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livetrax/gtk2_ardour/port_matrix.cc

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/*
Copyright (C) 2002-2007 Paul Davis
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#include <gtkmm/label.h>
#include <gtkmm/enums.h>
#include <gtkmm/image.h>
#include <gtkmm/stock.h>
#include <gtkmm/messagedialog.h>
#include <gtkmm/menu.h>
#include <gtkmm/menu_elems.h>
#include <gtkmm/menuitem.h>
#include <gtkmm/menushell.h>
#include <glibmm/objectbase.h>
#include <gtkmm2ext/doi.h>
#include <ardour/port_insert.h>
#include "ardour/session.h"
#include "ardour/io.h"
#include "ardour/audioengine.h"
#include "ardour/track.h"
#include "ardour/audio_track.h"
#include "ardour/midi_track.h"
#include "ardour/data_type.h"
#include "io_selector.h"
#include "keyboard.h"
#include "utils.h"
#include "gui_thread.h"
#include "i18n.h"
using namespace Gtk;
/** Add a port to a group.
* @param p Port name, with or without prefix.
*/
void
PortGroup::add (std::string const & p)
{
if (prefix.empty() == false && p.substr (0, prefix.length()) == prefix) {
ports.push_back (p.substr (prefix.length()));
} else {
ports.push_back (p);
}
}
/** PortGroupUI constructor.
* @param m PortMatrix to work for.
* @Param g PortGroup to represent.
*/
PortGroupUI::PortGroupUI (PortMatrix& m, PortGroup& g)
: _port_matrix (m)
, _port_group (g)
, _ignore_check_button_toggle (false)
, _visibility_checkbutton (g.name)
{
int const ports = _port_group.ports.size();
int const rows = _port_matrix.n_rows ();
if (rows == 0 || ports == 0) {
return;
}
/* Sort out the table and the checkbuttons inside it */
_table.resize (rows, ports);
_port_checkbuttons.resize (rows);
for (int i = 0; i < rows; ++i) {
_port_checkbuttons[i].resize (ports);
}
for (int i = 0; i < rows; ++i) {
for (uint32_t j = 0; j < _port_group.ports.size(); ++j) {
CheckButton* b = new CheckButton;
b->signal_toggled().connect (
sigc::bind (sigc::mem_fun (*this, &PortGroupUI::port_checkbutton_toggled), b, i, j));
b->signal_button_release_event().connect (
sigc::bind (sigc::mem_fun (*this, &PortGroupUI::port_checkbutton_release), b, i, j), false);
_port_checkbuttons[i][j] = b;
cerr << this << " bind to " << &_port_checkbuttons << " via " << b
<< endl;
_table.attach (*b, j, j + 1, i, i + 1);
}
}
_table_box.add (_table);
_ignore_check_button_toggle = true;
/* Set the state of the check boxes according to current connections */
for (int i = 0; i < rows; ++i) {
for (uint32_t j = 0; j < _port_group.ports.size(); ++j) {
std::string const t = _port_group.prefix + _port_group.ports[j];
bool const s = _port_matrix.get_state (i, t);
_port_checkbuttons[i][j]->set_active (s);
if (s) {
_port_group.visible = true;
}
}
}
_ignore_check_button_toggle = false;
_visibility_checkbutton.signal_toggled().connect (sigc::mem_fun (*this, &PortGroupUI::visibility_checkbutton_toggled));
}
/** The visibility of a PortGroupUI has been toggled */
void
PortGroupUI::visibility_checkbutton_toggled ()
{
_port_group.visible = _visibility_checkbutton.get_active ();
}
/** @return Width and height of a single checkbutton in a port group table */
std::pair<int, int>
PortGroupUI::unit_size () const
{
if (_port_checkbuttons.empty() || _port_checkbuttons[0].empty())
{
return std::pair<int, int> (0, 0);
}
int r = 0;
/* We can't ask for row spacing unless there >1 rows, otherwise we get a warning */
if (_table.property_n_rows() > 1) {
r = _table.get_row_spacing (0);
}
return std::make_pair (
_port_checkbuttons[0][0]->get_width() + _table.get_col_spacing (0),
_port_checkbuttons[0][0]->get_height() + r
);
}
/** @return Table widget containing the port checkbuttons */
Widget&
PortGroupUI::get_table ()
{
return _table_box;
}
/** @return Checkbutton used to toggle visibility */
Widget&
PortGroupUI::get_visibility_checkbutton ()
{
return _visibility_checkbutton;
}
/** Handle a toggle of a port check button */
void
PortGroupUI::port_checkbutton_toggled (CheckButton* b, int r, int c)
{
if (_ignore_check_button_toggle == false) {
_port_matrix.set_state (r, _port_group.prefix + _port_group.ports[c], b->get_active(), 0);
}
}
bool
PortGroupUI::port_checkbutton_release (GdkEventButton* ev, CheckButton* b, int r, int c)
{
cerr << this << " RELEASE on " << b << " state = " << ev->state << endl;
if (ev->state == 0) {
/* let usual toggle handler take care of it */
return false;
}
/* The fun starts here
*/
const size_t ports = _port_group.ports.size();
const size_t rows = _port_matrix.n_rows ();
if (rows == 0 || ports == 0) {
return true;
}
/* For each port in the group, change the state of
the connection for the corresponding "connector" port.
