usr.bin/indent/lexi.c

1.148  rillig /*	$NetBSD: lexi.c,v 1.148 2021/11/19 20:23:17 rillig Exp $	*/
  1.3     tls
 1.16   kamil /*-
 1.16   kamil  * SPDX-License-Identifier: BSD-4-Clause
 1.16   kamil  *
 1.16   kamil  * Copyright (c) 1985 Sun Microsystems, Inc.
  1.5     mrg  * Copyright (c) 1980, 1993
  1.5     mrg  *	The Regents of the University of California.  All rights reserved.
  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 the University of
  1.1     cgd  *	California, Berkeley and its contributors.
  1.1     cgd  * 4. Neither the name of the University nor the names of its contributors
  1.1     cgd  *    may be used to endorse or promote products derived from this software
  1.1     cgd  *    without specific prior written permission.
  1.1     cgd  *
  1.1     cgd  * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
  1.1     cgd  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  1.1     cgd  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
  1.1     cgd  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
  1.1     cgd  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
  1.1     cgd  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
  1.1     cgd  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
  1.1     cgd  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
  1.1     cgd  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
  1.1     cgd  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
  1.1     cgd  * SUCH DAMAGE.
  1.1     cgd  */
  1.1     cgd
 1.16   kamil #if 0
 1.16   kamil static char sccsid[] = "@(#)lexi.c	8.1 (Berkeley) 6/6/93";
 1.16   kamil #endif
 1.16   kamil
  1.6   lukem #include <sys/cdefs.h>
 1.16   kamil #if defined(__NetBSD__)
1.148  rillig __RCSID("$NetBSD: lexi.c,v 1.148 2021/11/19 20:23:17 rillig Exp $");
 1.16   kamil #elif defined(__FreeBSD__)
 1.16   kamil __FBSDID("$FreeBSD: head/usr.bin/indent/lexi.c 337862 2018-08-15 18:19:45Z pstef $");
 1.16   kamil #endif
  1.1     cgd
  1.1     cgd #include <stdlib.h>
  1.1     cgd #include <string.h>
 1.16   kamil
 1.16   kamil #include "indent.h"
  1.1     cgd
1.127  rillig /*
1.127  rillig  * While inside lexi_alnum, this constant just marks a type, independently of
1.127  rillig  * the parentheses level.
1.127  rillig  */
1.135  rillig #define lsym_type lsym_type_outside_parentheses
1.127  rillig
 1.60  rillig /* must be sorted alphabetically, is used in binary search */
 1.62  rillig static const struct keyword {
 1.62  rillig     const char *name;
1.125  rillig     lexer_symbol lsym;
 1.62  rillig } keywords[] = {
1.127  rillig     {"_Bool", lsym_type},
1.127  rillig     {"_Complex", lsym_type},
1.127  rillig     {"_Imaginary", lsym_type},
1.127  rillig     {"auto", lsym_storage_class},
1.127  rillig     {"bool", lsym_type},
1.134  rillig     {"break", lsym_word},
1.127  rillig     {"case", lsym_case_label},
1.127  rillig     {"char", lsym_type},
1.127  rillig     {"complex", lsym_type},
1.127  rillig     {"const", lsym_type},
1.134  rillig     {"continue", lsym_word},
1.127  rillig     {"default", lsym_case_label},
1.127  rillig     {"do", lsym_do},
1.127  rillig     {"double", lsym_type},
1.127  rillig     {"else", lsym_else},
1.127  rillig     {"enum", lsym_tag},
1.127  rillig     {"extern", lsym_storage_class},
1.127  rillig     {"float", lsym_type},
1.127  rillig     {"for", lsym_for},
1.134  rillig     {"goto", lsym_word},
1.127  rillig     {"if", lsym_if},
1.127  rillig     {"imaginary", lsym_type},
1.134  rillig     {"inline", lsym_word},
1.127  rillig     {"int", lsym_type},
1.127  rillig     {"long", lsym_type},
1.127  rillig     {"offsetof", lsym_offsetof},
1.127  rillig     {"register", lsym_storage_class},
1.134  rillig     {"restrict", lsym_word},
1.129  rillig     {"return", lsym_return},
1.127  rillig     {"short", lsym_type},
1.127  rillig     {"signed", lsym_type},
1.127  rillig     {"sizeof", lsym_sizeof},
1.127  rillig     {"static", lsym_storage_class},
1.127  rillig     {"struct", lsym_tag},
1.127  rillig     {"switch", lsym_switch},
1.127  rillig     {"typedef", lsym_typedef},
1.127  rillig     {"union", lsym_tag},
1.127  rillig     {"unsigned", lsym_type},
1.127  rillig     {"void", lsym_type},
1.127  rillig     {"volatile", lsym_type},
1.127  rillig     {"while", lsym_while}
  1.1     cgd };
  1.1     cgd
 1.84  rillig static struct {
 1.64  rillig     const char **items;
 1.64  rillig     unsigned int len;
 1.64  rillig     unsigned int cap;
 1.64  rillig } typenames;
 1.16   kamil
 1.16   kamil /*
 1.16   kamil  * The transition table below was rewritten by hand from lx's output, given
 1.16   kamil  * the following definitions. lx is Katherine Flavel's lexer generator.
