audacia
/
audacia
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
audacia/src/Menus.cpp

7184 lines
210 KiB
C++
Raw Blame History

/**********************************************************************
Audacity: A Digital Audio Editor
Menus.cpp
Dominic Mazzoni
Brian Gunlogson
et al.
*******************************************************************//**
\file Menus.cpp
\brief All AudacityProject functions that provide the menus.
Implements AudacityProjectCommandFunctor.
This file implements the method that creates the menu bar, plus
all of the methods that get called when you select an item
from a menu.
All of the menu bar handling is part of the class AudacityProject,
but the event handlers for all of the menu items have been moved
to Menus.h and Menus.cpp for clarity.
*//****************************************************************//**
\class AudacityProjectCommandFunctor
\brief AudacityProjectCommandFunctor, derived from CommandFunctor,
simplifies construction of menu items.
*//*******************************************************************/
#include "Audacity.h"
#include "Project.h"
#include <iterator>
#include <limits>
#include <math.h>
#include <wx/defs.h>
#include <wx/docview.h>
#include <wx/msgdlg.h>
#include <wx/filedlg.h>
#include <wx/textfile.h>
#include <wx/textdlg.h>
#include <wx/progdlg.h>
#include <wx/scrolbar.h>
#include <wx/ffile.h>
#include <wx/statusbr.h>
#include <wx/utils.h>
#include "FreqWindow.h"
#include "effects/Contrast.h"
#include "TrackPanel.h"
#include "effects/EffectManager.h"
#include "AudacityApp.h"
#include "AudacityLogger.h"
#include "AudioIO.h"
#include "Dependencies.h"
#include "float_cast.h"
#include "LabelTrack.h"
#ifdef USE_MIDI
#include "import/ImportMIDI.h"
#endif // USE_MIDI
#include "import/ImportRaw.h"
#include "export/Export.h"
#include "export/ExportMultiple.h"
#include "prefs/PrefsDialog.h"
#include "ShuttleGui.h"
#include "HistoryWindow.h"
#include "LyricsWindow.h"
#include "MixerBoard.h"
#include "Internat.h"
#include "FileFormats.h"
#include "ModuleManager.h"
#include "PluginManager.h"
#include "Prefs.h"
#include "Printing.h"
#ifdef USE_MIDI
#include "NoteTrack.h"
#endif // USE_MIDI
#include "Tags.h"
#include "TimeTrack.h"
#include "Mix.h"
#include "AboutDialog.h"
#include "Benchmark.h"
#include "Screenshot.h"
#include "ondemand/ODManager.h"
#include "Resample.h"
#include "BatchProcessDialog.h"
#include "BatchCommands.h"
#include "prefs/BatchPrefs.h"
#include "toolbars/ToolManager.h"
#include "toolbars/ControlToolBar.h"
#include "toolbars/ToolsToolBar.h"
#include "toolbars/EditToolBar.h"
#include "toolbars/DeviceToolBar.h"
#include "toolbars/MixerToolBar.h"
#include "toolbars/TranscriptionToolBar.h"
#include "widgets/LinkingHtmlWindow.h"
#include "Experimental.h"
#include "PlatformCompatibility.h"
#include "FileNames.h"
#include "TimeDialog.h"
#include "TimerRecordDialog.h"
#include "SoundActivatedRecord.h"
#include "LabelDialog.h"
#include "FileDialog.h"
#include "SplashDialog.h"
#include "widgets/HelpSystem.h"
#include "DeviceManager.h"
#include "Snap.h"
#include "UndoManager.h"
#include "WaveTrack.h"
#if defined(EXPERIMENTAL_CRASH_REPORT)
#include <wx/debugrpt.h>
#endif
#ifdef EXPERIMENTAL_SCOREALIGN
#include "effects/ScoreAlignDialog.h"
#include "audioreader.h"
#include "scorealign.h"
#include "scorealign-glue.h"
#endif /* EXPERIMENTAL_SCOREALIGN */
enum {
kAlignStartZero = 0,
kAlignStartSelStart,
kAlignStartSelEnd,
kAlignEndSelStart,
kAlignEndSelEnd,
// The next two are only in one subMenu, so more easily handled at the end.
kAlignEndToEnd,
kAlignTogether
};
// Define functor subclasses that dispatch to the correct call sequence on
// member functions of AudacityProject
using audCommandFunction = void (AudacityProject::*)();
class VoidFunctor final : public CommandFunctor
{
public:
explicit VoidFunctor(AudacityProject *project, audCommandFunction pfn)
: mProject{ project }, mCommandFunction{ pfn } {}
void operator () (int, const wxEvent *) override
{ (mProject->*mCommandFunction) (); }
private:
AudacityProject *const mProject;
const audCommandFunction mCommandFunction;
};
using audCommandKeyFunction = void (AudacityProject::*)(const wxEvent *);
class KeyFunctor final : public CommandFunctor
{
public:
explicit KeyFunctor(AudacityProject *project, audCommandKeyFunction pfn)
: mProject{ project }, mCommandKeyFunction{ pfn } {}
void operator () (int, const wxEvent *evt) override
{ (mProject->*mCommandKeyFunction) (evt); }
private:
AudacityProject *const mProject;
const audCommandKeyFunction mCommandKeyFunction;
};
using audCommandListFunction = void (AudacityProject::*)(int);
class ListFunctor final : public CommandFunctor
{
public:
explicit ListFunctor(AudacityProject *project, audCommandListFunction pfn)
: mProject{ project }, mCommandListFunction{ pfn } {}
void operator () (int index, const wxEvent *) override
{ (mProject->*mCommandListFunction)(index); }
private:
AudacityProject *const mProject;
const audCommandListFunction mCommandListFunction;
};
using audCommandPluginFunction = bool (AudacityProject::*)(const PluginID &, int);
class PluginFunctor final : public CommandFunctor
{
public:
explicit PluginFunctor(AudacityProject *project, const PluginID &id, audCommandPluginFunction pfn)
: mPluginID{ id }, mProject{ project }, mCommandPluginFunction{ pfn } {}
void operator () (int, const wxEvent *) override
{ (mProject->*mCommandPluginFunction) (mPluginID, AudacityProject::OnEffectFlags::kNone); }
private:
const PluginID mPluginID;
AudacityProject *const mProject;
const audCommandPluginFunction mCommandPluginFunction;
};
// Now define an overloaded factory function
inline CommandFunctorPointer MakeFunctor(AudacityProject *project, audCommandFunction pfn)
{ return CommandFunctorPointer{ safenew VoidFunctor{ project, pfn } }; }
inline CommandFunctorPointer MakeFunctor(AudacityProject *project, audCommandKeyFunction pfn)
{ return CommandFunctorPointer{ safenew KeyFunctor{ project, pfn } }; }
inline CommandFunctorPointer MakeFunctor(AudacityProject *project, audCommandListFunction pfn)
{ return CommandFunctorPointer{ safenew ListFunctor{ project, pfn } }; }
inline CommandFunctorPointer MakeFunctor(AudacityProject *project, const PluginID &id, audCommandPluginFunction pfn)
{ return CommandFunctorPointer{ safenew PluginFunctor{ project, id, pfn } }; }
// Now define the macro abbreviations that call the factory
#define FN(X) (MakeFunctor(this, &AudacityProject:: X ))
#define FNS(X, S) (MakeFunctor(this, (S), &AudacityProject:: X ))
//
// Effects menu arrays
//
WX_DEFINE_ARRAY_PTR(const PluginDescriptor *, EffectPlugs);
static int SortEffectsByName(const PluginDescriptor **a, const PluginDescriptor **b)
{
wxString akey = (*a)->GetName();
wxString bkey = (*b)->GetName();
akey += (*a)->GetPath();
bkey += (*b)->GetPath();
return akey.CmpNoCase(bkey);
}
static int SortEffectsByPublisher(const PluginDescriptor **a, const PluginDescriptor **b)
{
wxString akey = (*a)->GetVendor();
wxString bkey = (*b)->GetVendor();
if (akey.IsEmpty())
{
akey = _("Uncategorized");
}
if (bkey.IsEmpty())
{
bkey = _("Uncategorized");
}
akey += (*a)->GetName();
bkey += (*b)->GetName();
akey += (*a)->GetPath();
bkey += (*b)->GetPath();
return akey.CmpNoCase(bkey);
}
static int SortEffectsByPublisherAndName(const PluginDescriptor **a, const PluginDescriptor **b)
{
wxString akey = (*a)->GetVendor();
wxString bkey = (*b)->GetVendor();
if ((*a)->IsEffectDefault())
{
akey = wxEmptyString;
}
if ((*b)->IsEffectDefault())
{
bkey = wxEmptyString;
}
akey += (*a)->GetName();
bkey += (*b)->GetName();
akey += (*a)->GetPath();
bkey += (*b)->GetPath();
return akey.CmpNoCase(bkey);
}
static int SortEffectsByTypeAndName(const PluginDescriptor **a, const PluginDescriptor **b)
{
wxString akey = (*a)->GetEffectFamily();
wxString bkey = (*b)->GetEffectFamily();
if (akey.IsEmpty())
{
akey = _("Uncategorized");
}
if (bkey.IsEmpty())
{
bkey = _("Uncategorized");
}
if ((*a)->IsEffectDefault())
{
akey = wxEmptyString;
}
if ((*b)->IsEffectDefault())
{
bkey = wxEmptyString;
}
akey += (*a)->GetName();
bkey += (*b)->GetName();
akey += (*a)->GetPath();
bkey += (*b)->GetPath();
return akey.CmpNoCase(bkey);
}
static int SortEffectsByType(const PluginDescriptor **a, const PluginDescriptor **b)
{
wxString akey = (*a)->GetEffectFamily();
wxString bkey = (*b)->GetEffectFamily();
if (akey.IsEmpty())
{
akey = _("Uncategorized");
}
if (bkey.IsEmpty())
{
bkey = _("Uncategorized");
}
akey += (*a)->GetName();
bkey += (*b)->GetName();
akey += (*a)->GetPath();
bkey += (*b)->GetPath();
return akey.CmpNoCase(bkey);
}
/// CreateMenusAndCommands builds the menus, and also rebuilds them after
/// changes in configured preferences - for example changes in key-bindings
/// affect the short-cut key legend that appears beside each command,
void AudacityProject::CreateMenusAndCommands()
{
CommandManager *c = &mCommandManager;
wxArrayString names;
wxArrayInt indices;
{
auto menubar = c->AddMenuBar(wxT("appmenu"));
wxASSERT(menubar);
/////////////////////////////////////////////////////////////////////////////
// File menu
/////////////////////////////////////////////////////////////////////////////
c->BeginMenu(_("&File"));
c->SetDefaultFlags(AudioIONotBusyFlag, AudioIONotBusyFlag);
/*i18n-hint: "New" is an action (verb) to create a NEW project*/
c->AddItem(wxT("New"), _("&New"), FN(OnNew), wxT("Ctrl+N"),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
/*i18n-hint: (verb)*/
c->AddItem(wxT("Open"), _("&Open..."), FN(OnOpen), wxT("Ctrl+O"),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
/////////////////////////////////////////////////////////////////////////////
CreateRecentFilesMenu(c);
/////////////////////////////////////////////////////////////////////////////
c->AddSeparator();
c->AddItem(wxT("Close"), _("&Close"), FN(OnClose), wxT("Ctrl+W"));
c->AddItem(wxT("Save"), _("&Save Project"), FN(OnSave), wxT("Ctrl+S"),
AudioIONotBusyFlag | UnsavedChangesFlag,
AudioIONotBusyFlag | UnsavedChangesFlag);
c->AddItem(wxT("SaveAs"), _("Save Project &As..."), FN(OnSaveAs));
#ifdef USE_LIBVORBIS
c->AddItem(wxT("SaveCompressed"), _("Save Compressed Copy of Project..."), FN(OnSaveCompressed));
#endif
c->AddItem(wxT("CheckDeps"), _("Chec&k Dependencies..."), FN(OnCheckDependencies));
c->AddSeparator();
c->AddItem(wxT("EditMetaData"), _("Edit Me&tadata Tags..."), FN(OnEditMetadata));
c->AddSeparator();
/////////////////////////////////////////////////////////////////////////////
c->BeginSubMenu(_("&Import"));
c->AddItem(wxT("ImportAudio"), _("&Audio..."), FN(OnImport), wxT("Ctrl+Shift+I"));
c->AddItem(wxT("ImportLabels"), _("&Labels..."), FN(OnImportLabels));
#ifdef USE_MIDI
c->AddItem(wxT("ImportMIDI"), _("&MIDI..."), FN(OnImportMIDI));
#endif // USE_MIDI
c->AddItem(wxT("ImportRaw"), _("&Raw Data..."), FN(OnImportRaw));
c->EndSubMenu();
c->AddSeparator();
/////////////////////////////////////////////////////////////////////////////
// Enable Export audio commands only when there are audio tracks.
c->AddItem(wxT("Export"), _("&Export Audio..."), FN(OnExport), wxT("Ctrl+Shift+E"),
AudioIONotBusyFlag | WaveTracksExistFlag,
AudioIONotBusyFlag | WaveTracksExistFlag);
// Enable Export Selection commands only when there's a selection.
c->AddItem(wxT("ExportSel"), _("Expo&rt Selected Audio..."), FN(OnExportSelection),
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag);
c->AddItem(wxT("ExportLabels"), _("Export &Labels..."), FN(OnExportLabels),
AudioIONotBusyFlag | LabelTracksExistFlag,
AudioIONotBusyFlag | LabelTracksExistFlag);
// Enable Export audio commands only when there are audio tracks.
c->AddItem(wxT("ExportMultiple"), _("Export &Multiple..."), FN(OnExportMultiple), wxT("Ctrl+Shift+L"),
AudioIONotBusyFlag | WaveTracksExistFlag,
AudioIONotBusyFlag | WaveTracksExistFlag);
#if defined(USE_MIDI)
c->AddItem(wxT("ExportMIDI"), _("Export MIDI..."), FN(OnExportMIDI),
AudioIONotBusyFlag | NoteTracksSelectedFlag,
AudioIONotBusyFlag | NoteTracksSelectedFlag);
#endif
c->AddSeparator();
c->AddItem(wxT("ApplyChain"), _("Appl&y Chain..."), FN(OnApplyChain),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->AddItem(wxT("EditChains"), _("Edit C&hains..."), FN(OnEditChains));
c->AddSeparator();
c->AddItem(wxT("PageSetup"), _("Pa&ge Setup..."), FN(OnPageSetup),
AudioIONotBusyFlag | TracksExistFlag,
AudioIONotBusyFlag | TracksExistFlag);
/* i18n-hint: (verb) It's item on a menu. */
c->AddItem(wxT("Print"), _("&Print..."), FN(OnPrint),
AudioIONotBusyFlag | TracksExistFlag,
AudioIONotBusyFlag | TracksExistFlag);
c->AddSeparator();
// On the Mac, the Exit item doesn't actually go here...wxMac will pull it out
// and put it in the Audacity menu for us based on its ID.
/* i18n-hint: (verb) It's item on a menu. */
c->AddItem(wxT("Exit"), _("E&xit"), FN(OnExit), wxT("Ctrl+Q"),
AlwaysEnabledFlag,
AlwaysEnabledFlag);
c->EndMenu();
/////////////////////////////////////////////////////////////////////////////
// Edit Menu
/////////////////////////////////////////////////////////////////////////////
c->BeginMenu(_("&Edit"));
c->SetDefaultFlags(AudioIONotBusyFlag | TimeSelectedFlag | TracksSelectedFlag,
AudioIONotBusyFlag | TimeSelectedFlag | TracksSelectedFlag);
c->AddItem(wxT("Undo"), _("&Undo"), FN(OnUndo), wxT("Ctrl+Z"),
AudioIONotBusyFlag | UndoAvailableFlag,
AudioIONotBusyFlag | UndoAvailableFlag);
// The default shortcut key for Redo is different on different platforms.
wxString key =
#ifdef __WXMSW__
wxT("Ctrl+Y");
#else
wxT("Ctrl+Shift+Z");
#endif
c->AddItem(wxT("Redo"), _("&Redo"), FN(OnRedo), key,
AudioIONotBusyFlag | RedoAvailableFlag,
AudioIONotBusyFlag | RedoAvailableFlag);
ModifyUndoMenuItems();
c->AddSeparator();
// Basic Edit coomands
/* i18n-hint: (verb)*/
c->AddItem(wxT("Cut"), _("Cu&t"), FN(OnCut), wxT("Ctrl+X"),
AudioIONotBusyFlag | CutCopyAvailableFlag,
AudioIONotBusyFlag | CutCopyAvailableFlag);
c->AddItem(wxT("Delete"), _("&Delete"), FN(OnDelete), wxT("Ctrl+K"));
/* i18n-hint: (verb)*/
c->AddItem(wxT("Copy"), _("&Copy"), FN(OnCopy), wxT("Ctrl+C"),
AudioIONotBusyFlag | CutCopyAvailableFlag,
AudioIONotBusyFlag | CutCopyAvailableFlag);
/* i18n-hint: (verb)*/
c->AddItem(wxT("Paste"), _("&Paste"), FN(OnPaste), wxT("Ctrl+V"),
AudioIONotBusyFlag | ClipboardFlag,
AudioIONotBusyFlag | ClipboardFlag);
/* i18n-hint: (verb)*/
c->AddItem(wxT("Duplicate"), _("Duplic&ate"), FN(OnDuplicate), wxT("Ctrl+D"));
c->AddSeparator();
c->BeginSubMenu(_("R&emove Special"));
/* i18n-hint: (verb) Do a special kind of cut*/
c->AddItem(wxT("SplitCut"), _("Spl&it Cut"), FN(OnSplitCut), wxT("Ctrl+Alt+X"));
/* i18n-hint: (verb) Do a special kind of DELETE*/
c->AddItem(wxT("SplitDelete"), _("Split D&elete"), FN(OnSplitDelete), wxT("Ctrl+Alt+K"));
c->AddSeparator();
/* i18n-hint: (verb)*/
c->AddItem(wxT("Silence"), _("Silence Audi&o"), FN(OnSilence), wxT("Ctrl+L"),
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag);
/* i18n-hint: (verb)*/
c->AddItem(wxT("Trim"), _("Tri&m Audio"), FN(OnTrim), wxT("Ctrl+T"),
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag);
c->EndSubMenu();
c->AddItem(wxT("PasteNewLabel"), _("Paste Te&xt to New Label"), FN(OnPasteNewLabel), wxT("Ctrl+Alt+V"),
AudioIONotBusyFlag, AudioIONotBusyFlag);
c->AddSeparator();
/////////////////////////////////////////////////////////////////////////////
c->BeginSubMenu(_("Clip B&oundaries"));
/* i18n-hint: (verb) It's an item on a menu. */
c->AddItem(wxT("Split"), _("Sp&lit"), FN(OnSplit), wxT("Ctrl+I"),
AudioIONotBusyFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | WaveTracksSelectedFlag);
c->AddItem(wxT("SplitNew"), _("Split Ne&w"), FN(OnSplitNew), wxT("Ctrl+Alt+I"),
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag);
c->AddSeparator();
/* i18n-hint: (verb)*/
c->AddItem(wxT("Join"), _("&Join"), FN(OnJoin), wxT("Ctrl+J"));
c->AddItem(wxT("Disjoin"), _("Detac&h at Silences"), FN(OnDisjoin), wxT("Ctrl+Alt+J"));
c->EndSubMenu();
c->AddSeparator();
/////////////////////////////////////////////////////////////////////////////
c->BeginSubMenu(_("La&beled Audio"));
c->SetDefaultFlags(AudioIONotBusyFlag | LabelsSelectedFlag | WaveTracksExistFlag | TimeSelectedFlag,
AudioIONotBusyFlag | LabelsSelectedFlag | WaveTracksExistFlag | TimeSelectedFlag);
/* i18n-hint: (verb)*/
c->AddItem(wxT("CutLabels"), _("&Cut"), FN(OnCutLabels), wxT("Alt+X"),
AudioIONotBusyFlag | LabelsSelectedFlag | WaveTracksExistFlag | TimeSelectedFlag | IsNotSyncLockedFlag,
AudioIONotBusyFlag | LabelsSelectedFlag | WaveTracksExistFlag | TimeSelectedFlag | IsNotSyncLockedFlag);
c->AddItem(wxT("DeleteLabels"), _("&Delete"), FN(OnDeleteLabels), wxT("Alt+K"),
AudioIONotBusyFlag | LabelsSelectedFlag | WaveTracksExistFlag | TimeSelectedFlag | IsNotSyncLockedFlag,
AudioIONotBusyFlag | LabelsSelectedFlag | WaveTracksExistFlag | TimeSelectedFlag | IsNotSyncLockedFlag);
c->AddSeparator();
/* i18n-hint: (verb) A special way to cut out a piece of audio*/
c->AddItem(wxT("SplitCutLabels"), _("&Split Cut"), FN(OnSplitCutLabels), wxT("Alt+Shift+X"));
c->AddItem(wxT("SplitDeleteLabels"), _("Sp&lit Delete"), FN(OnSplitDeleteLabels), wxT("Alt+Shift+K"));
c->AddSeparator();
c->AddItem(wxT("SilenceLabels"), _("Silence &Audio"), FN(OnSilenceLabels), wxT("Alt+L"));
/* i18n-hint: (verb)*/
c->AddItem(wxT("CopyLabels"), _("Co&py"), FN(OnCopyLabels), wxT("Alt+Shift+C"));
c->AddSeparator();
/* i18n-hint: (verb)*/
c->AddItem(wxT("SplitLabels"), _("Spli&t"), FN(OnSplitLabels), wxT("Alt+I"),
AudioIONotBusyFlag | LabelsSelectedFlag | WaveTracksExistFlag,
AudioIONotBusyFlag | LabelsSelectedFlag | WaveTracksExistFlag);
/* i18n-hint: (verb)*/
c->AddItem(wxT("JoinLabels"), _("&Join"), FN(OnJoinLabels), wxT("Alt+J"));
c->AddItem(wxT("DisjoinLabels"), _("Detac&h at Silences"), FN(OnDisjoinLabels), wxT("Alt+Shift+J"));
c->EndSubMenu();
/////////////////////////////////////////////////////////////////////////////
/* i18n-hint: (verb) It's an item on a menu. */
c->BeginSubMenu(_("&Select"));
c->SetDefaultFlags(TracksExistFlag, TracksExistFlag);
c->AddItem(wxT("SelectAll"), _("&All"), FN(OnSelectAll), wxT("Ctrl+A"));
c->AddItem(wxT("SelectNone"), _("&None"), FN(OnSelectNone), wxT("Ctrl+Shift+A"));
#ifdef EXPERIMENTAL_SPECTRAL_EDITING
c->BeginSubMenu(_("S&pectral"));
c->AddItem(wxT("ToggleSpectralSelection"), _("To&ggle spectral selection"), FN(OnToggleSpectralSelection), wxT("Q"));
c->AddItem(wxT("NextHigherPeakFrequency"), _("Next Higher Peak Frequency"), FN(OnNextHigherPeakFrequency));
c->AddItem(wxT("NextLowerPeakFrequency"), _("Next Lower Peak Frequency"), FN(OnNextLowerPeakFrequency));
c->EndSubMenu();
#endif
c->AddItem(wxT("SetLeftSelection"), _("&Left at Playback Position"), FN(OnSetLeftSelection), wxT("["));
c->AddItem(wxT("SetRightSelection"), _("&Right at Playback Position"), FN(OnSetRightSelection), wxT("]"));
c->SetDefaultFlags(TracksSelectedFlag, TracksSelectedFlag);
c->AddItem(wxT("SelStartCursor"), _("Track &Start to Cursor"), FN(OnSelectStartCursor), wxT("Shift+J"));
c->AddItem(wxT("SelCursorEnd"), _("Cursor to Track &End"), FN(OnSelectCursorEnd), wxT("Shift+K"));
c->AddSeparator();
c->AddItem(wxT("SelAllTracks"), _("In All &Tracks"), FN(OnSelectAllTracks),
wxT("Ctrl+Shift+K"),
TracksExistFlag, TracksExistFlag);
#ifdef EXPERIMENTAL_SYNC_LOCK
c->AddItem(wxT("SelSyncLockTracks"), _("In All S&ync-Locked Tracks"),
FN(OnSelectSyncLockSel), wxT("Ctrl+Shift+Y"),
TracksSelectedFlag | IsSyncLockedFlag,
TracksSelectedFlag | IsSyncLockedFlag);
#endif
c->EndSubMenu();
/////////////////////////////////////////////////////////////////////////////
c->AddItem(wxT("ZeroCross"), _("Find &Zero Crossings"), FN(OnZeroCrossing), wxT("Z"));
/////////////////////////////////////////////////////////////////////////////
c->BeginSubMenu(_("Mo&ve Cursor"));
c->AddItem(wxT("CursSelStart"), _("to Selection Star&t"), FN(OnCursorSelStart));
c->AddItem(wxT("CursSelEnd"), _("to Selection En&d"), FN(OnCursorSelEnd));
c->AddItem(wxT("CursTrackStart"), _("to Track &Start"), FN(OnCursorTrackStart), wxT("J"));
c->AddItem(wxT("CursTrackEnd"), _("to Track &End"), FN(OnCursorTrackEnd), wxT("K"));
c->EndSubMenu();
/////////////////////////////////////////////////////////////////////////////
c->AddSeparator();
c->AddItem(wxT("SelSave"), _("Re&gion Save"), FN(OnSelectionSave),
WaveTracksSelectedFlag,
WaveTracksSelectedFlag);
c->AddItem(wxT("SelRestore"), _("Regio&n Restore"), FN(OnSelectionRestore),
TracksExistFlag,
TracksExistFlag);
c->AddSeparator();
/////////////////////////////////////////////////////////////////////////////
c->BeginSubMenu(_("Pla&y Region"));
c->AddItem(wxT("LockPlayRegion"), _("&Lock"), FN(OnLockPlayRegion),
PlayRegionNotLockedFlag,
PlayRegionNotLockedFlag);
c->AddItem(wxT("UnlockPlayRegion"), _("&Unlock"), FN(OnUnlockPlayRegion),
PlayRegionLockedFlag,
PlayRegionLockedFlag);
c->EndSubMenu();
/////////////////////////////////////////////////////////////////////////////
#ifndef __WXMAC__
c->AddSeparator();
#endif
// The default shortcut key for Preferences is different on different platforms.
key =
#ifdef __WXMAC__
wxT("Ctrl+,");
#else
wxT("Ctrl+P");
#endif
c->AddItem(wxT("Preferences"), _("Pre&ferences..."), FN(OnPreferences), key,
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->EndMenu();
/////////////////////////////////////////////////////////////////////////////
// View Menu
/////////////////////////////////////////////////////////////////////////////
c->BeginMenu(_("&View"));
c->SetDefaultFlags(TracksExistFlag, TracksExistFlag);
c->AddItem(wxT("ZoomIn"), _("Zoom &In"), FN(OnZoomIn), wxT("Ctrl+1"),
ZoomInAvailableFlag,
ZoomInAvailableFlag);
c->AddItem(wxT("ZoomNormal"), _("Zoom &Normal"), FN(OnZoomNormal), wxT("Ctrl+2"));
c->AddItem(wxT("ZoomOut"), _("Zoom &Out"), FN(OnZoomOut), wxT("Ctrl+3"),
ZoomOutAvailableFlag,
ZoomOutAvailableFlag);
c->AddItem(wxT("ZoomSel"), _("&Zoom to Selection"), FN(OnZoomSel), wxT("Ctrl+E"), TimeSelectedFlag, TimeSelectedFlag);
c->AddSeparator();
c->AddItem(wxT("FitInWindow"), _("&Fit in Window"), FN(OnZoomFit), wxT("Ctrl+F"));
c->AddItem(wxT("FitV"), _("Fit &Vertically"), FN(OnZoomFitV), wxT("Ctrl+Shift+F"));
c->AddSeparator();
c->AddItem(wxT("GoSelStart"), _("Go to Selection Sta&rt"), FN(OnGoSelStart), wxT("Ctrl+["), TimeSelectedFlag, TimeSelectedFlag);
c->AddItem(wxT("GoSelEnd"), _("Go to Selection En&d"), FN(OnGoSelEnd), wxT("Ctrl+]"), TimeSelectedFlag, TimeSelectedFlag);
c->AddSeparator();
c->AddItem(wxT("CollapseAllTracks"), _("&Collapse All Tracks"), FN(OnCollapseAllTracks), wxT("Ctrl+Shift+C"));
c->AddItem(wxT("ExpandAllTracks"), _("E&xpand All Tracks"), FN(OnExpandAllTracks), wxT("Ctrl+Shift+X"));
c->AddSeparator();
c->AddCheck(wxT("ShowClipping"), _("&Show Clipping"), FN(OnShowClipping),
gPrefs->Read(wxT("/GUI/ShowClipping"), 0L), AlwaysEnabledFlag, AlwaysEnabledFlag);
c->AddSeparator();
// History window should be available either for UndoAvailableFlag or RedoAvailableFlag,
// but we can't make the AddItem flags and mask have both, because they'd both have to be true for the
// command to be enabled.
