# Fastest way of finding the middle value of a triple?

Given is an array of three numeric values and I'd like to know the middle value of the three.

The question is, what is the fastest way of finding the middle of the three?

My approach is this kind of pattern - as there are three numbers there are six permutations:

``````if (array[randomIndexA] >= array[randomIndexB] &&
array[randomIndexB] >= array[randomIndexC])
``````

It would be really nice, if someone could help me out finding a more elegant and faster way of doing this.

-
luckily the answer stays the same whether you compare ints or floats :-) –  rsp Oct 17 '09 at 16:09
Median-of-three pivot selection for QuickSort? –  Jonathan Leffler Oct 17 '09 at 18:58
could also be QuickSelect –  talloaktrees Sep 18 '13 at 10:40

If you are looking for the most efficient solution, I would imagine that it is something like this:

``````if (array[randomIndexA] > array[randomIndexB]) {
if (array[randomIndexB] > array[randomIndexC]) {
return "b is the middle value";
} else if (array[randomIndexA] > array[randomIndexC]) {
return "c is the middle value";
} else {
return "a is the middle value";
}
} else {
if (array[randomIndexA] > array[randomIndexC]) {
return "a is the middle value";
} else if (array[randomIndexB] > array[randomIndexC]) {
return "c is the middle value";
} else {
return "b is the middle value";
}
}
``````

This approach requires at least two and at most three comparisons. It deliberately ignores the possibility of two values being equal (as did your question): if this is important, the approach can be extended to check this also.

-
It's kind of ugly, and I think the OP was looking for an elegant solution. The trick is lots of people mistake fewer characters for more elegant, when in reality, more straightforward (this answer) is more readily optimizable by the compiler/virtual machine. –  Karl Oct 17 '09 at 18:36

It's possible to answer the query without branches if the hardware can answer min and max queries without branches (most CPUs today can do this).

The operator ^ denotes bitwise xor.

``````Input: triple (a,b,c)
1. mx=max(max(a,b),c)
2. mn=min(min(a,b),c)
3. md=a^b^c^mx^mn
4. return md
``````

This is correct because:

• xor is commutative and associative
• xor on equal bits produces zero
• xor with zero doesn't change the bit

The appropriate min/max functions should be chosen for int/float. If only positive floats are present then it's possible to use integer min/max directly on the floating point representation (this could be desirable, since integer operations are generally faster).

In the unlikely scenario that the hardware doesn't support min/max, it's possible to do something like this:

``````max(a,b)=(a+b+|a-b|)/2
min(a,b)=(a+b-|a-b|)/2
``````

However, this isn't correct when using float operations since the exact min/max is required and not something that's close to it. Luckily, float min/max has been supported in hardware for ages (on x86, from Pentium III and onwards).

-
What does `b+|a` mean? Both `+` and `|` are binary operators. –  Ajay Jan 9 at 5:48
It's just an expansion of min and max functions by using absolute value. |a-b| means absolute value of a-b. Either way, I'd recommend the answer given below by Gyorgy (stackoverflow.com/a/19045659/2037811) which is more neat than mine. –  Max Jan 22 at 9:34

There's an answer here using min/max and no branches (http://stackoverflow.com/a/14676309/2233603). Actually 4 min/max operations are enough to find the median, there's no need for xor's:

``````median = max(min(a,b), min(max(a,b),c));
``````

Though, it won't give you the median value's index...

-

This can be done with two comparisons at most.

``````int median(int a, int b, int c) {
if ( (a - b) * (c - a) >= 0 ) // a >= b and a <= c OR a <= b and a >= c
return a;
else if ( (b - a) * (c - b) >= 0 ) // b >= a and b <= c OR b <= a and b >= c
return b;
else
return c;
}
``````
-
Did you try median(INT_MIN,INT_MAX,0) ? I get INT_MAX on a two-complement machine... –  aka.nice Jun 14 '13 at 14:07
Yes, this is susceptible to integer overflow. I wouldn't recommend this in production as it's written because of that. –  Zach Conn Jun 14 '13 at 15:52

Here's how you can express this using only conditionals:

``````int a, b, c = ...
int middle = (a <= b)
? ((b <= c) ? b : ((a < c) ? c : a))
: ((a <= c) ? a : ((b < c) ? c : b));
``````

EDITS:

1. Errors in above found by @Pagas have been fixed.
2. @Pagas also pointed out that you cannot do this with fewer than 5 conditionals if you only use conditional, but you can reduce this using temporary variables or value swapping.
3. I would add that it is hard to predict whether a pure conditional or assignment solution would be faster. It is likely to depend on how good the JIT is, but I think the conditional version would be easier for the optimizer to analyse.
-
hey... your first answer was completely different using min and max. Why change it? I thought it was a good approach –  Toad Oct 17 '09 at 15:12
@reinier ... it wasn't my answer. –  Stephen C Oct 17 '09 at 15:17
stephen: euh? was it a removed answer from someone else? ah oh well... maybe it didn't work and they removed it or something –  Toad Oct 17 '09 at 15:19
@reinier: it was 'Stephan202' who deleted his answer. –  Jonathan Leffler Oct 17 '09 at 19:02
You cannot avoid having at least 5 conditionals, unless you do things like value swapping or recursion. This is because the corresponding decision tree has 6 leaves, which means 5 internal nodes, thus 5 decision points in the whole code, though only two or three of them will be active at a time, those in the path to the answer leaf. But maybe the size of the code, or at least the number of conditionals, can be reduced by using swapping or other techniques! –  Paggas Oct 17 '09 at 19:36
show 3 more comments

If you must find one out of X values satisfying some criteria you have to at least compare that value to each of the X-1 others. For three values this means at least two comparisons. Since this is "find the value that is not the smallest and not the largest" you can get away with only two comparisons.

You should then concentrate on writing the code so you can very clearly see what goes on and keep it simple. Here this means nested if's. This will allow the JVM to optimize this comparison as much as possible at runtime.

See the solution provided by Tim (http://stackoverflow.com/questions/1582356/fastest-way-of-finding-the-middle-value-of-a-tripel/1582524#1582524) to see an example of this. The many code line does not necessarily turn out to be larger code than nested questionmark-colon's.

-

And one more idea. There are three numbers `{a,b,c}`. Then:

``````middle = (a + b + c) - min(a,b,c) - max(a,b,c);
``````

Of course, we have to remember about numeric limits...

-

You might as well write this in the most straightforward, way. As you said, there are only six possibilities. No reasonable approach is going to be any faster or slower, so just go for something easy to read.

I'd use min() and max() for conciseness, but three nested if/thens would be just as good, I think.

-

This one will work:

``````template<typename T> T median3_1_gt_2(const T& t1, const T& t2, const T& t3) {
if (t3>t1) {
return t1;
} else {
return std::max(t2, t3);
}
}
template<typename T> T median3(const T& t1, const T& t2, const T& t3) {
if (t1>t2) {
return median3_1_gt_2(t1, t2, t3);
} else {
return median3_1_gt_2(t2, t1, t3);
}
}
``````

https://github.com/itroot/firing-ground/blob/864e26cdfced8394f8941c8c9d97043da8f998b4/source/median3/main.cpp

-
``````    if(array[aIndex] > array[bIndex]) {
if(array[bIndex] > array[cIndex]) return bIndex;
if(array[aIndex] > array[cIndex]) return cIndex;
return aIndex;
} else {
if(array[bIndex] < array[cIndex]) return bIndex;
if(array[aIndex] < array[cIndex]) return cIndex;
return aIndex;
}
``````
-

You can use array, like this:

``````private static long median(Integer i1, Integer i2, Integer i3) {

List<Integer> list = Arrays.asList(
i1 == null ? 0 : i1,
i2 == null ? 0 : i2,
i3 == null ? 0 : i3);

Collections.sort(list);
return list.get(1);
}
``````
-

or a one liner for finding the index in the array containing the middle value:

`````` int middleIndex = (a[0]<a[1]) ? ((a[0]<a[2) ? a[2] : a[0]) : ((a[1]<a[2) ? a[2] : a[1]);
``````
-
Firstly, this gives a value, rather than an index. Secondly, for `a[0] < a[1] < a[2]` it gives `a[2]` as the answer, which is incorrect. –  Tim Oct 17 '09 at 16:10
Snippets like this are a good reason for unit testing :) –  Thorbjørn Ravn Andersen Oct 17 '09 at 16:40

Using idxA to idxC in ary,

``````int ab = ary[idxA] < ary[idxB] ? idxA : idxB;
int bc = ary[idxB] < ary[idxC] ? idxB : idxC;
int ac = ary[idxA] < ary[idxC] ? idxA : idxC;

int idxMid = ab == bc ? ac : ab == ac ? bc : ab;
``````

indexMiddle points to the middle value.

Explanation: from the 3 minima 2 are the overall minimum and the other value must be the middle. Because we check equality we can compare the indices in the last line instead of having to compare the array values.

-
This gives the minimum value, rather than the middle one. –  Tim Oct 17 '09 at 16:12
Lol, did you try it? first line sets indexAB to the maximum of A and B, second line sets indexMiddle to the minimum of that maximum and C, giving you the middle value. I guess you missed the "index_B_ : index_A_" part of the first line? –  rsp Oct 17 '09 at 18:34
Except that if C is the smallest value, this will produce C rather than the middle value. –  jk. Oct 17 '09 at 19:05
Sorry, no, I didn't try it, and you're right, I misread it. My apologies. However, the point is that you can't do it in just two comparisons, as illustrated by jk above. –  Tim Oct 17 '09 at 20:51
Oops, you are correct. I replaced it with a solution I beleive is correct now :-) –  rsp Oct 17 '09 at 20:56