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Line 4: Find and show sum of first   '''n'''   cubes,   where '''n < 50''' (ie show 50 entries for n=0..49) <br><br> =={{header\|11l}}== {{trans\|Nim}} <syntaxhighlight lang="11l">V s = 0 L(n) 50 s += n * n * n print(String(s).rjust(7), end' I (n + 1) % 10 == 0 {"\n"} E ‘ ’)</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|Action!}}== {{libheader\|Action! Tool Kit}} <syntaxhighlight lang="action!">INCLUDE "D2:REAL.ACT" ;from the Action! Tool Kit PROC Main() BYTE i REAL sum,r3,tmp1,tmp2 Put(125) PutE() ;clear the screen IntToReal(0,sum) IntToReal(3,r3) FOR i=0 TO 49 DO IntToReal(i,tmp1) RealMult(tmp1,tmp1,tmp2) RealMult(tmp1,tmp2,tmp2) RealAdd(sum,tmp2,sum) PrintR(sum) Put(32) IF i MOD 4=3 THEN PutE() FI OD RETURN</syntaxhighlight> {{out}} [https://gitlab.com/amarok8bit/action-rosetta-code/-/raw/master/images/Sum_of_first_n_cubes.png Screenshot from Atari 8-bit computer] <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|Ada}}== <syntaxhighlight lang="ada">with Ada.Text_Io; procedure Sum_Of_First_N_Cubes is Columns : constant := 10; Width : constant := 8; package Natural_Io is new Ada.Text_Io.Integer_Io (Natural); use Ada.Text_Io, Natural_Io; Sum : Natural := 0; begin for N in 0 .. 49 loop Sum := Sum + N ** 3; Put (Sum, Width => Width); if N mod Columns = Columns - 1 then New_Line; end if; end loop; New_Line; end Sum_Of_First_N_Cubes;</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|ALGOL 68}}== As noted in the second factor example, the sum of the cubes to n is (n(n + 1))/2)^2, i.e. the square of the sum of the numbers to n. <~~lang~~syntaxhighlight lang="algol68"># show the sums of the first n cubes where 0 <= n < 50 # FOR i FROM 0 TO 49 DO INT sum = ( i * ( i + 1 ) ) OVER 2; print( ( whole( sum * sum, -8 ) ) ); IF i MOD 10 = 9 THEN print( ( newline ) ) FI OD</~~lang~~syntaxhighlight> {{out}} <pre> Line 23 ⟶ 105: =={{header\|ALGOL W}}== <~~lang~~syntaxhighlight lang="algolw">begin % show the sums of the cubes of n for 0 <= n < 50 % integer cubeSum; cubeSum := 0; Line 31 ⟶ 113: if n rem 10 = 9 then write() end for_n end.</~~lang~~syntaxhighlight> {{out}} <pre> Line 42 ⟶ 124: =={{header\|APL}}== <~~lang~~syntaxhighlight ~~APL~~lang="apl">10 5⍴+\0,(⍳49)3</~~lang~~syntaxhighlight> {{out}} <pre> 0 1 9 36 100 Line 55 ⟶ 137: 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|AppleScript}}== <~~lang~~syntaxhighlight lang="applescript">------------------- SUM OF FIRST N CUBES ----------------- -- sumsOfFirstNCubes :: Int -> [Int] Line 266 ⟶ 348: set my text item delimiters to dlm return s end unwords</~~lang~~syntaxhighlight> {{Out}} <pre> 0 1 9 36 100 Line 281 ⟶ 363: =={{header\|Arturo}}== <~~lang~~syntaxhighlight lang="rebol">sumCubes: 0 loop split.every: 10 map 0..49 => [sumCubes: <= sumCubes + & ^ 3] 'a -> print map a => [pad to :string & 7]</~~lang~~syntaxhighlight> {{out}} Line 294 ⟶ 376: =={{header\|AutoHotkey}}== <~~lang~~syntaxhighlight ~~AutoHotkey~~lang="autohotkey">pn := 0, result := "" loop 50 { n := SubStr(" " ((A_Index-1)3 + pn), -6) Line 300 ⟶ 382: pn := n } MsgBox % result</~~lang~~syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 Line 309 ⟶ 391: =={{header\|AWK}}== <syntaxhighlight lang="awk"> ~~<lang AWK>~~ # syntax: GAWK -f SUM_OF_FIRST_N_CUBES.AWK BEGIN { Line 321 ⟶ 403: exit(0) } </syntaxhighlight> ~~</lang>~~ {{out}} <pre> Line 336 ⟶ 418: ==={{header\|BASIC256}}=== {{trans\|FreeBASIC}} <syntaxhighlight lang="basic256"> ~~<lang BASIC256>~~ fila = 0 lenCubos = 49 Line 356 ⟶ 438: print chr(13) + "Encontrados " & fila & " cubos." end </syntaxhighlight> ~~</lang>~~ ==={{header\|FreeBASIC}}=== <~~lang~~syntaxhighlight lang="freebasic"> Dim As Integer fila = 0, lenCubos = 49, sumCubos Line 378 ⟶ 460: Print !"