Ordered words: Difference between revisions
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=={{header|Elixir}}==
<lang Elixir>File.read!("unixdict.txt")
|> Enum.filter(fn word -> String.codepoints(word) |> Enum.sort |> Enum.join == word end)
|> Enum.max_by(fn {length,_words} -> length end)
▲ |> String.split("\n")
▲ |> Enum.group_by(fn m -> String.length(m) end)
▲ |> elem(1)
</lang>▼
{{out}}
<pre>
abbott
accent
accept
access
accost
almost
bellow
billow
biopsy
chilly
choosy
choppy
effort
floppy
glossy
knotty
=={{header|Erlang}}==
|
Revision as of 09:40, 25 September 2015
You are encouraged to solve this task according to the task description, using any language you may know.
Define an ordered word as a word in which the letters of the word appear in alphabetic order. Examples include 'abbey' and 'dirt'.
The task is to find and display all the ordered words in this dictionary that have the longest word length. (Examples that access the dictionary file locally assume that you have downloaded this file yourself.) The display needs to be shown on this page.
Ada
<lang Ada>with Ada.Containers.Indefinite_Vectors; with Ada.Text_IO; procedure Ordered_Words is
package Word_Vectors is new Ada.Containers.Indefinite_Vectors (Index_Type => Positive, Element_Type => String);
function Is_Ordered (The_Word : String) return Boolean is Highest_Character : Character := 'a'; begin for I in The_Word'Range loop if The_Word(I) not in 'a' .. 'z' then return False; end if; if The_Word(I) < Highest_Character then return False; end if; Highest_Character := The_Word(I); end loop; return True; end Is_Ordered;
procedure Print_Word (Position : Word_Vectors.Cursor) is begin Ada.Text_IO.Put_Line (Word_Vectors.Element (Position)); end Print_Word;
File : Ada.Text_IO.File_Type; Ordered_Words : Word_Vectors.Vector; Max_Length : Positive := 1;
begin
Ada.Text_IO.Open (File, Ada.Text_IO.In_File, "unixdict.txt"); while not Ada.Text_IO.End_Of_File (File) loop declare Next_Word : String := Ada.Text_IO.Get_Line (File); begin if Is_Ordered (Next_Word) then if Next_Word'Length > Max_Length then Max_Length := Next_Word'Length; Word_Vectors.Clear (Ordered_Words); Word_Vectors.Append (Ordered_Words, Next_Word); elsif Next_Word'Length = Max_Length then Word_Vectors.Append (Ordered_Words, Next_Word); end if; end if; end; end loop; Word_Vectors.Iterate (Ordered_Words, Print_Word'Access);
end Ordered_Words;</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Aime
<lang aime>integer ordered(text s) {
integer a, i, l;
a = 1;
l = length(s); if (l) { l -= 1; i = 0; while (i < l) { if (character(s, i + 1) < character(s, i)) { a = 0; break; } i += 1; } }
return a;
}
integer main(void) {
integer l, m; file f; list w; text s;
f_affix(f, "unixdict.txt");
m = 0;
while ((l = f_line(f, s)) != -1) { if (m <= l) { if (ordered(s)) { if (m < l) { m = l; l_clear(w); } l_append(w, s); } } }
l = l_length(w); m = 0; while (m < l) { o_text(l_q_text(w, m)); o_byte('\n'); m += 1; }
return 0;
}</lang>
- Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
AutoHotkey
This script uses the ASCII value of each letter to determine its place in the alphabet. Given a dictionary not all in the same case, StringLower could be used. This script assumes a locally downloaded copy of the dictionary, but UrlDownloadToFile could be used. The purpose of the GUI is simply to display a field where the user can copy the list. MsgBox could be used, or FileAppend. <lang AutoHotkey> MaxLen=0 Loop, Read, UnixDict.txt ; Assigns A_LoopReadLine to each line of the file {
thisword := A_LoopReadLine ; Just for readability blSort := isSorted(thisWord) ; reduce calls to IsSorted to improve performance ThisLen := StrLen(ThisWord) ; reduce calls to StrLen to improve performance If (blSort = true and ThisLen = maxlen) list .= ", " . thisword Else If (blSort = true and ThisLen > maxlen) { list := thisword maxlen := ThisLen }
}
IsSorted(word){ ; This function uses the ASCII value of the letter to determine its place in the alphabet.
; Thankfully, the dictionary is in all lowercase lastchar=0 Loop, parse, word { if ( Asc(A_LoopField) < lastchar ) return false lastchar := Asc(A_loopField) } return true
}
GUI, Add, Edit, w300 ReadOnly, %list% GUI, Show return ; End Auto-Execute Section
GUIClose: ExitApp </lang> Output:
abbott, accent, accept, access, accost, almost, bellow, billow, biopsy, chilly, choosy, choppy, effort, floppy, glossy, knotty
AWK
<lang awk>BEGIN { abc = "abcdefghijklmnopqrstuvwxyz" }
{ # Check if this line is an ordered word. ordered = 1 # true left = -1 for (i = 1; i <= length($0); i++) { right = index(abc, substr($0, i, 1)) if (right == 0 || left > right) { ordered = 0 # false break } left = right }
if (ordered) { score = length($0) if (score > best["score"]) { # Reset the list of best ordered words. best["score"] = score best["count"] = 1 best[1] = $0 } else if (score == best["score"]) { # Add this word to the list. best[++best["count"]] = $0 } } }
END { # Print the list of best ordered words. for (i = 1; i <= best["count"]; i++) print best[i] }</lang>
You must provide unixdict.txt as input.
$ awk -f ordered-words.awk unixdict.txt abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
BBC BASIC
An optimisation is that the word isn't checked for being ordered unless it is at least as long as the current maximum. <lang bbcbasic> dict% = OPENIN("unixdict.txt")
IF dict%=0 ERROR 100, "Failed to open dictionary file" max% = 2 REPEAT A$ = GET$#dict% IF LENA$ >= max% THEN i% = 0 REPEAT i% += 1 UNTIL ASCMID$(A$,i%) > ASCMID$(A$,i%+1) IF i% = LENA$ THEN IF i% > max% max% = i% : list$ = "" list$ += A$ + CHR$13 + CHR$10 ENDIF ENDIF UNTIL EOF#dict% CLOSE #dict% PRINT list$ END</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Bracmat
<lang bracmat> ( orderedWords
= bow result longestLength word character . 0:?bow & :?result & 0:?longestLength & @( get$(!arg,STR) : ? ( [!bow %?word \n [?bow ? & @( !word : ( ? %@?character <%@!character ? | ? ( [!longestLength & !word !result:?result | [>!longestLength:[?longestLength & !word:?result | ) ) ) & ~` ) ) | !result )
& orderedWords$"unixdict.txt"</lang>
knotty glossy floppy effort choppy choosy chilly biopsy billow bellow almost accost access accept accent abbott
Burlesque
<lang burlesque>ln{so}f[^^{L[}>mL[bx(==)[+(L[)+]f[uN</lang>
- Output:
$ ./burlesque --file ordered_words.brl < unixdict.txt abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
C
<lang c>#include <stdlib.h>
- include <string.h>
- include <stdio.h>
- include <assert.h>
- define MAXLEN 100
typedef char TWord[MAXLEN];
typedef struct Node {
TWord word; struct Node *next;
} Node;
int is_ordered_word(const TWord word) {
assert(word != NULL); int i;
for (i = 0; word[i] != '\0'; i++) if (word[i] > word[i + 1] && word[i + 1] != '\0') return 0;
return 1;
}
Node* list_prepend(Node* words_list, const TWord new_word) {
assert(new_word != NULL); Node *new_node = malloc(sizeof(Node)); if (new_node == NULL) exit(EXIT_FAILURE);
strcpy(new_node->word, new_word); new_node->next = words_list; return new_node;
}
Node* list_destroy(Node *words_list) {
while (words_list != NULL) { Node *temp = words_list; words_list = words_list->next; free(temp); }
return words_list;
}
void list_print(Node *words_list) {
while (words_list != NULL) { printf("\n%s", words_list->word); words_list = words_list->next; }
}
int main() {
FILE *fp = fopen("unixdict.txt", "r"); if (fp == NULL) return EXIT_FAILURE;
Node *words = NULL; TWord line; unsigned int max_len = 0;
while (fscanf(fp, "%99s\n", line) != EOF) { if (strlen(line) > max_len && is_ordered_word(line)) { max_len = strlen(line); words = list_destroy(words); words = list_prepend(words, line); } else if (strlen(line) == max_len && is_ordered_word(line)) { words = list_prepend(words, line); } }
fclose(fp); list_print(words);
return EXIT_SUCCESS;
}</lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Alternative version with dynamic array: <lang c>#include <stdlib.h>
- include <string.h>
- include <stdio.h>
- include <assert.h>
- define MAXLEN 100
typedef char TWord[MAXLEN];
typedef struct WordsArray {
TWord *words; size_t len;
} WordsArray;
int is_ordered_word(const TWord word) {
assert(word != NULL); int i;
for (i = 0; word[i] != '\0'; i++) if (word[i] > word[i + 1] && word[i + 1] != '\0') return 0;
return 1;
}
void array_append(WordsArray *words_array, const TWord new_word) {
assert(words_array != NULL); assert(new_word != NULL); assert((words_array->len == 0) == (words_array->words == NULL));
words_array->len++; words_array->words = realloc(words_array->words, words_array->len * sizeof(words_array->words[0])); if (words_array->words == NULL) exit(EXIT_FAILURE); strcpy(words_array->words[words_array->len-1], new_word);
}
void array_free(WordsArray *words_array) {
assert(words_array != NULL); free(words_array->words); words_array->words = NULL; words_array->len = 0;
}
void list_print(WordsArray *words_array) {
assert(words_array != NULL); size_t i; for (i = 0; i < words_array->len; i++) printf("\n%s", words_array->words[i]);
}
int main() {
FILE *fp = fopen("unixdict.txt", "r"); if (fp == NULL) return EXIT_FAILURE;
WordsArray words; words.len = 0; words.words = NULL;
TWord line; line[0] = '\0'; unsigned int max_len = 0;
while (fscanf(fp, "%99s\n", line) != EOF) { // 99 = MAXLEN - 1 if (strlen(line) > max_len && is_ordered_word(line)) { max_len = strlen(line); array_free(&words); array_append(&words, line); } else if (strlen(line) == max_len && is_ordered_word(line)) { array_append(&words, line); } }
fclose(fp); list_print(&words); array_free(&words);
return EXIT_SUCCESS;
}</lang>
Mmap
Shorter and potentially much faster version with mmap (2)
. No stinky malloc
or scanf
calls.
