/* * Created by Phil on 09/11/2010. * Copyright 2010 Two Blue Cubes Ltd. All rights reserved. * * Distributed under the Boost Software License, Version 1.0. (See accompanying * file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) */ #include "catch.hpp" #include <iostream> TEST_CASE( "INFO and WARN do not abort tests", "[messages][.]" ) { INFO( "this is a " << "message" ); // This should output the message if a failure occurs WARN( "this is a " << "warning" ); // This should always output the message but then continue } TEST_CASE( "SUCCEED counts as a test pass", "[messages]" ) { SUCCEED( "this is a " << "success" ); } TEST_CASE( "INFO gets logged on failure", "[failing][messages][.]" ) { INFO( "this message should be logged" ); INFO( "so should this" ); int a = 2; REQUIRE( a == 1 ); } TEST_CASE( "INFO gets logged on failure, even if captured before successful assertions", "[failing][messages][.]" ) { INFO( "this message may be logged later" ); int a = 2; CHECK( a == 2 ); INFO( "this message should be logged" ); CHECK( a == 1 ); INFO( "and this, but later" ); CHECK( a == 0 ); INFO( "but not this" ); CHECK( a == 2 ); } TEST_CASE( "FAIL aborts the test", "[failing][messages][.]" ) { FAIL( "This is a " << "failure" ); // This should output the message and abort WARN( "We should never see this"); } TEST_CASE( "FAIL_CHECK does not abort the test", "[failing][messages][.]" ) { FAIL_CHECK( "This is a " << "failure" ); // This should output the message then continue WARN( "This message appears in the output"); } TEST_CASE( "FAIL does not require an argument", "[failing][messages][.]" ) { FAIL(); } TEST_CASE( "SUCCEED does not require an argument", "[messages][.]" ) { SUCCEED(); } TEST_CASE( "Output from all sections is reported", "[failing][messages][.]" ) { SECTION( "one" ) { FAIL( "Message from section one" ); } SECTION( "two" ) { FAIL( "Message from section two" ); } } TEST_CASE( "Standard output from all sections is reported", "[messages][.]" ) { SECTION( "one" ) { std::cout << "Message from section one" << std::endl; } SECTION( "two" ) { std::cout << "Message from section two" << std::endl; } } TEST_CASE( "Standard error is reported and redirected", "[messages][.][approvals]" ) { SECTION( "std::cerr" ) { std::cerr << "Write to std::cerr" << std::endl; } SECTION( "std::clog" ) { std::clog << "Write to std::clog" << std::endl; } SECTION( "Interleaved writes to cerr and clog" ) { std::cerr << "Inter"; std::clog << "leaved"; std::cerr << ' '; std::clog << "writes"; std::cerr << " to error"; std::clog << " streams" << std::endl; } } TEST_CASE( "INFO is reset for each loop", "[messages][failing][.]" ) { for( int i=0; i<100; i++ ) { INFO( "current counter " << i ); CAPTURE( i ); REQUIRE( i < 10 ); } } TEST_CASE( "The NO_FAIL macro reports a failure but does not fail the test", "[messages]" ) { CHECK_NOFAIL( 1 == 2 ); } TEST_CASE( "just info", "[info][isolated info][messages]" ) { INFO( "this should never be seen" ); } TEST_CASE( "just failure", "[fail][isolated info][.][messages]" ) { FAIL( "Previous info should not be seen" ); } TEST_CASE( "sends information to INFO", "[.][failing]" ) { INFO( "hi" ); int i = 7; CAPTURE( i ); REQUIRE( false ); } TEST_CASE( "Pointers can be converted to strings", "[messages][.][approvals]" ) { int p; WARN( "actual address of p: " << &p ); WARN( "toString(p): " << ::Catch::Detail::stringify( &p ) ); } template <typename T> static void unscoped_info( T msg ) { UNSCOPED_INFO( msg ); } TEST_CASE( "just unscoped info", "[unscoped][info]" ) { unscoped_info( "this should NOT be seen" ); unscoped_info( "this also should NOT be seen" ); } TEST_CASE( "just failure after unscoped info", "[failing][.][unscoped][info]" ) { FAIL( "previous unscoped info SHOULD not be seen" ); } TEST_CASE( "print unscoped info if passing unscoped info is printed", "[unscoped][info]" ) { unscoped_info( "this MAY be seen IF info is printed for passing assertions" ); REQUIRE( true ); } TEST_CASE( "prints unscoped info on failure", "[failing][.][unscoped][info]" ) { unscoped_info( "this SHOULD be seen" ); unscoped_info( "this SHOULD also be seen" ); REQUIRE( false ); unscoped_info( "but this should NOT be seen" ); } TEST_CASE( "not prints unscoped info from previous failures", "[failing][.][unscoped][info]" ) { unscoped_info( "this MAY be seen only for the FIRST assertion IF info is printed for passing assertions" ); REQUIRE( true ); unscoped_info( "this MAY be seen only for the SECOND assertion IF info is printed for passing assertions" ); REQUIRE( true ); unscoped_info( "this SHOULD be seen" ); REQUIRE( false ); } TEST_CASE( "prints unscoped info only for the first assertion", "[failing][.][unscoped][info]" ) { unscoped_info( "this SHOULD be seen only ONCE" ); CHECK( false ); CHECK( true ); unscoped_info( "this MAY also be seen only ONCE IF info is printed for passing assertions" ); CHECK( true ); CHECK( true ); } TEST_CASE( "stacks unscoped info in loops", "[failing][.][unscoped][info]" ) { UNSCOPED_INFO("Count 1 to 3..."); for (int i = 1; i <= 3; i++) { unscoped_info(i); } CHECK( false ); UNSCOPED_INFO("Count 4 to 6..."); for (int i = 4; i <= 6; i++) { unscoped_info(i); } CHECK( false ); } TEST_CASE( "mix info, unscoped info and warning", "[unscoped][info]" ) { INFO("info"); unscoped_info("unscoped info"); WARN("and warn may mix"); WARN("they are not cleared after warnings"); } TEST_CASE( "CAPTURE can deal with complex expressions", "[messages][capture]" ) { int a = 1; int b = 2; int c = 3; CAPTURE( a, b, c, a + b, a+b, c > b, a == 1 ); SUCCEED(); } #ifdef __clang__ #pragma clang diagnostic push #pragma clang diagnostic ignored "-Wunused-value" // In (1, 2), the "1" is unused ... #endif #ifdef __GNUC__ #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunused-value" // All the comma operators are side-effect free #endif #ifdef _MSC_VER #pragma warning(push) #pragma warning(disable:4709) // comma in indexing operator #endif template <typename T1, typename T2> struct helper_1436 { helper_1436(T1 t1, T2 t2): t1{ t1 }, t2{ t2 } {} T1 t1; T2 t2; }; template <typename T1, typename T2> std::ostream& operator<<(std::ostream& out, helper_1436<T1, T2> const& helper) { out << "{ " << helper.t1 << ", " << helper.t2 << " }"; return out; } TEST_CASE("CAPTURE can deal with complex expressions involving commas", "[messages][capture]") { CAPTURE(std::vector<int>{1, 2, 3}[0, 1, 2], std::vector<int>{1, 2, 3}[(0, 1)], std::vector<int>{1, 2, 3}[0]); CAPTURE((helper_1436<int, int>{12, -12}), (helper_1436<int, int>(-12, 12))); CAPTURE( (1, 2), (2, 3) ); SUCCEED(); } #ifdef __clang__ #pragma clang diagnostic pop #endif #ifdef __GNUC__ #pragma GCC diagnostic pop #endif #ifdef _MSC_VER #pragma warning(pop) #endif