 1.16   kamil  *
 1.16   kamil  * O  = /[0-7]/;        D  = /[0-9]/;          NZ = /[1-9]/;
 1.16   kamil  * H  = /[a-f0-9]/i;    B  = /[0-1]/;          HP = /0x/i;
 1.16   kamil  * BP = /0b/i;          E  = /e[+\-]?/i D+;    P  = /p[+\-]?/i D+;
 1.16   kamil  * FS = /[fl]/i;        IS = /u/i /(l|L|ll|LL)/? | /(l|L|ll|LL)/ /u/i?;
 1.16   kamil  *
 1.16   kamil  * D+           E  FS? -> $float;
 1.16   kamil  * D*    "." D+ E? FS? -> $float;
 1.16   kamil  * D+    "."    E? FS? -> $float;    HP H+           IS? -> $int;
 1.16   kamil  * HP H+        P  FS? -> $float;    NZ D*           IS? -> $int;
 1.16   kamil  * HP H* "." H+ P  FS? -> $float;    "0" O*          IS? -> $int;
 1.16   kamil  * HP H+ "."    P  FS  -> $float;    BP B+           IS? -> $int;
 1.16   kamil  */
 1.71  rillig /* INDENT OFF */
 1.82  rillig static const unsigned char lex_number_state[][26] = {
 1.16   kamil     /*                examples:
 1.16   kamil                                      00
 1.16   kamil              s                      0xx
 1.16   kamil              t                    00xaa
 1.16   kamil              a     11       101100xxa..
 1.16   kamil              r   11ee0001101lbuuxx.a.pp
 1.16   kamil              t.01.e+008bLuxll0Ll.aa.p+0
 1.16   kamil     states:  ABCDEFGHIJKLMNOPQRSTUVWXYZ */
 1.83  rillig     [0] =   "uuiifuufiuuiiuiiiiiuiuuuuu",	/* (other) */
 1.83  rillig     [1] =   "CEIDEHHHIJQ  U  Q  VUVVZZZ",	/* 0 */
 1.83  rillig     [2] =   "DEIDEHHHIJQ  U  Q  VUVVZZZ",	/* 1 */
 1.83  rillig     [3] =   "DEIDEHHHIJ   U     VUVVZZZ",	/* 2 3 4 5 6 7 */
 1.83  rillig     [4] =   "DEJDEHHHJJ   U     VUVVZZZ",	/* 8 9 */
 1.83  rillig     [5] =   "             U     VUVV   ",	/* A a C c D d */
 1.83  rillig     [6] =   "  K          U     VUVV   ",	/* B b */
 1.83  rillig     [7] =   "  FFF   FF   U     VUVV   ",	/* E e */
 1.83  rillig     [8] =   "    f  f     U     VUVV  f",	/* F f */
 1.83  rillig     [9] =   "  LLf  fL  PR   Li  L    f",	/* L */
 1.83  rillig     [10] =  "  OOf  fO   S P O i O    f",	/* l */
 1.83  rillig     [11] =  "                    FFX   ",	/* P p */
 1.83  rillig     [12] =  "  MM    M  i  iiM   M     ",	/* U u */
 1.83  rillig     [13] =  "  N                       ",	/* X x */
 1.83  rillig     [14] =  "     G                 Y  ",	/* + - */
 1.83  rillig     [15] =  "B EE    EE   T      W     ",	/* . */
 1.16   kamil     /*       ABCDEFGHIJKLMNOPQRSTUVWXYZ */
  1.1     cgd };
 1.71  rillig /* INDENT ON */
  1.1     cgd
1.115  rillig static const unsigned char lex_number_row[] = {
 1.56  rillig     ['0'] = 1,
 1.56  rillig     ['1'] = 2,
 1.56  rillig     ['2'] = 3, ['3'] = 3, ['4'] = 3, ['5'] = 3, ['6'] = 3, ['7'] = 3,
 1.56  rillig     ['8'] = 4, ['9'] = 4,
 1.56  rillig     ['A'] = 5, ['a'] = 5, ['C'] = 5, ['c'] = 5, ['D'] = 5, ['d'] = 5,
 1.56  rillig     ['B'] = 6, ['b'] = 6,
 1.56  rillig     ['E'] = 7, ['e'] = 7,
