# Convert uint32_t to double between 0 and 1 [closed]

I have a shamefully naive question: What is the best way to convert a `uint32_t` to a `double` between 0 and 1?

My naive way is

``````double myconvert(uint32_t a)
{
double n = static_cast<double>(std::numeric_limits<uint32_t>::max() - std::numeric_limits<uint32_t>::min());
return static_cast<double>(a) / n;
}
``````

But I was wondering if there is a better way?

• Perhaps I'm old-fashioned, but I find mathematical code with `static_cast<double>` hard to read. I prefer to promote implicitly all the coefficients in a term using `1.0` at the start. – Bathsheba Apr 20 at 15:12
• Hmm. Naïve and old-fashioned ... that's pushing it a bit. :-) – Adrian Mole Apr 20 at 15:31
• i don't understand the purpose. so you are casting uint32 input into a double then dividing it by 0x41EFFFFFFFE00000 which is the max uint32 cast to a double. – user_number153 Apr 20 at 16:02
• Note that neither of the casts in the code in the question is needed. – Pete Becker Apr 20 at 16:04
• What do you consider better, in objective terms? – TylerH Apr 29 at 18:09

`std::numeric_limits<uint32_t>::min()` is 0. Although removing the subtraction doesn't improve the generated assembly since it is known at compile time, it can simplify the function.

Another potential improvement is to calculate the complement of the divisor and use multiplication. You might think that optimiser would do that conversion automatically, but that's often not possible with floating point due to strict rules of IEEE-754.

Example:

``````return a * (1.0 / std::numeric_limits<uint32_t>::max());
``````

Note that in the division used to calculate the complement, both operands are known at compile time, so the division is pre-calculated.

As you can see here, GCC does not do the optimisation automatically. It does if you use `-ffast-math` at the cost of IEEE-754 conformance

I checked Agner Fog's instruction tables and randomly chose Zen3 architecture, and double division has about 3 times greater latency than multiplication.

• Now just replace `std::numeric_limits<uint32_t>::max()` with `uint32_t(-1)`, and re-arrange: `return .0 / uint32_t(-1) * a;` – Deduplicator Apr 21 at 3:14

It is safe to assume that `std::numeric_limits<uint32_t>::min()` will be zero (what unsigned integer is less than this?), so you can simplify your formula considerably:

``````double myconvert(uint32_t a)
{
return static_cast<double>(a) / std::numeric_limits<uint32_t>::max();
}
``````

`1.0 * a / std::numeric_limits<uint32_t>::max()`

is one way.