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livetrax/gtk2_ardour/rc_option_editor.cc
Robin Gareus 9d4974ede9 fix option-editor tooltips
git-svn-id: svn://localhost/ardour2/branches/3.0@13402 d708f5d6-7413-0410-9779-e7cbd77b26cf
2012-11-09 07:48:01 +00:00

1835 lines
60 KiB
C++

/*
Copyright (C) 2001-2011 Paul Davis
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#ifdef WAF_BUILD
#include "gtk2ardour-config.h"
#endif
#include <gtkmm/liststore.h>
#include <gtkmm/stock.h>
#include <gtkmm/scale.h>
#include <gtkmm2ext/utils.h>
#include <gtkmm2ext/slider_controller.h>
#include <gtkmm2ext/gtk_ui.h>
#include "pbd/fpu.h"
#include "pbd/cpus.h"
#include "midi++/manager.h"
#include "ardour/audioengine.h"
#include "ardour/dB.h"
#include "ardour/rc_configuration.h"
#include "ardour/control_protocol_manager.h"
#include "control_protocol/control_protocol.h"
#include "ardour_window.h"
#include "ardour_dialog.h"
#include "gui_thread.h"
#include "midi_tracer.h"
#include "rc_option_editor.h"
#include "utils.h"
#include "midi_port_dialog.h"
#include "sfdb_ui.h"
#include "keyboard.h"
#include "i18n.h"
using namespace std;
using namespace Gtk;
using namespace Gtkmm2ext;
using namespace PBD;
using namespace ARDOUR;
class ClickOptions : public OptionEditorBox
{
public:
ClickOptions (RCConfiguration* c, Gtk::Window* p)
: _rc_config (c),
_parent (p)
{
Table* t = manage (new Table (2, 3));
t->set_spacings (4);
Label* l = manage (left_aligned_label (_("Click audio file:")));
t->attach (*l, 0, 1, 0, 1, FILL);
t->attach (_click_path_entry, 1, 2, 0, 1, FILL);
Button* b = manage (new Button (_("Browse...")));
b->signal_clicked().connect (sigc::mem_fun (*this, &ClickOptions::click_browse_clicked));
t->attach (*b, 2, 3, 0, 1, FILL);
l = manage (left_aligned_label (_("Click emphasis audio file:")));
t->attach (*l, 0, 1, 1, 2, FILL);
t->attach (_click_emphasis_path_entry, 1, 2, 1, 2, FILL);
b = manage (new Button (_("Browse...")));
b->signal_clicked().connect (sigc::mem_fun (*this, &ClickOptions::click_emphasis_browse_clicked));
t->attach (*b, 2, 3, 1, 2, FILL);
_box->pack_start (*t, false, false);
_click_path_entry.signal_activate().connect (sigc::mem_fun (*this, &ClickOptions::click_changed));
_click_emphasis_path_entry.signal_activate().connect (sigc::mem_fun (*this, &ClickOptions::click_emphasis_changed));
}
void parameter_changed (string const & p)
{
if (p == "click-sound") {
_click_path_entry.set_text (_rc_config->get_click_sound());
} else if (p == "click-emphasis-sound") {
_click_emphasis_path_entry.set_text (_rc_config->get_click_emphasis_sound());
}
}
void set_state_from_config ()
{
parameter_changed ("click-sound");
parameter_changed ("click-emphasis-sound");
}
private:
void click_browse_clicked ()
{
SoundFileChooser sfdb (*_parent, _("Choose Click"));
sfdb.show_all ();
sfdb.present ();
if (sfdb.run () == RESPONSE_OK) {
click_chosen (sfdb.get_filename());
}
}
void click_chosen (string const & path)
{
_click_path_entry.set_text (path);
_rc_config->set_click_sound (path);
}
void click_changed ()
{
click_chosen (_click_path_entry.get_text ());
}
void click_emphasis_browse_clicked ()
{
SoundFileChooser sfdb (*_parent, _("Choose Click Emphasis"));
sfdb.show_all ();
sfdb.present ();
if (sfdb.run () == RESPONSE_OK) {
click_emphasis_chosen (sfdb.get_filename());
}
}
void click_emphasis_chosen (string const & path)
{
_click_emphasis_path_entry.set_text (path);
_rc_config->set_click_emphasis_sound (path);
}
void click_emphasis_changed ()
{
click_emphasis_chosen (_click_emphasis_path_entry.get_text ());
}
RCConfiguration* _rc_config;
Gtk::Window* _parent;
Entry _click_path_entry;
Entry _click_emphasis_path_entry;
};
class UndoOptions : public OptionEditorBox
{
public:
UndoOptions (RCConfiguration* c) :
_rc_config (c),
_limit_undo_button (_("Limit undo history to")),
_save_undo_button (_("Save undo history of"))
{
Table* t = new Table (2, 3);
t->set_spacings (4);
t->attach (_limit_undo_button, 0, 1, 0, 1, FILL);
_limit_undo_spin.set_range (0, 512);
_limit_undo_spin.set_increments (1, 10);
t->attach (_limit_undo_spin, 1, 2, 0, 1, FILL | EXPAND);
Label* l = manage (left_aligned_label (_("commands")));
t->attach (*l, 2, 3, 0, 1);
t->attach (_save_undo_button, 0, 1, 1, 2, FILL);
_save_undo_spin.set_range (0, 512);
_save_undo_spin.set_increments (1, 10);
t->attach (_save_undo_spin, 1, 2, 1, 2, FILL | EXPAND);
l = manage (left_aligned_label (_("commands")));
t->attach (*l, 2, 3, 1, 2);
_box->pack_start (*t);
_limit_undo_button.signal_toggled().connect (sigc::mem_fun (*this, &UndoOptions::limit_undo_toggled));
_limit_undo_spin.signal_value_changed().connect (sigc::mem_fun (*this, &UndoOptions::limit_undo_changed));
_save_undo_button.signal_toggled().connect (sigc::mem_fun (*this, &UndoOptions::save_undo_toggled));
_save_undo_spin.signal_value_changed().connect (sigc::mem_fun (*this, &UndoOptions::save_undo_changed));
}
void parameter_changed (string const & p)
{
if (p == "history-depth") {
int32_t const d = _rc_config->get_history_depth();
_limit_undo_button.set_active (d != 0);
_limit_undo_spin.set_sensitive (d != 0);
_limit_undo_spin.set_value (d);
} else if (p == "save-history") {
bool const x = _rc_config->get_save_history ();
_save_undo_button.set_active (x);
_save_undo_spin.set_sensitive (x);
} else if (p == "save-history-depth") {
_save_undo_spin.set_value (_rc_config->get_saved_history_depth());
}
}
void set_state_from_config ()
{
parameter_changed ("save-history");
parameter_changed ("history-depth");
parameter_changed ("save-history-depth");
}
void limit_undo_toggled ()
{
bool const x = _limit_undo_button.get_active ();
_limit_undo_spin.set_sensitive (x);
int32_t const n = x ? 16 : 0;
_limit_undo_spin.set_value (n);
_rc_config->set_history_depth (n);
}