 1.56  rillig     ['F'] = 8, ['f'] = 8,
 1.56  rillig     ['L'] = 9,
 1.56  rillig     ['l'] = 10,
 1.56  rillig     ['P'] = 11, ['p'] = 11,
 1.56  rillig     ['U'] = 12, ['u'] = 12,
 1.56  rillig     ['X'] = 13, ['x'] = 13,
 1.56  rillig     ['+'] = 14, ['-'] = 14,
 1.56  rillig     ['.'] = 15,
 1.56  rillig };
 1.36  rillig
 1.25  rillig static void
 1.25  rillig check_size_token(size_t desired_size)
 1.25  rillig {
 1.58  rillig     if (token.e + desired_size >= token.l)
 1.58  rillig 	buf_expand(&token, desired_size);
 1.25  rillig }
 1.25  rillig
 1.87  rillig static void
 1.87  rillig token_add_char(char ch)
 1.87  rillig {
 1.87  rillig     check_size_token(1);
 1.87  rillig     *token.e++ = ch;
 1.87  rillig }
 1.87  rillig
 1.20  rillig #ifdef debug
1.100  rillig static const char *
1.100  rillig lsym_name(lexer_symbol sym)
 1.20  rillig {
 1.20  rillig     static const char *const name[] = {
1.100  rillig 	"eof",
1.100  rillig 	"preprocessing",
1.100  rillig 	"newline",
1.100  rillig 	"form_feed",
1.100  rillig 	"comment",
1.100  rillig 	"lparen_or_lbracket",
1.100  rillig 	"rparen_or_rbracket",
1.100  rillig 	"lbrace",
1.100  rillig 	"rbrace",
1.100  rillig 	"period",
1.100  rillig 	"unary_op",
1.100  rillig 	"binary_op",
1.100  rillig 	"postfix_op",
1.100  rillig 	"question",
1.100  rillig 	"colon",
1.100  rillig 	"comma",
1.100  rillig 	"semicolon",
1.100  rillig 	"typedef",
1.100  rillig 	"storage_class",
1.135  rillig 	"type_outside_parentheses",
1.134  rillig 	"type_in_parentheses",
1.100  rillig 	"tag",
1.100  rillig 	"case_label",
1.100  rillig 	"string_prefix",
1.120  rillig 	"sizeof",
1.121  rillig 	"offsetof",
1.134  rillig 	"word",
1.100  rillig 	"funcname",
1.100  rillig 	"do",
1.100  rillig 	"else",
1.100  rillig 	"for",
1.100  rillig 	"if",
1.100  rillig 	"switch",
1.100  rillig 	"while",
1.129  rillig 	"return",
 1.20  rillig     };
 1.20  rillig
1.100  rillig     return name[sym];
 1.20  rillig }
 1.20  rillig
 1.20  rillig static void
 1.72  rillig debug_print_buf(const char *name, const struct buffer *buf)
 1.20  rillig {
 1.72  rillig     if (buf->s < buf->e) {
1.101  rillig 	debug_printf("%s ", name);
1.101  rillig 	debug_vis_range("\"", buf->s, buf->e, "\"\n");
 1.20  rillig     }
 1.20  rillig }
 1.20  rillig
1.112  rillig #define debug_ps_bool(name) \
1.113  rillig         if (ps.name != prev_ps.name) \
1.113  rillig 	    debug_println("[%c] ps." #name, ps.name ? 'x' : ' ')
1.112  rillig #define debug_ps_int(name) \
1.113  rillig 	if (ps.name != prev_ps.name) \
1.113  rillig 	    debug_println("%3d ps." #name, ps.name)
1.112  rillig
1.101  rillig static void
1.107  rillig debug_lexi(lexer_symbol lsym)
 1.20  rillig {
1.113  rillig     /*
1.113  rillig      * Watch out for 'rolled back parser state' in the debug output; the
1.113  rillig      * differences around these are unreliable.
