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livetrax/libs/surfaces/launch_control_xl/controllers.cc
Robin Gareus 74c4ca3e52
Reduce reliance on boost - the hard part
the rest from `tools/convert_boost.sh`.

* replace boost::function, boost::bind with std::function and std::bind.

This required some manual fixes, notably std::placeholders,
some static_casts<>, and boost::function::clear -> = {}.
2024-10-19 03:47:21 +02:00

1686 lines
48 KiB
C++

/*
* Copyright (C) 2018-2019 Jan Lentfer <jan.lentfer@web.de>
* Copyright (C) 2018 Paul Davis <paul@linuxaudiosystems.com>
* Copyright (C) 2018 Robin Gareus <robin@gareus.org>
* Copyright (C) 2018 Térence Clastres <t.clastres@gmail.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 <algorithm>
#include "ardour/debug.h"
#include "ardour/mute_control.h"
#include "ardour/session.h"
#include "ardour/solo_control.h"
#include "ardour/solo_isolate_control.h"
#include "ardour/well_known_enum.h"
#include "launch_control_xl.h"
using namespace ArdourSurface;
using namespace ARDOUR;
using namespace PBD;
using std::cerr;
void
LaunchControlXL::build_maps ()
{
cc_knob_map.clear();
id_knob_map.clear();
cc_fader_map.clear();
id_fader_map.clear();
nn_note_button_map.clear();
id_note_button_map.clear();
cc_controller_button_map.clear();
id_controller_button_map.clear();
/* Knobs */
std::shared_ptr<Knob> knob;
#define MAKE_KNOB(i,cc,index,c_on,c_off,a) \
knob.reset (new Knob ((i), (cc), (index), (c_on), (c_off), (a), (*this))); \
cc_knob_map.insert (std::make_pair (knob->controller_number(), knob)); \
id_knob_map.insert (std::make_pair (knob->id(), knob));
#define MAKE_DM_KNOB(i,cc,index,c_on,c_off,action,check) \
knob.reset (new Knob ((i), (cc), (index), (c_on), (c_off), (action), (check), (*this))); \
cc_knob_map.insert (std::make_pair (knob->controller_number(), knob)); \
id_knob_map.insert (std::make_pair (knob->id(), knob));
if (!device_mode()) { /* mixer mode */
MAKE_KNOB (SendA1, 13, 0, RedFull, RedLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendA, this, 0)));
MAKE_KNOB (SendA2, 14, 1, YellowFull, YellowLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendA, this, 1)));
MAKE_KNOB (SendA3, 15, 2, GreenFull, GreenLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendA, this, 2)));
MAKE_KNOB (SendA4, 16, 3, AmberFull, AmberLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendA, this, 3)));
MAKE_KNOB (SendA5, 17, 4, RedFull, RedLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendA, this, 4)));
MAKE_KNOB (SendA6, 18, 5, YellowFull, YellowLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendA, this, 5)));
MAKE_KNOB (SendA7, 19, 6, GreenFull, GreenLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendA, this, 6)));
MAKE_KNOB (SendA8, 20, 7, AmberFull, AmberLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendA, this, 7)));
MAKE_KNOB (SendB1, 29, 8, RedFull, RedLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendB, this, 0)));
MAKE_KNOB (SendB2, 30, 9, YellowFull, YellowLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendB, this, 1)));
MAKE_KNOB (SendB3, 31, 10, GreenFull, GreenLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendB, this, 2)));
MAKE_KNOB (SendB4, 32, 11, AmberFull, AmberLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendB, this, 3)));
MAKE_KNOB (SendB5, 33, 12, RedFull, RedLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendB, this, 4)));
MAKE_KNOB (SendB6, 34, 13, YellowFull, YellowLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendB, this, 5)));
MAKE_KNOB (SendB7, 35, 14, GreenFull, GreenLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendB, this, 6)));
MAKE_KNOB (SendB8, 36, 15, AmberFull, AmberLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_sendB, this, 7)));
MAKE_KNOB (Pan1, 49, 16, RedFull, RedLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_pan, this, 0)));
MAKE_KNOB (Pan2, 50, 17, YellowFull, YellowLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_pan, this, 1)));
MAKE_KNOB (Pan3, 51, 18, GreenFull, GreenLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_pan, this, 2)));
MAKE_KNOB (Pan4, 52, 19, AmberFull, AmberLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_pan, this, 3)));
MAKE_KNOB (Pan5, 53, 20, RedFull, RedLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_pan, this, 4)));
MAKE_KNOB (Pan6, 54, 21, YellowFull, YellowLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_pan, this, 5)));
MAKE_KNOB (Pan7, 55, 22, GreenFull, GreenLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_pan, this, 6)));
MAKE_KNOB (Pan8, 56, 23, AmberFull, AmberLow, std::function<void ()> (std::bind (&LaunchControlXL::knob_pan, this, 7)));
} else { /* device mode */
#ifdef MIXBUS // from here Mixbus Standard + 32C
MAKE_DM_KNOB (SendB5, 33, 12, RedFull, RedLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_trim, this, SendB5)),
std::bind(&LaunchControlXL::dm_check_trim, this));
MAKE_DM_KNOB (SendB6, 34, 13, GreenFull, GreenLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_comp, this, SendB6, CompMakeup)),