void limit_undo_changed ()
{
_rc_config->set_history_depth (_limit_undo_spin.get_value_as_int ());
}
void save_undo_toggled ()
{
bool const x = _save_undo_button.get_active ();
_rc_config->set_save_history (x);
}
void save_undo_changed ()
{
_rc_config->set_saved_history_depth (_save_undo_spin.get_value_as_int ());
}
private:
RCConfiguration* _rc_config;
CheckButton _limit_undo_button;
SpinButton _limit_undo_spin;
CheckButton _save_undo_button;
SpinButton _save_undo_spin;
};
static const struct {
const char *name;
guint modifier;
} modifiers[] = {
{ "Unmodified", 0 },
#ifdef GTKOSX
/* Command = Meta
Option/Alt = Mod1
*/
{ "Key|Shift", GDK_SHIFT_MASK },
{ "Command", GDK_META_MASK },
{ "Control", GDK_CONTROL_MASK },
{ "Option", GDK_MOD1_MASK },
{ "Command-Shift", GDK_META_MASK|GDK_SHIFT_MASK },
{ "Command-Option", GDK_MOD1_MASK|GDK_META_MASK },
{ "Shift-Option", GDK_SHIFT_MASK|GDK_MOD1_MASK },
{ "Shift-Command-Option", GDK_MOD5_MASK|GDK_SHIFT_MASK|GDK_META_MASK },
#else
{ "Key|Shift", GDK_SHIFT_MASK },
{ "Control", GDK_CONTROL_MASK },
{ "Alt (Mod1)", GDK_MOD1_MASK },
{ "Control-Shift", GDK_CONTROL_MASK|GDK_SHIFT_MASK },
{ "Control-Alt", GDK_CONTROL_MASK|GDK_MOD1_MASK },
{ "Shift-Alt", GDK_SHIFT_MASK|GDK_MOD1_MASK },
{ "Control-Shift-Alt", GDK_CONTROL_MASK|GDK_SHIFT_MASK|GDK_MOD1_MASK },
{ "Mod2", GDK_MOD2_MASK },
{ "Mod3", GDK_MOD3_MASK },
{ "Mod4", GDK_MOD4_MASK },
{ "Mod5", GDK_MOD5_MASK },
#endif
{ 0, 0 }
};
class KeyboardOptions : public OptionEditorBox
{
public:
KeyboardOptions () :
_delete_button_adjustment (3, 1, 12),
_delete_button_spin (_delete_button_adjustment),
_edit_button_adjustment (3, 1, 5),
_edit_button_spin (_edit_button_adjustment),
_insert_note_button_adjustment (3, 1, 5),
_insert_note_button_spin (_insert_note_button_adjustment)
{
/* internationalize and prepare for use with combos */
vector<string> dumb;
for (int i = 0; modifiers[i].name; ++i) {
dumb.push_back (S_(modifiers[i].name));
}
set_popdown_strings (_edit_modifier_combo, dumb);
_edit_modifier_combo.signal_changed().connect (sigc::mem_fun(*this, &KeyboardOptions::edit_modifier_chosen));
for (int x = 0; modifiers[x].name; ++x) {
if (modifiers[x].modifier == Keyboard::edit_modifier ()) {
_edit_modifier_combo.set_active_text (S_(modifiers[x].name));
break;
}
}
Table* t = manage (new Table (4, 4));
t->set_spacings (4);
Label* l = manage (left_aligned_label (_("Edit using:")));
l->set_name ("OptionsLabel");
t->attach (*l, 0, 1, 0, 1, FILL | EXPAND, FILL);
t->attach (_edit_modifier_combo, 1, 2, 0, 1, FILL | EXPAND, FILL);
l = manage (new Label (_("+ button")));
l->set_name ("OptionsLabel");
t->attach (*l, 3, 4, 0, 1, FILL | EXPAND, FILL);
t->attach (_edit_button_spin, 4, 5, 0, 1, FILL | EXPAND, FILL);
_edit_button_spin.set_name ("OptionsEntry");
_edit_button_adjustment.set_value (Keyboard::edit_button());
_edit_button_adjustment.signal_value_changed().connect (sigc::mem_fun(*this, &KeyboardOptions::edit_button_changed));
set_popdown_strings (_delete_modifier_combo, dumb);
_delete_modifier_combo.signal_changed().connect (sigc::mem_fun(*this, &KeyboardOptions::delete_modifier_chosen));
for (int x = 0; modifiers[x].name; ++x) {
if (modifiers[x].modifier == Keyboard::delete_modifier ()) {
_delete_modifier_combo.set_active_text (S_(modifiers[x].name));
break;
}
}
l = manage (left_aligned_label (_("Delete using:")));
l->set_name ("OptionsLabel");
t->attach (*l, 0, 1, 1, 2, FILL | EXPAND, FILL);
t->attach (_delete_modifier_combo, 1, 2, 1, 2, FILL | EXPAND, FILL);
l = manage (new Label (_("+ button")));
l->set_name ("OptionsLabel");
t->attach (*l, 3, 4, 1, 2, FILL | EXPAND, FILL);
t->attach (_delete_button_spin, 4, 5, 1, 2, FILL | EXPAND, FILL);
_delete_button_spin.set_name ("OptionsEntry");
_delete_button_adjustment.set_value (Keyboard::delete_button());
_delete_button_adjustment.signal_value_changed().connect (sigc::mem_fun(*this, &KeyboardOptions::delete_button_changed));
set_popdown_strings (_insert_note_modifier_combo, dumb);
_insert_note_modifier_combo.signal_changed().connect (sigc::mem_fun(*this, &KeyboardOptions::insert_note_modifier_chosen));
for (int x = 0; modifiers[x].name; ++x) {
if (modifiers[x].modifier == Keyboard::insert_note_modifier ()) {
_insert_note_modifier_combo.set_active_text (S_(modifiers[x].name));
break;
}
}
l = manage (left_aligned_label (_("Insert note using:")));
l->set_name ("OptionsLabel");
t->attach (*l, 0, 1, 2, 3, FILL | EXPAND, FILL);
t->attach (_insert_note_modifier_combo, 1, 2, 2, 3, FILL | EXPAND, FILL);
l = manage (new Label (_("+ button")));
l->set_name ("OptionsLabel");
t->attach (*l, 3, 4, 2, 3, FILL | EXPAND, FILL);
t->attach (_insert_note_button_spin, 4, 5, 2, 3, FILL | EXPAND, FILL);
_insert_note_button_spin.set_name ("OptionsEntry");
_insert_note_button_adjustment.set_value (Keyboard::insert_note_button());
_insert_note_button_adjustment.signal_value_changed().connect (sigc::mem_fun(*this, &KeyboardOptions::insert_note_button_changed));
set_popdown_strings (_snap_modifier_combo, dumb);
_snap_modifier_combo.signal_changed().connect (sigc::mem_fun(*this, &KeyboardOptions::snap_modifier_chosen));
for (int x = 0; modifiers[x].name; ++x) {
if (modifiers[x].modifier == (guint) Keyboard::snap_modifier ()) {
_snap_modifier_combo.set_active_text (S_(modifiers[x].name));
break;
}
}
l = manage (left_aligned_label (_("Toggle snap using:")));
l->set_name ("OptionsLabel");
t->attach (*l, 0, 1, 3, 4, FILL | EXPAND, FILL);
t->attach (_snap_modifier_combo, 1, 2, 3, 4, FILL | EXPAND, FILL);
vector<string> strs;
for (map<string,string>::iterator bf = Keyboard::binding_files.begin(); bf != Keyboard::binding_files.end(); ++bf) {
strs.push_back (bf->first);
}
set_popdown_strings (_keyboard_layout_selector, strs);
_keyboard_layout_selector.set_active_text (Keyboard::current_binding_name());
