/* * Copyright (C) 2006 Paul Davis * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * */ #include #include #include #include #include #include #include "pbd/gstdio_compat.h" #include #include #include #include #include #include "ardour/amp.h" #include "ardour/session.h" #include "ardour/route.h" #include "ardour/audio_track.h" #include "ardour/midi_track.h" #include "ardour/monitor_control.h" #include "ardour/dB.h" #include "ardour/filesystem_paths.h" #include "ardour/panner.h" #include "ardour/plugin.h" #include "ardour/plugin_insert.h" #include "ardour/presentation_info.h" #include "ardour/send.h" #include "ardour/internal_send.h" #include "ardour/phase_control.h" #include "ardour/solo_isolate_control.h" #include "ardour/solo_safe_control.h" #include "ardour/vca_manager.h" #include "osc_select_observer.h" #include "osc.h" #include "osc_controllable.h" #include "osc_route_observer.h" #include "osc_global_observer.h" #include "osc_cue_observer.h" #include "pbd/i18n.h" using namespace ARDOUR; using namespace std; using namespace Glib; using namespace ArdourSurface; #include "pbd/abstract_ui.cc" // instantiate template OSC* OSC::_instance = 0; #ifdef DEBUG static void error_callback(int num, const char *m, const char *path) { fprintf(stderr, "liblo server error %d in path %s: %s\n", num, path, m); } #else static void error_callback(int, const char *, const char *) { } #endif OSC::OSC (Session& s, uint32_t port) : ControlProtocol (s, X_("Open Sound Control (OSC)")) , AbstractUI (name()) , local_server (0) , remote_server (0) , _port(port) , _ok (true) , _shutdown (false) , _osc_server (0) , _osc_unix_server (0) , _debugmode (Off) , address_only (false) , remote_port ("8000") , default_banksize (0) , default_strip (159) , default_feedback (0) , default_gainmode (0) , tick (true) , bank_dirty (false) , gui (0) { _instance = this; session->Exported.connect (*this, MISSING_INVALIDATOR, boost::bind (&OSC::session_exported, this, _1, _2), this); } OSC::~OSC() { stop (); tear_down_gui (); _instance = 0; } void* OSC::request_factory (uint32_t num_requests) { /* AbstractUI::request_buffer_factory() is a template method only instantiated in this source module. To provide something visible for use in the interface/descriptor, we have this static method that is template-free. */ return request_buffer_factory (num_requests); } void OSC::do_request (OSCUIRequest* req) { if (req->type == CallSlot) { call_slot (MISSING_INVALIDATOR, req->the_slot); } else if (req->type == Quit) { stop (); } } int OSC::set_active (bool yn) { if (yn != active()) { if (yn) { if (start ()) { return -1; } } else { if (stop ()) { return -1; } } } return ControlProtocol::set_active (yn); } bool OSC::get_active () const { return _osc_server != 0; } int OSC::start () { char tmpstr[255]; if (_osc_server) { /* already started */ return 0; } for (int j=0; j < 20; ++j) { snprintf(tmpstr, sizeof(tmpstr), "%d", _port); //if ((_osc_server = lo_server_new_with_proto (tmpstr, LO_TCP, error_callback))) { // break; //} if ((_osc_server = lo_server_new (tmpstr, error_callback))) { break; } #ifdef DEBUG cerr << "can't get osc at port: " << _port << endl; #endif _port++; continue; } if (!_osc_server) { return 1; } #ifdef ARDOUR_OSC_UNIX_SERVER // APPEARS sluggish for now // attempt to create unix socket server too snprintf(tmpstr, sizeof(tmpstr), "/tmp/sooperlooper_XXXXXX"); int fd = mkstemp(tmpstr); if (fd >= 0 ) { ::g_unlink (tmpstr); close (fd); _osc_unix_server = lo_server_new (tmpstr, error_callback); if (_osc_unix_server) { _osc_unix_socket_path = tmpstr; } } #endif PBD::info << "OSC @ " << get_server_url () << endmsg; std::string url_file; if (find_file (ardour_config_search_path(), "osc_url", url_file)) { _osc_url_file = url_file; if (g_file_set_contents (_osc_url_file.c_str(), get_server_url().c_str(), -1, NULL)) { cerr << "Couldn't write '" << _osc_url_file << "'" < periodic_timeout = Glib::TimeoutSource::create (100); // milliseconds periodic_connection = periodic_timeout->connect (sigc::mem_fun (*this, &OSC::periodic)); periodic_timeout->attach (main_loop()->get_context()); // catch changes to selection for GUI_select mode StripableSelectionChanged.connect (session_connections, MISSING_INVALIDATOR, boost::bind (&OSC::gui_selection_changed, this), this); // catch track reordering // receive routes added session->RouteAdded.connect(session_connections, MISSING_INVALIDATOR, boost::bind (&OSC::notify_routes_added, this, _1), this); // receive VCAs added session->vca_manager().VCAAdded.connect(session_connections, MISSING_INVALIDATOR, boost::bind (&OSC::notify_vca_added, this, _1), this); // order changed PresentationInfo::Change.connect (session_connections, MISSING_INVALIDATOR, boost::bind (&OSC::recalcbanks, this), this); _select = boost::shared_ptr(); return 0; } void OSC::thread_init () { pthread_set_name (event_loop_name().c_str()); if (_osc_unix_server) { Glib::RefPtr src = IOSource::create (lo_server_get_socket_fd (_osc_unix_server), IO_IN|IO_HUP|IO_ERR); src->connect (sigc::bind (sigc::mem_fun (*this, &OSC::osc_input_handler), _osc_unix_server)); src->attach (_main_loop->get_context()); local_server = src->gobj(); g_source_ref (local_server); } if (_osc_server) { #ifdef PLATFORM_WINDOWS Glib::RefPtr chan = Glib::IOChannel::create_from_win32_socket (lo_server_get_socket_fd (_osc_server)); Glib::RefPtr src = IOSource::create (chan, IO_IN|IO_HUP|IO_ERR); #else Glib::RefPtr src = IOSource::create (lo_server_get_socket_fd (_osc_server), IO_IN|IO_HUP|IO_ERR); #endif src->connect (sigc::bind (sigc::mem_fun (*this, &OSC::osc_input_handler), _osc_server)); src->attach (_main_loop->get_context()); remote_server = src->gobj(); g_source_ref (remote_server); } PBD::notify_event_loops_about_thread_creation (pthread_self(), event_loop_name(), 2048); SessionEvent::create_per_thread_pool (event_loop_name(), 128); } int OSC::stop () { /* stop main loop */ if (local_server) { g_source_destroy (local_server); g_source_unref (local_server); local_server = 0; } if (remote_server) { g_source_destroy (remote_server); g_source_unref (remote_server); remote_server = 0; } BaseUI::quit (); if (_osc_server) { lo_server_free (_osc_server); _osc_server = 0; } if (_osc_unix_server) { lo_server_free (_osc_unix_server); _osc_unix_server = 0; } if (!_osc_unix_socket_path.empty()) { ::g_unlink (_osc_unix_socket_path.c_str()); } if (!_osc_url_file.empty() ) { ::g_unlink (_osc_url_file.c_str() ); } periodic_connection.disconnect (); session_connections.drop_connections (); cueobserver_connections.drop_connections (); // Delete any active route observers for (RouteObservers::iterator x = route_observers.begin(); x != route_observers.end();) { OSCRouteObserver* rc; if ((rc = dynamic_cast(*x)) != 0) { delete *x; x = route_observers.erase (x); } else { ++x; } } // Should maybe do global_observers too for (GlobalObservers::iterator x = global_observers.begin(); x != global_observers.end();) { OSCGlobalObserver* gc; if ((gc = dynamic_cast(*x)) != 0) { delete *x; x = global_observers.erase (x); } else { ++x; } } // delete select observers for (uint32_t it = 0; it < _surface.size(); ++it) { OSCSurface* sur = &_surface[it]; OSCSelectObserver* so; if ((so = dynamic_cast(sur->sel_obs)) != 0) { delete so; } } // delete cue observers for (CueObservers::iterator x = cue_observers.begin(); x != cue_observers.end();) { OSCCueObserver* co; if ((co = dynamic_cast(*x)) != 0) { delete *x; x = cue_observers.erase (x); } else { ++x; } } return 0; } void OSC::register_callbacks() { lo_server srvs[2]; lo_server serv; srvs[0] = _osc_server; srvs[1] = _osc_unix_server; for (size_t i = 0; i < 2; ++i) { if (!srvs[i]) { continue; } serv = srvs[i]; #define REGISTER_CALLBACK(serv,path,types, function) lo_server_add_method (serv, path, types, OSC::_ ## function, this) // Some controls have optional "f" for feedback or touchosc // http://hexler.net/docs/touchosc-controls-reference REGISTER_CALLBACK (serv, "/set_surface", "iiii", set_surface); REGISTER_CALLBACK (serv, "/set_surface/feedback", "i", set_surface_feedback); REGISTER_CALLBACK (serv, "/set_surface/bank_size", "i", set_surface_bank_size); REGISTER_CALLBACK (serv, "/set_surface/gainmode", "i", set_surface_gainmode); REGISTER_CALLBACK (serv, "/set_surface/strip_types", "i", set_surface_strip_types); REGISTER_CALLBACK (serv, "/refresh", "", refresh_surface); REGISTER_CALLBACK (serv, "/refresh", "f", refresh_surface); REGISTER_CALLBACK (serv, "/strip/list", "", routes_list); REGISTER_CALLBACK (serv, "/add_marker", "", add_marker); REGISTER_CALLBACK (serv, "/add_marker", "f", add_marker); REGISTER_CALLBACK (serv, "/access_action", "s", access_action); REGISTER_CALLBACK (serv, "/loop_toggle", "", loop_toggle); REGISTER_CALLBACK (serv, "/loop_toggle", "f", loop_toggle); REGISTER_CALLBACK (serv, "/loop_location", "ii", loop_location); REGISTER_CALLBACK (serv, "/goto_start", "", goto_start); REGISTER_CALLBACK (serv, "/goto_start", "f", goto_start); REGISTER_CALLBACK (serv, "/goto_end", "", goto_end); REGISTER_CALLBACK (serv, "/goto_end", "f", goto_end); REGISTER_CALLBACK (serv, "/rewind", "", rewind); REGISTER_CALLBACK (serv, "/rewind", "f", rewind); REGISTER_CALLBACK (serv, "/ffwd", "", ffwd); REGISTER_CALLBACK (serv, "/ffwd", "f", ffwd); REGISTER_CALLBACK (serv, "/transport_stop", "", transport_stop); REGISTER_CALLBACK (serv, "/transport_stop", "f", transport_stop); REGISTER_CALLBACK (serv, "/transport_play", "", transport_play); REGISTER_CALLBACK (serv, "/transport_play", "f", transport_play); REGISTER_CALLBACK (serv, "/transport_frame", "", transport_frame); REGISTER_CALLBACK (serv, "/transport_speed", "", transport_speed); REGISTER_CALLBACK (serv, "/record_enabled", "", record_enabled); REGISTER_CALLBACK (serv, "/set_transport_speed", "f", set_transport_speed); // locate ii is position and bool roll REGISTER_CALLBACK (serv, "/locate", "ii", locate); REGISTER_CALLBACK (serv, "/save_state", "", save_state); REGISTER_CALLBACK (serv, "/save_state", "f", save_state); REGISTER_CALLBACK (serv, "/prev_marker", "", prev_marker); REGISTER_CALLBACK (serv, "/prev_marker", "f", prev_marker); REGISTER_CALLBACK (serv, "/next_marker", "", next_marker); REGISTER_CALLBACK (serv, "/next_marker", "f", next_marker); REGISTER_CALLBACK (serv, "/undo", "", undo); REGISTER_CALLBACK (serv, "/undo", "f", undo); REGISTER_CALLBACK (serv, "/redo", "", redo); REGISTER_CALLBACK (serv, "/redo", "f", redo); REGISTER_CALLBACK (serv, "/toggle_punch_in", "", toggle_punch_in); REGISTER_CALLBACK (serv, "/toggle_punch_in", "f", toggle_punch_in); REGISTER_CALLBACK (serv, "/toggle_punch_out", "", toggle_punch_out); REGISTER_CALLBACK (serv, "/toggle_punch_out", "f", toggle_punch_out); REGISTER_CALLBACK (serv, "/rec_enable_toggle", "", rec_enable_toggle); REGISTER_CALLBACK (serv, "/rec_enable_toggle", "f", rec_enable_toggle); REGISTER_CALLBACK (serv, "/toggle_all_rec_enables", "", toggle_all_rec_enables); REGISTER_CALLBACK (serv, "/toggle_all_rec_enables", "f", toggle_all_rec_enables); REGISTER_CALLBACK (serv, "/all_tracks_rec_in", "f", all_tracks_rec_in); REGISTER_CALLBACK (serv, "/all_tracks_rec_out", "f", all_tracks_rec_out); REGISTER_CALLBACK (serv, "/cancel_all_solos", "f", cancel_all_solos); REGISTER_CALLBACK (serv, "/remove_marker", "", remove_marker_at_playhead); REGISTER_CALLBACK (serv, "/remove_marker", "f", remove_marker_at_playhead); REGISTER_CALLBACK (serv, "/jump_bars", "f", jump_by_bars); REGISTER_CALLBACK (serv, "/jump_seconds", "f", jump_by_seconds); REGISTER_CALLBACK (serv, "/mark_in", "", mark_in); REGISTER_CALLBACK (serv, "/mark_in", "f", mark_in); REGISTER_CALLBACK (serv, "/mark_out", "", mark_out); REGISTER_CALLBACK (serv, "/mark_out", "f", mark_out); REGISTER_CALLBACK (serv, "/toggle_click", "", toggle_click); REGISTER_CALLBACK (serv, "/toggle_click", "f", toggle_click); REGISTER_CALLBACK (serv, "/midi_panic", "", midi_panic); REGISTER_CALLBACK (serv, "/midi_panic", "f", midi_panic); REGISTER_CALLBACK (serv, "/toggle_roll", "", toggle_roll); REGISTER_CALLBACK (serv, "/toggle_roll", "f", toggle_roll); REGISTER_CALLBACK (serv, "/stop_forget", "", stop_forget); REGISTER_CALLBACK (serv, "/stop_forget", "f", stop_forget); REGISTER_CALLBACK (serv, "/set_punch_range", "", set_punch_range); REGISTER_CALLBACK (serv, "/set_punch_range", "f", set_punch_range); REGISTER_CALLBACK (serv, "/set_loop_range", "", set_loop_range); REGISTER_CALLBACK (serv, "/set_loop_range", "f", set_loop_range); REGISTER_CALLBACK (serv, "/set_session_range", "", set_session_range); REGISTER_CALLBACK (serv, "/set_session_range", "f", set_session_range); REGISTER_CALLBACK (serv, "/toggle_monitor_mute", "", toggle_monitor_mute); REGISTER_CALLBACK (serv, "/toggle_monitor_mute", "f", toggle_monitor_mute); REGISTER_CALLBACK (serv, "/toggle_monitor_dim", "", toggle_monitor_dim); REGISTER_CALLBACK (serv, "/toggle_monitor_dim", "f", toggle_monitor_dim); REGISTER_CALLBACK (serv, "/toggle_monitor_mono", "", toggle_monitor_mono); REGISTER_CALLBACK (serv, "/toggle_monitor_mono", "f", toggle_monitor_mono); REGISTER_CALLBACK (serv, "/quick_snapshot_switch", "", quick_snapshot_switch); REGISTER_CALLBACK (serv, "/quick_snapshot_switch", "f", quick_snapshot_switch); REGISTER_CALLBACK (serv, "/quick_snapshot_stay", "", quick_snapshot_stay); REGISTER_CALLBACK (serv, "/quick_snapshot_stay", "f", quick_snapshot_stay); REGISTER_CALLBACK (serv, "/fit_1_track", "", fit_1_track); REGISTER_CALLBACK (serv, "/fit_1_track", "f", fit_1_track); REGISTER_CALLBACK (serv, "/fit_2_tracks", "", fit_2_tracks); REGISTER_CALLBACK (serv, "/fit_2_tracks", "f", fit_2_tracks); REGISTER_CALLBACK (serv, "/fit_4_tracks", "", fit_4_tracks); REGISTER_CALLBACK (serv, "/fit_4_tracks", "f", fit_4_tracks); REGISTER_CALLBACK (serv, "/fit_8_tracks", "", fit_8_tracks); REGISTER_CALLBACK (serv, "/fit_8_tracks", "f", fit_8_tracks); REGISTER_CALLBACK (serv, "/fit_16_tracks", "", fit_16_tracks); REGISTER_CALLBACK (serv, "/fit_16_tracks", "f", fit_16_tracks); REGISTER_CALLBACK (serv, "/fit_32_tracks", "", fit_32_tracks); REGISTER_CALLBACK (serv, "/fit_32_tracks", "f", fit_32_tracks); REGISTER_CALLBACK (serv, "/fit_all_tracks", "", fit_all_tracks); REGISTER_CALLBACK (serv, "/fit_all_tracks", "f", fit_all_tracks); REGISTER_CALLBACK (serv, "/zoom_100_ms", "", zoom_100_ms); REGISTER_CALLBACK (serv, "/zoom_100_ms", "f", zoom_100_ms); REGISTER_CALLBACK (serv, "/zoom_1_sec", "", zoom_1_sec); REGISTER_CALLBACK (serv, "/zoom_1_sec", "f", zoom_1_sec); REGISTER_CALLBACK (serv, "/zoom_10_sec", "", zoom_10_sec); REGISTER_CALLBACK (serv, "/zoom_10_sec", "f", zoom_10_sec); REGISTER_CALLBACK (serv, "/zoom_1_min", "", zoom_1_min); REGISTER_CALLBACK (serv, "/zoom_1_min", "f", zoom_1_min); REGISTER_CALLBACK (serv, "/zoom_5_min", "", zoom_5_min); REGISTER_CALLBACK (serv, "/zoom_5_min", "f", zoom_5_min); REGISTER_CALLBACK (serv, "/zoom_10_min", "", zoom_10_min); REGISTER_CALLBACK (serv, "/zoom_10_min", "f", zoom_10_min); REGISTER_CALLBACK (serv, "/zoom_to_session", "", zoom_to_session); REGISTER_CALLBACK (serv, "/zoom_to_session", "f", zoom_to_session); REGISTER_CALLBACK (serv, "/temporal_zoom_in", "f", temporal_zoom_in); REGISTER_CALLBACK (serv, "/temporal_zoom_in", "", temporal_zoom_in); REGISTER_CALLBACK (serv, "/temporal_zoom_out", "", temporal_zoom_out); REGISTER_CALLBACK (serv, "/temporal_zoom_out", "f", temporal_zoom_out); REGISTER_CALLBACK (serv, "/scroll_up_1_track", "f", scroll_up_1_track); REGISTER_CALLBACK (serv, "/scroll_up_1_track", "", scroll_up_1_track); REGISTER_CALLBACK (serv, "/scroll_dn_1_track", "f", scroll_dn_1_track); REGISTER_CALLBACK (serv, "/scroll_dn_1_track", "", scroll_dn_1_track); REGISTER_CALLBACK (serv, "/scroll_up_1_page", "f", scroll_up_1_page); REGISTER_CALLBACK (serv, "/scroll_up_1_page", "", scroll_up_1_page); REGISTER_CALLBACK (serv, "/scroll_dn_1_page", "f", scroll_dn_1_page); REGISTER_CALLBACK (serv, "/scroll_dn_1_page", "", scroll_dn_1_page); REGISTER_CALLBACK (serv, "/bank_up", "", bank_up); REGISTER_CALLBACK (serv, "/bank_up", "f", bank_up); REGISTER_CALLBACK (serv, "/bank_down", "", bank_down); REGISTER_CALLBACK (serv, "/bank_down", "f", bank_down); // controls for "special" strips REGISTER_CALLBACK (serv, "/master/gain", "f", master_set_gain); REGISTER_CALLBACK (serv, "/master/fader", "f", master_set_fader); REGISTER_CALLBACK (serv, "/master/mute", "i", master_set_mute); REGISTER_CALLBACK (serv, "/master/trimdB", "f", master_set_trim); REGISTER_CALLBACK (serv, "/master/pan_stereo_position", "f", master_set_pan_stereo_position); REGISTER_CALLBACK (serv, "/monitor/gain", "f", monitor_set_gain); REGISTER_CALLBACK (serv, "/monitor/fader", "f", monitor_set_fader); REGISTER_CALLBACK (serv, "/monitor/mute", "i", monitor_set_mute); REGISTER_CALLBACK (serv, "/monitor/dim", "i", monitor_set_dim); REGISTER_CALLBACK (serv, "/monitor/mono", "i", monitor_set_mono); // Controls for the Selected strip REGISTER_CALLBACK (serv, "/select/recenable", "i", sel_recenable); REGISTER_CALLBACK (serv, "/select/record_safe", "i", sel_recsafe); REGISTER_CALLBACK (serv, "/select/mute", "i", sel_mute); REGISTER_CALLBACK (serv, "/select/solo", "i", sel_solo); REGISTER_CALLBACK (serv, "/select/solo_iso", "i", sel_solo_iso); REGISTER_CALLBACK (serv, "/select/solo_safe", "i", sel_solo_safe); REGISTER_CALLBACK (serv, "/select/monitor_input", "i", sel_monitor_input); REGISTER_CALLBACK (serv, "/select/monitor_disk", "i", sel_monitor_disk); REGISTER_CALLBACK (serv, "/select/polarity", "i", sel_phase); REGISTER_CALLBACK (serv, "/select/gain", "f", sel_gain); REGISTER_CALLBACK (serv, "/select/fader", "f", sel_fader); REGISTER_CALLBACK (serv, "/select/trimdB", "f", sel_trim); REGISTER_CALLBACK (serv, "/select/pan_stereo_position", "f", sel_pan_position); REGISTER_CALLBACK (serv, "/select/pan_stereo_width", "f", sel_pan_width); REGISTER_CALLBACK (serv, "/select/send_gain", "if", sel_sendgain); REGISTER_CALLBACK (serv, "/select/send_fader", "if", sel_sendfader); REGISTER_CALLBACK (serv, "/select/send_enable", "if", sel_sendenable); REGISTER_CALLBACK (serv, "/select/expand", "i", sel_expand); REGISTER_CALLBACK (serv, "/select/pan_elevation_position", "f", sel_pan_elevation); REGISTER_CALLBACK (serv, "/select/pan_frontback_position", "f", sel_pan_frontback); REGISTER_CALLBACK (serv, "/select/pan_lfe_control", "f", sel_pan_lfe); REGISTER_CALLBACK (serv, "/select/comp_enable", "f", sel_comp_enable); REGISTER_CALLBACK (serv, "/select/comp_threshold", "f", sel_comp_threshold); REGISTER_CALLBACK (serv, "/select/comp_speed", "f", sel_comp_speed); REGISTER_CALLBACK (serv, "/select/comp_mode", "f", sel_comp_mode); REGISTER_CALLBACK (serv, "/select/comp_makeup", "f", sel_comp_makeup); REGISTER_CALLBACK (serv, "/select/eq_enable", "f", sel_eq_enable); REGISTER_CALLBACK (serv, "/select/eq_hpf", "f", sel_eq_hpf); REGISTER_CALLBACK (serv, "/select/eq_gain", "if", sel_eq_gain); REGISTER_CALLBACK (serv, "/select/eq_freq", "if", sel_eq_freq); REGISTER_CALLBACK (serv, "/select/eq_q", "if", sel_eq_q); REGISTER_CALLBACK (serv, "/select/eq_shape", "if", sel_eq_shape); /* These commands require the route index in addition to the arg; TouchOSC (et al) can't use these */ REGISTER_CALLBACK (serv, "/strip/mute", "ii", route_mute); REGISTER_CALLBACK (serv, "/strip/solo", "ii", route_solo); REGISTER_CALLBACK (serv, "/strip/solo_iso", "ii", route_solo_iso); REGISTER_CALLBACK (serv, "/strip/solo_safe", "ii", route_solo_safe); REGISTER_CALLBACK (serv, "/strip/recenable", "ii", route_recenable); REGISTER_CALLBACK (serv, "/strip/record_safe", "ii", route_recsafe); REGISTER_CALLBACK (serv, "/strip/monitor_input", "ii", route_monitor_input); REGISTER_CALLBACK (serv, "/strip/monitor_disk", "ii", route_monitor_disk); REGISTER_CALLBACK (serv, "/strip/expand", "ii", strip_expand); REGISTER_CALLBACK (serv, "/strip/select", "ii", strip_gui_select); REGISTER_CALLBACK (serv, "/strip/polarity", "ii", strip_phase); REGISTER_CALLBACK (serv, "/strip/gain", "if", route_set_gain_dB); REGISTER_CALLBACK (serv, "/strip/fader", "if", route_set_gain_fader); REGISTER_CALLBACK (serv, "/strip/trimdB", "if", route_set_trim_dB); REGISTER_CALLBACK (serv, "/strip/pan_stereo_position", "if", route_set_pan_stereo_position); REGISTER_CALLBACK (serv, "/strip/pan_stereo_width", "if", route_set_pan_stereo_width); REGISTER_CALLBACK (serv, "/strip/plugin/parameter", "iiif", route_plugin_parameter); // prints to cerr only REGISTER_CALLBACK (serv, "/strip/plugin/parameter/print", "iii", route_plugin_parameter_print); REGISTER_CALLBACK (serv, "/strip/plugin/activate", "ii", route_plugin_activate); REGISTER_CALLBACK (serv, "/strip/plugin/deactivate", "ii", route_plugin_deactivate); REGISTER_CALLBACK (serv, "/strip/send/gain", "iif", route_set_send_gain_dB); REGISTER_CALLBACK (serv, "/strip/send/fader", "iif", route_set_send_fader); REGISTER_CALLBACK (serv, "/strip/send/enable", "iif", route_set_send_enable); REGISTER_CALLBACK(serv, "/strip/name", "is", route_rename); REGISTER_CALLBACK(serv, "/strip/sends", "i", route_get_sends); REGISTER_CALLBACK(serv, "/strip/receives", "i", route_get_receives); REGISTER_CALLBACK(serv, "/strip/plugin/list", "i", route_plugin_list); REGISTER_CALLBACK(serv, "/strip/plugin/descriptor", "ii", route_plugin_descriptor); REGISTER_CALLBACK(serv, "/strip/plugin/reset", "ii", route_plugin_reset); /* still not-really-standardized query interface */ //REGISTER_CALLBACK (serv, "/ardour/*/#current_value", "", current_value); //REGISTER_CALLBACK (serv, "/ardour/set", "", set); // un/register_update args= s:ctrl s:returl s:retpath //lo_server_add_method(serv, "/register_update", "sss", OSC::global_register_update_handler, this); //lo_server_add_method(serv, "/unregister_update", "sss", OSC::global_unregister_update_handler, this); //lo_server_add_method(serv, "/register_auto_update", "siss", OSC::global_register_auto_update_handler, this); //lo_server_add_method(serv, "/unregister_auto_update", "sss", OSC::_global_unregister_auto_update_handler, this); /* this is a special catchall handler, * register at the end so this is only called if no * other handler matches (used for debug) */ lo_server_add_method (serv, 0, 0, _catchall, this); } } bool OSC::osc_input_handler (IOCondition ioc, lo_server srv) { if (ioc & ~IO_IN) { return false; } if (ioc & IO_IN) { lo_server_recv (srv); } return true; } std::string OSC::get_server_url() { string url; char * urlstr; if (_osc_server) { urlstr = lo_server_get_url (_osc_server); url = urlstr; free (urlstr); } return url; } std::string OSC::get_unix_server_url() { string url; char * urlstr; if (_osc_unix_server) { urlstr = lo_server_get_url (_osc_unix_server); url = urlstr; free (urlstr); } return url; } void OSC::gui_changed () { session->set_dirty(); } void OSC::listen_to_route (boost::shared_ptr strip, lo_address addr) { if (!strip) { return; } /* avoid duplicate listens */ for (RouteObservers::iterator x = route_observers.begin(); x != route_observers.end(); ++x) { OSCRouteObserver* ro; if ((ro = dynamic_cast(*x)) != 0) { int res = strcmp(lo_address_get_url(ro->address()), lo_address_get_url(addr)); if (ro->strip() == strip && res == 0) { return; } } } OSCSurface *s = get_surface(addr); uint32_t ssid = get_sid (strip, addr); OSCRouteObserver* o = new OSCRouteObserver (strip, addr, ssid, s); route_observers.push_back (o); strip->DropReferences.connect (*this, MISSING_INVALIDATOR, boost::bind (&OSC::route_lost, this, boost::weak_ptr (strip)), this); } void OSC::route_lost (boost::weak_ptr wr) { tick = false; drop_route (wr); bank_dirty = true; } void OSC::drop_route (boost::weak_ptr wr) { boost::shared_ptr r = wr.lock (); if (!r) { return; } for (RouteObservers::iterator x = route_observers.begin(); x != route_observers.end();) { OSCRouteObserver* rc; if ((rc = dynamic_cast(*x)) != 0) { if (rc->strip() == r) { delete *x; x = route_observers.erase (x); } else { ++x; } } else { ++x; } } } void OSC::end_listen (boost::shared_ptr r, lo_address addr) { RouteObservers::iterator x; // Remove the route observers for (x = route_observers.begin(); x != route_observers.end();) { OSCRouteObserver* ro; if ((ro = dynamic_cast(*x)) != 0) { int res = strcmp(lo_address_get_url(ro->address()), lo_address_get_url(addr)); if (ro->strip() == r && res == 0) { delete *x; x = route_observers.erase (x); } else { ++x; } } else { ++x; } } } void OSC::current_value_query (const char* path, size_t len, lo_arg **argv, int argc, lo_message msg) { char* subpath; subpath = (char*) malloc (len-15+1); memcpy (subpath, path, len-15); subpath[len-15] = '\0'; send_current_value (subpath, argv, argc, msg); free (subpath); } void OSC::send_current_value (const char* path, lo_arg** argv, int argc, lo_message msg) { if (!session) { return; } lo_message reply = lo_message_new (); boost::shared_ptr r; int id; lo_message_add_string (reply, path); if (argc == 0) { lo_message_add_string (reply, "bad syntax"); } else { id = argv[0]->i; r = session->get_remote_nth_route (id); if (!r) { lo_message_add_string (reply, "not found"); } else { if (strcmp (path, "/strip/state") == 0) { if (boost::dynamic_pointer_cast(r)) { lo_message_add_string (reply, "AT"); } else if (boost::dynamic_pointer_cast(r)) { lo_message_add_string (reply, "MT"); } else { lo_message_add_string (reply, "B"); } lo_message_add_string (reply, r->name().c_str()); lo_message_add_int32 (reply, r->n_inputs().n_audio()); lo_message_add_int32 (reply, r->n_outputs().n_audio()); lo_message_add_int32 (reply, r->muted()); lo_message_add_int32 (reply, r->soloed()); } else if (strcmp (path, "/strip/mute") == 0) { lo_message_add_int32 (reply, (float) r->muted()); } else if (strcmp (path, "/strip/solo") == 0) { lo_message_add_int32 (reply, r->soloed()); } } } lo_send_message (get_address (msg), "#reply", reply); lo_message_free (reply); } int OSC::_catchall (const char *path, const char *types, lo_arg **argv, int argc, void *data, void *user_data) { return ((OSC*)user_data)->catchall (path, types, argv, argc, data); } int OSC::catchall (const char *path, const char* types, lo_arg **argv, int argc, lo_message msg) { size_t len; int ret = 1; /* unhandled */ //cerr << "Received a message, path = " << path << " types = \"" // << (types ? types : "NULL") << '"' << endl; /* 15 for /#current_value plus 2 for / */ len = strlen (path); if (len >= 17 && !strcmp (&path[len-15], "/#current_value")) { current_value_query (path, len, argv, argc, msg); ret = 0; } else if (!strncmp (path, "/cue/", 5)) { cue_parse (path, types, argv, argc, msg); ret = 0; } else if (!strncmp (path, "/access_action/", 15)) { if (!(argc && !argv[0]->i)) { std::string action_path = path; access_action (action_path.substr(15)); std::cout << "access_action path = " << action_path.substr(15) << "\n"; } ret = 0; } else if (strcmp (path, "/strip/listen") == 0) { cerr << "set up listener\n"; lo_message reply = lo_message_new (); if (argc <= 0) { lo_message_add_string (reply, "syntax error"); } else { for (int n = 0; n < argc; ++n) { boost::shared_ptr r = session->get_remote_nth_route (argv[n]->i); if (!r) { lo_message_add_string (reply, "not found"); cerr << "no such route\n"; break; } else { cerr << "add listener\n"; listen_to_route (r, get_address (msg)); lo_message_add_int32 (reply, argv[n]->i); } } } lo_send_message (get_address (msg), "#reply", reply); lo_message_free (reply); ret = 0; } else if (strcmp (path, "/strip/ignore") == 0) { for (int n = 0; n < argc; ++n) { boost::shared_ptr r = session->get_remote_nth_route (argv[n]->i); if (r) { end_listen (r, get_address (msg)); } } ret = 0; } else if (!strncmp (path, "/strip/gain/", 12) && strlen (path) > 12) { // in dB int ssid = atoi (&path[12]); route_set_gain_dB (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/strip/fader/", 13) && strlen (path) > 13) { // in fader position int ssid = atoi (&path[13]); route_set_gain_fader (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/strip/trimdB/", 14) && strlen (path) > 14) { int ssid = atoi (&path[14]); route_set_trim_dB (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/strip/pan_stereo_position/", 27) && strlen (path) > 27) { int ssid = atoi (&path[27]); route_set_pan_stereo_position (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/strip/mute/", 12) && strlen (path) > 12) { int ssid = atoi (&path[12]); route_mute (ssid, argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/strip/solo/", 12) && strlen (path) > 12) { int ssid = atoi (&path[12]); route_solo (ssid, argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/strip/monitor_input/", 21) && strlen (path) > 21) { int ssid = atoi (&path[21]); route_monitor_input (ssid, argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/strip/monitor_disk/", 20) && strlen (path) > 20) { int ssid = atoi (&path[20]); route_monitor_disk (ssid, argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/strip/recenable/", 17) && strlen (path) > 17) { int ssid = atoi (&path[17]); route_recenable (ssid, argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/strip/record_safe/", 19) && strlen (path) > 19) { int ssid = atoi (&path[19]); route_recsafe (ssid, argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/strip/expand/", 14) && strlen (path) > 14) { int ssid = atoi (&path[14]); strip_expand (ssid, argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/strip/select/", 14) && strlen (path) > 14) { int ssid = atoi (&path[14]); strip_gui_select (ssid, argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/select/send_gain/", 18) && strlen (path) > 18) { int ssid = atoi (&path[18]); sel_sendgain (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/select/send_fader/", 19) && strlen (path) > 19) { int ssid = atoi (&path[19]); sel_sendfader (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/select/send_enable/", 20) && strlen (path) > 20) { int ssid = atoi (&path[20]); sel_sendenable (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/select/eq_gain/", 16) && strlen (path) > 16) { int ssid = atoi (&path[16]); sel_eq_gain (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/select/eq_freq/", 16) && strlen (path) > 16) { int ssid = atoi (&path[16]); sel_eq_freq (ssid, argv[0]->f , msg); ret = 0; } else if (!strncmp (path, "/select/eq_q/", 13) && strlen (path) > 13) { int ssid = atoi (&path[13]); sel_eq_q (ssid, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/select/eq_shape/", 17) && strlen (path) > 17) { int ssid = atoi (&path[17]); sel_eq_shape (ssid, argv[0]->f, msg); ret = 0; } if ((ret && _debugmode != Off)) { debugmsg (_("Unhandled OSC message"), path, types, argv, argc); } else if (!ret && _debugmode == All) { debugmsg (_("OSC"), path, types, argv, argc); } return ret; } void OSC::debugmsg (const char *prefix, const char *path, const char* types, lo_arg **argv, int argc) { std::stringstream ss; for (int i = 0; i < argc; ++i) { lo_type type = (lo_type)types[i]; ss << " "; switch (type) { case LO_INT32: ss << "i:" << argv[i]->i; break; case LO_FLOAT: ss << "f:" << argv[i]->f; break; case LO_DOUBLE: ss << "d:" << argv[i]->d; break; case LO_STRING: ss << "s:" << &argv[i]->s; break; case LO_INT64: ss << "h:" << argv[i]->h; break; case LO_CHAR: ss << "c:" << argv[i]->s; break; case LO_TIMETAG: ss << ""; break; case LO_BLOB: ss << ""; break; case LO_TRUE: ss << "#T"; break; case LO_FALSE: ss << "#F"; break; case LO_NIL: ss << "NIL"; break; case LO_INFINITUM: ss << "#inf"; break; case LO_MIDI: ss << ""; break; case LO_SYMBOL: ss << ""; break; default: ss << "< ?? >"; break; } } PBD::info << prefix << ": " << path << ss.str() << endmsg; } // "Application Hook" Handlers // void OSC::session_loaded (Session& s) { // lo_address listener = lo_address_new (NULL, "7770"); // lo_send (listener, "/session/loaded", "ss", s.path().c_str(), s.name().c_str()); } void OSC::session_exported (std::string path, std::string name) { lo_address listener = lo_address_new (NULL, "7770"); lo_send (listener, "/session/exported", "ss", path.c_str(), name.c_str()); lo_address_free (listener); } // end "Application Hook" Handlers // /* path callbacks */ int OSC::current_value (const char */*path*/, const char */*types*/, lo_arg **/*argv*/, int /*argc*/, void */*data*/, void* /*user_data*/) { #if 0 const char* returl; if (argc < 3 || types == 0 || strlen (types) < 3 || types[0] != 's' || types[1] != 's' || types[2] != s) { return 1; } const char *returl = argv[1]->s; lo_address addr = find_or_cache_addr (returl); const char *retpath = argv[2]->s; if (strcmp (argv[0]->s, "transport_frame") == 0) { if (session) { lo_send (addr, retpath, "i", session->transport_frame()); } } else if (strcmp (argv[0]->s, "transport_speed") == 0) { if (session) { lo_send (addr, retpath, "i", session->transport_frame()); } } else if (strcmp (argv[0]->s, "transport_locked") == 0) { if (session) { lo_send (addr, retpath, "i", session->transport_frame()); } } else if (strcmp (argv[0]->s, "punch_in") == 0) { if (session) { lo_send (addr, retpath, "i", session->transport_frame()); } } else if (strcmp (argv[0]->s, "punch_out") == 0) { if (session) { lo_send (addr, retpath, "i", session->transport_frame()); } } else if (strcmp (argv[0]->s, "rec_enable") == 0) { if (session) { lo_send (addr, retpath, "i", session->transport_frame()); } } else { /* error */ } #endif return 0; } void OSC::routes_list (lo_message msg) { if (!session) { return; } OSCSurface *sur = get_surface(get_address (msg)); sur->no_clear = true; for (int n = 0; n < (int) sur->nstrips; ++n) { boost::shared_ptr s = get_strip (n + 1, get_address (msg)); if (s) { // some things need the route boost::shared_ptr r = boost::dynamic_pointer_cast (s); lo_message reply = lo_message_new (); if (s->presentation_info().flags() & PresentationInfo::AudioTrack) { lo_message_add_string (reply, "AT"); } else if (s->presentation_info().flags() & PresentationInfo::MidiTrack) { lo_message_add_string (reply, "MT"); } else if (s->presentation_info().flags() & PresentationInfo::AudioBus) { // r->feeds (session->master_out()) may make more sense if (r->direct_feeds_according_to_reality (session->master_out())) { // this is a bus lo_message_add_string (reply, "B"); } else { // this is an Aux out lo_message_add_string (reply, "AX"); } } else if (s->presentation_info().flags() & PresentationInfo::MidiBus) { lo_message_add_string (reply, "MB"); } else if (s->presentation_info().flags() & PresentationInfo::VCA) { lo_message_add_string (reply, "V"); } lo_message_add_string (reply, s->name().c_str()); if (r) { // routes have inputs and outputs lo_message_add_int32 (reply, r->n_inputs().n_audio()); lo_message_add_int32 (reply, r->n_outputs().n_audio()); } else { // non-routes like VCAs don't lo_message_add_int32 (reply, 0); lo_message_add_int32 (reply, 0); } if (s->mute_control()) { lo_message_add_int32 (reply, s->mute_control()->get_value()); } else { lo_message_add_int32 (reply, 0); } if (s->solo_control()) { lo_message_add_int32 (reply, s->solo_control()->get_value()); } else { lo_message_add_int32 (reply, 0); } lo_message_add_int32 (reply, n + 1); if (s->rec_enable_control()) { lo_message_add_int32 (reply, s->rec_enable_control()->get_value()); } //Automatically listen to stripables listed listen_to_route(s, get_address (msg)); lo_send_message (get_address (msg), "#reply", reply); lo_message_free (reply); } } // Send end of listing message lo_message reply = lo_message_new (); lo_message_add_string (reply, "end_route_list"); lo_message_add_int64 (reply, session->frame_rate()); lo_message_add_int64 (reply, session->current_end_frame()); if (session->monitor_out()) { // this session has a monitor section lo_message_add_int32 (reply, 1); } else { lo_message_add_int32 (reply, 0); } lo_send_message (get_address (msg), "#reply", reply); lo_message_free (reply); } int OSC::cancel_all_solos () { session->cancel_all_solo (); return 0; } lo_address OSC::get_address (lo_message msg) { if (address_only) { lo_address addr = lo_message_get_source (msg); string host = lo_address_get_hostname (addr); int protocol = lo_address_get_protocol (addr); return lo_address_new_with_proto (protocol, host.c_str(), remote_port.c_str()); } else { return lo_message_get_source (msg); } } int OSC::refresh_surface (lo_message msg) { if (address_only) { // get rid of all surfaces and observers. // needs change to only clear those for this address on all ports clear_devices(); } OSCSurface *s = get_surface(get_address (msg)); // restart all observers set_surface (s->bank_size, (uint32_t) s->strip_types.to_ulong(), (uint32_t) s->feedback.to_ulong(), (uint32_t) s->gainmode, msg); return 0; } void OSC::clear_devices () { for (RouteObservers::iterator x = route_observers.begin(); x != route_observers.end();) { OSCRouteObserver* rc; if ((rc = dynamic_cast(*x)) != 0) { delete *x; x = route_observers.erase (x); } else { ++x; } // slow devices need time to clear buffers usleep ((uint32_t) 10); } // Should maybe do global_observers too for (GlobalObservers::iterator x = global_observers.begin(); x != global_observers.end();) { OSCGlobalObserver* gc; if ((gc = dynamic_cast(*x)) != 0) { delete *x; x = global_observers.erase (x); } else { ++x; } } // delete select observers for (uint32_t it = 0; it < _surface.size(); ++it) { OSCSurface* sur = &_surface[it]; OSCSelectObserver* so; if ((so = dynamic_cast(sur->sel_obs)) != 0) { delete so; } } // delete cue observers for (CueObservers::iterator x = cue_observers.begin(); x != cue_observers.end();) { OSCCueObserver* co; if ((co = dynamic_cast(*x)) != 0) { delete co; } else { ++x; } } // clear out surfaces _surface.clear(); } int OSC::set_surface (uint32_t b_size, uint32_t strips, uint32_t fb, uint32_t gm, lo_message msg) { OSCSurface *s = get_surface(get_address (msg)); s->bank_size = b_size; s->strip_types = strips; s->feedback = fb; s->gainmode = gm; // set bank and strip feedback set_bank(s->bank, msg); global_feedback (s->feedback, get_address (msg), s->gainmode); return 0; } int OSC::set_surface_bank_size (uint32_t bs, lo_message msg) { OSCSurface *s = get_surface(get_address (msg)); s->bank_size = bs; // set bank and strip feedback set_bank(s->bank, msg); return 0; } int OSC::set_surface_strip_types (uint32_t st, lo_message msg) { OSCSurface *s = get_surface(get_address (msg)); s->strip_types = st; // set bank and strip feedback set_bank(s->bank, msg); return 0; } int OSC::set_surface_feedback (uint32_t fb, lo_message msg) { OSCSurface *s = get_surface(get_address (msg)); s->feedback = fb; // set bank and strip feedback set_bank(s->bank, msg); // Set global/master feedback global_feedback (s->feedback, get_address (msg), s->gainmode); return 0; } int OSC::set_surface_gainmode (uint32_t gm, lo_message msg) { OSCSurface *s = get_surface(get_address (msg)); s->gainmode = gm; // set bank and strip feedback set_bank(s->bank, msg); // Set global/master feedback global_feedback (s->feedback, get_address (msg), s->gainmode); return 0; } OSC::OSCSurface * OSC::get_surface (lo_address addr) { string r_url; char * rurl; rurl = lo_address_get_url (addr); r_url = rurl; free (rurl); for (uint32_t it = 0; it < _surface.size(); ++it) { //find setup for this server if (!_surface[it].remote_url.find(r_url)){ return &_surface[it]; } } // if we do this when OSC is started we get the wrong stripable // we don't need this until we actually have a surface to deal with if (!_select || (_select != ControlProtocol::first_selected_stripable())) { gui_selection_changed(); } // No surface create one with default values OSCSurface s; s.remote_url = r_url; s.bank = 1; s.bank_size = default_banksize; // need to find out how many strips there are s.strip_types = default_strip; // 159 is tracks, busses, and VCAs (no master/monitor) s.feedback = default_feedback; s.gainmode = default_gainmode; s.sel_obs = 0; s.expand = 0; s.expand_enable = false; s.cue = false; s.strips = get_sorted_stripables(s.strip_types, s.cue); s.nstrips = s.strips.size(); _surface.push_back (s); return &_surface[_surface.size() - 1]; } // setup global feedback for a surface void OSC::global_feedback (bitset<32> feedback, lo_address addr, uint32_t gainmode) { // first destroy global observer for this surface GlobalObservers::iterator x; for (x = global_observers.begin(); x != global_observers.end();) { OSCGlobalObserver* ro; if ((ro = dynamic_cast(*x)) != 0) { int res = strcmp(lo_address_get_url(ro->address()), lo_address_get_url(addr)); if (res == 0) { delete *x; x = global_observers.erase (x); } else { ++x; } } else { ++x; } } if (feedback[4] || feedback[3] || feedback[5] || feedback[6]) { // create a new Global Observer for this surface OSCGlobalObserver* o = new OSCGlobalObserver (*session, addr, gainmode, /*s->*/feedback); global_observers.push_back (o); } } void OSC::notify_routes_added (ARDOUR::RouteList &) { // not sure if we need this PI change seems to cover //recalcbanks(); } void OSC::notify_vca_added (ARDOUR::VCAList &) { // not sure if we need this PI change seems to cover //recalcbanks(); } void OSC::recalcbanks () { tick = false; bank_dirty = true; } void OSC::_recalcbanks () { if (!_select || (_select != ControlProtocol::first_selected_stripable())) { _select = ControlProtocol::first_selected_stripable(); } // do a set_bank for each surface we know about. for (uint32_t it = 0; it < _surface.size(); ++it) { OSCSurface* sur = &_surface[it]; // find lo_address lo_address addr = lo_address_new_from_url (sur->remote_url.c_str()); if (sur->cue) { _cue_set (sur->aux, addr); } else { _set_bank (sur->bank, addr); } if (sur->no_clear) { // This surface uses /strip/list tell it routes have changed lo_message reply; reply = lo_message_new (); lo_send_message (addr, "/strip/list", reply); lo_message_free (reply); } } } /* * This gets called not only when bank changes but also: * - bank size change * - feedback change * - strip types changes * - fadermode changes * - stripable creation/deletion/flag * - to refresh what is "displayed" * Basically any time the bank needs to be rebuilt */ int OSC::set_bank (uint32_t bank_start, lo_message msg) { return _set_bank (bank_start, get_address (msg)); } // set bank is callable with either message or address int OSC::_set_bank (uint32_t bank_start, lo_address addr) { if (!session) { return -1; } // no nstripables yet if (!session->nroutes()) { return -1; } OSCSurface *s = get_surface (addr); // revert any expand to select s->expand = 0; s->expand_enable = false; _strip_select (ControlProtocol::first_selected_stripable(), addr); // undo all listeners for this url StripableList stripables; session->get_stripables (stripables); for (StripableList::iterator it = stripables.begin(); it != stripables.end(); ++it) { boost::shared_ptr stp = *it; if (stp) { end_listen (stp, addr); } // slow devices need time to clear buffers usleep ((uint32_t) 10); } s->strips = get_sorted_stripables(s->strip_types, s->cue); s->nstrips = s->strips.size(); uint32_t b_size; if (!s->bank_size) { // no banking - bank includes all stripables b_size = s->nstrips; } else { b_size = s->bank_size; } // Do limits checking if (bank_start < 1) bank_start = 1; if (b_size >= s->nstrips) { bank_start = 1; } else if (bank_start > ((s->nstrips - b_size) + 1)) { // top bank is always filled if there are enough strips for at least one bank bank_start = (uint32_t)((s->nstrips - b_size) + 1); } //save bank after bank limit checks s->bank = bank_start; if (s->feedback[0] || s->feedback[1]) { for (uint32_t n = bank_start; n < (min ((b_size + bank_start), s->nstrips + 1)); ++n) { if (n <= s->strips.size()) { boost::shared_ptr stp = s->strips[n - 1]; if (stp) { listen_to_route(stp, addr); } } // slow devices need time to clear buffers usleep ((uint32_t) 10); } } // light bankup or bankdown buttons if it is possible to bank in that direction if (s->feedback[4] && !s->no_clear) { lo_message reply; reply = lo_message_new (); if ((s->bank > (s->nstrips - s->bank_size)) || (s->nstrips < s->bank_size)) { lo_message_add_int32 (reply, 0); } else { lo_message_add_int32 (reply, 1); } lo_send_message (addr, "/bank_up", reply); lo_message_free (reply); reply = lo_message_new (); if (s->bank > 1) { lo_message_add_int32 (reply, 1); } else { lo_message_add_int32 (reply, 0); } lo_send_message (addr, "/bank_down", reply); lo_message_free (reply); } bank_dirty = false; tick = true; return 0; } int OSC::bank_up (lo_message msg) { if (!session) { return -1; } OSCSurface *s = get_surface(get_address (msg)); set_bank (s->bank + s->bank_size, msg); return 0; } int OSC::bank_down (lo_message msg) { if (!session) { return -1; } OSCSurface *s = get_surface(get_address (msg)); if (s->bank < s->bank_size) { set_bank (1, msg); } else { set_bank (s->bank - s->bank_size, msg); } return 0; } uint32_t OSC::get_sid (boost::shared_ptr strip, lo_address addr) { if (!strip) { return 0; } OSCSurface *s = get_surface(addr); uint32_t b_size; if (!s->bank_size) { // no banking b_size = s->nstrips; } else { b_size = s->bank_size; } for (uint32_t n = s->bank; n < (min ((b_size + s->bank), s->nstrips + 1)); ++n) { if (n <= s->strips.size()) { if (strip == s->strips[n-1]) { return n - s->bank + 1; } } } // failsafe... should never get here. return 0; } boost::shared_ptr OSC::get_strip (uint32_t ssid, lo_address addr) { OSCSurface *s = get_surface(addr); if (ssid && ((ssid + s->bank - 2) < s->nstrips)) { return s->strips[ssid + s->bank - 2]; } // guess it is out of range return boost::shared_ptr(); } void OSC::transport_frame (lo_message msg) { if (!session) { return; } framepos_t pos = session->transport_frame (); lo_message reply = lo_message_new (); lo_message_add_int64 (reply, pos); lo_send_message (get_address (msg), "/transport_frame", reply); lo_message_free (reply); } void OSC::transport_speed (lo_message msg) { if (!session) { return; } double ts = session->transport_speed (); lo_message reply = lo_message_new (); lo_message_add_double (reply, ts); lo_send_message (get_address (msg), "/transport_speed", reply); lo_message_free (reply); } void OSC::record_enabled (lo_message msg) { if (!session) { return; } int re = (int)session->get_record_enabled (); lo_message reply = lo_message_new (); lo_message_add_int32 (reply, re); lo_send_message (get_address (msg), "/record_enabled", reply); lo_message_free (reply); } // master and monitor calls int OSC::master_set_gain (float dB) { if (!session) return -1; boost::shared_ptr s = session->master_out(); if (s) { if (dB < -192) { s->gain_control()->set_value (0.0, PBD::Controllable::NoGroup); } else { s->gain_control()->set_value (dB_to_coefficient (dB), PBD::Controllable::NoGroup); } } return 0; } int OSC::master_set_fader (float position) { if (!session) return -1; boost::shared_ptr s = session->master_out(); if (s) { s->gain_control()->set_value (slider_position_to_gain_with_max (position, 2.0), PBD::Controllable::NoGroup); } return 0; } int OSC::master_set_trim (float dB) { if (!session) return -1; boost::shared_ptr s = session->master_out(); if (s) { s->trim_control()->set_value (dB_to_coefficient (dB), PBD::Controllable::NoGroup); } return 0; } int OSC::master_set_pan_stereo_position (float position, lo_message msg) { if (!session) return -1; float endposition = .5; boost::shared_ptr s = session->master_out(); if (s) { if (s->pan_azimuth_control()) { s->pan_azimuth_control()->set_value (s->pan_azimuth_control()->interface_to_internal (position), PBD::Controllable::NoGroup); endposition = s->pan_azimuth_control()->internal_to_interface (s->pan_azimuth_control()->get_value ()); } } OSCSurface *sur = get_surface(get_address (msg)); if (sur->feedback[4]) { lo_message reply = lo_message_new (); lo_message_add_float (reply, endposition); lo_send_message (get_address (msg), "/master/pan_stereo_position", reply); lo_message_free (reply); } return 0; } int OSC::master_set_mute (uint32_t state) { if (!session) return -1; boost::shared_ptr s = session->master_out(); if (s) { s->mute_control()->set_value (state, PBD::Controllable::NoGroup); } return 0; } int OSC::monitor_set_gain (float dB) { if (!session) return -1; boost::shared_ptr s = session->monitor_out(); if (s) { if (dB < -192) { s->gain_control()->set_value (0.0, PBD::Controllable::NoGroup); } else { s->gain_control()->set_value (dB_to_coefficient (dB), PBD::Controllable::NoGroup); } } return 0; } int OSC::monitor_set_fader (float position) { if (!session) return -1; boost::shared_ptr s = session->monitor_out(); if (s) { s->gain_control()->set_value (slider_position_to_gain_with_max (position, 2.0), PBD::Controllable::NoGroup); } return 0; } int OSC::monitor_set_mute (uint32_t state) { if (!session) return -1; if (session->monitor_out()) { boost::shared_ptr mon = session->monitor_out()->monitor_control(); mon->set_cut_all (state); } return 0; } int OSC::monitor_set_dim (uint32_t state) { if (!session) return -1; if (session->monitor_out()) { boost::shared_ptr mon = session->monitor_out()->monitor_control(); mon->set_dim_all (state); } return 0; } int OSC::monitor_set_mono (uint32_t state) { if (!session) return -1; if (session->monitor_out()) { boost::shared_ptr mon = session->monitor_out()->monitor_control(); mon->set_mono (state); } return 0; } int OSC::route_get_sends(lo_message msg) { if (!session) { return -1; } lo_arg **argv = lo_message_get_argv(msg); int rid = argv[0]->i; boost::shared_ptr strip = get_strip(rid, get_address(msg)); if (!strip) { return -1; } boost::shared_ptr r = boost::dynamic_pointer_cast (strip); if (!r) { return -1; } lo_message reply = lo_message_new(); lo_message_add_int32(reply, rid); int i = 0; for (;;) { boost::shared_ptr p = r->nth_send(i++); if (!p) { break; } boost::shared_ptr isend = boost::dynamic_pointer_cast (p); if (isend) { lo_message_add_int32(reply, get_sid(isend->target_route(), get_address(msg))); lo_message_add_string(reply, isend->name().c_str()); lo_message_add_int32(reply, i); boost::shared_ptr a = isend->amp(); lo_message_add_float(reply, gain_to_slider_position(a->gain_control()->get_value())); lo_message_add_int32(reply, p->active() ? 1 : 0); } } // if used dedicated message path to identify this reply in async operation. // Naming it #reply wont help the client to identify the content. lo_send_message(get_address (msg), "/strip/sends", reply); lo_message_free(reply); return 0; } int OSC::route_get_receives(lo_message msg) { if (!session) { return -1; } lo_arg **argv = lo_message_get_argv(msg); uint32_t rid = argv[0]->i; boost::shared_ptr strip = get_strip(rid, get_address(msg)); if (!strip) { return -1; } boost::shared_ptr r = boost::dynamic_pointer_cast (strip); if (!r) { return -1; } boost::shared_ptr route_list = session->get_routes(); lo_message reply = lo_message_new(); for (RouteList::iterator i = route_list->begin(); i != route_list->end(); ++i) { boost::shared_ptr tr = boost::dynamic_pointer_cast (*i); if (!tr) { continue; } int j = 0; for (;;) { boost::shared_ptr p = tr->nth_send(j++); if (!p) { break; } boost::shared_ptr isend = boost::dynamic_pointer_cast (p); if (isend) { if( isend->target_route()->id() == r->id()){ boost::shared_ptr a = isend->amp(); lo_message_add_int32(reply, get_sid(tr, get_address(msg))); lo_message_add_string(reply, tr->name().c_str()); lo_message_add_int32(reply, j); lo_message_add_float(reply, gain_to_slider_position(a->gain_control()->get_value())); lo_message_add_int32(reply, p->active() ? 1 : 0); } } } } // I have used a dedicated message path to identify this reply in async operation. // Naming it #reply wont help the client to identify the content. lo_send_message(get_address (msg), "/strip/receives", reply); lo_message_free(reply); return 0; } // strip calls int OSC::route_mute (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->mute_control()) { s->mute_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } return route_send_fail ("mute", ssid, 0, get_address (msg)); } int OSC::sel_mute (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->mute_control()) { s->mute_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } return sel_fail ("mute", 0, get_address (msg)); } int OSC::route_solo (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->solo_control()) { s->solo_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); } } return route_send_fail ("solo", ssid, 0, get_address (msg)); } int OSC::route_solo_iso (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->solo_isolate_control()) { s->solo_isolate_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } return route_send_fail ("solo_iso", ssid, 0, get_address (msg)); } int OSC::route_solo_safe (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, lo_message_get_source (msg)); if (s) { if (s->solo_safe_control()) { s->solo_safe_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } return route_send_fail ("solo_safe", ssid, 0, get_address (msg)); } int OSC::sel_solo (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->solo_control()) { session->set_control (s->solo_control(), yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); } } return sel_fail ("solo", 0, get_address (msg)); } int OSC::sel_solo_iso (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->solo_isolate_control()) { s->solo_isolate_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } return sel_fail ("solo_iso", 0, get_address (msg)); } int OSC::sel_solo_safe (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->solo_safe_control()) { s->solo_safe_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } return sel_fail ("solo_safe", 0, get_address (msg)); } int OSC::sel_recenable (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->rec_enable_control()) { s->rec_enable_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); if (s->rec_enable_control()->get_value()) { return 0; } } } return sel_fail ("recenable", 0, get_address (msg)); } int OSC::route_recenable (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->rec_enable_control()) { s->rec_enable_control()->set_value (yn, PBD::Controllable::UseGroup); if (s->rec_enable_control()->get_value()) { return 0; } } } return route_send_fail ("recenable", ssid, 0, get_address (msg)); } int OSC::route_rename(int ssid, char *newname, lo_message msg) { if (!session) { return -1; } boost::shared_ptr s = get_strip(ssid, get_address(msg)); if (s) { s->set_name(std::string(newname)); } return 0; } int OSC::sel_recsafe (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->rec_safe_control()) { s->rec_safe_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); if (s->rec_safe_control()->get_value()) { return 0; } } } return sel_fail ("record_safe", 0, get_address (msg)); } int OSC::route_recsafe (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->rec_safe_control()) { s->rec_safe_control()->set_value (yn, PBD::Controllable::UseGroup); if (s->rec_safe_control()->get_value()) { return 0; } } } return route_send_fail ("record_safe", ssid, 0,get_address (msg)); } int OSC::route_monitor_input (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { boost::shared_ptr track = boost::dynamic_pointer_cast (s); if (track) { if (track->monitoring_control()) { track->monitoring_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } } return route_send_fail ("monitor_input", ssid, 0, get_address (msg)); } int OSC::sel_monitor_input (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { boost::shared_ptr track = boost::dynamic_pointer_cast (s); if (track) { if (track->monitoring_control()) { track->monitoring_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } } return sel_fail ("monitor_input", 0, get_address (msg)); } int OSC::route_monitor_disk (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { boost::shared_ptr track = boost::dynamic_pointer_cast (s); if (track) { if (track->monitoring_control()) { track->monitoring_control()->set_value (yn ? 2.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } } return route_send_fail ("monitor_disk", ssid, 0, get_address (msg)); } int OSC::sel_monitor_disk (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { boost::shared_ptr track = boost::dynamic_pointer_cast (s); if (track) { if (track->monitoring_control()) { track->monitoring_control()->set_value (yn ? 2.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } } return sel_fail ("monitor_disk", 0, get_address (msg)); } int OSC::strip_phase (int ssid, int yn, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->phase_control()) { s->phase_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } return route_send_fail ("polarity", ssid, 0, get_address (msg)); } int OSC::sel_phase (uint32_t yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->phase_control()) { s->phase_control()->set_value (yn ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } return sel_fail ("polarity", 0, get_address (msg)); } int OSC::strip_expand (int ssid, int yn, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); sur->expand_enable = (bool) yn; sur->expand = ssid; boost::shared_ptr s; if (yn) { s = get_strip (ssid, get_address (msg)); } else { s = ControlProtocol::first_selected_stripable(); } return _strip_select (s, get_address (msg)); } int OSC::_strip_select (boost::shared_ptr s, lo_address addr) { if (!session) { return -1; } OSCSurface *sur = get_surface(addr); if (sur->sel_obs) { delete sur->sel_obs; sur->sel_obs = 0; } bool feedback_on = sur->feedback.to_ulong(); if (s && feedback_on) { OSCSelectObserver* sel_fb = new OSCSelectObserver (s, addr, sur->gainmode, sur->feedback); s->DropReferences.connect (*this, MISSING_INVALIDATOR, boost::bind (&OSC::recalcbanks, this), this); sur->sel_obs = sel_fb; } else if (sur->expand_enable) { sur->expand = 0; sur->expand_enable = false; if (_select && feedback_on) { OSCSelectObserver* sel_fb = new OSCSelectObserver (_select, addr, sur->gainmode, sur->feedback); _select->DropReferences.connect (*this, MISSING_INVALIDATOR, boost::bind (&OSC::recalcbanks, this), this); sur->sel_obs = sel_fb; } } else if (feedback_on) { route_send_fail ("select", sur->expand, 0 , addr); } if (!feedback_on) { return 0; } //update buttons on surface int b_s = sur->bank_size; if (!b_s) { // bank size 0 means we need to know how many strips there are. b_s = sur->nstrips; } for (int i = 1; i <= b_s; i++) { string path = "expand"; if ((i == (int) sur->expand) && sur->expand_enable) { lo_message reply = lo_message_new (); if (sur->feedback[2]) { ostringstream os; os << "/strip/" << path << "/" << i; path = os.str(); } else { ostringstream os; os << "/strip/" << path; path = os.str(); lo_message_add_int32 (reply, i); } lo_message_add_float (reply, (float) 1); lo_send_message (addr, path.c_str(), reply); lo_message_free (reply); reply = lo_message_new (); lo_message_add_float (reply, 1.0); lo_send_message (addr, "/select/expand", reply); lo_message_free (reply); } else { lo_message reply = lo_message_new (); lo_message_add_int32 (reply, i); lo_message_add_float (reply, 0.0); lo_send_message (addr, "/strip/expand", reply); lo_message_free (reply); } } if (!sur->expand_enable) { lo_message reply = lo_message_new (); lo_message_add_float (reply, 0.0); lo_send_message (addr, "/select/expand", reply); lo_message_free (reply); } return 0; } int OSC::strip_gui_select (int ssid, int yn, lo_message msg) { //ignore button release if (!yn) return 0; if (!session) { return -1; } OSCSurface *sur = get_surface(get_address (msg)); sur->expand_enable = false; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { SetStripableSelection (s); } else { if ((int) (sur->feedback.to_ulong())) { route_send_fail ("select", ssid, 0, get_address (msg)); } } return 0; } int OSC::sel_expand (uint32_t state, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; sur->expand_enable = (bool) state; if (state && sur->expand) { s = get_strip (sur->expand, get_address (msg)); } else { s = ControlProtocol::first_selected_stripable(); } return _strip_select (s, get_address (msg)); } int OSC::route_set_gain_abs (int ssid, float level, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->gain_control()) { s->gain_control()->set_value (level, PBD::Controllable::NoGroup); } else { return 1; } } else { return 1; } return 0; } int OSC::route_set_gain_dB (int ssid, float dB, lo_message msg) { if (!session) { route_send_fail ("gain", ssid, -193, get_address (msg)); return -1; } int ret; if (dB < -192) { ret = route_set_gain_abs (ssid, 0.0, msg); } else { ret = route_set_gain_abs (ssid, dB_to_coefficient (dB), msg); } if (ret != 0) { return route_send_fail ("gain", ssid, -193, get_address (msg)); } return 0; } int OSC::sel_gain (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { float abs; if (val < -192) { abs = 0; } else { abs = dB_to_coefficient (val); } if (s->gain_control()) { s->gain_control()->set_value (abs, PBD::Controllable::NoGroup); return 0; } } return sel_fail ("gain", -193, get_address (msg)); } int OSC::route_set_gain_fader (int ssid, float pos, lo_message msg) { if (!session) { route_send_fail ("fader", ssid, 0, get_address (msg)); return -1; } int ret; ret = route_set_gain_abs (ssid, slider_position_to_gain_with_max (pos, 2.0), msg); if (ret != 0) { return route_send_fail ("fader", ssid, 0, get_address (msg)); } return 0; } int OSC::sel_fader (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { float abs; abs = slider_position_to_gain_with_max (val, 2.0); if (s->gain_control()) { s->gain_control()->set_value (abs, PBD::Controllable::NoGroup); return 0; } } return sel_fail ("fader", 0, get_address (msg)); } int OSC::route_set_trim_abs (int ssid, float level, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->trim_control()) { s->trim_control()->set_value (level, PBD::Controllable::NoGroup); return 0; } } return -1; } int OSC::route_set_trim_dB (int ssid, float dB, lo_message msg) { int ret; ret = route_set_trim_abs(ssid, dB_to_coefficient (dB), msg); if (ret != 0) { return route_send_fail ("trimdB", ssid, 0, get_address (msg)); } return 0; } int OSC::sel_trim (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->trim_control()) { s->trim_control()->set_value (dB_to_coefficient (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("trimdB", 0, get_address (msg)); } int OSC::sel_pan_position (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if(s->pan_azimuth_control()) { s->pan_azimuth_control()->set_value (s->pan_azimuth_control()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("pan_stereo_position", 0.5, get_address (msg)); } int OSC::sel_pan_width (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->pan_width_control()) { s->pan_width_control()->set_value (s->pan_width_control()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("pan_stereo_width", 1, get_address (msg)); } int OSC::route_set_pan_stereo_position (int ssid, float pos, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if(s->pan_azimuth_control()) { s->pan_azimuth_control()->set_value (s->pan_azimuth_control()->interface_to_internal (pos), PBD::Controllable::NoGroup); return 0; } } return route_send_fail ("pan_stereo_position", ssid, 0.5, get_address (msg)); } int OSC::route_set_pan_stereo_width (int ssid, float pos, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { if (s->pan_width_control()) { s->pan_width_control()->set_value (pos, PBD::Controllable::NoGroup); return 0; } } return route_send_fail ("pan_stereo_width", ssid, 1, get_address (msg)); } int OSC::route_set_send_gain_dB (int ssid, int id, float val, lo_message msg) { if (!session) { return -1; } boost::shared_ptr s = get_strip (ssid, get_address (msg)); float abs; if (s) { if (id > 0) { --id; } #ifdef MIXBUS abs = val; #else if (val < -192) { abs = 0; } else { abs = dB_to_coefficient (val); } #endif if (s->send_level_controllable (id)) { s->send_level_controllable (id)->set_value (abs, PBD::Controllable::NoGroup); return 0; } } return 0; } int OSC::route_set_send_fader (int ssid, int id, float val, lo_message msg) { if (!session) { return -1; } boost::shared_ptr s = get_strip (ssid, get_address (msg)); float abs; if (s) { if (id > 0) { --id; } if (s->send_level_controllable (id)) { #ifdef MIXBUS abs = s->send_level_controllable(id)->interface_to_internal (val); #else abs = slider_position_to_gain_with_max (val, 2.0); #endif s->send_level_controllable (id)->set_value (abs, PBD::Controllable::NoGroup); return 0; } } return 0; } int OSC::sel_sendgain (int id, float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } float abs; if (s) { if (id > 0) { --id; } #ifdef MIXBUS abs = val; #else if (val < -192) { abs = 0; } else { abs = dB_to_coefficient (val); } #endif if (s->send_level_controllable (id)) { s->send_level_controllable (id)->set_value (abs, PBD::Controllable::NoGroup); return 0; } } return sel_send_fail ("send_gain", id + 1, -193, get_address (msg)); } int OSC::sel_sendfader (int id, float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } float abs; if (s) { if (id > 0) { --id; } if (s->send_level_controllable (id)) { #ifdef MIXBUS abs = s->send_level_controllable(id)->interface_to_internal (val); #else abs = slider_position_to_gain_with_max (val, 2.0); #endif s->send_level_controllable (id)->set_value (abs, PBD::Controllable::NoGroup); return 0; } } return sel_send_fail ("send_fader", id, 0, get_address (msg)); } int OSC::route_set_send_enable (int ssid, int sid, float val, lo_message msg) { if (!session) { return -1; } boost::shared_ptr s = get_strip (ssid, get_address (msg)); if (s) { /* revert to zero-based counting */ if (sid > 0) { --sid; } if (s->send_enable_controllable (sid)) { s->send_enable_controllable (sid)->set_value (val, PBD::Controllable::NoGroup); return 0; } if (s->send_level_controllable (sid)) { boost::shared_ptr r = boost::dynamic_pointer_cast (s); if (!r) { return 0; } boost::shared_ptr snd = boost::dynamic_pointer_cast (r->nth_send(sid)); if (snd) { if (val) { snd->activate(); } else { snd->deactivate(); } } return 0; } } return -1; } int OSC::sel_sendenable (int id, float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (id > 0) { --id; } if (s->send_enable_controllable (id)) { s->send_enable_controllable (id)->set_value (val, PBD::Controllable::NoGroup); return 0; } if (s->send_level_controllable (id)) { boost::shared_ptr r = boost::dynamic_pointer_cast (s); if (!r) { // should never get here return sel_send_fail ("send_enable", id + 1, 0, get_address (msg)); } boost::shared_ptr snd = boost::dynamic_pointer_cast (r->nth_send(id)); if (snd) { if (val) { snd->activate(); } else { snd->deactivate(); } } return 0; } } return sel_send_fail ("send_enable", id + 1, 0, get_address (msg)); } int OSC::route_plugin_list (int ssid, lo_message msg) { if (!session) { return -1; } boost::shared_ptr r = boost::dynamic_pointer_cast(get_strip (ssid, get_address (msg))); if (!r) { PBD::error << "OSC: Invalid Remote Control ID '" << ssid << "'" << endmsg; return -1; } int piid = 0; lo_message reply = lo_message_new (); lo_message_add_int32 (reply, ssid); for (;;) { boost::shared_ptr redi = r->nth_plugin(piid); if ( !redi ) { break; } boost::shared_ptr pi; if (!(pi = boost::dynamic_pointer_cast(redi))) { PBD::error << "OSC: given processor # " << piid << " on RID '" << ssid << "' is not a Plugin." << endmsg; continue; } lo_message_add_int32 (reply, piid + 1); boost::shared_ptr pip = pi->plugin(); lo_message_add_string (reply, pip->name()); piid++; } lo_send_message (get_address (msg), "/strip/plugin/list", reply); lo_message_free (reply); return 0; } int OSC::route_plugin_descriptor (int ssid, int piid, lo_message msg) { if (!session) { return -1; } boost::shared_ptr r = boost::dynamic_pointer_cast(get_strip (ssid, get_address (msg))); if (!r) { PBD::error << "OSC: Invalid Remote Control ID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr redi = r->nth_plugin(piid - 1); if (!redi) { PBD::error << "OSC: cannot find plugin # " << piid << " for RID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr pi; if (!(pi = boost::dynamic_pointer_cast(redi))) { PBD::error << "OSC: given processor # " << piid << " on RID '" << ssid << "' is not a Plugin." << endmsg; return -1; } boost::shared_ptr pip = pi->plugin(); bool ok = false; lo_message reply = lo_message_new(); lo_message_add_int32 (reply, ssid); lo_message_add_int32 (reply, piid); lo_message_add_string (reply, pip->name()); for ( uint32_t ppi = 0; ppi < pip->parameter_count(); ppi++) { uint32_t controlid = pip->nth_parameter(ppi, ok); if (!ok) { continue; } if ( pip->parameter_is_input(controlid) || pip->parameter_is_control(controlid) ) { boost::shared_ptr c = pi->automation_control(Evoral::Parameter(PluginAutomation, 0, controlid)); lo_message_add_int32 (reply, ppi + 1); ParameterDescriptor pd; pi->plugin()->get_parameter_descriptor(controlid, pd); lo_message_add_string (reply, pd.label.c_str()); // I've combined those binary descriptor parts in a bit-field to reduce lilo message elements int flags = 0; flags |= pd.enumeration ? 1 : 0; flags |= pd.integer_step ? 2 : 0; flags |= pd.logarithmic ? 4 : 0; flags |= pd.max_unbound ? 8 : 0; flags |= pd.min_unbound ? 16 : 0; flags |= pd.sr_dependent ? 32 : 0; flags |= pd.toggled ? 64 : 0; flags |= c != NULL ? 128 : 0; // bit 7 indicates in input control lo_message_add_int32 (reply, flags); lo_message_add_int32 (reply, pd.datatype); lo_message_add_float (reply, pd.lower); lo_message_add_float (reply, pd.upper); lo_message_add_string (reply, pd.print_fmt.c_str()); if ( pd.scale_points ) { lo_message_add_int32 (reply, pd.scale_points->size()); for ( ARDOUR::ScalePoints::const_iterator i = pd.scale_points->begin(); i != pd.scale_points->end(); ++i) { lo_message_add_int32 (reply, i->second); lo_message_add_string (reply, ((std::string)i->first).c_str()); } } else { lo_message_add_int32 (reply, 0); } if ( c ) { lo_message_add_double (reply, c->get_value()); } else { lo_message_add_double (reply, 0); } } } lo_send_message (get_address (msg), "/strip/plugin/descriptor", reply); lo_message_free (reply); return 0; } int OSC::route_plugin_reset (int ssid, int piid, lo_message msg) { if (!session) { return -1; } boost::shared_ptr r = boost::dynamic_pointer_cast(get_strip (ssid, get_address (msg))); if (!r) { PBD::error << "OSC: Invalid Remote Control ID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr redi = r->nth_plugin(piid - 1); if (!redi) { PBD::error << "OSC: cannot find plugin # " << piid << " for RID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr pi; if (!