// If user has Undone the entire stack, RedoAvailableFlag is on but UndoAvailableFlag is off.
// If user has done things but not Undone anything, RedoAvailableFlag is off but UndoAvailableFlag is on.
// So in either of those cases, (AudioIONotBusyFlag | UndoAvailableFlag | RedoAvailableFlag) mask
// would fail.
// The only way to fix this in the current architecture is to hack in special cases for RedoAvailableFlag
// in AudacityProject::UpdateMenus() (ugly) and CommandManager::HandleCommandEntry() (*really* ugly --
// shouldn't know about particular command names and flags).
// Here's the hack that would be necessary in AudacityProject::UpdateMenus(), if somebody decides to do it:
// // Because EnableUsingFlags requires all the flag bits match the corresponding mask bits,
// // "UndoHistory" specifies only AudioIONotBusyFlag | UndoAvailableFlag, because that
// // covers the majority of cases where it should be enabled.
// // If history is not empty but we've Undone the whole stack, we also want to enable,
// // to show the Redo's on stack.
// // "UndoHistory" might already be enabled, but add this check for RedoAvailableFlag.
// if (flags & RedoAvailableFlag)
// mCommandManager.Enable(wxT("UndoHistory"), true);
// So for now, enable the command regardless of stack. It will just show empty sometimes.
// FOR REDESIGN, clearly there are some limitations with the flags/mask bitmaps.
/* i18n-hint: Clicking this menu item shows the various editing steps that have been taken.*/
c->AddItem(wxT("UndoHistory"), _("&History..."), FN(OnHistory),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->AddItem(wxT("Karaoke"), _("&Karaoke..."), FN(OnKaraoke), LabelTracksExistFlag, LabelTracksExistFlag);
c->AddItem(wxT("MixerBoard"), _("&Mixer Board..."), FN(OnMixerBoard), WaveTracksExistFlag, WaveTracksExistFlag);
c->AddSeparator();
/////////////////////////////////////////////////////////////////////////////
c->BeginSubMenu(_("&Toolbars"));
/* i18n-hint: Clicking this menu item shows the toolbar that manages devices*/
c->AddCheck(wxT("ShowDeviceTB"), _("&Device Toolbar"), FN(OnShowDeviceToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
/* i18n-hint: Clicking this menu item shows the toolbar for editing*/
c->AddCheck(wxT("ShowEditTB"), _("&Edit Toolbar"), FN(OnShowEditToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
/* i18n-hint: Clicking this menu item shows the toolbar which has sound level meters*/
c->AddCheck(wxT("ShowMeterTB"), _("&Combined Meter Toolbar"), FN(OnShowMeterToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
/* i18n-hint: Clicking this menu item shows the toolbar with the recording level meters*/
c->AddCheck(wxT("ShowRecordMeterTB"), _("&Recording Meter Toolbar"), FN(OnShowRecordMeterToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
/* i18n-hint: Clicking this menu item shows the toolbar with the playback level meter*/
c->AddCheck(wxT("ShowPlayMeterTB"), _("&Playback Meter Toolbar"), FN(OnShowPlayMeterToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
/* i18n-hint: Clicking this menu item shows the toolbar with the mixer*/
c->AddCheck(wxT("ShowMixerTB"), _("Mi&xer Toolbar"), FN(OnShowMixerToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
/* i18n-hint: Clicking this menu item shows the toolbar for selecting a time range of audio*/
c->AddCheck(wxT("ShowSelectionTB"), _("&Selection Toolbar"), FN(OnShowSelectionToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
#ifdef EXPERIMENTAL_SPECTRAL_EDITING
/* i18n-hint: Clicking this menu item shows the toolbar for selecting a frequency range of audio*/
c->AddCheck(wxT("ShowSpectralSelectionTB"), _("&Spectral Selection Toolbar"), FN(OnShowSpectralSelectionToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
#endif
/* i18n-hint: Clicking this menu item shows a toolbar that has some tools in it*/
c->AddCheck(wxT("ShowToolsTB"), _("T&ools Toolbar"), FN(OnShowToolsToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
/* i18n-hint: Clicking this menu item shows the toolbar for transcription (currently just vary play speed)*/
c->AddCheck(wxT("ShowTranscriptionTB"), _("Transcri&ption Toolbar"), FN(OnShowTranscriptionToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
/* i18n-hint: Clicking this menu item shows the toolbar with the big buttons on it (play record etc)*/
c->AddCheck(wxT("ShowTransportTB"), _("&Transport Toolbar"), FN(OnShowTransportToolBar), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
c->AddSeparator();
/* i18n-hint: (verb)*/
c->AddItem(wxT("ResetToolbars"), _("&Reset Toolbars"), FN(OnResetToolBars), 0, AlwaysEnabledFlag, AlwaysEnabledFlag);
c->EndSubMenu();
c->EndMenu();
/////////////////////////////////////////////////////////////////////////////
// Transport Menu
/////////////////////////////////////////////////////////////////////////////
/*i18n-hint: 'Transport' is the name given to the set of controls that
play, record, pause etc. */
c->BeginMenu(_("T&ransport"));
c->SetDefaultFlags(AudioIONotBusyFlag, AudioIONotBusyFlag);
/* i18n-hint: (verb) Start or Stop audio playback*/
c->AddItem(wxT("PlayStop"), _("Pl&ay/Stop"), FN(OnPlayStop), wxT("Space"),
AlwaysEnabledFlag,
AlwaysEnabledFlag);
c->AddItem(wxT("PlayStopSelect"), _("Play/Stop and &Set Cursor"), FN(OnPlayStopSelect), wxT("Shift+A"),
AlwaysEnabledFlag,
AlwaysEnabledFlag);
c->AddItem(wxT("PlayLooped"), _("&Loop Play"), FN(OnPlayLooped), wxT("Shift+Space"),
WaveTracksExistFlag | AudioIONotBusyFlag,
WaveTracksExistFlag | AudioIONotBusyFlag);
c->AddItem(wxT("Pause"), _("&Pause"), FN(OnPause), wxT("P"),
AlwaysEnabledFlag,
AlwaysEnabledFlag);
c->AddItem(wxT("SkipStart"), _("S&kip to Start"), FN(OnSkipStart), wxT("Home"),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->AddItem(wxT("SkipEnd"), _("Skip to E&nd"), FN(OnSkipEnd), wxT("End"),
WaveTracksExistFlag | AudioIONotBusyFlag,
WaveTracksExistFlag | AudioIONotBusyFlag);
c->AddSeparator();
/* i18n-hint: (verb)*/
c->AddItem(wxT("Record"), _("&Record"), FN(OnRecord), wxT("R"));
c->AddItem(wxT("TimerRecord"), _("&Timer Record..."), FN(OnTimerRecord), wxT("Shift+T"));
c->AddItem(wxT("RecordAppend"), _("Appen&d Record"), FN(OnRecordAppend), wxT("Shift+R"));
c->AddSeparator();
c->AddCheck(wxT("Duplex"), _("&Overdub (on/off)"), FN(OnTogglePlayRecording), 0);
c->AddCheck(wxT("SWPlaythrough"), _("So&ftware Playthrough (on/off)"), FN(OnToggleSWPlaythrough), 0);
// Sound Activated recording options
c->AddCheck(wxT("SoundActivation"), _("Sound A&ctivated Recording (on/off)"), FN(OnToggleSoundActivated), 0);
c->AddItem(wxT("SoundActivationLevel"), _("Sound Activation Le&vel..."), FN(OnSoundActivated));
#ifdef EXPERIMENTAL_AUTOMATED_INPUT_LEVEL_ADJUSTMENT
c->AddCheck(wxT("AutomatedInputLevelAdjustmentOnOff"), _("A&utomated Recording Level Adjustment (on/off)"), FN(OnToogleAutomatedInputLevelAdjustment), 0);
#endif
c->AddItem(wxT("RescanDevices"), _("R&escan Audio Devices"), FN(OnRescanDevices));
c->EndMenu();
//////////////////////////////////////////////////////////////////////////
// Tracks Menu (formerly Project Menu)
//////////////////////////////////////////////////////////////////////////
c->BeginMenu(_("&Tracks"));
c->SetDefaultFlags(AudioIONotBusyFlag, AudioIONotBusyFlag);
//////////////////////////////////////////////////////////////////////////
c->BeginSubMenu(_("Add &New"));
c->AddItem(wxT("NewMonoTrack"), _("&Mono Track"), FN(OnNewWaveTrack), wxT("Ctrl+Shift+N"));
c->AddItem(wxT("NewStereoTrack"), _("&Stereo Track"), FN(OnNewStereoTrack));
c->AddItem(wxT("NewLabelTrack"), _("&Label Track"), FN(OnNewLabelTrack));
c->AddItem(wxT("NewTimeTrack"), _("&Time Track"), FN(OnNewTimeTrack));
c->EndSubMenu();
//////////////////////////////////////////////////////////////////////////
c->AddSeparator();
{
// Stereo to Mono is an oddball command that is also subject to control by the
// plug-in manager, as if an effect. Decide whether to show or hide it.
const PluginID ID = EffectManager::Get().GetEffectByIdentifier(wxT("StereoToMono"));
const PluginDescriptor *plug = PluginManager::Get().GetPlugin(ID);
if (plug)
c->AddItem(wxT("Stereo to Mono"), _("Stereo Trac&k to Mono"), FN(OnStereoToMono),
AudioIONotBusyFlag | StereoRequiredFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | StereoRequiredFlag | WaveTracksSelectedFlag);
}
c->AddItem(wxT("MixAndRender"), _("Mi&x and Render"), FN(OnMixAndRender),
AudioIONotBusyFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | WaveTracksSelectedFlag);
c->AddItem(wxT("MixAndRenderToNewTrack"), _("Mix and Render to Ne&w Track"), FN(OnMixAndRenderToNewTrack), wxT("Ctrl+Shift+M"),
AudioIONotBusyFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | WaveTracksSelectedFlag);
c->AddItem(wxT("Resample"), _("&Resample..."), FN(OnResample),
AudioIONotBusyFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | WaveTracksSelectedFlag);
c->AddSeparator();
c->AddItem(wxT("RemoveTracks"), _("Remo&ve Tracks"), FN(OnRemoveTracks),
AudioIONotBusyFlag | TracksSelectedFlag,
AudioIONotBusyFlag | TracksSelectedFlag);
c->AddSeparator();
c->AddItem(wxT("MuteAllTracks"), _("&Mute All Tracks"), FN(OnMuteAllTracks), wxT("Ctrl+U"));
c->AddItem(wxT("UnMuteAllTracks"), _("&Unmute All Tracks"), FN(OnUnMuteAllTracks), wxT("Ctrl+Shift+U"));
c->AddSeparator();
wxArrayString alignLabelsNoSync;
alignLabelsNoSync.Add(_("&Align End to End"));
alignLabelsNoSync.Add(_("Align &Together"));
wxArrayString alignLabels;
alignLabels.Add(_("Start to &Zero"));
alignLabels.Add(_("Start to &Cursor/Selection Start"));
alignLabels.Add(_("Start to Selection &End"));
alignLabels.Add(_("End to Cu&rsor/Selection Start"));
alignLabels.Add(_("End to Selection En&d"));
mAlignLabelsCount = alignLabels.GetCount();
// Calling c->SetCommandFlags() after AddItemList for "Align" and "AlignMove"
// does not correctly set flags for submenus, so do it this way.
c->SetDefaultFlags(AudioIONotBusyFlag | TracksSelectedFlag,
AudioIONotBusyFlag | TracksSelectedFlag);
c->BeginSubMenu(_("&Align Tracks"));
c->AddItemList(wxT("Align"), alignLabelsNoSync, FN(OnAlignNoSync));
c->AddSeparator();
c->AddItemList(wxT("Align"), alignLabels, FN(OnAlign));
c->EndSubMenu();
//////////////////////////////////////////////////////////////////////////
// TODO: Can these labels be made clearer? Do we need this sub-menu at all?
c->BeginSubMenu(_("Move Sele&ction when Aligning"));
c->AddItemList(wxT("AlignMove"), alignLabels, FN(OnAlignMoveSel));
c->SetCommandFlags(wxT("AlignMove"),
AudioIONotBusyFlag | TracksSelectedFlag,
AudioIONotBusyFlag | TracksSelectedFlag);
c->EndSubMenu();
c->SetDefaultFlags(AudioIONotBusyFlag, AudioIONotBusyFlag);
//////////////////////////////////////////////////////////////////////////
#ifdef EXPERIMENTAL_SCOREALIGN
c->AddItem(wxT("ScoreAlign"), _("Synchronize MIDI with Audio"), FN(OnScoreAlign),
AudioIONotBusyFlag | NoteTracksSelectedFlag | WaveTracksSelectedFlag,
AudioIONotBusyFlag | NoteTracksSelectedFlag | WaveTracksSelectedFlag);
#endif // EXPERIMENTAL_SCOREALIGN
c->AddSeparator();
#ifdef EXPERIMENTAL_SYNC_LOCK
c->AddCheck(wxT("SyncLock"), _("Sync-&Lock Tracks"), FN(OnSyncLock), 0,
AlwaysEnabledFlag, AlwaysEnabledFlag);
c->AddSeparator();
#endif
c->AddItem(wxT("AddLabel"), _("Add Label At &Selection"), FN(OnAddLabel), wxT("Ctrl+B"),
AlwaysEnabledFlag, AlwaysEnabledFlag);
c->AddItem(wxT("AddLabelPlaying"), _("Add Label At &Playback Position"),
FN(OnAddLabelPlaying),
#ifdef __WXMAC__
wxT("Ctrl+."),
#else
wxT("Ctrl+M"),
#endif
0, AudioIONotBusyFlag);
c->AddItem(wxT("EditLabels"), _("&Edit Labels..."), FN(OnEditLabels));
c->AddSeparator();
//////////////////////////////////////////////////////////////////////////
c->BeginSubMenu(_("S&ort Tracks"));
c->AddItem(wxT("SortByTime"), _("by &Start time"), FN(OnSortTime),
TracksExistFlag,
TracksExistFlag);
c->AddItem(wxT("SortByName"), _("by &Name"), FN(OnSortName),
TracksExistFlag,
TracksExistFlag);
c->EndSubMenu();
//////////////////////////////////////////////////////////////////////////
c->EndMenu();
// All of this is a bit hacky until we can get more things connected into
// the plugin manager...sorry! :-(
wxArrayString defaults;
//////////////////////////////////////////////////////////////////////////
// Generate Menu
//////////////////////////////////////////////////////////////////////////
c->BeginMenu(_("&Generate"));
c->SetDefaultFlags(AudioIONotBusyFlag, AudioIONotBusyFlag);
#ifdef EXPERIMENTAL_EFFECT_MANAGEMENT
c->AddItem(wxT("ManageGenerators"), _("Add / Remove Plug-ins..."), FN(OnManageGenerators));
c->AddSeparator();
#endif
PopulateEffectsMenu(c,
EffectTypeGenerate,
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->EndMenu();
/////////////////////////////////////////////////////////////////////////////
// Effect Menu
/////////////////////////////////////////////////////////////////////////////
c->BeginMenu(_("Effe&ct"));
wxString buildMenuLabel;
if (!mLastEffect.IsEmpty()) {
buildMenuLabel.Printf(_("Repeat %s"),
EffectManager::Get().GetEffectName(mLastEffect).c_str());
}
else
buildMenuLabel.Printf(_("Repeat Last Effect"));
#ifdef EXPERIMENTAL_EFFECT_MANAGEMENT
c->AddItem(wxT("ManageEffects"), _("Add / Remove Plug-ins..."), FN(OnManageEffects));
c->AddSeparator();
#endif
c->AddItem(wxT("RepeatLastEffect"), buildMenuLabel, FN(OnRepeatLastEffect), wxT("Ctrl+R"),
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag | HasLastEffectFlag,
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag | HasLastEffectFlag);
c->AddSeparator();
PopulateEffectsMenu(c,
EffectTypeProcess,
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag,
IsRealtimeNotActiveFlag);
c->EndMenu();
//////////////////////////////////////////////////////////////////////////
// Analyze Menu
//////////////////////////////////////////////////////////////////////////
c->BeginMenu(_("&Analyze"));
#ifdef EXPERIMENTAL_EFFECT_MANAGEMENT
c->AddItem(wxT("ManageAnalyzers"), _("Add / Remove Plug-ins..."), FN(OnManageAnalyzers));
c->AddSeparator();
#endif
c->AddItem(wxT("ContrastAnalyser"), _("Contrast..."), FN(OnContrast), wxT("Ctrl+Shift+T"),
AudioIONotBusyFlag | WaveTracksSelectedFlag | TimeSelectedFlag,
AudioIONotBusyFlag | WaveTracksSelectedFlag | TimeSelectedFlag);
c->AddItem(wxT("PlotSpectrum"), _("Plot Spectrum..."), FN(OnPlotSpectrum),
AudioIONotBusyFlag | WaveTracksSelectedFlag | TimeSelectedFlag,
AudioIONotBusyFlag | WaveTracksSelectedFlag | TimeSelectedFlag);
PopulateEffectsMenu(c,
EffectTypeAnalyze,
AudioIONotBusyFlag | TimeSelectedFlag | WaveTracksSelectedFlag,
IsRealtimeNotActiveFlag);
c->EndMenu();
/////////////////////////////////////////////////////////////////////////////
// Help Menu
/////////////////////////////////////////////////////////////////////////////
#ifdef __WXMAC__
wxGetApp().s_macHelpMenuTitleName = _("&Help");
#endif
c->BeginMenu(_("&Help"));
c->SetDefaultFlags(AlwaysEnabledFlag, AlwaysEnabledFlag);
c->AddItem(wxT("QuickHelp"), _("&Quick Help"), FN(OnQuickHelp));
c->AddItem(wxT("Manual"), _("&Manual"), FN(OnManual));
c->AddSeparator();
c->AddItem(wxT("Screenshot"), _("&Screenshot Tools..."), FN(OnScreenshot));
#if IS_ALPHA
// TODO: What should we do here? Make benchmark a plug-in?
// Easy enough to do. We'd call it mod-self-test.
