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livetrax/gtk2_ardour/automation_time_axis.cc

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#include <ardour/route.h>
#include "ardour_ui.h"
#include "automation_time_axis.h"
#include "automation_line.h"
#include "public_editor.h"
#include "simplerect.h"
#include "selection.h"
#include "ghostregion.h"
#include "rgb_macros.h"
#include "automation_selectable.h"
#include "point_selection.h"
#include "canvas_impl.h"
#include "utils.h"
#include "i18n.h"
using namespace ARDOUR;
Large nasty commit in the form of a 5000 line patch chock-full of completely unecessary changes. (Sorry, doing a "sprint" based thing, this is the end of the first one) Achieved MIDI track and bus creation, associated Jack port and diskstream creation, and minimal GUI stuff for creating them. Should be set to start work on actually recording and playing midi to/from disk now. Relevant (significant) changes: - Creation of a Buffer class. Base class is type agnostic so things can point to a buffer but not care what kind it is (otherwise it'd be a template). Derived into AudioBuffer and MidiBuffer, with a type tag because checking type is necessary in parts of the code where dynamic_cast wouldn't be wise. Originally I considered this a hack, but passing around a type proved to be a very good solution to all the other problems (below). There is a 1:1 mapping between jack port data types and ardour Buffer types (with a conversion function), but that's easily removed if it ever becomes necessary. Having the type scoped in the Buffer class is maybe not the best spot for it, but whatever (this is proof of concept kinda stuff right now...) - IO now has a "default" port type (passed to the constructor and stored as a member), used by ensure_io (and similar) to create n ports. IO::register_***_port has a type argument that defaults to the default type if not passed. Rationale: previous IO API is identical, no changes needed to existing code, but path is paved for multiple port types in one IO, which we will need for eg synth plugin inserts, among other things. This is not quite ideal (best would be to only have the two port register functions and have them take a type), but the alternative is a lot of work (namely destroying the 'ensure' functions and everything that uses them) for very little gain. (I am convinced after quite a few tries at the whiteboard that subclassing IO in any way is not a feasible option, look at it's inheritance diagram in Doxygen and you can see why) - AudioEngine::register_audio_input_port is now register_input_port and takes a type argument. Ditto for output. - (Most significant change) AudioDiskstream abstracted into Distream, and sibling MidiDiskstream created. Very much still a work in progress, but Diskstream is there to switch references over to (most already are), which is the important part. It is still unclear what the MIDI diskstream's relation to channels is, but I'm pretty sure they will be single channel only (so SMF Type 0) since noone can come up with a reason otherwise. - MidiTrack creation. Same thing as AudioTrack but with a different default type basically. No big deal here. - Random cleanups and variable renamings etc. because I have OCD and can't help myself. :) Known broken: Loading of sessions containing MIDI tracks. git-svn-id: svn://localhost/ardour2/branches/midi@641 d708f5d6-7413-0410-9779-e7cbd77b26cf
2006-06-26 12:01:34 -04:00
using namespace PBD;
using namespace Gtk;
using namespace Editing;
AutomationTimeAxisView::AutomationTimeAxisView (Session& s, Route& r, PublicEditor& e, TimeAxisView& rent,
ArdourCanvas::Canvas& canvas, const string & nom,
const string & state_name, const string & nomparent)
: AxisView (s),
TimeAxisView (s, e, &rent, canvas),
route (r),
_name (nom),
_state_name (state_name),
height_button (_("h")),
clear_button (_("clear")),
auto_button (X_("")) /* force addition of a label */
{
automation_menu = 0;
in_destructor = false;
auto_off_item = 0;
auto_touch_item = 0;
auto_write_item = 0;
