	T_CONTINUE),
 1.35    rillig 	kwdef_keyword(	"default",	T_DEFAULT),
 1.35    rillig 	kwdef_keyword(	"do",		T_DO),
1.132    rillig 	kwdef_type(	"double",	DOUBLE,			78),
 1.35    rillig 	kwdef_keyword(	"else",		T_ELSE),
 1.35    rillig 	kwdef_keyword(	"enum",		T_ENUM),
1.122    rillig 	kwdef_token(	"__extension__",T_EXTENSION,		78,1,1),
1.122    rillig 	kwdef_sclass(	"extern",	EXTERN,			78,0,1),
1.132    rillig 	kwdef_type(	"float",	FLOAT,			78),
 1.35    rillig 	kwdef_keyword(	"for",		T_FOR),
1.122    rillig 	kwdef_token(	"_Generic",	T_GENERIC,		11,0,1),
 1.35    rillig 	kwdef_keyword(	"goto",		T_GOTO),
 1.35    rillig 	kwdef_keyword(	"if",		T_IF),
1.122    rillig 	kwdef_token(	"__imag__",	T_IMAG,			78,1,1),
1.176    rillig 	kwdef("inline",	T_FUNCTION_SPECIFIER, .u.kw_fs = FS_INLINE, 99,0,7),
1.132    rillig 	kwdef_type(	"int",		INT,			78),
 1.56    rillig #ifdef INT128_SIZE
1.132    rillig 	kwdef_type(	"__int128_t",	INT128,			99),
 1.56    rillig #endif
1.132    rillig 	kwdef_type(	"long",		LONG,			78),
1.177    rillig 	kwdef("_Noreturn", T_FUNCTION_SPECIFIER, .u.kw_fs = FS_NORETURN, 11,0,1),
1.124    rillig 	kwdef_token(	"__packed",	T_PACKED,		78,0,1),
1.124    rillig 	kwdef_token(	"__real__",	T_REAL,			78,1,1),
1.124    rillig 	kwdef_sclass(	"register",	REG,			78,0,1),
1.124    rillig 	kwdef_tqual(	"restrict",	RESTRICT,		99,0,7),
1.124    rillig 	kwdef_keyword(	"return",	T_RETURN),
1.132    rillig 	kwdef_type(	"short",	SHORT,			78),
1.175    rillig 	kwdef(		"signed", T_TYPE, .u.kw_tspec = SIGNED,	90,0,3),
1.124    rillig 	kwdef_keyword(	"sizeof",	T_SIZEOF),
1.124    rillig 	kwdef_sclass(	"static",	STATIC,			78,0,1),
1.124    rillig 	kwdef_keyword(	"_Static_assert",	T_STATIC_ASSERT),
1.175    rillig 	kwdef("struct",	T_STRUCT_OR_UNION, .u.kw_tspec = STRUCT, 78,0,1),
1.124    rillig 	kwdef_keyword(	"switch",	T_SWITCH),
1.124    rillig 	kwdef_token(	"__symbolrename",	T_SYMBOLRENAME,	78,0,1),
1.124    rillig 	kwdef_tqual(	"__thread",	THREAD,			78,1,1),
1.141    rillig 	/* XXX: _Thread_local is a storage-class-specifier, not tqual. */
1.124    rillig 	kwdef_tqual(	"_Thread_local", THREAD,		11,0,1),
1.124    rillig 	kwdef_sclass(	"typedef",	TYPEDEF,		78,0,1),
1.124    rillig 	kwdef_token(	"typeof",	T_TYPEOF,		78,1,7),
1.124    rillig #ifdef INT128_SIZE
1.132    rillig 	kwdef_type(	"__uint128_t",	UINT128,		99),
1.124    rillig #endif
1.175    rillig 	kwdef("union",	T_STRUCT_OR_UNION, .u.kw_tspec = UNION,	78,0,1),
1.132    rillig 	kwdef_type(	"unsigned",	UNSIGN,			78),
1.132    rillig 	kwdef_type(	"void",		VOID,			78),
1.124    rillig 	kwdef_tqual(	"volatile",	VOLATILE,		90,0,7),
1.124    rillig 	kwdef_keyword(	"while",	T_WHILE),
 1.13    rillig #undef kwdef
 1.13    rillig #undef kwdef_token
 1.13    rillig #undef kwdef_sclass
 1.13    rillig #undef kwdef_type
 1.13    rillig #undef kwdef_tqual
 1.36    rillig #undef kwdef_keyword
  1.1    rillig };
  1.1    rillig
1.146    rillig /*
1.146    rillig  * The symbol table containing all keywords, identifiers and labels. The hash
1.146    rillig  * entries are linked via sym_t.s_symtab_next.
1.146    rillig  */
1.173    rillig static sym_t *symtab[503];
  1.1    rillig
1.146    rillig /*
1.146    rillig  * The kind of the next expected symbol, to distinguish the namespaces of
1.146    rillig  * members, labels, type tags and other identifiers.
1.146    rillig  */
1.146    rillig symt_t symtyp;
  1.1    rillig
  1.1    rillig
1.104    rillig static unsigned int
1.104    rillig hash(const char *s)
1.104    rillig {
1.104    rillig 	unsigned int v;
1.104    rillig 	const char *p;
1.104    rillig
1.104    rillig 	v = 0;
1.104    rillig 	for (p = s; *p != '\0'; p++) {
1.104    rillig 		v = (v << 4) + (unsigned char)*p;
1.104    rillig 		v ^= v >> 28;
1.104    rillig 	}
1.173    rillig 	return v % (sizeof(symtab) / sizeof(symtab[0]));
1.104    rillig }
1.104    rillig
  1.1    rillig static void
 1.62    rillig symtab_add(sym_t *sym)
 1.60    rillig {
1.104    rillig 	unsigned int h;
 1.60    rillig
 1.62    rillig 	h = hash(sym->s_name);
1.102    rillig 	if ((sym->s_symtab_next = symtab[h]) != NULL)
1.102    rillig 		symtab[h]->s_symtab_ref = &sym->s_symtab_next;
1.102    rillig 	sym->s_symtab_ref = &symtab[h];
 1.60    rillig 	symtab[h] = sym;
 1.60    rillig }
 1.60    rillig
1.104    rillig static sym_t *
1.143    rillig symtab_search(const char *name)
1.104    rillig {
1.104    rillig
1.143    rillig 	unsigned int h = hash(name);
1.104    rillig 	for (sym_t *sym = symtab[h]; sym != NULL; sym = sym->s_symtab_next) {
1.143    rillig 		if (strcmp(sym->s_name, name) != 0)
1.104    rillig 			continue;
1.148    rillig 		if (sym->s_keyword != NULL ||
1.148    rillig 		    sym->s_kind == symtyp ||
1.148    rillig 		    in_gcc_attribute)
1.104    rillig 			return sym;
1.104    rillig 	}
1.104    rillig
1.104    rillig 	return NULL;
1.104    rillig }
1.104    rillig
 1.60    rillig static void
 1.61    rillig symtab_remove(sym_t *sym)
 1.61    rillig {
 1.61    rillig
1.102    rillig 	if ((*sym->s_symtab_ref = sym->s_symtab_next) != NULL)
1.102    rillig 		sym->s_symtab_next->s_symtab_ref = sym->s_symtab_ref;
1.102    rillig 	sym->s_symtab_next = NULL;
 1.61    rillig }
 1.61    rillig
1.104    rillig static void
1.104    rillig symtab_remove_locals(void)
1.104    rillig {
1.104    rillig
1.173    rillig 	for (size_t i = 0; i < sizeof(symtab) / sizeof(symtab[0]); i++) {
1.104    rillig 		for (sym_t *sym = symtab[i]; sym != NULL; ) {
1.104    rillig 			sym_t *next = sym->s_symtab_next;
1.104    rillig 			if (sym->s_block_level >= 1)
1.104    rillig 				symtab_remove(sym);
1.104    rillig 			sym = next;
1.104    rillig 		}
1.104    rillig 	}
1.104    rillig }
 1.61    rillig
1.107    rillig #ifdef DEBUG
1.107    rillig static int
1.107    rillig sym_by_name(const void *va, const void *vb)
1.107    rillig {
1.107    rillig 	const sym_t *a = *(const sym_t *const *)va;
1.107    rillig 	const sym_t *b = *(const sym_t *const *)vb;
1.107    rillig
1.107    rillig 	return strcmp(a->s_name, b->s_name);
1.107    rillig }
1.107    rillig
1.107    rillig struct syms {
1.107    rillig 	const sym_t **items;
1.107    rillig 	size_t len;
1.107    rillig 	size_t cap;
1.107    rillig };
1.107    rillig
1.107    rillig static void
1.107    rillig syms_add(struct syms *syms, const sym_t *sym)
