146

Thinking about my other problem, i decided I can't even create a regular expression that will match roman numerals (let alone a context-free grammar that will generate them)

The problem is matching only valid roman numerals. Eg, 990 is NOT "XM", it's "CMXC"

My problem in making the regex for this is that in order to allow or not allow certain characters, I need to look back. Let's take thousands and hundreds, for example.

I can allow M{0,2}C?M (to allow for 900, 1000, 1900, 2000, 2900 and 3000). However, If the match is on CM, I can't allow following characters to be C or D (because I'm already at 900).

How can I express this in a regex?
If it's simply not expressible in a regex, is it expressible in a context-free grammar?

  • This is a really interesting problem, and could be used to teach regular expressions...if it's doable. I don't know them well enough to venture a guess. – helloandre Nov 6 '08 at 1:33

11 Answers 11

305

Try:

^M{0,4}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})$

Breaking it down:


M{0,4}

This specifies the thousands section and basically restrains it to between 0 and 4000. It's a relatively simple:

   0: <empty>  matched by M{0}
1000: M        matched by M{1}
2000: MM       matched by M{2}
3000: MMM      matched by M{3}
4000: MMMM     matched by M{4}

(CM|CD|D?C{0,3})

Slightly more complex, this is for the hundreds section and covers all the possibilities:

  0: <empty>  matched by D?C{0} (with D not there)
100: C        matched by D?C{1} (with D not there)
200: CC       matched by D?C{2} (with D not there)
300: CCC      matched by D?C{3} (with D not there)
400: CD       matched by CD
500: D        matched by D?C{0} (with D there)
600: DC       matched by D?C{1} (with D there)
700: DCC      matched by D?C{2} (with D there)
800: DCCC     matched by D?C{3} (with D there)
900: CM       matched by CM

(XC|XL|L?X{0,3})

Same rules as previous section but for the tens place:

 0: <empty>  matched by L?X{0} (with L not there)
10: X        matched by L?X{1} (with L not there)
20: XX       matched by L?X{2} (with L not there)
30: XXX      matched by L?X{3} (with L not there)
40: XL       matched by XL
50: L        matched by L?X{0} (with L there)
60: LX       matched by L?X{1} (with L there)
70: LXX      matched by L?X{2} (with L there)
80: LXXX     matched by L?X{3} (with L there)
90: XC       matched by XC

(IX|IV|V?I{0,3})

This is the units section, handling 0 through 9 and also similar to the previous two sections (Roman numerals, despite their seeming weirdness, follow some logical rules once you figure out what they are):

0: <empty>  matched by V?I{0} (with V not there)
1: I        matched by V?I{1} (with V not there)
2: II       matched by V?I{2} (with V not there)
3: III      matched by V?I{3} (with V not there)
4: IV       matched by IV
5: V        matched by V?I{0} (with V there)
6: VI       matched by V?I{1} (with V there)
7: VII      matched by V?I{2} (with V there)
8: VIII     matched by V?I{3} (with V there)
9: IX       matched by IX
  • 7
    Shouldn't it be M{0,3}? – lemon Mar 25 '10 at 2:18
  • Possibly. I can see only inferences in the question that it needs to go up to 3999 (not a specific definite requirement) but I allow it up to 4999 anyway. If you truly want to restrict it to 3999 then by all means remove one of the Ms. – paxdiablo Mar 25 '10 at 2:41
  • 2
    any solution to avoid matching the empty string? – Facundo Casco Nov 1 '11 at 22:33
  • 8
    @Aashish: When the Romans were a force to be reckoned with, MMMM was the correct way. The overbar representation came long after the core empire fell to pieces. – paxdiablo Jul 15 '13 at 2:18
  • 2
    @paxdiablo this is how i found mmmcm fails. String regx = "^M{0,3}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})$"; if(input.matches(regx)) -> this evalulates to false for MMMCM / MMMM in java. – amIT Aug 10 '14 at 14:07
19

Actually, your premise is flawed. 990 IS "XM", as well as "CMXC".

The Romans were far less concerned about the "rules" than your third grade teacher. As long as it added up, it was OK. Hence "IIII" was just as good as "IV" for 4. And "IIM" was completely cool for 998.

