/* $NetBSD: indent.c,v 1.387 2023/06/27 04:41:23 rillig Exp $ */
/*-
* SPDX-License-Identifier: BSD-4-Clause
*
* Copyright (c) 1985 Sun Microsystems, Inc.
* Copyright (c) 1976 Board of Trustees of the University of Illinois.
* Copyright (c) 1980, 1993
* The Regents of the University of California. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by the University of
* California, Berkeley and its contributors.
* 4. Neither the name of the University nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND
* ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*/
#include <sys/cdefs.h>
__RCSID("$NetBSD: indent.c,v 1.387 2023/06/27 04:41:23 rillig Exp $");
#include <sys/param.h>
#include <err.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include "indent.h"
struct options opt = {
.brace_same_line = true,
.comment_delimiter_on_blank_line = true,
.cuddle_else = true,
.comment_column = 33,
.decl_indent = 16,
.else_if_in_same_line = true,
.function_brace_split = true,
.format_col1_comments = true,
.format_block_comments = true,
.indent_parameters = true,
.indent_size = 8,
.local_decl_indent = -1,
.lineup_to_parens = true,
.procnames_start_line = true,
.star_comment_cont = true,
.tabsize = 8,
.max_line_length = 78,
.use_tabs = true,
};
struct parser_state ps;
struct buffer token;
struct buffer lab;
struct buffer code;
struct buffer com;
bool found_err;
bool had_eof;
int line_no = 1;
static struct {
struct parser_state *item;
size_t len;
size_t cap;
} ifdef;
FILE *input;
FILE *output;
static const char *in_name = "Standard Input";
static char backup_name[PATH_MAX];
static const char *backup_suffix = ".BAK";
void *
nonnull(void *p)
{
if (p == NULL)
err(EXIT_FAILURE, NULL);
return p;
}
static void
buf_expand(struct buffer *buf, size_t add_size)
{
buf->cap = buf->cap + add_size + 400;
buf->s = nonnull(realloc(buf->s, buf->cap));
}
#ifdef debug
void
buf_terminate(struct buffer *buf)
{
if (buf->len == buf->cap)
buf_expand(buf, 1);
buf->s[buf->len] = '\0';
}
#endif
void
buf_add_char(struct buffer *buf, char ch)
{
if (buf->len == buf->cap)
buf_expand(buf, 1);
buf->s[buf->len++] = ch;
buf_terminate(buf);
}
void
buf_add_chars(struct buffer *buf, const char *s, size_t len)
{
if (len == 0)
return;
if (len > buf->cap - buf->len)
buf_expand(buf, len);
memcpy(buf->s + buf->len, s, len);
buf->len += len;
buf_terminate(buf);
}
static void
buf_add_buf(struct buffer *buf, const struct buffer *add)
{
buf_add_chars(buf, add->s, add->len);
}
void
diag(int level, const char *msg, ...)
{
va_list ap;
if (level != 0)
found_err = true;
va_start(ap, msg);
fprintf(stderr, "%s: %s:%d: ",
level == 0 ? "warning" : "error", in_name, line_no);
vfprintf(stderr, msg, ap);
fprintf(stderr, "\n");
va_end(ap);
}
/*
* Compute the indentation from starting at 'ind' and adding the text starting
* at 's'.
*/
int
ind_add(int ind, const char *s, size_t len)
{
for (const char *p = s; len > 0; p++, len--) {
if (*p == '\n')
ind = 0;
else if (*p == '\t')
ind = next_tab(ind);
else
ind++;
}
return ind;
}
static void
init_globals(void)
{
ps_push(psym_stmt, false); /* as a stop symbol */
ps.prev_lsym = lsym_semicolon;
ps.lbrace_kind = psym_lbrace_block;
const char *suffix = getenv("SIMPLE_BACKUP_SUFFIX");
if (suffix != NULL)
backup_suffix = suffix;
}
static void
load_profiles(int argc, char **argv)
{
const char *profile_name = NULL;
for (int i = 1; i < argc; i++) {
const char *arg = argv[i];
if (strcmp(arg, "-npro") == 0)
return;
if (arg[0] == '-' && arg[1] == 'P' && arg[2] != '\0')
profile_name = arg + 2;
}
load_profile_files(profile_name);
}
/*
* Copy the input file to the backup file, then make the backup file the input
* and the original input file the output.