1.107    rillig {
1.146    rillig 	if (syms->len >= syms->cap) {
1.107    rillig 		syms->cap *= 2;
1.107    rillig 		syms->items = xrealloc(syms->items,
1.107    rillig 		    syms->cap * sizeof(syms->items[0]));
1.107    rillig 	}
1.107    rillig 	syms->items[syms->len++] = sym;
1.107    rillig }
1.107    rillig
1.107    rillig void
1.107    rillig debug_symtab(void)
1.107    rillig {
1.107    rillig 	struct syms syms = { xcalloc(64, sizeof(syms.items[0])), 0, 64 };
1.107    rillig
1.111    rillig 	for (int level = -1;; level++) {
1.107    rillig 		bool more = false;
1.107    rillig 		size_t n = sizeof(symtab) / sizeof(symtab[0]);
1.107    rillig
1.107    rillig 		syms.len = 0;
1.107    rillig 		for (size_t i = 0; i < n; i++) {
1.107    rillig 			for (sym_t *sym = symtab[i]; sym != NULL;) {
1.107    rillig 				if (sym->s_block_level == level &&
1.107    rillig 				    sym->s_keyword == NULL)
1.107    rillig 					syms_add(&syms, sym);
1.107    rillig 				if (sym->s_block_level > level)
1.107    rillig 					more = true;
1.107    rillig 				sym = sym->s_symtab_next;
1.107    rillig 			}
1.107    rillig 		}
1.107    rillig
1.111    rillig 		if (syms.len > 0) {
1.111    rillig 			debug_printf("symbol table level %d\n", level);
1.111    rillig 			debug_indent_inc();
1.111    rillig 			qsort(syms.items, syms.len, sizeof(syms.items[0]),
1.111    rillig 			    sym_by_name);
1.111    rillig 			for (size_t i = 0; i < syms.len; i++)
1.114    rillig 				debug_sym("", syms.items[i], "\n");
1.111    rillig 			debug_indent_dec();
1.111    rillig
1.111    rillig 			lint_assert(level != -1);
1.111    rillig 		}
1.107    rillig
1.107    rillig 		if (!more)
1.107    rillig 			break;
1.107    rillig 	}
1.107    rillig
1.107    rillig 	free(syms.items);
1.107    rillig }
1.107    rillig #endif
1.107    rillig
 1.61    rillig static void
 1.94    rillig add_keyword(const struct keyword *kw, bool leading, bool trailing)
  1.1    rillig {
1.146    rillig
  1.1    rillig 	const char *name;
 1.66    rillig 	if (!leading && !trailing) {
  1.1    rillig 		name = kw->kw_name;
 1.66    rillig 	} else {
1.146    rillig 		char buf[256];
 1.73    rillig 		(void)snprintf(buf, sizeof(buf), "%s%s%s",
 1.66    rillig 		    leading ? "__" : "", kw->kw_name, trailing ? "__" : "");
 1.66    rillig 		name = xstrdup(buf);
  1.1    rillig 	}
  1.1    rillig
1.146    rillig 	sym_t *sym = block_zero_alloc(sizeof(*sym));
  1.1    rillig 	sym->s_name = name;
  1.1    rillig 	sym->s_keyword = kw;
1.146    rillig 	int tok = kw->kw_token;
1.146    rillig 	sym->u.s_keyword.sk_token = tok;
1.146    rillig 	if (tok == T_TYPE || tok == T_STRUCT_OR_UNION)
1.176    rillig 		sym->u.s_keyword.u.sk_tspec = kw->u.kw_tspec;
1.146    rillig 	if (tok == T_SCLASS)
1.175    rillig 		sym->s_scl = kw->u.kw_scl;
1.146    rillig 	if (tok == T_QUAL)
1.176    rillig 		sym->u.s_keyword.u.sk_qualifier = kw->u.kw_tqual;
1.176    rillig 	if (tok == T_FUNCTION_SPECIFIER)
1.176    rillig 		sym->u.s_keyword.u.function_specifier = kw->u.kw_fs;
 1.60    rillig
 1.60    rillig 	symtab_add(sym);
  1.1    rillig }
  1.1    rillig
1.126    rillig static bool
1.126    rillig is_keyword_known(const struct keyword *kw)
1.126    rillig {
1.126    rillig
1.126    rillig 	if ((kw->kw_c90 || kw->kw_c99_or_c11) && !allow_c90)
1.126    rillig 		return false;
1.126    rillig
1.126    rillig 	/*
1.126    rillig 	 * In the 1990s, GCC defined several keywords that were later
1.126    rillig 	 * incorporated into C99, therefore in GCC mode, all C99 keywords are
1.126    rillig 	 * made available.  The C11 keywords are made available as well, but
1.126    rillig 	 * there are so few that they don't matter practically.
1.126    rillig 	 */
1.126    rillig 	if (allow_gcc)
1.126    rillig 		return true;
1.126    rillig 	if (kw->kw_gcc)
1.126    rillig 		return false;
1.126    rillig
1.126    rillig 	if (kw->kw_c99_or_c11 && !allow_c99)
1.126    rillig 		return false;
1.126    rillig 	return true;
1.126    rillig }
1.126    rillig
1.146    rillig /* Write all keywords to the symbol table. */
  1.1    rillig void
  1.1    rillig initscan(void)
  1.1    rillig {
  1.1    rillig
1.146    rillig 	size_t n = sizeof(keywords) / sizeof(keywords[0]);
1.146    rillig 	for (size_t i = 0; i < n; i++) {
1.146    rillig 		const struct keyword *kw = keywords + i;
1.126    rillig 		if (!is_keyword_known(kw))
  1.1    rillig 			continue;
 1.66    rillig 		if (kw->kw_plain)
 1.66    rillig 			add_keyword(kw, false, false);
 1.66    rillig 		if (kw->kw_leading)
 1.66    rillig 			add_keyword(kw, true, false);
 1.66    rillig 		if (kw->kw_both)
 1.66    rillig 			add_keyword(kw, true, true);
  1.1    rillig 	}
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
1.135    rillig  * When scanning the remainder of a long token (see lex_input), read a byte
1.135    rillig  * and return it as an unsigned char or as EOF.
1.135    rillig  *
1.135    rillig  * Increment the line counts if necessary.
  1.1    rillig  */
  1.1    rillig static int
1.135    rillig read_byte(void)
  1.1    rillig {
1.159    rillig 	int c;
  1.1    rillig
 1.41    rillig 	if ((c = lex_input()) == EOF)
 1.41    rillig 		return c;
 1.41    rillig 	if (c == '\0')
 1.41    rillig 		return EOF;	/* lex returns 0 on EOF. */
 1.41    rillig 	if (c == '\n')
  1.6    rillig 		lex_next_line();
  1.1    rillig 	return c;
  1.1    rillig }
  1.1    rillig
1.105    rillig static int
1.105    rillig lex_keyword(sym_t *sym)
1.105    rillig {
1.144    rillig 	int tok = sym->u.s_keyword.sk_token;
1.105    rillig
1.144    rillig 	if (tok == T_SCLASS)
1.105    rillig 		yylval.y_scl = sym->s_scl;
1.144    rillig 	if (tok == T_TYPE || tok == T_STRUCT_OR_UNION)
1.176    rillig 		yylval.y_tspec = sym->u.s_keyword.u.sk_tspec;
1.144    rillig 	if (tok == T_QUAL)
1.176    rillig 		yylval.y_tqual = sym->u.s_keyword.u.sk_qualifier;
1.176    rillig 	if (tok == T_FUNCTION_SPECIFIER)
1.176    rillig 		yylval.y_function_specifier =
1.176    rillig 		    sym->u.s_keyword.u.function_specifier;
1.144    rillig 	return tok;
1.105    rillig }
1.105    rillig
  1.1    rillig /*
1.146    rillig  * Look up the definition of a name in the symbol table. This symbol must
1.146    rillig  * either be a keyword or a symbol of the type required by symtyp (label,
1.146    rillig  * member, tag, ...).