std::bind(&LaunchControlXL::dm_mb_comp_enabled,this));
MAKE_DM_KNOB (SendB8, 36, 15, GreenFull, GreenLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_comp, this, SendB8, CompMode)),
std::bind(&LaunchControlXL::dm_mb_comp_enabled, this));
/* Pan Knobs -> Sends */
for (uint8_t i = 0; i < 8; ++i) {
MAKE_DM_KNOB (static_cast<KnobID>(i + 16), (i + 49), (i + 16), GreenLow, YellowLow, std::function<void()>
(std::bind (&LaunchControlXL::dm_mb_sends, this, static_cast<KnobID>(i + 16))),
std::function<uint8_t ()> (std::bind(&LaunchControlXL::dm_mb_check_send_knob, this, static_cast<KnobID>(i + 16))));
}
if (first_selected_stripable() && (first_selected_stripable()->is_master() || first_selected_stripable()->mixbus())) {
MAKE_DM_KNOB (SendA1, 13, 0, AmberFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA1, true, 0)),
std::function<uint8_t ()> (std::bind(&LaunchControlXL::dm_mb_eq_gain_enabled, this, 0)));
MAKE_DM_KNOB (SendA2, 14, 1, AmberFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA2, true, 1)),
std::function<uint8_t ()> (std::bind(&LaunchControlXL::dm_mb_eq_gain_enabled, this, 1)));
MAKE_DM_KNOB (SendA3, 15, 2, AmberFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA3, true, 2)),
std::function<uint8_t ()> (std::bind(&LaunchControlXL::dm_mb_eq_gain_enabled, this, 2)));
MAKE_DM_KNOB (SendA6, 18, 5, RedLow, RedLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_pan_width, this, SendA6)),
std::bind(&LaunchControlXL::dm_check_pan_width, this));
MAKE_DM_KNOB (SendA7, 19, 6, AmberLow, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_tapedrive, this, SendA7)),
std::bind(&LaunchControlXL::dm_mb_has_tapedrive, this));
} else {
MAKE_DM_KNOB (SendA1, 13, 0, AmberFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA1, false, 0)),
std::bind(&LaunchControlXL::dm_mb_eq_freq_enabled, this));
MAKE_DM_KNOB (SendA2, 14, 1, AmberFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA2, true, 0)),
std::function<uint8_t ()> (std::bind(&LaunchControlXL::dm_mb_eq_gain_enabled, this, 0)));
MAKE_DM_KNOB (SendA3, 15, 2, YellowLow, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA3, false, 1)),
std::bind(&LaunchControlXL::dm_mb_eq_freq_enabled, this));
MAKE_DM_KNOB (SendA4, 16, 3, YellowLow, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA4, true, 1)),
std::function<uint8_t ()> (std::bind(&LaunchControlXL::dm_mb_eq_gain_enabled, this, 1)));
MAKE_DM_KNOB (SendA5, 17, 4, AmberFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA5, false, 2)),
std::bind(&LaunchControlXL::dm_mb_eq_freq_enabled, this));
MAKE_DM_KNOB (SendA6, 18, 5, AmberFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA6, true, 2)),
std::function<uint8_t ()> (std::bind(&LaunchControlXL::dm_mb_eq_gain_enabled, this, 2)));
MAKE_DM_KNOB (SendA7, 19, 6, YellowLow, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA7, false, 3)),
std::bind(&LaunchControlXL::dm_mb_eq_freq_enabled, this));
MAKE_DM_KNOB (SendA8, 20, 7, YellowLow, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_eq, this, SendA8, true, 3)),
std::function<uint8_t ()> (std::bind(&LaunchControlXL::dm_mb_eq_gain_enabled, this, 3)));
}
MAKE_DM_KNOB (SendB1, 29, 8, YellowFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_flt_frq, this, SendB1, true)),
std::bind(&LaunchControlXL::dm_mb_flt_enabled, this));
MAKE_DM_KNOB (SendB2, 30, 9, YellowFull, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_mb_flt_frq, this, SendB2, false)),
std::bind(&LaunchControlXL::dm_mb_flt_enabled, this));
MAKE_DM_KNOB (SendB4, 32, 11, RedLow, AmberLow, std::function<void ()>
(std::bind (&LaunchControlXL::dm_pan_azi, this, SendB4)),
std::bind(&LaunchControlXL::dm_check_pan_azi, this));
#else // from here Ardour
#endif
}
/* Faders */
std::shared_ptr<Fader> fader;
#define MAKE_FADER(i,cc,a) \
fader.reset (new Fader ((i), (cc), (a))); \
cc_fader_map.insert (std::make_pair (fader->controller_number(), fader)); \
id_fader_map.insert (std::make_pair (fader->id(), fader))
if (!device_mode()) { /* mix mode */
for (uint8_t i = 0; i < 8; ++i) {
MAKE_FADER(static_cast<FaderID>(i), i+77, std::function<void()>
(std::bind (&LaunchControlXL::fader, this, i)));
}
} else { /* device mode */
MAKE_FADER(Fader1, 77, std::function<void()>
(std::bind (&LaunchControlXL::dm_fader, this, Fader1)));
#ifdef MIXBUS
MAKE_FADER(Fader2, 78, std::function<void()>
(std::bind (&LaunchControlXL::dm_mb_comp_thresh, this, Fader2)));
#endif
}
/* Buttons */
std::shared_ptr<ControllerButton> controller_button;
std::shared_ptr<NoteButton> note_button;
#define MAKE_TRACK_BUTTON_PRESS(i,nn,index,c_on,c_off,p,check) \
note_button.reset (new TrackButton ((i), (nn), (index), (c_on), (c_off), (p), \
std::bind(&LaunchControlXL::relax, this), std::bind(&LaunchControlXL::relax, this), (check), (*this))); \
nn_note_button_map.insert (std::make_pair (note_button->note_number(), note_button)); \
id_note_button_map.insert (std::make_pair (note_button->id(), note_button))
#define MAKE_CTRL_BUTTON_PRESS(i,nn,index,c_on,c_off,p,check) \
