# Code Golf: All +-*/ Combinations for 3 integers

Write a program that takes 3 integers separated by spaces and perform every single combination of addition, subtraction, multiplication and division operations possible and display the result with the operation combination used.

Example:

`\$./solution 1 2 3`

Results in the following output

`1+2+3 = 6`

`1-2-3 = -4`

`1*2*3 = 6`

`1/2/3 = 0` (integer answers only, round up at .5)

`1*2-3 = -1`

`3*1+2 = 5`

etc...

Order of operation rules apply, assume there will be no parenthesis used i.e. `(3-1)*2 = 4` is not a combination, although you could implement this for "extra credit"

For results where a divide by 0 occurs simply return NaN

Edit: Permuting the input is required, i.e., if the input is `1 2 3`, then `3*1*2` is a valid combination.

-
@Flash: Please also follow the spec described in meta.stackoverflow.com/questions/24242/… –  KennyTM Jun 2 '10 at 18:30
It's not terribly clear that permuting the input numbers is also necessary. A clarification of that point might help. –  David Jun 2 '10 at 21:43
I'm not sure, but isn't this a bit unfair because it benefits greatly from the builtin `eval()`'s of most interpreted languages? –  Alexander Gessler Jun 2 '10 at 22:55
@Alexander: The C example shows that the preprocessor can be abused to do the eval. –  SztupY Jun 2 '10 at 23:20
@Alexander, @SztupY: Java's evilness can also be abused. Really! –  Pindatjuh Jun 2 '10 at 23:52
show 1 more comment

## Perl 130 chars

So long as external libraries are permitted:

``````use Algorithm::Permute"permute";
permute{for\$x(@a=qw(+ - / *)){for\$y(@a){\$_="@ARGV";s/ /\$x/;s/ /\$y/;printf"
\$_ = %.0f",eval}}}@ARGV
``````

2nd newline is significant.

Without a module, and assuming that all three inputs are distinct, here's another solution:

``````      @n=&             ARGV;
@o=(            q[+],
"-",           q{/},         '*'     );;
for\$          {a}(@           n){   for
\$b(@n){for\$c(@    {n}){             for \$x(
@o){for\$y(@o){   (\$a-\$  b)*(\$a-\$c)*  (\$b-\$
c)||next;\$_=\$a  .\$x.\$   b."\$y\$c";\$%   =42
/84+      eval;    print"",\$_,  "\$S="
,\$S,     \$%,\$/                 }}} }};
;sub    ARGV{                 \$S=   \$".
"";@   ARGV}                 ;1+     2+3
``````
-
+1 for rubbing it in ;) –  zaf Jun 4 '10 at 8:04
beautiful! very nice indeed. –  aidan Jun 4 '10 at 9:20

# Java - 666 characters

Has also oneliners, luckily we have Eclipse and Netbeans automatic code-format! :-) Also implemented parenthesis (but also contains trivial ops)?

``````public class CodeGolf{static String[]o={"+","-","/","*"};static void p(N a,int b,N c,int d,N e,int i){System.out.printf("%s%s(%s%s%s) = %s\n",a,o[b],c,o[d],e,new N(a,b,new N(c,d,e)));}public static void main(String[]v){N[]n={new N(v[0]),new N(v[1]),new N(v[2])};for(int i=0,j=0,k=0,l=0,m=0;m<3;i++,j+=i==4?1:0,i%=4,k+=j==4?1:0,j%=4,l+=k==3?1:0,k%=3,m+=l==3?1:0,l%=3){p(n[k],i,n[l],j,n[m],0);}}static class N{Double v;N(String s){v=v.parseDouble(s);}N(N a,int o,N b){if(a.v==null||b.v==null)return;double x=b.v, y=a.v; switch(o){case 0:x=-x;case 1:v=y-x;return;case 3:v=y*x;x=0;case 2:if(x!=0)v=y/x;}}public String toString(){return v!=null?""+Math.round(v):"NaN";}}}
``````

``````public class CodeGolf {

// operators
static String[] o = {"+", "-", "/", "*"};

// print
static void p(N a, int b, N c, int d, N e, int i) {
System.out.printf("%s%s(%s%s%s) = %s\n", a, o[b], c, o[d], e,
new N(a, b, new N(c, d, e))); // calculate
}

public static void main(String[] v) {
N[] n = {new N(v[0]), new N(v[1]), new N(v[2])};
// Nested for-loops? Nah, too much code!
// Conditional operator, modulus is way cooler.
for (int i = 0, j = 0,
k = 0, l = 0, m = 0; m < 3; i++,
j += i == 4 ? 1 : 0,
i %= 4,
k += j == 4 ? 1 : 0,
j %= 4,
l += k == 3 ? 1 : 0,
k %= 3,
m += l == 3 ? 1 : 0,
l %= 3) {
p(n[k], i, n[l], j, n[m], 0);
}
}

// number wrapper
static class N {

Double v;

// parse input
N(String s) {
v = v.parseDouble(s);
}

// calculate input
N(N a, int o, N b) {
// NaN's should fall through
if (a.v == null || b.v == null) {
return;
}
double x = b.v, y = a.v;
// operator execution
switch (o) {
case 0:
x = -x;
// fall through; y + x = y - (-x)
case 1:
v = y - x;
return; // break would make it 665 characters, not as cool
case 3:
v = y * x;
x = 0;
// fall through; no return needed
case 2:
if (x != 0) {
v = y / x;
}
// will NaN because v = null if x = 0
}
}

// rounding and NaN
public String toString() {
return v != null ? "" + Math.round(v) : "NaN";
}
}
``````

