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livetrax/gtk2_ardour/analysis_window.cc
David Robillard e0aaed6d65 *** NEW CODING POLICY *** 
All #include statements that include a header that is a part of a library
bundled with ardour MUST use quotes, not angle brackets.

Do this:

#include "ardour/types.h"

NOT this:

#include <ardour/types.h>

Rationale:

This is best practice in general, to ensure we include the local version
and not the system version.  That quotes mean "local" (in some sense)
and angle brackets mean "system" (in some sense) is a ubiquitous
convention and IIRC right in the C spec somewhere.

More pragmatically, this is required by (my) waf (stuff) for dependencies
to work correctly.  That is:

!!! FAILURE TO DO THIS CAN RESULT IN BROKEN BUILDS !!!

Failure to comply is punishable by death by torture. :)

P.S. It's not that dramatic in all cases, but this (in combination with some
GCC flags specific to the include type) is the best way I have found to be
absolutely 100% positive the local ones are being used (and we definitely
want to be absolutely 100% positive on that one).


git-svn-id: svn://localhost/ardour2/branches/3.0@4655 d708f5d6-7413-0410-9779-e7cbd77b26cf
2009-02-25 18:26:51 +00:00

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/*
Copyright (C) 2006 Paul Davis
Written by Sampo Savolainen
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 <gtkmm2ext/gtk_ui.h>
#include <gtkmm/stock.h>
#include <gtkmm/label.h>
#include <gtkmm/treemodel.h>
#include <gtkmm/treeiter.h>
#include "ardour/audioregion.h"
#include "ardour/audioplaylist.h"
#include "ardour/types.h"
#include "analysis_window.h"
#include "route_ui.h"
#include "time_axis_view.h"
#include "public_editor.h"
#include "selection.h"
#include "audio_region_view.h"
#include "i18n.h"
using namespace ARDOUR;
using namespace PBD;
AnalysisWindow::AnalysisWindow() :
source_selection_label (_("Signal source")),
source_selection_ranges_rb (_("Selected ranges")),
source_selection_regions_rb (_("Selected regions")),
display_model_label (_("Display model")),
display_model_composite_separate_rb (_("Composite graphs for each track")),
display_model_composite_all_tracks_rb (_("Composite graph of all tracks")),
show_minmax_button (_("Show frequency power range")),
show_normalized_button (_("Normalize values")),
fft_graph (16384)
{
set_name(_("FFT analysis window"));
set_title(_("FFT analysis window"));
track_list_ready = false;
// Left side: track list + controls
tlmodel = Gtk::ListStore::create(tlcols);
track_list.set_model (tlmodel);
track_list.append_column(_("Track"), tlcols.trackname);
track_list.append_column_editable(_("Show"), tlcols.visible);
track_list.set_headers_visible(true);
track_list.set_reorderable(false);
track_list.get_selection()->set_mode (Gtk::SELECTION_NONE);
Gtk::TreeViewColumn* track_col = track_list.get_column(0);
Gtk::CellRendererText* renderer = dynamic_cast<Gtk::CellRendererText*>(track_list.get_column_cell_renderer (0));
track_col->add_attribute(renderer->property_foreground_gdk(), tlcols.color);
track_col->set_expand(true);
tlmodel->signal_row_changed().connect (
mem_fun(*this, &AnalysisWindow::track_list_row_changed) );
fft_graph.set_analysis_window(this);
vbox.pack_start(track_list);
// "Signal source"
vbox.pack_start(source_selection_label, false, false);
{
Gtk::RadioButtonGroup group = source_selection_ranges_rb.get_group();
source_selection_regions_rb.set_group(group);
source_selection_ranges_rb.set_active();
vbox.pack_start (source_selection_ranges_rb, false, false);
vbox.pack_start (source_selection_regions_rb, false, false);
// "Selected ranges" radio
source_selection_ranges_rb.signal_toggled().connect (
