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flex(1) [minix man page]

FLEX(1) 						      General Commands Manual							   FLEX(1)

flex, lex - fast lexical analyzer generator SYNOPSIS
flex [-bcdfinpstvFILT8 -C[efmF] -Sskeleton] [filename ...] DESCRIPTION
flex is a tool for generating scanners: programs which recognized lexical patterns in text. flex reads the given input files, or its stan- dard input if no file names are given, for a description of a scanner to generate. The description is in the form of pairs of regular expressions and C code, called rules. flex generates as output a C source file, lex.yy.c, which defines a routine yylex(). This file is compiled and linked with the -lfl library to produce an executable. When the executable is run, it analyzes its input for occurrences of the regular expressions. Whenever it finds one, it executes the corresponding C code. For full documentation, see flexdoc(1). This manual entry is intended for use as a quick reference. OPTIONS
flex has the following options: -b Generate backtracking information to lex.backtrack. This is a list of scanner states which require backtracking and the input char- acters on which they do so. By adding rules one can remove backtracking states. If all backtracking states are eliminated and -f or -F is used, the generated scanner will run faster. -c is a do-nothing, deprecated option included for POSIX compliance. NOTE: in previous releases of flex -c specified table-compression options. This functionality is now given by the -C flag. To ease the the impact of this change, when flex encounters -c, it currently issues a warning message and assumes that -C was desired instead. In the future this "promotion" of -c to -C will go away in the name of full POSIX compliance (unless the POSIX meaning is removed first). -d makes the generated scanner run in debug mode. Whenever a pattern is recognized and the global yy_flex_debug is non-zero (which is the default), the scanner will write to stderr a line of the form: --accepting rule at line 53 ("the matched text") The line number refers to the location of the rule in the file defining the scanner (i.e., the file that was fed to flex). Messages are also generated when the scanner backtracks, accepts the default rule, reaches the end of its input buffer (or encounters a NUL; the two look the same as far as the scanner's concerned), or reaches an end-of-file. -f specifies (take your pick) full table or fast scanner. No table compression is done. The result is large but fast. This option is equivalent to -Cf (see below). -i instructs flex to generate a case-insensitive scanner. The case of letters given in the flex input patterns will be ignored, and tokens in the input will be matched regardless of case. The matched text given in yytext will have the preserved case (i.e., it will not be folded). -n is another do-nothing, deprecated option included only for POSIX compliance. -p generates a performance report to stderr. The report consists of comments regarding features of the flex input file which will cause a loss of performance in the resulting scanner. -s causes the default rule (that unmatched scanner input is echoed to stdout) to be suppressed. If the scanner encounters input that does not match any of its rules, it aborts with an error. -t instructs flex to write the scanner it generates to standard output instead of lex.yy.c. -v specifies that flex should write to stderr a summary of statistics regarding the scanner it generates. -F specifies that the fast scanner table representation should be used. This representation is about as fast as the full table repre- sentation (-f), and for some sets of patterns will be considerably smaller (and for others, larger). See flexdoc(1) for details. This option is equivalent to -CF (see below). -I instructs flex to generate an interactive scanner, that is, a scanner which stops immediately rather than looking ahead if it knows that the currently scanned text cannot be part of a longer rule's match. Again, see flexdoc(1) for details. Note, -I cannot be used in conjunction with full or fast tables, i.e., the -f, -F, -Cf, or -CF flags. -L instructs flex not to generate #line directives in lex.yy.c. The default is to generate such directives so error messages in the actions will be correctly located with respect to the original flex input file, and not to the fairly meaningless line numbers of lex.yy.c. -T makes flex run in trace mode. It will generate a lot of messages to stdout concerning the form of the input and the resultant non- deterministic and deterministic finite automata. This option is mostly for use in maintaining flex. -8 instructs flex to generate an 8-bit scanner. On some sites, this is the default. On