}

Iterate on both operators (4 * 4) and permute on operands, twice (3! * 2) makes (4 * 4 * 3 * 2 * 2 = 192 possiblities).

+/- 2.5 hours :-) Enjoy!

-
evil laugh \m/ –  serg Jun 2 '10 at 21:49
+1 for the nice char count xD –  fortran Jun 3 '10 at 9:32
That's the most evil `for` loop I've ever seen! –  Esko Jun 3 '10 at 9:49
+1 for that for loop alone. –  Beska Jun 3 '10 at 20:49
Will reading it backwards reveal evil meaning? –  cand Jun 7 '10 at 10:46

# Delphi - 838 747 characters

Single Line Version (Original)

``````program p;{\$APPTYPE CONSOLE}uses SysUtils;type g=Integer;function a(b,c:g):g;begin a:=b+c;end;function s(b,c:g):g;begin s:=b-c;end;function m(b,c:g):g;begin m:=b*c;end;function d(b,c:g):g;begin d:=b div c;end;type t=function(b,c:g):g;r=record f:t;c:char;p:boolean;end;procedure q(l:Array of g;w,e:r);var b:String;x,y,z:g;begin for x:=0 to 2 do for y:=0 to 2 do for z:=0 to 2 do if not((x=y)or(x=z)or(y=z))then begin try if(w.p)or not(w.p xor e.p)then b:=IntToStr(e.f(w.f(l[x],l[y]),l[z]))else b:=IntToStr(w.f(l[x],e.f(l[y],l[z])));except b:='NaN';end;writeln(l[x],w.c,l[y],e.c,l[z],'=',b);end;end;const O:Array[0..3]of r=((f:a;c:'+';p:false),(f:s;c:'-';p:false),(f:m;c:'*';p :true),(f:d;c:'/';p:true));var L:Array[0..2] of g;I,J:g; begin for I:=0 to 2 do L[I]:=StrToInt(ParamStr(I+1));for I:=0 to 3 do for J:=0 to 3 do q(l,o[I],o[J]);end.
``````

Single Line Version (Shortened to 747 Characters)

``````program p;{\$APPTYPE CONSOLE}uses SysUtils,Math;type g=integer;t=function(b,c:g):g;r=record f:t;p:boolean;end;function a(b,c:g):g;begin a:=b+c end;function s(b,c:g):g;begin s:=b-c end;function m(b,c:g):g;begin m:=b*c end;function d(b,c:g):g;begin d:=b div c end;const f=true;u=false;n=[1..4];b=[1..3];c='+-*/';O:Array[1..4]of r=((f:a;p:f),(f:s;p:f),(f:m;p:u),(f:d;p:u));var l: Array[1..3]of g;I,J,x,y,z:g;w,e:r;begin for I in b do l[I]:=StrToInt(ParamStr(I));for I in n do for J in n do for x in b do for y in b do for z in b do if not((x=y)or(x=z)or(y=z))then begin w:=O[I];e:=O[J];write(l[x],c[I],l[y],c[J],l[z],'=');try writeLn(ifthen(w.p or not(w.p xor e.p),e.f(w.f(l[x],l[y]),l[z]),w.f(l[x],e.f(l[y],l[z]))))except writeln('NaN')end;end;end.
``````

Formated:

``````program p;
{\$APPTYPE CONSOLE}
uses SysUtils;

type
g = Integer;

function a(b, c: g): g;
begin
a := b + c;
end;

function s(b, c: g): g;
begin
s := b - c;
end;

function m(b, c: g): g;
begin
m := b * c;
end;

function d(b, c: g): g;
begin
d := b div c;
end;

type
t = function(b, c: g): g;

r = record
f: t;
c: char;
p: boolean;
end;

procedure q(l: Array of g; w, e: r);
var
b: String;
x, y, z: g;
begin
for x := 0 to 2 do
for y := 0 to 2 do
for z := 0 to 2 do
if not((x = y) or (x = z) or (y = z)) then
begin
try
if (w.p) or not(w.p xor e.p) then
b := IntToStr(e.f(w.f(l[x], l[y]), l[z]))
else
b := IntToStr(w.f(l[x], e.f(l[y], l[z])));
except
b := 'NaN';
end;
writeln(l[x], w.c, l[y], e.c, l[z], '=', b);
end;
end;

const
O: Array [0..3] of r = ((f: a; c: '+'; p: false), (f: s; c: '-'; p: false),
(f: m; c: '*'; p: true), (f: d; c: '/'; p: true));

var
l: Array [0..2] of g;
I, J: g;
begin

for I := 0 to 2 do
l[I] := StrToInt(ParamStr(I + 1));
for I := 0 to 3 do
for J := 0 to 3 do
q(l, O[I], O[J]);

end.
``````

This is by far the ugliest code I have ever written.

