haiku/headers/tools/cppunit/ThreadManager.h

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#ifndef _beos_thread_manager_h_
#define _beos_thread_manager_h_
#include <cppunit/Exception.h>
#include <cppunit/TestResult.h>
#include <OS.h>
#include <signal.h>
#include <string>
// Pointer to a function that takes no parameters and
// returns no result. All threads must be implemented
// in a function of this type.
// Helper class to handle thread management
template <class TestClass, class ExpectedException>
class BThreadManager {
public:
typedef void (TestClass::*ThreadMethod)();
BThreadManager(std::string threadName, TestClass *object, ThreadMethod method, sem_id &threadSem);
~BThreadManager();
status_t LaunchThread(CppUnit::TestResult *result);
// Thread management methods
int32 Stop();
int32 WaitForThread();
bool IsRunning();
std::string getName() const { return fName; }
protected:
std::string fName;
TestClass *fObject;
ThreadMethod fMethod;
thread_id fID;
CppUnit::TestResult *fTestResult;
sem_id &fThreadSem;
static long EntryFunction(BThreadManager<TestClass, ExpectedException>* manager);
void Run();
};
template <class TestClass, class ExpectedException>
BThreadManager<TestClass, ExpectedException>::BThreadManager(
std::string threadName,
TestClass *object,
ThreadMethod method,
sem_id &threadSem
)
: fName(threadName)
, fObject(object)
, fMethod(method)
, fID(0)
, fTestResult(NULL)
, fThreadSem(threadSem)
{
}
template <class TestClass, class ExpectedException>
BThreadManager<TestClass, ExpectedException>::~BThreadManager() {
Stop();
}
template <class TestClass, class ExpectedException>
int32
BThreadManager<TestClass, ExpectedException>::WaitForThread() {
int32 result = 0;
if (find_thread(NULL) != fID)
wait_for_thread(fID, &result);
return result;
}
template <class TestClass, class ExpectedException>
int32
BThreadManager<TestClass, ExpectedException>::Stop() {
int32 result = 0;
if (find_thread(NULL) != fID) {
while (IsRunning()) {
kill(fID, SIGINT);
snooze(1000000);
}
result = WaitForThread();
}
return result;
}
template <class TestClass, class ExpectedException>
bool
BThreadManager<TestClass, ExpectedException>::IsRunning(void) {
if (fID != 0) {
thread_info info;
if (get_thread_info(fID, &info) == B_OK)
return true;
else
fID = 0;
}
return false;
}
template <class TestClass, class ExpectedException>
status_t
BThreadManager<TestClass, ExpectedException>::LaunchThread(CppUnit::TestResult *result) {
if (IsRunning())
return B_ALREADY_RUNNING;
fTestResult = result;
fID = spawn_thread((thread_entry)(BThreadManager::EntryFunction),
fName.c_str(), B_NORMAL_PRIORITY, this);
status_t err;
if (fID == B_NO_MORE_THREADS || fID == B_NO_MEMORY) {
err = fID;
fID = 0;
} else {
// Aquire the semaphore, then start the thread.
if (acquire_sem(fThreadSem) != B_OK)
throw CppUnit::Exception("BThreadManager::LaunchThread() -- Error acquiring thread semaphore");
err = resume_thread(fID);
}
return err;
}
template <class TestClass, class ExpectedException>
long
BThreadManager<TestClass, ExpectedException>::EntryFunction(BThreadManager<TestClass, ExpectedException> *manager) {
manager->Run();
return 0;
}
template <class TestClass, class ExpectedException>
void
BThreadManager<TestClass, ExpectedException>::Run(void) {
// These outer try/catch blocks handle unexpected exceptions.
// Said exceptions are caught and noted in the TestResult
// class, but not allowed to escape and disrupt the other
// threads that are assumingly running concurrently.
try {
// Our parent ThreadedTestCaller should check fObject to be non-NULL,
// but we'll do it here too just to be sure.
if (!fObject)
throw CppUnit::Exception("BThreadManager::Run() -- NULL fObject pointer");
// Before running, we need to add this thread's name to
// the object's id->(name,subtestnum) map.
fObject->InitThreadInfo(fID, fName);
// This inner try/catch block is for expected exceptions.
// If we get through it without an exception, we have to
// raise a different exception that makes note of the fact
// that the exception we were expecting didn't arrive. If
// no exception is expected, then nothing is done (see
// "cppunit/TestCaller.h" for detail on the classes used
// to handle this behaviour).
try {
(fObject->*fMethod)();
} catch ( ExpectedException & ) {
return;
}
CppUnit::ExpectedExceptionTraits<ExpectedException>::expectedException();
} catch ( CppUnit::Exception &e ) {
// Add on the thread name, then note the exception
CppUnit::Exception *threadException = new CppUnit::Exception(
std::string(e.what()) + " (thread: " + fName + ")",
e.sourceLine()
);
fTestResult->addFailure( fObject, threadException );
}
catch ( std::exception &e ) {
// Add on the thread name, then note the exception
CppUnit::Exception *threadException = new CppUnit::Exception(
std::string(e.what()) + " (thread: " + fName + ")"
);
fTestResult->addError( fObject, threadException );
}
catch (...) {
// Add on the thread name, then note the exception
CppUnit::Exception *threadException = new CppUnit::Exception(
"caught unknown exception (thread: " + fName + ")"
);
fTestResult->addError( fObject, threadException );
}
// Release the semaphore we acquired earlier
release_sem(fThreadSem);
}
#endif