void MainWindow::OnMenuAbout() { Gtk::Dialog *pDialog = NULL; builder->get_widget("zzz_about_dialog", pDialog); if(pDialog) { pDialog->set_transient_for(*this); pDialog->run(); pDialog->hide(); } }
void VRConceptWidget::on_edit_prop_clicked() { if (!selected_property) return; Gtk::Dialog* dialog; VRGuiBuilder()->get_widget("PropertyEdit", dialog); setTextEntry("entry23", selected_property->getName()); setTextEntry("entry24", selected_property->type); dialog->show(); if (dialog->run() == Gtk::RESPONSE_OK) { selected_property->setName( getTextEntry("entry23") ); selected_property->type = getTextEntry("entry24"); saveScene(); } dialog->hide(); update(); }
void VRGuiBits_on_internal_close_clicked(GtkButton* cb, gpointer data) { Gtk::Dialog* diag; VRGuiBuilder()->get_widget("dialog2", diag); diag->hide(); }
int main(int argc, char *argv[]) { memset(&last_refreshed, 0, sizeof(last_refreshed)); for(int i = 1; i < argc; i++) { string tmp(argv[i]); if(tmp == "-s")display_spectrum = true; if(tmp == "-S")display_spectrogram = true; } Util.ChDir(Util.GetDirFromPath(Util.GetProgramPath())); //goto aaaaa; //fft=rfftw_create_plan(8192, for(UInt i = 0; i < CHANNELS; i++) { FFTFilter<jack_default_audio_sample_t>* trololo = new FFTFilter<jack_default_audio_sample_t> //bs, inbuffers, outbuffers, overlap,buffersperperiod, paddingL,paddingR, fftsize (1024, 12, 12, 2, 8, 0, 0, 8192); //trololo->freq_scale=9./10.; setFilterParams(*trololo); filt[i] = trololo; } jack_set_error_function(error); JackStatus st; if((client = jack_client_open("jackfft", JackNoStartServer, &st)) == 0) { fprintf(stderr, "could not connect to server: status %i\n", st); return 1; } jack_set_process_callback(client, process, 0); jack_on_shutdown(client, jack_shutdown, 0); printf("engine sample rate: %u\n", srate = jack_get_sample_rate(client)); /* create ports */ int i; for(i = 0; i < CHANNELS; i++) { inputs.push_back(jack_port_register(client, CONCAT("input_" << i).c_str(), JACK_DEFAULT_AUDIO_TYPE, JackPortIsInput, 0)); outputs.push_back(jack_port_register(client, CONCAT("output_" << i).c_str(), JACK_DEFAULT_AUDIO_TYPE, JackPortIsOutput, 0)); #ifdef JACKFFT_USE_SOUNDTOUCH soundTouch[i].setSampleRate(srate); soundTouch[i].setChannels(1); #endif } //aaaaa: Gtk::Main kit(argc, argv); b = Gtk::Builder::create_from_file("main2.ui"); Gtk::Window* window1; Gtk::Button* b_save; Gtk::Button* b_saveas; Gtk::Button* b_open; Gtk::Button* b_revert; Gtk::Button* b_apply; Gtk::Button* b_params; Gtk::Button* b_shift; Gtk::CheckButton* c_pitchshift; Gtk::CheckButton* c_spectrum; Gtk::CheckButton* c_spectrogram; Gtk::CheckButton* c_spectrogram1; Gtk::CheckButton* c_spectrum2; Gtk::CheckButton* c_mux; Gtk::Label* label8; Gtk::FileChooserDialog* filechooserdialog1; Gtk::Viewport* viewport1; Gtk::Viewport* viewport2; Gtk::Viewport* viewport4; Gtk::Scale* s_mux; //get controls