<lang C>#include <stdio.h>
- include <sys/mman.h>
- include <sys/types.h>
- include <sys/stat.h>
- include <unistd.h>
- include <fcntl.h>
- include <err.h>
- include <string.h>
int ordered(char *s, char **end) { int r = 1; while (*++s != '\n' && *s != '\r' && *s != '\0') if (s[0] < s[-1]) r = 0;
*end = s; return r; }
int main() { char *buf, *word, *end, *tail; struct stat st; int longest = 0, len, fd;
if ((fd = open("unixdict.txt", O_RDONLY)) == -1) err(1, "read error");
fstat(fd, &st); if (!(buf = mmap(0, st.st_size, PROT_READ | PROT_WRITE, MAP_PRIVATE, fd, 0))) err(1, "mmap");
for (word = end = buf; end < buf + st.st_size; word = end) { while (*word == '\r' || *word == '\n') word++; if (!ordered(word, &end)) continue; if ((len = end - word + 1) < longest) continue; if (len > longest) { tail = buf; /* longer words found; reset out buffer */ longest = len; } /* use the same mmap'd region to store output. because of MAP_PRIVATE, * change will not go back to file. mmap is copy on write, and we are using * only the head space to store output, so kernel doesn't need to copy more * than the words we saved--in this case, one page tops. */ memcpy(tail, word, len); tail += len; *tail = '\0'; } printf(buf);
munmap(buf, st.st_size); close(fd); return 0; }</lang>
C++
<lang cpp>#include <algorithm>
- include <fstream>
- include <iostream>
- include <iterator>
- include <string>
- include <vector>
bool ordered(const std::string &word) {
return std::is_sorted(word.begin(), word.end()); // C++11
}
int main() {
std::ifstream infile("unixdict.txt"); if (!infile) { std::cerr << "Can't open word file\n"; return -1; }
std::vector<std::string> words; std::string word; int longest = 0;
while (std::getline(infile, word)) { int length = word.length(); if (length < longest) continue; // don't test short words if (ordered(word)) { if (longest < length) { longest = length; // set new minimum length words.clear(); // reset the container } words.push_back(word); } } std::copy(words.begin(), words.end(), std::ostream_iterator<std::string>(std::cout, "\n"));
}</lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
C#
<lang csharp>using System; using System.Linq; using System.Net;
static class Program {
static void Main(string[] args) { WebClient client = new WebClient(); string text = client.DownloadString("http://www.puzzlers.org/pub/wordlists/unixdict.txt"); string[] words = text.Split(new char[] { '\r', '\n' }, StringSplitOptions.RemoveEmptyEntries);
var query = from w in words where IsOrderedWord(w) group w by w.Length into ows orderby ows.Key descending select ows;
Console.WriteLine(string.Join(", ", query.First().ToArray())); }
private static bool IsOrderedWord(string w) { for (int i = 1; i < w.Length; i++) if (w[i] < w[i - 1]) return false;
return true; }
}</lang>
Output:
abbott, accent, accept, access, accost, almost, bellow, billow, biopsy, chilly, choosy, choppy, effort, floppy, glossy, knotty
Clojure
<lang Clojure>(defn is-sorted? [coll]
(not-any? pos? (map compare coll (next coll))))
(defn take-while-eqcount [coll]
(let [n (count (first coll))] (take-while #(== n (count %)) coll)))
(with-open [rdr (clojure.java.io/reader "unixdict.txt")]
(->> rdr line-seq (filter is-sorted?) (sort-by count >) take-while-eqcount (clojure.string/join ", ") println))</lang>
Output <lang Clojure>abbott, accent, accept, access, accost, almost, bellow, billow, biopsy, chilly, choosy, choppy, effort, floppy, glossy, knotty</lang>
CoffeeScript
<lang coffeescript> ordered_word = (word) ->
for i in [0...word.length - 1] return false unless word[i] <= word[i+1] true
show_longest_ordered_words = (candidates, dict_file_name) ->
words = [] for word in candidates continue if word.length < words[0].length if ordered_word word words = [] if word.length > words[0].length words.push word return if words[0] == # we came up empty console.log "Longest Ordered Words (source=#{dict_file_name}):" for word in words console.log word
dict_file_name = 'unixdict.txt' file_content = require('fs').readFileSync dict_file_name dict_words = file_content.toString().split '\n' show_longest_ordered_words dict_words, dict_file_name </lang> output <lang> > coffee ordered_words.coffee Longest Ordered Words (source=unixdict.txt): abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty </lang>
Common Lisp
<lang lisp>(defun orderedp (word)
(reduce (lambda (prev curr) (when (char> prev curr) (return-from orderedp nil)) curr) word) t)
(defun longest-ordered-words (filename)
(let ((result nil)) (with-open-file (s filename) (loop with greatest-length = 0 for word = (read-line s nil) until (null word) do (let ((length (length word))) (when (and (>= length greatest-length) (orderedp word)) (when (> length greatest-length) (setf greatest-length length result nil)) (push word result))))) (nreverse result)))
CL-USER> (longest-ordered-words "unixdict.txt") ("abbott" "accent" "accept" "access" "accost" "almost" "bellow" "billow"
"biopsy" "chilly" "choosy" "choppy" "effort" "floppy" "glossy" "knotty")
</lang>
D
Simple Procedural Version
<lang d>void main() {
import std.stdio, std.algorithm, std.range, std.string;
string[] result; size_t maxLen;
foreach (string word; "unixdict.txt".File.lines) { word = word.chomp; immutable len = word.walkLength; if (len < maxLen || !word.isSorted) continue; if (len > maxLen) { result = [word]; maxLen = len; } else result ~= word; }
writefln("%-(%s\n%)", result);
}</lang>
- Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Faster Procedural Version
Faster, same output. <lang d>void main() {
import std.stdio, std.algorithm, std.file, std.range;
string[] result; size_t maxWalkLen;
foreach (word; "unixdict.txt".readText.splitter) { if (word.length >= maxWalkLen && word.isSorted) { immutable wlen = word.walkLength; if (wlen > maxWalkLen) { result.length = 0; maxWalkLen = wlen; } result ~= word.idup; } }
writefln("%-(%s\n%)", result);
}</lang>
Functional Version
Shorter, same output. <lang d>void main() {
import std.stdio, std.algorithm, std.range, std.file, std.string;
auto words = "unixdict.txt".readText.split.filter!isSorted; immutable maxLen = words.map!q{a.length}.reduce!max; writefln("%-(%s\n%)", words.filter!(w => w.length == maxLen));
}</lang>
Fastest Memory Mapped Version
Lower level, much faster with large input files (about as fast as the memory mapped C version). The output is the same. It works only with ASCII texts, but unlike the C entry this is portable.
