Anagrams/Deranged anagrams
You are encouraged to solve this task according to the task description, using any language you may know.
Two or more words are said to be anagrams if they have the same characters, but in a different order. By analogy with derangements we define a deranged anagram as two words with the same characters, but in which the same character does not appear in the same position in both words.
The task is to use the word list at http://www.puzzlers.org/pub/wordlists/unixdict.txt to find and show the longest deranged anagram.
- Cf.
CoffeeScript
<lang coffeescript>words = require('fs').readFileSync('unixdict.txt').toString().split(/[\n\r]+/) sorted = {} anagrams = []
for word in words #sort words by length (sorted[word.length] or (sorted[word.length] = [])).push [word, word.split().sort().join()]
isAnagram = (w1, w2) -> w1[0] != w2[0] and w1[1] == w2[1]
isDeranged = (word1, word2) -> for pos, letter of word1 return false if word2[pos] == letter return true
for l, group of sorted # find deranged anagrams
while word = group.pop()
anagrams.push [word[0], word2[0]] for word2 in group when isAnagram(word, word2) and isDeranged(word[0], word2[0])
console.log "Longest deranged anagram: #{anagrams[anagrams.length-1].join(' / ')}"</lang>
Output:
Longest deranged anagram: intoxicate / excitation
C
<lang C>#include <stdio.h>
- include <stdlib.h>
- include <string.h>
- include <unistd.h>
- include <sys/types.h>
- include <fcntl.h>
- include <sys/stat.h>
typedef struct { char *key, *word; } wtuple;
int deranged(char *s1, char *s2) { while (*s1 != '\0') if (*(s1++) == *(s2++)) return 0;
return 1; }
int cmp_tuple(const void *a, const void *b) { const wtuple *x = a, *y = b; int l1 = strlen(x->key), l2 = strlen(y->key); return l1 > l2 ? -1 : l1 < l2 ? 1 :strcmp(x->key, y->key); }
/* sort letters in a string */ void char_sort(char *ptr, int len) { int i, j; char tmp; /* bubble sort, O(n) shmoen */ for (i = 0; i < len; i++) for (j = i + 1; j < len; j++) if (ptr[i] > ptr[j]) { tmp = ptr[i]; ptr[i] = ptr[j]; ptr[j] = tmp; } }
int main() { int i, j, k, n_words = 0; char *words, *keys; struct stat st; wtuple *t;
int fd = open("unixdict.txt", O_RDONLY); fstat(fd, &st);
words = malloc(st.st_size); read(fd, words, st.st_size); close(fd);
keys = malloc(st.st_size); memcpy(keys, words, st.st_size);
/* count words, change all new line to null, and sort each key */ for (i = j = 0; i < st.st_size; i++) { if (words[i] != '\n') continue; n_words ++; words[i] = keys[i] = '\0'; char_sort(keys + j, i - j); j = i; }
/* make key-word tuples */ t = malloc(sizeof(wtuple) * n_words); for (j = k = i = 0; i < st.st_size; i++) { if (words[i] != '\0') continue; t[j].key = keys + k; t[j].word = words + k; k = ++i; j++; }
/* sort t by key length / key order */ qsort(t, n_words, sizeof(wtuple), cmp_tuple); for (i = 0, j = 0; j < n_words; j++) { if (strcmp(t[i].key, t[j].key)) i = j; else if (deranged(t[i].word, t[j].word)) break; }
printf("longest derangement: %s %s\n", t[i].word, t[j].word); return 0; }</lang>
D
<lang d>import std.stdio, std.file, std.string, std.algorithm, std.range;
auto findAnagrams(R)(R words) /*pure nothrow*/ {
string[][string] anagrams; foreach (w; words) anagrams[w.sort] ~= w.idup; //return array(filter!q{ a.length > 1 }(anagrams.byValue())); return array(filter!q{ a.length > 1 }(anagrams.values));
}
auto findDeranged(in string[] words) /*pure nothrow*/ {
const(string)[2][] result; foreach (i, w1; words) foreach (w2; words[i+1 .. $]) if (!canFind!q{ a[0] == a[1] }(zip(w1, w2))) result ~= [w1, w2]; return result;
}
auto largestDerangedAna(const(string)[][] anagrams) /*nothrow*/ {
sort!q{ a[0].length > b[0].length }(anagrams); return filter!q{ a.length }(map!findDeranged(anagrams));
}
void main() {
//auto words = readText("unixdict.txt").splitter(); auto words = std.array.splitter(readText("unixdict.txt")); writeln("Longest deranged anagrams:"); auto der = largestDerangedAna(findAnagrams(words)); if (!der.empty) writeln(der.front);
}</lang> Output:
Longest anagrams with no characters in the same position: excitation, intoxicate
Alternative version
