# Check if at least two out of three booleans are true

An interviewer recently asked me this question: given three boolean variables, a, b, and c, return true if at least two out of the three are true.

My solution follows:

``````boolean atLeastTwo(boolean a, boolean b, boolean c) {
if ((a && b) || (b && c) || (a && c)) {
return true;
}
else{
return false;
}
}
``````

He said that this can be improved further, but how?

-
Inline the return statement. –  Finglas Jun 19 '10 at 15:48
Sounds like a "who-has-the-highest-IQ" interview. I would fail. –  Chris Dutrow Jun 19 '10 at 23:23
`atLeastTwo(iWantYou, iNeedYou, imEverGonnaLoveYou)` –  Andrew Grimm Jun 20 '10 at 7:44
Why do people upvote the most trivial questions? –  BlueRaja - Danny Pflughoeft Jun 22 '10 at 16:45
Questions that are general and easy to understand get a lot of up votes. Questions that are very specific and technical don't. –  Jay Jun 23 '10 at 17:37

Rather than writing:

``````    if (someExpression) {
return true;
} else {
return false;
}
``````

Write:

``````    return someExpression;
``````

As for the expression itself, something like this:

``````boolean atLeastTwo(boolean a, boolean b, boolean c) {
return a ? (b || c) : (b && c);
}
``````

or this (whichever you find easier to grasp):

``````boolean atLeastTwo(boolean a, boolean b, boolean c) {
return a && (b || c) || (b && c);
}
``````

It tests `a` and `b` exactly once, and `c` at most once.

### References

-
+1: lovely solution to the puzzle, but hopefully we don't see anything like this in the real world :) –  Juliet Jun 19 '10 at 16:02
@Juliet: I don't know, I think if this was a real-world requirement (with real variable names) it would read pretty well. Consider `return hasGoodAttendance ? (passedCoursework || passed Exam) : (passedCoursework && passedExam)`, that looks fine to me. –  Andrzej Doyle Jun 19 '10 at 18:30
I don't think that looks bad, but if the requirement in the domain is understood to be "at least two", I think it'd be easier to read `atLeastTwo(hasgoodAttendance, passedCoursework, passedExam)`. The idea of "at least 2 bools are true" is generic enough to deserve its own function. –  Ken Jun 19 '10 at 23:33
@Lese: Asking the most micro-optimized code in face to face interviews is impractical, and dare I say, useless. Micro-optimizations, when driven by the need, is guided by runtime profiling results, not human instincts (which are known to be terrible). You can certainly ask interviewees the process by which you'd optimize this further; that's more important than the result itself. –  polygenelubricants Jun 20 '10 at 6:05
The ternary operator is a common idiom that you should be able to read. If you can't read it you should study it until you can. Use of the ternary operator is not something I consider "clever" in the derogatory sense. But yes, I'd put this as the body of a method call if you're commonly using the "at least two" logic. –  Stephen P Jun 22 '10 at 0:14

Just for the sake of using XOR to answer a relatively straight-forward problem...

``````return a ^ b ? c : a
``````
-
Wow, cool solution. But for me its inverted version is easier to understand: a==b ? a : c –  Rotsor Jun 22 '10 at 15:50
a ^ b ? c : a ^ b ? c : a ^ b ? c : a –  alexanderpas Jun 22 '10 at 23:39
i love this one better than the accepted answer. –  st0le Jul 11 '10 at 12:05
Yay,..XOR gets such a bad press and you seldom get the chance to use it. –  Stimul8d Jul 16 '10 at 15:46
@Stimul8d maybe because, for booleans, it's the same as != but less readable? Figuring that out was a eureka moment for me... –  Tikhon Jelvis Sep 10 '10 at 7:45

Why not implement it literally? :)

``````(a?1:0)+(b?1:0)+(c?1:0) >= 2
``````

In C you could just write `a+b+c >= 2` (or `!!a+!!b+!!c >= 2` to be very safe).