_keyboard_layout_selector.signal_changed().connect (sigc::mem_fun (*this, &KeyboardOptions::bindings_changed));
l = manage (left_aligned_label (_("Keyboard layout:")));
l->set_name ("OptionsLabel");
t->attach (*l, 0, 1, 4, 5, FILL | EXPAND, FILL);
t->attach (_keyboard_layout_selector, 1, 2, 4, 5, FILL | EXPAND, FILL);
_box->pack_start (*t, false, false);
}
void parameter_changed (string const &)
{
/* XXX: these aren't really config options... */
}
void set_state_from_config ()
{
/* XXX: these aren't really config options... */
}
private:
void bindings_changed ()
{
string const txt = _keyboard_layout_selector.get_active_text();
/* XXX: config...? for all this keyboard stuff */
for (map<string,string>::iterator i = Keyboard::binding_files.begin(); i != Keyboard::binding_files.end(); ++i) {
if (txt == i->first) {
if (Keyboard::load_keybindings (i->second)) {
Keyboard::save_keybindings ();
}
}
}
}
void edit_modifier_chosen ()
{
string const txt = _edit_modifier_combo.get_active_text();
for (int i = 0; modifiers[i].name; ++i) {
if (txt == _(modifiers[i].name)) {
Keyboard::set_edit_modifier (modifiers[i].modifier);
break;
}
}
}
void delete_modifier_chosen ()
{
string const txt = _delete_modifier_combo.get_active_text();
for (int i = 0; modifiers[i].name; ++i) {
if (txt == _(modifiers[i].name)) {
Keyboard::set_delete_modifier (modifiers[i].modifier);
break;
}
}
}
void insert_note_modifier_chosen ()
{
string const txt = _insert_note_modifier_combo.get_active_text();
for (int i = 0; modifiers[i].name; ++i) {
if (txt == _(modifiers[i].name)) {
Keyboard::set_insert_note_modifier (modifiers[i].modifier);
break;
}
}
}
void snap_modifier_chosen ()
{
string const txt = _snap_modifier_combo.get_active_text();
for (int i = 0; modifiers[i].name; ++i) {
if (txt == _(modifiers[i].name)) {
Keyboard::set_snap_modifier (modifiers[i].modifier);
break;
}
}
}
void delete_button_changed ()
{
Keyboard::set_delete_button (_delete_button_spin.get_value_as_int());
}
void edit_button_changed ()
{
Keyboard::set_edit_button (_edit_button_spin.get_value_as_int());
}
void insert_note_button_changed ()
{
Keyboard::set_insert_note_button (_insert_note_button_spin.get_value_as_int());
}
ComboBoxText _keyboard_layout_selector;
ComboBoxText _edit_modifier_combo;
ComboBoxText _delete_modifier_combo;
ComboBoxText _insert_note_modifier_combo;
ComboBoxText _snap_modifier_combo;
Adjustment _delete_button_adjustment;
SpinButton _delete_button_spin;
Adjustment _edit_button_adjustment;
SpinButton _edit_button_spin;
Adjustment _insert_note_button_adjustment;
SpinButton _insert_note_button_spin;
};
class FontScalingOptions : public OptionEditorBox
{
public:
FontScalingOptions (RCConfiguration* c) :
_rc_config (c),
_dpi_adjustment (50, 50, 250, 1, 10),
_dpi_slider (_dpi_adjustment)
{
_dpi_adjustment.set_value (_rc_config->get_font_scale () / 1024);
Label* l = manage (new Label (_("Font scaling:")));
l->set_name ("OptionsLabel");
_dpi_slider.set_update_policy (UPDATE_DISCONTINUOUS);
HBox* h = manage (new HBox);
h->set_spacing (4);
h->pack_start (*l, false, false);
h->pack_start (_dpi_slider, true, true);
_box->pack_start (*h, false, false);
_dpi_adjustment.signal_value_changed().connect (sigc::mem_fun (*this, &FontScalingOptions::dpi_changed));
}
void parameter_changed (string const & p)
{
if (p == "font-scale") {
_dpi_adjustment.set_value (_rc_config->get_font_scale() / 1024);
}
}
void set_state_from_config ()
{
parameter_changed ("font-scale");
}
private:
void dpi_changed ()
{
_rc_config->set_font_scale ((long) floor (_dpi_adjustment.get_value() * 1024));
/* XXX: should be triggered from the parameter changed signal */
reset_dpi ();
}
RCConfiguration* _rc_config;
Adjustment _dpi_adjustment;
HScale _dpi_slider;
};
class BufferingOptions : public OptionEditorBox
{
public:
BufferingOptions (RCConfiguration* c)
: _rc_config (c)
, _playback_adjustment (5, 1, 60, 1, 4)
, _capture_adjustment (5, 1, 60, 1, 4)
, _playback_slider (_playback_adjustment)
, _capture_slider (_capture_adjustment)
{
_playback_adjustment.set_value (_rc_config->get_audio_playback_buffer_seconds());
Label* l = manage (new Label (_("Playback (seconds of buffering):")));
l->set_name ("OptionsLabel");
_playback_slider.set_update_policy (UPDATE_DISCONTINUOUS);
HBox* h = manage (new HBox);
h->set_spacing (4);
h->pack_start (*l, false, false);
h->pack_start (_playback_slider, true, true);
_box->pack_start (*h, false, false);
_capture_adjustment.set_value (_rc_config->get_audio_capture_buffer_seconds());
l = manage (new Label (_("Recording (seconds of buffering):")));
l->set_name ("OptionsLabel");
_capture_slider.set_update_policy (UPDATE_DISCONTINUOUS);
h = manage (new HBox);
h->set_spacing (4);
h->pack_start (*l, false, false);
h->pack_start (_capture_slider, true, true);
_box->pack_start (*h, false, false);
_capture_adjustment.signal_value_changed().connect (sigc::mem_fun (*this, &BufferingOptions::capture_changed));
_playback_adjustment.signal_value_changed().connect (sigc::mem_fun (*this, &BufferingOptions::playback_changed));
}
void parameter_changed (string const & p)
{
if (p == "playback-buffer-seconds") {
_playback_adjustment.set_value (_rc_config->get_audio_playback_buffer_seconds());
} else if (p == "capture-buffer-seconds") {
_capture_adjustment.set_value (_rc_config->get_audio_capture_buffer_seconds());
}
}
void set_state_from_config ()
{
parameter_changed ("playback-buffer-seconds");
parameter_changed ("capture-buffer-seconds");
}
private:
void playback_changed ()
{
_rc_config->set_audio_playback_buffer_seconds ((long) _playback_adjustment.get_value());
}
void capture_changed ()
{
_rc_config->set_audio_capture_buffer_seconds ((long) _capture_adjustment.get_value());
}
RCConfiguration* _rc_config;
