Regular expression for Number masking with exceptions - regex

I want to mask phone numbers in a resume which also contains date in the for 2001, 2001-03 and percentages 45% 87% 78.45% 56.5%.
I only want to mask the phone numbers, and I don't need to mask it completely. If I could only mask 3 or 4 digits that makes it hard to guess, that does the job. Kindly help me out.
Phone number formats are
9876543210
98765 43210
98765-43210
9876 543 210
9876-543-210

Here is my answer:
(([0-9][- ]*){5})(([0-9][- ]*){5})
It will match exactly 10 digits with or without - or space.
After that, you can replace the first or the third group with ***** or anything you like.
For example:
$1*****

\d{4,5}[ -]?\d{3}[ -]?\d{2,3}
Strings matched:
9876543210, 98765 43210, 98765-43210, 9876 543 210, 9876-543-210
Strings not matched:
45% 87% 78.45% 56.5%
2001, 2001-03
I feel that a more complicated regex that doesn't match invalid phone numbers is not required since the requirement is to mask valid phone numbers of the above format.
Check here
Python code:
def fun(m):
if m:
return '*'*len(m.group(1))+m.group(2)
string = "Resume of candidate abcd. His phone numbers are : 9876543210, 98765 43210, 98765-43210.Date of birth of the candidate is 23-10-2013. His percentage is 57%. One more number 9876 543 213 His percentage in grad school is 44%. Another number 9876-543-210"
re.sub('(\d{4,5})([ -]?\d{3}[ -]?\d{2,3})',fun,string)
Output:
'Resume of candidate abcd. His phone numbers are : *****43210, *****
43210, *****-43210. Date of birth of the candidate is 23-10-2013. His
percentage is 57%. One more number **** 543 213 His percentage in grad
school is 44%. Another number ****-543-210'
More about re.sub:
re.sub(pattern, repl, string, count=0, flags=0)
Return the string obtained by replacing the leftmost non-overlapping
occurrences of pattern in string by the replacement repl. If the
pattern isn’t found, string is returned unchanged. repl can be a
string or a function;

Just to help you on your way... I would use python to do is.
Use re module to search for number-like strings:
import re
num_re = re.compile('[0-9 -]{5,}')
with open('/my/file', 'r') as f:
for l in f:
for s in num_re.findall(l):
# Do some addition testing, like 'not starting with' or any
l.replace(s, '!!!MASKED!!!')
print l
I'm not saying that this code is finished, but it should help you on your way.
By the way, why I would use this approach:
You can easily add any tests you like to fix false positives.
Its readable.

Related

RegEx for Phone number +0 (000) 000-00-00 [duplicate]