-
Don't worry, I've made it even worse to get rid of 91 characters :) –  Wouter van Nifterick Jun 5 '10 at 1:06
You can still remove the "program" line as it is not needed by the compiler and get rid of the "APPTYPE" as it can be given as a compiler switch in the command line. –  Uwe Raabe Jun 6 '10 at 8:23

## J, 75 55 characters.

Outputs rational numbers, not integers.

``````(],"1'=',"1 ":@x:@".)((' ',>@{.),@,.":"0@>@{:)"1>{(,{;~'+-*%');<<"1(i.!3)A.
``````

Old version which didn't permute the input (was 55 characters)

``````(],"1'=',"1 ":@x:@".)(>,{;~'+-*%')(' 'I.@:E.s)}"1 s=:":
``````

Example (note that J's order of operations is right-to-left):

``````   (],"1'=',"1 ":@x:@".)((' ',>@{.),@,.":"0@>@{:)"1>{(,{;~'+-*%');<<"1(i.!3)A.1 2 3
1+2+3=6
1+3+2=6
2+1+3=6
2+3+1=6
3+1+2=6
3+2+1=6

1+2-3=0
1+3-2=2
2+1-3=0
2+3-1=4
3+1-2=2
3+2-1=4

1+2*3=7
1+3*2=7
2+1*3=5
2+3*1=5
3+1*2=5
3+2*1=5

1+2%3=5r3
1+3%2=5r2
2+1%3=7r3
2+3%1=5
3+1%2=7r2
3+2%1=5

1-2+3=_4
1-3+2=_4
2-1+3=_2
2-3+1=_2
3-1+2=0
3-2+1=0

1-2-3=2
1-3-2=0
2-1-3=4
2-3-1=0
3-1-2=4
3-2-1=2

1-2*3=_5
1-3*2=_5
2-1*3=_1
2-3*1=_1
3-1*2=1
3-2*1=1

1-2%3=1r3
1-3%2=_1r2
2-1%3=5r3
2-3%1=_1
3-1%2=5r2
3-2%1=1

1*2+3=5
1*3+2=5
2*1+3=8
2*3+1=8
3*1+2=9
3*2+1=9

1*2-3=_1
1*3-2=1
2*1-3=_4
2*3-1=4
3*1-2=_3
3*2-1=3

1*2*3=6
1*3*2=6
2*1*3=6
2*3*1=6
3*1*2=6
3*2*1=6

1*2%3=2r3
1*3%2=3r2
2*1%3=2r3
2*3%1=6
3*1%2=3r2
3*2%1=6

1%2+3=1r5
1%3+2=1r5
2%1+3=1r2
2%3+1=1r2
3%1+2=1
3%2+1=1

1%2-3=_1
1%3-2=1
2%1-3=_1
2%3-1=1
3%1-2=_3
3%2-1=3

1%2*3=1r6
1%3*2=1r6
2%1*3=2r3
2%3*1=2r3
3%1*2=3r2
3%2*1=3r2

1%2%3=3r2
1%3%2=2r3
2%1%3=6
2%3%1=2r3
3%1%2=6
3%2%1=3r2
``````
-
J wins again. * yawn * –  BlueRaja - Danny Pflughoeft Jun 2 '10 at 21:49
Integer Answers only round up at .5 –  Robert Love Jun 3 '10 at 16:18

# C

600 bytes on disk with DOS line endings.

``````#define C B a,B b
#define D(N,O)B N(C){return a O b;}
#define E(A,B,C)i=A;j=B;k=C;X(m,p)X(m,m)X(t,t)X(d,t)X(t,d)X(d,d)Y(m,p)Y(p,p)Y(p,t)Y(p,d)Y(m,t)Y(m,d)
#define U"%.0f"
#define P(S,T)printf(U Z(S)U Z(T)U"="U"\n",v[i],v[j],v[k],
#define p +
#define m -
#define t *
#define d /
#define X(S,T)P(S,T)f##S(f##T(v[i],v[j]),v[k]));
#define Y(S,T)P(S,T)f##S(v[i],f##T(v[j],v[k])));
#define Z(A)#A
typedef double B;D(fp,+)D(fm,-)D(ft,*)B fd(C){return b?(int)(a/b+.5):-0.0;}main(int i,char*b[]){int j,k;B v[3]={atoi(b[1]),atoi(b[2]),atoi(b[3])};E(0,1,2)E(0,2,1)E(1,0,2)E(1,2,0)E(2,0,1)E(2,1,0)}
``````

C doesn't seem to have NaN literals, so you get -0 if there's anything wrong rather than that.