(pi = boost::dynamic_pointer_cast(redi))) { PBD::error << "OSC: given processor # " << piid << " on RID '" << ssid << "' is not a Plugin." << endmsg; return -1; } pi->reset_parameters_to_default (); return 0; } int OSC::route_plugin_parameter (int ssid, int piid, int par, float val, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, get_address (msg)); boost::shared_ptr r = boost::dynamic_pointer_cast (s); if (!r) { PBD::error << "OSC: Invalid Remote Control ID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr redi=r->nth_plugin (piid - 1); if (!redi) { PBD::error << "OSC: cannot find plugin # " << piid << " for RID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr pi; if (!(pi = boost::dynamic_pointer_cast(redi))) { PBD::error << "OSC: given processor # " << piid << " on RID '" << ssid << "' is not a Plugin." << endmsg; return -1; } boost::shared_ptr pip = pi->plugin(); bool ok=false; uint32_t controlid = pip->nth_parameter (par - 1,ok); if (!ok) { PBD::error << "OSC: Cannot find parameter # " << par << " for plugin # " << piid << " on RID '" << ssid << "'" << endmsg; return -1; } if (!pip->parameter_is_input(controlid)) { PBD::error << "OSC: Parameter # " << par << " for plugin # " << piid << " on RID '" << ssid << "' is not a control input" << endmsg; return -1; } ParameterDescriptor pd; pi->plugin()->get_parameter_descriptor (controlid,pd); if (val >= pd.lower && val <= pd.upper) { boost::shared_ptr c = pi->automation_control (Evoral::Parameter(PluginAutomation, 0, controlid)); // cerr << "parameter:" << redi->describe_parameter(controlid) << " val:" << val << "\n"; c->set_value (val, PBD::Controllable::NoGroup); } else { PBD::warning << "OSC: Parameter # " << par << " for plugin # " << piid << " on RID '" << ssid << "' is out of range" << endmsg; PBD::info << "OSC: Valid range min=" << pd.lower << " max=" << pd.upper << endmsg; } return 0; } //prints to cerr only int OSC::route_plugin_parameter_print (int ssid, int piid, int par, lo_message msg) { if (!session) { return -1; } boost::shared_ptr s = get_strip (ssid, get_address (msg)); boost::shared_ptr r = boost::dynamic_pointer_cast (s); if (!r) { return -1; } boost::shared_ptr redi=r->nth_plugin (piid - 1); if (!redi) { return -1; } boost::shared_ptr pi; if (!(pi = boost::dynamic_pointer_cast(redi))) { return -1; } boost::shared_ptr pip = pi->plugin(); bool ok=false; uint32_t controlid = pip->nth_parameter (par - 1,ok); if (!ok) { return -1; } ParameterDescriptor pd; if (pi->plugin()->get_parameter_descriptor (controlid, pd) == 0) { boost::shared_ptr c = pi->automation_control (Evoral::Parameter(PluginAutomation, 0, controlid)); cerr << "parameter: " << pd.label << "\n"; if (c) { cerr << "current value: " << c->get_value () << "\n"; } else { cerr << "current value not available, control does not exist\n"; } cerr << "lower value: " << pd.lower << "\n"; cerr << "upper value: " << pd.upper << "\n"; } return 0; } int OSC::route_plugin_activate (int ssid, int piid, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, lo_message_get_source (msg)); boost::shared_ptr r = boost::dynamic_pointer_cast (s); if (!r) { PBD::error << "OSC: Invalid Remote Control ID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr redi=r->nth_plugin (piid - 1); if (!redi) { PBD::error << "OSC: cannot find plugin # " << piid << " for RID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr pi; if (!(pi = boost::dynamic_pointer_cast(redi))) { PBD::error << "OSC: given processor # " << piid << " on RID '" << ssid << "' is not a Plugin." << endmsg; return -1; } boost::shared_ptr pip = pi->plugin(); pi->activate(); return 0; } int OSC::route_plugin_deactivate (int ssid, int piid, lo_message msg) { if (!session) return -1; boost::shared_ptr s = get_strip (ssid, lo_message_get_source (msg)); boost::shared_ptr r = boost::dynamic_pointer_cast (s); if (!r) { PBD::error << "OSC: Invalid Remote Control ID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr redi=r->nth_plugin (piid - 1); if (!redi) { PBD::error << "OSC: cannot find plugin # " << piid << " for RID '" << ssid << "'" << endmsg; return -1; } boost::shared_ptr pi; if (!(pi = boost::dynamic_pointer_cast(redi))) { PBD::error << "OSC: given processor # " << piid << " on RID '" << ssid << "' is not a Plugin." << endmsg; return -1; } boost::shared_ptr pip = pi->plugin(); pi->deactivate(); return 0; } // select int OSC::sel_pan_elevation (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->pan_elevation_control()) { s->pan_elevation_control()->set_value (s->pan_elevation_control()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("pan_elevation_position", 0, get_address (msg)); } int OSC::sel_pan_frontback (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->pan_frontback_control()) { s->pan_frontback_control()->set_value (s->pan_frontback_control()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("pan_frontback_position", 0.5, get_address (msg)); } int OSC::sel_pan_lfe (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->pan_lfe_control()) { s->pan_lfe_control()->set_value (s->pan_lfe_control()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("pan_lfe_control", 0, get_address (msg)); } // compressor control int OSC::sel_comp_enable (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->comp_enable_controllable()) { s->comp_enable_controllable()->set_value (s->comp_enable_controllable()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("comp_enable", 0, get_address (msg)); } int OSC::sel_comp_threshold (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->comp_threshold_controllable()) { s->comp_threshold_controllable()->set_value (s->comp_threshold_controllable()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("comp_threshold", 0, get_address (msg)); } int OSC::sel_comp_speed (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->comp_speed_controllable()) { s->comp_speed_controllable()->set_value (s->comp_speed_controllable()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("comp_speed", 0, get_address (msg)); } int OSC::sel_comp_mode (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->comp_mode_controllable()) { s->comp_mode_controllable()->set_value (s->comp_mode_controllable()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("comp_mode", 0, get_address (msg)); } int OSC::sel_comp_makeup (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->comp_makeup_controllable()) { s->comp_makeup_controllable()->set_value (s->comp_makeup_controllable()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("comp_makeup", 0, get_address (msg)); } // EQ control int OSC::sel_eq_enable (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->eq_enable_controllable()) { s->eq_enable_controllable()->set_value (s->eq_enable_controllable()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("eq_enable", 0, get_address (msg)); } int OSC::sel_eq_hpf (float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (s->eq_hpf_controllable()) { s->eq_hpf_controllable()->set_value (s->eq_hpf_controllable()->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_fail ("eq_hpf", 0, get_address (msg)); } int OSC::sel_eq_gain (int id, float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (id > 0) { --id; } if (s->eq_gain_controllable (id)) { s->eq_gain_controllable (id)->set_value (s->eq_gain_controllable(id)->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_send_fail ("eq_gain", id + 1, 0, get_address (msg)); } int OSC::sel_eq_freq (int id, float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (id > 0) { --id; } if (s->eq_freq_controllable (id)) { s->eq_freq_controllable (id)->set_value (s->eq_freq_controllable(id)->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_send_fail ("eq_freq", id + 1, 0, get_address (msg)); } int OSC::sel_eq_q (int id, float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (id > 0) { --id; } if (s->eq_q_controllable (id)) { s->eq_q_controllable (id)->set_value (s->eq_q_controllable(id)->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_send_fail ("eq_q", id + 1, 0, get_address (msg)); } int OSC::sel_eq_shape (int id, float val, lo_message msg) { OSCSurface *sur = get_surface(get_address (msg)); boost::shared_ptr s; if (sur->expand_enable) { s = get_strip (sur->expand, get_address (msg)); } else { s = _select; } if (s) { if (id > 0) { --id; } if (s->eq_shape_controllable (id)) { s->eq_shape_controllable (id)->set_value (s->eq_shape_controllable(id)->interface_to_internal (val), PBD::Controllable::NoGroup); return 0; } } return sel_send_fail ("eq_shape", id + 1, 0, get_address (msg)); } void OSC::gui_selection_changed () { boost::shared_ptr strip = ControlProtocol::first_selected_stripable(); if (strip) { _select = strip; for (uint32_t it = 0; it < _surface.size(); ++it) { OSCSurface* sur = &_surface[it]; if(!sur->expand_enable) { lo_address addr = lo_address_new_from_url (sur->remote_url.c_str()); _strip_select (strip, addr); } } } } // timer callbacks bool OSC::periodic (void) { if (!tick) { Glib::usleep(100); // let flurry of signals subside if (global_init) { for (uint32_t it = 0; it < _surface.size(); it++) { OSCSurface* sur = &_surface[it]; lo_address addr = lo_address_new_from_url (sur->remote_url.c_str()); global_feedback (sur->feedback, addr, sur->gainmode); } global_init = false; tick = true; } if (bank_dirty) { _recalcbanks (); bank_dirty = false; tick = true; } } for (GlobalObservers::iterator x = global_observers.begin(); x != global_observers.end(); x++) { OSCGlobalObserver* go; if ((go = dynamic_cast(*x)) != 0) { go->tick(); } } for (RouteObservers::iterator x = route_observers.begin(); x != route_observers.end(); x++) { OSCRouteObserver* ro; if ((ro = dynamic_cast(*x)) != 0) { ro->tick(); } } for (uint32_t it = 0; it < _surface.size(); it++) { OSCSurface* sur = &_surface[it]; OSCSelectObserver* so; if ((so = dynamic_cast(sur->sel_obs)) != 0) { so->tick(); } } for (CueObservers::iterator x = cue_observers.begin(); x != cue_observers.end(); x++) { OSCCueObserver* co; if ((co = dynamic_cast(*x)) != 0) { co->tick(); } } return true; } int OSC::route_send_fail (string path, uint32_t ssid, float val, lo_address addr) { OSCSurface *sur = get_surface(addr); ostringstream os; lo_message reply; if (ssid) { reply = lo_message_new (); if (sur->feedback[2]) { os << "/strip/" << path << "/" << ssid; } else { os << "/strip/" << path; lo_message_add_int32 (reply, ssid); } string str_pth = os.str(); lo_message_add_float (reply, (float) val); lo_send_message (addr, str_pth.c_str(), reply); lo_message_free (reply); } if ((_select == get_strip (ssid, addr)) || ((sur->expand == ssid) && (sur->expand_enable))) { os.str(""); os << "/select/" << path; string sel_pth = os.str(); reply = lo_message_new (); lo_message_add_float (reply, (float) val); lo_send_message (addr, sel_pth.c_str(), reply); lo_message_free (reply); } return 0; } int OSC::sel_fail (string path, float val, lo_address addr) { ostringstream os; os.str(""); os << "/select/" << path; string sel_pth = os.str(); lo_message reply = lo_message_new (); lo_message_add_float (reply, (float) val); lo_send_message (addr, sel_pth.c_str(), reply); lo_message_free (reply); return 0; } int OSC::sel_send_fail (string path, uint32_t id, float val, lo_address addr) { OSCSurface *sur = get_surface(addr); ostringstream