Normally I imagine most people would use int for everything and ocassionally they would use unsigned int when needed. Every now and then you might use a short int, maybe for network traffic or something.

But lately I have started to use std::size_t for indexing into STL containers (as I should), and then I started to find a use for std::uint8_t when creating a struct of four 8-bit colour values (RGBA), rather than a char, simply because it makes more sense to me (it's a number, not a character type, and not a 8-bit value, it's a 8-bit number from 0-255).

Then while doing some network programming I found that I wanted to make sure certain values being passed were 16-bits. And according to https://en.cppreference.com/w/cpp/language/types I can't assume a short int is 16 bits, only that it's at least 16 bits. So I found a use for std::int16_t.

This led me to gradually start using a fixed-width type everywhere. Which caused me to really think about what I needed, how much range I needed etc, whether it would fall into negative values or not.

So now, I have almost zero occurences of int in my code.

There's three reasons in my head for this:

  1. It makes my intent clear to someone else (i.e., I don't expect the number to be larger than this or it won't be negative)
  2. Code is more portable. If I want a 16bit integer type, it will be 16 bit on every compiler
  3. Saves memory. Though I imagine on a modern PC this is largely unimportant.

But I'm concerned that this is reducing performance as your usual consumer-grade CPU would operate on a native width type like a std::int32_t better.

So, when should I use the fixed-width types, and how do they impact performance?

  • Your 3 assumptions are correct. Jul 22, 2019 at 8:01
  • @NO_NAME But isn't the fourth assumption (concern) also correct? Jul 22, 2019 at 8:01
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    There should be no impact on performance. Fixed length types usually are just aliases to basic types. Compiler/library just looks which type (short int, int, long int) has 4 bytes and creates an alias named int32_t. Jul 22, 2019 at 8:03
  • Here is code for measuring some operations: stackoverflow.com/a/36994001/2492801. It seems as if it depends... Jul 22, 2019 at 8:07
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    Shorter types can be faster, as it allows to fit more data into cache.
    – zett42
    Jul 22, 2019 at 8:09

1 Answer 1


You should use int when writing portable code (unless the integer size is constrained by external factors (e.g. protocol parsing), because this will allow machines to use the integer size that is preferred (optimal) on that machine.

There are a number of microprocessors in use whose register size is 16 bits for example; the compiler headers they provide set sizeof(int) to 2. Using e.g. int32_t on these machines for arithmetic would generate a lot of extra instructions.

However: For indexing, using int is a bad idea: size_t is preferable, even if you're guaranteed not to overflow the index by using int. This is because the value may need to be converted to the index register size (e.g. 64 bits for size_t vs 32 bits for int). This can be costly in inner loops.

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    On the other hand, you can use int_fastXX_t. Jul 22, 2019 at 8:08
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    It's also worth noting that the standard only guarantee that int has 2 bytes, so if you write portable code with standard types, you need to take this into account. Jul 22, 2019 at 8:18
  • but the standard also doesn't seem to guarantee the fixed length values - 'optional : provided only if the implementation directly supports the type' Fixed width integer types
    – Thomas
    Jul 22, 2019 at 8:22
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    If you're worried that implementation doesn't support your specific length of type, you can use int_leastXX_t and if you really need a specific size of variable and the implementation doesn't support it, you are screwed anyway, regardless if you use stdint or base types. Jul 22, 2019 at 8:28
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    The answer is a little bit short for my taste - what exactly can happen wrong? How might an Int16 cause things to be slower? Is there some kind of source on that? Let me make this clear, I am not saying that you are wrong, just that the those things should be a part of the answer.
    – Aziuth
    Jul 22, 2019 at 9:02

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