c->AddItem(wxT("Benchmark"), _("&Run Benchmark..."), FN(OnBenchmark));
#endif
c->AddSeparator();
c->AddItem(wxT("Updates"), _("&Check for Updates..."), FN(OnCheckForUpdates));
c->AddItem(wxT("DeviceInfo"), _("Au&dio Device Info..."), FN(OnAudioDeviceInfo),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->AddItem(wxT("Log"), _("Show &Log..."), FN(OnShowLog));
#if defined(EXPERIMENTAL_CRASH_REPORT)
c->AddItem(wxT("CrashReport"), _("&Generate Support Data..."), FN(OnCrashReport));
#endif
#ifndef __WXMAC__
c->AddSeparator();
#endif
c->AddItem(wxT("About"), _("&About Audacity..."), FN(OnAbout));
c->EndMenu();
/////////////////////////////////////////////////////////////////////////////
SetMenuBar(menubar.release());
}
c->AddGlobalCommand(wxT("PrevWindow"), _("Move backward thru active windows"), FN(PrevWindow), wxT("Alt+Shift+F6"));
c->AddGlobalCommand(wxT("NextWindow"), _("Move forward thru active windows"), FN(NextWindow), wxT("Alt+F6"));
c->SetDefaultFlags(AlwaysEnabledFlag, AlwaysEnabledFlag);
c->AddCommand(wxT("PrevFrame"), _("Move backward from toolbars to tracks"), FN(PrevFrame), wxT("Ctrl+Shift+F6"));
c->AddCommand(wxT("NextFrame"), _("Move forward from toolbars to tracks"), FN(NextFrame), wxT("Ctrl+F6"));
c->AddCommand(wxT("SelectTool"), _("Selection Tool"), FN(OnSelectTool), wxT("F1"));
c->AddCommand(wxT("EnvelopeTool"),_("Envelope Tool"), FN(OnEnvelopeTool), wxT("F2"));
c->AddCommand(wxT("DrawTool"), _("Draw Tool"), FN(OnDrawTool), wxT("F3"));
c->AddCommand(wxT("ZoomTool"), _("Zoom Tool"), FN(OnZoomTool), wxT("F4"));
c->AddCommand(wxT("TimeShiftTool"), _("Time Shift Tool"), FN(OnTimeShiftTool), wxT("F5"));
c->AddCommand(wxT("MultiTool"), _("Multi Tool"), FN(OnMultiTool), wxT("F6"));
c->AddCommand(wxT("NextTool"), _("Next Tool"), FN(OnNextTool), wxT("D"));
c->AddCommand(wxT("PrevTool"), _("Previous Tool"), FN(OnPrevTool), wxT("A"));
/* i18n-hint: (verb) Start playing audio*/
c->AddCommand(wxT("Play"), _("Play"), FN(OnPlayStop),
WaveTracksExistFlag | AudioIONotBusyFlag,
WaveTracksExistFlag | AudioIONotBusyFlag);
/* i18n-hint: (verb) Stop playing audio*/
c->AddCommand(wxT("Stop"), _("Stop"), FN(OnStop),
AudioIOBusyFlag,
AudioIOBusyFlag);
c->SetDefaultFlags(CaptureNotBusyFlag, CaptureNotBusyFlag);
c->AddCommand(wxT("PlayOneSec"), _("Play One Second"), FN(OnPlayOneSecond), wxT("1"),
CaptureNotBusyFlag,
CaptureNotBusyFlag);
c->AddCommand(wxT("PlayToSelection"),_("Play To Selection"), FN(OnPlayToSelection), wxT("B"),
CaptureNotBusyFlag,
CaptureNotBusyFlag);
c->AddCommand(wxT("PlayBeforeSelectionStart"),_("Play Before Selection Start"), FN(OnPlayBeforeSelectionStart), wxT("Shift+F5"));
c->AddCommand(wxT("PlayAfterSelectionStart"),_("Play After Selection Start"), FN(OnPlayAfterSelectionStart), wxT("Shift+F6"));
c->AddCommand(wxT("PlayBeforeSelectionEnd"),_("Play Before Selection End"), FN(OnPlayBeforeSelectionEnd), wxT("Shift+F7"));
c->AddCommand(wxT("PlayAfterSelectionEnd"),_("Play After Selection End"), FN(OnPlayAfterSelectionEnd), wxT("Shift+F8"));
c->AddCommand(wxT("PlayBeforeAndAfterSelectionStart"),_("Play Before and After Selection Start"), FN(OnPlayBeforeAndAfterSelectionStart), wxT("Ctrl+Shift+F5"));
c->AddCommand(wxT("PlayBeforeAndAfterSelectionEnd"),_("Play Before and After Selection End"), FN(OnPlayBeforeAndAfterSelectionEnd), wxT("Ctrl+Shift+F7"));
c->AddCommand(wxT("PlayCutPreview"), _("Play Cut Preview"), FN(OnPlayCutPreview), wxT("C"),
CaptureNotBusyFlag,
CaptureNotBusyFlag);
c->SetDefaultFlags(AlwaysEnabledFlag, AlwaysEnabledFlag);
c->AddCommand(wxT("SelStart"), _("Selection to Start"), FN(OnSelToStart), wxT("Shift+Home"));
c->AddCommand(wxT("SelEnd"), _("Selection to End"), FN(OnSelToEnd), wxT("Shift+End"));
c->AddCommand(wxT("DeleteKey"), _("DeleteKey"), FN(OnDelete), wxT("Backspace"),
AudioIONotBusyFlag | TracksSelectedFlag | TimeSelectedFlag,
AudioIONotBusyFlag | TracksSelectedFlag | TimeSelectedFlag);
c->AddCommand(wxT("DeleteKey2"), _("DeleteKey2"), FN(OnDelete), wxT("Delete"),
AudioIONotBusyFlag | TracksSelectedFlag | TimeSelectedFlag,
AudioIONotBusyFlag | TracksSelectedFlag | TimeSelectedFlag);
c->SetDefaultFlags(AudioIOBusyFlag, AudioIOBusyFlag);
c->AddCommand(wxT("SeekLeftShort"), _("Short seek left during playback"), FN(OnSeekLeftShort), wxT("Left\tallowDup"));
c->AddCommand(wxT("SeekRightShort"),_("Short seek right during playback"), FN(OnSeekRightShort), wxT("Right\tallowDup"));
c->AddCommand(wxT("SeekLeftLong"), _("Long seek left during playback"), FN(OnSeekLeftLong), wxT("Shift+Left\tallowDup"));
c->AddCommand(wxT("SeekRightLong"), _("Long Seek right during playback"), FN(OnSeekRightLong), wxT("Shift+Right\tallowDup"));
c->SetDefaultFlags(TracksExistFlag | TrackPanelHasFocus,
TracksExistFlag | TrackPanelHasFocus);
c->AddCommand(wxT("PrevTrack"), _("Move Focus to Previous Track"), FN(OnCursorUp), wxT("Up"));
c->AddCommand(wxT("NextTrack"), _("Move Focus to Next Track"), FN(OnCursorDown), wxT("Down"));
c->AddCommand(wxT("FirstTrack"), _("Move Focus to First Track"), FN(OnFirstTrack), wxT("Ctrl+Home"));
c->AddCommand(wxT("LastTrack"), _("Move Focus to Last Track"), FN(OnLastTrack), wxT("Ctrl+End"));
c->AddCommand(wxT("ShiftUp"), _("Move Focus to Previous and Select"), FN(OnShiftUp), wxT("Shift+Up"));
c->AddCommand(wxT("ShiftDown"), _("Move Focus to Next and Select"), FN(OnShiftDown), wxT("Shift+Down"));
c->AddCommand(wxT("Toggle"), _("Toggle Focused Track"), FN(OnToggle), wxT("Return"));
c->AddCommand(wxT("ToggleAlt"), _("Toggle Focused Track"), FN(OnToggle), wxT("NUMPAD_ENTER"));
c->AddCommand(wxT("CursorLeft"), _("Cursor Left"), FN(OnCursorLeft), wxT("Left\twantKeyup\tallowDup"));
c->AddCommand(wxT("CursorRight"), _("Cursor Right"), FN(OnCursorRight), wxT("Right\twantKeyup\tallowDup"));
c->AddCommand(wxT("CursorShortJumpLeft"), _("Cursor Short Jump Left"), FN(OnCursorShortJumpLeft), wxT(","));
c->AddCommand(wxT("CursorShortJumpRight"), _("Cursor Short Jump Right"), FN(OnCursorShortJumpRight), wxT("."));
c->AddCommand(wxT("CursorLongJumpLeft"), _("Cursor Long Jump Left"), FN(OnCursorLongJumpLeft), wxT("Shift+,"));
c->AddCommand(wxT("CursorLongJumpRight"), _("Cursor Long Jump Right"), FN(OnCursorLongJumpRight), wxT("Shift+."));
c->AddCommand(wxT("SelExtLeft"), _("Selection Extend Left"), FN(OnSelExtendLeft), wxT("Shift+Left\twantKeyup\tallowDup"));
c->AddCommand(wxT("SelExtRight"), _("Selection Extend Right"), FN(OnSelExtendRight), wxT("Shift+Right\twantKeyup\tallowDup"));
c->AddCommand(wxT("SelSetExtLeft"), _("Set (or Extend) Left Selection"), FN(OnSelSetExtendLeft));
c->AddCommand(wxT("SelSetExtRight"), _("Set (or Extend) Right Selection"), FN(OnSelSetExtendRight));
c->AddCommand(wxT("SelCntrLeft"), _("Selection Contract Left"), FN(OnSelContractLeft), wxT("Ctrl+Shift+Right\twantKeyup"));
c->AddCommand(wxT("SelCntrRight"), _("Selection Contract Right"), FN(OnSelContractRight), wxT("Ctrl+Shift+Left\twantKeyup"));
c->AddCommand(wxT("TrackPan"), _("Change pan on focused track"), FN(OnTrackPan), wxT("Shift+P"));
c->AddCommand(wxT("TrackPanLeft"), _("Pan left on focused track"), FN(OnTrackPanLeft), wxT("Alt+Shift+Left"));
c->AddCommand(wxT("TrackPanRight"), _("Pan right on focused track"), FN(OnTrackPanRight), wxT("Alt+Shift+Right"));
c->AddCommand(wxT("TrackGain"), _("Change gain on focused track"), FN(OnTrackGain), wxT("Shift+G"));
c->AddCommand(wxT("TrackGainInc"), _("Increase gain on focused track"), FN(OnTrackGainInc), wxT("Alt+Shift+Up"));
c->AddCommand(wxT("TrackGainDec"), _("Decrease gain on focused track"), FN(OnTrackGainDec), wxT("Alt+Shift+Down"));
c->AddCommand(wxT("TrackMenu"), _("Open menu on focused track"), FN(OnTrackMenu), wxT("Shift+M\tskipKeydown"));
c->AddCommand(wxT("TrackMute"), _("Mute/Unmute focused track"), FN(OnTrackMute), wxT("Shift+U"));
c->AddCommand(wxT("TrackSolo"), _("Solo/Unsolo focused track"), FN(OnTrackSolo), wxT("Shift+S"));
c->AddCommand(wxT("TrackClose"), _("Close focused track"), FN(OnTrackClose), wxT("Shift+C"));
c->AddCommand(wxT("TrackMoveUp"), _("Move focused track up"), FN(OnTrackMoveUp));
c->AddCommand(wxT("TrackMoveDown"), _("Move focused track down"), FN(OnTrackMoveDown));
c->AddCommand(wxT("TrackMoveTop"), _("Move focused track to top"), FN(OnTrackMoveTop));
c->AddCommand(wxT("TrackMoveBottom"), _("Move focused track to bottom"), FN(OnTrackMoveBottom));
c->SetDefaultFlags(AlwaysEnabledFlag, AlwaysEnabledFlag);
c->AddCommand(wxT("SnapToOff"), _("Snap To Off"), FN(OnSnapToOff));
c->AddCommand(wxT("SnapToNearest"), _("Snap To Nearest"), FN(OnSnapToNearest));
c->AddCommand(wxT("SnapToPrior"), _("Snap To Prior"), FN(OnSnapToPrior));
c->AddCommand(wxT("FullScreenOnOff"), _("Full screen on/off"), FN(OnFullScreen),
#ifdef __WXMAC__
wxT("Ctrl+/"));
#else
wxT("F11"));
#endif
c->AddCommand(wxT("InputDevice"), _("Change recording device"), FN(OnInputDevice), wxT("Shift+I"),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->AddCommand(wxT("OutputDevice"), _("Change playback device"), FN(OnOutputDevice), wxT("Shift+O"),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->AddCommand(wxT("AudioHost"), _("Change audio host"), FN(OnAudioHost), wxT("Shift+H"),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->AddCommand(wxT("InputChannels"), _("Change recording channels"), FN(OnInputChannels), wxT("Shift+N"),
AudioIONotBusyFlag,
AudioIONotBusyFlag);
c->AddCommand(wxT("OutputGain"), _("Adjust playback volume"), FN(OnOutputGain));
c->AddCommand(wxT("OutputGainInc"), _("Increase playback volume"), FN(OnOutputGainInc));
c->AddCommand(wxT("OutputGainDec"), _("Decrease playback volume"), FN(OnOutputGainDec));
c->AddCommand(wxT("InputGain"), _("Adjust recording volume"), FN(OnInputGain));
c->AddCommand(wxT("InputGainInc"), _("Increase recording volume"), FN(OnInputGainInc));
c->AddCommand(wxT("InputGainDec"), _("Decrease recording volume"), FN(OnInputGainDec));
c->SetDefaultFlags(CaptureNotBusyFlag, CaptureNotBusyFlag);
c->AddCommand(wxT("PlayAtSpeed"), _("Play at speed"), FN(OnPlayAtSpeed));
c->AddCommand(wxT("PlayAtSpeedLooped"), _("Loop Play at speed"), FN(OnPlayAtSpeedLooped));
c->AddCommand(wxT("PlayAtSpeedCutPreview"), _("Play Cut Preview at speed"), FN(OnPlayAtSpeedCutPreview));
c->AddCommand(wxT("SetPlaySpeed"), _("Adjust playback speed"), FN(OnSetPlaySpeed));
c->AddCommand(wxT("PlaySpeedInc"), _("Increase playback speed"), FN(OnPlaySpeedInc));
c->AddCommand(wxT("PlaySpeedDec"), _("Decrease playback speed"), FN(OnPlaySpeedDec));
mLastFlags = 0;
#if defined(__WXDEBUG__)
// c->CheckDups();
#endif
}
void AudacityProject::PopulateEffectsMenu(CommandManager* c,
EffectType type,
int batchflags,
int realflags)
{
PluginManager & pm = PluginManager::Get();
EffectPlugs defplugs;
EffectPlugs optplugs;
const PluginDescriptor *plug = pm.GetFirstPluginForEffectType(type);
while (plug)
{
if ( !plug->IsEnabled() ){
;// don't add to menus!
}
else if (plug->IsEffectDefault())
{
defplugs.Add(plug);
}
else
{
optplugs.Add(plug);
}
plug = pm.GetNextPluginForEffectType(type);
}
wxString groupby = gPrefs->Read(wxT("/Effects/GroupBy"), wxT("name"));
if (groupby == wxT("sortby:name"))
{
defplugs.Sort(SortEffectsByName);
optplugs.Sort(SortEffectsByName);
}
else if (groupby == wxT("sortby:publisher:name"))
{
defplugs.Sort(SortEffectsByName);
optplugs.Sort(SortEffectsByPublisherAndName);
}
else if (groupby == wxT("sortby:type:name"))
{
defplugs.Sort(SortEffectsByName);
optplugs.Sort(SortEffectsByTypeAndName);
}
else if (groupby == wxT("groupby:publisher"))
{
defplugs.Sort(SortEffectsByPublisher);
optplugs.Sort(SortEffectsByPublisher);
}
else if (groupby == wxT("groupby:type"))
{
defplugs.Sort(SortEffectsByType);
optplugs.Sort(SortEffectsByType);
}
else // name
{
defplugs.Sort(SortEffectsByName);
optplugs.Sort(SortEffectsByName);
}
AddEffectMenuItems(c, defplugs, batchflags, realflags, true);
if (defplugs.GetCount() && optplugs.GetCount())
{
c->AddSeparator();
}
AddEffectMenuItems(c, optplugs, batchflags, realflags, false);
return;
}
void AudacityProject::AddEffectMenuItems(CommandManager *c,
EffectPlugs & plugs,
int batchflags,
int realflags,
bool isDefault)
{
size_t pluginCnt = plugs.GetCount();
wxString groupBy = gPrefs->Read(wxT("/Effects/GroupBy"), wxT("name"));
bool grouped = false;
if (groupBy.StartsWith(wxT("groupby")))
{
grouped = true;
}
wxArrayString groupNames;
PluginIDList groupPlugs;
wxArrayInt groupFlags;
if (grouped)
{
wxString last;
wxString current;
for (size_t i = 0; i < pluginCnt; i++)
{
const PluginDescriptor *plug = plugs[i];
wxString name = plug->GetName();
if (plug->IsEffectInteractive())
{
name += wxT("...");
}
if (groupBy == wxT("groupby:publisher"))
{
current = plug->GetVendor();
if (current.IsEmpty())
{
current = _("Unknown");
}
}
else if (groupBy == wxT("groupby:type"))
{
current = plug->GetEffectFamily();
if (current.IsEmpty())
{
current = _("Unknown");
}
}
if (current != last)
{
if (!last.IsEmpty())
{
c->BeginSubMenu(last);
}
AddEffectMenuItemGroup(c, groupNames, groupPlugs, groupFlags, isDefault);
if (!last.IsEmpty())
{
c->EndSubMenu();
}
groupNames.Clear();
groupPlugs.Clear();
groupFlags.Clear();
last = current;
}
groupNames.Add(name);
groupPlugs.Add(plug->GetID());
groupFlags.Add(plug->IsEffectRealtime() ? realflags : batchflags);
}
if (groupNames.GetCount() > 0)
{
c->BeginSubMenu(current);
AddEffectMenuItemGroup(c, groupNames, groupPlugs, groupFlags, isDefault);
c->EndSubMenu();
}
}
else
{
for (size_t i = 0; i < pluginCnt; i++)
{
const PluginDescriptor *plug = plugs[i];
wxString name = plug->GetName();
if (plug->IsEffectInteractive())
{
name += wxT("...");
}
wxString group = wxEmptyString;
if (groupBy == wxT("sortby:publisher:name"))
{
group = plug->GetVendor();
}
else if (groupBy == wxT("sortby:type:name"))
{
group = plug->GetEffectFamily();
}
if (plug->IsEffectDefault())
{
group = wxEmptyString;
}
if (!group.IsEmpty())
{
group += wxT(": ");
}
groupNames.Add(group + name);
groupPlugs.Add(plug->GetID());
groupFlags.Add(plug->IsEffectRealtime() ? realflags : batchflags);
}
if (groupNames.GetCount() > 0)
{
AddEffectMenuItemGroup(c, groupNames, groupPlugs, groupFlags, isDefault);
}
}
return;
}
void AudacityProject::AddEffectMenuItemGroup(CommandManager *c,
const wxArrayString & names,
const PluginIDList & plugs,
const wxArrayInt & flags,
bool isDefault)
{
int namesCnt = (int) names.GetCount();
int perGroup;
#if defined(__WXGTK__)
gPrefs->Read(wxT("/Effects/MaxPerGroup"), &perGroup, 15);
#else
gPrefs->Read(wxT("/Effects/MaxPerGroup"), &perGroup, 0);
#endif
int groupCnt = namesCnt;
for (int i = 0; i < namesCnt; i++)
{
while (i + 1 < namesCnt && names[i].IsSameAs(names[i + 1]))
{
i++;
groupCnt--;
}
}
// The "default" effects shouldn't be broken into subgroups
if (namesCnt > 0 && isDefault)
{
perGroup = 0;
}
int max = perGroup;
int items = perGroup;
if (max > groupCnt)
{
max = 0;
}
int groupNdx = 0;
for (int i = 0; i < namesCnt; i++)
{
if (max > 0 && items == max)
{
int end = groupNdx + max;
if (end + 1 > groupCnt)
{
end = groupCnt;
}
c->BeginSubMenu(wxString::Format(_("Plug-ins %d to %d"),
groupNdx + 1,
end));
}
if (i + 1 < namesCnt && names[i].IsSameAs(names[i + 1]))
{
wxString name = names[i];
c->BeginSubMenu(name);
while (i < namesCnt && names[i].IsSameAs(name))
{
wxString item = PluginManager::Get().GetPlugin(plugs[i])->GetPath();
c->AddItem(item,
item,
FNS(OnEffect, plugs[i]),
flags[i],
flags[i]);
i++;
}
c->EndSubMenu();
i--;
}
else
{
c->AddItem(names[i],
names[i],
FNS(OnEffect, plugs[i]),
flags[i],
flags[i]);
}
if (max > 0)
{
groupNdx++;
items--;
if (items == 0 || i + 1 == namesCnt)
{
c->EndSubMenu();
items = max;
}
}
}
return;
}
void AudacityProject::CreateRecentFilesMenu(CommandManager *c)
{
// Recent Files and Recent Projects menus
#ifdef __WXMAC__
/* i18n-hint: This is the name of the menu item on Mac OS X only */
mRecentFilesMenu = c->BeginSubMenu(_("Open Recent"));
#else
/* i18n-hint: This is the name of the menu item on Windows and Linux */
mRecentFilesMenu = c->BeginSubMenu(_("Recent &Files"));
#endif
wxGetApp().GetRecentFiles()->UseMenu(mRecentFilesMenu);
wxGetApp().GetRecentFiles()->AddFilesToMenu(mRecentFilesMenu);
c->EndSubMenu();
}
void AudacityProject::ModifyUndoMenuItems()
{
wxString desc;
int cur = GetUndoManager()->GetCurrentState();
if (GetUndoManager()->UndoAvailable()) {
GetUndoManager()->GetShortDescription(cur, &desc);
mCommandManager.Modify(wxT("Undo"),
wxString::Format(_("&Undo %s"),
desc.c_str()));
}
else {
mCommandManager.Modify(wxT("Undo"),
wxString::Format(_("&Undo")));
}
if (GetUndoManager()->RedoAvailable()) {
GetUndoManager()->GetShortDescription(cur+1, &desc);
mCommandManager.Modify(wxT("Redo"),
wxString::Format(_("&Redo %s"),
desc.c_str()));
mCommandManager.Enable(wxT("Redo"), true);
}
else {
mCommandManager.Modify(wxT("Redo"),
wxString::Format(_("&Redo")));
mCommandManager.Enable(wxT("Redo"), false);
}
}
void AudacityProject::RebuildMenuBar()
{
// On OSX, we can't rebuild the menus while a modal dialog is being shown
// since the enabled state for menus like Quit and Preference gets out of
// sync with wxWidgets idea of what it should be.
#if defined(__WXMAC__) && defined(__WXDEBUG__)
{
wxDialog *dlg = wxDynamicCast(wxGetTopLevelParent(FindFocus()), wxDialog);
wxASSERT((!dlg || !dlg->IsModal()));
}
#endif
// Allow FileHistory to remove its own menu
wxGetApp().GetRecentFiles()->RemoveMenu(mRecentFilesMenu);
// Delete the menus, since we will soon recreate them.
// Rather oddly, the menus don't vanish as a result of doing this.
{
std::unique_ptr<wxMenuBar> menuBar{ GetMenuBar() };
DetachMenuBar();
// menuBar gets deleted here
}
mCommandManager.PurgeData();
CreateMenusAndCommands();
ModuleManager::Get().Dispatch(MenusRebuilt);
}
void AudacityProject::RebuildOtherMenus()
{
if (mTrackPanel) {
mTrackPanel->BuildMenus();
}
}
int AudacityProject::GetFocusedFrame()
{
wxWindow *w = FindFocus();
while (w && mToolManager && mTrackPanel) {
if (w == mToolManager->GetTopDock()) {
return TopDockHasFocus;
}
if (w == mTrackPanel) {
return TrackPanelHasFocus;
}
if (w == mToolManager->GetBotDock()) {
return BotDockHasFocus;
}
w = w->GetParent();
}
return 0;
}
wxUint32 AudacityProject::GetUpdateFlags()
{
// This method determines all of the flags that determine whether
// certain menu items and commands should be enabled or disabled,
// and returns them in a bitfield. Note that if none of the flags
// have changed, it's not necessary to even check for updates.
wxUint32 flags = 0;
if (!gAudioIO->IsAudioTokenActive(GetAudioIOToken()))
flags |= AudioIONotBusyFlag;
else
flags |= AudioIOBusyFlag;
if (!mViewInfo.selectedRegion.isPoint())
flags |= TimeSelectedFlag;
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t) {
flags |= TracksExistFlag;
if (t->GetKind() == Track::Label) {
LabelTrack *lt = (LabelTrack *) t;
flags |= LabelTracksExistFlag;
if (lt->GetSelected()) {
flags |= TracksSelectedFlag;
for (int i = 0; i < lt->GetNumLabels(); i++) {
const LabelStruct *ls = lt->GetLabel(i);
if (ls->getT0() >= mViewInfo.selectedRegion.t0() &&
ls->getT1() <= mViewInfo.selectedRegion.t1()) {
flags |= LabelsSelectedFlag;
break;
}
}
}
if (lt->IsTextSelected()) {
flags |= CutCopyAvailableFlag;
}
}
else if (t->GetKind() == Track::Wave) {
flags |= WaveTracksExistFlag;
if (t->GetSelected()) {
flags |= TracksSelectedFlag;
if (t->GetLinked()) {
flags |= StereoRequiredFlag;
}
else {
flags |= WaveTracksSelectedFlag;
}
}
}
#if defined(USE_MIDI)
else if (t->GetKind() == Track::Note) {
NoteTrack *nt = (NoteTrack *) t;
flags |= NoteTracksExistFlag;
if (nt->GetSelected()) {
flags |= TracksSelectedFlag;
flags |= NoteTracksSelectedFlag;
}
}
#endif
t = iter.Next();
}
if((msClipT1 - msClipT0) > 0.0)
flags |= ClipboardFlag;
if (GetUndoManager()->UnsavedChanges())
flags |= UnsavedChangesFlag;
if (!mLastEffect.IsEmpty())
flags |= HasLastEffectFlag;
if (GetUndoManager()->UndoAvailable())
flags |= UndoAvailableFlag;
if (GetUndoManager()->RedoAvailable())
flags |= RedoAvailableFlag;
if (ZoomInAvailable() && (flags & TracksExistFlag))
flags |= ZoomInAvailableFlag;
if (ZoomOutAvailable() && (flags & TracksExistFlag))
flags |= ZoomOutAvailableFlag;
if ((flags & LabelTracksExistFlag) && LabelTrack::IsTextClipSupported())
flags |= TextClipFlag;
flags |= GetFocusedFrame();
double start, end;
GetPlayRegion(&start, &end);
if (IsPlayRegionLocked())
flags |= PlayRegionLockedFlag;
else if (start != end)
flags |= PlayRegionNotLockedFlag;
if (flags & AudioIONotBusyFlag) {
if (flags & TimeSelectedFlag) {
if (flags & TracksSelectedFlag) {
flags |= CutCopyAvailableFlag;
}
}
}
if (wxGetApp().GetRecentFiles()->GetCount() > 0)
flags |= HaveRecentFiles;
if (IsSyncLocked())
flags |= IsSyncLockedFlag;
else
flags |= IsNotSyncLockedFlag;
if (!EffectManager::Get().RealtimeIsActive())
flags |= IsRealtimeNotActiveFlag;
if (!mIsCapturing)
flags |= CaptureNotBusyFlag;
return flags;
}
void AudacityProject::SelectAllIfNone()
{
wxUint32 flags = GetUpdateFlags();
if(((flags & TracksSelectedFlag) ==0) ||
(mViewInfo.selectedRegion.isPoint()))
OnSelectAll();
}
void AudacityProject::ModifyAllProjectToolbarMenus()
{
AProjectArray::iterator i;
for (i = gAudacityProjects.begin(); i != gAudacityProjects.end(); ++i) {
((AudacityProject *)*i)->ModifyToolbarMenus();
}
}
void AudacityProject::ModifyToolbarMenus()
{
// Refreshes can occur during shutdown and the toolmanager may already
// be deleted, so protect against it.
if (!mToolManager) {
return;
}
mCommandManager.Check(wxT("ShowDeviceTB"),
mToolManager->IsVisible(DeviceBarID));
mCommandManager.Check(wxT("ShowEditTB"),
mToolManager->IsVisible(EditBarID));
mCommandManager.Check(wxT("ShowMeterTB"),
mToolManager->IsVisible(MeterBarID));
mCommandManager.Check(wxT("ShowRecordMeterTB"),
mToolManager->IsVisible(RecordMeterBarID));
mCommandManager.Check(wxT("ShowPlayMeterTB"),
mToolManager->IsVisible(PlayMeterBarID));
mCommandManager.Check(wxT("ShowMixerTB"),
mToolManager->IsVisible(MixerBarID));
mCommandManager.Check(wxT("ShowSelectionTB"),
mToolManager->IsVisible(SelectionBarID));
#ifdef EXPERIMENTAL_SPECTRAL_EDITING
mCommandManager.Check(wxT("ShowSpectralSelectionTB"),
mToolManager->IsVisible(SpectralSelectionBarID));
#endif
mCommandManager.Check(wxT("ShowToolsTB"),
mToolManager->IsVisible(ToolsBarID));
mCommandManager.Check(wxT("ShowTranscriptionTB"),
mToolManager->IsVisible(TranscriptionBarID));
mCommandManager.Check(wxT("ShowTransportTB"),
mToolManager->IsVisible(TransportBarID));
// Now, go through each toolbar, and call EnableDisableButtons()
for (int i = 0; i < ToolBarCount; i++) {
mToolManager->GetToolBar(i)->EnableDisableButtons();
}
// These don't really belong here, but it's easier and especially so for
// the Edit toolbar and the sync-lock menu item.
bool active;
gPrefs->Read(wxT("/AudioIO/SoundActivatedRecord"),&active, false);
mCommandManager.Check(wxT("SoundActivation"), active);
#ifdef EXPERIMENTAL_AUTOMATED_INPUT_LEVEL_ADJUSTMENT
gPrefs->Read(wxT("/AudioIO/AutomatedInputLevelAdjustment"),&active, false);
mCommandManager.Check(wxT("AutomatedInputLevelAdjustmentOnOff"), active);
#endif
gPrefs->Read(wxT("/AudioIO/Duplex"),&active, true);
mCommandManager.Check(wxT("Duplex"), active);
gPrefs->Read(wxT("/AudioIO/SWPlaythrough"),&active, false);
mCommandManager.Check(wxT("SWPlaythrough"), active);
gPrefs->Read(wxT("/GUI/SyncLockTracks"), &active, false);
SetSyncLock(active);
mCommandManager.Check(wxT("SyncLock"), active);
}
// checkActive is a temporary hack that should be removed as soon as we
// get multiple effect preview working
void AudacityProject::UpdateMenus(bool checkActive)
{
//ANSWER-ME: Why UpdateMenus only does active project?