However I think it fits the bill otherwise. (Note that the data type is `double` so that if it DID have a NaN in there, it will get printed out as such by `printf`.)

-
+1 for preprocessor abuse. But can you use atoi without a #include? Or indeed printf? My gcc doesn't like it. –  walkytalky Jun 2 '10 at 22:17
Well they're undeclared, but that's fine, as both actually return int and the supplied arguments match what the routines expect. What errors do you get? (For best results, I guess compile as C89, turn off warnings about undeclared functions; I don't use gcc, so I couldn't say. Despite appearances though, there's actually nothing tricky about it...) –  please delete me Jun 2 '10 at 22:52
You're right, they're only warnings. For line 4: "missing whitespace after the macro name"; for line 13: "incompatible implicit declaration of built-in function ‘printf’" The resulting executable runs fine. –  walkytalky Jun 3 '10 at 21:08

# Javascript, 169 characters

(not counting unnecessary line breaks and indentation)

Edit: Now with input permutation

``````o=" ";i=i.split(o);z="+-*/";for(y=0;y<27;y++)for(x=0;x<16;x++){a=y/9|0;b=(y/3|0)%3;c=y%3;if(a!=b&&a!=c&&b!=c){s=i[a]+z[x/4|0]+i[b]+z[x%4]+i[c];o+=s+"="+~~(eval(s)+.5);}}
``````

With indentation:

``````o=" ";
i=i.split(o);
z="+-*/";
for(y=0;y<27;y++)
for(x=0;x<16;x++)
{
a=y/9|0;
b=(y/3|0)%3;
c=y%3;
if(a!=b&&a!=c&&b!=c)
{
s=i[a]+z[x/4|0]+i[b]+z[x%4]+i[c];
o+=s+"="+~~(eval(s)+.5);
}
}
``````
-
you could drop unnecessary formatting (HTML-wise) and lose a few more characters. –  Malfist Jun 2 '10 at 19:01
but where does it do permutation for the input? –  SztupY Jun 2 '10 at 19:32
Well, part of the complexity of the problem is to evaluate the expression. If you use a built-in function to do it, you're missing half of the problem. It's also an unfair advantage over languages that don't have an eval function. See this discussion : meta.stackoverflow.com/questions/24242/… –  Thomas Levesque Jun 3 '10 at 15:10
Um? What? Using features of a particular language is unfair? Why bother selecting a language at all, if you can only use the features common to them all? The whole POINT is to creatively select a language and approach to use the minimum number of characters. –  Beska Jun 3 '10 at 20:46
I think the question itself is somewhat in violation of that quality point (no easy built-in solution), but that doesn't invalidate the answers. –  Eric Mickelsen Jun 3 '10 at 20:51

## Python - 125175 177 characters:

(not now counting indentation)
Added command-line input, no more single-digit/non-zero restriction, works with zero (NaN)

``````import sys
from itertools import permutations as p
for i,j,k in p(sys.argv[1:4],3):
for x,y in p('+-*/'*2,2):
s=i+x+j+'.'+y+k
try:e=eval(s)
except:e='NaN'
print s,'=',e
``````

Still No more truncates instead of rounding up at 0.5

-
input is hard-coded here –  SztupY Jun 2 '10 at 19:06
I don't think indentation should be omitted, since they're significant in Python. –  KennyTM Jun 2 '10 at 22:00
-1: cannot handle `0` in its input in its current form (or values with more then one digit, e.g. `15`) –  ChristopheD Jun 3 '10 at 0:51
It is actually 134 chars when you count (you have to!) new lines and indentation. Does not work in python <2.6. Also the 3 values are hardcoded and can only be single-digit. –  Nas Banov Jun 3 '10 at 9:49
Criticisms addressed :) –  tzaman Jun 3 '10 at 11:48

Argh!!, imports takes 50 chars.

``````import Data.List
import System
import Text.Printf
o=zip[(+),(-),(*),(/)]"+-*/"
main=do v<-getArgs;sequence[printf"%.0g%c(%.0g%c%.0g)=%.0g\n"x h y i z\$f x\$g y z|(f,h)<-o,(g,i)<-o,[x,y,z]<-permutations(map read v::[Float])]
``````

`getArgs` needs System, `printf` needs Text.Printf, `permutations` needs Data.List, the `[[Float]]` is needed because `/` needs an instance of Fractional. We can't use `div` because it will throw when divide by zero.

Basically this just iterates over all possible combinations of operators and permutations of input arguments and print the result.