<lang d>import std.stdio, core.stdc.string, std.mmfile, std.algorithm;
const(char)[] findWord(const char[] s) pure nothrow @safe @nogc {
size_t wordEnd = 0; while (wordEnd < s.length && s[wordEnd] != '\n' && s[wordEnd] != '\r') wordEnd++; return s[0 .. wordEnd];
}
void main() {
auto mmf = new MmFile("unixdict.txt", MmFile.Mode.readCopyOnWrite, 0, null); auto txt = cast(char[])(mmf[]); size_t maxLen = 0, outStart = 0;
for (size_t wordStart = 0; wordStart < txt.length; ) { while (wordStart < txt.length && (txt[wordStart] == '\r' || txt[wordStart] == '\n')) wordStart++; const word = findWord(txt[wordStart .. $]); wordStart += word.length;
if (word.length < maxLen || !word.isSorted) continue; if (word.length > maxLen) { // Longer ordered word found, reset the out buffer. outStart = 0; maxLen = word.length; }
// Use the same mmap'd region to store output. Because of // Mode.readCopyOnWrite, change will not go back to file. // We are using only the head space to store output, so // kernel doesn't need to copy more than the words we saved, // in this case, one page tops. memcpy(&txt[outStart], word.ptr, word.length); outStart += word.length; txt[outStart++] = '\n'; // Words separator in out buffer. }
txt[0 .. outStart].write;
}</lang>
Delphi
<lang Delphi> program POrderedWords;
{$APPTYPE CONSOLE}
uses
SysUtils, Classes, IdHTTP;
function IsOrdered(const s:string): Boolean; var
I: Integer;
begin
Result := Length(s)<2; // empty or 1 char strings are ordered for I := 2 to Length(s) do if s[I]<s[I-1] then // can improve using case/localization to order... Exit; Result := True;
end;
function ProcessDictionary(const AUrl: string): string; var
slInput: TStringList; I, WordSize: Integer;
begin
slInput := TStringList.Create; try with TIdHTTP.Create(nil) do try slInput.Text := Get(AUrl); finally Free; end; // or use slInput.LoadFromFile('yourfilename') to load from a local file WordSize :=0; for I := 0 to slInput.Count-1 do begin if IsOrdered(slInput[I]) then if (Length(slInput[I]) = WordSize) then Result := Result + slInput[I] + ' ' else if (Length(slInput[I]) > WordSize) then begin Result := slInput[I] + ' '; WordSize := Length(slInput[I]); end; end; finally slInput.Free; end;
end;
begin
try WriteLn(ProcessDictionary('http://www.puzzlers.org/pub/wordlists/unixdict.txt')); except on E: Exception do Writeln(E.ClassName, ': ', E.Message); end;
end. </lang>
Output: dictionary directly processed from the URL
<lang Delphi> abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty </lang>
E
<lang e>pragma.enable("accumulator")
def words := <http://www.puzzlers.org/pub/wordlists/unixdict.txt>.getText().split("\n") def ordered := accum [] for word ? (word.sort() <=> word) in words { _.with(word) } def maxLen := accum 0 for word in ordered { _.max(word.size()) } def maxOrderedWords := accum [] for word ? (word.size() <=> maxLen) in ordered { _.with(word) } println(" ".rjoin(maxOrderedWords))</lang>
One-pass procedural algorithm which avoids keeping the entire data set in memory:
<lang e>def best := [].diverge() for `@word$\n` ? (word.sort() <=> word) in <http://www.puzzlers.org/pub/wordlists/unixdict.txt> {
if (best.size() == 0) { best.push(word) } else if (word.size() > best[0].size()) { best(0) := [word] # replace all } else if (word.size() <=> best[0].size()) { best.push(word) }
} println(" ".rjoin(best.snapshot()))</lang>
Output: abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Elixir
<lang Elixir>File.read!("unixdict.txt") |> String.split |> Enum.filter(fn word -> String.codepoints(word) |> Enum.sort |> Enum.join == word end) |> Enum.group_by(fn word -> String.length(word) end) |> Enum.max_by(fn {length,_words} -> length end) |> elem(1) |> Enum.sort |> Enum.each(fn word -> IO.puts word end)</lang>
- Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Erlang
<lang Erlang> -module( ordered_words ).
-export( [is_ordered/1, task/0] ).
is_ordered( Word ) -> lists:sort( Word ) =:= Word.
task() ->
ok = find_unimplemented_tasks:init_http(), Ordered_words = [X || X <- words(), is_ordered(X)], Sorted_longest_length_first = lists:reverse( sort_with_length( Ordered_words ) ), [{Max_length, _Word1} | _T] = Sorted_longest_length_first, Longest_length_first = lists:takewhile( fun({Length, _Word2}) -> Length =:= Max_length end, Sorted_longest_length_first ), [X || {_Length, X} <- Longest_length_first].
sort_with_length( Words ) ->
Words_with_length_first = [{erlang:length(X), X} || X <- Words], lists:sort( Words_with_length_first ).
words() -> anagrams_deranged:words_from_url( "http://www.puzzlers.org/pub/wordlists/unixdict.txt" ). </lang>
- Output:
2> ordered_words:task(). ["knotty","glossy","floppy","effort","choppy","choosy", "chilly","biopsy","billow","bellow","almost","accost", "access","accept","accent","abbott"]
Euphoria
<lang euphoria>include misc.e
type ordered(sequence s)
for i = 1 to length(s)-1 do -- assume all items in the sequence are atoms if s[i]>s[i+1] then return 0 end if end for return 1
end type
integer maxlen sequence words object word constant fn = open("unixdict.txt","r") maxlen = -1
while 1 do
word = gets(fn) if atom(word) then exit end if word = word[1..$-1] -- truncate new-line if length(word) >= maxlen and ordered(word) then if length(word) > maxlen then maxlen = length(word) words = {} end if words = append(words,word) end if
end while
close(fn)
pretty_print(1,words,{2})</lang>
Output:
{ "abbott", "accent", "accept", "access", "accost", "almost", "bellow", "billow", "biopsy", "chilly", "choosy", "choppy", "effort", "floppy", "glossy", "knotty" }
F#
<lang fsharp>open System open System.IO
let longestOrderedWords() =
let isOrdered = Seq.pairwise >> Seq.forall (fun (a,b) -> a <= b)
File.ReadLines("unixdict.txt") |> Seq.filter isOrdered |> Seq.groupBy (fun s -> s.Length) |> Seq.sortBy (fst >> (~-)) |> Seq.head |> snd
longestOrderedWords() |> Seq.iter (printfn "%s")</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Factor
<lang factor> USING: grouping http.client io io.encodings.utf8 io.files io.files.temp kernel math memoize sequences sequences.extras unicode.case urls ; IN: rosetta-code.ordered-words
MEMO: word-list ( -- seq )
"unixdict.txt" temp-file dup exists? [ URL" http://puzzlers.org/pub/wordlists/unixdict.txt" over download-to ] unless utf8 file-lines ;
- ordered-word? ( word -- ? )
>lower [ <= ] monotonic? ;
- ordered-words-main ( -- )
word-list [ ordered-word? ] filter all-longest [ print ] each ;
</lang>
Output:
( scratchpad ) USING: ordered-words-main ; ( scratchpad ) main abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Fantom
<lang fantom> class Main {
public static Bool ordered (Str word) { word.chars.all |Int c, Int i -> Bool| { (i == (word.size-1) || c <= word.chars[i+1]) } }
public static Void main () { Str[] words := [,] File(`unixdict.txt`).eachLine |Str word| { if (ordered(word)) { if (words.isEmpty || words.first.size < word.size) { // reset the list words = [word] } else if (words.size >= 1 && words.first.size == word.size) { // add word to existing ones words.add (word) } } } echo (words.join (" ")) }
} </lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
FBSL
Downloads the list from puzzlers.org. <lang qbasic>#APPTYPE CONSOLE
FUNCTION RESTfulGET(url)
DIM %HTTP = CREATEOBJECT("WinHttp.WinHttpRequest.5.1") CALLMETHOD(HTTP, ".open %s, %s, %d", "GET", url, FALSE) CALLMETHOD(HTTP, ".send") RETURN GETVALUE("%s", HTTP, ".ResponseText")
END FUNCTION
DIM $TEXT = RESTfulGET("http://www.puzzlers.org/pub/wordlists/unixdict.txt") DIM dict[] = Split(TEXT, CHR(10)) DIM max AS INTEGER = UBOUND(dict) DIM theword AS STRING DIM words[] FOR DIM i = 0 TO max
theWord = dict[i] IF isOrdered(theWord) THEN words[LEN(theWord)] = words[LEN(theWord)] & " " & theWord END IF
NEXT
PRINT words[UBOUND(words)]
PAUSE
FUNCTION isOrdered(s)
FOR DIM i = 1 TO LEN(s) - 1 IF s{i} > s{i + 1} THEN RETURN FALSE END IF NEXT RETURN TRUE
END FUNCTION </lang> Output
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty Press any key to continue...