In response to TofuBeer's comparison of java bytecode, here is a simple performance test:

``````class Main
{
static boolean majorityDEAD(boolean a,boolean b,boolean c)
{
return a;
}

static boolean majority1(boolean a,boolean b,boolean c)
{
return a&&b || b&&c || a&&c;
}

static boolean majority2(boolean a,boolean b,boolean c)
{
return a ? b||c : b&&c;
}

static boolean majority3(boolean a,boolean b,boolean c)
{
return a&b | b&c | c&a;
}

static boolean majority4(boolean a,boolean b,boolean c)
{
return (a?1:0)+(b?1:0)+(c?1:0) >= 2;
}

static int loop1(boolean[] data, int i, int sz1, int sz2)
{
int sum = 0;
for(int j=i;j<i+sz1;j++)
{
for(int k=j;k<j+sz2;k++)
{
sum += majority1(data[i], data[j], data[k])?1:0;
sum += majority1(data[i], data[k], data[j])?1:0;
sum += majority1(data[j], data[k], data[i])?1:0;
sum += majority1(data[j], data[i], data[k])?1:0;
sum += majority1(data[k], data[i], data[j])?1:0;
sum += majority1(data[k], data[j], data[i])?1:0;
}
}
return sum;
}

static int loop2(boolean[] data, int i, int sz1, int sz2)
{
int sum = 0;
for(int j=i;j<i+sz1;j++)
{
for(int k=j;k<j+sz2;k++)
{
sum += majority2(data[i], data[j], data[k])?1:0;
sum += majority2(data[i], data[k], data[j])?1:0;
sum += majority2(data[j], data[k], data[i])?1:0;
sum += majority2(data[j], data[i], data[k])?1:0;
sum += majority2(data[k], data[i], data[j])?1:0;
sum += majority2(data[k], data[j], data[i])?1:0;
}
}
return sum;
}

static int loop3(boolean[] data, int i, int sz1, int sz2)
{
int sum = 0;
for(int j=i;j<i+sz1;j++)
{
for(int k=j;k<j+sz2;k++)
{
sum += majority3(data[i], data[j], data[k])?1:0;
sum += majority3(data[i], data[k], data[j])?1:0;
sum += majority3(data[j], data[k], data[i])?1:0;
sum += majority3(data[j], data[i], data[k])?1:0;
sum += majority3(data[k], data[i], data[j])?1:0;
sum += majority3(data[k], data[j], data[i])?1:0;
}
}
return sum;
}

static int loop4(boolean[] data, int i, int sz1, int sz2)
{
int sum = 0;
for(int j=i;j<i+sz1;j++)
{
for(int k=j;k<j+sz2;k++)
{
sum += majority4(data[i], data[j], data[k])?1:0;
sum += majority4(data[i], data[k], data[j])?1:0;
sum += majority4(data[j], data[k], data[i])?1:0;
sum += majority4(data[j], data[i], data[k])?1:0;
sum += majority4(data[k], data[i], data[j])?1:0;
sum += majority4(data[k], data[j], data[i])?1:0;
}
}
return sum;
}

static int loopDEAD(boolean[] data, int i, int sz1, int sz2)
{
int sum = 0;
for(int j=i;j<i+sz1;j++)
{
for(int k=j;k<j+sz2;k++)
{
}
}
return sum;
}

static void work()
{
boolean [] data = new boolean [10000];
java.util.Random r = new java.util.Random(0);
for(int i=0;i<data.length;i++)
data[i] = r.nextInt(2) > 0;
int sz1 = 100;
int sz2 = 100;
int sum = 0;

t0 = System.currentTimeMillis();

for(int i=0;i<data.length-sz1-sz2;i++)
sum += loop1(data, i, sz1, sz2);

t1 = System.currentTimeMillis();

for(int i=0;i<data.length-sz1-sz2;i++)
sum += loop2(data, i, sz1, sz2);

t2 = System.currentTimeMillis();

for(int i=0;i<data.length-sz1-sz2;i++)
sum += loop3(data, i, sz1, sz2);

t3 = System.currentTimeMillis();

for(int i=0;i<data.length-sz1-sz2;i++)
sum += loop4(data, i, sz1, sz2);

t4 = System.currentTimeMillis();

for(int i=0;i<data.length-sz1-sz2;i++)
sum += loopDEAD(data, i, sz1, sz2);

System.out.println("a&&b || b&&c || a&&c : " + (t1-t0) + " ms");
System.out.println("   a ? b||c : b&&c   : " + (t2-t1) + " ms");
System.out.println("   a&b | b&c | c&a   : " + (t3-t2) + " ms");
System.out.println("   a + b + c <= 2    : " + (t4-t3) + " ms");
System.out.println("sum: "+sum);
}

public static void main(String[] args) throws InterruptedException
{
while(true)
{
work();
}
}
}
``````