Faster version, same output. <lang d>import std.stdio, std.file, std.string, std.algorithm,
std.typecons, std.range;
auto findDeranged(string[] words) /*pure nothrow*/ {
Tuple!(string, string)[] result; foreach (i, w1; words) foreach (w2; words[i+1 .. $]) if (!canFind!q{ a[0] == a[1] }(zip(w1, w2))) result ~= tuple(w1, w2); return result;
}
void main() {
auto wclasses = new Appender!(string[])[30]; foreach (word; readText("unixdict.txt").split()) wclasses[word.length].put(word); auto r = filter!q{ a.length }(map!q{ a.data }(retro(wclasses))); writeln("Longest deranged anagrams:"); foreach (words; r) { string[][string] anagrams; foreach (w; words) anagrams[w.sort] ~= w.idup; auto anas = array(filter!q{ a.length > 1 }(anagrams.values)); auto pairs = filter!q{ a.length }(map!findDeranged(anas)); if (!pairs.empty) { writefln(" %s, %s", pairs.front[0].tupleof); return; } }
}</lang>
GAP
Using function Anagrams. <lang gap>IsDeranged := function(a, b) local i, n; for i in [1 .. Size(a)] do if a[i] = b[i] then return false; fi; od; return true; end;
- This solution will find all deranged pairs of any length.
Deranged := function(name) local sol, ana, u, v; sol := [ ]; ana := Anagrams(name); for u in ana do for v in Combinations(u, 2) do if IsDeranged(v[1], v[2]) then Add(sol, v); fi; od; od; return sol; end;
- Now we find all deranged pairs of maximum length
a := Deranged("unixdict.txt");; n := Maximum(List(a, x -> Size(x[1]))); Filtered(a, x -> Size(x[1]) = n);
- [ [ "excitation", "intoxicate" ] ]</lang>
Go
<lang Go>package main import ( "fmt" "io/ioutil" "strings" "sort" )
func deranged(a, b string) bool { if len(a) != len(b) { return false } for i := range(a) { if a[i] == b[i] { return false } } return true }
func main() { /* read the whole thing in. how big can it be? */ buf, _ := ioutil.ReadFile("unixdict.txt") words := strings.Split(string(buf), "\n")
m := make(map[string] []string) best_len, w1, w2 := 0, "", ""
for _, w := range(words) { // don't bother: too short to beat current record if len(w) <= best_len { continue }
// save strings in map, with sorted string as key letters := strings.Split(w, "") sort.Strings(letters) k := strings.Join(letters, "")
if _, ok := m[k]; !ok { m[k] = []string { w } continue }
for _, c := range(m[k]) { if deranged(w, c) { best_len, w1, w2 = len(w), c, w break } }
m[k] = append(m[k], w) }
fmt.Println(w1, w2, ": Length", best_len) }</lang>
Haskell
If the longest deranged anagram includes three or more words we'll only print two of them. We also correctly handle duplicate words in the input. <lang haskell> import Control.Arrow import Data.List import Data.Ord import qualified Data.Map as M import qualified Data.Set as S
-- Group lists of words based on their "signatures". A signature is a sorted -- list of characters. Handle duplicate input words by storing them in sets. groupBySig = map (sort &&& S.singleton)
-- Convert groups to lists of equivalent words. equivs = map (S.toList . snd) . M.toList . M.fromListWith S.union
-- Indicate whether the pair of words differ in all character positions. isDerangement (a, b) = and $ zipWith (/=) a b
-- Return all pairs of elements, ignoring order. pairs = concat . unfoldr step
where step (x:xs) = Just (map ((,) x) xs, xs) step [] = Nothing
-- Return all anagram pairs in the input string. anagrams = concatMap pairs . equivs . groupBySig
-- Return the pair of words making the longest deranged anagram. maxDerangedAnagram = maxByLen . filter isDerangement . anagrams
where maxByLen [] = Nothing maxByLen xs = Just $ maximumBy (comparing (length . fst)) xs
main :: IO () main = do
input <- getContents case maxDerangedAnagram $ words input of Nothing -> putStrLn "No deranged anagrams were found." Just (a, b) -> putStrLn $ "Longest deranged anagrams: " ++ a ++ " and " ++ b
</lang> The output is:
Longest deranged anagrams: excitation and intoxicate
Icon and Unicon
This solution (which works in both languages) does a strict interpretation of the problem and ignores the fact that there may be multiple derangements that are the same length (including ignoring multiple derangements arising from the same set of words that are all anagrams).