The three `%.0g` can be replaced by `%g` to remove 6 chars, but the result will look like `1.0/(2.0*3.0)=0` which is ugly.

``````~\$ ./a.out 0 4 9
0+(4+9)=13
4+(0+9)=13
9+(4+0)=13
4+(9+0)=13
9+(0+4)=13
0+(9+4)=13
0+(4-9)=-5
4+(0-9)=-5
9+(4-0)=13
4+(9-0)=13
9+(0-4)=5
0+(9-4)=5
0+(4*9)=36
4+(0*9)=4
9+(4*0)=9
4+(9*0)=4
9+(0*4)=9
0+(9*4)=36
0+(4/9)=0
4+(0/9)=4
9+(4/0)=Infinity
4+(9/0)=Infinity
9+(0/4)=9
0+(9/4)=2
0-(4+9)=-13
4-(0+9)=-5
9-(4+0)=5
4-(9+0)=-5
9-(0+4)=5
0-(9+4)=-13
0-(4-9)=5
4-(0-9)=13
9-(4-0)=5
4-(9-0)=-5
9-(0-4)=13
0-(9-4)=-5
0-(4*9)=-36
4-(0*9)=4
9-(4*0)=9
4-(9*0)=4
9-(0*4)=9
0-(9*4)=-36
0-(4/9)=-0
4-(0/9)=4
9-(4/0)=-Infinity
4-(9/0)=-Infinity
9-(0/4)=9
0-(9/4)=-2
0*(4+9)=0
4*(0+9)=36
9*(4+0)=36
4*(9+0)=36
9*(0+4)=36
0*(9+4)=0
0*(4-9)=-0
4*(0-9)=-36
9*(4-0)=36
4*(9-0)=36
9*(0-4)=-36
0*(9-4)=0
0*(4*9)=0
4*(0*9)=0
9*(4*0)=0
4*(9*0)=0
9*(0*4)=0
0*(9*4)=0
0*(4/9)=0
4*(0/9)=0
9*(4/0)=Infinity
4*(9/0)=Infinity
9*(0/4)=0
0*(9/4)=0
0/(4+9)=0
4/(0+9)=0
9/(4+0)=2
4/(9+0)=0
9/(0+4)=2
0/(9+4)=0
0/(4-9)=-0
4/(0-9)=-0
9/(4-0)=2
4/(9-0)=0
9/(0-4)=-2
0/(9-4)=0
0/(4*9)=0
4/(0*9)=Infinity
9/(4*0)=Infinity
4/(9*0)=Infinity
9/(0*4)=Infinity
0/(9*4)=0
0/(4/9)=0
4/(0/9)=Infinity
9/(4/0)=0
4/(9/0)=0
9/(0/4)=Infinity
0/(9/4)=0
``````
-

## Bash shell, 126 - 169 - 156 - 140 characters

Should work in any semi-modern Bash I think (tested with GNU bash, 3.2.48(1) x86_64-apple-build).

Handles division by zero (`Nan` case).

``````for a in \$@;do
s+={`echo \$@|tr ' ' ,`}{+,-,*,/};done
for i in `eval echo \${s::\${#s}-9}`;do
[[ \$i == */0* ]]&&y=Nan||y=\$[\$i];echo \$i=\$y;done
``````

Supply parameters via command line:

`./combinate.sh 5 0 12`

-
`sed 's/ /,/g'` can be reduced to `tr ' ' ','` –  dreamlax Jun 3 '10 at 9:51
@dreamlax: good catch, thanks! (shaves off 5 characters when using `tr ' ' ,`) –  ChristopheD Jun 3 '10 at 9:56

## Ruby, 105 110142114 characters

``````o=%w{+ - * /};[*ARGV.permutation].product(o.product o).map{|x,y|e=x.zip(y)*"";p"#{e}=#{eval(e)rescue:N}"}
``````

Usage

``````ruby prog.rb 1 2 3
``````

Explanation

``````# o = ["+", "-", "*", "/"]
o=%w{+ - * /};
# ARGV = array of numbers. Generate all permutations, and apply splat operator
[*ARGV.permutation]
# Generate cartesian product of all permuted numbers and operators
# There will be 16 operator permutations, and 6 number permutations giving a
# total of 96 elements
.product(o.product o)
# For each of the 96 pairs, merge the operators and numbers into 1 array.
# ex - [1,2,3].zip(["+", "-"]) gives [[1, '+'], [2, '-'], [3, nil]]
# then convert the array to string by multiplying with "" => "1+2-3"
.each{|x,y|e=x.zip(y)*"";
# print output and eval result. On exception return infinity - ∞
p"#{e}=#{eval(e)rescue:N}"}
``````