I'm trying to put together a comprehensive regex to validate phone numbers. Ideally it would handle international formats, but it must handle US formats, including the following:
1-234-567-8901
1-234-567-8901 x1234
1-234-567-8901 ext1234
1 (234) 567-8901
1.234.567.8901
1/234/567/8901
12345678901
I'll answer with my current attempt, but I'm hoping somebody has something better and/or more elegant.
Better option... just strip all non-digit characters on input (except 'x' and leading '+' signs), taking care because of the British tendency to write numbers in the non-standard form +44 (0) ... when asked to use the international prefix (in that specific case, you should discard the (0) entirely).
Then, you end up with values like:
12345678901
12345678901x1234
345678901x1234
12344678901
12345678901
12345678901
12345678901
+4112345678
+441234567890
Then when you display, reformat to your hearts content. e.g.
1 (234) 567-8901
1 (234) 567-8901 x1234
.*
If the users want to give you their phone numbers, then trust them to get it right. If they do not want to give it to you then forcing them to enter a valid number will either send them to a competitor's site or make them enter a random string that fits your regex. I might even be tempted to look up the number of a premium rate horoscope hotline and enter that instead.
I would also consider any of the following as valid entries on a web site:
"123 456 7890 until 6pm, then 098 765 4321"
"123 456 7890 or try my mobile on 098 765 4321"
"ex-directory - mind your own business"
It turns out that there's something of a spec for this, at least for North America, called the NANP.
You need to specify exactly what you want. What are legal delimiters? Spaces, dashes, and periods? No delimiter allowed? Can one mix delimiters (e.g., +0.111-222.3333)? How are extensions (e.g., 111-222-3333 x 44444) going to be handled? What about special numbers, like 911? Is the area code going to be optional or required?
Here's a regex for a 7 or 10 digit number, with extensions allowed, delimiters are spaces, dashes, or periods:
^(?:(?:\+?1\s*(?:[.-]\s*)?)?(?:\(\s*([2-9]1[02-9]|[2-9][02-8]1|[2-9][02-8][02-9])\s*\)|([2-9]1[02-9]|[2-9][02-8]1|[2-9][02-8][02-9]))\s*(?:[.-]\s*)?)?([2-9]1[02-9]|[2-9][02-9]1|[2-9][02-9]{2})\s*(?:[.-]\s*)?([0-9]{4})(?:\s*(?:#|x\.?|ext\.?|extension)\s*(\d+))?$
I would also suggest looking at the "libphonenumber" Google Library. I know it is not regex but it does exactly what you want.
For example, it will recognize that:
15555555555
is a possible number but not a valid number. It also supports countries outside the US.
Highlights of functionality:
Parsing/formatting/validating phone numbers for all countries/regions of the world.
getNumberType - gets the type of the number based on the number itself; able to distinguish Fixed-line, Mobile, Toll-free, Premium Rate, Shared Cost, VoIP and Personal Numbers (whenever feasible).
isNumberMatch - gets a confidence level on whether two numbers could be the same.
getExampleNumber/getExampleNumberByType - provides valid example numbers for all countries/regions, with the option of specifying which type of example phone number is needed.
isPossibleNumber - quickly guessing whether a number is a possible phonenumber by using only the length information, much faster than a full validation.
isValidNumber - full validation of a phone number for a region using length and prefix information.
AsYouTypeFormatter - formats phone numbers on-the-fly when users enter each digit.
findNumbers - finds numbers in text input.
PhoneNumberOfflineGeocoder - provides geographical information related to a phone number.
Examples
The biggest problem with phone number validation is it is very culturally dependant.
America
(408) 974–2042 is a valid US number
(999) 974–2042 is not a valid US number
Australia
0404 999 999 is a valid Australian number
(02) 9999 9999 is also a valid Australian number
(09) 9999 9999 is not a valid Australian number
A regular expression is fine for checking the format of a phone number, but it's not really going to be able to check the validity of a phone number.
I would suggest skipping a simple regular expression to test your phone number against, and using a library such as Google's libphonenumber (link to GitHub project).
Introducing libphonenumber!
Using one of your more complex examples, 1-234-567-8901 x1234, you get the following data out of libphonenumber (link to online demo):
Validation Results
Result from isPossibleNumber() true
Result from isValidNumber() true
Formatting Results:
E164 format +12345678901
Original format (234) 567-8901 ext. 123
National format (234) 567-8901 ext. 123
International format +1 234-567-8901 ext. 123
Out-of-country format from US 1 (234) 567-8901 ext. 123
Out-of-country format from CH 00 1 234-567-8901 ext. 123
So not only do you learn if the phone number is valid (which it is), but you also get consistent phone number formatting in your locale.
As a bonus, libphonenumber has a number of datasets to check the validity of phone numbers, as well, so checking a number such as +61299999999 (the international version of (02) 9999 9999) returns as a valid number with formatting:
Validation Results
Result from isPossibleNumber() true
Result from isValidNumber() true
Formatting Results
E164 format +61299999999
Original format 61 2 9999 9999
National format (02) 9999 9999
International format +61 2 9999 9999
Out-of-country format from US 011 61 2 9999 9999
Out-of-country format from CH 00 61 2 9999 9999
libphonenumber also gives you many additional benefits, such as grabbing the location that the phone number is detected as being, and also getting the time zone information from the phone number:
PhoneNumberOfflineGeocoder Results
Location Australia
PhoneNumberToTimeZonesMapper Results
Time zone(s) [Australia/Sydney]
But the invalid Australian phone number ((09) 9999 9999) returns that it is not a valid phone number.
Validation Results
Result from isPossibleNumber() true
Result from isValidNumber() false
Google's version has code for Java and Javascript, but people have also implemented libraries for other languages that use the Google i18n phone number dataset:
PHP: https://github.com/giggsey/libphonenumber-for-php
Python: https://github.com/daviddrysdale/python-phonenumbers
Ruby: https://github.com/sstephenson/global_phone
C#: https://github.com/twcclegg/libphonenumber-csharp
Objective-C: https://github.com/iziz/libPhoneNumber-iOS
JavaScript: https://github.com/ruimarinho/google-libphonenumber
Elixir: https://github.com/socialpaymentsbv/ex_phone_number
Unless you are certain that you are always going to be accepting numbers from one locale, and they are always going to be in one format, I would heavily suggest not writing your own code for this, and using libphonenumber for validating and displaying phone numbers.
/^(?:(?:\(?(?:00|\+)([1-4]\d\d|[1-9]\d+)\)?)[\-\.\ \\\/]?)?((?:\(?\d{1,}\)?[\-\.\ \\\/]?)+)(?:[\-\.\ \\\/]?(?:#|ext\.?|extension|x)[\-\.\ \\\/]?(\d+))?$/i
This matches:
- (+351) 282 43 50 50
- 90191919908
- 555-8909
- 001 6867684
- 001 6867684x1
- 1 (234) 567-8901
- 1-234-567-8901 x1234
- 1-234-567-8901 ext1234
- 1-234 567.89/01 ext.1234
- 1(234)5678901x1234
- (123)8575973
- (0055)(123)8575973
On $n, it saves:
Country indicator
Phone number
Extension
You can test it on https://regex101.com/r/kFzb1s/1
Although the answer to strip all whitespace is neat, it doesn't really solve the problem that's posed, which is to find a regex. Take, for instance, my test script that downloads a web page and extracts all phone numbers using the regex. Since you'd need a regex anyway, you might as well have the regex do all the work. I came up with this:
1?\W*([2-9][0-8][0-9])\W*([2-9][0-9]{2})\W*([0-9]{4})(\se?x?t?(\d*))?
Here's a perl script to test it. When you match, $1 contains the area code, $2 and $3 contain the phone number, and $5 contains the extension. My test script downloads a file from the internet and prints all the phone numbers in it.
#!/usr/bin/perl
my $us_phone_regex =
'1?\W*([2-9][0-8][0-9])\W*([2-9][0-9]{2})\W*([0-9]{4})(\se?x?t?(\d*))?';
my #tests =
(
"1-234-567-8901",
"1-234-567-8901 x1234",
"1-234-567-8901 ext1234",
"1 (234) 567-8901",
"1.234.567.8901",
"1/234/567/8901",
"12345678901",
"not a phone number"
);
foreach my $num (#tests)
{
if( $num =~ m/$us_phone_regex/ )
{
print "match [$1-$2-$3]\n" if not defined $4;
print "match [$1-$2-$3 $5]\n" if defined $4;
}
else
{
print "no match [$num]\n";
}
}
#
# Extract all phone numbers from an arbitrary file.
#
my $external_filename =
'http://web.textfiles.com/ezines/PHREAKSANDGEEKS/PnG-spring05.txt';
my #external_file = `curl $external_filename`;
foreach my $line (#external_file)
{
if( $line =~ m/$us_phone_regex/ )
{
print "match $1 $2 $3\n";
}
}
Edit:
You can change \W* to \s*\W?\s* in the regex to tighten it up a bit. I wasn't thinking of the regex in terms of, say, validating user input on a form when I wrote it, but this change makes it possible to use the regex for that purpose.
'1?\s*\W?\s*([2-9][0-8][0-9])\s*\W?\s*([2-9][0-9]{2})\s*\W?\s*([0-9]{4})(\se?x?t?(\d*))?';
I answered this question on another SO question before deciding to also include my answer as an answer on this thread, because no one was addressing how to require/not require items, just handing out regexs:
Regex working wrong, matching unexpected things
From my post on that site, I've created a quick guide to assist anyone with making their own regex for their own desired phone number format, which I will caveat (like I did on the other site) that if you are too restrictive, you may not get the desired results, and there is no "one size fits all" solution to accepting all possible phone numbers in the world - only what you decide to accept as your format of choice. Use at your own risk.
Quick cheat sheet
Start the expression: /^
If you want to require a space, use: [\s] or \s
If you want to require parenthesis, use: [(] and [)] . Using \( and \) is ugly and can make things confusing.
If you want anything to be optional, put a ? after it
If you want a hyphen, just type - or [-] . If you do not put it first or last in a series of other characters, though, you may need to escape it: \-
If you want to accept different choices in a slot, put brackets around the options: [-.\s] will require a hyphen, period, or space. A question mark after the last bracket will make all of those optional for that slot.
\d{3} : Requires a 3-digit number: 000-999. Shorthand for
[0-9][0-9][0-9].
[2-9] : Requires a digit 2-9 for that slot.
(\+|1\s)? : Accept a "plus" or a 1 and a space (pipe character, |, is "or"), and make it optional. The "plus" sign must be escaped.
If you want specific numbers to match a slot, enter them: [246] will require a 2, 4, or 6. (?:77|78) or [77|78] will require 77 or 78.
$/ : End the expression
I wrote simpliest (although i didn't need dot in it).
^([0-9\(\)\/\+ \-]*)$
As mentioned below, it checks only for characters, not its structure/order
Note that stripping () characters does not work for a style of writing UK numbers that is common: +44 (0) 1234 567890 which means dial either the international number:
+441234567890
or in the UK dial 01234567890
If you just want to verify you don't have random garbage in the field (i.e., from form spammers) this regex should do nicely:
^[0-9+\(\)#\.\s\/ext-]+$
Note that it doesn't have any special rules for how many digits, or what numbers are valid in those digits, it just verifies that only digits, parenthesis, dashes, plus, space, pound, asterisk, period, comma, or the letters e, x, t are present.
It should be compatible with international numbers and localization formats. Do you foresee any need to allow square, curly, or angled brackets for some regions? (currently they aren't included).
If you want to maintain per digit rules (such as in US Area Codes and Prefixes (exchange codes) must fall in the range of 200-999) well, good luck to you. Maintaining a complex rule-set which could be outdated at any point in the future by any country in the world does not sound fun.
And while stripping all/most non-numeric characters may work well on the server side (especially if you are planning on passing these values to a dialer), you may not want to thrash the user's input during validation, particularly if you want them to make corrections in another field.
Here's a wonderful pattern that most closely matched the validation that I needed to achieve. I'm not the original author, but I think it's well worth sharing as I found this problem to be very complex and without a concise or widely useful answer.
The following regex will catch widely used number and character combinations in a variety of global phone number formats:
/^\s*(?:\+?(\d{1,3}))?([-. (]*(\d{3})[-. )]*)?((\d{3})[-. ]*(\d{2,4})(?:[-.x ]*(\d+))?)\s*$/gm
Positive:
+42 555.123.4567
+1-(800)-123-4567
+7 555 1234567
+7(926)1234567
(926) 1234567
+79261234567
926 1234567
9261234567
1234567
123-4567
123-89-01
495 1234567
469 123 45 67
89261234567
8 (926) 1234567
926.123.4567
415-555-1234
650-555-2345
(416)555-3456
202 555 4567
4035555678
1 416 555 9292
Negative:
926 3 4
8 800 600-APPLE
Original source: http://www.regexr.com/38pvb
Have you had a look over at RegExLib?
Entering US phone number brought back quite a list of possibilities.
My attempt at an unrestrictive regex:
/^[+#*\(\)\[\]]*([0-9][ ext+-pw#*\(\)\[\]]*){6,45}$/
Accepts:
+(01) 123 (456) 789 ext555
123456
*44 123-456-789 [321]
123456
123456789012345678901234567890123456789012345
*****++[](][((( 123456tteexxttppww
Rejects:
mob 07777 777777
1234 567 890 after 5pm
john smith
(empty)
1234567890123456789012345678901234567890123456
911
It is up to you to sanitize it for display. After validating it could be a number though.
I found this to work quite well:
^\(*\+*[1-9]{0,3}\)*-*[1-9]{0,3}[-. /]*\(*[2-9]\d{2}\)*[-. /]*\d{3}[-. /]*\d{4} *e*x*t*\.* *\d{0,4}$