Forth
This program uses a string stack, which means that all matching words are stored on a stack. The longest word ends up on the top of the stack. <lang Forth> include lib/stmstack.4th \ include string stack library
- check-word ( a n -- a n f)
2dup bl >r \ start off with a space begin dup \ when not end of word while over c@ r@ >= \ check character while r> drop over c@ >r chop \ chop character off repeat r> drop nip 0= \ cleanup and set flag
- open-file ( -- h)
1 dup argn = abort" Usage: ordered infile" args input open error? abort" Cannot open file" dup use \ return and use the handle
- read-file ( --)
0 >r \ begin with zero length begin refill \ EOF detected? while 0 parse dup r@ >= \ equal or longer string length? if \ check the word and adjust length check-word if r> drop dup >r >s else 2drop then else \ if it checks out, put on the stack 2drop \ otherwise drop the word then repeat r> drop \ clean it up
- read-back ( --)
s> dup >r type cr \ longest string is on top of stack begin s> dup r@ >= while type cr repeat 2drop r> drop \ keep printing until shorter word
- \ has been found
- ordered ( --)
open-file s.clear read-file read-back close
- \ open file, clear the stack, read file
\ read it back and close the file
ordered</lang> Since the longest word is on top of the stack, the only thing to be done is to pop all words from the stack until a shorter word is encountered. Consequently, all words are listed in reverse order:
knotty glossy floppy effort choppy choosy chilly biopsy billow bellow almost accost access accept accent abbott
Fortran
<lang fortran> !***************************************************************************************
module ordered_module
!***************************************************************************************
implicit none
!the dictionary file: integer,parameter :: file_unit = 1000 character(len=*),parameter :: filename = 'unixdict.txt'
!maximum number of characters in a word: integer,parameter :: max_chars = 50
type word character(len=max_chars) :: str !the word from the dictionary integer :: n = 0 !length of this word logical :: ordered = .false. !if it is an ordered word end type word
!the dictionary structure: type(word),dimension(:),allocatable :: dict
contains !***************************************************************************************
!****************************************************************************** function count_lines_in_file(fid) result(n_lines) !****************************************************************************** implicit none
integer :: n_lines integer,intent(in) :: fid character(len=1) :: tmp integer :: i integer :: ios
!the file is assumed to be open already.
rewind(fid) !rewind to beginning of the file
n_lines = 0 do !read each line until the end of the file. read(fid,'(A1)',iostat=ios) tmp if (ios < 0) exit !End of file n_lines = n_lines + 1 !row counter end do
rewind(fid) !rewind to beginning of the file
!****************************************************************************** end function count_lines_in_file !******************************************************************************
!****************************************************************************** pure elemental function ordered_word(word) result(yn) !****************************************************************************** ! turns true if word is an ordered word, false if it is not. !******************************************************************************
implicit none character(len=*),intent(in) :: word logical :: yn
integer :: i
yn = .true. do i=1,len_trim(word)-1 if (ichar(word(i+1:i+1))<ichar(word(i:i))) then yn = .false. exit end if end do
!****************************************************************************** end function ordered_word !******************************************************************************
!***************************************************************************************
end module ordered_module
!***************************************************************************************
!****************************************************
program main
!****************************************************
use ordered_module implicit none
integer :: i,n,n_max
!open the dictionary and read in all the words: open(unit=file_unit,file=filename) !open the file n = count_lines_in_file(file_unit) !count lines in the file allocate(dict(n)) !allocate dictionary structure do i=1,n ! read(file_unit,'(A)') dict(i)%str !each line is a word in the dictionary dict(i)%n = len_trim(dict(i)%str) !save word length end do close(file_unit) !close the file
!use elemental procedure to get ordered words: dict%ordered = ordered_word(dict%str)
!max length of an ordered word: n_max = maxval(dict%n, mask=dict%ordered)
!write the output: do i=1,n if (dict(i)%ordered .and. dict(i)%n==n_max) write(*,'(A,A)',advance='NO') trim(dict(i)%str),' ' end do write(*,*)
!****************************************************
end program main
!**************************************************** </lang>
Output
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Go
Go has strings and Unicode and stuff, but with the dictionary all ASCII and lower case, strings and Unicode seem overkill. I just worked with byte slices here, only converting the final result to strings for easy output. <lang go>package main
import (
"bytes" "fmt" "io/ioutil"
)
func main() {
// read into memory in one chunk b, err := ioutil.ReadFile("unixdict.txt") if err != nil { fmt.Println(err) return } // split at line ends bss := bytes.Split(b, []byte{'\n'})
// accumulate result var longest int var list [][]byte for _, bs := range bss { // don't bother with words shorter than // our current longest ordered word if len(bs) < longest { continue } // check for ordered property var lastLetter byte for i := 0; ; i++ { if i == len(bs) { // end of word. it's an ordered word. // save it and break from loop if len(bs) > longest { longest = len(bs) list = list[:0] } list = append(list, bs) break } // check next letter b := bs[i] if b < 'a' || b > 'z' { continue // not a letter. ignore. } if b < lastLetter { break // word not ordered. } // letter passes test lastLetter = b } } // print result for _, bs := range list { fmt.Println(string(bs)) }
}</lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Groovy
Solution: <lang groovy>def isOrdered = { word -> def letters = word as List; letters == ([] + letters).sort() } assert isOrdered('abbey') assert !isOrdered('cat')
def dictUrl = new URL('http://www.puzzlers.org/pub/wordlists/unixdict.txt') def orderedWords = dictUrl.readLines().findAll { isOrdered(it) } def owMax = orderedWords*.size().max()
orderedWords.findAll { it.size() == owMax }.each { println it }</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Haskell
<lang haskell> -- Words are read from the standard input. We keep in memory only the current -- set of longest, ordered words. -- -- Limitation: the locale's collation order is not take into consideration.