Output

``````1+2+3=6
1+2-3=0
1+2*3=7
1+2/3=1
1-2+3=2
1-2-3=-4
1-2*3=-5
1-2/3=1
1*2+3=5
1*2-3=-1
1*2*3=6
1*2/3=0
1/2+3=3
1/2-3=-3
1/2*3=0
1/2/3=0
1+3+2=6
1+3-2=2
1+3*2=7
1+3/2=2
1-3+2=0
1-3-2=-4
1-3*2=-5
1-3/2=0
1*3+2=5
1*3-2=1
1*3*2=6
1*3/2=1
1/3+2=2
1/3-2=-2
1/3*2=0
1/3/2=0
2+1+3=6
2+1-3=0
2+1*3=5
2+1/3=2
2-1+3=4
2-1-3=-2
2-1*3=-1
2-1/3=2
2*1+3=5
2*1-3=-1
2*1*3=6
2*1/3=0
2/1+3=5
2/1-3=-1
2/1*3=6
2/1/3=0
2+3+1=6
2+3-1=4
2+3*1=5
2+3/1=5
2-3+1=0
2-3-1=-2
2-3*1=-1
2-3/1=-1
2*3+1=7
2*3-1=5
2*3*1=6
2*3/1=6
2/3+1=1
2/3-1=-1
2/3*1=0
2/3/1=0
3+1+2=6
3+1-2=2
3+1*2=5
3+1/2=3
3-1+2=4
3-1-2=0
3-1*2=1
3-1/2=3
3*1+2=5
3*1-2=1
3*1*2=6
3*1/2=1
3/1+2=5
3/1-2=1
3/1*2=6
3/1/2=1
3+2+1=6
3+2-1=4
3+2*1=5
3+2/1=5
3-2+1=2
3-2-1=0
3-2*1=1
3-2/1=1
3*2+1=7
3*2-1=5
3*2*1=6
3*2/1=6
3/2+1=2
3/2-1=0
3/2*1=1
3/2/1=1
``````
-

# Perl - 76 characters

``````\$a=1;\$b=2;\$c=3;
warn eval for map{\$x=\$_;map"\$a\$x\$b\$_\$c",@a}@a=split//,'+-/*';
``````
-
Nice job. How about the 0.5 rounding and format printing now? –  Zaid Jun 2 '10 at 19:17
And not hard-coding the inputs. (Costs 2 chars I think.) –  walkytalky Jun 2 '10 at 19:23
:) with rounding and user input, 85: (\$a,\$b,\$c)=@ARGV;map{\$x=\$_;map printf("%.0f\n",eval"\$a\$x\$b\$_\$c"),@a}@a=split//,"+-/*" –  aidan Jun 2 '10 at 19:26
how does it permute the input? –  SztupY Jun 2 '10 at 19:33
There's printing the string expression first. Also, this doesn't permute the numbers, which the spec requires. –  walkytalky Jun 2 '10 at 19:37
show 1 more comment

## Lua - 240 characters

Note: Prints 1.#INF and -1.#INF instead of NaN.

``````a,b,c=...o="+-*/"f=function(...)g=table.concat({...})loadstring('x='..g)()print(g..' = '..math.floor(x+.5))end for d in o:gmatch(".")do for e in o:gmatch(".")do f(a,d,b,e,c)f(a,d,c,e,b)f(b,d,a,e,c)f(b,d,c,e,a)f(c,d,a,e,b)f(c,d,b,e,a)end end
``````

### Output

```5+0+13 = 18
5+13+0 = 18
0+5+13 = 18
0+13+5 = 18
13+5+0 = 18
13+0+5 = 18
5+0-13 = -8
5+13-0 = 18
0+5-13 = -8
0+13-5 = 8
13+5-0 = 18
13+0-5 = 8
5+0*13 = 5
5+13*0 = 5
0+5*13 = 65
0+13*5 = 65
13+5*0 = 13
13+0*5 = 13
5+0/13 = 5
5+13/0 = 1.#INF
0+5/13 = 0
0+13/5 = 3
13+5/0 = 1.#INF
13+0/5 = 13
5-0+13 = 18
5-13+0 = -8
0-5+13 = 8
0-13+5 = -8
13-5+0 = 8
13-0+5 = 18
5-0-13 = -8
5-13-0 = -8
0-5-13 = -18
0-13-5 = -18
13-5-0 = 8
13-0-5 = 8
5-0*13 = 5
5-13*0 = 5
0-5*13 = -65
0-13*5 = -65
13-5*0 = 13
13-0*5 = 13
5-0/13 = 5
5-13/0 = -1.#INF
0-5/13 = 0
0-13/5 = -3
13-5/0 = -1.#INF
13-0/5 = 13
5*0+13 = 13
5*13+0 = 65
0*5+13 = 13
0*13+5 = 5
13*5+0 = 65
13*0+5 = 5
5*0-13 = -13
5*13-0 = 65
0*5-13 = -13
0*13-5 = -5
13*5-0 = 65
13*0-5 = -5
5*0*13 = 0
5*13*0 = 0
0*5*13 = 0
0*13*5 = 0
13*5*0 = 0
13*0*5 = 0
5*0/13 = 0
5*13/0 = 1.#INF
0*5/13 = 0
0*13/5 = 0
13*5/0 = 1.#INF
13*0/5 = 0
5/0+13 = 1.#INF
5/13+0 = 0
0/5+13 = 13
0/13+5 = 5
13/5+0 = 3
13/0+5 = 1.#INF
5/0-13 = 1.#INF
5/13-0 = 0
0/5-13 = -13
0/13-5 = -5
13/5-0 = 3
13/0-5 = 1.#INF
5/0*13 = 1.#INF
5/13*0 = 0
0/5*13 = 0
0/13*5 = 0
13/5*0 = 0
13/0*5 = 1.#INF
5/0/13 = 1.#INF
5/13/0 = 1.#INF
0/5/13 = 0
0/13/5 = 0
13/5/0 = 1.#INF
13/0/5 = 1.#INF
```
-