This prints the following on my machine (running Ubuntu on Intel Core 2 + sun java 1.6.0_15-b03 with HotSpot Server VM (14.1-b02, mixed mode)):

First and second iterations:

``````a&&b || b&&c || a&&c : 1740 ms
a ? b||c : b&&c   : 1690 ms
a&b | b&c | c&a   : 835 ms
a + b + c <= 2    : 348 ms
sum: 1472612418
``````

Later iterations:

``````a&&b || b&&c || a&&c : 1638 ms
a ? b||c : b&&c   : 1612 ms
a&b | b&c | c&a   : 779 ms
a + b + c <= 2    : 905 ms
``````

I wonder, what could java VM do that degrades performance over time for (a + b + c <= 2) case.

And here is what happens if I run java with a `-client` VM switch:

``````a&&b || b&&c || a&&c : 4034 ms
a ? b||c : b&&c   : 2215 ms
a&b | b&c | c&a   : 1347 ms
a + b + c <= 2    : 6589 ms
``````

Mystery...

And if I run it in GNU Java Interpreter, it gets almost 100 times slower, but the `a&&b || b&&c || a&&c` version wins then.

Results from Tofubeer with the latest code running OS X:

``````a&&b || b&&c || a&&c : 1358 ms
a ? b||c : b&&c   : 1187 ms
a&b | b&c | c&a   : 410 ms
a + b + c <= 2    : 602 ms
``````

Results from Paul Wagland with a Mac Java 1.6.0_26-b03-383-11A511

``````a&&b || b&&c || a&&c : 394 ms
a ? b||c : b&&c   : 435 ms
a&b | b&c | c&a   : 420 ms
a + b + c <= 2    : 640 ms
a ^ b ? c : a     : 571 ms
a != b ? c : a    : 487 ms
``````
-
`a+b+c >= 2` : this doesn't work with negatives, right? You may have to do the `!!a` thing, I'm not sure. –  polygenelubricants Jun 19 '10 at 15:52
<s>-1. You should never do that for C. You don't know what the value of true is (it could just as easily be -1).</s> Actually I guess C99 includes in its standard that true is defined as 1. But I still wouldn't do this. –  Mark Peters Jun 19 '10 at 15:52
Is that possible if your input is result of boolean operations? And is that possible for "bool" type in C++? –  Rotsor Jun 19 '10 at 15:58
@Rotsor: Nobody said the input has to be the result of boolean operations. Even without negatives you're playing with fire, as if you define it as 2 your condition would have false positives. But I don't care about that as much as I dislike the idea of intermingling booleans into arithmetic. Your Java solution is clear in that it does not rely on nuanced conversions from boolean to an integer type. –  Mark Peters Jun 19 '10 at 16:05
Be cautious with microbenchmarks: java.sun.com/docs/hotspot/HotSpotFAQ.html#benchmarking_simple –  BalusC Jun 19 '10 at 20:32

This kind of questions can be solved with a Karnaugh Map:

``````      | C | !C
------|---|----
A  B | 1 | 1
A !B | 1 | 0
!A !B | 0 | 0
!A  B | 1 | 0
``````

from which you infer that you need a group for first row and two groups for first column, obtaining the optimal solution of polygenelubricants:

``````(C && (A || B)) || (A && B)  <---- first row
^
|
first column without third case
``````
-
correct, but harder to read –  Carlos Heuberger Jun 19 '10 at 18:07
@Justin, The Karnaugh map reduced the number of logical operations from 3 ANDs and 2 ORs to 2 ANDs and 2 ORs. @Jack, Thanks for reminding me of the Karnaugh Map's existence. –  TriArc Jun 21 '10 at 20:33
+1 for something new. My next functional spec will include a K-map, whether it needs it or it. –  Justin R. Jun 22 '10 at 7:00
Maybe the poor readability can be compensated by (1) the appropriate table in comment and (2) the appropriate unit test... +1 for something useful learned at school. –  moala Feb 2 '12 at 15:39
show 1 more comment