JACKFFT_GETWIDGET(window1); JACKFFT_GETWIDGET(b_save); JACKFFT_GETWIDGET(b_saveas); JACKFFT_GETWIDGET(b_open); JACKFFT_GETWIDGET(b_revert); JACKFFT_GETWIDGET(b_apply); JACKFFT_GETWIDGET(c_pitchshift); JACKFFT_GETWIDGET(label8); JACKFFT_GETWIDGET(b_params); JACKFFT_GETWIDGET(b_shift); JACKFFT_GETWIDGET(filechooserdialog1); JACKFFT_GETWIDGET(viewport1); JACKFFT_GETWIDGET(viewport2); JACKFFT_GETWIDGET(c_spectrum); JACKFFT_GETWIDGET(c_spectrum2); JACKFFT_GETWIDGET(s_mux); JACKFFT_GETWIDGET(c_mux); JACKFFT_GETWIDGET(viewport4); JACKFFT_GETWIDGET(c_spectrogram); JACKFFT_GETWIDGET(c_spectrogram1); //initialize controls b_save->signal_clicked().connect(&save); b_saveas->signal_clicked().connect(&saveas); b_open->signal_clicked().connect(&loadfile); b_revert->signal_clicked().connect(&load); b_apply->signal_clicked().connect(&apply_pitchshift); c_pitchshift->signal_toggled().connect(&apply_pitchshift); c = new EQControl(EQ_POINTS); c->Change += EQControl::ChangeDelegate(&on_change, c); c->MouseMove += EQControl::MouseDelegate(&on_mousemove, c); #ifdef CEPSTRUM c_eq2 = new EQControl(EQ_POINTS); c_eq2->Change += EQControl::ChangeDelegate(&on_change, c_eq2); c_eq2->MouseMove += EQControl::MouseDelegate(&on_mousemove, c_eq2); #endif //UInt complexsize = (UInt)(((FFTFilter<jack_default_audio_sample_t>*)filt[0])->PeriodSize() / 2) + 1; apply_label_workaround(label8); b_params->signal_clicked().connect([]() { Gtk::Window* w1; Gtk::Dialog* d; b->get_widget("window1", w1); b->get_widget("dialog1", d); d->set_transient_for(*w1); if(d->run() != RESPONSE_APPLY)goto hhhhh; FFTFilter<jack_default_audio_sample_t>** tmp; tmp = new FFTFilter<jack_default_audio_sample_t>*[CHANNELS]; Int bs, overlap, bpp, padding1, padding2, fftsize; Gtk::Entry* ent; b->get_widget("t_bs", ent); bs = atoi(ent->get_text().c_str()); b->get_widget("t_overlap", ent); overlap = atoi(ent->get_text().c_str()); b->get_widget("t_bpp", ent); bpp = atoi(ent->get_text().c_str()); b->get_widget("t_padding1", ent); padding1 = atoi(ent->get_text().c_str()); b->get_widget("t_padding2", ent); padding2 = atoi(ent->get_text().c_str()); b->get_widget("t_fftsize", ent); fftsize = atoi(ent->get_text().c_str()); Int buffers; buffers = (bpp + padding1 + padding2) + 4; for(int i = 0; i < CHANNELS; i++) { tmp[i] = new FFTFilter<jack_default_audio_sample_t> //bs, inbuffers, outbuffers, overlap,buffersperperiod, padding1,padding2 fftsize (bs, buffers, buffers, overlap,bpp, padding1,padding2, fftsize); setFilterParams(*(tmp[i])); } update_fft(tmp); apply_pitchshift1(tmp); filt2 = tmp; //assumed to be atomic on all cpus, otherwise the cpu sucks and is not supported hhhhh: d->hide(); }); b_shift->signal_clicked().connect([]() { Gtk::Window* w1; Gtk::Dialog* d; b->get_widget("window1", w1); b->get_widget("dialog_shift", d); d->set_transient_for(*w1); if(d->run() != RESPONSE_OK)goto hhhhh; Gtk::Entry* ent; b->get_widget("t_x", ent); double x; x = atof(ent->get_text().c_str()); for(Int i=0;i<EQ_POINTS;i++) { c->data[i]=scale_value_r(scale_value(c->data[i])*pow(2,x)); } c->do_draw(); update_fft(); hhhhh: d->hide(); }); //d->signal_response().connect(&on_response); filechooserdialog1->add_button(Stock::CANCEL, RESPONSE_CANCEL); viewport1->add(*c); //c->set_hexpand(true); //c->set_vexpand(true); c->show(); #ifdef CEPSTRUM Gtk::Viewport* vp_eq2; b->get_widget("vp_eq2", vp_eq2); vp_eq2->add(*c_eq2); c_eq2->show(); #endif //if(display_spectrum) //{ c2 = new EQControl(EQ_POINTS); viewport2->add(*c2); c2->show(); c2->MouseMove += EQControl::MouseDelegate(&on_mousemove, c2); c3 = new HistoryControl(SPECTROGRAM_LEN,EQ_POINTS); c3->show(); viewport4->add(*c3); /*} else { Gtk::Table* t1; b->get_widget("table1",t1); t1->remove(*v); }*/ //spectrum display c_spectrum->set_active(display_spectrum); viewport2->set_visible(display_spectrum); c_spectrum->signal_toggled().connect([c_spectrum]() { Gtk::Window* w1; Gtk::Viewport* v; b->get_widget("window1", w1); b->get_widget("viewport1", v); gint ww,wh; w1->get_size(ww,wh); if(display_spectrum && !c_spectrum->get_active()) { w1->resize(ww,wh-v->get_allocation().get_height()); } else if(!display_spectrum && c_spectrum->get_active()) { w1->resize(ww,wh+v->get_allocation().get_height()); } display_spectrum = c_spectrum->get_active(); Gtk::Viewport* vp; b->get_widget("viewport2", vp); vp->set_visible(display_spectrum); }); //spectrogram display c_spectrogram->set_active(display_spectrogram); viewport4->set_visible(display_spectrogram); c_spectrogram->signal_toggled().connect([c_spectrogram]() { Gtk::Window* w1; Gtk::Viewport* v; b->get_widget("window1", w1); b->get_widget("viewport1", v); gint ww,wh; w1->get_size(ww,wh); if(display_spectrogram && !c_spectrogram->get_active()) { w1->resize(ww,wh-v->get_allocation().get_height()); } else if(!display_spectrogram && c_spectrogram->get_active()) { w1->resize(ww,wh+v->get_allocation().get_height()); } display_spectrogram = c_spectrogram->get_active(); Gtk::Viewport* vp; b->get_widget("viewport4", vp); vp->set_visible(display_spectrogram); }); //spectrogram output c_spectrogram1->set_active(output_spectrogram); c_spectrogram1->signal_toggled().connect([c_spectrogram1]() { if(output_spectrogram && !c_spectrogram1->get_active()) { disableSpectrogramOutput(); } else if(!output_spectrogram && c_spectrogram1->get_active()) { enableSpectrogramOutput(); } wmb(); output_spectrogram=c_spectrogram1->get_active(); }); c_spectrum2->set_active(spectrum2); c_spectrum2->signal_toggled().connect([c_spectrum2]() { spectrum2 = c_spectrum2->get_active(); }); c_mux->set_active(do_mux); Gtk::Adjustment adj_mux(v_mux,0,1,0.01); s_mux->set_adjustment(adj_mux); auto update_mux=[&]() { do_mux=c_mux->get_active(); v_mux=adj_mux.get_value(); }; s_mux->signal_value_changed().connect(update_mux); c_mux->signal_toggled().connect(update_mux); load(); if(jack_activate(client)) { fprintf(stderr, "cannot activate client"); return 1; } g_thread_init (NULL); gdk_threads_init(); //glib_threads_init(); pthread_t thr; pthread_create(&thr,NULL,&thread1,NULL); gdk_threads_enter(); kit.run(*window1); gdk_threads_leave(); jack_client_close(client); return 0; }