os; lo_message reply; reply = lo_message_new (); if (sur->feedback[2]) { os << "/select/" << path << "/" << id; } else { os << "/select/" << path; lo_message_add_int32 (reply, id); } string str_pth = os.str(); lo_message_add_float (reply, (float) val); lo_send_message (addr, str_pth.c_str(), reply); lo_message_free (reply); return 0; } XMLNode& OSC::get_state () { XMLNode& node (ControlProtocol::get_state()); node.set_property ("debugmode", (int32_t) _debugmode); // TODO: enum2str node.set_property ("address-only", address_only); node.set_property ("remote-port", remote_port); node.set_property ("banksize", default_banksize); node.set_property ("striptypes", default_strip); node.set_property ("feedback", default_feedback); node.set_property ("gainmode", default_gainmode); if (_surface.size()) { XMLNode* config = new XMLNode (X_("Configurations")); for (uint32_t it = 0; it < _surface.size(); ++it) { OSCSurface* sur = &_surface[it]; XMLNode* devnode = new XMLNode (X_("Configuration")); devnode->set_property (X_("url"), sur->remote_url); devnode->set_property (X_("bank-size"), sur->bank_size); devnode->set_property (X_("strip-types"), (uint64_t)sur->strip_types.to_ulong()); devnode->set_property (X_("feedback"), (uint64_t)sur->feedback.to_ulong()); devnode->set_property (X_("gainmode"), sur->gainmode); config->add_child_nocopy (*devnode); } node.add_child_nocopy (*config); } return node; } int OSC::set_state (const XMLNode& node, int version) { if (ControlProtocol::set_state (node, version)) { return -1; } int32_t debugmode; if (node.get_property (X_("debugmode"), debugmode)) { _debugmode = OSCDebugMode (debugmode); } node.get_property (X_("address-only"), address_only); node.get_property (X_("remote-port"), remote_port); node.get_property (X_("banksize"), default_banksize); node.get_property (X_("striptypes"), default_strip); node.get_property (X_("feedback"), default_feedback); node.get_property (X_("gainmode"), default_gainmode); XMLNode* cnode = node.child (X_("Configurations")); if (cnode) { XMLNodeList const& devices = cnode->children(); for (XMLNodeList::const_iterator d = devices.begin(); d != devices.end(); ++d) { OSCSurface s; if (!(*d)->get_property (X_("url"), s.remote_url)) { continue; } bank_dirty = true; (*d)->get_property (X_("bank-size"), s.bank_size); uint64_t bits; if ((*d)->get_property (X_ ("strip-types"), bits)) { s.strip_types = bits; } if ((*d)->get_property (X_("feedback"), bits)) { s.feedback = bits; } (*d)->get_property (X_("gainmode"), s.gainmode); s.bank = 1; s.sel_obs = 0; s.expand = 0; s.expand_enable = false; s.strips = get_sorted_stripables (s.strip_types, s.cue); s.nstrips = s.strips.size (); _surface.push_back (s); } } global_init = true; tick = false; return 0; } // predicate for sort call in get_sorted_stripables struct StripableByPresentationOrder { bool operator () (const boost::shared_ptr & a, const boost::shared_ptr & b) const { return a->presentation_info().order() < b->presentation_info().order(); } bool operator () (const Stripable & a, const Stripable & b) const { return a.presentation_info().order() < b.presentation_info().order(); } bool operator () (const Stripable * a, const Stripable * b) const { return a->presentation_info().order() < b->presentation_info().order(); } }; OSC::Sorted OSC::get_sorted_stripables(std::bitset<32> types, bool cue) { Sorted sorted; // fetch all stripables StripableList stripables; session->get_stripables (stripables); // Look for stripables that match bit in sur->strip_types for (StripableList::iterator it = stripables.begin(); it != stripables.end(); ++it) { boost::shared_ptr s = *it; if ((!cue) && (!types[9]) && (s->presentation_info().flags() & PresentationInfo::Hidden)) { // do nothing... skip it } else { if (types[0] && (s->presentation_info().flags() & PresentationInfo::AudioTrack)) { sorted.push_back (s); } else if (types[1] && (s->presentation_info().flags() & PresentationInfo::MidiTrack)) { sorted.push_back (s); } else if ((s->presentation_info().flags() & PresentationInfo::AudioBus)) { boost::shared_ptr r = boost::dynamic_pointer_cast (s); // r->feeds (session->master_out()) may make more sense if (r->direct_feeds_according_to_reality (session->master_out())) { // this is a bus if (types[2]) { sorted.push_back (s); } } else { // this is an Aux out if (types[7]) { sorted.push_back (s); } } } else if (types[3] && (s->presentation_info().flags() & PresentationInfo::MidiBus)) { sorted.push_back (s); } else if (types[4] && (s->presentation_info().flags() & PresentationInfo::VCA)) { sorted.push_back (s); } else if (types[8] && (s->presentation_info().flags() & PresentationInfo::Selected)) { sorted.push_back (s); } else if (types[9] && (s->presentation_info().flags() & PresentationInfo::Hidden)) { sorted.push_back (s); } } } sort (sorted.begin(), sorted.end(), StripableByPresentationOrder()); // Master/Monitor might be anywhere... we put them at the end - Sorry ;) if (types[5]) { sorted.push_back (session->master_out()); } if (types[6]) { sorted.push_back (session->monitor_out()); } return sorted; } int OSC::cue_parse (const char *path, const char* types, lo_arg **argv, int argc, lo_message msg) { int ret = 1; /* unhandled */ if (!strncmp (path, "/cue/aux", 8)) { // set our Aux bus cue_set (argv[0]->i, msg); ret = 0; } else if (!strncmp (path, "/cue/connect", 12)) { // switch to next Aux bus cue_set (0, msg); ret = 0; } else if (!strncmp (path, "/cue/next_aux", 13)) { // switch to next Aux bus cue_next (msg); ret = 0; } else if (!strncmp (path, "/cue/previous_aux", 17)) { // switch to previous Aux bus cue_previous (msg); ret = 0; } else if (!strncmp (path, "/cue/send/fader/", 16) && strlen (path) > 16) { int id = atoi (&path[16]); cue_send_fader (id, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/cue/send/enable/", 17) && strlen (path) > 17) { int id = atoi (&path[17]); cue_send_enable (id, argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/cue/fader", 10)) { cue_aux_fader (argv[0]->f, msg); ret = 0; } else if (!strncmp (path, "/cue/mute", 9)) { cue_aux_mute (argv[0]->f, msg); ret = 0; } if ((ret && _debugmode == Unhandled)) { debugmsg (_("Unhandled OSC cue message"), path, types, argv, argc); } else if ((!ret && _debugmode == All)) { debugmsg (_("OSC cue"), path, types, argv, argc); } return ret; } int OSC::cue_set (uint32_t aux, lo_message msg) { return _cue_set (aux, get_address (msg)); } int OSC::_cue_set (uint32_t aux, lo_address addr) { OSCSurface *s = get_surface(addr); s->bank_size = 0; s->strip_types = 128; s->feedback = 0; s->gainmode = 1; s->cue = true; s->aux = aux; s->strips = get_sorted_stripables(s->strip_types, s->cue); s->nstrips = s->strips.size(); // get rid of any old CueObsevers for this address cueobserver_connections.drop_connections (); CueObservers::iterator x; for (x = cue_observers.begin(); x != cue_observers.end();) { OSCCueObserver* co; if ((co = dynamic_cast(*x)) != 0) { int res = strcmp(lo_address_get_url(co->address()), lo_address_get_url(addr)); if (res == 0) { delete *x; x = cue_observers.erase (x); } else { ++x; } } else { ++x; } } // get a list of Auxes for (uint32_t n = 0; n < s->nstrips; ++n) { boost::shared_ptr stp = s->strips[n]; if (stp) { text_message (string_compose ("/cue/name/%1", n+1), stp->name(), addr); if (aux == n+1) { // aux must be at least one // need a signal if aux vanishes stp->DropReferences.connect (*this, MISSING_INVALIDATOR, boost::bind (&OSC::_cue_set, this, aux, addr), this); // make a list of stripables with sends that go to this bus s->sends = cue_get_sorted_stripables(stp, aux, addr); // start cue observer OSCCueObserver* co = new OSCCueObserver (stp, s->sends, addr); cue_observers.push_back (co); } } } return 0; } int OSC::cue_next (lo_message msg) { OSCSurface *s = get_surface(get_address (msg)); if (s->aux < s->nstrips) { cue_set (s->aux + 1, msg); } else { cue_set (s->nstrips, msg); } return 0; } int OSC::cue_previous (lo_message msg) { OSCSurface *s = get_surface(get_address (msg)); if (s->aux > 1) { cue_set (s->aux - 1, msg); } return 0; } boost::shared_ptr OSC::cue_get_send (uint32_t id, lo_address addr) { OSCSurface *s = get_surface(addr); if (id && s->aux > 0 && id <= s->sends.size()) { boost::shared_ptr r = boost::dynamic_pointer_cast (s->sends[id - 1]); boost::shared_ptr aux = get_strip (s->aux, addr); if (r && aux) { return r->internal_send_for (boost::dynamic_pointer_cast (aux)); } } return boost::shared_ptr(); } int OSC::cue_aux_fader (float position, lo_message msg) { if (!session) return -1; OSCSurface *sur = get_surface(get_address (msg)); if (sur->cue) { if (sur->aux) { boost::shared_ptr s = get_strip (sur->aux, get_address (msg)); if (s) { float abs; abs = slider_position_to_gain_with_max (position, 2.0); if (s->gain_control()) { s->gain_control()->set_value (abs, PBD::Controllable::NoGroup); return 0; } } } } return cue_float_message ("/cue/fader", 0, get_address (msg)); } int OSC::cue_aux_mute (float state, lo_message msg) { if (!session) return -1; OSCSurface *sur = get_surface(get_address (msg)); if (sur->cue) { if (sur->aux) { boost::shared_ptr s = get_strip (sur->aux, get_address (msg)); if (s) { if (s->mute_control()) { s->mute_control()->set_value (state ? 1.0 : 0.0, PBD::Controllable::NoGroup); return 0; } } } } return cue_float_message ("/cue/mute", 0, get_address (msg)); } int OSC::cue_send_fader (uint32_t id, float val, lo_message msg) { if (!session) { return -1; } boost::shared_ptr s = cue_get_send (id, get_address (msg)); float abs; if (s) { if (s->gain_control()) { abs = slider_position_to_gain_with_max (val, 2.0); s->gain_control()->set_value (abs, PBD::Controllable::NoGroup); return 0; } } return cue_float_message (string_compose ("/cue/send/fader/%1", id), 0, get_address (msg)); } int OSC::cue_send_enable (uint32_t id, float state, lo_message msg) { if (!session) return -1; boost::shared_ptr s = cue_get_send (id, get_address (msg)); if (s) { if (state) { s->activate (); } else { s->deactivate (); } return 0; } return cue_float_message (string_compose ("/cue/send/enable/%1", id), 0, get_address (msg)); } int OSC::cue_float_message (string path, float val, lo_address addr) { lo_message reply; reply = lo_message_new (); lo_message_add_float (reply, (float) val); lo_send_message (addr, path.c_str(), reply); lo_message_free (reply); return 0; } int OSC::text_message (string path, string val, lo_address addr) { lo_message reply; reply = lo_message_new (); lo_message_add_string (reply, val.c_str()); lo_send_message (addr, path.c_str(), reply); lo_message_free (reply); return 0; } // we have to have a sorted list of stripables that have sends pointed at our aux // we can use the one in osc.cc to get an aux list OSC::Sorted OSC::cue_get_sorted_stripables(boost::shared_ptr aux, uint32_t id, lo_message msg) { Sorted sorted; cueobserver_connections.drop_connections (); // fetch all stripables StripableList stripables; session->get_stripables (stripables); // Look for stripables that have a send to aux for (StripableList::iterator it = stripables.begin(); it != stripables.end(); ++it) { boost::shared_ptr s = *it; // we only want routes boost::shared_ptr r = boost::dynamic_pointer_cast (s); if (r) { r->processors_changed.connect (*this, MISSING_INVALIDATOR, boost::bind (&OSC::recalcbanks, this), this); boost::shared_ptr snd = r->internal_send_for (boost::dynamic_pointer_cast (aux)); if (snd) { // test for send to aux sorted.push_back (s); s->DropReferences.connect (*this, MISSING_INVALIDATOR, boost::bind (&OSC::cue_set, this, id, msg), this); } } } sort (sorted.begin(), sorted.end(), StripableByPresentationOrder()); return sorted; }