Readability should be the goal. Someone who reads the code must understand your intent immediately. So here is my solution.

``````int howManyBooleansAreTrue =
(a ? 1 : 0)
+ (b ? 1 : 0)
+ (c ? 1 : 0);

return howManyBooleansAreTrue >= 2;
``````
-
I agree with the premise, but (a && b) || (b && c) || (a && c) is much more readable than your solution IMHO. –  Adrian Grigore Jun 19 '10 at 22:45
Hmm, now I need a "two out of FOUR booleans" version... danatel's version is much easier now. –  Arafangion Jun 20 '10 at 4:24
Or in Scala: `Seq(true, true, false).map(if (_) 1 else 0).sum >= 2` –  retronym Jun 23 '10 at 6:00
@retronym: Hmm, no. The Java way works just fine in Scala and is both more readable and more efficient. –  Seun Osewa Jul 24 '10 at 20:14
This has readability and very easy to change. Would hire. –  hreinn1000 Feb 7 '13 at 19:31
``````(a==b) ? a : c;
``````
-
c is never even tested... brilliant! –  CurtainDog Jun 23 '10 at 3:16
+1 Not entirely transparent but elegant nonetheless. –  jensgram Nov 10 '10 at 7:33
So elegant! I had to check with pen and paper to believe it:) Kudos to you sir! –  Adrian Aug 16 '13 at 9:46

You don't need to use the short circuiting forms of the operators.

`return (a & b) | (b & c) | (c & a);`

This performs the same number of logic operations as your version, however is completely branchless.

-
Why would you want to force 5 evaluations when 1 could do? It really doesn't perform the same number of logic operations in truth. In fact, it would always perform more. –  Mark Peters Jun 19 '10 at 15:59
I think mixing binary arithmetic and boolean arithmetic is a bad idea. It is like driving screws in the wall with a wrench. Worst of all is they have different semantics. –  Peter Tillemans Jun 19 '10 at 16:00
@Mark - it might be faster ... depending on the effect of an incorrect branch prediction on the CPU pipeline. However, it is best to leave such micro-optimizations to the JIT compiler. –  Stephen C Jun 19 '10 at 16:04
It is fine to do something like this in Java (or any other language)... with a couple of caveats: 1) it needs to be faster (in this case, I believe it is, see my second answer) 2) preferable significantly faster (not sure if it is), 3) most importantly documented since it is "odd". As long as it serves a purpose and it is documented it is fine to "break the rules" when it makes sense. –  TofuBeer Jun 19 '10 at 16:17
@Peter Tillemans There is no mixing with binary operators, in Java these are boolean operators. –  starblue Jun 19 '10 at 17:28

Here's a test-driven, general approach. Not as "efficient" as most of the solutions so far offered, but clear, tested, working, and generalized.

``````public class CountBooleansTest extends TestCase {
public void testThreeFalse() throws Exception {
assertFalse(atLeastTwoOutOfThree(false, false, false));
}

public void testThreeTrue() throws Exception {
assertTrue(atLeastTwoOutOfThree(true, true, true));
}

public void testOnes() throws Exception {
assertFalse(atLeastTwoOutOfThree(true, false, false));
assertFalse(atLeastTwoOutOfThree(false, true, false));
assertFalse(atLeastTwoOutOfThree(false, false, true));
}

public void testTwos() throws Exception {
assertTrue(atLeastTwoOutOfThree(false, true, true));
assertTrue(atLeastTwoOutOfThree(true, false, true));
assertTrue(atLeastTwoOutOfThree(true, true, false));
}

private static boolean atLeastTwoOutOfThree(boolean b, boolean c, boolean d) {
return countBooleans(b, c, d) >= 2;
}

private static int countBooleans(boolean... bs) {
int count = 0;
for (boolean b : bs)
if (b)
count++;
return count;
}
}
``````
-
Wow, I've never seen a fully tested method before seeing this one. –  Rotsor Jun 19 '10 at 20:41
I personally find this code awful, for so many reasons. I'm not going to downvote, but if I ever saw this in production code I would curse. An extremely simple boolean operation does not need to be complicated like this. –  CaptainCasey Jun 21 '10 at 5:41
I'd be very interested to know your reasons, @CaptainCasey. I think this is pretty good code. There's a nice generalized function that's easy to understand, easy to verify, and a specific function that takes advantage of it, also easy to understand & verify. In the real world, I'd make them public and put them in another class; other than that - I'd happily put this code into production. Oh - yeah - I'd rename countBooleans() to countTrue(). –  Carl Manaster Jun 21 '10 at 13:42
Can't... tell... satire... or serious... aaargh... –  meatvest Jun 22 '10 at 0:37
if its not about performance, this solution looks nearly perfect for me: very easy to read and extendable. Thats exactly what var-args are made for. –  atamanroman Jun 22 '10 at 9:17

