Communities

Writing
Writing
Codidact Meta
Codidact Meta
The Great Outdoors
The Great Outdoors
Photography & Video
Photography & Video
Scientific Speculation
Scientific Speculation
Cooking
Cooking
Electrical Engineering
Electrical Engineering
Judaism
Judaism
Languages & Linguistics
Languages & Linguistics
Software Development
Software Development
Mathematics
Mathematics
Christianity
Christianity
Code Golf
Code Golf
Music
Music
Physics
Physics
Linux Systems
Linux Systems
Power Users
Power Users
Tabletop RPGs
Tabletop RPGs
Community Proposals
Community Proposals
tag:snake search within a tag
answers:0 unanswered questions
user:xxxx search by author id
score:0.5 posts with 0.5+ score
"snake oil" exact phrase
votes:4 posts with 4+ votes
created:<1w created < 1 week ago
post_type:xxxx type of post
Search help
Notifications
Mark all as read See all your notifications »
Users Search
Help Dashboard Sign In Sign Up
Challenges Q&A Sandbox Meta
Challenges
Posts Tags Edits
Post Challenge

Comments on The 50 substrings that validate any string of Roman numerals

Parent

The 50 substrings that validate any string of Roman numerals

+8
−0

Given a string of Roman numerals, decide whether it forms a valid Roman number. If not, output the substring that proves this, from the list of 50 strings described below.

Relevant fact

This challenge is based around the following fact:

A string of Roman numerals is a valid Roman number if and only if it contains none of the following 50 strings as a substring:

"CCCC", "CCD", "CCM", "CDC", "CMC", "CMD", "CMM", "DCD", "DCM", "DD", "DM", "IC", "ID", "IIII", "IIV", "IIX", "IL", "IM", "IVI", "IXC", "IXI", "IXL", "IXV", "IXX", "LC", "LD", "LL", "LM", "LXC", "LXL", "MMMM", "VC", "VD", "VIV", "VIX", "VL", "VM", "VV", "VX", "XCC", "XCD", "XCL", "XCM", "XCX", "XD", "XLX", "XM", "XXC", "XXL", "XXXX"

This works for any length string, if a valid Roman number is defined as follows:

Valid Roman numbers[1]

  • Each numeral appears no more than 3 times consecutively.
  • Each of V (5), L (50), and D (500) appears no more than once consecutively.
  • A Roman number is constructed by concatenating the strings representing its thousands, hundreds, tens, and units components.
Decimal Thousands Hundreds Tens Units
1 M C X I
2 MM CC XX II
3 MMM CCC XXX III
4 CD XL IV
5 D L V
6 DC LX VI
7 DCC LXX VII
8 DCCC LXXX VIII
9 CM XC IX

So, for example, 2345 would be represented as the concatenation of MM (for 2000), CCC (for 300), XL (for 40), and V (for 5), or MMCCCXLV.

This defines a unique correct representation for each number from 1 to 3999 (4000 and above are not representable without breaking the first two rules). The 50 substrings method described above will identify each of these 3999 strings as valid, and all other strings of Roman numerals as invalid.

Input

  • A string containing only Roman numerals (I, V, X, L, C, D, M).
  • The string will have length at least 1.
  • The string will have length at most 15 (this is the length of the longest valid string of Roman numerals).
  • You may choose to take input in lower case instead, provided that you also use lower case in your output for an input that is not a valid Roman number.

Output

  • If the input is a valid Roman number, output a consistent value indicating this.
    • Consistent means that the value must be the same for all valid Roman numbers.
    • The output for a valid Roman number must not be one of the strings from the list of 50.
    • Since the consistent value can be anything (and specifically does not need to contain Roman numerals), there is no requirement for it to be upper or lower case.
  • If the input is not a valid Roman number, output exactly 1 string from the list of 50.
    • The output in this case must be a substring of the input.
    • If the input has 2 or more of the strings from the list of 50 as substrings, you may choose any 1 of them to be the output, but you must choose only 1 of them (you must not output 2 or more).
    • If you chose to take input in lower case, then this output string must also be in lower case.

Examples

A valid Roman number

The input MCMXCVI is the unique correct representation of 1996. It contains none of the 50 strings.

A string that is not a valid Roman number

Although the input MMXDIII might be suspected of representing 2493, it is not the unique correct representation of this number (which is MMCDXCIII). Note that it has XD as a substring, identifying it as invalid. The only correct output is therefore XD.

An invalid string with more than 1 potential output

The input MMCCMDXXV has 2 substrings that make it invalid, so either CCM or CMD would be correct outputs. It would not be correct to output both of these, or to output their overlap CCMD, as this is not one of the 50 strings.

Test cases

Test cases are in the format INPUT : VALID, OUTPUTS. Note that only one of the valid outputs can be chosen - outputting 2 or more is incorrect.

The output "VALID" is just an example - for an input that is a valid Roman number you may choose to output any consistent value distinct from the 50 strings.

Upper case test cases

These reflect the case used in the rest of the challenge wording, although there is no requirement to use upper case for this challenge.

