1GAWK(1)                        Utility Commands                        GAWK(1)
2
3
4

NAME

6       gawk - pattern scanning and processing language
7

SYNOPSIS

9       gawk [ POSIX or GNU style options ] -f program-file [ -- ] file ...
10       gawk [ POSIX or GNU style options ] [ -- ] program-text file ...
11
12       pgawk [ POSIX or GNU style options ] -f program-file [ -- ] file ...
13       pgawk [ POSIX or GNU style options ] [ -- ] program-text file ...
14

DESCRIPTION

16       Gawk  is  the  GNU Project's implementation of the AWK programming lan‐
17       guage.  It conforms to the definition of  the  language  in  the  POSIX
18       1003.2  Command  Language And Utilities Standard.  This version in turn
19       is based on the description in The AWK Programming  Language,  by  Aho,
20       Kernighan,  and  Weinberger,  with the additional features found in the
21       System V Release 4 version of UNIX awk.  Gawk also provides more recent
22       Bell  Laboratories  awk extensions, and a number of GNU-specific exten‐
23       sions.
24
25       Pgawk is the profiling version of gawk.  It is identical in  every  way
26       to  gawk,  except  that  programs run more slowly, and it automatically
27       produces an execution profile in the file awkprof.out when  done.   See
28       the --profile option, below.
29
30       The  command  line  consists of options to gawk itself, the AWK program
31       text (if not supplied via the -f or --file options), and values  to  be
32       made available in the ARGC and ARGV pre-defined AWK variables.
33

OPTION FORMAT

35       Gawk options may be either traditional POSIX one letter options, or GNU
36       style long options.  POSIX options start with a single “-”, while  long
37       options  start  with “--”.  Long options are provided for both GNU-spe‐
38       cific features and for POSIX-mandated features.
39
40       Following the POSIX standard, gawk-specific options  are  supplied  via
41       arguments  to  the -W option.  Multiple -W options may be supplied Each
42       -W option has a corresponding long option, as  detailed  below.   Argu‐
43       ments  to  long options are either joined with the option by an = sign,
44       with no intervening spaces, or they may be provided in the next command
45       line  argument.  Long options may be abbreviated, as long as the abbre‐
46       viation remains unique.
47

OPTIONS

49       Gawk accepts the following options, listed alphabetically.
50
51       -F fs
52       --field-separator fs
53              Use fs for the input field separator (the value of the FS prede‐
54              fined variable).
55
56       -v var=val
57       --assign var=val
58              Assign  the  value  val to the variable var, before execution of
59              the program begins.  Such variable values are available  to  the
60              BEGIN block of an AWK program.
61
62       -f program-file
63       --file program-file
64              Read  the AWK program source from the file program-file, instead
65              of from the  first  command  line  argument.   Multiple  -f  (or
66              --file) options may be used.
67
68       -mf NNN
69       -mr NNN
70              Set various memory limits to the value NNN.  The f flag sets the
71              maximum number of fields, and the r flag sets the maximum record
72              size.  These two flags and the -m option are from the Bell Labo‐
73              ratories research version of UNIX  awk.   They  are  ignored  by
74              gawk, since gawk has no pre-defined limits.
75
76       -W compat
77       -W traditional
78       --compat
79       --traditional
80              Run  in compatibility mode.  In compatibility mode, gawk behaves
81              identically to UNIX awk; none of the GNU-specific extensions are
82              recognized.   The  use  of  --traditional  is preferred over the
83              other forms of this option.  See GNU EXTENSIONS, below, for more
84              information.
85
86       -W copyleft
87       -W copyright
88       --copyleft
89       --copyright
90              Print the short version of the GNU copyright information message
91              on the standard output and exit successfully.
92
93       -W dump-variables[=file]
94       --dump-variables[=file]
95              Print a sorted list of global variables, their types  and  final
96              values  to file.  If no file is provided, gawk uses a file named
97              awkvars.out in the current directory.
98              Having a list of all the global variables is a good way to  look
99              for  typographical  errors in your programs.  You would also use
100              this option if you have a large program with a lot of functions,
101              and  you want to be sure that your functions don't inadvertently
102              use global variables that you meant to be  local.   (This  is  a
103              particularly  easy  mistake  to  make with simple variable names
104              like i, j, and so on.)
105
106       -W exec file
107       --exec file
108              Similar to -f, however, this is option  is  the  last  one  pro‐
109              cessed.   This should be used with #!  scripts, particularly for
110              CGI applications, to avoid passing in options or source code (!)
111              on  the  command line from a URL.  This option disables command-
112              line variable assignments.
113
114       -W gen-po
115       --gen-po
116              Scan and parse the AWK program, and generate a  GNU  .po  format
117              file on standard output with entries for all localizable strings
118              in the program.  The program itself is not  executed.   See  the
119              GNU gettext distribution for more information on .po files.
120
121       -W help
122       -W usage
123       --help
124       --usage
125              Print a relatively short summary of the available options on the
126              standard output.  (Per the GNU Coding Standards,  these  options
127              cause an immediate, successful exit.)
128
129       -W lint[=value]
130       --lint[=value]
131              Provide warnings about constructs that are dubious or non-porta‐
132              ble to other AWK implementations.  With an optional argument  of
133              fatal,  lint warnings become fatal errors.  This may be drastic,
134              but its use will certainly encourage the development of  cleaner
135              AWK  programs.  With an optional argument of invalid, only warn‐
136              ings about things that are actually invalid are issued. (This is
137              not fully implemented yet.)
138
139       -W lint-old
140       --lint-old
141              Provide  warnings  about constructs that are not portable to the
142              original version of Unix awk.
143
144       -W non-decimal-data
145       --non-decimal-data
146              Recognize octal and hexadecimal values in input data.  Use  this
147              option with great caution!
148
149       -W posix
150       --posix
151              This  turns on compatibility mode, with the following additional
152              restrictions:
153
154              · \x escape sequences are not recognized.
155
156              · Only space and tab act as field separators when FS is set to a
157                single space, newline does not.
158
159              · You cannot continue lines after ?  and :.
160
161              · The synonym func for the keyword function is not recognized.
162
163              · The operators ** and **= cannot be used in place of ^ and ^=.
164
165              · The fflush() function is not available.
166
167       -W profile[=prof_file]
168       --profile[=prof_file]
169              Send  profiling  data to prof_file.  The default is awkprof.out.
170              When run with gawk, the profile is just a “pretty printed”  ver‐
171              sion  of the program.  When run with pgawk, the profile contains
172              execution counts of each statement in the program  in  the  left
173              margin and function call counts for each user-defined function.
174
175       -W re-interval
176       --re-interval
177              Enable  the  use  of  interval expressions in regular expression
178              matching (see Regular Expressions, below).  Interval expressions
179              were not traditionally available in the AWK language.  The POSIX
180              standard added them, to make awk and egrep consistent with  each
181              other.   However, their use is likely to break old AWK programs,
182              so gawk only provides them  if  they  are  requested  with  this
183              option, or when --posix is specified.
184
185       -W source program-text
186       --source program-text
187              Use program-text as AWK program source code.  This option allows
188              the easy intermixing of library functions (used via the  -f  and
189              --file  options)  with  source code entered on the command line.
190              It is intended primarily for medium to large AWK  programs  used
191              in shell scripts.
192
193       -W version
194       --version
195              Print  version  information  for this particular copy of gawk on
196              the standard output.  This is useful mainly for knowing  if  the
197              current  copy  of gawk on your system is up to date with respect
198              to whatever the Free Software Foundation is distributing.   This
199              is  also  useful when reporting bugs.  (Per the GNU Coding Stan‐
200              dards, these options cause an immediate, successful exit.)
201
202       --     Signal the end of options. This is useful to allow further argu‐
203              ments  to  the  AWK program itself to start with a “-”.  This is
204              mainly for consistency with the argument parsing convention used
205              by most other POSIX programs.
206       In  compatibility  mode,  any other options are flagged as invalid, but
207       are otherwise ignored.  In normal operation, as long  as  program  text
208       has  been supplied, unknown options are passed on to the AWK program in
209       the ARGV array for processing.  This is particularly useful for running
210       AWK programs via the “#!” executable interpreter mechanism.