*/
static void
copy_to_bak_file(void)
{
size_t n;
char buff[BUFSIZ];
const char *last_slash = strrchr(in_name, '/');
const char *base = last_slash != NULL ? last_slash + 1 : in_name;
snprintf(backup_name, sizeof(backup_name), "%s%s", base, backup_suffix);
/* copy the input file to the backup file */
FILE *bak = fopen(backup_name, "w");
if (bak == NULL)
err(1, "%s", backup_name);
while ((n = fread(buff, 1, sizeof(buff), input)) > 0)
if (fwrite(buff, 1, n, bak) != n)
err(1, "%s", backup_name);
if (fclose(input) != 0)
err(1, "%s", in_name);
if (fclose(bak) != 0)
err(1, "%s", backup_name);
/* re-open the backup file as the input file */
input = fopen(backup_name, "r");
if (input == NULL)
err(1, "%s", backup_name);
/* now the original input file will be the output */
output = fopen(in_name, "w");
if (output == NULL) {
remove(backup_name);
err(1, "%s", in_name);
}
}
static void
parse_command_line(int argc, char **argv)
{
for (int i = 1; i < argc; i++) {
const char *arg = argv[i];
if (arg[0] == '-') {
set_option(arg, "Command line");
} else if (input == NULL) {
in_name = arg;
if ((input = fopen(in_name, "r")) == NULL)
err(1, "%s", in_name);
} else if (output == NULL) {
if (strcmp(arg, in_name) == 0)
errx(1, "input and output files "
"must be different");
if ((output = fopen(arg, "w")) == NULL)
err(1, "%s", arg);
} else
errx(1, "too many arguments: %s", arg);
}
if (input == NULL) {
input = stdin;
output = stdout;
} else if (output == NULL)
copy_to_bak_file();
if (opt.comment_column <= 1)
opt.comment_column = 2; /* don't put normal comments in column
* 1, see opt.format_col1_comments */
if (opt.block_comment_max_line_length <= 0)
opt.block_comment_max_line_length = opt.max_line_length;
if (opt.local_decl_indent < 0)
opt.local_decl_indent = opt.decl_indent;
if (opt.decl_comment_column <= 0)
opt.decl_comment_column = opt.left_justify_decl
? (opt.comment_column <= 10 ? 2 : opt.comment_column - 8)
: opt.comment_column;
if (opt.continuation_indent == 0)
opt.continuation_indent = opt.indent_size;
}
static void
set_initial_indentation(void)
{
inp_read_line();
int ind = 0;
for (const char *p = inp_p;; p++) {
if (*p == ' ')
ind++;
else if (*p == '\t')
ind = next_tab(ind);
else
break;
}
ps.ind_level = ps.ind_level_follow = ind / opt.indent_size;
}
static bool
should_break_line(lexer_symbol lsym)
{
if (lsym == lsym_semicolon)
return false;
if (ps.prev_lsym == lsym_lbrace || ps.prev_lsym == lsym_semicolon)
return true;
if (lsym == lsym_lbrace && opt.brace_same_line)
return false;
return true;
}
static void
move_com_to_code(lexer_symbol lsym)
{
if (ps.want_blank)
buf_add_char(&code, ' ');
buf_add_buf(&code, &com);
buf_clear(&com);
ps.want_blank = lsym != lsym_rparen && lsym != lsym_rbracket;
}
static void
update_ps_lbrace_kind(lexer_symbol lsym)
{
if (lsym == lsym_tag) {
ps.lbrace_kind = token.s[0] == 's' ? psym_lbrace_struct :
token.s[0] == 'u' ? psym_lbrace_union :
psym_lbrace_enum;
} else if ((lsym == lsym_type && ps.paren.len == 0)
|| lsym == lsym_word
|| lsym == lsym_lbrace) {
/* Keep the current '{' kind. */
} else
ps.lbrace_kind = psym_lbrace_block;
}
