blob: 626e4866fc0f98041b1f1a4aea4c983c1d455d1f [file] [log] [blame]
#include <doctest/doctest.h>
#include "header.h"
TEST_CASE("no headers") {
char chs[] = { '1', 'a', 's' };
MESSAGE(chs); CHECK(chs == nullptr);
MESSAGE("1as"); CHECK("1as" == nullptr);
int ints[] = { 0, 1, 1, 2, 3, 5, 8, 13 };
MESSAGE(ints); CHECK(ints == nullptr);
char* cptr = reinterpret_cast<char*>(ints + 4);
const char* ccptr = const_cast<const char*>(cptr);
void* vptr = reinterpret_cast<void*>(cptr);
CHECK(doctest::toString(cptr) == doctest::toString(ccptr));
CHECK(doctest::toString(ccptr) == doctest::toString(vptr));
char* cnptr = nullptr;
MESSAGE(cnptr); CHECK(cnptr != nullptr);
enum Test {
A = 0, B, C = 100,
};
MESSAGE(A); CHECK(A == C);
}
DOCTEST_MAKE_STD_HEADERS_CLEAN_FROM_WARNINGS_ON_WALL_BEGIN
#include <string>
#include <vector>
#include <list>
#include <sstream>
#include <limits>
DOCTEST_MAKE_STD_HEADERS_CLEAN_FROM_WARNINGS_ON_WALL_END
DOCTEST_MSVC_SUPPRESS_WARNING(5045) // Spectre mitigation diagnostics
// the standard forbids writing in the std namespace but it works on all compilers
namespace std
{
template <typename T>
ostream& operator<<(ostream& stream, const vector<T>& in) {
stream << "[";
for (size_t i = 0; i < in.size(); ++i) {
if (i != 0) { stream << ", "; }
stream << in[i];
}
stream << "]";
return stream;
}
}
// as an alternative you may write a specialization of doctest::StringMaker
namespace doctest
{
template <typename T>
struct StringMaker<std::list<T>>
{
static String convert(const std::list<T>& in) {
std::ostringstream oss;
oss << "[";
for (typename std::list<T>::const_iterator it = in.begin(); it != in.end();) {
oss << *it;
if (++it != in.end()) { oss << ", "; }
}
oss << "]";
return oss.str().c_str();
}
};
}
template <typename T, typename K>
struct MyType
{
T one;
K two;
};
template <typename T>
struct MyTypeInherited : MyType<T, unsigned>
{};
template <typename T, typename K>
bool operator==(const MyType<T, K>& lhs, const MyType<T, K>& rhs) {
return lhs.one == rhs.one && lhs.two == rhs.two;
}
template <typename T, typename K>
std::ostream& operator<<(std::ostream& stream, const MyType<T, K>& in) {
stream << "[" << in.one << ", " << in.two << "]";
return stream;
}
namespace Bar
{
struct Foo
{
friend bool operator==(const Foo&, const Foo&) { return false; }
};
// as a third option you may provide an overload of toString()
inline doctest::String toString(const Foo&) { return "Foo{}"; }
struct MyOtherType
{
int data;
friend bool operator==(const MyOtherType& l, const MyOtherType& r) { return l.data == r.data; }
};
// you also can use a template operator<< if your code does not use std::ostream
template <class OStream>
OStream& operator<<(OStream& stream, const MyOtherType& in) {
stream << "MyOtherType: " << in.data;
return stream;
}
} // namespace Bar
// set an exception translator for MyTypeInherited<int>
REGISTER_EXCEPTION_TRANSLATOR(MyTypeInherited<int>& ex) {
return doctest::String("MyTypeInherited<int>(") + doctest::toString(ex.one) + ", " +
doctest::toString(ex.two) + ")";
}
TEST_CASE("all asserts should fail and show how the objects get stringified") {
MyTypeInherited<int> bla1;
bla1.one = 5;
bla1.two = 4u;
Bar::Foo f1;
MESSAGE(f1);
Bar::Foo f2;
CHECK(f1 == f2);
// std::string already has an operator<< working with std::ostream
std::string dummy = "omg";
MESSAGE(dummy);
CHECK(dummy == "tralala"); // should fail
CHECK("tralala" == dummy); // should fail
std::vector<int> vec1;
vec1.push_back(1);
vec1.push_back(2);
vec1.push_back(3);
MESSAGE(vec1);
std::vector<int> vec2;
vec2.push_back(1);
vec2.push_back(2);
vec2.push_back(4);
CHECK(vec1 == vec2);
std::list<int> lst_1;
lst_1.push_back(1);
lst_1.push_back(42);
lst_1.push_back(3);
MESSAGE(lst_1);
std::list<int> lst_2;
lst_2.push_back(1);
lst_2.push_back(2);
lst_2.push_back(666);
CHECK(lst_1 == lst_2);
{
Bar::MyOtherType s1 {42};
Bar::MyOtherType s2 {666};
INFO("s1=", s1, " s2=", s2);
CHECK(s1 == s2);
CHECK_MESSAGE(s1 == s2, s1, " is not really ", s2);
}
CHECK(doctest::IsNaN<double>(0.5));
CHECK(doctest::IsNaN<float>(std::numeric_limits<float>::infinity()));
CHECK(!doctest::IsNaN<double long>(std::numeric_limits<double long>::quiet_NaN()));
// lets see if this exception gets translated
throw_if(true, bla1);
}
static doctest::String intTranslator(int ex) {
return doctest::String("int: ") + doctest::toString(ex);
}
TEST_CASE("a test case that registers an exception translator for int and then throws one") {
// set an exception translator for int - note that this shouldn't be done in a test case but
// in main() or somewhere before executing the tests - but here I'm just lazy...
doctest::registerExceptionTranslator(intTranslator);
throw_if(true, 5);
}