AWK PROGRAM EXECUTION

212       An  AWK program consists of a sequence of pattern-action statements and
213       optional function definitions.
214              pattern   { action statements }
215              function name(parameter list) { statements }
216       Gawk first reads the program source from the program-file(s) if  speci‐
217       fied, from arguments to --source, or from the first non-option argument
218       on the command line.  The -f and --source options may be used  multiple
219       times  on  the command line.  Gawk reads the program text as if all the
220       program-files and command  line  source  texts  had  been  concatenated
221       together.   This  is  useful  for  building libraries of AWK functions,
222       without having to include them in each new AWK program that uses  them.
223       It also provides the ability to mix library functions with command line
224       programs.
225       The environment variable AWKPATH specifies a search path  to  use  when
226       finding  source  files named with the -f option.  If this variable does
227       not exist, the default path is ".:/usr/local/share/awk".   (The  actual
228       directory  may  vary, depending upon how gawk was built and installed.)
229       If a file name given to the -f option contains a “/” character, no path
230       search is performed.
231       Gawk executes AWK programs in the following order.  First, all variable
232       assignments specified via the -v option are performed.  Next, gawk com‐
233       piles  the program into an internal form.  Then, gawk executes the code
234       in the BEGIN block(s) (if any), and then proceeds  to  read  each  file
235       named  in  the  ARGV array.  If there are no files named on the command
236       line, gawk reads the standard input.
237       If a filename on the command line has the form var=val it is treated as
238       a  variable  assignment.   The  variable var will be assigned the value
239       val.  (This happens after any BEGIN block(s) have been  run.)   Command
240       line  variable assignment is most useful for dynamically assigning val‐
241       ues to the variables AWK uses to  control  how  input  is  broken  into
242       fields  and records.  It is also useful for controlling state if multi‐
243       ple passes are needed over a single data file.
244       If the value of a particular element of ARGV is empty (""), gawk  skips
245       over it.
246       For  each record in the input, gawk tests to see if it matches any pat‐
247       tern in the AWK program.  For each pattern that the record matches, the
248       associated  action  is  executed.  The patterns are tested in the order
249       they occur in the program.
250       Finally, after all the input is exhausted, gawk executes  the  code  in
251       the END block(s) (if any).

VARIABLES, RECORDS AND FIELDS

253       AWK variables are dynamic; they come into existence when they are first
254       used.  Their values are either floating-point numbers  or  strings,  or
255       both,  depending  upon how they are used.  AWK also has one dimensional
256       arrays; arrays with multiple dimensions may be simulated.  Several pre-
257       defined variables are set as a program runs; these will be described as
258       needed and summarized below.
259   Records
260       Normally, records are separated by newline characters.  You can control
261       how  records are separated by assigning values to the built-in variable
262       RS.  If RS is any single character, that character  separates  records.
263       Otherwise,  RS is a regular expression.  Text in the input that matches
264       this regular expression separates the record.  However, in  compatibil‐
265       ity mode, only the first character of its string value is used for sep‐
266       arating records.  If RS is set to the null  string,  then  records  are
267       separated  by blank lines.  When RS is set to the null string, the new‐
268       line character always acts as a field separator, in addition  to  what‐
269       ever value FS may have.
270   Fields
271       As each input record is read, gawk splits the record into fields, using
272       the value of the FS variable as the field separator.  If FS is a single
273       character,  fields  are separated by that character.  If FS is the null
274       string, then each individual character becomes a separate field.   Oth‐
275       erwise, FS is expected to be a full regular expression.  In the special
276       case that FS is a single space, fields are separated by runs of  spaces
277       and/or  tabs  and/or  newlines.   (But  see  the discussion of --posix,
278       below).  NOTE: The value of IGNORECASE (see  below)  also  affects  how
279       fields  are  split when FS is a regular expression, and how records are
280       separated when RS is a regular expression.
281       If the FIELDWIDTHS variable is set to a space separated  list  of  num‐
282       bers,  each  field  is expected to have fixed width, and gawk splits up
283       the record using the specified widths.  The value  of  FS  is  ignored.
284       Assigning  a  new  value  to  FS  overrides the use of FIELDWIDTHS, and
285       restores the default behavior.
286       Each field in the input record may be referenced by its  position,  $1,
287       $2,  and so on.  $0 is the whole record.  Fields need not be referenced
288       by constants:
289              n = 5
290              print $n
291       prints the fifth field in the input record.
292       The variable NF is set to the total  number  of  fields  in  the  input
293       record.
294       References  to  non-existent fields (i.e. fields after $NF) produce the
295       null-string.  However, assigning to a non-existent field (e.g., $(NF+2)
296       = 5) increases the value of NF, creates any intervening fields with the
297       null string as their value, and causes the value of  $0  to  be  recom‐
298       puted, with the fields being separated by the value of OFS.  References
299       to negative numbered fields  cause  a  fatal  error.   Decrementing  NF
300       causes  the  values  of  fields  past the new value to be lost, and the
301       value of $0 to be recomputed, with the fields being  separated  by  the
302       value of OFS.
303       Assigning  a  value  to an existing field causes the whole record to be
304       rebuilt when $0 is referenced.  Similarly,  assigning  a  value  to  $0
305       causes the record to be resplit, creating new values for the fields.
306   Built-in Variables
307       Gawk's built-in variables are:
308       ARGC        The  number  of  command  line  arguments (does not include
309                   options to gawk, or the program source).
310       ARGIND      The index in ARGV of the current file being processed.
311       ARGV        Array of command line arguments.  The array is indexed from
312                   0  to  ARGC - 1.  Dynamically changing the contents of ARGV
313                   can control the files used for data.
314       BINMODE     On non-POSIX systems, specifies use of  “binary”  mode  for
315                   all  file  I/O.  Numeric values of 1, 2, or 3, specify that
316                   input files, output  files,  or  all  files,  respectively,
317                   should  use binary I/O.  String values of "r", or "w" spec‐
318                   ify that input files, or output files, respectively, should
319                   use binary I/O.  String values of "rw" or "wr" specify that
320                   all files should use binary I/O.  Any other string value is
321                   treated as "rw", but generates a warning message.
322       CONVFMT     The conversion format for numbers, "%.6g", by default.
323       ENVIRON     An  array containing the values of the current environment.
324                   The array is indexed by  the  environment  variables,  each
325                   element  being  the  value  of  that  variable (e.g., ENVI‐
326                   RON["HOME"] might be /home/arnold).   Changing  this  array
327                   does not affect the environment seen by programs which gawk
328                   spawns via redirection or the system() function.
329       ERRNO       If a system error occurs either  doing  a  redirection  for
330                   getline,  during  a  read for getline, or during a close(),
331                   then ERRNO will contain a string describing the error.  The
332                   value is subject to translation in non-English locales.
333       FIELDWIDTHS A  white-space  separated  list  of fieldwidths.  When set,
334                   gawk parses the input into fields of fixed  width,  instead
335                   of  using the value of the FS variable as the field separa‐
336                   tor.
337       FILENAME    The name of the current input file.  If no files are speci‐
338                   fied  on  the  command  line, the value of FILENAME is “-”.
339                   However, FILENAME  is  undefined  inside  the  BEGIN  block
340                   (unless set by getline).
341       FNR         The input record number in the current input file.
342       FS          The input field separator, a space by default.  See Fields,
343                   above.
344       IGNORECASE  Controls the case-sensitivity of all regular expression and
345                   string  operations.   If  IGNORECASE  has a non-zero value,
346                   then string comparisons  and  pattern  matching  in  rules,
347                   field splitting with FS, record separating with RS, regular
348                   expression matching  with  ~  and  !~,  and  the  gensub(),