Sum it up. It's called boolean algebra for a reason:

``````  0 x 0 = 0
1 x 0 = 0
1 x 1 = 1

0 + 0 = 0
1 + 0 = 1
1 + 1 = 0 (+ carry)
``````

If you look at the truth tables there, you can see that multiplication is boolean and, and simply addition is xor.

``````return (a + b + c) >= 2
``````
-
This is the most elegant solution, in my opinion. –  T.K. Jun 22 '10 at 10:10
Rookie mistake though, a boolean value is NOT 0, that does not mean its always 1. –  tomdemuyt Jun 22 '10 at 13:28
Except that the tag on the post says "Java", and you can't write "a+b+c" when they are defined as booleans in Java. –  Jay Jun 23 '10 at 17:27
show 1 more comment
``````boolean atLeastTwo(boolean a, boolean b, boolean c)
{
return ((a && b) || (b && c) || (a && c));
}
``````
-

Another example of direct code:

``````int  n = 0;
if (a) n++;
if (b) n++;
if (c) n++;
return (n >= 2);
``````

It's not the most succinct code, obviously.

-

Taking the answers (so far) here:

``````public class X
{
static boolean a(final boolean a, final boolean b, final boolean c)
{
return ((a && b) || (b && c) || (a && c));
}

static boolean b(final boolean a, final boolean b, final boolean c)
{
return a ? (b || c) : (b && c);
}

static boolean c(final boolean a, final boolean b, final boolean c)
{
return ((a & b) | (b & c) | (c & a));
}

static boolean d(final boolean a, final boolean b, final boolean c)
{
return ((a?1:0)+(b?1:0)+(c?1:0) >= 2);
}
}
``````

and running them through the decompiler (javap -c X > results.txt):

``````Compiled from "X.java"
public class X extends java.lang.Object{
public X();
Code:
1:   invokespecial   #1; //Method java/lang/Object."<init>":()V
4:   return

static boolean a(boolean, boolean, boolean);
Code:
1:   ifeq    8
5:   ifne    24
9:   ifeq    16
13:  ifne    24
17:  ifeq    28
21:  ifeq    28
24:  iconst_1
25:  goto    29
28:  iconst_0
29:  ireturn

static boolean b(boolean, boolean, boolean);
Code:
1:   ifeq    20
5:   ifne    12
9:   ifeq    16
12:  iconst_1
13:  goto    33
16:  iconst_0
17:  goto    33
21:  ifeq    32
25:  ifeq    32
28:  iconst_1
29:  goto    33
32:  iconst_0
33:  ireturn

static boolean c(boolean, boolean, boolean);
Code:
2:   iand
5:   iand
6:   ior
9:   iand
10:  ior
11:  ireturn

static boolean d(boolean, boolean, boolean);
Code:
1:   ifeq    8
4:   iconst_1
5:   goto    9
8:   iconst_0
10:  ifeq    17
13:  iconst_1
14:  goto    18
17:  iconst_0
20:  ifeq    27
23:  iconst_1
24:  goto    28
27:  iconst_0
29:  iconst_2
30:  if_icmplt   37
33:  iconst_1
34:  goto    38
37:  iconst_0
38:  ireturn
}
``````

You can see that the ?: ones are slightly better then the fixed up version of your original. The one that is the best is the one that avoids branching altogether. That is good from the point of view of fewer instructions (in most cases) and better for branch prediction parts of the CPU, since a wrong guess in the branch prediction can cause CPU stalling.

I'd say the most efficient one is the one from moonshadow overall. It uses the fewest instructions on average and reduces the chance for pipeline stalls in the CPU.