1.113  rillig      */
1.113  rillig     static struct parser_state prev_ps;
1.113  rillig
1.104  rillig     debug_println("");
1.134  rillig     debug_printf("line %d: %s", line_no, lsym_name(lsym));
1.116  rillig     debug_vis_range(" \"", token.s, token.e, "\"\n");
1.122  rillig
 1.72  rillig     debug_print_buf("label", &lab);
 1.72  rillig     debug_print_buf("code", &code);
 1.72  rillig     debug_print_buf("comment", &com);
1.112  rillig
1.122  rillig     debug_println("    ps.prev_token = %s", lsym_name(ps.prev_token));
1.130  rillig     debug_ps_bool(next_col_1);
1.117  rillig     debug_ps_bool(curr_col_1);
1.112  rillig     debug_ps_bool(next_unary);
1.147  rillig     debug_ps_bool(is_function_definition);
1.112  rillig     debug_ps_bool(want_blank);
1.112  rillig     debug_ps_int(paren_level);
1.112  rillig     debug_ps_int(p_l_follow);
1.131  rillig     if (ps.paren_level != prev_ps.paren_level) {
1.131  rillig 	debug_printf("    ps.paren_indents:");
1.131  rillig 	for (int i = 0; i < ps.paren_level; i++)
1.131  rillig 	    debug_printf(" %d", ps.paren_indents[i]);
1.131  rillig 	debug_println("");
1.131  rillig     }
1.112  rillig     debug_ps_int(cast_mask);
1.112  rillig     debug_ps_int(not_cast_mask);
1.112  rillig
1.112  rillig     debug_ps_int(comment_delta);
1.112  rillig     debug_ps_int(n_comment_delta);
1.112  rillig     debug_ps_int(com_ind);
1.112  rillig
1.112  rillig     debug_ps_bool(block_init);
1.112  rillig     debug_ps_int(block_init_level);
1.112  rillig     debug_ps_bool(init_or_struct);
1.112  rillig
1.112  rillig     debug_ps_int(ind_level);
1.112  rillig     debug_ps_int(ind_level_follow);
1.112  rillig
1.137  rillig     debug_ps_int(decl_level);
1.112  rillig     debug_ps_bool(decl_on_line);
1.112  rillig     debug_ps_bool(in_decl);
1.112  rillig     debug_ps_int(just_saw_decl);
1.112  rillig     debug_ps_bool(in_parameter_declaration);
1.112  rillig     debug_ps_bool(decl_indent_done);
1.112  rillig
1.112  rillig     debug_ps_bool(in_stmt);
1.112  rillig     debug_ps_bool(ind_stmt);
1.112  rillig     debug_ps_bool(is_case_label);
1.112  rillig
1.112  rillig     debug_ps_bool(search_stmt);
1.113  rillig
1.113  rillig     prev_ps = ps;
1.101  rillig }
 1.96  rillig #endif
 1.20  rillig
1.104  rillig /* ARGSUSED */
1.101  rillig static lexer_symbol
1.107  rillig lexi_end(lexer_symbol lsym)
1.101  rillig {
1.101  rillig #ifdef debug
1.107  rillig     debug_lexi(lsym);
1.101  rillig #endif
1.100  rillig     return lsym;
 1.20  rillig }
 1.20  rillig
 1.43  rillig static void
 1.43  rillig lex_number(void)
 1.43  rillig {
1.115  rillig     for (unsigned char s = 'A'; s != 'f' && s != 'i' && s != 'u';) {
1.141  rillig 	unsigned char ch = (unsigned char)inp_peek();
 1.94  rillig 	if (ch >= array_length(lex_number_row) || lex_number_row[ch] == 0)
 1.56  rillig 	    break;
 1.75  rillig
1.115  rillig 	unsigned char row = lex_number_row[ch];
 1.82  rillig 	if (lex_number_state[row][s - 'A'] == ' ') {
 1.71  rillig 	    /*-
 1.82  rillig 	     * lex_number_state[0][s - 'A'] now indicates the type:
 1.74  rillig 	     * f = floating, i = integer, u = unknown
 1.56  rillig 	     */
1.138  rillig 	    return;
 1.43  rillig 	}
 1.75  rillig
 1.82  rillig 	s = lex_number_state[row][s - 'A'];
1.133  rillig 	token_add_char(inp_next());
 1.43  rillig     }
 1.43  rillig }
 1.43  rillig
1.145  rillig static bool
1.146  rillig is_identifier_start(char ch)
1.146  rillig {
1.148  rillig     return ch_isalpha(ch) || ch == '_' || ch == '$';
1.146  rillig }
