1 /* PSPP - a program for statistical analysis.
2 Copyright (C) 1997-9, 2000, 2006, 2009, 2010, 2011, 2013 Free Software Foundation, Inc.
4 This program is free software: you can redistribute it and/or modify
5 it under the terms of the GNU General Public License as published by
6 the Free Software Foundation, either version 3 of the License, or
7 (at your option) any later version.
9 This program is distributed in the hope that it will be useful,
10 but WITHOUT ANY WARRANTY; without even the implied warranty of
11 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 GNU General Public License for more details.
14 You should have received a copy of the GNU General Public License
15 along with this program. If not, see <http://www.gnu.org/licenses/>. */
19 #include "language/lexer/lexer.h"
33 #include "language/command.h"
34 #include "language/lexer/scan.h"
35 #include "language/lexer/segment.h"
36 #include "language/lexer/token.h"
37 #include "libpspp/assertion.h"
38 #include "libpspp/cast.h"
39 #include "libpspp/deque.h"
40 #include "libpspp/i18n.h"
41 #include "libpspp/ll.h"
42 #include "libpspp/message.h"
43 #include "libpspp/misc.h"
44 #include "libpspp/str.h"
45 #include "libpspp/u8-istream.h"
46 #include "output/journal.h"
47 #include "output/text-item.h"
49 #include "gl/c-ctype.h"
50 #include "gl/minmax.h"
51 #include "gl/xalloc.h"
52 #include "gl/xmemdup0.h"
55 #define _(msgid) gettext (msgid)
56 #define N_(msgid) msgid
58 /* A token within a lex_source. */
61 /* The regular token information. */
64 /* Location of token in terms of the lex_source's buffer.
65 src->tail <= line_pos <= token_pos <= src->head. */
66 size_t token_pos; /* Start of token. */
67 size_t token_len; /* Length of source for token in bytes. */
68 size_t line_pos; /* Start of line containing token_pos. */
69 int first_line; /* Line number at token_pos. */
72 /* A source of tokens, corresponding to a syntax file.
74 This is conceptually a lex_reader wrapped with everything needed to convert
75 its UTF-8 bytes into tokens. */
78 struct ll ll; /* In lexer's list of sources. */
79 struct lex_reader *reader;
80 struct segmenter segmenter;
81 bool eof; /* True if T_STOP was read from 'reader'. */
83 /* Buffer of UTF-8 bytes. */
85 size_t allocated; /* Number of bytes allocated. */
86 size_t tail; /* &buffer[0] offset into UTF-8 source. */
87 size_t head; /* &buffer[head - tail] offset into source. */
89 /* Positions in source file, tail <= pos <= head for each member here. */
90 size_t journal_pos; /* First byte not yet output to journal. */
91 size_t seg_pos; /* First byte not yet scanned as token. */
92 size_t line_pos; /* First byte of line containing seg_pos. */
94 int n_newlines; /* Number of new-lines up to seg_pos. */
95 bool suppress_next_newline;
98 struct deque deque; /* Indexes into 'tokens'. */
99 struct lex_token *tokens; /* Lookahead tokens for parser. */
102 static struct lex_source *lex_source_create (struct lex_reader *);
103 static void lex_source_destroy (struct lex_source *);
108 struct ll_list sources; /* Contains "struct lex_source"s. */
111 static struct lex_source *lex_source__ (const struct lexer *);
112 static const struct lex_token *lex_next__ (const struct lexer *, int n);
113 static void lex_source_push_endcmd__ (struct lex_source *);
115 static void lex_source_pop__ (struct lex_source *);
116 static bool lex_source_get__ (const struct lex_source *);
117 static void lex_source_error_valist (struct lex_source *, int n0, int n1,
118 const char *format, va_list)
119 PRINTF_FORMAT (4, 0);
120 static const struct lex_token *lex_source_next__ (const struct lex_source *,
123 /* Initializes READER with the specified CLASS and otherwise some reasonable
124 defaults. The caller should fill in the others members as desired. */
126 lex_reader_init (struct lex_reader *reader,
127 const struct lex_reader_class *class)
129 reader->class = class;
130 reader->syntax = LEX_SYNTAX_AUTO;
131 reader->error = LEX_ERROR_CONTINUE;
132 reader->file_name = NULL;
133 reader->encoding = NULL;
134 reader->line_number = 0;
137 /* Frees any file name already in READER and replaces it by a copy of
138 FILE_NAME, or if FILE_NAME is null then clears any existing name. */
140 lex_reader_set_file_name (struct lex_reader *reader, const char *file_name)
142 free (reader->file_name);
143 reader->file_name = file_name != NULL ? xstrdup (file_name) : NULL;
146 /* Creates and returns a new lexer. */
150 struct lexer *lexer = xzalloc (sizeof *lexer);
151 ll_init (&lexer->sources);
155 /* Destroys LEXER. */
157 lex_destroy (struct lexer *lexer)
161 struct lex_source *source, *next;
163 ll_for_each_safe (source, next, struct lex_source, ll, &lexer->sources)
164 lex_source_destroy (source);
169 /* Inserts READER into LEXER so that the next token read by LEXER comes from
170 READER. Before the caller, LEXER must either be empty or at a T_ENDCMD
173 lex_include (struct lexer *lexer, struct lex_reader *reader)
175 assert (ll_is_empty (&lexer->sources) || lex_token (lexer) == T_ENDCMD);
176 ll_push_head (&lexer->sources, &lex_source_create (reader)->ll);
179 /* Appends READER to LEXER, so that it will be read after all other current
180 readers have already been read. */
182 lex_append (struct lexer *lexer, struct lex_reader *reader)
184 ll_push_tail (&lexer->sources, &lex_source_create (reader)->ll);
189 static struct lex_token *
190 lex_push_token__ (struct lex_source *src)
192 struct lex_token *token;
194 if (deque_is_full (&src->deque))
195 src->tokens = deque_expand (&src->deque, src->tokens, sizeof *src->tokens);
197 token = &src->tokens[deque_push_front (&src->deque)];
198 token_init (&token->token);
203 lex_source_pop__ (struct lex_source *src)
205 token_destroy (&src->tokens[deque_pop_back (&src->deque)].token);
209 lex_source_pop_front (struct lex_source *src)
211 token_destroy (&src->tokens[deque_pop_front (&src->deque)].token);
214 /* Advances LEXER to the next token, consuming the current token. */
216 lex_get (struct lexer *lexer)
218 struct lex_source *src;
220 src = lex_source__ (lexer);
224 if (!deque_is_empty (&src->deque))
225 lex_source_pop__ (src);
227 while (deque_is_empty (&src->deque))
228 if (!lex_source_get__ (src))
230 lex_source_destroy (src);
231 src = lex_source__ (lexer);
237 /* Issuing errors. */
239 /* Prints a syntax error message containing the current token and
240 given message MESSAGE (if non-null). */
242 lex_error (struct lexer *lexer, const char *format, ...)
