# RegEx that matches positive numbers

I need to write a regex to allow only positive number ( integers or decimals). I have found this:

/^(?!(?:0|0\.0|0\.00)\$)[+]?\d+(\.\d|\.\d[0-9])?\$/

but it just accepts up to 2 decimal places. What changes do I have to make, so that it can accept any number of decimal places?

Also where can I find a good tutorial for learning regex.

Thanks beforehand

• Is ０４ a positive number? Note that that is not 04; the code points differ. Similarly, is ¼ a positive number? What about 3⁴? I believe you’ll find that 0⁴ is not a positive number, yet 4⁰ actually is. How do you feel about , or ⅽ̄ in lieu of ? Isn’t π a positive number? Did you know that is a positive number, but that is a negative number? Have you considered ` 𝟑 `? Dec 16, 2010 at 23:25
• The basic test cases need to minimally be +2, 2, -2, 2., .2, 2.2, -2.2, +2.2 — and then again with all those twos turned to zeroes. The answer you accepted fails on some of those. You should probably also add 6e23, 6e-23, and 0e23 to your test cases. And we haven't considered −1, which is an interesting case. Dec 16, 2010 at 23:48
• possible duplicate of Learning Regular Expressions Feb 27, 2015 at 19:17
• This is really not the kind of thing you should be doing with regexes. As the various complicated answers (and their mistakes) illustrate. Think outside the box. Look for an alternative approach. Jul 25, 2018 at 23:00

This would be my way: ^[+]?\d+([.]\d+)?\$
EDIT: If you want to allow something like .23, you could use ^[+]?([.]\d+|\d+([.]\d+)?)\$
EDIT: tchrist insists on this one: allowing 4., you could use ^[+]?([.]\d+|\d+[.]?\d*)\$

Explanation:

• with or without positive sign
• one or more digits
• with or without:
• decimal point
• one or more digits

Note: This will not accept a negative number, which is what you ultimately want.

• I've added this (?!(?:0|0\.0|0\.00)\$) , to prevent the user from entering 0/0.0/0.00 , but what if it enters 0.000. How can I say "0.any number of zeros" ?
– eddy
Dec 16, 2010 at 22:55
• @eddy -- So you don't want to accept a number that ultimately translates to pure 0? Dec 16, 2010 at 22:58
• @tchrist -- no it doesn't, the \d+ will force at least one digit before it gets to the decimal point. Dec 16, 2010 at 23:10
• @BeemerGuy: That’s precisely why it fails: because ".23" is a perfectly valid positive number, but your pattern erroneously rejects it. Dec 16, 2010 at 23:11
• @eddy -- I believe the expression would be very complex if you want to account for that in a single shot. You can run it against a second regex to make sure it's not zeros, but that would be an overkill. At that point, programmatically checking if it evaluates to zero is the ultimate solution. Unless there's a regex that can do it that I don't know about; sorry =( Dec 16, 2010 at 23:13

The short answer is that you need this pattern:

^(?!(?:^[-+]?[0.]+(?:[Ee]|\$)))(?!(?:^-))(?:(?:[+-]?)(?=[0123456789.])(?:(?:(?:[0123456789]+)(?:(?:[.])(?:[0123456789]*))?|(?:(?:[.])(?:[0123456789]+))))(?:(?:[Ee])(?:(?:[+-]?)(?:[0123456789]+))|))\$

The long answer is contained in the following program:

#!/usr/bin/perl

use strict;
use warnings qw<FATAL all>;

my \$number_rx = qr{

# leading sign, positive or negative
(?: [+-] ? )

# mantissa
(?= [0123456789.] )
(?:
# "N" or "N." or "N.N"
(?:
(?: [0123456789] +     )
(?:
(?: [.] )
(?: [0123456789] * )
) ?
|
(?:
(?: [.] )
(?: [0123456789] + )
)
)
)

