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== How can I read a file (data stream, variable) line-by-line? == Use a `while` loop and the `read` command: {{{ while read -r line do echo "$line" done < "$file" }}} The `-r` option to read prevents backslash interpretation (usually used as a backslash newline pair, to continue over multiple lines). Without this option, any backslashes in the input will be discarded. You should always use the `-r` option with read. [[BASH]] can also iterate over the lines in a variable using a "here string": {{{ while read -r line; do echo "$line" done <<< "$var" }}} If your data source is the script's standard input, then you don't need any redirection at all. |
== How can I read a file (data stream, variable) line-by-line (and/or field-by-field)? == [[DontReadLinesWithFor|Don't try to use "for"]]. Use a `while` loop and the `read` command. Here is the basic template; there are many variations to discuss: {{{#!highlight bash while IFS= read -r line; do printf '%s\n' "$line" done < "$file" }}} `line` is a variable name, chosen by you. You can use any valid shell variable name(s) there; see [[#trimming|field splitting]] below. `< "$file"` redirects the loop's input from a file whose name is stored in a variable; see [[#source|source selection]] below. If you want to read lines from a file into an [[BashFAQ/005|array]], see [[BashFAQ/005|FAQ 5]]. <<TableOfContents>> <<Anchor(trimming)>> === Field splitting, whitespace trimming, and other input processing === The `-r` option to `read` prevents backslash interpretation (usually used as a backslash newline pair, to continue over multiple lines or to escape the delimiters). Without this option, any unescaped backslashes in the input will be discarded. You should almost always use the `-r` option with read. The most common exception to this rule is when -e is used, which uses Readline to obtain the line from an interactive shell. In that case, tab completion will add backslashes to escape spaces and such, and you do not want them to be literally included in the variable. This would never be used when reading anything line-by-line, though, and -r should always be used when doing so. By default, `read` modifies each line read, by [[BashFAQ/067|removing all leading and trailing whitespace]] characters (spaces and tabs, if present in [[IFS]]). If that is not desired, the `IFS` variable may be cleared, as in the example above. If you want the trimming, leave `IFS` alone: {{{#!highlight bash # Leading/trailing whitespace trimming. while read -r line; do printf '%s\n' "$line" done < "$file" }}} |
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{{{ # Input file has 3 columns separated by white space. while read -r first_name last_name phone; do ... done < "$file" }}} If the field delimiters are not whitespace, you can set {{{IFS}}} (input field separator): {{{ while IFS=: read -r user pass uid gid gecos home shell; do ... done < /etc/passwd }}} For TAB delimited files, use IFS=$'\t'. Also, please note that you do ''not'' necessarily need to know how many fields each line of input contains. If you supply more variables than there are fields, the extra variables will be empty. If you supply fewer, the last variable gets "all the rest" of the fields after the preceding ones are satisfied. For example, {{{ while read -r first_name last_name junk; do ... done <<< 'Bob Smith 123 Main Street Elk Grove Iowa 123-555-6789' # Inside the loop, first_name will contain "Bob", and # last_name will contain "Smith". The variable "junk" holds # everything else. }}} The {{{read}}} command modifies each line read, e.g. by default it removes all leading whitespace characters (blanks, tab characters, ... -- basically any leading characters present in IFS). If that is not desired, the {{{IFS}}} variable has to be cleared: {{{ while IFS= read -r line do echo "$line" done < "$file" }}} '''Note that reading a file line by line this way is ''very slow'' for large files. Consider using e.g. [[AWK]] instead if you get performance problems.''' |