auto_play_item = 0;
ignore_state_request = false;
// base_rect = gnome_canvas_item_new (GNOME_CANVAS_GROUP(canvas_display),
// gnome_canvas_simplerect_get_type(),
// "x1", 0.0,
// "y1", 0.0,
// "x2", 1000000.0,
// "outline_color_rgba", color_map[cAutomationTrackOutline],
// /* outline ends and bottom */
// "outline_what", (guint32) (0x1|0x2|0x8),
// "fill_color_rgba", color_map[cAutomationTrackFill],
// NULL);
base_rect = new SimpleRect(*canvas_display);
base_rect->property_x1() = 0.0;
base_rect->property_y1() = 0.0;
base_rect->property_x2() = 1000000.0;
base_rect->property_outline_color_rgba() = color_map[cAutomationTrackOutline];
/* outline ends and bottom */
base_rect->property_outline_what() = (guint32) (0x1|0x2|0x8);
base_rect->property_fill_color_rgba() = color_map[cAutomationTrackFill];
base_rect->set_data ("trackview", this);
base_rect->signal_event().connect (bind (mem_fun (editor, &PublicEditor::canvas_automation_track_event),
base_rect, this));
hide_button.add (*(manage (new Gtk::Image (get_xpm("small_x.xpm")))));
height_button.set_name ("TrackSizeButton");
auto_button.set_name ("TrackVisualButton");
clear_button.set_name ("TrackVisualButton");
hide_button.set_name ("TrackRemoveButton");
ARDOUR_UI::instance()->tooltips().set_tip(height_button, _("track height"));
ARDOUR_UI::instance()->tooltips().set_tip(auto_button, _("automation state"));
ARDOUR_UI::instance()->tooltips().set_tip(clear_button, _("clear track"));
ARDOUR_UI::instance()->tooltips().set_tip(hide_button, _("hide track"));
/* rearrange the name display */
/* we never show these for automation tracks, so make
life easier and remove them.
*/
hide_name_entry();
/* move the name label over a bit */
string shortpname = _name;
bool shortened = false;
if (_name.length()) {
if (shortpname.length() > 18) {
shortpname = shortpname.substr (0, 16);
shortpname += "...";
shortened = true;
}
}
name_label.set_text (shortpname);
name_label.set_alignment (1.0, 0.5);
if (nomparent.length()) {
/* limit the plug name string */
string pname = nomparent;
if (pname.length() > 14) {
pname = pname.substr (0, 11);
pname += "...";
shortened = true;
}
plugname = new Label (pname);
plugname->set_name (X_("TrackPlugName"));
plugname->set_alignment (1.0, 0.5);
name_label.set_name (X_("TrackParameterName"));
controls_table.remove (name_hbox);
controls_table.attach (*plugname, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
plugname_packed = true;
controls_table.attach (name_hbox, 1, 5, 1, 2, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
} else {
plugname = 0;
plugname_packed = false;
}
if (shortened) {
string tipname = nomparent;
if (!tipname.empty()) {
tipname += ": ";
}
tipname += _name;
ARDOUR_UI::instance()->tooltips().set_tip(controls_ebox, tipname);
}
/* add the buttons */
controls_table.attach (hide_button, 0, 1, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
controls_table.attach (height_button, 0, 1, 1, 2, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
controls_table.attach (auto_button, 6, 8, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
controls_table.attach (clear_button, 6, 8, 1, 2, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
controls_table.show_all ();
height_button.signal_clicked().connect (mem_fun(*this, &AutomationTimeAxisView::height_clicked));
clear_button.signal_clicked().connect (mem_fun(*this, &AutomationTimeAxisView::clear_clicked));
hide_button.signal_clicked().connect (mem_fun(*this, &AutomationTimeAxisView::hide_clicked));
auto_button.signal_clicked().connect (mem_fun(*this, &AutomationTimeAxisView::auto_clicked));
controls_base_selected_name = X_("AutomationTrackControlsBaseSelected");
controls_base_unselected_name = X_("AutomationTrackControlsBase");
controls_ebox.set_name (controls_base_unselected_name);
controls_frame.set_shadow_type (Gtk::SHADOW_ETCHED_OUT);
XMLNode* xml_node = get_parent_with_state()->get_child_xml_node (_state_name);
set_state (*xml_node);
/* make sure labels etc. are correct */
automation_state_changed ();
}
AutomationTimeAxisView::~AutomationTimeAxisView ()