  1.1    rillig  */
  1.1    rillig extern int
  1.1    rillig lex_name(const char *yytext, size_t yyleng)
  1.1    rillig {
  1.1    rillig
1.143    rillig 	sym_t *sym = symtab_search(yytext);
1.143    rillig 	if (sym != NULL && sym->s_keyword != NULL)
1.105    rillig 		return lex_keyword(sym);
  1.1    rillig
1.143    rillig 	sbuf_t *sb = xmalloc(sizeof(*sb));
1.143    rillig 	sb->sb_len = yyleng;
  1.1    rillig 	sb->sb_sym = sym;
1.143    rillig 	yylval.y_name = sb;
  1.1    rillig
  1.1    rillig 	if (sym != NULL) {
 1.12    rillig 		lint_assert(block_level >= sym->s_block_level);
  1.1    rillig 		sb->sb_name = sym->s_name;
1.143    rillig 		return sym->s_scl == TYPEDEF ? T_TYPENAME : T_NAME;
  1.1    rillig 	}
  1.1    rillig
1.144    rillig 	char *name = block_zero_alloc(yyleng + 1);
1.144    rillig 	(void)memcpy(name, yytext, yyleng + 1);
1.144    rillig 	sb->sb_name = name;
1.143    rillig 	return T_NAME;
  1.1    rillig }
  1.1    rillig
  1.1    rillig int
  1.6    rillig lex_integer_constant(const char *yytext, size_t yyleng, int base)
  1.1    rillig {
 1.77    rillig 	/* C11 6.4.4.1p5 */
 1.77    rillig 	static const tspec_t suffix_type[2][3] = {
1.167    rillig 		{ INT,  LONG,  LLONG, },
1.167    rillig 		{ UINT, ULONG, ULLONG, }
  1.1    rillig 	};
  1.1    rillig
1.151    rillig 	const char *cp = yytext;
1.151    rillig 	size_t len = yyleng;
  1.1    rillig
  1.1    rillig 	/* skip 0[xX] or 0[bB] */
  1.1    rillig 	if (base == 16 || base == 2) {
  1.1    rillig 		cp += 2;
  1.1    rillig 		len -= 2;
  1.1    rillig 	}
  1.1    rillig
  1.1    rillig 	/* read suffixes */
1.151    rillig 	unsigned l_suffix = 0, u_suffix = 0;
1.143    rillig 	for (;; len--) {
1.151    rillig 		char c = cp[len - 1];
1.151    rillig 		if (c == 'l' || c == 'L')
  1.1    rillig 			l_suffix++;
1.143    rillig 		else if (c == 'u' || c == 'U')
  1.1    rillig 			u_suffix++;
1.143    rillig 		else
  1.1    rillig 			break;
  1.1    rillig 	}
  1.1    rillig 	if (l_suffix > 2 || u_suffix > 1) {
  1.1    rillig 		/* malformed integer constant */
  1.1    rillig 		warning(251);
  1.1    rillig 		if (l_suffix > 2)
  1.1    rillig 			l_suffix = 2;
  1.1    rillig 		if (u_suffix > 1)
  1.1    rillig 			u_suffix = 1;
  1.1    rillig 	}
1.151    rillig 	if (!allow_c90 && u_suffix > 0) {
1.171    rillig 		/* suffix 'U' is illegal in traditional C */
  1.1    rillig 		warning(97);
  1.1    rillig 	}
1.151    rillig 	tspec_t typ = suffix_type[u_suffix][l_suffix];
  1.1    rillig
1.151    rillig 	bool warned = false;
  1.1    rillig 	errno = 0;
1.151    rillig 	char *eptr;
1.166    rillig 	uint64_t ui = (uint64_t)strtoull(cp, &eptr, base);
  1.1    rillig 	lint_assert(eptr == cp + len);
 1.11    rillig 	if (errno != 0) {
  1.1    rillig 		/* integer constant out of range */
  1.1    rillig 		warning(252);
 1.11    rillig 		warned = true;
 1.11    rillig 	}
  1.1    rillig
1.166    rillig 	if (any_query_enabled && base == 8 && ui != 0) {
1.155    rillig 		/* octal number '%.*s' */
1.155    rillig 		query_message(8, (int)len, cp);
1.155    rillig 	}
1.155    rillig
  1.1    rillig 	/*
  1.1    rillig 	 * If the value is too big for the current type, we must choose
  1.1    rillig 	 * another type.
  1.1    rillig 	 */
1.151    rillig 	bool ansiu = false;
  1.1    rillig 	switch (typ) {
  1.1    rillig 	case INT:
1.166    rillig 		if (ui <= TARG_INT_MAX) {
  1.1    rillig 			/* ok */
1.166    rillig 		} else if (ui <= TARG_UINT_MAX && base != 10) {
  1.1    rillig 			typ = UINT;
1.166    rillig 		} else if (ui <= TARG_LONG_MAX) {
  1.1    rillig 			typ = LONG;
  1.1    rillig 		} else {
  1.1    rillig 			typ = ULONG;
1.166    rillig 			if (ui > TARG_ULONG_MAX && !warned) {
  1.1    rillig 				/* integer constant out of range */
  1.1    rillig 				warning(252);
  1.1    rillig 			}
  1.1    rillig 		}
  1.1    rillig 		if (typ == UINT || typ == ULONG) {
1.127    rillig 			if (!allow_c90) {
  1.1    rillig 				typ = LONG;
1.151    rillig 			} else if (allow_trad) {
  1.1    rillig 				/*
  1.1    rillig 				 * Remember that the constant is unsigned
1.128    rillig 				 * only in ANSI C.
  1.1    rillig 				 */
  1.1    rillig 				ansiu = true;
  1.1    rillig 			}
  1.1    rillig 		}
  1.1    rillig 		break;
  1.1    rillig 	case UINT:
1.166    rillig 		if (ui > TARG_UINT_MAX) {
  1.1    rillig 			typ = ULONG;
1.166    rillig 			if (ui > TARG_ULONG_MAX && !warned) {
  1.1    rillig 				/* integer constant out of range */
  1.1    rillig 				warning(252);
  1.1    rillig 			}
  1.1    rillig 		}
  1.1    rillig 		break;
  1.1    rillig 	case LONG:
1.166    rillig 		if (ui > TARG_LONG_MAX && allow_c90) {
  1.1    rillig 			typ = ULONG;
1.154    rillig 			if (allow_trad)
  1.1    rillig 				ansiu = true;
1.166    rillig 			if (ui > TARG_ULONG_MAX && !warned) {
  1.1    rillig 				/* integer constant out of range */
  1.1    rillig 				warning(252);
  1.1    rillig 			}
  1.1    rillig 		}
  1.1    rillig 		break;
  1.1    rillig 	case ULONG:
1.166    rillig 		if (ui > TARG_ULONG_MAX && !warned) {
  1.1    rillig 			/* integer constant out of range */
  1.1    rillig 			warning(252);
  1.1    rillig 		}
  1.1    rillig 		break;
1.167    rillig 	case LLONG:
1.167    rillig 		if (ui > TARG_LLONG_MAX && allow_c90)
1.167    rillig 			typ = ULLONG;
  1.1    rillig 		break;
1.167    rillig 	case ULLONG:
1.167    rillig 		if (ui > TARG_ULLONG_MAX && !warned) {
  1.1    rillig 			/* integer constant out of range */
  1.1    rillig 			warning(252);
  1.1    rillig 		}
  1.1    rillig 		break;
 1.64    rillig 	default:
  1.1    rillig 		break;
  1.1    rillig 	}
  1.1    rillig
1.166    rillig 	ui = (uint64_t)convert_integer((int64_t)ui, typ, 0);
  1.1    rillig
 1.22    rillig 	yylval.y_val = xcalloc(1, sizeof(*yylval.y_val));
 1.17    rillig 	yylval.y_val->v_tspec = typ;
 1.46    rillig 	yylval.y_val->v_unsigned_since_c90 = ansiu;
1.166    rillig 	yylval.y_val->u.integer = (int64_t)ui;
  1.1    rillig
  1.1    rillig 	return T_CON;
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
1.166    rillig  * Extend or truncate si to match t.  If t is signed, sign-extend.
 1.50    rillig  *
1.134    rillig  * len is the number of significant bits. If len is 0, len is set
 1.50    rillig  * to the width of type t.
