/*- * 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. */ #ifndef lint static const char copyright[] = "@(#) Copyright (c) 1985 Sun Microsystems, Inc.\n\ @(#) Copyright (c) 1976 Board of Trustees of the University of Illinois.\n\ @(#) Copyright (c) 1980, 1993\n\ The Regents of the University of California. All rights reserved.\n"; #endif /* not lint */ #if 0 #ifndef lint static char sccsid[] = "@(#)indent.c 5.17 (Berkeley) 6/7/93"; #endif /* not lint */ #endif #include __FBSDID("$FreeBSD$"); #include #include #include #include #include #include #include #include #include #include #include "indent_globs.h" #include "indent_codes.h" #include "indent.h" static void bakcopy(void); static void indent_declaration(int, int); const char *in_name = "Standard Input"; /* will always point to name of input * file */ const char *out_name = "Standard Output"; /* will always point to name * of output file */ const char *simple_backup_suffix = ".BAK"; /* Suffix to use for backup * files */ char bakfile[MAXPATHLEN] = ""; int main(int argc, char **argv) { cap_rights_t rights; int dec_ind; /* current indentation for declarations */ int di_stack[20]; /* a stack of structure indentation levels */ int force_nl; /* when true, code must be broken */ int hd_type = 0; /* used to store type of stmt for if (...), * for (...), etc */ int i; /* local loop counter */ int scase; /* set to true when we see a case, so we will * know what to do with the following colon */ int sp_sw; /* when true, we are in the expression of * if(...), while(...), etc. */ int squest; /* when this is positive, we have seen a ? * without the matching : in a ?: * construct */ const char *t_ptr; /* used for copying tokens */ int tabs_to_var; /* true if using tabs to indent to var name */ int type_code; /* the type of token, returned by lexi */ int last_else = 0; /* true iff last keyword was an else */ const char *profile_name = NULL; const char *envval = NULL; struct parser_state transient_state; /* a copy for lookup */ /*-----------------------------------------------*\ | INITIALIZATION | \*-----------------------------------------------*/ found_err = 0; ps.p_stack[0] = stmt; /* this is the parser's stack */ ps.last_nl = true; /* this is true if the last thing scanned was * a newline */ ps.last_token = semicolon; combuf = (char *) malloc(bufsize); if (combuf == NULL) err(1, NULL); labbuf = (char *) malloc(bufsize); if (labbuf == NULL) err(1, NULL); codebuf = (char *) malloc(bufsize); if (codebuf == NULL) err(1, NULL); tokenbuf = (char *) malloc(bufsize); if (tokenbuf == NULL) err(1, NULL); alloc_typenames(); l_com = combuf + bufsize - 5; l_lab = labbuf + bufsize - 5; l_code = codebuf + bufsize - 5; l_token = tokenbuf + bufsize - 5; combuf[0] = codebuf[0] = labbuf[0] = ' '; /* set up code, label, and * comment buffers */ combuf[1] = codebuf[1] = labbuf[1] = '\0'; ps.else_if = 1; /* Default else-if special processing to on */ s_lab = e_lab = labbuf + 1; s_code = e_code = codebuf + 1; s_com = e_com = combuf + 1; s_token = e_token = tokenbuf + 1; in_buffer = (char *) malloc(10); if (in_buffer == NULL) err(1, NULL); in_buffer_limit = in_buffer + 8; buf_ptr = buf_end = in_buffer; line_no = 1; had_eof = ps.in_decl = ps.decl_on_line = break_comma = false; sp_sw = force_nl = false; ps.in_or_st = false; ps.bl_line = true; dec_ind = 0; di_stack[ps.dec_nest = 0] = 0; ps.want_blank = ps.in_stmt = ps.ind_stmt = false; scase = ps.pcase = false; squest = 0; sc_end = NULL; bp_save = NULL; be_save = NULL; output = NULL; tabs_to_var = 0; envval = getenv("SIMPLE_BACKUP_SUFFIX"); if (envval) simple_backup_suffix = envval; /*--------------------------------------------------*\ | COMMAND LINE SCAN | \*--------------------------------------------------*/ #ifdef undef max_col = 78; /* -l78 */ lineup_to_parens = 1; /* -lp */ lineup_to_parens_always = 0; /* -nlpl */ ps.ljust_decl = 0; /* -ndj */ ps.com_ind = 33; /* -c33 */ star_comment_cont = 1; /* -sc */ ps.ind_size = 8; /* -i8 */ verbose = 0; ps.decl_indent = 16; /* -di16 */ ps.local_decl_indent = -1; /* if this is not set to some nonnegative value * by an arg, we will set this equal to * ps.decl_ind */ ps.indent_parameters = 1; /* -ip */ ps.decl_com_ind = 0; /* if this is not set to some positive value * by an arg, we will set this equal to * ps.com_ind */ btype_2 = 1; /* -br */ cuddle_else = 1; /* -ce */ ps.unindent_displace = 0; /* -d0 */ ps.case_indent = 0; /* -cli0 */ format_block_comments = 1; /* -fcb */ format_col1_comments = 1; /* -fc1 */ procnames_start_line = 1; /* -psl */ proc_calls_space = 0; /* -npcs */ comment_delimiter_on_blankline = 1; /* -cdb */ ps.leave_comma = 1; /* -nbc */ #endif for (i = 1; i < argc; ++i) if (strcmp(argv[i], "-npro") == 0) break; else if (argv[i][0] == '-' && argv[i][1] == 'P' && argv[i][2] != '\0') profile_name = argv[i]; /* non-empty -P (set profile) */ set_defaults(); if (i >= argc) set_profile(profile_name); for (i = 1; i < argc; ++i) { /* * look thru args (if any) for changes to defaults */ if (argv[i][0] != '-') {/* no flag on parameter */ if (input == NULL) { /* we must have the input file */ in_name = argv[i]; /* remember name of input file */ input = fopen(in_name, "r"); if (input == NULL) /* check for open error */ err(1, "%s", in_name); continue; } else if (output == NULL) { /* we have the output file */ out_name = argv[i]; /* remember name of output file */ if (strcmp(in_name, out_name) == 0) { /* attempt to overwrite * the file */ errx(1, "input and output files must be different"); } output = fopen(out_name, "w"); if (output == NULL) /* check for create error */ err(1, "%s", out_name); continue; } errx(1, "unknown parameter: %s", argv[i]); } else set_option(argv[i]); } /* end of for */ if (input == NULL) input = stdin; if (output == NULL) { if (input == stdin) output = stdout; else { out_name = in_name; bakcopy(); } } /* Restrict input/output descriptors and enter Capsicum sandbox. */ cap_rights_init(&rights, CAP_FSTAT, CAP_WRITE); if (cap_rights_limit(fileno(output), &rights) < 0 && errno != ENOSYS) err(EXIT_FAILURE, "unable to limit rights for %s", out_name); cap_rights_init(&rights, CAP_FSTAT, CAP_READ); if (cap_rights_limit(fileno(input), &rights) < 0 && errno != ENOSYS) err(EXIT_FAILURE, "unable to limit rights for %s", in_name); if (cap_enter() < 0 && errno != ENOSYS) err(EXIT_FAILURE, "unable to enter capability mode"); if (ps.com_ind <= 1) ps.com_ind = 2; /* dont put normal comments before column 2 */ if (block_comment_max_col <= 0) block_comment_max_col = max_col; if (ps.local_decl_indent < 0) /* if not specified by user, set this */ ps.local_decl_indent = ps.decl_indent; if (ps.decl_com_ind <= 0) /* if not specified by user, set this */ ps.decl_com_ind = ps.ljust_decl ? (ps.com_ind <= 10 ? 2 : ps.com_ind - 8) : ps.com_ind; if (continuation_indent == 0) continuation_indent = ps.ind_size; fill_buffer(); /* get first batch of stuff into input buffer */ parse(semicolon); { char *p = buf_ptr; int col = 1; while (1) { if (*p == ' ') col++; else if (*p == '\t') col = tabsize * (1 + (col - 1) / tabsize) + 1; else break; p++; } if (col > ps.ind_size) ps.ind_level = ps.i_l_follow = col / ps.ind_size; } /* * START OF MAIN LOOP */ while (1) { /* this is the main loop. it will go until we * reach eof */ int comment_buffered = false; type_code = lexi(&ps); /* lexi reads one token. The actual * characters read are stored in "token". lexi * returns a code indicating the type of token */ /* * The following code moves newlines and comments following an if (), * while (), else, etc. up to the start of the following stmt to * a buffer. This allows proper handling of both kinds of brace * placement (-br, -bl) and cuddling "else" (-ce). */ while (ps.search_brace) { switch (type_code) { case newline: if (sc_end == NULL) { save_com = sc_buf; save_com[0] = save_com[1] = ' '; sc_end = &save_com[2]; } *sc_end++ = '\n'; /* * We may have inherited a force_nl == true from the previous * token (like a semicolon). But once we know that a newline * has been scanned in this loop, force_nl should be false. * * However, the force_nl == true must be preserved if newline * is never scanned in this loop, so this assignment cannot be * done earlier. */ force_nl = false; case form_feed: break; case comment: if (sc_end == NULL) { /* * Copy everything from the start of the line, because * pr_comment() will use that to calculate original * indentation of a boxed comment. */ memcpy(sc_buf, in_buffer, buf_ptr - in_buffer - 4); save_com = sc_buf + (buf_ptr - in_buffer - 4); save_com[0] = save_com[1] = ' '; sc_end = &save_com[2]; } comment_buffered = true; *sc_end++ = '/'; /* copy in start of comment */ *sc_end++ = '*'; for (;;) { /* loop until we get to the end of the comment */ *sc_end = *buf_ptr++; if (buf_ptr >= buf_end) fill_buffer(); if (*sc_end++ == '*' && *buf_ptr == '/') break; /* we are at end of comment */ if (sc_end >= &save_com[sc_size]) { /* check for temp buffer * overflow */ diag2(1, "Internal buffer overflow - Move big comment from right after if, while, or whatever"); fflush(output); exit(1); } } *sc_end++ = '/'; /* add ending slash */ if (++buf_ptr >= buf_end) /* get past / in buffer */ fill_buffer(); break; case lbrace: /* * Put KNF-style lbraces before the buffered up tokens and * jump out of this loop in order to avoid copying the token * again under the default case of the switch below. */ if (sc_end != NULL && btype_2) { save_com[0] = '{'; /* * Originally the lbrace may have been alone on its own * line, but it will be moved into "the else's line", so * if there was a newline resulting from the "{" before, * it must be scanned now and ignored. */ while (isspace((unsigned char)*buf_ptr)) { if (++buf_ptr >= buf_end) fill_buffer(); if (*buf_ptr == '\n') break; } goto sw_buffer; } /* FALLTHROUGH */ default: /* it is the start of a normal statement */ { int remove_newlines; remove_newlines = /* "} else" */ (type_code == sp_nparen && *token == 'e' && e_code != s_code && e_code[-1] == '}') /* "else if" */ || (type_code == sp_paren && *token == 'i' && last_else && ps.else_if); if (remove_newlines) force_nl = false; if (sc_end == NULL) { /* ignore buffering if * comment wasn't saved up */ ps.search_brace = false; goto check_type; } while (sc_end > save_com && isblank((unsigned char)sc_end[-1])) { sc_end--; } if (swallow_optional_blanklines || (!comment_buffered && remove_newlines)) { force_nl = !remove_newlines; while (sc_end > save_com && sc_end[-1] == '\n') { sc_end--; } } if (force_nl) { /* if we should insert a nl here, put * it into the buffer */ force_nl = false; --line_no; /* this will be re-increased when the * newline is read from the buffer */ *sc_end++ = '\n'; *sc_end++ = ' '; if (verbose) /* print error msg if the line was * not already broken */ diag2(0, "Line broken"); } for (t_ptr = token; *t_ptr; ++t_ptr) *sc_end++ = *t_ptr; sw_buffer: ps.search_brace = false; /* stop looking for start of * stmt */ bp_save = buf_ptr; /* save current input buffer */ be_save = buf_end; buf_ptr = save_com; /* fix so that subsequent calls to * lexi will take tokens out of * save_com */ *sc_end++ = ' ';/* add trailing blank, just in case */ buf_end = sc_end; sc_end = NULL; break; } } /* end of switch */ /* * We must make this check, just in case there was an unexpected * EOF. */ if (type_code != 0) { /* * The only intended purpose of calling lexi() below is to * categorize the next token in order to decide whether to * continue buffering forthcoming tokens. Once the buffering * is over, lexi() will be called again elsewhere on all of * the tokens - this time for normal processing. * * Calling it for this purpose is a bug, because lexi() also * changes the parser state and discards leading whitespace, * which is needed mostly for comment-related considerations. * * Work around the former problem by giving lexi() a copy of * the current parser state and discard it if the call turned * out to be just a look ahead. * * Work around the latter problem by copying all whitespace * characters into the buffer so that the later lexi() call * will read them. */ if (sc_end != NULL) { while (*buf_ptr == ' ' || *buf_ptr == '\t') { *sc_end++ = *buf_ptr++; if (sc_end >= &save_com[sc_size]) { errx(1, "input too long"); } } if (buf_ptr >= buf_end) { fill_buffer(); } } transient_state = ps; type_code = lexi(&transient_state); /* read another token */ if (type_code != newline && type_code != form_feed && type_code != comment && !transient_state.search_brace) { ps = transient_state; } } } /* end of while (search_brace) */ last_else = 0; check_type: if (type_code == 0) { /* we got eof */ if (s_lab != e_lab || s_code != e_code || s_com != e_com) /* must dump end of line */ dump_line(); if (ps.tos > 1) /* check for balanced braces */ diag2(1, "Stuff missing from end of file"); if (verbose) { printf("There were %d output lines and %d comments\n", ps.out_lines, ps.out_coms); printf("(Lines with comments)/(Lines with code): %6.3f\n", (1.0 * ps.com_lines) / code_lines); } fflush(output); exit(found_err); } if ( (type_code != comment) && (type_code != newline) && (type_code != preesc) && (type_code != form_feed)) { if (force_nl && (type_code != semicolon) && (type_code != lbrace || !btype_2)) { /* we should force a broken line here */ if (verbose) diag2(0, "Line broken"); dump_line(); ps.want_blank = false; /* dont insert blank at line start */ force_nl = false; } ps.in_stmt = true; /* turn on flag which causes an extra level of * indentation. this is turned off by a ; or * '}' */ if (s_com != e_com) { /* the turkey has embedded a comment * in a line. fix it */ int len = e_com - s_com; CHECK_SIZE_CODE(len + 3); *e_code++ = ' '; memcpy(e_code, s_com, len); e_code += len; *e_code++ = ' '; *e_code = '\0'; /* null terminate code sect */ ps.want_blank = false; e_com = s_com; } } else if (type_code != comment) /* preserve force_nl thru a comment */ force_nl = false; /* cancel forced newline after newline, form * feed, etc */ /*-----------------------------------------------------*\ | do switch on type of token scanned | \*-----------------------------------------------------*/ CHECK_SIZE_CODE(3); /* maximum number of increments of e_code * before the next CHECK_SIZE_CODE or * dump_line() is 2. After that there's the * final increment for the null character. */ switch (type_code) { /* now, decide what to do with the token */ case form_feed: /* found a form feed in line */ ps.use_ff = true; /* a form feed is treated much like a newline */ dump_line(); ps.want_blank = false; break; case newline: if (ps.last_token != comma || ps.p_l_follow > 0 || !ps.leave_comma || ps.block_init || !break_comma || s_com != e_com) { dump_line(); ps.want_blank = false; } ++line_no; /* keep track of input line number */ break; case lparen: /* got a '(' or '[' */ /* count parens to make Healy happy */ if (++ps.p_l_follow == nitems(ps.paren_indents)) { diag3(0, "Reached internal limit of %d unclosed parens", nitems(ps.paren_indents)); ps.p_l_follow--; } if (*token == '[') /* not a function pointer declaration or a function call */; else if (ps.in_decl && !ps.block_init && !ps.dumped_decl_indent && ps.procname[0] == '\0' && ps.paren_level == 0) { /* function pointer declarations */ indent_declaration(dec_ind, tabs_to_var); ps.dumped_decl_indent = true; } else if (ps.want_blank && ((ps.last_token != ident && ps.last_token != funcname) || proc_calls_space || /* offsetof (1) is never allowed a space; sizeof (2) gets * one iff -bs; all other keywords (>2) always get a space * before lparen */ ps.keyword + Bill_Shannon > 2)) *e_code++ = ' '; ps.want_blank = false; *e_code++ = token[0]; ps.paren_indents[ps.p_l_follow - 1] = count_spaces_until(1, s_code, e_code) - 1; if (sp_sw && ps.p_l_follow == 1 && extra_expression_indent && ps.paren_indents[0] < 2 * ps.ind_size) ps.paren_indents[0] = 2 * ps.ind_size; if (ps.in_or_st && *token == '(' && ps.tos <= 2) { /* * this is a kluge to make sure that declarations will be * aligned right if proc decl has an explicit type on it, i.e. * "int a(x) {..." */ parse(semicolon); /* I said this was a kluge... */ ps.in_or_st = false; /* turn off flag for structure decl or * initialization */ } /* parenthesized type following sizeof or offsetof is not a cast */ if (ps.keyword == 1 || ps.keyword == 2) ps.not_cast_mask |= 1 << ps.p_l_follow; break; case rparen: /* got a ')' or ']' */ if (ps.cast_mask & (1 << ps.p_l_follow) & ~ps.not_cast_mask) { ps.last_u_d = true; ps.cast_mask &= (1 << ps.p_l_follow) - 1; ps.want_blank = space_after_cast; } else ps.want_blank = true; ps.not_cast_mask &= (1 << ps.p_l_follow) - 1; if (--ps.p_l_follow < 0) { ps.p_l_follow = 0; diag3(0, "Extra %c", *token); } if (e_code == s_code) /* if the paren starts the line */ ps.paren_level = ps.p_l_follow; /* then indent it */ *e_code++ = token[0]; if (sp_sw && (ps.p_l_follow == 0)) { /* check for end of if * (...), or some such */ sp_sw = false; force_nl = true;/* must force newline after if */ ps.last_u_d = true; /* inform lexi that a following * operator is unary */ ps.in_stmt = false; /* dont use stmt continuation * indentation */ parse(hd_type); /* let parser worry about if, or whatever */ } ps.search_brace = btype_2; /* this should insure that constructs * such as main(){...} and int[]{...} * have their braces put in the right * place */ break; case unary_op: /* this could be any unary operation */ if (!ps.dumped_decl_indent && ps.in_decl && !ps.block_init && ps.procname[0] == '\0' && ps.paren_level == 0) { /* pointer declarations */ /* * if this is a unary op in a declaration, we should indent * this token */ for (i = 0; token[i]; ++i) /* find length of token */; indent_declaration(dec_ind - i, tabs_to_var); ps.dumped_decl_indent = true; } else if (ps.want_blank) *e_code++ = ' '; { int len = e_token - s_token; CHECK_SIZE_CODE(len); memcpy(e_code, token, len); e_code += len; } ps.want_blank = false; break; case binary_op: /* any binary operation */ { int len = e_token - s_token; CHECK_SIZE_CODE(len + 1); if (ps.want_blank) *e_code++ = ' '; memcpy(e_code, token, len); e_code += len; } ps.want_blank = true; break; case postop: /* got a trailing ++ or -- */ *e_code++ = token[0]; *e_code++ = token[1]; ps.want_blank = true; break; case question: /* got a ? */ squest++; /* this will be used when a later colon * appears so we can distinguish the * ?: construct */ if (ps.want_blank) *e_code++ = ' '; *e_code++ = '?'; ps.want_blank = true; break; case casestmt: /* got word 'case' or 'default' */ scase = true; /* so we can process the later colon properly */ goto copy_id; case colon: /* got a ':' */ if (squest > 0) { /* it is part of the ?: construct */ --squest; if (ps.want_blank) *e_code++ = ' '; *e_code++ = ':'; ps.want_blank = true; break; } if (ps.in_or_st) { *e_code++ = ':'; ps.want_blank = false; break; } ps.in_stmt = false; /* seeing a label does not imply we are in a * stmt */ /* * turn everything so far into a label */ { int len = e_code - s_code; CHECK_SIZE_LAB(len + 3); memcpy(e_lab, s_code, len); e_lab += len; *e_lab++ = ':'; *e_lab = '\0'; e_code = s_code; } force_nl = ps.pcase = scase; /* ps.pcase will be used by * dump_line to decide how to * indent the label. force_nl * will force a case n: to be * on a line by itself */ scase = false; ps.want_blank = false; break; case semicolon: /* got a ';' */ if (ps.dec_nest == 0) ps.in_or_st = false;/* we are not in an initialization or * structure declaration */ scase = false; /* these will only need resetting in an error */ squest = 0; if (ps.last_token == rparen) ps.in_parameter_declaration = 0; ps.cast_mask = 0; ps.not_cast_mask = 0; ps.block_init = 0; ps.block_init_level = 0; ps.just_saw_decl--; if (ps.in_decl && s_code == e_code && !ps.block_init && !ps.dumped_decl_indent && ps.paren_level == 0) { /* indent stray semicolons in declarations */ indent_declaration(dec_ind - 1, tabs_to_var); ps.dumped_decl_indent = true; } ps.in_decl = (ps.dec_nest > 0); /* if we were in a first level * structure declaration, we * arent any more */ if ((!sp_sw || hd_type != forstmt) && ps.p_l_follow > 0) { /* * This should be true iff there were unbalanced parens in the * stmt. It is a bit complicated, because the semicolon might * be in a for stmt */ diag2(1, "Unbalanced parens"); ps.p_l_follow = 0; if (sp_sw) { /* this is a check for an if, while, etc. with * unbalanced parens */ sp_sw = false; parse(hd_type); /* dont lose the if, or whatever */ } } *e_code++ = ';'; ps.want_blank = true; ps.in_stmt = (ps.p_l_follow > 0); /* we are no longer in the * middle of a stmt */ if (!sp_sw) { /* if not if for (;;) */ parse(semicolon); /* let parser know about end of stmt */ force_nl = true;/* force newline after an end of stmt */ } break; case lbrace: /* got a '{' */ ps.in_stmt = false; /* dont indent the {} */ if (!ps.block_init) force_nl = true;/* force other stuff on same line as '{' onto * new line */ else if (ps.block_init_level <= 0) ps.block_init_level = 1; else ps.block_init_level++; if (s_code != e_code && !ps.block_init) { if (!btype_2) { dump_line(); ps.want_blank = false; } else if (ps.in_parameter_declaration && !ps.in_or_st) { ps.i_l_follow = 0; if (function_brace_split) { /* dump the line prior to the * brace ... */ dump_line(); ps.want_blank = false; } else /* add a space between the decl and brace */ ps.want_blank = true; } } if (ps.in_parameter_declaration) prefix_blankline_requested = 0; if (ps.p_l_follow > 0) { /* check for preceding unbalanced * parens */ diag2(1, "Unbalanced parens"); ps.p_l_follow = 0; if (sp_sw) { /* check for unclosed if, for, etc. */ sp_sw = false; parse(hd_type); ps.ind_level = ps.i_l_follow; } } if (s_code == e_code) ps.ind_stmt = false; /* dont put extra indentation on line * with '{' */ if (ps.in_decl && ps.in_or_st) { /* this is either a structure * declaration or an init */ di_stack[ps.dec_nest] = dec_ind; if (++ps.dec_nest == nitems(di_stack)) { diag3(0, "Reached internal limit of %d struct levels", nitems(di_stack)); ps.dec_nest--; } /* ? dec_ind = 0; */ } else { ps.decl_on_line = false; /* we can't be in the middle of * a declaration, so don't do * special indentation of * comments */ if (blanklines_after_declarations_at_proctop && ps.in_parameter_declaration) postfix_blankline_requested = 1; ps.in_parameter_declaration = 0; ps.in_decl = false; } dec_ind = 0; parse(lbrace); /* let parser know about this */ if (ps.want_blank) /* put a blank before '{' if '{' is not at * start of line */ *e_code++ = ' '; ps.want_blank = false; *e_code++ = '{'; ps.just_saw_decl = 0; break; case rbrace: /* got a '}' */ if (ps.p_stack[ps.tos] == decl && !ps.block_init) /* semicolons can be * omitted in * declarations */ parse(semicolon); if (ps.p_l_follow) {/* check for unclosed if, for, else. */ diag2(1, "Unbalanced parens"); ps.p_l_follow = 0; sp_sw = false; } ps.just_saw_decl = 0; ps.block_init_level--; if (s_code != e_code && !ps.block_init) { /* '}' must be first on * line */ if (verbose) diag2(0, "Line broken"); dump_line(); } *e_code++ = '}'; ps.want_blank = true; ps.in_stmt = ps.ind_stmt = false; if (ps.dec_nest > 0) { /* we are in multi-level structure * declaration */ dec_ind = di_stack[--ps.dec_nest]; if (ps.dec_nest == 0 && !ps.in_parameter_declaration) ps.just_saw_decl = 2; ps.in_decl = true; } prefix_blankline_requested = 0; parse(rbrace); /* let parser know about this */ ps.search_brace = cuddle_else && ps.p_stack[ps.tos] == ifhead && ps.il[ps.tos] >= ps.ind_level; if (ps.tos <= 1 && blanklines_after_procs && ps.dec_nest <= 0) postfix_blankline_requested = 1; break; case swstmt: /* got keyword "switch" */ sp_sw = true; hd_type = swstmt; /* keep this for when we have seen the * expression */ goto copy_id; /* go move the token into buffer */ case sp_paren: /* token is if, while, for */ sp_sw = true; /* the interesting stuff is done after the * expression is scanned */ hd_type = (*token == 'i' ? ifstmt : (*token == 'w' ? whilestmt : forstmt)); /* * remember the type of header for later use by parser */ goto copy_id; /* copy the token into line */ case sp_nparen: /* got else, do */ ps.in_stmt = false; if (*token == 'e') { if (e_code != s_code && (!cuddle_else || e_code[-1] != '}')) { if (verbose) diag2(0, "Line broken"); dump_line();/* make sure this starts a line */ ps.want_blank = false; } force_nl = true;/* also, following stuff must go onto new line */ last_else = 1; parse(elselit); } else { if (e_code != s_code) { /* make sure this starts a line */ if (verbose) diag2(0, "Line broken"); dump_line(); ps.want_blank = false; } force_nl = true;/* also, following stuff must go onto new line */ last_else = 0; parse(dolit); } goto copy_id; /* move