1.146  rillig
1.146  rillig static bool
1.145  rillig is_identifier_part(char ch)
1.145  rillig {
1.148  rillig     return ch_isalnum(ch) || ch == '_' || ch == '$';
1.145  rillig }
1.145  rillig
 1.43  rillig static void
 1.43  rillig lex_word(void)
 1.43  rillig {
1.145  rillig     while (is_identifier_part(inp_peek()) || inp_peek() == '\\' ) {
1.141  rillig 	if (inp_peek() == '\\') {
1.142  rillig 	    if (inp_lookahead(1) == '\n') {
1.142  rillig 		inp_skip();
1.142  rillig 		inp_skip();
 1.43  rillig 	    } else
 1.43  rillig 		break;
 1.43  rillig 	}
 1.75  rillig
1.133  rillig 	token_add_char(inp_next());
 1.43  rillig     }
 1.43  rillig }
 1.43  rillig
 1.43  rillig static void
 1.43  rillig lex_char_or_string(void)
 1.43  rillig {
1.132  rillig     for (char delim = token.e[-1];;) {
1.141  rillig 	if (inp_peek() == '\n') {
 1.52  rillig 	    diag(1, "Unterminated literal");
 1.52  rillig 	    return;
 1.52  rillig 	}
 1.75  rillig
1.133  rillig 	token_add_char(inp_next());
 1.52  rillig 	if (token.e[-1] == delim)
 1.52  rillig 	    return;
 1.75  rillig
 1.52  rillig 	if (token.e[-1] == '\\') {
1.141  rillig 	    if (inp_peek() == '\n')
 1.52  rillig 		++line_no;
1.133  rillig 	    token_add_char(inp_next());
 1.52  rillig 	}
 1.52  rillig     }
 1.43  rillig }
 1.43  rillig
 1.84  rillig /* Guess whether the current token is a declared type. */
 1.57  rillig static bool
1.107  rillig probably_typename(void)
 1.57  rillig {
1.107  rillig     if (ps.block_init || ps.in_stmt)
 1.70  rillig 	return false;
1.142  rillig     if (inp_peek() == '*' && inp_lookahead(1) != '=')
 1.70  rillig 	goto maybe;
1.145  rillig     /* XXX: is_identifier_start */
1.148  rillig     if (ch_isalpha(inp_peek()))
 1.70  rillig 	goto maybe;
 1.70  rillig     return false;
 1.70  rillig maybe:
1.110  rillig     return ps.prev_token == lsym_semicolon ||
1.110  rillig 	ps.prev_token == lsym_lbrace ||
1.110  rillig 	ps.prev_token == lsym_rbrace;
 1.57  rillig }
 1.57  rillig
 1.84  rillig static int
 1.84  rillig bsearch_typenames(const char *key)
 1.84  rillig {
 1.84  rillig     const char **arr = typenames.items;
 1.84  rillig     int lo = 0;
 1.84  rillig     int hi = (int)typenames.len - 1;
 1.84  rillig
 1.84  rillig     while (lo <= hi) {
 1.84  rillig 	int mid = (int)((unsigned)(lo + hi) >> 1);
 1.84  rillig 	int cmp = strcmp(arr[mid], key);
 1.84  rillig 	if (cmp < 0)
 1.84  rillig 	    lo = mid + 1;
 1.84  rillig 	else if (cmp > 0)
 1.84  rillig 	    hi = mid - 1;
 1.84  rillig 	else
 1.84  rillig 	    return mid;
 1.84  rillig     }
 1.84  rillig     return -(lo + 1);
 1.84  rillig }
 1.84  rillig
 1.63  rillig static bool
 1.63  rillig is_typename(void)
 1.63  rillig {
 1.84  rillig     if (opt.auto_typedefs &&
 1.84  rillig 	token.e - token.s >= 2 && memcmp(token.e - 2, "_t", 2) == 0)
 1.84  rillig 	return true;
 1.63  rillig
 1.84  rillig     return bsearch_typenames(token.s) >= 0;
 1.63  rillig }
 1.63  rillig
1.115  rillig static int
1.115  rillig cmp_keyword_by_name(const void *key, const void *elem)
1.115  rillig {
1.115  rillig     return strcmp(key, ((const struct keyword *)elem)->name);
1.115  rillig }
1.115  rillig
1.138  rillig /* Read an alphanumeric token into 'token', or return lsym_eof. */
1.100  rillig static lexer_symbol
1.107  rillig lexi_alnum(void)
  1.1     cgd {
1.148  rillig     if (ch_isdigit(inp_peek()) ||
1.148  rillig 	    (inp_peek() == '.' && ch_isdigit(inp_lookahead(1)))) {
 1.89  rillig 	lex_number();
1.145  rillig     } else if (is_identifier_part(inp_peek())) {