{
in_destructor = true;
for (list<GhostRegion*>::iterator i = ghosts.begin(); i != ghosts.end(); ++i) {
delete *i;
}
}
void
AutomationTimeAxisView::auto_clicked ()
{
using namespace Menu_Helpers;
if (automation_menu == 0) {
automation_menu = manage (new Menu);
automation_menu->set_name ("ArdourContextMenu");
MenuList& items (automation_menu->items());
items.push_back (MenuElem (_("Manual"),
bind (mem_fun(*this, &AutomationTimeAxisView::set_automation_state), (AutoState) Off)));
items.push_back (MenuElem (_("Play"),
bind (mem_fun(*this, &AutomationTimeAxisView::set_automation_state), (AutoState) Play)));
items.push_back (MenuElem (_("Write"),
bind (mem_fun(*this, &AutomationTimeAxisView::set_automation_state), (AutoState) Write)));
items.push_back (MenuElem (_("Touch"),
bind (mem_fun(*this, &AutomationTimeAxisView::set_automation_state), (AutoState) Touch)));
}
automation_menu->popup (1, 0);
}
void
AutomationTimeAxisView::automation_state_changed ()
{
AutoState state;
/* update button label */
if (lines.empty()) {
state = Off;
} else {
state = lines.front()->the_list().automation_state ();
}
switch (state & (Off|Play|Touch|Write)) {
case Off:
auto_button.set_label (_("Manual"));
if (auto_off_item) {
ignore_state_request = true;
auto_off_item->set_active (true);
auto_play_item->set_active (false);
auto_touch_item->set_active (false);
auto_write_item->set_active (false);
ignore_state_request = false;
}
break;
case Play:
auto_button.set_label (_("Play"));
if (auto_play_item) {
ignore_state_request = true;
auto_play_item->set_active (true);
auto_off_item->set_active (false);
auto_touch_item->set_active (false);
auto_write_item->set_active (false);
ignore_state_request = false;
}
break;
case Write:
auto_button.set_label (_("Write"));
if (auto_write_item) {
ignore_state_request = true;
auto_write_item->set_active (true);
auto_off_item->set_active (false);
auto_play_item->set_active (false);
auto_touch_item->set_active (false);
ignore_state_request = false;
}
break;
case Touch:
auto_button.set_label (_("Touch"));
if (auto_touch_item) {
ignore_state_request = true;
auto_touch_item->set_active (true);
auto_off_item->set_active (false);
auto_play_item->set_active (false);
auto_write_item->set_active (false);
ignore_state_request = false;
}
break;
default:
auto_button.set_label (_("???"));
break;
}
}
void
AutomationTimeAxisView::height_clicked ()
{
popup_size_menu (0);
}
void
AutomationTimeAxisView::clear_clicked ()
{
_session.begin_reversible_command (_("clear automation"));
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
(*i)->clear ();
}
_session.commit_reversible_command ();
}
void
AutomationTimeAxisView::set_height (TrackHeight ht)
{
uint32_t h = height_to_pixels (ht);
bool changed = (height != (uint32_t) h);
TimeAxisView* state_parent = get_parent_with_state ();
XMLNode* xml_node = state_parent->get_child_xml_node (_state_name);
//controls_table.show_all ();
TimeAxisView::set_height (ht);
base_rect->property_y2() = h;
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
(*i)->set_height (h);
}
for (list<GhostRegion*>::iterator i = ghosts.begin(); i != ghosts.end(); ++i) {
(*i)->set_height ();
}
switch (ht) {
case Largest:
xml_node->add_property ("track_height", "largest");
controls_table.remove (name_hbox);
if (plugname) {
if (plugname_packed) {
controls_table.remove (*plugname);
plugname_packed = false;
}
controls_table.attach (*plugname, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
plugname_packed = true;
controls_table.attach (name_hbox, 1, 5, 1, 2, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
} else {
controls_table.attach (name_hbox, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
}
controls_table.show_all ();
hide_name_entry ();
show_name_label ();
break;
case Large:
xml_node->add_property ("track_height", "large");
controls_table.remove (name_hbox);
if (plugname) {
if (plugname_packed) {
controls_table.remove (*plugname);
plugname_packed = false;
}
controls_table.attach (*plugname, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