349                   gsub(), index(), match(), split(), and sub() built-in func‐
350                   tions all ignore case when doing regular expression  opera‐
351                   tions.  NOTE: Array subscripting is not affected.  However,
352                   the asort() and asorti() functions are affected.
353                   Thus, if IGNORECASE is not equal to zero, /aB/ matches  all
354                   of the strings "ab", "aB", "Ab", and "AB".  As with all AWK
355                   variables, the initial value of IGNORECASE is zero, so  all
356                   regular expression and string operations are normally case-
357                   sensitive.  Under Unix, the full ISO 8859-1 Latin-1 charac‐
358                   ter  set is used when ignoring case.  As of gawk 3.1.4, the
359                   case equivalencies are fully locale-aware, based on  the  C
360                   <ctype.h> facilities such as isalpha(), and tolupper().
361       LINT        Provides  dynamic  control of the --lint option from within
362                   an AWK program.  When true, gawk prints lint warnings. When
363                   false,  it  does  not.   When  assigned  the  string  value
364                   "fatal", lint warnings become fatal  errors,  exactly  like
365                   --lint=fatal.  Any other true value just prints warnings.
366       NF          The number of fields in the current input record.
367       NR          The total number of input records seen so far.
368       OFMT        The output format for numbers, "%.6g", by default.
369       OFS         The output field separator, a space by default.
370       ORS         The output record separator, by default a newline.
371       PROCINFO    The  elements  of  this array provide access to information
372                   about the running AWK program.  On some systems, there  may
373                   be  elements  in  the  array, "group1" through "groupn" for
374                   some n, which is the number of  supplementary  groups  that
375                   the  process  has.   Use  the in operator to test for these
376                   elements.  The following  elements  are  guaranteed  to  be
377                   available:
378                   PROCINFO["egid"]   the value of the getegid(2) system call.
379                   PROCINFO["euid"]   the value of the geteuid(2) system call.
380                   PROCINFO["FS"]     "FS"  if  field  splitting with FS is in
381                                      effect, or "FIELDWIDTHS" if field split‐
382                                      ting with FIELDWIDTHS is in effect.
383                   PROCINFO["gid"]    the value of the getgid(2) system call.
384                   PROCINFO["pgrpid"] the  process  group  ID  of  the current
385                                      process.
386                   PROCINFO["pid"]    the process ID of the current process.
387                   PROCINFO["ppid"]   the parent process  ID  of  the  current
388                                      process.
389                   PROCINFO["uid"]    the value of the getuid(2) system call.
390                   PROCINFO["version"]
391                                      The  version of gawk.  This is available
392                                      from version 3.1.4 and later.
393       RS          The input record separator, by default a newline.
394       RT          The record terminator.  Gawk sets RT to the input text that
395                   matched  the  character  or regular expression specified by
396                   RS.
397       RSTART      The index of the first character matched by match();  0  if
398                   no  match.   (This  implies that character indices start at
399                   one.)
400       RLENGTH     The length of the string  matched  by  match();  -1  if  no
401                   match.
402       SUBSEP      The character used to separate multiple subscripts in array
403                   elements, by default "\034".
404       TEXTDOMAIN  The text domain of the AWK program; used to find the local‐
405                   ized translations for the program's strings.
406   Arrays
407       Arrays  are  subscripted  with an expression between square brackets ([
408       and ]).  If the expression is an expression list (expr, expr ...)  then
409       the  array subscript is a string consisting of the concatenation of the
410       (string) value of each expression, separated by the value of the SUBSEP
411       variable.   This  facility  is  used  to  simulate multiply dimensioned
412       arrays.  For example:
413              i = "A"; j = "B"; k = "C"
414              x[i, j, k] = "hello, world\n"
415       assigns the string "hello, world\n" to the element of the array x which
416       is indexed by the string "A\034B\034C".  All arrays in AWK are associa‐
417       tive, i.e. indexed by string values.
418       The special operator in may be used in an if or while statement to  see
419       if an array has an index consisting of a particular value.
420              if (val in array)
421                   print array[val]
422       If the array has multiple subscripts, use (i, j) in array.
423       The in construct may also be used in a for loop to iterate over all the
424       elements of an array.
425       An element may be deleted from an array  using  the  delete  statement.
426       The  delete statement may also be used to delete the entire contents of
427       an array, just by specifying the array name without a subscript.
428   Variable Typing And Conversion
429       Variables and fields may be (floating point) numbers,  or  strings,  or
430       both.  How the value of a variable is interpreted depends upon its con‐
431       text.  If used in a numeric expression, it will be treated as a number,
432       if used as a string it will be treated as a string.
433       To force a variable to be treated as a number, add 0 to it; to force it
434       to be treated as a string, concatenate it with the null string.
435       When a string must be converted to a number, the conversion  is  accom‐
436       plished  using  strtod(3).   A number is converted to a string by using
437       the value of CONVFMT as  a  format  string  for  sprintf(3),  with  the
438       numeric  value  of  the variable as the argument.  However, even though
439       all numbers in AWK are floating-point, integral values are always  con‐
440       verted as integers.  Thus, given
441              CONVFMT = "%2.2f"
442              a = 12
443              b = a ""
444       the variable b has a string value of "12" and not "12.00".
445       Gawk  performs  comparisons  as  follows: If two variables are numeric,
446       they are compared numerically.  If one value is numeric and  the  other
447       has  a  string  value  that is a “numeric string,” then comparisons are
448       also done numerically.  Otherwise, the numeric value is converted to  a
449       string and a string comparison is performed.  Two strings are compared,
450       of course, as strings.  Note that the POSIX standard applies  the  con‐
451       cept  of  “numeric  string” everywhere, even to string constants.  How‐
452       ever, this is clearly incorrect, and gawk does not  do  this.   (Fortu‐
453       nately, this is fixed in the next version of the standard.)
454       Note that string constants, such as "57", are not numeric strings, they
455       are string constants.  The idea of “numeric  string”  only  applies  to
456       fields,  getline  input,  FILENAME, ARGV elements, ENVIRON elements and
457       the elements of an array created by split() that are  numeric  strings.
458       The  basic  idea  is  that  user input, and only user input, that looks
459       numeric, should be treated that way.
460       Uninitialized variables have the numeric value 0 and the  string  value
461       "" (the null, or empty, string).
462   Octal and Hexadecimal Constants
463       Starting with version 3.1 of gawk , you may use C-style octal and hexa‐
464       decimal constants in your AWK program source code.   For  example,  the
465       octal  value  011 is equal to decimal 9, and the hexadecimal value 0x11
466       is equal to decimal 17.
467   String Constants
468       String constants in AWK are sequences of  characters  enclosed  between
469       double quotes (").  Within strings, certain escape sequences are recog‐
470       nized, as in C.  These are:
471       \\   A literal backslash.
472       \a   The “alert” character; usually the ASCII BEL character.
473       \b   backspace.
474       \f   form-feed.
475       \n   newline.
476       \r   carriage return.
477       \t   horizontal tab.
478       \v   vertical tab.
479       \xhex digits
480            The character represented by the string of hexadecimal digits fol‐
481            lowing the \x.  As in ANSI C, all following hexadecimal digits are
482            considered part of the escape sequence.  (This feature should tell
483            us something about language design by committee.)  E.g., "\x1B" is
484            the ASCII ESC (escape) character.
485       \ddd The character represented by the 1-, 2-, or  3-digit  sequence  of
486            octal digits.  E.g., "\033" is the ASCII ESC (escape) character.
487       \c   The literal character c.
488       The  escape  sequences may also be used inside constant regular expres‐
489       sions (e.g., /[ \t\f\n\r\v]/ matches whitespace characters).
490       In compatibility mode, the characters represented by octal and hexadec‐
491       imal  escape  sequences  are  treated  literally  when  used in regular
492       expression constants.  Thus, /a\52b/ is equivalent to /a\*b/.