  1.1    rillig  */
  1.1    rillig int64_t
1.166    rillig convert_integer(int64_t si, tspec_t t, unsigned int len)
  1.1    rillig {
  1.1    rillig
 1.72    rillig 	if (len == 0)
 1.10    rillig 		len = size_in_bits(t);
  1.1    rillig
1.134    rillig 	uint64_t vbits = value_bits(len);
1.172    rillig 	uint64_t ui = (uint64_t)si;
1.172    rillig 	return t == PTR || is_uinteger(t) || ((ui & bit(len - 1)) == 0)
1.172    rillig 	    ? (int64_t)(ui & vbits)
1.172    rillig 	    : (int64_t)(ui | ~vbits);
  1.1    rillig }
  1.1    rillig
  1.1    rillig int
  1.6    rillig lex_floating_constant(const char *yytext, size_t yyleng)
  1.1    rillig {
1.151    rillig 	const char *cp = yytext;
1.151    rillig 	size_t len = yyleng;
  1.1    rillig
1.158    rillig 	bool imaginary = cp[len - 1] == 'i';
1.158    rillig 	if (imaginary)
1.158    rillig 		len--;
 1.81    rillig
1.151    rillig 	char c = cp[len - 1];
1.151    rillig 	tspec_t typ;
1.151    rillig 	if (c == 'f' || c == 'F') {
1.158    rillig 		typ = imaginary ? FCOMPLEX : FLOAT;
  1.1    rillig 		len--;
  1.1    rillig 	} else if (c == 'l' || c == 'L') {
1.158    rillig 		typ = imaginary ? LCOMPLEX : LDOUBLE;
  1.1    rillig 		len--;
1.152    rillig 	} else
1.158    rillig 		typ = imaginary ? DCOMPLEX : DOUBLE;
  1.1    rillig
1.127    rillig 	if (!allow_c90 && typ != DOUBLE) {
1.171    rillig 		/* suffixes 'F' and 'L' are illegal in traditional C */
  1.1    rillig 		warning(98);
  1.1    rillig 	}
  1.1    rillig
  1.1    rillig 	errno = 0;
1.151    rillig 	char *eptr;
1.150    rillig 	long double ld = strtold(cp, &eptr);
1.149    rillig 	lint_assert(eptr == cp + len);
1.156    rillig 	if (errno != 0) {
  1.1    rillig 		/* floating-point constant out of range */
  1.1    rillig 		warning(248);
1.156    rillig 	} else if (typ == FLOAT) {
1.150    rillig 		ld = (float)ld;
1.150    rillig 		if (isfinite(ld) == 0) {
  1.1    rillig 			/* floating-point constant out of range */
  1.1    rillig 			warning(248);
1.150    rillig 			ld = ld > 0 ? FLT_MAX : -FLT_MAX;
1.150    rillig 		}
1.169    rillig 	} else if (typ == DOUBLE
1.169    rillig 	    || /* CONSTCOND */LDOUBLE_SIZE == DOUBLE_SIZE) {
1.150    rillig 		ld = (double)ld;
1.150    rillig 		if (isfinite(ld) == 0) {
1.150    rillig 			/* floating-point constant out of range */
1.150    rillig 			warning(248);
1.150    rillig 			ld = ld > 0 ? DBL_MAX : -DBL_MAX;
  1.1    rillig 		}
  1.1    rillig 	}
  1.1    rillig
 1.22    rillig 	yylval.y_val = xcalloc(1, sizeof(*yylval.y_val));
 1.17    rillig 	yylval.y_val->v_tspec = typ;
1.166    rillig 	yylval.y_val->u.floating = ld;
  1.1    rillig
  1.1    rillig 	return T_CON;
  1.1    rillig }
  1.1    rillig
  1.1    rillig int
  1.1    rillig lex_operator(int t, op_t o)
  1.1    rillig {
  1.1    rillig
  1.1    rillig 	yylval.y_op = o;
  1.1    rillig 	return t;
  1.1    rillig }
  1.1    rillig
1.136    rillig static int prev_byte = -1;
1.136    rillig
1.136    rillig static int
1.136    rillig read_escaped_oct(int c)
1.136    rillig {
1.136    rillig 	int n = 3;
1.139    rillig 	int value = 0;
1.136    rillig 	do {
1.139    rillig 		value = (value << 3) + (c - '0');
1.136    rillig 		c = read_byte();
1.136    rillig 	} while (--n > 0 && '0' <= c && c <= '7');
1.136    rillig 	prev_byte = c;
1.139    rillig 	if (value > TARG_UCHAR_MAX) {
1.136    rillig 		/* character escape does not fit in character */
1.136    rillig 		warning(76);
1.139    rillig 		value &= CHAR_MASK;
1.136    rillig 	}
1.139    rillig 	return value;
1.136    rillig }
1.136    rillig
1.145    rillig static unsigned int
1.136    rillig read_escaped_hex(int c)
1.136    rillig {
1.136    rillig 	if (!allow_c90)
1.136    rillig 		/* \x undefined in traditional C */
1.136    rillig 		warning(82);
1.145    rillig 	unsigned int value = 0;
1.140    rillig 	int state = 0;		/* 0 = no digits, 1 = OK, 2 = overflow */
1.136    rillig 	while (c = read_byte(), isxdigit(c)) {
1.139    rillig 		c = isdigit(c) ? c - '0' : toupper(c) - 'A' + 10;
1.139    rillig 		value = (value << 4) + c;
1.140    rillig 		if (state == 2)
1.140    rillig 			continue;
1.140    rillig 		if ((value & ~CHAR_MASK) != 0) {
1.140    rillig 			/* overflow in hex escape */
1.140    rillig 			warning(75);
1.140    rillig 			state = 2;
1.140    rillig 		} else {
1.140    rillig 			state = 1;
1.136    rillig 		}
1.136    rillig 	}
1.136    rillig 	prev_byte = c;
1.139    rillig 	if (state == 0) {
1.136    rillig 		/* no hex digits follow \x */
1.136    rillig 		error(74);
1.136    rillig 	}
1.140    rillig 	if (state == 2)
1.139    rillig 		value &= CHAR_MASK;
1.139    rillig 	return value;
1.136    rillig }
1.136    rillig
1.137    rillig static int
1.137    rillig read_escaped_backslash(int delim)
1.137    rillig {
1.137    rillig 	int c;
1.137    rillig
1.137    rillig 	switch (c = read_byte()) {
1.137    rillig 	case '"':
1.137    rillig 		if (!allow_c90 && delim == '\'')
1.137    rillig 			/* \" inside character constants undef... */
1.137    rillig 			warning(262);
1.137    rillig 		return '"';
1.137    rillig 	case '\'':
1.137    rillig 		return '\'';
1.137    rillig 	case '?':
1.137    rillig 		if (!allow_c90)
1.137    rillig 			/* \? undefined in traditional C */
1.137    rillig 			warning(263);
1.137    rillig 		return '?';
1.137    rillig 	case '\\':
1.137    rillig 		return '\\';
1.137    rillig 	case 'a':
1.137    rillig 		if (!allow_c90)
1.137    rillig 			/* \a undefined in traditional C */
1.137    rillig 			warning(81);
1.137    rillig 		return '\a';
1.137    rillig 	case 'b':
1.137    rillig 		return '\b';
1.137    rillig 	case 'f':
1.137    rillig 		return '\f';
1.137    rillig 	case 'n':
1.137    rillig 		return '\n';
1.137    rillig 	case 'r':
1.137    rillig 		return '\r';
1.137    rillig 	case 't':
1.137    rillig 		return '\t';
1.137    rillig 	case 'v':
1.137    rillig 		if (!allow_c90)
1.137    rillig 			/* \v undefined in traditional C */
1.137    rillig 			warning(264);
1.137    rillig 		return '\v';
1.137    rillig 	case '8': case '9':
1.170    rillig 		/* bad octal digit '%c' */
1.137    rillig 		warning(77, c);
1.137    rillig 		/* FALLTHROUGH */
1.137    rillig 	case '0': case '1': case '2': case '3':
1.137    rillig 	case '4': case '5': case '6': case '7':
1.137    rillig 		return read_escaped_oct(c);
1.137    rillig 	case 'x':
1.145    rillig 		return (int)read_escaped_hex(c);
1.137    rillig 	case '\n':
1.138    rillig 		return -3;
1.137    rillig 	case EOF:
1.137    rillig 		return -2;
1.137    rillig 	default:
1.137    rillig 		if (isprint(c)) {
1.137    rillig 			/* dubious escape \%c */
1.137    rillig 			warning(79, c);
1.137    rillig 		} else {
1.137    rillig 			/* dubious escape \%o */
1.137    rillig 			warning(80, c);
1.137    rillig 		}
1.137    rillig 		return c;
1.137    rillig 	}
1.137    rillig }
1.137    rillig
1.138    rillig /*
1.138    rillig  * Read a character which is part of a character constant or of a string
1.138    rillig  * and handle escapes.