<lang unicon>link strings # for csort() procedure
procedure main()
anagrams := table() # build lists of anagrams every *(word := !&input) > 1 do { canon := csort(word) /anagrams[canon] := [] put(anagrams[canon], word) }
longest := 1 # find a longest derangement every *(aList := !anagrams) > 1 do if derangement := derange(aList) then if longest <:= *derangement[1] then long := derangement
every writes((!\long||" ")|"\n") # show longest
end
procedure derange(aList) # Return a single derangement from this list
while aWord := get(aList) do return noMatch(aWord, !aList)
end
procedure noMatch(s1,s2) # Produce pair only if s1,s2 are deranged.
every i := 1 to *s1 do if s1[i] == s2[i] then fail return [s1,s2]
end</lang>
Sample run:
->dra <unixdict.txt excitation intoxicate ->
J
This assumes that unixdict.txt has been saved in the current directory.
<lang j> #words=: <;._2 ] 1!:1 <'unixdict.txt' 25104
#anagrams=: (#~ 1 < #@>) (</.~ /:~&>) words
1303
#maybederanged=: (#~ (1 -.@e. #@~."1)@|:@:>&>) anagrams
432
#longest=: (#~ [: (= >./) #@>@{.@>) maybederanged
1
longest
┌───────────────────────┐ │┌──────────┬──────────┐│ ││excitation│intoxicate││ │└──────────┴──────────┘│ └───────────────────────┘</lang>
Note that anagram sets with more than two members might, hypothetically, have made things more complicated. By lucky coincidence, this was not an issue. We could have taken advantage of that coincidence to achieve slight further simplifications. Perhaps maybederanged=: (#~ (-: ~."1)@|:@:>&>) anagrams
In other words, if we had had to consider whether ascertain/cartesian/sectarian
contained a deranged pair, we would have had to break it out into the three pairs it contains. However, since 'excitation' is a longer word than 'ascertain', we know that this triple cannot contain the longest deranged anagram pair. And since there are no anagrams longer than 'excitation' which involve more than a single pair, we know that we can ignore this issue entirely.
Java
<lang java>import java.io.*; import java.util.*;
public class DerangedAnagrams {
public static void main(String[] args) throws IOException { String[][] anagrams = findAnagrams(readLines("unixdict.txt")); String[] res = null; for (String[] ana : anagrams) { int j = ana[0].length() - 1; while (j >= 0 && ana[0].charAt(j) != ana[1].charAt(j)) { j--; } if (j == -1) { res = ana; break; } } System.out.printf("result: %s %s\n", res[0], res[1]); }
static String[][] findAnagrams(String[] words) { Map<String, ArrayList<String>> map = new LinkedHashMap<String, ArrayList<String>>(); for (String w : words) { char[] srt = w.toCharArray(); Arrays.sort(srt); String key = String.valueOf(srt); if (map.containsKey(key)) { map.get(key).add(w); } else { ArrayList<String> v = new ArrayList<String>(); v.add(w); map.put(key, v); } } List<String[]> pairs = new ArrayList<String[]>(); for (List<String> v : map.values()) { if (v.size() > 1) { String[] wrds = v.toArray(new String[]{}); for (int i = 0; i < wrds.length - 1; i++) { pairs.add(new String[]{wrds[i], wrds[i + 1]}); } } } return pairs.toArray(new String[][]{}); }
static public String[] readLines(String fn) throws IOException { BufferedReader br = new BufferedReader(new FileReader(fn)); List<String> lines = new ArrayList<String>(); String line = null; while ((line = br.readLine()) != null) lines.add(line.trim()); br.close(); Collections.sort(lines, new Comparator<String>() { public int compare(String a, String b) { return b.length() - a.length(); } }); return lines.toArray(new String[]{}); }
