GREP(1) GREP(1)
NAME
grep, egrep, fgrep - print lines matching a pattern
SYNOPSIS
grep [options] PATTERN [FILE...]
grep [options] [-e PATTERN | -f FILE] [FILE...]
DESCRIPTION
Grep searches the named input FILEs (or standard input if no files are named, or the file name - is given) for lines containing a match to the
given PATTERN. By default, grep prints the matching lines.
In addition, two variant programs egrep and fgrep are available. Egrep is the same as grep -E. Fgrep is the same as grep -F.
OPTIONS
-A NUM, --after-context=NUM
Print NUM lines of trailing context after matching lines. Places a line containing -- between contiguous groups of matches.
itnihao注释===================================================
-A 行数 匹配字符串 文件
举例:grep -A 2 mark example 意思是从匹配文件example中mark的行往后数两行的所有行=========================================================
-a, --text
Process a binary file as if it were text; this is equivalent to the --binary-files=text option.
=============================================================
grep原本是搜寻文字档,若拿二进位的档案作为搜寻的目标,
则会显示如下的讯息: Binary file 二进位档名 matches 然後结束。
若加上-a参数则可将二进位档案视为文字档案搜寻,
相当於--binary-files=text这个参数。
grep -a 匹配字符串 二进制文件;如果没有-a,则无法搜索
举例
[root@localhost bin]# grep echo /bin/echo
Binary file /bin/echo matches
[root@localhost bin]# grep -a echo /bin/echo
echo
@
=============================================================
-B NUM, --before-context=NUM
Print NUM lines of leading context before matching lines. Places a line containing -- between contiguous groups of matches.
======================================
-B NUM,--before-context=NUM
与 -A NUM 相对,但这此参数是显示除符合行之外
并显示在它之前的NUM行。
[root@localhost ~]# grep -B 1 1234 test
123
1234
--
5555
123456
[root@localhost ~]# cat test
1
2
3
4
12
123
1234
1235
5555
123456
22222
666
=====================================================
-C NUM, --context=NUM
Print NUM lines of output context. Places a line containing -- between contiguous groups of matches.
-b, --byte-offset
Print the byte offset within the input file before each line of output.
--binary-files=TYPE
If the first few bytes of a file indicate that the file contains binary data, assume that the file is of type TYPE. By default, TYPE is
binary, and grep normally outputs either a one-line message saying that a binary file matches, or no message if there is no match. If
TYPE is without-match, grep assumes that a binary file does not match; this is equivalent to the -I option. If TYPE is text, grep pro-
cesses a binary file as if it were text; this is equivalent to the -a option. Warning: grep --binary-files=text might output binary
garbage, which can have nasty side effects if the output is a terminal and if the terminal driver interprets some of it as commands.
--colour[=WHEN], --color[=WHEN]
Surround the matching string with the marker find in GREP_COLOR environment variable. WHEN may be ‘never’, ‘always’, or ‘auto’
-c, --count
Suppress normal output; instead print a count of matching lines for each input file. With the -v, --invert-match option (see below),
count non-matching lines.
-D ACTION, --devices=ACTION
If an input file is a device, FIFO or socket, use ACTION to process it. By default, ACTION is read, which means that devices are read
just as if they were ordinary files. If ACTION is skip, devices are silently skipped.
-d ACTION, --directories=ACTION
If an input file is a directory, use ACTION to process it. By default, ACTION is read, which means that directories are read just as if
they were ordinary files. If ACTION is skip, directories are silently skipped. If ACTION is recurse, grep reads all files under each
directory, recursively; this is equivalent to the -r option.
-E, --extended-regexp
Interpret PATTERN as an extended regular expression (see below).
-e PATTERN, --regexp=PATTERN
Use PATTERN as the pattern; useful to protect patterns beginning with -.
-F, --fixed-strings
Interpret PATTERN as a list of fixed strings, separated by newlines, any of which is to be matched.
