Please note that this is NOT a duplicate of How write a unit test for verifying compiling error? as I'm not concerned about testing the correctness of external libraries or the compiler itself.

It is typical in C++, particularly when dealing with templates, to employ techniques that prevent some particular piece of code from being compiled. As these can get convoluted, what is the best way to ensure that particular pieces of code do indeed generate compiler errors?

As the test shouldn't even get compiled, you can't rely on things such as , so I guess it should be integrated in the build system? How are these issues usually approached?

  • I don't get it.. could you provide an example for the thing you want to test? – Karoly Horvath Sep 2 '11 at 10:50
  • For example that a template class should not be instanced if there's no specialization available for a certain type, or that a particular method shouldn't be available if a type doesn't meet certain requisites, or in general testing the effectiveness of boost::enable_if, etc. – UncleZeiv Sep 2 '11 at 10:52
  • Well just write a test case that shouldn't compile, then check that it didn't compile.. maybe search for the appropriate error message to make sure that it didn't compile for the right reason. – Karoly Horvath Sep 2 '11 at 11:00
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    You say that Boost.Test isn't what you need, but the regression tests for, say, MPL do exactly what you want. Did you check out how they are setup and run? – Nicola Musatti Sep 2 '11 at 11:53
  • @Nicola: no, I haven't, thanks for the tip – UncleZeiv Sep 2 '11 at 13:04

Do it in the similar way compiler tests are written. You will have a bit of testing code in some scripting language (shell, perl, tcl etc.) that will run compiler on given snippets of code and check whether the right ones compiled and the right ones did not.

  • gcc uses DejaGnu, which is built on top of expect, which is itself built on top of Tcl.
  • If you use shell script (probably easier, DejaGnu is probably overkill), you might want to look at shUnit2.
  • Perl's Test::Harness system should be mostly easy to use as is.
  • After all, it's not that much more work to run process from C++, so writing a function to try to call compiler on a given string and check whether it outputs error for line where you expect it would not be that hard and than you can integrate it into the other boost.test-based tests.
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You might want to check out metatest - Unit testing framework for C++ template metaprograms (author's original post to the Boost mailing list). Get it here.
Publications related to the libraries here.

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  • 1
    How does this verify that some code does not compile? – Jan Hudec Oct 17 '16 at 8:53

You would have to rely on an external framework to run a set of compilation tests, e.g. makefiles, or hudson jobs and check for either compiler output or compiler artifacts. If the compilation is supposed to fail then there should not be an object file for the file under compilation. I am guessing you could write a plugin for hudson to do that or a simple batch script that runs a makefile that compiles all the testfiles that should fail or succeed and flag successes or failures accordingly.

In the simplest case you would just check for the existance of the '.o' file to see whether your test succeeded, in more complex cases you might want to look at the compiler output and verify that the error that is produce concurs with the error that you are expecting. That would depend on the compiler that you are using.

Going one level deeper would probably mean writing a compiler extension to do that (LLVM might be able to handle what you are asking for)

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  • Definitely not separate Jenkins (the name "Hudson" is stuck at Oracle) jobs. We are talking about 10 line snippets. – Jan Hudec Sep 2 '11 at 11:12

Testing for a negative feature, hence provide a guarantee that certain construct will fail to compile is possible using c++20 requires expressions as follows:

Simple example

Below, I check if overloads to the function func exist in static assertions, when used with a test framework, the boolean should be used on one of the run time tests in order to not block the other tests from compiling:

#include <concepts>
/// Arbitrary restrictions in order to test:
/// if T != double -> zero args
template <typename T> void func(){};
/// if T == double -> arbitrary args.
template<std::same_as<double> ...T> void func(T... as){};
template <typename T, typename... a> constexpr bool applies_to_func = requires(a... as) {
/// compiles:
static_assert(applies_to_func<double, double>);
static_assert(applies_to_func<double, double, double>);
/// function fails to compile:
static_assert(!applies_to_func<int, int>);

The code is available on Compiler Explorer: https://godbolt.org/z/direWo

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