/* Copyright (C) 2002 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 #include #include #include #include #include "ardour/automation_list.h" #include "ardour/event_type_map.h" #include "ardour/parameter_descriptor.h" #include "evoral/Curve.hpp" #include "pbd/memento_command.h" #include "pbd/stacktrace.h" #include "pbd/enumwriter.h" #include "pbd/i18n.h" using namespace std; using namespace ARDOUR; using namespace PBD; PBD::Signal1 AutomationList::AutomationListCreated; #if 0 static void dumpit (const AutomationList& al, string prefix = "") { cerr << prefix << &al << endl; for (AutomationList::const_iterator i = al.begin(); i != al.end(); ++i) { cerr << prefix << '\t' << (*i)->when << ',' << (*i)->value << endl; } cerr << "\n"; } #endif AutomationList::AutomationList (const Evoral::Parameter& id, const Evoral::ParameterDescriptor& desc) : ControlList(id, desc) , _before (0) { _state = Off; _style = Absolute; g_atomic_int_set (&_touching, 0); create_curve_if_necessary(); assert(_parameter.type() != NullAutomation); AutomationListCreated(this); } AutomationList::AutomationList (const Evoral::Parameter& id) : ControlList(id, ARDOUR::ParameterDescriptor(id)) , _before (0) { _state = Off; _style = Absolute; g_atomic_int_set (&_touching, 0); create_curve_if_necessary(); assert(_parameter.type() != NullAutomation); AutomationListCreated(this); } AutomationList::AutomationList (const AutomationList& other) : StatefulDestructible() , ControlList(other) , _before (0) { _style = other._style; _state = other._state; g_atomic_int_set (&_touching, other.touching()); create_curve_if_necessary(); assert(_parameter.type() != NullAutomation); AutomationListCreated(this); } AutomationList::AutomationList (const AutomationList& other, double start, double end) : ControlList(other, start, end) , _before (0) { _style = other._style; _state = other._state; g_atomic_int_set (&_touching, other.touching()); create_curve_if_necessary(); assert(_parameter.type() != NullAutomation); AutomationListCreated(this); } /** @param id is used for legacy sessions where the type is not present * in or below the AutomationList node. It is used if @param id is non-null. */ AutomationList::AutomationList (const XMLNode& node, Evoral::Parameter id) : ControlList(id, ARDOUR::ParameterDescriptor(id)) , _before (0) { g_atomic_int_set (&_touching, 0); _state = Off; _style = Absolute; set_state (node, Stateful::loading_state_version); if (id) { _parameter = id; } create_curve_if_necessary(); assert(_parameter.type() != NullAutomation); AutomationListCreated(this); } AutomationList::~AutomationList() { delete _before; } boost::shared_ptr AutomationList::create(const Evoral::Parameter& id, const Evoral::ParameterDescriptor& desc) { return boost::shared_ptr(new AutomationList(id, desc)); } void AutomationList::create_curve_if_necessary() { switch (_parameter.type()) { case GainAutomation: case TrimAutomation: case PanAzimuthAutomation: case PanElevationAutomation: case PanWidthAutomation: case FadeInAutomation: case FadeOutAutomation: case EnvelopeAutomation: create_curve(); break; default: break; } } AutomationList& AutomationList::operator= (const AutomationList& other) { if (this != &other) { ControlList::operator= (other); _state = other._state; _style = other._style; _touching = other._touching; mark_dirty (); maybe_signal_changed (); } return *this; } void AutomationList::maybe_signal_changed () { ControlList::maybe_signal_changed (); if (!ControlList::frozen()) { StateChanged (); /* EMIT SIGNAL */ } } void AutomationList::set_automation_state (AutoState s) { if (s != _state) { _state = s; delete _before; if (s == Write && _desc.toggled) { _before = &get_state (); } else { _before = 0; } automation_state_changed (s); /* EMIT SIGNAL */ } } void AutomationList::set_automation_style (AutoStyle s) { if (s != _style) { _style = s; automation_style_changed (); /* EMIT SIGNAL */ } } void AutomationList::start_write_pass (double when) { delete _before; if (in_new_write_pass ()) { _before = &get_state (); } else { _before = 0; } ControlList::start_write_pass (when); } void AutomationList::write_pass_finished (double when, double thinning_factor) { ControlList::write_pass_finished (when, thinning_factor); } void AutomationList::start_touch (double when) { if (_state == Touch) { start_write_pass (when); } g_atomic_int_set (&_touching, 1); } void AutomationList::stop_touch (bool mark, double) { if (g_atomic_int_get (&_touching) == 0) { /* this touch has already been stopped (probably by Automatable::transport_stopped), so we've nothing to do. */ return; } g_atomic_int_set (&_touching, 0); if (_state == Touch) { if (mark) { /* XXX need to mark the last added point with the * current time */ } } } /* _before may be owned by the undo stack, * so we have to be careful about doing this. * * ::before () transfers ownership, setting _before to 0 */ void AutomationList::clear_history () { delete _before; _before = 0; } void AutomationList::thaw () { ControlList::thaw(); if (_changed_when_thawed) { _changed_when_thawed = false; StateChanged(); /* EMIT SIGNAL */ } } Command* AutomationList::memento_command (XMLNode* before, XMLNode* after) { return new MementoCommand (*this, before, after); } XMLNode& AutomationList::get_state () { return state (true); } XMLNode& AutomationList::state (bool full) { XMLNode* root = new XMLNode (X_("AutomationList")); char buf[64]; LocaleGuard lg; root->add_property ("automation-id", EventTypeMap::instance().to_symbol(_parameter)); root->add_property ("id", id().to_s()); snprintf (buf, sizeof (buf), "%.12g", _default_value); root->add_property ("default", buf); snprintf (buf, sizeof (buf), "%.12g", _min_yval); root->add_property ("min-yval", buf); snprintf (buf, sizeof (buf), "%.12g", _max_yval); root->add_property ("max-yval", buf); root->add_property ("interpolation-style", enum_2_string (_interpolation)); if (full) { /* never serialize state with Write enabled - too dangerous for the user's data */ if (_state != Write) { root->add_property ("state", auto_state_to_string (_state)); } else { if (_events.empty ()) { root->add_property ("state", auto_state_to_string (Off)); } else { root->add_property ("state", auto_state_to_string (Touch)); } } } else { /* never save anything but Off for automation state to a template */ root->add_property ("state", auto_state_to_string (Off)); } root->add_property ("style", auto_style_to_string (_style)); if (!_events.empty()) { root->add_child_nocopy (serialize_events()); } return *root; } XMLNode& AutomationList::serialize_events () { XMLNode* node = new XMLNode (X_("events")); stringstream str; str.precision(15); //10 digits is enough digits for 24 hours at 96kHz for (iterator xx = _events.begin(); xx != _events.end(); ++xx) { str << (double) (*xx)->when; str << ' '; str <<(double) (*xx)->value; str << '\n'; } /* XML is a bit wierd */ XMLNode* content_node = new XMLNode (X_("foo")); /* it gets renamed by libxml when we set content */ content_node->set_content (str.str()); node->add_child_nocopy (*content_node); return *node; } int AutomationList::deserialize_events (const XMLNode& node) { if (node.children().empty()) { return -1; } XMLNode* content_node = node.children().front(); if (content_node->content().empty()) { return -1; } ControlList::freeze (); clear (); stringstream str (content_node->content()); double x; double y; bool ok = true; while (str) { str >> x; if (!str) { break; } str >> y; if (!str) { ok = false; break; } fast_simple_add (x, y); } if (!ok) { clear (); error << _("automation list: cannot load coordinates from XML, all points ignored") << endmsg; } else { mark_dirty (); maybe_signal_changed (); } thaw (); return 0; } int AutomationList::set_state (const XMLNode& node, int version) { LocaleGuard lg; XMLNodeList nlist = node.children(); XMLNode* nsos; XMLNodeIterator niter; XMLProperty const * prop; if (node.name() == X_("events")) { /* partial state setting*/ return deserialize_events (node); } if (node.name() == X_("Envelope") || node.name() == X_("FadeOut") || node.name() == X_("FadeIn")) { if ((nsos = node.child (X_("AutomationList")))) { /* new school in old school clothing */ return set_state (*nsos, version); } /* old school */ const XMLNodeList& elist = node.children(); XMLNodeConstIterator i; XMLProperty const * prop; pframes_t x; double y; ControlList::freeze (); clear (); for (i = elist.begin(); i != elist.end(); ++i) { if ((prop = (*i)->property ("x")) == 0) { error << _("automation list: no x-coordinate stored for control point (point ignored)") << endmsg; continue; } x = atoi (prop->value().c_str()); if ((prop = (*i)->property ("y")) == 0) { error << _("automation list: no y-coordinate stored for control point (point ignored)") << endmsg; continue; } y = atof (prop->value().c_str()); fast_simple_add (x, y); } thaw (); return 0; } if (node.name() != X_("AutomationList") ) { error << string_compose (_("AutomationList: passed XML node called %1, not \"AutomationList\" - ignored"), node.name()) << endmsg; return -1; } if (set_id (node)) { /* update session AL list */ AutomationListCreated(this); } if ((prop = node.property (X_("automation-id"))) != 0){ _parameter = EventTypeMap::instance().from_symbol(prop->value()); } else { warning << "Legacy session: automation list has no automation-id property." << endmsg; } if ((prop = node.property (X_("interpolation-style"))) != 0) { _interpolation = (InterpolationStyle)string_2_enum(prop->value(), _interpolation); } else { _interpolation = Linear; } if ((prop = node.property (X_("default"))) != 0){ _default_value = atof (prop->value().c_str()); } else { _default_value = 0.0; } if ((prop = node.property (X_("style"))) != 0) { _style = string_to_auto_style (prop->value()); } else { _style = Absolute; } if ((prop = node.property (X_("state"))) != 0) { _state = string_to_auto_state (prop->value()); if (_state == Write) { _state = Off; } automation_state_changed(_state); } else { _state = Off; } if ((prop = node.property (X_("min-yval"))) != 0) { _min_yval = atof (prop->value ().c_str()); } else { _min_yval = FLT_MIN; } if ((prop = node.property (X_("max-yval"))) != 0) { _max_yval = atof (prop->value ().c_str()); } else { _max_yval = FLT_MAX; } bool have_events = false; for (niter = nlist.begin(); niter != nlist.end(); ++niter) { if ((*niter)->name() == X_("events")) { deserialize_events (*(*niter)); have_events = true; } } if (!have_events) { /* there was no Events child node; clear any current events */ freeze (); clear (); mark_dirty (); maybe_signal_changed (); thaw (); } return 0; } bool AutomationList::operator!= (AutomationList const & other) const { return ( static_cast (*this) != static_cast (other) || _state != other._state || _style != other._style || _touching != other._touching ); } PBD::PropertyBase * AutomationListProperty::clone () const { return new AutomationListProperty ( this->property_id(), boost::shared_ptr (new AutomationList (*this->_old.get())), boost::shared_ptr (new AutomationList (*this->_current.get())) ); }