It works for these number formats:
1-234-567-8901
1-234-567-8901 x1234
1-234-567-8901 ext1234
1 (234) 567-8901
1.234.567.8901
1/234/567/8901
12345678901
1-234-567-8901 ext. 1234
(+351) 282 433 5050
Make sure to use global AND multiline flags to make sure.
Link: http://www.regexr.com/3bp4b
Here's my best try so far. It handles the formats above but I'm sure I'm missing some other possible formats.
^\d?(?:(?:[\+]?(?:[\d]{1,3}(?:[ ]+|[\-.])))?[(]?(?:[\d]{3})[\-/)]?(?:[ ]+)?)?(?:[a-zA-Z2-9][a-zA-Z0-9 \-.]{6,})(?:(?:[ ]+|[xX]|(i:ext[\.]?)){1,2}(?:[\d]{1,5}))?$
This is a simple Regular Expression pattern for Philippine Mobile Phone Numbers:
((\+[0-9]{2})|0)[.\- ]?9[0-9]{2}[.\- ]?[0-9]{3}[.\- ]?[0-9]{4}
or
((\+63)|0)[.\- ]?9[0-9]{2}[.\- ]?[0-9]{3}[.\- ]?[0-9]{4}
will match these:
+63.917.123.4567
+63-917-123-4567
+63 917 123 4567
+639171234567
09171234567
The first one will match ANY two digit country code, while the second one will match the Philippine country code exclusively.
Test it here: http://refiddle.com/1ox
If you're talking about form validation, the regexp to validate correct meaning as well as correct data is going to be extremely complex because of varying country and provider standards. It will also be hard to keep up to date.
I interpret the question as looking for a broadly valid pattern, which may not be internally consistent - for example having a valid set of numbers, but not validating that the trunk-line, exchange, etc. to the valid pattern for the country code prefix.
North America is straightforward, and for international I prefer to use an 'idiomatic' pattern which covers the ways in which people specify and remember their numbers:
^((((\(\d{3}\))|(\d{3}-))\d{3}-\d{4})|(\+?\d{2}((-| )\d{1,8}){1,5}))(( x| ext)\d{1,5}){0,1}$
The North American pattern makes sure that if one parenthesis is included both are. The international accounts for an optional initial '+' and country code. After that, you're in the idiom. Valid matches would be:
(xxx)xxx-xxxx
(xxx)-xxx-xxxx
(xxx)xxx-xxxx x123
12 1234 123 1 x1111
12 12 12 12 12
12 1 1234 123456 x12345
+12 1234 1234
+12 12 12 1234
+12 1234 5678
+12 12345678
This may be biased as my experience is limited to North America, Europe and a small bit of Asia.
My gut feeling is reinforced by the amount of replies to this topic - that there is a virtually infinite number of solutions to this problem, none of which are going to be elegant.
Honestly, I would recommend you don't try to validate phone numbers. Even if you could write a big, hairy validator that would allow all the different legitimate formats, it would end up allowing pretty much anything even remotely resembling a phone number in the first place.
In my opinion, the most elegant solution is to validate a minimum length, nothing more.
You'll have a hard time dealing with international numbers with a single/simple regex, see this post on the difficulties of international (and even north american) phone numbers.
You'll want to parse the first few digits to determine what the country code is, then act differently based on the country.
Beyond that - the list you gave does not include another common US format - leaving off the initial 1. Most cell phones in the US don't require it, and it'll start to baffle the younger generation unless they've dialed internationally.
You've correctly identified that it's a tricky problem...
-Adam
After reading through these answers, it looks like there wasn't a straightforward regular expression that can parse through a bunch of text and pull out phone numbers in any format (including international with and without the plus sign).
Here's what I used for a client project recently, where we had to convert all phone numbers in any format to tel: links.
So far, it's been working with everything they've thrown at it, but if errors come up, I'll update this answer.
Regex:
/(\+*\d{1,})*([ |\(])*(\d{3})[^\d]*(\d{3})[^\d]*(\d{4})/
PHP function to replace all phone numbers with tel: links (in case anyone is curious):
function phoneToTel($number) {
$return = preg_replace('/(\+*\d{1,})*([ |\(])*(\d{3})[^\d]*(\d{3})[^\d]*(\d{4})/', '$1 ($3) $4-$5', $number); // includes international
return $return;
}
I believe the Number::Phone::US and Regexp::Common (particularly the source of Regexp::Common::URI::RFC2806) Perl modules could help.
The question should probably be specified in a bit more detail to explain the purpose of validating the numbers. For instance, 911 is a valid number in the US, but 911x isn't for any value of x. That's so that the phone company can calculate when you are done dialing. There are several variations on this issue. But your regex doesn't check the area code portion, so that doesn't seem to be a concern.
Like validating email addresses, even if you have a valid result you can't know if it's assigned to someone until you try it.
If you are trying to validate user input, why not normalize the result and be done with it? If the user puts in a number you can't recognize as a valid number, either save it as inputted or strip out undailable characters. The Number::Phone::Normalize Perl module could be a source of inspiration.
Do a replace on formatting characters, then check the remaining for phone validity. In PHP,
$replace = array( ' ', '-', '/', '(', ')', ',', '.' ); //etc; as needed
preg_match( '/1?[0-9]{10}((ext|x)[0-9]{1,4})?/i', str_replace( $replace, '', $phone_num );
Breaking a complex regexp like this can be just as effective, but much more simple.
I work for a market research company and we have to filter these types of input alllll the time. You're complicating it too much. Just strip the non-alphanumeric chars, and see if there's an extension.
For further analysis you can subscribe to one of many providers that will give you access to a database of valid numbers as well as tell you if they're landlines or mobiles, disconnected, etc. It costs money.
I found this to be something interesting. I have not tested it but it looks as if it would work
<?php
/*
string validate_telephone_number (string $number, array $formats)
*/
function validate_telephone_number($number, $formats)
{
$format = trim(ereg_replace("[0-9]", "#", $number));
return (in_array($format, $formats)) ? true : false;
}
/* Usage Examples */
// List of possible formats: You can add new formats or modify the existing ones
$formats = array('###-###-####', '####-###-###',
'(###) ###-###', '####-####-####',
'##-###-####-####', '####-####', '###-###-###',
'#####-###-###', '##########');
$number = '08008-555-555';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
echo "<br />";
$number = '123-555-555';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
echo "<br />";
$number = '1800-1234-5678';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
echo "<br />";
$number = '(800) 555-123';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
echo "<br />";
$number = '1234567890';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
?>
You would probably be better off using a Masked Input for this. That way users can ONLY enter numbers and you can format however you see fit. I'm not sure if this is for a web application, but if it is there is a very click jQuery plugin that offers some options for doing this.
http://digitalbush.com/projects/masked-input-plugin/
They even go over how to mask phone number inputs in their tutorial.
Here's one that works well in JavaScript. It's in a string because that's what the Dojo widget was expecting.
It matches a 10 digit North America NANP number with optional extension. Spaces, dashes and periods are accepted delimiters.
"^(\\(?\\d\\d\\d\\)?)( |-|\\.)?\\d\\d\\d( |-|\\.)?\\d{4,4}(( |-|\\.)?[ext\\.]+ ?\\d+)?$"
I was struggling with the same issue, trying to make my application future proof, but these guys got me going in the right direction. I'm not actually checking the number itself to see if it works or not, I'm just trying to make sure that a series of numbers was entered that may or may not have an extension.
Worst case scenario if the user had to pull an unformatted number from the XML file, they would still just type the numbers into the phone's numberpad 012345678x5, no real reason to keep it pretty. That kind of RegEx would come out something like this for me:
\d+ ?\w{0,9} ?\d+
01234467 extension 123456
01234567x123456
01234567890
My inclination is to agree that stripping non-digits and just accepting what's there is best. Maybe to ensure at least a couple digits are present, although that does prohibit something like an alphabetic phone number "ASK-JAKE" for example.
A couple simple perl expressions might be:
#f = /(\d+)/g;
tr/0-9//dc;
Use the first one to keep the digit groups together, which may give formatting clues. Use the second one to trivially toss all non-digits.
Is it a worry that there may need to be a pause and then more keys entered? Or something like 555-1212 (wait for the beep) 123?
pattern="^[\d|\+|\(]+[\)|\d|\s|-]*[\d]$"
validateat="onsubmit"
Must end with a digit, can begin with ( or + or a digit, and may contain + - ( or )
For anyone interested in doing something similar with Irish mobile phone numbers, here's a straightforward way of accomplishing it:
http://ilovenicii.com/?p=87
PHP
<?php
$pattern = "/^(083|086|085|086|087)\d{7}$/";
$phone = "087343266";
if (preg_match($pattern,$phone)) echo "Match";
else echo "Not match";
There is also a JQuery solution on that link.
EDIT:
jQuery solution:
$(function(){
//original field values
var field_values = {
//id : value
'url' : 'url',
'yourname' : 'yourname',
'email' : 'email',
'phone' : 'phone'
};
var url =$("input#url").val();
var yourname =$("input#yourname").val();
var email =$("input#email").val();
var phone =$("input#phone").val();
//inputfocus
$('input#url').inputfocus({ value: field_values['url'] });
$('input#yourname').inputfocus({ value: field_values['yourname'] });
$('input#email').inputfocus({ value: field_values['email'] });
$('input#phone').inputfocus({ value: field_values['phone'] });
//reset progress bar
$('#progress').css('width','0');
$('#progress_text').html('0% Complete');
//first_step
$('form').submit(function(){ return false; });
$('#submit_first').click(function(){
//remove classes
$('#first_step input').removeClass('error').removeClass('valid');
//ckeck if inputs aren't empty
var fields = $('#first_step input[type=text]');
var error = 0;
fields.each(function(){
var value = $(this).val();
if( value.length<12 || value==field_values[$(this).attr('id')] ) {
$(this).addClass('error');
$(this).effect("shake", { times:3 }, 50);
error++;
} else {
$(this).addClass('valid');
}
});
if(!error) {
if( $('#password').val() != $('#cpassword').val() ) {
$('#first_step input[type=password]').each(function(){
$(this).removeClass('valid').addClass('error');
$(this).effect("shake", { times:3 }, 50);
});
return false;
} else {
//update progress bar
$('#progress_text').html('33% Complete');
$('#progress').css('width','113px');
//slide steps
$('#first_step').slideUp();
$('#second_step').slideDown();
}
} else return false;
});
//second section
$('#submit_second').click(function(){
//remove classes
$('#second_step input').removeClass('error').removeClass('valid');
var emailPattern = /^[a-zA-Z0-9._-]+#[a-zA-Z0-9.-]+\.[a-zA-Z]{2,4}$/;
var fields = $('#second_step input[type=text]');
var error = 0;
fields.each(function(){
var value = $(this).val();
if( value.length<1 || value==field_values[$(this).attr('id')] || ( $(this).attr('id')=='email' && !emailPattern.test(value) ) ) {
$(this).addClass('error');
$(this).effect("shake", { times:3 }, 50);
error++;
} else {
$(this).addClass('valid');
}
function validatePhone(phone) {
var a = document.getElementById(phone).value;
var filter = /^[0-9-+]+$/;
if (filter.test(a)) {
return true;
}
else {
return false;
}
}
$('#phone').blur(function(e) {
if (validatePhone('txtPhone')) {
$('#spnPhoneStatus').html('Valid');
$('#spnPhoneStatus').css('color', 'green');
}
else {
$('#spnPhoneStatus').html('Invalid');
$('#spnPhoneStatus').css('color', 'red');
}
});
});
if(!error) {
//update progress bar
$('#progress_text').html('66% Complete');
$('#progress').css('width','226px');
//slide steps
$('#second_step').slideUp();
$('#fourth_step').slideDown();
} else return false;
});
$('#submit_second').click(function(){
//update progress bar
$('#progress_text').html('100% Complete');
$('#progress').css('width','339px');
//prepare the fourth step
var fields = new Array(
$('#url').val(),
$('#yourname').val(),
$('#email').val(),
$('#phone').val()
);
var tr = $('#fourth_step tr');
tr.each(function(){
//alert( fields[$(this).index()] )
$(this).children('td:nth-child(2)').html(fields[$(this).index()]);
});
//slide steps
$('#third_step').slideUp();
$('#fourth_step').slideDown();
});
$('#submit_fourth').click(function(){
url =$("input#url").val();
yourname =$("input#yourname").val();
email =$("input#email").val();
phone =$("input#phone").val();
//send information to server
var dataString = 'url='+ url + '&yourname=' + yourname + '&email=' + email + '&phone=' + phone;
alert (dataString);//return false;
$.ajax({
type: "POST",
url: "http://clients.socialnetworkingsolutions.com/infobox/contact/",
data: "url="+url+"&yourname="+yourname+"&email="+email+'&phone=' + phone,
cache: false,
success: function(data) {
console.log("form submitted");
alert("success");
}
});
return false;
});
//back button
$('.back').click(function(){
var container = $(this).parent('div'),
previous = container.prev();
switch(previous.attr('id')) {
case 'first_step' : $('#progress_text').html('0% Complete');
$('#progress').css('width','0px');
break;
case 'second_step': $('#progress_text').html('33% Complete');
$('#progress').css('width','113px');
break;
case 'third_step' : $('#progress_text').html('66% Complete');
$('#progress').css('width','226px');
break;
default: break;
}
$(container).slideUp();
$(previous).slideDown();
});
});
Source.