\nEncontrados " & fila & " cubos." Sleep </syntaxhighlight> ~~</lang>~~ {{out}} <pre> Line 397 ⟶ 479: </pre> ==={{header\|~~QBASIC~~GW-BASIC}}=== <syntaxhighlight lang="gwbasic">10 FOR N=0 TO 49 20 C#=C#+N^3 30 PRINT C#; 40 NEXT N</syntaxhighlight> {{out}}<pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 1 8496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 5490 81 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 138297 6 1500625</pre> ==={{header\|QB64}}=== <syntaxhighlight lang="qbasic">For n%% = 0 To 49 c& = c& + n%% ^ 3 Print Using " ####### "; c&; If n%% Mod 5 = 4 Then Print Next n%%</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> ==={{header\|QBasic}}=== {{trans\|FreeBASIC}} <~~lang~~syntaxhighlight lang="qbasic">DEFLNG A-Z ~~DEFLNG A-Z~~ fila = 0 Line 419 ⟶ 531: PRINT CHR$(13) + "Encontrados"; fila; "cubos." END</syntaxhighlight> ~~END~~ ~~</lang>~~ ==={{header\|Tiny BASIC}}=== {{works with\|TinyBasic}} Limited to 0 through 19 because integers only go up to 32767. <syntaxhighlight lang="basic">10 LET C = 0 20 LET N = 0 30 LET C = C + NNN 40 PRINT C 50 LET N = N + 1 60 IF N = 19 THEN END 70 GOTO 30</syntaxhighlight> ==={{header\|Yabasic}}=== {{trans\|FreeBASIC}} <syntaxhighlight lang="yabasic"> ~~<lang Yabasic>~~ fila = 0 lenCubos = 49 Line 443 ⟶ 565: print "\nEncontrados ", fila, " cubos.\n" end </syntaxhighlight> ~~</lang>~~ =={{header\|BQN}}== <syntaxhighlight lang="bqn">∘‿5⥊+`(↕50)⋆3</syntaxhighlight> {{out}} <pre>┌─ ╵ 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 ┘</pre> =={{header\|C}}== <~~lang~~syntaxhighlight lang="c">#include <stdio.h> int main() { Line 454 ⟶ 592: } return 0; }</~~lang~~syntaxhighlight> {{out}} Line 472 ⟶ 610: =={{header\|C#\|CSharp}}== No multiplication or exponentiation, just addition. <~~lang~~syntaxhighlight lang="csharp">using System; using static System.Console; class Program { static void Main(string[] args) { for (int i=0,j=-6,k=1,c=0,s=0;s<1600000;s+=c+=k+=j+=6) Write("{0,-7}{1}",s, (i+=i==3?-4:1)==0?"\n":" "); } }</~~lang~~syntaxhighlight> {{out}} <pre>0 1 9 36 100 Line 489 ⟶ 627: =={{header\|C++}}== <~~lang~~syntaxhighlight lang="cpp">#include <array> #include <cstdio> #include <numeric> Line 516 ⟶ 654: std::transform_inclusive_scan(a.begin(), a.end(), a.begin(), std::plus{}, cube); PrintContainer(a); }</~~lang~~syntaxhighlight> {{out}} <pre> Line 525 ⟶ 663: 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|CLU}}== <syntaxhighlight lang="clu">start_up = proc () amount = 50 po: stream := stream$primary_output() sum: int := 0 for i: int in int$from_to(0,amount-1) do sum := sum + i * 3 stream$putright(po, int$unparse(sum), 8) if i//5 = 4 then stream$putc(po, '\n') end end end start_up</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|COBOL}}== <~~lang~~syntaxhighlight lang="cobol"> IDENTIFICATION DIVISION. PROGRAM-ID. SUM-OF-CUBES. Line 556 ⟶ 718: IF OUT-PTR IS EQUAL TO 41, DISPLAY OUT-LINE, MOVE 1 TO OUT-PTR.