*/
for (size_t j = c; j < ports; ++j) {
/* we've got a port to connect, now lets find the thing to
connect it too ... (search "down" the rows)
*/
cerr << "we're going to connect port " << j << " of " << ports << endl;
for (size_t i = r; i < rows; ++i) {
cerr << this << " going to connect to row " << i << " of " << rows << endl;
cerr << "access [" << i << "][" << j << "]\n";
cerr << " @ " << &_port_checkbuttons << endl;
_port_checkbuttons[i][j]->set_active (!_port_checkbuttons[i][j]->get_active());
/* next time, get at least as far as this port before looking
for more.
*/
r = i + 1;
/* changed connection state, stop looking for more */
break;
}
}
return true;
}
/** Set up visibility of the port group according to PortGroup::visible */
void
PortGroupUI::setup_visibility ()
{
if (!_port_group.ports.empty() && _port_group.visible) {
_table_box.show ();
} else {
_table_box.hide ();
}
if (_visibility_checkbutton.get_active () != _port_group.visible) {
_visibility_checkbutton.set_active (_port_group.visible);
}
}
RotatedLabelSet::RotatedLabelSet (PortGroupList& g)
: Glib::ObjectBase ("RotatedLabelSet"), Widget (), _port_group_list (g), _base_width (128)
{
set_flags (NO_WINDOW);
if (getenv ("AD_ANGLE") != 0) {
set_angle (atoi (getenv ("AD_ANGLE")));
} else {
set_angle (45);
}
}
RotatedLabelSet::~RotatedLabelSet ()
{
}
/** Set the angle that the labels are drawn at.
* @param degrees New angle in degrees.
*/
void
RotatedLabelSet::set_angle (int degrees)
{
_angle_degrees = degrees;
_angle_radians = M_PI * _angle_degrees / 180;
queue_resize ();
}
void
RotatedLabelSet::on_size_request (Requisition* requisition)
{
*requisition = Requisition ();
if (_pango_layout == 0) {
return;
}
/* Our height is the highest label */
requisition->height = 0;
for (PortGroupList::const_iterator i = _port_group_list.begin(); i != _port_group_list.end(); ++i) {
for (std::vector<std::string>::const_iterator j = (*i)->ports.begin(); j != (*i)->ports.end(); ++j) {
std::pair<int, int> const d = setup_layout (*j);
if (d.second > requisition->height) {
requisition->height = d.second;
}
}
}
/* And our width is the base plus the width of the last label */
requisition->width = _base_width;
int const n = _port_group_list.n_visible_ports ();
if (n > 0) {
std::pair<int, int> const d = setup_layout (_port_group_list.get_port_by_index (n - 1, false));
requisition->width += d.first;
}
cerr << "Labels will be " << requisition->width << " x " << requisition->height << endl;
}
void
RotatedLabelSet::on_size_allocate (Allocation& allocation)
{
set_allocation (allocation);
if (_gdk_window) {
_gdk_window->move_resize (allocation.get_x(), allocation.get_y(), allocation.get_width(), allocation.get_height());
}
}
void
RotatedLabelSet::on_realize ()
{
Widget::on_realize ();
Glib::RefPtr<Style> style = get_style ();
if (!_gdk_window) {
GdkWindowAttr attributes;
memset (&attributes, 0, sizeof (attributes));
Allocation allocation = get_allocation ();
attributes.x = allocation.get_x ();
attributes.y = allocation.get_y ();
attributes.width = allocation.get_width ();