Phone number matching regex [duplicate]

I'm trying to put together a comprehensive regex to validate phone numbers. Ideally it would handle international formats, but it must handle US formats, including the following:
1-234-567-8901
1-234-567-8901 x1234
1-234-567-8901 ext1234
1 (234) 567-8901
1.234.567.8901
1/234/567/8901
12345678901
I'll answer with my current attempt, but I'm hoping somebody has something better and/or more elegant.
Better option... just strip all non-digit characters on input (except 'x' and leading '+' signs), taking care because of the British tendency to write numbers in the non-standard form +44 (0) ... when asked to use the international prefix (in that specific case, you should discard the (0) entirely).
Then, you end up with values like:
12345678901
12345678901x1234
345678901x1234
12344678901
12345678901
12345678901
12345678901
+4112345678
+441234567890
Then when you display, reformat to your hearts content. e.g.
1 (234) 567-8901
1 (234) 567-8901 x1234
.*
If the users want to give you their phone numbers, then trust them to get it right. If they do not want to give it to you then forcing them to enter a valid number will either send them to a competitor's site or make them enter a random string that fits your regex. I might even be tempted to look up the number of a premium rate horoscope hotline and enter that instead.
I would also consider any of the following as valid entries on a web site:
"123 456 7890 until 6pm, then 098 765 4321"
"123 456 7890 or try my mobile on 098 765 4321"
"ex-directory - mind your own business"
It turns out that there's something of a spec for this, at least for North America, called the NANP.
You need to specify exactly what you want. What are legal delimiters? Spaces, dashes, and periods? No delimiter allowed? Can one mix delimiters (e.g., +0.111-222.3333)? How are extensions (e.g., 111-222-3333 x 44444) going to be handled? What about special numbers, like 911? Is the area code going to be optional or required?
Here's a regex for a 7 or 10 digit number, with extensions allowed, delimiters are spaces, dashes, or periods:
^(?:(?:\+?1\s*(?:[.-]\s*)?)?(?:\(\s*([2-9]1[02-9]|[2-9][02-8]1|[2-9][02-8][02-9])\s*\)|([2-9]1[02-9]|[2-9][02-8]1|[2-9][02-8][02-9]))\s*(?:[.-]\s*)?)?([2-9]1[02-9]|[2-9][02-9]1|[2-9][02-9]{2})\s*(?:[.-]\s*)?([0-9]{4})(?:\s*(?:#|x\.?|ext\.?|extension)\s*(\d+))?$
I would also suggest looking at the "libphonenumber" Google Library. I know it is not regex but it does exactly what you want.
For example, it will recognize that:
15555555555
is a possible number but not a valid number. It also supports countries outside the US.
Highlights of functionality:
Parsing/formatting/validating phone numbers for all countries/regions of the world.
getNumberType - gets the type of the number based on the number itself; able to distinguish Fixed-line, Mobile, Toll-free, Premium Rate, Shared Cost, VoIP and Personal Numbers (whenever feasible).
isNumberMatch - gets a confidence level on whether two numbers could be the same.
getExampleNumber/getExampleNumberByType - provides valid example numbers for all countries/regions, with the option of specifying which type of example phone number is needed.
isPossibleNumber - quickly guessing whether a number is a possible phonenumber by using only the length information, much faster than a full validation.
isValidNumber - full validation of a phone number for a region using length and prefix information.
AsYouTypeFormatter - formats phone numbers on-the-fly when users enter each digit.
findNumbers - finds numbers in text input.
PhoneNumberOfflineGeocoder - provides geographical information related to a phone number.
Examples
The biggest problem with phone number validation is it is very culturally dependant.
America
(408) 974–2042 is a valid US number
(999) 974–2042 is not a valid US number
Australia
0404 999 999 is a valid Australian number
(02) 9999 9999 is also a valid Australian number
(09) 9999 9999 is not a valid Australian number
A regular expression is fine for checking the format of a phone number, but it's not really going to be able to check the validity of a phone number.
I would suggest skipping a simple regular expression to test your phone number against, and using a library such as Google's libphonenumber (link to GitHub project).
Introducing libphonenumber!
Using one of your more complex examples, 1-234-567-8901 x1234, you get the following data out of libphonenumber (link to online demo):
Validation Results
Result from isPossibleNumber() true
Result from isValidNumber() true
Formatting Results:
E164 format +12345678901
Original format (234) 567-8901 ext. 123
National format (234) 567-8901 ext. 123
International format +1 234-567-8901 ext. 123
Out-of-country format from US 1 (234) 567-8901 ext. 123
Out-of-country format from CH 00 1 234-567-8901 ext. 123
So not only do you learn if the phone number is valid (which it is), but you also get consistent phone number formatting in your locale.
As a bonus, libphonenumber has a number of datasets to check the validity of phone numbers, as well, so checking a number such as +61299999999 (the international version of (02) 9999 9999) returns as a valid number with formatting:
Validation Results
Result from isPossibleNumber() true
Result from isValidNumber() true
Formatting Results
E164 format +61299999999
Original format 61 2 9999 9999
National format (02) 9999 9999
International format +61 2 9999 9999
Out-of-country format from US 011 61 2 9999 9999
Out-of-country format from CH 00 61 2 9999 9999
libphonenumber also gives you many additional benefits, such as grabbing the location that the phone number is detected as being, and also getting the time zone information from the phone number:
PhoneNumberOfflineGeocoder Results
Location Australia
PhoneNumberToTimeZonesMapper Results
Time zone(s) [Australia/Sydney]
But the invalid Australian phone number ((09) 9999 9999) returns that it is not a valid phone number.
Validation Results
Result from isPossibleNumber() true
Result from isValidNumber() false
Google's version has code for Java and Javascript, but people have also implemented libraries for other languages that use the Google i18n phone number dataset:
PHP: https://github.com/giggsey/libphonenumber-for-php
Python: https://github.com/daviddrysdale/python-phonenumbers
Ruby: https://github.com/sstephenson/global_phone
C#: https://github.com/twcclegg/libphonenumber-csharp
Objective-C: https://github.com/iziz/libPhoneNumber-iOS
JavaScript: https://github.com/ruimarinho/google-libphonenumber
Elixir: https://github.com/socialpaymentsbv/ex_phone_number
Unless you are certain that you are always going to be accepting numbers from one locale, and they are always going to be in one format, I would heavily suggest not writing your own code for this, and using libphonenumber for validating and displaying phone numbers.
/^(?:(?:\(?(?:00|\+)([1-4]\d\d|[1-9]\d+)\)?)[\-\.\ \\\/]?)?((?:\(?\d{1,}\)?[\-\.\ \\\/]?)+)(?:[\-\.\ \\\/]?(?:#|ext\.?|extension|x)[\-\.\ \\\/]?(\d+))?$/i
This matches:
- (+351) 282 43 50 50
- 90191919908
- 555-8909
- 001 6867684
- 001 6867684x1
- 1 (234) 567-8901
- 1-234-567-8901 x1234
- 1-234-567-8901 ext1234
- 1-234 567.89/01 ext.1234
- 1(234)5678901x1234
- (123)8575973
- (0055)(123)8575973
On $n, it saves:
Country indicator
Phone number
Extension
You can test it on https://regex101.com/r/kFzb1s/1
Although the answer to strip all whitespace is neat, it doesn't really solve the problem that's posed, which is to find a regex. Take, for instance, my test script that downloads a web page and extracts all phone numbers using the regex. Since you'd need a regex anyway, you might as well have the regex do all the work. I came up with this:
1?\W*([2-9][0-8][0-9])\W*([2-9][0-9]{2})\W*([0-9]{4})(\se?x?t?(\d*))?
Here's a perl script to test it. When you match, $1 contains the area code, $2 and $3 contain the phone number, and $5 contains the extension. My test script downloads a file from the internet and prints all the phone numbers in it.
#!/usr/bin/perl
my $us_phone_regex =
'1?\W*([2-9][0-8][0-9])\W*([2-9][0-9]{2})\W*([0-9]{4})(\se?x?t?(\d*))?';
my #tests =
(
"1-234-567-8901",
"1-234-567-8901 x1234",
"1-234-567-8901 ext1234",
"1 (234) 567-8901",
"1.234.567.8901",
"1/234/567/8901",
"12345678901",
"not a phone number"
);
foreach my $num (#tests)
{
if( $num =~ m/$us_phone_regex/ )
{
print "match [$1-$2-$3]\n" if not defined $4;
print "match [$1-$2-$3 $5]\n" if defined $4;
}
else
{
print "no match [$num]\n";
}
}
#
# Extract all phone numbers from an arbitrary file.
#
my $external_filename =
'http://web.textfiles.com/ezines/PHREAKSANDGEEKS/PnG-spring05.txt';
my #external_file = `curl $external_filename`;
foreach my $line (#external_file)
{
if( $line =~ m/$us_phone_regex/ )
{
print "match $1 $2 $3\n";
}
}
Edit:
You can change \W* to \s*\W?\s* in the regex to tighten it up a bit. I wasn't thinking of the regex in terms of, say, validating user input on a form when I wrote it, but this change makes it possible to use the regex for that purpose.
'1?\s*\W?\s*([2-9][0-8][0-9])\s*\W?\s*([2-9][0-9]{2})\s*\W?\s*([0-9]{4})(\se?x?t?(\d*))?';
I answered this question on another SO question before deciding to also include my answer as an answer on this thread, because no one was addressing how to require/not require items, just handing out regexs:
Regex working wrong, matching unexpected things
From my post on that site, I've created a quick guide to assist anyone with making their own regex for their own desired phone number format, which I will caveat (like I did on the other site) that if you are too restrictive, you may not get the desired results, and there is no "one size fits all" solution to accepting all possible phone numbers in the world - only what you decide to accept as your format of choice. Use at your own risk.
Quick cheat sheet
Start the expression: /^
If you want to require a space, use: [\s] or \s
If you want to require parenthesis, use: [(] and [)] . Using \( and \) is ugly and can make things confusing.
If you want anything to be optional, put a ? after it
If you want a hyphen, just type - or [-] . If you do not put it first or last in a series of other characters, though, you may need to escape it: \-
If you want to accept different choices in a slot, put brackets around the options: [-.\s] will require a hyphen, period, or space. A question mark after the last bracket will make all of those optional for that slot.
\d{3} : Requires a 3-digit number: 000-999. Shorthand for
[0-9][0-9][0-9].
[2-9] : Requires a digit 2-9 for that slot.
(\+|1\s)? : Accept a "plus" or a 1 and a space (pipe character, |, is "or"), and make it optional. The "plus" sign must be escaped.
If you want specific numbers to match a slot, enter them: [246] will require a 2, 4, or 6. (?:77|78) or [77|78] will require 77 or 78.
$/ : End the expression
I wrote simpliest (although i didn't need dot in it).
^([0-9\(\)\/\+ \-]*)$
As mentioned below, it checks only for characters, not its structure/order
Note that stripping () characters does not work for a style of writing UK numbers that is common: +44 (0) 1234 567890 which means dial either the international number:
+441234567890
or in the UK dial 01234567890
If you just want to verify you don't have random garbage in the field (i.e., from form spammers) this regex should do nicely:
^[0-9+\(\)#\.\s\/ext-]+$
Note that it doesn't have any special rules for how many digits, or what numbers are valid in those digits, it just verifies that only digits, parenthesis, dashes, plus, space, pound, asterisk, period, comma, or the letters e, x, t are present.
It should be compatible with international numbers and localization formats. Do you foresee any need to allow square, curly, or angled brackets for some regions? (currently they aren't included).
If you want to maintain per digit rules (such as in US Area Codes and Prefixes (exchange codes) must fall in the range of 200-999) well, good luck to you. Maintaining a complex rule-set which could be outdated at any point in the future by any country in the world does not sound fun.
And while stripping all/most non-numeric characters may work well on the server side (especially if you are planning on passing these values to a dialer), you may not want to thrash the user's input during validation, particularly if you want them to make corrections in another field.
Here's a wonderful pattern that most closely matched the validation that I needed to achieve. I'm not the original author, but I think it's well worth sharing as I found this problem to be very complex and without a concise or widely useful answer.
The following regex will catch widely used number and character combinations in a variety of global phone number formats:
/^\s*(?:\+?(\d{1,3}))?([-. (]*(\d{3})[-. )]*)?((\d{3})[-. ]*(\d{2,4})(?:[-.x ]*(\d+))?)\s*$/gm
Positive:
+42 555.123.4567
+1-(800)-123-4567
+7 555 1234567
+7(926)1234567
(926) 1234567
+79261234567
926 1234567
9261234567
1234567
123-4567
123-89-01
495 1234567
469 123 45 67
89261234567
8 (926) 1234567
926.123.4567
415-555-1234
650-555-2345
(416)555-3456
202 555 4567
4035555678
1 416 555 9292
Negative:
926 3 4
8 800 600-APPLE
Original source: http://www.regexr.com/38pvb
Have you had a look over at RegExLib?
Entering US phone number brought back quite a list of possibilities.
My attempt at an unrestrictive regex:
/^[+#*\(\)\[\]]*([0-9][ ext+-pw#*\(\)\[\]]*){6,45}$/
Accepts:
+(01) 123 (456) 789 ext555
123456
*44 123-456-789 [321]
123456
123456789012345678901234567890123456789012345
*****++[](][((( 123456tteexxttppww
Rejects:
mob 07777 777777
1234 567 890 after 5pm
john smith
(empty)
1234567890123456789012345678901234567890123456
911
It is up to you to sanitize it for display. After validating it could be a number though.
I found this to work quite well:
^\(*\+*[1-9]{0,3}\)*-*[1-9]{0,3}[-. /]*\(*[2-9]\d{2}\)*[-. /]*\d{3}[-. /]*\d{4} *e*x*t*\.* *\d{0,4}$
It works for these number formats:
1-234-567-8901
1-234-567-8901 x1234
1-234-567-8901 ext1234
1 (234) 567-8901
1.234.567.8901
1/234/567/8901
12345678901
1-234-567-8901 ext. 1234
(+351) 282 433 5050
Make sure to use global AND multiline flags to make sure.
Link: http://www.regexr.com/3bp4b
Here's my best try so far. It handles the formats above but I'm sure I'm missing some other possible formats.
^\d?(?:(?:[\+]?(?:[\d]{1,3}(?:[ ]+|[\-.])))?[(]?(?:[\d]{3})[\-/)]?(?:[ ]+)?)?(?:[a-zA-Z2-9][a-zA-Z0-9 \-.]{6,})(?:(?:[ ]+|[xX]|(i:ext[\.]?)){1,2}(?:[\d]{1,5}))?$
This is a simple Regular Expression pattern for Philippine Mobile Phone Numbers:
((\+[0-9]{2})|0)[.\- ]?9[0-9]{2}[.\- ]?[0-9]{3}[.\- ]?[0-9]{4}
or
((\+63)|0)[.\- ]?9[0-9]{2}[.\- ]?[0-9]{3}[.\- ]?[0-9]{4}
will match these:
+63.917.123.4567
+63-917-123-4567
+63 917 123 4567
+639171234567
09171234567
The first one will match ANY two digit country code, while the second one will match the Philippine country code exclusively.
Test it here: http://refiddle.com/1ox
If you're talking about form validation, the regexp to validate correct meaning as well as correct data is going to be extremely complex because of varying country and provider standards. It will also be hard to keep up to date.
I interpret the question as looking for a broadly valid pattern, which may not be internally consistent - for example having a valid set of numbers, but not validating that the trunk-line, exchange, etc. to the valid pattern for the country code prefix.
North America is straightforward, and for international I prefer to use an 'idiomatic' pattern which covers the ways in which people specify and remember their numbers:
^((((\(\d{3}\))|(\d{3}-))\d{3}-\d{4})|(\+?\d{2}((-| )\d{1,8}){1,5}))(( x| ext)\d{1,5}){0,1}$
The North American pattern makes sure that if one parenthesis is included both are. The international accounts for an optional initial '+' and country code. After that, you're in the idiom. Valid matches would be:
(xxx)xxx-xxxx
(xxx)-xxx-xxxx
(xxx)xxx-xxxx x123
12 1234 123 1 x1111
12 12 12 12 12
12 1 1234 123456 x12345
+12 1234 1234
+12 12 12 1234
+12 1234 5678
+12 12345678
This may be biased as my experience is limited to North America, Europe and a small bit of Asia.
My gut feeling is reinforced by the amount of replies to this topic - that there is a virtually infinite number of solutions to this problem, none of which are going to be elegant.
Honestly, I would recommend you don't try to validate phone numbers. Even if you could write a big, hairy validator that would allow all the different legitimate formats, it would end up allowing pretty much anything even remotely resembling a phone number in the first place.
In my opinion, the most elegant solution is to validate a minimum length, nothing more.
You'll have a hard time dealing with international numbers with a single/simple regex, see this post on the difficulties of international (and even north american) phone numbers.
You'll want to parse the first few digits to determine what the country code is, then act differently based on the country.
Beyond that - the list you gave does not include another common US format - leaving off the initial 1. Most cell phones in the US don't require it, and it'll start to baffle the younger generation unless they've dialed internationally.
You've correctly identified that it's a tricky problem...
-Adam
After reading through these answers, it looks like there wasn't a straightforward regular expression that can parse through a bunch of text and pull out phone numbers in any format (including international with and without the plus sign).
Here's what I used for a client project recently, where we had to convert all phone numbers in any format to tel: links.
So far, it's been working with everything they've thrown at it, but if errors come up, I'll update this answer.
Regex:
/(\+*\d{1,})*([ |\(])*(\d{3})[^\d]*(\d{3})[^\d]*(\d{4})/
PHP function to replace all phone numbers with tel: links (in case anyone is curious):
function phoneToTel($number) {
$return = preg_replace('/(\+*\d{1,})*([ |\(])*(\d{3})[^\d]*(\d{3})[^\d]*(\d{4})/', '$1 ($3) $4-$5', $number); // includes international
return $return;
}
I believe the Number::Phone::US and Regexp::Common (particularly the source of Regexp::Common::URI::RFC2806) Perl modules could help.
The question should probably be specified in a bit more detail to explain the purpose of validating the numbers. For instance, 911 is a valid number in the US, but 911x isn't for any value of x. That's so that the phone company can calculate when you are done dialing. There are several variations on this issue. But your regex doesn't check the area code portion, so that doesn't seem to be a concern.
