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In what cases should we include cassert?

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+1 to counter unexplained downvotes. – Cheers and hth. - Alf May 16 '12 at 20:08
@close-voters: please vote only on questions that you understand. your lack of understanding does NOT imply a lack of meaning, or that it's impossible to answer a question. your lack of understanding only indicates that you don't understand, which is the opposite of being competent to vote on the matter. – Cheers and hth. - Alf May 16 '12 at 20:09
How is this not a real question? Because it's short? This is a legit question. It's not off topic, it's real, not too localized at all and not unconstructive. It might be a dupe, but I'm not sure. If this gets closed, I'll reopen it immediately. – user142019 May 16 '12 at 20:19
this's one of the reason why sometimes I don't want to ask something here, because many people think that is so stupid to ask so easy questions here. Yes, I quite agree with them, but I really can't understand what's strange if I want to know the answer to this easy question. – Jane May 16 '12 at 20:36
One answer implies that the question was about why to include <cassert> as opposed to <assert.h>. If that was the OP's intent, the question should say so. If the question was about what <cassert> or <assert.h> is used for, any C or C++ reference or tutorial should answer that. – Keith Thompson Dec 22 '13 at 7:28

C++11 removed any formal guarantee of a "c...." header not polluting the global namespace.

It was never an in-practice guarantee, and now it's not even a formal guarantee.

Hence, with C++11 there is no longer any conceivable advantage in using the "c...." header variants, while there is the distinct and clear disadvantage that code that works well with one compiler and version of that compiler, may fail to compile with another compiler or version, due to e.g. name collisions or different overload selection in the global namespace.

SO, while cassert was pretty meaningless in C++03 (you can't put a macro in a namespace), it is totally meaningless -- even as a special case of a general scheme -- in C++11.

In short, don't use it; use <assert.h>.

Addendum, Dec 22 2013:

The standard defines each C++ C header <X.h> header in terms of the <cX> header, which in turn is defined in terms of the corresponding C library header.

C++11 §D.5/2:

“Every C header, each of which has a name of the form name.h, behaves as if each name placed in the standard library namespace by the corresponding cname header is placed within the global namespace scope.”

C++11 §D.5/3 (non-normative example):

“The header <cstdlib> assuredly provides its declarations and definitions within the namespace std. It may also provide these names within the global namespace. The header <stdlib.h> assuredly provides the same declarations and definitions within the global namespace, much as in the C Standard. It may also provide these names within the namespace std.”

Stack Overflow user C.R.’s comment made me aware that some versions of g++, such as MinGW g++ 4.7.2, are quite non-standard with respect to the <X.h> headers, lacking the overloads of e.g. sin that the C++ standard requires:

I already knew that MinGW g++ 4.7.2 also entirely lacks functions such as swprintf, and that it has ditto shortcomings in the pure C++ library such as lacking C++11 std::to_string. However, the information about it lacking the C function overloads was new to me.

In practice the lacking overloads with g++ means

  • ignoring the g++ issue, or

  • avoiding using the missing g++ overloads,
    e.g. using only double sin( double ), or

  • using the std namespace overloads
    (one then needs to include <cmath> to guarantee their presence with g++).

In order to use the g++ std namespace overloads unqualified, one practical approach is to define headers wrappers for this compiler. I've used that approach to address g++ shortcomings wrt. to the printf family. For as David Wheeler once remarked, “All problems in computer science can be solved by another level of indirection”…

Then things can be arranged so that standard code that uses g++'s missing overloads, also compiles with g++. This adjusts the compiler to the standard, with a fixed amount of code.

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Thank u for explaining! :) – Jane May 16 '12 at 20:23
I'm using Visual Studio 10 Professional. Do you mean, that using <assert.h> is better instead of <cassert>? – Jane May 16 '12 at 20:26
It's more meaningful and the general practice of using [*.h] headers (regarding the C library) makes the code a bit more robust, less likely to be problematic with other compilers. – Cheers and hth. - Alf May 16 '12 at 20:30
But <cmath> and <math.h> have nontrivial difference in overload resolution. – Siyuan Ren Dec 22 '13 at 7:36
@C.R. Perhaps you can give an example of a guaranteed difference, that one can rely on in a small program with full control over which standard library headers are included? – Cheers and hth. - Alf Dec 22 '13 at 7:58

Just like any other header file, you #include <cassert> when you use something declared in that header file, such as assert().

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Thank you for short and clear answer:) – Jane May 16 '12 at 20:28

See an easily accessible reference

#include <iostream>
// uncomment to disable assert()
// #define NDEBUG
#include <cassert>

int main()
    std::cout << "Execution continues past the first assert\n";
    std::cout << "Execution continues past the second assert\n";
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Nitpicking: is a reference, not the reference. If you want to refer to the reference, refer to "International Standard ISO/IEC 14882", or one of its editions: "14882:1998", "14882:2003", or "14882:2011". – Robᵩ May 16 '12 at 20:06
Thank u very much for help! I'm ssory for such stupid question. I'll do it now. – Jane May 16 '12 at 20:07
@Jane You're welcome. Also please take a look at the FAQ: – TemplateRex May 16 '12 at 20:12

assert.h defines one macro function that can be used as a standard debugging tool.

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