static void
update_ps_badp(lexer_symbol lsym)
{
if (lsym == lsym_lbrace && ps.lbrace_kind == psym_lbrace_block
&& ps.psyms.len == 3)
ps.badp = badp_seen_lbrace;
if (lsym == lsym_rbrace && !ps.in_decl)
ps.badp = badp_none;
if (lsym == lsym_type && ps.paren.len == 0
&& (ps.badp == badp_seen_lbrace || ps.badp == badp_yes))
ps.badp = badp_decl;
if (lsym == lsym_semicolon && ps.badp == badp_decl
&& ps.decl_level == 0)
ps.badp = badp_seen_decl;
}
static void
indent_declarator(int decl_ind, bool tabs_to_var)
{
int base = ps.ind_level * opt.indent_size;
int ind = ind_add(base, code.s, code.len);
int target = base + decl_ind;
size_t orig_code_len = code.len;
if (tabs_to_var)
for (int next; (next = next_tab(ind)) <= target; ind = next)
buf_add_char(&code, '\t');
for (; ind < target; ind++)
buf_add_char(&code, ' ');
if (code.len == orig_code_len && ps.want_blank)
buf_add_char(&code, ' ');
ps.want_blank = false;
ps.decl_indent_done = true;
}
static bool
is_function_pointer_declaration(void)
{
return ps.in_decl
&& !ps.in_typedef_decl
&& !ps.in_init
&& !ps.decl_indent_done
&& !ps.line_has_func_def
&& ps.ind_paren_level == 0;
}
static int
process_eof(void)
{
finish_output();
if (ps.psyms.len > 2) /* check for balanced braces */
diag(1, "Stuff missing from end of file");
return found_err ? EXIT_FAILURE : EXIT_SUCCESS;
}
/* move the whole line to the 'label' buffer */
static void
read_preprocessing_line(void)
{
enum {
PLAIN, STR, CHR, COMM
} state = PLAIN;
buf_add_char(&lab, '#');
while (inp_p[0] != '\n' || (state == COMM && !had_eof)) {
buf_add_char(&lab, inp_next());
switch (lab.s[lab.len - 1]) {
case '\\':
if (state != COMM)
buf_add_char(&lab, inp_next());
break;
case '/':
if (inp_p[0] == '*' && state == PLAIN) {
state = COMM;
buf_add_char(&lab, *inp_p++);
}
break;
case '"':
if (state == STR)
state = PLAIN;
else if (state == PLAIN)
state = STR;
break;
case '\'':
if (state == CHR)
state = PLAIN;
else if (state == PLAIN)
state = CHR;
break;
case '*':
if (inp_p[0] == '/' && state == COMM) {
state = PLAIN;
buf_add_char(&lab, *inp_p++);
}
break;
}
}
while (lab.len > 0 && ch_isblank(lab.s[lab.len - 1]))
lab.len--;
buf_terminate(&lab);
}
static void
paren_stack_push(struct paren_stack *s, int indent, enum paren_level_cast cast)
{
if (s->len == s->cap) {
s->cap = 10 + s->cap;
s->item = nonnull(realloc(s->item,
sizeof(s->item[0]) * s->cap));
}
s->item[s->len++] = (struct paren_level){indent, cast};
}
static void *
dup_mem(const void *src, size_t size)
{
return memcpy(nonnull(malloc(size)), src, size);
}
#define dup_array(src, len) \
dup_mem((src), sizeof((src)[0]) * (len))
#define copy_array(dst, src, len) \
memcpy((dst), (src), sizeof((dst)[0]) * (len))
static_unless_debug void
parser_state_back_up(struct parser_state *dst)
{
*dst = ps;
dst->paren.item = dup_array(ps.paren.item, ps.paren.len);
dst->psyms.sym = dup_array(ps.psyms.sym, ps.psyms.len);
dst->psyms.ind_level = dup_array(ps.psyms.ind_level, ps.psyms.len);
}
static void
parser_state_restore(const struct parser_state *src)
{
struct paren_level *ps_paren_item = ps.paren.item;
size_t ps_paren_cap = ps.paren.cap;
