#include <cppunit/Test.h>
#include <cppunit/TestResult.h>
#include <cppunit/TestFailure.h>
+#include <cppunit/TestResultCollector.h>
#ifdef __VISUALC__
#pragma warning(default:4100)
#include <exception>
#include <iostream>
-#ifdef __WXMSW__
+#ifdef __WINDOWS__
#include "wx/msw/msvcrt.h"
#endif
#if wxDEBUG_LEVEL
+// Information about the last not yet handled assertion.
+static wxString s_lastAssertMessage;
+
static wxString FormatAssertMessage(const wxString& file,
int line,
const wxString& func,
// fail or whether we need to abort (in this case "msg" will contain the
// explanation why did we decide to do it).
wxString abortReason;
+
+ const wxString
+ assertMessage = FormatAssertMessage(file, line, func, cond, msg);
+
if ( !wxIsMainThread() )
{
// Exceptions thrown from worker threads are not caught currently and
// so we'd just die without any useful information -- abort instead.
- abortReason = "in a worker thread";
+ abortReason << assertMessage << "in a worker thread.";
}
else if ( uncaught_exception() )
{
// Throwing while already handling an exception would result in
// terminate() being called and we wouldn't get any useful information
// about why the test failed then.
- abortReason = "while handling an exception";
+ if ( s_lastAssertMessage.empty() )
+ {
+ abortReason << assertMessage << "while handling an exception";
+ }
+ else // In this case the exception is due to a previous assert.
+ {
+ abortReason << s_lastAssertMessage << "\n and another "
+ << assertMessage << " while handling it.";
+ }
}
else // Can "safely" throw from here.
{
+ // Remember this in case another assert happens while handling this
+ // exception: we want to show the original assert as it's usually more
+ // useful to determine the real root of the problem.
+ s_lastAssertMessage = assertMessage;
+
throw TestAssertFailure(file, line, func, cond, msg);
}
- wxFprintf(stderr, "%s %s -- aborting.",
- FormatAssertMessage(file, line, func, cond, msg),
- abortReason);
+ wxFputs(abortReason, stderr);
fflush(stderr);
_exit(-1);
}
throw;
}
#if wxDEBUG_LEVEL
- catch ( TestAssertFailure& e )
+ catch ( TestAssertFailure& )
{
- msg << FormatAssertMessage(e.m_file, e.m_line, e.m_func,
- e.m_cond, e.m_msg);
+ msg = s_lastAssertMessage;
+ s_lastAssertMessage.clear();
}
#endif // wxDEBUG_LEVEL
#ifdef wxUSE_VC_CRTDBG
virtual void startTest(CppUnit::Test *test)
{
- wxPrintf(" %-60s ", test->getName());
+ printf(" %-60s ", test->getName().c_str());
m_result = RESULT_OK;
m_watch.Start();
}
virtual void endTest(CppUnit::Test * WXUNUSED(test))
{
m_watch.Pause();
- wxPrintf(GetResultStr(m_result));
+ printf("%s", GetResultStr(m_result));
if (m_timing)
- wxPrintf(" %6ld ms", m_watch.Time());
- wxPrintf("\n");
+ printf(" %6ld ms", m_watch.Time());
+ printf("\n");
}
protected :
RESULT_MAX
};
- wxString GetResultStr(ResultType type) const
+ const char* GetResultStr(ResultType type) const
{
static const char *resultTypeNames[] =
{
return online;
}
+extern bool IsAutomaticTest()
+{
+ static int s_isAutomatic = -1;
+ if ( s_isAutomatic == -1 )
+ {
+ // Allow setting an environment variable to emulate buildslave user for
+ // testing.
+ wxString username;
+ if ( !wxGetEnv("WX_TEST_USER", &username) )
+ username = wxGetUserId();
+
+ s_isAutomatic = username.Lower().Matches("buildslave*");
+ }
+
+ return s_isAutomatic == 1;
+}
+
// helper of OnRun(): gets the test with the given name, returning NULL (and
// not an empty test suite) if there is no such test
static Test *GetTestByName(const wxString& name)
#endif
<< "build: " << WX_BUILD_OPTIONS_SIGNATURE << std::endl;
+ if ( m_detail )
+ {
+ // Output some important information about the test environment.
+ cout << "Running under " << wxGetOsDescription() << ", "
+ "locale is " << setlocale(LC_ALL, NULL) << std::endl;
+ }
+
#if wxUSE_GUI
// create a hidden parent window to be used as parent for the GUI controls
wxTestableFrame* frame = new wxTestableFrame();
runner.eventManager().pushProtector(new wxUnitTestProtector);
bool printProgress = !(verbose || m_detail || m_timing);
- return runner.run("", false, true, printProgress) ? EXIT_SUCCESS : EXIT_FAILURE;
+ runner.run("", false, true, printProgress);
+
+ return runner.result().testFailures() == 0 ? EXIT_SUCCESS : EXIT_FAILURE;
}
int TestApp::OnExit()