246 va_start (args, format);
247 lex_next_error_valist (lexer, 0, 0, format, args);
251 /* Prints a syntax error message containing the current token and
252 given message MESSAGE (if non-null). */
254 lex_error_valist (struct lexer *lexer, const char *format, va_list args)
256 lex_next_error_valist (lexer, 0, 0, format, args);
259 /* Prints a syntax error message containing the current token and
260 given message MESSAGE (if non-null). */
262 lex_next_error (struct lexer *lexer, int n0, int n1, const char *format, ...)
266 va_start (args, format);
267 lex_next_error_valist (lexer, n0, n1, format, args);
271 /* Prints a syntax error message saying that OPTION0 or one of the other
272 strings following it, up to the first NULL, is expected. */
274 lex_error_expecting (struct lexer *lexer, const char *option0, ...)
276 enum { MAX_OPTIONS = 8 };
277 const char *options[MAX_OPTIONS + 1];
281 va_start (args, option0);
282 options[0] = option0;
284 while (n + 1 < MAX_OPTIONS && options[n] != NULL)
285 options[++n] = va_arg (args, const char *);
291 lex_error (lexer, NULL);
295 lex_error (lexer, _("expecting %s"), options[0]);
299 lex_error (lexer, _("expecting %s or %s"), options[0], options[1]);
303 lex_error (lexer, _("expecting %s, %s, or %s"), options[0], options[1],
308 lex_error (lexer, _("expecting %s, %s, %s, or %s"),
309 options[0], options[1], options[2], options[3]);
313 lex_error (lexer, _("expecting %s, %s, %s, %s, or %s"),
314 options[0], options[1], options[2], options[3], options[4]);
318 lex_error (lexer, _("expecting %s, %s, %s, %s, %s, or %s"),
319 options[0], options[1], options[2], options[3], options[4],
324 lex_error (lexer, _("expecting %s, %s, %s, %s, %s, %s, or %s"),
325 options[0], options[1], options[2], options[3], options[4],
326 options[5], options[6]);
330 lex_error (lexer, _("expecting %s, %s, %s, %s, %s, %s, %s, or %s"),
331 options[0], options[1], options[2], options[3], options[4],
332 options[5], options[6], options[7]);
340 /* Reports an error to the effect that subcommand SBC may only be specified
343 This function does not take a lexer as an argument or use lex_error(),
344 because the result would ordinarily just be redundant: "Syntax error at
345 SUBCOMMAND: Subcommand SUBCOMMAND may only be specified once.", which does
346 not help the user find the error. */
348 lex_sbc_only_once (const char *sbc)
350 msg (SE, _("Subcommand %s may only be specified once."), sbc);
353 /* Reports an error to the effect that subcommand SBC is missing.
355 This function does not take a lexer as an argument or use lex_error(),
356 because a missing subcommand can normally be detected only after the whole
357 command has been parsed, and so lex_error() would always report "Syntax
358 error at end of command", which does not help the user find the error. */
360 lex_sbc_missing (const char *sbc)
362 msg (SE, _("Required subcommand %s was not specified."), sbc);
365 /* Reports an error to the effect that specification SPEC may only be specified
366 once within subcommand SBC. */
368 lex_spec_only_once (struct lexer *lexer, const char *sbc, const char *spec)
370 lex_error (lexer, _("%s may only be specified once within subcommand %s"),
374 /* Reports an error to the effect that specification SPEC is missing within
377 lex_spec_missing (struct lexer *lexer, const char *sbc, const char *spec)
379 lex_error (lexer, _("Required %s specification missing from %s subcommand"),
383 /* Prints a syntax error message containing the current token and
384 given message MESSAGE (if non-null). */
386 lex_next_error_valist (struct lexer *lexer, int n0, int n1,
387 const char *format, va_list args)
389 struct lex_source *src = lex_source__ (lexer);
392 lex_source_error_valist (src, n0, n1, format, args);
398 ds_put_format (&s, _("Syntax error at end of input"));
401 ds_put_cstr (&s, ": ");
402 ds_put_vformat (&s, format, args);
404 ds_put_byte (&s, '.');
405 msg (SE, "%s", ds_cstr (&s));
410 /* Checks that we're at end of command.