note_button.reset (new TrackButton ((i), (nn), (index), (c_on), (c_off), (p), \
std::bind(&LaunchControlXL::relax, this), std::bind(&LaunchControlXL::relax, this), (check), (*this))); \
nn_note_button_map.insert (std::make_pair (note_button->note_number(), note_button)); \
id_note_button_map.insert (std::make_pair (note_button->id(), note_button))
#define MAKE_SELECT_BUTTON_PRESS(i,cc,index,p) \
controller_button.reset (new SelectButton ((i), (cc), (index), (p), \
std::bind(&LaunchControlXL::relax, this), std::bind(&LaunchControlXL::relax, this), (*this))); \
cc_controller_button_map.insert (std::make_pair (controller_button->controller_number(), controller_button)); \
id_controller_button_map.insert (std::make_pair (controller_button->id(), controller_button))
#define MAKE_TRACK_STATE_BUTTON_PRESS(i,nn,index,p) \
note_button.reset (new TrackStateButton ((i), (nn), (index), (p), \
std::bind(&LaunchControlXL::relax, this), std::bind(&LaunchControlXL::relax, this), (*this))); \
nn_note_button_map.insert (std::make_pair (note_button->note_number(), note_button)); \
id_note_button_map.insert (std::make_pair (note_button->id(), note_button))
#define MAKE_TRACK_STATE_BUTTON_PRESS_RELEASE_LONG(i,nn,index, p,r,l) \
note_button.reset (new TrackStateButton ((i), (nn), (index), (p), (r), (l), (*this))); \
nn_note_button_map.insert (std::make_pair (note_button->note_number(), note_button)); \
id_note_button_map.insert (std::make_pair (note_button->id(), note_button))
/* Track Focus Buttons */
if (!device_mode()) { /* mixer mode */
for (uint8_t i = 0; i < 4; ++i) {
MAKE_TRACK_BUTTON_PRESS(static_cast<ButtonID>(i), i+41, i+24, YellowFull, YellowLow,
std::function<void()> (std::bind (&LaunchControlXL::button_track_focus, this, i)),
std::function<uint8_t()> (std::bind (&LaunchControlXL::dm_check_dummy, this, dev_nonexistant)));
}
for (uint8_t i = 0; i < 4; ++i) {
MAKE_TRACK_BUTTON_PRESS(static_cast<ButtonID>(i+4), i+57, i+28, YellowFull, YellowLow,
std::function<void()> (std::bind (&LaunchControlXL::button_track_focus, this, i+4)),
std::function<uint8_t()> (std::bind (&LaunchControlXL::dm_check_dummy, this, dev_nonexistant)));
}
} else { /* device mode */
#ifdef MIXBUS
for (uint8_t i = 0; i < 4; ++i) {
MAKE_TRACK_BUTTON_PRESS(static_cast<ButtonID>(i), i+41, i+24, GreenFull, YellowLow,
std::function<void()> (std::bind (&LaunchControlXL::dm_mb_send_switch, this, static_cast<ButtonID>(i))),
std::function<uint8_t()> (std::bind (&LaunchControlXL::dm_mb_check_send_button, this, i)));
}
for (uint8_t i = 0; i < 4; ++i) {
MAKE_TRACK_BUTTON_PRESS(static_cast<ButtonID>(i+4), i+57, i+28, GreenFull, YellowLow,
std::function<void()> (std::bind (&LaunchControlXL::dm_mb_send_switch, this, static_cast<ButtonID>(i+4))),
std::function<uint8_t()> (std::bind (&LaunchControlXL::dm_mb_check_send_button, this, i+4)));
}
#endif
}
/* Track Control Buttons */
if (!device_mode()) { /* mixer mode */
/* Control Buttons in mix mode change their color dynamically so we won't set them here */
for (uint8_t i = 0; i < 4; ++i) {
MAKE_CTRL_BUTTON_PRESS(static_cast<ButtonID>(i+8), i+73, i+32, Off, Off,
std::function<void()> (std::bind (&LaunchControlXL::button_press_track_control, this, i)),
std::function<uint8_t()> (std::bind (&LaunchControlXL::dm_check_dummy, this, dev_nonexistant)));
}
for (uint8_t i = 0; i < 4; ++i) {
MAKE_CTRL_BUTTON_PRESS(static_cast<ButtonID>(i+12), i+89, i+36, Off, Off,
std::function<void()> (std::bind (&LaunchControlXL::button_press_track_control, this, i+4)),
std::function<uint8_t()> (std::bind (&LaunchControlXL::dm_check_dummy, this, dev_nonexistant)));
}
} else { /*device mode */
#ifdef MIXBUS // from here Mixbus Standard + 32C
MAKE_CTRL_BUTTON_PRESS(Control1, 73, 32, YellowFull, YellowLow, (std::bind (&LaunchControlXL::dm_mute_switch, this)),
std::bind (&LaunchControlXL::dm_mute_enabled, this));
MAKE_CTRL_BUTTON_PRESS(Control2, 74, 33, GreenFull, GreenLow, (std::bind (&LaunchControlXL::dm_solo_switch, this)),
std::bind (&LaunchControlXL::dm_solo_enabled, this));
MAKE_CTRL_BUTTON_PRESS(Control3, 75, 34, AmberFull, AmberLow, (std::bind (&LaunchControlXL::dm_mb_eq_switch, this)),
std::function<uint8_t()> (std::bind(&LaunchControlXL::dm_mb_eq_gain_enabled, this, 0)));
MAKE_CTRL_BUTTON_PRESS(Control4, 76, 35, AmberFull, AmberLow,
std::function<void()> (std::bind (&LaunchControlXL::dm_mb_eq_shape_switch, this, 0)),
std::function<uint8_t()> (std::bind(&LaunchControlXL::dm_mb_eq_shape_enabled, this, 0 )));
MAKE_CTRL_BUTTON_PRESS(Control5, 89, 36, AmberFull, AmberLow,
std::function<void()> (std::bind (&LaunchControlXL::dm_mb_eq_shape_switch, this, 3)),
std::function<uint8_t()> (std::bind(&LaunchControlXL::dm_mb_eq_shape_enabled, this, 3 )));
MAKE_CTRL_BUTTON_PRESS(Control6, 90, 37, YellowFull, YellowLow, (std::bind (&LaunchControlXL::dm_mb_flt_switch, this)),
std::bind(&LaunchControlXL::dm_mb_flt_enabled, this));
MAKE_CTRL_BUTTON_PRESS(Control7, 91, 38, GreenFull, GreenLow, (std::bind (&LaunchControlXL::dm_mb_master_assign_switch, this)),