plugname_packed = true;
} else {
controls_table.attach (name_hbox, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
}
controls_table.show_all ();
hide_name_entry ();
show_name_label ();
break;
case Larger:
xml_node->add_property ("track_height", "larger");
controls_table.remove (name_hbox);
if (plugname) {
if (plugname_packed) {
controls_table.remove (*plugname);
plugname_packed = false;
}
controls_table.attach (*plugname, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
plugname_packed = true;
} else {
controls_table.attach (name_hbox, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
}
controls_table.show_all ();
hide_name_entry ();
show_name_label ();
break;
case Normal:
xml_node->add_property ("track_height", "normal");
controls_table.remove (name_hbox);
if (plugname) {
if (plugname_packed) {
controls_table.remove (*plugname);
plugname_packed = false;
}
controls_table.attach (*plugname, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
plugname_packed = true;
controls_table.attach (name_hbox, 1, 5, 1, 2, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
} else {
controls_table.attach (name_hbox, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
}
controls_table.show_all ();
hide_name_entry ();
show_name_label ();
break;
case Smaller:
xml_node->add_property ("track_height", "smaller");
controls_table.remove (name_hbox);
if (plugname) {
if (plugname_packed) {
controls_table.remove (*plugname);
plugname_packed = false;
}
}
controls_table.attach (name_hbox, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
controls_table.hide_all ();
hide_name_entry ();
show_name_label ();
name_hbox.show_all ();
controls_table.show ();
break;
case Small:
xml_node->add_property ("track_height", "small");
controls_table.remove (name_hbox);
if (plugname) {
if (plugname_packed) {
controls_table.remove (*plugname);
plugname_packed = false;
}
}
controls_table.attach (name_hbox, 1, 5, 0, 1, Gtk::FILL|Gtk::EXPAND, Gtk::FILL|Gtk::EXPAND);
controls_table.hide_all ();
hide_name_entry ();
show_name_label ();
name_hbox.show_all ();
controls_table.show ();
break;
}
if (changed) {
/* only emit the signal if the height really changed */
route.gui_changed ("track_height", (void *) 0); /* EMIT_SIGNAL */
}
}
void
AutomationTimeAxisView::set_samples_per_unit (double spu)
{
TimeAxisView::set_samples_per_unit (editor.get_current_zoom());
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
(*i)->reset ();
}
}
void
AutomationTimeAxisView::hide_clicked ()
{
set_marked_for_display (false);
hide ();
}
void
AutomationTimeAxisView::build_display_menu ()
{
using namespace Menu_Helpers;
/* get the size menu ready */
build_size_menu ();
/* prepare it */
TimeAxisView::build_display_menu ();
/* now fill it with our stuff */
MenuList& items = display_menu->items();
items.push_back (MenuElem (_("Height"), *size_menu));
items.push_back (SeparatorElem());
items.push_back (MenuElem (_("Hide"), mem_fun(*this, &AutomationTimeAxisView::hide_clicked)));
items.push_back (SeparatorElem());
items.push_back (MenuElem (_("Clear"), mem_fun(*this, &AutomationTimeAxisView::clear_clicked)));
items.push_back (SeparatorElem());
Menu* auto_state_menu = manage (new Menu);
auto_state_menu->set_name ("ArdourContextMenu");
MenuList& as_items = auto_state_menu->items();
as_items.push_back (CheckMenuElem (_("Manual"),
bind (mem_fun(*this, &AutomationTimeAxisView::set_automation_state), (AutoState) Off)));
auto_off_item = dynamic_cast<CheckMenuItem*>(&as_items.back());
as_items.push_back (CheckMenuElem (_("Play"),
bind (mem_fun(*this, &AutomationTimeAxisView::set_automation_state), (AutoState) Play)));
auto_play_item = dynamic_cast<CheckMenuItem*>(&as_items.back());
as_items.push_back (CheckMenuElem (_("Write"),
bind (mem_fun(*this, &AutomationTimeAxisView::set_automation_state), (AutoState) Write)));
auto_write_item = dynamic_cast<CheckMenuItem*>(&as_items.back());
as_items.push_back (CheckMenuElem (_("Touch"),
bind (mem_fun(*this, &AutomationTimeAxisView::set_automation_state), (AutoState) Touch)));