411 If so, returns a successful command completion code.
412 If not, flags a syntax error and returns an error command
415 lex_end_of_command (struct lexer *lexer)
417 if (lex_token (lexer) != T_ENDCMD && lex_token (lexer) != T_STOP)
419 lex_error (lexer, _("expecting end of command"));
426 /* Token testing functions. */
428 /* Returns true if the current token is a number. */
430 lex_is_number (struct lexer *lexer)
432 return lex_next_is_number (lexer, 0);
435 /* Returns true if the current token is a string. */
437 lex_is_string (struct lexer *lexer)
439 return lex_next_is_string (lexer, 0);
442 /* Returns the value of the current token, which must be a
443 floating point number. */
445 lex_number (struct lexer *lexer)
447 return lex_next_number (lexer, 0);
450 /* Returns true iff the current token is an integer. */
452 lex_is_integer (struct lexer *lexer)
454 return lex_next_is_integer (lexer, 0);
457 /* Returns the value of the current token, which must be an
460 lex_integer (struct lexer *lexer)
462 return lex_next_integer (lexer, 0);
465 /* Token testing functions with lookahead.
467 A value of 0 for N as an argument to any of these functions refers to the
468 current token. Lookahead is limited to the current command. Any N greater
469 than the number of tokens remaining in the current command will be treated
470 as referring to a T_ENDCMD token. */
472 /* Returns true if the token N ahead of the current token is a number. */
474 lex_next_is_number (struct lexer *lexer, int n)
476 enum token_type next_token = lex_next_token (lexer, n);
477 return next_token == T_POS_NUM || next_token == T_NEG_NUM;
480 /* Returns true if the token N ahead of the current token is a string. */
482 lex_next_is_string (struct lexer *lexer, int n)
484 return lex_next_token (lexer, n) == T_STRING;
487 /* Returns the value of the token N ahead of the current token, which must be a
488 floating point number. */
490 lex_next_number (struct lexer *lexer, int n)
492 assert (lex_next_is_number (lexer, n));
493 return lex_next_tokval (lexer, n);
496 /* Returns true if the token N ahead of the current token is an integer. */
498 lex_next_is_integer (struct lexer *lexer, int n)
502 if (!lex_next_is_number (lexer, n))
505 value = lex_next_tokval (lexer, n);
506 return value > LONG_MIN && value <= LONG_MAX && floor (value) == value;
509 /* Returns the value of the token N ahead of the current token, which must be
512 lex_next_integer (struct lexer *lexer, int n)
514 assert (lex_next_is_integer (lexer, n));
515 return lex_next_tokval (lexer, n);
518 /* Token matching functions. */
520 /* If the current token has the specified TYPE, skips it and returns true.
521 Otherwise, returns false. */
523 lex_match (struct lexer *lexer, enum token_type type)
525 if (lex_token (lexer) == type)
534 /* If the current token matches IDENTIFIER, skips it and returns true.
535 IDENTIFIER may be abbreviated to its first three letters. Otherwise,
538 IDENTIFIER must be an ASCII string. */
540 lex_match_id (struct lexer *lexer, const char *identifier)
542 return lex_match_id_n (lexer, identifier, 3);
545 /* If the current token is IDENTIFIER, skips it and returns true. IDENTIFIER
546 may be abbreviated to its first N letters. Otherwise, returns false.
548 IDENTIFIER must be an ASCII string. */
550 lex_match_id_n (struct lexer *lexer, const char *identifier, size_t n)
552 if (lex_token (lexer) == T_ID
553 && lex_id_match_n (ss_cstr (identifier), lex_tokss (lexer), n))
562 /* If the current token is integer X, skips it and returns true. Otherwise,
565 lex_match_int (struct lexer *lexer, int x)
567 if (lex_is_integer (lexer) && lex_integer (lexer) == x)
576 /* Forced matches. */
578 /* If this token is IDENTIFIER, skips it and returns true. IDENTIFIER may be
579 abbreviated to its first 3 letters. Otherwise, reports an error and returns
582 IDENTIFIER must be an ASCII string. */
584 lex_force_match_id (struct lexer *lexer, const char *identifier)
586 if (lex_match_id (lexer, identifier))
590 lex_error_expecting (lexer, identifier, NULL_SENTINEL);
595 /* If the current token has the specified TYPE, skips it and returns true.
596 Otherwise, reports an error and returns false. */
598 lex_force_match (struct lexer *lexer, enum token_type type)
600 if (lex_token (lexer) == type)
607 char *s = xasprintf ("`%s'", token_type_to_string (type));
608 lex_error_expecting (lexer, s, NULL_SENTINEL);
614 /* If the current token is a string, does nothing and returns true.
615 Otherwise, reports an error and returns false. */
617 lex_force_string (struct lexer *lexer)
619 if (lex_is_string (lexer))
623 lex_error (lexer, _("expecting string"));
628 /* If the current token is a string or an identifier, does nothing and returns
629 true. Otherwise, reports an error and returns false.
631 This is meant for use in syntactic situations where we want to encourage the
632 user to supply a quoted string, but for compatibility we also accept
633 identifiers. (One example of such a situation is file names.) Therefore,
634 the error message issued when the current token is wrong only says that a
635 string is expected and doesn't mention that an identifier would also be
638 lex_force_string_or_id (struct lexer *lexer)
640 return lex_is_integer (lexer) || lex_force_string (lexer);
643 /* If the current token is an integer, does nothing and returns true.
644 Otherwise, reports an error and returns false. */
646 lex_force_int (struct lexer *lexer)
648 if (lex_is_integer (lexer))
652 lex_error (lexer, _("expecting integer"));
657 /* If the current token is a number, does nothing and returns true.
658 Otherwise, reports an error and returns false. */
660 lex_force_num (struct lexer *lexer)
662 if (lex_is_number (lexer))
665 lex_error (lexer, _("expecting number"));
669 /* If the current token is an identifier, does nothing and returns true.