std::bind(&LaunchControlXL::dm_mb_master_assign_enabled, this));
MAKE_CTRL_BUTTON_PRESS(Control8, 92, 39, GreenFull, GreenLow, (std::bind (&LaunchControlXL::dm_mb_comp_switch, this)),
std::bind(&LaunchControlXL::dm_mb_comp_enabled, this));
#else // Ardour
#endif
}
/* Select and Mode Buttons on the right side */
/* Sends Select buttons are independent of mode */
MAKE_SELECT_BUTTON_PRESS(SelectUp, 104, 44, std::function<void()> (std::bind (&LaunchControlXL::send_bank_switch, this, false)));
MAKE_SELECT_BUTTON_PRESS(SelectDown, 105, 45, std::function<void()> (std::bind (&LaunchControlXL::send_bank_switch, this, true)));
/* Device Button needs to be always there */
MAKE_TRACK_STATE_BUTTON_PRESS_RELEASE_LONG(Device, 105, 40,
std::bind (&LaunchControlXL::relax, this) ,
std::bind (&LaunchControlXL::button_device, this),
std::bind (&LaunchControlXL::button_device_long_press, this));
/* Cancel all mute / solo is available in both modes */
MAKE_TRACK_STATE_BUTTON_PRESS_RELEASE_LONG(Mute, 106, 41,
std::bind (&LaunchControlXL::relax, this) ,
std::bind (&LaunchControlXL::button_mute, this),
std::bind (&LaunchControlXL::button_mute_long_press, this));
MAKE_TRACK_STATE_BUTTON_PRESS_RELEASE_LONG(Solo, 107, 42,
std::bind (&LaunchControlXL::relax, this) ,
std::bind (&LaunchControlXL::button_solo, this),
std::bind (&LaunchControlXL::button_solo_long_press, this));
if (!device_mode()) { /* mixer mode */
MAKE_SELECT_BUTTON_PRESS(SelectLeft, 106, 46, std::bind (&LaunchControlXL::button_select_left, this));
MAKE_SELECT_BUTTON_PRESS(SelectRight, 107, 47, std::bind (&LaunchControlXL::button_select_right, this));
MAKE_TRACK_STATE_BUTTON_PRESS(Record, 108, 43, std::bind (&LaunchControlXL::button_record, this));
} else { /* device mode */
MAKE_SELECT_BUTTON_PRESS(SelectLeft, 106, 46, std::bind (&LaunchControlXL::dm_select_prev_strip, this));
MAKE_SELECT_BUTTON_PRESS(SelectRight, 107, 47, std::bind (&LaunchControlXL::dm_select_next_strip, this));
}
}
std::string
LaunchControlXL::button_name_by_id (ButtonID id)
{
switch (id) {
case Device:
return "Device";
case Mute:
return "Mute";
case Solo:
return "Solo";
case Record:
return "Record";
case SelectUp:
return "Select Up";
case SelectDown:
return "Select Down";
case SelectRight:
return "Select Right";
case SelectLeft:
return "Select Left";
case Focus1:
return "Focus 1";
case Focus2:
return "Focus 2";
case Focus3:
return "Focus 3";
case Focus4:
return "Focus 4";
case Focus5:
return "Focus 5";
case Focus6:
return "Focus 6";
case Focus7:
return "Focus 7";
case Focus8:
return "Focus 8";
case Control1:
return "Control 1";
case Control2:
return "Control 2";
case Control3:
return "Control 3";
case Control4:
return "Control 4";
case Control5:
return "Control 5";
case Control6:
return "Control 6";
case Control7:
return "Control 7";
case Control8:
return "Control 8";
default:
break;
}
return "???";
}
std::string
LaunchControlXL::knob_name_by_id (KnobID id)
{
switch (id) {
case SendA1:
return "SendA 1";
case SendA2:
return "SendA 2";
case SendA3:
return "SendA 3";
case SendA4:
return "SendA 4";
case SendA5:
return "SendA 5";
case SendA6:
return "SendA 6";
case SendA7:
return "SendA 7";
case SendA8:
return "SendA 8";
case SendB1:
return "SendB 1";
case SendB2:
return "SendB 2";
case SendB3:
return "SendB 3";
case SendB4:
return "SendB 4";
case SendB5:
return "SendB 5";
case SendB6:
return "SendB 6";
case SendB7:
return "SendB 7";
case SendB8:
return "SendB 8";
case Pan1:
return "Pan 1";
case Pan2:
return "Pan 2";
case Pan3:
return "Pan 3";
case Pan4:
return "Pan 4";
case Pan5:
return "Pan 5";
case Pan6:
return "Pan 6";
case Pan7:
return "Pan 7";
case Pan8:
return "Pan 8";
default:
break;
}
return "???";
}
std::string
LaunchControlXL::fader_name_by_id (FaderID id)
{
switch (id) {
case Fader1:
return "Fader 1";
case Fader2:
return "Fader 2";
case Fader3:
return "Fader 3";
case Fader4:
return "Fader 4";
case Fader5:
return "Fader 5";
case Fader6:
return "Fader 6";
case Fader7:
return "Fader 7";
case Fader8:
return "Fader 8";
default:
break;
}
return "???";
}
std::shared_ptr<LaunchControlXL::TrackButton>
LaunchControlXL::track_button_by_range(uint8_t n, uint8_t first, uint8_t middle)
{
NNNoteButtonMap::iterator b;
if ( n < 4) {
b = nn_note_button_map.find (first + n);
} else {
b = nn_note_button_map.find (middle + n - 4);
}
if (b != nn_note_button_map.end()) {
return std::dynamic_pointer_cast<TrackButton> (b->second);
}
return std::shared_ptr<TrackButton>();
}
void
LaunchControlXL::update_track_focus_led(uint8_t n)
{
std::shared_ptr<TrackButton> b = focus_button_by_column(n);
if (!b) {
return;
}
if (stripable[n]) {
if ( stripable[n]->is_selected() ) {
b->set_color(YellowFull);
} else {
b->set_color(AmberLow);
}
} else {
b->set_color(Off);
}
write (b->state_msg());
}
std::shared_ptr<AutomationControl>
LaunchControlXL::get_ac_by_state(uint8_t n) {
std::shared_ptr<AutomationControl> ac;
switch(track_mode()) {
case TrackMute:
ac = stripable[n]->mute_control();
break;
case TrackSolo:
ac = stripable[n]->solo_control();