 1.89  rillig 	lex_word();
1.102  rillig     } else
1.102  rillig 	return lsym_eof;	/* just as a placeholder */
1.102  rillig
 1.89  rillig     *token.e = '\0';
 1.16   kamil
 1.89  rillig     if (token.s[0] == 'L' && token.s[1] == '\0' &&
1.141  rillig 	    (inp_peek() == '"' || inp_peek() == '\''))
1.100  rillig 	return lsym_string_prefix;
 1.16   kamil
1.133  rillig     while (ch_isblank(inp_peek()))
1.133  rillig 	inp_skip();
 1.89  rillig
1.110  rillig     if (ps.prev_token == lsym_tag && ps.p_l_follow == 0) {
1.107  rillig 	ps.next_unary = true;
1.135  rillig 	return lsym_type_outside_parentheses;
 1.16   kamil     }
  1.6   lukem
 1.89  rillig     /* Operator after identifier is binary unless last token was 'struct'. */
1.110  rillig     ps.next_unary = ps.prev_token == lsym_tag;
 1.16   kamil
 1.89  rillig     const struct keyword *kw = bsearch(token.s, keywords,
 1.94  rillig 	array_length(keywords), sizeof(keywords[0]), cmp_keyword_by_name);
1.134  rillig     bool is_type = false;
 1.89  rillig     if (kw == NULL) {
 1.89  rillig 	if (is_typename()) {
1.134  rillig 	    is_type = true;
1.107  rillig 	    ps.next_unary = true;
 1.89  rillig 	    goto found_typename;
 1.16   kamil 	}
 1.89  rillig
 1.89  rillig     } else {			/* we have a keyword */
1.134  rillig 	is_type = kw->lsym == lsym_type;
1.107  rillig 	ps.next_unary = true;
1.127  rillig 	if (kw->lsym != lsym_tag && kw->lsym != lsym_type)
1.125  rillig 	    return kw->lsym;
1.118  rillig
1.118  rillig found_typename:
1.118  rillig 	if (ps.p_l_follow > 0) {
1.118  rillig 	    /* inside parentheses: cast, param list, offsetof or sizeof */
1.118  rillig 	    ps.cast_mask |= (1 << ps.p_l_follow) & ~ps.not_cast_mask;
1.118  rillig 	}
1.118  rillig 	if (ps.prev_token != lsym_period && ps.prev_token != lsym_unary_op) {
1.126  rillig 	    if (kw != NULL && kw->lsym == lsym_tag)
1.100  rillig 		return lsym_tag;
1.118  rillig 	    if (ps.p_l_follow == 0)
1.135  rillig 		return lsym_type_outside_parentheses;
 1.90  rillig 	}
 1.90  rillig     }
 1.89  rillig
1.141  rillig     if (inp_peek() == '(' && ps.tos <= 1 && ps.ind_level == 0 &&
1.107  rillig 	!ps.in_parameter_declaration && !ps.block_init) {
 1.89  rillig
1.143  rillig 	for (const char *p = inp_p(), *e = inp_line_end(); p < e;)
 1.89  rillig 	    if (*p++ == ')' && (*p == ';' || *p == ','))
1.118  rillig 		goto no_function_definition;
 1.89  rillig
1.147  rillig 	ps.is_function_definition = true;
1.107  rillig 	if (ps.in_decl)
1.107  rillig 	    ps.in_parameter_declaration = true;
1.100  rillig 	return lsym_funcname;
1.118  rillig no_function_definition:;
 1.89  rillig
1.136  rillig     } else if (ps.p_l_follow == 0 && probably_typename()) {
1.107  rillig 	ps.next_unary = true;
1.135  rillig 	return lsym_type_outside_parentheses;
 1.89  rillig     }
 1.89  rillig
1.134  rillig     return is_type ? lsym_type_in_parentheses : lsym_word;
 1.89  rillig }
 1.75  rillig
 1.89  rillig /* Reads the next token, placing it in the global variable "token". */
1.100  rillig lexer_symbol
1.106  rillig lexi(void)
 1.89  rillig {
 1.90  rillig     token.e = token.s;
1.130  rillig     ps.curr_col_1 = ps.next_col_1;
1.130  rillig     ps.next_col_1 = false;
 1.75  rillig
1.141  rillig     while (ch_isblank(inp_peek())) {
1.117  rillig 	ps.curr_col_1 = false;
1.133  rillig 	inp_skip();
 1.89  rillig     }
 1.75  rillig
1.107  rillig     lexer_symbol alnum_lsym = lexi_alnum();
1.100  rillig     if (alnum_lsym != lsym_eof)
1.107  rillig 	return lexi_end(alnum_lsym);
