# Strange Queue<T>.Enqueue(T item) code

While reflecting with ILSpy i found this line of code in the `Queue<T>.Enqueue(T item)`-method:

``````if (this._size == this._array.Length)
{
int num = (int)((long)this._array.Length * 200L / 100L);
if (num < this._array.Length + 4)
{
num = this._array.Length + 4;
}
this.SetCapacity(num);
}
``````

I'm just wondering why somebody would do this? I think it's some kind of a integer overflow check, but why multiply first with `200L` and then divide by `100L`?

Might this have been a issue with earlier compilers?

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What is num used for? – UrbanEsc Mar 23 '12 at 11:00
@UrbanEsc It's used for array resizing – Felix K. Mar 23 '12 at 11:01
It can't be related to overflow, since `(long)_array.Length * 200` will never overflow. The `+ 4` stuff is to ensure that the array still grows even if its original size is zero. – Marcelo Cantos Mar 23 '12 at 11:09
@C.Evenhuis But it's const, so the compiler could optimize it. As i said in the question i think this might be a issue with earlier compilers. – Felix K. Mar 23 '12 at 11:10
@MarceloCantos I didn't mean the `* 200L`, i mean the conversion into long and than back to int. – Felix K. Mar 23 '12 at 11:11

Usually things first multiplied then divided by 100 are percentage calculations - Perhaps there was some `const XxxPercentage = 200` or something like that in the original code. The compiler does not seem to optimize the `* 200 / 100` to `* 2`.

This code sets the capacity to twice its size - but if twice its size would be smaller than the original size + 4, use that instead.

The reason it is converted to long probably is because if you multiply an integer by the "200 percent" it would overflow.

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Below are all the same and will generate the same result:

``````int size = (int)((length * 200L) / 100L);
int size = length << 1;
int size = length * 2;
``````

The reason for choosing the first option over the other is to show your intend clearly:

``````const long TotalArraySize = 200L;
const long BytesPerElement = 100L;
return (length * TotalArraySize) / BytesPerElement;
``````

Some details about performance implications are given here: Doubling a number - shift left vs. multiplication

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Are you sure that promoting `length` to `long`, then performing a long multiply followed by a long divide actually qualifies as a performance optimization? – Frédéric Hamidi Mar 23 '12 at 11:12
@TeomanSoygul Your answer is not wrong, but it's still the question why the compiler doesn't optimize `200L / 100L`. – Felix K. Mar 23 '12 at 11:23

If you continue looking to Queue implementation, you will find following fields:

``````const int _GrowFactor = 200;
const int _MinimumGrow = 4;
``````

Interesting point is that those constants not used :) I think those constants were hardcoded instead (grow factor also replaced by long type). Lets look for Enqueue method from this point of view:

``````if (this._size == this._array.Length)
{
int capacity = (int)((this._array.Length * _GrowFactor) / 100L);
if (capacity < (this._array.Length + _MinimumGrow))
{
capacity = this._array.Length + _MinimumGrow;
}
this.SetCapacity(capacity);
}
``````

I think those names make sense. GrowFactor specifies in percents how much array should grow. This is 200% by default. But they also specified minimum grow for internal array. So, if array didn't grow so much as current length + minimum grow, we give this minimal grow anyway.

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Intent of `* 200L / 100L` is not any more clearer than `* 2` in my opinion. The only reason I can think of why it is done like that is to make sure queue length can grow up to 200 times. There is difference in `* 200 / 100` and `* 2` such that the first one will result in an overflow exception for 100 times smaller number. For example if it was for byte values, `x * 200 / 100` would fail for x==2 but `* 2` would fail only if x was as big as 128.

But as Marcelo Cantos pointed out `(long)this._array.Length * 200L / 100L` will never overflow so my answer is probably not helping much.

Can it be a 'feature' of ILSpy? Maybe in source code it is just `* 2`.

EDIT

After additional investigation it looks that this strange code must be an artefact of some refactoring. I have checked how it's done in List<>

``````private void EnsureCapacity(int min)
{
if (this._items.Length < min)
{
int num = (this._items.Length == 0) ? 4 : (this._items.Length * 2);
if (num < min)
{
num = min;
}
this.Capacity = num;
}
}
``````

It is as straightforward as you would expect. My guess is that `Queue.Enqueue` code was reworked but not fully cleaned up and some strange code resulted out of this change. Most developers assume that Microsoft libraries are perfect and everything has a meaning but it is quite likely that not every line of code is written by a genius :-)

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