670 Otherwise, reports an error and returns false. */
672 lex_force_id (struct lexer *lexer)
674 if (lex_token (lexer) == T_ID)
677 lex_error (lexer, _("expecting identifier"));
681 /* Token accessors. */
683 /* Returns the type of LEXER's current token. */
685 lex_token (const struct lexer *lexer)
687 return lex_next_token (lexer, 0);
690 /* Returns the number in LEXER's current token.
692 Only T_NEG_NUM and T_POS_NUM tokens have meaningful values. For other
693 tokens this function will always return zero. */
695 lex_tokval (const struct lexer *lexer)
697 return lex_next_tokval (lexer, 0);
700 /* Returns the null-terminated string in LEXER's current token, UTF-8 encoded.
702 Only T_ID and T_STRING tokens have meaningful strings. For other tokens
703 this functions this function will always return NULL.
705 The UTF-8 encoding of the returned string is correct for variable names and
706 other identifiers. Use filename_to_utf8() to use it as a filename. Use
707 data_in() to use it in a "union value". */
709 lex_tokcstr (const struct lexer *lexer)
711 return lex_next_tokcstr (lexer, 0);
714 /* Returns the string in LEXER's current token, UTF-8 encoded. The string is
715 null-terminated (but the null terminator is not included in the returned
716 substring's 'length').
718 Only T_ID and T_STRING tokens have meaningful strings. For other tokens
719 this functions this function will always return NULL.
721 The UTF-8 encoding of the returned string is correct for variable names and
722 other identifiers. Use filename_to_utf8() to use it as a filename. Use
723 data_in() to use it in a "union value". */
725 lex_tokss (const struct lexer *lexer)
727 return lex_next_tokss (lexer, 0);
732 A value of 0 for N as an argument to any of these functions refers to the
733 current token. Lookahead is limited to the current command. Any N greater
734 than the number of tokens remaining in the current command will be treated
735 as referring to a T_ENDCMD token. */
737 static const struct lex_token *
738 lex_next__ (const struct lexer *lexer_, int n)
740 struct lexer *lexer = CONST_CAST (struct lexer *, lexer_);
741 struct lex_source *src = lex_source__ (lexer);
744 return lex_source_next__ (src, n);
747 static const struct lex_token stop_token =
748 { TOKEN_INITIALIZER (T_STOP, 0.0, ""), 0, 0, 0, 0 };
754 static const struct lex_token *
755 lex_source_next__ (const struct lex_source *src, int n)
757 while (deque_count (&src->deque) <= n)
759 if (!deque_is_empty (&src->deque))
761 struct lex_token *front;
763 front = &src->tokens[deque_front (&src->deque, 0)];
764 if (front->token.type == T_STOP || front->token.type == T_ENDCMD)
768 lex_source_get__ (src);
771 return &src->tokens[deque_back (&src->deque, n)];
774 /* Returns the "struct token" of the token N after the current one in LEXER.
775 The returned pointer can be invalidated by pretty much any succeeding call
776 into the lexer, although the string pointer within the returned token is
777 only invalidated by consuming the token (e.g. with lex_get()). */
779 lex_next (const struct lexer *lexer, int n)
781 return &lex_next__ (lexer, n)->token;
784 /* Returns the type of the token N after the current one in LEXER. */
786 lex_next_token (const struct lexer *lexer, int n)
788 return lex_next (lexer, n)->type;
791 /* Returns the number in the tokn N after the current one in LEXER.
793 Only T_NEG_NUM and T_POS_NUM tokens have meaningful values. For other
794 tokens this function will always return zero. */
796 lex_next_tokval (const struct lexer *lexer, int n)
798 const struct token *token = lex_next (lexer, n);
799 return token->number;
802 /* Returns the null-terminated string in the token N after the current one, in
805 Only T_ID and T_STRING tokens have meaningful strings. For other tokens
806 this functions this function will always return NULL.
808 The UTF-8 encoding of the returned string is correct for variable names and
809 other identifiers. Use filename_to_utf8() to use it as a filename. Use
810 data_in() to use it in a "union value". */
812 lex_next_tokcstr (const struct lexer *lexer, int n)
814 return lex_next_tokss (lexer, n).string;
817 /* Returns the string in the token N after the current one, in UTF-8 encoding.
818 The string is null-terminated (but the null terminator is not included in
819 the returned substring's 'length').
821 Only T_ID and T_STRING tokens have meaningful strings. For other tokens
822 this functions this function will always return NULL.
824 The UTF-8 encoding of the returned string is correct for variable names and
825 other identifiers. Use filename_to_utf8() to use it as a filename. Use
826 data_in() to use it in a "union value". */
828 lex_next_tokss (const struct lexer *lexer, int n)
830 return lex_next (lexer, n)->string;
834 lex_tokens_match (const struct token *actual, const struct token *expected)
836 if (actual->type != expected->type)
839 switch (actual->type)
843 return actual->number == expected->number;
846 return lex_id_match (expected->string, actual->string);
849 return (actual->string.length == expected->string.length
850 && !memcmp (actual->string.string, expected->string.string,
851 actual->string.length));
858 /* If LEXER is positioned at the sequence of tokens that may be parsed from S,
859 skips it and returns true. Otherwise, returns false.