auto_touch_item = dynamic_cast<CheckMenuItem*>(&as_items.back());
items.push_back (MenuElem (_("State"), *auto_state_menu));
/* make sure the automation menu state is correct */
automation_state_changed ();
}
bool
AutomationTimeAxisView::cut_copy_clear (Selection& selection, CutCopyOp op)
{
bool ret = false;
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
ret = cut_copy_clear_one ((**i), selection, op);
}
return ret;
}
bool
AutomationTimeAxisView::cut_copy_clear_one (AutomationLine& line, Selection& selection, CutCopyOp op)
{
AutomationList* what_we_got = 0;
AutomationList& alist (line.the_list());
bool ret = false;
_session.add_undo (alist.get_memento());
switch (op) {
case Cut:
if ((what_we_got = alist.cut (selection.time.front().start, selection.time.front().end)) != 0) {
editor.get_cut_buffer().add (what_we_got);
_session.add_redo_no_execute (alist.get_memento());
ret = true;
}
break;
case Copy:
if ((what_we_got = alist.copy (selection.time.front().start, selection.time.front().end)) != 0) {
editor.get_cut_buffer().add (what_we_got);
}
break;
case Clear:
if ((what_we_got = alist.cut (selection.time.front().start, selection.time.front().end)) != 0) {
_session.add_redo_no_execute (alist.get_memento());
delete what_we_got;
what_we_got = 0;
ret = true;
}
break;
}
if (what_we_got) {
for (AutomationList::iterator x = what_we_got->begin(); x != what_we_got->end(); ++x) {
double foo = (*x)->value;
line.model_to_view_y (foo);
(*x)->value = foo;
}
}
return ret;
}
void
AutomationTimeAxisView::reset_objects (PointSelection& selection)
{
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
reset_objects_one ((**i), selection);
}
}
void
AutomationTimeAxisView::reset_objects_one (AutomationLine& line, PointSelection& selection)
{
AutomationList& alist (line.the_list());
_session.add_undo (alist.get_memento());
for (PointSelection::iterator i = selection.begin(); i != selection.end(); ++i) {
if (&(*i).track != this) {
continue;
}
alist.reset_range ((*i).start, (*i).end);
}
}
bool
AutomationTimeAxisView::cut_copy_clear_objects (PointSelection& selection, CutCopyOp op)
{
bool ret = false;
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
ret = cut_copy_clear_objects_one ((**i), selection, op);
}
return ret;
}
bool
AutomationTimeAxisView::cut_copy_clear_objects_one (AutomationLine& line, PointSelection& selection, CutCopyOp op)
{
AutomationList* what_we_got = 0;
AutomationList& alist (line.the_list());
bool ret = false;
_session.add_undo (alist.get_memento());
for (PointSelection::iterator i = selection.begin(); i != selection.end(); ++i) {
if (&(*i).track != this) {
continue;
}
switch (op) {
case Cut:
if ((what_we_got = alist.cut ((*i).start, (*i).end)) != 0) {
editor.get_cut_buffer().add (what_we_got);
_session.add_redo_no_execute (alist.get_memento());
ret = true;
}
break;
case Copy:
if ((what_we_got = alist.copy ((*i).start, (*i).end)) != 0) {
editor.get_cut_buffer().add (what_we_got);
}
break;
case Clear:
if ((what_we_got = alist.cut ((*i).start, (*i).end)) != 0) {
_session.add_redo_no_execute (alist.get_memento());
delete what_we_got;
what_we_got = 0;
ret = true;
}
break;
}
}
if (what_we_got) {
for (AutomationList::iterator x = what_we_got->begin(); x != what_we_got->end(); ++x) {
double foo = (*x)->value;
line.model_to_view_y (foo);
(*x)->value = foo;
}
}
return ret;
}
bool
AutomationTimeAxisView::paste (jack_nframes_t pos, float times, Selection& selection, size_t nth)
{
bool ret = true;
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
ret = paste_one (**i, pos, times, selection, nth);
}
return ret;
}
bool
AutomationTimeAxisView::paste_one (AutomationLine& line, jack_nframes_t pos, float times, Selection& selection, size_t nth)
{
AutomationSelection::iterator p;
AutomationList& alist (line.the_list());
for (p = selection.lines.begin(); p != selection.lines.end() && nth; ++p, --nth);
if (p == selection.lines.end()) {
return false;
}
/* Make a copy of the list because we have to scale the
values from view coordinates to model coordinates, and we're
not supposed to modify the points in the selection.