}</lang>
result: excitation intoxicate
JavaScript
Word file is saved locally because browser won't fetch it cross-site. Tested on Gecko. <lang javascript><html><head><title>Intoxication</title></head>
<body>
<script type="application/javascript">
function show(t) { var l = document.createTextNode(t + '\n'); document.getElementById('x').appendChild(l); }
// get words; be ware of cross-site restrictions on XMLHttpRequest var words = null; var req = new XMLHttpRequest(); req.open('GET', 'file:///tmp/unixdict.txt', false); req.send(null); words = req.responseText.split('\n');
var idx = {}; for (var i = 0; i < words.length; i++) { var t = words[i].split().sort().join(); if (idx[t]) idx[t].push(words[i]); else idx[t] = [words[i]]; }
var best = ; var best_pair; for (var i in idx) { if (i.length <= best.length) continue; if (idx[i].length == 1) continue;
var a = idx[i], got = null; for (var j = 0, l1 = a[j]; j < a.length && !got; j++) { for (var k = j + 1, l2 = a[k]; k < a.length && !got; k++) for (var m = 0; m < l1.length || !(got = [l2]); m++) if (l1[m] == l2[m]) break; if (got) got.push(l1); }
if (got) { best_pair = got; best = got[0]; } }
show(best_pair); </script></body></html></lang>
OCaml
<lang ocaml>let sort_chars s =
let r = String.copy s in for i = 0 to (String.length r) - 2 do for j = i + 1 to (String.length r) - 1 do if r.[i] > r.[j] then begin let tmp = r.[i] in r.[i] <- r.[j]; r.[j] <- tmp; end done done; (r)
let deranged (s1, s2) =
let len1 = String.length s1 and len2 = String.length s2 in if len1 <> len2 then false else try for i = 0 to pred len1 do if s1.[i] = s2.[i] then raise Exit done; true with Exit -> false
let pairs_of_list lst =
let rec aux acc = function | [] -> acc | x::xs -> aux (List.fold_left (fun acc y -> (x,y)::acc) acc xs) xs in aux [] lst
let () =
let h = Hashtbl.create 3571 in let ic = open_in "unixdict.txt" in try while true do let word = input_line ic in let key = sort_chars word in let l = try Hashtbl.find h key with Not_found -> [] in Hashtbl.add h key (word::l); done with End_of_file -> close_in ic; let lst = Hashtbl.fold (fun _ lw acc -> if List.length lw < 2 then acc else lw::acc) h [] in let lst = List.fold_left (fun acc anagrams -> let pairs = pairs_of_list anagrams in (List.filter deranged pairs) @ acc ) [] lst in let res, _ = List.fold_left (fun (res, n) (w1, w2) -> let len = String.length w1 in match Pervasives.compare len n with | 0 -> ((w1, w2)::res, n) | 1 -> ([w1, w2], len) | _ -> (res, n) ) ([], 0) lst in List.iter (fun (w1, w2) -> Printf.printf "%s, %s\n" w1 w2) res</lang>
Output:
$ ocaml deranged_anagram.ml intoxicate, excitation
Perl
<lang Perl>sub deranged { # only anagrams ever get here
my @a = split(, shift); # split word into letters my @b = split(, shift); for (0 .. $#a) { $a[$_] eq $b[$_] and return; } return 1
}
sub find_deranged {
for my $i ( 0 .. $#_ ) { for my $j ( $i+1 .. $#_ ) { next unless deranged $_[$i], $_[$j];
print "length ", length($_[$i]), ": $_[$i] => $_[$j]\n"; return 1; } }
}
my %letter_list; open my $in, 'unixdict.txt';
local $/ = undef;
for (split(' ', <$in>)) {