861 S may consist of an arbitrary sequence of tokens, e.g. "KRUSKAL-WALLIS",
862 "2SLS", or "END INPUT PROGRAM". Identifiers may be abbreviated to their
863 first three letters. */
865 lex_match_phrase (struct lexer *lexer, const char *s)
867 struct string_lexer slex;
872 string_lexer_init (&slex, s, SEG_MODE_INTERACTIVE);
873 while (string_lexer_next (&slex, &token))
874 if (token.type != SCAN_SKIP)
876 bool match = lex_tokens_match (lex_next (lexer, i++), &token);
877 token_destroy (&token);
888 lex_source_get_first_line_number (const struct lex_source *src, int n)
890 return lex_source_next__ (src, n)->first_line;
894 count_newlines (char *s, size_t length)
899 while ((newline = memchr (s, '\n', length)) != NULL)
902 length -= (newline + 1) - s;
910 lex_source_get_last_line_number (const struct lex_source *src, int n)
912 const struct lex_token *token = lex_source_next__ (src, n);
914 if (token->first_line == 0)
918 char *token_str = &src->buffer[token->token_pos - src->tail];
919 return token->first_line + count_newlines (token_str, token->token_len) + 1;
924 count_columns (const char *s_, size_t length)
926 const uint8_t *s = CHAR_CAST (const uint8_t *, s_);
932 for (ofs = 0; ofs < length; ofs += mblen)
936 mblen = u8_mbtouc (&uc, s + ofs, length - ofs);
939 int width = uc_width (uc, "UTF-8");
944 columns = ROUND_UP (columns + 1, 8);
951 lex_source_get_first_column (const struct lex_source *src, int n)
953 const struct lex_token *token = lex_source_next__ (src, n);
954 return count_columns (&src->buffer[token->line_pos - src->tail],
955 token->token_pos - token->line_pos);
959 lex_source_get_last_column (const struct lex_source *src, int n)
961 const struct lex_token *token = lex_source_next__ (src, n);
962 char *start, *end, *newline;
964 start = &src->buffer[token->line_pos - src->tail];
965 end = &src->buffer[(token->token_pos + token->token_len) - src->tail];
966 newline = memrchr (start, '\n', end - start);
969 return count_columns (start, end - start);
972 /* Returns the 1-based line number of the start of the syntax that represents
973 the token N after the current one in LEXER. Returns 0 for a T_STOP token or
974 if the token is drawn from a source that does not have line numbers. */
976 lex_get_first_line_number (const struct lexer *lexer, int n)
978 const struct lex_source *src = lex_source__ (lexer);
979 return src != NULL ? lex_source_get_first_line_number (src, n) : 0;
982 /* Returns the 1-based line number of the end of the syntax that represents the
983 token N after the current one in LEXER, plus 1. Returns 0 for a T_STOP
984 token or if the token is drawn from a source that does not have line
987 Most of the time, a single token is wholly within a single line of syntax,
988 but there are two exceptions: a T_STRING token can be made up of multiple
989 segments on adjacent lines connected with "+" punctuators, and a T_NEG_NUM
990 token can consist of a "-" on one line followed by the number on the next.
993 lex_get_last_line_number (const struct lexer *lexer, int n)
995 const struct lex_source *src = lex_source__ (lexer);
996 return src != NULL ? lex_source_get_last_line_number (src, n) : 0;
999 /* Returns the 1-based column number of the start of the syntax that represents
1000 the token N after the current one in LEXER. Returns 0 for a T_STOP
1003 Column numbers are measured according to the width of characters as shown in
1004 a typical fixed-width font, in which CJK characters have width 2 and
1005 combining characters have width 0. */
1007 lex_get_first_column (const struct lexer *lexer, int n)
1009 const struct lex_source *src = lex_source__ (lexer);
1010 return src != NULL ? lex_source_get_first_column (src, n) : 0;
1013 /* Returns the 1-based column number of the end of the syntax that represents
1014 the token N after the current one in LEXER, plus 1. Returns 0 for a T_STOP
1017 Column numbers are measured according to the width of characters as shown in
1018 a typical fixed-width font, in which CJK characters have width 2 and
1019 combining characters have width 0. */
1021 lex_get_last_column (const struct lexer *lexer, int n)
1023 const struct lex_source *src = lex_source__ (lexer);
1024 return src != NULL ? lex_source_get_last_column (src, n) : 0;
1027 /* Returns the name of the syntax file from which the current command is drawn.
1028 Returns NULL for a T_STOP token or if the command's source does not have
1031 There is no version of this function that takes an N argument because
1032 lookahead only works to the end of a command and any given command is always
1033 within a single syntax file. */
1035 lex_get_file_name (const struct lexer *lexer)
1037 struct lex_source *src = lex_source__ (lexer);
1038 return src == NULL ? NULL : src->reader->file_name;
1042 lex_get_encoding (const struct lexer *lexer)
1044 struct lex_source *src = lex_source__ (lexer);
1045 return src == NULL ? NULL : src->reader->encoding;
1049 /* Returns the syntax mode for the syntax file from which the current drawn is
1050 drawn. Returns LEX_SYNTAX_AUTO for a T_STOP token or if the command's
1051 source does not have line numbers.
1053 There is no version of this function that takes an N argument because
1054 lookahead only works to the end of a command and any given command is always
1055 within a single syntax file. */
1056 enum lex_syntax_mode
1057 lex_get_syntax_mode (const struct lexer *lexer)
1059 struct lex_source *src = lex_source__ (lexer);
1060 return src == NULL ? LEX_SYNTAX_AUTO : src->reader->syntax;
1063 /* Returns the error mode for the syntax file from which the current drawn is
1064 drawn. Returns LEX_ERROR_TERMINAL for a T_STOP token or if the command's
1065 source does not have line numbers.
1067 There is no version of this function that takes an N argument because
1068 lookahead only works to the end of a command and any given command is always
1069 within a single syntax file. */
1071 lex_get_error_mode (const struct lexer *lexer)
1073 struct lex_source *src = lex_source__ (lexer);
1074 return src == NULL ? LEX_ERROR_TERMINAL : src->reader->error;
1077 /* If the source that LEXER is currently reading has error mode
1078 LEX_ERROR_TERMINAL, discards all buffered input and tokens, so that the next
1079 token to be read comes directly from whatever is next read from the stream.