</~~lang~~syntaxhighlight> {{out}} <pre> 0 1 9 36 100 Line 568 ⟶ 730: 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|Comal}}== <syntaxhighlight lang="comal">0010 ZONE 8 0020 sum:=0 0030 FOR cube:=0 TO 49 DO 0040 sum:+cube^3 0050 PRINT sum, 0060 IF cube MOD 5=4 THEN PRINT 0070 ENDFOR cube 0080 END</syntaxhighlight> {{out}} <pre>0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|Cowgol}}== <syntaxhighlight lang="cowgol">include "cowgol.coh"; sub cube(n: uint32): (r: uint32) is r := n * n * n; end sub; var i: uint8 := 0; var sum: uint32 := 0; while i < 50 loop sum := sum + cube(i as uint32); print_i32(sum); i := i + 1; if i % 10 == 0 then print_nl(); else print_char(' '); end if; end loop;</syntaxhighlight> {{out}} <pre>0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|Delphi}}== {{works with\|Delphi\|6.0}} {{libheader\|SysUtils,StdCtrls}} <syntaxhighlight lang="Delphi"> procedure ShowSumFirst50Cubes(Memo: TMemo); var I,Sum: integer; var S: string; begin S:=''; Sum:=0; for I:=0 to 50-1 do begin Sum:=Sum+III; S:=S+Format('%11.0n',[Sum+0.0]); if (I mod 5)=4 then S:=S+CRLF; end; Memo.Lines.Add(S); end; </syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1,296 2,025 3,025 4,356 6,084 8,281 11,025 14,400 18,496 23,409 29,241 36,100 44,100 53,361 64,009 76,176 90,000 105,625 123,201 142,884 164,836 189,225 216,225 246,016 278,784 314,721 354,025 396,900 443,556 494,209 549,081 608,400 672,400 741,321 815,409 894,916 980,100 1,071,225 1,168,561 1,272,384 1,382,976 1,500,625 Elapsed Time: 1.428 ms. </pre> =={{header\|Draco}}== <syntaxhighlight lang="draco">proc nonrec cube(ulong n) ulong: n * n * n corp proc nonrec main() void: ulong sum; byte n; sum := 0; for n from 0 upto 49 do sum := sum + cube(n); write(sum:8); if n % 5 = 4 then writeln() fi od corp</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|EasyLang}}== <syntaxhighlight> for i = 0 to 49 sum += i * i * i write sum & " " . </syntaxhighlight> =={{header\|Excel}}== Line 577 ⟶ 864: {{Works with\|Office 365 betas 2021}} <~~lang~~syntaxhighlight lang="lisp">SUMNCUBES =LAMBDA(n, BINCOEFF(1 + n)(2) ^ 2 Line 590 ⟶ 877: ) ) )</~~lang~~syntaxhighlight> The single formula in cell B2 below defines a dynamic array which populates the whole B2:K6 grid: Line 683 ⟶ 970: =={{header\|F_Sharp\|F#}}== <~~lang~~syntaxhighlight lang="fsharp"> // Sum of cubes: Nigel Galloway. May 20th., 2021 let fN g=ggg in Seq.initInfinite((+)1>>fN)\|>Seq.take 49\|>Seq.scan((+))(0)\|>Seq.iter(printf "%d "); printfn "" </syntaxhighlight> ~~</lang>~~ {{out}} <pre> Line 694 ⟶ 981: =={{header\|Factor}}== {{works with\|Factor\|0.99 2021-02-05}} <~~lang~~syntaxhighlight lang="factor">USING: grouping math math.functions prettyprint sequences ; 50 <iota> 0 [ 3 ^ + ] accumulate* 10 group simple-table.</~~lang~~syntaxhighlight> {{out}} <pre> Line 711 ⟶ 998: {{works with\|Factor\|0.99 2021-02-05}} <~~lang~~syntaxhighlight lang="factor">USING: grouping kernel math prettyprint sequences ; : triangular ( n -- m ) dup 1 + * 2/ ; 50 <iota> [ triangular sq ] map 10 group simple-table.</~~lang~~syntaxhighlight> {{out}} As above. =={{header\|Fermat}}== <syntaxhighlight lang="fermat">c:=0 for n = 0 to 49 do c:=c+n^3; !