isOrdered wws@(_:ws) = and $ zipWith (<=) wws ws
longestOrderedWords = reverse . snd . foldl f (0,[]) . filter isOrdered
where f (max, acc) w = let len = length w in case compare len max of LT -> (max, acc) EQ -> (max, w:acc) GT -> (len, [w])
main = do
str <- getContents let ws = longestOrderedWords $ words str mapM_ putStrLn ws
</lang>
Output: <lang haskell> abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty </lang> Alternative version: <lang haskell>import Control.Monad (liftM)
isSorted wws@(_ : ws) = and $ zipWith (<=) wws ws
getLines = liftM lines . readFile
main = do
ls <- getLines "unixdict.txt" let ow = filter isSorted ls let maxl = foldr max 0 (map length ow) print $ filter (\w -> (length w) == maxl) ow</lang>
Icon and Unicon
<lang Unicon>link strings
procedure main(A)
f := open(\A[1]) | stop("Give dictionary file name on command line") every (maxLen := 0, maxLen <= *(w := !f), w == csort(w)) do { if maxLen <:= *w then maxList := [] #discard any shorter sorted words put(maxList, w) } every write(!\maxList)
end</lang>
strings provides csort which sorts the letters within a string
Output:
->ordered_words unixdict.txt abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty ->
J
<lang j> require'web/gethttp'
dict=: gethttp'http://www.puzzlers.org/pub/wordlists/unixdict.txt' oWords=: (#~ ] = /:~L:0) <;._2 dict-.CR ;:inv (#~ (= >./)@:(#@>))oWords
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty</lang>
Recap:
- fetch dictionary (
dict
) - break into words, one per line (
<;._2 dict-.CR
) - find ordered words (
oWords
) - select the longest ordered words (
(#~ (= >./)@:(#@>))oWords
) - format for display (using ;:inv)
Java
This example assumes there is a local copy of the dictionary whose path is given as the first argument to the program. <lang java5>import java.io.BufferedReader; import java.io.FileReader; import java.io.IOException; import java.util.Arrays; import java.util.Collections; import java.util.Comparator; import java.util.LinkedList; import java.util.List;
public class Ordered {
private static boolean isOrderedWord(String word){ char[] sortedWord = word.toCharArray(); Arrays.sort(sortedWord); return word.equals(new String(sortedWord)); }
public static void main(String[] args) throws IOException{ List<String> orderedWords = new LinkedList<String>(); BufferedReader in = new BufferedReader(new FileReader(args[0])); while(in.ready()){ String word = in.readLine(); if(isOrderedWord(word)) orderedWords.add(word); } in.close();
Collections.<String>sort(orderedWords, new Comparator<String>() { @Override public int compare(String o1, String o2) { return new Integer(o2.length()).compareTo(o1.length()); } });
int maxLen = orderedWords.get(0).length(); for(String word: orderedWords){ if(word.length() == maxLen){ System.out.println(word); }else{ break; } } } }</lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
JavaScript
Using node.js:
<lang javascript>var fs = require('fs'), print = require('sys').print; fs.readFile('./unixdict.txt', 'ascii', function (err, data) {
var is_ordered = function(word){return word.split().sort().join() === word;}, ordered_words = data.split('\n').filter(is_ordered).sort(function(a, b){return a.length - b.length}).reverse(), longest = [], curr = len = ordered_words[0].length, lcv = 0; while (curr === len){ longest.push(ordered_words[lcv]); curr = ordered_words[++lcv].length; }; print(longest.sort().join(', ') + '\n');
});</lang>
Output:
abbott, accent, accept, access, accost, almost, bellow, billow, biopsy, chilly, choosy, choppy, effort, floppy, glossy, knotty
Alternative version (also using Node.js):
<lang javascript>var http = require('http');
http.get({
host: 'www.puzzlers.org', path: '/pub/wordlists/unixdict.txt'
}, function(res) {
var data = ; res.on('data', function(chunk) { data += chunk; }); res.on('end', function() { var words = data.split('\n'); var max = 0; var ordered = []; words.forEach(function(word) { if (word.split().sort().join() != word) return; if (word.length == max) { ordered.push(word); } else if (word.length > max) { ordered = [word]; max = word.length; } }); console.log(ordered.join(', ')); });
});</lang>
jq
<lang jq>def is_sorted:
if length <= 1 then true else .[0] <= .[1] and (.[1:] | is_sorted) end;
def longest_ordered_words:
# avoid string manipulation: def is_ordered: explode | is_sorted; map(select(is_ordered)) | (map(length)|max) as $max | map( select(length == $max) );
split("\n") | longest_ordered_words</lang>
- Output:
["abbott","accent","accept","access","accost","almost","bellow","billow","biopsy","chilly","choosy","choppy","effort","floppy","glossy","knotty"]
Julia
Function <lang Julia> function isordered{T<:String}(w::T)
p = '\0' for c in w p <= c || return false p = c end return true
end </lang> isordered is designed to handle multi-byte characters gracefully. However, one would need to think carefully about the meaning of character ordering when using elaborate character sets. The function relies on the ordering of the byte representation of the character set reflecting the order of characters in the alphabet.
Main <lang Julia> maxlen = 0 wlst = String[] WL = open("ordered_words.txt", "r")
for w in eachline(WL)
w = chomp(w) wlen = length(w) wlen>=maxlen && isordered(w) || continue if wlen > maxlen maxlen = wlen wlst = [w] else push!(wlst, w) end
end close(WL)
for w in wlst
println(" ", w)
end </lang>
- Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
K
<lang K> w@&d=|/d:#:'w:d@&&/'{~x<y}':'d:0:"unixdict.txt" ("abbott"
"accent" "accept" "access" "accost" "almost" "bellow" "billow" "biopsy" "chilly" "choosy" "choppy" "effort" "floppy" "glossy" "knotty")</lang>
Lang5
<lang lang5>: >string-index
"" split "&'0123456789abcdefghijklmnopqrstuvwxyz" "" split swap index collapse ;
- chars "" split length swap drop ;
- cr "\n" . ;
- nip swap drop ;
- ordered?
dup grade subscript != '+ reduce if 0 else -1 then ;
- filtering
[] '_ set 0 do read 2dup chars <= if dup >string-index ordered? if 2dup chars < if nip dup chars swap [] '_ set then _ swap append '_ set '. . # progress dot else drop then else drop then eof if break then loop
cr _ . cr ;
- ordered-words
'< 'unixdict.txt open 'fh set fh fin filtering fh close ;
ordered-words</lang>
- Output:
[ abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty ]
Lasso
<lang Lasso>local(f = file('unixdict.txt'), words = array, ordered = array, maxleng = 0)
- f->dowithclose => {
#f->foreachLine => { #words->insert(#1) } } with w in #words do => { local(tosort = #w->asString->values) #tosort->sort if(#w->asString == #tosort->join()) => { #ordered->insert(#w->asString) #w->asString->size > #maxleng ? #maxleng = #w->asString->size } } with w in #ordered where #w->size == #maxleng do => {^ #w + '\r' ^}</lang>
- Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Liberty BASIC
<lang lb> 'Ordered wordsFrom Rosetta Code open "unixdict.txt" for input as #1 'this is not normal DOS/Windows file. 'It LF delimited, not CR LF 'So Line input would not work.
lf$=chr$(10) curLen=0 wordList$="" while not(eof(#1))
a$=inputto$(#1, lf$) 'now, check word flag = 1 c$ = left$(a$,1) for i = 2 to len(a$) d$ = mid$(a$,i,1) if c$>d$ then flag=0: exit for c$=d$ next 'ckecked, proceed if ordered word if flag then if curLen=len(a$) then wordList$=wordList$+" "+a$ else if curLen<len(a$) then curLen=len(a$) wordList$=a$ end if end if end if
wend close #1 print wordList$ </lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Lua
<lang lua>fp = io.open( "dictionary.txt" )
maxlen = 0 list = {}
for w in fp:lines() do
ordered = true for l = 2, string.len(w) do
if string.byte( w, l-1 ) > string.byte( w, l ) then ordered = false
break
end
end if ordered then
if string.len(w) > maxlen then list = {} list[1] = w maxlen = string.len(w) elseif string.len(w) == maxlen then list[#list+1] = w end
end
end
for _, w in pairs(list) do
print( w )
end
fp:close()</lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Mathematica
<lang mathematica>Module[{max,
data = Select[Import["http://www.puzzlers.org/pub/wordlists/unixdict.txt", "List"], OrderedQ[Characters[#]] &]}, max = Max[StringLength /@ data]; Select[data, StringLength[#] == max &]]
</lang>
However Mathematica has built in dictionaries for many languages, so here is a more general version...