1081 It makes sense to call this function after encountering an error in a
1082 command entered on the console, because usually the user would prefer not to
1083 have cascading errors. */
1085 lex_interactive_reset (struct lexer *lexer)
1087 struct lex_source *src = lex_source__ (lexer);
1088 if (src != NULL && src->reader->error == LEX_ERROR_TERMINAL)
1090 src->head = src->tail = 0;
1091 src->journal_pos = src->seg_pos = src->line_pos = 0;
1092 src->n_newlines = 0;
1093 src->suppress_next_newline = false;
1094 segmenter_init (&src->segmenter, segmenter_get_mode (&src->segmenter));
1095 while (!deque_is_empty (&src->deque))
1096 lex_source_pop__ (src);
1097 lex_source_push_endcmd__ (src);
1101 /* Advances past any tokens in LEXER up to a T_ENDCMD or T_STOP. */
1103 lex_discard_rest_of_command (struct lexer *lexer)
1105 while (lex_token (lexer) != T_STOP && lex_token (lexer) != T_ENDCMD)
1109 /* Discards all lookahead tokens in LEXER, then discards all input sources
1110 until it encounters one with error mode LEX_ERROR_TERMINAL or until it
1111 runs out of input sources. */
1113 lex_discard_noninteractive (struct lexer *lexer)
1115 struct lex_source *src = lex_source__ (lexer);
1119 while (!deque_is_empty (&src->deque))
1120 lex_source_pop__ (src);
1122 for (; src != NULL && src->reader->error != LEX_ERROR_TERMINAL;
1123 src = lex_source__ (lexer))
1124 lex_source_destroy (src);
1129 lex_source_max_tail__ (const struct lex_source *src)
1131 const struct lex_token *token;
1134 assert (src->seg_pos >= src->line_pos);
1135 max_tail = MIN (src->journal_pos, src->line_pos);
1137 /* Use the oldest token also. (We know that src->deque cannot be empty
1138 because we are in the process of adding a new token, which is already
1139 initialized enough to use here.) */
1140 token = &src->tokens[deque_back (&src->deque, 0)];
1141 assert (token->token_pos >= token->line_pos);
1142 max_tail = MIN (max_tail, token->line_pos);
1148 lex_source_expand__ (struct lex_source *src)
1150 if (src->head - src->tail >= src->allocated)
1152 size_t max_tail = lex_source_max_tail__ (src);
1153 if (max_tail > src->tail)
1155 /* Advance the tail, freeing up room at the head. */
1156 memmove (src->buffer, src->buffer + (max_tail - src->tail),
1157 src->head - max_tail);
1158 src->tail = max_tail;
1162 /* Buffer is completely full. Expand it. */
1163 src->buffer = x2realloc (src->buffer, &src->allocated);
1168 /* There's space available at the head of the buffer. Nothing to do. */
1173 lex_source_read__ (struct lex_source *src)
1181 lex_source_expand__ (src);
1183 head_ofs = src->head - src->tail;
1184 space = src->allocated - head_ofs;
1185 n = src->reader->class->read (src->reader, &src->buffer[head_ofs],
1187 segmenter_get_prompt (&src->segmenter));
1188 assert (n <= space);
1194 Ensure that the input always ends in a new-line followed by a null
1195 byte, as required by the segmenter library. */
1197 if (src->head == src->tail
1198 || src->buffer[src->head - src->tail - 1] != '\n')
1199 src->buffer[src->head++ - src->tail] = '\n';
1201 lex_source_expand__ (src);
1202 src->buffer[src->head++ - src->tail] = '\0';
1209 while (!memchr (&src->buffer[src->seg_pos - src->tail], '\n',
1210 src->head - src->seg_pos));
1213 static struct lex_source *
1214 lex_source__ (const struct lexer *lexer)
1216 return (ll_is_empty (&lexer->sources) ? NULL
1217 : ll_data (ll_head (&lexer->sources), struct lex_source, ll));
1220 static struct substring
1221 lex_source_get_syntax__ (const struct lex_source *src, int n0, int n1)
1223 const struct lex_token *token0 = lex_source_next__ (src, n0);
1224 const struct lex_token *token1 = lex_source_next__ (src, MAX (n0, n1));
1225 size_t start = token0->token_pos;
1226 size_t end = token1->token_pos + token1->token_len;
1228 return ss_buffer (&src->buffer[start - src->tail], end - start);
1232 lex_ellipsize__ (struct substring in, char *out, size_t out_size)
1238 assert (out_size >= 16);
1239 out_maxlen = out_size - (in.length >= out_size ? 3 : 0) - 1;
1240 for (out_len = 0; out_len < in.length; out_len += mblen)
1242 if (in.string[out_len] == '\n'
1243 || (in.string[out_len] == '\r'
1244 && out_len + 1 < in.length
1245 && in.string[out_len + 1] == '\n'))
1248 mblen = u8_mblen (CHAR_CAST (const uint8_t *, in.string + out_len),
1249 in.length - out_len);
1250 if (out_len + mblen > out_maxlen)
1254 memcpy (out, in.string, out_len);
1255 strcpy (&out[out_len], out_len < in.length ? "..." : "");
1259 lex_source_error_valist (struct lex_source *src, int n0, int n1,
1260 const char *format, va_list args)
1262 const struct lex_token *token;
1268 token = lex_source_next__ (src, n0);
1269 if (token->token.type == T_ENDCMD)
1270 ds_put_cstr (&s, _("Syntax error at end of command"));
1273 struct substring syntax = lex_source_get_syntax__ (src, n0, n1);
1274 if (!ss_is_empty (syntax))
1276 char syntax_cstr[64];
1278 lex_ellipsize__ (syntax, syntax_cstr, sizeof syntax_cstr);
1279 ds_put_format (&s, _("Syntax error at `%s'"), syntax_cstr);
1282 ds_put_cstr (&s, _("Syntax error"));
1287 ds_put_cstr (&s, ": ");
1288 ds_put_vformat (&s, format, args);
1290 ds_put_byte (&s, '.');
1292 m.category = MSG_C_SYNTAX;
1293 m.severity = MSG_S_ERROR;
1294 m.file_name = src->reader->file_name;
1295 m.first_line = lex_source_get_first_line_number (src, n0);
1296 m.last_line = lex_source_get_last_line_number (src, n1);
1297 m.first_column = lex_source_get_first_column (src, n0);
1298 m.last_column = lex_source_get_last_column (src, n1);
1299 m.text = ds_steal_cstr (&s);
1303 static void PRINTF_FORMAT (2, 3)
1304 lex_get_error (struct lex_source *src, const char *format, ...)