break;
case TrackRecord:
ac = stripable[n]->rec_enable_control();
break;
default:
break;
}
return ac;
}
std::shared_ptr<LaunchControlXL::Knob>
LaunchControlXL::knob_by_id(KnobID id)
{
IDKnobMap::iterator k = id_knob_map.find(id);
return std::dynamic_pointer_cast<Knob> (k->second);
}
std::shared_ptr<LaunchControlXL::Knob>*
LaunchControlXL::knobs_by_column(uint8_t col, std::shared_ptr<Knob>* knob_col)
{
for (uint8_t n = 0; n < 3; ++n) {
if (id_knob_map.find(static_cast<KnobID>(col+n*8)) != id_knob_map.end()) {
knob_col[n] = id_knob_map.find(static_cast<KnobID>(col+n*8))->second;
}
}
return knob_col;
}
void
LaunchControlXL::update_knob_led_by_id (uint8_t id, LEDColor color)
{
std::shared_ptr<Knob> knob;
IDKnobMap::iterator k = id_knob_map.find(static_cast<KnobID>(id));
if (k != id_knob_map.end()) {
knob = k->second;
}
knob->set_color(color);
write (knob->state_msg());
}
void
LaunchControlXL::update_knob_led_by_strip(uint8_t n)
{
LEDColor color;
std::shared_ptr<Knob> knobs_col[3];
knobs_by_column(n, knobs_col);
for (uint8_t s = 0; s < 3; ++s) {
if (knobs_col[s]) {
if (stripable[n]) {
if (stripable[n]->is_selected()) {
color = knobs_col[s]->color_enabled();
} else {
color = knobs_col[s]->color_disabled();
}
knobs_col[s]->set_color(color);
} else {
knobs_col[s]->set_color(Off);
}
write (knobs_col[s]->state_msg());
}
}
}
void
LaunchControlXL::update_track_control_led(uint8_t n)
{
std::shared_ptr<TrackButton> b = control_button_by_column(n);
if (!b) {
return;
}
if ((buttons_down.find(Device) != buttons_down.end())) {
/* Don't update LEDs if Device button is hold - we are working on selected strips */
return;
}
if (stripable[n]) {
std::shared_ptr<AutomationControl> ac = get_ac_by_state(n);
if (ac) {
if (ac->get_value()) {
b->set_color(b->color_enabled());
} else {
b->set_color(b->color_disabled());
}
} else {
b->set_color(Off);
}
} else {
b->set_color(Off);
}
write (b->state_msg());
}
void
LaunchControlXL::solo_mute_rec_changed(uint32_t n) {
if (!stripable[n]) {
return;
}
DEBUG_TRACE (DEBUG::LaunchControlXL, "solo_mute_rec_changed - CALLING switch_bank(bank_start)\n");
switch_bank(bank_start);
//update_track_control_led(n);
}
void
LaunchControlXL::solo_iso_changed(uint32_t n)
{
if (!stripable[n]) {
return;
} else {
solo_iso_led_bank();
}
}
void
LaunchControlXL::solo_iso_led_bank ()
{
if (device_mode()) { return; }
int stripable_counter = get_amount_of_tracks();
if (!(buttons_down.find(Device) != buttons_down.end())) {
return;
} else {
for (int n = 0; n < stripable_counter; ++n) {
std::shared_ptr<TrackButton> b = focus_button_by_column(n);
if (stripable[n] && stripable[n]->solo_isolate_control()) {
if (stripable[n]->solo_isolate_control()->get_value()) {
b->set_color(RedFull);
} else {
b->set_color(Off);
}
if (b) {
write (b->state_msg());
}
}
}
LaunchControlXL::set_refresh_leds_flag(true);
}
}
#ifdef MIXBUS
void
LaunchControlXL::master_send_changed(uint32_t n)
{
if (!stripable[n]) {
return;
} else {
master_send_led_bank();
}
}
void
LaunchControlXL::master_send_led_bank ()
{
if (device_mode()) { return; }
if (!(buttons_down.find(Device) != buttons_down.end())) {
return;
} else {
int stripable_counter = LaunchControlXL::get_amount_of_tracks();
for (int n = 0; n < stripable_counter; ++n) {
std::shared_ptr<TrackButton> b = control_button_by_column(n);
if (stripable[n] && stripable[n]->master_send_enable_controllable()) {
if (stripable[n]->master_send_enable_controllable()->get_value()) {
b->set_color(GreenFull);
} else {
b->set_color(Off);
}
}
if (b) {
write (b->state_msg());
}
}
LaunchControlXL::set_refresh_leds_flag(true);
}
}
# endif
void
LaunchControlXL::fader(uint8_t n)
{
if (!stripable[n]) {
return;
}
std::shared_ptr<Fader> fader;
IDFaderMap::iterator f = id_fader_map.find(static_cast<FaderID>(n));
if (f != id_fader_map.end()) {
fader = f->second;
}
if (!fader) {
return;
}
std::shared_ptr<AutomationControl> ac = stripable[fader->id()]->gain_control();
if (ac && check_pick_up(fader, ac)) {
ac->set_value ( ac->interface_to_internal( fader->value() / 127.0), PBD::Controllable::UseGroup );
}
}
void
LaunchControlXL::knob_sendA(uint8_t n)
{
if (!stripable[n]) {
return;
}
std::shared_ptr<Knob> knob;
IDKnobMap::iterator k = id_knob_map.find(static_cast<KnobID>(n));
if (k != id_knob_map.end()) {
knob = k->second;
}
if (!knob) {
return;
}
std::shared_ptr<AutomationControl> ac;
if (buttons_down.find(Device) != buttons_down.end()) { // Device button hold
ac = stripable[n]->trim_control();
} else {
ac = stripable[n]->send_level_controllable (send_bank_base());
}
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
void
LaunchControlXL::knob_sendB(uint8_t n)
{
if (!stripable[n]) {
return;
}
std::shared_ptr<Knob> knob;
IDKnobMap::iterator k = id_knob_map.find(static_cast<KnobID>(n + 8));
if (k != id_knob_map.end()) {
knob = k->second;
}
if (!knob) {
return;
}
std::shared_ptr<AutomationControl> ac;
if (buttons_down.find(Device) != buttons_down.end()) { // Device button hold
#ifdef MIXBUS
ac = stripable[n]->mapped_control (HPF_Freq);
