X-Git-Url: https://main.carlh.net/gitweb/?p=dcpomatic.git;a=blobdiff_plain;f=src%2Fwx%2Faudio_plot.cc;h=3da7a50ff2c57dfe515e8a0c16c7c66d816d3dcd;hp=96de34d406744960db60c4aa072a0673699c9c2d;hb=9001a63be211fd8e97431f8fc07c66af01554f5a;hpb=097a1fb413bbbb89182161d4c1a31daa5419ec96 diff --git a/src/wx/audio_plot.cc b/src/wx/audio_plot.cc index 96de34d40..3da7a50ff 100644 --- a/src/wx/audio_plot.cc +++ b/src/wx/audio_plot.cc @@ -1,52 +1,58 @@ /* - Copyright (C) 2013 Carl Hetherington + Copyright (C) 2013-2018 Carl Hetherington - This program is free software; you can redistribute it and/or modify + This file is part of DCP-o-matic. + + DCP-o-matic 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, + DCP-o-matic 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. + along with DCP-o-matic. If not, see . */ -#include -#include -#include #include "audio_plot.h" #include "lib/audio_decoder.h" #include "lib/audio_analysis.h" +#include "lib/compose.hpp" #include "wx/wx_util.h" +#include +#include +#include +#include using std::cout; using std::vector; using std::list; using std::max; using std::min; +using std::map; using boost::bind; +using boost::optional; using boost::shared_ptr; +using namespace dcpomatic; int const AudioPlot::_minimum = -70; +int const AudioPlot::_cursor_size = 8; int const AudioPlot::max_smoothing = 128; AudioPlot::AudioPlot (wxWindow* parent) : wxPanel (parent, wxID_ANY, wxDefaultPosition, wxDefaultSize, wxFULL_REPAINT_ON_RESIZE) - , _gain (0) , _smoothing (max_smoothing / 2) - , _message (_("Please wait; audio is being analysed...")) + , _gain_correction (0) { -#ifndef __WXOSX__ +#ifndef __WXOSX__ SetDoubleBuffered (true); -#endif +#endif - for (int i = 0; i < MAX_AUDIO_CHANNELS; ++i) { + for (int i = 0; i < MAX_DCP_AUDIO_CHANNELS; ++i) { _channel_visible[i] = false; } @@ -59,10 +65,29 @@ AudioPlot::AudioPlot (wxWindow* parent) _colours.push_back (wxColour ( 0, 255, 0)); _colours.push_back (wxColour (139, 0, 204)); _colours.push_back (wxColour ( 0, 0, 255)); - _colours.push_back (wxColour (100, 100, 100)); - + _colours.push_back (wxColour ( 0, 139, 0)); + _colours.push_back (wxColour ( 0, 0, 139)); + _colours.push_back (wxColour (255, 255, 0)); + _colours.push_back (wxColour ( 0, 255, 255)); + _colours.push_back (wxColour (255, 0, 255)); + _colours.push_back (wxColour (255, 0, 139)); + _colours.push_back (wxColour (139, 0, 255)); + + _colours.push_back (wxColour (139, 139, 255)); + _colours.push_back (wxColour ( 0, 139, 255)); + _colours.push_back (wxColour (255, 139, 139)); + _colours.push_back (wxColour (255, 139, 0)); + + set_analysis (shared_ptr ()); + +#if MAX_DCP_AUDIO_CHANNELS != 16 +#warning AudioPlot::AudioPlot is expecting the wrong MAX_DCP_AUDIO_CHANNELS +#endif + Bind (wxEVT_PAINT, boost::bind (&AudioPlot::paint, this)); - + Bind (wxEVT_MOTION, boost::bind (&AudioPlot::mouse_moved, this, _1)); + Bind (wxEVT_LEAVE_WINDOW, boost::bind (&AudioPlot::mouse_leave, this, _1)); + SetMinSize (wxSize (640, 512)); } @@ -71,14 +96,10 @@ AudioPlot::set_analysis (shared_ptr a) { _analysis = a; - for (int i = 0; i < MAX_AUDIO_CHANNELS; ++i) { - _channel_visible[i] = false; + if (!a) { + _message = _("Please wait; audio is being analysed..."); } - for (int i = 0; i < AudioPoint::COUNT; ++i) { - _type_visible[i] = false; - } - Refresh (); } @@ -103,6 +124,15 @@ AudioPlot::set_message (wxString s) Refresh (); } +struct Metrics +{ + double db_label_width; + int height; + int y_origin; + float x_scale; ///< pixels per data point + float y_scale; +}; + void AudioPlot::paint () { @@ -119,135 +149,201 @@ AudioPlot::paint () return; } - wxGraphicsPath grid = gc->CreatePath (); + wxGraphicsPath h_grid = gc->CreatePath (); gc->SetFont (gc->CreateFont (*wxSMALL_FONT)); wxDouble db_label_height; wxDouble db_label_descent; wxDouble db_label_leading; - gc->GetTextExtent (wxT ("-80dB"), &_db_label_width, &db_label_height, &db_label_descent, &db_label_leading); + Metrics metrics; + gc->GetTextExtent (wxT ("-80dB"), &metrics.db_label_width, &db_label_height, &db_label_descent, &db_label_leading); + + metrics.db_label_width += 8; - _db_label_width += 8; - - int const data_width = GetSize().GetWidth() - _db_label_width; + int const data_width = GetSize().GetWidth() - metrics.db_label_width; /* Assume all channels have the same number of points */ - _x_scale = data_width / float (_analysis->points (0)); - _height = GetSize().GetHeight (); - _y_origin = 32; - _y_scale = (_height - _y_origin) / -_minimum; + metrics.x_scale = data_width / float (_analysis->points (0)); + metrics.height = GetSize().GetHeight (); + metrics.y_origin = 32; + metrics.y_scale = (metrics.height - metrics.y_origin) / -_minimum; for (int i = _minimum; i <= 0; i += 10) { - int const y = (_height - (i - _minimum) * _y_scale) - _y_origin; - grid.MoveToPoint (_db_label_width - 4, y); - grid.AddLineToPoint (_db_label_width + data_width, y); + int const y = (metrics.height - (i - _minimum) * metrics.y_scale) - metrics.y_origin; + h_grid.MoveToPoint (metrics.db_label_width - 4, y); + h_grid.AddLineToPoint (metrics.db_label_width + data_width, y); gc->DrawText (std_to_wx (String::compose ("%1dB", i)), 0, y - (db_label_height / 2)); } - gc->SetPen (*wxLIGHT_GREY_PEN); - gc->StrokePath (grid); + gc->SetPen (wxPen (wxColour (200, 200, 200))); + gc->StrokePath (h_grid); + + /* Draw an x axis with marks */ + + wxGraphicsPath v_grid = gc->CreatePath (); + + DCPOMATIC_ASSERT (_analysis->samples_per_point() != 0.0); + double const pps = _analysis->sample_rate() * metrics.x_scale / _analysis->samples_per_point(); + + gc->SetPen (*wxThePenList->FindOrCreatePen (wxColour (0, 0, 0), 1, wxPENSTYLE_SOLID)); + + double const mark_interval = calculate_mark_interval (rint (128 / pps)); + + DCPTime t = DCPTime::from_seconds (mark_interval); + while ((t.seconds() * pps) < data_width) { + double tc = t.seconds (); + int const h = tc / 3600; + tc -= h * 3600; + int const m = tc / 60; + tc -= m * 60; + int const s = tc; + + wxString str = wxString::Format (wxT ("%02d:%02d:%02d"), h, m, s); + wxDouble str_width; + wxDouble str_height; + wxDouble str_descent; + wxDouble str_leading; + gc->GetTextExtent (str, &str_width, &str_height, &str_descent, &str_leading); + + int const tx = llrintf (metrics.db_label_width + t.seconds() * pps); + gc->DrawText (str, tx - str_width / 2, metrics.height - metrics.y_origin + db_label_height); + + v_grid.MoveToPoint (tx, metrics.height - metrics.y_origin + 4); + v_grid.AddLineToPoint (tx, metrics.y_origin); + + t += DCPTime::from_seconds (mark_interval); + } + + gc->SetPen (wxPen (wxColour (200, 200, 200))); + gc->StrokePath (v_grid); - gc->DrawText (_("DCPTime"), data_width, _height - _y_origin + db_label_height / 2); - if (_type_visible[AudioPoint::PEAK]) { - for (int c = 0; c < MAX_AUDIO_CHANNELS; ++c) { + for (int c = 0; c < MAX_DCP_AUDIO_CHANNELS; ++c) { wxGraphicsPath p = gc->CreatePath (); if (_channel_visible[c] && c < _analysis->channels()) { - plot_peak (p, c); + plot_peak (p, c, metrics); } wxColour const col = _colours[c]; - gc->SetPen (*wxThePenList->FindOrCreatePen (wxColour (col.Red(), col.Green(), col.Blue(), col.Alpha() / 2), 