# store anagrams in hash table by letters they contain push @{ $letter_list{ join(, sort split(, $_)) } }, $_
}
for ( sort { length($b) <=> length($a) } # sort by length, descending
grep { @{ $letter_list{$_} } > 1 } # take only ones with anagrams keys %letter_list )
{
# if we find a pair, they are the longested due to the sort before last if find_deranged(@{ $letter_list{$_} });
}</lang>
PicoLisp
<lang PicoLisp>(let Words NIL
(in "unixdict.txt" (while (line) (let (Word @ Key (pack (sort (copy @)))) (if (idx 'Words Key T) (push (car @) Word) (set Key (list Word)) ) ) ) ) (maxi '((X) (length (car X))) (extract '((Key) (pick '((Lst) (and (find '((L) (not (find = L Lst))) (val Key) ) (cons (pack @) (pack Lst)) ) ) (val Key) ) ) (idx 'Words) ) ) )</lang>
Output:
-> ("excitation" . "intoxicate")
Perl 6
Note that, to make runtime manageable, we have created a subset file:
grep '^[ie]' unixdict.txt > dict.ie
<lang perl6>my %anagram = slurp('dict.ie').words.map({[.comb]}).classify({ .sort.join });
for %anagram.values.sort({ -@($_[0]) }) -> @aset {
for 0 ..^ @aset.end -> $i { for $i ^.. @aset.end -> $j { if none( @aset[$i].list Zeq @aset[$j].list ) { say "{@aset[$i].join} {@aset[$j].join}"; exit; } } }
} </lang>
Output:
excitation intoxicate
PureBasic
<lang PureBasic>Structure anagram
word.s letters.s
EndStructure
Structure wordList
List words.anagram()
EndStructure
- True = 1
- False = 0
Procedure.s sortLetters(*word.Character, wordLength)
;returns a string with the letters of a word sorted Protected Dim letters.c(wordLength) Protected *letAdr = @letters() CopyMemoryString(*word, @*letAdr) SortArray(letters(), #PB_Sort_Ascending, 0, wordLength - 1) ProcedureReturn PeekS(@letters(), wordLength)
EndProcedure
- Compare a list of anagrams for derangement.
Procedure isDeranged(List anagram.s())
;If a pair of deranged anagrams is found return #True ;and and modify the list to include the pair of deranged anagrams. Protected i, length, word.s, *ptrAnagram, isDeranged Protected NewList deranged.s() FirstElement(anagram()) length = Len(anagram()) Repeat word = anagram() *ptrAnagram = @anagram() While NextElement(anagram()) isDeranged = #True For i = 1 To length If Mid(word, i, 1) = Mid(anagram(), i, 1) isDeranged = #False Break ;exit for/next EndIf Next If isDeranged AddElement(deranged()) deranged() = anagram() AddElement(deranged()) deranged() = word CopyList(deranged(), anagram()) ProcedureReturn #True ;deranged anagram found EndIf Wend ChangeCurrentElement(anagram(), *ptrAnagram) Until Not NextElement(anagram()) ProcedureReturn #False ;deranged anagram not found
EndProcedure
If OpenConsole()
;word file is assumed to be in the same directory If Not ReadFile(0,"unixdict.txt"): End: EndIf Define maxWordSize = 0, word.s, length Dim wordlists.wordList(maxWordSize) ;Read word file and create separate lists of anagrams and their original ;words by length. While Not Eof(0) word = ReadString(0) length = Len(word) If length > maxWordSize maxWordSize = length Redim wordlists.wordList(maxWordSize) EndIf AddElement(wordlists(length)\words()) wordlists(length)\words()\word = word wordlists(length)\words()\letters = sortLetters(@word, length) Wend CloseFile(0) Define offset = OffsetOf(anagram\letters), option = #PB_Sort_Ascending Define sortType = #PB_Sort_String Define letters.s, foundDeranged