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Line 23: <br><br> =={{header\|11l}}== <syntaxhighlight lang="11l">F is_prime(Int a) I a == 2 R 1B I a < 2 \| a % 2 == 0 R 0B L(i) (3 .. Int(sqrt(a))).step(2) I a % i == 0 R 0B R 1B Set[Int] prime_chars L(c) ‘a’.code .. ‘z’.code I is_prime(c) prime_chars.add(c) L(c) ‘A’.code .. ‘Z’.code I is_prime(c) prime_chars.add(c) L(word) File(‘unixdict.txt’).read().split("\n") L(c) word I c.code !C prime_chars L.break L.was_no_break print(word)</syntaxhighlight> {{out}} <pre> a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q </pre> =={{header\|Action!}}== In the following solution the input file is loaded from H6 drive. Altirra emulator automatically converts CR/LF character from ASCII into 155 character in ATASCII charset used by Atari 8-bit computer when one from H6-H10 hard drive under DOS 2.5 is used. {{libheader\|Action! Sieve of Eratosthenes}} <syntaxhighlight lang="action!">INCLUDE "H6:SIEVE.ACT" BYTE FUNC IsPrimeWord(CHAR ARRAY word BYTE ARRAY primes) BYTE i,c FOR i=1 TO word(0) DO c=word(i) IF primes(c)=0 THEN RETURN (0) FI OD RETURN (1) PROC FindPrimeWords(CHAR ARRAY fname BYTE ARRAY primes) CHAR ARRAY line(256) CHAR ARRAY tmp(256) BYTE pos,dev=[1] pos=2 Close(dev) Open(dev,fname,4) WHILE Eof(dev)=0 DO InputSD(dev,line) IF IsPrimeWord(line,primes) THEN IF pos+line(0)>=39 THEN PutE() pos=2 FI Print(line) Put(32) pos==+line(0)+1 FI OD Close(dev) RETURN PROC Main() DEFINE MAX="128" BYTE ARRAY primes(MAX+1) CHAR ARRAY fname="H6:UNIXDICT.TXT" Put(125) PutE() ;clear the screen Sieve(primes,MAX+1) FindPrimeWords(fname,primes) RETURN</syntaxhighlight> {{out}} [https://gitlab.com/amarok8bit/action-rosetta-code/-/raw/master/images/Prime_words.png Screenshot from Atari 8-bit computer] <pre> a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q </pre> =={{header\|ALGOL 68}}== Does not distinguish between letters and non-letter ASCII codes (as with the REXX sample). {{libheader\|ALGOL 68-primes}} ~~<lang algol68># find words whose character codes are primes #~~ <syntaxhighlight lang="algol68"># find words whose character codes are primes # IF FILE input file; STRING file name = "unixdict.txt"; Line 45 ⟶ 166: END ); # construct a sieve of primes up to the maximum character # PR read "primes.incl.a68" PR ~~[ 0 : max abs char ]BOOL s;~~ ~~FOR i TO UPB~~[]BOOL s DO= s[PRIMESIEVE ~~i ] :=~~max ~~TRUE~~abs ODchar; ~~s[ 0 ] := s[ 1 ] := FALSE;~~ ~~FOR i FROM 2 TO ENTIER sqrt( UPB s ) DO~~ ~~IF s[ i ] THEN FOR p FROM i * i BY i TO UPB s DO s[ p ] := FALSE OD FI~~ ~~OD;~~ # find the prime words # INT prime count := 0; Line 66 ⟶ 183: OD; close( input file ) FI</~~lang~~syntaxhighlight> {{out}} <pre> Line 106 ⟶ 223: 36: q </pre> =={{header\|Arturo}}== <~~lang~~syntaxhighlight lang="rebol">words: read.lines relative "unixdict.txt" loop words 'word [ if every? split word 'ch -> prime? to :integer to :char ch -> print word ]</~~lang~~syntaxhighlight> {{out}} Line 155 ⟶ 273: =={{header\|AWK}}== <syntaxhighlight lang="awk"> ~~<lang AWK>~~ # syntax: GAWK -f PRIME_WORDS.AWK unixdict.txt BEGIN { Line 184 ⟶ 302: return(1) } </syntaxhighlight> ~~</lang>~~ {{out}} <pre> Line 191 ⟶ 309: =={{header\|C++}}== <~~lang~~syntaxhighlight lang="cpp">#include <algorithm> #include <cstdlib> #include <fstream> Line 220 ⟶ 338: } return