(If you have trouble dealing with that... Remember English spellings were not formalized until the 1700s. Until then, as long as the reader could figure it out, it was good enough).

  • 3
    Humanity's funny that way. The rules are rules, except when they're not. – sblundy Nov 6 '08 at 1:57
  • 6
    Sure, that's cool. But my "strict third grade teacher" syntax need makes a much more interesting regex problem, in my opinion... – Daniel Magliola Nov 6 '08 at 3:03
  • 5
    Good point James, one ought to be a strict author but a forgiving reader. – Corin May 4 '12 at 0:19
  • @Corin: aka Postel's robustness principle – jfs May 9 '17 at 21:27
  • I think this answer should be deleted... this is irrelevant to the question. – user6046168 Jan 4 '18 at 18:36
11

To avoid matching the empty string you'll need to repeat the pattern four times and replace each 0 with a 1 in turn, and account for V, L and D:

(M{1,4}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})|M{0,4}(CM|C?D|D?C{1,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})|M{0,4}(CM|CD|D?C{0,3})(XC|X?L|L?X{1,3})(IX|IV|V?I{0,3})|M{0,4}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|I?V|V?I{1,3}))

In this case (because this pattern uses ^ and $) you would be better off checking for empty lines first and don't bother matching them. If you are using word boundaries then you don't have a problem because there's no such thing as an empty word. (At least regex doesn't define one; don't start philosophising, I'm being pragmatic here!)


In my own particular (real world) case I needed match numerals at word endings and I found no other way around it. I needed to scrub off the footnote numbers from my plain text document, where text such as "the Red Seacl and the Great Barrier Reefcli" had been converted to the Red Seacl and the Great Barrier Reefcli. But I still had problems with valid words like Tahiti and fantastic are scrubbed into Tahit and fantasti.

  • I have similar problem (!): to do a "left trim" of remaining/residual roman number of a item list (HTML OL of type I or i). So, when there are remaining, I need to clean (like a trim function) with your regex at the beginning (left) of the item-text... But more simple: items never use M or C or L, so, do you have this kind of simplified regex? – Peter Krauss Nov 11 '14 at 20:00
  • ... ok, here it seems ok (!), (X{1,3}(IX|IV|V?I{0,3})|X{0,3}(IX|I?V|V?I{1,3})) – Peter Krauss Nov 11 '14 at 20:21
  • 1
    This should be the accepted one. – Aminah Nuraini Apr 26 '16 at 10:49
  • 1
    you don't need to repeat the pattern, to reject empty strings. You could use a lookahead assertion – jfs May 10 '17 at 20:09
9

Just to save it here:

(^(?=[MDCLXVI])M*(C[MD]|D?C{0,3})(X[CL]|L?X{0,3})(I[XV]|V?I{0,3})$)

Matches all the Roman numerals. Doesn't care about empty strings (requires at least one Roman numeral letter). Should work in PCRE, Perl, Python and Ruby.

Online Ruby demo: http://rubular.com/r/KLPR1zq3Hj

Online Conversion: http://www.onlineconversion.com/roman_numerals_advanced.htm

  • 2
    I don't know why, but the main answer didn't work for me in autotranslate lists in MemoQ. However, this solution does - excluding string start/end symbols though. – orlando2bjr Apr 6 '17 at 12:31
  • 1
    @orlando2bjr glad to help. Yeah, in this case I was matching a number on its own, without surroundings. If you look for it in a text, sure you'd need to remove ^$. Cheers! – smileart May 6 '17 at 16:37
7

Fortunately, the range of numbers is limited to 1..3999 or thereabouts. Therefore, you can build up the regex piece-meal.

<opt-thousands-part><opt-hundreds-part><opt-tens-part><opt-units-part>

Each of those parts will deal with the vagaries of Roman notation. For example, using Perl notation:

<opt-hundreds-part> = m/(CM|DC{0,3}|CD|C{1,3})?/;

Repeat and assemble.

Added: The <opt-hundreds-part> can be compressed further:

<opt-hundreds-part> = m/(C[MD]|D?C{0,3})/;

Since the 'D?C{0,3}' clause can match nothing, there's no need for the question mark. And, most likely, the parentheses should be the non-capturing type - in Perl:

<opt-hundreds-part> = m/(?:C[MD]|D?C{0,3})/;

Of course, it should all be case-insensitive, too.