NewList anagram.s() ;start search from largest to smallest For length = maxWordSize To 2 Step -1 If FirstElement(wordlists(length)\words()) ;only examine lists with words ;sort words to place anagrams next to each other SortStructuredList(wordlists(length)\words(), option, offset, sortType) With wordlists(length)\words() letters = \letters AddElement(anagram()): anagram() = \word ;Compose sets of anagrams and check for derangement with remaining ;words in current list. While NextElement(wordlists(length)\words()) ;Check for end of a set of anagrams? If letters <> \letters ;if more than one word in a set of anagrams check for derangement If ListSize(anagram()) > 1 If isDeranged(anagram()) foundDeranged = #True ;found deranged anagrams, stop processing Break 2 ;exit while/wend and for/next EndIf EndIf letters = \letters ;setup for next set of anagrams ClearList(anagram()) EndIf AddElement(anagram()): anagram() = \word Wend EndWith EndIf ClearList(anagram()) Next ;report results If foundDeranged Print("Largest 'Deranged' anagrams found are of length ") PrintN(Str(length) + ":" + #CRLF$) ForEach anagram() PrintN(" " + anagram()) Next Else PrintN("No 'Deranged' anagrams were found." + #CRLF$) EndIf Print(#CRLF$ + #CRLF$ + "Press ENTER to exit"): Input() CloseConsole()
EndIf</lang> Sample output:
Largest 'Deranged' anagrams found are of length 10: intoxicate excitation
Python
<lang python>import urllib.request from collections import defaultdict from itertools import combinations
def getwords(url='http://www.puzzlers.org/pub/wordlists/unixdict.txt'):
return list(set(urllib.request.urlopen(url).read().decode().split()))
def find_anagrams(words):
anagram = defaultdict(list) # map sorted chars to anagrams for word in words: anagram[tuple(sorted(word))].append( word ) return dict((key, words) for key, words in anagram.items() if len(words) > 1)
def is_deranged(words):
'returns pairs of words that have no character in the same position' return [ (word1, word2) for word1,word2 in combinations(words, 2) if all(ch1 != ch2 for ch1, ch2 in zip(word1, word2)) ]
def largest_deranged_ana(anagrams):
ordered_anagrams = sorted(anagrams.items(), key=lambda x:(-len(x[0]), x[0])) for _, words in ordered_anagrams: deranged_pairs = is_deranged(words) if deranged_pairs: return deranged_pairs return []
if __name__ == '__main__':
words = getwords('http://www.puzzlers.org/pub/wordlists/unixdict.txt') print("Word count:", len(words))
anagrams = find_anagrams(words) print("Anagram count:", len(anagrams),"\n")
print("Longest anagrams with no characters in the same position:") print(' ' + '\n '.join(', '.join(pairs) for pairs in largest_deranged_ana(anagrams)))</lang>
- Sample output
Word count: 25104 Anagram count: 1303 Longest anagrams with no characters in the same position: excitation, intoxicate
Ruby
<lang ruby>require 'open-uri' anagram = nil open('http://www.puzzlers.org/pub/wordlists/unixdict.txt') do |f|
anagram = f.read.split.group_by {|s| s.each_char.sort}
end
def deranged?(a, b)
a.chars.zip(b.chars).all? {|char_a, char_b| char_a != char_b}
end
def remove_non_derangements(val)
list = val.dup for i in 0 ... list.length j = i + 1 while j < list.length if deranged?(list[i], list[j]) j += 1 else list.delete_at(j) end end end list
end
max_word_length = anagram.each_value .