(c,' '); od;</syntaxhighlight> {{out}}<pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|Forth}}== {{works with\|Gforth}} <~~lang~~syntaxhighlight lang="forth">: sum-cubes ( n -- ) 0 swap 0 do i i i * * + dup 7 .r Line 728 ⟶ 1,023: 50 sum-cubes bye</~~lang~~syntaxhighlight> {{out}} Line 742 ⟶ 1,037: 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|Frink}}== <syntaxhighlight lang="frink">sum = 0 result = new array for n = 0 to 49 { sum = sum + n^3 result.push[sum] } println[formatTable[columnize[result, 10], "right"]]</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> Line 747 ⟶ 1,061: {{trans\|Wren}} {{libheader\|Go-rcu}} <~~lang~~syntaxhighlight lang="go">package main import ( Line 765 ⟶ 1,079: } fmt.Println() </syntaxhighlight> ~~</lang>~~ {{out}} Line 778 ⟶ 1,092: =={{header\|Haskell}}== <~~lang~~syntaxhighlight lang="haskell">import Data.List (intercalate, transpose) import Data.List.Split (chunksOf) import Text.Printf (printf) Line 819 ⟶ 1,133: let ws = maximum . fmap length <$> transpose rows pw = printf . flip intercalate ["%", "s"] . show in unlines $ intercalate gap . zipWith pw ws <$> rows</~~lang~~syntaxhighlight> {{Out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 Line 829 ⟶ 1,143: Or, in terms of scanl: <~~lang~~syntaxhighlight lang="haskell">import ~~Control~~Data.~~Monad~~List (~~join~~intercalate, scanl, transpose) ~~import Data.List (intercalate, scanl, transpose)~~ import Data.List.Split (chunksOf) import Text.Printf (printf) Line 839 ⟶ 1,152: sumsOfFirstNCubes n = scanl (\a x -> (a +) x. (^ 3)) 0 [1 .. pred n] Line 846 ⟶ 1,159: main :: IO () main = (putStrLn . table " " . chunksOf 5) $ ~~table~~show "<$> "sumsOfFirstNCubes $50 ~~chunksOf 5 $~~ ~~show <$> sumsOfFirstNCubes 50~~ ------------------------- DISPLAY ------------------------ Line 857 ⟶ 1,168: let ws = maximum . fmap length <$> transpose rows pw = printf . flip intercalate ["%", "s"] . show in unlines $ intercalate gap . zipWith pw ws <$> rows</~~lang~~syntaxhighlight> {{Out}} <pre> 0 1 9 36 100 Line 871 ⟶ 1,182: =={{header\|J}}== <~~lang~~syntaxhighlight Jlang="j">10 5$+/\(i.^3:)50x</~~lang~~syntaxhighlight> {{out}} <pre> 0 1 9 36 100 Line 883 ⟶ 1,194: 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> If we wanted specifically the sum of positive integer cubes up through <code>n</code> it should be faster to use <code>0 0 1r4 1r2 1r4&p.</code>. For example:<syntaxhighlight lang="j"> 0 0 1r4 1r2 1r4&p. 49 1500625</syntaxhighlight> =={{header\|JavaScript}}== <~~lang~~syntaxhighlight lang="javascript">(() => { "use strict"; Line 985 ⟶ 1,299: s.padStart(n, c) ) : ""; ~~// maximum :: Ord a => [a] -> a~~ ~~const maximum = xs => (~~ ~~// The largest value in a non-empty list.~~ ~~ys => 0 < ys.length ? (~~ ~~ys.slice(1).reduce(~~ ~~(a, y) => y > a ? (~~ y ~~) : a, ys[0]~~ ) ~~) : undefined~~ ~~)(xs);~~ Line 1,011 ⟶ 1,312: const colWidths = transpose(rows).map( row => ~~maximum(row~~Math.