Differences between revisions 19 and 38 (spanning 19 versions)
Revision 19 as of 2010-01-15 23:59:45
Size: 6033
Editor: GreyCat
Comment: restore some deleted content; clean up the previous "clean-up"
Revision 38 as of 2014-05-04 22:03:53
Size: 3515
Editor: ormaaj
Comment: oops
Deletions are marked like this. Additions are marked like this.
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if [[ $foo = *[^0-9]* ]]; then if [[ $foo != *[!0-9]* ]]; then
    echo "'$foo' is strictly numeric"
else
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else
    echo "'$foo' is strictly numeric"
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# ksh, POSIX
case "$foo" in
    *[!0-9]*) echo "'$foo' has a non-digit somewhere in it" ;;
    *) echo "'$foo' is strictly numeric" ;;
esac
# POSIX
case $var in
    *[!0-9]*|'')
      printf '%s has a non-digit somewhere in it\' "$var"
       
;;
    *)
      printf '%s is strictly numeric\n' "$var"
esac >&2
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# Bash -- extended globs must be enabled. # Bash -- extended globs must be enabled explicitly in versions prior to 4.1.
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# Bash # Bash / ksh
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[[ $foo = *[0-9]* && $foo = ?([+-])*([0-9])?(.*([0-9])) ]] &&
  echo "foo is a floating-point number"

if
[[ $foo = @(*[0-9]*|!([+-]|)) && $foo = ?([+-])*([0-9])?(.*([0-9])) ]]; then
  echo 'foo is a floating-point number'
fi
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The leading test of {{{$foo}}} is to ensure that it contains at least one digit. The extended glob, by itself, would match the empty string, or a lone {{{+}}} or {{{-}}}, which may not be desirable behavior. Optionally, `case..esac` may have been used in shells with extended pattern matching. The leading test of {{{$foo}}} is to ensure that it contains at least one digit, isn't empty, and contains more than just + or - by itself.
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Korn shell has extended globs enabled by default, but lacks `[[`, so we must use `case` to do the glob-matching:

{{{
# Korn
case $foo in
  *[0-9]*)
    case $foo in
        ?([+-])*([0-9])?(.*([0-9]))) echo "foo is a number";;
    esac;;
esac
}}}

Note that this uses the same extended glob as the Bash example before it; the third closing parenthesis at the end of it is actually part of the case syntax.

If your definition of "a valid number" is even more complex, or if you need a solution that works in legacy Bourne shells, you might prefer to use an external tool's [[RegularExpression|regular expression]] syntax. Here is a portable version, using {{{egrep}}}:
If your definition of "a valid number" is even more complex, or if you need a solution that works in legacy Bourne shells, you might prefer to use an external tool's [[RegularExpression|regular expression]] syntax. Here is a portable version (explained in detail [[http://www.wplug.org/wiki/Meeting-20100612#EXERCISE_TWO|here]]), using {{{egrep}}}:
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if test "$foo" && echo "$foo" | egrep '^[-+]?[0-9]*(\.[0-9]*)?$' >/dev/null
then
    echo "'$foo' might be a number"
if echo "$foo" | grep -qE '^[-+]?([0-9]+\.?|[0-9]*\.[0-9]+)$'; then
    echo "'$foo' is a number"
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    echo "'$foo' might not be a number"     echo "'$foo' is not a number"
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(Like the extended globs, this [[RegularExpression|extended regular expression]] will match a lone {{{+}}} or {{{-}}}. The initial {{{test}}} command only requires a non-empty string. Closing the last "bug" is left as an exercise for the reader, mostly because GreyCat is too damned lazy to learn {{{expr(1)}}}.)

Bash version 3 and above have regular expression support in the [[ command. Due to bugs and changes in the implementation of the `=~` feature throughout bash 3.x, we '''do not recommend''' using it, but people do it anyway, so we have to maintain this example (''and keep restoring this warning, too, when people delete it''):
Bash version 3 and above have regular expression support in the [[ command.
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# Put the RE in a var for backward compatibility with versions <3.2
regexp='^[-+]?[0-9]*(\.[0-9]*)?$' 
if [[ $foo = *[0-9]* && $foo =~ $var ]]; then
# The regexp must be stored in a var and expanded for backward compatibility with versions < 3.2

regexp='^[-+]?[0-9]*(\.[0-9]*)?$'
if [[ $foo = *[0-9]* && $foo =~ $regexp ]]; then
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=== Using the parsing done by [ and printf === === Using the parsing done by [ and printf (or "using eq") ===
{{{
# fails with ksh
if [ "$foo" -eq "$foo" ] 2>/dev/null; then
 echo "$foo is an integer"
fi
}}}
`[` parses the variable and interprets it as an integer because of the `-eq`. If the parsing succeeds the test is trivially true; if it fails `[` prints an error message that `2>/dev/null` hides and sets a status different from 0. However this method fails if the shell is ksh, because ksh evaluates the variable as an arithmetic expression.

You can use a similar trick with `printf`, but this won't work in all shells either:
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# fails with ksh
if [ "$foo" -eq "$foo" ] 2>/dev/null;then
 echo "$foo is an integer"
fi
}}}

`[` parses the variable and interprets it as in integer because of the `-eq`. If the parsing succeds the test is trivially true; if it fails `[` prints an error message that `2>/dev/null` hides and sets a status different from 0. However this method fails if the shell is ksh, because ksh evaluates the variable as an arithmetic expression.