bind ( mem_fun(*this, &AnalysisWindow::source_selection_changed), &source_selection_ranges_rb));
// "Selected regions" radio
source_selection_regions_rb.signal_toggled().connect (
bind ( mem_fun(*this, &AnalysisWindow::source_selection_changed), &source_selection_regions_rb));
}
vbox.pack_start(hseparator1, false, false);
// "Display model"
vbox.pack_start(display_model_label, false, false);
{
Gtk::RadioButtonGroup group = display_model_composite_separate_rb.get_group();
display_model_composite_all_tracks_rb.set_group (group);
display_model_composite_separate_rb.set_active();
vbox.pack_start (display_model_composite_separate_rb, false, false);
vbox.pack_start (display_model_composite_all_tracks_rb, false, false);
// "Composite graphs for all tracks"
display_model_composite_separate_rb.signal_toggled().connect (
bind ( mem_fun(*this, &AnalysisWindow::display_model_changed), &display_model_composite_separate_rb));
// "Composite graph of all tracks"
display_model_composite_all_tracks_rb.signal_toggled().connect (
bind ( mem_fun(*this, &AnalysisWindow::display_model_changed), &display_model_composite_all_tracks_rb));
}
// Analyze button
refresh_button.set_name("EditorGTKButton");
refresh_button.set_label(_("Re-analyze data"));
refresh_button.signal_clicked().connect ( bind ( mem_fun(*this, &AnalysisWindow::analyze_data), &refresh_button));
vbox.pack_start(refresh_button, false, false, 10);
// Feature checkboxes
// minmax
show_minmax_button.signal_toggled().connect( mem_fun(*this, &AnalysisWindow::show_minmax_changed));
vbox.pack_start(show_minmax_button, false, false);
// normalize
show_normalized_button.signal_toggled().connect( mem_fun(*this, &AnalysisWindow::show_normalized_changed));
vbox.pack_start(show_normalized_button, false, false);
hbox.pack_start(vbox, Gtk::PACK_SHRINK);
// Analysis window on the right
fft_graph.ensure_style();
hbox.add(fft_graph);
// And last we pack the hbox
add(hbox);
show_all();
track_list.show_all();
}
AnalysisWindow::~AnalysisWindow()
{
}
void
AnalysisWindow::show_minmax_changed()
{
fft_graph.set_show_minmax(show_minmax_button.get_active());
}
void
AnalysisWindow::show_normalized_changed()
{
fft_graph.set_show_normalized(show_normalized_button.get_active());
}
void
AnalysisWindow::set_rangemode()
{
source_selection_ranges_rb.set_active(true);
}
void
AnalysisWindow::set_regionmode()
{
source_selection_regions_rb.set_active(true);
}
void
AnalysisWindow::track_list_row_changed(const Gtk::TreeModel::Path& path, const Gtk::TreeModel::iterator& iter)
{
if (track_list_ready) {
fft_graph.redraw();
}
}
void
AnalysisWindow::clear_tracklist()
{
// Empty track list & free old graphs
Gtk::TreeNodeChildren children = track_list.get_model()->children();
for (Gtk::TreeIter i = children.begin(); i != children.end(); i++) {
Gtk::TreeModel::Row row = *i;
FFTResult *delete_me = row[tlcols.graph];
if (delete_me == 0)
continue;
// Make sure it's not drawn
row[tlcols.graph] = 0;
delete delete_me;
}
tlmodel->clear();
}
void
AnalysisWindow::analyze()
{
analyze_data(&refresh_button);
}
void
AnalysisWindow::analyze_data (Gtk::Button *button)
{
track_list_ready = false;
{
Glib::Mutex::Lock lm (track_list_lock);
// Empty track list & free old graphs
clear_tracklist();
// first we gather the FFTResults of all tracks
Sample *buf = (Sample *) malloc(sizeof(Sample) * fft_graph.windowSize());
Sample *mixbuf = (Sample *) malloc(sizeof(Sample) * fft_graph.windowSize());
float *gain = (float *) malloc(sizeof(float) * fft_graph.windowSize());
Selection s = PublicEditor::instance().get_selection();
TimeSelection ts = s.time;
RegionSelection ars = s.regions;
for (TrackSelection::iterator i = s.tracks.begin(); i != s.tracks.end(); ++i) {