others, the default is 7-bit characters. To see which is the case, check the verbose (-v) output for "equivalence classes created". If the denominator of the number shown is 128, then by default flex is generating 7-bit characters. If it is 256, then the default is 8-bit characters. -C[efmF] controls the degree of table compression. -Ce directs flex to construct equivalence classes, i.e., sets of characters which have identical lexical properties. Equivalence classes usually give dramatic reductions in the final table/object file sizes (typically a factor of 2-5) and are pretty cheap per- formance-wise (one array look-up per character scanned). -Cf specifies that the full scanner tables should be generated - flex should not compress the tables by taking advantages of similar transition functions for different states. -CF specifies that the alternate fast scanner representation (described in flexdoc(1)) should be used. -Cm directs flex to construct meta-equivalence classes, which are sets of equivalence classes (or characters, if equivalence classes are not being used) that are commonly used together. Meta-equivalence classes are often a big win when using compressed tables, but they have a moderate performance impact (one or two "if" tests and one array look-up per character scanned). A lone -C specifies that the scanner tables should be compressed but neither equivalence classes nor meta-equivalence classes should be used. The options -Cf or -CF and -Cm do not make sense together - there is no opportunity for meta-equivalence classes if the table is not being compressed. Otherwise the options may be freely mixed. The default setting is -Cem, which specifies that flex should generate equivalence classes and meta-equivalence classes. This set- ting provides the highest degree of table compression. You can trade off faster-executing scanners at the cost of larger tables with the following generally being true: slowest & smallest -Cem -Cm -Ce -C -C{f,F}e -C{f,F} fastest & largest -C options are not cumulative; whenever the flag is encountered, the previous -C settings are forgotten. -Sskeleton_file overrides the default skeleton file from which flex constructs its scanners. You'll never need this option unless you are doing flex maintenance or development. SUMMARY OF FLEX REGULAR EXPRESSIONS
The patterns in the input are written using an extended set of regular expressions. These are: x match the character 'x' . any character except newline [xyz] a "character class"; in this case, the pattern matches either an 'x', a 'y', or a 'z' [abj-oZ] a "character class" with a range in it; matches an 'a', a 'b', any letter from 'j' through 'o', or a 'Z' [^A-Z] a "negated character class", i.e., any character but those in the class. In this case, any character EXCEPT an uppercase letter. [^A-Z ] any character EXCEPT an uppercase letter or a newline r* zero or more r's, where r is any regular expression r+ one or more r's r? zero or one r's (that is, "an optional r") r{2,5} anywhere from two to five r's r{2,} two or more r's r{4} exactly 4 r's {name} the expansion of the "name" definition (see above) "[xyz]"foo" the literal string: [xyz]"foo X if X is an 'a', 'b', 'f', 'n', 'r', 't', or 'v', then the ANSI-C interpretation of x. Otherwise, a literal 'X' (used to escape operators such as '*') 123 the character with octal value 123 x2a the character with hexadecimal value 2a (r) match an r; parentheses are used to override precedence (see below) rs the regular expression r followed by the regular expression s; called "concatenation" r|s either an r or an s r/s an r but only if it is followed by an s. The s is not part of the matched text. This type of pattern is called as "trailing context". ^r an r, but only at the beginning of a line r$ an r, but only at the end of a line. Equivalent to "r/ ". <s>r an r, but only in start condition s (see below for discussion of start conditions) <s1,s2,s3>r same, but in any of start conditions s1, s2, or s3 <<EOF>> an end-of-file <s1,s2><<EOF>> an end-of-file when in start condition s1 or s2 The regular expressions listed above are grouped according to precedence, from highest precedence at the top to lowest at the bottom. Those grouped together have equal precedence. Some notes on patterns: - Negated character classes match newlines unless " " (or an equivalent escape sequence) is one of the characters explicitly present in the negated character class (e.g., "[^A-Z ]"). - A rule can have at most one instance of trailing context (the '/' operator or the '$' operator). The start condition, '^', and "<<EOF>>" patterns can only occur at the beginning of a pattern, and, as well as with '/' and '$', cannot be grouped inside paren- theses. The following are all illegal: foo/bar$ foo|(bar$) foo|^bar <sc1>foo<sc2>bar SUMMARY OF SPECIAL ACTIONS