1.138    rillig  *
1.146    rillig  * 'delim' is '\'' for character constants and '"' for string literals.
1.138    rillig  *
1.138    rillig  * Returns -1 if the end of the character constant or string is reached,
1.138    rillig  * -2 if the EOF is reached, and the character otherwise.
1.138    rillig  */
1.138    rillig static int
1.138    rillig get_escaped_char(int delim)
1.138    rillig {
1.138    rillig
1.146    rillig 	int c = prev_byte;
1.146    rillig 	if (c != -1)
1.146    rillig 		prev_byte = -1;
1.146    rillig 	else
1.138    rillig 		c = read_byte();
1.146    rillig
1.138    rillig 	if (c == delim)
1.138    rillig 		return -1;
1.138    rillig 	switch (c) {
1.138    rillig 	case '\n':
1.138    rillig 		if (!allow_c90) {
1.138    rillig 			/* newline in string or char constant */
1.138    rillig 			error(254);
1.138    rillig 			return -2;
1.138    rillig 		}
1.138    rillig 		return c;
1.138    rillig 	case '\0':
1.138    rillig 		/* syntax error '%s' */
1.138    rillig 		error(249, "EOF or null byte in literal");
1.138    rillig 		return -2;
1.138    rillig 	case EOF:
1.138    rillig 		return -2;
1.138    rillig 	case '\\':
1.138    rillig 		c = read_escaped_backslash(delim);
1.138    rillig 		if (c == -3)
1.138    rillig 			return get_escaped_char(delim);
1.138    rillig 	}
1.138    rillig 	return c;
1.138    rillig }
1.138    rillig
1.113    rillig /* Called if lex found a leading "'". */
  1.1    rillig int
  1.6    rillig lex_character_constant(void)
  1.1    rillig {
1.159    rillig 	size_t n;
  1.1    rillig 	int val, c;
  1.1    rillig
  1.1    rillig 	n = 0;
  1.1    rillig 	val = 0;
  1.6    rillig 	while ((c = get_escaped_char('\'')) >= 0) {
1.145    rillig 		val = (int)((unsigned int)val << CHAR_SIZE) + c;
  1.1    rillig 		n++;
  1.1    rillig 	}
  1.1    rillig 	if (c == -2) {
  1.1    rillig 		/* unterminated character constant */
  1.1    rillig 		error(253);
 1.43    rillig 	} else if (n > sizeof(int) || (n > 1 && (pflag || hflag))) {
1.145    rillig 		/*
1.145    rillig 		 * XXX: ^^ should rather be sizeof(TARG_INT). Luckily,
1.145    rillig 		 * sizeof(int) is the same on all supported platforms.
1.145    rillig 		 */
 1.43    rillig 		/* too many characters in character constant */
 1.43    rillig 		error(71);
 1.43    rillig 	} else if (n > 1) {
 1.43    rillig 		/* multi-character character constant */
 1.43    rillig 		warning(294);
 1.43    rillig 	} else if (n == 0) {
 1.43    rillig 		/* empty character constant */
 1.43    rillig 		error(73);
  1.1    rillig 	}
 1.74    rillig 	if (n == 1)
 1.74    rillig 		val = (int)convert_integer(val, CHAR, CHAR_SIZE);
  1.1    rillig
 1.22    rillig 	yylval.y_val = xcalloc(1, sizeof(*yylval.y_val));
  1.1    rillig 	yylval.y_val->v_tspec = INT;
1.161    rillig 	yylval.y_val->v_char_constant = true;
1.166    rillig 	yylval.y_val->u.integer = val;
  1.1    rillig
  1.1    rillig 	return T_CON;
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
  1.1    rillig  * Called if lex found a leading L\'
  1.1    rillig  */
  1.1    rillig int
  1.6    rillig lex_wide_character_constant(void)
  1.1    rillig {
1.159    rillig 	static char buf[MB_LEN_MAX + 1];
1.159    rillig 	size_t n, nmax;
  1.1    rillig 	int c;
1.159    rillig 	wchar_t wc;
  1.1    rillig
 1.44    rillig 	nmax = MB_CUR_MAX;
  1.7    rillig
 1.44    rillig 	n = 0;
  1.6    rillig 	while ((c = get_escaped_char('\'')) >= 0) {
 1.44    rillig 		if (n < nmax)
 1.44    rillig 			buf[n] = (char)c;
 1.44    rillig 		n++;
  1.1    rillig 	}
  1.1    rillig
  1.1    rillig 	wc = 0;
  1.1    rillig
  1.1    rillig 	if (c == -2) {
  1.1    rillig 		/* unterminated character constant */
  1.1    rillig 		error(253);
 1.44    rillig 	} else if (n == 0) {
  1.1    rillig 		/* empty character constant */
  1.1    rillig 		error(73);
 1.44    rillig 	} else if (n > nmax) {
 1.44    rillig 		n = nmax;
 1.43    rillig 		/* too many characters in character constant */
 1.43    rillig 		error(71);
  1.1    rillig 	} else {
 1.44    rillig 		buf[n] = '\0';
 1.43    rillig 		(void)mbtowc(NULL, NULL, 0);
 1.44    rillig 		if (mbtowc(&wc, buf, nmax) < 0)
 1.43    rillig 			/* invalid multibyte character */
 1.43    rillig 			error(291);
  1.1    rillig 	}
  1.1    rillig
 1.22    rillig 	yylval.y_val = xcalloc(1, sizeof(*yylval.y_val));
1.173    rillig 	yylval.y_val->v_tspec = WCHAR_TSPEC;
1.161    rillig 	yylval.y_val->v_char_constant = true;
1.166    rillig 	yylval.y_val->u.integer = wc;
  1.1    rillig
  1.1    rillig 	return T_CON;
  1.1    rillig }
  1.1    rillig
  1.1    rillig /* See https://gcc.gnu.org/onlinedocs/cpp/Preprocessor-Output.html */
  1.1    rillig static void
 1.25    rillig parse_line_directive_flags(const char *p,
 1.25    rillig 			   bool *is_begin, bool *is_end, bool *is_system)
  1.1    rillig {
  1.1    rillig
 1.25    rillig 	*is_begin = false;
 1.25    rillig 	*is_end = false;
 1.25    rillig 	*is_system = false;
  1.1    rillig
  1.8    rillig 	while (*p != '\0') {
  1.1    rillig 		while (ch_isspace(*p))
  1.1    rillig 			p++;
  1.8    rillig
1.157    rillig 		const char *word = p;
  1.8    rillig 		while (*p != '\0' && !ch_isspace(*p))
  1.8    rillig 			p++;
1.157    rillig 		size_t len = (size_t)(p - word);
  1.8    rillig
1.157    rillig 		if (len == 1 && word[0] == '1')
 1.25    rillig 			*is_begin = true;
1.157    rillig 		if (len == 1 && word[0] == '2')
 1.25    rillig 			*is_end = true;
1.157    rillig 		if (len == 1 && word[0] == '3')
 1.25    rillig 			*is_system = true;
 1.94    rillig 		/* Flag '4' is only interesting for C++. */
  1.1    rillig 	}
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
  1.1    rillig  * Called for preprocessor directives. Currently implemented are:
 1.94    rillig  *	# pragma [argument...]
  1.1    rillig  *	# lineno
  1.1    rillig  *	# lineno "filename"
  1.2    rillig  *	# lineno "filename" GCC-flag...