Adjustment _playback_adjustment;
Adjustment _capture_adjustment;
HScale _playback_slider;
HScale _capture_slider;
};
class ControlSurfacesOptions : public OptionEditorBox
{
public:
ControlSurfacesOptions (Gtk::Window& parent)
: _parent (parent)
{
_store = ListStore::create (_model);
_view.set_model (_store);
_view.append_column (_("Name"), _model.name);
_view.get_column(0)->set_resizable (true);
_view.get_column(0)->set_expand (true);
_view.append_column_editable (_("Enabled"), _model.enabled);
_view.append_column_editable (_("Feedback"), _model.feedback);
_box->pack_start (_view, false, false);
Label* label = manage (new Label);
label->set_markup (string_compose (X_("<i>%1</i>"), _("Double-click on a name to edit settings for an enabled protocol")));
_box->pack_start (*label, false, false);
label->show ();
ControlProtocolManager& m = ControlProtocolManager::instance ();
m.ProtocolStatusChange.connect (protocol_status_connection, MISSING_INVALIDATOR,
boost::bind (&ControlSurfacesOptions::protocol_status_changed, this, _1), gui_context());
_store->signal_row_changed().connect (sigc::mem_fun (*this, &ControlSurfacesOptions::view_changed));
_view.signal_button_press_event().connect_notify (sigc::mem_fun(*this, &ControlSurfacesOptions::edit_clicked));
}
void parameter_changed (std::string const &)
{
}
void set_state_from_config ()
{
_store->clear ();
ControlProtocolManager& m = ControlProtocolManager::instance ();
for (list<ControlProtocolInfo*>::iterator i = m.control_protocol_info.begin(); i != m.control_protocol_info.end(); ++i) {
if (!(*i)->mandatory) {
TreeModel::Row r = *_store->append ();
r[_model.name] = (*i)->name;
r[_model.enabled] = ((*i)->protocol || (*i)->requested);
r[_model.feedback] = ((*i)->protocol && (*i)->protocol->get_feedback ());
r[_model.protocol_info] = *i;
}
}
}
private:
void protocol_status_changed (ControlProtocolInfo* cpi) {
/* find the row */
TreeModel::Children rows = _store->children();
for (TreeModel::Children::iterator x = rows.begin(); x != rows.end(); ++x) {
if ((*x)[_model.protocol_info] == cpi) {
(*x)[_model.enabled] = (cpi->protocol || cpi->requested);
break;
}
}
}
void view_changed (TreeModel::Path const &, TreeModel::iterator const & i)
{
TreeModel::Row r = *i;
ControlProtocolInfo* cpi = r[_model.protocol_info];
if (!cpi) {
return;
}
bool const was_enabled = (cpi->protocol != 0);
bool const is_enabled = r[_model.enabled];
if (was_enabled != is_enabled) {
if (!was_enabled) {
ControlProtocolManager::instance().instantiate (*cpi);
} else {
Gtk::Window* win = r[_model.editor];
if (win) {
win->hide ();
}
ControlProtocolManager::instance().teardown (*cpi);
if (win) {
delete win;
}
r[_model.editor] = 0;
cpi->requested = false;
}
}
bool const was_feedback = (cpi->protocol && cpi->protocol->get_feedback ());
bool const is_feedback = r[_model.feedback];
if (was_feedback != is_feedback && cpi->protocol) {
cpi->protocol->set_feedback (is_feedback);
}
}
void edit_clicked (GdkEventButton* ev)
{
if (ev->type != GDK_2BUTTON_PRESS) {
return;
}
std::string name;
ControlProtocolInfo* cpi;
TreeModel::Row row;
row = *(_view.get_selection()->get_selected());
Window* win = row[_model.editor];
if (win && !win->is_visible()) {
win->present ();
} else {
cpi = row[_model.protocol_info];
if (cpi && cpi->protocol && cpi->protocol->has_editor ()) {
Box* box = (Box*) cpi->protocol->get_gui ();
if (box) {
string title = row[_model.name];
ArdourWindow* win = new ArdourWindow (_parent, title);
win->set_title ("Control Protocol Options");
win->add (*box);
box->show ();
win->present ();
row[_model.editor] = win;
}
}
}
}
class ControlSurfacesModelColumns : public TreeModelColumnRecord
{
public:
ControlSurfacesModelColumns ()
{
add (name);
add (enabled);
add (feedback);
add (protocol_info);
add (editor);
}
TreeModelColumn<string> name;
TreeModelColumn<bool> enabled;
TreeModelColumn<bool> feedback;
TreeModelColumn<ControlProtocolInfo*> protocol_info;
TreeModelColumn<Gtk::Window*> editor;
};
Glib::RefPtr<ListStore> _store;
ControlSurfacesModelColumns _model;
TreeView _view;
Gtk::Window& _parent;
PBD::ScopedConnection protocol_status_connection;
};
/** A class which allows control of visibility of some editor components usign
* a VisibilityGroup. The caller should pass in a `dummy' VisibilityGroup
* which has the correct members, but with null widget pointers. This
* class allows the user to set visibility of the members, the details
* of which are stored in a configuration variable which can be watched
* by parts of the editor that actually contain the widgets whose visibility
* is being controlled.
*/
class VisibilityOption : public Option
{
public:
/** @param name User-visible name for this group.
* @param g `Dummy' VisibilityGroup (as described above).
* @param get Method to get the value of the appropriate configuration variable.
* @param set Method to set the value of the appropriate configuration variable.
*/
VisibilityOption (string name, VisibilityGroup* g, sigc::slot<string> get, sigc::slot<bool, string> set)
: Option (g->get_state_name(), name)
, _heading (name)
, _visibility_group (g)
, _get (get)
, _set (set)
{
/* Watch for changes made by the user to our members */
_visibility_group->VisibilityChanged.connect_same_thread (
_visibility_group_connection, sigc::bind (&VisibilityOption::changed, this)
);
}
void set_state_from_config ()
{
/* Set our state from the current configuration */
_visibility_group->set_state (_get ());
}
void add_to_page (OptionEditorPage* p)
{
_heading.add_to_page (p);
add_widget_to_page (p, _visibility_group->list_view ());
}
Gtk::Widget& tip_widget() { return *_visibility_group->list_view (); }
private:
void changed ()
{
/* The user has changed something, so reflect this change
in the RCConfiguration.