attributes.height = allocation.get_height ();
attributes.event_mask = get_events () | Gdk::EXPOSURE_MASK;
attributes.window_type = GDK_WINDOW_CHILD;
attributes.wclass = GDK_INPUT_OUTPUT;
_gdk_window = Gdk::Window::create (get_window (), &attributes, GDK_WA_X | GDK_WA_Y);
unset_flags (NO_WINDOW);
set_window (_gdk_window);
_bg_colour = style->get_bg (STATE_NORMAL );
modify_bg (STATE_NORMAL, _bg_colour);
_fg_colour = style->get_fg (STATE_NORMAL);
_gdk_window->set_user_data (gobj ());
/* Set up Pango stuff */
_pango_context = create_pango_context ();
Pango::Matrix matrix = PANGO_MATRIX_INIT;
pango_matrix_rotate (&matrix, _angle_degrees);
_pango_context->set_matrix (matrix);
_pango_layout = Pango::Layout::create (_pango_context);
_gc = Gdk::GC::create (get_window ());
}
}
void
RotatedLabelSet::on_unrealize()
{
_gdk_window.clear ();
Widget::on_unrealize ();
}
/** Set up our Pango layout to plot a given string, and compute its dimensions once
* it has been rotated.
* @param s String to use.
* @return width and height of the rotated string, in pixels.
*/
std::pair<int, int>
RotatedLabelSet::setup_layout (std::string const & s)
{
_pango_layout->set_text (s);
/* Here's the unrotated size */
int w;
int h;
_pango_layout->get_pixel_size (w, h);
/* Rotate the width and height as appropriate. I thought Pango might be able
to do this for us, but I can't find out how...
*/
std::pair<int, int> d;
// cerr << "\"" << s << "\" was " << w << " x " << h << endl;
d.first = int (fabs (w * cos (_angle_radians) + h * sin (_angle_radians)));
d.second = int (fabs (w * sin (_angle_radians) + h * cos (_angle_radians)));
// cerr << "\trotated by " << _angle_degrees << " = " << d.first << " x " << d.second << endl;
return d;
}
bool
RotatedLabelSet::on_expose_event (GdkEventExpose* event)
{
if (!_gdk_window) {
return true;
}
int const height = get_allocation().get_height ();
double const spacing = double (_base_width) / _port_group_list.n_visible_ports();
/* Plot all the visible labels; really we should clip for efficiency */
int n = 0;
for (PortGroupList::const_iterator i = _port_group_list.begin(); i != _port_group_list.end(); ++i) {
if ((*i)->visible) {
for (uint32_t j = 0; j < (*i)->ports.size(); ++j) {
std::pair<int, int> const d = setup_layout ((*i)->ports[j]);
int x, y;
if (getenv ("AD_X_SHIFT") != 0) {
x = atoi (getenv ("AD_X_SHIFT"));
} else {
x = 0;
}
if (getenv ("AD_Y_SHIFT") != 0) {
y = atoi (getenv ("AD_Y_SHIFT"));
} else {
y = 0;
}
get_window()->draw_layout (_gc, int ((n + 0.25) * spacing) + x, height - d.second + y, _pango_layout, _fg_colour, _bg_colour);
++n;
}
}
}
return true;
}
/** Set the `base width'. This is the width of the base of the label set, ie:
*
* L L L L
* E E E E
* B B B B
* A A A A
* L L L L
* <--w-->
*/
void
RotatedLabelSet::set_base_width (int w)
{
_base_width = w;
queue_resize ();
}
PortMatrix::PortMatrix (ARDOUR::Session& session, ARDOUR::DataType type, bool offer_inputs, PortGroupList::Mask mask)
: _offer_inputs (offer_inputs), _port_group_list (session, type, offer_inputs, mask), _type (type),
_column_labels (_port_group_list)