<lang Mathematica>maxWords[language_String] := Module[{max,data = Select[DictionaryLookup[{language, "*"}],OrderedQ[Characters[#]] &]},
max = Max[StringLength /@ data]; Select[data, StringLength[#] == max &]]
</lang>
findLargestOrderedWord["English"] {"billowy"} findLargestOrderedWord["French"] {"accent", "afflux", "bijoux", "billot", "dehors", "effort"} findLargestOrderedWord["Spanish"] {"abenuz", "chillo"}
MATLAB / Octave
<lang Matlab>maxlen = 0; listlen= 0; fid = fopen('unixdict.txt','r'); while ~feof(fid)
str = fgetl(fid); if any(diff(abs(str))<0) continue; end; if length(str)>maxlen,
list = {str}; maxlen = length(str);
elseif length(str)==maxlen,
list{end+1} = str;
end;
end fclose(fid); printf('%s\n',list{:}); </lang>
Returns:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
NetRexx
<lang NetRexx>/* NetRexx */ options replace format comments java crossref savelog symbols binary
unixdict = 'unixdict.txt' do
wmax = Integer.MIN_VALUE dwords = ArrayList() inrdr = BufferedReader(FileReader(File(unixdict))) loop label ln while inrdr.ready dword = Rexx(inrdr.readLine).strip if isOrdered(dword) then do dwords.add(dword) if dword.length > wmax then wmax = dword.length end end ln inrdr.close
witerator = dwords.listIterator loop label wd while witerator.hasNext dword = Rexx witerator.next if dword.length < wmax then do witerator.remove end end wd dwords.trimToSize
say dwords.toString
catch ex = IOException
ex.printStackTrace
end
return
method isOrdered(dword = String) inheritable static binary returns boolean
wchars = dword.toCharArray Arrays.sort(wchars) return dword.equalsIgnoreCase(String(wchars))
</lang>
- Output
[abbott, accent, accept, access, accost, almost, bellow, billow, biopsy, chilly, choosy, choppy, effort, floppy, glossy, knotty]
Nim
<lang nim>import httpclient, strutils
proc isSorted(s): bool =
var last = low(char) for c in s: if c < last: return false last = c return true
const url = "http://www.puzzlers.org/pub/wordlists/unixdict.txt" var mx = 0 var words: seq[string] = @[]
for word in getContent(url).split():
if word.len >= mx and isSorted(word): if word.len > mx: words = @[] mx = word.len words.add(word)
echo words.join(" ")</lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
OCaml
<lang ocaml>let input_line_opt ic =
try Some(input_line ic) with End_of_file -> None
(* load each line in a list *) let read_lines ic =
let rec aux acc = match input_line_opt ic with | Some line -> aux (line :: acc) | None -> (List.rev acc) in aux []
let char_list_of_string str =
let lst = ref [] in String.iter (fun c -> lst := c :: !lst) str; (List.rev !lst)
let is_ordered word =
let rec aux = function | c1::c2::tl -> if c1 <= c2 then aux (c2::tl) else false | c::[] -> true | [] -> true (* should only occur with an empty string *) in aux (char_list_of_string word)
let longest_words words =
let res, _ = List.fold_left (fun (lst, n) word -> let len = String.length word in let comp = compare len n in match lst, comp with | lst, 0 -> ((word::lst), n) (* len = n *) | lst, -1 -> (lst, n) (* len < n *) | _, 1 -> ([word], len) (* len > n *) | _ -> assert false ) ([""], 0) words in (List.rev res)
let () =
let ic = open_in "unixdict.txt" in let words = read_lines ic in let lower_words = List.map String.lowercase words in let ordered_words = List.filter is_ordered lower_words in let longest_ordered_words = longest_words ordered_words in List.iter print_endline longest_ordered_words</lang>
Output:
$ ocaml ordered_words.ml abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Oforth
<lang Oforth>func: longWord { | w longest l s |
0 ->longest File newMode("unixdict.txt", File.UTF8) forEach: w [ w size dup ->s longest < ifTrue: [ continue ] w sort w == ifFalse: [ continue ] s longest > ifTrue: [ s ->longest ListBuffer new ->l ] l add(w) ] l println
}</lang>
- Output:
>longWord [abbott, accent, accept, access, accost, almost, bellow, billow, biopsy, chilly, choosy, choppy, effort, floppy, glossy, knotty]
Perl
<lang Perl>#!/usr/bin/perl use strict; use warnings;
open(FH, "<", "unixdict.txt") or die "Can't open file!\n"; my @words; while (<FH>) {
chomp; push @{$words[length]}, $_ if $_ eq join("", sort split(//));
} close FH; print "@{$words[-1]}\n"; </lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Perl 6
Here we assume the dictionary is provided on standard input. <lang Perl 6>say .value given max :by(*.key), classify *.chars, grep { [le] .comb }, lines;</lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
PicoLisp
<lang PicoLisp>(in "unixdict.txt"
(mapc prinl (maxi '((L) (length (car L))) (by length group (filter '((S) (apply <= S)) (make (while (line) (link @))) ) ) ) ) )</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
PL/I
<lang pli> order: procedure options (main); /* 24/11/2011 */
declare word character (20) varying; declare word_list character (20) varying controlled; declare max_length fixed binary; declare input file;
open file (input) title ('/ORDER.DAT,TYPE(TEXT),RECSIZE(100)');
on endfile (input) go to completed_search;
max_length = 0; do forever; get file (input) edit (word) (L); if length(word) > max_length then do; if in_order(word) then do; /* Get rid of any stockpiled shorter words. */ do while (allocation(word_list) > 0); free word_list; end; /* Add the eligible word to the stockpile. */ allocate word_list; word_list = word; max_length = length(word); end; end; else if max_length = length(word) then do; /* we have an eligle word of the same (i.e., maximum) length. */ if in_order(word) then do; /* Add it to the stockpile. */ allocate word_list; word_list = word; end; end; end;
completed_search:
put skip list ('There are ' || trim(allocation(word_list)) || ' eligible words of length ' || trim(length(word)) || ':'); do while (allocation(word_list) > 0); put skip list (word_list); free word_list; end;
/* Check that the letters of the word are in non-decreasing order of rank. */ in_order: procedure (word) returns (bit(1));
declare word character (*) varying; declare i fixed binary;
do i = 1 to length(word)-1; if substr(word, i, 1) > substr(word, i+1, 1) then return ('0'b); end; return ('1'b);
end in_order; end order; </lang> OUTPUT:
There are 16 eligible words of length 6: knotty glossy floppy effort choppy choosy chilly biopsy billow bellow almost accost access accept accent abbott
Prolog
Works with SWI-Prolog
<lang Prolog>:- use_module(library( http/http_open )).
ordered_words :-
% we read the URL of the words
http_open('http://www.puzzlers.org/pub/wordlists/unixdict.txt', In, []), read_file(In, [], Out), close(In),
% we get a list of pairs key-value where key = Length and value = <list-of-its-codes> % this list must be sorted
msort(Out, MOut),
group_pairs_by_key(MOut, POut),
% we sorted this list in decreasing order of the length of values
predsort(my_compare, POut, [_N-V | _OutSort]), maplist(mwritef, V).
mwritef(V) :-
writef('%s\n', [V]).
read_file(In, L, L1) :- read_line_to_codes(In, W), ( W == end_of_file ->
% the file is read
L1 = L ;
% we sort the list of codes of the line
% and keep only the "goods word" ( msort(W, W) -> length(W, N), L2 = [N-W | L], (len = 6 -> writef('%s\n', [W]); true) ; L2 = L ),
% and we have the pair Key-Value in the result list
read_file(In, L2, L1)).
% predicate for sorting list of pairs Key-Values % if the lentgh of values is the same % we sort the keys in alhabetic order my_compare(R, K1-_V1, K2-_V2) :- ( K1 < K2 -> R = >; K1 > K2 -> R = <; =). </lang> Output :
?- ordered_words. abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty true.
PureBasic
<lang PureBasic>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
Structure orderedWord
word.s length.i
EndStructure
Define filename.s = "unixdict.txt", fileNum = 0, word.s
If OpenConsole()
NewList orderedWords.orderedWord() If ReadFile(fileNum, filename) While Not Eof(fileNum) word = ReadString(fileNum) If word = sortLetters(@word, Len(word)) AddElement(orderedWords()) orderedWords()\word = word orderedWords()\length = Len(word) EndIf Wend EndIf
SortStructuredList(orderedWords(), #PB_Sort_Ascending, OffsetOf(orderedWord\word), #PB_Sort_String) SortStructuredList(orderedWords(), #PB_Sort_Descending, OffsetOf(orderedWord\length), #PB_Sort_integer) Define maxLength FirstElement(orderedWords()) maxLength = orderedWords()\length ForEach orderedWords() If orderedWords()\length = maxLength Print(orderedWords()\word + " ") EndIf Next Print(#CRLF$ + #CRLF$ + "Press ENTER to exit"): Input() CloseConsole()
EndIf</lang> Sample output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Python
<lang python>import urllib.request
url = 'http://www.puzzlers.org/pub/wordlists/unixdict.txt' words = urllib.request.urlopen(url).read().decode("utf-8").split() ordered = [word for word in words if word==.join(sorted(word))] maxlen = len(max(ordered, key=len)) maxorderedwords = [word for word in ordered if len(word) == maxlen] print(' '.join(maxorderedwords))</lang>
Alternate Solution <lang python>import urllib.request
mx, url = 0, 'http://www.puzzlers.org/pub/wordlists/unixdict.txt'
for word in urllib.request.urlopen(url).read().decode("utf-8").split():
lenword = len(word) if lenword >= mx and word==.join(sorted(word)): if lenword > mx: words, mx = [], lenword words.append(word)
print(' '.join(words))</lang>
Sample Output
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Short local version: <lang python>from itertools import groupby o = (w for w in map(str.strip, open("unixdict.txt")) if sorted(w)==list(w)) print list(next(groupby(sorted(o, key=len, reverse=True), key=len))[1])</lang>
Racket
<lang Racket>
- lang racket
(require net/url)
(define dict "http://www.puzzlers.org/pub/wordlists/unixdict.txt")
(define (ordered? str)
(define lower (string-downcase str)) (for/and ([i (in-range 1 (string-length str))]) (char<=? (string-ref lower (sub1 i)) (string-ref lower i))))
(define words (port->lines (get-pure-port (string->url dict))))
(let loop ([len 0] [longs '()] [words words])
(if (null? words) (for-each displayln (reverse longs)) (let* ([word (car words)] [words (cdr words)] [wlen (string-length word)]) (if (or (< wlen len) (not (ordered? word))) (loop len longs words) (loop wlen (cons word (if (> wlen len) '() longs)) words)))))
</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
REXX
This problem assumes (or implies) an order of letter case, but fortunately, there're no uppercase letters
in the (default) dictionary to see which programs would fail when not recognizing this distinction.