1, wxPENSTYLE_SOLID)); + gc->SetPen (wxPen (wxColour (col.Red(), col.Green(), col.Blue(), col.Alpha() / 2), 1, wxPENSTYLE_SOLID)); gc->StrokePath (p); } } if (_type_visible[AudioPoint::RMS]) { - for (int c = 0; c < MAX_AUDIO_CHANNELS; ++c) { + for (int c = 0; c < MAX_DCP_AUDIO_CHANNELS; ++c) { wxGraphicsPath p = gc->CreatePath (); if (_channel_visible[c] && c < _analysis->channels()) { - plot_rms (p, c); + plot_rms (p, c, metrics); } wxColour const col = _colours[c]; - gc->SetPen (*wxThePenList->FindOrCreatePen (col, 1, wxPENSTYLE_SOLID)); + gc->SetPen (wxPen (col, 1, wxPENSTYLE_SOLID)); gc->StrokePath (p); } } wxGraphicsPath axes = gc->CreatePath (); - axes.MoveToPoint (_db_label_width, 0); - axes.AddLineToPoint (_db_label_width, _height - _y_origin); - axes.AddLineToPoint (_db_label_width + data_width, _height - _y_origin); - gc->SetPen (*wxBLACK_PEN); + axes.MoveToPoint (metrics.db_label_width, 0); + axes.AddLineToPoint (metrics.db_label_width, metrics.height - metrics.y_origin); + axes.AddLineToPoint (metrics.db_label_width + data_width, metrics.height - metrics.y_origin); + gc->SetPen (wxPen (wxColour (0, 0, 0))); gc->StrokePath (axes); + if (_cursor) { + wxGraphicsPath cursor = gc->CreatePath (); + cursor.MoveToPoint (_cursor->draw.x - _cursor_size / 2, _cursor->draw.y - _cursor_size / 2); + cursor.AddLineToPoint (_cursor->draw.x + _cursor_size / 2, _cursor->draw.y + _cursor_size / 2); + cursor.MoveToPoint (_cursor->draw.x + _cursor_size / 2, _cursor->draw.y - _cursor_size / 2); + cursor.AddLineToPoint (_cursor->draw.x - _cursor_size / 2, _cursor->draw.y + _cursor_size / 2); + gc->StrokePath (cursor); + + + } + delete gc; } float -AudioPlot::y_for_linear (float p) const +AudioPlot::y_for_linear (float p, Metrics const & metrics) const { - return _height - (20 * log10(p) - _minimum + _gain) * _y_scale - _y_origin; + if (p < 1e-4) { + p = 1e-4; + } + + return metrics.height - (20 * log10(p) - _minimum) * metrics.y_scale - metrics.y_origin; } void -AudioPlot::plot_peak (wxGraphicsPath& path, int channel) const +AudioPlot::plot_peak (wxGraphicsPath& path, int channel, Metrics const & metrics) const { if (_analysis->points (channel) == 0) { return; } - - path.MoveToPoint (_db_label_width, y_for_linear (_analysis->get_point(channel, 0)[AudioPoint::PEAK])); + + _peak[channel] = PointList (); float peak = 0; int const N = _analysis->points(channel); for (int i = 0; i < N; ++i) { - float const p = _analysis->get_point(channel, i)[AudioPoint::PEAK]; + float const p = get_point(channel, i)[AudioPoint::PEAK]; peak -= 0.01f * (1 - log10 (_smoothing) / log10 (max_smoothing)); if (p > peak) { peak = p; } else if (peak < 0) { peak = 0; } - - path.AddLineToPoint (_db_label_width + i * _x_scale, y_for_linear (peak)); + + _peak[channel].push_back ( + Point ( + wxPoint (metrics.db_label_width + i * metrics.x_scale, y_for_linear (peak, metrics)), + DCPTime::from_frames (i * _analysis->samples_per_point(), _analysis->sample_rate()), + 20 * log10(peak) + ) + ); + } + + DCPOMATIC_ASSERT (_peak.find(channel) != _peak.end()); + + path.MoveToPoint (_peak[channel][0].draw); + BOOST_FOREACH (Point const & i, _peak[channel]) { + path.AddLineToPoint (i.draw); } } void -AudioPlot::plot_rms (wxGraphicsPath& path, int channel) const +AudioPlot::plot_rms (wxGraphicsPath& path, int channel, Metrics const & metrics) const { if (_analysis->points (channel) == 0) { return; } - - path.MoveToPoint (_db_label_width, y_for_linear (_analysis->get_point(channel, 0)[AudioPoint::RMS])); + + _rms[channel] = PointList(); list smoothing; int const N = _analysis->points(channel); - float