{
_row_labels_vbox = 0;
_side_vbox_pad = 0;
_visibility_checkbutton_box.pack_start (*(manage (new Label (_("Connections displayed: ")))), false, false, 10);
pack_start (_visibility_checkbutton_box, false, false);
_scrolled_window.set_policy (POLICY_ALWAYS, POLICY_AUTOMATIC);
_scrolled_window.set_shadow_type (SHADOW_NONE);
VBox* b = manage (new VBox);
if (offer_inputs) {
b->pack_start (_port_group_hbox, false, false);
b->pack_start (_column_labels, false, false);
} else {
b->pack_start (_column_labels, false, false);
b->pack_start (_port_group_hbox, false, false);
}
Alignment* a;
if (offer_inputs) {
a = manage (new Alignment (1, 0, 0, 0));
} else {
a = manage (new Alignment (0, 1, 0, 0));
}
a->add (*b);
_scrolled_window.add (*a);
if (offer_inputs) {
_overall_hbox.pack_start (_side_vbox, false, false, 6);
_overall_hbox.pack_start (_scrolled_window, true, true);
} else {
_overall_hbox.pack_start (_scrolled_window, true, true, 6);
_overall_hbox.pack_start (_side_vbox, false, false);
}
pack_start (_overall_hbox);
_port_group_hbox.signal_size_allocate().connect (sigc::hide (sigc::mem_fun (*this, &IOSelector::setup_dimensions)));
}
PortMatrix::~PortMatrix ()
{
clear ();
}
/** Clear out the things that change when the number of source or destination ports changes */
void
PortMatrix::clear ()
{
for (std::vector<EventBox*>::iterator j = _row_labels.begin(); j != _row_labels.end(); ++j) {
delete *j;
}
_row_labels.clear ();
if (_row_labels_vbox) {
_side_vbox.remove (*_row_labels_vbox);
delete _row_labels_vbox;
_row_labels_vbox = 0;
}
/* remove lurking, invisible label and padding */
_side_vbox.children().clear ();
if (_side_vbox_pad) {
delete _side_vbox_pad;
_side_vbox_pad = 0;
}
for (std::vector<PortGroupUI*>::iterator i = _port_group_ui.begin(); i != _port_group_ui.end(); ++i) {
_port_group_hbox.remove ((*i)->get_table());
_visibility_checkbutton_box.remove ((*i)->get_visibility_checkbutton());
delete *i;
}
_port_group_ui.clear ();
}
/** Set up dimensions of some of our widgets which depend on other dimensions
* within the dialogue.
*/
void
PortMatrix::setup_dimensions ()
{
/* Get some dimensions from various places */
int const scrollbar_height = _scrolled_window.get_hscrollbar()->get_height();
std::pair<int, int> unit_size (0, 0);
int port_group_tables_height = 0;
for (std::vector<PortGroupUI*>::iterator i = _port_group_ui.begin(); i != _port_group_ui.end(); ++i) {
std::pair<int, int> const u = (*i)->unit_size ();
unit_size.first = std::max (unit_size.first, u.first);
unit_size.second = std::max (unit_size.second, u.second);
port_group_tables_height = std::max (
port_group_tables_height, (*i)->get_table().get_height()
);
}
/* Column labels */
_column_labels.set_base_width (_port_group_list.n_visible_ports () * unit_size.first);
/* Scrolled window */
/* XXX: really shouldn't set a minimum horizontal size here, but if we don't
the window starts up very small.
The constant value in the set_size_request() computation will control
how big the scrolled window will be if we fill the port matrix will a gajillion
ports.