boost::shared_ptr<AudioPlaylist> pl
= boost::dynamic_pointer_cast<AudioPlaylist>((*i)->playlist());
if (!pl)
continue;
RouteUI *rui = dynamic_cast<RouteUI *>(*i);
int n_inputs = rui->route()->n_inputs().n_audio(); // FFT is audio only
// Busses don't have playlists, so we need to check that we actually are working with a playlist
if (!pl || !rui)
continue;
FFTResult *res = fft_graph.prepareResult(rui->color(), rui->route()->name());
// if timeSelection
if (source_selection_ranges_rb.get_active()) {
// cerr << "Analyzing ranges on track " << *&rui->route().name() << endl;
for (std::list<AudioRange>::iterator j = ts.begin(); j != ts.end(); ++j) {
int n;
for (int channel = 0; channel < n_inputs; channel++) {
nframes_t x = 0;
while ( x < (*j).length() ) {
// TODO: What about stereo+ channels? composite all to one, I guess
n = fft_graph.windowSize();
if (x + n >= (*j).length() ) {
n = (*j).length() - x;
}
n = pl->read(buf, mixbuf, gain, (*j).start + x, n, channel);
if ( n < fft_graph.windowSize()) {
for (int j = n; j < fft_graph.windowSize(); j++) {
buf[j] = 0.0;
}
}
res->analyzeWindow(buf);
x += n;
}
}
}
} else if (source_selection_regions_rb.get_active()) {
// cerr << "Analyzing selected regions on track " << *&rui->route().name() << endl;
TimeAxisView *current_axis = (*i);
for (RegionSelection::iterator j = ars.begin(); j != ars.end(); ++j) {
// Check that the region is actually audio (so we can analyze it)
AudioRegionView* arv = dynamic_cast<AudioRegionView*>(*j);
if (!arv)
continue;
// Check that the region really is selected on _this_ track/solo
if ( &arv->get_time_axis_view() != current_axis)
continue;
// cerr << " - " << (*j)->region().name() << ": " << (*j)->region().length() << " samples starting at " << (*j)->region().position() << endl;
int n;
for (int channel = 0; channel < n_inputs; channel++) {
nframes_t x = 0;
nframes_t length = arv->region()->length();
while ( x < length ) {
// TODO: What about stereo+ channels? composite all to one, I guess
n = fft_graph.windowSize();
if (x + n >= length ) {
n = length - x;
}
n = arv->audio_region()->read_at(buf, mixbuf, gain, arv->region()->position() + x, n, channel);
if (n == 0)
break;
if ( n < fft_graph.windowSize()) {
for (int j = n; j < fft_graph.windowSize(); j++) {
buf[j] = 0.0;
}
}
res->analyzeWindow(buf);
x += n;
}
}
// cerr << "Found: " << (*j)->get_item_name() << endl;
}
}
res->finalize();
Gtk::TreeModel::Row newrow = *(tlmodel)->append();
newrow[tlcols.trackname] = rui->route()->name();
newrow[tlcols.visible] = true;
newrow[tlcols.color] = rui->color();
newrow[tlcols.graph] = res;
}
free(buf);
free(mixbuf);
track_list_ready = true;
} /* end lock */
fft_graph.redraw();
}
void
AnalysisWindow::source_selection_changed (Gtk::RadioButton *button)
{
// We are only interested in activation signals, not deactivation signals
if (!button->get_active())
return;
/*
cerr << "AnalysisWindow: signal source = ";
if (button == &source_selection_ranges_rb) {
cerr << "selected ranges" << endl;
} else if (button == &source_selection_regions_rb) {
cerr << "selected regions" << endl;
} else {
cerr << "unknown?" << endl;
}
*/
}
void
AnalysisWindow::display_model_changed (Gtk::RadioButton *button)
{
// We are only interested in activation signals, not deactivation signals
if (!button->get_active())
return;
/*
cerr << "AnalysisWindow: display model = ";
if (button == &display_model_composite_separate_rb) {
cerr << "separate composites of tracks" << endl;
} else if (button == &display_model_composite_all_tracks_rb) {
cerr << "composite of all tracks" << endl;
} else {
cerr << "unknown?" << endl;
}
*/
}
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