13
0
livetrax/libs/surfaces/mackie/mackie_control_protocol.cc
2024-11-06 23:03:19 +01:00

2507 lines
74 KiB
C++

/*
* Copyright (C) 2006-2007 John Anderson
* Copyright (C) 2007-2010 David Robillard <d@drobilla.net>
* Copyright (C) 2007-2017 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2009-2012 Carl Hetherington <carl@carlh.net>
* Copyright (C) 2015-2016 Len Ovens <len@ovenwerks.net>
* Copyright (C) 2015-2019 Robin Gareus <robin@gareus.org>
* Copyright (C) 2016-2018 Ben Loftis <ben@harrisonconsoles.com>
*
* 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.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <fcntl.h>
#include <iostream>
#include <algorithm>
#include <cmath>
#include <sstream>
#include <vector>
#include <iomanip>
#include <inttypes.h>
#include <float.h>
#include <sys/time.h>
#include <errno.h>
#include <glibmm/miscutils.h>
#include "midi++/types.h"
#include "midi++/port.h"
#include "midi++/ipmidi_port.h"
#include "pbd/pthread_utils.h"
#include "pbd/error.h"
#include "pbd/memento_command.h"
#include "pbd/convert.h"
#include "ardour/audio_track.h"
#include "ardour/automation_control.h"
#include "ardour/async_midi_port.h"
#include "ardour/dB.h"
#include "ardour/debug.h"
#include "ardour/location.h"
#include "ardour/meter.h"
#include "ardour/midi_track.h"
#include "ardour/panner.h"
#include "ardour/panner_shell.h"
#include "ardour/profile.h"
#include "ardour/record_enable_control.h"
#include "ardour/route.h"
#include "ardour/route_group.h"
#include "ardour/session.h"
#include "ardour/tempo.h"
#include "ardour/track.h"
#include "ardour/types.h"
#include "ardour/audioengine.h"
#include "ardour/vca.h"
#include "ardour/vca_manager.h"
#include "temporal/tempo.h"
#include "mackie_control_protocol.h"
#include "midi_byte_array.h"
#include "mackie_control_exception.h"
#include "device_profile.h"
#include "subview.h"
#include "surface_port.h"
#include "surface.h"
#include "strip.h"
#include "control_group.h"
#include "meter.h"
#include "button.h"
#include "fader.h"
#include "pot.h"
#ifndef G_SOURCE_FUNC
#define G_SOURCE_FUNC(f) ((GSourceFunc) (void (*)(void)) (f))
#endif
using namespace ARDOUR;
using namespace std;
using namespace PBD;
using namespace Glib;
using namespace ArdourSurface;
using namespace ArdourSurface::MACKIE_NAMESPACE;
#include "pbd/i18n.h"
#include "pbd/abstract_ui.inc.cc" // instantiate template
const int MACKIE_NAMESPACE::MackieControlProtocol::MODIFIER_OPTION = 0x1;
const int MACKIE_NAMESPACE::MackieControlProtocol::MODIFIER_CONTROL = 0x2;
const int MACKIE_NAMESPACE::MackieControlProtocol::MODIFIER_SHIFT = 0x4;
const int MACKIE_NAMESPACE::MackieControlProtocol::MODIFIER_CMDALT = 0x8;
const int MACKIE_NAMESPACE::MackieControlProtocol::MODIFIER_ZOOM = 0x10;
const int MACKIE_NAMESPACE::MackieControlProtocol::MODIFIER_SCRUB = 0x20;
const int MACKIE_NAMESPACE::MackieControlProtocol::MODIFIER_MARKER = 0x40;
const int MACKIE_NAMESPACE::MackieControlProtocol::MODIFIER_NUDGE = 0x80;
const int MACKIE_NAMESPACE::MackieControlProtocol::MAIN_MODIFIER_MASK = (MackieControlProtocol::MODIFIER_OPTION|
MackieControlProtocol::MODIFIER_CONTROL|
MackieControlProtocol::MODIFIER_SHIFT|
MackieControlProtocol::MODIFIER_CMDALT);
MACKIE_NAMESPACE::MackieControlProtocol* MACKIE_NAMESPACE::MackieControlProtocol::_instance = 0;
MackieControlProtocol::MackieControlProtocol (Session& session, const char* pname)
: ControlProtocol (session, pname)
, AbstractUI<MackieControlUIRequest> (name())
, _current_initial_bank (0)
, _timecode_last (10, '\0')
, _sample_last (0)
, _timecode_type (ARDOUR::AnyTime::BBT)
, _gui (0)
, _scrub_mode (false)
, _flip_mode (Normal)
, _view_mode (Mixer)
, _current_selected_track (-1)
, _modifier_state (0)
, _ipmidi_base (MIDI::IPMIDIPort::lowest_ipmidi_port_default)
, needs_ipmidi_restart (false)
, _metering_active (true)
, _initialized (false)
, configuration_state (0)
, state_version (0)
, marker_modifier_consumed_by_button (false)
, nudge_modifier_consumed_by_button (false)
{
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::MackieControlProtocol\n");
_subview = MACKIE_NAMESPACE::SubviewFactory::instance()->create_subview(Subview::None, *this, std::shared_ptr<Stripable>());
DeviceInfo::reload_device_info ();
DeviceProfile::reload_device_profiles ();
for (int i = 0; i < 9; i++) {
_last_bank[i] = 0;
}
PresentationInfo::Change.connect (gui_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_presentation_info_changed, this, _1), this);
_instance = this;
build_button_map ();
}
MackieControlProtocol::~MackieControlProtocol()
{
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::~MackieControlProtocol init\n");
for (Surfaces::const_iterator si = surfaces.begin(); si != surfaces.end(); ++si) {
(*si)->reset ();
}
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::~MackieControlProtocol drop_connections ()\n");
drop_connections ();
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::~MackieControlProtocol tear_down_gui ()\n");
tear_down_gui ();
delete configuration_state;
/* stop event loop */
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::~MackieControlProtocol BaseUI::quit ()\n");
BaseUI::quit ();
try {
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::~MackieControlProtocol close()\n");
close();
}
catch (exception & e) {
cout << "~MackieControlProtocol caught " << e.what() << endl;
}
catch (...) {
cout << "~MackieControlProtocol caught unknown" << endl;
}
_instance = 0;
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::~MackieControlProtocol done\n");
}
void
MackieControlProtocol::thread_init ()
{
PBD::notify_event_loops_about_thread_creation (pthread_self(), event_loop_name(), 2048);
ARDOUR::SessionEvent::create_per_thread_pool (event_loop_name(), 128);
set_thread_priority ();
}
// go to the previous track.
void
MackieControlProtocol::prev_track()
{
if (_current_initial_bank >= 1) {
switch_banks (_current_initial_bank - 1);
}
}
// go to the next track.
void
MackieControlProtocol::next_track()
{
Sorted sorted = get_sorted_stripables();
if (_current_initial_bank + 1 < sorted.size()) {
switch_banks (_current_initial_bank + 1);
}
}
bool
MackieControlProtocol::stripable_is_locked_to_strip (std::shared_ptr<Stripable> r) const
{
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::const_iterator si = surfaces.begin(); si != surfaces.end(); ++si) {
if ((*si)->stripable_is_locked_to_strip (r)) {
return true;
}
}
}
return false;
}
// predicate for sort call in get_sorted_stripables
struct StripableByPresentationOrder
{
bool operator () (const std::shared_ptr<Stripable> & a, const std::shared_ptr<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();
}
bool operator () (const Stripable * a, const Stripable * b) const
{
return a->presentation_info().order() < b->presentation_info().order();
}
};
MackieControlProtocol::Sorted
MackieControlProtocol::get_sorted_stripables()
{
Sorted sorted;
// fetch all stripables
StripableList stripables;
session->get_stripables (stripables, PresentationInfo::AllStripables);
// sort in presentation order, and exclude master, control and hidden stripables
// and any stripables that are already set.