{{{#!highlight bash # Input file has 3 columns separated by white space (space or tab characters only). while read -r first_name last_name phone; do # Only print the last name (second column) printf '%s\n' "$last_name" done < "$file" }}} If the field delimiters are not whitespace, you can set [[IFS|IFS (internal field separator)]]: {{{#!highlight bash # Extract the username and its shell from /etc/passwd: while IFS=: read -r user pass uid gid gecos home shell; do printf '%s: %s\n' "$user" "$shell" done < /etc/passwd }}} For tab-delimited files, use [[Quotes|IFS=$'\t']] though beware that multiple tab characters in the input will be considered as '''one''' delimiter (and the Ksh93/Zsh `IFS=$'\t\t'` workaround won't work in Bash). You do ''not'' necessarily need to know how many fields each line of input contains. If you supply more variables than there are fields, the extra variables will be empty. If you supply fewer, the last variable gets "all the rest" of the fields after the preceding ones are satisfied. For example, {{{#!highlight bash # Bash read -r first last junk <<< 'Bob Smith 123 Main Street Elk Grove Iowa 123-555-6789' # first will contain "Bob", and last will contain "Smith". # junk holds everything else. }}} Some people use the throwaway variable `_` as a "junk variable" to ignore fields. It (or indeed any variable) can also be used more than once in a single `read` command, if we don't care what goes into it: {{{#!highlight bash # Bash read -r _ _ first middle last _ <<< "$record" # We skip the first two fields, then read the next three. # Remember, the final _ can absorb any number of fields. # It doesn't need to be repeated there. }}} Note that this usage of `_` is only guaranteed to work in Bash. Many other shells use `_` for other purposes that will at best cause this to not have the desired effect, and can break the script entirely. It is better to choose a unique variable that isn't used elsewhere in the script, even though `_` is a common Bash convention. If avoiding comments starting with `#` is desired, you can simply skip them inside the loop: {{{#!highlight bash # Bash while read -r line; do [[ $line = \#* ]] && continue printf '%s\n' "$line" done < "$file" }}} <<Anchor(source)>> === Input source selection === The [[BashGuide/InputAndOutput#Redirection|redirection]] `< "$file"` tells the `while` loop to read from the file whose name is in the variable `file`. If you would prefer to use a literal pathname instead of a variable, you may do that as well. If your input source is the script's standard input, then you don't need any redirection at all. If your input source is the contents of a variable/parameter, bash can iterate over its lines using a [[BashGuide/InputAndOutput#Heredocs_And_Herestrings|here string]]: {{{#!highlight bash while IFS= read -r line; do printf '%s\n' "$line" done <<< "$var" }}} The same can be done in any Bourne-type shell by using a "here document" (although `read -r` is POSIX, not Bourne): {{{#!highlight bash while IFS= read -r line; do printf '%s\n' "$line" done <<EOF $var EOF }}} |
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{{{ some command | while read -r line; do other commands done }}} This method is especially useful for processing the output of `find` with a block of commands: {{{ find . -print0 | while IFS= read -r -d $'\0' file; do mv "$file" "${file// /_}" done }}} This command reads one filename at a time from the file command and renames the file so that its spaces are replaced by underscores. Note the usage of {{{-print0}}} in the find command, which uses NUL bytes as filename delimiters, and {{{-d $'\0'}}} in the read command to instruct it to read all text into the file variable until it finds a NUL byte. By default, `find` and `read` delimit their input with newlines; however, since filenames can potentially contain newlines themselves, this default behaviour will split up those filenames with newlines and cause the loop body to fail. Additionally it is necessary to unset IFS, because otherwise read would strip trailing whitespace. See [[BashFAQ/020|FAQ #20]] for more details. Using a pipe to send find's output into a while loop places the loop in a SubShell and may therefore cause problems later on if the commands inside the body of the loop attempt to set variables which need to be used outside the loop; in that case, see [[BashFAQ/024|FAQ 24]], or use ProcessSubstitution like: {{{ while read -r line; do other commands done < <(some command) }}} Sometimes it's useful to read a file into an [[BashFAQ/005|array]], one array element per line. You can do that with the following example: {{{ oIFS=$IFS IFS=$'\n' arr=($(< myfile)) IFS=$oIFS # Warning: breaks if lines contain "*" or similar }}} This temporarily changes the Input Field Separator to a newline, so that each line will be considered one field by read. Then it populates the array {{{arr}}} with the fields. Then it sets the {{{IFS}}} back to what it was before. This same trick works on a stream of data as well as a file: {{{ oIFS=$IFS IFS=$'\n' arr=($(find . -type f)) IFS=$oIFS # Same warning as the