*/
AutomationList copy (**p);
for (AutomationList::iterator x = copy.begin(); x != copy.end(); ++x) {
double foo = (*x)->value;
line.view_to_model_y (foo);
(*x)->value = foo;
}
_session.add_undo (alist.get_memento());
alist.paste (copy, pos, times);
_session.add_redo_no_execute (alist.get_memento());
return true;
}
void
AutomationTimeAxisView::add_ghost (GhostRegion* gr)
{
ghosts.push_back (gr);
gr->GoingAway.connect (mem_fun(*this, &AutomationTimeAxisView::remove_ghost));
}
void
AutomationTimeAxisView::remove_ghost (GhostRegion* gr)
{
if (in_destructor) {
return;
}
list<GhostRegion*>::iterator i;
for (i = ghosts.begin(); i != ghosts.end(); ++i) {
if ((*i) == gr) {
ghosts.erase (i);
break;
}
}
}
void
AutomationTimeAxisView::get_selectables (jack_nframes_t start, jack_nframes_t end, double top, double bot, list<Selectable*>& results)
{
if (!lines.empty() && touched (top, bot)) {
double topfrac;
double botfrac;
/* remember: this is X Window - coordinate space starts in upper left and moves down.
y_position is the "origin" or "top" of the track.
*/
double mybot = y_position + height; // XXX need to include Editor::track_spacing;
if (y_position >= top && mybot <= bot) {
/* y_position is below top, mybot is above bot, so we're fully
covered vertically.
*/
topfrac = 1.0;
botfrac = 0.0;
} else {
/* top and bot are within y_position .. mybot */
topfrac = 1.0 - ((top - y_position) / height);
botfrac = 1.0 - ((bot - y_position) / height);
}
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
(*i)->get_selectables (start, end, botfrac, topfrac, results);
}
}
}
void
AutomationTimeAxisView::get_inverted_selectables (Selection& sel, list<Selectable*>& result)
{
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
(*i)->get_inverted_selectables (sel, result);
}
}
void
AutomationTimeAxisView::set_selected_points (PointSelection& points)
{
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
(*i)->set_selected_points (points);
}
}
void
AutomationTimeAxisView::clear_lines ()
{
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
delete *i;
}
lines.clear ();
automation_connection.disconnect ();
}
void
AutomationTimeAxisView::add_line (AutomationLine& line)
{
bool get = false;
if (lines.empty()) {
/* first line is the Model for automation state */
automation_connection = line.the_list().automation_state_changed.connect
(mem_fun(*this, &AutomationTimeAxisView::automation_state_changed));
get = true;
}
lines.push_back (&line);
line.set_height (height);
if (get) {
/* pick up the current state */
automation_state_changed ();
}
}
void
AutomationTimeAxisView::show_all_control_points ()
{
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
(*i)->show_all_control_points ();
}
}
void
AutomationTimeAxisView::hide_all_but_selected_control_points ()
{
for (vector<AutomationLine*>::iterator i = lines.begin(); i != lines.end(); ++i) {
(*i)->hide_all_but_selected_control_points ();
}
}
void
AutomationTimeAxisView::entered()
{
show_all_control_points ();
}
void
AutomationTimeAxisView::exited ()
{
hide_all_but_selected_control_points ();
}
void
AutomationTimeAxisView::set_state (const XMLNode& node)
{
TimeAxisView::set_state (node);
}
XMLNode*
AutomationTimeAxisView::get_state_node ()
{
TimeAxisView* state_parent = get_parent_with_state ();
if (state_parent) {
return state_parent->get_child_xml_node (_state_name);
} else {
return 0;
}
}