for (StripableList::iterator it = stripables.begin(); it != stripables.end(); ++it) {
std::shared_ptr<Stripable> s = *it;
if (s->presentation_info().special()) {
continue;
}
/* don't include locked routes */
if (stripable_is_locked_to_strip (s)) {
continue;
}
switch (_view_mode) {
case Mixer:
if (!s->presentation_info().hidden()) {
sorted.push_back (s);
}
break;
case AudioTracks:
if (is_audio_track(s) && !s->presentation_info().hidden()) {
sorted.push_back (s);
}
break;
case Busses:
if (Profile->get_mixbus()) {
#ifdef MIXBUS
if (s->mixbus()) {
sorted.push_back (s);
}
#endif
} else {
if (!is_track (s) && !is_vca (s) && !is_foldback_bus (s) && !s->presentation_info().hidden()) {
sorted.push_back (s);
}
}
break;
case MidiTracks:
if (is_midi_track(s) && !s->presentation_info().hidden()) {
sorted.push_back (s);
}
break;
case Auxes: // in ardour, for now aux and buss are same. for mixbus, "Busses" are mixbuses, "Auxes" are ardour buses
#ifdef MIXBUS
if (!s->mixbus() && !is_track(s) && !is_vca (s) && !is_foldback_bus (s) && !s->presentation_info().hidden())
#else
if (!is_track (s) && !is_vca (s) && !is_foldback_bus (s) && !s->presentation_info().hidden())
#endif
{
sorted.push_back (s);
}
break;
case Outputs:
if (is_foldback_bus (s) && !s->presentation_info().hidden()) {
sorted.push_back (s);
}
break;
case Selected: // For example: a group (this is USER)
if (s->is_selected() && !s->presentation_info().hidden()) {
sorted.push_back (s);
}
break;
case AudioInstr:
if (is_vca (s)){
sorted.push_back (s);
}
break;
case Inputs:
if (is_trigger_track (s) && !s->presentation_info().hidden()){
sorted.push_back (s);
}
break;
}
}
sort (sorted.begin(), sorted.end(), StripableByPresentationOrder());
return sorted;
}
void
MackieControlProtocol::refresh_current_bank()
{
switch_banks (_current_initial_bank, true);
}
uint32_t
MackieControlProtocol::n_strips (bool with_locked_strips) const
{
uint32_t strip_count = 0;
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::const_iterator si = surfaces.begin(); si != surfaces.end(); ++si) {
strip_count += (*si)->n_strips (with_locked_strips);
}
}
return strip_count;
}
int
MackieControlProtocol::switch_banks (uint32_t initial, bool force)
{
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("switch banking to start at %1 force ? %2 current = %3\n", initial, force, _current_initial_bank));
if (initial == _current_initial_bank && !force) {
/* everything is as it should be */
return 0;
}
Sorted sorted = get_sorted_stripables();
uint32_t strip_cnt = n_strips (false); // do not include locked strips
// in this count
if (initial >= sorted.size() && !force) {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("bank target %1 exceeds route range %2\n",
_current_initial_bank, sorted.size()));
/* too high, we can't get there */
return -1;
}
if (sorted.size() <= strip_cnt && _current_initial_bank == 0 && !force) {
/* no banking - not enough stripables to fill all strips and we're
* not at the first one.
*/
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("less routes (%1) than strips (%2) and we're at the end already (%3)\n",
sorted.size(), strip_cnt, _current_initial_bank));
return -1;
}
_current_initial_bank = initial;
_current_selected_track = -1;
// Map current bank of stripables onto each surface(+strip)
if (_current_initial_bank < sorted.size()) {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("switch to %1, %2, available stripables %3 on %4 surfaces\n",
_current_initial_bank, strip_cnt, sorted.size(),
surfaces.size()));
// link stripables to strips
Sorted::iterator r = sorted.begin() + _current_initial_bank;
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator si = surfaces.begin(); si != surfaces.end(); ++si) {
vector<std::shared_ptr<Stripable> > stripables;
uint32_t added = 0;
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("surface has %1 unlocked strips\n", (*si)->n_strips (false)));
for (; r != sorted.end() && added < (*si)->n_strips (false); ++r, ++added) {
stripables.push_back (*r);
}
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("give surface %1 stripables\n", stripables.size()));
(*si)->map_stripables (stripables);
}
}
} else {
/* all strips need to be reset */
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("clear all strips, bank target %1 is outside route range %2\n",
_current_initial_bank, sorted.size()));
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator si = surfaces.begin(); si != surfaces.end(); ++si) {
vector<std::shared_ptr<Stripable> > stripables;
/* pass in an empty stripables list, so that all strips will be reset */
(*si)->map_stripables (stripables);
}
}
return -1;
}
/* current bank has not been saved */
session->set_dirty();
return 0;
}
int
MackieControlProtocol::set_active (bool yn)
{
DEBUG_TRACE (DEBUG::MackieControl, string_compose("MackieControlProtocol::set_active init with yn: '%1'\n", yn));
if (yn == active()) {
return 0;
}
if (yn) {
/* start event loop */
BaseUI::run ();
connect_session_signals ();
if (!_device_info.name().empty()) {
set_device (_device_info.name(), true);
}
/* set up periodic task for timecode display and metering and automation
*/
// set different refresh time for qcon and standard mackie MCU
int iTimeCodeRefreshTime = 100; // default value for mackie MCU (100ms)
int iStripDisplayRefreshTime = 10; // default value for Mackie MCU (10ms)
if(_device_info.is_qcon()){
// set faster timecode display refresh speed (55ms)
iTimeCodeRefreshTime = 55;
// set slower refresh time on qcon than on mackie (15ms)
iStripDisplayRefreshTime = 15;
}
Glib::RefPtr<Glib::TimeoutSource> periodic_timeout = Glib::TimeoutSource::create (iTimeCodeRefreshTime); // milliseconds
periodic_connection = periodic_timeout->connect (sigc::mem_fun (*this, &MackieControlProtocol::periodic));
periodic_timeout->attach (main_loop()->get_context());
/* periodic task used to update strip displays */
Glib::RefPtr<Glib::TimeoutSource> redisplay_timeout = Glib::TimeoutSource::create (iStripDisplayRefreshTime); // milliseconds
redisplay_connection = redisplay_timeout->connect (sigc::mem_fun (*this, &MackieControlProtocol::redisplay));
redisplay_timeout->attach (main_loop()->get_context());
notify_transport_state_changed ();
} else {
BaseUI::quit ();
close ();
}
ControlProtocol::set_active (yn);
DEBUG_TRACE (DEBUG::MackieControl, string_compose("MackieControlProtocol::set_active done with yn: '%1'\n", yn));
return 0;
}
bool
MackieControlProtocol::hui_heartbeat ()
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->hui_heartbeat ();
}
return true;
}
bool
MackieControlProtocol::periodic ()
{
if (!active()) {
return false;
}
if (!_initialized) {
/* wait for higher-frequency redisplay() callback to initialize
* us
*/
return true;
}
update_timecode_display ();
PBD::microseconds_t now_usecs = PBD::get_microseconds ();
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->periodic (now_usecs);
}
}
return true;
}
bool
MackieControlProtocol::redisplay ()
{
if (!active()) {
return false;
}
if (needs_ipmidi_restart) {
ipmidi_restart ();
return true;
}
if (!_initialized) {
initialize();
}
PBD::microseconds_t now = PBD::get_microseconds ();
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->redisplay (now, false);
}
}
return true;
}
void
MackieControlProtocol::update_timecode_beats_led()
{
if (!_device_info.has_timecode_display()) {
return;
}
DEBUG_TRACE (DEBUG::MackieControl, string_compose("MackieControlProtocol::update_timecode_beats_led(): %1\n", _timecode_type));
switch (_timecode_type) {
case ARDOUR::AnyTime::BBT:
update_global_led (Led::Beats, on);
update_global_led (Led::Timecode, off);
break;
case ARDOUR::AnyTime::Timecode:
update_global_led (Led::Timecode, on);
update_global_led (Led::Beats, off);
break;
default:
ostringstream os;
os << "Unknown Anytime::Type " << _timecode_type;
throw runtime_error (os.str());
}
}
void
MackieControlProtocol::update_global_button (int id, MACKIE_NAMESPACE::LedState ls)
{
std::shared_ptr<MACKIE_NAMESPACE::Surface> surface;
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (!_master_surface) {
return;
}
if (!_device_info.has_global_controls()) {
return;
}
// surface needs to be master surface
surface = _master_surface;
}
map<int,Control*>::iterator x = surface->controls_by_device_independent_id.find (id);
if (x != surface->controls_by_device_independent_id.end()) {
Button * button = dynamic_cast<Button*> (x->second);
surface->write (button->set_state (ls));
} else {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("Button %1 not found\n", id));
}
}
void
MackieControlProtocol::update_global_led (int id, MACKIE_NAMESPACE::LedState ls)
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (surfaces.empty()) {
return;
}
if (!_device_info.has_global_controls()) {
return;
}
std::shared_ptr<MACKIE_NAMESPACE::Surface> surface = _master_surface;
map<int,Control*>::iterator x = surface->controls_by_device_independent_id.find (id);
if (x != surface->controls_by_device_independent_id.end()) {
Led * led = dynamic_cast<Led*> (x->second);
DEBUG_TRACE (DEBUG::MackieControl, "Writing LedState\n");
surface->write (led->set_state (ls));
} else {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("Led %1 not found\n", id));
}
}
void
MackieControlProtocol::device_ready ()
{
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("device ready init (active=%1)\n", active()));
// Clear the surface so that any left over control from other programs are reset.