Like validating email addresses, even if you have a valid result you can't know if it's assigned to someone until you try it.
If you are trying to validate user input, why not normalize the result and be done with it? If the user puts in a number you can't recognize as a valid number, either save it as inputted or strip out undailable characters. The Number::Phone::Normalize Perl module could be a source of inspiration.
Do a replace on formatting characters, then check the remaining for phone validity. In PHP,
$replace = array( ' ', '-', '/', '(', ')', ',', '.' ); //etc; as needed
preg_match( '/1?[0-9]{10}((ext|x)[0-9]{1,4})?/i', str_replace( $replace, '', $phone_num );
Breaking a complex regexp like this can be just as effective, but much more simple.
I work for a market research company and we have to filter these types of input alllll the time. You're complicating it too much. Just strip the non-alphanumeric chars, and see if there's an extension.
For further analysis you can subscribe to one of many providers that will give you access to a database of valid numbers as well as tell you if they're landlines or mobiles, disconnected, etc. It costs money.
I found this to be something interesting. I have not tested it but it looks as if it would work
<?php
/*
string validate_telephone_number (string $number, array $formats)
*/
function validate_telephone_number($number, $formats)
{
$format = trim(ereg_replace("[0-9]", "#", $number));
return (in_array($format, $formats)) ? true : false;
}
/* Usage Examples */
// List of possible formats: You can add new formats or modify the existing ones
$formats = array('###-###-####', '####-###-###',
'(###) ###-###', '####-####-####',
'##-###-####-####', '####-####', '###-###-###',
'#####-###-###', '##########');
$number = '08008-555-555';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
echo "<br />";
$number = '123-555-555';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
echo "<br />";
$number = '1800-1234-5678';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
echo "<br />";
$number = '(800) 555-123';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
echo "<br />";
$number = '1234567890';
if(validate_telephone_number($number, $formats))
{
echo $number.' is a valid phone number.';
}
?>
You would probably be better off using a Masked Input for this. That way users can ONLY enter numbers and you can format however you see fit. I'm not sure if this is for a web application, but if it is there is a very click jQuery plugin that offers some options for doing this.
http://digitalbush.com/projects/masked-input-plugin/
They even go over how to mask phone number inputs in their tutorial.
Here's one that works well in JavaScript. It's in a string because that's what the Dojo widget was expecting.
It matches a 10 digit North America NANP number with optional extension. Spaces, dashes and periods are accepted delimiters.
"^(\\(?\\d\\d\\d\\)?)( |-|\\.)?\\d\\d\\d( |-|\\.)?\\d{4,4}(( |-|\\.)?[ext\\.]+ ?\\d+)?$"
I was struggling with the same issue, trying to make my application future proof, but these guys got me going in the right direction. I'm not actually checking the number itself to see if it works or not, I'm just trying to make sure that a series of numbers was entered that may or may not have an extension.
Worst case scenario if the user had to pull an unformatted number from the XML file, they would still just type the numbers into the phone's numberpad 012345678x5, no real reason to keep it pretty. That kind of RegEx would come out something like this for me:
\d+ ?\w{0,9} ?\d+
01234467 extension 123456
01234567x123456
01234567890
My inclination is to agree that stripping non-digits and just accepting what's there is best. Maybe to ensure at least a couple digits are present, although that does prohibit something like an alphabetic phone number "ASK-JAKE" for example.
A couple simple perl expressions might be:
#f = /(\d+)/g;
tr/0-9//dc;
Use the first one to keep the digit groups together, which may give formatting clues. Use the second one to trivially toss all non-digits.
Is it a worry that there may need to be a pause and then more keys entered? Or something like 555-1212 (wait for the beep) 123?
pattern="^[\d|\+|\(]+[\)|\d|\s|-]*[\d]$"
validateat="onsubmit"
Must end with a digit, can begin with ( or + or a digit, and may contain + - ( or )
For anyone interested in doing something similar with Irish mobile phone numbers, here's a straightforward way of accomplishing it:
http://ilovenicii.com/?p=87
PHP
<?php
$pattern = "/^(083|086|085|086|087)\d{7}$/";
$phone = "087343266";
if (preg_match($pattern,$phone)) echo "Match";
else echo "Not match";
There is also a JQuery solution on that link.
EDIT:
jQuery solution:
$(function(){
//original field values
var field_values = {
//id : value
'url' : 'url',
'yourname' : 'yourname',
'email' : 'email',
'phone' : 'phone'
};
var url =$("input#url").val();
var yourname =$("input#yourname").val();
var email =$("input#email").val();
var phone =$("input#phone").val();
//inputfocus
$('input#url').inputfocus({ value: field_values['url'] });
$('input#yourname').inputfocus({ value: field_values['yourname'] });
$('input#email').inputfocus({ value: field_values['email'] });
$('input#phone').inputfocus({ value: field_values['phone'] });
//reset progress bar
$('#progress').css('width','0');
$('#progress_text').html('0% Complete');
//first_step
$('form').submit(function(){ return false; });
$('#submit_first').click(function(){
//remove classes
$('#first_step input').removeClass('error').removeClass('valid');
//ckeck if inputs aren't empty
var fields = $('#first_step input[type=text]');
var error = 0;
fields.each(function(){
var value = $(this).val();
if( value.length<12 || value==field_values[$(this).attr('id')] ) {
$(this).addClass('error');
$(this).effect("shake", { times:3 }, 50);
error++;
} else {
$(this).addClass('valid');
}
});
if(!error) {
if( $('#password').val() != $('#cpassword').val() ) {
$('#first_step input[type=password]').each(function(){
$(this).removeClass('valid').addClass('error');
$(this).effect("shake", { times:3 }, 50);
});
return false;
} else {
//update progress bar
$('#progress_text').html('33% Complete');
$('#progress').css('width','113px');
//slide steps
$('#first_step').slideUp();
$('#second_step').slideDown();
}
} else return false;
});
//second section
$('#submit_second').click(function(){
//remove classes
$('#second_step input').removeClass('error').removeClass('valid');
var emailPattern = /^[a-zA-Z0-9._-]+#[a-zA-Z0-9.-]+\.[a-zA-Z]{2,4}$/;
var fields = $('#second_step input[type=text]');
var error = 0;
fields.each(function(){
var value = $(this).val();
if( value.length<1 || value==field_values[$(this).attr('id')] || ( $(this).attr('id')=='email' && !emailPattern.test(value) ) ) {
$(this).addClass('error');
$(this).effect("shake", { times:3 }, 50);
error++;
} else {
$(this).addClass('valid');
}
function validatePhone(phone) {
var a = document.getElementById(phone).value;
var filter = /^[0-9-+]+$/;
if (filter.test(a)) {
return true;
}
else {
return false;
}
}
$('#phone').blur(function(e) {
if (validatePhone('txtPhone')) {
$('#spnPhoneStatus').html('Valid');
$('#spnPhoneStatus').css('color', 'green');
}
else {
$('#spnPhoneStatus').html('Invalid');
$('#spnPhoneStatus').css('color', 'red');
}
});
});
if(!error) {
//update progress bar
$('#progress_text').html('66% Complete');
$('#progress').css('width','226px');
//slide steps
$('#second_step').slideUp();
$('#fourth_step').slideDown();
} else return false;
});
$('#submit_second').click(function(){
//update progress bar
$('#progress_text').html('100% Complete');
$('#progress').css('width','339px');
//prepare the fourth step
var fields = new Array(
$('#url').val(),
$('#yourname').val(),
$('#email').val(),
$('#phone').val()
);
var tr = $('#fourth_step tr');
tr.each(function(){
//alert( fields[$(this).index()] )
$(this).children('td:nth-child(2)').html(fields[$(this).index()]);
});
//slide steps
$('#third_step').slideUp();
$('#fourth_step').slideDown();
});
$('#submit_fourth').click(function(){
url =$("input#url").val();
yourname =$("input#yourname").val();
email =$("input#email").val();
phone =$("input#phone").val();
//send information to server
var dataString = 'url='+ url + '&yourname=' + yourname + '&email=' + email + '&phone=' + phone;
alert (dataString);//return false;
$.ajax({
type: "POST",
url: "http://clients.socialnetworkingsolutions.com/infobox/contact/",
data: "url="+url+"&yourname="+yourname+"&email="+email+'&phone=' + phone,
cache: false,
success: function(data) {
console.log("form submitted");
alert("success");
}
});
return false;
});
//back button
$('.back').click(function(){
var container = $(this).parent('div'),
previous = container.prev();
switch(previous.attr('id')) {
case 'first_step' : $('#progress_text').html('0% Complete');
$('#progress').css('width','0px');
break;
case 'second_step': $('#progress_text').html('33% Complete');
$('#progress').css('width','113px');
break;
case 'third_step' : $('#progress_text').html('66% Complete');
$('#progress').css('width','226px');
break;
default: break;
}
$(container).slideUp();
$(previous).slideDown();
});
});
Source.