~~map~~max(~~x => x.length))~~ ...row.map(x => x.length) ) ); Line 1,068 ⟶ 1,371: // MAIN --- return main(); })();</~~lang~~syntaxhighlight> {{Out}} <pre> 0 1 9 36 100 Line 1,084 ⟶ 1,387: {{works with\|jq}} '''Works with gojq, the Go implementation of jq''' <syntaxhighlight lang="jq"> ~~<lang jq>~~ # For the sake of stream-processing efficiency: def add(s): reduce s as $x (0; . + $x); def sum_of_cubes: add(range(0;.) \| ...);</~~lang~~syntaxhighlight> '''The task''' <syntaxhighlight lang="jq"> ~~<lang jq>~~ range(0;50) \| sum_of_cubes as $sum \| "\(.) => \($sum)"</~~lang~~syntaxhighlight> {{out}} <pre> Line 1,114 ⟶ 1,417: =={{header\|Julia}}== <~~lang~~syntaxhighlight lang="julia">cubesumstil(N = 49, s = 0) = (foreach(n -> print(lpad(s += n^3, 8), n % 10 == 9 ? "\n" : ""), 0:N)) cubesumstil() </~~lang~~syntaxhighlight>{{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 Line 1,126 ⟶ 1,429: </pre> Alternatively, and using the REPL, note that recent versions of Julia implement the accumulate function: <~~lang~~syntaxhighlight lang="julia"> julia> println(accumulate((x, y) -> x + y^3, 0:49)) [0, 1, 9, 36, 100, 225, 441, 784, 1296, 2025, 3025, 4356, 6084, 8281, 11025, 14400, 18496, 23409, 29241, 36100, 44100, 53361, 64009, 76176, 90000, 105625, 123201, 142884, 164836, 189225, 216225, 246016, 278784, 314721, 354025, 396900, 443556, 494209, 549081, 608400, 672400, 741321, 815409, 894916, 980100, 1071225, 1168561, 1272384, 1382976, 1500625] </syntaxhighlight> ~~</lang>~~ =={{header\|K}}== {{works with\|ngn/k}}<syntaxhighlight lang=K>5 10#+\{xxx}[!50] (0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625)</syntaxhighlight> =={{header\|MAD}}== <~~lang~~syntaxhighlight lang="mad"> NORMAL MODE IS INTEGER SUM = 0 THROUGH LOOP, FOR STEP = 0, 1, STEP.GE.50 Line 1,139 ⟶ 1,450: LOOP PRINT FORMAT FMT, SUM VECTOR VALUES FMT = $I9$ END OF PROGRAM </~~lang~~syntaxhighlight> {{out}} <pre style='height:50ex;'> 0 Line 1,191 ⟶ 1,502: 1382976 1500625</pre> =={{header\|Mathematica}}/{{header\|Wolfram Language}}== <syntaxhighlight lang="mathematica">Accumulate[Range[0, 49]^3]</syntaxhighlight> {{out}} <pre>{0,1,9,36,100,225,441,784,1296,2025,3025,4356,6084,8281,11025,14400,18496,23409,29241,36100,44100,53361,64009,76176,90000,105625,123201,142884,164836,189225,216225,246016,278784,314721,354025,396900,443556,494209,549081,608400,672400,741321,815409,894916,980100,1071225,1168561,1272384,1382976,1500625}</pre> =={{header\|Nim}}== <~~lang~~syntaxhighlight ~~Nim~~lang="nim">import strutils var s = 0 for n in 0..49: s += n n * n stdout.write ($s).align(7), if (n + 1) mod 10 == 0: '\n' else: ' '</~~lang~~syntaxhighlight> {{out}} Line 1,206 ⟶ 1,522: 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|PARI/GP}}== <syntaxhighlight lang="parigp">c=0;for(n=0,49,c=c+n^3;print(c))</syntaxhighlight> =={{header\|Pascal}}== <syntaxhighlight lang="pascal">program sumOfFirstNCubes(output); const N = 49; var i: integer; sum: integer; begin sum := 0; for i := 0 to N do begin sum := sum + sqr(i) * i; { In Extended Pascal you could also write: sum := sum + i pow 3; } writeLn(sum) end end.</syntaxhighlight> =={{header\|Perl}}== <~~lang~~syntaxhighlight lang="perl">#!/usr/bin/perl use strict; # https://rosettacode.org/wiki/Sum_of_first_n_cubes Line 1,214 ⟶ 1,551: my $sum = 0; printf "%10d%s", $sum += $_ ** 3, $_ % 5 == 4 && "\n" for 0 .. 49;</~~lang~~syntaxhighlight> {{out}} <pre> Line 1,231 ⟶ 1,568: =={{header\|Phix}}== The commented out line is based on the Factor entry, and is clearly a much faster way to get the same results. <!