1309 va_start (args, format);
1311 n = deque_count (&src->deque) - 1;
1312 lex_source_error_valist (src, n, n, format, args);
1313 lex_source_pop_front (src);
1319 lex_source_get__ (const struct lex_source *src_)
1321 struct lex_source *src = CONST_CAST (struct lex_source *, src_);
1325 struct segmenter segmenter;
1326 enum segment_type last_segment;
1332 struct state state, saved;
1333 enum scan_result result;
1334 struct scanner scanner;
1335 struct lex_token *token;
1342 state.segmenter = src->segmenter;
1344 state.seg_pos = src->seg_pos;
1345 state.line_pos = src->line_pos;
1348 token = lex_push_token__ (src);
1349 scanner_init (&scanner, &token->token);
1350 token->line_pos = src->line_pos;
1351 token->token_pos = src->seg_pos;
1352 if (src->reader->line_number > 0)
1353 token->first_line = src->reader->line_number + src->n_newlines;
1355 token->first_line = 0;
1359 enum segment_type type;
1360 const char *segment;
1364 segment = &src->buffer[state.seg_pos - src->tail];
1365 seg_maxlen = src->head - state.seg_pos;
1366 seg_len = segmenter_push (&state.segmenter, segment, seg_maxlen, &type);
1369 lex_source_read__ (src);
1373 state.last_segment = type;
1374 state.seg_pos += seg_len;
1375 if (type == SEG_NEWLINE)
1378 state.line_pos = state.seg_pos;
1381 result = scanner_push (&scanner, type, ss_buffer (segment, seg_len),
1383 if (result == SCAN_SAVE)
1385 else if (result == SCAN_BACK)
1390 else if (result == SCAN_DONE)
1394 n_lines = state.newlines;
1395 if (state.last_segment == SEG_END_COMMAND && !src->suppress_next_newline)
1398 src->suppress_next_newline = true;
1400 else if (n_lines > 0 && src->suppress_next_newline)
1403 src->suppress_next_newline = false;
1405 for (i = 0; i < n_lines; i++)
1407 const char *newline;
1412 line = &src->buffer[src->journal_pos - src->tail];
1413 newline = rawmemchr (line, '\n');
1414 line_len = newline - line;
1415 if (line_len > 0 && line[line_len - 1] == '\r')
1418 syntax = malloc (line_len + 2);
1419 memcpy (syntax, line, line_len);
1420 syntax[line_len] = '\n';
1421 syntax[line_len + 1] = '\0';
1423 text_item_submit (text_item_create_nocopy (TEXT_ITEM_SYNTAX, syntax));
1425 src->journal_pos += newline - line + 1;
1428 token->token_len = state.seg_pos - src->seg_pos;
1430 src->segmenter = state.segmenter;
1431 src->seg_pos = state.seg_pos;
1432 src->line_pos = state.line_pos;
1433 src->n_newlines += state.newlines;
1435 switch (token->token.type)
1441 token->token.type = T_ENDCMD;
1445 case SCAN_BAD_HEX_LENGTH:
1446 lex_get_error (src, _("String of hex digits has %d characters, which "
1447 "is not a multiple of 2"),
1448 (int) token->token.number);
1451 case SCAN_BAD_HEX_DIGIT:
1452 case SCAN_BAD_UNICODE_DIGIT:
1453 lex_get_error (src, _("`%c' is not a valid hex digit"),
1454 (int) token->token.number);
1457 case SCAN_BAD_UNICODE_LENGTH:
1458 lex_get_error (src, _("Unicode string contains %d bytes, which is "
1459 "not in the valid range of 1 to 8 bytes"),
1460 (int) token->token.number);
1463 case SCAN_BAD_UNICODE_CODE_POINT:
1464 lex_get_error (src, _("U+%04X is not a valid Unicode code point"),
1465 (int) token->token.number);
1468 case SCAN_EXPECTED_QUOTE:
1469 lex_get_error (src, _("Unterminated string constant"));
1472 case SCAN_EXPECTED_EXPONENT:
1473 lex_get_error (src, _("Missing exponent following `%s'"),
1474 token->token.string.string);
1477 case SCAN_UNEXPECTED_DOT:
1478 lex_get_error (src, _("Unexpected `.' in middle of command"));
1481 case SCAN_UNEXPECTED_CHAR:
1484 lex_get_error (src, _("Bad character %s in input"),
1485 uc_name (token->token.number, c_name));
1490 lex_source_pop_front (src);
1498 lex_source_push_endcmd__ (struct lex_source *src)
1500 struct lex_token *token = lex_push_token__ (src);
1501 token->token.type = T_ENDCMD;
1502 token->token_pos = 0;
1503 token->token_len = 0;
1504 token->line_pos = 0;
1505 token->first_line = 0;
1508 static struct lex_source *
1509 lex_source_create (struct lex_reader *reader)
1511 struct lex_source *src;
1512 enum segmenter_mode mode;
1514 src = xzalloc (sizeof *src);
1515 src->reader = reader;
1517 if (reader->syntax == LEX_SYNTAX_AUTO)
1518 mode = SEG_MODE_AUTO;
1519 else if (reader->syntax == LEX_SYNTAX_INTERACTIVE)
1520 mode = SEG_MODE_INTERACTIVE;
1521 else if (reader->syntax == LEX_SYNTAX_BATCH)
1522 mode = SEG_MODE_BATCH;
1525 segmenter_init (&src->segmenter, mode);
1527 src->tokens = deque_init (&src->deque, 4, sizeof *src->tokens);
1529 lex_source_push_endcmd__ (src);
1535 lex_source_destroy (struct lex_source *src)
1537 char *file_name = src->reader->file_name;
1538 char *encoding = src->reader->encoding;
1539 if (src->reader->class->destroy != NULL)
1540 src->reader->class->destroy (src->reader);
1544 while (!deque_is_empty (&src->deque))
1545 lex_source_pop__ (src);
1547 ll_remove (&src->ll);
1551 struct lex_file_reader
1553 struct lex_reader reader;
1554 struct u8_istream *istream;
1557 static struct lex_reader_class lex_file_reader_class;
1559 /* Creates and returns a new lex_reader that will read from file FILE_NAME (or
1560 from stdin if FILE_NAME is "-"). The file is expected to be encoded with
1561 ENCODING, which should take one of the forms accepted by
1562 u8_istream_for_file(). SYNTAX and ERROR become the syntax mode and error
1563 mode of the new reader, respectively.