EXIT_SUCCESS; }</~~lang~~syntaxhighlight> Contents of prime_sieve.hpp: <~~lang~~syntaxhighlight lang="cpp">#ifndef PRIME_SIEVE_HPP #define PRIME_SIEVE_HPP Line 274 ⟶ 392: } #endif</~~lang~~syntaxhighlight> {{out}} Line 288 ⟶ 406: 33: me 34: meek 35: meg 36: q </pre> =={{header\|Delphi}}== {{works with\|Delphi\|6.0}} {{libheader\|SysUtils,StdCtrls}} <syntaxhighlight lang="Delphi"> function IsPrime(N: int64): boolean; {Fast, optimised prime test} var I,Stop: int64; begin if (N = 2) or (N=3) then Result:=true else if (n <= 1) or ((n mod 2) = 0) or ((n mod 3) = 0) then Result:= false else begin I:=5; Stop:=Trunc(sqrt(N+0.0)); Result:=False; while I<=Stop do begin if ((N mod I) = 0) or ((N mod (I + 2)) = 0) then exit; Inc(I,6); end; Result:=True; end; end; procedure ShowPrimeWords(Memo: TMemo); var I,N,Sum,Cnt: integer; var NS,S: string; function IsPrimeWord(S: string): boolean; var I: integer; begin Result:=False; for I:=1 to Length(S) do if not IsPrime(byte(S[I])) then exit; Result:=True; end; begin Cnt:=0; S:=''; {Iterate all entries in dictionary} for I:=0 to UnixDict.Count-1 do if IsPrimeWord(UnixDict[I]) then begin Inc(Cnt); Memo.Lines.Add(UnixDict[I]); end; Memo.Lines.Add('Count = '+IntToStr(Cnt)); end; </syntaxhighlight> {{out}} <pre> a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q Count = 36 Elapsed Time: 72.759 ms. </pre> =={{header\|Factor}}== {{works with\|Factor\|0.99 2020-08-14}} <~~lang~~syntaxhighlight lang="factor">USING: io.encodings.ascii io.files math.primes prettyprint sequences ; "unixdict.txt" ascii file-lines [ [ prime? ] all? ] filter .</~~lang~~syntaxhighlight> {{out}} <pre style="height: 45ex"> Line 337 ⟶ 555: =={{header\|FreeBASIC}}== <~~lang~~syntaxhighlight lang="freebasic"> dim shared as boolean prime(0 to 29) =_ {false, true, false, true, true, false, false, true, false, true, false, false, true, false,_ Line 365 ⟶ 583: close #1 end </syntaxhighlight> ~~</lang>~~ {{out}} <pre> Line 404 ⟶ 622: meg q</pre> =={{header\|FutureBasic}}== <syntaxhighlight lang="futurebasic"> #plist NSAppTransportSecurity @{NSAllowsArbitraryLoads:YES} mda(0) = {NO, YES, NO, YES, YES, NO, NO, YES, NO, YES, NO, NO, YES,¬ NO, NO, NO, YES, NO, YES, YES, NO, YES, YES, NO, YES, NO, NO, NO, NO} local fn WordList as CFArrayRef CFURLRef url = fn URLWithString( @"http://wiki.puzzlers.org/pub/wordlists/unixdict.txt" ) CFStringRef string = lcase(fn StringWithContentsOfURL( url, NSUTF8StringEncoding, NULL )) CFArrayRef wordArr = fn StringComponentsSeparatedByString( string, @"\n" ) CFMutableArrayRef mutArr = fn MutableArrayNew CFStringRef tempStr for tempStr in wordArr CFRange range = fn StringRangeOfStringWithOptions( tempStr, @"^[a-z]+$", NSRegularExpressionSearch ) if range.location != NSNotFound then MutableArrayAddObject( mutArr, tempStr ) next end fn = mutArr local fn IsPrimeLetter( s as CFStringRef ) as BOOL NSUInteger index = 0 BOOL result = NO unichar n = fn StringCharacterAtIndex( s, index ) if n mod 2 == 0 then exit fn = NO result = mda_integer( (n-65)/2 ) end fn = result local fn IsPrimeWord( s as CFStringRef ) as BOOL NSUInteger i, count = len(s) for i = 0 to count -1 if fn IsPrimeLetter( mid( s, i, 1 ) ) = NO then exit fn = NO next end fn = YES local fn FindPrimeWords CFArrayRef wordArr = fn WordList CFStringRef wordStr for wordStr in wordArr if wordStr = @"" then break if fn