To be 100% sure you would need to find out the cost (in CPU cycles) for each instruction, which, unfortunately isn't readily available (you would have to look at the source for hotspot and then the CPU vendors specs for the time taken for each generated instruction).

See the updated answer by Rotsor for a runtime analysis of the code.

-
You're only looking at the bytecode. For all you know, the JIT will take a version with branches in the bytecode and turn it into a version with no branches in native code. But one would tend to think that fewer branches in the bytecode would be better. –  David Conrad May 30 '12 at 0:18
show 1 more comment

Here's another implementation using map/reduce. This scales well to billions of booleans© in a distributed environment. Using MongoDB:

Creating a database `values` of booleans:

``````db.values.insert({value: true});
db.values.insert({value: false});
db.values.insert({value: true});
``````

Creating the map, reduce functions:

Edit: I like CurtainDog's answer about having map/reduce apply to generic lists, so here goes a map function which takes a callback that determines whether a value should be counted or not.

``````var mapper = function(shouldInclude) {
return function() {
emit(null, shouldInclude(this) ? 1 : 0);
};
}

var reducer = function(key, values) {
var sum = 0;
for(var i = 0; i < values.length; i++) {
sum += values[i];
}
return sum;
}
``````

Running map/reduce:

``````var result = db.values.mapReduce(mapper(isTrue), reducer).result;

containsMinimum(2, result); // true
containsMinimum(1, result); // false

function isTrue(object) {
return object.value == true;
}

function containsMinimum(count, resultDoc) {
var record = db[resultDoc].find().next();
return record.value >= count;
}
``````
-
"Billions of booleans" is copyrighted? –  Arafangion Jun 20 '10 at 4:25
yeah, by me ... –  Anurag Jun 20 '10 at 4:37
Don't you want to trademark it instead? –  Andrew Grimm Jun 20 '10 at 7:46
@Andrew - nah that costs money, copyright is easy –  Anurag Jun 20 '10 at 7:51
@Syntax - Everyone is entitled to their opinion. My answer is just one more approach of looking at the problem. Sure, it sounds exaggerated for 3 booleans values, but that doesn't mean I'm trying to be the smarty-pants here. This is a common approach to problem solving that everyone uses - break the problem down into small pieces. That's how mathematical induction works, that's how most recursive algorithms work, and that's how people solve problems in general. –  Anurag Sep 8 '11 at 23:52
show 1 more comment

The most obvious set of improvements are:

``````// There is no point in an else if you already returned.
boolean atLeastTwo(boolean a, boolean b, boolean c) {
if ((a && b) || (b && c) || (a && c)) {
return true;
}
return false;
}
``````

and then

``````// There is no point in an if(true) return true otherwise return false.
boolean atLeastTwo(boolean a, boolean b, boolean c) {
return ((a && b) || (b && c) || (a && c));
}
``````

But those improvements are minor.

-

It really depends what you mean by "improved":

Clearer?

``````boolean twoOrMoreAreTrue(boolean a, boolean b, boolean c)
{
return (a && b) || (a && c) || (b && c);
}
``````

Terser?

``````boolean moreThanTwo(boolean a, boolean b, boolean c)
{
return a == b ? a : c;
}
``````

More general?

``````boolean moreThanXTrue(int x, boolean[] bs)
{
int count = 0;

for(boolean b : bs)
{
count += b ? 1 : 0;

if(count > x) return true;
}

return false;
}
``````

More scalable?

``````boolean moreThanXTrue(int x, boolean[] bs)
{
int count = 0;

for(int i < 0; i < bs.length; i++)
{
count += bs[i] ? 1 : 0;

if(count > x) return true;

int needed = x - count;
int remaining = bs.length - i;

if(needed >= remaining) return false;
}

return false;
}
``````

Faster?

``````// Only profiling can answer this.
``````

Which one is "improved" depends heavily on the situation.