  1.1    rillig  */
  1.1    rillig void
  1.1    rillig lex_directive(const char *yytext)
  1.1    rillig {
1.159    rillig 	const char *cp, *fn;
1.159    rillig 	char c, *eptr;
1.159    rillig 	size_t fnl;
1.159    rillig 	long ln;
1.159    rillig 	bool is_begin, is_end, is_system;
 1.25    rillig
1.159    rillig 	static bool first = true;
  1.1    rillig
  1.1    rillig 	/* Go to first non-whitespace after # */
  1.1    rillig 	for (cp = yytext + 1; (c = *cp) == ' ' || c == '\t'; cp++)
  1.1    rillig 		continue;
  1.1    rillig
  1.1    rillig 	if (!ch_isdigit(c)) {
  1.1    rillig 		if (strncmp(cp, "pragma", 6) == 0 && ch_isspace(cp[6]))
  1.1    rillig 			return;
  1.1    rillig 	error:
1.170    rillig 		/* undefined or invalid '#' directive */
  1.1    rillig 		warning(255);
  1.1    rillig 		return;
  1.1    rillig 	}
  1.1    rillig 	ln = strtol(--cp, &eptr, 10);
 1.94    rillig 	if (eptr == cp)
  1.1    rillig 		goto error;
  1.1    rillig 	if ((c = *(cp = eptr)) != ' ' && c != '\t' && c != '\0')
  1.1    rillig 		goto error;
  1.1    rillig 	while ((c = *cp++) == ' ' || c == '\t')
  1.1    rillig 		continue;
  1.1    rillig 	if (c != '\0') {
  1.1    rillig 		if (c != '"')
  1.1    rillig 			goto error;
  1.1    rillig 		fn = cp;
  1.1    rillig 		while ((c = *cp) != '"' && c != '\0')
  1.1    rillig 			cp++;
  1.1    rillig 		if (c != '"')
  1.1    rillig 			goto error;
  1.1    rillig 		if ((fnl = cp++ - fn) > PATH_MAX)
  1.1    rillig 			goto error;
  1.1    rillig 		/* empty string means stdin */
  1.1    rillig 		if (fnl == 0) {
  1.1    rillig 			fn = "{standard input}";
1.135    rillig 			fnl = 16;	/* strlen (fn) */
  1.1    rillig 		}
 1.19    rillig 		curr_pos.p_file = record_filename(fn, fnl);
  1.1    rillig 		/*
  1.1    rillig 		 * If this is the first directive, the name is the name
  1.1    rillig 		 * of the C source file as specified at the command line.
  1.1    rillig 		 * It is written to the output file.
  1.1    rillig 		 */
  1.1    rillig 		if (first) {
  1.1    rillig 			csrc_pos.p_file = curr_pos.p_file;
 1.19    rillig 			outsrc(transform_filename(curr_pos.p_file,
  1.1    rillig 			    strlen(curr_pos.p_file)));
  1.1    rillig 			first = false;
  1.1    rillig 		}
 1.25    rillig
 1.25    rillig 		parse_line_directive_flags(cp, &is_begin, &is_end, &is_system);
 1.26    rillig 		update_location(curr_pos.p_file, (int)ln, is_begin, is_end);
 1.26    rillig 		in_system_header = is_system;
  1.1    rillig 	}
  1.1    rillig 	curr_pos.p_line = (int)ln - 1;
  1.1    rillig 	curr_pos.p_uniq = 0;
  1.1    rillig 	if (curr_pos.p_file == csrc_pos.p_file) {
  1.1    rillig 		csrc_pos.p_line = (int)ln - 1;
  1.1    rillig 		csrc_pos.p_uniq = 0;
  1.1    rillig 	}
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
  1.2    rillig  * Handle lint comments such as ARGSUSED.
  1.2    rillig  *
  1.1    rillig  * If one of these comments is recognized, the argument, if any, is
  1.1    rillig  * parsed and a function which handles this comment is called.
  1.1    rillig  */
  1.1    rillig void
  1.1    rillig lex_comment(void)
  1.1    rillig {
1.146    rillig 	int c;
  1.1    rillig 	static const struct {
  1.1    rillig 		const	char *keywd;
  1.3    rillig 		bool	arg;
  1.1    rillig 		void	(*func)(int);
  1.1    rillig 	} keywtab[] = {
  1.3    rillig 		{ "ARGSUSED",		true,	argsused	},
  1.3    rillig 		{ "BITFIELDTYPE",	false,	bitfieldtype	},
  1.3    rillig 		{ "CONSTCOND",		false,	constcond	},
  1.3    rillig 		{ "CONSTANTCOND",	false,	constcond	},
  1.3    rillig 		{ "CONSTANTCONDITION",	false,	constcond	},
  1.3    rillig 		{ "FALLTHRU",		false,	fallthru	},
  1.3    rillig 		{ "FALLTHROUGH",	false,	fallthru	},
 1.79    rillig 		{ "FALL THROUGH",	false,	fallthru	},
 1.80    rillig 		{ "fallthrough",	false,	fallthru	},
  1.3    rillig 		{ "LINTLIBRARY",	false,	lintlib		},
  1.3    rillig 		{ "LINTED",		true,	linted		},
  1.3    rillig 		{ "LONGLONG",		false,	longlong	},
  1.3    rillig 		{ "NOSTRICT",		true,	linted		},
 1.15    rillig 		{ "NOTREACHED",		false,	not_reached	},
  1.3    rillig 		{ "PRINTFLIKE",		true,	printflike	},
  1.3    rillig 		{ "PROTOLIB",		true,	protolib	},
  1.3    rillig 		{ "SCANFLIKE",		true,	scanflike	},
  1.3    rillig 		{ "VARARGS",		true,	varargs		},
  1.1    rillig 	};
1.159    rillig 	char keywd[32];
1.159    rillig 	char arg[32];
1.159    rillig 	size_t l, i;
1.159    rillig 	int a;
  1.1    rillig
1.146    rillig 	bool seen_end_of_comment = false;
  1.1    rillig
  1.1    rillig 	/* Skip whitespace after the start of the comment */
1.135    rillig 	while (c = read_byte(), isspace(c))
  1.1    rillig 		continue;
  1.1    rillig
  1.1    rillig 	/* Read the potential keyword to keywd */
  1.1    rillig 	l = 0;
 1.79    rillig 	while (c != EOF && l < sizeof(keywd) - 1 &&
 1.80    rillig 	    (isalpha(c) || isspace(c))) {
 1.80    rillig 		if (islower(c) && l > 0 && ch_isupper(keywd[0]))
 1.80    rillig 			break;
  1.1    rillig 		keywd[l++] = (char)c;
1.135    rillig 		c = read_byte();
  1.1    rillig 	}
 1.79    rillig 	while (l > 0 && ch_isspace(keywd[l - 1]))
 1.79    rillig 		l--;
  1.1    rillig 	keywd[l] = '\0';
  1.1    rillig
  1.1    rillig 	/* look for the keyword */
 1.22    rillig 	for (i = 0; i < sizeof(keywtab) / sizeof(keywtab[0]); i++) {
  1.1    rillig 		if (strcmp(keywtab[i].keywd, keywd) == 0)
  1.1    rillig 			break;
  1.1    rillig 	}
 1.22    rillig 	if (i == sizeof(keywtab) / sizeof(keywtab[0]))
  1.1    rillig 		goto skip_rest;
  1.1    rillig
  1.1    rillig 	/* skip whitespace after the keyword */
 1.94    rillig 	while (isspace(c))
1.135    rillig 		c = read_byte();
  1.1    rillig
  1.1    rillig 	/* read the argument, if the keyword accepts one and there is one */
  1.1    rillig 	l = 0;
  1.1    rillig 	if (keywtab[i].arg) {
 1.94    rillig 		while (isdigit(c) && l < sizeof(arg) - 1) {
  1.1    rillig 			arg[l++] = (char)c;
1.135    rillig 			c = read_byte();
  1.1    rillig 		}
  1.1    rillig 	}
  1.1    rillig 	arg[l] = '\0';
1.168    rillig 	a = l != 0 ? atoi(arg) : -1;
  1.1    rillig
  1.1    rillig 	/* skip whitespace after the argument */
 1.94    rillig 	while (isspace(c))
1.135    rillig 		c = read_byte();
  1.1    rillig
1.146    rillig 	seen_end_of_comment = c == '*' && (c = read_byte()) == '/';
1.146    rillig 	if (!seen_end_of_comment && keywtab[i].func != linted)
1.146    rillig 		/* extra characters in lint comment */
1.146    rillig 		warning(257);
  1.1    rillig
  1.1    rillig 	if (keywtab[i].func != NULL)
1.146    rillig 		keywtab[i].func(a);
  1.1    rillig
  1.1    rillig skip_rest:
1.146    rillig 	while (!seen_end_of_comment) {
1.146    rillig 		int lc = c;
1.135    rillig 		if ((c = read_byte()) == EOF) {
  1.1    rillig 			/* unterminated comment */
  1.1    rillig 			error(256);
  1.1    rillig 			break;
  1.1    rillig 		}
  1.1    rillig 		if (lc == '*' && c == '/')
1.146    rillig 			seen_end_of_comment = true;
  1.1    rillig 	}
  1.1    rillig }
  1.1    rillig
  1.1    rillig void
  1.6    rillig lex_slash_slash_comment(void)
  1.1    rillig {
  1.1    rillig 	int c;
  1.1    rillig
1.121    rillig 	if (!allow_c99 && !allow_gcc)
1.170    rillig 		/* %s does not support '//' comments */
1.121    rillig 		gnuism(312, allow_c90 ? "C90" : "traditional C");
  1.1    rillig
1.135    rillig 	while ((c = read_byte()) != EOF && c != '\n')
  1.1    rillig 		continue;
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
  1.1    rillig  * Clear flags for lint comments LINTED, LONGLONG and CONSTCOND.