enum parser_symbol *ps_psyms_sym = ps.psyms.sym;
int *ps_psyms_ind_level = ps.psyms.ind_level;
size_t ps_psyms_cap = ps.psyms.cap;
ps = *src;
ps.paren.item = ps_paren_item;
ps.paren.cap = ps_paren_cap;
ps.psyms.sym = ps_psyms_sym;
ps.psyms.ind_level = ps_psyms_ind_level;
ps.psyms.cap = ps_psyms_cap;
copy_array(ps.paren.item, src->paren.item, src->paren.len);
copy_array(ps.psyms.sym, src->psyms.sym, src->psyms.len);
copy_array(ps.psyms.ind_level, src->psyms.ind_level, src->psyms.len);
}
static_unless_debug void
parser_state_free(struct parser_state *pst)
{
free(pst->paren.item);
free(pst->psyms.sym);
free(pst->psyms.ind_level);
}
static void
process_preprocessing(void)
{
if (lab.len > 0 || code.len > 0 || com.len > 0)
output_line();
read_preprocessing_line();
const char *dir = lab.s + 1, *line_end = lab.s + lab.len;
while (dir < line_end && ch_isblank(*dir))
dir++;
size_t dir_len = 0;
while (dir + dir_len < line_end && ch_isalpha(dir[dir_len]))
dir_len++;
if (dir_len >= 2 && memcmp(dir, "if", 2) == 0) {
if (ifdef.len >= ifdef.cap) {
ifdef.cap += 5;
ifdef.item = nonnull(realloc(ifdef.item,
sizeof(ifdef.item[0]) * ifdef.cap));
}
parser_state_back_up(ifdef.item + ifdef.len++);
out.line_kind = lk_pre_if;
} else if (dir_len >= 2 && memcmp(dir, "el", 2) == 0) {
if (ifdef.len == 0)
diag(1, "Unmatched #%.*s", (int)dir_len, dir);
else
parser_state_restore(ifdef.item + ifdef.len - 1);
out.line_kind = lk_pre_other;
} else if (dir_len == 5 && memcmp(dir, "endif", 5) == 0) {
if (ifdef.len == 0)
diag(1, "Unmatched #endif");
else
parser_state_free(ifdef.item + --ifdef.len);
out.line_kind = lk_pre_endif;
} else
out.line_kind = lk_pre_other;
}
static void
process_newline(void)
{
if (ps.prev_lsym == lsym_comma
&& ps.paren.len == 0 && !ps.in_init
&& !opt.break_after_comma && ps.break_after_comma
&& lab.len == 0 /* for preprocessing lines */
&& com.len == 0)
goto stay_in_line;
if (ps.psyms.sym[ps.psyms.len - 1] == psym_switch_expr
&& opt.brace_same_line
&& com.len == 0) {
ps.want_newline = true;
goto stay_in_line;
}
output_line();
stay_in_line:
line_no++;
}
static bool
want_blank_before_lparen(void)
{
if (opt.proc_calls_space)
return true;
if (ps.prev_lsym == lsym_sizeof)
return opt.blank_after_sizeof;
if (ps.prev_lsym == lsym_rparen
|| ps.prev_lsym == lsym_rbracket
|| ps.prev_lsym == lsym_postfix_op
|| ps.prev_lsym == lsym_offsetof
|| ps.prev_lsym == lsym_word
|| ps.prev_lsym == lsym_funcname)
return false;
return true;
}
static void
process_lparen(void)
{
if (is_function_pointer_declaration())
indent_declarator(ps.decl_ind, ps.tabs_to_var);
else if (ps.want_blank && want_blank_before_lparen())
buf_add_char(&code, ' ');
ps.want_blank = false;
buf_add_buf(&code, &token);
if (opt.extra_expr_indent && ps.spaced_expr_psym != psym_0)
ps.extra_expr_indent = eei_maybe;
if (ps.in_var_decl && ps.psyms.len <= 3 && !ps.in_init) {
parse(psym_stmt); /* prepare for function definition */
ps.in_var_decl = false;
}
enum paren_level_cast cast = cast_unknown;
if (ps.prev_lsym == lsym_offsetof
|| ps.prev_lsym == lsym_sizeof
|| ps.prev_lsym == lsym_for