#else
/* something */
#endif
} else {
ac = stripable[n]->send_level_controllable (send_bank_base() + 1);
}
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
void
LaunchControlXL::knob_pan(uint8_t n)
{
if (!stripable[n]) {
return;
}
std::shared_ptr<Knob> knob;
IDKnobMap::iterator k = id_knob_map.find(static_cast<KnobID>(n + 16));
if (k != id_knob_map.end()) {
knob = k->second;
}
if (!knob) {
return;
}
std::shared_ptr<AutomationControl> ac;
if (buttons_down.find(Device) != buttons_down.end()) { // Device button hold
#ifdef MIXBUS
ac = stripable[n]->mapped_control (Comp_Threshold);
#else
ac = stripable[n]->pan_width_control();
#endif
} else {
ac = stripable[n]->pan_azimuth_control();
}
if (ac && check_pick_up(knob, ac, true)) {
ac->set_value (ac->interface_to_internal((knob->value() / 127.0), true), PBD::Controllable::UseGroup);
}
}
void
LaunchControlXL::button_track_focus(uint8_t n)
{
if (buttons_down.find(Device) != buttons_down.end()) {
DEBUG_TRACE (DEBUG::LaunchControlXL, "DEVICE BUTTON HOLD\n");
if (stripable[n]->solo_isolate_control()) {
bool solo_isolate_active = stripable[n]->solo_isolate_control()->get_value();
stripable[n]->solo_isolate_control()->set_value (!solo_isolate_active, PBD::Controllable::UseGroup);
}
return;
}
if (stripable[n]) {
if ( stripable[n]->is_selected() ) {
ControlProtocol::remove_stripable_from_selection (stripable[n]);
} else {
ControlProtocol::add_stripable_to_selection (stripable[n]);
}
} else {
return;
}
}
void
LaunchControlXL::button_press_track_control(uint8_t n) {
if (!stripable[n]) {
return;
}
if (buttons_down.find(Device) != buttons_down.end()) {
DEBUG_TRACE (DEBUG::LaunchControlXL, "DEVICE BUTTON HOLD\n");
#ifdef MIXBUS
if (stripable[n]->master_send_enable_controllable()) {
bool master_send_active = stripable[n]->master_send_enable_controllable()->get_value();
DEBUG_TRACE (DEBUG::LaunchControlXL, "MIXBUS Master Assign\n");
stripable[n]->master_send_enable_controllable()->set_value (!master_send_active, PBD::Controllable::UseGroup);
}
#else
/* something useful for Ardour */
#endif
return;
}
std::shared_ptr<AutomationControl> ac = get_ac_by_state(n);
if (ac) {
session->set_control (ac, !ac->get_value(), PBD::Controllable::UseGroup);
}
}
void
LaunchControlXL::button_track_mode(TrackMode state)
{
set_track_mode(state);
for (uint8_t n = 0; n < 8; ++n) {
update_track_control_led(n);
}
std::shared_ptr<TrackStateButton> mute = std::dynamic_pointer_cast<TrackStateButton> (id_note_button_map[Mute]);
std::shared_ptr<TrackStateButton> solo = std::dynamic_pointer_cast<TrackStateButton> (id_note_button_map[Solo]);
std::shared_ptr<TrackStateButton> record = std::dynamic_pointer_cast<TrackStateButton> (id_note_button_map[Record]);
if (mute && solo && record) {
write(mute->state_msg((state == TrackMute)));
write(solo->state_msg((state == TrackSolo)));
write(record->state_msg((state == TrackRecord)));
}
}
void
LaunchControlXL::button_select_left()
{
switch_bank (std::max (0, bank_start - (7 + (fader8master() ? 0 : 1))));
}
void
LaunchControlXL::button_select_right()
{
switch_bank (std::max (0, bank_start + 7 + (fader8master() ? 0 : 1)));
}
void
LaunchControlXL::send_bank_switch(bool down) {
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose ("send_bank_switch - down: %1\n", down));
if (down) {
set_send_bank(+2);
} else {
set_send_bank(-2);
}
}
void
LaunchControlXL::button_device()
{
#ifndef MIXBUS
return; // currently device mode only on Mixbus
#endif
LaunchControlXL::set_device_mode(!device_mode());
}
void
LaunchControlXL::button_device_long_press()
{
if (device_mode()) { return ; }
solo_iso_led_bank();
#ifdef MIXBUS
master_send_led_bank();
#endif
}
void
LaunchControlXL::button_mute()
{
if (device_mode()) { return ; }
if (buttons_down.find(Device) != buttons_down.end()) {
access_action ("Editor/track-mute-toggle");
} else {
button_track_mode(TrackMute);
}
}
void
LaunchControlXL::button_mute_long_press()
{
session->cancel_all_mute();
}
void
LaunchControlXL::button_solo()
{
if (device_mode()) { return ; }
if (buttons_down.find(Device) != buttons_down.end()) {
access_action ("Editor/track-solo-toggle");
} else {
button_track_mode(TrackSolo);
}
}
void
LaunchControlXL::button_solo_long_press()
{
cancel_all_solo();
}
void
LaunchControlXL::button_record()
{
if (device_mode()) { return ; }
if (buttons_down.find(Device) != buttons_down.end()) {
access_action ("Editor/track-record-enable-toggle");
} else {
button_track_mode(TrackRecord);
}
}
bool
LaunchControlXL::button_long_press_timeout (ButtonID id, std::shared_ptr<Button> button)
{
if (buttons_down.find (id) != buttons_down.end()) {
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose ("long press timeout for %1, invoking method\n", id));
(button->long_press_method) ();
} else {
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose ("long press timeout for %1, expired/cancelled\n", id));
/* release happened and somehow we were not cancelled */
}
/* whichever button this was, we've used it ... don't invoke the
release action.