 1.94    rillig  * clear_warn_flags is called after function definitions and global and
  1.1    rillig  * local declarations and definitions. It is also called between
  1.1    rillig  * the controlling expression and the body of control statements
  1.1    rillig  * (if, switch, for, while).
  1.1    rillig  */
  1.1    rillig void
  1.1    rillig clear_warn_flags(void)
  1.1    rillig {
  1.1    rillig
  1.1    rillig 	lwarn = LWARN_ALL;
1.166    rillig 	long_long_flag = false;
  1.1    rillig 	constcond_flag = false;
  1.1    rillig }
  1.1    rillig
  1.1    rillig int
  1.1    rillig lex_string(void)
  1.1    rillig {
 1.71    rillig 	unsigned char *s;
1.159    rillig 	int c;
1.159    rillig 	size_t len, max;
  1.1    rillig
  1.1    rillig 	s = xmalloc(max = 64);
  1.1    rillig
  1.1    rillig 	len = 0;
 1.39    rillig 	while ((c = get_escaped_char('"')) >= 0) {
  1.1    rillig 		/* +1 to reserve space for a trailing NUL character */
  1.1    rillig 		if (len + 1 == max)
  1.1    rillig 			s = xrealloc(s, max *= 2);
  1.1    rillig 		s[len++] = (char)c;
  1.1    rillig 	}
  1.1    rillig 	s[len] = '\0';
  1.1    rillig 	if (c == -2)
  1.1    rillig 		/* unterminated string constant */
  1.1    rillig 		error(258);
  1.1    rillig
1.143    rillig 	strg_t *strg = xcalloc(1, sizeof(*strg));
1.103    rillig 	strg->st_char = true;
  1.1    rillig 	strg->st_len = len;
1.103    rillig 	strg->st_mem = s;
  1.1    rillig
  1.1    rillig 	yylval.y_string = strg;
  1.1    rillig 	return T_STRING;
  1.1    rillig }
  1.1    rillig
  1.1    rillig int
  1.6    rillig lex_wide_string(void)
  1.1    rillig {
1.159    rillig 	int c, n;
  1.1    rillig
1.143    rillig 	size_t len = 0, max = 64;
1.143    rillig 	char *s = xmalloc(max);
  1.6    rillig 	while ((c = get_escaped_char('"')) >= 0) {
  1.1    rillig 		/* +1 to save space for a trailing NUL character */
  1.1    rillig 		if (len + 1 >= max)
  1.1    rillig 			s = xrealloc(s, max *= 2);
  1.1    rillig 		s[len++] = (char)c;
  1.1    rillig 	}
  1.1    rillig 	s[len] = '\0';
  1.1    rillig 	if (c == -2)
  1.1    rillig 		/* unterminated string constant */
  1.1    rillig 		error(258);
  1.1    rillig
  1.1    rillig 	/* get length of wide-character string */
  1.1    rillig 	(void)mblen(NULL, 0);
1.143    rillig 	size_t wlen = 0;
1.143    rillig 	for (size_t i = 0; i < len; i += n, wlen++) {
  1.1    rillig 		if ((n = mblen(&s[i], MB_CUR_MAX)) == -1) {
  1.1    rillig 			/* invalid multibyte character */
  1.1    rillig 			error(291);
  1.1    rillig 			break;
  1.1    rillig 		}
  1.1    rillig 		if (n == 0)
  1.1    rillig 			n = 1;
  1.1    rillig 	}
  1.1    rillig
1.159    rillig 	wchar_t *ws = xmalloc((wlen + 1) * sizeof(*ws));
1.143    rillig 	size_t wi = 0;
  1.1    rillig 	/* convert from multibyte to wide char */
  1.1    rillig 	(void)mbtowc(NULL, NULL, 0);
1.143    rillig 	for (size_t i = 0; i < len; i += n, wi++) {
  1.1    rillig 		if ((n = mbtowc(&ws[wi], &s[i], MB_CUR_MAX)) == -1)
  1.1    rillig 			break;
  1.1    rillig 		if (n == 0)
  1.1    rillig 			n = 1;
  1.1    rillig 	}
  1.1    rillig 	ws[wi] = 0;
  1.1    rillig 	free(s);
  1.1    rillig
1.143    rillig 	strg_t *strg = xcalloc(1, sizeof(*strg));
1.103    rillig 	strg->st_char = false;
  1.1    rillig 	strg->st_len = wlen;
1.103    rillig 	strg->st_mem = ws;
  1.1    rillig
  1.1    rillig 	yylval.y_string = strg;
  1.1    rillig 	return T_STRING;
  1.1    rillig }
  1.1    rillig
1.105    rillig void
1.105    rillig lex_next_line(void)
1.105    rillig {
1.105    rillig 	curr_pos.p_line++;
1.105    rillig 	curr_pos.p_uniq = 0;
1.105    rillig 	debug_step("parsing %s:%d", curr_pos.p_file, curr_pos.p_line);
1.105    rillig 	if (curr_pos.p_file == csrc_pos.p_file) {
1.105    rillig 		csrc_pos.p_line++;
1.105    rillig 		csrc_pos.p_uniq = 0;
1.105    rillig 	}
1.105    rillig }
1.105    rillig
1.105    rillig void
1.105    rillig lex_unknown_character(int c)
1.105    rillig {
1.105    rillig
1.105    rillig 	/* unknown character \%o */
1.105    rillig 	error(250, c);
1.105    rillig }
1.105    rillig
  1.1    rillig /*
1.113    rillig  * The scanner does not create new symbol table entries for symbols it cannot
1.113    rillig  * find in the symbol table. This is to avoid putting undeclared symbols into
1.113    rillig  * the symbol table if a syntax error occurs.
  1.1    rillig  *
1.113    rillig  * getsym is called as soon as it is probably ok to put the symbol in the
 1.53    rillig  * symbol table. It is still possible that symbols are put in the symbol
 1.53    rillig  * table that are not completely declared due to syntax errors. To avoid too
1.113    rillig  * many problems in this case, symbols get type 'int' in getsym.
  1.1    rillig  *
1.113    rillig  * XXX calls to getsym should be delayed until declare_1_* is called.
  1.1    rillig  */
  1.1    rillig sym_t *
  1.1    rillig getsym(sbuf_t *sb)
  1.1    rillig {
  1.1    rillig
1.143    rillig 	sym_t *sym = sb->sb_sym;
  1.1    rillig
  1.1    rillig 	/*
  1.1    rillig 	 * During member declaration it is possible that name() looked
  1.1    rillig 	 * for symbols of type FVFT, although it should have looked for
  1.1    rillig 	 * symbols of type FTAG. Same can happen for labels. Both cases
  1.1    rillig 	 * are compensated here.
