/* Copyright (C) 2009 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., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include #include "boost/lambda/lambda.hpp" #include "pbd/control_math.h" #include "ardour/session.h" #include "ardour/track.h" #include "ardour/monitor_control.h" #include "ardour/dB.h" #include "ardour/meter.h" #include "ardour/phase_control.h" #include "ardour/solo_isolate_control.h" #include "ardour/solo_safe_control.h" #include "ardour/route.h" #include "ardour/send.h" #include "ardour/plugin.h" #include "ardour/plugin_insert.h" #include "ardour/processor.h" #include "ardour/readonly_control.h" #include "osc.h" #include "osc_select_observer.h" #include #include "pbd/i18n.h" using namespace std; using namespace PBD; using namespace ARDOUR; using namespace ArdourSurface; OSCSelectObserver::OSCSelectObserver (boost::shared_ptr s, lo_address a, ArdourSurface::OSC::OSCSurface* su) : _strip (s) ,sur (su) ,nsends (0) ,_last_gain (0.0) { addr = lo_address_new (lo_address_get_hostname(a) , lo_address_get_port(a)); gainmode = sur->gainmode; feedback = sur->feedback; as = ARDOUR::Off; send_size = 0; plug_size = 0; if (feedback[0]) { // buttons are separate feedback _strip->PropertyChanged.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::name_changed, this, boost::lambda::_1), OSC::instance()); name_changed (ARDOUR::Properties::name); _strip->mute_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/mute"), _strip->mute_control()), OSC::instance()); change_message ("/select/mute", _strip->mute_control()); _strip->solo_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/solo"), _strip->solo_control()), OSC::instance()); change_message ("/select/solo", _strip->solo_control()); if (_strip->solo_isolate_control()) { _strip->solo_isolate_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/solo_iso"), _strip->solo_isolate_control()), OSC::instance()); change_message ("/select/solo_iso", _strip->solo_isolate_control()); } if (_strip->solo_safe_control()) { _strip->solo_safe_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/solo_safe"), _strip->solo_safe_control()), OSC::instance()); change_message ("/select/solo_safe", _strip->solo_safe_control()); } boost::shared_ptr track = boost::dynamic_pointer_cast (_strip); if (track) { track->monitoring_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::monitor_status, this, track->monitoring_control()), OSC::instance()); monitor_status (track->monitoring_control()); } boost::shared_ptr rec_controllable = _strip->rec_enable_control (); if (rec_controllable) { rec_controllable->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/recenable"), _strip->rec_enable_control()), OSC::instance()); change_message ("/select/recenable", _strip->rec_enable_control()); } boost::shared_ptr recsafe_controllable = _strip->rec_safe_control (); if (recsafe_controllable) { recsafe_controllable->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/record_safe"), _strip->rec_safe_control()), OSC::instance()); change_message ("/select/record_safe", _strip->rec_safe_control()); } boost::shared_ptr phase_controllable = _strip->phase_control (); if (phase_controllable) { phase_controllable->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/polarity"), _strip->phase_control()), OSC::instance()); change_message ("/select/polarity", _strip->phase_control()); } } if (feedback[1]) { // level controls _strip->gain_control()->alist()->automation_state_changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::gain_automation, this), OSC::instance()); _strip->gain_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::gain_message, this), OSC::instance()); gain_automation (); boost::shared_ptr trim_controllable = boost::dynamic_pointer_cast(_strip->trim_control()); if (trim_controllable) { trim_controllable->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::trim_message, this, X_("/select/trimdB"), _strip->trim_control()), OSC::instance()); trim_message ("/select/trimdB", _strip->trim_control()); } boost::shared_ptr pan_controllable = boost::dynamic_pointer_cast(_strip->pan_azimuth_control()); if (pan_controllable) { pan_controllable->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/pan_stereo_position"), _strip->pan_azimuth_control()), OSC::instance()); change_message ("/select/pan_stereo_position", _strip->pan_azimuth_control()); } boost::shared_ptr width_controllable = boost::dynamic_pointer_cast(_strip->pan_width_control()); if (width_controllable) { width_controllable->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/pan_stereo_width"), _strip->pan_width_control()), OSC::instance()); change_message ("/select/pan_stereo_width", _strip->pan_width_control()); } } if (feedback[13]) { // Well known controls // Rest of possible pan controls... Untested because I can't find a way to get them in the GUI :) if (_strip->pan_elevation_control ()) { _strip->pan_elevation_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/pan_elevation_position"), _strip->pan_elevation_control()), OSC::instance()); change_message ("/select/pan_elevation_position", _strip->pan_elevation_control()); } if (_strip->pan_frontback_control ()) { _strip->pan_frontback_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/pan_frontback_position"), _strip->pan_frontback_control()), OSC::instance()); change_message ("/select/pan_frontback_position", _strip->pan_frontback_control()); } if (_strip->pan_lfe_control ()) { _strip->pan_lfe_control()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/pan_lfe_control"), _strip->pan_lfe_control()), OSC::instance()); change_message ("/select/pan_lfe_control", _strip->pan_lfe_control()); } // sends, plugins and eq // detecting processor changes is now in osc.cc // Compressor if (_strip->comp_enable_controllable ()) { _strip->comp_enable_controllable ()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::enable_message, this, X_("/select/comp_enable"), _strip->comp_enable_controllable()), OSC::instance()); enable_message ("/select/comp_enable", _strip->comp_enable_controllable()); } if (_strip->comp_threshold_controllable ()) { _strip->comp_threshold_controllable ()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/comp_threshold"), _strip->comp_threshold_controllable()), OSC::instance()); change_message ("/select/comp_threshold", _strip->comp_threshold_controllable()); } if (_strip->comp_speed_controllable ()) { _strip->comp_speed_controllable ()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/comp_speed"), _strip->comp_speed_controllable()), OSC::instance()); change_message ("/select/comp_speed", _strip->comp_speed_controllable()); } if (_strip->comp_mode_controllable ()) { _strip->comp_mode_controllable ()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::comp_mode, this), OSC::instance()); comp_mode (); } if (_strip->comp_makeup_controllable ()) { _strip->comp_makeup_controllable ()->Changed.connect (strip_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/comp_makeup"), _strip->comp_makeup_controllable()), OSC::instance()); change_message ("/select/comp_makeup", _strip->comp_makeup_controllable()); } } tick(); } OSCSelectObserver::~OSCSelectObserver () { strip_connections.drop_connections (); // all strip buttons should be off and faders 0 and etc. if (feedback[0]) { // buttons are separate feedback send_float ("/select/expand", 0); text_message ("/select/name", " "); text_message ("/select/comment", " "); send_float ("/select/mute", 0); send_float ("/select/solo", 0); send_float ("/select/recenable", 0); send_float ("/select/record_safe", 0); send_float ("/select/monitor_input", 0); send_float ("/select/monitor_disk", 0); send_float ("/select/polarity", 0); send_float ("/select/n_inputs", 0); send_float ("/select/n_outputs", 0); } if (feedback[1]) { // level controls if (gainmode) { send_float ("/select/fader", 0); } else { send_float ("/select/gain", -193); } send_float ("/select/trimdB", 0); send_float ("/select/pan_stereo_position", 0.5); send_float ("/select/pan_stereo_width", 1); } if (feedback[9]) { send_float ("/select/signal", 0); } if (feedback[7]) { if (gainmode) { send_float ("/select/meter", 0); } else { send_float ("/select/meter", -193); } }else if (feedback[8]) { send_float ("/select/meter", 0); } if (feedback[13]) { // Well known controls send_float ("/select/pan_elevation_position", 0); send_float ("/select/pan_frontback_position", .5); send_float ("/select/pan_lfe_control", 0); send_float ("/select/comp_enable", 0); send_float ("/select/comp_threshold", 0); send_float ("/select/comp_speed", 0); send_float ("/select/comp_mode", 0); text_message ("/select/comp_mode_name", " "); text_message ("/select/comp_speed_name", " "); send_float ("/select/comp_makeup", 0); } send_end(); plugin_end(); eq_end(); lo_address_free (addr); } void OSCSelectObserver::renew_sends () { send_end(); send_init(); } void OSCSelectObserver::renew_plugin () { plugin_end(); plugin_init(); } void OSCSelectObserver::send_init() { // we don't know how many there are, so find out. bool sends; nsends = 0; do { sends = false; if (_strip->send_level_controllable (nsends)) { sends = true; nsends++; } } while (sends); if (!nsends) { return; } // paging should be done in osc.cc in case there is no feedback send_size = nsends; if (sur->send_page_size) { send_size = sur->send_page_size; } // check limits uint32_t max_page = (uint32_t)(nsends / send_size) + 1; if (sur->send_page < 1) { sur->send_page = 1; } else if ((uint32_t)sur->send_page > max_page) { sur->send_page = max_page; } uint32_t page_start = ((sur->send_page - 1) * send_size); uint32_t last_send = sur->send_page * send_size; uint32_t c = 1; for (uint32_t s = page_start; s < last_send; ++s, ++c) { bool send_valid = false; if (_strip->send_level_controllable (s)) { _strip->send_level_controllable(s)->Changed.connect (send_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::send_gain, this, c, _strip->send_level_controllable(s)), OSC::instance()); send_timeout.push_back (0); send_gain (c, _strip->send_level_controllable(s)); send_valid = true; } if (_strip->send_enable_controllable (s)) { _strip->send_enable_controllable(s)->Changed.connect (send_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::enable_message_with_id, this, X_("/select/send_enable"), c, _strip->send_enable_controllable(s)), OSC::instance()); enable_message_with_id ("/select/send_enable", c, _strip->send_enable_controllable(s)); } else if (send_valid) { boost::shared_ptr r = boost::dynamic_pointer_cast (_strip); if (!r) { // should never get here send_float_with_id ("/select/send_enable", c, 0); } boost::shared_ptr snd = boost::dynamic_pointer_cast (r->nth_send(s)); if (snd) { boost::shared_ptr proc = boost::dynamic_pointer_cast (snd); proc->ActiveChanged.connect (send_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::send_enable, this, X_("/select/send_enable"), c, proc), OSC::instance()); send_float_with_id ("/select/send_enable", c, proc->enabled()); } } if (!gainmode && send_valid) { text_with_id ("/select/send_name", c, _strip->send_name(s)); } } } void OSCSelectObserver::plugin_init() { if (!sur->plugin_id) { return; } boost::shared_ptr r = boost::dynamic_pointer_cast(_strip); if (!r) { return; } // we have a plugin number now get the processor boost::shared_ptr proc = r->nth_plugin (sur->plugin_id - 1); boost::shared_ptr pi; if (!(pi = boost::dynamic_pointer_cast(proc))) { return; } boost::shared_ptr pip = pi->plugin(); bool ok = false; nplug_params = sur->plug_params.size (); // default of 0 page size means show all plug_size = nplug_params; if (sur->plug_page_size) { plug_size = sur->plug_page_size; } text_message ("/select/plugin/name", pip->name()); uint32_t page_end = nplug_params; uint32_t max_page = 1; if (plug_size && nplug_params) { max_page = (uint32_t)((nplug_params - 1) / plug_size) + 1; } if (sur->plug_page < 1) { sur->plug_page = 1; } if ((uint32_t)sur->plug_page > max_page) { sur->plug_page = max_page; } uint32_t page_start = ((sur->plug_page - 1) * plug_size); page_end = sur->plug_page * plug_size; int pid = 1; for ( uint32_t ppi = page_start; ppi < page_end; ++ppi, ++pid) { if (ppi >= nplug_params) { text_with_id ("/select/plugin/parameter/name", pid, " "); send_float_with_id ("/select/plugin/parameter", pid, 0); continue; } uint32_t controlid = pip->nth_parameter(sur->plug_params[ppi], ok); if (!ok) { continue; } ParameterDescriptor pd; pip->get_parameter_descriptor(controlid, pd); text_with_id ("/select/plugin/parameter/name", pid, pd.label); if ( pip->parameter_is_input(controlid)) { boost::shared_ptr c = pi->automation_control(Evoral::Parameter(PluginAutomation, 0, controlid)); if (c) { bool swtch = false; if (pd.integer_step && pd.upper == 1) { swtch = true; } c->Changed.connect (plugin_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::plugin_parameter_changed, this, pid, swtch, c), OSC::instance()); plugin_parameter_changed (pid, swtch, c); } } } } void OSCSelectObserver::send_end () { send_connections.drop_connections (); for (uint32_t i = 1; i <= send_size; i++) { if (gainmode) { send_float_with_id ("/select/send_fader", i, 0); } else { send_float_with_id ("/select/send_gain", i, -193); } // next enable send_float_with_id ("/select/send_enable", i, 0); // next name text_with_id ("/select/send_name", i, " "); } // need to delete or clear send_timeout send_timeout.clear(); nsends = 0; } void OSCSelectObserver::plugin_parameter_changed (int pid, bool swtch, boost::shared_ptr controllable) { if (swtch) { enable_message_with_id ("/select/plugin/parameter", pid, controllable); } else { change_message_with_id ("/select/plugin/parameter", pid, controllable); } } void OSCSelectObserver::plugin_end () { plugin_connections.drop_connections (); text_message ("/select/plugin/name", " "); for (uint32_t i = 1; i <= plug_size; i++) { send_float_with_id ("/select/plugin/parameter", i, 0); // next name text_with_id ("/select/plugin/parameter/name", i, " "); } nplug_params = 0; } void OSCSelectObserver::tick () { if (feedback[7] || feedback[8] || feedback[9]) { // meters enabled float now_meter; if (_strip->peak_meter()) { now_meter = _strip->peak_meter()->meter_level(0, MeterMCP); } else { now_meter = -193; } if (now_meter < -144) now_meter = -193; if (_last_meter != now_meter) { if (feedback[7] || feedback[8]) { string path = "/select/meter"; lo_message msg = lo_message_new (); if (gainmode && feedback[7]) { lo_message_add_float (msg, ((now_meter + 94) / 100)); lo_send_message (addr, path.c_str(), msg); } else if ((!gainmode) && feedback[7]) { lo_message_add_float (msg, now_meter); lo_send_message (addr, path.c_str(), msg); } else if (feedback[8]) { uint32_t ledlvl = (uint32_t)(((now_meter + 54) / 3.75)-1); uint16_t ledbits = ~(0xfff<name()); } gain_timeout--; } if (as == ARDOUR::Play || as == ARDOUR::Touch) { if(_last_gain != _strip->gain_control()->get_value()) { _last_gain = _strip->gain_control()->get_value(); gain_message (); } } } if (feedback[13]) { if (_strip->comp_redux_controllable()) { if (_strip->comp_redux_controllable()->get_parameter()) { send_float ("/select/comp_redux", (float) _strip->comp_redux_controllable()->get_parameter ()); } } for (uint32_t i = 0; i < send_timeout.size(); i++) { if (send_timeout[i]) { if (send_timeout[i] == 1) { text_with_id ("/select/send_name", i + 1, _strip->send_name(i)); } send_timeout[i]--; } } } } void OSCSelectObserver::name_changed (const PBD::PropertyChange& what_changed) { if (!what_changed.contains (ARDOUR::Properties::name)) { return; } if (!_strip) { return; } text_message ("/select/name", _strip->name()); boost::shared_ptr route = boost::dynamic_pointer_cast (_strip); if (route) { //spit out the comment at the same time text_message ("/select/comment", route->comment()); // lets tell the surface how many inputs this strip has send_float ("/select/n_inputs", (float) route->n_inputs().n_total()); // lets tell the surface how many outputs this strip has send_float ("/select/n_outputs", (float) route->n_outputs().n_total()); } } void OSCSelectObserver::change_message (string path, boost::shared_ptr controllable) { lo_message msg = lo_message_new (); float val = controllable->get_value(); lo_message_add_float (msg, (float) controllable->internal_to_interface (val)); lo_send_message (addr, path.c_str(), msg); lo_message_free (msg); } void OSCSelectObserver::enable_message (string path, boost::shared_ptr controllable) { float val = controllable->get_value(); if (val) { send_float (path, 1); } else { send_float (path, 0); } } void OSCSelectObserver::change_message_with_id (string path, uint32_t id, boost::shared_ptr controllable) { lo_message msg = lo_message_new (); float val = controllable->get_value(); if (feedback[2]) { path = set_path (path, id); } else { lo_message_add_int32 (msg, id); } lo_message_add_float (msg, (float) controllable->internal_to_interface (val)); lo_send_message (addr, path.c_str(), msg); lo_message_free (msg); } void OSCSelectObserver::enable_message_with_id (string path, uint32_t id, boost::shared_ptr controllable) { float val = controllable->get_value(); if (val) { send_float_with_id (path, id, 1); } else { send_float_with_id (path, id, 0); } } void OSCSelectObserver::text_message (string path, std::string text) { lo_message msg = lo_message_new (); lo_message_add_string (msg, text.c_str()); lo_send_message (addr, path.c_str(), msg); lo_message_free (msg); } void OSCSelectObserver::monitor_status (boost::shared_ptr controllable) { int disk, input; float val = controllable->get_value(); switch ((int) val) { case 1: disk = 0; input = 1; break; case 2: disk = 1; input = 0; break; default: disk = 0; input = 0; } send_float ("/select/monitor_input", (float) input); send_float ("/select/monitor_disk", (float) disk); } void OSCSelectObserver::trim_message (string path, boost::shared_ptr controllable) { lo_message msg = lo_message_new (); lo_message_add_float (msg, (float) accurate_coefficient_to_dB (controllable->get_value())); lo_send_message (addr, path.c_str(), msg); lo_message_free (msg); } void OSCSelectObserver::gain_message () { float value = _strip->gain_control()->get_value(); if (gainmode) { text_message ("/select/name", string_compose ("%1%2%3", std::fixed, std::setprecision(2), accurate_coefficient_to_dB (value))); gain_timeout = 8; send_float ("/select/fader", _strip->gain_control()->internal_to_interface (value)); } else { if (value < 1e-15) { send_float ("/select/gain", -200); } else { send_float ("/select/gain", accurate_coefficient_to_dB (value)); } } } void OSCSelectObserver::gain_automation () { float output; as = _strip->gain_control()->alist()->automation_state(); string auto_name; switch (as) { case ARDOUR::Off: output = 0; auto_name = "Manual"; break; case ARDOUR::Play: output = 1; auto_name = "Play"; break; case ARDOUR::Write: output = 2; auto_name = "Write"; break; case ARDOUR::Touch: output = 3; auto_name = "Touch"; break; default: break; } if (gainmode) { send_float ("/select/fader/automation", output); text_message ("/select/fader/automation_name", auto_name); } else { send_float ("/select/gain/automation", output); text_message ("/select/gain/automation_name", auto_name); } gain_message (); } void OSCSelectObserver::send_gain (uint32_t id, boost::shared_ptr controllable) { lo_message msg = lo_message_new (); string path; float value; float db; #ifdef MIXBUS db = controllable->get_value(); #else if (controllable->get_value() < 1e-15) { db = -193; } else { db = accurate_coefficient_to_dB (controllable->get_value()); } #endif if (gainmode) { path = "/select/send_fader"; value = controllable->internal_to_interface (controllable->get_value()); text_with_id ("/select/send_name" , id, string_compose ("%1%2%3", std::fixed, std::setprecision(2), db)); if (send_timeout.size() > id) { send_timeout[id] = 8; } } else { path = "/select/send_gain"; value = db; } if (feedback[2]) { path = set_path (path, id); } else { lo_message_add_int32 (msg, id); } lo_message_add_float (msg, value); lo_send_message (addr, path.c_str(), msg); lo_message_free (msg); } void OSCSelectObserver::send_enable (string path, uint32_t id, boost::shared_ptr proc) { // with no delay value is wrong Glib::usleep(10); send_float_with_id ("/select/send_enable", id, proc->enabled()); } void OSCSelectObserver::text_with_id (string path, uint32_t id, string name) { lo_message msg = lo_message_new (); if (feedback[2]) { path = set_path (path, id); } else { lo_message_add_int32 (msg, id); } lo_message_add_string (msg, name.c_str()); lo_send_message (addr, path.c_str(), msg); lo_message_free (msg); } void OSCSelectObserver::comp_mode () { change_message ("/select/comp_mode", _strip->comp_mode_controllable()); text_message ("/select/comp_mode_name", _strip->comp_mode_name(_strip->comp_mode_controllable()->get_value())); text_message ("/select/comp_speed_name", _strip->comp_speed_name(_strip->comp_mode_controllable()->get_value())); } void OSCSelectObserver::eq_init() { // HPF and enable are special case, rest are in bands if (_strip->filter_enable_controllable (true)) { _strip->filter_enable_controllable (true)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/eq_hpf/enable"), _strip->filter_enable_controllable (true)), OSC::instance()); change_message ("/select/eq_hpf/enable", _strip->filter_enable_controllable(true)); } if (_strip->filter_enable_controllable (false)) { _strip->filter_enable_controllable (false)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/eq_lpf/enable"), _strip->filter_enable_controllable (false)), OSC::instance()); change_message ("/select/eq_lpf/enable", _strip->filter_enable_controllable(false)); } if (_strip->filter_freq_controllable (true)) { _strip->filter_freq_controllable (true)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/eq_hpf/freq"), _strip->filter_freq_controllable (true)), OSC::instance()); change_message ("/select/eq_hpf/freq", _strip->filter_freq_controllable(true)); } if (_strip->filter_freq_controllable (false)) { _strip->filter_freq_controllable (false)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/eq_lpf/freq"), _strip->filter_freq_controllable (false)), OSC::instance()); change_message ("/select/eq_lpf/freq", _strip->filter_freq_controllable(false)); } if (_strip->filter_slope_controllable (true)) { _strip->filter_slope_controllable (true)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/eq_hpf/slope"), _strip->filter_slope_controllable (true)), OSC::instance()); change_message ("/select/eq_hpf/slope", _strip->filter_slope_controllable(true)); } if (_strip->filter_slope_controllable (false)) { _strip->filter_slope_controllable (false)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message, this, X_("/select/eq_lpf/slope"), _strip->filter_slope_controllable (false)), OSC::instance()); change_message ("/select/eq_lpf/slope", _strip->filter_slope_controllable(false)); } if (_strip->eq_enable_controllable ()) { _strip->eq_enable_controllable ()->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::enable_message, this, X_("/select/eq_enable"), _strip->eq_enable_controllable()), OSC::instance()); enable_message ("/select/eq_enable", _strip->eq_enable_controllable()); } uint32_t eq_bands = _strip->eq_band_cnt (); if (!eq_bands) { return; } for (uint32_t i = 0; i < eq_bands; i++) { if (_strip->eq_band_name(i).size()) { text_with_id ("/select/eq_band_name", i + 1, _strip->eq_band_name (i)); } if (_strip->eq_gain_controllable (i)) { _strip->eq_gain_controllable(i)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message_with_id, this, X_("/select/eq_gain"), i + 1, _strip->eq_gain_controllable(i)), OSC::instance()); change_message_with_id ("/select/eq_gain", i + 1, _strip->eq_gain_controllable(i)); } if (_strip->eq_freq_controllable (i)) { _strip->eq_freq_controllable(i)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message_with_id, this, X_("/select/eq_freq"), i + 1, _strip->eq_freq_controllable(i)), OSC::instance()); change_message_with_id ("/select/eq_freq", i + 1, _strip->eq_freq_controllable(i)); } if (_strip->eq_q_controllable (i)) { _strip->eq_q_controllable(i)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message_with_id, this, X_("/select/eq_q"), i + 1, _strip->eq_q_controllable(i)), OSC::instance()); change_message_with_id ("/select/eq_q", i + 1, _strip->eq_q_controllable(i)); } if (_strip->eq_shape_controllable (i)) { _strip->eq_shape_controllable(i)->Changed.connect (eq_connections, MISSING_INVALIDATOR, boost::bind (&OSCSelectObserver::change_message_with_id, this, X_("/select/eq_shape"), i + 1, _strip->eq_shape_controllable(i)), OSC::instance()); change_message_with_id ("/select/eq_shape", i + 1, _strip->eq_shape_controllable(i)); } } } void OSCSelectObserver::eq_end () { //need to check feedback for [13] eq_connections.drop_connections (); if (_strip->filter_freq_controllable (true)) { send_float ("/select/eq_hpf", 0); } if (_strip->eq_enable_controllable ()) { send_float ("/select/eq_enable", 0); } for (uint32_t i = 1; i <= _strip->eq_band_cnt (); i++) { text_with_id ("/select/eq_band_name", i, " "); send_float_with_id ("/select/eq_gain", i, 0); send_float_with_id ("/select/eq_freq", i, 0); send_float_with_id ("/select/eq_q", i, 0); send_float_with_id ("/select/eq_shape", i, 0); } } void OSCSelectObserver::eq_restart(int x) { eq_end(); eq_init(); } string OSCSelectObserver::set_path (string path, uint32_t id) { if (feedback[2]) { path = string_compose ("%1/%2", path, id); } return path; } void OSCSelectObserver::send_float (string path, float val) { lo_message msg = lo_message_new (); lo_message_add_float (msg, val); lo_send_message (addr, path.c_str(), msg); lo_message_free (msg); } void OSCSelectObserver::send_float_with_id (string path, uint32_t id, float val) { lo_message msg = lo_message_new (); if (feedback[2]) { path = set_path (path, id); } else { lo_message_add_int32 (msg, id); } lo_message_add_float (msg, val); lo_send_message (addr, path.c_str(), msg); lo_message_free (msg); }