*/
_set (_visibility_group->get_state_value ());
}
OptionEditorHeading _heading;
VisibilityGroup* _visibility_group;
sigc::slot<std::string> _get;
sigc::slot<bool, std::string> _set;
PBD::ScopedConnection _visibility_group_connection;
};
RCOptionEditor::RCOptionEditor ()
: OptionEditor (Config, string_compose (_("%1 Preferences"), PROGRAM_NAME))
, _rc_config (Config)
, _mixer_strip_visibility ("mixer-strip-visibility")
{
/* MISC */
uint32_t hwcpus = hardware_concurrency ();
if (hwcpus > 1) {
add_option (_("Misc"), new OptionEditorHeading (_("DSP CPU Utilization")));
ComboOption<int32_t>* procs = new ComboOption<int32_t> (
"processor-usage",
_("Signal processing uses"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_processor_usage),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_processor_usage)
);
procs->add (-1, _("all but one processor"));
procs->add (0, _("all available processors"));
for (uint32_t i = 1; i <= hwcpus; ++i) {
procs->add (i, string_compose (_("%1 processors"), i));
}
procs->set_note (string_compose (_("This setting will only take effect when %1 is restarted."), PROGRAM_NAME));
add_option (_("Misc"), procs);
}
add_option (_("Misc"), new OptionEditorHeading (S_("Options|Undo")));
add_option (_("Misc"), new UndoOptions (_rc_config));
add_option (_("Misc"),
new BoolOption (
"verify-remove-last-capture",
_("Verify removal of last capture"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_verify_remove_last_capture),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_verify_remove_last_capture)
));
add_option (_("Misc"),
new BoolOption (
"periodic-safety-backups",
_("Make periodic backups of the session file"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_periodic_safety_backups),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_periodic_safety_backups)
));
add_option (_("Misc"), new OptionEditorHeading (_("Session Management")));
add_option (_("Misc"),
new BoolOption (
"only-copy-imported-files",
_("Always copy imported files"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_only_copy_imported_files),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_only_copy_imported_files)
));
add_option (_("Misc"), new DirectoryOption (
X_("default-session-parent-dir"),
_("Default folder for new sessions:"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_default_session_parent_dir),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_default_session_parent_dir)
));
add_option (_("Misc"),
new SpinOption<uint32_t> (
"max-recent-sessions",
_("Maximum number of recent sessions"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_max_recent_sessions),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_max_recent_sessions),
0, 1000, 1, 20
));
add_option (_("Misc"), new OptionEditorHeading (_("Click")));
add_option (_("Misc"), new ClickOptions (_rc_config, this));
add_option (_("Misc"),
new FaderOption (
"click-gain",
_("Click gain level"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_click_gain),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_click_gain)
));
add_option (_("Misc"), new OptionEditorHeading (_("Automation")));
add_option (_("Misc"),
new SpinOption<double> (
"automation-thinning-factor",
_("Thinning factor (larger value => less data)"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_automation_thinning_factor),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_automation_thinning_factor),
0, 1000, 1, 20
));
/* TRANSPORT */
BoolOption* tsf;
tsf = new BoolOption (
"latched-record-enable",
_("Keep record-enable engaged on stop"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_latched_record_enable),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_latched_record_enable)
);
// Gtkmm2ext::UI::instance()->set_tip (tsf->tip_widget(), _(""));
add_option (_("Transport"), tsf);
tsf = new BoolOption (
"stop-recording-on-xrun",
_("Stop recording when an xrun occurs"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_stop_recording_on_xrun),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_stop_recording_on_xrun)
);
Gtkmm2ext::UI::instance()->set_tip (tsf->tip_widget(), _("<b>When enabled</b> Ardour will stop recording if an over- or underrun is detected by the audio engine"));
add_option (_("Transport"), tsf);
tsf = new BoolOption (
"create-xrun-marker",
_("Create markers where xruns occur"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_create_xrun_marker),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_create_xrun_marker)
);
// Gtkmm2ext::UI::instance()->set_tip (tsf->tip_widget(), _(""));
add_option (_("Transport"), tsf);
tsf = new BoolOption (
"stop-at-session-end",
_("Stop at the end of the session"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_stop_at_session_end),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_stop_at_session_end)
);
Gtkmm2ext::UI::instance()->set_tip (tsf->tip_widget(), _("<b>When enabled</b> if Ardour is <b>not recording</b>, it will stop the transport "
"when it reaches the current session end marker\n\n"
"<b>When disabled</b> Ardour will continue to roll past the session end marker at all times"));
add_option (_("Transport"), tsf);
tsf = new BoolOption (
"seamless-loop",
_("Do seamless looping (not possible when slaved to MTC, JACK etc)"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_seamless_loop),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_seamless_loop)
);
Gtkmm2ext::UI::instance()->set_tip (tsf->tip_widget(), _("<b>When enabled</b> this will loop by reading ahead and wrapping around at the loop point, "
"preventing any need to do a transport locate at the end of the loop\n\n"
"<b>When disabled</b> looping is done by locating back to the start of the loop when Ardour reaches the end "
"which will often cause a small click or delay"));
add_option (_("Transport"), tsf);
tsf = new BoolOption (
"disable-disarm-during-roll",
_("Disable per-track record disarm while rolling"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_disable_disarm_during_roll),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_disable_disarm_during_roll)
);
Gtkmm2ext::UI::instance()->set_tip (tsf->tip_widget(), _("<b>When enabled</b> this will prevent you from accidentally stopping specific tracks recording during a take"));
add_option (_("Transport"), tsf);
tsf = new BoolOption (
"quieten_at_speed",
_("12dB gain reduction during fast-forward and fast-rewind"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_quieten_at_speed),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_quieten_at_speed)
);
Gtkmm2ext::UI::instance()->set_tip (tsf->tip_widget(), _("This will reduce the unpleasant increase in perceived volume "
"that occurs when fast-forwarding or rewinding through some kinds of audio"));
add_option (_("Transport"), tsf);
add_option (_("Transport"), new OptionEditorHeading (S_("Sync/Slave")));
_sync_source = new ComboOption<SyncSource> (
"sync-source",
_("External timecode source"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_sync_source),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_sync_source)
);
populate_sync_options ();
add_option (_("Transport"), _sync_source);
_sync_framerate = new BoolOption (
"timecode-sync-frame-rate",
_("Match session video frame rate to external timecode"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_timecode_sync_frame_rate),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_timecode_sync_frame_rate)
);
Gtkmm2ext::UI::instance()->set_tip
(_sync_framerate->tip_widget(),
_("This option controls the value of the video frame rate <i>while chasing</i> an external timecode source.\n\n"
"<b>When enabled</b> the session video frame rate will be changed to match that of the selected external timecode source.\n\n"
"<b>When disabled</b> the session video frame rate will not be changed to match that of the selected external timecode source."