the token into line */ case type_def: case storage: prefix_blankline_requested = 0; goto copy_id; case structure: if (ps.p_l_follow > 0) goto copy_id; case decl: /* we have a declaration type (int, etc.) */ parse(decl); /* let parser worry about indentation */ if (ps.last_token == rparen && ps.tos <= 1) { if (s_code != e_code) { dump_line(); ps.want_blank = 0; } } if (ps.in_parameter_declaration && ps.indent_parameters && ps.dec_nest == 0) { ps.ind_level = ps.i_l_follow = 1; ps.ind_stmt = 0; } ps.in_or_st = true; /* this might be a structure or initialization * declaration */ ps.in_decl = ps.decl_on_line = ps.last_token != type_def; if ( /* !ps.in_or_st && */ ps.dec_nest <= 0) ps.just_saw_decl = 2; prefix_blankline_requested = 0; for (i = 0; token[i++];); /* get length of token */ if (ps.ind_level == 0 || ps.dec_nest > 0) { /* global variable or struct member in local variable */ dec_ind = ps.decl_indent > 0 ? ps.decl_indent : i; tabs_to_var = (use_tabs ? ps.decl_indent > 0 : 0); } else { /* local variable */ dec_ind = ps.local_decl_indent > 0 ? ps.local_decl_indent : i; tabs_to_var = (use_tabs ? ps.local_decl_indent > 0 : 0); } goto copy_id; case funcname: case ident: /* got an identifier or constant */ if (ps.in_decl) { if (type_code == funcname) { ps.in_decl = false; if (procnames_start_line && s_code != e_code) { *e_code = '\0'; dump_line(); } else if (ps.want_blank) { *e_code++ = ' '; } ps.want_blank = false; } else if (!ps.block_init && !ps.dumped_decl_indent && ps.paren_level == 0) { /* if we are in a declaration, we * must indent identifier */ indent_declaration(dec_ind, tabs_to_var); ps.dumped_decl_indent = true; ps.want_blank = false; } } else if (sp_sw && ps.p_l_follow == 0) { sp_sw = false; force_nl = true; ps.last_u_d = true; ps.in_stmt = false; parse(hd_type); } copy_id: { int len = e_token - s_token; CHECK_SIZE_CODE(len + 1); if (ps.want_blank) *e_code++ = ' '; memcpy(e_code, s_token, len); e_code += len; } if (type_code != funcname) ps.want_blank = true; break; case strpfx: { int len = e_token - s_token; CHECK_SIZE_CODE(len + 1); if (ps.want_blank) *e_code++ = ' '; memcpy(e_code, token, len); e_code += len; } ps.want_blank = false; break; case period: /* treat a period kind of like a binary * operation */ *e_code++ = '.'; /* move the period into line */ ps.want_blank = false; /* dont put a blank after a period */ break; case comma: ps.want_blank = (s_code != e_code); /* only put blank after comma * if comma does not start the * line */ if (ps.in_decl && ps.procname[0] == '\0' && !ps.block_init && !ps.dumped_decl_indent && ps.paren_level == 0) { /* indent leading commas and not the actual identifiers */ indent_declaration(dec_ind - 1, tabs_to_var); ps.dumped_decl_indent = true; } *e_code++ = ','; if (ps.p_l_follow == 0) { if (ps.block_init_level <= 0) ps.block_init = 0; if (break_comma && (!ps.leave_comma || count_spaces_until(compute_code_target(), s_code, e_code) > max_col - tabsize)) force_nl = true; } break; case preesc: /* got the character '#' */ if ((s_com != e_com) || (s_lab != e_lab) || (s_code != e_code)) dump_line(); CHECK_SIZE_LAB(1); *e_lab++ = '#'; /* move whole line to 'label' buffer */ { int in_comment = 0; int com_start = 0; char quote = 0; int com_end = 0; while (*buf_ptr == ' ' || *buf_ptr == '\t') { buf_ptr++; if (buf_ptr >= buf_end) fill_buffer(); } while (*buf_ptr != '\n' || (in_comment && !had_eof)) { CHECK_SIZE_LAB(2); *e_lab = *buf_ptr++; if (buf_ptr >= buf_end) fill_buffer(); switch (*e_lab++) { case BACKSLASH: if (!in_comment) { *e_lab++ = *buf_ptr++; if (buf_ptr >= buf_end) fill_buffer(); } break; case '/': if (*buf_ptr == '*' && !in_comment && !quote) { in_comment = 1; *e_lab++ = *buf_ptr++; com_start = e_lab - s_lab - 2; } break; case '"': if (quote == '"') quote = 0; break; case '\'': if (quote == '\'') quote = 0; break; case '*': if (*buf_ptr == '/' && in_comment) { in_comment = 0; *e_lab++ = *buf_ptr++; com_end = e_lab - s_lab; } break; } } while (e_lab > s_lab && (e_lab[-1] == ' ' || e_lab[-1] == '\t')) e_lab--; if (e_lab - s_lab == com_end && bp_save == NULL) { /* comment