const first = _analysis->get_point(channel, 0)[AudioPoint::RMS]; - float const last = _analysis->get_point(channel, N - 1)[AudioPoint::RMS]; + float const first = get_point(channel, 0)[AudioPoint::RMS]; + float const last = get_point(channel, N - 1)[AudioPoint::RMS]; int const before = _smoothing / 2; int const after = _smoothing - before; - + /* Pre-load the smoothing list */ for (int i = 0; i < before; ++i) { smoothing.push_back (first); } for (int i = 0; i < after; ++i) { if (i < N) { - smoothing.push_back (_analysis->get_point(channel, i)[AudioPoint::RMS]); + smoothing.push_back (get_point(channel, i)[AudioPoint::RMS]); } else { smoothing.push_back (last); } } - + for (int i = 0; i < N; ++i) { int const next_for_window = i + after; if (next_for_window < N) { - smoothing.push_back (_analysis->get_point(channel, i)[AudioPoint::RMS]); + smoothing.push_back (get_point(channel, i)[AudioPoint::RMS]); } else { smoothing.push_back (last); } @@ -259,22 +355,103 @@ AudioPlot::plot_rms (wxGraphicsPath& path, int channel) const p += pow (*j, 2); } - p = sqrt (p / smoothing.size ()); + if (!smoothing.empty ()) { + p = sqrt (p / smoothing.size ()); + } - path.AddLineToPoint (_db_label_width + i * _x_scale, y_for_linear (p)); + _rms[channel].push_back ( + Point ( + wxPoint (metrics.db_label_width + i * metrics.x_scale, y_for_linear (p, metrics)), + DCPTime::from_frames (i * _analysis->samples_per_point(), _analysis->sample_rate()), + 20 * log10(p) + ) + ); + } + + DCPOMATIC_ASSERT (_rms.find(channel) != _rms.end()); + + path.MoveToPoint (_rms[channel][0].draw); + BOOST_FOREACH (Point const & i, _rms[channel]) { + path.AddLineToPoint (i.draw); } } void -AudioPlot::set_gain (float g) +AudioPlot::set_smoothing (int s) { - _gain = g; + _smoothing = s; + _rms.clear (); + _peak.clear (); Refresh (); } void -AudioPlot::set_smoothing (int s) +AudioPlot::set_gain_correction (double gain) { - _smoothing = s; + _gain_correction = gain; + Refresh (); +} + +AudioPoint +AudioPlot::get_point (int channel, int point) const +{ + AudioPoint p = _analysis->get_point (channel, point); + for (int i = 0; i < AudioPoint::COUNT; ++i) { + p[i] *= pow (10, _gain_correction / 20); + } + + return p; +} + +/** @param n Channel index. + * @return Colour used by that channel in the plot. + */ +wxColour +AudioPlot::colour (int n) const +{ + DCPOMATIC_ASSERT (n < int(_colours.size())); + return _colours[n]; +} + +void +AudioPlot::search (map const & search, wxMouseEvent const & ev, double& min_dist, Point& min_point) const +{ + for (map::const_iterator i = search.begin(); i != search.end(); ++i) { + BOOST_FOREACH (Point const & j, i->second) { + double const dist = pow(ev.GetX() - j.draw.x, 2) + pow(ev.GetY() - j.draw.y, 2); + if (dist < min_dist) { + min_dist = dist; + min_point = j; + } + } + } +} + +void +AudioPlot::mouse_moved (wxMouseEvent& ev) +{ + double min_dist = DBL_MAX; + Point min_point; + + search (_rms, ev, min_dist, min_point); + search (_peak, ev, min_dist, min_point); + + _cursor = optional (); + + if (min_dist < DBL_MAX) { + wxRect before (min_point.draw.x - _cursor_size / 2, min_point.draw.y - _cursor_size / 2, _cursor_size, _cursor_size); + GetParent()->Refresh (true, &before); + _cursor = min_point; + wxRect after (min_point.draw.x - _cursor_size / 2, min_point.draw.y - _cursor_size / 2, _cursor_size, _cursor_size); + GetParent()->Refresh (true, &after); + Cursor (min_point.time, min_point.db); + } +} + +void +AudioPlot::mouse_leave (wxMouseEvent &) +{ + _cursor = optional (); Refresh (); + Cursor (optional(), optional()); }