"Instead the frame rate indication in the main clock will flash red and Ardour will convert between the external "
"timecode standard and the session standard."));
add_option (_("Transport"), _sync_framerate);
_sync_genlock = new BoolOption (
"timecode-source-is-synced",
_("External timecode is sync locked"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_timecode_source_is_synced),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_timecode_source_is_synced)
);
Gtkmm2ext::UI::instance()->set_tip
(_sync_genlock->tip_widget(),
_("<b>When enabled</b> indicates that the selected external timecode source shares sync (Black &amp; Burst, Wordclock, etc) with the audio interface."));
add_option (_("Transport"), _sync_genlock);
_sync_source_2997 = new BoolOption (
"timecode-source-2997",
_("Lock to 29.9700 fps instead of 30000/1001"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_timecode_source_2997),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_timecode_source_2997)
);
Gtkmm2ext::UI::instance()->set_tip
(_sync_source_2997->tip_widget(),
_("<b>When enabled</b> the external timecode source is assumed to use 29.97 fps instead of 30000/1001.\n"
"SMPTE 12M-1999 specifies 29.97df as 30000/1001. The spec further mentions that "
"drop-frame timecode has an accumulated error of -86ms over a 24-hour period.\n"
"Drop-frame timecode would compensate exactly for a NTSC color frame rate of 30 * 0.9990 (ie 29.970000). "
"That is not the actual rate, however some vendor use that rate - despite it being against the specs - "
"because the variant of using exactly 29.97 fps has zero timecode drift.\n"
));
add_option (_("Transport"), _sync_source_2997);
_ltc_port = new ComboStringOption (
"ltc-source-port",
_("LTC incoming port"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_ltc_source_port),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_ltc_source_port)
);
vector<string> physical_inputs;
physical_inputs.push_back (_("None"));
AudioEngine::instance()->get_physical_inputs (DataType::AUDIO, physical_inputs);
_ltc_port->set_popdown_strings (physical_inputs);
add_option (_("Transport"), _ltc_port);
#ifdef HAVE_LTC
// TODO; rather disable this button than not compile it..
add_option (_("Transport"), new OptionEditorHeading (S_("LTC Generator")));
add_option (_("Transport"),
new BoolOption (
"send-ltc",
_("Enable LTC generator"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_send_ltc),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_send_ltc)
));
_ltc_send_continuously = new BoolOption (
"ltc-send-continuously",
_("send LTC while stopped"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_ltc_send_continuously),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_ltc_send_continuously)
);
Gtkmm2ext::UI::instance()->set_tip
(_ltc_send_continuously->tip_widget(),
_("<b>When enabled</b> Ardour will continue to send LTC information even when the transport (playhead) is not moving"));
add_option (_("Transport"), _ltc_send_continuously);
_ltc_volume_adjustment = new Gtk::Adjustment(-18, -50, 0, .5, 5);
_ltc_volume_adjustment->set_value (20 * log10(_rc_config->get_ltc_output_volume()));
_ltc_volume_adjustment->signal_value_changed().connect (sigc::mem_fun (*this, &RCOptionEditor::ltc_generator_volume_changed));
_ltc_volume_slider = new HSliderOption("ltcvol", ("LTC generator level:"), *_ltc_volume_adjustment);
Gtkmm2ext::UI::instance()->set_tip
(_ltc_volume_slider->tip_widget(),
_("Specify the Peak Volume of the generated LTC signal in dbFS. A good value is 0dBu ^= -18dbFS in an EBU calibrated system"));
add_option (_("Transport"), _ltc_volume_slider);
#endif
parameter_changed ("sync-source");
parameter_changed ("send-ltc");
/* EDITOR */
add_option (_("Editor"),
new BoolOption (
"link-region-and-track-selection",
_("Link selection of regions and tracks"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_link_region_and_track_selection),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_link_region_and_track_selection)
));
add_option (_("Editor"),
new BoolOption (
"automation-follows-regions",
_("Move relevant automation when audio regions are moved"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_automation_follows_regions),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_automation_follows_regions)
));
add_option (_("Editor"),
new BoolOption (
"show-track-meters",
_("Show meters on tracks in the editor"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_show_track_meters),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_show_track_meters)
));
add_option (_("Editor"),
new BoolOption (
"use-overlap-equivalency",
_("Use overlap equivalency for regions"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_use_overlap_equivalency),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_use_overlap_equivalency)
));
add_option (_("Editor"),
new BoolOption (
"rubberbanding-snaps-to-grid",
_("Make rubberband selection rectangle snap to the grid"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_rubberbanding_snaps_to_grid),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_rubberbanding_snaps_to_grid)
));
add_option (_("Editor"),
new BoolOption (
"show-waveforms",
_("Show waveforms in regions"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_show_waveforms),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_show_waveforms)
));
add_option (_("Editor"),
new BoolComboOption (
"show-region-gain-envelopes",
_("Show gain envelopes in audio regions"),
_("in all modes"),
_("only in region gain mode"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_show_region_gain),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_show_region_gain)
));
ComboOption<WaveformScale>* wfs = new ComboOption<WaveformScale> (
"waveform-scale",
_("Waveform scale"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_waveform_scale),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_waveform_scale)
);
wfs->add (Linear, _("linear"));
wfs->add (Logarithmic, _("logarithmic"));
add_option (_("Editor"), wfs);
ComboOption<WaveformShape>* wfsh = new ComboOption<WaveformShape> (
"waveform-shape",
_("Waveform shape"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_waveform_shape),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_waveform_shape)
);
wfsh->add (Traditional, _("traditional"));
wfsh->add (Rectified, _("rectified"));
add_option (_("Editor"), wfsh);
add_option (_("Editor"),
new BoolOption (
"show-waveforms-while-recording",
_("Show waveforms for audio while it is being recorded"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_show_waveforms_while_recording),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_show_waveforms_while_recording)
));
add_option (_("Editor"),
new BoolOption (
"show-zoom-tools",
_("Show zoom toolbar"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_show_zoom_tools),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_show_zoom_tools)
));
add_option (_("Editor"),
new BoolOption (
"color-regions-using-track-color",
_("Color regions using their track's color"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_color_regions_using_track_color),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_color_regions_using_track_color)
));
add_option (_("Editor"),
new BoolOption (
"update-editor-during-summary-drag",
_("Update editor window during drags of the summary"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_update_editor_during_summary_drag),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_update_editor_during_summary_drag)
));
add_option (_("Editor"),
new BoolOption (
"sync-all-route-ordering",
_("Synchronise editor and mixer track order"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_sync_all_route_ordering),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_sync_all_route_ordering)
));
add_option (_("Editor"),
new BoolOption (
"link-editor-and-mixer-selection",
_("Synchronise editor and mixer selection"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_link_editor_and_mixer_selection),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_link_editor_and_mixer_selection)
));
add_option (_("Editor"),
new BoolOption (
"name-new-markers",
_("Name new markers"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_name_new_markers),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_name_new_markers)
));
add_option (_("Editor"),
new BoolOption (
"autoscroll-editor",