*/
_scrolled_window.set_size_request (
std::min (_column_labels.get_width(), 400),
_column_labels.get_height() + port_group_tables_height + scrollbar_height + 16
);
/* Row labels */
for (std::vector<EventBox*>::iterator j = _row_labels.begin(); j != _row_labels.end(); ++j) {
(*j)->get_child()->set_size_request (-1, unit_size.second);
}
if (_side_vbox_pad) {
if (_offer_inputs) {
_side_vbox_pad->set_size_request (-1, unit_size.second / 4);
} else {
_side_vbox_pad->set_size_request (-1, scrollbar_height + unit_size.second / 4);
}
}
}
/** Set up the dialogue */
void
PortMatrix::setup ()
{
clear ();
int const rows = n_rows ();
/* Row labels */
_row_labels_vbox = new VBox;
int const run_rows = std::max (1, rows);
for (int j = 0; j < run_rows; ++j) {
/* embolden the port/channel name */
string s = "<b>";
s += row_name (j);
s += "</b>";
Label* label = manage (new Label (s));
EventBox* b = manage (new EventBox);
label->set_use_markup (true);
b->set_events (Gdk::BUTTON_PRESS_MASK);
b->signal_button_press_event().connect (sigc::bind (sigc::mem_fun (*this, &IOSelector::row_label_button_pressed), j));
b->add (*label);
_row_labels.push_back (b);
_row_labels_vbox->pack_start (*b, false, false);
}
_side_vbox_pad = new Label (""); /* unmanaged, explicitly deleted */
if (_offer_inputs) {
_side_vbox.pack_start (*_side_vbox_pad, false, false);
_side_vbox.pack_start (*_row_labels_vbox, false, false);
_side_vbox.pack_start (*manage (new Label ("")));
} else {
_side_vbox.pack_start (*manage (new Label ("")));
_side_vbox.pack_start (*_row_labels_vbox, false, false);
_side_vbox.pack_start (*_side_vbox_pad, false, false);
}
/* Checkbutton tables and visibility checkbuttons */
for (PortGroupList::iterator i = _port_group_list.begin(); i != _port_group_list.end(); ++i) {
PortGroupUI* t = new PortGroupUI (*this, **i);
_port_group_ui.push_back (t);
_port_group_hbox.pack_start (t->get_table(), false, false);
_visibility_checkbutton_box.pack_start (t->get_visibility_checkbutton(), false, false);
CheckButton* chk = dynamic_cast<CheckButton*>(&t->get_visibility_checkbutton());
if (chk) {
chk->signal_toggled().connect (sigc::mem_fun (*this, &PortMatrix::reset_visibility));
}
}
show_all ();
reset_visibility ();
}
void
PortMatrix::reset_visibility ()
{
/* now adjust visibility and coloring */
bool even = true;
Gdk::Color odd_bg (color_from_style ("OddPortGroups", STATE_NORMAL, "fg"));
Gdk::Color even_bg (color_from_style ("EvenPortGroups", STATE_NORMAL, "fg"));
for (std::vector<PortGroupUI*>::iterator i = _port_group_ui.begin(); i != _port_group_ui.end(); ++i) {
(*i)->setup_visibility ();
if ((*i)->port_group().visible) {
if (even) {
(*i)->get_table().modify_bg (STATE_NORMAL, even_bg);
} else {
(*i)->get_table().modify_bg (STATE_NORMAL, odd_bg);
}
even = !even;
}
}
}
void
PortMatrix::redisplay ()
{
_port_group_list.refresh ();
setup ();
}
/** Handle a button press on a row label */
bool
PortMatrix::row_label_button_pressed (GdkEventButton* e, int r)
{
if (e->type != GDK_BUTTON_PRESS || e->button != 3) {
return false;
}
Menu* menu = manage (new Menu);
Menu_Helpers::MenuList& items = menu->items ();
menu->set_name ("ArdourContextMenu");
bool const can_add = maximum_rows () > n_rows ();
bool const can_remove = minimum_rows () < n_rows ();
std::string const name = row_name (r);
items.push_back (
Menu_Helpers::MenuElem (string_compose(_("Add %1"), row_descriptor()), sigc::mem_fun (*this, &PortMatrix::add_row))
);
items.back().set_sensitive (can_add);
items.push_back (
Menu_Helpers::MenuElem (string_compose(_("Remove %1 \"%2\""), row_descriptor(), name), sigc::bind (sigc::mem_fun (*this, &PortMatrix::remove_row), r))
);
items.back().set_sensitive (can_remove);
menu->popup (e->button, e->time);
return true;
}
void
PortMatrix::set_type (ARDOUR::DataType t)
{
_type = t;
_port_group_list.set_type (t);
redisplay ();
}
void
PortMatrix::set_offer_inputs (bool i)
{
_offer_inputs = i;
_port_group_list.set_offer_inputs (i);
redisplay ();
}
/** PortGroupList constructor.