regex for phone number validation?

i want to validate my phone number with the regex for following formats.i have googled the things but i could not find the regex for following formats...
079-26408300 / 8200
(079) 26408300
079 264 083 00
9429527462
can anyone please guide me how can i do validate the phone number field for above formats?
I want to validate the phone number for only above formats as right now am using only following regex var phone_pattern = /^[a-z0-9]+$/i;
#Ali Shah Ahmed
var phone_pattern = "(\d{10})|(\d{3}-\d{8}\s/\s\d{4})|((\d{3}\s){3}\d{2})|((\d{3})\s\d{8})";
here is the way am checking if its valid
if (!phone_pattern.test(personal_phone))
{
$("#restErrorpersonalphone").html('Please enter valid phone number');
$("#personal_phone").addClass('borderColor');
flag = false;
} else {
$("#restErrorpersonalphone").html('');
$("#personal_phone").removeClass('borderColor');
}
its not working. Am I implementing in wrong way?
lets start with the simplest phone number 9429527462
As this has 10 characters and all are numbers, regex for it could be \d{10}
Now the next phone number 079 264 083 00. Regex for this pattern could be (\d{3}\s){3}\d{2}
First we are expecting a group of 3 digits and a space to repeat thrice (\d{3}\s){3}, this will cover 079 264 083 (space included in it), so left will be the last two characters which are handled using \d{2}
For the phone number (079) 26408300, \(\d{3}\)\s\d{8} regex could be use. The regex first looks for a opening bracket, then three digits inside it, and then the closing bracket. It then looks for a space, and then for 8 digits.
The phone number 079-26408300 / 8200 could be validated using regex \d{3}-\d{8}\s/\s\d{4}. It first looks for 3 digits then a -, then 8 digits followed by a space. Then looks for a / and then a space and then 4 digits.
If you wish to know a single regex for validating all the above patterns, do let me know.
Final combined regex would be:
/(\d{10})|(\d{3}-\d{8}\s\/\s\d{4})|((\d{3}\s){3}\d{2})|(\(\d{3}\)\s\d{8})/
Straightforward solution is simple, use |
String ex = "\\d{3}-\\d{8} / \\d{4}|\\(\\d{3}\\) \\d{8}|...