PATTERNS AND ACTIONS

494       AWK is a line-oriented language.  The pattern comes first, and then the
495       action.  Action statements are enclosed in { and }.  Either the pattern
496       may be missing, or the action may be missing, but, of course, not both.
497       If  the  pattern  is  missing,  the action is executed for every single
498       record of input.  A missing action is equivalent to
499              { print }
500       which prints the entire record.
501       Comments begin with the “#” character, and continue until  the  end  of
502       the line.  Blank lines may be used to separate statements.  Normally, a
503       statement ends with a newline, however, this is not the case for  lines
504       ending  in  a “,”, {, ?, :, &&, or ||.  Lines ending in do or else also
505       have their statements automatically continued on  the  following  line.
506       In  other  cases,  a  line can be continued by ending it with a “\”, in
507       which case the newline will be ignored.
508       Multiple statements may be put on one line by separating  them  with  a
509       “;”.   This  applies to both the statements within the action part of a
510       pattern-action pair (the usual case), and to the pattern-action  state‐
511       ments themselves.
512   Patterns
513       AWK patterns may be one of the following:
514              BEGIN
515              END
516              /regular expression/
517              relational expression
518              pattern && pattern
519              pattern || pattern
520              pattern ? pattern : pattern
521              (pattern)
522              ! pattern
523              pattern1, pattern2
524       BEGIN  and  END  are two special kinds of patterns which are not tested
525       against the input.  The action parts of all BEGIN patterns  are  merged
526       as  if  all  the  statements  had been written in a single BEGIN block.
527       They are executed before any of the input is read.  Similarly, all  the
528       END blocks are merged, and executed when all the input is exhausted (or
529       when an exit statement is executed).  BEGIN and END patterns cannot  be
530       combined  with  other  patterns  in pattern expressions.  BEGIN and END
531       patterns cannot have missing action parts.
532       For /regular expression/ patterns, the associated statement is executed
533       for  each  input  record  that matches the regular expression.  Regular
534       expressions are the same as  those  in  egrep(1),  and  are  summarized
535       below.
536       A  relational  expression may use any of the operators defined below in
537       the section on actions.  These generally test  whether  certain  fields
538       match certain regular expressions.
539       The  &&,  ||, and !  operators are logical AND, logical OR, and logical
540       NOT, respectively, as in C.  They do short-circuit evaluation, also  as
541       in  C,  and  are used for combining more primitive pattern expressions.
542       As in most languages, parentheses may be used to change  the  order  of
543       evaluation.
544       The  ?:  operator is like the same operator in C.  If the first pattern
545       is true then the pattern used for testing is the second pattern, other‐
546       wise  it  is  the  third.  Only one of the second and third patterns is
547       evaluated.
548       The pattern1, pattern2 form of an expression is called a range pattern.
549       It  matches  all input records starting with a record that matches pat‐
550       tern1, and continuing until a record that matches pattern2,  inclusive.
551       It does not combine with any other sort of pattern expression.
552   Regular Expressions
553       Regular  expressions  are  the  extended kind found in egrep.  They are
554       composed of characters as follows:
555       c          matches the non-metacharacter c.
556       \c         matches the literal character c.
557       .          matches any character including newline.
558       ^          matches the beginning of a string.
559       $          matches the end of a string.
560       [abc...]   character list, matches any of the characters abc....
561       [^abc...]  negated character list, matches any character except abc....
562       r1|r2      alternation: matches either r1 or r2.
563       r1r2       concatenation: matches r1, and then r2.
564       r+         matches one or more r's.
565       r*         matches zero or more r's.
566       r?         matches zero or one r's.
567       (r)        grouping: matches r.
568       r{n}
569       r{n,}
570       r{n,m}     One or two numbers inside braces denote an interval  expres‐
571                  sion.   If  there is one number in the braces, the preceding
572                  regular expression r is repeated n times.  If there are  two
573                  numbers  separated  by  a comma, r is repeated n to m times.
574                  If there is one number  followed  by  a  comma,  then  r  is
575                  repeated at least n times.
576                  Interval expressions are only available if either --posix or
577                  --re-interval is specified on the command line.
578
579       \y         matches the empty string at either the beginning or the  end
580                  of a word.
581
582       \B         matches the empty string within a word.
583
584       \<         matches the empty string at the beginning of a word.
585
586       \>         matches the empty string at the end of a word.
587
588       \w         matches  any  word-constituent  character (letter, digit, or
589                  underscore).
590
591       \W         matches any character that is not word-constituent.
592
593       \`         matches the empty  string  at  the  beginning  of  a  buffer
594                  (string).
595
596       \'         matches the empty string at the end of a buffer.
597
598       The escape sequences that are valid in string constants (see below) are
599       also valid in regular expressions.
600
601       Character classes are a new feature introduced in the  POSIX  standard.
602       A character class is a special notation for describing lists of charac‐
603       ters that have a specific attribute, but where  the  actual  characters
604       themselves  can  vary from country to country and/or from character set
605       to character set.  For example, the notion of  what  is  an  alphabetic
606       character differs in the USA and in France.
607
608       A  character  class  is  only  valid in a regular expression inside the
609       brackets of a character list.  Character classes consist of [:, a  key‐
610       word  denoting the class, and :].  The character classes defined by the
611       POSIX standard are:
612
613       [:alnum:]  Alphanumeric characters.
614
615       [:alpha:]  Alphabetic characters.
616
617       [:blank:]  Space or tab characters.
618
619       [:cntrl:]  Control characters.
620
621       [:digit:]  Numeric characters.
622
623       [:graph:]  Characters that are both printable and visible.  (A space is
624                  printable, but not visible, while an a is both.)
625
626       [:lower:]  Lower-case alphabetic characters.
627
628       [:print:]  Printable  characters (characters that are not control char‐
629                  acters.)
630
631       [:punct:]  Punctuation characters (characters that are not letter, dig‐
632                  its, control characters, or space characters).
633
634       [:space:]  Space  characters (such as space, tab, and formfeed, to name
635                  a few).
636
637       [:upper:]  Upper-case alphabetic characters.
638
639       [:xdigit:] Characters that are hexadecimal digits.
640
641       For example, before the POSIX standard, to match  alphanumeric  charac‐
642       ters, you would have had to write /[A-Za-z0-9]/.  If your character set
643       had other alphabetic characters in it, this would not match  them,  and
644       if  your  character set collated differently from ASCII, this might not
645       even match the ASCII alphanumeric characters.  With the POSIX character
646       classes,  you  can write /[[:alnum:]]/, and this matches the alphabetic
647       and numeric characters in your character set.
648
649       Two additional special sequences can appear in character lists.   These
650       apply  to  non-ASCII  character  sets,  which  can  have single symbols
651       (called collating elements) that are represented  with  more  than  one
652       character,  as  well as several characters that are equivalent for col‐
653       lating, or sorting, purposes.  (E.g., in French,  a  plain  “e”  and  a
654       grave-accented e` are equivalent.)
655
656       Collating Symbols
657              A  collating  symbol  is  a  multi-character  collating  element
658              enclosed in [.  and .].  For example, if ch is a collating  ele‐
659              ment,  then  [[.ch.]]  is a regular expression that matches this
660              collating element, while  [ch]  is  a  regular  expression  that
661              matches either c or h.
662
663       Equivalence Classes
664              An  equivalence  class  is  a locale-specific name for a list of
665              characters that are equivalent.  The name is enclosed in [=  and
666              =].   For  example, the name e might be used to represent all of
667              “e,” “e´,” and “e`.”  In this case, [[=e=]] is a  regular  expres‐
668              sion that matches any of e, e´, or e`.
669
670       These  features are very valuable in non-English speaking locales.  The
671       library functions that gawk uses for regular expression  matching  cur‐
672       rently  only  recognize  POSIX character classes; they do not recognize
673       collating symbols or equivalence classes.
674
675       The \y, \B, \<, \>, \w, \W, \`, and \' operators are specific to  gawk;
676       they  are  extensions based on facilities in the GNU regular expression
677       libraries.
678
679       The various command line options control how gawk interprets characters
680       in regular expressions.
681
682       No options
683              In  the  default  case, gawk provide all the facilities of POSIX
684              regular expressions and the  GNU  regular  expression  operators
685              described  above.   However,  interval  expressions are not sup‐
686              ported.
687
688       --posix
689              Only POSIX regular expressions are supported, the GNU  operators
690              are  not  special.   (E.g.,  \w  matches a literal w).  Interval
691              expressions are allowed.
692
693       --traditional
694              Traditional Unix awk regular expressions are matched.   The  GNU
695              operators  are  not special, interval expressions are not avail‐
696              able, and neither are the POSIX character  classes  ([[:alnum:]]
697              and  so  on).   Characters  described  by  octal and hexadecimal
698              escape sequences are treated literally, even if  they  represent
699              regular expression metacharacters.
700
701       --re-interval
702              Allow  interval  expressions  in  regular  expressions,  even if
703              --traditional has been provided.
704
705   Actions
706       Action statements are enclosed in braces, { and }.   Action  statements
707       consist  of  the  usual assignment, conditional, and looping statements
708       found in  most  languages.   The  operators,  control  statements,  and
709       input/output statements available are patterned after those in C.
710
711   Operators
712       The operators in AWK, in order of decreasing precedence, are
713
714       (...)       Grouping
715
716       $           Field reference.
717
718       ++ --       Increment and decrement, both prefix and postfix.
719
720       ^           Exponentiation  (**  may  also  be  used,  and  **= for the
721                   assignment operator).
722
723       + - !       Unary plus, unary minus, and logical negation.
724
725       * / %       Multiplication, division, and modulus.
726
727       + -         Addition and subtraction.
728
729       space       String concatenation.
730
731       < >
732       <= >=
733       != ==       The regular relational operators.
734
735       ~ !~        Regular expression match, negated match.  NOTE: Do not  use
736                   a constant regular expression (/foo/) on the left-hand side
737                   of a ~ or !~.  Only use one on the  right-hand  side.   The
738                   expression  /foo/  ~  exp  has  the  same meaning as (($0 ~
739                   /foo/) ~ exp).  This is usually not what was intended.
740
741       in          Array membership.
742
743       &&          Logical AND.
744
745       ||          Logical OR.
746
747       ?:          The C conditional expression.  This has the  form  expr1  ?
748                   expr2  : expr3.  If expr1 is true, the value of the expres‐
749                   sion is expr2, otherwise it is expr3.  Only  one  of  expr2
750                   and expr3 is evaluated.
751
752       = += -=
753       *= /= %= ^= Assignment.   Both  absolute  assignment  (var = value) and