//JKC: Is this test fixing a bug when multiple projects are open?
//so that menu states work even when different in different projects?
if (this != GetActiveProject())
return;
if (checkActive && !IsActive())
return;
wxUint32 flags = GetUpdateFlags();
wxUint32 flags2 = flags;
// We can enable some extra items if we have select-all-on-none.
//EXPLAIN-ME: Why is this here rather than in GetUpdateFlags()?
if (mSelectAllOnNone)
{
if ((flags & TracksExistFlag) != 0)
{
flags2 |= TracksSelectedFlag;
if ((flags & WaveTracksExistFlag) != 0 )
{
flags2 |= TimeSelectedFlag
| WaveTracksSelectedFlag
| CutCopyAvailableFlag;
}
}
}
// Return from this function if nothing's changed since
// the last time we were here.
if (flags == mLastFlags)
return;
mLastFlags = flags;
mCommandManager.EnableUsingFlags(flags2 , 0xFFFFFFFF);
// With select-all-on-none, some items that we don't want enabled may have
// been enabled, since we changed the flags. Here we manually disable them.
if (mSelectAllOnNone)
{
if ((flags & TracksSelectedFlag) == 0)
{
mCommandManager.Enable(wxT("SplitCut"), false);
if ((flags & WaveTracksSelectedFlag) == 0)
{
mCommandManager.Enable(wxT("Split"), false);
}
if ((flags & TimeSelectedFlag) == 0)
{
mCommandManager.Enable(wxT("ExportSel"), false);
mCommandManager.Enable(wxT("SplitNew"), false);
mCommandManager.Enable(wxT("Trim"), false);
mCommandManager.Enable(wxT("SplitDelete"), false);
}
}
}
#if 0
if (flags & CutCopyAvailableFlag) {
mCommandManager.Enable(wxT("Copy"), true);
mCommandManager.Enable(wxT("Cut"), true);
}
#endif
ModifyToolbarMenus();
}
//
// Tool selection commands
//
void AudacityProject::SetTool(int tool)
{
ToolsToolBar *toolbar = GetToolsToolBar();
if (toolbar) {
toolbar->SetCurrentTool(tool, true);
mTrackPanel->Refresh(false);
}
}
void AudacityProject::OnSelectTool()
{
SetTool(selectTool);
}
void AudacityProject::OnZoomTool()
{
SetTool(zoomTool);
}
void AudacityProject::OnEnvelopeTool()
{
SetTool(envelopeTool);
}
void AudacityProject::OnTimeShiftTool()
{
SetTool(slideTool);
}
void AudacityProject::OnDrawTool()
{
SetTool(drawTool);
}
void AudacityProject::OnMultiTool()
{
SetTool(multiTool);
}
void AudacityProject::OnNextTool()
{
ToolsToolBar *toolbar = GetToolsToolBar();
if (toolbar) {
// Use GetDownTool() here since GetCurrentTool() can return a value that
// doesn't represent the real tool if the Multi-tool is being used.
toolbar->SetCurrentTool((toolbar->GetDownTool()+1)%numTools, true);
mTrackPanel->Refresh(false);
}
}
void AudacityProject::OnPrevTool()
{
ToolsToolBar *toolbar = GetToolsToolBar();
if (toolbar) {
// Use GetDownTool() here since GetCurrentTool() can return a value that
// doesn't represent the real tool if the Multi-tool is being used.
toolbar->SetCurrentTool((toolbar->GetDownTool()+(numTools-1))%numTools, true);
mTrackPanel->Refresh(false);
}
}
//
// Audio I/O Commands
//
// TODO: Should all these functions which involve
// the toolbar actually move into ControlToolBar?
/// MakeReadyToPlay stops whatever is currently playing
/// and pops the play button up. Then, if nothing is now
/// playing, it pushes the play button down and enables
/// the stop button.
bool AudacityProject::MakeReadyToPlay(bool loop, bool cutpreview)
{
ControlToolBar *toolbar = GetControlToolBar();
wxCommandEvent evt;
// If this project is playing, stop playing
if (gAudioIO->IsStreamActive(GetAudioIOToken())) {
toolbar->SetPlay(false); //Pops
toolbar->SetStop(true); //Pushes stop down
toolbar->OnStop(evt);
::wxMilliSleep(100);
}
// If it didn't stop playing quickly, or if some other
// project is playing, return
if (gAudioIO->IsBusy())
return false;
toolbar->SetPlay(true, loop, cutpreview);
toolbar->SetStop(false);
return true;
}
void AudacityProject::OnPlayOneSecond()
{
if( !MakeReadyToPlay() )
return;
double pos = mTrackPanel->GetMostRecentXPos();
mLastPlayMode = oneSecondPlay;
GetControlToolBar()->PlayPlayRegion
(SelectedRegion(pos - 0.5, pos + 0.5), GetDefaultPlayOptions());
}
/// The idea for this function (and first implementation)
/// was from Juhana Sadeharju. The function plays the
/// sound between the current mouse position and the
/// nearest selection boundary. This gives four possible
/// play regions depending on where the current mouse
/// position is relative to the left and right boundaries
/// of the selection region.
void AudacityProject::OnPlayToSelection()
{
if( !MakeReadyToPlay() )
return;
double pos = mTrackPanel->GetMostRecentXPos();
double t0,t1;
// check region between pointer and the nearest selection edge
if (fabs(pos - mViewInfo.selectedRegion.t0()) <
fabs(pos - mViewInfo.selectedRegion.t1())) {
t0 = t1 = mViewInfo.selectedRegion.t0();
} else {
t0 = t1 = mViewInfo.selectedRegion.t1();
}
if( pos < t1)
t0=pos;
else
t1=pos;
// JKC: oneSecondPlay mode disables auto scrolling
// On balance I think we should always do this in this function
// since you are typically interested in the sound EXACTLY
// where the cursor is.
// TODO: have 'playing attributes' such as 'with_autoscroll'
// rather than modes, since that's how we're now using the modes.
mLastPlayMode = oneSecondPlay;
// An alternative, commented out below, is to disable autoscroll
// only when playing a short region, less than or equal to a second.
// mLastPlayMode = ((t1-t0) > 1.0) ? normalPlay : oneSecondPlay;
GetControlToolBar()->PlayPlayRegion
(SelectedRegion(t0, t1), GetDefaultPlayOptions());
}
// The next 4 functions provide a limited version of the
// functionality of OnPlayToSelection() for keyboard users
void AudacityProject::OnPlayBeforeSelectionStart()
{
if( !MakeReadyToPlay() )
return;
double t0 = mViewInfo.selectedRegion.t0();
double beforeLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewBeforeLen"), &beforeLen, 2.0);
mLastPlayMode = oneSecondPlay; // this disables auto scrolling, as in OnPlayToSelection()
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t0 - beforeLen, t0), GetDefaultPlayOptions());
}
void AudacityProject::OnPlayAfterSelectionStart()
{
if( !MakeReadyToPlay() )
return;
double t0 = mViewInfo.selectedRegion.t0();
double t1 = mViewInfo.selectedRegion.t1();
double afterLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewAfterLen"), &afterLen, 1.0);
mLastPlayMode = oneSecondPlay; // this disables auto scrolling, as in OnPlayToSelection()
if ( t1 - t0 > 0.0 && t1 - t0 < afterLen )
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t0, t1), GetDefaultPlayOptions());
else
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t0, t0 + afterLen), GetDefaultPlayOptions());
}
void AudacityProject::OnPlayBeforeSelectionEnd()
{
if( !MakeReadyToPlay() )
return;
double t0 = mViewInfo.selectedRegion.t0();
double t1 = mViewInfo.selectedRegion.t1();
double beforeLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewBeforeLen"), &beforeLen, 2.0);
mLastPlayMode = oneSecondPlay; // this disables auto scrolling, as in OnPlayToSelection()
if ( t1 - t0 > 0.0 && t1 - t0 < beforeLen )
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t0, t1), GetDefaultPlayOptions());
else
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t1 - beforeLen, t1), GetDefaultPlayOptions());
}
void AudacityProject::OnPlayAfterSelectionEnd()
{
if( !MakeReadyToPlay() )
return;
double t1 = mViewInfo.selectedRegion.t1();
double afterLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewAfterLen"), &afterLen, 1.0);
mLastPlayMode = oneSecondPlay; // this disables auto scrolling, as in OnPlayToSelection()
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t1, t1 + afterLen), GetDefaultPlayOptions());
}
void AudacityProject::OnPlayBeforeAndAfterSelectionStart()
{
if (!MakeReadyToPlay())
return;
double t0 = mViewInfo.selectedRegion.t0();
double t1 = mViewInfo.selectedRegion.t1();
double beforeLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewBeforeLen"), &beforeLen, 2.0);
double afterLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewAfterLen"), &afterLen, 1.0);
mLastPlayMode = oneSecondPlay; // this disables auto scrolling, as in OnPlayToSelection()
if ( t1 - t0 > 0.0 && t1 - t0 < afterLen )
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t0 - beforeLen, t1), GetDefaultPlayOptions());
else
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t0 - beforeLen, t0 + afterLen), GetDefaultPlayOptions());
}
void AudacityProject::OnPlayBeforeAndAfterSelectionEnd()
{
if (!MakeReadyToPlay())
return;
double t0 = mViewInfo.selectedRegion.t0();
double t1 = mViewInfo.selectedRegion.t1();
double beforeLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewBeforeLen"), &beforeLen, 2.0);
double afterLen;
gPrefs->Read(wxT("/AudioIO/CutPreviewAfterLen"), &afterLen, 1.0);
mLastPlayMode = oneSecondPlay; // this disables auto scrolling, as in OnPlayToSelection()
if ( t1 - t0 > 0.0 && t1 - t0 < beforeLen )
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t0, t1 + afterLen), GetDefaultPlayOptions());
else
GetControlToolBar()->PlayPlayRegion(SelectedRegion(t1 - beforeLen, t1 + afterLen), GetDefaultPlayOptions());
}
void AudacityProject::OnPlayLooped()
{
if( !MakeReadyToPlay(true) )
return;
// Now play in a loop
// Will automatically set mLastPlayMode
GetControlToolBar()->PlayCurrentRegion(true);
}
void AudacityProject::OnPlayCutPreview()
{
if ( !MakeReadyToPlay(false, true) )
return;
// Play with cut preview
GetControlToolBar()->PlayCurrentRegion(false, true);
}
void AudacityProject::OnPlayStop()
{
ControlToolBar *toolbar = GetControlToolBar();
//If this project is playing, stop playing, make sure everything is unpaused.
if (gAudioIO->IsStreamActive(GetAudioIOToken())) {
toolbar->SetPlay(false); //Pops
toolbar->SetStop(true); //Pushes stop down
toolbar->StopPlaying();
}
else if (gAudioIO->IsStreamActive()) {
//If this project isn't playing, but another one is, stop playing the old and start the NEW.
//find out which project we need;
AudacityProject* otherProject = NULL;
for(unsigned i=0; i<gAudacityProjects.GetCount(); i++) {
if(gAudioIO->IsStreamActive(gAudacityProjects[i]->GetAudioIOToken())) {
otherProject=gAudacityProjects[i];
break;
}
}
//stop playing the other project
if(otherProject) {
ControlToolBar *otherToolbar = otherProject->GetControlToolBar();
otherToolbar->SetPlay(false); //Pops
otherToolbar->SetStop(true); //Pushes stop down
otherToolbar->StopPlaying();
}
//play the front project
if (!gAudioIO->IsBusy()) {
//update the playing area
TP_DisplaySelection();
//Otherwise, start playing (assuming audio I/O isn't busy)
//toolbar->SetPlay(true); // Not needed as done in PlayPlayRegion.
toolbar->SetStop(false);
// Will automatically set mLastPlayMode
toolbar->PlayCurrentRegion(false);
}
}
else if (!gAudioIO->IsBusy()) {
//Otherwise, start playing (assuming audio I/O isn't busy)
//toolbar->SetPlay(true); // Not needed as done in PlayPlayRegion.
toolbar->SetStop(false);
// Will automatically set mLastPlayMode
toolbar->PlayCurrentRegion(false);
}
}
void AudacityProject::OnStop()
{
wxCommandEvent evt;
if (gAudioIO->IsStreamActive())
GetControlToolBar()->OnStop(evt);
}
void AudacityProject::OnPause()
{
wxCommandEvent evt;
GetControlToolBar()->OnPause(evt);
}
void AudacityProject::OnRecord()
{
wxCommandEvent evt;
evt.SetInt(2); // 0 is default, use 1 to set shift on, 2 to clear it
GetControlToolBar()->OnRecord(evt);
}
void AudacityProject::OnRecordAppend()
{
wxCommandEvent evt;
evt.SetInt(1); // 0 is default, use 1 to set shift on, 2 to clear it
GetControlToolBar()->OnRecord(evt);
}
// The code for "OnPlayStopSelect" is simply the code of "OnPlayStop" and "OnStopSelect" merged.
void AudacityProject::OnPlayStopSelect()
{
wxCommandEvent evt;
ControlToolBar *toolbar = GetControlToolBar();
//If busy, stop playing, make sure everything is unpaused.
if (gAudioIO->IsStreamActive(GetAudioIOToken())) {
toolbar->SetPlay(false); //Pops
toolbar->SetStop(true); //Pushes stop down
mViewInfo.selectedRegion.setT0(gAudioIO->GetStreamTime(), false);
ModifyState(false); // without bWantsAutoSave
toolbar->OnStop(evt);
}
else if (!gAudioIO->IsBusy()) {
//Otherwise, start playing (assuming audio I/O isn't busy)
//toolbar->SetPlay(true); // Not needed as set in PlayPlayRegion()
toolbar->SetStop(false);
// Will automatically set mLastPlayMode
toolbar->PlayCurrentRegion(false);
}
}
void AudacityProject::OnStopSelect()
{
wxCommandEvent evt;
if (gAudioIO->IsStreamActive()) {
mViewInfo.selectedRegion.setT0(gAudioIO->GetStreamTime(), false);
GetControlToolBar()->OnStop(evt);
ModifyState(false); // without bWantsAutoSave
}
}
void AudacityProject::OnToggleSoundActivated()
{
bool pause;
gPrefs->Read(wxT("/AudioIO/SoundActivatedRecord"), &pause, false);
gPrefs->Write(wxT("/AudioIO/SoundActivatedRecord"), !pause);
gPrefs->Flush();
ModifyAllProjectToolbarMenus();
}
void AudacityProject::OnTogglePlayRecording()
{
bool Duplex;
gPrefs->Read(wxT("/AudioIO/Duplex"), &Duplex, true);
gPrefs->Write(wxT("/AudioIO/Duplex"), !Duplex);
gPrefs->Flush();
ModifyAllProjectToolbarMenus();
}
void AudacityProject::OnToggleSWPlaythrough()
{
bool SWPlaythrough;
gPrefs->Read(wxT("/AudioIO/SWPlaythrough"), &SWPlaythrough, false);
gPrefs->Write(wxT("/AudioIO/SWPlaythrough"), !SWPlaythrough);
gPrefs->Flush();
ModifyAllProjectToolbarMenus();
}
#ifdef EXPERIMENTAL_AUTOMATED_INPUT_LEVEL_ADJUSTMENT
void AudacityProject::OnToogleAutomatedInputLevelAdjustment()
{
bool AVEnabled;
gPrefs->Read(wxT("/AudioIO/AutomatedInputLevelAdjustment"), &AVEnabled, false);
gPrefs->Write(wxT("/AudioIO/AutomatedInputLevelAdjustment"), !AVEnabled);
gPrefs->Flush();
ModifyAllProjectToolbarMenus();
}
#endif
double AudacityProject::GetTime(Track *t)
{
double stime = 0.0;
if (t->GetKind() == Track::Wave) {
WaveTrack *w = (WaveTrack *)t;
stime = w->GetEndTime();
WaveClip *c;
int ndx;
for (ndx = 0; ndx < w->GetNumClips(); ndx++) {
c = w->GetClipByIndex(ndx);
if (c->GetNumSamples() == 0)
continue;
if (c->GetStartTime() < stime) {
stime = c->GetStartTime();
}
}
}
else if (t->GetKind() == Track::Label) {
LabelTrack *l = (LabelTrack *)t;
stime = l->GetStartTime();
}
return stime;
}
//sort based on flags. see Project.h for sort flags
void AudacityProject::SortTracks(int flags)
{
int ndx = 0;
int cmpValue;
wxArrayPtrVoid arr;
TrackListIterator iter(mTracks);
Track *track = iter.First();
bool lastTrackLinked = false;
//sort by linked tracks. Assumes linked track follows owner in list.
while (track) {
if(lastTrackLinked) {
//insert after the last track since this track should be linked to it.
ndx++;
}
else {
for (ndx = 0; ndx < (int)arr.GetCount(); ndx++) {
if(flags & kAudacitySortByName){
//do case insensitive sort - cmpNoCase returns less than zero if the string is 'less than' its argument
//also if we have case insensitive equality, then we need to sort by case as well
//We sort 'b' before 'B' accordingly. We uncharacteristically use greater than for the case sensitive
//compare because 'b' is greater than 'B' in ascii.
cmpValue = track->GetName().CmpNoCase(((Track *) arr[ndx])->GetName());
if (cmpValue < 0 ||
(0 == cmpValue && track->GetName().CompareTo(((Track *) arr[ndx])->GetName()) > 0) )
break;
}
//sort by time otherwise
else if(flags & kAudacitySortByTime){
//we have to search each track and all its linked ones to fine the minimum start time.
double time1,time2,tempTime;
Track* tempTrack;
int candidatesLookedAt;
candidatesLookedAt = 0;
tempTrack = track;
time1=time2=std::numeric_limits<double>::max(); //TODO: find max time value. (I don't think we have one yet)
while(tempTrack){
tempTime = GetTime(tempTrack);
time1 = time1<tempTime? time1:tempTime;
if(tempTrack->GetLinked())
tempTrack = tempTrack->GetLink();
else
tempTrack = NULL;
}
//get candidate's (from sorted array) time
tempTrack = (Track *) arr[ndx];
while(tempTrack){
tempTime = GetTime(tempTrack);
time2 = time2<tempTime? time2:tempTime;
if(tempTrack->GetLinked() && (ndx+candidatesLookedAt < (int)arr.GetCount()-1) ) {
candidatesLookedAt++;
tempTrack = (Track*) arr[ndx+candidatesLookedAt];
}
else
tempTrack = NULL;
}
if (time1 < time2)
break;
ndx+=candidatesLookedAt;
}
}
}
arr.Insert(track, ndx);
lastTrackLinked = track->GetLinked();
track = iter.RemoveCurrent();
}
for (ndx = 0; ndx < (int)arr.GetCount(); ndx++) {
mTracks->Add((Track *)arr[ndx]);
}
}
void AudacityProject::OnSortTime()
{
SortTracks(kAudacitySortByTime);
PushState(_("Tracks sorted by time"), _("Sort by Time"));
mTrackPanel->Refresh(false);
}
void AudacityProject::OnSortName()
{
SortTracks(kAudacitySortByName);
PushState(_("Tracks sorted by name"), _("Sort by Name"));
mTrackPanel->Refresh(false);
}
void AudacityProject::OnSkipStart()
{
wxCommandEvent evt;
GetControlToolBar()->OnRewind(evt);
ModifyState(false);
}
void AudacityProject::OnSkipEnd()
{
wxCommandEvent evt;
GetControlToolBar()->OnFF(evt);
ModifyState(false);
}
void AudacityProject::OnSeekLeftShort()
{
OnCursorLeft( false, false );
}
void AudacityProject::OnSeekRightShort()
{
OnCursorRight( false, false );
}
void AudacityProject::OnSeekLeftLong()
{
OnCursorLeft( true, false );
}
void AudacityProject::OnSeekRightLong()
{
OnCursorRight( true, false );
}
void AudacityProject::OnSelToStart()
{
Rewind(true);
ModifyState(false);
}
void AudacityProject::OnSelToEnd()
{
SkipEnd(true);
ModifyState(false);
}
void AudacityProject::OnCursorUp()
{
mTrackPanel->OnPrevTrack( false );
}
void AudacityProject::OnCursorDown()
{
mTrackPanel->OnNextTrack( false );
}
void AudacityProject::OnFirstTrack()
{
mTrackPanel->OnFirstTrack();
}
void AudacityProject::OnLastTrack()
{
mTrackPanel->OnLastTrack();
}
void AudacityProject::OnShiftUp()
{
mTrackPanel->OnPrevTrack( true );
}
void AudacityProject::OnShiftDown()
{
mTrackPanel->OnNextTrack( true );
}
void AudacityProject::OnToggle()
{
mTrackPanel->OnToggle( );
}
void AudacityProject::OnCursorLeft(const wxEvent * evt)
{
OnCursorLeft( false, false, evt->GetEventType() == wxEVT_KEY_UP );
}
void AudacityProject::OnCursorRight(const wxEvent * evt)
{
OnCursorRight( false, false, evt->GetEventType() == wxEVT_KEY_UP );
}
void AudacityProject::OnCursorShortJumpLeft()
{
OnCursorMove( false, true, false );
}
void AudacityProject::OnCursorShortJumpRight()
{
OnCursorMove( true, true, false );
}
void AudacityProject::OnCursorLongJumpLeft()
{
OnCursorMove( false, true, true );
}
void AudacityProject::OnCursorLongJumpRight()
{
OnCursorMove( true, true, true );
}
void AudacityProject::OnSelSetExtendLeft()
{
OnBoundaryMove( true, false);
}
void AudacityProject::OnSelSetExtendRight()
{
OnBoundaryMove( false, false);
}
void AudacityProject::OnSelExtendLeft(const wxEvent * evt)
{
OnCursorLeft( true, false, evt->GetEventType() == wxEVT_KEY_UP );
}
void AudacityProject::OnSelExtendRight(const wxEvent * evt)
{
OnCursorRight( true, false, evt->GetEventType() == wxEVT_KEY_UP );
}
void AudacityProject::OnSelContractLeft(const wxEvent * evt)
{
OnCursorRight( true, true, evt->GetEventType() == wxEVT_KEY_UP );
}
void AudacityProject::OnSelContractRight(const wxEvent * evt)
{
OnCursorLeft( true, true, evt->GetEventType() == wxEVT_KEY_UP );
}
//this pops up a dialog which allows the left selection to be set.