previous example }}} Of course, this will blow up in your face if the filenames contain newlines; see [[BashFAQ/020|FAQ 20]] for hints on dealing with such filenames. Both of these array-stuffing examples fail if the shell encounters a [[glob]] that matches files in the current directory as one of the input lines. Glob expansion can be disabled with `set -f` and then re-enabled afterward with `set +f` if needed. For more details on arrays, see [[BashFAQ/005|FAQ 5]]. Moreover, since bash will treat sequences of IFS whitespace as a single character, if the input has empty lines (meaning that groups of two or more consecutive \n characters appear in the file), they will be lost. So, for example: {{{ $ cat myfile line1 line2 line3 $ oIFS=$IFS IFS=$'\n' arr=($(< myfile)) IFS=$oIFS $ declare -p arr declare -a arr='([0]="line1" [1]="line2" [2]="line3")' }}} In the end, the safest way to read a file into an array is still to use a loop: {{{ i=0 while IFS= read -r arr[i++]; do :;done < "$file" # or <<< "$var" to iterate over a variable }}} On the other hand, if the file lacks a trailing newline (such as {{{/proc/$$/cmdline}}} on Linux), the line will not be printed by a {{{while read ...}}} loop, as {{{read}}} returns a failure that aborts the while loop, thus failing to print the ultimate line. It does, however, store the contents of the partial line in the variable, so you can test whether there was such an unterminated line by checking whether the variable is non-empty at the end of the loop: {{{ # This does not work: echo -en 'line 1\ntruncated line 2' | while read -r line; do echo $line; done # This does not work either: echo -en 'line 1\ntruncated line 2' | while read -r line; do echo "$line"; done; [[ $line ]] && echo -n "$line" # This works: echo -en 'line 1\ntruncated line 2' | (while read -r line; do echo "$line"; done; [[ $line ]] && echo "$line") }}} |
{{{#!highlight bash some command | while IFS= read -r line; do printf '%s\n' "$line" done }}} This method is especially useful for processing the output of [[UsingFind|find]] with a block of commands: {{{#!highlight bash find . -type f -print0 | while IFS= read -r -d '' file; do mv "$file" "${file// /_}" done }}} This reads one filename at a time from the `find` command and [[BashFAQ/030|renames the file]], replacing spaces with underscores. Note the usage of `-print0` in the `find` command, which uses NUL bytes as filename delimiters; and {{{-d ''}}} in the `read` command to instruct it to read all text into the `file` variable until it finds a NUL byte. By default, `find` and `read` delimit their input with newlines; however, since filenames can potentially contain newlines themselves, this default behaviour will split up those filenames at the newlines and cause the loop body to fail. Additionally it is necessary to set `IFS` to an empty string, because otherwise `read` would still strip leading and trailing whitespace. See [[BashFAQ/020|FAQ #20]] for more details. Using a pipe to send `find`'s output into a `while` loop places the loop in a SubShell, which means any state changes you make (changing variables, `cd`, opening and closing [[FileDescriptor|files]], etc.) will be lost when the loop finishes. To avoid that, you may use a ProcessSubstitution: {{{#!highlight bash linecount=0 while IFS= read -r line; do linecount=$((linecount + 1)) done < <(some command) printf 'total lines: %d\n' "$linecount" }}} See [[BashFAQ/024|FAQ 24]] for more discussion. === My text files are broken! They lack their final newlines! === If there are some characters after the last line in the file (or to put it differently, if the last line is not terminated by a newline character), then `read` will read it but return false, leaving the broken partial line in the `read` variable(s). You can process this after the loop: {{{#!highlight bash # Emulate cat while IFS= read -r line; do printf '%s\n' "$line" done < "$file" [[ -n $line ]] && printf %s "$line" }}} Or: {{{#!highlight bash # This does not work: printf 'line 1\ntruncated line 2' | while read -r line; do echo $line; done # This does not work either: printf 'line 1\ntruncated line 2' | while read -r line; do echo "$line"; done; [[ $line ]] && echo -n "$line" # This works: printf 'line 1\ntruncated line 2' | { while read -r line; do echo "$line"; done; [[ $line ]] && echo "$line"; } }}} The first example, beyond missing the after-loop test, is also missing quotes. See [[Quotes|Quotes]] or [[Arguments|Arguments]] for an explanation why. The [[Arguments|Arguments]] page is an especially important read. |