-

Yet another way to do this but not a very good one:

``````return (Boolean.valueOf(a).hashCode() + Boolean.valueOf(b).hashCode() + Boolean.valueOf(c).hashCode()) < 3705);
``````

The `Boolean` hashcode values are fixed at 1231 for true and 1237 for false so could equally have used `<= 3699`

-
or (a?1:0)+(b?1:0)+(c?1:0) >= 2 –  Peter Lawrey Jun 20 '10 at 6:06
+1 for awesome obfuscation. –  molf Jun 22 '10 at 9:02

I don't like ternary (`return a ? (b || c) : (b && c);` from the top answer), and I don't think I've seen anyone mention it. It is written like this:

``````boolean atLeastTwo(boolean a, boolean b, boolean c) {
if (a) {
return b||c;
}
else {
return b&&C;
}
``````
-
show 1 more comment

In Clojure:

``````(defn at-least [n & bools]
(>= (count (filter true? bools)) n)
``````

Usage:

``````(at-least 2 true false true)
``````
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+1 Great generic version shows the power of the Lisps. Thanks, –  dsmith Jun 22 '10 at 0:13
``````Function ReturnTrueIfTwoIsTrue(bool val1, val2, val3))
{
return (System.Convert.ToInt16(val1) +
System.Convert.ToInt16(val2) +
System.Convert.ToInt16(val3)) > 1;
}
``````

Too many ways to do this...

-
Look more like C#. This should be mentioned as such in the answer since the question is Java-targeted :) –  BalusC Jun 21 '10 at 17:41

I don't think I've seen this solution yet:

``````boolean atLeast(int howMany, boolean[] boolValues) {
// check params for valid values

int counter = 0;
for (boolean b : boolValues) {
if (b) {
counter++;

if (counter == howMany) {
return true;
}
}
}
return false;
}
``````

Its advantage is that once it reaches the number that you're looking for, it breaks. So if this was "at least 2 out of this 1,000,000 values are true" where the first two are actually true, then it should go faster than some of the more "normal" solutions.

-
Or even shorter: if (b && (++counter == howMany)) –  Joe Enos Jun 21 '10 at 22:56

We can convert the bools to integers and perform this easy check:

``````(int(a) + int(b) + int(c)) >= 2
``````
-

The simplest way (IMO) that is not confusing and easy to read:

``````// Three booleans, check if two or more are true

return ( a && ( b || c ) ) || ( b && c );
``````
-

As an addition to @TofuBeer TofuBeer's excellent post, consider @pdox pdox's answer:

``````static boolean five(final boolean a, final boolean b, final boolean c)
{
return a == b ? a : c;
}
``````

Consider also its disassembled version as given by "javap -c":

``````static boolean five(boolean, boolean, boolean);
Code:
2:    if_icmpne    9
6:    goto    10
10:    ireturn
``````

pdox's answer compiles to less byte code than any of the previous answers. How does its execution time compare to the others?

``````one                5242 ms
two                6318 ms
four               7192 ms
five  (pdox)       3650 ms
``````

At least on my computer, pdox's answer is just slightly faster than @moonshadow moonshadow's answer, making pdox's the fastest overall (on my HP/Intel laptop).

-
show 1 more comment

A C solution.

``````int two(int a, int b, int c) {
return !a + !b + !c < 2;
}
``````

or you may prefer:

``````int two(int a, int b, int c) {
return !!a + !!b + !!c >= 2;
}
``````
-
``````return 1 << \$a << \$b << \$c >= 1 << 2;
``````
-

In Ruby:

`[a, b, c].count { |x| x } >= 2`

Which could be run in JRuby on the JavaVM. ;-)

-

He's probably not looking for anything convoluted like bitwise comparison operators (not normally convoluted but with booleans, it's extremely odd to use bitwise operators) or something that is very roundabout like converting to int and summing them up.

The most direct and natural way to solve this is with an expression like this:

``````a ? (b || c): (b && c)
``````

Put it in a function if you prefer, but it's not very complicated. The solution is logically concise and efficient.

-

In C:

``````return !!a + !!b + !!c >= 2;
``````
-

A literal interpretation will work in all major languages:

``````return (a ? 1:0) + (b ? 1:0) + (c ? 1:0) >= 2;
``````

But I would probably make it easier for people to read, and expandable to more than three - something that seems to be forgotten by many programmers:

``````boolean testBooleans(Array bools)
{
int minTrue = ceil(bools.length * .5);
int trueCount = 0;

for(int i = 0; i < bools.length; i++)
{
if(bools[i])
{
trueCount++;
}
}
return trueCount >= minTrue;
}
``````
-

This sort of is reading better:

``````if (a) {
return b || c;
}
else {
return b && c;
}
``````
-