_("Auto-scroll editor window when dragging near its edges"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_autoscroll_editor),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_autoscroll_editor)
));
/* AUDIO */
add_option (_("Audio"), new OptionEditorHeading (_("Buffering")));
add_option (_("Audio"), new BufferingOptions (_rc_config));
add_option (_("Audio"), new OptionEditorHeading (_("Monitoring")));
add_option (_("Audio"),
new BoolOption (
"use-monitor-bus",
_("Use a monitor bus (allows AFL/PFL and more control)"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_use_monitor_bus),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_use_monitor_bus)
));
ComboOption<MonitorModel>* mm = new ComboOption<MonitorModel> (
"monitoring-model",
_("Record monitoring handled by"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_monitoring_model),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_monitoring_model)
);
#ifndef __APPLE__
/* no JACK monitoring on CoreAudio */
if (AudioEngine::instance()->can_request_hardware_monitoring()) {
mm->add (HardwareMonitoring, _("JACK"));
}
#endif
mm->add (SoftwareMonitoring, _("ardour"));
mm->add (ExternalMonitoring, _("audio hardware"));
add_option (_("Audio"), mm);
add_option (_("Audio"),
new BoolOption (
"tape-machine-mode",
_("Tape machine mode"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_tape_machine_mode),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_tape_machine_mode)
));
add_option (_("Audio"), new OptionEditorHeading (_("Connection of tracks and busses")));
add_option (_("Audio"),
new BoolOption (
"auto-connect-standard-busses",
_("Auto-connect master/monitor busses"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_auto_connect_standard_busses),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_auto_connect_standard_busses)
));
ComboOption<AutoConnectOption>* iac = new ComboOption<AutoConnectOption> (
"input-auto-connect",
_("Connect track inputs"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_input_auto_connect),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_input_auto_connect)
);
iac->add (AutoConnectPhysical, _("automatically to physical inputs"));
iac->add (ManualConnect, _("manually"));
add_option (_("Audio"), iac);
ComboOption<AutoConnectOption>* oac = new ComboOption<AutoConnectOption> (
"output-auto-connect",
_("Connect track and bus outputs"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_output_auto_connect),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_output_auto_connect)
);
oac->add (AutoConnectPhysical, _("automatically to physical outputs"));
oac->add (AutoConnectMaster, _("automatically to master bus"));
oac->add (ManualConnect, _("manually"));
add_option (_("Audio"), oac);
add_option (_("Audio"), new OptionEditorHeading (_("Denormals")));
add_option (_("Audio"),
new BoolOption (
"denormal-protection",
_("Use DC bias to protect against denormals"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_denormal_protection),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_denormal_protection)
));
ComboOption<DenormalModel>* dm = new ComboOption<DenormalModel> (
"denormal-model",
_("Processor handling"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_denormal_model),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_denormal_model)
);
dm->add (DenormalNone, _("no processor handling"));
FPU fpu;
if (fpu.has_flush_to_zero()) {
dm->add (DenormalFTZ, _("use FlushToZero"));
}
if (fpu.has_denormals_are_zero()) {
dm->add (DenormalDAZ, _("use DenormalsAreZero"));
}
if (fpu.has_flush_to_zero() && fpu.has_denormals_are_zero()) {
dm->add (DenormalFTZDAZ, _("use FlushToZero and DenormalsAreZero"));
}
add_option (_("Audio"), dm);
add_option (_("Audio"), new OptionEditorHeading (_("Plugins")));
add_option (_("Audio"),
new BoolOption (
"plugins-stop-with-transport",
_("Silence plugins when the transport is stopped"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_plugins_stop_with_transport),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_plugins_stop_with_transport)
));
add_option (_("Audio"),
new BoolOption (
"do-not-record-plugins",
_("Disable plugins during recording"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_do_not_record_plugins),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_do_not_record_plugins)
));
add_option (_("Audio"),
new BoolOption (
"new-plugins-active",
_("Make new plugins active"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_new_plugins_active),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_new_plugins_active)
));
add_option (_("Audio"),
new BoolOption (
"auto-analyse-audio",
_("Enable automatic analysis of audio"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_auto_analyse_audio),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_auto_analyse_audio)
));
add_option (_("Audio"),
new BoolOption (
"replicate-missing-region-channels",
_("Replicate missing region channels"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_replicate_missing_region_channels),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_replicate_missing_region_channels)
));
/* SOLO AND MUTE */
add_option (_("Solo / mute"),
new FaderOption (
"solo-mute-gain",
_("Solo-in-place mute cut (dB)"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_solo_mute_gain),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_solo_mute_gain)
));
_solo_control_is_listen_control = new BoolOption (
"solo-control-is-listen-control",
_("Solo controls are Listen controls"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_solo_control_is_listen_control),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_solo_control_is_listen_control)
);
add_option (_("Solo / mute"), _solo_control_is_listen_control);
_listen_position = new ComboOption<ListenPosition> (
"listen-position",
_("Listen Position"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_listen_position),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_listen_position)
);
_listen_position->add (AfterFaderListen, _("after-fader (AFL)"));
_listen_position->add (PreFaderListen, _("pre-fader (PFL)"));
add_option (_("Solo / mute"), _listen_position);
ComboOption<PFLPosition>* pp = new ComboOption<PFLPosition> (
"pfl-position",
_("PFL signals come from"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_pfl_position),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_pfl_position)
);
pp->add (PFLFromBeforeProcessors, _("before pre-fader processors"));
pp->add (PFLFromAfterProcessors, _("pre-fader but after pre-fader processors"));
add_option (_("Solo / mute"), pp);
ComboOption<AFLPosition>* pa = new ComboOption<AFLPosition> (
"afl-position",
_("AFL signals come from"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_afl_position),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_afl_position)
);
pa->add (AFLFromBeforeProcessors, _("immediately post-fader"));
pa->add (AFLFromAfterProcessors, _("after post-fader processors (before pan)"));
add_option (_("Solo / mute"), pa);
parameter_changed ("use-monitor-bus");
add_option (_("Solo / mute"),
new BoolOption (
"exclusive-solo",
_("Exclusive solo"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_exclusive_solo),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_exclusive_solo)
));
add_option (_("Solo / mute"),
new BoolOption (
"show-solo-mutes",
_("Show solo muting"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_show_solo_mutes),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_show_solo_mutes)
));
add_option (_("Solo / mute"),
new BoolOption (
"solo-mute-override",
_("Soloing overrides muting"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_solo_mute_override),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_solo_mute_override)
));
add_option (_("Solo / mute"), new OptionEditorHeading (_("Default track / bus muting options")));
add_option (_("Solo / mute"),
new BoolOption (
"mute-affects-pre-fader",
_("Mute affects pre-fader sends"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mute_affects_pre_fader),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mute_affects_pre_fader)
));
add_option (_("Solo / mute"),
new BoolOption (
"mute-affects-post-fader",
_("Mute affects post-fader sends"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mute_affects_post_fader),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mute_affects_post_fader)
));
add_option (_("Solo / mute"),
new BoolOption (