//If playing/recording is happening, it sets the left selection at
//the current play position.
void AudacityProject::OnSetLeftSelection()
{
bool bSelChanged = false;
if ((GetAudioIOToken() > 0) && gAudioIO->IsStreamActive(GetAudioIOToken()))
{
double indicator = gAudioIO->GetStreamTime();
mViewInfo.selectedRegion.setT0(indicator, false);
bSelChanged = true;
}
else
{
wxString fmt = GetSelectionFormat();
TimeDialog dlg(this, _("Set Left Selection Boundary"),
fmt, mRate, mViewInfo.selectedRegion.t0(), _("Position"));
if (wxID_OK == dlg.ShowModal())
{
//Get the value from the dialog
mViewInfo.selectedRegion.setT0(
std::max(0.0, dlg.GetTimeValue()), false);
bSelChanged = true;
}
}
if (bSelChanged)
{
ModifyState(false);
mTrackPanel->Refresh(false);
}
}
void AudacityProject::OnSetRightSelection()
{
bool bSelChanged = false;
if ((GetAudioIOToken() > 0) && gAudioIO->IsStreamActive(GetAudioIOToken()))
{
double indicator = gAudioIO->GetStreamTime();
mViewInfo.selectedRegion.setT1(indicator, false);
bSelChanged = true;
}
else
{
wxString fmt = GetSelectionFormat();
TimeDialog dlg(this, _("Set Right Selection Boundary"),
fmt, mRate, mViewInfo.selectedRegion.t1(), _("Position"));
if (wxID_OK == dlg.ShowModal())
{
//Get the value from the dialog
mViewInfo.selectedRegion.setT1(
std::max(0.0, dlg.GetTimeValue()), false);
bSelChanged = true;
}
}
if (bSelChanged)
{
ModifyState(false);
mTrackPanel->Refresh(false);
}
}
void AudacityProject::NextFrame()
{
switch( GetFocusedFrame() )
{
case TopDockHasFocus:
mTrackPanel->SetFocus();
break;
case TrackPanelHasFocus:
mToolManager->GetBotDock()->SetFocus();
break;
case BotDockHasFocus:
mToolManager->GetTopDock()->SetFocus();
break;
}
}
void AudacityProject::PrevFrame()
{
switch( GetFocusedFrame() )
{
case TopDockHasFocus:
mToolManager->GetBotDock()->SetFocus();
break;
case TrackPanelHasFocus:
mToolManager->GetTopDock()->SetFocus();
break;
case BotDockHasFocus:
mTrackPanel->SetFocus();
break;
}
}
void AudacityProject::NextWindow()
{
wxWindow *w = wxGetTopLevelParent(wxWindow::FindFocus());
const wxWindowList & list = GetChildren();
wxWindowList::compatibility_iterator iter;
// If the project window has the current focus, start the search with the first child
if (w == this)
{
iter = list.GetFirst();
}
// Otherwise start the search with the current window's next sibling
else
{
// Find the window in this projects children. If the window with the
// focus isn't a child of this project (like when a dialog is created
// without specifying a parent), then we'll get back NULL here.
iter = list.Find(w);
if (iter)
{
iter = iter->GetNext();
}
}
// Search for the next toplevel window
while (iter)
{
// If it's a toplevel, visible (we have hidden windows) and is enabled,
// then we're done. The IsEnabled() prevents us from moving away from
// a modal dialog because all other toplevel windows will be disabled.
w = iter->GetData();
if (w->IsTopLevel() && w->IsShown() && w->IsEnabled())
{
break;
}
// Get the next sibling
iter = iter->GetNext();
}
// Ran out of siblings, so make the current project active
if (!iter && IsEnabled())
{
w = this;
}
// And make sure it's on top (only for floating windows...project window will not raise)
// (Really only works on Windows)
w->Raise();
}
void AudacityProject::PrevWindow()
{
wxWindow *w = wxGetTopLevelParent(wxWindow::FindFocus());
const wxWindowList & list = GetChildren();
wxWindowList::compatibility_iterator iter;
// If the project window has the current focus, start the search with the last child
if (w == this)
{
iter = list.GetLast();
}
// Otherwise start the search with the current window's previous sibling
else
{
if (list.Find(w))
iter = list.Find(w)->GetPrevious();
}
// Search for the previous toplevel window
while (iter)
{
// If it's a toplevel and is visible (we have come hidden windows), then we're done
w = iter->GetData();
if (w->IsTopLevel() && w->IsShown())
{
break;
}
// Find the window in this projects children. If the window with the
// focus isn't a child of this project (like when a dialog is created
// without specifying a parent), then we'll get back NULL here.
iter = list.Find(w);
if (iter)
{
iter = iter->GetPrevious();
}
}
// Ran out of siblings, so make the current project active
if (!iter && IsEnabled())
{
w = this;
}
// And make sure it's on top (only for floating windows...project window will not raise)
// (Really only works on Windows)
w->Raise();
}
//The following methods operate controls on specified tracks,
//This will pop up the track panning dialog for specified track
void AudacityProject::OnTrackPan()
{
Track *const track = mTrackPanel->GetFocusedTrack();
if (!track || (track->GetKind() != Track::Wave)) {
return;
}
LWSlider *slider = mTrackPanel->GetTrackInfo()->PanSlider
(static_cast<WaveTrack*>(track));
if (slider->ShowDialog()) {
SetTrackPan(track, slider);
}
}
void AudacityProject::OnTrackPanLeft()
{
Track *const track = mTrackPanel->GetFocusedTrack();
if (!track || (track->GetKind() != Track::Wave)) {
return;
}
LWSlider *slider = mTrackPanel->GetTrackInfo()->PanSlider
(static_cast<WaveTrack*>(track));
slider->Decrease(1);
SetTrackPan(track, slider);
}
void AudacityProject::OnTrackPanRight()
{
Track *const track = mTrackPanel->GetFocusedTrack();
if (!track || (track->GetKind() != Track::Wave)) {
return;
}
LWSlider *slider = mTrackPanel->GetTrackInfo()->PanSlider
(static_cast<WaveTrack*>(track));
slider->Increase(1);
SetTrackPan(track, slider);
}
void AudacityProject::OnTrackGain()
{
/// This will pop up the track gain dialog for specified track
Track *const track = mTrackPanel->GetFocusedTrack();
if (!track || (track->GetKind() != Track::Wave)) {
return;
}
LWSlider *slider = mTrackPanel->GetTrackInfo()->GainSlider
(static_cast<WaveTrack*>(track));
if (slider->ShowDialog()) {
SetTrackGain(track, slider);
}
}
void AudacityProject::OnTrackGainInc()
{
Track *const track = mTrackPanel->GetFocusedTrack();
if (!track || (track->GetKind() != Track::Wave)) {
return;
}
LWSlider *slider = mTrackPanel->GetTrackInfo()->GainSlider
(static_cast<WaveTrack*>(track));
slider->Increase(1);
SetTrackGain(track, slider);
}
void AudacityProject::OnTrackGainDec()
{
Track *const track = mTrackPanel->GetFocusedTrack();
if (!track || (track->GetKind() != Track::Wave)) {
return;
}
LWSlider *slider = mTrackPanel->GetTrackInfo()->GainSlider
(static_cast<WaveTrack*>(track));
slider->Decrease(1);
SetTrackGain(track, slider);
}
void AudacityProject::OnTrackMenu()
{
mTrackPanel->OnTrackMenu();
}
void AudacityProject::OnTrackMute()
{
Track *t = NULL;
if (!t) {
t = mTrackPanel->GetFocusedTrack();
if (!t || (t->GetKind() != Track::Wave))
return;
}
DoTrackMute(t, false);
}
void AudacityProject::OnTrackSolo()
{
Track *t = NULL;
if (!t)
{
t = mTrackPanel->GetFocusedTrack();
if (!t || (t->GetKind() != Track::Wave))
return;
}
DoTrackSolo(t, false);
}
void AudacityProject::OnTrackClose()
{
Track *t = mTrackPanel->GetFocusedTrack();
if (!t)
return;
if (IsAudioActive())
{
this->TP_DisplayStatusMessage(_("Can't delete track with active audio"));
wxBell();
return;
}
RemoveTrack(t);
GetTrackPanel()->UpdateViewIfNoTracks();
GetTrackPanel()->Refresh(false);
}
void AudacityProject::OnTrackMoveUp()
{
Track *const focusedTrack = mTrackPanel->GetFocusedTrack();
if (mTracks->CanMoveUp(focusedTrack)) {
MoveTrack(focusedTrack, OnMoveUpID);
mTrackPanel->Refresh(false);
}
}
void AudacityProject::OnTrackMoveDown()
{
Track *const focusedTrack = mTrackPanel->GetFocusedTrack();
if (mTracks->CanMoveDown(focusedTrack)) {
MoveTrack(focusedTrack, OnMoveDownID);
mTrackPanel->Refresh(false);
}
}
void AudacityProject::OnTrackMoveTop()
{
Track *const focusedTrack = mTrackPanel->GetFocusedTrack();
if (mTracks->CanMoveUp(focusedTrack)) {
MoveTrack(focusedTrack, OnMoveTopID);
mTrackPanel->Refresh(false);
}
}
void AudacityProject::OnTrackMoveBottom()
{
Track *const focusedTrack = mTrackPanel->GetFocusedTrack();
if (mTracks->CanMoveDown(focusedTrack)) {
MoveTrack(focusedTrack, OnMoveBottomID);
mTrackPanel->Refresh(false);
}
}
/// Move a track up, down, to top or to bottom.
void AudacityProject::MoveTrack(Track* target, MoveChoice choice)
{
wxString direction;
switch (choice)
{
case OnMoveTopID:
/* i18n-hint: where the track is moving to.*/
direction = _("to Top");
while (mTracks->CanMoveUp(target)) {
if (mTracks->Move(target, true)) {
MixerBoard* pMixerBoard = this->GetMixerBoard(); // Update mixer board.
if (pMixerBoard && (target->GetKind() == Track::Wave))
pMixerBoard->MoveTrackCluster((WaveTrack*)target, true);
}
}
break;
case OnMoveBottomID:
/* i18n-hint: where the track is moving to.*/
direction = _("to Bottom");
while (mTracks->CanMoveDown(target)) {
if (mTracks->Move(target, false)) {
MixerBoard* pMixerBoard = this->GetMixerBoard(); // Update mixer board.
if (pMixerBoard && (target->GetKind() == Track::Wave))
pMixerBoard->MoveTrackCluster((WaveTrack*)target, false);
}
}
break;
default:
bool bUp = (OnMoveUpID == choice);
/* i18n-hint: a direction.*/
direction = bUp ? _("Up") : _("Down");
if (mTracks->Move(target, bUp)) {
MixerBoard* pMixerBoard = this->GetMixerBoard();
if (pMixerBoard && (target->GetKind() == Track::Wave)) {
pMixerBoard->MoveTrackCluster((WaveTrack*)target, bUp);
}
}
}
/* i18n-hint: Past tense of 'to move', as in 'moved audio track up'.*/
wxString longDesc = (_("Moved"));
/* i18n-hint: The direction of movement will be up, down, to top or to bottom.. */
wxString shortDesc = (_("Move Track"));
longDesc = (wxString::Format(wxT("%s '%s' %s"), longDesc.c_str(),
target->GetName().c_str(), direction.c_str()));
shortDesc = (wxString::Format(wxT("%s %s"), shortDesc.c_str(), direction.c_str()));
PushState(longDesc, shortDesc);
GetTrackPanel()->Refresh(false);
}
void AudacityProject::OnInputDevice()
{
DeviceToolBar *tb = GetDeviceToolBar();
if (tb) {
tb->ShowInputDialog();
}
}
void AudacityProject::OnOutputDevice()
{
DeviceToolBar *tb = GetDeviceToolBar();
if (tb) {
tb->ShowOutputDialog();
}
}
void AudacityProject::OnAudioHost()
{
DeviceToolBar *tb = GetDeviceToolBar();
if (tb) {
tb->ShowHostDialog();
}
}
void AudacityProject::OnInputChannels()
{
DeviceToolBar *tb = GetDeviceToolBar();
if (tb) {
tb->ShowChannelsDialog();
}
}
void AudacityProject::OnOutputGain()
{
MixerToolBar *tb = GetMixerToolBar();
if (tb) {
tb->ShowOutputGainDialog();
}
}
void AudacityProject::OnInputGain()
{
MixerToolBar *tb = GetMixerToolBar();
if (tb) {
tb->ShowInputGainDialog();
}
}
void AudacityProject::OnOutputGainInc()
{
MixerToolBar *tb = GetMixerToolBar();
if (tb) {
tb->AdjustOutputGain(1);
}
}
void AudacityProject::OnOutputGainDec()
{
MixerToolBar *tb = GetMixerToolBar();
if (tb) {
tb->AdjustOutputGain(-1);
}
}
void AudacityProject::OnInputGainInc()
{
MixerToolBar *tb = GetMixerToolBar();
if (tb) {
tb->AdjustInputGain(1);
}
}
void AudacityProject::OnInputGainDec()
{
MixerToolBar *tb = GetMixerToolBar();
if (tb) {
tb->AdjustInputGain(-1);
}
}
void AudacityProject::OnPlayAtSpeed()
{
TranscriptionToolBar *tb = GetTranscriptionToolBar();
if (tb) {
tb->PlayAtSpeed(false, false);
}
}
void AudacityProject::OnPlayAtSpeedLooped()
{
TranscriptionToolBar *tb = GetTranscriptionToolBar();
if (tb) {
tb->PlayAtSpeed(true, false);
}
}
void AudacityProject::OnPlayAtSpeedCutPreview()
{
TranscriptionToolBar *tb = GetTranscriptionToolBar();
if (tb) {
tb->PlayAtSpeed(false, true);
}
}
void AudacityProject::OnSetPlaySpeed()
{
TranscriptionToolBar *tb = GetTranscriptionToolBar();
if (tb) {
tb->ShowPlaySpeedDialog();
}
}
void AudacityProject::OnPlaySpeedInc()
{
TranscriptionToolBar *tb = GetTranscriptionToolBar();
if (tb) {
tb->AdjustPlaySpeed(0.1f);
}
}
void AudacityProject::OnPlaySpeedDec()
{
TranscriptionToolBar *tb = GetTranscriptionToolBar();
if (tb) {
tb->AdjustPlaySpeed(-0.1f);
}
}
double AudacityProject::NearestZeroCrossing(double t0)
{
// Window is 1/100th of a second.
int windowSize = (int)(GetRate() / 100);
float *dist = new float[windowSize];
int i, j;
for(i=0; i<windowSize; i++)
dist[i] = 0.0;
TrackListIterator iter(mTracks);
Track *track = iter.First();
while (track) {
if (!track->GetSelected() || track->GetKind() != (Track::Wave)) {
track = iter.Next();
continue;
}
WaveTrack *one = (WaveTrack *)track;
int oneWindowSize = (int)(one->GetRate() / 100);
float *oneDist = new float[oneWindowSize];
sampleCount s = one->TimeToLongSamples(t0);
// fillTwo to ensure that missing values are treated as 2, and hence do not
// get used as zero crossings.
one->Get((samplePtr)oneDist, floatSample,
s - oneWindowSize/2, oneWindowSize, fillTwo);
// Start by penalizing downward motion. We prefer upward
// zero crossings.
if (oneDist[1] - oneDist[0] < 0)
oneDist[0] = oneDist[0]*6 + (oneDist[0] > 0 ? 0.3 : -0.3);
for(i=1; i<oneWindowSize; i++)
if (oneDist[i] - oneDist[i-1] < 0)
oneDist[i] = oneDist[i]*6 + (oneDist[i] > 0 ? 0.3 : -0.3);
// Taking the absolute value -- apply a tiny LPF so square waves work.
float newVal, oldVal = oneDist[0];
oneDist[0] = fabs(.75 * oneDist[0] + .25 * oneDist[1]);
for(i=1; i<oneWindowSize-1; i++)
{
newVal = fabs(.25 * oldVal + .5 * oneDist[i] + .25 * oneDist[i+1]);
oldVal = oneDist[i];
oneDist[i] = newVal;
}
oneDist[oneWindowSize-1] = fabs(.25 * oldVal +
.75 * oneDist[oneWindowSize-1]);
// TODO: The mixed rate zero crossing code is broken,
// if oneWindowSize > windowSize we'll miss out some
// samples - so they will still be zero, so we'll use them.
for(i=0; i<windowSize; i++) {
if (windowSize != oneWindowSize)
j = i * (oneWindowSize-1) / (windowSize-1);
else
j = i;
dist[i] += oneDist[j];
// Apply a small penalty for distance from the original endpoint
dist[i] += 0.1 * (abs(i - windowSize/2)) / float(windowSize/2);
}
delete [] oneDist;
track = iter.Next();
}
// Find minimum
int argmin = 0;
float min = 3.0;
for(i=0; i<windowSize; i++) {
if (dist[i] < min) {
argmin = i;
min = dist[i];
}
}
delete [] dist;
return t0 + (argmin - windowSize/2)/GetRate();
}
void AudacityProject::OnZeroCrossing()
{
const double t0 = NearestZeroCrossing(mViewInfo.selectedRegion.t0());
if (mViewInfo.selectedRegion.isPoint())
mViewInfo.selectedRegion.setTimes(t0, t0);
else {
const double t1 = NearestZeroCrossing(mViewInfo.selectedRegion.t1());
mViewInfo.selectedRegion.setTimes(t0, t1);
}
ModifyState(false);
mTrackPanel->Refresh(false);
}
//
// Effect Menus
//
/// OnEffect() takes a PluginID and has the EffectManager execute the assocated effect.
///
/// At the moment flags are used only to indicate whether to prompt for parameters,
/// whether to save the state to history and whether to allow 'Repeat Last Effect'.
bool AudacityProject::OnEffect(const PluginID & ID, int flags)
{
const PluginDescriptor *plug = PluginManager::Get().GetPlugin(ID);
if (!plug)
return false;
EffectType type = plug->GetEffectType();
// Make sure there's no activity since the effect is about to be applied
// to the project's tracks. Mainly for Apply during RTP, but also used
// for batch commands
if (flags & OnEffectFlags::kConfigured)
{
OnStop();
SelectAllIfNone();
}
wxGetApp().SetMissingAliasedFileWarningShouldShow(true);
TrackListIterator iter(mTracks);
Track *t = iter.First();
WaveTrack *newTrack = NULL;
wxWindow *focus = wxWindow::FindFocus();
//double prevEndTime = mTracks->GetEndTime();
int count = 0;
bool clean = true;
while (t) {
if (t->GetSelected() && t->GetKind() == (Track::Wave)) {
if (t->GetEndTime() != 0.0) clean = false;
count++;
}
t = iter.Next();
}
if (count == 0) {
// No tracks were selected...
if (type == EffectTypeGenerate) {
// Create a NEW track for the generated audio...
newTrack = mTrackFactory->NewWaveTrack().release();
mTracks->Add(newTrack);
newTrack->SetSelected(true);
}
}
EffectManager & em = EffectManager::Get();
bool success = em.DoEffect(ID, this, mRate,
mTracks, mTrackFactory,
&mViewInfo.selectedRegion,
(flags & OnEffectFlags::kConfigured) == 0);
if (!success) {
if (newTrack) {
mTracks->Remove(newTrack);
delete newTrack;
mTrackPanel->Refresh(false);
}
// For now, we're limiting realtime preview to a single effect, so
// make sure the menus reflect that fact that one may have just been
// opened.
UpdateMenus(false);
return false;
}
if (em.GetSkipStateFlag())
flags = flags | OnEffectFlags::kSkipState;
if (!(flags & OnEffectFlags::kSkipState))
{
wxString shortDesc = em.GetEffectName(ID);
wxString longDesc = em.GetEffectDescription(ID);
PushState(longDesc, shortDesc);
}
if (!(flags & OnEffectFlags::kDontRepeatLast))
{
// Only remember a successful effect, don't rmemeber insert,
// or analyze effects.
if (type == EffectTypeProcess) {
wxString shortDesc = em.GetEffectName(ID);
mLastEffect = ID;
wxString lastEffectDesc;
/* i18n-hint: %s will be the name of the effect which will be
* repeated if this menu item is chosen */
lastEffectDesc.Printf(_("Repeat %s"), shortDesc.c_str());
mCommandManager.Modify(wxT("RepeatLastEffect"), lastEffectDesc);
}
}
//STM:
//The following automatically re-zooms after sound was generated.
// IMO, it was disorienting, removing to try out without re-fitting
//mchinen:12/14/08 reapplying for generate effects
if (type == EffectTypeGenerate)
{
if (count == 0 || (clean && mViewInfo.selectedRegion.t0() == 0.0))
OnZoomFit();
// mTrackPanel->Refresh(false);
}
RedrawProject();
if (focus != NULL) {
focus->SetFocus();
}
mTrackPanel->EnsureVisible(mTrackPanel->GetFirstSelectedTrack());
mTrackPanel->Refresh(false);
return true;
}
void AudacityProject::OnRepeatLastEffect(int WXUNUSED(index))
{
if (!mLastEffect.IsEmpty())
{
OnEffect(mLastEffect, OnEffectFlags::kConfigured);
}
}
void AudacityProject::OnManagePluginsMenu(EffectType type)
{
if (PluginManager::Get().ShowManager(this, type))
{
for (size_t i = 0; i < gAudacityProjects.GetCount(); i++) {
AudacityProject *p = gAudacityProjects[i];
p->RebuildMenuBar();
#if defined(__WXGTK__)
// Workaround for:
//
// http://bugzilla.audacityteam.org/show_bug.cgi?id=458
//
// This workaround should be removed when Audacity updates to wxWidgets 3.x which has a fix.
wxRect r = p->GetRect();
p->SetSize(wxSize(1,1));
p->SetSize(r.GetSize());
#endif
}
}
}
void AudacityProject::OnManageGenerators()
{
OnManagePluginsMenu(EffectTypeGenerate);
}
void AudacityProject::OnManageEffects()
{
OnManagePluginsMenu(EffectTypeProcess);
}
void AudacityProject::OnManageAnalyzers()
{
OnManagePluginsMenu(EffectTypeAnalyze);
}
void AudacityProject::OnStereoToMono(int WXUNUSED(index))
{
OnEffect(EffectManager::Get().GetEffectByIdentifier(wxT("StereoToMono")),
OnEffectFlags::kConfigured);
}
//
// File Menu
//
void AudacityProject::OnNew()
{
CreateNewAudacityProject();
}
void AudacityProject::OnOpen()
{
OpenFiles(this);
}
void AudacityProject::OnClose()
{
mMenuClose = true;
Close();
}
void AudacityProject::OnSave()
{
Save();
}
void AudacityProject::OnSaveAs()
{
SaveAs();
}
#ifdef USE_LIBVORBIS
void AudacityProject::OnSaveCompressed()
{
SaveAs(true);
}
#endif
void AudacityProject::OnCheckDependencies()
{
ShowDependencyDialogIfNeeded(this, false);
}
void AudacityProject::OnExit()
{
QuitAudacity();
}
void AudacityProject::OnExportLabels()
{
Track *t;
int numLabelTracks = 0;
TrackListIterator iter(mTracks);
wxString fName = _("labels.txt");
t = iter.First();
while (t) {
if (t->GetKind() == Track::Label)
{
numLabelTracks++;
fName = t->GetName();
}
t = iter.Next();
}
if (numLabelTracks == 0) {
wxMessageBox(_("There are no label tracks to export."));
return;
}
fName = FileSelector(_("Export Labels As:"),
wxEmptyString,
fName,
wxT("txt"),
wxT("*.txt"),
wxFD_SAVE | wxFD_OVERWRITE_PROMPT | wxRESIZE_BORDER,
this);
if (fName == wxT(""))
return;
// Move existing files out of the way. Otherwise wxTextFile will
// append to (rather than replace) the current file.
if (wxFileExists(fName)) {
#ifdef __WXGTK__
wxString safetyFileName = fName + wxT("~");
#else
wxString safetyFileName = fName + wxT(".bak");
#endif
if (wxFileExists(safetyFileName))
wxRemoveFile(safetyFileName);
wxRename(fName, safetyFileName);
}
wxTextFile f(fName);
f.Create();
f.Open();
if (!f.IsOpened()) {
wxMessageBox(_("Couldn't write to file: ") + fName);
return;
}
t = iter.First();
while (t) {
if (t->GetKind() == Track::Label)
((LabelTrack *) t)->Export(f);
t = iter.Next();
}
f.Write();
f.Close();
}
#ifdef USE_MIDI
void AudacityProject::OnExportMIDI(){
TrackListIterator iter(mTracks);
Track *t = iter.First();
int numNoteTracksSelected = 0;
NoteTrack *nt = NULL;
// Iterate through once to make sure that there is
// exactly one NoteTrack selected.
while (t) {
if (t->GetSelected()) {
if(t->GetKind() == Track::Note) {
numNoteTracksSelected++;
nt = (NoteTrack *) t;
}
}
t = iter.Next();
}
if(numNoteTracksSelected > 1){
wxMessageBox(wxString::Format(wxT(
"Please select only one MIDI track at a time.")));
return;
}
wxASSERT(nt);
if (!nt)
return;
while(true){
wxString fName = wxT("");
fName = FileSelector(_("Export MIDI As:"),
wxEmptyString,
fName,
wxT(".mid|.gro"),
_("MIDI file (*.mid)|*.mid|Allegro file (*.gro)|*.gro"),
wxFD_SAVE | wxFD_OVERWRITE_PROMPT | wxRESIZE_BORDER,
this);
if (fName == wxT(""))
return;
if(!fName.Contains(wxT("."))) {
fName = fName + wxT(".mid");
}
// Move existing files out of the way. Otherwise wxTextFile will
// append to (rather than replace) the current file.
if (wxFileExists(fName)) {
#ifdef __WXGTK__
wxString safetyFileName = fName + wxT("~");
#else
wxString safetyFileName = fName + wxT(".bak");
#endif
if (wxFileExists(safetyFileName))
wxRemoveFile(safetyFileName);
wxRename(fName, safetyFileName);
}
if(fName.EndsWith(wxT(".mid")) || fName.EndsWith(wxT(".midi"))) {
nt->ExportMIDI(fName);
} else if(fName.EndsWith(wxT(".gro"))) {
nt->ExportAllegro(fName);
} else {
wxString msg = _("You have selected a filename with an unrecognized file extension.\nDo you want to continue?");
wxString title = _("Export MIDI");
int id = wxMessageBox(msg, title, wxYES_NO);
if (id == wxNO) {
continue;
} else if (id == wxYES) {
nt->ExportMIDI(fName);
}
}
break;
}
}
#endif // USE_MIDI
void AudacityProject::OnExport()
{
Exporter e;
wxGetApp().SetMissingAliasedFileWarningShouldShow(true);
e.Process(this, false, 0.0, mTracks->GetEndTime());
}
void AudacityProject::OnExportSelection()
{
Exporter e;
wxGetApp().SetMissingAliasedFileWarningShouldShow(true);
e.SetFileDialogTitle( _("Export Selected Audio") );
e.Process(this, true, mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
}
void AudacityProject::OnExportMultiple()
{
ExportMultiple em(this);
wxGetApp().SetMissingAliasedFileWarningShouldShow(true);
em.ShowModal();
}
void AudacityProject::OnPreferences()
{
GlobalPrefsDialog dialog(this /* parent */ );
if (!dialog.ShowModal()) {
// Canceled
return;
}
// LL: Moved from PrefsDialog since wxWidgets on OSX can't deal with
// rebuilding the menus while the PrefsDialog is still in the modal
// state.
for (size_t i = 0; i < gAudacityProjects.GetCount(); i++) {
AudacityProject *p = gAudacityProjects[i];
p->RebuildMenuBar();
p->RebuildOtherMenus();
#if defined(__WXGTK__)
// Workaround for:
//
// http://bugzilla.audacityteam.org/show_bug.cgi?id=458
//
// This workaround should be removed when Audacity updates to wxWidgets 3.x which has a fix.