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->zero_all ();
}
}
update_surfaces ();
set_subview_mode (MACKIE_NAMESPACE::Subview::None, std::shared_ptr<Stripable>());
set_flip_mode (Normal);
}
// send messages to surface to set controls to correct values
void
MackieControlProtocol::update_surfaces()
{
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("MackieControlProtocol::update_surfaces() init (active=%1)\n", active()));
if (!active()) {
return;
}
// do the initial bank switch to connect signals
// _current_initial_bank is initialised by set_state
(void) switch_banks (_current_initial_bank, true);
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::update_surfaces() finished\n");
}
void
MackieControlProtocol::initialize()
{
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (surfaces.empty()) {
return;
}
if (!_master_surface) {
return;
}
if (!_master_surface->active ()) {
return;
}
// sometimes the jog wheel is a pot
if (_device_info.has_jog_wheel()) {
_master_surface->blank_jog_ring ();
}
}
// update global buttons and displays
notify_record_state_changed();
notify_transport_state_changed();
update_timecode_beats_led();
_initialized = true;
}
void
MackieControlProtocol::connect_session_signals()
{
// receive routes added
session->RouteAdded.connect(session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_routes_added, this, _1), this);
// receive VCAs added
session->vca_manager().VCAAdded.connect(session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_vca_added, this, _1), this);
// receive record state toggled
session->RecordStateChanged.connect(session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_record_state_changed, this), this);
// receive transport state changed
session->TransportStateChange.connect(session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_transport_state_changed, this), this);
session->TransportLooped.connect (session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_loop_state_changed, this), this);
// receive punch-in and punch-out
Config->ParameterChanged.connect(session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_parameter_changed, this, _1), this);
session->config.ParameterChanged.connect (session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_parameter_changed, this, _1), this);
// receive rude solo changed
session->SoloActive.connect(session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_solo_active_changed, this, _1), this);
session->MonitorBusAddedOrRemoved.connect (session_connections, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::notify_monitor_added_or_removed, this), this);
// make sure remote id changed signals reach here
// see also notify_stripable_added
Sorted sorted = get_sorted_stripables();
}
void
MackieControlProtocol::set_profile (const string& profile_name)
{
map<string,DeviceProfile>::iterator d = DeviceProfile::device_profiles.find (profile_name);
if (d == DeviceProfile::device_profiles.end()) {
_device_profile = DeviceProfile (profile_name);
return;
}
_device_profile = d->second;
}
int
MackieControlProtocol::set_device_info (const string& device_name)
{
map<string,DeviceInfo>::iterator d = DeviceInfo::device_info.find (device_name);
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("new device chosen %1\n", device_name));
if (d == DeviceInfo::device_info.end()) {
return -1;
}
_device_info = d->second;
return 0;
}
int
MackieControlProtocol::set_device (const string& device_name, bool force)
{
if (device_name == device_info().name() && !force) {
/* already using that device, nothing to do */
return 0;
}
/* get state from the current setup, and make sure it is stored in
the configuration_states node so that if we switch back to this device,
we will have its state available.
*/
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (!surfaces.empty()) {
update_configuration_state ();
}
}
if (set_device_info (device_name)) {
return -1;
}
clear_surfaces ();
port_connection.disconnect ();
hui_connection.disconnect ();
if (_device_info.device_type() == DeviceInfo::HUI) {
Glib::RefPtr<Glib::TimeoutSource> hui_timeout = Glib::TimeoutSource::create (1000); // milliseconds
hui_connection = hui_timeout->connect (sigc::mem_fun (*this, &MackieControlProtocol::hui_heartbeat));
hui_timeout->attach (main_loop()->get_context());
}
if (!_device_info.uses_ipmidi()) {
/* notice that the handler for this will execute in our event
loop, not in the thread where the
PortConnectedOrDisconnected signal is emitted.
*/
ARDOUR::AudioEngine::instance()->PortConnectedOrDisconnected.connect (port_connection, MISSING_INVALIDATOR, std::bind (&MackieControlProtocol::connection_handler, this, _1, _2, _3, _4, _5), this);
}
build_button_map();
if (create_surfaces ()) {
return -1;
}
DeviceChanged ();
return 0;
}
gboolean
ArdourSurface::MACKIE_NAMESPACE::ipmidi_input_handler (GIOChannel*, GIOCondition condition, void *data)
{
MackieControlProtocol::ipMIDIHandler* ipm = static_cast<MackieControlProtocol::ipMIDIHandler*>(data);
return ipm->mcp->midi_input_handler (Glib::IOCondition (condition), ipm->port);
}
int
MackieControlProtocol::create_surfaces ()
{
string device_name;
surface_type_t stype = mcu; // type not yet determined
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("Create %1 surfaces for %2\n", 1 + _device_info.extenders(), _device_info.name()));
if (!_device_info.uses_ipmidi()) {
_input_bundle.reset (new ARDOUR::Bundle (_("Mackie Control In"), true));
_output_bundle.reset (new ARDOUR::Bundle (_("Mackie Control Out"), false));
} else {
_input_bundle.reset ();
_output_bundle.reset ();
}
for (uint32_t n = 0; n < 1 + _device_info.extenders(); ++n) {
bool is_master = false;
if (n == _device_info.master_position()) {
is_master = true;
if (_device_info.extenders() == 0) {
device_name = _device_info.name();
} else {
#ifdef UF8
device_name = X_("SSL-UFx");
#else
device_name = X_("mackie control");
#endif
}
}
if (!is_master) {
device_name = string_compose (X_("mackie control ext %1"), n+1);
}
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("Port Name for surface %1 is %2\n", n, device_name));
std::shared_ptr<MACKIE_NAMESPACE::Surface> surface;
if (is_master) {
stype = mcu;
} else {
stype = ext;
}
try {
surface.reset (new MACKIE_NAMESPACE::Surface (*this, device_name, n, stype));
} catch (...) {
return -1;
}
if (configuration_state) {
XMLNode* this_device = 0;
XMLNodeList const& devices = configuration_state->children();
for (XMLNodeList::const_iterator d = devices.begin(); d != devices.end(); ++d) {
XMLProperty const * prop = (*d)->property (X_("name"));
if (prop && prop->value() == _device_info.name()) {
this_device = *d;
break;
}
}
if (this_device) {
XMLNode* snode = this_device->child (X_("Surfaces"));
if (snode) {
surface->set_state (*snode, state_version);
}
}
}
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (is_master) {
_master_surface = surface;
}
surfaces.push_back (surface);
}
if (!_device_info.uses_ipmidi()) {
_input_bundle->add_channel (
"",
ARDOUR::DataType::MIDI,
session->engine().make_port_name_non_relative (surface->port().input_port().name())
);
_output_bundle->add_channel (
"",
ARDOUR::DataType::MIDI,
session->engine().make_port_name_non_relative (surface->port().output_port().name())
);
}
MIDI::Port& input_port (surface->port().input_port());
AsyncMIDIPort* asp = dynamic_cast<AsyncMIDIPort*> (&input_port);
if (asp) {
/* async MIDI port */
asp->xthread().set_receive_handler (sigc::bind (sigc::mem_fun (this, &MackieControlProtocol::midi_input_handler), &input_port));
asp->xthread().attach (main_loop()->get_context());
} else {
/* ipMIDI port, no IOSource method at this time */
int fd;
if ((fd = input_port.selectable ()) >= 0) {
GIOChannel* ioc = g_io_channel_unix_new (fd);
surface->input_source = g_io_create_watch (ioc, GIOCondition (G_IO_IN|G_IO_HUP|G_IO_ERR));
/* make surface's input source now hold the
* only reference on the IO channel
*/
g_io_channel_unref (ioc);
/* hack up an object so that in the callback from the event loop
we have both the MackieControlProtocol and the input port.
If we were using C++ for this stuff we wouldn't need this
but a nasty, not-fixable bug in the binding between C
and C++ makes it necessary to avoid C++ for the IO
callback setup.
*/
ipMIDIHandler* ipm = new ipMIDIHandler (); /* we will leak this sizeof(pointer)*2 sized object */
ipm->mcp = this;
ipm->port = &input_port;
g_source_set_callback (surface->input_source, G_SOURCE_FUNC (ipmidi_input_handler), ipm, NULL);
g_source_attach (surface->input_source, main_loop()->get_context()->gobj());
}
}
}
if (!_device_info.uses_ipmidi()) {
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->port().reconnect ();
}
}
session->BundleAddedOrRemoved ();
assert (_master_surface);
return 0;
}
void
MackieControlProtocol::close()
{
port_connection.disconnect ();
session_connections.drop_connections ();
stripable_connections.drop_connections ();
periodic_connection.disconnect ();
clear_surfaces();
}
/** Ensure that the configuration_state XML node contains an up-to-date
* copy of the state node the current device. If configuration_state already
* contains a state node for the device, it will deleted and replaced.
