Suppose I have some legacy code which cannot be changed unless a bug is discovered, and it contains this code:

bool data[32];
memset(data, 0, sizeof(data));

Is this a safe way to set all bool in the array to a false value?

More generally, is it safe to memset a bool to 0 in order to make its value false?

Is it guaranteed to work on all compilers? Or do I to request a fix?

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    @user657267 I define "safe" as meaning "doing it results in false" – Neil Kirk Oct 28 '15 at 0:25
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    It's not guaranteed to work on all compilers, but it will. There is too much legacy code relying on it for anyone to dare break it. – molbdnilo Oct 28 '15 at 0:32
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    @LightnessRacesinOrbit Indeed, it is a reason. Another reason is people fixing things that aren't broken. I once saw a major product release fail catastrophically because someone removed an errant punctuation mark from an error message. (Utterly harmless, right? Yes, but it moved memory one byte, just enough to expose a formerly harmless data overrun.) If you can find a way to avoid both problems, let me know and we'll write a book and get rich. – Carey Gregory Oct 28 '15 at 1:05
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    @CareyGregory: But it is broken. Ignoring code that works by pure chance is not "leaving working code in place". It is "leaving broken code in place". I agree that it's acceptable to leave this code in due to practical realities, but if it were to be deployed on an expensive spaceship, the minimum I would accept for even the first stage of code review would be a compile-time assertion. – Lightness Races in Orbit Oct 28 '15 at 1:06
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    @LightnessRacesinOrbit if this were new(ish) code, I would agree with you. But it's not. It's legacy code that can only be fixed with the justification of a "bug" and all the overhead that probably entails. Even just a compile-time assertion requires a new build, new packaging and deployment, with all the opportunities for breakage that those steps entail. – Carey Gregory Oct 28 '15 at 1:12


P1236R1: Alternative Wording for P0907R4 Signed Integers are Two's Complement says the following:

As per EWG decision in San Diego, deviating from P0907R3, bool is specified to have some integral type as its underlying type, but the presence of padding bits for "bool" will remain unspecified, as will the mapping of true and false to values of the underlying type.

Original Answer

I believe this unspecified although it seems likely the underlying representation of false would be all zeros. Boost.Container relies on this as well (emphasis mine):

Boost.Container uses std::memset with a zero value to initialize some types as in most platforms this initialization yields to the desired value initialization with improved performance.

Following the C11 standard, Boost.Container assumes that for any integer type, the object representation where all the bits are zero shall be a representation of the value zero in that type. Since _Bool/wchar_t/char16_t/char32_t are also integer types in C, it considers all C++ integral types as initializable via std::memset.

This C11 quote they they point to as a rationale actually comes from a C99 defect: defect 263: all-zero bits representations which added the following:

For any integer type, the object representation where all the bits are zero shall be a representation of the value zero in that type.

So then the question here is the assumption correct, are the underlying object representation for integer compatible between C and C++? The proposal Resolving the difference between C and C++ with regards to object representation of integers sought to answer this to some extent which as far as I can tell was not resolved. I can not find conclusive evidence of this in the draft standard. We have a couple of cases where it links to the C standard explicitly with respect to types. Section 3.9.1 [basic.fundamental] says:

[...] The signed and unsigned integer types shall satisfy the constraints given in the C standard, section

and 3.9 [basic.types] which says:

The object representation of an object of type T is the sequence of N unsigned char objects taken up by the object of type T, where N equals sizeof(T). The value representation of an object is the set of bits that hold the value of type T. For trivially copyable types, the value representation is a set of bits in the object representation that determines a value, which is one discrete element of an implementation-defined set of values.44

where footnote 44(which is not normative) says:

The intent is that the memory model of C++ is compatible with that of ISO/IEC 9899 Programming Language C.

The farthest the draft standard gets to specifying the underlying representation of bool is in section 3.9.1:

Types bool, char, char16_t, char32_t, wchar_t, and the signed and unsigned integer types are collectively called integral types.50 A synonym for integral type is integer type. The representations of integral types shall define values by use of a pure binary numeration system.51 [ Example: this International Standard permits 2’s complement, 1’s complement and signed magnitude representations for integral types. —end example ]

the section also says:

Values of type bool are either true or false.

but all we know of true and false is:

The Boolean literals are the keywords false and true. Such literals are prvalues and have type bool.

and we know they are convertible to 0 an 1:

A prvalue of type bool can be converted to a prvalue of type int, with false becoming zero and true becoming one.

but this gets us no closer to the underlying representation.

As far as I can tell the only place where the standard references the actual underlying bit value besides padding bits was removed via defect report 1796: Is all-bits-zero for null characters a meaningful requirement? :

It is not clear that a portable program can examine the bits of the representation; instead, it would appear to be limited to examining the bits of the numbers corresponding to the value representation (3.9.1 [basic.fundamental] paragraph 1). It might be more appropriate to require that the null character value compare equal to 0 or '\0' rather than specifying the bit pattern of the representation.

There are more defect reports that deal with the gaps in the standard with respect to what is a bit and difference between the value and object representation.

Practically, I would expect this to work, I would not consider it safe since we can not nail this down in the standard. Do you need to change it, not clear, you clearly have a non-trivial trade-off involved. So assuming it works now the question is do we consider it likely to break with future versions of various compilers, that is unknown.