wxRect r = p->GetRect();
p->SetSize(wxSize(1,1));
p->SetSize(r.GetSize());
#endif
}
}
void AudacityProject::OnPageSetup()
{
HandlePageSetup(this);
}
void AudacityProject::OnPrint()
{
HandlePrint(this, GetName(), mTracks);
}
//
// Edit Menu
//
void AudacityProject::OnUndo()
{
if (!GetUndoManager()->UndoAvailable()) {
wxMessageBox(_("Nothing to undo"));
return;
}
// can't undo while dragging
if (mTrackPanel->IsMouseCaptured()) {
return;
}
const UndoState &state = GetUndoManager()->Undo(&mViewInfo.selectedRegion);
PopState(state);
mTrackPanel->SetFocusedTrack(NULL);
mTrackPanel->EnsureVisible(mTrackPanel->GetFirstSelectedTrack());
RedrawProject();
if (mHistoryWindow)
mHistoryWindow->UpdateDisplay();
ModifyUndoMenuItems();
}
void AudacityProject::OnRedo()
{
if (!GetUndoManager()->RedoAvailable()) {
wxMessageBox(_("Nothing to redo"));
return;
}
// Can't redo whilst dragging
if (mTrackPanel->IsMouseCaptured()) {
return;
}
const UndoState &state = GetUndoManager()->Redo(&mViewInfo.selectedRegion);
PopState(state);
mTrackPanel->SetFocusedTrack(NULL);
mTrackPanel->EnsureVisible(mTrackPanel->GetFirstSelectedTrack());
RedrawProject();
if (mHistoryWindow)
mHistoryWindow->UpdateDisplay();
ModifyUndoMenuItems();
}
void AudacityProject::OnCut()
{
TrackListIterator iter(mTracks);
Track *n = iter.First();
// This doesn't handle cutting labels, it handles
// cutting the _text_ inside of labels, i.e. if you're
// in the middle of editing the label text and select "Cut".
while (n) {
if (n->GetSelected()) {
if (n->GetKind() == Track::Label) {
if (((LabelTrack *)n)->CutSelectedText()) {
mTrackPanel->Refresh(false);
return;
}
}
}
n = iter.Next();
}
ClearClipboard();
n = iter.First();
while (n) {
if (n->GetSelected()) {
Track::Holder dest;
#if defined(USE_MIDI)
if (n->GetKind() == Track::Note)
// Since portsmf has a built-in cut operator, we use that instead
dest = n->Cut(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
else
#endif
dest = n->Copy(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
if (dest) {
dest->SetChannel(n->GetChannel());
dest->SetLinked(n->GetLinked());
dest->SetName(n->GetName());
msClipboard->Add(dest.release());
}
}
n = iter.Next();
}
n = iter.First();
while (n) {
// We clear from selected and sync-lock selected tracks.
if (n->GetSelected() || n->IsSyncLockSelected()) {
switch (n->GetKind())
{
#if defined(USE_MIDI)
case Track::Note:
//if NoteTrack, it was cut, so do not clear anything
break;
#endif
case Track::Wave:
if (gPrefs->Read(wxT("/GUI/EnableCutLines"), (long)0)) {
((WaveTrack*)n)->ClearAndAddCutLine(
mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
break;
}
// Fall through
default:
n->Clear(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
break;
}
}
n = iter.Next();
}
msClipT0 = mViewInfo.selectedRegion.t0();
msClipT1 = mViewInfo.selectedRegion.t1();
msClipProject = this;
PushState(_("Cut to the clipboard"), _("Cut"));
RedrawProject();
mViewInfo.selectedRegion.collapseToT0();
}
void AudacityProject::OnSplitCut()
{
TrackListIterator iter(mTracks);
Track *n = iter.First();
ClearClipboard();
while (n) {
if (n->GetSelected()) {
Track::Holder dest;
if (n->GetKind() == Track::Wave)
{
dest = ((WaveTrack*)n)->SplitCut(
mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
}
else
{
dest = n->Copy(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
n->Silence(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
}
if (dest) {
dest->SetChannel(n->GetChannel());
dest->SetLinked(n->GetLinked());
dest->SetName(n->GetName());
msClipboard->Add(dest.release());
}
}
n = iter.Next();
}
msClipT0 = mViewInfo.selectedRegion.t0();
msClipT1 = mViewInfo.selectedRegion.t1();
msClipProject = this;
PushState(_("Split-cut to the clipboard"), _("Split Cut"));
RedrawProject();
}
void AudacityProject::OnCopy()
{
TrackListIterator iter(mTracks);
Track *n = iter.First();
while (n) {
if (n->GetSelected()) {
if (n->GetKind() == Track::Label) {
if (((LabelTrack *)n)->CopySelectedText()) {
//mTrackPanel->Refresh(false);
return;
}
}
}
n = iter.Next();
}
ClearClipboard();
n = iter.First();
while (n) {
if (n->GetSelected()) {
auto dest = n->Copy(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
if (dest) {
dest->SetChannel(n->GetChannel());
dest->SetLinked(n->GetLinked());
dest->SetName(n->GetName());
msClipboard->Add(dest.release());
}
}
n = iter.Next();
}
msClipT0 = mViewInfo.selectedRegion.t0();
msClipT1 = mViewInfo.selectedRegion.t1();
msClipProject = this;
//Make sure the menus/toolbar states get updated
mTrackPanel->Refresh(false);
}
void AudacityProject::OnPaste()
{
// Handle text paste (into active label) first.
if (this->HandlePasteText())
return;
// If nothing's selected, we just insert NEW tracks.
if (this->HandlePasteNothingSelected())
return;
// Otherwise, paste into the selected tracks.
double t0 = mViewInfo.selectedRegion.t0();
double t1 = mViewInfo.selectedRegion.t1();
TrackListIterator iter(mTracks);
TrackListIterator clipIter(msClipboard);
Track *n = iter.First();
Track *c = clipIter.First();
if (c == NULL)
return;
Track *ff = NULL;
Track *tmpSrc = NULL;
Track *tmpC = NULL;
Track *prev = NULL;
bool bAdvanceClipboard = true;
bool bPastedSomething = false;
bool bTrackTypeMismatch = false;
while (n && c) {
if (n->GetSelected()) {
bAdvanceClipboard = true;
if (tmpC)
c = tmpC;
if (c->GetKind() != n->GetKind()) {
if (!bTrackTypeMismatch) {
tmpSrc = prev;
tmpC = c;
}
bTrackTypeMismatch = true;
bAdvanceClipboard = false;
c = tmpSrc;
// If the types still don't match...
while (c && c->GetKind() != n->GetKind()) {
prev = c;
c = clipIter.Next();
}
}
// Handle case where the first track in clipboard
// is of different type than the first selected track
if (!c) {
c = tmpC;
while (n && (c->GetKind() != n->GetKind() || !n->GetSelected()))
{
// Must perform sync-lock adjustment before incrementing n
if (n->IsSyncLockSelected()) {
bPastedSomething |= n->SyncLockAdjust(t1, t0+(msClipT1 - msClipT0));
}
n = iter.Next();
}
if (!n)
c = NULL;
}
// The last possible case for cross-type pastes: triggered when we try to
// paste 1+ tracks from one type into 1+ tracks of another type. If
// there's a mix of types, this shouldn't run.
if (!c) {
wxMessageBox(
_("Pasting one type of track into another is not allowed."),
_("Error"), wxICON_ERROR, this);
c = n;//so we don't trigger any !c conditions on our way out
break;
}
// When trying to copy from stereo to mono track, show error and exit
// TODO: Automatically offer user to mix down to mono (unfortunately
// this is not easy to implement
if (c->GetLinked() && !n->GetLinked())
{
wxMessageBox(
_("Copying stereo audio into a mono track is not allowed."),
_("Error"), wxICON_ERROR, this);
break;
}
if (!ff)
ff = n;
if (msClipProject != this && c->GetKind() == Track::Wave)
((WaveTrack *) c)->Lock();
if (c->GetKind() == Track::Wave && n && n->GetKind() == Track::Wave)
{
bPastedSomething |=
((WaveTrack*)n)->ClearAndPaste(t0, t1, (WaveTrack*)c, true, true);
}
else if (c->GetKind() == Track::Label &&
n && n->GetKind() == Track::Label)
{
((LabelTrack *)n)->Clear(t0, t1);
// To be (sort of) consistent with Clear behavior, we'll only shift
// them if sync-lock is on.
if (IsSyncLocked())
((LabelTrack *)n)->ShiftLabelsOnInsert(msClipT1 - msClipT0, t0);
bPastedSomething |= ((LabelTrack *)n)->PasteOver(t0, c);
}
else
{
bPastedSomething |= n->Paste(t0, c);
}
// When copying from mono to stereo track, paste the wave form
// to both channels
if (n->GetLinked() && !c->GetLinked())
{
n = iter.Next();
if (n->GetKind() == Track::Wave) {
bPastedSomething |= ((WaveTrack *)n)->ClearAndPaste(t0, t1, c, true, true);
}
else
{
n->Clear(t0, t1);
bPastedSomething |= n->Paste(t0, c);
}
}
if (msClipProject != this && c->GetKind() == Track::Wave)
((WaveTrack *) c)->Unlock();
if (bAdvanceClipboard){
prev = c;
c = clipIter.Next();
}
} // if (n->GetSelected())
else if (n->IsSyncLockSelected())
{
bPastedSomething |= n->SyncLockAdjust(t1, t0 + msClipT1 - msClipT0);
}
n = iter.Next();
}
// This block handles the cases where our clipboard is smaller
// than the amount of selected destination tracks. We take the
// last wave track, and paste that one into the remaining
// selected tracks.
if ( n && !c )
{
TrackListOfKindIterator clipWaveIter(Track::Wave, msClipboard);
c = clipWaveIter.Last();
while (n) {
if (n->GetSelected() && n->GetKind()==Track::Wave) {
if (c && c->GetKind() == Track::Wave) {
bPastedSomething |=
((WaveTrack *)n)->ClearAndPaste(t0, t1, (WaveTrack *)c, true, true);
}
else {
auto tmp = mTrackFactory->NewWaveTrack( ((WaveTrack*)n)->GetSampleFormat(), ((WaveTrack*)n)->GetRate());
bool bResult = tmp->InsertSilence(0.0, msClipT1 - msClipT0); // MJS: Is this correct?
wxASSERT(bResult); // TO DO: Actually handle this.
wxUnusedVar(bResult);
tmp->Flush();
bPastedSomething |=
((WaveTrack *)n)->ClearAndPaste(t0, t1, tmp.get(), true, true);
}
}
else if (n->GetKind() == Track::Label && n->GetSelected())
{
((LabelTrack *)n)->Clear(t0, t1);
// As above, only shift labels if sync-lock is on.
if (IsSyncLocked())
((LabelTrack *)n)->ShiftLabelsOnInsert(msClipT1 - msClipT0, t0);
}
else if (n->IsSyncLockSelected())
{
n->SyncLockAdjust(t1, t0 + msClipT1 - msClipT0);
}
n = iter.Next();
}
}
// TODO: What if we clicked past the end of the track?
if (bPastedSomething)
{
mViewInfo.selectedRegion.setT1(t0 + msClipT1 - msClipT0);
PushState(_("Pasted from the clipboard"), _("Paste"));
RedrawProject();
if (ff)
mTrackPanel->EnsureVisible(ff);
}
}
// Handle text paste (into active label), if any. Return true if did paste.
// (This was formerly the first part of overly-long OnPaste.)
bool AudacityProject::HandlePasteText()
{
TrackListOfKindIterator iterLabelTrack(Track::Label, mTracks);
LabelTrack* pLabelTrack = (LabelTrack*)(iterLabelTrack.First());
while (pLabelTrack)
{
// Does this track have an active label?
if (pLabelTrack->IsSelected()) {
// Yes, so try pasting into it
if (pLabelTrack->PasteSelectedText(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1()))
{
PushState(_("Pasted text from the clipboard"), _("Paste"));
// Make sure caret is in view
int x;
if (pLabelTrack->CalcCursorX(this, &x)) {
mTrackPanel->ScrollIntoView(x);
}
// Redraw everyting (is that necessary???) and bail
RedrawProject();
return true;
}
}
pLabelTrack = (LabelTrack *) iterLabelTrack.Next();
}
return false;
}
// Return true if nothing selected, regardless of paste result.
// If nothing was selected, create and paste into NEW tracks.
// (This was formerly the second part of overly-long OnPaste.)
bool AudacityProject::HandlePasteNothingSelected()
{
// First check whether anything's selected.
bool bAnySelected = false;
TrackListIterator iterTrack(mTracks);
Track* pTrack = iterTrack.First();
while (pTrack) {
if (pTrack->GetSelected())
{
bAnySelected = true;
break;
}
pTrack = iterTrack.Next();
}
if (bAnySelected)
return false;
else
{
TrackListIterator iterClip(msClipboard);
Track* pClip = iterClip.First();
if (!pClip)
return true; // nothing to paste
Track* pNewTrack;
Track* pFirstNewTrack = NULL;
while (pClip) {
if ((msClipProject != this) && (pClip->GetKind() == Track::Wave))
((WaveTrack*)pClip)->Lock();
switch (pClip->GetKind()) {
case Track::Wave:
{
WaveTrack *w = (WaveTrack *)pClip;
pNewTrack = mTrackFactory->NewWaveTrack(w->GetSampleFormat(), w->GetRate()).release();
}
break;
#ifdef USE_MIDI
case Track::Note:
pNewTrack = mTrackFactory->NewNoteTrack().release();
break;
#endif // USE_MIDI
case Track::Label:
pNewTrack = mTrackFactory->NewLabelTrack().release();
break;
case Track::Time:
pNewTrack = mTrackFactory->NewTimeTrack().release();
break;
default:
pClip = iterClip.Next();
continue;
}
wxASSERT(pClip);
pNewTrack->SetLinked(pClip->GetLinked());
pNewTrack->SetChannel(pClip->GetChannel());
pNewTrack->SetName(pClip->GetName());
bool bResult = pNewTrack->Paste(0.0, pClip);
wxASSERT(bResult); // TO DO: Actually handle this.
wxUnusedVar(bResult);
mTracks->Add(pNewTrack);
pNewTrack->SetSelected(true);
if (msClipProject != this && pClip->GetKind() == Track::Wave)
((WaveTrack *) pClip)->Unlock();
if (!pFirstNewTrack)
pFirstNewTrack = pNewTrack;
pClip = iterClip.Next();
}
// Select some pasted samples, which is probably impossible to get right
// with various project and track sample rates.
// So do it at the sample rate of the project
AudacityProject *p = GetActiveProject();
double projRate = p->GetRate();
double quantT0 = QUANTIZED_TIME(msClipT0, projRate);
double quantT1 = QUANTIZED_TIME(msClipT1, projRate);
mViewInfo.selectedRegion.setTimes(
0.0, // anywhere else and this should be
// half a sample earlier
quantT1 - quantT0);
PushState(_("Pasted from the clipboard"), _("Paste"));
RedrawProject();
if (pFirstNewTrack)
mTrackPanel->EnsureVisible(pFirstNewTrack);
return true;
}
}
// Creates a NEW label in each selected label track with text from the system
// clipboard
void AudacityProject::OnPasteNewLabel()
{
bool bPastedSomething = false;
SelectedTrackListOfKindIterator iter(Track::Label, mTracks);
Track *t = iter.First();
if (!t)
{
// If there are no selected label tracks, try to choose the first label
// track after some other selected track
TrackListIterator iter1(mTracks);
for (Track *t1 = iter1.First(); t1; t1 = iter1.Next()) {
if (t1->GetSelected()) {
// Look for a label track
while (0 != (t1 = iter1.Next())) {
if (t1->GetKind() == Track::Label) {
t = t1;
break;
}
}
if (t) break;
}
}
// If no match found, add one
if (!t) {
t = GetTrackFactory()->NewLabelTrack().release();
mTracks->Add(t);
}
// Select this track so the loop picks it up
t->SetSelected(true);
}
LabelTrack *plt = NULL; // the previous track
for (Track *t = iter.First(); t; t = iter.Next())
{
LabelTrack *lt = (LabelTrack *)t;
// Unselect the last label, so we'll have just one active label when
// we're done
if (plt)
plt->Unselect();
// Add a NEW label, paste into it
// Paul L: copy whatever defines the selected region, not just times
lt->AddLabel(mViewInfo.selectedRegion);
if (lt->PasteSelectedText(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1()))
bPastedSomething = true;
// Set previous track
plt = lt;
}
// plt should point to the last label track pasted to -- ensure it's visible
// and set focus
if (plt) {
mTrackPanel->EnsureVisible(plt);
mTrackPanel->SetFocus();
}
if (bPastedSomething) {
PushState(_("Pasted from the clipboard"), _("Paste Text to New Label"));
// Is this necessary? (carried over from former logic in OnPaste())
RedrawProject();
}
}
void AudacityProject::OnPasteOver() // not currently in use it appears
{
if((msClipT1 - msClipT0) > 0.0)
{
mViewInfo.selectedRegion.setT1(
mViewInfo.selectedRegion.t0() + (msClipT1 - msClipT0));
// MJS: pointless, given what we do in OnPaste?
}
OnPaste();
return;
}
void AudacityProject::OnTrim()
{
if (mViewInfo.selectedRegion.isPoint())
return;
TrackListIterator iter(mTracks);
Track *n = iter.First();
while (n) {
if (n->GetSelected()) {
switch (n->GetKind())
{
#if defined(USE_MIDI)
case Track::Note:
((NoteTrack*)n)->Trim(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
break;
#endif
case Track::Wave:
//Delete the section before the left selector
((WaveTrack*)n)->Trim(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
break;
default:
break;
}
}
n = iter.Next();
}
PushState(wxString::Format(_("Trim selected audio tracks from %.2f seconds to %.2f seconds"),
mViewInfo.selectedRegion.t0(), mViewInfo.selectedRegion.t1()),
_("Trim Audio"));
RedrawProject();
}
void AudacityProject::OnDelete()
{
Clear();
}
void AudacityProject::OnSplitDelete()
{
TrackListIterator iter(mTracks);
Track *n = iter.First();
while (n) {
if (n->GetSelected()) {
if (n->GetKind() == Track::Wave)
{
((WaveTrack*)n)->SplitDelete(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
}
else {
n->Silence(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
}
}
n = iter.Next();
}
PushState(wxString::Format(_("Split-deleted %.2f seconds at t=%.2f"),
mViewInfo.selectedRegion.duration(),
mViewInfo.selectedRegion.t0()),
_("Split Delete"));
RedrawProject();
}
void AudacityProject::OnDisjoin()
{
TrackListIterator iter(mTracks);
Track *n = iter.First();
while (n) {
if (n->GetSelected()) {
if (n->GetKind() == Track::Wave)
{
((WaveTrack*)n)->Disjoin(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
}
}
n = iter.Next();
}
PushState(wxString::Format(_("Detached %.2f seconds at t=%.2f"),
mViewInfo.selectedRegion.duration(),
mViewInfo.selectedRegion.t0()),
_("Detach"));
RedrawProject();
}
void AudacityProject::OnJoin()
{
TrackListIterator iter(mTracks);
Track *n = iter.First();
while (n) {
if (n->GetSelected()) {
if (n->GetKind() == Track::Wave)
{
((WaveTrack*)n)->Join(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
}
}
n = iter.Next();
}
PushState(wxString::Format(_("Joined %.2f seconds at t=%.2f"),
mViewInfo.selectedRegion.duration(),
mViewInfo.selectedRegion.t0()),
_("Join"));
RedrawProject();
}
void AudacityProject::OnSilence()
{
SelectedTrackListOfKindIterator iter(Track::Wave, mTracks);
for (Track *n = iter.First(); n; n = iter.Next())
n->Silence(mViewInfo.selectedRegion.t0(), mViewInfo.selectedRegion.t1());
PushState(wxString::
Format(_("Silenced selected tracks for %.2f seconds at %.2f"),
mViewInfo.selectedRegion.duration(),
mViewInfo.selectedRegion.t0()),
_("Silence"));
mTrackPanel->Refresh(false);
}
void AudacityProject::OnDuplicate()
{
TrackListIterator iter(mTracks);
Track *l = iter.Last();
Track *n = iter.First();
while (n) {
if (n->GetSelected()) {
auto dest = n->Copy(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
if (dest) {
dest->Init(*n);
dest->SetOffset(wxMax(mViewInfo.selectedRegion.t0(), n->GetOffset()));
mTracks->Add(dest.release());
}
}
if (n == l) {
break;
}
n = iter.Next();
}
PushState(_("Duplicated"), _("Duplicate"));
RedrawProject();
}
void AudacityProject::OnCutLabels()
{
if( mViewInfo.selectedRegion.isPoint() )
return;
// Because of grouping the copy may need to operate on different tracks than
// the clear, so we do these actions separately.
EditClipboardByLabel( &WaveTrack::CopyNonconst );
if( gPrefs->Read( wxT( "/GUI/EnableCutLines" ), ( long )0 ) )
EditByLabel( &WaveTrack::ClearAndAddCutLine, true );
else
EditByLabel( &WaveTrack::Clear, true );
msClipProject = this;
mViewInfo.selectedRegion.collapseToT0();
PushState(
/* i18n-hint: (verb) past tense. Audacity has just cut the labeled audio regions.*/
_( "Cut labeled audio regions to clipboard" ),
/* i18n-hint: (verb)*/
_( "Cut Labeled Audio" ) );
RedrawProject();
}
void AudacityProject::OnSplitCutLabels()
{
if( mViewInfo.selectedRegion.isPoint() )
return;
EditClipboardByLabel( &WaveTrack::SplitCut );
msClipProject = this;
PushState(
/* i18n-hint: (verb) Audacity has just split cut the labeled audio regions*/
_( "Split Cut labeled audio regions to clipboard" ),
/* i18n-hint: (verb) Do a special kind of cut on the labels*/
_( "Split Cut Labeled Audio" ) );
RedrawProject();
}
void AudacityProject::OnCopyLabels()
{
if( mViewInfo.selectedRegion.isPoint() )
return;
EditClipboardByLabel( &WaveTrack::CopyNonconst );
msClipProject = this;
PushState( _( "Copied labeled audio regions to clipboard" ),
/* i18n-hint: (verb)*/
_( "Copy Labeled Audio" ) );
mTrackPanel->Refresh( false );
}
void AudacityProject::OnDeleteLabels()
{
if( mViewInfo.selectedRegion.isPoint() )
return;
EditByLabel( &WaveTrack::Clear, true );
mViewInfo.selectedRegion.collapseToT0();
PushState(
/* i18n-hint: (verb) Audacity has just deleted the labeled audio regions*/
_( "Deleted labeled audio regions" ),
/* i18n-hint: (verb)*/
_( "Delete Labeled Audio" ) );
RedrawProject();
}
void AudacityProject::OnSplitDeleteLabels()
{
if( mViewInfo.selectedRegion.isPoint() )
return;
EditByLabel( &WaveTrack::SplitDelete, false );
PushState(
/* i18n-hint: (verb) Audacity has just done a special kind of DELETE on the labeled audio regions */
_( "Split Deleted labeled audio regions" ),
/* i18n-hint: (verb) Do a special kind of DELETE on labeled audio regions*/
_( "Split Delete Labeled Audio" ) );
RedrawProject();
}
void AudacityProject::OnSilenceLabels()
{
if( mViewInfo.selectedRegion.isPoint() )
return;
EditByLabel( &WaveTrack::Silence, false );
PushState(
/* i18n-hint: (verb)*/
_( "Silenced labeled audio regions" ),
/* i18n-hint: (verb)*/
_( "Silence Labeled Audio" ) );
mTrackPanel->Refresh( false );
}
void AudacityProject::OnSplitLabels()
{
EditByLabel( &WaveTrack::Split, false );
PushState(
/* i18n-hint: (verb) past tense. Audacity has just split the labeled audio (a point or a region)*/
_( "Split labeled audio (points or regions)" ),
/* i18n-hint: (verb)*/
_( "Split Labeled Audio" ) );
RedrawProject();
}
void AudacityProject::OnJoinLabels()
{
if( mViewInfo.selectedRegion.isPoint() )
return;
EditByLabel( &WaveTrack::Join, false );
PushState(
/* i18n-hint: (verb) Audacity has just joined the labeled audio (points or regions)*/
_( "Joined labeled audio (points or regions)" ),
/* i18n-hint: (verb)*/
_( "Join Labeled Audio" ) );
RedrawProject();
}
void AudacityProject::OnDisjoinLabels()
{
if( mViewInfo.selectedRegion.isPoint() )
return;
EditByLabel( &WaveTrack::Disjoin, false );
PushState(
/* i18n-hint: (verb) Audacity has just detached the labeled audio regions.
This message appears in history and tells you about something
Audacity has done.*/
_( "Detached labeled audio regions" ),
/* i18n-hint: (verb)*/
_( "Detach Labeled Audio" ) );
RedrawProject();
}
void AudacityProject::OnSplit()
{
TrackListIterator iter(mTracks);
double sel0 = mViewInfo.selectedRegion.t0();
double sel1 = mViewInfo.selectedRegion.t1();
for (Track* n=iter.First(); n; n = iter.Next())
{
if (n->GetKind() == Track::Wave)
{
WaveTrack* wt = (WaveTrack*)n;
if (wt->GetSelected())
wt->Split( sel0, sel1 );
}
}
PushState(_("Split"), _("Split"));
mTrackPanel->Refresh(false);
#if 0
//ANSWER-ME: Do we need to keep this commented out OnSplit() code?
// This whole section no longer used...
/*
* Previous (pre-multiclip) implementation of "Split" command
* This does work only when a range is selected!