# abscissa
(?:
(?: [Ee] )
(?:
(?: [+-] ? )
(?: [0123456789] + )
)
|
)
}x;

my \$negative_rx = qr{ ^ - }x;
my \$zero_rx     = qr{ ^ [-+]? [0.]+ (?: [Ee] | \$ ) }x;

my \$positive_rx = qr{
^
(?!  \$zero_rx      )
(?!  \$negative_rx  )
\$number_rx
\$
}x;

my @test_data = qw{
-2 2 +2 2. -1 1 +1 1.
0 +0 -0 .0 0.
1.3 -3.2 5.13.7
00.00 +00 -00 +0-1
0000.
McGillicuddy
+365.2425
6.02e23
.0000000000000000000000000000000000000000000000000000000000000000000
.00000000000000000000000000000000000000000000000000000000000000000000000001
.03 0.3 3.0
0e50 0e-50
1e50 1e+50 1e-50
};

for my \$n (@test_data) {
printf "%s is%s a positive number.\n",
\$n, \$n =~ /\$positive_rx/ ? "" : " not";
}

The test results are:

-2 is not a positive number.
2 is a positive number.
+2 is a positive number.
2. is a positive number.
-1 is not a positive number.
1 is a positive number.
+1 is a positive number.
1. is a positive number.
0 is not a positive number.
+0 is not a positive number.
-0 is not a positive number.
.0 is not a positive number.
0. is not a positive number.
1.3 is a positive number.
-3.2 is not a positive number.
5.13.7 is not a positive number.
00.00 is not a positive number.
+00 is not a positive number.
-00 is not a positive number.
+0-1 is not a positive number.
0000. is not a positive number.
McGillicuddy is not a positive number.
+365.2425 is a positive number.
6.02e23 is a positive number.
.0000000000000000000000000000000000000000000000000000000000000000000 is not a positive number.
.00000000000000000000000000000000000000000000000000000000000000000000000001 is a positive number.
.03 is a positive number.
0.3 is a positive number.
3.0 is a positive number.
0e50 is not a positive number.
0e-50 is not a positive number.
1e50 is a positive number.
1e+50 is a positive number.
1e-50 is a positive number.
• +1 Just curious why, in the abscissa expression, you use an "OR nothing" alternative instead of just making that whole thing optional with a ? i.e. Why (?:foo|) vs (?:foo)? ? Mar 24, 2011 at 18:10
• @ridgerunner: I no longer recall, but probably it was because that mapped to how I was thinking about it at the time. Certainly it makes no difference which way it’s written. Mar 24, 2011 at 20:20
• Nice! This looks like PCRE. If anyone needs RE2 instead: stackoverflow.com/questions/75760026 Mar 16 at 18:03

This should do it.

\+?(\d+(\.(\d+)?)?|\.\d+)

There are tons of regular expression tutorials out there, here is one of them:

http://www.cs.tut.fi/~jkorpela/perl/regexp.html

• Good catch tchrist, I put in a fix for that. It seems like it should be simpler, but the only way I could do it was to add a second case Dec 16, 2010 at 23:14
• That fails on 100., you know. :( Dec 16, 2010 at 23:34
• @tchrist it's getting more complicated :) but the new expression should handle that. Seems like it should be simpler at first blush. Dec 16, 2010 at 23:39
• @Russ: these things are always harder than they seem. Look at my test cases. Dec 16, 2010 at 23:42
• @Russ: the reasonable way is to use your language’s own numeric comparisons such that you could simply check x > 0. Regexes are somewhat ridiculous for value validation of numerics, including netmasks and other ranges. I can write a regex that tells you whether something is a prime number, but that doesn’t make it a good idea: printf "%d is %s\n", \$_, (1 x \$_) =~ /^(11+)\1+\$/ ? "composite" : "prime" for 2..300;. See? :) Dec 17, 2010 at 0:10

This one is kinda simple — /\d*(\.d*)?/g

Update: this one doesn't match empty strings — /(\.)?\d+(\.\d*)?/g
Tested on "-1.5 0 12. -123.4. 15 -2. .4"

• You say simple, but your regex actually matches an empty string currently.
– Blue
Jul 25, 2018 at 22:29