You can also extend this to deal with the options mentioned by James Curran (to allow XM or IM for 990 or 999, and CCCC for 400, etc).

<opt-hundreds-part> = m/(?:[IXC][MD]|D?C{0,4})/;
  • Starting with thousands hundreds tens units, it is easy to create a FSM that computes and validates given Roman numerals – jfs May 10 '17 at 20:08
  • What do you mean by Fortunately, the range of numbers is limited to 1..3999 or thereabouts? Who limited it? – SexyBeast Sep 29 '17 at 14:32
  • @SexyBeast: There isn’t any standard Roman notation for 5,000, let alone bigger numbers, so the regularities that work up to then stop working. – Jonathan Leffler Sep 29 '17 at 15:09
  • Not sure why you believe that, but Roman numerals can represent numbers into the millions. en.wikipedia.org/wiki/Roman_numerals#Large_numbers – AmbroseChapel Dec 29 '18 at 2:47
  • @AmbroseChapel: As I stated, there isn't any (single) standard notation for 5,000, let alone bigger numbers. You have to use one of a number of divergent systems as outlined in the Wikipedia article you link to, and you face problems with the orthography for the system with overbars, underbars, or reversed C etc. And you will have to explain to anyone what system you're using and what it means; people will not, in general, recognize the Roman numerals beyond M. You may choose to think otherwise; that is your prerogative, just as it is my prerogative to stand by my previous comments. – Jonathan Leffler Dec 29 '18 at 4:11
5
import re
pattern = '^M{0,3}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})$'
if re.search(pattern, 'XCCMCI'):
    print 'Valid Roman'
else:
    print 'Not valid Roman'

For people who really want to understand the logic, please take a look at a step by step explanation on 3 pages on diveintopython.

The only difference from original solution (which had M{0,4}) is because I found that 'MMMM' is not a valid Roman numeral (also old Romans most probably have not thought about that huge number and will disagree with me). If you are one of disagreing old Romans, please forgive me and use {0,4} version.

  • 1
    the regex in the answer permits empty numerals. If you don't want it; you could use a lookahead assertion, to reject empty strings (it also ignores the case of the letters). – jfs May 10 '17 at 20:03
1

As Jeremy and Pax pointed out above ... '^M{0,4}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})$' should be the solution you're after ...

The specific URL that should have been attached (IMHO) is http://thehazeltree.org/diveintopython/7.html

Example 7.8 is the short form using {n,m}

0

The problem of the solution from Jeremy and Pax is, that it does also match "nothing".

The following regex expects at least one roman numeral:

^(M{0,4}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})|[IDCXMLV])$
  • 5
    that one won't work (unless you're using a very weird regex implementation) -- the left part of the | can match an empty string and all valid roman numerals, so the right side is completely redundant. and yes, it still matches an empty string. – DirtY iCE Aug 8 '11 at 23:40
  • See @Corin solution... – Peter Krauss Nov 11 '14 at 20:23
  • "The problem of the solution from Jeremy and Pax is" ... exactly the same as the problem this answer has. If you're going to propose a solution to a supposed problem, you probably should test it. :-) – paxdiablo Jul 12 '15 at 8:37
  • I got empty string with this – Aminah Nuraini Apr 26 '16 at 10:51
0

Steven Levithan uses this regex in his post which validates roman numerals prior to "deromanizing" the value:

/^M*(?:D?C{0,3}|C[MD])(?:L?X{0,3}|X[CL])(?:V?I{0,3}|I[XV])$/
0

In my case, I was trying to find and replace all occurences of roman numbers by one word inside the text, so I couldn't use the start and end of lines. So the @paxdiablo solution found many zero-length matches. I ended up with the following expression:

(?=\b[MCDXLVI]{1,6}\b)M{0,4}(?:CM|CD|D?C{0,3})(?:XC|XL|L?X{0,3})(?:IX|IV|V?I{0,3})