  1.1    rillig 	 */
  1.1    rillig 	if (symtyp == FMEMBER || symtyp == FLABEL) {
  1.1    rillig 		if (sym == NULL || sym->s_kind == FVFT)
1.143    rillig 			sym = symtab_search(sb->sb_name);
  1.1    rillig 	}
  1.1    rillig
  1.1    rillig 	if (sym != NULL) {
 1.98    rillig 		lint_assert(sym->s_kind == symtyp);
1.174    rillig 		set_symtyp(FVFT);
1.100    rillig 		free(sb);
  1.1    rillig 		return sym;
  1.1    rillig 	}
  1.1    rillig
  1.1    rillig 	/* create a new symbol table entry */
  1.1    rillig
  1.1    rillig 	/* labels must always be allocated at level 1 (outermost block) */
1.164    rillig 	decl_level *dl;
  1.1    rillig 	if (symtyp == FLABEL) {
1.101    rillig 		sym = level_zero_alloc(1, sizeof(*sym));
1.143    rillig 		char *s = level_zero_alloc(1, sb->sb_len + 1);
  1.1    rillig 		(void)memcpy(s, sb->sb_name, sb->sb_len + 1);
  1.1    rillig 		sym->s_name = s;
 1.12    rillig 		sym->s_block_level = 1;
1.164    rillig 		dl = dcs;
1.164    rillig 		while (dl->d_enclosing != NULL &&
1.164    rillig 		    dl->d_enclosing->d_enclosing != NULL)
1.164    rillig 			dl = dl->d_enclosing;
1.164    rillig 		lint_assert(dl->d_kind == DLK_AUTO);
  1.1    rillig 	} else {
1.101    rillig 		sym = block_zero_alloc(sizeof(*sym));
  1.1    rillig 		sym->s_name = sb->sb_name;
 1.12    rillig 		sym->s_block_level = block_level;
1.164    rillig 		dl = dcs;
  1.1    rillig 	}
  1.1    rillig
1.163    rillig 	sym->s_def_pos = unique_curr_pos();
  1.1    rillig 	if ((sym->s_kind = symtyp) != FLABEL)
  1.1    rillig 		sym->s_type = gettyp(INT);
  1.1    rillig
1.174    rillig 	set_symtyp(FVFT);
  1.1    rillig
1.133    rillig 	if (!in_gcc_attribute) {
1.133    rillig 		symtab_add(sym);
  1.1    rillig
1.164    rillig 		*dl->d_last_dlsym = sym;
1.164    rillig 		dl->d_last_dlsym = &sym->s_level_next;
1.133    rillig 	}
  1.1    rillig
1.100    rillig 	free(sb);
  1.1    rillig 	return sym;
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
1.146    rillig  * Construct a temporary symbol. The symbol name starts with a digit to avoid
1.146    rillig  * name clashes with other identifiers.
  1.1    rillig  */
  1.1    rillig sym_t *
1.112    rillig mktempsym(type_t *tp)
  1.1    rillig {
1.112    rillig 	static unsigned n = 0;
1.119    rillig 	char *s = level_zero_alloc((size_t)block_level, 64);
1.101    rillig 	sym_t *sym = block_zero_alloc(sizeof(*sym));
 1.28    rillig 	scl_t scl;
  1.1    rillig
1.112    rillig 	(void)snprintf(s, 64, "%.8u_tmp", n++);
  1.1    rillig
 1.28    rillig 	scl = dcs->d_scl;
 1.28    rillig 	if (scl == NOSCL)
 1.28    rillig 		scl = block_level > 0 ? AUTO : EXTERN;
 1.28    rillig
  1.1    rillig 	sym->s_name = s;
1.112    rillig 	sym->s_type = tp;
 1.12    rillig 	sym->s_block_level = block_level;
 1.28    rillig 	sym->s_scl = scl;
  1.1    rillig 	sym->s_kind = FVFT;
  1.1    rillig 	sym->s_used = true;
  1.1    rillig 	sym->s_set = true;
  1.1    rillig
 1.60    rillig 	symtab_add(sym);
  1.1    rillig
1.162    rillig 	*dcs->d_last_dlsym = sym;
1.162    rillig 	dcs->d_last_dlsym = &sym->s_level_next;
  1.1    rillig
  1.1    rillig 	return sym;
  1.1    rillig }
  1.1    rillig
 1.61    rillig /* Remove a symbol forever from the symbol table. */
  1.1    rillig void
  1.1    rillig rmsym(sym_t *sym)
  1.1    rillig {
  1.1    rillig
 1.98    rillig 	debug_step("rmsym '%s' %s '%s'",
 1.98    rillig 	    sym->s_name, symt_name(sym->s_kind), type_name(sym->s_type));
 1.61    rillig 	symtab_remove(sym);
 1.61    rillig
 1.61    rillig 	/* avoid that the symbol will later be put back to the symbol table */
 1.12    rillig 	sym->s_block_level = -1;
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
1.113    rillig  * Remove all symbols from the symbol table that have the same level as the
1.113    rillig  * given symbol.
  1.1    rillig  */
  1.1    rillig void
1.165    rillig symtab_remove_level(sym_t *syms)
  1.1    rillig {
  1.1    rillig
1.113    rillig 	/* Note the use of s_level_next instead of s_symtab_next. */
1.165    rillig 	for (sym_t *sym = syms; sym != NULL; sym = sym->s_level_next) {
 1.12    rillig 		if (sym->s_block_level != -1) {
1.165    rillig 			debug_step("symtab_remove_level '%s' %s '%s'",
 1.98    rillig 			    sym->s_name, symt_name(sym->s_kind),
 1.59    rillig 			    type_name(sym->s_type));
 1.61    rillig 			symtab_remove(sym);
1.102    rillig 			sym->s_symtab_ref = NULL;
  1.1    rillig 		}
  1.1    rillig 	}
  1.1    rillig }
  1.1    rillig
1.146    rillig /* Put a symbol into the symbol table. */
  1.1    rillig void
1.113    rillig inssym(int level, sym_t *sym)
  1.1    rillig {
  1.1    rillig
 1.98    rillig 	debug_step("inssym '%s' %s '%s'",
 1.98    rillig 	    sym->s_name, symt_name(sym->s_kind), type_name(sym->s_type));
 1.60    rillig 	symtab_add(sym);
1.113    rillig 	sym->s_block_level = level;
1.113    rillig
1.113    rillig 	/*
1.113    rillig 	 * Placing the inner symbols to the beginning of the list ensures
1.113    rillig 	 * that these symbols are preferred over symbols from the outer
1.113    rillig 	 * blocks that happen to have the same name.
1.113    rillig 	 */
1.146    rillig 	const sym_t *next = sym->s_symtab_next;
1.146    rillig 	if (next != NULL)
1.146    rillig 		lint_assert(sym->s_block_level >= next->s_block_level);
  1.1    rillig }
  1.1    rillig
1.146    rillig /* Called at level 0 after syntax errors. */
  1.1    rillig void
1.109    rillig clean_up_after_error(void)
  1.1    rillig {
  1.1    rillig
1.104    rillig 	symtab_remove_locals();
  1.1    rillig
1.143    rillig 	while (mem_block_level > 0)
1.143    rillig 		level_free_all(mem_block_level--);
  1.1    rillig }
  1.1    rillig
1.113    rillig /* Create a new symbol with the same name as an existing symbol. */
  1.1    rillig sym_t *
 1.21    rillig pushdown(const sym_t *sym)
  1.1    rillig {
1.159    rillig 	sym_t *nsym;
  1.1    rillig
 1.98    rillig 	debug_step("pushdown '%s' %s '%s'",
 1.98    rillig 	    sym->s_name, symt_name(sym->s_kind), type_name(sym->s_type));
1.101    rillig 	nsym = block_zero_alloc(sizeof(*nsym));
 1.12    rillig 	lint_assert(sym->s_block_level <= block_level);
  1.1    rillig 	nsym->s_name = sym->s_name;
1.163    rillig 	nsym->s_def_pos = unique_curr_pos();
  1.1    rillig 	nsym->s_kind = sym->s_kind;
 1.12    rillig 	nsym->s_block_level = block_level;
  1.1    rillig
 1.60    rillig 	symtab_add(nsym);
  1.1    rillig
1.162    rillig 	*dcs->d_last_dlsym = nsym;
1.162    rillig 	dcs->d_last_dlsym = &nsym->s_level_next;
  1.1    rillig
  1.1    rillig 	return nsym;
  1.1    rillig }
  1.1    rillig
  1.1    rillig /*
  1.1    rillig  * Free any dynamically allocated memory referenced by
  1.1    rillig  * the value stack or yylval.
  1.1    rillig  * The type of information in yylval is described by tok.
  1.1    rillig  */
  1.1    rillig void
  1.1    rillig freeyyv(void *sp, int tok)
  1.1    rillig {
  1.1    rillig 	if (tok == T_NAME || tok == T_TYPENAME) {
  1.1    rillig 		sbuf_t *sb = *(sbuf_t **)sp;
1.100    rillig 		free(sb);
  1.1    rillig 	} else if (tok == T_CON) {
  1.1    rillig 		val_t *val = *(val_t **)sp;
  1.1    rillig 		free(val);
  1.1    rillig 	} else if (tok == T_STRING) {
  1.1    rillig 		strg_t *strg = *(strg_t **)sp;
1.103    rillig 		free(strg->st_mem);
  1.1    rillig 		free(strg);
  1.1    rillig 	}
  1.1    rillig }