754                   operator-assignment (the other forms) are supported.
755
756   Control Statements
757       The control statements are as follows:
758
759              if (condition) statement [ else statement ]
760              while (condition) statement
761              do statement while (condition)
762              for (expr1; expr2; expr3) statement
763              for (var in array) statement
764              break
765              continue
766              delete array[index]
767              delete array
768              exit [ expression ]
769              { statements }
770
771   I/O Statements
772       The input/output statements are as follows:
773
774       close(file [, how])   Close file, pipe or co-process.  The optional how
775                             should  only  be  used  when closing one end of a
776                             two-way pipe to  a  co-process.   It  must  be  a
777                             string value, either "to" or "from".
778
779       getline               Set $0 from next input record; set NF, NR, FNR.
780
781       getline <file         Set $0 from next record of file; set NF.
782
783       getline var           Set var from next input record; set NR, FNR.
784
785       getline var <file     Set var from next record of file.
786
787       command | getline [var]
788                             Run  command  piping the output either into $0 or
789                             var, as above.
790
791       command |& getline [var]
792                             Run command as a  co-process  piping  the  output
793                             either  into  $0  or var, as above.  Co-processes
794                             are a gawk extension.
795
796       next                  Stop processing the current  input  record.   The
797                             next  input  record is read and processing starts
798                             over with the first pattern in the  AWK  program.
799                             If  the end of the input data is reached, the END
800                             block(s), if any, are executed.
801
802       nextfile              Stop processing the current input file.  The next
803                             input record read comes from the next input file.
804                             FILENAME and ARGIND are updated, FNR is reset  to
805                             1, and processing starts over with the first pat‐
806                             tern in the AWK program. If the end of the  input
807                             data  is  reached,  the END block(s), if any, are
808                             executed.
809
810       print                 Prints the current record.  The output record  is
811                             terminated with the value of the ORS variable.
812
813       print expr-list       Prints expressions.  Each expression is separated
814                             by the value of the  OFS  variable.   The  output
815                             record  is  terminated  with the value of the ORS
816                             variable.
817
818       print expr-list >file Prints expressions on file.  Each  expression  is
819                             separated  by the value of the OFS variable.  The
820                             output record is terminated with the value of the
821                             ORS variable.
822
823       printf fmt, expr-list Format and print.
824
825       printf fmt, expr-list >file
826                             Format and print on file.
827
828       system(cmd-line)      Execute the command cmd-line, and return the exit
829                             status.  (This may not be available on  non-POSIX
830                             systems.)
831
832       fflush([file])        Flush any buffers associated with the open output
833                             file or pipe file.   If  file  is  missing,  then
834                             standard  output is flushed.  If file is the null
835                             string, then all open output files and pipes have
836                             their buffers flushed.
837
838       Additional output redirections are allowed for print and printf.
839
840       print ... >> file
841              appends output to the file.
842
843       print ... | command
844              writes on a pipe.
845
846       print ... |& command
847              sends data to a co-process.
848
849       The  getline command returns 0 on end of file and -1 on an error.  Upon
850       an error, ERRNO contains a string describing the problem.
851
852       NOTE: If using a pipe or co-process to getline, or from print or printf
853       within a loop, you must use close() to create new instances of the com‐
854       mand.  AWK does not automatically close pipes or co-processes when they
855       return EOF.
856
857   The printf Statement
858       The  AWK  versions  of the printf statement and sprintf() function (see
859       below) accept the following conversion specification formats:
860
861       %c      An ASCII character.  If the argument used for %c is numeric, it
862               is treated as a character and printed.  Otherwise, the argument
863               is assumed to be a string, and the only first character of that
864               string is printed.
865
866       %d, %i  A decimal number (the integer part).
867
868       %e ,  %E
869               A floating point number of the form [-]d.dddddde[+-]dd.  The %E
870               format uses E instead of e.
871
872       %f      A floating point number of the form [-]ddd.dddddd.
873
874       %g ,  %G
875               Use %e or %f conversion, whichever is shorter, with nonsignifi‐
876               cant zeros suppressed.  The %G format uses %E instead of %e.
877
878       %o      An unsigned octal number (also an integer).
879
880       %u      An unsigned decimal number (again, an integer).
881
882       %s      A character string.
883
884       %x ,  %X
885               An  unsigned  hexadecimal  number  (an integer).  The %X format
886               uses ABCDEF instead of abcdef.
887
888       %%      A single % character; no argument is converted.
889
890       NOTE: When using the integer format-control letters for values that are
891       outside  the  range of a C long integer, gawk switches to the %g format
892       specifier. If --lint is provided on the command line gawk  warns  about
893       this.   Other  versions of awk may print invalid values or do something
894       else entirely.
895
896       Optional, additional parameters may lie between the % and  the  control
897       letter:
898
899       count$ Use the count'th argument at this point in the formatting.  This
900              is called a positional specifier and is intended  primarily  for
901              use  in translated versions of format strings, not in the origi‐
902              nal text of an AWK program.  It is a gawk extension.
903
904       -      The expression should be left-justified within its field.
905
906       space  For numeric conversions, prefix positive values  with  a  space,
907              and negative values with a minus sign.
908
909       +      The  plus sign, used before the width modifier (see below), says
910              to always supply a sign for numeric  conversions,  even  if  the
911              data  to  be  formatted  is positive.  The + overrides the space
912              modifier.
913
914       #      Use an “alternate form” for certain control  letters.   For  %o,
915              supply  a  leading zero.  For %x, and %X, supply a leading 0x or
916              0X for a nonzero result.  For %e, %E, and %f, the result  always
917              contains  a  decimal  point.  For %g, and %G, trailing zeros are
918              not removed from the result.
919
920       0      A leading 0 (zero) acts as a flag, that indicates output  should
921              be  padded  with zeroes instead of spaces.  This applies even to
922              non-numeric output formats.  This flag only has an  effect  when
923              the field width is wider than the value to be printed.
924
925       width  The field should be padded to this width.  The field is normally
926              padded with spaces.  If the 0 flag has been used, it  is  padded
927              with zeroes.
928
929       .prec  A number that specifies the precision to use when printing.  For
930              the %e, %E, and %f formats, this specifies the number of  digits
931              you want printed to the right of the decimal point.  For the %g,
932              and %G formats, it specifies the maximum number  of  significant
933              digits.   For  the %d, %o, %i, %u, %x, and %X formats, it speci‐
934              fies the minimum number of digits to print.  For %s,  it  speci‐
935              fies  the  maximum  number  of  characters  from the string that
936              should be printed.
937
938       The dynamic width and prec capabilities of the ANSI C printf() routines
939       are supported.  A * in place of either the width or prec specifications
940       causes their values to be taken from the argument  list  to  printf  or
941       sprintf().   To use a positional specifier with a dynamic width or pre‐
942       cision, supply the count$ after the * in the format string.  For  exam‐
943       ple, "%3$*2$.*1$s".
944
945   Special File Names
946       When  doing I/O redirection from either print or printf into a file, or
947       via getline from a file,  gawk  recognizes  certain  special  filenames
948       internally.   These  filenames  allow  access  to open file descriptors
949       inherited from gawk's parent process (usually the shell).   These  file
950       names  may  also  be  used on the command line to name data files.  The
951       filenames are:
952
953       /dev/stdin  The standard input.
954
955       /dev/stdout The standard output.
956
957       /dev/stderr The standard error output.
958
959       /dev/fd/n   The file associated with the open file descriptor n.
960
961       These are particularly useful for error messages.  For example:
962
963              print "You blew it!" > "/dev/stderr"
964
965       whereas you would otherwise have to use
966
967              print "You blew it!" | "cat 1>&2"
968
969       The following special filenames may be  used  with  the  |&  co-process
970       operator for creating TCP/IP network connections.
971
972       /inet/tcp/lport/rhost/rport  File  for  TCP/IP connection on local port
973                                    lport to remote host rhost on remote  port
974                                    rport.  Use a port of 0 to have the system
975                                    pick a port.
976
977       /inet/udp/lport/rhost/rport  Similar, but use UDP/IP instead of TCP/IP.
978
979       /inet/raw/lport/rhost/rport  Reserved for future use.
980
981       Other special filenames provide access to information about the running
982       gawk  process.   These  filenames  are  now obsolete.  Use the PROCINFO
983       array to obtain the information they provide.  The filenames are:
984
985       /dev/pid    Reading this file returns the process  ID  of  the  current
986                   process, in decimal, terminated with a newline.
987
988       /dev/ppid   Reading this file returns the parent process ID of the cur‐
989                   rent process, in decimal, terminated with a newline.
990
991       /dev/pgrpid Reading this file returns the process group ID of the  cur‐
992                   rent process, in decimal, terminated with a newline.
993
994       /dev/user   Reading this file returns a single record terminated with a
995                   newline.  The fields are separated with spaces.  $1 is  the
996                   value  of the getuid(2) system call, $2 is the value of the
997                   geteuid(2) system call, $3 is the value  of  the  getgid(2)
998                   system  call,  and $4 is the value of the getegid(2) system
999                   call.  If there are any additional  fields,  they  are  the
1000                   group  IDs  returned  by getgroups(2).  Multiple groups may
1001                   not be supported on all systems.
1002
1003   Numeric Functions
1004       AWK has the following built-in arithmetic functions:
1005
1006       atan2(y, x)   Returns the arctangent of y/x in radians.
1007
1008       cos(expr)     Returns the cosine of expr, which is in radians.
1009
1010       exp(expr)     The exponential function.
1011
1012       int(expr)     Truncates to integer.
1013
1014       log(expr)     The natural logarithm function.
1015
1016       rand()        Returns a random number N, between 0 and 1, such that 0 ≤
1017                     N < 1.
1018
1019       sin(expr)     Returns the sine of expr, which is in radians.
1020
1021       sqrt(expr)    The square root function.
1022
1023       srand([expr]) Uses  expr as a new seed for the random number generator.
1024                     If no expr is provided, the time of  day  is  used.   The
1025                     return  value  is the previous seed for the random number
1026                     generator.
1027
1028   String Functions
1029       Gawk has the following built-in string functions:
1030
