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I am asking this question for two different languages: C and C++.

What is best practice when calling functions that have an opposite integer sign expectation to what we require in our code?

For example:

uint32       _depth;                        // uint32 = DWORD
int          depth;

_BitScanForward(&_depth, (uint32)input);    // DWORD, DWORD
depth = (int)_depth;

_BitScanForward is expecting DWORD (uint32) parameters. The variable input is of int16 type and I need to process the result _depth as an int32 in my code.

  1. Do I need to care about casting input as shown? I know the complier will probably do it for me, but what is best practice?
  2. Is it acceptable to declare _depth as int32 and therefore avoid having to cast it afterwards as shown?

NOTE:

My comment about the complier is based on experience. I wrote code that compiled with no warnings in VS but crashed on execution. Turned out I was calling a function with an incorect width int. So I don't leave this topic up to the compiler any more.

EDIT:

The answers are helpful, thanks. Let me refine my question. If there are no width issues, i.e. the function is not expecting a narrower int than what is being passed in (obvioulsy will fail), then is it okay to rely on the compiler to handle sign and width differences?

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    "Can I declare _depth as int32" Well, does anything stop you from doing that? Commented Sep 26, 2016 at 11:40
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    "Probably" do it for you? Commented Sep 26, 2016 at 11:43
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    Which language are you using? C or C++? These are two, distinct languages. Pick one! Commented Sep 26, 2016 at 11:44
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    @DanielDaranas Definition of "could" = "Used to indicate ability or permission". Permission as in acceptablness. But I changed my question just for you ;)
    – IamIC
    Commented Sep 26, 2016 at 11:48
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    Please ask for one language at a time. If the answer is different for each of the languages you name, that makes a mess of things! Surely you are in actual fact using one or the other, so just name that one. Commented Sep 26, 2016 at 13:20

4 Answers 4

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I would strongly recommend to hide that function into a custom wrapper function which agrees with your preferred API (and within this function do proper explicit casting). In the case of using compiler-specific functions this has the additional advantage that it will be much easier to port it to different compilers (should you ever want to do that), by just re-implementing that wrapper function.

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    This is a good solution for inter-library operations. Great idea!
    – IamIC
    Commented Sep 26, 2016 at 12:03
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It is very important to write an explicit cast when going from any integer type that is narrower than int to any integer type that is the same width or wider than int. If you don't do this, the compiler will first convert the value to int, because of the "integer promotion" rules, and then to the destination type. This is almost always wrong, and we wouldn't design the language this way if we were starting from scratch today, but we're stuck with it for compatibility's sake.

System-provided typedefs like uint16_t, uint32_t, WORD, and DWORD might be narrower, wider, or the same size as int; in C++ you can use templates to figure it out, but in C you can't. Therefore, you may want to write explicit casts for any conversion involving these.

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    When deciding that short unsigned values should promote to signed, the authors of the C Standard noted that the majority of then-current compilers would reliably behave in arithmetically-correct fashion for constructs like unsigned mul(unsigned short x, unsigned short y) { return x*y; } even for results in the range INT_MAX+1 to UINT_MAX. For some reason, however, the maintainers of gcc have decided it's more useful to have the "optimizer" generate code that's only reliable for values up to INT_MAX.
    – supercat
    Commented Sep 26, 2016 at 16:48
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    @IamIC It is still best practice in your case because uint32 and int might not always be the same size; for instance if you ever port the code to another environment. Re malloc, unfortunately the only reliable way to do that operation is rather more complicated than fits in a single expression, see lteo.net/blog/2014/10/28/… (read the entire thing).
    – zwol
    Commented Sep 26, 2016 at 17:37
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    @IamIC: The only way that expression would cause trouble would be if the product exceeded the maximum value for size_t. If "int" were 16 bits but "size_t" were 8 bits, and "sizeof(MyType)" were 200, and "i" were 240, then the multiplication would yield Undefined Behavior rather than computing 0xC8u * 0xF0u (i.e. 0xBB80) and passing "malloc" a value of 0x80 (128). On the other hand, adding casts so code would pass malloc() a value of 128 rather than invoking UB in the multiplication probably wouldn't be very useful.
    – supercat
    Commented Sep 26, 2016 at 17:54
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    @IamIC In my opinion, the problem supercat cites is not nearly as important as the problem of getting values sign-extended where you expected them to be zero-extended or vice versa.
    – zwol
    Commented Sep 26, 2016 at 18:19
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    @zwol: I'd say the fact that code may sometimes misbehave bizarrely in rare but unpredictable circumstances is a bigger problem than code which behaves in a fashion which is deterministic and logical but doesn't fit the application's needs. The interesting "optimizations" gcc does on the above function don't merely produce unexpected values--if e.g. gcc recognizes that one argument will always be 65535, it may conclude that the other argument can't exceed 32768 and omit other code which would only be relevant if such a condition arose.
    – supercat
    Commented Sep 26, 2016 at 18:53
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Well It kind of depends on your usage etc:

If I can use the type which is needed I just use the type.

If not: Your compiler should warn you in the cases where you implicitly convert datatypes which may result in over/underflows. So I have those warnings on usually and change the implicit conversion to explicit ones.

There I have 2 different approaches:

If I am like 100% sure that I never over/underflow the boundaries between signed/unsigned int I use static_cast. (usually for conversion of different APIs. Like size() returning int vs size_t).

When I am not sure or it may be possible I am beyond the boundaries I use boost::numeric_cast. This throws an exception when you cast beyond boundaries and thus shows when this happens.

The approach with the exceptions adheres to the practice to fail hard/crash/terminate if something goes wrong instead of continuing with corrupt data and then crash somewhere else or do other things with undefined data.

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First your compiler will make the casts implicit and will give you a warning on any meaningful warning level.

Both casts you perform are casts where the compiler (or your coworkers) cannot easily decide if they are correct, therefor an explicit casting or explicit conversion with a boundary test is best practice. Which you choose depends on your knowledge of the data. The safest way is to check boundary conditions. The cheapest way is to simply cast (in C++ please use static_cast not C-style casts).

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  • I'm unclear why my casts would be unclear to the compiler / a human. Please explain.
    – IamIC
    Commented Sep 26, 2016 at 12:14
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    Your first cast from signed to unsigned, this is always unclear for the compiler. Since it doesn’t know if your signed variable is negative or positive. The second cast is unsigned to signed. Here the compiler cannot determine, if the value of your unsigned int is greater than the maximal signed value. Therefor it has to warn you. Your coworkers have the same problem. By only looking at a small part of code, they cannot decide, if you are doing the right thing. Commented Sep 26, 2016 at 12:22
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    @IamIC: by using C++ reinterpret_cast you will tell on source level, that you want to use the same bit pattern as [u]int, wanting to go for example from int32_t -1 to uint32_t 0xFFFFFFFF in terms of value. Reinterpret_cast will not compile to any instruction, it's just source-level change of type of value. This may help, if you have some badly designed API, which is for example returning int size(), but it was never meant to return negative number, etc... Overall the best practice is of course to avoid any conversions and use the proper type all the way trough, in other case cast+test.
    – Ped7g
    Commented Sep 26, 2016 at 12:39
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    @IamIC the C is not as strongly typed as C++, still explicit (was implicit :/ :D )C-like cast is better than compiler warning. It shows the programmer paid attention and verified the cast does produce expected result in all cases. But overall I don't see any reason why to use C today, when C++ is available.
    – Ped7g
    Commented Sep 26, 2016 at 13:03
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    @lamlC I would never suggest to remove the casts. Casts to different signedness should always be written explicit. Only to make sure you (some weeks later), your compiler and your coworker understand, you really want to do this conversion and you know this is free of side effects. Commented Sep 26, 2016 at 13:12

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