*/
void
MackieControlProtocol::update_configuration_state () const
{
/* CALLER MUST HOLD SURFACES LOCK */
if (!configuration_state) {
configuration_state = new XMLNode (X_("Configurations"));
}
XMLNode* devnode = new XMLNode (X_("Configuration"));
devnode->set_property (X_("name"), _device_info.name());
configuration_state->remove_nodes_and_delete (X_("name"), _device_info.name());
configuration_state->add_child_nocopy (*devnode);
XMLNode* snode = new XMLNode (X_("Surfaces"));
for (auto const & s : surfaces) {
snode->add_child_nocopy (s->get_state());
}
devnode->add_child_nocopy (*snode);
}
XMLNode&
MackieControlProtocol::get_state() const
{
XMLNode& node (ControlProtocol::get_state());
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::get_state init\n");
// add current bank
node.set_property (X_("bank"), _current_initial_bank);
// ipMIDI base port (possibly not used)
node.set_property (X_("ipmidi-base"), _ipmidi_base);
node.set_property (X_("device-profile"), _device_profile.name());
node.set_property (X_("device-name"), _device_info.name());
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
update_configuration_state ();
}
/* force a copy of the _surfaces_state node, because we want to retain ownership */
node.add_child_copy (*configuration_state);
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::get_state done\n");
return node;
}
bool
MackieControlProtocol::profile_exists (string const & name) const
{
return DeviceProfile::device_profiles.find (name) != DeviceProfile::device_profiles.end();
}
int
MackieControlProtocol::set_state (const XMLNode & node, int version)
{
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("MackieControlProtocol::set_state: active %1\n", active()));
if (ControlProtocol::set_state (node, version)) {
return -1;
}
uint16_t ipmidi_base;
if (node.get_property (X_("ipmidi-base"), ipmidi_base)) {
set_ipmidi_base (ipmidi_base);
}
uint32_t bank = 0;
// fetch current bank
node.get_property (X_("bank"), bank);
std::string device_name;
if (node.get_property (X_("device-name"), device_name)) {
set_device_info (device_name);
}
std::string device_profile_name;
if (node.get_property (X_("device-profile"), device_profile_name)) {
if (device_profile_name.empty()) {
string default_profile_name;
/* start by looking for a user-edited profile for the current device name */
default_profile_name = DeviceProfile::name_when_edited (_device_info.name());
if (!profile_exists (default_profile_name)) {
/* no user-edited profile for this device name, so try the user-edited default profile */
default_profile_name = DeviceProfile::name_when_edited (DeviceProfile::default_profile_name);
if (!profile_exists (default_profile_name)) {
/* no user-edited version, so just try the device name */
default_profile_name = _device_info.name();
if (!profile_exists (default_profile_name)) {
/* no generic device specific profile, just try the fixed default */
default_profile_name = DeviceProfile::default_profile_name;
}
}
}
set_profile (default_profile_name);
} else {
if (profile_exists (device_profile_name)) {
set_profile (device_profile_name);
} else {
set_profile (DeviceProfile::default_profile_name);
}
}
}
XMLNode* dnode = node.child (X_("Configurations"));
delete configuration_state;
configuration_state = 0;
if (dnode) {
configuration_state = new XMLNode (*dnode);
state_version = version;
}
(void) switch_banks (bank, true);
DEBUG_TRACE (DEBUG::MackieControl, "MackieControlProtocol::set_state done\n");
return 0;
}
string
MackieControlProtocol::format_bbt_timecode (samplepos_t now_sample)
{
Temporal::BBT_Time bbt_time;
bbt_time = Temporal::TempoMap::fetch()->bbt_at (timepos_t (now_sample));
// The Mackie protocol spec is built around a BBT time display of
//
// digits: 888/88/88/888
// semantics: BBB/bb/ss/ttt
//
// The third field is "subdivisions" which is a concept found in Logic
// but not present in Ardour. Instead Ardour displays a 4 digit tick
// count, which we need to spread across the 5 digits of ss/ttt.
ostringstream os;
os << setw(3) << setfill('0') << bbt_time.bars;
os << setw(2) << setfill('0') << bbt_time.beats;
os << ' ';
os << setw(1) << setfill('0') << bbt_time.ticks / 1000;
os << setw(3) << setfill('0') << bbt_time.ticks % 1000;
return os.str();
}
string
MackieControlProtocol::format_timecode_timecode (samplepos_t now_sample)
{
Timecode::Time timecode;
session->timecode_time (now_sample, timecode);
// According to the Logic docs
// digits: 888/88/88/888
// Timecode mode: Hours/Minutes/Seconds/Samples
ostringstream os;
os << setw(2) << setfill('0') << timecode.hours;
os << ' ';
os << setw(2) << setfill('0') << timecode.minutes;
os << setw(2) << setfill('0') << timecode.seconds;
os << ' ';
os << setw(2) << setfill('0') << timecode.frames;
return os.str();
}
void
MackieControlProtocol::update_timecode_display()
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (surfaces.empty()) {
return;
}
std::shared_ptr<MACKIE_NAMESPACE::Surface> surface = _master_surface;
if (surface->type() != mcu || !_device_info.has_timecode_display() || !surface->active ()) {
return;
}
string timecode;
// do assignment here so current_sample is fixed
samplepos_t current_sample = session->transport_sample();
// For large jumps in play head possition do full reset
int moved = (current_sample - _sample_last) / session->sample_rate ();
if (moved) {
DEBUG_TRACE (DEBUG::MackieControl, "Timecode reset\n");
_timecode_last = string (10, '\0');
}
_sample_last = current_sample;
switch (_timecode_type) {
case ARDOUR::AnyTime::BBT:
timecode = format_bbt_timecode (current_sample);
break;
case ARDOUR::AnyTime::Timecode:
timecode = format_timecode_timecode (current_sample);
break;
default:
return;
}
// only write the timecode string to the MCU if it's changed
// since last time. This is to reduce midi bandwidth used.
if (timecode != _timecode_last) {
surface->display_timecode (timecode, _timecode_last);
_timecode_last = timecode;
}
}
///////////////////////////////////////////
// Session signals
///////////////////////////////////////////
void MackieControlProtocol::notify_parameter_changed (std::string const & p)
{
if (p == "punch-in") {
update_global_button (Button::Drop, session->config.get_punch_in() ? flashing : off);
} else if (p == "punch-out") {
update_global_button (Button::Replace, session->config.get_punch_out() ? flashing : off);
} else if (p == "clicking") {
update_global_button (Button::Click, Config->get_clicking());
} else if (p == "follow-edits") {
/* we can't respond to this at present, because "follow-edits"
* is a property of the (G)UI configuration object, to which we
* have no access. For now, this means that the lit state of
* this button (if there is one) won't reflect the setting.
*/
//update_global_button (Button::Enter, session->config.get_follow_edits() ? on : off);
} else if (p == "external-sync") {
update_global_button (Button::Cancel, session->config.get_external_sync() ? on : off);
} else {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("parameter changed: %1\n", p));
}
}
void
MackieControlProtocol::notify_vca_added (ARDOUR::VCAList& vl)
{
refresh_current_bank ();
}
// RouteList is the set of Routes that have just been added
void
MackieControlProtocol::notify_routes_added (ARDOUR::RouteList & rl)
{
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (surfaces.empty()) {
return;
}
}
// currently assigned banks are less than the full set of
// strips, so activate the new strip now.
refresh_current_bank();
// otherwise route added, but current bank needs no updating
}
void
MackieControlProtocol::notify_monitor_added_or_removed ()
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->master_monitor_may_have_changed ();
}
}
void
MackieControlProtocol::notify_solo_active_changed (bool active)
{
std::shared_ptr<MACKIE_NAMESPACE::Surface> surface;
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (surfaces.empty()) {
return;
}
surface = _master_surface;
}
map<int,Control*>::iterator x = surface->controls_by_device_independent_id.find (Led::RudeSolo);
if (x != surface->controls_by_device_independent_id.end()) {
Led* rude_solo = dynamic_cast<Led*> (x->second);
if (rude_solo) {
update_global_button (Button::ClearSolo, active);
surface->write (rude_solo->set_state (active ? flashing : off));
}
}
}
void
MackieControlProtocol::notify_presentation_info_changed (PBD::PropertyChange const & what_changed)
{
PBD::PropertyChange order_or_hidden;
order_or_hidden.add (Properties::hidden);
order_or_hidden.add (Properties::order);
if (!what_changed.contains (order_or_hidden)) {
return;
}
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (surfaces.empty()) {
return;
}
}
refresh_current_bank();
}
///////////////////////////////////////////
// Transport signals
///////////////////////////////////////////
void
MackieControlProtocol::notify_loop_state_changed()
{
update_global_button (Button::Loop, session->get_play_loop());
}
void
MackieControlProtocol::notify_transport_state_changed()
{
if (!_device_info.has_global_controls()) {
return;
}
// switch various play and stop buttons on / off
update_global_button (Button::Loop, loop_button_onoff ());
update_global_button (Button::Play, play_button_onoff ());
update_global_button (Button::Stop, stop_button_onoff ());
update_global_button (Button::Rewind, rewind_button_onoff ());
update_global_button (Button::Ffwd, ffwd_button_onoff ());
// sometimes a return to start leaves time code at old time
_timecode_last = string (10, '\0');
notify_metering_state_changed ();
}
void
MackieControlProtocol::notify_metering_state_changed()
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->notify_metering_state_changed ();
}
}
void
MackieControlProtocol::notify_record_state_changed ()
{
if (!_device_info.has_global_controls()) {
return;
}
std::shared_ptr<MACKIE_NAMESPACE::Surface> surface;
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (surfaces.empty()) {
return;
}
surface = _master_surface;
}
/* rec is a tristate */
map<int,Control*>::iterator x = surface->controls_by_device_independent_id.find (Button::Record);
if (x != surface->controls_by_device_independent_id.end()) {
Button * rec = dynamic_cast<Button*> (x->second);
if (rec) {
LedState ls;
switch (session->record_status()) {
case Disabled:
DEBUG_TRACE (DEBUG::MackieControl, "record state changed to disabled, LED off\n");
ls = off;
break;
case Recording:
DEBUG_TRACE (DEBUG::MackieControl, "record state changed to recording, LED on\n");
ls = on;
break;
case Enabled:
if(_device_info.is_qcon()){
// For qcon the rec button is two state only (on/off)
DEBUG_TRACE (DEBUG::MackieControl, "record state changed to enabled, LED on (QCon)\n");
ls = on;
break;
}
else{
// For standard Mackie MCU the record LED is flashing
DEBUG_TRACE (DEBUG::MackieControl, "record state changed to enabled, LED flashing\n");
ls = flashing;
break;
}
break;
}
surface->write (rec->set_state (ls));
}
}
}
list<std::shared_ptr<ARDOUR::Bundle> >
MackieControlProtocol::bundles ()
{
list<std::shared_ptr<ARDOUR::Bundle> > b;
if (_input_bundle) {
b.push_back (_input_bundle);
b.push_back (_output_bundle);
}
return b;
}
void
MackieControlProtocol::do_request (MackieControlUIRequest* req)
{
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("doing request type %1\n", req->type));
if (req->type == CallSlot) {
call_slot (MISSING_INVALIDATOR, req->the_slot);
} else if (req->type == Quit) {
stop ();
}
}
int
MackieControlProtocol::stop ()
{
BaseUI::quit ();
return 0;
}
void
MackieControlProtocol::update_led (MACKIE_NAMESPACE::Surface& surface, MACKIE_NAMESPACE::Button& button, MACKIE_NAMESPACE::LedState ls)
{
if (ls != none) {
surface.port().write (button.set_state (ls));
}
}
void
MackieControlProtocol::build_button_map ()
{
/* this maps our device-independent button codes to the methods that handle them.