*
TrackListIterator iter(mTracks);
Track *n = iter.First();
Track *dest;
TrackList newTracks;
while (n) {
if (n->GetSelected()) {
double sel0 = mViewInfo.selectedRegion.t0();
double sel1 = mViewInfo.selectedRegion.t1();
dest = NULL;
n->Copy(sel0, sel1, &dest);
if (dest) {
dest->Init(*n);
dest->SetOffset(wxMax(sel0, n->GetOffset()));
if (sel1 >= n->GetEndTime())
n->Clear(sel0, sel1);
else if (sel0 <= n->GetOffset()) {
n->Clear(sel0, sel1);
n->SetOffset(sel1);
} else
n->Silence(sel0, sel1);
newTracks.Add(dest);
}
}
n = iter.Next();
}
TrackListIterator nIter(&newTracks);
n = nIter.First();
while (n) {
mTracks->Add(n);
n = nIter.Next();
}
PushState(_("Split"), _("Split"));
FixScrollbars();
mTrackPanel->Refresh(false);
*/
#endif
}
void AudacityProject::OnSplitNew()
{
TrackListIterator iter(mTracks);
Track *l = iter.Last();
for (Track *n = iter.First(); n; n = iter.Next()) {
if (n->GetSelected()) {
Track::Holder dest;
double newt0 = 0, newt1 = 0;
double offset = n->GetOffset();
if (n->GetKind() == Track::Wave) {
const auto wt = static_cast<WaveTrack*>(n);
// Clips must be aligned to sample positions or the NEW clip will not fit in the gap where it came from
offset = wt->LongSamplesToTime(wt->TimeToLongSamples(offset));
newt0 = wt->LongSamplesToTime(wt->TimeToLongSamples(mViewInfo.selectedRegion.t0()));
newt1 = wt->LongSamplesToTime(wt->TimeToLongSamples(mViewInfo.selectedRegion.t1()));
dest = wt->SplitCut(newt0, newt1);
}
#if 0
// LL: For now, just skip all non-wave tracks since the other do not
// yet support proper splitting.
else {
dest = n->Cut(mViewInfo.selectedRegion.t0(),
mViewInfo.selectedRegion.t1());
}
#endif
if (dest) {
dest->SetChannel(n->GetChannel());
dest->SetLinked(n->GetLinked());
dest->SetName(n->GetName());
dest->SetOffset(wxMax(newt0, offset));
mTracks->Add(dest.release());
}
}
if (n == l) {
break;
}
}
PushState(_("Split to new track"), _("Split New"));
RedrawProject();
}
void AudacityProject::OnSelectAll()
{
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t) {
t->SetSelected(true);
t = iter.Next();
}
mViewInfo.selectedRegion.setTimes(
mTracks->GetMinOffset(), mTracks->GetEndTime());
ModifyState(false);
mTrackPanel->Refresh(false);
if (mMixerBoard)
mMixerBoard->Refresh(false);
}
void AudacityProject::OnSelectNone()
{
this->SelectNone();
mViewInfo.selectedRegion.collapseToT0();
ModifyState(false);
}
#ifdef EXPERIMENTAL_SPECTRAL_EDITING
void AudacityProject::OnToggleSpectralSelection()
{
mTrackPanel->ToggleSpectralSelection();
mTrackPanel->Refresh(false);
ModifyState(false);
}
void AudacityProject::DoNextPeakFrequency(bool up)
{
// Find the first selected wave track that is in a spectrogram view.
WaveTrack *pTrack = 0;
SelectedTrackListOfKindIterator iter(Track::Wave, mTracks);
for (Track *t = iter.First(); t; t = iter.Next()) {
WaveTrack *const wt = static_cast<WaveTrack*>(t);
const int display = wt->GetDisplay();
if (display == WaveTrack::Spectrum) {
pTrack = wt;
break;
}
}
if (pTrack) {
mTrackPanel->SnapCenterOnce(pTrack, up);
mTrackPanel->Refresh(false);
ModifyState(false);
}
}
void AudacityProject::OnNextHigherPeakFrequency()
{
DoNextPeakFrequency(true);
}
void AudacityProject::OnNextLowerPeakFrequency()
{
DoNextPeakFrequency(false);
}
#endif
void AudacityProject::OnSelectCursorEnd()
{
double maxEndOffset = -1000000.0;
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t) {
if (t->GetSelected()) {
if (t->GetEndTime() > maxEndOffset)
maxEndOffset = t->GetEndTime();
}
t = iter.Next();
}
mViewInfo.selectedRegion.setT1(maxEndOffset);
ModifyState(false);
mTrackPanel->Refresh(false);
}
void AudacityProject::OnSelectStartCursor()
{
double minOffset = 1000000.0;
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t) {
if (t->GetSelected()) {
if (t->GetOffset() < minOffset)
minOffset = t->GetOffset();
}
t = iter.Next();
}
mViewInfo.selectedRegion.setT0(minOffset);
ModifyState(false);
mTrackPanel->Refresh(false);
}
void AudacityProject::OnSelectSyncLockSel()
{
bool selected = false;
TrackListIterator iter(mTracks);
for (Track *t = iter.First(); t; t = iter.Next())
{
if (t->IsSyncLockSelected()) {
t->SetSelected(true);
selected = true;
}
}
if (selected)
ModifyState(false);
mTrackPanel->Refresh(false);
if (mMixerBoard)
mMixerBoard->Refresh(false);
}
void AudacityProject::OnSelectAllTracks()
{
TrackListIterator iter(mTracks);
for (Track *t = iter.First(); t; t = iter.Next()) {
t->SetSelected(true);
}
ModifyState(false);
mTrackPanel->Refresh(false);
if (mMixerBoard)
mMixerBoard->Refresh(false);
}
//
// View Menu
//
void AudacityProject::OnZoomIn()
{
ZoomInByFactor( 2.0 );
}
double AudacityProject::GetScreenEndTime() const
{
return mTrackPanel->GetScreenEndTime();
}
void AudacityProject::ZoomInByFactor( double ZoomFactor )
{
// LLL: Handling positioning differently when audio is active
if (gAudioIO->IsStreamActive(GetAudioIOToken()) != 0) {
ZoomBy(ZoomFactor);
mTrackPanel->ScrollIntoView(gAudioIO->GetStreamTime());
mTrackPanel->Refresh(false);
return;
}
// DMM: Here's my attempt to get logical zooming behavior
// when there's a selection that's currently at least
// partially on-screen
const double endTime = GetScreenEndTime();
const double duration = endTime - mViewInfo.h;
bool selectionIsOnscreen =
(mViewInfo.selectedRegion.t0() < endTime) &&
(mViewInfo.selectedRegion.t1() >= mViewInfo.h);
bool selectionFillsScreen =
(mViewInfo.selectedRegion.t0() < mViewInfo.h) &&
(mViewInfo.selectedRegion.t1() > endTime);
if (selectionIsOnscreen && !selectionFillsScreen) {
// Start with the center of the selection
double selCenter = (mViewInfo.selectedRegion.t0() +
mViewInfo.selectedRegion.t1()) / 2;
// If the selection center is off-screen, pick the
// center of the part that is on-screen.
if (selCenter < mViewInfo.h)
selCenter = mViewInfo.h +
(mViewInfo.selectedRegion.t1() - mViewInfo.h) / 2;
if (selCenter > endTime)
selCenter = endTime -
(endTime - mViewInfo.selectedRegion.t0()) / 2;
// Zoom in
ZoomBy(ZoomFactor);
const double newDuration = GetScreenEndTime() - mViewInfo.h;
// Recenter on selCenter
TP_ScrollWindow(selCenter - newDuration / 2);
return;
}
double origLeft = mViewInfo.h;
double origWidth = duration;
ZoomBy(ZoomFactor);
const double newDuration = GetScreenEndTime() - mViewInfo.h;
double newh = origLeft + (origWidth - newDuration) / 2;
// MM: Commented this out because it was confusing users
/*
// make sure that the *right-hand* end of the selection is
// no further *left* than 1/3 of the way across the screen
if (mViewInfo.selectedRegion.t1() < newh + mViewInfo.screen / 3)
newh = mViewInfo.selectedRegion.t1() - mViewInfo.screen / 3;
// make sure that the *left-hand* end of the selection is
// no further *right* than 2/3 of the way across the screen
if (mViewInfo.selectedRegion.t0() > newh + mViewInfo.screen * 2 / 3)
newh = mViewInfo.selectedRegion.t0() - mViewInfo.screen * 2 / 3;
*/
TP_ScrollWindow(newh);
}
void AudacityProject::OnZoomOut()
{
ZoomOutByFactor( 1 /2.0 );
}
void AudacityProject::ZoomOutByFactor( double ZoomFactor )
{
//Zoom() may change these, so record original values:
const double origLeft = mViewInfo.h;
const double origWidth = GetScreenEndTime() - origLeft;
ZoomBy(ZoomFactor);
const double newWidth = GetScreenEndTime() - mViewInfo.h;
const double newh = origLeft + (origWidth - newWidth) / 2;
// newh = (newh > 0) ? newh : 0;
TP_ScrollWindow(newh);
}
// this is unused:
#if 0
static double OldZooms[2]={ 44100.0/512.0, 4410.0/512.0 };
void AudacityProject::OnZoomToggle()
{
double origLeft = mViewInfo.h;
double origWidth = mViewInfo.screen;
float f;
// look at percentage difference. We add a small fudge factor
// to avoid testing for zero divisor.
f = mViewInfo.zoom / (OldZooms[0] + 0.0001f);
// If old zoom is more than 10 percent different, use it.
if( (0.90f > f) || (f >1.10) ){
OldZooms[1]=OldZooms[0];
OldZooms[0]=mViewInfo.zoom;
}
Zoom( OldZooms[1] );
double newh = origLeft + (origWidth - mViewInfo.screen) / 2;
TP_ScrollWindow(newh);
}
#endif
void AudacityProject::OnZoomNormal()
{
Zoom(ZoomInfo::GetDefaultZoom());
mTrackPanel->Refresh(false);
}
void AudacityProject::OnZoomFit()
{
const double end = mTracks->GetEndTime();
const double start = mViewInfo.bScrollBeyondZero
? std::min(mTracks->GetStartTime(), 0.0)
: 0;
const double len = end - start;
if (len <= 0.0)
return;
int w;
mTrackPanel->GetTracksUsableArea(&w, NULL);
w -= 10;
Zoom(w / len);
TP_ScrollWindow(start);
}
void AudacityProject::DoZoomFitV()
{
int height, count;
mTrackPanel->GetTracksUsableArea(NULL, &height);
height -= 28;
count = 0;
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t) {
if ((t->GetKind() == Track::Wave) &&
!t->GetMinimized())
count++;
else
height -= t->GetHeight();
t = iter.Next();
}
if (count == 0)
return;
height = height / count;
if (height < 40)
height = 40;
TrackListIterator iter2(mTracks);
t = iter2.First();
while (t) {
if ((t->GetKind() == Track::Wave) &&
!t->GetMinimized())
t->SetHeight(height);
t = iter2.Next();
}
}
void AudacityProject::OnZoomFitV()
{
this->DoZoomFitV();
mVsbar->SetThumbPosition(0);
RedrawProject();
ModifyState(true);
}
void AudacityProject::OnZoomSel()
{
const double lowerBound =
std::max(mViewInfo.selectedRegion.t0(), ScrollingLowerBoundTime());
const double denom =
mViewInfo.selectedRegion.t1() - lowerBound;
if (denom <= 0.0)
return;
// LL: The "-1" is just a hack to get around an issue where zooming to
// selection doesn't actually get the entire selected region within the
// visible area. This causes a problem with scrolling at end of playback
// where the selected region may be scrolled off the left of the screen.
// I know this isn't right, but until the real rounding or 1-off issue is
// found, this will have to work.
// PRL: Did I fix this? I am not sure, so I leave the hack in place.
// Fixes might have resulted from commits
// 1b8f44d0537d987c59653b11ed75a842b48896ea and
// e7c7bb84a966c3b3cc4b3a9717d5f247f25e7296
int width;
mTrackPanel->GetTracksUsableArea(&width, NULL);
Zoom((width - 1) / denom);
TP_ScrollWindow(mViewInfo.selectedRegion.t0());
}
void AudacityProject::OnGoSelStart()
{
if (mViewInfo.selectedRegion.isPoint())
return;
TP_ScrollWindow(mViewInfo.selectedRegion.t0() - ((GetScreenEndTime() - mViewInfo.h) / 2));
}
void AudacityProject::OnGoSelEnd()
{
if (mViewInfo.selectedRegion.isPoint())
return;
TP_ScrollWindow(mViewInfo.selectedRegion.t1() - ((GetScreenEndTime() - mViewInfo.h) / 2));
}
void AudacityProject::OnShowClipping()
{
bool checked = !gPrefs->Read(wxT("/GUI/ShowClipping"), 0L);
gPrefs->Write(wxT("/GUI/ShowClipping"), checked);
gPrefs->Flush();
mCommandManager.Check(wxT("ShowClipping"), checked);
mTrackPanel->UpdatePrefs();
mTrackPanel->Refresh(false);
}
void AudacityProject::OnHistory()
{
if (!mHistoryWindow)
mHistoryWindow = new HistoryWindow(this, GetUndoManager());
mHistoryWindow->Show();
mHistoryWindow->Raise();
mHistoryWindow->UpdateDisplay();
}
void AudacityProject::OnKaraoke()
{
if (!mLyricsWindow)
mLyricsWindow = safenew LyricsWindow(this);
mLyricsWindow->Show();
UpdateLyrics();
mLyricsWindow->Raise();
}
void AudacityProject::OnMixerBoard()
{
if (!mMixerBoardFrame)
{
mMixerBoardFrame = safenew MixerBoardFrame(this);
mMixerBoard = mMixerBoardFrame->mMixerBoard;
}
mMixerBoardFrame->Show();
mMixerBoardFrame->Raise();
mMixerBoardFrame->SetFocus();
}
void AudacityProject::OnPlotSpectrum()
{
if (!mFreqWindow) {
wxPoint where;
where.x = 150;
where.y = 150;
mFreqWindow = new FreqWindow(this, -1, _("Frequency Analysis"), where);
}
mFreqWindow->Show(true);
mFreqWindow->Raise();
mFreqWindow->SetFocus();
}
void AudacityProject::OnContrast()
{
// All of this goes away when the Contrast Dialog is converted to a module
if(!mContrastDialog)
{
wxPoint where;
where.x = 150;
where.y = 150;
mContrastDialog = new ContrastDialog(this, -1, _("Contrast Analysis (WCAG 2 compliance)"), where);
mContrastDialog->bFGset = false;
mContrastDialog->bBGset = false;
}
// Zero dialog boxes. Do we need to do this here?
if( !mContrastDialog->bFGset )
{
mContrastDialog->mForegroundStartT->SetValue(0.0);
mContrastDialog->mForegroundEndT->SetValue(0.0);
}
if( !mContrastDialog->bBGset )
{
mContrastDialog->mBackgroundStartT->SetValue(0.0);
mContrastDialog->mBackgroundEndT->SetValue(0.0);
}
mContrastDialog->CentreOnParent();
mContrastDialog->Show();
}
void AudacityProject::OnShowTransportToolBar()
{
mToolManager->ShowHide(TransportBarID);
ModifyToolbarMenus();
}
void AudacityProject::OnShowDeviceToolBar()
{
mToolManager->ShowHide( DeviceBarID );
ModifyToolbarMenus();
}
void AudacityProject::OnShowEditToolBar()
{
mToolManager->ShowHide( EditBarID );
ModifyToolbarMenus();
}
void AudacityProject::OnShowMeterToolBar()
{
if( !mToolManager->IsVisible( MeterBarID ) )
{
mToolManager->Expose( PlayMeterBarID, false );
mToolManager->Expose( RecordMeterBarID, false );
}
mToolManager->ShowHide( MeterBarID );
ModifyToolbarMenus();
}
void AudacityProject::OnShowRecordMeterToolBar()
{
if( !mToolManager->IsVisible( RecordMeterBarID ) )
{
mToolManager->Expose( MeterBarID, false );
}
mToolManager->ShowHide( RecordMeterBarID );
ModifyToolbarMenus();
}
void AudacityProject::OnShowPlayMeterToolBar()
{
if( !mToolManager->IsVisible( PlayMeterBarID ) )
{
mToolManager->Expose( MeterBarID, false );
}
mToolManager->ShowHide( PlayMeterBarID );
ModifyToolbarMenus();
}
void AudacityProject::OnShowMixerToolBar()
{
mToolManager->ShowHide( MixerBarID );
ModifyToolbarMenus();
}
void AudacityProject::OnShowSelectionToolBar()
{
mToolManager->ShowHide( SelectionBarID );
ModifyToolbarMenus();
}
#ifdef EXPERIMENTAL_SPECTRAL_EDITING
void AudacityProject::OnShowSpectralSelectionToolBar()
{
mToolManager->ShowHide( SpectralSelectionBarID );
ModifyToolbarMenus();
}
#endif
void AudacityProject::OnShowToolsToolBar()
{
mToolManager->ShowHide( ToolsBarID );
ModifyToolbarMenus();
}
void AudacityProject::OnShowTranscriptionToolBar()
{
mToolManager->ShowHide( TranscriptionBarID );
ModifyToolbarMenus();
}
void AudacityProject::OnResetToolBars()
{
mToolManager->Reset();
ModifyToolbarMenus();
}
//
// Project Menu
//
void AudacityProject::OnImport()
{
// An import trigger for the alias missing dialog might not be intuitive, but
// this serves to track the file if the users zooms in and such.
wxGetApp().SetMissingAliasedFileWarningShouldShow(true);
wxArrayString selectedFiles = ShowOpenDialog(wxT(""));
if (selectedFiles.GetCount() == 0) {
gPrefs->Write(wxT("/LastOpenType"),wxT(""));
gPrefs->Flush();
return;
}
gPrefs->Write(wxT("/NewImportingSession"), true);
//sort selected files by OD status. Load non OD first so user can edit asap.
//first sort selectedFiles.
selectedFiles.Sort(CompareNoCaseFileName);
ODManager::Pause();
for (size_t ff = 0; ff < selectedFiles.GetCount(); ff++) {
wxString fileName = selectedFiles[ff];
wxString path = ::wxPathOnly(fileName);
gPrefs->Write(wxT("/DefaultOpenPath"), path);
Import(fileName);
}
gPrefs->Write(wxT("/LastOpenType"),wxT(""));
gPrefs->Flush();
HandleResize(); // Adjust scrollers for NEW track sizes.
ODManager::Resume();
}
void AudacityProject::OnImportLabels()
{
wxString path = gPrefs->Read(wxT("/DefaultOpenPath"),::wxGetCwd());
wxString fileName =
FileSelector(_("Select a text file containing labels..."),
path, // Path
wxT(""), // Name
wxT(".txt"), // Extension
_("Text files (*.txt)|*.txt|All files|*"),
wxRESIZE_BORDER, // Flags
this); // Parent
if (fileName != wxT("")) {
path =::wxPathOnly(fileName);
gPrefs->Write(wxT("/DefaultOpenPath"), path);
gPrefs->Flush();
wxTextFile f;
f.Open(fileName);
if (!f.IsOpened()) {
wxMessageBox(_("Could not open file: ") + fileName);
return;
}
LabelTrack *newTrack = GetTrackFactory()->NewLabelTrack().release();
wxString sTrackName;
wxFileName::SplitPath(fileName, NULL, NULL, &sTrackName, NULL);
newTrack->SetName(sTrackName);
newTrack->Import(f);
SelectNone();
mTracks->Add(newTrack);
newTrack->SetSelected(true);
PushState(wxString::
Format(_("Imported labels from '%s'"), fileName.c_str()),
_("Import Labels"));
RedrawProject();
}
}
#ifdef USE_MIDI
void AudacityProject::OnImportMIDI()
{
wxString path = gPrefs->Read(wxT("/DefaultOpenPath"),::wxGetCwd());
wxString fileName = FileSelector(_("Select a MIDI file..."),
path, // Path
wxT(""), // Name
wxT(""), // Extension
_("MIDI and Allegro files (*.mid;*.midi;*.gro)|*.mid;*.midi;*.gro|MIDI files (*.mid;*.midi)|*.mid;*.midi|Allegro files (*.gro)|*.gro|All files|*"),
wxRESIZE_BORDER, // Flags
this); // Parent
if (fileName != wxT("")) {
path =::wxPathOnly(fileName);
gPrefs->Write(wxT("/DefaultOpenPath"), path);
gPrefs->Flush();
DoImportMIDI(fileName);
}
}
void AudacityProject::DoImportMIDI(const wxString &fileName)
{
NoteTrack *newTrack = GetTrackFactory()->NewNoteTrack().release();
if (::ImportMIDI(fileName, newTrack)) {
SelectNone();
mTracks->Add(newTrack);
newTrack->SetSelected(true);
PushState(wxString::Format(_("Imported MIDI from '%s'"),
fileName.c_str()), _("Import MIDI"));
RedrawProject();
mTrackPanel->EnsureVisible(newTrack);
}
else
delete newTrack;
}
#endif // USE_MIDI
void AudacityProject::OnImportRaw()
{
wxString path = gPrefs->Read(wxT("/DefaultOpenPath"),::wxGetCwd());
wxString fileName =
FileSelector(_("Select any uncompressed audio file..."),
path, // Path
wxT(""), // Name
wxT(""), // Extension
_("All files|*"),
wxRESIZE_BORDER, // Flags
this); // Parent
if (fileName == wxT(""))
return;
path =::wxPathOnly(fileName);
gPrefs->Write(wxT("/DefaultOpenPath"), path);
gPrefs->Flush();
Track **newTracks;
int numTracks;
numTracks = ::ImportRaw(this, fileName, mTrackFactory, &newTracks);
if (numTracks <= 0)
return;
AddImportedTracks(fileName, newTracks, numTracks);
HandleResize(); // Adjust scrollers for NEW track sizes.
}
void AudacityProject::OnEditMetadata()
{
(void)DoEditMetadata(_("Edit Metadata Tags"), _("Metadata Tags"), true);
}
bool AudacityProject::DoEditMetadata
(const wxString &title, const wxString &shortUndoDescription, bool force)
{
// Back up my tags
auto newTags = mTags->Duplicate();
if (newTags->ShowEditDialog(this, title, force)) {
// Commit the change to project state only now.
mTags = newTags;
PushState(title, shortUndoDescription);
return true;
}
return false;
}
void AudacityProject::HandleMixAndRender(bool toNewTrack)
{
WaveTrack *newLeft = NULL;
WaveTrack *newRight = NULL;
wxGetApp().SetMissingAliasedFileWarningShouldShow(true);
if (::MixAndRender(mTracks, mTrackFactory, mRate, mDefaultFormat, 0.0, 0.0,
&newLeft, &newRight)) {
// Remove originals, get stats on what tracks were mixed
TrackListIterator iter(mTracks);
Track *t = iter.First();
int selectedCount = 0;
wxString firstName;
while (t) {
if (t->GetSelected() && (t->GetKind() == Track::Wave)) {
if (selectedCount==0)
firstName = t->GetName();
// Add one to the count if it's an unlinked track, or if it's the first
// in a stereo pair
if (t->GetLinked() || !t->GetLink())
selectedCount++;
if (!toNewTrack) {
t = iter.RemoveCurrent(true);
} else {
t = iter.Next();
};
}
else
t = iter.Next();
}
// Add NEW tracks
mTracks->Add(newLeft);
if (newRight)
mTracks->Add(newRight);
// If we're just rendering (not mixing), keep the track name the same
if (selectedCount==1) {
newLeft->SetName(firstName);
if (newRight)
newRight->SetName(firstName);
}
// Smart history/undo message
if (selectedCount==1) {
wxString msg;
msg.Printf(_("Rendered all audio in track '%s'"), firstName.c_str());
/* i18n-hint: Convert the audio into a more usable form, so apply
* panning and amplification and write to some external file.*/
PushState(msg, _("Render"));
}
else {
wxString msg;
if (newRight)
msg.Printf(_("Mixed and rendered %d tracks into one new stereo track"),
selectedCount);
else
msg.Printf(_("Mixed and rendered %d tracks into one new mono track"),
selectedCount);
PushState(msg, _("Mix and Render"));
}
mTrackPanel->SetFocus();
mTrackPanel->SetFocusedTrack(newLeft);
mTrackPanel->EnsureVisible(newLeft);
RedrawProject();
}
}
void AudacityProject::OnMixAndRender()
{
HandleMixAndRender(false);
}
void AudacityProject::OnMixAndRenderToNewTrack()
{
HandleMixAndRender(true);
}
void AudacityProject::OnSelectionSave()
{
mRegionSave = mViewInfo.selectedRegion;
}
void AudacityProject::OnSelectionRestore()
{
if ((mRegionSave.t0() == 0.0) &&
(mRegionSave.t1() == 0.0))
return;
mViewInfo.selectedRegion = mRegionSave;
ModifyState(false);
mTrackPanel->Refresh(false);
}
void AudacityProject::OnCursorTrackStart()
{
double minOffset = 1000000.0;
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t) {
if (t->GetSelected()) {
if (t->GetOffset() < minOffset)
minOffset = t->GetOffset();
}
t = iter.Next();
}
if (minOffset < 0.0) minOffset = 0.0;
mViewInfo.selectedRegion.setTimes(minOffset, minOffset);
ModifyState(false);
mTrackPanel->ScrollIntoView(mViewInfo.selectedRegion.t0());
mTrackPanel->Refresh(false);
}
void AudacityProject::OnCursorTrackEnd()
{
double maxEndOffset = -1000000.0;
double thisEndOffset = 0.0;
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t) {
if (t->GetSelected()) {
thisEndOffset = t->GetEndTime();
if (thisEndOffset > maxEndOffset)
maxEndOffset = thisEndOffset;
}
t = iter.Next();
}
mViewInfo.selectedRegion.setTimes(maxEndOffset, maxEndOffset);
ModifyState(false);
mTrackPanel->ScrollIntoView(mViewInfo.selectedRegion.t1());
mTrackPanel->Refresh(false);
}
void AudacityProject::OnCursorSelStart()
{
mViewInfo.selectedRegion.collapseToT0();
ModifyState(false);
mTrackPanel->ScrollIntoView(mViewInfo.selectedRegion.t0());
mTrackPanel->Refresh(false);
}
void AudacityProject::OnCursorSelEnd()
{
mViewInfo.selectedRegion.collapseToT1();
ModifyState(false);
mTrackPanel->ScrollIntoView(mViewInfo.selectedRegion.t1());
mTrackPanel->Refresh(false);
}
void AudacityProject::HandleAlign(int index, bool moveSel)
{
TrackListIterator iter(mTracks);
wxString action;
wxString shortAction;
double offset;
double minOffset = 1000000000.0;
double maxEndOffset = 0.0;
double leftOffset = 0.0;
bool bRightChannel = false;
double avgOffset = 0.0;
int numSelected = 0;
Track *t = iter.First();
double delta = 0.0;
double newPos = -1.0;
wxArrayDouble trackStartArray;
wxArrayDouble trackEndArray;
double firstTrackOffset=0.0f;
while (t) {
// We only want Wave and Note tracks here.