IsPrimeWord( wordStr ) = YES then printf @"%@", wordStr next end fn fn FindPrimeWords HandleEvents </syntaxhighlight> {{output}} <pre> a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q </pre> =={{header\|Go}}== <~~lang~~syntaxhighlight lang="go">package main import ( Line 469 ⟶ 780: } } }</~~lang~~syntaxhighlight> {{out}} <pre> Prime words in unixdict.txt are: a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q </pre> =={{header\|J}}== <syntaxhighlight lang="j"> ($~ _2 /\ q:@#)(#~ (1 /@p: 3 u: ])@>) cutLF fread'unixdict.txt' ┌─────┬───┬─────┬────┬─────┬───┬────┬───┬────┐ │a │aaa│age │agee│ak │am │ama │e │egg │ ├─────┼───┼─────┼────┼─────┼───┼────┼───┼────┤ │eke │em │emma │g │ga │gag│gage│gam│game│ ├─────┼───┼─────┼────┼─────┼───┼────┼───┼────┤ │gamma│ge │gee │gem │gemma│gm │k │keg│m │ ├─────┼───┼─────┼────┼─────┼───┼────┼───┼────┤ │ma │mae│magma│make│mamma│me │meek│meg│q │ └─────┴───┴─────┴────┴─────┴───┴────┴───┴────┘</syntaxhighlight> =={{header\|jq}}== {{works with\|jq}} '''Works with gojq, the Go implementation of jq''' A suitable implementation of `is_prime` is given at [[Erd%C5%91s-primes#jq]] and is therefore not repeated here. The task description suggests that perhaps the appropriate definition of `is_prime_word` should focus on the alphabetic characters, perhaps along the lines of: <syntaxhighlight lang="jq">def is_prime_word: all(gsub("[^A-Za-z]";"") \| explode[]; is_prime); </syntaxhighlight> All such variations are as easy to accommodate as to envision, but for unixdict.txt the following suffices: <syntaxhighlight lang="jq">def is_prime_word: all(explode[]; is_prime);</syntaxhighlight> <syntaxhighlight lang="jq"> inputs \| select(is_prime_word)</syntaxhighlight> {{out}} Invocation (example): jq -Rrn -f prime-words.jq unixdict.txt <pre> a aaa Line 514 ⟶ 894: =={{header\|Julia}}== See [[Alternade_words#Julia]] for the foreachword function. <~~lang~~syntaxhighlight lang="julia">const primelettervalues = [67, 71, 73, 79, 83, 89, 97, 101, 103, 107, 109, 113] isprimeword(w, _) = all(c -> Int(c) in primelettervalues, collect(w)) ? w : "" foreachword("unixdict.txt", isprimeword, colwidth=10, numcols=9) </~~lang~~syntaxhighlight>{{out}} <pre> Word source: unixdict.txt Line 525 ⟶ 905: gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q </pre> =={{header\|Mathematica}}/{{header\|Wolfram Language}}== <syntaxhighlight lang="mathematica">dict=Import["https://web.archive.org/web/20180611003215/http://www.puzzlers.org/pub/wordlists/unixdict.txt","String"]; dict//=StringSplit[#,"\n"]&; chars=CharacterRange["A","Z"]~Join~CharacterRange["a","z"]; chars//=Select[ToCharacterCode/First/PrimeQ]; Select[dict,StringMatchQ[Repeated[Alternatives@@chars]]]//Column</syntaxhighlight> {{out}} <pre>a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q</pre> =={{header\|MiniScript}}== This implementation is for use with the [http://miniscript.org/MiniMicro Mini Micro] version of MiniScript. The command-line version does not include a HTTP library. Modify the declaration of wordList object to use the file class to read a local copy of the word list file. <syntaxhighlight lang="miniscript"> isPrimeWord = function(word) if word.len == 0 then return false for ch in word.split("") if "aegkmq".indexOf(ch) == null then return false end for return true end function wordList = http.get("http://wiki.puzzlers.org/pub/wordlists/unixdict.txt").split(char(10)) primes = [] for word in wordList if isPrimeWord(word) then primes.push(word) end for print primes.join(", ") </syntaxhighlight> {{out}} <pre> a, aaa, age, agee, ak, am, ama, e, egg, eke, em, emma, g, ga, gag, gage, gam, game, gamma, ge, gee, gem, gemma, gm, k, keg, m, ma, mae, magma, make, mamma, me, meek, meg, q </pre> =={{header\|Nim}}== <~~lang~~syntaxhighlight ~~Nim~~lang="nim">import strformat, strutils func isPrime(n: Natural): bool = Line 553 ⟶ 1,001: if word.allCharsInSet(PrimeChars): inc count echo &"{count:2}: {word}"</~~lang~~syntaxhighlight> {{out}} Line 594 ⟶ 1,042: =={{header\|Perl}}== <~~lang~~syntaxhighlight lang="perl">#!/usr/bin/perl use strict; Line 601 ⟶ 1,049: my $pat = join '', grep +(1 x ord) !~ /^(11+)\1+$/, 'a'..'z', 'A'..'Z'; @ARGV = 'unixdict.txt'; print join('', grep /^[$pat]+$/, <>) =~ tr/\n/ /r =~ s/.{1,71}\K /\n/gr;</~~lang~~syntaxhighlight> {{out}} <pre> Line 609 ⟶ 1,057: =={{header\|Phix}}== <!--<syntaxhighlight lang="phix">(phixonline)--> ~~<lang Phix>function sap(string word) return sum(apply(word,is_prime))==length(word) end function~~ <span style="color: #008080;">with</span> <span style="color: #008080;">javascript_semantics</span> ~~sequence words = filter(get_text("demo/unixdict.txt",GT_LF_STRIPPED),sap)~~ <span style="color: #008080;">function</span> <span style="color: #000000;">sap</span><span style="color: #0000FF;">(</span><span style="color: #004080;">string</span> <span style="color: #000000;">word</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">return</span> <span style="color: #7060A8;">sum</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">apply</span><span style="color: #0000FF;">(</span><span style="color: #000000;">word</span><span style="color: #0000FF;">,</span><span style="color: #7060A8;">is_prime</span><span style="color: #0000FF;">))==</span><span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">word</span><span style="color: #0000FF;">)</span> <span style="color: #008080;">end</span> <span style="color: #008080;">function</span> ~~printf(1,"%d prime words found: %s\n",{length(words),join(shorten(words,"",3),", ")})</lang>~~ <span style="color: #004080;">sequence</span> <span style="color: #000000;">words</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">filter</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">unix_dict</span><span style="color: #0000FF;">(),</span><span style="color: #000000;">sap</span><span style="color: #0000FF;">)</span> <span style="color: #7060A8;">printf</span><span style="color: #0000FF;">(</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span><span style="color: #008000;">"%d prime words found: %s\n"</span><span style="color: #0000FF;">,{</span><span style="color: #7060A8;">length</span><span style="color: #0000FF;">(</span><span style="color: #000000;">words</span><span style="color: #0000FF;">),</span><span style="color: #7060A8;">join</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">shorten</span><span style="color: #0000FF;">(</span><span style="color: #000000;">words</span><span style="color: #0000FF;">,</span><span style="color: #008000;">""</span><span style="color: #0000FF;">,</span><span style="color: #000000;">3</span><span style="color: #0000FF;">),</span><span style="color: #008000;">", "</span><span style="color: #0000FF;">)})</span> <!