--<~~lang~~syntaxhighlight ~~Phix~~lang="phix">(phixonline)--> <span style="color: #008080;">function</span> <span style="color: #000000;">sum_first_n_cubes</span><span style="color: #0000FF;">(</span><span style="color: #004080;">integer</span> <span style="color: #000000;">n</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;">sq_power</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">tagset</span><span style="color: #0000FF;">(</span><span style="color: #000000;">n</span><span style="color: #0000FF;">),</span><span style="color: #000000;">3</span><span style="color: #0000FF;">))</span> <span style="color: #008080;">end</span> <span style="color: #008080;">function</span> <span style="color: #000080;font-style:italic;">--function sum_first_n_cubes(integer n) return power(n(n+1)/2,2) end function</span> <span style="color: #004080;">sequence</span> <span style="color: #000000;">res</span> <span style="color: #0000FF;">=</span> <span style="color: #7060A8;">apply</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">tagset</span><span style="color: #0000FF;">(</span><span style="color: #000000;">49</span><span style="color: #0000FF;">,</span><span style="color: #000000;">0</span><span style="color: #0000FF;">),</span><span style="color: #000000;">sum_first_n_cubes</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;">"%s\n"</span><span style="color: #0000FF;">,{</span><span style="color: #7060A8;">join_by</span><span style="color: #0000FF;">(</span><span style="color: #7060A8;">apply</span><span style="color: #0000FF;">(</span><span style="color: #004600;">true</span><span style="color: #0000FF;">,</span><span style="color: #7060A8;">sprintf</span><span style="color: #0000FF;">,{{</span><span style="color: #008000;">"%,9d"</span><span style="color: #0000FF;">},</span><span style="color: #000000;">res</span><span style="color: #0000FF;">}),</span><span style="color: #000000;">1</span><span style="color: #0000FF;">,</span><span style="color: #000000;">10</span><span style="color: #0000FF;">)})</span> <!--</~~lang~~syntaxhighlight>--> {{out}} <pre> Line 1,245 ⟶ 1,582: 672,400 741,321 815,409 894,916 980,100 1,071,225 1,168,561 1,272,384 1,382,976 1,500,625 </pre> =={{header\|PILOT}}== <syntaxhighlight lang="pilot">C :sum=0 :n=0 :max=50 loop C :cube=n(n#n) :sum=sum+cube :n=n+1 T :#n: #sum J (n<max):loop E :</syntaxhighlight> {{out}} <pre style='height:50ex;'>1: 0 2: 1 3: 9 4: 36 5: 100 6: 225 7: 441 8: 784 9: 1296 10: 2025 11: 3025 12: 4356 13: 6084 14: 8281 15: 11025 16: 14400 17: 18496 18: 23409 19: 29241 20: 36100 21: 44100 22: 53361 23: 64009 24: 76176 25: 90000 26: 105625 27: 123201 28: 142884 29: 164836 30: 189225 31: 216225 32: 246016 33: 278784 34: 314721 35: 354025 36: 396900 37: 443556 38: 494209 39: 549081 40: 608400 41: 672400 42: 741321 43: 815409 44: 894916 45: 980100 46: 1071225 47: 1168561 48: 1272384 49: 1382976 50: 1500625</pre> =={{header\|Plain English}}== <~~lang~~syntaxhighlight lang="plainenglish">To run: Start up. Show the sums of cubes given 49. Line 1,260 ⟶ 1,660: Write the result then " " on the console without advancing. If the counter is evenly divisible by 5, write "" on the console. Repeat.