|| ps.prev_lsym == lsym_if
|| ps.prev_lsym == lsym_switch
|| ps.prev_lsym == lsym_while
|| ps.line_has_func_def)
cast = cast_no;
paren_stack_push(&ps.paren, ind_add(0, code.s, code.len), cast);
}
static bool
rparen_is_cast(bool paren_cast)
{
if (ps.in_func_def_params)
return false;
if (ps.line_has_decl && !ps.in_init)
return false;
if (ps.prev_lsym == lsym_unary_op)
return true;
if (ps.spaced_expr_psym != psym_0 && ps.paren.len == 0)
return false;
return paren_cast || ch_isalpha(inp_p[0]) || inp_p[0] == '{';
}
static void
process_rparen(void)
{
if (ps.paren.len == 0)
diag(0, "Extra '%c'", *token.s);
bool paren_cast = ps.paren.len > 0
&& ps.paren.item[--ps.paren.len].cast == cast_maybe;
ps.prev_paren_was_cast = rparen_is_cast(paren_cast);
if (ps.prev_paren_was_cast) {
ps.next_unary = true;
ps.want_blank = opt.space_after_cast;
} else
ps.want_blank = true;
if (code.len == 0)
ps.ind_paren_level = (int)ps.paren.len;
buf_add_buf(&code, &token);
if (ps.spaced_expr_psym != psym_0 && ps.paren.len == 0) {
parse(ps.spaced_expr_psym);
ps.spaced_expr_psym = psym_0;
ps.want_newline = true;
ps.next_unary = true;
ps.in_stmt_or_decl = false;
ps.want_blank = true;
out.line_kind = lk_stmt_head;
if (ps.extra_expr_indent == eei_maybe)
ps.extra_expr_indent = eei_last;
}
}
static void
process_lbracket(void)
{
if (code.len > 0
&& (ps.prev_lsym == lsym_comma || ps.prev_lsym == lsym_binary_op))
buf_add_char(&code, ' ');
buf_add_buf(&code, &token);
ps.want_blank = false;
paren_stack_push(&ps.paren, ind_add(0, code.s, code.len), cast_no);
}
static void
process_rbracket(void)
{
if (ps.paren.len == 0)
diag(0, "Extra '%c'", *token.s);
if (ps.paren.len > 0)
ps.paren.len--;
if (code.len == 0)
ps.ind_paren_level = (int)ps.paren.len;
buf_add_buf(&code, &token);
ps.want_blank = true;
}
static void
process_lbrace(void)
{
if (ps.prev_lsym == lsym_rparen && ps.prev_paren_was_cast) {
ps.in_var_decl = true; // XXX: not really
ps.in_init = true;
}
if (out.line_kind == lk_stmt_head)
out.line_kind = lk_other;
ps.in_stmt_or_decl = false; /* don't indent the {} */
if (ps.in_init)
ps.init_level++;
else
ps.want_newline = true;
if (code.len > 0 && !ps.in_init) {
if (!opt.brace_same_line ||
(code.len > 0 && code.s[code.len - 1] == '}'))
output_line();
else if (ps.in_func_def_params && !ps.in_var_decl) {
ps.ind_level_follow = 0;
if (opt.function_brace_split)
output_line();
else
ps.want_blank = true;
}
}
if (ps.paren.len > 0 && ps.init_level == 0) {
diag(1, "Unbalanced parentheses");
ps.paren.len = 0;
if (ps.spaced_expr_psym != psym_0) {
parse(ps.spaced_expr_psym);
ps.spaced_expr_psym = psym_0;
ps.ind_level = ps.ind_level_follow;
}
}
if (code.len == 0)
ps.line_is_stmt_cont = false;
if (ps.in_decl && ps.in_var_decl) {
ps.di_stack[ps.decl_level] = ps.decl_ind;
if (++ps.decl_level == (int)array_length(ps.di_stack)) {
diag(0, "Reached internal limit of %zu struct levels",
array_length(ps.di_stack));
ps.decl_level--;
}
} else {
ps.line_has_decl = false; /* don't do special indentation
* of comments */
ps.in_func_def_params = false;
ps.in_decl = false;
}
ps.decl_ind = 0;
parse(ps.lbrace_kind);
if (ps.want_blank)