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=== Using for instead of while read === Using {{{for}}} instead of {{{while read ...}}} is generally less efficient and more "featureful": {{{ $ cat afile ef gh * $ while read i ; do echo "$i" ; done < afile ef gh * $ for i in $(<afile) ; do echo "$i" ; done ef gh afile # the glob was expanded, and it looped per word. #workaround: $ IFS=$'\n' ;set -f ; for i in $(<afile) ; do echo "$i" ; done ef gh * }}} However, as discussed in [[BashFAQ/005|FAQ #5]], the use of `IFS=$'\n'` (or any other "whitespace" in `IFS`) causes the shell to consolidate all consecutive instances of the whitespace delimiter into one. In other words, it skips over blank lines. Thus, {{{ ~$ cat foo line one line three ~$ IFS=$'\n'; set -f; for line in $(<foo); do echo "$line"; done; unset IFS; set +f line one line three ~$ }}} If preservation of blank lines is important, just go back to using `while read`. |
Alternatively, you can simply add a logical OR to the while test: {{{#!highlight bash while IFS= read -r line || [[ -n $line ]]; do printf '%s\n' "$line" done < "$file" printf 'line 1\ntruncated line 2' | while read -r line || [[ -n $line ]]; do echo "$line"; done }}} === How to keep other commands from "eating" the input === Some commands greedily eat up all available data on standard input. The examples above do not take precautions against such programs. For example, {{{#!highlight bash while read -r line; do cat > ignoredfile printf '%s\n' "$line" done < "$file" }}} will only print the contents of the first line, with the remaining contents going to "ignoredfile", as `cat` slurps up all available input. One workaround is to use a numeric FileDescriptor rather than standard input: {{{#!highlight bash # Bash while IFS= read -r -u 9 line; do cat > ignoredfile printf '%s\n' "$line" done 9< "$file" # Note that read -u is not portable to every shell. Use a redirect to ensure it works in any POSIX compliant shell: while IFS= read -r line <&9; do cat > ignoredfile printf '%s\n' "$line" done 9< "$file" }}} Or: {{{#!highlight bash exec 9< "$file" while IFS= read -r line <&9; do cat > ignoredfile printf '%s\n' "$line" done exec 9<&- }}} This example will wait for the user to type something into the file {{{ignoredfile}}} at each iteration instead of eating up the loop input. You might need this, for example, with `mencoder` which will accept user input if there is any, but will continue silently if there isn't. Other commands that act this way include `ssh` and `ffmpeg`. Additional workarounds for this are discussed in [[BashFAQ/089|FAQ #89]]. |
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CategoryShell | CategoryShell CategoryBashguide |
How can I read a file (data stream, variable) line-by-line (and/or field-by-field)?
Don't try to use "for". Use a while loop and the read command. Here is the basic template; there are many variations to discuss:
line is a variable name, chosen by you. You can use any valid shell variable name(s) there; see field splitting below.
< "$file" redirects the loop's input from a file whose name is stored in a variable; see source selection below.
If you want to read lines from a file into an array, see FAQ 5.
Contents
Field splitting, whitespace trimming, and other input processing
The -r option to read prevents backslash interpretation (usually used as a backslash newline pair, to continue over multiple lines or to escape the delimiters). Without this option, any unescaped backslashes in the input will be discarded. You should almost always use the -r option with read.
The most common exception to this rule is when -e is used, which uses Readline to obtain the line from an interactive shell. In that case, tab completion will add backslashes to escape spaces and such, and you do not want them to be literally included in the variable. This would never be used when reading anything line-by-line, though, and -r should always be used when doing so.
By default, read modifies each line read, by removing all leading and trailing whitespace characters (spaces and tabs, if present in IFS). If that is not desired, the IFS variable may be cleared, as in the example above. If you want the trimming, leave IFS alone:
If you want to operate on individual fields within each line, you may supply additional variables to read:
If the field delimiters are not whitespace, you can set IFS (internal field separator):
For tab-delimited files, use IFS=$'\t' though beware that multiple tab characters in the input will be considered as one delimiter (and the Ksh93/Zsh IFS=$'\t\t' workaround won't work in Bash).