In ASCII
, A is less than a, while in EBCDIC
, it's the other way around.
The problem can be avoided by first converting the word to a specific case, and then test for ordered
letters in that word (as indeed, this REXX entry does).
Output could be improved by sorting the words in the dictionary, but adding a sort would bulk up the program;
but since the word list (in this case) is already in alphabetical order, this would-be improvement is
mostly moot.
<lang rexx>/*REXX program lists (the longest) ordered word(s) from a supplied dictionary.*/
iFID = 'UNIXDICT.TXT' /*the filename of the word dictionary. */
@.= /*placeholder array for list of words. */
mL=0 /*maximum length of the ordered words. */
call linein iFID, 1, 0 /*point to the first word in dictionary*/
/* [↑] just in case the file is open. */ do j=1 while lines(iFID)\==0 /*keep reading until file is exhausted.*/ x=linein(iFID); w=length(x) /*obtain a word and also its length. */ if w<mL then iterate /*Word not long enough? Then ignore it.*/ xU=x; upper xU /*create uppercase version of word X. */ z=left(xU,1) /*now, determine if the word is ordered*/ /*handle words of mixed case. */ do k=2 to w; _=substr(xU,k,1) /*process each letter in word. */ if \datatype(_,'U') then iterate /*Not a letter? Then ignore it.*/ if _<z then iterate j /*is letter < than previous ? */ z=_ /*we have newer current letter. */ end /*k*/ /* [↑] logic includes ≥ order. */ mL=w /*maybe define a new maximum length. */ @.w=@.w x /*add the original word to a word list.*/ end /*j*/
- =words(@.mL) /*just a handy─dandy variable to have. */
say # 'word's(#) "found (of length" mL')'; say /*show # words & length.*/
do n=1 for #; say word(@.mL,n); end /*list all the words. */
exit /*stick a fork in it, we're all done. */ /*────────────────────────────────────────────────────────────────────────────*/ s: if arg(1)==1 then return ; return 's' /*a simple pluralizer.*/</lang> output when using the default supplied word dictionary:
16 words found (of length 6) abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Ruby
<lang ruby>require 'open-uri' ordered_words = open('http://www.puzzlers.org/pub/wordlists/unixdict.txt', 'r').select do |word|
word.strip! word.chars.sort.join == word
end
grouped = ordered_words.group_by &:size puts grouped[grouped.keys.max]</lang>
Sample Output
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Local version: <lang ruby>words = IO.foreach('unixdict.txt').map(&:chomp).select {|word| word.chars.sort.join == word} puts words.group_by(&:size).sort_by(&:first).last.last</lang>
Run BASIC
<lang runbasic>a$ = httpget$("http://www.puzzlers.org/pub/wordlists/unixdict.txt") j = 1 i = instr(a$,chr$(10),j) while i <> 0
a1$ = mid$(a$,j,i-j) for k = 1 to len(a1$) - 1 if mid$(a1$,k,1) > mid$(a1$,k+1,1) then goto [noWay] next k maxL = max(maxL,len(a1$))
if len(a1$) >= maxL then a2$ = a2$ + a1$ + "||" [noWay] j = i + 1 i = instr(a$,chr$(10),j) wend n = 1 while word$(a2$,n,"||") <> ""
a3$ = word$(a2$,n,"||") if len(a3$) = maxL then print a3$ n = n + 1
wend</lang>
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Rust
<lang rust>// rust 0.9-pre (1b12dca 2013-12-11 12:56:22 -0800)
fn is_ordered(s: &str) -> bool {
let mut prev = '\x00'; for c in s.chars() { if c < prev { return false; } prev = c; }
return true;
}
fn find_longest_ordered_words(dict: ~[&str]) -> ~[~str] {
let mut result = ~[]; let mut longest_length = 0;
for &s in dict.iter() { if is_ordered(s) { let n = s.len(); if n > longest_length { longest_length = n; result.truncate(0); } if n == longest_length { result.push(s.to_owned()); } } }
return result;
}
fn main() {
let raw = std::io::File::open(&Path::new("unixdict.txt")).read_to_end(); let lines:~[&str] = std::str::from_utf8(raw).lines_any().collect();
let longest_ordered = find_longest_ordered_words(lines);
for s in longest_ordered.iter() { println(s.to_str()); }
}</lang>
Sample Output
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Scala
<lang scala>val wordsAll = scala.io.Source.fromURL("http://www.puzzlers.org/pub/wordlists/unixdict.txt").getLines.toSeq
/**
* Given a sequence of words return a sub-sequence of the * words that have characters in sorted order. */
def orderedWords( words:Seq[String] ) : Seq[(String)] = {
def isOrdered( s:String ) : Boolean = (s.foldLeft( (true,'@') ){ case ((false,_),_) => return false case ((true,prev),c) => ((prev <= c),c) })._1
wordsAll.filter( isOrdered(_) ).toSeq
}
val ww = orderedWords( wordsAll ).sortBy( -_.length )
println( ww.takeWhile( _.length == ww.head.length ).mkString("\n") )</lang>
- Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Scheme
The following implementation uses a char>=? procedure that accepts an arbitrary number of arguments. This is allowed, but not required, by R5RS, and is provided by many Scheme implementations. It has been tested under GNU Guile 1.8.8.
<lang scheme> (define sorted-words
(let ((port (open-input-file "unixdict.txt"))) (let loop ((char (read-char port)) (word '()) (result '(()))) (cond ((eof-object? char)
(reverse (map (lambda (word) (apply string word)) result)))
((eq? #\newline char)
(loop (read-char port) '() (let ((best-length (length (car result))) (word-length (length word))) (cond ((or (< word-length best-length) (not (apply char>=? word))) result) ((> word-length best-length) (list (reverse word))) (else (cons (reverse word) result))))))
(else (loop (read-char port) (cons char word) result))))))
(map (lambda (x)
(begin
(display x) (newline)))
sorted-words)
</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Seed7
<lang seed7>$ include "seed7_05.s7i";
const func boolean: isOrdered (in string: word) is func
result var boolean: ordered is TRUE; local var integer: index is 0; begin for index range 1 to pred(length(word)) do if word[index] > word[succ(index)] then ordered := FALSE; end if; end for; end func;
const proc: write (in array string: wordList) is func
local var string: word is ""; begin for word range wordList do writeln(word); end for; end func;
const proc: main is func
local var file: dictionary is STD_NULL; var string: word is ""; var integer: length is 0; var array string: wordList is 0 times ""; begin dictionary := open("unixdict.txt", "r"); if dictionary <> STD_NULL then readln(dictionary, word); while not eof(dictionary) do if isOrdered(lower(word)) then if length(word) > length then length := length(word); wordList := [] (word); elsif length(word) = length then wordList &:= word; end if; end if; readln(dictionary, word); end while; close(dictionary); end if; write(wordList); end func;</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Sidef
<lang ruby>var words = [[]]; var file = %f'unixdict.txt';
file.open_r(\var fh, \var err)
|| die "Can't open file #{file}: $#{err}";
fh.each { |line|
line.trim!; line == line.sort && ( words[line.length] := [] append(line); );
};
say words[-1].join(' ');</lang>
- Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Smalltalk
<lang smalltalk>|file dict r t| file := FileStream open: 'unixdict.txt' mode: FileStream read. dict := Set new.
"load the whole dict into the set before, 'filter' later" [ file atEnd ] whileFalse: [
dict add: (file upTo: Character nl) ].
"find those with the sorted letters, and sort them by length" r := ((dict
select: [ :w | (w asOrderedCollection sort) = (w asOrderedCollection) ] ) asSortedCollection: [:a :b| (a size) > (b size) ] ).