In addition to arbitrary C code, the following can appear in actions: - ECHO copies yytext to the scanner's output. - BEGIN followed by the name of a start condition places the scanner in the corresponding start condition. - REJECT directs the scanner to proceed on to the "second best" rule which matched the input (or a prefix of the input). yytext and yyleng are set up appropriately. Note that REJECT is a particularly expensive feature in terms scanner performance; if it is used in any of the scanner's actions it will slow down all of the scanner's matching. Furthermore, REJECT cannot be used with the -f or -F options. Note also that unlike the other special actions, REJECT is a branch; code immediately following it in the action will not be exe- cuted. - yymore() tells the scanner that the next time it matches a rule, the corresponding token should be appended onto the current value of yytext rather than replacing it. - yyless(n) returns all but the first n characters of the current token back to the input stream, where they will be rescanned when the scanner looks for the next match. yytext and yyleng are adjusted appropriately (e.g., yyleng will now be equal to n ). - unput(c) puts the character c back onto the input stream. It will be the next character scanned. - input() reads the next character from the input stream (this routine is called yyinput() if the scanner is compiled using C++). - yyterminate() can be used in lieu of a return statement in an action. It terminates the scanner and returns a 0 to the scanner's caller, indicating "all done". By default, yyterminate() is also called when an end-of-file is encountered. It is a macro and may be redefined. - YY_NEW_FILE is an action available only in <<EOF>> rules. It means "Okay, I've set up a new input file, continue scanning". - yy_create_buffer( file, size ) takes a FILE pointer and an integer size. It returns a YY_BUFFER_STATE handle to a new input buffer large enough to accomodate size characters and associated with the given file. When in doubt, use YY_BUF_SIZE for the size. - yy_switch_to_buffer( new_buffer ) switches the scanner's processing to scan for tokens from the given buffer, which must be a YY_BUFFER_STATE. - yy_delete_buffer( buffer ) deletes the given buffer. VALUES AVAILABLE TO THE USER
- char *yytext holds the text of the current token. It may not be modified. - int yyleng holds the length of the current token. It may not be modified. - FILE *yyin is the file which by default flex reads from. It may be redefined but doing so only makes sense before scanning begins. Changing it in the middle of scanning will have unexpected results since flex buffers its input. Once scanning terminates because an end-of-file has been seen, void yyrestart( FILE *new_file ) may be called to point yyin at the new input file. - FILE *yyout is the file to which ECHO actions are done. It can be reassigned by the user. - YY_CURRENT_BUFFER returns a YY_BUFFER_STATE handle to the current buffer. MACROS THE USER CAN REDEFINE
- YY_DECL controls how the scanning routine is declared. By default, it is "int yylex()", or, if prototypes are being used, "int yylex(void)". This definition may be changed by redefining the "YY_DECL" macro. Note that if you give arguments to the scanning routine using a K&R-style/non-prototyped function declaration, you must terminate the definition with a semi-colon (;). - The nature of how the scanner gets its input can be controlled by redefining the YY_INPUT macro. YY_INPUT's calling sequence is "YY_INPUT(buf,result,max_size)". Its action is to place up to max_size characters in the character array buf and return in the integer variable result either the number of characters read or the constant YY_NULL (0 on Unix systems) to indicate EOF. The default YY_INPUT reads from the global file-pointer "yyin". A sample redefinition of YY_INPUT (in the definitions section of the input file): %{ #undef YY_INPUT #define YY_INPUT(buf,result,max_size) { int c = getchar(); result = (c == EOF) ? YY_NULL : (buf[0] = c, 1); } %} - When the scanner receives an end-of-file indication from YY_INPUT, it then checks the yywrap() function. If yywrap() returns false (zero), then it is assumed that the function has gone ahead and set up yyin to point to another input file, and scanning continues. If it returns true (non-zero), then the scanner terminates, returning 0 to its caller. The default yywrap() always returns 1. Presently, to redefine it you must first "#undef yywrap", as it is currently implemented as a macro. It is likely that yywrap() will soon be defined to be a function rather than a macro. - YY_USER_ACTION can be redefined to provide an action which is always executed prior to the matched rule's action. - The macro YY_USER_INIT may be redefined to provide an action which is always executed before the first scan. - In the generated scanner, the actions are all gathered in one large switch statement and separated using YY_BREAK, which may be redefined. By default, it is simply a "break", to separate each rule's action from the following rule's. FILES