 1.16   kamil
 1.16   kamil     /* Scan a non-alphanumeric token */
 1.16   kamil
 1.90  rillig     check_size_token(3);	/* for things like "<<=" */
1.133  rillig     *token.e++ = inp_next();
 1.50  rillig     *token.e = '\0';
 1.16   kamil
1.100  rillig     lexer_symbol lsym;
 1.89  rillig     bool unary_delim = false;	/* whether the current token forces a
 1.89  rillig 				 * following operator to be unary */
 1.89  rillig
1.132  rillig     switch (token.e[-1]) {
 1.16   kamil     case '\n':
1.107  rillig 	unary_delim = ps.next_unary;
1.130  rillig 	ps.next_col_1 = true;
 1.47  rillig 	/* if data has been exhausted, the newline is a dummy. */
1.100  rillig 	lsym = had_eof ? lsym_eof : lsym_newline;
 1.16   kamil 	break;
 1.16   kamil
 1.43  rillig     case '\'':
 1.43  rillig     case '"':
 1.44  rillig 	lex_char_or_string();
1.134  rillig 	lsym = lsym_word;
 1.16   kamil 	break;
  1.6   lukem
 1.40  rillig     case '(':
 1.40  rillig     case '[':
 1.16   kamil 	unary_delim = true;
1.100  rillig 	lsym = lsym_lparen_or_lbracket;
 1.16   kamil 	break;
 1.16   kamil
 1.40  rillig     case ')':
 1.40  rillig     case ']':
1.100  rillig 	lsym = lsym_rparen_or_rbracket;
 1.16   kamil 	break;
 1.16   kamil
 1.16   kamil     case '#':
1.107  rillig 	unary_delim = ps.next_unary;
1.100  rillig 	lsym = lsym_preprocessing;
 1.16   kamil 	break;
 1.16   kamil
 1.16   kamil     case '?':
 1.16   kamil 	unary_delim = true;
1.100  rillig 	lsym = lsym_question;
 1.16   kamil 	break;
 1.16   kamil
 1.40  rillig     case ':':
1.100  rillig 	lsym = lsym_colon;
 1.16   kamil 	unary_delim = true;
 1.16   kamil 	break;
 1.16   kamil
 1.40  rillig     case ';':
 1.16   kamil 	unary_delim = true;
1.100  rillig 	lsym = lsym_semicolon;
 1.16   kamil 	break;
 1.16   kamil
 1.40  rillig     case '{':
 1.16   kamil 	unary_delim = true;
1.100  rillig 	lsym = lsym_lbrace;
 1.16   kamil 	break;
 1.16   kamil
 1.40  rillig     case '}':
 1.16   kamil 	unary_delim = true;
1.100  rillig 	lsym = lsym_rbrace;
 1.16   kamil 	break;
 1.16   kamil
 1.69  rillig     case '\f':
1.107  rillig 	unary_delim = ps.next_unary;
1.130  rillig 	ps.next_col_1 = true;
1.100  rillig 	lsym = lsym_form_feed;
 1.16   kamil 	break;
 1.16   kamil
 1.40  rillig     case ',':
 1.16   kamil 	unary_delim = true;
1.100  rillig 	lsym = lsym_comma;
 1.16   kamil 	break;
 1.16   kamil
 1.16   kamil     case '.':
 1.16   kamil 	unary_delim = false;
1.100  rillig 	lsym = lsym_period;
 1.16   kamil 	break;
  1.1     cgd
 1.16   kamil     case '-':
 1.90  rillig     case '+':
1.107  rillig 	lsym = ps.next_unary ? lsym_unary_op : lsym_binary_op;
 1.16   kamil 	unary_delim = true;
 1.16   kamil
1.141  rillig 	if (inp_peek() == token.e[-1]) {	/* ++, -- */
1.141  rillig 	    *token.e++ = inp_next();
1.134  rillig 	    if (ps.prev_token == lsym_word ||
1.110  rillig 		    ps.prev_token == lsym_rparen_or_rbracket) {
1.107  rillig 		lsym = ps.next_unary ? lsym_unary_op : lsym_postfix_op;
  1.1     cgd 		unary_delim = false;
 1.16   kamil 	    }
 1.75  rillig
1.141  rillig 	} else if (inp_peek() == '=') {	/* += */
1.141  rillig 	    *token.e++ = inp_next();
 1.75  rillig
1.141  rillig 	} else if (inp_peek() == '>') {	/* -> */
1.141  rillig 	    *token.e++ = inp_next();
 1.16   kamil 	    unary_delim = false;
1.100  rillig 	    lsym = lsym_unary_op;
1.107  rillig 	    ps.want_blank = false;
 1.16   kamil 	}
 1.90  rillig 	break;
 1.16   kamil
 1.16   kamil     case '=':
1.107  rillig 	if (ps.init_or_struct)
1.107  rillig 	    ps.block_init = true;