RegEx for Prices?

I am searching for a RegEx for prices.
So it should be X numbers in front, than a "," and at the end 2 numbers max.
Can someone support me and post it please?
In what language are you going to use it?
It should be something like:
^\d+(,\d{1,2})?$
Explaination:
X number in front is: ^\d+ where ^ means the start of the string, \d means a digit and + means one or more
We use group () with a question mark, a ? means: match what is inside the group one or no times.
inside the group there is ,\d{1,2}, the , is the comma you wrote, \d is still a digit {1,2} means match the previous digit one or two times.
The final $ matches the end of the string.
I was not satisfied with the previous answers. Here is my take on it:
\d{1,3}(?:[.,]\d{3})*(?:[.,]\d{2})
|^^^^^^|^^^^^^^^^^^^^|^^^^^^^^^^^|
| 1-3 | 3 digits | 2 digits |
|digits| repeat any | |
| | no. of | |
| | times | |
(get a detailed explanation here: https://regex101.com/r/cG6iO8/1)
Covers all cases below
5.00
1,000
1,000,000.99
5,99 (european price)
5.999,99 (european price)
0.11
0.00
But also weird stuff like
5.000,000.00
In case you want to include 5 and 1000 (I personally wound not like to match ALL numbers), then just add a "?" like so:
\d{1,3}(?:[.,]\d{3})*(?:[.,]\d{2})?
I am working on similar problem. However i want only to match if a currency Symbol or String is also included in the String like EUR,€,USD or $. The Symbol may be trailing or leading. I don't care if there is space between the Number and the Currency substring. I based the Number matching on the previous discussion and used Price Number: \d{1,3}(?:[.,]\d{3})*(?:[.,]\d{2})?
Here is final result:
(USD|EUR|€|\$)\s?(\d{1,3}(?:[.,]\d{3})*(?:[.,]\d{2}))|(\d{1,3}(?:[.,]\d{3})*(?:[.,]\d{2})?)\s?(USD|EUR|€|\$)
I use (\d{1,3}(?:[.,]\d{3})*(?:[.,]\d{2})?)\s?(USD|EUR|€|\$) as a pattern to match against a currency symbol (here with tolerance for a leading space). I think you can easily tweak it for any other currencies
A Gist with the latest Version can be found at https://gist.github.com/wischweh/b6c0ac878913cca8b1ba
So I ran into a similar problem, needing to validate if an arbitrary string is a price, but needed a lot more resilience than the regexes provided in this thread and many other threads.
I needed a regex that would match all of the following:
5
5.00
1,000
1,000,000.99
5,99 (european price)
5.999,99 (european price)
0.11
0.00
And not to match stuff like IP addresses. I couldn't figure out a single regex to deal with the european and non-european stuff in one fell swoop so I wrote a little bit of Ruby code to normalise prices:
if value =~ /^([1-9][0-9]{,2}(,[0-9]{3})*|[0-9]+)(\.[0-9]{1,9})?$/
Float(value.delete(","))
elsif value =~ /^([1-9][0-9]{,2}(\.[0-9]{3})*|[0-9]+)(,[0-9]{1,9})?$/
Float(value.delete(".").gsub(",", "."))
else
false
end
The only difference between the two regexes is the swapped decimal place and comma. I'll try and break down what this is doing:
/^([1-9][0-9]{,2}(,[0-9]{3})*|[0-9]+)(\.[0-9]{1,9})?$/
The first part:
([1-9][0-9]{,2}(,[0-9]{3})*
This is a statement of numbers that follow this form: 1,000 1,000,000 100 12. But it does not allow leading zeroes. It's for the properly formatted numbers that have groups of 3 numerics separated by the thousands separator.
Second part:
[0-9]+
Just match any number 1 or more times. You could make this 0 or more times if you want to match: .11 .34 .00 etc.
The last part:
(\.[0-9]{1,9})?
This is the decimal place bit. Why up to 9 numerics, you ask? I've seen it happen. This regex is supposed to be able to handle any weird and wonderful price it sees and I've seen some retailers use up to 9 decimal places in prices. Usually all 0s, but we wouldn't want to miss out on the data ^_^
Hopefully this helps the next person to come along needing to process arbitrarily badly formatted price strings or either european or non-european format :)
^\d+,\d{1,2}$
I am currently working on a small function using regex to get price amount inside a String :
private static String getPrice(String input)
{
String output = "";
Pattern pattern = Pattern.compile("\\d{1,3}[,\\.]?(\\d{1,2})?");
Matcher matcher = pattern.matcher(input);
if (matcher.find())
{
output = matcher.group(0);
}
return output;
}
this seems to work with small price (0,00 to 999,99) and various currency :
$12.34 -> 12.34
$12,34 -> 12,34
$12.00 -> 12.00
$12 -> 12
12€ -> 12
12,11€ -> 12,11
12.999€ -> 12.99
12.9€ -> 12.9
£999.99€ -> 999.99
...
Pretty simple for "," separated numbers(Or no seperation) with 2 decimal places , supports deliminator but does not force them. Needs some improvement but should work.
^((\d{1,3}|\s*){1})((\,\d{3}|\d)*)(\s*|\.(\d{2}))$
matches:
1,123,456,789,134.45
1123456134.45
1234568979
12,345.45
123.45
123
no match:
1,2,3
12.4
1234,456.45
This may need some editing to make it function correctly
Quick explanation: Matches 1-3 numbers(Or nothing), matches a comma followed by 3 numbers as many times as needed(Or just numbers), matches a decimal point followed by 1 or 2 numbers(Or Nothing)
This code worked for me !! (PHP)
preg_match_all('/\d+((,\d+)+)?(.\d+)?(.\d+)?(,\d+)?/',$price[1]->plaintext,$lPrices);
So far I tried, this is the best
\d{1,3}[,\\.]?(\\d{1,2})?
https://regex101.com/r/xT8aQ7/1
r'(^\-?\d*\d+.?(\d{1,2})?$)'
This will allow digits with only one decimal and two digits after decimal
This one reasonably works when you may or may not have decimal part but an amount shows up like this 100,000 - or 100,000.00. Tested using Clojure only
\d{1,3}(?:[.,]\\d{3})*(?:[.,]\d{2,3})
\d+((,\d+)+)?(.\d+)?(.\d+)?(,\d+)?
to cover all
5
5.00
1,000
1,000,000.99
5,99 (european price)
5.999,99 (european price)
0.11
0.00
^((\d+)((,\d+|\d+)*)(\s*|\.(\d{2}))$)
Matches:
1
11
111
1111111
11,2122
1222,21222
122.23
1223,3232.23
Not Matches:
11e
x111
111,111.090
1.000
anything like \d+,\d{2} is wrong because the \d matches [0-9\.] i.e. 12.34,1.
should be: [0-9]+,[0-9]{2} (or [0-9]+,[0-9]{1,2} to allow only 1 decimal place)

Extract a portion of text using RegEx

I would like to extract portion of a text using a regular expression. So for example, I have an address and want to return just the number and streets and exclude the rest:
2222 Main at King Edward Vancouver BC CA
But the addresses varies in format most of the time. I tried using Lookbehind Regex and came out with this expression:
.*?(?=\w* \w* \w{2}$)
The above expressions handles the above example nicely but then it gets way too messy as soon as commas come into the text, postal codes which can be a 6 character string or two 3 character strings with a space in the middle, etc...
Is there any more elegant way of extracting a portion of text other than a lookbehind regex?
Any suggestion or a point in another direction is greatly appreciated.
Thanks!
Regular expressions are for data that is REGULAR, that follows a pattern. So if your data is completely random, no, there's no elegant way to do this with regex.
On the other hand, if you know what values you want, you can probably write a few simple regexes, and then just test them all on each string.
Ex.
regex1= address # grabber, regex2 = street type grabber, regex3 = name grabber.
Attempt a match on string1 with regex1, regex2, and finally regex3. Move on to the next string.
well i thot i'd throw my hat into the ring:
.*(?=,? ([a-zA-Z]+,?\s){3}([\d-]*\s)?)
and you might want ^ or \d+ at the front for good measure
and i didn't bother specifying lengths for the postal codes... just any amount of characters hyphens in this one.
it works for these inputs so far and variations on comas within the City/state/country area:
2222 Main at King Edward Vancouver, BC, CA, 333-333
555 road and street place CA US 95000
2222 Main at King Edward Vancouver BC CA 333
555 road and street place CA US
it is counting at there being three words at the end for the city, state and country but other than that it's like ryansstack said, if it's random it won't work. if the city is two words like New York it won't work. yeah... regex isn't the tool for this one.
btw: tested on regexhero.net
i can think of 2 ways you can do this
1) if you know that "the rest" of your data after the address is exactly 2 fields, ie BC and CA, you can do split on your string using space as delimiter, remove the last 2 items.
2) do a split on delimiter /[A-Z][A-Z]/ and store the result in array. then print out the array ( this is provided that the address doesn't contain 2 or more capital letters)