1031       asort(s [, d])          Returns the number of elements  in  the  source
1032                               array  s.   The  contents of s are sorted using
1033                               gawk's normal rules for comparing  values,  and
1034                               the  indexes  of  the  sorted  values  of s are
1035                               replaced with sequential integers starting with
1036                               1. If the optional destination array d is spec‐
1037                               ified, then s is first duplicated into  d,  and
1038                               then  d  is  sorted, leaving the indexes of the
1039                               source array s unchanged.
1040
1041       asorti(s [, d])         Returns the number of elements  in  the  source
1042                               array  s.   The behavior is the same as that of
1043                               asort(), except that the array indices are used
1044                               for  sorting, not the array values.  When done,
1045                               the array is indexed numerically, and the  val‐
1046                               ues  are  those  of  the original indices.  The
1047                               original values are lost; thus provide a second
1048                               array if you wish to preserve the original.
1049
1050       gensub(r, s, h [, t])   Search  the  target string t for matches of the
1051                               regular expression r.  If h is a string  begin‐
1052                               ning with g or G, then replace all matches of r
1053                               with s.  Otherwise, h is  a  number  indicating
1054                               which  match of r to replace.  If t is not sup‐
1055                               plied, $0 is used instead.  Within the replace‐
1056                               ment  text  s,  the  sequence  \n, where n is a
1057                               digit from 1 to 9, may be used to indicate just
1058                               the  text  that  matched the n'th parenthesized
1059                               subexpression.  The sequence \0 represents  the
1060                               entire  matched  text, as does the character &.
1061                               Unlike sub() and gsub(), the modified string is
1062                               returned as the result of the function, and the
1063                               original target string is not changed.
1064
1065       gsub(r, s [, t])        For each substring matching the regular expres‐
1066                               sion  r  in the string t, substitute the string
1067                               s, and return the number of substitutions.   If
1068                               t  is  not  supplied,  use  $0.   An  &  in the
1069                               replacement text is replaced with the text that
1070                               was  actually matched.  Use \& to get a literal
1071                               &.  (This must be typed  as  "\\&";  see  GAWK:
1072                               Effective  AWK Programming for a fuller discus‐
1073                               sion of the rules for &'s  and  backslashes  in
1074                               the replacement text of sub(), gsub(), and gen‐
1075                               sub().)
1076
1077       index(s, t)             Returns the index of the string t in the string
1078                               s,  or  0  if  t is not present.  (This implies
1079                               that character indices start at one.)
1080
1081       length([s])             Returns the length of  the  string  s,  or  the
1082                               length  of  $0  if s is not supplied.  Starting
1083                               with version 3.1.5, as  a  non-standard  exten‐
1084                               sion,  with an array argument, length() returns
1085                               the number of elements in the array.
1086
1087       match(s, r [, a])       Returns the position in  s  where  the  regular
1088                               expression  r occurs, or 0 if r is not present,
1089                               and sets the  values  of  RSTART  and  RLENGTH.
1090                               Note that the argument order is the same as for
1091                               the ~ operator: str ~ re.  If array a  is  pro‐
1092                               vided, a is cleared and then elements 1 through
1093                               n are filled with the portions of s that  match
1094                               the  corresponding  parenthesized subexpression
1095                               in r.  The 0'th element of a contains the  por‐
1096                               tion of s matched by the entire regular expres‐
1097                               sion r.  Subscripts  a[n,  "start"],  and  a[n,
1098                               "length"]  provide  the  starting  index in the
1099                               string and length respectively, of each  match‐
1100                               ing substring.
1101
1102       split(s, a [, r])       Splits  the  string  s  into the array a on the
1103                               regular expression r, and returns the number of
1104                               fields.   If  r is omitted, FS is used instead.
1105                               The  array  a  is  cleared  first.    Splitting
1106                               behaves   identically   to   field   splitting,
1107                               described above.
1108
1109       sprintf(fmt, expr-list) Prints expr-list according to fmt, and  returns
1110                               the resulting string.
1111
1112       strtonum(str)           Examines  str,  and  returns its numeric value.
1113                               If str begins  with  a  leading  0,  strtonum()
1114                               assumes  that  str  is an octal number.  If str
1115                               begins with a  leading  0x  or  0X,  strtonum()
1116                               assumes that str is a hexadecimal number.
1117
1118       sub(r, s [, t])         Just  like  gsub(), but only the first matching
1119                               substring is replaced.
1120
1121       substr(s, i [, n])      Returns the at most n-character substring of  s
1122                               starting  at i.  If n is omitted, the rest of s
1123                               is used.
1124
1125       tolower(str)            Returns a copy of the string str, with all  the
1126                               upper-case  characters  in  str  translated  to
1127                               their  corresponding  lower-case  counterparts.
1128                               Non-alphabetic characters are left unchanged.
1129
1130       toupper(str)            Returns  a copy of the string str, with all the
1131                               lower-case  characters  in  str  translated  to
1132                               their  corresponding  upper-case  counterparts.
1133                               Non-alphabetic characters are left unchanged.
1134
1135   Time Functions
1136       Since one of the primary uses of AWK programs is processing  log  files
1137       that  contain time stamp information, gawk provides the following func‐
1138       tions for obtaining time stamps and formatting them.
1139
1140       mktime(datespec)
1141                 Turns datespec into a time stamp of the same form as returned
1142                 by  systime().   The datespec is a string of the form YYYY MM
1143                 DD HH MM SS[ DST].  The contents of the  string  are  six  or
1144                 seven numbers representing respectively the full year includ‐
1145                 ing century, the month from 1 to 12, the  day  of  the  month
1146                 from  1  to  31, the hour of the day from 0 to 23, the minute
1147                 from 0 to 59, and the second from 0 to 60,  and  an  optional
1148                 daylight  saving  flag.  The values of these numbers need not
1149                 be within the ranges specified; for example, an  hour  of  -1
1150                 means 1 hour before midnight.  The origin-zero Gregorian cal‐
1151                 endar is assumed, with year 0 preceding year 1  and  year  -1
1152                 preceding  year  0.   The  time is assumed to be in the local
1153                 timezone.  If the daylight saving flag is positive, the  time
1154                 is  assumed  to be daylight saving time; if zero, the time is
1155                 assumed to be standard time; and if negative  (the  default),
1156                 mktime()  attempts  to determine whether daylight saving time
1157                 is in effect for the specified time.  If  datespec  does  not
1158                 contain  enough  elements  or if the resulting time is out of
1159                 range, mktime() returns -1.
1160
1161       strftime([format [, timestamp]])
1162                 Formats timestamp according to the specification  in  format.
1163                 The  timestamp should be of the same form as returned by sys‐
1164                 time().  If timestamp is missing, the current time of day  is
1165                 used.   If  format is missing, a default format equivalent to
1166                 the output of date(1) is used.  See the specification for the
1167                 strftime() function in ANSI C for the format conversions that
1168                 are guaranteed to be available.  A public-domain  version  of
1169                 strftime(3)  and  a  man  page for it come with gawk; if that
1170                 version was used to build gawk, then all of  the  conversions
1171                 described in that man page are available to gawk.
1172
1173       systime() Returns  the  current  time  of  day as the number of seconds
1174                 since the Epoch (1970-01-01 00:00:00 UTC on POSIX systems).
1175
1176   Bit Manipulations Functions
1177       Starting with version 3.1 of gawk, the following bit manipulation func‐
1178       tions are available.  They work by converting double-precision floating
1179       point values to unsigned long integers, doing the operation,  and  then
1180       converting the result back to floating point.  The functions are:
1181
1182       and(v1, v2)         Return the bitwise AND of the values provided by v1
1183                           and v2.
1184
1185       compl(val)          Return the bitwise complement of val.
1186
1187       lshift(val, count)  Return the value of  val,  shifted  left  by  count
1188                           bits.
1189
1190       or(v1, v2)          Return  the bitwise OR of the values provided by v1
1191                           and v2.
1192
1193       rshift(val, count)  Return the value of val,  shifted  right  by  count
1194                           bits.
1195
1196       xor(v1, v2)         Return the bitwise XOR of the values provided by v1
1197                           and v2.
1198
1199   Internationalization Functions
1200       Starting with version 3.1 of gawk, the following functions may be  used
1201       from  within your AWK program for translating strings at run-time.  For
1202       full details, see GAWK: Effective AWK Programming.
1203
1204       bindtextdomain(directory [, domain])
1205              Specifies the directory where gawk looks for the .mo  files,  in
1206              case they will not or cannot be placed in the ``standard'' loca‐
1207              tions (e.g., during testing).  It returns  the  directory  where
1208              domain is ``bound.''
1209              The  default domain is the value of TEXTDOMAIN.  If directory is
1210              the null string (""), then bindtextdomain() returns the  current
1211              binding for the given domain.
1212
1213       dcgettext(string [, domain [, category]])
1214              Returns  the  translation  of  string  in text domain domain for
1215              locale category category.  The default value for domain  is  the
1216              current  value of TEXTDOMAIN.  The default value for category is
1217              "LC_MESSAGES".
1218              If you supply a value for category, it must be a string equal to
1219              one  of the known locale categories described in GAWK: Effective
1220              AWK Programming.  You must  also  supply  a  text  domain.   Use
1221              TEXTDOMAIN if you want to use the current domain.
1222
1223       dcngettext(string1 , string2 , number [, domain [, category]])
1224              Returns  the  plural  form used for number of the translation of
1225              string1 and string2 in text domain domain  for  locale  category
1226              category.   The default value for domain is the current value of
1227              TEXTDOMAIN.  The default value for category is "LC_MESSAGES".
1228              If you supply a value for category, it must be a string equal to
1229              one  of the known locale categories described in GAWK: Effective
1230              AWK Programming.  You must  also  supply  a  text  domain.   Use
1231              TEXTDOMAIN if you want to use the current domain.
1232