--</syntaxhighlight>--> {{out}} <pre> Line 618 ⟶ 1,069: =={{header\|Plain English}}== <~~lang~~syntaxhighlight lang="plainenglish">To run: Start up. Put "c:\unixdict.txt" into a path. Line 643 ⟶ 1,094: If the substring's first's target is not prime, say no. Add 1 to the substring's first. Repeat.</~~lang~~syntaxhighlight> {{out}} <pre style="height:18em"> Line 682 ⟶ 1,133: meg q </pre> =={{header\|Python}}== Given that the set is known and quite small, 52 in length, a bit of pre-processing to determine all prime positioned characters before hand will speed up the task significantly rather than determining it every time for every word in the list. Here is the brute force pre-processor, again this can be done easily manually, but if you are feeling lazy, like me :) <syntaxhighlight lang="python"> for i in range(65,123): check = 1 for j in range(2,i): if i%j == 0: check = 0 if check==1: print(chr(i),end='') </syntaxhighlight> This produces the following string : <pre> CGIOSYaegkmq </pre> It's possible to speed it up even more by dropping capitals since the file only contains lower case characters, but we will give that a pass..... And here's the main program which hardcodes the output of the pre-processor above. As always : Tested on Python 3+, the file download will work only if the link is still active. It is possible that you may be able to fetch the file in your browser but download via code may still fail. Check whether you are connected to a VPN, it works on open networks. <syntaxhighlight lang="python"> #Aamrun, 6th November 2021 import urllib.request from collections import Counter urllib.request.urlretrieve("http://wiki.puzzlers.org/pub/wordlists/unixdict.txt", "unixdict.txt") dictionary = open("unixdict.txt","r") wordList = dictionary.read().split('\n') dictionary.close() primeSet = set("CGIOSYaegkmq") [print(word) for word in wordList if len(set(word).difference(primeSet))==0] </syntaxhighlight> And here's the final output : {{Output}} <pre> a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q </pre> =={{header\|Quackery}}== <code>eratosthenes</code> and <code>isprime</code> are defined at [[Sieve of Eratosthenes#Quackery]]. <syntaxhighlight lang="Quackery"> 128 eratosthenes [] $ "rosetta/unixdict.txt" sharefile drop nest$ witheach [ true over witheach [ isprime not if [ not conclude ] ] iff [ nested join ] else drop ] 46 wrap$</syntaxhighlight> {{out}} <pre>a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q </pre> Line 690 ⟶ 1,252: In an effort to anticipate / head-off a rash of tiny variant tasks, a series of one-liners: <syntaxhighlight lang="raku" ~~perl6~~line>my @words = 'unixdict.txt'.IO.words».fc; sub display ($n, @n, $s = "First 20: ") {"$n;\n{$s}{@n.join: ', '}"} Line 740 ⟶ 1,302: say "\nNumber of words that are prime in custom base 26, whose digits are all prime, and whose digital sum is prime: ", @words.hyper.grep({ !.contains(/<-alpha>/) && all(.comb».&from-base(26)).is-prime && .&from-base(26).is-prime && .comb».&from-base(26).sum.is-prime }).