select {|list| list.length > 1} . map {|list| list[0].length} . max
derangements = []
until derangements.length > 1
puts "looking for deranged anagrams with word length #{max_word_length}"
anagram.each_value . select {|list| list.length > 1 and list[0].length == max_word_length} . each do |list| derangements = remove_non_derangements(list) break if derangements.length > 1 end
max_word_length -= 1
end
puts "derangement with longest word length: #{derangements}"</lang> outputs
looking for deranged anagrams with word length 12 looking for deranged anagrams with word length 11 looking for deranged anagrams with word length 10 derangement with longest word length: ["excitation", "intoxicate"]
Scala
<lang scala>object DerangedAnagrams {
/** Returns a map of anagrams keyed by the sorted characters */ def groupAnagrams(words: Iterable[String]): Map[String, Set[String]] = words.foldLeft (Map[String, Set[String]]()) { (map, word) => val sorted = word.sorted val entry = map.getOrElse(sorted, Set.empty) map + (sorted -> (entry + word)) } /* Returns true if the pair of strings has no positions with the same * characters */ def isDeranged(ss: (String, String)): Boolean = ss._1 zip ss._2 forall { case (c1, c2) => c1 != c2 } /* Returns pairwise combination of all Strings in the argument Iterable */ def pairWords(as: Iterable[String]): Iterable[(String, String)] = if (as.size < 2) Seq() else (as.tail map (as.head -> _)) ++ pairWords(as.tail) /* Returns the contents of the argument URL as an Iterable[String], each * String is one line in the file */ def readLines(url: String): Iterable[String] = io.Source.fromURL(url).getLines().toIterable val wordsURL = "http://www.puzzlers.org/pub/wordlists/unixdict.txt" def main(args: Array[String]): Unit = { val anagramMap = groupAnagrams(readLines(wordsURL)) val derangedPairs = anagramMap.values flatMap (pairWords) filter (isDeranged) val (w1, w2) = derangedPairs maxBy (pair => pair._1.length) println("Longest deranged pair: "+w1+" and "+w2) }
}</lang> Output:
Longest deranged pair: excitation and intoxicate
Tcl
<lang tcl>package require Tcl 8.5 package require http
- Fetch the words
set t [http::geturl "http://www.puzzlers.org/pub/wordlists/unixdict.txt"] set wordlist [split [http::data $t] \n] http::cleanup $t
- Group by characters in word
foreach word $wordlist {
dict lappend w [lsort [split $word ""]] [split $word ""]
}
- Deranged test
proc deranged? {l1 l2} {
foreach c1 $l1 c2 $l2 {
if {$c1 eq $c2} {return 0}
} return 1
}
- Get a deranged pair from an anagram set, if one exists
proc getDeranged {words} {
foreach l1 [lrange $words 0 end-1] {
foreach l2 [lrange $words 1 end] { if {[deranged? $l1 $l2]} { return [list $l1 $l2 1] } }
} return {{} {} 0}
}
- Find the max-length deranged anagram
set count 0 set candidates {} set max 0 dict for {k words} $w {
incr count [expr {[llength $words] > 1}] if {[llength $k] > $max && [lassign [getDeranged $words] l1 l2]} {
set max [llength $l1] lappend candidates [join $l1 ""],[join $l2 ""]
}
}
- Print out what we found
puts "[llength $wordlist] words" puts "[dict size $w] potential anagram-groups" puts "$count real anagram-groups" foreach pair $candidates {
puts "considered candidate pairing: $pair"
} puts "MAXIMAL DERANGED ANAGRAM: LENGTH $max\n\t[lindex $candidates end]"</lang> Output:
25105 words 23567 potential anagram-groups 1303 real anagram-groups considered candidate pairing: abc,cab considered candidate pairing: abed,bade considered candidate pairing: abort,bator considered candidate pairing: afresh,shafer considered candidate pairing: alberto,latrobe considered candidate pairing: american,cinerama considered candidate pairing: ancestral,lancaster considered candidate pairing: excitation,intoxicate MAXIMAL DERANGED ANAGRAM: LENGTH 10 excitation,intoxicate
Ursala
This solution assumes the file unixdict.txt
is passed to the compiler as a command line parameter.
<lang Ursala>#import std
anagrams = |=tK33lrDSL2SL ~=&& ==+ ~~ -<&
deranged = filter not zip; any ==
- cast %sW
main = leql$^&l deranged anagrams unixdict_dot_txt</lang>
The anagrams
function is a little slow as defined above, but can be sped up by at least two orders of magnitude by grouping the words into classes of equal length, and sorting each word once in advance instead of each time a comparison is made as shown below.
<lang Ursala>anagrams = @NSiXSlK2rSS *= ^(-<&,~&)*; |=rSStFtK33lrDSL2SL ~=@br&& ==@bl</lang>
We can speed it up by about another factor of 5 by starting from the group of longest words and stopping as soon as a deranged anagram is found instead of generating all anagrams.
<lang Ursala>#import std
longest_deranged_anagram =
@NSiXSlK2rSS leql-<x&h; @NiX ~&lZrB->l ^\~&rt @rh -+
~&a^& ~&plrEkZ?ah/~&ah ~&fatPR, ^(-<&,~&)*; |=rSStFtK33lrDSL2SL ~=@br&& ==@bl+-
- cast %sW
main = longest_deranged_anagram unixdict_dot_txt</lang> output:
('excitation','intoxicate')