1.141  rillig 	if (inp_peek() == '=') {	/* == */
1.141  rillig 	    *token.e++ = inp_next();
 1.67  rillig 	    *token.e = '\0';
 1.16   kamil 	}
1.100  rillig 	lsym = lsym_binary_op;
 1.16   kamil 	unary_delim = true;
 1.16   kamil 	break;
 1.16   kamil
 1.16   kamil     case '>':
 1.16   kamil     case '<':
 1.16   kamil     case '!':			/* ops like <, <<, <=, !=, etc */
1.141  rillig 	if (inp_peek() == '>' || inp_peek() == '<' || inp_peek() == '=')
1.141  rillig 	    *token.e++ = inp_next();
1.141  rillig 	if (inp_peek() == '=')
1.133  rillig 	    *token.e++ = inp_next();
1.107  rillig 	lsym = ps.next_unary ? lsym_unary_op : lsym_binary_op;
 1.16   kamil 	unary_delim = true;
 1.16   kamil 	break;
 1.16   kamil
 1.16   kamil     case '*':
 1.16   kamil 	unary_delim = true;
1.107  rillig 	if (!ps.next_unary) {
1.141  rillig 	    if (inp_peek() == '=')
1.141  rillig 		*token.e++ = inp_next();
1.100  rillig 	    lsym = lsym_binary_op;
 1.16   kamil 	    break;
 1.16   kamil 	}
 1.75  rillig
1.148  rillig 	while (inp_peek() == '*' || ch_isspace(inp_peek())) {
1.141  rillig 	    if (inp_peek() == '*')
 1.87  rillig 		token_add_char('*');
1.133  rillig 	    inp_skip();
 1.16   kamil 	}
 1.75  rillig
 1.16   kamil 	if (ps.in_decl) {
1.144  rillig 	    const char *tp = inp_p(), *e = inp_line_end();
  1.6   lukem
1.146  rillig 	    while (tp < e) {
1.148  rillig 		if (ch_isspace(*tp))
1.146  rillig 		    tp++;
1.146  rillig 		else if (is_identifier_start(*tp)) {
1.146  rillig 		    tp++;
1.146  rillig 		    while (tp < e && is_identifier_part(*tp))
1.146  rillig 			tp++;
1.146  rillig 		} else
1.146  rillig 		    break;
1.146  rillig 	    }
1.144  rillig
1.144  rillig 	    if (tp < e && *tp == '(')
1.147  rillig 		ps.is_function_definition = true;
 1.16   kamil 	}
 1.75  rillig
1.100  rillig 	lsym = lsym_unary_op;
 1.16   kamil 	break;
  1.1     cgd
 1.16   kamil     default:
1.141  rillig 	if (token.e[-1] == '/' && (inp_peek() == '*' || inp_peek() == '/')) {
1.133  rillig 	    *token.e++ = inp_next();
1.100  rillig 	    lsym = lsym_comment;
1.107  rillig 	    unary_delim = ps.next_unary;
 1.16   kamil 	    break;
  1.1     cgd 	}
 1.75  rillig
1.132  rillig 	/* handle '||', '&&', etc., and also things as in 'int *****i' */
1.141  rillig 	while (token.e[-1] == inp_peek() || inp_peek() == '=')
1.133  rillig 	    token_add_char(inp_next());
 1.75  rillig
1.107  rillig 	lsym = ps.next_unary ? lsym_unary_op : lsym_binary_op;
 1.16   kamil 	unary_delim = true;
 1.47  rillig     }
 1.16   kamil
1.107  rillig     ps.next_unary = unary_delim;
 1.75  rillig
 1.25  rillig     check_size_token(1);
 1.50  rillig     *token.e = '\0';
 1.75  rillig
1.107  rillig     return lexi_end(lsym);
  1.1     cgd }
 1.16   kamil
  1.6   lukem void
1.128  rillig register_typename(const char *name)
  1.1     cgd {
 1.64  rillig     if (typenames.len >= typenames.cap) {
 1.64  rillig 	typenames.cap = 16 + 2 * typenames.cap;
 1.64  rillig 	typenames.items = xrealloc(typenames.items,
 1.64  rillig 	    sizeof(typenames.items[0]) * typenames.cap);
 1.64  rillig     }
 1.16   kamil
 1.84  rillig     int pos = bsearch_typenames(name);
 1.64  rillig     if (pos >= 0)
 1.64  rillig 	return;			/* already in the list */
 1.75  rillig
 1.64  rillig     pos = -(pos + 1);
 1.64  rillig     memmove(typenames.items + pos + 1, typenames.items + pos,
 1.73  rillig 	sizeof(typenames.items[0]) * (typenames.len++ - (unsigned)pos));
 1.64  rillig     typenames.items[pos] = xstrdup(name);
  1.1     cgd }