"mute-affects-control-outs",
_("Mute affects control outputs"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mute_affects_control_outs),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mute_affects_control_outs)
));
add_option (_("Solo / mute"),
new BoolOption (
"mute-affects-main-outs",
_("Mute affects main outputs"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mute_affects_main_outs),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mute_affects_main_outs)
));
add_option (_("MIDI"),
new BoolOption (
"send-midi-clock",
_("Send MIDI Clock"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_send_midi_clock),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_send_midi_clock)
));
add_option (_("MIDI"),
new BoolOption (
"send-mtc",
_("Send MIDI Time Code"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_send_mtc),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_send_mtc)
));
add_option (_("MIDI"),
new SpinOption<int> (
"mtc-qf-speed-tolerance",
_("Percentage either side of normal transport speed to transmit MTC"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mtc_qf_speed_tolerance),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mtc_qf_speed_tolerance),
0, 20, 1, 5
));
add_option (_("MIDI"),
new BoolOption (
"mmc-control",
_("Obey MIDI Machine Control commands"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mmc_control),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mmc_control)
));
add_option (_("MIDI"),
new BoolOption (
"send-mmc",
_("Send MIDI Machine Control commands"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_send_mmc),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_send_mmc)
));
add_option (_("MIDI"),
new BoolOption (
"midi-feedback",
_("Send MIDI control feedback"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_midi_feedback),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_midi_feedback)
));
add_option (_("MIDI"),
new SpinOption<uint8_t> (
"mmc-receive-device-id",
_("Inbound MMC device ID"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mmc_receive_device_id),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mmc_receive_device_id),
0, 128, 1, 10
));
add_option (_("MIDI"),
new SpinOption<uint8_t> (
"mmc-send-device-id",
_("Outbound MMC device ID"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mmc_send_device_id),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mmc_send_device_id),
0, 128, 1, 10
));
add_option (_("MIDI"),
new SpinOption<int32_t> (
"initial-program-change",
_("Initial program change"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_initial_program_change),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_initial_program_change),
-1, 65536, 1, 10
));
add_option (_("MIDI"),
new BoolOption (
"diplay-first-midi-bank-as-zero",
_("Display first MIDI bank/program as 0"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_first_midi_bank_is_zero),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_first_midi_bank_is_zero)
));
add_option (_("MIDI"),
new BoolOption (
"never-display-periodic-midi",
_("Never display periodic MIDI messages (MTC, MIDI Clock)"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_never_display_periodic_midi),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_never_display_periodic_midi)
));
add_option (_("MIDI"),
new BoolOption (
"sound-midi-notes",
_("Sound MIDI notes as they are selected"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_sound_midi_notes),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_sound_midi_notes)
));
/* USER INTERACTION */
add_option (_("User interaction"), new OptionEditorHeading (_("Keyboard")));
add_option (_("User interaction"), new KeyboardOptions);
add_option (_("User interaction"), new OptionEditorHeading (_("Control surfaces")));
add_option (_("User interaction"), new ControlSurfacesOptions (*this));
ComboOption<RemoteModel>* rm = new ComboOption<RemoteModel> (
"remote-model",
_("Control surface remote ID"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_remote_model),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_remote_model)
);
rm->add (UserOrdered, _("assigned by user"));
rm->add (MixerOrdered, _("follows order of mixer"));
rm->add (EditorOrdered, _("follows order of editor"));
add_option (_("User interaction"), rm);
/* INTERFACE */
add_option (S_("GUI"),
new BoolOption (
"widget-prelight",
_("Graphically indicate mouse pointer hovering over various widgets"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_widget_prelight),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_widget_prelight)
));
#ifndef GTKOSX
/* font scaling does nothing with GDK/Quartz */
add_option (S_("GUI"), new FontScalingOptions (_rc_config));
#endif
add_option (S_("GUI"),
new BoolOption (
"use-own-plugin-gui",
_("Use plugins' own interfaces instead of Ardour's"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_use_plugin_own_gui),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_use_plugin_own_gui)
));
/* The names of these controls must be the same as those given in MixerStrip
for the actual widgets being controlled.
*/
_mixer_strip_visibility.add (0, X_("PhaseInvert"), _("Phase Invert"));
_mixer_strip_visibility.add (0, X_("SoloSafe"), _("Solo Safe"));
_mixer_strip_visibility.add (0, X_("SoloIsolated"), _("Solo Isolated"));
_mixer_strip_visibility.add (0, X_("Comments"), _("Comments"));
_mixer_strip_visibility.add (0, X_("Group"), _("Group"));
_mixer_strip_visibility.add (0, X_("MeterPoint"), _("Meter Point"));
add_option (
S_("GUI"),
new VisibilityOption (
_("Mixer Strip"),
&_mixer_strip_visibility,
sigc::mem_fun (*_rc_config, &RCConfiguration::get_mixer_strip_visibility),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_mixer_strip_visibility)
)
);
add_option (S_("GUI"),
new BoolOption (
"default-narrow_ms",
_("Use narrow strips in the mixer by default"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_default_narrow_ms),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_default_narrow_ms)
));
add_option (S_("GUI"), new OptionEditorHeading (_("Metering")));
ComboOption<float>* mht = new ComboOption<float> (
"meter-hold",
_("Meter hold time"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_meter_hold),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_meter_hold)
);
mht->add (MeterHoldOff, _("off"));
mht->add (MeterHoldShort, _("short"));
mht->add (MeterHoldMedium, _("medium"));
mht->add (MeterHoldLong, _("long"));
add_option (S_("GUI"), mht);
ComboOption<float>* mfo = new ComboOption<float> (
"meter-falloff",
_("Meter fall-off"),
sigc::mem_fun (*_rc_config, &RCConfiguration::get_meter_falloff),
sigc::mem_fun (*_rc_config, &RCConfiguration::set_meter_falloff)
);
mfo->add (METER_FALLOFF_OFF, _("off"));
mfo->add (METER_FALLOFF_SLOWEST, _("slowest"));
mfo->add (METER_FALLOFF_SLOW, _("slow"));
mfo->add (METER_FALLOFF_MEDIUM, _("medium"));
mfo->add (METER_FALLOFF_FAST, _("fast"));
mfo->add (METER_FALLOFF_FASTER, _("faster"));
mfo->add (METER_FALLOFF_FASTEST, _("fastest"));
add_option (S_("GUI"), mfo);
}
void
RCOptionEditor::parameter_changed (string const & p)
{
OptionEditor::parameter_changed (p);
if (p == "use-monitor-bus") {
bool const s = Config->get_use_monitor_bus ();
if (!s) {
/* we can't use this if we don't have a monitor bus */
Config->set_solo_control_is_listen_control (false);
}
_solo_control_is_listen_control->set_sensitive (s);
_listen_position->set_sensitive (s);
} else if (p == "sync-source") {
switch(Config->get_sync_source()) {
case ARDOUR::MTC:
case ARDOUR::LTC:
_sync_genlock->set_sensitive (true);
_sync_framerate->set_sensitive (true);
_sync_source_2997->set_sensitive (true);
break;
default:
_sync_genlock->set_sensitive (false);
_sync_framerate->set_sensitive (false);
_sync_source_2997->set_sensitive (false);
break;
}
#ifdef HAVE_LTC
} else if (p == "send-ltc") {
bool const s = Config->get_send_ltc ();
_ltc_send_continuously->set_sensitive (s);
_ltc_volume_slider->set_sensitive (s);
#endif /*HAVE_LTC*/
}
}
void RCOptionEditor::ltc_generator_volume_changed () {
_rc_config->set_ltc_output_volume (pow(10, _ltc_volume_adjustment->get_value() / 20));
}
void
RCOptionEditor::populate_sync_options ()
{
vector<SyncSource> sync_opts = ARDOUR::get_available_sync_options ();
_sync_source->clear ();
for (vector<SyncSource>::iterator i = sync_opts.begin(); i != sync_opts.end(); ++i) {
_sync_source->add (*i, sync_source_to_string (*i));
}
}