buf_add_char(&code, ' ');
ps.want_blank = false;
buf_add_char(&code, '{');
ps.declaration = decl_no;
}
static void
process_rbrace(void)
{
if (ps.paren.len > 0 && ps.init_level == 0) {
diag(1, "Unbalanced parentheses");
ps.paren.len = 0;
ps.spaced_expr_psym = psym_0;
}
ps.declaration = decl_no;
if (ps.decl_level == 0)
ps.blank_line_after_decl = false;
if (ps.init_level > 0)
ps.init_level--;
if (code.len > 0 && !ps.in_init)
output_line();
buf_add_char(&code, '}');
ps.want_blank = true;
ps.in_stmt_or_decl = false; // XXX: Initializers don't end a stmt
ps.line_is_stmt_cont = false;
if (ps.decl_level > 0) { /* multi-level structure declaration */
ps.decl_ind = ps.di_stack[--ps.decl_level];
if (ps.decl_level == 0 && !ps.in_func_def_params) {
ps.declaration = decl_begin;
ps.decl_ind = ps.ind_level == 0
? opt.decl_indent : opt.local_decl_indent;
}
ps.in_decl = true;
}
if (ps.psyms.len == 3)
out.line_kind = lk_func_end;
parse(psym_rbrace);
if (!ps.in_var_decl
&& ps.psyms.sym[ps.psyms.len - 1] != psym_do_stmt
&& ps.psyms.sym[ps.psyms.len - 1] != psym_if_expr_stmt)
ps.want_newline = true;
}
static void
process_period(void)
{
if (code.len > 0 && code.s[code.len - 1] == ',')
buf_add_char(&code, ' ');
buf_add_char(&code, '.');
ps.want_blank = false;
}
static void
process_unary_op(void)
{
if (is_function_pointer_declaration()) {
int ind = ps.decl_ind - (int)token.len;
indent_declarator(ind, ps.tabs_to_var);
} else if ((token.s[0] == '+' || token.s[0] == '-')
&& code.len > 0 && code.s[code.len - 1] == token.s[0])
ps.want_blank = true;
if (ps.want_blank)
buf_add_char(&code, ' ');
buf_add_buf(&code, &token);
ps.want_blank = false;
}
static void
process_postfix_op(void)
{
buf_add_buf(&code, &token);
ps.want_blank = true;
}
static void
process_comma(void)
{
ps.want_blank = code.len > 0; /* only put blank after comma if comma
* does not start the line */
if (ps.in_decl && ps.ind_paren_level == 0
&& !ps.line_has_func_def && !ps.in_init && !ps.decl_indent_done) {
/* indent leading commas and not the actual identifiers */
indent_declarator(ps.decl_ind - 1, ps.tabs_to_var);
}
buf_add_char(&code, ',');
if (ps.paren.len == 0) {
if (ps.init_level == 0)
ps.in_init = false;
int typical_varname_length = 8;
if (ps.break_after_comma && (opt.break_after_comma ||
ind_add(compute_code_indent(), code.s, code.len)
>= opt.max_line_length - typical_varname_length))
ps.want_newline = true;
}
}
static void
process_label_colon(void)
{
buf_add_buf(&lab, &code);
buf_add_char(&lab, ':');
buf_clear(&code);
if (ps.seen_case)
out.line_kind = lk_case_or_default;
ps.in_stmt_or_decl = false;
ps.want_newline = ps.seen_case;
ps.seen_case = false;
ps.want_blank = false;
}
static void
process_other_colon(void)
{
buf_add_char(&code, ':');
ps.want_blank = ps.decl_level == 0;
}
static void
process_semicolon(void)
{
if (out.line_kind == lk_stmt_head)
out.line_kind = lk_other;
if (ps.decl_level == 0) {
ps.in_var_decl = false;
ps.in_typedef_decl = false;
}
ps.seen_case = false; /* only needs to be reset on error */
ps.quest_level = 0; /* only needs to be reset on error */
if (ps.prev_lsym == lsym_rparen)