*/
consumed.insert (id);
return false; /* don't get called again */
}
void
LaunchControlXL::start_press_timeout (std::shared_ptr<Button> button, ButtonID id)
{
ButtonID no_timeout_buttons[] = { SelectUp, SelectDown, SelectLeft, SelectRight };
for (size_t n = 0; n < sizeof (no_timeout_buttons) / sizeof (no_timeout_buttons[0]); ++n) {
if (id == no_timeout_buttons[n]) {
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose ("Not using timeout for button id %1\n", id));
return;
}
}
Glib::RefPtr<Glib::TimeoutSource> timeout = Glib::TimeoutSource::create (500); // milliseconds
button->timeout_connection = timeout->connect (sigc::bind (sigc::mem_fun (*this, &LaunchControlXL::button_long_press_timeout), id, button));
timeout->attach (main_loop()->get_context());
}
/* Device Mode functions */
void
LaunchControlXL::dm_select_prev_strip()
{
access_action ("Editor/select-prev-stripable");
}
void
LaunchControlXL::dm_select_next_strip()
{
access_action ("Editor/select-next-stripable");
}
uint8_t
LaunchControlXL::dm_check_dummy (DeviceStatus ds)
{
return ds;
}
void
LaunchControlXL::dm_fader (FaderID id) {
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Fader> fader;
IDFaderMap::iterator f = id_fader_map.find(id);
if (f != id_fader_map.end()) {
fader = f->second;
}
ac = first_selected_stripable()->gain_control();
if (ac && check_pick_up(fader, ac)) {
ac->set_value ( ac->interface_to_internal( fader->value() / 127.0), PBD::Controllable::UseGroup );
}
}
uint8_t
LaunchControlXL::dm_check_pan_azi()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->pan_azimuth_control()) {
dev_status = dev_active;
}
return dev_status;
}
void
LaunchControlXL::dm_pan_azi (KnobID k)
{
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Knob> knob = knob_by_id (k);
ac = first_selected_stripable()->pan_azimuth_control();
if (ac && check_pick_up(knob, ac, true)) {
ac->set_value (ac->interface_to_internal((knob->value() / 127.0), true), PBD::Controllable::UseGroup);
}
}
uint8_t
LaunchControlXL::dm_check_pan_width()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->pan_width_control()) {
dev_status = dev_active;
}
return dev_status;
}
void
LaunchControlXL::dm_pan_width (KnobID k)
{
if (!first_selected_stripable()) {
return;
}
DEBUG_TRACE (DEBUG::LaunchControlXL, "dm_pan_width()\n");
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Knob> knob = knob_by_id (k);
ac = first_selected_stripable()->pan_width_control();
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
uint8_t
LaunchControlXL::dm_check_trim()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->trim_control()) {
dev_status = dev_active;
}
return dev_status;
}
void
LaunchControlXL::dm_trim (KnobID k)
{
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Knob> knob = knob_by_id (k);
ac = first_selected_stripable()->trim_control();
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
uint8_t
LaunchControlXL::dm_mute_enabled()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->mute_control()->get_value()) {
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
return dev_status;
}
void
LaunchControlXL::dm_mute_switch()
{
if (!first_selected_stripable()) {
return;
}
if (first_selected_stripable()->mute_control()) {
first_selected_stripable()->mute_control()->set_value(!first_selected_stripable()->mute_control()->get_value(), PBD::Controllable::NoGroup);
}
}
uint8_t
LaunchControlXL::dm_solo_enabled()
{
if (!first_selected_stripable() || first_selected_stripable()->is_master()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->solo_control()) {
if (first_selected_stripable()->solo_control()->get_value()) {
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
}
return dev_status;
}
void
LaunchControlXL::dm_solo_switch()
{
if (!first_selected_stripable()) {
return;
}
if (first_selected_stripable()->solo_control()) {
first_selected_stripable()->solo_control()->set_value(!first_selected_stripable()->solo_control()->get_value(), PBD::Controllable::NoGroup);
}
}
uint8_t
LaunchControlXL::dm_recenable_enabled()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->rec_enable_control()) {
if (first_selected_stripable()->rec_enable_control()->get_value()) {
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
}
return dev_status;
}
void
LaunchControlXL::dm_recenable_switch()
{
if (!first_selected_stripable()) {
return;
}
if (first_selected_stripable()->rec_enable_control()) {
first_selected_stripable()->rec_enable_control()->set_value(!first_selected_stripable()->rec_enable_control()->get_value(), PBD::Controllable::NoGroup);
}
}
#ifdef MIXBUS
uint8_t
LaunchControlXL::dm_mb_eq_freq_enabled()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->mapped_control(EQ_Enable)) {
if (first_selected_stripable()->mapped_control(EQ_Enable)->get_value()) {
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
}
if (first_selected_stripable()->mixbus() || first_selected_stripable()->is_master()) {
dev_status = dev_nonexistant;
}
return dev_status;
}
uint8_t
LaunchControlXL::dm_mb_eq_gain_enabled(uint8_t band)
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->mapped_control(EQ_Enable)) {
if (first_selected_stripable()->mapped_control(EQ_Enable)->get_value()) {
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
}
if (first_selected_stripable()->mixbus() && band > 3) {
dev_status = dev_nonexistant;
}
return dev_status;
}
void
LaunchControlXL::dm_mb_eq (KnobID k, bool gain, uint8_t band)
{
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Knob> knob = knob_by_id (k);
if (gain) {
ac = first_selected_stripable()->mapped_control(EQ_BandGain, band);
} else {
ac = first_selected_stripable()->mapped_control (EQ_BandFreq, band);
}
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
void
LaunchControlXL::dm_mb_eq_shape_switch (uint8_t band)
{
if (!first_selected_stripable()) {
return;
}
if (first_selected_stripable()->mapped_control (EQ_BandShape, band)) {
first_selected_stripable()->mapped_control (EQ_BandShape, band)->set_value
(!first_selected_stripable()->mapped_control (EQ_BandShape, band)->get_value(), PBD::Controllable::NoGroup );
}
}
uint8_t
LaunchControlXL::dm_mb_eq_shape_enabled(uint8_t band)
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->mapped_control (EQ_BandShape, band)) {
if (first_selected_stripable()->mapped_control (EQ_BandShape, band)->get_value()) {
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
}
return dev_status;
}
void
LaunchControlXL::dm_mb_eq_switch()
{
if (!first_selected_stripable()) {
return;
}
if (first_selected_stripable()->mapped_control(EQ_Enable)) {
first_selected_stripable()->mapped_control(EQ_Enable)->set_value
(!first_selected_stripable()->mapped_control(EQ_Enable)->get_value(), PBD::Controllable::NoGroup );