USER-DEFINED FUNCTIONS

1234       Functions in AWK are defined as follows:
1235
1236              function name(parameter list) { statements }
1237
1238       Functions  are executed when they are called from within expressions in
1239       either patterns or actions.  Actual parameters supplied in the function
1240       call  are  used  to  instantiate  the formal parameters declared in the
1241       function.  Arrays are passed by reference, other variables  are  passed
1242       by value.
1243
1244       Since  functions were not originally part of the AWK language, the pro‐
1245       vision for local variables is rather clumsy: They are declared as extra
1246       parameters  in the parameter list.  The convention is to separate local
1247       variables from real parameters by extra spaces in the  parameter  list.
1248       For example:
1249
1250              function  f(p, q,     a, b)   # a and b are local
1251              {
1252                   ...
1253              }
1254
1255              /abc/     { ... ; f(1, 2) ; ... }
1256
1257       The left parenthesis in a function call is required to immediately fol‐
1258       low the function name, without any intervening white space.  This is to
1259       avoid  a  syntactic  ambiguity  with  the concatenation operator.  This
1260       restriction does not apply to the built-in functions listed above.
1261
1262       Functions may call each other and may be recursive.   Function  parame‐
1263       ters used as local variables are initialized to the null string and the
1264       number zero upon function invocation.
1265
1266       Use return expr to return a value from a function.  The return value is
1267       undefined if no value is provided, or if the function returns by “fall‐
1268       ing off” the end.
1269
1270       If --lint has been provided, gawk warns about calls to undefined  func‐
1271       tions  at  parse  time,  instead  of at run time.  Calling an undefined
1272       function at run time is a fatal error.
1273
1274       The word func may be used in place of function.
1275

DYNAMICALLY LOADING NEW FUNCTIONS

1277       Beginning with version 3.1 of gawk, you can dynamically add new  built-
1278       in  functions  to  the  running gawk interpreter.  The full details are
1279       beyond the scope of this manual page; see GAWK: Effective AWK  Program‐
1280       ming for the details.
1281
1282       extension(object, function)
1283               Dynamically  link  the  shared object file named by object, and
1284               invoke function in  that  object,  to  perform  initialization.
1285               These  should  both  be provided as strings.  Returns the value
1286               returned by function.
1287
1288       This function is provided and documented in GAWK:  Effective  AWK  Pro‐
1289       gramming,  but everything about this feature is likely to change in the
1290       next release.  We STRONGLY recommend that you do not use  this  feature
1291       for anything that you aren't willing to redo.
1292

SIGNALS

1294       pgawk  accepts  two  signals.   SIGUSR1 causes it to dump a profile and
1295       function call stack to the profile file, which is  either  awkprof.out,
1296       or  whatever file was named with the --profile option.  It then contin‐
1297       ues to run.  SIGHUP causes it to dump the  profile  and  function  call
1298       stack and then exit.
1299

EXAMPLES

1301       Print and sort the login names of all users:
1302
1303            BEGIN     { FS = ":" }
1304                 { print $1 | "sort" }
1305
1306       Count lines in a file:
1307
1308                 { nlines++ }
1309            END  { print nlines }
1310
1311       Precede each line by its number in the file:
1312
1313            { print FNR, $0 }
1314
1315       Concatenate and line number (a variation on a theme):
1316
1317            { print NR, $0 }
1318       Run an external command for particular lines of data:
1319
1320            tail -f access_log |
1321            awk '/myhome.html/ { system("nmap " $1 ">> logdir/myhome.html") }'
1322

INTERNATIONALIZATION

1324       String constants are sequences of characters enclosed in double quotes.
1325       In non-English speaking environments, it is possible to mark strings in
1326       the  AWK  program  as  requiring translation to the native natural lan‐
1327       guage. Such strings are marked in the AWK program with a leading under‐
1328       score (“_”).  For example,
1329
1330              gawk 'BEGIN { print "hello, world" }'
1331
1332       always prints hello, world.  But,
1333
1334              gawk 'BEGIN { print _"hello, world" }'
1335
1336       might print bonjour, monde in France.
1337
1338       There are several steps involved in producing and running a localizable
1339       AWK program.
1340
1341       1.  Add a BEGIN action to assign a value to the TEXTDOMAIN variable  to
1342           set the text domain to a name associated with your program.
1343
1344                BEGIN { TEXTDOMAIN = "myprog" }
1345
1346           This allows gawk to find the .mo file associated with your program.
1347           Without this step, gawk uses the messages text domain, which likely
1348           does not contain translations for your program.
1349
1350       2.  Mark  all  strings  that  should  be translated with leading under‐
1351           scores.
1352
1353       3.  If necessary, use the dcgettext() and/or bindtextdomain() functions
1354           in your program, as appropriate.
1355
1356       4.  Run  gawk --gen-po -f myprog.awk > myprog.po to generate a .po file
1357           for your program.
1358
1359       5.  Provide appropriate translations, and build and  install  a  corre‐
1360           sponding .mo file.
1361
1362       The internationalization features are described in full detail in GAWK:
1363       Effective AWK Programming.
1364

POSIX COMPATIBILITY

1366       A primary goal for gawk is compatibility with the  POSIX  standard,  as
1367       well  as with the latest version of UNIX awk.  To this end, gawk incor‐
1368       porates the following user visible features which are not described  in
1369       the AWK book, but are part of the Bell Laboratories version of awk, and
1370       are in the POSIX standard.
1371
1372       The book indicates that command line variable assignment  happens  when
1373       awk  would  otherwise  open  the argument as a file, which is after the
1374       BEGIN block is executed.  However,  in  earlier  implementations,  when
1375       such an assignment appeared before any file names, the assignment would
1376       happen before the BEGIN block was run.  Applications came to depend  on
1377       this  “feature.”   When awk was changed to match its documentation, the
1378       -v option for assigning variables before program execution was added to
1379       accommodate  applications  that  depended upon the old behavior.  (This
1380       feature was agreed upon by both  the  Bell  Laboratories  and  the  GNU
1381       developers.)
1382
1383       The  -W  option  for implementation specific features is from the POSIX
1384       standard.
1385
1386       When processing arguments, gawk uses the special option “--” to  signal
1387       the end of arguments.  In compatibility mode, it warns about but other‐
1388       wise ignores undefined options.  In normal  operation,  such  arguments
1389       are passed on to the AWK program for it to process.
1390
1391       The  AWK  book  does not define the return value of srand().  The POSIX
1392       standard has it return the seed it was using, to allow keeping track of
1393       random  number  sequences.   Therefore srand() in gawk also returns its
1394       current seed.
1395
1396       Other new features are: The use of multiple -f options (from MKS  awk);
1397       the  ENVIRON array; the \a, and \v escape sequences (done originally in
1398       gawk and fed back into the Bell Laboratories  version);  the  tolower()
1399       and  toupper() built-in functions (from the Bell Laboratories version);
1400       and the ANSI C conversion specifications in printf (done first  in  the
1401       Bell Laboratories version).
1402