on preprocessor line */ if (sc_end == NULL) { /* if this is the first comment, * we must set up the buffer */ save_com = sc_buf; sc_end = &save_com[0]; } else { *sc_end++ = '\n'; /* add newline between * comments */ *sc_end++ = ' '; --line_no; } if (sc_end - save_com + com_end - com_start > sc_size) errx(1, "input too long"); bcopy(s_lab + com_start, sc_end, com_end - com_start); sc_end += com_end - com_start; e_lab = s_lab + com_start; while (e_lab > s_lab && (e_lab[-1] == ' ' || e_lab[-1] == '\t')) e_lab--; bp_save = buf_ptr; /* save current input buffer */ be_save = buf_end; buf_ptr = save_com; /* fix so that subsequent calls to * lexi will take tokens out of * save_com */ *sc_end++ = ' '; /* add trailing blank, just in case */ buf_end = sc_end; sc_end = NULL; } CHECK_SIZE_LAB(1); *e_lab = '\0'; /* null terminate line */ ps.pcase = false; } if (strncmp(s_lab, "#if", 3) == 0) { /* also ifdef, ifndef */ if ((size_t)ifdef_level < nitems(state_stack)) { match_state[ifdef_level].tos = -1; state_stack[ifdef_level++] = ps; } else diag2(1, "#if stack overflow"); } else if (strncmp(s_lab, "#el", 3) == 0) { /* else, elif */ if (ifdef_level <= 0) diag2(1, s_lab[3] == 'i' ? "Unmatched #elif" : "Unmatched #else"); else { match_state[ifdef_level - 1] = ps; ps = state_stack[ifdef_level - 1]; } } else if (strncmp(s_lab, "#endif", 6) == 0) { if (ifdef_level <= 0) diag2(1, "Unmatched #endif"); else ifdef_level--; } else { struct directives { int size; const char *string; } recognized[] = { {7, "include"}, {6, "define"}, {5, "undef"}, {4, "line"}, {5, "error"}, {6, "pragma"} }; int d = nitems(recognized); while (--d >= 0) if (strncmp(s_lab + 1, recognized[d].string, recognized[d].size) == 0) break; if (d < 0) { diag2(1, "Unrecognized cpp directive"); break; } } if (blanklines_around_conditional_compilation) { postfix_blankline_requested++; n_real_blanklines = 0; } else { postfix_blankline_requested = 0; prefix_blankline_requested = 0; } break; /* subsequent processing of the newline * character will cause the line to be printed */ case comment: /* we have gotten a / followed by * this is a biggie */ pr_comment(); break; } /* end of big switch stmt */ *e_code = '\0'; /* make sure code section is null terminated */ if (type_code != comment && type_code != newline && type_code != preesc) ps.last_token = type_code; } /* end of main while (1) loop */ } /* * copy input file to backup file if in_name is /blah/blah/blah/file, then * backup file will be ".Bfile" then make the backup file the input and * original input file the output */ static void bakcopy(void) { int n, bakchn; char buff[8 * 1024]; const char *p; /* construct file name .Bfile */ for (p = in_name; *p; p++); /* skip to end of string */ while (p > in_name && *p != '/') /* find last '/' */ p--; if (*p == '/') p++; sprintf(bakfile, "%s%s", p, simple_backup_suffix); /* copy in_name to backup file */ bakchn = creat(bakfile, 0600); if (bakchn < 0) err(1, "%s", bakfile); while ((n = read(fileno(input), buff, sizeof(buff))) > 0) if (write(bakchn, buff, n) != n) err(1, "%s", bakfile); if (n < 0) err(1, "%s", in_name); close(bakchn); fclose(input); /* re-open backup file as the input file */ input = fopen(bakfile, "r"); if (input == NULL) err(1, "%s", bakfile); /* now the original input file will be the output */ output = fopen(in_name, "w"); if (output == NULL) { unlink(bakfile); err(1, "%s", in_name); } } static void indent_declaration(int cur_dec_ind, int tabs_to_var) { int pos = e_code - s_code; char *startpos = e_code; /* * get the tab math right for indentations that are not multiples of tabsize */ if ((ps.ind_level * ps.ind_size) % tabsize != 0) { pos += (ps.ind_level * ps.ind_size) % tabsize; cur_dec_ind += (ps.ind_level * ps.ind_size) % tabsize; } if (tabs_to_var) { int tpos; CHECK_SIZE_CODE(cur_dec_ind / tabsize); while ((tpos = tabsize * (1 + pos / tabsize)) <= cur_dec_ind) { *e_code++ = '\t'; pos = tpos; } } CHECK_SIZE_CODE(cur_dec_ind - pos + 1); while (pos < cur_dec_ind) { *e_code++ = ' '; pos++; } if (e_code == startpos && ps.want_blank) { *e_code++ = ' '; ps.want_blank = false; } }