}
}
uint8_t
LaunchControlXL::dm_mb_flt_enabled()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
DEBUG_TRACE (DEBUG::LaunchControlXL, "dm_mb_flt_enabled()\n");
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->mapped_control (HPF_Enable)) {
DEBUG_TRACE (DEBUG::LaunchControlXL, "dm_mb_flt_enabled() - filter exists\n");
if (first_selected_stripable()->mapped_control (HPF_Enable)->get_value()) {
DEBUG_TRACE (DEBUG::LaunchControlXL, "dm_mb_flt_enabled: get_value true\n");
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
}
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose("dm_mb_flt_enabled: dev_status: %1\n", (int)dev_status));
return dev_status;
}
void
LaunchControlXL::dm_mb_flt_switch()
{
if (!first_selected_stripable()) {
return;
}
if (first_selected_stripable()->mapped_control (HPF_Enable)) {
first_selected_stripable()->mapped_control (HPF_Enable)->set_value
(!first_selected_stripable()->mapped_control (HPF_Enable)->get_value(), PBD::Controllable::NoGroup );
}
}
void
LaunchControlXL::dm_mb_flt_frq (KnobID k, bool hpf)
{
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Knob> knob = knob_by_id (k);
if (hpf) {
ac = first_selected_stripable()->mapped_control (HPF_Freq);
} else {
ac = first_selected_stripable()->mapped_control (LPF_Freq);
}
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
uint8_t
LaunchControlXL::dm_mb_check_send_knob (KnobID k)
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t send = static_cast<uint8_t> (k) - 16 + 4 * send_bank_base();
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->send_enable_controllable(send)) {
dev_status = dev_inactive;
if (first_selected_stripable()->send_enable_controllable(send)->get_value()) {
dev_status = dev_active;
}
}
return dev_status;
}
uint8_t
LaunchControlXL::dm_mb_check_send_button (uint8_t s)
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t send = s + 4 * send_bank_base();
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->send_enable_controllable(send)) {
dev_status = dev_inactive;
if (first_selected_stripable()->send_enable_controllable(send)->get_value()) {
dev_status = dev_active;
}
}
return dev_status;
}
void
LaunchControlXL::dm_mb_sends (KnobID k)
{
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Knob> knob = knob_by_id (k);
uint8_t send = static_cast<uint8_t> (k) - 16 + 4 * send_bank_base();
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose("dm_mb_send: knobid '%1'\n", k));
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose("dm_mb_send: send '%1'\n", (int)send));
if (buttons_down.find(Device) != buttons_down.end()) { // Device button hold
ac = first_selected_stripable()->send_pan_azimuth_controllable(send);
} else {
ac = first_selected_stripable()->send_level_controllable(send);
}
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
uint8_t
LaunchControlXL::dm_mb_comp_enabled()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->mapped_control (Comp_Enable)) {
if (first_selected_stripable()->mapped_control (Comp_Enable)->get_value()) {
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
}
return dev_status;
}
void
LaunchControlXL::dm_mb_comp_switch()
{
DEBUG_TRACE (DEBUG::LaunchControlXL, "dm_mb_comp_siwtch() \n");
if (!first_selected_stripable()) {
return;
}
if (first_selected_stripable()->mapped_control (Comp_Enable)) {
DEBUG_TRACE (DEBUG::LaunchControlXL, "comp_enable_controllable exists\n");
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose("mapped_control (Comp_Enable): '%1'\n", first_selected_stripable()->mapped_control (Comp_Enable)->get_value() ));
first_selected_stripable()->mapped_control (Comp_Enable)->set_value
(!first_selected_stripable()->mapped_control (Comp_Enable)->get_value(), PBD::Controllable::NoGroup);
}
}
void
LaunchControlXL::dm_mb_comp (KnobID k, CompParam c)
{
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Knob> knob = knob_by_id (k);
switch (c) {
case (CompMakeup):
ac = first_selected_stripable()->mapped_control (Comp_Makeup);
break;
case (CompMode):
ac = first_selected_stripable()->mapped_control (Comp_Mode);
break;
}
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
void
LaunchControlXL::dm_mb_comp_thresh (FaderID id) {
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Fader> fader;
IDFaderMap::iterator f = id_fader_map.find(id);
if (f != id_fader_map.end()) {
fader = f->second;
}
ac = first_selected_stripable()->mapped_control (Comp_Threshold);
if (ac && check_pick_up(fader, ac)) {
ac->set_value ( ac->interface_to_internal( fader->value() / 127.0), PBD::Controllable::UseGroup );
}
}
uint8_t
LaunchControlXL::dm_mb_has_tapedrive()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->mixbus() || first_selected_stripable()->is_master()) {
dev_status = dev_active;
}
return dev_status;
}
void
LaunchControlXL::dm_mb_tapedrive (KnobID k)
{
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<AutomationControl> ac;
std::shared_ptr<Knob> knob = knob_by_id (k);
ac = first_selected_stripable()->mapped_control (TapeDrive_Drive);
if (ac && check_pick_up(knob, ac)) {
ac->set_value ( ac->interface_to_internal( knob->value() / 127.0), PBD::Controllable::UseGroup );
}
}
uint8_t
LaunchControlXL::dm_mb_master_assign_enabled()
{
if (!first_selected_stripable()) {
return dev_nonexistant;
}
uint8_t dev_status = dev_nonexistant;
if (first_selected_stripable()->master_send_enable_controllable()) {
if (first_selected_stripable()->master_send_enable_controllable()->get_value()) {
dev_status = dev_active;
} else {
dev_status = dev_inactive;
}
}
return dev_status;
}
void
LaunchControlXL::dm_mb_master_assign_switch()
{
if (!first_selected_stripable()) {
return;
}
if (first_selected_stripable()->master_send_enable_controllable()) {
first_selected_stripable()->master_send_enable_controllable()->set_value
(!first_selected_stripable()->master_send_enable_controllable()->get_value(), PBD::Controllable::NoGroup );
}
}
void
LaunchControlXL::dm_mb_send_switch(ButtonID id)
{
if (!first_selected_stripable()) {
return;
}
std::shared_ptr<Button> button = id_note_button_map[id];;
uint8_t send = static_cast<uint8_t> (id) + 4 * send_bank_base();
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose("dm_mb_send: buttonid '%1'\n", (int)id));
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose("dm_mb_send: send '%1'\n", (int)send));
if (first_selected_stripable()->send_enable_controllable(send)) {
DEBUG_TRACE (DEBUG::LaunchControlXL, string_compose("dm_mb_send: send '%1' exists\n", (int)send));
first_selected_stripable()->send_enable_controllable(send)->set_value
(!first_selected_stripable()->send_enable_controllable(send)->get_value(), PBD::Controllable::UseGroup);
}
}
#endif