  • Does standard say that POD data can be ::memset() to 0? – Slava Oct 29 '15 at 15:48
  • @Slava well this says we can memset a POD but the details are not really spelled out and they don't seem to be spelled out in the standard either. As far as I can tell this is covered in [basic.types]. – Shafik Yaghmour Oct 29 '15 at 18:37
  • Then as bool can be part of POD that implicitly puts requirement for it's binary representation IMHO – Slava Oct 29 '15 at 19:12
  • @Slava the problem is we have Values of type bool are either true or false. so if we assume, that in the underlying representation that 0 is false and 1 is true(which we can't prove) what about other values? Are they true or false? We can't say, sounds undefined and so it seems like a defect or just unspecified. – Shafik Yaghmour Oct 29 '15 at 19:18
  • Does ::memset( &intvar, 0, sizeof( int ) ) guarantee that result is the same as intvar = int{};? Should it be the same for boolvar = bool{}; ? – Slava Oct 29 '15 at 19:22

Is it guaranteed by the law? No.

C++ says nothing about the representation of bool values.

Is it guaranteed by practical reality? Yes.

I mean, if you wish to find a C++ implementation that does not represent boolean false as a sequence of zeroes, I shall wish you luck. Given that false must implicitly convert to 0, and true must implicitly convert to 1, and 0 must implicitly convert to false, and non-0 must implicitly convert to true … well, you'd be silly to implement it any other way.

Whether that means it's "safe" is for you to decide.

I don't usually say this, but if I were in your situation I would be happy to let this slide. If you're really concerned, you can add a test executable to your distributable to validate the precondition on each target platform before installing the real project.

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    Hmmm... how did you do that? The last time I tried to post an answer that short it wouldn't let me. (And I'm sure the shortness explains the downvotes. You really could explain a bit, eh?) – Carey Gregory Oct 28 '15 at 0:17
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    @CareyGregory: 162 characters aren't enough? I guess you must not enjoy Twitter. – Lightness Races in Orbit Oct 28 '15 at 0:18
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    Upvoted, although I do wish there was some reference to the C++ spec. – nneonneo Oct 28 '15 at 0:19
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    No, I don't enjoy twitter, but it was precisely 4 characters when I commented. – Carey Gregory Oct 28 '15 at 0:19
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    @MatthieuM.: On some platforms, testing whether a particular bit of a value is set is faster than testing whether a value is non-zero. For example, many embedded controllers have a "jump if memory bit is set" instruction, but not a "jump if memory is non-zero" instruction. – supercat Nov 3 '15 at 17:52

No. It is not safe (or more specifically, portable). However, it likely works by virtue of the fact that your typical implementation will:

  1. use 0 to represent a boolean (actually, the C++ specification requires it)
  2. generate an array of elements that memset() can deal with.

However, best practice would dictate using bool data[32] = {false} - additionally, this will likely free the compiler up to internally represent the structure differently - since using memset() could result in it generating a 32 byte array of values rather than, say, a single 4 byte that will fit nicely within your average CPU register.

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    Careful; bool data[32] = {false} may work (read: it will; always) but it's also slightly misleading. It is not equivalent to bool data[32] = {false, false, false, ...} but to bool data[32] = {false, 0, 0, 0, 0}. The real saving grace here is that the 0 will assuredly implicitly convert to false anyway, but it does mean that naming false is a bit of a red herring, which may give someone a big surprise one day. As such, bool data[32] = {} would be my preference. – Lightness Races in Orbit Oct 28 '15 at 0:41
  • Upon further reading I've verified that the C++ specification mandates that false evaluate to zero - therefore the relevant piece of my answer is the fact that the internal representation can be more efficient. So whilst you are correct, it still is guaranteed by the specification to initialize all elements to false. – Olipro Oct 28 '15 at 2:33
  • What makes good code is largely subjective. I don't see any more problem with {false} for initializing a bool array than for(;;) to loop infinitely - it's all verifiably compliant against the standard. – Olipro Nov 2 '15 at 0:13
  • I explained, quite clearly, and with a link to more information, what the problem is. If you go through your career writing unclear code just because it's "verifiably compliant against the standard", I hope I don't have to maintain it! – Lightness Races in Orbit Nov 2 '15 at 0:30
  • {false} is completely clear providing you know what C++ expands the statement to - if you make the assumption that you could change it to {true} to switch to initializing everything to that value, that's your problem. In fact, perhaps more to the point is that in this case, the actual solution it to provide a nice //comment explaining what you're doing if you're worried about a less-experienced developer coming across it. – Olipro Nov 2 '15 at 0:36

From 3.9.1/7:

Types bool , char , char16_t , char32_t , wchar_t , and the signed and unsigned integer types are collectively called integral types. A synonym for integral type is integer type . The representations of integral types shall define values by use of a pure binary numeration system.

Given this I can't see any possible implementation of bool that wouldn't represent false as all 0 bits.

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    Well you could implement false as 1 and true as 0 in memory. So long as the compiler cleverly manages all the required conversions in the code. It is similar to how null pointers are not necessarily 0 in memory. – Neil Kirk Oct 28 '15 at 0:20
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    No, the standard has no intention to restrict the representation of bool like that. bool values are guaranteed to convert to 0 and 1 but otherwise are not guaranteed to be in any way related to 0 and 1 by representation. – AnT Oct 28 '15 at 0:27
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    @M.M: Well, the text you quited simply doesn't say that false must be represented as integral 0. Basically, it is you who have to provide supporting text for your claim. The text you quited allows for false being internally represented as 66 and true being internally represented as 42, as long as both representations follow the mandatory "pure binary numeration system". – AnT Oct 28 '15 at 0:42
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    @AnT For the other integer types, "pure binary numeration system" means that int 1 has to be represented as 000...001 , 42 as 000...01010010 and so on. It means more than "any series of bits" as you are suggesting; the footnote goes into detail. – M.M Oct 28 '15 at 0:49
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    @M.M: I cannot respond to "despite your counter-argument, I'm still right". – Lightness Races in Orbit Oct 28 '15 at 0:55

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