I : VALID
V : VALID
X : VALID
L : VALID
C : VALID
D : VALID
M : VALID
II : VALID
VV : VV
XX : VALID
LL : LL
CC : VALID
DD : DD
MM : VALID
III : VALID
VII : VALID
IVI : IVI
IIV : IIV
CCI : VALID
CCV : VALID
CCX : VALID
CCL : VALID
CCC : VALID
CCD : CCD
CCM : CCM
IIII : IIII
MLDI : LD
MXXC : XXC
DCIIX : IIX
MCXXXX : XXXX
MCCCCXVI : CCCC
MMLXCVII : LXC
MMMCMXCIX : VALID
MMMDCCCLXXXVIII : VALID
MMCCCXLV : VALID
MCMXCVI : VALID
MMXDIII : XD
MMCDXCIII : VALID
MMCCMDXXV : CCM, CMD
XXX : VALID
CLLX : LL
DXXDMMV : DM, XD
CCDDDIMDD : DD, IM, CCD
VLCXIVXMCVXLC : VX, VL, LC, XM
DVLIILVCXVXVMLI : VX, VL, IL, VM, VC
VVDLMIVILXXDX : VV, VD, IL, XD, LM, IVI
DMXXCMILVCMLLMV : DM, IL, LL, VC, LM, XXC, XCM
CMXDVLCCDDLXLXC : DD, VL, LC, XD, XLX, LXC, CCD, LXL
XDIXCLLMVVLCMCM : VV, VL, LC, XD, LL, LM, IXC, CMC, XCL
IIXXCDVVLMILVDD : DD, VV, VL, VD, IL, LM, XXC, IXX, IIX, XCD
DDMIIXXCMCCDCMM : DD, DM, CMC, CMM, XXC, IXX, DCM, CDC, XCM, CCD, IIX

Lower case test cases

These are the same test cases in lower case, in case you can benefit from taking lower case input.

Note that if you take lower case input then you must also give lower case output where it is one of the 50 strings.

i : valid
v : valid
x : valid
l : valid
c : valid
d : valid
m : valid
ii : valid
vv : vv
xx : valid
ll : ll
cc : valid
dd : dd
mm : valid
iii : valid
vii : valid
ivi : ivi
iiv : iiv
cci : valid
ccv : valid
ccx : valid
ccl : valid
ccc : valid
ccd : ccd
ccm : ccm
iiii : iiii
mldi : ld
mxxc : xxc
dciix : iix
mcxxxx : xxxx
mccccxvi : cccc
mmlxcvii : lxc
mmmcmxcix : valid
mmmdccclxxxviii : valid
mmcccxlv : valid
mcmxcvi : valid
mmxdiii : xd
mmcdxciii : valid
mmccmdxxv : ccm, cmd
xxx : valid
cllx : ll
dxxdmmv : dm, xd
ccdddimdd : dd, im, ccd
vlcxivxmcvxlc : vx, vl, lc, xm
dvliilvcxvxvmli : vx, vl, il, vm, vc
vvdlmivilxxdx : vv, vd, il, xd, lm, ivi
dmxxcmilvcmllmv : dm, il, ll, vc, lm, xxc, xcm
cmxdvlccddlxlxc : dd, vl, lc, xd, xlx, lxc, ccd, lxl
xdixcllmvvlcmcm : vv, vl, lc, xd, ll, lm, ixc, cmc, xcl
iixxcdvvlmilvdd : dd, vv, vl, vd, il, lm, xxc, ixx, iix, xcd
ddmiixxcmccdcmm : dd, dm, cmc, cmm, xxc, ixx, dcm, cdc, xcm, ccd, iix

Scoring

This is a code golf challenge. Your score is the number of bytes in your code. Lowest score for each language wins.

Explanations are optional, but I'm more likely to upvote answers that have one.

  1. This is a common modern set of rules, described as Standard form on Wikipedia. It does not reflect all usages during history, but will be the basis of this challenge, since otherwise the 50 substrings approach does not work. ↩︎

code-golf math number string
posted 8 months ago
1mo ago
user card
trichoplax‭
1020 reputation 83 17 129 471
History
Why does this post require attention from curators or moderators?
You might want to add some details to your flag.
Why should this post be closed?

1 comment thread

Casing (2 comments)
Post
+0
−0

JavaScript, 149 bytes

t=>t.match(/CCCC|CC[DM]|CM[CDM]|DC[DM]|DD|DM|I[CDLM]|IIII|II[VX]|IVI|IX[CILVX]|L[CDLM]|LX[CL]|MMMM|V[CDLMVX]|VI[VX]|XCC[DLMX]|XD|XLX|XM|XX[CL]|XXXX/)

Simple regex. Returns null on valid strings.

Try it online!

posted 6 months ago
6mo ago
user card
--Hyde‭
1 reputation 0 2 0 2
History
Why does this post require attention from curators or moderators?
You might want to add some details to your flag.

2 comment threads

Bug (2 comments)
Leaderboard (5 comments)
Leaderboard
trichoplax‭ wrote 6 months ago
copy link

Even though it uses the same regex string, I recommend posting the spreadsheet formula as a separate answer. This way it will show up in the automated leaderboard for ease of comparison with other answers.

--Hyde‭ wrote 6 months ago
copy link

trichoplax‭ thanks, but I don't really see the point, because the same pattern can be used as is in most any regex capable language. I wanted to show the Google Sheets formula because it uses regexextract() instead of the regexmatch() as one's knee-jerk approach would often be. First time here so I don't really know the ropes. Will be happy to delete the Google Sheets formula if that's more kosher.

trichoplax‭ wrote 6 months ago
copy link

I understand that regex answers will be similar in most languages. The advantage of posting each language in a separate answer is that anyone wanting to compete in a particular language can easily see from the leaderboard what score they are competing against.

In some languages the regex answer will be the best possible. In other languages there may be a shorter way. Since there's an automated leaderboard, separate answers allow seeing at a glance which approach works best for each language.

Please note that this isn't a rule - there's no penalty for leaving your answer as it is. It's just my personal suggestion in case you want to get the benefit of the leaderboard since it already exists.

trichoplax‭ wrote 6 months ago
copy link

Whatever you decide, welcome to Code Golf Codidact!

--Hyde‭ wrote 6 months ago
copy link

Got it. Thanks for your patience.