*/
#define DEFINE_BUTTON_HANDLER(b,p,r) button_map.insert (pair<Button::ID,ButtonHandlers> ((b), ButtonHandlers ((p),(r))));
if(!button_map.empty()) {
button_map.clear();
}
build_device_specific_button_map();
DEFINE_BUTTON_HANDLER (Button::Track, &MackieControlProtocol::track_press, &MackieControlProtocol::track_release);
DEFINE_BUTTON_HANDLER (Button::Send, &MackieControlProtocol::send_press, &MackieControlProtocol::send_release);
DEFINE_BUTTON_HANDLER (Button::Pan, &MackieControlProtocol::pan_press, &MackieControlProtocol::pan_release);
DEFINE_BUTTON_HANDLER (Button::Plugin, &MackieControlProtocol::plugin_press, &MackieControlProtocol::plugin_release);
DEFINE_BUTTON_HANDLER (Button::Eq, &MackieControlProtocol::eq_press, &MackieControlProtocol::eq_release);
DEFINE_BUTTON_HANDLER (Button::Dyn, &MackieControlProtocol::dyn_press, &MackieControlProtocol::dyn_release);
DEFINE_BUTTON_HANDLER (Button::Left, &MackieControlProtocol::left_press, &MackieControlProtocol::left_release);
DEFINE_BUTTON_HANDLER (Button::Right, &MackieControlProtocol::right_press, &MackieControlProtocol::right_release);
DEFINE_BUTTON_HANDLER (Button::ChannelLeft, &MackieControlProtocol::channel_left_press, &MackieControlProtocol::channel_left_release);
DEFINE_BUTTON_HANDLER (Button::ChannelRight, &MackieControlProtocol::channel_right_press, &MackieControlProtocol::channel_right_release);
DEFINE_BUTTON_HANDLER (Button::Flip, &MackieControlProtocol::flip_press, &MackieControlProtocol::flip_release);
DEFINE_BUTTON_HANDLER (Button::View, &MackieControlProtocol::view_press, &MackieControlProtocol::view_release);
DEFINE_BUTTON_HANDLER (Button::NameValue, &MackieControlProtocol::name_value_press, &MackieControlProtocol::name_value_release);
DEFINE_BUTTON_HANDLER (Button::TimecodeBeats, &MackieControlProtocol::timecode_beats_press, &MackieControlProtocol::timecode_beats_release);
// DEFINE_BUTTON_HANDLER (Button::F1, &MackieControlProtocol::F1_press, &MackieControlProtocol::F1_release);
// DEFINE_BUTTON_HANDLER (Button::F2, &MackieControlProtocol::F2_press, &MackieControlProtocol::F2_release);
// DEFINE_BUTTON_HANDLER (Button::F3, &MackieControlProtocol::F3_press, &MackieControlProtocol::F3_release);
// DEFINE_BUTTON_HANDLER (Button::F4, &MackieControlProtocol::F4_press, &MackieControlProtocol::F4_release);
// DEFINE_BUTTON_HANDLER (Button::F5, &MackieControlProtocol::F5_press, &MackieControlProtocol::F5_release);
// DEFINE_BUTTON_HANDLER (Button::F6, &MackieControlProtocol::F6_press, &MackieControlProtocol::F6_release);
// DEFINE_BUTTON_HANDLER (Button::F7, &MackieControlProtocol::F7_press, &MackieControlProtocol::F7_release);
// DEFINE_BUTTON_HANDLER (Button::F8, &MackieControlProtocol::F8_press, &MackieControlProtocol::F8_release);
DEFINE_BUTTON_HANDLER (Button::MidiTracks, &MackieControlProtocol::miditracks_press, &MackieControlProtocol::miditracks_release);
DEFINE_BUTTON_HANDLER (Button::Inputs, &MackieControlProtocol::inputs_press, &MackieControlProtocol::inputs_release);
DEFINE_BUTTON_HANDLER (Button::AudioTracks, &MackieControlProtocol::audiotracks_press, &MackieControlProtocol::audiotracks_release);
DEFINE_BUTTON_HANDLER (Button::AudioInstruments, &MackieControlProtocol::audioinstruments_press, &MackieControlProtocol::audioinstruments_release);
DEFINE_BUTTON_HANDLER (Button::Aux, &MackieControlProtocol::aux_press, &MackieControlProtocol::aux_release);
DEFINE_BUTTON_HANDLER (Button::Busses, &MackieControlProtocol::busses_press, &MackieControlProtocol::busses_release);
DEFINE_BUTTON_HANDLER (Button::Outputs, &MackieControlProtocol::outputs_press, &MackieControlProtocol::outputs_release);
DEFINE_BUTTON_HANDLER (Button::User, &MackieControlProtocol::user_press, &MackieControlProtocol::user_release);
DEFINE_BUTTON_HANDLER (Button::Shift, &MackieControlProtocol::shift_press, &MackieControlProtocol::shift_release);
DEFINE_BUTTON_HANDLER (Button::Option, &MackieControlProtocol::option_press, &MackieControlProtocol::option_release);
DEFINE_BUTTON_HANDLER (Button::Ctrl, &MackieControlProtocol::control_press, &MackieControlProtocol::control_release);
DEFINE_BUTTON_HANDLER (Button::CmdAlt, &MackieControlProtocol::cmd_alt_press, &MackieControlProtocol::cmd_alt_release);
DEFINE_BUTTON_HANDLER (Button::Read, &MackieControlProtocol::read_press, &MackieControlProtocol::read_release);
DEFINE_BUTTON_HANDLER (Button::Write, &MackieControlProtocol::write_press, &MackieControlProtocol::write_release);
DEFINE_BUTTON_HANDLER (Button::Trim, &MackieControlProtocol::trim_press, &MackieControlProtocol::trim_release);
DEFINE_BUTTON_HANDLER (Button::Touch, &MackieControlProtocol::touch_press, &MackieControlProtocol::touch_release);
DEFINE_BUTTON_HANDLER (Button::Latch, &MackieControlProtocol::latch_press, &MackieControlProtocol::latch_release);
DEFINE_BUTTON_HANDLER (Button::Grp, &MackieControlProtocol::grp_press, &MackieControlProtocol::grp_release);
DEFINE_BUTTON_HANDLER (Button::Save, &MackieControlProtocol::save_press, &MackieControlProtocol::save_release);
DEFINE_BUTTON_HANDLER (Button::Undo, &MackieControlProtocol::undo_press, &MackieControlProtocol::undo_release);
DEFINE_BUTTON_HANDLER (Button::Cancel, &MackieControlProtocol::cancel_press, &MackieControlProtocol::cancel_release);
DEFINE_BUTTON_HANDLER (Button::Enter, &MackieControlProtocol::enter_press, &MackieControlProtocol::enter_release);
DEFINE_BUTTON_HANDLER (Button::Marker, &MackieControlProtocol::marker_press, &MackieControlProtocol::marker_release);
DEFINE_BUTTON_HANDLER (Button::Nudge, &MackieControlProtocol::nudge_press, &MackieControlProtocol::nudge_release);
DEFINE_BUTTON_HANDLER (Button::Loop, &MackieControlProtocol::loop_press, &MackieControlProtocol::loop_release);
DEFINE_BUTTON_HANDLER (Button::Drop, &MackieControlProtocol::drop_press, &MackieControlProtocol::drop_release);
DEFINE_BUTTON_HANDLER (Button::Replace, &MackieControlProtocol::replace_press, &MackieControlProtocol::replace_release);
DEFINE_BUTTON_HANDLER (Button::Click, &MackieControlProtocol::click_press, &MackieControlProtocol::click_release);
DEFINE_BUTTON_HANDLER (Button::ClearSolo, &MackieControlProtocol::clearsolo_press, &MackieControlProtocol::clearsolo_release);
DEFINE_BUTTON_HANDLER (Button::Rewind, &MackieControlProtocol::rewind_press, &MackieControlProtocol::rewind_release);
DEFINE_BUTTON_HANDLER (Button::Ffwd, &MackieControlProtocol::ffwd_press, &MackieControlProtocol::ffwd_release);
DEFINE_BUTTON_HANDLER (Button::Stop, &MackieControlProtocol::stop_press, &MackieControlProtocol::stop_release);
DEFINE_BUTTON_HANDLER (Button::Play, &MackieControlProtocol::play_press, &MackieControlProtocol::play_release);
DEFINE_BUTTON_HANDLER (Button::Record, &MackieControlProtocol::record_press, &MackieControlProtocol::record_release);
DEFINE_BUTTON_HANDLER (Button::CursorUp, &MackieControlProtocol::cursor_up_press, &MackieControlProtocol::cursor_up_release);
DEFINE_BUTTON_HANDLER (Button::CursorDown, &MackieControlProtocol::cursor_down_press, &MackieControlProtocol::cursor_down_release);
DEFINE_BUTTON_HANDLER (Button::CursorLeft, &MackieControlProtocol::cursor_left_press, &MackieControlProtocol::cursor_left_release);
DEFINE_BUTTON_HANDLER (Button::CursorRight, &MackieControlProtocol::cursor_right_press, &MackieControlProtocol::cursor_right_release);
DEFINE_BUTTON_HANDLER (Button::Zoom, &MackieControlProtocol::zoom_press, &MackieControlProtocol::zoom_release);
DEFINE_BUTTON_HANDLER (Button::Scrub, &MackieControlProtocol::scrub_press, &MackieControlProtocol::scrub_release);
DEFINE_BUTTON_HANDLER (Button::UserA, &MackieControlProtocol::user_a_press, &MackieControlProtocol::user_a_release);
DEFINE_BUTTON_HANDLER (Button::UserB, &MackieControlProtocol::user_b_press, &MackieControlProtocol::user_b_release);
DEFINE_BUTTON_HANDLER (Button::MasterFaderTouch, &MackieControlProtocol::master_fader_touch_press, &MackieControlProtocol::master_fader_touch_release);
}
void
MackieControlProtocol::build_device_specific_button_map()
{
/* this maps our device-dependent button codes to the methods that handle them.