You can use a similar trick with `printf`:
{{{
# POSIX
if printf "%f" "$foo" >/dev/null 2>&1; then
# BASH
if printf %f "$foo" >/dev/null 2>&1; then
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=== Using the integer type ===

If you just want to guarantee ahead of time that a variable contains an integer, without actually checking, you can give the variable the "integer" attribute.

{{{
# Bash
declare -i foo
foo=-10+1; echo "$foo" # prints -9

foo="hello"; echo "$foo"
# the value of the variable "hello" is evaluated; if unset, foo is 0

foo="Some random string" # results in an error.
}}}

Any value assigned to a variable with the integer attribute set is evaluated as an [[ArithmeticExpression|arithmetic expression]] just like inside `$(( ))`. Bash will raise an error if you try to assign an invalid arithmetic expression.

In Bash and ksh93, if a variable which has been declared integer is used in a `read` command, the user's input is treated as an [[ArithmeticExpression|arithmetic expression]], as with assignment. In particular, if the user types an identifier, the variable will be set to the value of the variable with that name, and `read` will give no other indication of a problem.

{{{
# Bash (and ksh93, if you replace declare with typeset)
$ declare -i foo
$ read foo
hello
$ echo $foo # prints 0; 'hello' is unset, so is treated as 0 for arithmetic purposes
$ hello=5
$ read foo # user types hello again
hello
$ echo $foo # prints 5, the value of 'hello' as an arithmetic expression
}}}

Pretty useless if you want to read only integers.

In the older Korn shell (ksh88), if a variable is declared integer and used in a `read` command, and the user types an invalid integer, the shell complains, the read command returns an error status, and the value of the variable is unchanged.

{{{
# ksh88
$ typeset -i foo
$ foo=42
$ read foo
hello
ksh: hello: bad number
$ echo $?
1
$ echo $foo
42
}}}

How can I tell whether a variable contains a valid number?

First, you have to define what you mean by "number". The most common case when people ask this seems to be "a non-negative integer, with no leading + sign". Or in other words, a string of all digits. Other times, people want to validate a floating-point input, with optional sign and optional decimal point.

Hand parsing

If you're validating a simple "string of digits", you can do it with a glob:

# Bash
if [[ $foo != *[!0-9]* ]]; then
    echo "'$foo' is strictly numeric"
else
    echo "'$foo' has a non-digit somewhere in it"
fi

The same thing can be done in Korn and POSIX shells as well, using case:

# POSIX
case $var in
    *[!0-9]*|'')
        printf '%s has a non-digit somewhere in it\' "$var"
        ;;
    *)
        printf '%s is strictly numeric\n' "$var"
esac >&2

If you need to allow a leading negative sign, or if want a valid floating-point number or something else more complex, then there are a few possible ways. Standard globs aren't expressive enough to do this, but we can use extended globs:

# Bash -- extended globs must be enabled explicitly in versions prior to 4.1.
# Check whether the variable is all digits.
shopt -s extglob
[[ $var == +([0-9]) ]]

A more complex case:

# Bash / ksh
shopt -s extglob

if [[ $foo = @(*[0-9]*|!([+-]|)) && $foo = ?([+-])*([0-9])?(.*([0-9])) ]]; then
  echo 'foo is a floating-point number'
fi

Optionally, case..esac may have been used in shells with extended pattern matching. The leading test of $foo is to ensure that it contains at least one digit, isn't empty, and contains more than just + or - by itself.

If your definition of "a valid number" is even more complex, or if you need a solution that works in legacy Bourne shells, you might prefer to use an external tool's regular expression syntax. Here is a portable version (explained in detail here), using egrep:

# Bourne
if echo "$foo" | grep -qE '^[-+]?([0-9]+\.?|[0-9]*\.[0-9]+)$'; then
    echo "'$foo' is a number"
else
    echo "'$foo' is not a number"
fi

Bash version 3 and above have regular expression support in the [[ command.

# Bash
# The regexp must be stored in a var and expanded for backward compatibility with versions < 3.2

regexp='^[-+]?[0-9]*(\.[0-9]*)?$'
if [[ $foo = *[0-9]* && $foo =~ $regexp ]]; then
    echo "'$foo' looks rather like a number"
else
    echo "'$foo' doesn't look particularly numeric to me"
fi

Using the parsing done by [ and printf (or "using eq")

# fails with ksh
if [ "$foo" -eq "$foo" ] 2>/dev/null; then
 echo "$foo is an integer"
fi

[ parses the variable and interprets it as an integer because of the -eq. If the parsing succeeds the test is trivially true; if it fails [ prints an error message that 2>/dev/null hides and sets a status different from 0. However this method fails if the shell is ksh, because ksh evaluates the variable as an arithmetic expression.

You can use a similar trick with printf, but this won't work in all shells either:

# BASH
if printf %f "$foo" >/dev/null 2>&1; then
  echo "$foo is a float"
fi

You can use %d to parse an integer. Take care that the parsing might be (is supposed to be?) locale-dependent.

BashFAQ/054 (last edited 2022-08-01 10:02:57 by 89)