</~~lang~~syntaxhighlight> {{out}} <pre> Line 1,274 ⟶ 1,674: 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|PL/I}}== <syntaxhighlight lang="pli">cubeSum: procedure options(main); declare (i, csum) fixed decimal(7); csum = 0; do i=0 to 49; csum = csum + i i * i; put list(csum); if mod(i,5) = 4 then put skip; end; end cubeSum;</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|PL/M}}== The original 8080 PL/M compiler only supported 8 and 16 bit unsigned arithmetic, so this sample only shows the sums < 65536. <~~lang~~syntaxhighlight lang="pli">100H: /* SHOW THE SUMS OF THE FIRST N CUBES, 0 <= N < 23 / / CP/M BDOS SYSTEM CALL / Line 1,307 ⟶ 1,729: END; EOF</~~lang~~syntaxhighlight> {{out}} <pre> Line 1,318 ⟶ 1,740: ===Python :: Procedural=== {{trans\|FreeBASIC}} <~~lang~~syntaxhighlight lang="python"> def main(): fila = 0 Line 1,338 ⟶ 1,760: if __name__ == '__main__': main() </syntaxhighlight> ~~</lang>~~ {{out}} <pre> Line 1,359 ⟶ 1,781: ===Python :: Functional=== <~~lang~~syntaxhighlight lang="python">'''Sum of first N cubes''' from math import factorial Line 1,429 ⟶ 1,851: # MAIN --- if __name__ == '__main__': main()</~~lang~~syntaxhighlight> {{Out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 Line 1,440 ⟶ 1,862: or, as a scanning accumulation: <~~lang~~syntaxhighlight lang="python">'''Sum of first N cubes''' from itertools import accumulate Line 1,498 ⟶ 1,920: # MAIN --- if __name__ == '__main__': main()</~~lang~~syntaxhighlight> {{Out}} <pre> 0 1 9 36 100 Line 1,513 ⟶ 1,935: =={{header\|Quackery}}== <~~lang~~syntaxhighlight ~~Quackery~~lang="quackery"> $ "" 0 50 times [ i^ 3 * + Line 1,520 ⟶ 1,942: space join ] ] drop nest$ 65 wrap$</~~lang~~syntaxhighlight> {{out}} Line 1,530 ⟶ 1,952: 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|R}}== This only takes one line. <syntaxhighlight lang="rsplus">cumsum((0:49)^3)</syntaxhighlight> {{out}} <pre> [1] 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 [17] 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 [33] 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 [49] 1382976 1500625</pre> =={{header\|Raku}}== <syntaxhighlight lang="raku" ~~perl6~~line>my @sums_of_all_cubes = [\+] ^Inf X 3; say .fmt('%7d') for @sums_of_all_cubes.head(50).batch(10);</~~lang~~syntaxhighlight> {{out}} <pre> Line 1,542 ⟶ 1,973: 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|Red}}== <syntaxhighlight lang="rebol">Red ["Sum of cubes"] sum: 0 repeat i 50 [ sum: i - 1 3 + sum prin pad sum 8 if i % 10 = 0 [prin newline] ]</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|REXX}}== <~~lang~~syntaxhighlight lang="rexx">/REXX program finds and displays a number of sums of the first N cubes, where N < 50 / parse arg n cols . /obtain optional argument from the CL./ if n=='' \| n=="," then n= 50 /Not specified? Then use the default./ Line 1,570 ⟶ 2,019: exit 0 /stick a fork in it, we're all done. / /──────────────────────────────────────────────────────────────────────────────────────/ commas: parse arg ?; do jc=length(?)-3 to 1 by -3; ?=insert(',', ?, jc); end; return ?