1565 Returns a null pointer if FILE_NAME cannot be opened. */
1567 lex_reader_for_file (const char *file_name, const char *encoding,
1568 enum lex_syntax_mode syntax,
1569 enum lex_error_mode error)
1571 struct lex_file_reader *r;
1572 struct u8_istream *istream;
1574 istream = (!strcmp(file_name, "-")
1575 ? u8_istream_for_fd (encoding, STDIN_FILENO)
1576 : u8_istream_for_file (encoding, file_name, O_RDONLY));
1577 if (istream == NULL)
1579 msg (ME, _("Opening `%s': %s."), file_name, strerror (errno));
1583 r = xmalloc (sizeof *r);
1584 lex_reader_init (&r->reader, &lex_file_reader_class);
1585 r->reader.syntax = syntax;
1586 r->reader.error = error;
1587 r->reader.file_name = xstrdup (file_name);
1588 r->reader.encoding = encoding ? xstrdup (encoding) : NULL;
1589 r->reader.line_number = 1;
1590 r->istream = istream;
1595 static struct lex_file_reader *
1596 lex_file_reader_cast (struct lex_reader *r)
1598 return UP_CAST (r, struct lex_file_reader, reader);
1602 lex_file_read (struct lex_reader *r_, char *buf, size_t n,
1603 enum prompt_style prompt_style UNUSED)
1605 struct lex_file_reader *r = lex_file_reader_cast (r_);
1606 ssize_t n_read = u8_istream_read (r->istream, buf, n);
1609 msg (ME, _("Error reading `%s': %s."), r_->file_name, strerror (errno));
1616 lex_file_close (struct lex_reader *r_)
1618 struct lex_file_reader *r = lex_file_reader_cast (r_);
1620 if (u8_istream_fileno (r->istream) != STDIN_FILENO)
1622 if (u8_istream_close (r->istream) != 0)
1623 msg (ME, _("Error closing `%s': %s."), r_->file_name, strerror (errno));
1626 u8_istream_free (r->istream);
1631 static struct lex_reader_class lex_file_reader_class =
1637 struct lex_string_reader
1639 struct lex_reader reader;
1644 static struct lex_reader_class lex_string_reader_class;
1646 /* Creates and returns a new lex_reader for the contents of S, which must be
1647 encoded in the given ENCODING. The new reader takes ownership of S and will free it
1648 with ss_dealloc() when it is closed. */
1650 lex_reader_for_substring_nocopy (struct substring s, const char *encoding)
1652 struct lex_string_reader *r;
1654 r = xmalloc (sizeof *r);
1655 lex_reader_init (&r->reader, &lex_string_reader_class);
1656 r->reader.syntax = LEX_SYNTAX_AUTO;
1657 r->reader.encoding = encoding ? xstrdup (encoding) : NULL;
1664 /* Creates and returns a new lex_reader for a copy of null-terminated string S,
1665 which must be encoded in ENCODING. The caller retains ownership of S. */
1667 lex_reader_for_string (const char *s, const char *encoding)
1669 struct substring ss;
1670 ss_alloc_substring (&ss, ss_cstr (s));
1671 return lex_reader_for_substring_nocopy (ss, encoding);
1674 /* Formats FORMAT as a printf()-like format string and creates and returns a
1675 new lex_reader for the formatted result. */
1677 lex_reader_for_format (const char *format, const char *encoding, ...)
1679 struct lex_reader *r;
1682 va_start (args, encoding);
1683 r = lex_reader_for_substring_nocopy (ss_cstr (xvasprintf (format, args)), encoding);
1689 static struct lex_string_reader *
1690 lex_string_reader_cast (struct lex_reader *r)
1692 return UP_CAST (r, struct lex_string_reader, reader);
1696 lex_string_read (struct lex_reader *r_, char *buf, size_t n,
1697 enum prompt_style prompt_style UNUSED)
1699 struct lex_string_reader *r = lex_string_reader_cast (r_);
1702 chunk = MIN (n, r->s.length - r->offset);
1703 memcpy (buf, r->s.string + r->offset, chunk);
1710 lex_string_close (struct lex_reader *r_)
1712 struct lex_string_reader *r = lex_string_reader_cast (r_);
1718 static struct lex_reader_class lex_string_reader_class =