*/
#define DEFINE_BUTTON_HANDLER(b,p,r) button_map.insert (pair<Button::ID,ButtonHandlers> ((b), ButtonHandlers ((p),(r))));
if (_device_info.is_platformMp()) {
DEFINE_BUTTON_HANDLER (Button::Marker, &MackieControlProtocol::flip_window_press, &MackieControlProtocol::flip_window_release);
}
if(_device_info.is_proG2()) {
DEFINE_BUTTON_HANDLER (Button::View, &MackieControlProtocol::user_press, &MackieControlProtocol::user_release);
DEFINE_BUTTON_HANDLER (Button::Trim, &MackieControlProtocol::send_press, &MackieControlProtocol::send_release);
DEFINE_BUTTON_HANDLER (Button::Touch, &MackieControlProtocol::open_press, &MackieControlProtocol::open_release);
DEFINE_BUTTON_HANDLER (Button::Latch, &MackieControlProtocol::flip_window_press, &MackieControlProtocol::flip_window_release);
DEFINE_BUTTON_HANDLER (Button::Save, &MackieControlProtocol::prog2_vst_press, &MackieControlProtocol::prog2_vst_release);
DEFINE_BUTTON_HANDLER (Button::Undo, &MackieControlProtocol::master_press, &MackieControlProtocol::master_release);
DEFINE_BUTTON_HANDLER (Button::Cancel, &MackieControlProtocol::prog2_clear_solo_press, &MackieControlProtocol::prog2_clear_solo_release);
DEFINE_BUTTON_HANDLER (Button::Enter, &MackieControlProtocol::shift_press, &MackieControlProtocol::shift_release);
DEFINE_BUTTON_HANDLER (Button::Marker, &MackieControlProtocol::prog2_left_press, &MackieControlProtocol::prog2_left_release);
DEFINE_BUTTON_HANDLER (Button::Nudge, &MackieControlProtocol::prog2_right_press, &MackieControlProtocol::prog2_right_release);
DEFINE_BUTTON_HANDLER (Button::Replace, &MackieControlProtocol::prev_marker_press, &MackieControlProtocol::prev_marker_release);
DEFINE_BUTTON_HANDLER (Button::Click, &MackieControlProtocol::prog2_marker_press, &MackieControlProtocol::prog2_marker_release);
DEFINE_BUTTON_HANDLER (Button::ClearSolo, &MackieControlProtocol::next_marker_press, &MackieControlProtocol::next_marker_release);
DEFINE_BUTTON_HANDLER (Button::Shift, &MackieControlProtocol::prog2_undo_press, &MackieControlProtocol::prog2_undo_release);
DEFINE_BUTTON_HANDLER (Button::Option, &MackieControlProtocol::redo_press, &MackieControlProtocol::redo_release);
DEFINE_BUTTON_HANDLER (Button::Ctrl, &MackieControlProtocol::prog2_save_press, &MackieControlProtocol::prog2_save_release);
}
}
void
MackieControlProtocol::handle_button_event (MACKIE_NAMESPACE::Surface& surface, MACKIE_NAMESPACE::Button& button, MACKIE_NAMESPACE::ButtonState bs)
{
Button::ID button_id = button.bid();
if (bs != press && bs != release) {
update_led (surface, button, none);
return;
}
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("Handling %1 for button %2 (%3)\n", (bs == press ? "press" : "release"), button.id(),
Button::id_to_name (button.bid())));
/* check profile first */
string action = _device_profile.get_button_action (button.bid(), _modifier_state);
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("device profile returned [%1] for that button\n", action));
if (!action.empty()) {
if (action.find ('/') != string::npos) { /* good chance that this is really an action */
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("Looked up action for button %1 with modifier %2, got [%3]\n",
button.bid(), _modifier_state, action));
/* if there is a bound action for this button, and this is a press event,
carry out the action. If its a release event, do nothing since we
don't bind to them at all but don't want any other handling to
occur either.
*/
if (bs == press) {
update_led (surface, button, on);
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("executing action %1\n", action));
access_action (action);
} else {
update_led (surface, button, off);
}
return;
} else {
/* "action" is more likely to be a button name. We use this to
* allow remapping buttons to different (builtin) functionality
* associated with an existing button. This is similar to the
* way that (for example) Nuendo moves the "Shift" function to
* the "Enter" key of the MCU Pro.
*/
int bid = Button::name_to_id (action);
if (bid < 0) {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("apparent button name %1 not found\n", action));
return;
}
button_id = (Button::ID) bid;
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("handling button %1 as if it was %2 (%3)\n", Button::id_to_name (button.bid()), button_id, Button::id_to_name (button_id)));
}
}
/* Now that we have the correct (maybe remapped) button ID, do these
* checks on it.
*/
if ((button_id != Button::Marker) && (modifier_state() & MODIFIER_MARKER)) {
marker_modifier_consumed_by_button = true;
}
if ((button_id != Button::Nudge) && (modifier_state() & MODIFIER_NUDGE)) {
nudge_modifier_consumed_by_button = true;
}
/* lookup using the device-INDEPENDENT button ID */
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("now looking up button ID %1\n", button_id));
ButtonMap::iterator b = button_map.find (button_id);
if (b != button_map.end()) {
ButtonHandlers& bh (b->second);
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("button found in map, now invoking %1\n", (bs == press ? "press" : "release")));
switch (bs) {
case press:
surface.write (button.set_state ((this->*(bh.press)) (button)));
break;
case release:
surface.write (button.set_state ((this->*(bh.release)) (button)));
break;
default:
break;
}
} else {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("no button handlers for button ID %1 (device ID %2)\n",
button.bid(), button.id()));
error << string_compose ("no button handlers for button ID %1 (device ID %2)\n",
button.bid(), button.id()) << endmsg;
}
}
bool
MackieControlProtocol::midi_input_handler (IOCondition ioc, MIDI::Port* port)
{
if (ioc & ~IO_IN) {
DEBUG_TRACE (DEBUG::MackieControl, "MIDI port closed\n");
return false;
}
if (ioc & IO_IN) {
// DEBUG_TRACE (DEBUG::MackieControl, string_compose ("something happened on %1\n", port->name()));
/* Devices using regular JACK MIDI ports will need to have
the x-thread FIFO drained to avoid burning endless CPU.
Devices using ipMIDI have port->selectable() as the same
file descriptor that data arrives on, so doing this
for them will simply throw all incoming data away.
*/
if (!_device_info.uses_ipmidi()) {
AsyncMIDIPort* asp = dynamic_cast<AsyncMIDIPort*>(port);
if (asp) {
asp->clear ();
}
}
// DEBUG_TRACE (DEBUG::MackieControl, string_compose ("data available on %1\n", port->name()));
samplepos_t now = session->engine().sample_time();
port->parse (now);
}
return true;
}
void
MackieControlProtocol::clear_ports ()
{
if (_input_bundle) {
_input_bundle->remove_channels ();
_output_bundle->remove_channels ();
}
}
void
MackieControlProtocol::notify_subview_stripable_deleted ()
{
/* return to global/mixer view */
_subview->notify_subview_stripable_deleted();
set_view_mode (Mixer);
}
bool
MackieControlProtocol::redisplay_subview_mode ()
{
Surfaces copy; /* can't hold surfaces lock while calling Strip::subview_mode_changed */
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
copy = surfaces;
}
for (Surfaces::iterator s = copy.begin(); s != copy.end(); ++s) {
(*s)->subview_mode_changed ();
}
/* don't call this again from a timeout */
return false;
}
bool
MackieControlProtocol::set_subview_mode (MACKIE_NAMESPACE::Subview::Mode sm, std::shared_ptr<Stripable> r)
{
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("set subview mode %1 with stripable %2, current flip mode %3\n", sm, (r ? r->name() : string ("null")), _flip_mode));
if (_flip_mode != Normal) {
set_flip_mode (Normal);
}
std::string reason_why_subview_not_possible = "";
if (!_subview->subview_mode_would_be_ok (sm, r, reason_why_subview_not_possible)) {
DEBUG_TRACE (DEBUG::MackieControl, "subview mode not OK\n");
if (r) {
Glib::Threads::Mutex::Lock lm (surfaces_lock);
if (!surfaces.empty()) {
if (!reason_why_subview_not_possible.empty()) {
surfaces.front()->display_message_for (reason_why_subview_not_possible, 1000);
if (_subview->subview_mode() != MACKIE_NAMESPACE::Subview::None) {
/* redisplay current subview mode after
that message goes away.