flex.skel skeleton scanner. lex.yy.c generated scanner (called lexyy.c on some systems). lex.backtrack backtracking information for -b flag (called lex.bck on some systems). -lfl library with which to link the scanners. SEE ALSO
flexdoc(1), lex(1), yacc(1), sed(1), awk(1). M. E. Lesk and E. Schmidt, LEX - Lexical Analyzer Generator DIAGNOSTICS
reject_used_but_not_detected undefined or yymore_used_but_not_detected undefined - These errors can occur at compile time. They indicate that the scanner uses REJECT or yymore() but that flex failed to notice the fact, meaning that flex scanned the first two sections looking for occurrences of these actions and failed to find any, but somehow you snuck some in (via a #include file, for example). Make an explicit reference to the action in your flex input file. (Note that previously flex supported a %used/%unused mechanism for dealing with this problem; this feature is still sup- ported but now deprecated, and will go away soon unless the author hears from people who can argue compellingly that they need it.) flex scanner jammed - a scanner compiled with -s has encountered an input string which wasn't matched by any of its rules. flex input buffer overflowed - a scanner rule matched a string long enough to overflow the scanner's internal input buffer (16K bytes - controlled by YY_BUF_MAX in "flex.skel"). scanner requires -8 flag - Your scanner specification includes recognizing 8-bit characters and you did not specify the -8 flag (and your site has not installed flex with -8 as the default). fatal flex scanner internal error--end of buffer missed - This can occur in an scanner which is reentered after a long-jump has jumped out (or over) the scanner's activation frame. Before reentering the scanner, use: yyrestart( yyin ); too many %t classes! - You managed to put every single character into its own %t class. flex requires that at least one of the classes share characters. AUTHOR
Vern Paxson, with the help of many ideas and much inspiration from Van Jacobson. Original version by Jef Poskanzer. See flexdoc(1) for additional credits and the address to send comments to. DEFICIENCIES
/ BUGS Some trailing context patterns cannot be properly matched and generate warning messages ("Dangerous trailing context"). These are patterns where the ending of the first part of the rule matches the beginning of the second part, such as "zx*/xy*", where the 'x*' matches the 'x' at the beginning of the trailing context. (Note that the POSIX draft states that the text matched by such patterns is undefined.) For some trailing context rules, parts which are actually fixed-length are not recognized as such, leading to the abovementioned perfor- mance loss. In particular, parts using '|' or {n} (such as "foo{3}") are always considered variable-length. Combining trailing context with the special '|' action can result in fixed trailing context being turned into the more expensive variable trailing context. For example, this happens in the following example: %% abc | xyz/def Use of unput() invalidates yytext and yyleng. Use of unput() to push back more text than was matched can result in the pushed-back text matching a beginning-of-line ('^') rule even though it didn't come at the beginning of the line (though this is rare!). Pattern-matching of NUL's is substantially slower than matching other characters. flex does not generate correct #line directives for code internal to the scanner; thus, bugs in flex.skel yield bogus line numbers. Due to both buffering of input and read-ahead, you cannot intermix calls to <stdio.h> routines, such as, for example, getchar(), with flex rules and expect it to work. Call input() instead. The total table entries listed by the -v flag excludes the number of table entries needed to determine what rule has been matched. The number of entries is equal to the number of DFA states if the scanner does not use REJECT, and somewhat greater than the number of states if it does. REJECT cannot be used with the -f or -F options. Some of the macros, such as yywrap(), may in the future become functions which live in the -lfl library. This will doubtless break a lot of code, but may be required for POSIX-compliance. The flex internal algorithms need documentation. Version 2.3 26 May 1990 FLEX(1)
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