"get those that have length = to the max length, and sort alphabetically" r := (r select: [:w| (w size) = ((r at: 1) size)]) asSortedCollection.
r do: [:e| e displayNl].</lang>
Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Tcl
<lang tcl>package require http
- Pick the ordered words (of maximal length) from a list
proc chooseOrderedWords list {
set len 0 foreach word $list {
# Condition to determine whether a word is ordered; are its characters # in sorted order? if {$word eq [join [lsort [split $word ""]] ""]} { if {[string length $word] > $len} { set len [string length $word] set orderedOfMaxLen {} } if {[string length $word] == $len} { lappend orderedOfMaxLen $word } }
} return $orderedOfMaxLen
}
- Get the dictionary and print the ordered words from it
set t [http::geturl "http://www.puzzlers.org/pub/wordlists/unixdict.txt"] puts [chooseOrderedWords [http::data $t]] http::cleanup $t</lang> Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
TUSCRIPT
<lang tuscript> $$ MODE TUSCRIPT SET data = REQUEST ("http://www.puzzlers.org/pub/wordlists/unixdict.txt") DICT orderdwords CREATE 99999 COMPILE LOOP word=data
- "<%" = any token SET letters=STRINGS (word,":<%:") SET wordsignatur= ALPHA_SORT (letters) IF (wordsignatur==letters) THEN SET wordlength=LENGTH (word) DICT orderdwords ADD/COUNT word,num,cnt,wordlength ENDIF
ENDLOOP
DICT orderdwords UNLOAD words,num,cnt,wordlength SET maxlength=MAX_LENGTH (words) SET rtable=QUOTES (maxlength) BUILD R_TABLE maxlength = rtable SET index=FILTER_INDEX (wordlength,maxlength,-) SET longestwords=SELECT (words,#index) PRINT num," ordered words - max length is ",maxlength,":"
LOOP n,w=longestwords SET n=CONCAT (n,"."), n=CENTER(n,4) PRINT n,w ENDLOOP ENDCOMPILE </lang> Output:
422 ordered words - max length is 6: 1. abbott 2. accent 3. accept 4. access 5. accost 6. almost 7. bellow 8. billow 9. biopsy 10. chilly 11. choosy 12. choppy 13. effort 14. floppy 15. glossy 16. knotty
Ursala
<lang Ursala>#import std
- show+
main = leql@bh$^ eql|= (ordered lleq)*~ unixdict_dot_txt</lang>
leql
is a binary predicate testing a pair of lists for less or equal lengtheql
tests for equal lengthlleq
tests for lexically less or equal relatedness between characters or stringsordered
takes a binary predicate to a predicate operating on a list, which tests whether every pair of consecutive items is related by the binary predicate- postfix operator
*~
turns a predicate into a list filtering function, deleting any item not satisfying it - postfix operator
|=
turns an equivalance relational predicate into function that partitions a list into a list of equivalence classes - postfix operator
$^
turns a predicate into a function that searches a list for the maximum member with respect to it - postfix operator
@bh
makes its operand function apply to the pair of heads of a pair of lists - loading a file
unixdict.txt
into a list of strings is implied by using its name as an identifier and supplying it to the compiler in a command line parameter
output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
VBA
<lang VBA> Public Sub orderedwords(fname As String)
' find ordered words in dict file that have the longest word length ' fname is the name of the input file ' the words are printed in the immediate window ' this subroutine uses boolean function IsOrdered
Dim word As String 'word to be tested Dim l As Integer 'length of word Dim wordlength As Integer 'current longest word length Dim orderedword() As String 'dynamic array holding the ordered words with the current longest word length Dim wordsfound As Integer 'length of the array orderedword()
On Error GoTo NotFound 'catch incorrect/missing file name Open fname For Input As #1 On Error GoTo 0
'initialize wordsfound = 0 wordlength = 0
'process file line per line While Not EOF(1)
Line Input #1, word If IsOrdered(word) Then 'found one, is it equal to or longer than current word length? l = Len(word) If l >= wordlength Then 'yes, so add to list or start a new list If l > wordlength Then 'it's longer, we must start a new list wordsfound = 1 wordlength = l Else 'equal length, increase the list size wordsfound = wordsfound + 1 End If 'add the word to the list ReDim Preserve orderedword(wordsfound) orderedword(wordsfound) = word End If End If
Wend Close #1
'print the list Debug.Print "Found"; wordsfound; "ordered words of length"; wordlength For i = 1 To wordsfound
Debug.Print orderedword(i)
Next Exit Sub
NotFound:
debug.print "Error: Cannot find or open file """ & fname & """!"
End Sub
Public Function IsOrdered(someWord As String) As Boolean 'true if letters in word are in ascending (ascii) sequence
Dim l As Integer 'length of someWord Dim wordLcase As String 'the word in lower case Dim ascStart As Integer 'ascii code of first char Dim asc2 As Integer 'ascii code of next char
wordLcase = LCase(someWord) 'convert to lower case l = Len(someWord) IsOrdered = True If l > 0 Then 'this skips empty string - it is considered ordered...
ascStart = Asc(Left$(wordLcase, 1)) For i = 2 To l asc2 = Asc(Mid$(wordLcase, i, 1)) If asc2 < ascStart Then 'failure! IsOrdered = False Exit Function End If ascStart = asc2 Next i
End If End Function </lang>
Results:
OrderedWords("unixdict.txt") Found 16 ordered words of length 6 abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
Vedit macro language
<lang vedit>File_Open("unixdict.txt", BROWSE)
- 1 = 2 // length of longest word found
Repeat (ALL) {
#2 = EOL_Pos-Cur_Pos // length of this word if (#2 >= #1) { #3 = 1 // flag: is ordered word Char(1) While (!At_EOL) { if (Cur_Char < Cur_Char(-1)) { #3 = 0 // not an ordered word break } Char(1) } if (#3) { // ordered word found if (#2 > #1) { // new longer word found #1 = #2 Reg_Empty(10) // clear list } BOL Reg_Copy(10,1,APPEND) // add word to list } } Line(1,ERRBREAK) // next word
} Buf_Quit(OK) // close file Reg_Type(10) // display results </lang>
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
VBScript
Note: The input file is in the same folder as the script. <lang vb>Set objFSO = CreateObject("Scripting.FileSystemObject") Set infile = objFSO.OpenTextFile(objFSO.GetParentFolderName(WScript.ScriptFullName) & "\" &_ "unixdict.txt",1) list = "" length = 0
Do Until inFile.AtEndOfStream line = infile.ReadLine If IsOrdered(line) Then If Len(line) > length Then length = Len(line) list = line & vbCrLf ElseIf Len(line) = length Then list = list & line & vbCrLf End If End If Loop
WScript.StdOut.Write list
Function IsOrdered(word) IsOrdered = True prev_val = 0 For i = 1 To Len(word) If i = 1 Then prev_val = Asc(Mid(word,i,1)) ElseIf Asc(Mid(word,i,1)) >= prev_val Then prev_val = Asc(Mid(word,i,1)) Else IsOrdered = False Exit For End If Next End Function</lang>
- Output:
abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
zkl
One pass, dictionary stays on disk: <lang zkl>var words=L(), sz=0; // some state fcn isLex(word){ word.reduce(fcn(p,c){ (p<=c) and c or T(Void.Stop,False) }) } File("dict.txt").pump(Void,fcn(w){
w=w.strip(); // get rid of newline if(isLex(w)){ n:=w.len(); if(n>sz){ words.clear(w); sz=n } else if(n==sz) words.append(w) }
}) println("Num words: %d, all size %d\n".fmt(words.len(),sz)); words.pump(Console.println);</lang> Or, reading dictionary into memory: <lang zkl>fcn isLex(word){ word.reduce(fcn(p,c){ (p<=c) and c or T(Void.Stop,False) }) } lwords:=File("dict.txt").readln(*).apply("strip").filter(isLex); max:=lwords.reduce(fcn(n,w){ w.len()>n and w.len() or n },0); lwords=lwords.filter(fcn(w,n){ w.len()==n },max); println("Num words: %d, all size %d\n".fmt(lwords.len(),max)); words.pump(Console.println);</lang>
- Output:
Num words: 16, all size 6 abbott accent accept access accost almost bellow billow biopsy chilly choosy choppy effort floppy glossy knotty
- Programming Tasks
- Text processing
- Ada
- Aime
- AutoHotkey
- AWK
- BBC BASIC
- Bracmat
- Burlesque
- C
- C++
- C sharp
- Clojure
- CoffeeScript
- Common Lisp
- D
- Delphi
- E
- Elixir
- Erlang
- Euphoria
- F Sharp
- Factor
- Fantom
- FBSL
- Forth
- Fortran
- Go
- Groovy
- Haskell
- Icon
- Unicon
- Icon Programming Library
- J
- Java
- JavaScript
- Jq
- Julia
- K
- Lang5
- Lasso
- Liberty BASIC
- Lua
- Mathematica
- MATLAB
- Octave
- NetRexx
- Nim
- OCaml
- Oforth
- Perl
- Perl 6
- PicoLisp
- PL/I
- Prolog
- PureBasic
- Python
- Racket
- REXX
- Ruby
- Run BASIC
- Rust
- Scala
- Scheme
- Seed7
- Sidef
- Smalltalk
- Tcl
- TUSCRIPT
- Ursala
- VBA
- Vedit macro language
- VBScript
- Zkl