*/
Glib::RefPtr<Glib::TimeoutSource> redisplay_timeout = Glib::TimeoutSource::create (1000); // milliseconds
redisplay_timeout->connect (sigc::mem_fun (*this, &MackieControlProtocol::redisplay_subview_mode));
redisplay_timeout->attach (main_loop()->get_context());
}
}
}
}
return false;
}
_subview = MACKIE_NAMESPACE::SubviewFactory::instance()->create_subview(sm, *this, r);
/* Catch the current subview stripable going away */
if (_subview->subview_stripable()) {
_subview->subview_stripable()->DropReferences.connect (_subview->subview_stripable_connections(), MISSING_INVALIDATOR,
std::bind (&MackieControlProtocol::notify_subview_stripable_deleted, this),
this);
}
redisplay_subview_mode ();
_subview->update_global_buttons();
return true;
}
void
MackieControlProtocol::set_view_mode (ViewMode m)
{
if (_flip_mode != Normal) {
set_flip_mode (Normal);
}
ViewMode old_view_mode = _view_mode;
_view_mode = m;
_last_bank[old_view_mode] = _current_initial_bank;
if (switch_banks(_last_bank[m], true)) {
_view_mode = old_view_mode;
return;
}
/* leave subview mode, whatever it was */
DEBUG_TRACE (DEBUG::MackieControl, "\t\t\tsubview mode reset in MackieControlProtocol::set_view_mode \n");
set_subview_mode (MACKIE_NAMESPACE::Subview::None, std::shared_ptr<Stripable>());
display_view_mode ();
}
void
MackieControlProtocol::display_view_mode ()
{
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->update_view_mode_display (true);
}
}
update_global_button (Button::View, (view_mode() == MackieControlProtocol::Mixer) ? on : off);
}
void
MackieControlProtocol::set_flip_mode (FlipMode fm)
{
if (fm == Normal) {
update_global_button (Button::Flip, off);
} else {
update_global_button (Button::Flip, on);
}
Glib::Threads::Mutex::Lock lm (surfaces_lock);
_flip_mode = fm;
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->update_flip_mode_display ();
}
}
void
MackieControlProtocol::set_master_on_surface_strip (uint32_t surface, uint32_t strip_number)
{
force_special_stripable_to_strip (session->master_out(), surface, strip_number);
}
void
MackieControlProtocol::set_monitor_on_surface_strip (uint32_t surface, uint32_t strip_number)
{
force_special_stripable_to_strip (session->monitor_out(), surface, strip_number);
}
void
MackieControlProtocol::force_special_stripable_to_strip (std::shared_ptr<Stripable> r, uint32_t surface, uint32_t strip_number)
{
if (!r) {
return;
}
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
if ((*s)->number() == surface) {
Strip* strip = (*s)->nth_strip (strip_number);
if (strip) {
strip->set_stripable (session->master_out());
strip->lock_controls ();
}
}
}
}
void
MackieControlProtocol::check_fader_automation_state ()
{
fader_automation_connections.drop_connections ();
std::shared_ptr<Stripable> r = first_selected_stripable ();
if (!r) {
update_global_button (Button::Read, off);
update_global_button (Button::Write, off);
update_global_button (Button::Touch, off);
update_global_button (Button::Trim, off);
update_global_button (Button::Latch, off);
update_global_button (Button::Grp, on);
return;
}
r->gain_control()->alist()->automation_state_changed.connect (fader_automation_connections,
MISSING_INVALIDATOR,
std::bind (&MackieControlProtocol::update_fader_automation_state, this),
this);
update_fader_automation_state ();
}
void
MackieControlProtocol::update_fader_automation_state ()
{
std::shared_ptr<Stripable> r = first_selected_stripable ();
if (!r) {
update_global_button (Button::Read, off);
update_global_button (Button::Write, off);
update_global_button (Button::Touch, off);
update_global_button (Button::Trim, off);
update_global_button (Button::Latch, off);
update_global_button (Button::Grp, on);
return;
}
switch (r->gain_control()->automation_state()) {
case Off:
update_global_button (Button::Read, off);
update_global_button (Button::Write, off);
update_global_button (Button::Touch, off);
update_global_button (Button::Trim, off);
update_global_button (Button::Latch, off);
update_global_button (Button::Grp, on);
break;
case Play:
update_global_button (Button::Read, on);
update_global_button (Button::Write, off);
update_global_button (Button::Touch, off);
update_global_button (Button::Trim, off);
update_global_button (Button::Latch, off);
update_global_button (Button::Grp, off);
break;
case Write:
update_global_button (Button::Read, off);
update_global_button (Button::Write, on);
update_global_button (Button::Touch, off);
update_global_button (Button::Trim, off);
update_global_button (Button::Latch, off);
update_global_button (Button::Grp, off);
break;
case Touch:
update_global_button (Button::Read, off);
update_global_button (Button::Write, off);
update_global_button (Button::Touch, on);
update_global_button (Button::Trim, off);
update_global_button (Button::Latch, off);
update_global_button (Button::Grp, off);
break;
case Latch:
update_global_button (Button::Read, off);
update_global_button (Button::Write, off);
update_global_button (Button::Touch, off);
update_global_button (Button::Trim, off);
update_global_button (Button::Latch, on);
update_global_button (Button::Grp, off);
break;
}
}
samplepos_t
MackieControlProtocol::transport_sample() const
{
return session->transport_sample();
}
void
MackieControlProtocol::add_down_select_button (int surface, int strip)
{
_down_select_buttons.insert ((surface<<8)|(strip&0xf));
}
void
MackieControlProtocol::remove_down_select_button (int surface, int strip)
{
DownButtonList::iterator x = find (_down_select_buttons.begin(), _down_select_buttons.end(), (uint32_t) (surface<<8)|(strip&0xf));
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("removing surface %1 strip %2 from down select buttons\n", surface, strip));
if (x != _down_select_buttons.end()) {
_down_select_buttons.erase (x);
} else {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("surface %1 strip %2 not found in down select buttons\n",
surface, strip));
}
}
void
MackieControlProtocol::select_range (uint32_t pressed)
{
StripableList stripables;
pull_stripable_range (_down_select_buttons, stripables, pressed);
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("select range: found %1 stripables, first = %2\n", stripables.size(),
(stripables.empty() ? "null" : stripables.front()->name())));
if (stripables.empty()) {
return;
}
if (stripables.size() == 1 && ControlProtocol::last_selected().size() == 1 && stripables.front()->is_selected()) {
/* cancel selection for one and only selected stripable */
toggle_stripable_selection (stripables.front());
} else {
for (StripableList::iterator s = stripables.begin(); s != stripables.end(); ++s) {
if (main_modifier_state() == MODIFIER_SHIFT) {
toggle_stripable_selection (*s);
} else {
if (s == stripables.begin()) {
set_stripable_selection (*s);
} else {
add_stripable_to_selection (*s);
}
}
}
}
}
void
MackieControlProtocol::add_down_button (AutomationType a, int surface, int strip)
{
DownButtonMap::iterator m = _down_buttons.find (a);
if (m == _down_buttons.end()) {
_down_buttons[a] = DownButtonList();
}
_down_buttons[a].insert ((surface<<8)|(strip&0xf));
}
void
MackieControlProtocol::remove_down_button (AutomationType a, int surface, int strip)
{
DownButtonMap::iterator m = _down_buttons.find (a);
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("removing surface %1 strip %2 from down buttons for %3\n", surface, strip, (int) a));
if (m == _down_buttons.end()) {
return;
}
DownButtonList& l (m->second);
DownButtonList::iterator x = find (l.begin(), l.end(), (surface<<8)|(strip&0xf));
if (x != l.end()) {
l.erase (x);
} else {
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("surface %1 strip %2 not found in down buttons for %3\n",
surface, strip, (int) a));
}
}
MackieControlProtocol::ControlList
MackieControlProtocol::down_controls (AutomationType p, uint32_t pressed)
{
ControlList controls;
StripableList stripables;
DownButtonMap::iterator m = _down_buttons.find (p);
if (m == _down_buttons.end()) {
return controls;
}
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("looking for down buttons for %1, got %2\n",
p, m->second.size()));
pull_stripable_range (m->second, stripables, pressed);
switch (p) {
case GainAutomation:
for (StripableList::iterator s = stripables.begin(); s != stripables.end(); ++s) {
controls.push_back ((*s)->gain_control());
}
break;
case SoloAutomation:
for (StripableList::iterator s = stripables.begin(); s != stripables.end(); ++s) {
controls.push_back ((*s)->solo_control());
}
break;
case MuteAutomation:
for (StripableList::iterator s = stripables.begin(); s != stripables.end(); ++s) {
controls.push_back ((*s)->mute_control());
}
break;
case RecEnableAutomation:
for (StripableList::iterator s = stripables.begin(); s != stripables.end(); ++s) {
std::shared_ptr<AutomationControl> ac = (*s)->rec_enable_control();
if (ac) {
controls.push_back (ac);
}
}
break;
default:
break;
}
return controls;
}
struct ButtonRangeSorter {
bool operator() (const uint32_t& a, const uint32_t& b) {
return (a>>8) < (b>>8) // a.surface < b.surface
||
((a>>8) == (b>>8) && (a&0xf) < (b&0xf)); // a.surface == b.surface && a.strip < b.strip
}
};
void
MackieControlProtocol::pull_stripable_range (DownButtonList& down, StripableList& selected, uint32_t pressed)
{
ButtonRangeSorter cmp;
if (down.empty()) {
return;
}
list<uint32_t> ldown;
ldown.insert (ldown.end(), down.begin(), down.end());
ldown.sort (cmp);
uint32_t first = ldown.front();
uint32_t last = ldown.back ();
uint32_t first_surface = first>>8;
uint32_t first_strip = first&0xf;
uint32_t last_surface = last>>8;
uint32_t last_strip = last&0xf;
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("PRR %5 in list %1.%2 - %3.%4\n", first_surface, first_strip, last_surface, last_strip,
down.size()));
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::const_iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
if ((*s)->number() >= first_surface && (*s)->number() <= last_surface) {
uint32_t fs;
uint32_t ls;
if ((*s)->number() == first_surface) {
fs = first_strip;
} else {
fs = 0;
}
if ((*s)->number() == last_surface) {
ls = last_strip;
ls += 1;
} else {
ls = (*s)->n_strips ();
}
DEBUG_TRACE (DEBUG::MackieControl, string_compose ("adding strips for surface %1 (%2 .. %3)\n",
(*s)->number(), fs, ls));
for (uint32_t n = fs; n < ls; ++n) {
Strip* strip = (*s)->nth_strip (n);
std::shared_ptr<Stripable> r = strip->stripable();
if (r) {
if (global_index_locked (*strip) == pressed) {
selected.push_front (r);
} else {
selected.push_back (r);
}
}
}
}
}
}
void
MackieControlProtocol::set_ipmidi_base (int16_t portnum)
{
/* this will not be saved without a session save, so .. */
session->set_dirty ();
_ipmidi_base = portnum;
/* if the current device uses ipMIDI we need
to restart.
