bool CalculateNativeAxis(const float* points, int count, unsigned vertex_size, vec3& r, vec3& s, vec3& t) { // find covariance matrix mat3 c = CreateCovarianceMatrix(points, count, vertex_size); // find eigen values of the covariance matrix Math::vec3 eigen_values; if (!EigenValues(c, eigen_values)) return (out_error() << "Can't find eigen values for matrix " << c.ToString() << std::endl, false); // find eigen vectors of the covariance matrix Math::vec3 eigen_vectors[3]; if (!EigenVectors(c, eigen_values, eigen_vectors)) return (out_error() << "Can't find eigen values for matrix " << c.ToString() << " with eigen values " << eigen_values.ToString() << std::endl, false); r = eigen_vectors[0]; s = eigen_vectors[1]; t = eigen_vectors[2]; mat3 a; a.SetColumn(0, r); a.SetColumn(1, s); a.SetColumn(2, t); out_message() << "Matrix a: " << a.ToString() << std::endl; mat3 tt = a.Transposed() * c * a; out_message() << "Matrix tt: " << tt.ToString() << std::endl; return true; }
void DisplayDeviceInformation(IEnumMoniker *pEnum) { IMoniker *pMoniker = NULL; while (pEnum->Next(1, &pMoniker, NULL) == S_OK) { IPropertyBag *pPropBag; HRESULT hr = pMoniker->BindToStorage(0, 0, IID_PPV_ARGS(&pPropBag)); if (FAILED(hr)) { pMoniker->Release(); continue; } VARIANT var; VariantInit(&var); // Get description or friendly name. hr = pPropBag->Read(L"Description", &var, 0); if (FAILED(hr)) { hr = pPropBag->Read(L"FriendlyName", &var, 0); } if (SUCCEEDED(hr)) { out_message() << "Capture device: " << var.bstrVal << std::endl; VariantClear(&var); } hr = pPropBag->Write(L"FriendlyName", &var); // WaveInID applies only to audio capture devices. hr = pPropBag->Read(L"WaveInID", &var, 0); if (SUCCEEDED(hr)) { out_message() << "Audio device: " << var.lVal << std::endl; VariantClear(&var); } hr = pPropBag->Read(L"DevicePath", &var, 0); if (SUCCEEDED(hr)) { // The device path is not intended for display. out_message() << "Video device: " << var.bstrVal << std::endl; VariantClear(&var); } pPropBag->Release(); pMoniker->Release(); } }
void on_logout(char *name) { if(config->logout_message != NULL) out_message(name); if(config->logout_command != NULL) run_command(config->logout_command); }
void SystemLoggerTest::testOutMessage() { System::InitializeComponents(); out_message().Write(L"Hello world"); CPPUNIT_ASSERT(true); System::DestroyComponents(); }
void EventManager::FixEvent(Event* event) { // // to add: // events filtering and displaying to log only interesting events // static long prev_event_code = event->eventCode; if (prev_event_code != event->eventCode && m_events_mask[event->eventCode]) { out_message() << event->ToString() << std::endl; prev_event_code = event->eventCode; } // MonitorScope lock(monitor); events.push(event); // monitor.Pulse(); }
void Manager::SetFocusedWidget(Widget* newFocuseWidget) { if (newFocuseWidget) { out_message() << newFocuseWidget->GetText() << std::endl; if (m_focusWidget) { GUI::SetUnFocusedEvent* unfocuseEvent = new GUI::SetUnFocusedEvent; unfocuseEvent->anyData = m_focusWidget; m_adapter->OnSetUnFocusedEvent(unfocuseEvent); m_focusWidget->SetFocuse(false); } GUI::SetFocusedEvent* focuseEvent = new GUI::SetFocusedEvent; focuseEvent->anyData = newFocuseWidget; m_adapter->OnSetFocusedEvent(focuseEvent); newFocuseWidget->SetFocuse(true); m_focusWidget = newFocuseWidget; } }
HRESULT __stdcall Receive ( void* inst, IMediaSample *smp ) { BYTE* buf; smp->GetPointer(&buf); DWORD len = smp->GetActualDataLength(); //if (g_timer.GetElapsedTime() > 0.01) { EnterCriticalSection(m_cs); System::Profiler profiler; profiler.Start(L"Converting YUY2 to RGB"); g_kernel.SetArgument(0, g_inp); g_kernel.SetArgument(1, (int)len); g_kernel.SetArgument(2, g_out); g_inp.Write(buf, len); g_kernel.Call(640*480*2/4); g_out.Read(buffer, *length); //ImageModule::YUY2toRGB((unsigned char*)buf, len, (unsigned char*)buffer, length); profiler.End(); out_message() << profiler.ToString() << std::endl; LeaveCriticalSection(m_cs); g_timer.UpdateStartPoint(); } HRESULT ret = Receive_ ( inst, smp ); return ret; }
bool EigenVectors(const mat3& m, const vec3& value, vec3 res[3]) { for (int v = 0; v < 3; ++v) { // use inverse power method vec3 bb0(1,1,1); vec3 bb = bb0; float d; do { bb0 = bb; bb = (m - (value[v] + 0.001f) * mat3::CreateIdentity()).Inversed() * bb; bb.Normalize(); d = fabs(fabs(bb.Dot(bb0)) - 1.0f); } while (d > 1e-5); res[v] = bb; out_message() << res[v].ToString() << std::endl; } return true; }
void Manager::OnMouseLeftDown(System::Event* event) { System::MouseLeftButtonDownEvent* e = static_cast<System::MouseLeftButtonDownEvent*>(event); Widget* newFocuseWidget = 0; for (auto it = rootWidgets.begin(); it != rootWidgets.end(); it++) { if (!(*it)->IsVisible() || !(*it)->IsEnabled()) continue; if ((*it)->IsPointIn(Widget::WindowToViewport(float(e->x), float(e->y)))) { newFocuseWidget = (*it)->GetFocused(float(e->x), float(e->y)); (*it)->OnMouseLeftButtonDown(e); break; } } if (newFocuseWidget) { out_message() << newFocuseWidget->GetText() << std::endl; if (m_focusWidget) { GUI::SetUnFocusedEvent* unfocuseEvent = new GUI::SetUnFocusedEvent; unfocuseEvent->anyData = m_focusWidget; m_adapter->OnSetUnFocusedEvent(unfocuseEvent); m_focusWidget->SetFocuse(false); } SetFocusedEvent* focuseEvent = new SetFocusedEvent; focuseEvent->anyData = newFocuseWidget; m_adapter->OnSetFocusedEvent(focuseEvent); newFocuseWidget->SetFocuse(true); m_focusWidget = newFocuseWidget; m_focusWidget->OnMouseLeftButtonDown(e); } }
bool IsSupported(const char* extension, Driver* driver) { const char* allWgl = wglGetExtensionsStringARB(::GetDC(*driver->GetWindow())); int num; glGetIntegerv(GL_NUM_EXTENSIONS, &num); const char* ptr; const char* start; start = allWgl; for (int i = 0; i < num; i++) { const char* ext = (const char*)glGetStringi(GL_EXTENSIONS, i); if ((ptr = strstr(extension, ext)) != NULL) { const char* end = ptr + strlen(extension); if (isspace(*end) || *end == '\0') { out_message() << System::string::Format(L"[Video] %s is supported", System::string(extension).Data()) << std::endl; return true; } } } out_warning() << System::string::Format(L"[Video] %s is not supported", System::string(extension).Data()) << std::endl; return false; };
pdsp::MessageBuffer& pdsp::ScoreSection::out( int index ){ return out_message(index); }