F#: 280 chars, incl. newlines

``````let q s=System.Data.DataTable().Compute(s,"")|>string|>float
let e(a,b,c)=let o=["+";"-";"*";"/"]in for x in o do for y in o do let s=a+x+b+y+c in printfn"%s=%.0f"s (q s)
[<EntryPoint>]let p(A:_[])=(for i=0 to 2 do let p,q,r=A.[i],A.[(i+1)%3],A.[(i+2)%3]in e(p,q,r);e(p,r,q));0
``````

The tl;dr version:

``````//This program needs to be compiled as a console project
//It needs additional references to System.Data and System.Xml

//This function evaluates a string expression to a float
//It (ab)uses the Compute method of System.Data.DataTable which acts
//as .Net's own little eval()
let q s =
System.Data.DataTable().Compute(s,"")
//so convert it to a string and then parse it as a float
|> string
|> float

//This function first generates all 6 permutations of a 3-tuple of strings
//and then inserts all operator combination between the entries
//Finally it prints the expression and its evaluated result
let e (a,b,c) =
let o = ["+";"-";"*";"/"]
//a double loop to get all operator combos
for x in o
do for y in o do
let s=a+x+b+y+c //z is expression to evaluate
//print the result as expression = result,
//the %.0f formatter takes care of rounding
printfn "%s=%.0f" s (q s)

//This is the entry point definition.
//A is the array of command line args as strings.
[<EntryPoint>]
let p(A:_[]) =
//Generate all permutations:
//for each index i:
//  put the i-th element at the front and add the two remaining elements
//  once in original order and once swapped. Voila: 6 permutations.
for i=0 to 2 do
let p,q,r = A.[i], A.[(i+1)%3], A.[(i+2)%3]
e(p,q,r) //evaluate and print "p + <op> + q + <another op> + r"
e(p,r,q) //evaluate and print "p + <op> + r + <another op> + q"
0 //the execution of the program apparently needs to return an integer
``````

Example output:

``````> ConsoleApplication1 1 2 0
1+2+0=3
1+2-0=3
1+2*0=1
1+2/0=Infinity
1-2+0=-1
1-2-0=-1
1-2*0=1
1-2/0=-Infinity
1*2+0=2
1*2-0=2
1*2*0=0
1*2/0=Infinity
1/2+0=1
1/2-0=1
1/2*0=0
1/2/0=Infinity
1+0+2=3
1+0-2=-1
1+0*2=1
1+0/2=1
...
``````
-

OK, it's not really short, but I post it anyway, just for fun...

Note that unlike most other answers, this one doesn't use `eval` since it's not available in C# (it would be much shorter with it)

## C#, 729 chars

``````using System;using System.Linq;using w=System.Double;class Op{public char c;public int p;public Func<w,w,w>f;}class Program{static void Main(string[]p){var nb=p.Select((n,i)=>new{n=w.Parse(n),i});var op=new[]{new Op{c='+',p=0,f=(a,b)=>a+b},new Op{c='-',p=0,f=(a,b)=>a-b},new Op{c='*',p=1,f=(a,b)=>a*b},new Op{c='/',p=1,f=(a,b)=>a/b},};Func<Op,Op,Func<w,w,w,w>>fg=(o1,o2)=>(x,y,z)=>o1.p>=o2.p?o2.f(o1.f(x,y),z):o1.f(x,o2.f(y,z));Func<w,w>nan=d=>w.IsInfinity(d)?w.NaN:d;var res=from o1 in op from o2 in op from x in nb from y in nb where x.i!=y.i from z in nb where z.i!=x.i&&z.i!=y.i let r=nan(fg(o1,o2)(x.n,y.n,z.n))select string.Format("{0}{1}{2}{3}{4}={5:F0}",x.n,o1.c,y.n,o2.c,z.n,r);res.ToList().ForEach(Console.WriteLine);}}
``````

Expanded version

``````using System;
using System.Linq;
using w=System.Double;

// Operator class
// c = character
// p = priority
// f = function
class Op { public char c; public int p; public Func<w, w, w> f; }
class Program
{
static void Main(string[] args)
{
// Parse the input and associate each number with its index
var nb = args.Select((n, i) => new { n = w.Parse(n), i });

// Operators definition
var op = new[]
{
new Op { c = '+', p = 0, f = (a, b) => a + b },
new Op { c = '-', p = 0, f = (a, b) => a - b },
new Op { c = '*', p = 1, f = (a, b) => a * b },
new Op { c = '/', p = 1, f = (a, b) => a / b },
};

// Function generator to compute the result ; handles operator priority
Func<Op, Op, Func<w, w, w, w>> fg =
(o1, o2) =>
(x, y, z) =>
o1.p >= o2.p
? o2.f(o1.f(x, y), z)
: o1.f(x, o2.f(y, z));

// Converts +/- Infinity to NaN
Func<w, w> nan = d => w.IsInfinity(d) ? w.NaN : d;

// Results
var res =
// Combinations of 2 operators
from o1 in op
from o2 in op
// Permutations of numbers
from x in nb
from y in nb
where x.i != y.i
from z in nb
where z.i != x.i && z.i != y.i
// Compute result
let r = nan(fg(o1, o2)(x.n, y.n, z.n))
// Format output
select string.Format("{0} {1} {2} {3} {4} = {5:F0}", x.n, o1.c, y.n, o2.c, z.n, r);

res.ToList().ForEach(Console.WriteLine);
}
}
``````