</~~lang~~syntaxhighlight> {{out\|output\|text=  when using the default inputs:}} (Shown at five-sixth size.) Line 1,588 ⟶ 2,037: =={{header\|Ring}}== <~~lang~~syntaxhighlight lang="ring"> see "working..." + nl see "Sum of first n cubes:" + nl Line 1,608 ⟶ 2,057: see "Found " + row + " cubes" + nl see "done..." + nl </syntaxhighlight> ~~</lang>~~ {{out}} <pre> Line 1,626 ⟶ 2,075: done... </pre> =={{header\|RPL}}== ≪ { } 0 0 49 '''FOR''' n n 3 ^ + SWAP OVER + SWAP '''NEXT''' DROP ≫ EVAL {{out}} <pre> 1: { 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 } </pre> ===Direct calculation=== ≪ DUP 1 + * 2 / SQ ≫ ''''∑CUBE'''' STO 49 '''∑CUBE''' {{out}} <pre> 1: 1500625 </pre> =={{header\|Ruby}}== <syntaxhighlight lang="ruby">sum = 0 (0...50).each do \|n\| print (sum += n3).to_s.ljust(10) puts "" if (n+1) % 10 == 0 end </syntaxhighlight> {{out}} <pre>0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|Rust}}== <~~lang~~syntaxhighlight lang="rust">fn main() { (0..50) .scan(0, \|sum, x\| { Line 1,643 ⟶ 2,120: } }); }</~~lang~~syntaxhighlight> {{out}} Line 1,660 ⟶ 2,137: =={{header\|Seed7}}== <~~lang~~syntaxhighlight lang="seed7">$ include "seed7_05.s7i"; const proc: main is func Line 1,672 ⟶ 2,149: end if; end for; end func;</~~lang~~syntaxhighlight> {{out}} <pre> Line 1,687 ⟶ 2,164: </pre> =={{header\|SETL}}== <syntaxhighlight lang="setl">program sum_of_first_cubes; cubes := [n3 : n in [0..49]]; loop for i in [2..#cubes] do cubes(i) +:= cubes(i-1); end loop; printtab(cubes, 5, 10); proc printtab(list, cols, width); lines := [list(k..cols+k-1) : k in [1, cols+1..#list]]; loop for line in lines do print(+/[lpad(str item, width+1) : item in line]); end loop; end proc; end program;</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre> =={{header\|Sidef}}== <~~lang~~syntaxhighlight lang="ruby">0..49 -> map { .faulhaber_sum(3) }.slices(5).each { .join(' ').say }</~~lang~~syntaxhighlight> {{out}} <pre> Line 1,701 ⟶ 2,206: 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|VTL-2}}== Based on the TinyBASIC sample but with multiple sums per line and showing the first 23 values as VTL-2 has unsigned 16-bit integers. <syntaxhighlight lang="vtl2"> 10 C=0 20 N=0 30 C=NNN+C 40 ?=C 50 $=9 60 N=N+1 70 #=N/60+%>190 80 ?="" 90 #=N<2330 </syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 </pre> =={{header\|Wren}}== <~~lang~~syntaxhighlight ~~ecmascript~~lang="wren">import "./fmt" for Fmt System.print("Cumulative sums of the first 50 cubes:") Line 1,713 ⟶ 2,239: if ((n % 10) == 9) System.print() } System.print()</~~lang~~syntaxhighlight> {{out}} Line 1,726 ⟶ 2,252: =={{header\|X86 Assembly}}== <~~lang~~syntaxhighlight lang="asm"> 1 ;Assemble with: tasm, tlink /t 2 0000 .model tiny 3 0000 .code Line 1,784 ⟶ 2,310: 57 0156 C3 ret 58 59 end start</~~lang~~syntaxhighlight> {{out}} Line 1,801 ⟶ 2,327: =={{header\|XPL0}}== <~~lang~~syntaxhighlight ~~XPL0~~lang="xpl0">int N, S; [S:= 0; for N:= 0 to 49 do Line 1,809 ⟶ 2,335: if rem(N/5) = 4 then CrLf(0); ]; ]</~~lang~~syntaxhighlight> {{out}} Line 1,824 ⟶ 2,350: 1071225 1168561 1272384 1382976 1500625 </pre> =={{header\|Zig}}== <syntaxhighlight lang="zig">pub fn main() !void { const stdout = @import("std").io.getStdOut().writer(); var sum: u32 = 0; var i: u32 = 0; while (i < 50) : (i += 1) { sum += i i * i; try stdout.print("{d:8}", .{sum}); if (i % 5 == 4) try stdout.print("\n", .{}); } }</syntaxhighlight> {{out}} <pre> 0 1 9 36 100 225 441 784 1296 2025 3025 4356 6084 8281 11025 14400 18496 23409 29241 36100 44100 53361 64009 76176 90000 105625 123201 142884 164836 189225 216225 246016 278784 314721 354025 396900 443556 494209 549081 608400 672400 741321 815409 894916 980100 1071225 1168561 1272384 1382976 1500625</pre>