HISTORICAL FEATURES

1404       There are two features of historical AWK implementations that gawk sup‐
1405       ports.  First, it is possible to call the  length()  built-in  function
1406       not only with no argument, but even without parentheses!  Thus,
1407
1408              a = length     # Holy Algol 60, Batman!
1409
1410       is the same as either of
1411
1412              a = length()
1413              a = length($0)
1414
1415       This  feature is marked as “deprecated” in the POSIX standard, and gawk
1416       issues a warning about its use if --lint is specified  on  the  command
1417       line.
1418
1419       The other feature is the use of either the continue or the break state‐
1420       ments outside the body of a while, for, or do  loop.   Traditional  AWK
1421       implementations  have  treated  such  usage  as  equivalent to the next
1422       statement.  Gawk supports this usage if --traditional has  been  speci‐
1423       fied.
1424

GNU EXTENSIONS

1426       Gawk  has  a  number of extensions to POSIX awk.  They are described in
1427       this section.  All the extensions described here  can  be  disabled  by
1428       invoking gawk with the --traditional option.
1429
1430       The following features of gawk are not available in POSIX awk.
1431
1432       · No  path  search  is  performed  for  files  named via the -f option.
1433         Therefore the AWKPATH environment variable is not special.
1434
1435       · The \x escape sequence.  (Disabled with --posix.)
1436
1437       · The fflush() function.  (Disabled with --posix.)
1438
1439       · The ability to  continue  lines  after  ?   and  :.   (Disabled  with
1440         --posix.)
1441
1442       · Octal and hexadecimal constants in AWK programs.
1443
1444       · The ARGIND, BINMODE, ERRNO, LINT, RT and TEXTDOMAIN variables are not
1445         special.
1446
1447       · The IGNORECASE variable and its side-effects are not available.
1448
1449       · The FIELDWIDTHS variable and fixed-width field splitting.
1450
1451       · The PROCINFO array is not available.
1452
1453       · The use of RS as a regular expression.
1454
1455       · The special file names available for I/O redirection are  not  recog‐
1456         nized.
1457
1458       · The |& operator for creating co-processes.
1459
1460       · The  ability to split out individual characters using the null string
1461         as the value of FS, and as the third argument to split().
1462
1463       · The optional second argument to the close() function.
1464
1465       · The optional third argument to the match() function.
1466
1467       · The ability to use positional specifiers with printf and sprintf().
1468
1469       · The use of delete array to delete the entire contents of an array.
1470
1471       · The use of nextfile to abandon processing of the current input file.
1472
1473       · The and(), asort(), asorti(), bindtextdomain(), compl(), dcgettext(),
1474         dcngettext(),  gensub(),  lshift(),  mktime(),  or(), rshift(), strf‐
1475         time(), strtonum(), systime() and xor() functions.
1476
1477       · Localizable strings.
1478
1479       · Adding new built-in functions dynamically with the extension()  func‐
1480         tion.
1481
1482       The  AWK book does not define the return value of the close() function.
1483       Gawk's close() returns the value from  fclose(3),  or  pclose(3),  when
1484       closing an output file or pipe, respectively.  It returns the process's
1485       exit status when closing an input pipe.  The return value is -1 if  the
1486       named file, pipe or co-process was not opened with a redirection.
1487
1488       When  gawk is invoked with the --traditional option, if the fs argument
1489       to the -F option is “t”, then FS is set to  the  tab  character.   Note
1490       that  typing  gawk -F\t ...  simply causes the shell to quote the “t,”,
1491       and does not pass “\t” to the -F option.  Since this is a  rather  ugly
1492       special  case, it is not the default behavior.  This behavior also does
1493       not occur if --posix has been specified.  To really get a tab character
1494       as  the  field  separator, it is best to use single quotes: gawk -F'\t'
1495       ....
1496
1497       If gawk is configured with the --enable-switch option to the  configure
1498       command, then it accepts an additional control-flow statement:
1499              switch (expression) {
1500              case value|regex : statement
1501              ...
1502              [ default: statement ]
1503              }
1504

ENVIRONMENT VARIABLES

1506       The  AWKPATH  environment  variable  can  be  used to provide a list of
1507       directories that gawk searches when looking for files named via the  -f
1508       and --file options.
1509
1510       If POSIXLY_CORRECT exists in the environment, then gawk behaves exactly
1511       as if --posix had been specified on the command line.   If  --lint  has
1512       been specified, gawk issues a warning message to this effect.
1513

SEE ALSO

1515       egrep(1),  getpid(2),  getppid(2),  getpgrp(2),  getuid(2), geteuid(2),
1516       getgid(2), getegid(2), getgroups(2)
1517
1518       The AWK Programming Language, Alfred V. Aho, Brian W. Kernighan,  Peter
1519       J. Weinberger, Addison-Wesley, 1988.  ISBN 0-201-07981-X.
1520
1521       GAWK:  Effective  AWK  Programming,  Edition 3.0, published by the Free
1522       Software Foundation, 2001.
1523

BUGS

1525       The -F option is not necessary given the command line variable  assign‐
1526       ment feature; it remains only for backwards compatibility.
1527
1528       Syntactically  invalid  single  character programs tend to overflow the
1529       parse stack, generating a rather unhelpful message.  Such programs  are
1530       surprisingly  difficult to diagnose in the completely general case, and
1531       the effort to do so really is not worth it.
1532

AUTHORS

1534       The original version of UNIX awk was designed and implemented by Alfred
1535       Aho, Peter Weinberger, and Brian Kernighan of Bell Laboratories.  Brian
1536       Kernighan continues to maintain and enhance it.
1537
1538       Paul Rubin and Jay Fenlason, of the  Free  Software  Foundation,  wrote
1539       gawk,  to be compatible with the original version of awk distributed in
1540       Seventh Edition UNIX.  John Woods contributed a number  of  bug  fixes.
1541       David  Trueman,  with contributions from Arnold Robbins, made gawk com‐
1542       patible with the new version of UNIX awk.  Arnold Robbins is  the  cur‐
1543       rent maintainer.
1544
1545       The  initial  DOS  port  was  done  by Conrad Kwok and Scott Garfinkle.
1546       Scott Deifik is the current DOS maintainer.  Pat Rankin did the port to
1547       VMS,  and  Michal Jaegermann did the port to the Atari ST.  The port to
1548       OS/2 was done by Kai Uwe Rommel, with contributions and help from  Dar‐
1549       rel  Hankerson.   Fred  Fish  supplied  support  for the Amiga, Stephen
1550       Davies provided the Tandem port, and Martin  Brown  provided  the  BeOS
1551       port.
1552

VERSION INFORMATION

1554       This man page documents gawk, version 3.1.5.
1555

BUG REPORTS

1557       If  you  find  a  bug  in  gawk,  please  send  electronic mail to bug-
1558       gawk@gnu.org.  Please include your operating system and  its  revision,
1559       the  version of gawk (from gawk --version), what C compiler you used to
1560       compile it, and a test program and data that are as small  as  possible
1561       for reproducing the problem.
1562
1563       Before  sending a bug report, please do two things.  First, verify that
1564       you have the latest version of gawk.  Many bugs (usually  subtle  ones)
1565       are fixed at each release, and if yours is out of date, the problem may
1566       already have been solved.  Second, please read this man  page  and  the
1567       reference  manual  carefully  to  be  sure that what you think is a bug
1568       really is, instead of just a quirk in the language.
1569
1570       Whatever you do, do NOT post a bug report in comp.lang.awk.  While  the
1571       gawk  developers  occasionally read this newsgroup, posting bug reports
1572       there is an unreliable way to report bugs.   Instead,  please  use  the
1573       electronic mail addresses given above.
1574
1575       If you're using a GNU/Linux system or BSD-based system, you may wish to
1576       submit a bug report to the vendor of your distribution.   That's  fine,
1577       but  please  send  a  copy to the official email address as well, since
1578       there's no guarantee that the bug will be forwarded to the  gawk  main‐
1579       tainer.
1580

ACKNOWLEDGEMENTS

1582       Brian  Kernighan of Bell Laboratories provided valuable assistance dur‐
1583       ing testing and debugging.  We thank him.
1584

COPYING PERMISSIONS

1586       Copyright © 1989, 1991, 1992, 1993, 1994, 1995, 1996, 1997, 1998, 1999,
1587       2001, 2002, 2003, 2004, 2005 Free Software Foundation, Inc.
1588
1589       Permission  is  granted  to make and distribute verbatim copies of this
1590       manual page provided the copyright notice and  this  permission  notice
1591       are preserved on all copies.
1592
1593       Permission  is granted to copy and distribute modified versions of this
1594       manual page under the conditions for verbatim  copying,  provided  that
1595       the  entire  resulting derived work is distributed under the terms of a
1596       permission notice identical to this one.
1597
1598       Permission is granted to copy and distribute translations of this  man‐
1599       ual page into another language, under the above conditions for modified
1600       versions, except that this permission notice may be stated in a  trans‐
1601       lation approved by the Foundation.
1602
1603
1604
1605Free Software Foundation         June 26 2005                          GAWK(1)
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