Who said you can't do functional programming in C# ? ;)

EDIT : fixed to make it work with duplicate numbers

-
This isn't valid C#... it must work out of the box. –  Dykam Jun 3 '10 at 5:41
@Dykam: fixed it. didn't test it though. –  Mauricio Scheffer Jun 3 '10 at 6:23
C# = Java++ ;-) –  Mauricio Scheffer Jun 3 '10 at 6:24
Is it possible to remove the space in `Func<w,w,w> f`? Then it has the same length as Java ;) –  KennyTM Jun 3 '10 at 8:12
@Mauricio Scheffer, thanks for the fix. I tested in LinqPad so I omitted the usual program structure... Regarding your second comment, you can add a few more '+' signs ;). @KennyTM, yes it is possible, I removed it. Thanks ! –  Thomas Levesque Jun 3 '10 at 8:56

## Ruby

(reads from argument list and returns NaN if not divisible)

(would be only the last line if ruby had a permutation library)

``````class Array
def perm(n = size)
if size < n or n < 0
elsif n == 0
yield([])
else
self[1..-1].perm(n - 1) do |x|
(0...n).each do |i|
yield(x[0...i] + [first] + x[i..-1])
end
end
self[1..-1].perm(n) do |x|
yield(x)
end
end
end
end

ARGV.perm(3){|a,b,c| "++//**--".split(//).perm(2){ |d,e| x=a+d+b+e+c;puts "#{x} = #{eval(x)}" rescue puts "#{x} = NaN"} }
``````
-
sigh, it has: ruby-doc.org/core-1.9/classes/Array.html#M000482 –  samuil Jun 3 '10 at 5:54
yeah, but that's ruby 1.9 –  SztupY Jun 3 '10 at 7:05

## Python (171 characters)

This avoids shortfalls of previous python solution (hard-coded 1-digit numbers only, dependency on newer libraries). Reads from stdin - if you want cmdline, replace "raw_input().split()" with "sys.argv[1:4]"

``````x=raw_input().split()
for e in[x[i/3]+p+x[i%3]+'.'+q+x[3-i/3-i%3]for i in range(9)if i%4for p in'+-*/'for q in'+-*/']:
try:r=round(eval(e))
except:r='NaN'
print e,'=',r
``````

ps. decreased to 147->138
pps. changed calculations from int to float w/rounding, 138->153
ppps. added support for /0=NaN, 153->179
pppps. decreased 179->177 ppppps. sacrificed beauty for brevity, 177->171

-
What is that `<>` operator in Python? –  KennyTM Jun 3 '10 at 10:22
probably not equal –  user350034 Jun 3 '10 at 12:28
yeah, <> and != mean the same in Python, "not equal". "!=" is C-like and used also in Java, Perl etc. "<>" is Basic-like and also used in Pascal, SQL, *ML etc –  Nas Banov Jun 3 '10 at 18:51
Doesn't work for zero division. ;) –  tzaman Jun 3 '10 at 20:07
now it does work for /0. AND it rounds correctly. ...and does not use some newly fangled library function :-D –  Nas Banov Jun 3 '10 at 20:44

## F#, 584 bytes

(includes necessary indentation and LFs)

``````let d a b=if b=0.0 then nan else a/b
let o=["*",((*),1);"+",((+),0);"/",(d,1);"-",((-),0)]
let b=double
let rec z=function|[x]->[x,[]]|x::s->(x,s)::List.map(fun(y,l)->y,x::l)(z s)
let rec p=function|[]->[[]]|l->z l|>List.collect(fun(x,r)->p r|>List.map(fun l->x::l))
let f=fst
let e o p x y z=if snd o<snd p then (f o)x ((f p) y z) else (f p)((f o) x y)z
[<EntryPoint>]let m a=
for i in p(Seq.toList a)do
let x,y,z=b i.[0],b i.[1],b i.[2]
for j in[for j in o do for k in o do yield[j;k]]do
printfn "%.0f%s%.0f%s%.0f = %.0f" x (f j.[0])y (f j.[1])z (e(snd j.[0])(snd j.[1])x y z)
0
``````

Kudos to kvb for his/her permutations function.

It wound up being quite similar in structure to Thomas' C# solution (maybe because his solution is already quite functional)

-