-P, --perl-regexp
Interpret PATTERN as a Perl regular expression.
-f FILE, --file=FILE
Obtain patterns from FILE, one per line. The empty file contains zero patterns, and therefore matches nothing.
-G, --basic-regexp
Interpret PATTERN as a basic regular expression (see below). This is the default.
-H, --with-filename
Print the filename for each match.
-h, --no-filename
Suppress the prefixing of filenames on output when multiple files are searched.
--help Output a brief help message.
-I Process a binary file as if it did not contain matching data; this is equivalent to the --binary-files=without-match option.
-i, --ignore-case
Ignore case distinctions in both the PATTERN and the input files.
-L, --files-without-match
Suppress normal output; instead print the name of each input file from which no output would normally have been printed. The scanning
will stop on the first match.
-l, --files-with-matches
Suppress normal output; instead print the name of each input file from which output would normally have been printed. The scanning will
stop on the first match.
-m NUM, --max-count=NUM
Stop reading a file after NUM matching lines. If the input is standard input from a regular file, and NUM matching lines are output,
grep ensures that the standard input is positioned to just after the last matching line before exiting, regardless of the presence of
trailing context lines. This enables a calling process to resume a search. When grep stops after NUM matching lines, it outputs any
trailing context lines. When the -c or --count option is also used, grep does not output a count greater than NUM. When the -v or
--invert-match option is also used, grep stops after outputting NUM non-matching lines.
--mmap If possible, use the mmap(2) system call to read input, instead of the default read(2) system call. In some situations, --mmap yields
better performance. However, --mmap can cause undefined behavior (including core dumps) if an input file shrinks while grep is operat-
ing, or if an I/O error occurs.
-n, --line-number
Prefix each line of output with the line number within its input file.
-o, --only-matching
Show only the part of a matching line that matches PATTERN.
--label=LABEL
Displays input actually coming from standard input as input coming from file LABEL. This is especially useful for tools like zgrep,
e.g. gzip -cd foo.gz |grep -H --label=foo something
--line-buffered
Use line buffering, it can be a performance penality.
-q, --quiet, --silent
Quiet; do not write anything to standard output. Exit immediately with zero status if any match is found, even if an error was
detected. Also see the -s or --no-messages option.
-R, -r, --recursive
Read all files under each directory, recursively; this is equivalent to the -d recurse option.
--include=PATTERN
Recurse in directories only searching file matching PATTERN.
--exclude=PATTERN
Recurse in directories skip file matching PATTERN.
-s, --no-messages
Suppress error messages about nonexistent or unreadable files. Portability note: unlike GNU grep, traditional grep did not conform to
POSIX.2, because traditional grep lacked a -q option and its -s option behaved like GNU grep’s -q option. Shell scripts intended to be
portable to traditional grep should avoid both -q and -s and should redirect output to /dev/null instead.
-U, --binary
Treat the file(s) as binary. By default, under MS-DOS and MS-Windows, grep guesses the file type by looking at the contents of the
first 32KB read from the file. If grep decides the file is a text file, it strips the CR characters from the original file contents (to
make regular expressions with ^ and $ work correctly). Specifying -U overrules this guesswork, causing all files to be read and passed
to the matching mechanism verbatim; if the file is a text file with CR/LF pairs at the end of each line, this will cause some regular
expressions to fail. This option has no effect on platforms other than MS-DOS and MS-Windows.
-u, --unix-byte-offsets
Report Unix-style byte offsets. This switch causes grep to report byte offsets as if the file were Unix-style text file, i.e. with CR
characters stripped off. This will produce results identical to running grep on a Unix machine. This option has no effect unless -b
option is also used; it has no effect on platforms other than MS-DOS and MS-Windows.
-V, --version
Print the version number of grep to standard error. This version number should be included in all bug reports (see below).
-v, --invert-match
Invert the sense of matching, to select non-matching lines.