&{display +$_, $_, ''};</~~lang~~syntaxhighlight> {{out}} <pre>Number of words whose ords are all prime: 36; Line 789 ⟶ 1,351: =={{header\|REXX}}== No attempt was made to exclude any "word" if it contained any non-letter (Latin alphabet) characters. <~~lang~~syntaxhighlight lang="rexx">/REXX program finds words whose ASCII code for its letters are prime (in a dictionary)./ parse arg iFID . /obtain optional arguments from the CL/ if iFID=='' \| iFID=="," then iFID='unixdict.txt' /Not specified? Then use the default./ Line 815 ⟶ 1,377: 67 71 73 79 83 89 97 101 103 107 109 113 127 131 137 139 149 151 , 157 163 167 173 179 181 191 193 197 199 211 223 227 229 233 239 241 251 @.= 0; do j=1 for words(p); _= word(p, j); @._= 1; end /j/; return</~~lang~~syntaxhighlight> {{out\|output\|text=  when using the default input:}} <pre> Line 863 ⟶ 1,425: =={{header\|Ring}}== <~~lang~~syntaxhighlight lang="ring"> load "stdlib.ring" Line 888 ⟶ 1,450: see "Prime words are:" + nl see Words </syntaxhighlight> ~~</lang>~~ Output: <pre> Line 931 ⟶ 1,493: =={{header\|Ruby}}== <~~lang~~syntaxhighlight lang="ruby">require 'prime' puts File.open("unixdict.txt").select{\|line\| line.chomp.chars.all?{\|c\| c.ord.prime?} } </syntaxhighlight> ~~</lang>~~ {{out}} <pre>a Line 975 ⟶ 1,537: =={{header\|Rust}}== <~~lang~~syntaxhighlight lang="rust">// [dependencies] // primal = "0.3" Line 1,003 ⟶ 1,565: Err(error) => eprintln!("{}", error), } }</~~lang~~syntaxhighlight> {{out}} Line 1,019 ⟶ 1,581: =={{header\|Swift}}== <~~lang~~syntaxhighlight lang="swift">import Foundation class BitArray { Line 1,088 ⟶ 1,650: } catch { print(error.localizedDescription) }</~~lang~~syntaxhighlight> {{out}} Line 1,128 ⟶ 1,690: meg q </pre> =={{header\|Uiua}}== {{works with\|Uiua\|0.11.0-dev.1}} <syntaxhighlight lang="Uiua"> ⊜□ ≠@\n. &fras "unixdict.txt" Ps ← ⇌◌⍢(▽≠0◿⊢..⟜(⊂⊢)\|>0⧻.):[]+2⇡256 # Build primes Pc ← ▽:⟜(∊-@\0)⊂¯.+@a⇡26Ps # Test A-Za-z for primal ASCII codes ▽:⟜(≡(/×◇∊)⊙¤):Pc </syntaxhighlight> {{out}} <pre> {"a" "aaa" "age" "agee" "ak" "am" "ama" "e" "egg" "eke" "em" "emma" "g" "ga" "gag" "gage" "gam" "game" "gamma" "ge" "gee" "gem" "gemma" "gm" "k" "keg" "m" "ma" "mae" "magma" "make" "mamma" "me" "meek" "meg" "q"} </pre> =={{header\|Wren}}== {{libheader\|Wren-math}} {{libheader\|Wren-~~trait~~iterate}} <~~lang~~syntaxhighlight ~~ecmascript~~lang="wren">import "io" for File import "./math" for Int import "./~~trait~~iterate" for Stepped // cache prime characters with codepoints between 33 and 255 say Line 1,147 ⟶ 1,722: for (word in words) { if (word.all { \|c\| primeChars.contains(c) }) System.print(word) }</~~lang~~syntaxhighlight> {{out}} <pre> Prime words in unixdict.txt are: a aaa age agee ak am ama e egg eke em emma g ga gag gage gam game gamma ge gee gem gemma gm k keg m ma mae magma make mamma me meek meg q </pre> =={{header\|XPL0}}== <syntaxhighlight lang="xpl0">func IsPrime(N); \Return 'true' if N is prime int N, I; [if N <= 2 then return N = 2; if (N&1) = 0 then \even >2\ return false; for I:= 3 to sqrt(N) do [if rem(N/I) = 0 then return false; I:= I+1; ]; return true; ]; string 0; \use zero-terminated strings int I, Ch; char Word(25); def LF=$0A, CR=$0D, EOF=$1A; [FSet(FOpen("unixdict.txt", 0), ^I); OpenI(3); repeat I:= 0; loop [repeat Ch:= ChIn(3) until Ch # CR; \remove possible CR if Ch = EOF then quit; if Ch = LF then [Word(I):= 0; Text(0, Word); CrLf(0); quit; ]; if not IsPrime(Ch) then [repeat Ch:= ChIn(3) until Ch=LF or Ch=EOF; quit; ]; Word(I):= Ch; I:= I+1; ]; until Ch = EOF; ]</syntaxhighlight> {{out}} <pre> a aaa