My final Python code was like this:

import re
text = "RULES OF LIFE: I. STAY CURIOUS; II. NEVER STOP LEARNING"
text = re.sub(r'(?=\b[MCDXLVI]{1,6}\b)M{0,4}(?:CM|CD|D?C{0,3})(?:XC|XL|L?X{0,3})(?:IX|IV|V?I{0,3})', 'ROMAN', text)
print(text)

Output:

RULES OF LIFE: ROMAN. STAY CURIOUS; ROMAN. NEVER STOP LEARNING
-1

I would write functions to my work for me. Here are two roman numeral functions in PowerShell.

function ConvertFrom-RomanNumeral
{
  <#
    .SYNOPSIS
        Converts a Roman numeral to a number.
    .DESCRIPTION
        Converts a Roman numeral - in the range of I..MMMCMXCIX - to a number.
    .EXAMPLE
        ConvertFrom-RomanNumeral -Numeral MMXIV
    .EXAMPLE
        "MMXIV" | ConvertFrom-RomanNumeral
  #>
    [CmdletBinding()]
    [OutputType([int])]
    Param
    (
        [Parameter(Mandatory=$true,
                   HelpMessage="Enter a roman numeral in the range I..MMMCMXCIX",
                   ValueFromPipeline=$true,
                   Position=0)]
        [ValidatePattern("^M{0,3}(CM|CD|D?C{0,3})(XC|XL|L?X{0,3})(IX|IV|V?I{0,3})$")]
        [string]
        $Numeral
    )

    Begin
    {
        $RomanToDecimal = [ordered]@{
            M  = 1000
            CM =  900
            D  =  500
            CD =  400
            C  =  100
            XC =   90
            L  =   50
            X  =   10
            IX =    9
            V  =    5
            IV =    4
            I  =    1
        }
    }
    Process
    {
        $roman = $Numeral + " "
        $value = 0

        do
        {
            foreach ($key in $RomanToDecimal.Keys)
            {
                if ($key.Length -eq 1)
                {
                    if ($key -match $roman.Substring(0,1))
                    {
                        $value += $RomanToDecimal.$key
                        $roman  = $roman.Substring(1)
                        break
                    }
                }
                else
                {
                    if ($key -match $roman.Substring(0,2))
                    {
                        $value += $RomanToDecimal.$key
                        $roman  = $roman.Substring(2)
                        break
                    }
                }
            }
        }
        until ($roman -eq " ")

        $value
    }
    End
    {
    }
}

function ConvertTo-RomanNumeral
{
  <#
    .SYNOPSIS
        Converts a number to a Roman numeral.
    .DESCRIPTION
        Converts a number - in the range of 1 to 3,999 - to a Roman numeral.
    .EXAMPLE
        ConvertTo-RomanNumeral -Number (Get-Date).Year
    .EXAMPLE
        (Get-Date).Year | ConvertTo-RomanNumeral
  #>
    [CmdletBinding()]
    [OutputType([string])]
    Param
    (
        [Parameter(Mandatory=$true,
                   HelpMessage="Enter an integer in the range 1 to 3,999",
                   ValueFromPipeline=$true,
                   Position=0)]
        [ValidateRange(1,3999)]
        [int]
        $Number
    )

    Begin
    {
        $DecimalToRoman = @{
            Ones      = "","I","II","III","IV","V","VI","VII","VIII","IX";
            Tens      = "","X","XX","XXX","XL","L","LX","LXX","LXXX","XC";
            Hundreds  = "","C","CC","CCC","CD","D","DC","DCC","DCCC","CM";
            Thousands = "","M","MM","MMM"
        }

        $column = @{Thousands = 0; Hundreds = 1; Tens = 2; Ones = 3}
    }
    Process
    {
        [int[]]$digits = $Number.ToString().PadLeft(4,"0").ToCharArray() |
                            ForEach-Object { [Char]::GetNumericValue($_) }

        $RomanNumeral  = ""
        $RomanNumeral += $DecimalToRoman.Thousands[$digits[$column.Thousands]]
        $RomanNumeral += $DecimalToRoman.Hundreds[$digits[$column.Hundreds]]
        $RomanNumeral += $DecimalToRoman.Tens[$digits[$column.Tens]]
        $RomanNumeral += $DecimalToRoman.Ones[$digits[$column.Ones]]

        $RomanNumeral
    }
    End
    {
    }
}

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