-w, --word-regexp
Select only those lines containing matches that form whole words. The test is that the matching substring must either be at the begin-
ning of the line, or preceded by a non-word constituent character. Similarly, it must be either at the end of the line or followed by a
non-word constituent character. Word-constituent characters are letters, digits, and the underscore.
-x, --line-regexp
Select only those matches that exactly match the whole line.
-y Obsolete synonym for -i.
-Z, --null
Output a zero byte (the ASCII NUL character) instead of the character that normally follows a file name. For example, grep -lZ outputs
a zero byte after each file name instead of the usual newline. This option makes the output unambiguous, even in the presence of file
names containing unusual characters like newlines. This option can be used with commands like find -print0, perl -0, sort -z, and xargs
-0 to process arbitrary file names, even those that contain newline characters.
REGULAR EXPRESSIONS
A regular expression is a pattern that describes a set of strings. Regular expressions are constructed analogously to arithmetic expressions,
by using various operators to combine smaller expressions.
Grep understands two different versions of regular expression syntax: “basic” and “extended.” In GNU grep, there is no difference in available
functionality using either syntax. In other implementations, basic regular expressions are less powerful. The following description applies
to extended regular expressions; differences for basic regular expressions are summarized afterwards.
The fundamental building blocks are the regular expressions that match a single character. Most characters, including all letters and digits,
are regular expressions that match themselves. Any metacharacter with special meaning may be quoted by preceding it with a backslash.
A bracket expression is a list of characters enclosed by [ and ]. It matches any single character in that list; if the first character of the
list is the caret ^ then it matches any character not in the list. For example, the regular expression [0123456789] matches any single digit.
Within a bracket expression, a range expression consists of two characters separated by a hyphen. It matches any single character that sorts
between the two characters, inclusive, using the locale’s collating sequence and character set. For example, in the default C locale, [a-d] is
equivalent to [abcd]. Many locales sort characters in dictionary order, and in these locales [a-d] is typically not equivalent to [abcd]; it
might be equivalent to [aBbCcDd], for example. To obtain the traditional interpretation of bracket expressions, you can use the C locale by
setting the LC_ALL environment variable to the value C.
Finally, certain named classes of characters are predefined within bracket expressions, as follows. Their names are self explanatory, and they
are [:alnum:], [:alpha:], [:cntrl:], [:digit:], [:graph:], [:lower:], [:print:], [:punct:], [:space:], [:upper:], and [:xdigit:]. For example,
[[:alnum:]] means [0-9A-Za-z], except the latter form depends upon the C locale and the ASCII character encoding, whereas the former is inde-
pendent of locale and character set. (Note that the brackets in these class names are part of the symbolic names, and must be included in
addition to the brackets delimiting the bracket list.) Most metacharacters lose their special meaning inside lists. To include a literal ]
place it first in the list. Similarly, to include a literal ^ place it anywhere but first. Finally, to include a literal - place it last.
The period . matches any single character. The symbol \w is a synonym for [[:alnum:]] and \W is a synonym for [^[:alnum]].
The caret ^ and the dollar sign $ are metacharacters that respectively match the empty string at the beginning and end of a line. The symbols
\< and \> respectively match the empty string at the beginning and end of a word. The symbol \b matches the empty string at the edge of a
word, and \B matches the empty string provided it’s not at the edge of a word.
A regular expression may be followed by one of several repetition operators:
? The preceding item is optional and matched at most once.
* The preceding item will be matched zero or more times.
+ The preceding item will be matched one or more times.
{n} The preceding item is matched exactly n times.
{n,} The preceding item is matched n or more times.
{n,m} The preceding item is matched at least n times, but not more than m times.
Two regular expressions may be concatenated; the resulting regular expression matches any string formed by concatenating two substrings that
respectively match the concatenated subexpressions.