* @param session Session to get ports from.
* @param type Type of ports to offer (audio or MIDI)
* @param offer_inputs true to offer output ports, otherwise false.
* @param mask Mask of groups to make visible by default.
*/
PortGroupList::PortGroupList (ARDOUR::Session & session, ARDOUR::DataType type, bool offer_inputs, Mask mask)
: _session (session), _type (type), _offer_inputs (offer_inputs),
buss (_("Bus"), "ardour:", mask & BUSS),
track (_("Track"), "ardour:", mask & TRACK),
system (_("System"), "system:", mask & SYSTEM),
other (_("Other"), "", mask & OTHER)
{
refresh ();
}
void
PortGroupList::refresh ()
{
clear ();
buss.ports.clear ();
track.ports.clear ();
system.ports.clear ();
other.ports.clear ();
/* Find the ports provided by ardour; we can't derive their type just from their
names, so we'll have to be more devious.
*/
boost::shared_ptr<ARDOUR::Session::RouteList> routes = _session.get_routes ();
for (ARDOUR::Session::RouteList::const_iterator i = routes->begin(); i != routes->end(); ++i) {
PortGroup* g = 0;
if (_type == ARDOUR::DataType::AUDIO) {
if (boost::dynamic_pointer_cast<ARDOUR::AudioTrack> (*i)) {
g = &track;
} else if (!boost::dynamic_pointer_cast<ARDOUR::MidiTrack>(*i)) {
g = &buss;
}
} else if (_type == ARDOUR::DataType::MIDI) {
if (boost::dynamic_pointer_cast<ARDOUR::MidiTrack> (*i)) {
g = &track;
}
/* No MIDI busses yet */
}
if (g) {
ARDOUR::PortSet const & p = _offer_inputs ? ((*i)->inputs()) : ((*i)->outputs());
for (uint32_t j = 0; j < p.num_ports(); ++j) {
g->add (p.port(j)->name ());
}
std::sort (g->ports.begin(), g->ports.end());
}
}
/* XXX: inserts, sends, plugin inserts? */
/* Now we need to find the non-ardour ports; we do this by first
finding all the ports that we can connect to.
*/
const char **ports = _session.engine().get_ports ("", _type.to_jack_type(), _offer_inputs ?
JackPortIsInput : JackPortIsOutput);
if (ports) {
int n = 0;
string client_matching_string;
client_matching_string = _session.engine().client_name();
client_matching_string += ':';
while (ports[n]) {
std::string const p = ports[n];
if (p.substr(0, strlen ("system:")) == "system:") {
/* system: prefix */
system.add (p);
} else {
if (p.substr(0, client_matching_string.length()) != client_matching_string) {
/* other (non-ardour) prefix */
other.add (p);
}
}
++n;
}
free (ports);
}
push_back (&system);
push_back (&buss);
push_back (&track);
push_back (&other);
}
int
PortGroupList::n_visible_ports () const
{
int n = 0;
for (const_iterator i = begin(); i != end(); ++i) {
if ((*i)->visible) {
n += (*i)->ports.size();
}
}
return n;
}
std::string
PortGroupList::get_port_by_index (int n, bool with_prefix) const
{
/* XXX: slightly inefficient algorithm */
for (const_iterator i = begin(); i != end(); ++i) {
for (std::vector<std::string>::const_iterator j = (*i)->ports.begin(); j != (*i)->ports.end(); ++j) {
if (n == 0) {
if (with_prefix) {
return (*i)->prefix + *j;
} else {
return *j;
}
}
--n;
}
}
return "";
}
void
PortGroupList::set_type (ARDOUR::DataType t)
{
_type = t;
}
void
PortGroupList::set_offer_inputs (bool i)
{
_offer_inputs = i;
}