*/
if (active() && _device_info.uses_ipmidi()) {
needs_ipmidi_restart = true;
}
}
int
MackieControlProtocol::ipmidi_restart ()
{
clear_surfaces ();
if (create_surfaces ()) {
return -1;
}
(void) switch_banks (_current_initial_bank, true);
needs_ipmidi_restart = false;
return 0;
}
void
MackieControlProtocol::clear_surfaces ()
{
clear_ports ();
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
_master_surface.reset ();
surfaces.clear ();
}
}
void
MackieControlProtocol::set_touch_sensitivity (int sensitivity)
{
sensitivity = min (9, sensitivity);
sensitivity = max (0, sensitivity);
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::const_iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
(*s)->set_touch_sensitivity (sensitivity);
}
}
void
MackieControlProtocol::recalibrate_faders ()
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (auto const& s : surfaces) {
s->recalibrate_faders ();
}
}
void
MackieControlProtocol::toggle_backlight ()
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (auto const& s : surfaces) {
s->toggle_backlight ();
}
}
std::shared_ptr<MACKIE_NAMESPACE::Surface>
MackieControlProtocol::get_surface_by_raw_pointer (void* ptr) const
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (auto const& s : surfaces) {
if (s.get() == (MACKIE_NAMESPACE::Surface*) ptr) {
return s;
}
}
return std::shared_ptr<MACKIE_NAMESPACE::Surface> ();
}
std::shared_ptr<MACKIE_NAMESPACE::Surface>
MackieControlProtocol::nth_surface (uint32_t n) const
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::const_iterator s = surfaces.begin(); s != surfaces.end(); ++s, --n) {
if (n == 0) {
return *s;
}
}
return std::shared_ptr<MACKIE_NAMESPACE::Surface> ();
}
void
MackieControlProtocol::connection_handler (std::weak_ptr<ARDOUR::Port> wp1, std::string name1, std::weak_ptr<ARDOUR::Port> wp2, std::string name2, bool yn)
{
Surfaces scopy;
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
scopy = surfaces;
}
for (Surfaces::const_iterator s = scopy.begin(); s != scopy.end(); ++s) {
if ((*s)->connection_handler (wp1, name1, wp2, name2, yn)) {
ConnectionChange (*s);
break;
}
}
}
bool
MackieControlProtocol::is_track (std::shared_ptr<Stripable> r) const
{
return std::dynamic_pointer_cast<Track>(r) != 0;
}
bool
MackieControlProtocol::is_audio_track (std::shared_ptr<Stripable> r) const
{
return std::dynamic_pointer_cast<AudioTrack>(r) != 0;
}
bool
MackieControlProtocol::is_midi_track (std::shared_ptr<Stripable> r) const
{
return std::dynamic_pointer_cast<MidiTrack>(r) != 0;
}
bool
MackieControlProtocol::is_trigger_track (std::shared_ptr<Stripable> r) const
{
std::shared_ptr<Track> trk = std::dynamic_pointer_cast<Track>(r);
return (trk && (r)->presentation_info ().trigger_track ());
}
bool
MackieControlProtocol::is_foldback_bus (std::shared_ptr<Stripable> r) const
{
return ((r)->presentation_info ().flags () & PresentationInfo::FoldbackBus);
}
bool
MackieControlProtocol::is_vca (std::shared_ptr<Stripable> r) const
{
return std::dynamic_pointer_cast<VCA>(r) != 0;
}
bool
MackieControlProtocol::has_instrument (std::shared_ptr<Stripable> r) const
{
std::shared_ptr<MidiTrack> mt = std::dynamic_pointer_cast<MidiTrack>(r);
return mt && mt->the_instrument();
}
bool
MackieControlProtocol::is_mapped (std::shared_ptr<Stripable> r) const
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::const_iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
if ((*s)->stripable_is_mapped (r)) {
return true;
}
}
return false;
}
void
MackieControlProtocol::stripable_selection_changed ()
{
//this function is called after the stripable selection is "stable", so this is the place to check surface selection state
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
for (Surfaces::iterator si = surfaces.begin(); si != surfaces.end(); ++si) {
(*si)->update_strip_selection ();
}
}
/* if we are following the Gui, find the selected strips and map them here */
if (_device_info.single_fader_follows_selection()) {
Sorted sorted = get_sorted_stripables();
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
Sorted::iterator r = sorted.begin();
for (Surfaces::iterator si = surfaces.begin(); si != surfaces.end(); ++si) {
vector<std::shared_ptr<Stripable> > stripables;
uint32_t added = 0;
for (; r != sorted.end() && added < (*si)->n_strips (false); ++r, ++added) {
if ((*r)->is_selected()) {
stripables.push_back (*r);
}
}
(*si)->map_stripables (stripables);
}
}
return;
}
std::shared_ptr<Stripable> s = first_selected_stripable ();
if (s) {
check_fader_automation_state ();
/* It is possible that first_selected_route() may return null if we
* are no longer displaying/mapping that route. In that case,
* we will exit subview mode. If first_selected_route() is
* null, and subview mode is not None, then the first call to
* set_subview_mode() will fail, and we will reset to None.
*/
if (!set_subview_mode (_subview->subview_mode(), s)) {
set_subview_mode (MACKIE_NAMESPACE::Subview::None, std::shared_ptr<Stripable>());
}
}
else {
// none selected or not on surface
set_subview_mode(MACKIE_NAMESPACE::Subview::None, std::shared_ptr<Stripable>());
}
}
std::shared_ptr<Stripable>
MackieControlProtocol::first_selected_stripable () const
{
std::shared_ptr<Stripable> s = ControlProtocol::first_selected_stripable();
if (s) {
/* check it is on one of our surfaces */
if (is_mapped (s)) {
return s;
}
/* stripable is not mapped. thus, the currently selected stripable is
* not on the surfaces, and so from our perspective, there is
* no currently selected stripable.
*/
s.reset ();
}
return s; /* may be null */
}
uint32_t
MackieControlProtocol::global_index (MACKIE_NAMESPACE::Strip& strip)
{
Glib::Threads::Mutex::Lock lm (surfaces_lock);
return global_index_locked (strip);
}
uint32_t
MackieControlProtocol::global_index_locked (MACKIE_NAMESPACE::Strip& strip)
{
uint32_t global = 0;
for (Surfaces::const_iterator s = surfaces.begin(); s != surfaces.end(); ++s) {
if ((*s).get() == strip.surface()) {
return global + strip.index();
}
global += (*s)->n_strips ();
}
return global;
}
void
MackieControlProtocol::set_automation_state (AutoState as)
{
std::shared_ptr<Stripable> r = first_selected_stripable ();
if (!r) {
return;
}
std::shared_ptr<AutomationControl> ac = r->gain_control();
if (!ac) {
return;
}
ac->set_automation_state (as);
}