Two regular expressions may be joined by the infix operator |; the resulting regular expression matches any string matching either subexpres-
sion.
Repetition takes precedence over concatenation, which in turn takes precedence over alternation. A whole subexpression may be enclosed in
parentheses to override these precedence rules.
The backreference \n, where n is a single digit, matches the substring previously matched by the nth parenthesized subexpression of the regular
expression.
In basic regular expressions the metacharacters ?, +, {, |, (, and ) lose their special meaning; instead use the backslashed versions \?, \+,
\{, \|, \(, and \).
Traditional egrep did not support the { metacharacter, and some egrep implementations support \{ instead, so portable scripts should avoid { in
egrep patterns and should use [{] to match a literal {.
GNU egrep attempts to support traditional usage by assuming that { is not special if it would be the start of an invalid interval specifica-
tion. For example, the shell command egrep ’{1’ searches for the two-character string {1 instead of reporting a syntax error in the regular
expression. POSIX.2 allows this behavior as an extension, but portable scripts should avoid it.
ENVIRONMENT VARIABLES
Grep’s behavior is affected by the following environment variables.
A locale LC_foo is specified by examining the three environment variables LC_ALL, LC_foo, LANG, in that order. The first of these variables
that is set specifies the locale. For example, if LC_ALL is not set, but LC_MESSAGES is set to pt_BR, then Brazilian Portuguese is used for
the LC_MESSAGES locale. The C locale is used if none of these environment variables are set, or if the locale catalog is not installed, or if
grep was not compiled with national language support (NLS).
GREP_OPTIONS
This variable specifies default options to be placed in front of any explicit options. For example, if GREP_OPTIONS is ’--binary-
files=without-match --directories=skip’, grep behaves as if the two options --binary-files=without-match and --directories=skip had been
specified before any explicit options. Option specifications are separated by whitespace. A backslash escapes the next character, so
it can be used to specify an option containing whitespace or a backslash.
GREP_COLOR
Specifies the marker for highlighting.
LC_ALL, LC_COLLATE, LANG
These variables specify the LC_COLLATE locale, which determines the collating sequence used to interpret range expressions like [a-z].
LC_ALL, LC_CTYPE, LANG
These variables specify the LC_CTYPE locale, which determines the type of characters, e.g., which characters are whitespace.
LC_ALL, LC_MESSAGES, LANG
These variables specify the LC_MESSAGES locale, which determines the language that grep uses for messages. The default C locale uses
American English messages.
POSIXLY_CORRECT
If set, grep behaves as POSIX.2 requires; otherwise, grep behaves more like other GNU programs. POSIX.2 requires that options that fol-
low file names must be treated as file names; by default, such options are permuted to the front of the operand list and are treated as
options. Also, POSIX.2 requires that unrecognized options be diagnosed as “illegal”, but since they are not really against the law the
default is to diagnose them as “invalid”. POSIXLY_CORRECT also disables _N_GNU_nonoption_argv_flags_, described below.
_N_GNU_nonoption_argv_flags_
(Here N is grep’s numeric process ID.) If the ith character of this environment variable’s value is 1, do not consider the ith operand
of grep to be an option, even if it appears to be one. A shell can put this variable in the environment for each command it runs, spec-
ifying which operands are the results of file name wildcard expansion and therefore should not be treated as options. This behavior is
available only with the GNU C library, and only when POSIXLY_CORRECT is not set.
DIAGNOSTICS
Normally, exit status is 0 if selected lines are found and 1 otherwise. But the exit status is 2 if an error occurred, unless the -q or
--quiet or --silent option is used and a selected line is found.
BUGS
Email bug reports to bug-grep@gnu.org.
Large repetition counts in the {n,m} construct may cause grep to use lots of memory. In addition, certain other obscure regular expressions
require exponential time and space, and may cause grep to run out of memory.
Backreferences are very slow, and may require exponential time.
GNU Project 2002/01/22 GREP(1)
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