You do not necessarily need to know how many fields each line of input contains. If you supply more variables than there are fields, the extra variables will be empty. If you supply fewer, the last variable gets "all the rest" of the fields after the preceding ones are satisfied. For example,
Some people use the throwaway variable _ as a "junk variable" to ignore fields. It (or indeed any variable) can also be used more than once in a single read command, if we don't care what goes into it:
Note that this usage of _ is only guaranteed to work in Bash. Many other shells use _ for other purposes that will at best cause this to not have the desired effect, and can break the script entirely. It is better to choose a unique variable that isn't used elsewhere in the script, even though _ is a common Bash convention.
If avoiding comments starting with # is desired, you can simply skip them inside the loop:
Input source selection
The redirection < "$file" tells the while loop to read from the file whose name is in the variable file. If you would prefer to use a literal pathname instead of a variable, you may do that as well. If your input source is the script's standard input, then you don't need any redirection at all.
If your input source is the contents of a variable/parameter, bash can iterate over its lines using a here string:
The same can be done in any Bourne-type shell by using a "here document" (although read -r is POSIX, not Bourne):
One may also read from a command instead of a regular file:
This method is especially useful for processing the output of find with a block of commands:
This reads one filename at a time from the find command and renames the file, replacing spaces with underscores.
Note the usage of -print0 in the find command, which uses NUL bytes as filename delimiters; and -d '' in the read command to instruct it to read all text into the file variable until it finds a NUL byte. By default, find and read delimit their input with newlines; however, since filenames can potentially contain newlines themselves, this default behaviour will split up those filenames at the newlines and cause the loop body to fail. Additionally it is necessary to set IFS to an empty string, because otherwise read would still strip leading and trailing whitespace. See FAQ #20 for more details.
Using a pipe to send find's output into a while loop places the loop in a SubShell, which means any state changes you make (changing variables, cd, opening and closing files, etc.) will be lost when the loop finishes. To avoid that, you may use a ProcessSubstitution:
See FAQ 24 for more discussion.
My text files are broken! They lack their final newlines!
If there are some characters after the last line in the file (or to put it differently, if the last line is not terminated by a newline character), then read will read it but return false, leaving the broken partial line in the read variable(s). You can process this after the loop:
Or:
1 # This does not work:
2 printf 'line 1\ntruncated line 2' | while read -r line; do echo $line; done
3
4 # This does not work either:
5 printf 'line 1\ntruncated line 2' | while read -r line; do echo "$line"; done; [[ $line ]] && echo -n "$line"
6
7 # This works:
8 printf 'line 1\ntruncated line 2' | { while read -r line; do echo "$line"; done; [[ $line ]] && echo "$line"; }
The first example, beyond missing the after-loop test, is also missing quotes. See Quotes or Arguments for an explanation why. The Arguments page is an especially important read.
For a discussion of why the second example above does not work as expected, see FAQ #24.
Alternatively, you can simply add a logical OR to the while test:
How to keep other commands from "eating" the input
Some commands greedily eat up all available data on standard input. The examples above do not take precautions against such programs. For example,
will only print the contents of the first line, with the remaining contents going to "ignoredfile", as cat slurps up all available input.
One workaround is to use a numeric FileDescriptor rather than standard input:
1 # Bash
2 while IFS= read -r -u 9 line; do
3 cat > ignoredfile
4 printf '%s\n' "$line"
5 done 9< "$file"
6
7 # Note that read -u is not portable to every shell. Use a redirect to ensure it works in any POSIX compliant shell:
8 while IFS= read -r line <&9; do
9 cat > ignoredfile
10 printf '%s\n' "$line"
11 done 9< "$file"
Or:
This example will wait for the user to type something into the file ignoredfile at each iteration instead of eating up the loop input.
You might need this, for example, with mencoder which will accept user input if there is any, but will continue silently if there isn't. Other commands that act this way include ssh and ffmpeg. Additional workarounds for this are discussed in FAQ #89.