ps.in_func_def_params = false;
ps.in_init = false;
ps.init_level = 0;
ps.declaration = ps.declaration == decl_begin ? decl_end : decl_no;
if (ps.in_decl && code.len == 0 && !ps.in_init &&
!ps.decl_indent_done && ps.ind_paren_level == 0) {
/* indent stray semicolons in declarations */
indent_declarator(ps.decl_ind - 1, ps.tabs_to_var);
}
ps.in_decl = ps.decl_level > 0; /* if we were in a first level
* structure declaration before, we
* aren't anymore */
if (ps.paren.len > 0 && ps.spaced_expr_psym != psym_for_exprs) {
diag(1, "Unbalanced parentheses");
ps.paren.len = 0;
if (ps.spaced_expr_psym != psym_0) {
parse(ps.spaced_expr_psym);
ps.spaced_expr_psym = psym_0;
}
}
buf_add_char(&code, ';');
ps.want_blank = true;
ps.in_stmt_or_decl = ps.paren.len > 0;
ps.decl_ind = 0;
if (ps.spaced_expr_psym == psym_0) {
parse(psym_stmt);
ps.want_newline = true;
}
}
static void
process_type_outside_parentheses(void)
{
parse(psym_decl); /* let the parser worry about indentation */
if (ps.prev_lsym == lsym_rparen && ps.psyms.len <= 2 && code.len > 0)
output_line();
if (ps.in_func_def_params && opt.indent_parameters &&
ps.decl_level == 0) {
ps.ind_level = ps.ind_level_follow = 1;
ps.line_is_stmt_cont = false;
}
ps.in_var_decl = /* maybe */ true;
ps.in_decl = true;
ps.line_has_decl = ps.in_decl;
if (ps.decl_level == 0)
ps.declaration = decl_begin;
int ind = ps.ind_level > 0 && ps.decl_level == 0
? opt.local_decl_indent /* local variable */
: opt.decl_indent; /* global variable, or member */
if (ind == 0) {
int ind0 = code.len > 0 ? ind_add(0, code.s, code.len) + 1 : 0;
ps.decl_ind = ind_add(ind0, token.s, token.len) + 1;
} else
ps.decl_ind = ind;
ps.tabs_to_var = opt.use_tabs && ind > 0;
}
static void
process_word(lexer_symbol lsym)
{
if (lsym == lsym_type /* in parentheses */
&& ps.paren.item[ps.paren.len - 1].cast == cast_unknown)
ps.paren.item[ps.paren.len - 1].cast = cast_maybe;
if (ps.in_decl) {
if (lsym == lsym_funcname) {
ps.in_decl = false;
if (opt.procnames_start_line
&& code.len > (*inp_p == ')' ? 1 : 0))
output_line();
else if (ps.want_blank)
buf_add_char(&code, ' ');
ps.want_blank = false;
} else if (ps.in_typedef_decl && ps.decl_level == 0) {
/* Do not indent typedef declarators. */
} else if (!ps.in_init && !ps.decl_indent_done &&
ps.ind_paren_level == 0) {
if (opt.decl_indent == 0
&& code.len > 0 && code.s[code.len - 1] == '}')
ps.decl_ind = ind_add(0, code.s, code.len) + 1;
indent_declarator(ps.decl_ind, ps.tabs_to_var);
}
} else if (ps.spaced_expr_psym != psym_0 && ps.paren.len == 0) {
parse(ps.spaced_expr_psym);
ps.spaced_expr_psym = psym_0;
ps.want_newline = true;
ps.in_stmt_or_decl = false;
ps.next_unary = true;
}
}
static void
process_do(void)
{
ps.in_stmt_or_decl = false;
ps.in_decl = false;
if (code.len > 0)
output_line();
parse(psym_do);
ps.want_newline = true;
}
static void
process_else(void)
{
ps.in_stmt_or_decl = false;
ps.in_decl = false;
if (code.len > 0
&& !(opt.cuddle_else && code.s[code.len - 1] == '}'))
output_line();
parse(psym_else);
ps.want_newline = true;
}
static void
process_lsym(lexer_symbol lsym)
{
switch (lsym) {
/* INDENT OFF */
case lsym_preprocessing: process_preprocessing(); break;
case lsym_newline: process_newline(); break;
case lsym_comment: process_comment(); break;
case lsym_lparen: process_lparen(); break;
case lsym_lbracket: process_lbracket(); break;
case lsym_rparen: process_rparen(); break;
case lsym_rbracket: process_rbracket(); break;
case lsym_lbrace: process_lbrace(); break;
case lsym_rbrace: process_rbrace(); break;
case lsym_period: process_period(); break;
case lsym_unary_op: process_unary_op(); break;
case lsym_postfix_op: process_postfix_op(); break;
case lsym_binary_op: goto copy_token;
case lsym_question: ps.quest_level++; goto copy_token;
case lsym_question_colon: goto copy_token;
case lsym_label_colon: process_label_colon(); break;
case lsym_other_colon: process_other_colon(); break;
case lsym_comma: process_comma(); break;
case lsym_semicolon: process_semicolon(); break;
case lsym_typedef: ps.in_typedef_decl = true; goto copy_token;
case lsym_modifier: goto copy_token;
case lsym_case: ps.seen_case = true; goto copy_token;
case lsym_default: ps.seen_case = true; goto copy_token;
case lsym_do: process_do(); goto copy_token;
case lsym_else: process_else(); goto copy_token;
case lsym_for: ps.spaced_expr_psym = psym_for_exprs; goto copy_token;
case lsym_if: ps.spaced_expr_psym = psym_if_expr; goto copy_token;
case lsym_switch: ps.spaced_expr_psym = psym_switch_expr; goto copy_token;
case lsym_while: ps.spaced_expr_psym = psym_while_expr; goto copy_token;
/* INDENT ON */
case lsym_tag:
if (ps.paren.len > 0)
goto copy_token;
/* FALLTHROUGH */
case lsym_type:
if (ps.paren.len == 0) {
process_type_outside_parentheses();
goto copy_token;
}
/* FALLTHROUGH */
case lsym_sizeof:
case lsym_offsetof:
case lsym_word:
case lsym_funcname:
case lsym_return:
process_word(lsym);
copy_token:
if (ps.want_blank)
buf_add_char(&code, ' ');
buf_add_buf(&code, &token);
if (lsym != lsym_funcname)
ps.want_blank = true;
break;
default:
break;
}
}
static int
indent(void)
{
debug_parser_state();
for (;;) { /* loop until we reach eof */
lexer_symbol lsym = lexi();
debug_blank_line();
debug_printf("line %d: %s", line_no, lsym_name[lsym]);
debug_print_buf("token", &token);
debug_buffers();
debug_blank_line();
if (lsym == lsym_eof)
return process_eof();
if (lsym == lsym_preprocessing || lsym == lsym_newline)
ps.want_newline = false;
else if (lsym == lsym_comment) {
/* no special processing */
} else {
if (lsym == lsym_if && ps.prev_lsym == lsym_else
&& opt.else_if_in_same_line)
ps.want_newline = false;
if (ps.want_newline && should_break_line(lsym)) {
ps.want_newline = false;
output_line();
}
ps.in_stmt_or_decl = true;
if (com.len > 0)
move_com_to_code(lsym);
update_ps_lbrace_kind(lsym);
}
process_lsym(lsym);
if (opt.blank_line_after_decl_at_top)
update_ps_badp(lsym);
if (lsym != lsym_preprocessing
&& lsym != lsym_newline
&& lsym != lsym_comment)
ps.prev_lsym = lsym;
debug_parser_state();
}
}
int
main(int argc, char **argv)
{
init_globals();
load_profiles(argc, argv);
parse_command_line(argc, argv);
set_initial_indentation();
return indent();
}