#if defined(USE_MIDI)
if (t->GetSelected() && ((t->GetKind() == Track::Wave) ||
(t->GetKind() == Track::Note))) {
#else
if (t->GetSelected() && (t->GetKind() == Track::Wave)) {
#endif
offset = t->GetOffset();
if (t->GetLinked()) { // Left channel of stereo track.
leftOffset = offset;
bRightChannel = true; // next track is the right channel.
} else {
if (bRightChannel) {
// Align channel with earlier start time
offset = (offset < leftOffset)? offset : leftOffset;
leftOffset = 0.0;
bRightChannel = false;
}
avgOffset += offset;
if (numSelected == 0) {
firstTrackOffset = offset; // For Align End to End.
}
numSelected++;
}
trackStartArray.Add(t->GetStartTime());
trackEndArray.Add(t->GetEndTime());
if (offset < minOffset)
minOffset = offset;
if (t->GetEndTime() > maxEndOffset)
maxEndOffset = t->GetEndTime();
}
t = iter.Next();
}
avgOffset /= numSelected; // numSelected is mono/stereo tracks not channels.
switch(index) {
case kAlignStartZero:
delta = -minOffset;
action = _("start to zero");
shortAction = _("Start");
break;
case kAlignStartSelStart:
delta = mViewInfo.selectedRegion.t0() - minOffset;
action = _("start to cursor/selection start");
shortAction = _("Start");
break;
case kAlignStartSelEnd:
delta = mViewInfo.selectedRegion.t1() - minOffset;
action = _("start to selection end");
shortAction = _("Start");
break;
case kAlignEndSelStart:
delta = mViewInfo.selectedRegion.t0() - maxEndOffset;
action = _("end to cursor/selection start");
shortAction = _("End");
break;
case kAlignEndSelEnd:
delta = mViewInfo.selectedRegion.t1() - maxEndOffset;
action = _("end to selection end");
shortAction = _("End");
break;
// index set in alignLabelsNoSync
case kAlignEndToEnd:
newPos = firstTrackOffset;
action = _("end to end");
shortAction = _("End to End");
break;
case kAlignTogether:
newPos = avgOffset;
action = _("together");
shortAction = _("Together");
}
if ((unsigned)index >= mAlignLabelsCount) { // This is an alignLabelsNoSync command.
TrackListIterator iter(mTracks);
Track *t = iter.First();
double leftChannelStart = 0.0;
double leftChannelEnd = 0.0;
double rightChannelStart = 0.0;
double rightChannelEnd = 0.0;
int arrayIndex = 0;
while (t) {
// This shifts different tracks in different ways, so no sync-lock move.
// Only align Wave and Note tracks end to end.
#if defined(USE_MIDI)
if (t->GetSelected() && ((t->GetKind() == Track::Wave) ||
(t->GetKind() == Track::Note))) {
#else
if (t->GetSelected() && (t->GetKind() == Track::Wave)) {
#endif
t->SetOffset(newPos); // Move the track
if (t->GetLinked()) { // Left channel of stereo track.
leftChannelStart = trackStartArray[arrayIndex];
leftChannelEnd = trackEndArray[arrayIndex];
rightChannelStart = trackStartArray[1+arrayIndex];
rightChannelEnd = trackEndArray[1+arrayIndex];
bRightChannel = true; // next track is the right channel.
// newPos is the offset for the earlier channel.
// If right channel started first, offset the left channel.
if (rightChannelStart < leftChannelStart) {
t->SetOffset(newPos + leftChannelStart - rightChannelStart);
}
arrayIndex++;
} else {
if (bRightChannel) {
// If left channel started first, offset the right channel.
if (leftChannelStart < rightChannelStart) {
t->SetOffset(newPos + rightChannelStart - leftChannelStart);
}
if (index == kAlignEndToEnd) {
// Now set position for start of next track.
newPos += wxMax(leftChannelEnd, rightChannelEnd) - wxMin(leftChannelStart, rightChannelStart);
}
bRightChannel = false;
} else { // Mono track
if (index == kAlignEndToEnd) {
newPos += (trackEndArray[arrayIndex] - trackStartArray[arrayIndex]);
}
}
arrayIndex++;
}
}
t = iter.Next();
}
if (index == kAlignEndToEnd) {
OnZoomFit();
}
}
if (delta != 0.0) {
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t) {
// For a fixed-distance shift move sync-lock selected tracks also.
if (t->GetSelected() || t->IsSyncLockSelected()) {
t->SetOffset(t->GetOffset() + delta);
}
t = iter.Next();
}
}
if (moveSel) {
mViewInfo.selectedRegion.move(delta);
action = wxString::Format(_("Aligned/Moved %s"), action.c_str());
shortAction = wxString::Format(_("Align %s/Move"),shortAction.c_str());
PushState(action, shortAction);
} else {
action = wxString::Format(_("Aligned %s"), action.c_str());
shortAction = wxString::Format(_("Align %s"),shortAction.c_str());
PushState(action, shortAction);
}
RedrawProject();
}
void AudacityProject::OnAlignNoSync(int index)
{
// Add length of alignLabels array so that we can handle this in AudacityProject::HandleAlign.
HandleAlign(index + mAlignLabelsCount, false);
}
void AudacityProject::OnAlign(int index)
{
HandleAlign(index, false);
}
void AudacityProject::OnAlignMoveSel(int index)
{
HandleAlign(index, true);
}
#ifdef EXPERIMENTAL_SCOREALIGN
// rough relative amount of time to compute one
// frame of audio or midi, or one cell of matrix, or one iteration
// of smoothing, measured on a 1.9GHz Core 2 Duo in 32-bit mode
// (see COLLECT_TIMING_DATA below)
#define AUDIO_WORK_UNIT 0.004F
#define MIDI_WORK_UNIT 0.0001F
#define MATRIX_WORK_UNIT 0.000002F
#define SMOOTHING_WORK_UNIT 0.000001F
// Write timing data to a file; useful for calibrating AUDIO_WORK_UNIT,
// MIDI_WORK_UNIT, MATRIX_WORK_UNIT, and SMOOTHING_WORK_UNIT coefficients
// Data is written to timing-data.txt; look in
// audacity-src/win/Release/modules/
#define COLLECT_TIMING_DATA
// Audacity Score Align Progress class -- progress reports come here
class ASAProgress final : public SAProgress {
private:
float mTotalWork;
float mFrames[2];
long mTotalCells; // how many matrix cells?
long mCellCount; // how many cells so far?
long mPrevCellCount; // cell_count last reported with Update()
ProgressDialog *mProgress;
#ifdef COLLECT_TIMING_DATA
FILE *mTimeFile;
wxDateTime mStartTime;
long iterations;
#endif
public:
ASAProgress() {
smoothing = false;
mProgress = NULL;
#ifdef COLLECT_TIMING_DATA
mTimeFile = fopen("timing-data.txt", "w");
#endif
}
~ASAProgress() {
delete mProgress;
#ifdef COLLECT_TIMING_DATA
fclose(mTimeFile);
#endif
}
void set_phase(int i) override {
float work[2]; // chromagram computation work estimates
float work2, work3 = 0; // matrix and smoothing work estimates
SAProgress::set_phase(i);
#ifdef COLLECT_TIMING_DATA
long ms = 0;
wxDateTime now = wxDateTime::UNow();
fprintf(mTimeFile, "Phase %d begins at %s\n",
i, now.FormatTime().c_str());
if (i != 0)
ms = now.Subtract(mStartTime).GetMilliseconds().ToLong();
mStartTime = now;
#endif
if (i == 0) {
mCellCount = 0;
for (int j = 0; j < 2; j++) {
mFrames[j] = durations[j] / frame_period;
}
mTotalWork = 0;
for (int j = 0; j < 2; j++) {
work[j] =
(is_audio[j] ? AUDIO_WORK_UNIT : MIDI_WORK_UNIT) * mFrames[j];
mTotalWork += work[j];
}
mTotalCells = mFrames[0] * mFrames[1];
work2 = mTotalCells * MATRIX_WORK_UNIT;
mTotalWork += work2;
// arbitarily assume 60 iterations to fit smooth segments and
// per frame per iteration is SMOOTHING_WORK_UNIT
if (smoothing) {
work3 =
wxMax(mFrames[0], mFrames[1]) * SMOOTHING_WORK_UNIT * 40;
mTotalWork += work3;
}
#ifdef COLLECT_TIMING_DATA
fprintf(mTimeFile, " mTotalWork (an estimate) = %g\n", mTotalWork);
fprintf(mTimeFile, " work0 = %g, frames %g, is_audio %d\n",
work[0], mFrames[0], is_audio[0]);
fprintf(mTimeFile, " work1 = %g, frames %g, is_audio %d\n",
work[1], mFrames[1], is_audio[1]);
fprintf(mTimeFile, "work2 = %g, work3 = %g\n", work2, work3);
#endif
mProgress = new ProgressDialog(_("Synchronize MIDI with Audio"),
_("Synchronizing MIDI and Audio Tracks"));
} else if (i < 3) {
fprintf(mTimeFile,
"Phase %d took %d ms for %g frames, coefficient = %g s/frame\n",
i - 1, ms, mFrames[i - 1], (ms * 0.001) / mFrames[i - 1]);
} else if (i == 3) {
fprintf(mTimeFile,
"Phase 2 took %d ms for %d cells, coefficient = %g s/cell\n",
ms, mCellCount, (ms * 0.001) / mCellCount);
} else if (i == 4) {
fprintf(mTimeFile, "Phase 3 took %d ms for %d iterations on %g frames, coefficient = %g s per frame per iteration\n",
ms, iterations, wxMax(mFrames[0], mFrames[1]),
(ms * 0.001) / (wxMax(mFrames[0], mFrames[1]) * iterations));
}
}
bool set_feature_progress(float s) override {
float work;
if (phase == 0) {
float f = s / frame_period;
work = (is_audio[0] ? AUDIO_WORK_UNIT : MIDI_WORK_UNIT) * f;
} else if (phase == 1) {
float f = s / frame_period;
work = (is_audio[0] ? AUDIO_WORK_UNIT : MIDI_WORK_UNIT) * mFrames[0] +
(is_audio[1] ? AUDIO_WORK_UNIT : MIDI_WORK_UNIT) * f;
}
int updateResult = mProgress->Update(int(work), int(mTotalWork));
return (updateResult == eProgressSuccess);
}
bool set_matrix_progress(int cells) override {
mCellCount += cells;
float work =
(is_audio[0] ? AUDIO_WORK_UNIT : MIDI_WORK_UNIT) * mFrames[0] +
(is_audio[1] ? AUDIO_WORK_UNIT : MIDI_WORK_UNIT) * mFrames[1];
work += mCellCount * MATRIX_WORK_UNIT;
int updateResult = mProgress->Update(int(work), int(mTotalWork));
return (updateResult == eProgressSuccess);
}
bool set_smoothing_progress(int i) override {
iterations = i;
float work =
(is_audio[0] ? AUDIO_WORK_UNIT : MIDI_WORK_UNIT) * mFrames[0] +
(is_audio[1] ? AUDIO_WORK_UNIT : MIDI_WORK_UNIT) * mFrames[1] +
MATRIX_WORK_UNIT * mFrames[0] * mFrames[1];
work += i * wxMax(mFrames[0], mFrames[1]) * SMOOTHING_WORK_UNIT;
int updateResult = mProgress->Update(int(work), int(mTotalWork));
return (updateResult == eProgressSuccess);
}
};
long mixer_process(void *mixer, float **buffer, long n)
{
Mixer *mix = (Mixer *) mixer;
long frame_count = mix->Process(n);
*buffer = (float *) mix->GetBuffer();
return frame_count;
}
void AudacityProject::OnScoreAlign()
{
TrackListIterator iter(mTracks);
Track *t = iter.First();
int numWaveTracksSelected = 0;
int numNoteTracksSelected = 0;
int numOtherTracksSelected = 0;
NoteTrack *nt;
NoteTrack *alignedNoteTrack;
double endTime = 0.0;
// Iterate through once to make sure that there is exactly
// one WaveTrack and one NoteTrack selected.
while (t) {
if (t->GetSelected()) {
if (t->GetKind() == Track::Wave) {
numWaveTracksSelected++;
WaveTrack *wt = (WaveTrack *) t;
endTime = endTime > wt->GetEndTime() ? endTime : wt->GetEndTime();
} else if(t->GetKind() == Track::Note) {
numNoteTracksSelected++;
nt = (NoteTrack *) t;
} else numOtherTracksSelected++;
}
t = iter.Next();
}
if(numWaveTracksSelected == 0 ||
numNoteTracksSelected != 1 ||
numOtherTracksSelected != 0){
wxMessageBox(wxString::Format(wxT("Please select at least one audio track and one MIDI track.")));
return;
}
// Creating the dialog also stores dialog into gScoreAlignDialog so
// that it can be delted by CloseScoreAlignDialog() either here or
// if the program is quit by the user while the dialog is up.
ScoreAlignParams params;
ScoreAlignDialog *dlog = new ScoreAlignDialog(NULL, params);
CloseScoreAlignDialog();
if (params.mStatus != wxID_OK) return;
// We're going to do it.
//pushing the state before the change is wrong (I think)
//PushState(_("Sync MIDI with Audio"), _("Sync MIDI with Audio"));
// Make a copy of the note track in case alignment is canceled or fails
alignedNoteTrack = (NoteTrack *) nt->Duplicate();
// Duplicate() on note tracks serializes seq to a buffer, but we need
// the seq, so Duplicate again and discard the track with buffer. The
// test is here in case Duplicate() is changed in the future.
if (alignedNoteTrack->GetSequence() == NULL) {
NoteTrack *temp = (NoteTrack *) alignedNoteTrack->Duplicate();
delete alignedNoteTrack;
alignedNoteTrack = temp;
assert(alignedNoteTrack->GetSequence());
}
// Remove offset from NoteTrack because audio is
// mixed starting at zero and incorporating clip offsets.
if (alignedNoteTrack->GetOffset() < 0) {
// remove the negative offset data before alignment
nt->Clear(alignedNoteTrack->GetOffset(), 0);
} else if (alignedNoteTrack->GetOffset() > 0) {
alignedNoteTrack->Shift(alignedNoteTrack->GetOffset());
}
alignedNoteTrack->SetOffset(0);
WaveTrack **waveTracks;
mTracks->GetWaveTracks(true /* selectionOnly */,
&numWaveTracksSelected, &waveTracks);
int result;
{
Mixer mix(numWaveTracksSelected, // int numInputTracks
waveTracks, // WaveTrack **inputTracks
mTracks->GetTimeTrack(), // TimeTrack *timeTrack
0.0, // double startTime
endTime, // double stopTime
2, // int numOutChannels
44100, // int outBufferSize
true, // bool outInterleaved
mRate, // double outRate
floatSample, // sampleFormat outFormat
true, // bool highQuality = true
NULL); // MixerSpec *mixerSpec = NULL
delete [] waveTracks;
ASAProgress progress;
// There's a lot of adjusting made to incorporate the note track offset into
// the note track while preserving the position of notes within beats and
// measures. For debugging, you can see just the pre-scorealign note track
// manipulation by setting SKIP_ACTUAL_SCORE_ALIGNMENT. You could then, for
// example, save the modified note track in ".gro" form to read the details.
//#define SKIP_ACTUAL_SCORE_ALIGNMENT 1
#ifndef SKIP_ACTUAL_SCORE_ALIGNMENT
result = scorealign((void *) &mix, &mixer_process,
2 /* channels */, 44100.0 /* srate */, endTime,
alignedNoteTrack->GetSequence(), &progress, params);
#else
result = SA_SUCCESS;
#endif
}
if (result == SA_SUCCESS) {
mTracks->Replace(nt, alignedNoteTrack, true);
RedrawProject();
wxMessageBox(wxString::Format(
_("Alignment completed: MIDI from %.2f to %.2f secs, Audio from %.2f to %.2f secs."),
params.mMidiStart, params.mMidiEnd,
params.mAudioStart, params.mAudioEnd));
PushState(_("Sync MIDI with Audio"), _("Sync MIDI with Audio"));
} else if (result == SA_TOOSHORT) {
delete alignedNoteTrack;
wxMessageBox(wxString::Format(
_("Alignment error: input too short: MIDI from %.2f to %.2f secs, Audio from %.2f to %.2f secs."),
params.mMidiStart, params.mMidiEnd,
params.mAudioStart, params.mAudioEnd));
} else if (result == SA_CANCEL) {
// wrong way to recover...
//GetActiveProject()->OnUndo(); // recover any changes to note track
delete alignedNoteTrack;
return; // no message when user cancels alignment
} else {
//GetActiveProject()->OnUndo(); // recover any changes to note track
delete alignedNoteTrack;
wxMessageBox(_("Internal error reported by alignment process."));
}
}
#endif /* EXPERIMENTAL_SCOREALIGN */
void AudacityProject::OnNewWaveTrack()
{
WaveTrack *t = mTrackFactory->NewWaveTrack(mDefaultFormat, mRate).release();
SelectNone();
mTracks->Add(t);
t->SetSelected(true);
PushState(_("Created new audio track"), _("New Track"));
RedrawProject();
mTrackPanel->EnsureVisible(t);
}
void AudacityProject::OnNewStereoTrack()
{
WaveTrack *t = mTrackFactory->NewWaveTrack(mDefaultFormat, mRate).release();
t->SetChannel(Track::LeftChannel);
SelectNone();
mTracks->Add(t);
t->SetSelected(true);
t->SetLinked (true);
t = mTrackFactory->NewWaveTrack(mDefaultFormat, mRate).release();
t->SetChannel(Track::RightChannel);
mTracks->Add(t);
t->SetSelected(true);
PushState(_("Created new stereo audio track"), _("New Track"));
RedrawProject();
mTrackPanel->EnsureVisible(t);
}
void AudacityProject::OnNewLabelTrack()
{
LabelTrack *t = GetTrackFactory()->NewLabelTrack().release();
SelectNone();
mTracks->Add(t);
t->SetSelected(true);
PushState(_("Created new label track"), _("New Track"));
RedrawProject();
mTrackPanel->EnsureVisible(t);
}
void AudacityProject::OnNewTimeTrack()
{
if (mTracks->GetTimeTrack()) {
wxMessageBox(_("This version of Audacity only allows one time track for each project window."));
return;
}
TimeTrack *t = mTrackFactory->NewTimeTrack().release();
SelectNone();
mTracks->AddToHead(t);
t->SetSelected(true);
PushState(_("Created new time track"), _("New Track"));
RedrawProject();
mTrackPanel->EnsureVisible(t);
}
void AudacityProject::OnTimerRecord()
{
//we break the prompting and waiting dialogs into two sections
//because they both give the user a chance to click cancel
//and therefore remove the newly inserted track.
TimerRecordDialog dialog(this /* parent */ );
int modalResult = dialog.ShowModal();
if (modalResult == wxID_CANCEL)
{
// Cancelled before recording - don't need to do anyting.
}
else if(!dialog.RunWaitDialog())
{
//RunWaitDialog() shows the "wait for start" as well as "recording" dialog
//if it returned false it means the user cancelled while the recording, so throw out the fresh track.
//However, we can't undo it here because the PushState() is called in TrackPanel::OnTimer(),
//which is blocked by this function.
//so instead we mark a flag to undo it there.
mTimerRecordCanceled = true;
}
}
void AudacityProject::OnSoundActivated()
{
SoundActivatedRecord dialog(this /* parent */ );
dialog.ShowModal();
}
void AudacityProject::OnRescanDevices()
{
DeviceManager::Instance()->Rescan();
}
int AudacityProject::DoAddLabel(const SelectedRegion &region, bool preserveFocus)
{
LabelTrack *lt = NULL;
// If the focused track is a label track, use that
Track *const pFocusedTrack = mTrackPanel->GetFocusedTrack();
Track *t = pFocusedTrack;
if (t && t->GetKind() == Track::Label) {
lt = (LabelTrack *) t;
}
// Otherwise look for a label track after the focused track
if (!lt) {
TrackListIterator iter(mTracks);
if (t)
iter.StartWith(t);
else
t = iter.First();
while (t && !lt) {
if (t->GetKind() == Track::Label)
lt = (LabelTrack *) t;
t = iter.Next();
}
}
// If none found, start a NEW label track and use it
if (!lt) {
lt = GetTrackFactory()->NewLabelTrack().release();
mTracks->Add(lt);
}
// LLL: Commented as it seemed a little forceful to remove users
// selection when adding the label. This does not happen if
// you select several tracks and the last one of those is a
// label track...typing a label will not clear the selections.
//
// SelectNone();
lt->SetSelected(true);
int focusTrackNumber = -1;
if (pFocusedTrack && preserveFocus) {
// Must remember the track to re-focus after finishing a label edit.
// do NOT identify it by a pointer, which might dangle! Identify
// by position.
TrackListIterator iter(GetTracks());
Track *track = iter.First();
do
++focusTrackNumber;
while (track != pFocusedTrack &&
NULL != (track = iter.Next()));
if (!track)
// How could we not find it?
focusTrackNumber = -1;
}
int index = lt->AddLabel(region, wxString(), focusTrackNumber);
PushState(_("Added label"), _("Label"));
RedrawProject();
mTrackPanel->EnsureVisible((Track *)lt);
mTrackPanel->SetFocus();
return index;
}
void AudacityProject::OnSyncLock()
{
bool bSyncLockTracks;
gPrefs->Read(wxT("/GUI/SyncLockTracks"), &bSyncLockTracks, false);
gPrefs->Write(wxT("/GUI/SyncLockTracks"), !bSyncLockTracks);
gPrefs->Flush();
// Toolbar, project sync-lock handled within
ModifyAllProjectToolbarMenus();
mTrackPanel->Refresh(false);
}
void AudacityProject::OnAddLabel()
{
DoAddLabel(mViewInfo.selectedRegion);
}
void AudacityProject::OnAddLabelPlaying()
{
if (GetAudioIOToken()>0 &&
gAudioIO->IsStreamActive(GetAudioIOToken())) {
double indicator = gAudioIO->GetStreamTime();
DoAddLabel(SelectedRegion(indicator, indicator), true);
}
}
void AudacityProject::OnEditLabels()
{
wxString format = GetSelectionFormat();
LabelDialog dlg(this, *GetTrackFactory(), mTracks, mViewInfo, mRate, format);
if (dlg.ShowModal() == wxID_OK) {
PushState(_("Edited labels"), _("Label"));
RedrawProject();
}
}
void AudacityProject::OnApplyChain()
{
BatchProcessDialog dlg(this);
dlg.ShowModal();
ModifyUndoMenuItems();
}
void AudacityProject::OnEditChains()
{
EditChainsDialog dlg(this);
dlg.ShowModal();
}
void AudacityProject::OnRemoveTracks()
{
TrackListIterator iter(mTracks);
Track *t = iter.First();
Track *f = NULL;
Track *l = NULL;
while (t) {
if (t->GetSelected()) {
if (mMixerBoard && (t->GetKind() == Track::Wave))
mMixerBoard->RemoveTrackCluster((WaveTrack*)t);
if (!f)
f = l; // Capture the track preceeding the first removed track
t = iter.RemoveCurrent(true);
}
else {
l = t;
t = iter.Next();
}
}
// All tracks but the last were removed...try to use the last track
if (!f)
f = l;
// Try to use the first track after the removal or, if none,
// the track preceeding the removal
if (f) {
t = mTracks->GetNext(f, true);
if (t)
f = t;
}
// If we actually have something left, then make sure it's seen
if (f)
mTrackPanel->EnsureVisible(f);
PushState(_("Removed audio track(s)"), _("Remove Track"));
mTrackPanel->UpdateViewIfNoTracks();
mTrackPanel->Refresh(false);
if (mMixerBoard)
mMixerBoard->Refresh(true);
}
//
// Help Menu
//
void AudacityProject::OnAbout()
{
AboutDialog dlog(this);
dlog.ShowModal();
}
void AudacityProject::OnHelpWelcome()
{
SplashDialog::Show2( this );
}
void AudacityProject::OnQuickHelp()
{
HelpSystem::ShowHelpDialog(
this,
wxT("Quick_Help"));
}
void AudacityProject::OnManual()
{
HelpSystem::ShowHelpDialog(
this,
wxT("Main_Page"));
}
void AudacityProject::OnCheckForUpdates()
{
::OpenInDefaultBrowser( wxString( wxT("http://audacityteam.org/download/?from_ver=")) + AUDACITY_VERSION_STRING );
}
void AudacityProject::OnShowLog()
{
AudacityLogger *logger = wxGetApp().GetLogger();
if (logger) {
logger->Show();
}
}
void AudacityProject::OnBenchmark()
{
::RunBenchmark(this);
}
#if defined(EXPERIMENTAL_CRASH_REPORT)
void AudacityProject::OnCrashReport()
{
// Change to "1" to test a real crash
#if 0
char *p = 0;
*p = 1234;
#endif
wxGetApp().GenerateCrashReport(wxDebugReport::Context_Current);
}
#endif
void AudacityProject::OnScreenshot()
{
::OpenScreenshotTools();
}
void AudacityProject::OnAudioDeviceInfo()
{
wxString info = gAudioIO->GetDeviceInfo();
wxDialog dlg(this, wxID_ANY, wxString(_("Audio Device Info")));
dlg.SetName(dlg.GetTitle());
ShuttleGui S(&dlg, eIsCreating);
wxTextCtrl *text;
S.StartVerticalLay();
{
S.SetStyle(wxTE_MULTILINE | wxTE_READONLY);
text = S.Id(wxID_STATIC).AddTextWindow(info);
S.AddStandardButtons(eOkButton | eCancelButton);
}
S.EndVerticalLay();
dlg.FindWindowById(wxID_OK)->SetLabel(_("&Save"));
dlg.SetSize(350, 450);
if (dlg.ShowModal() == wxID_OK)
{
wxString fName = FileSelector(_("Save Device Info"),
wxEmptyString,
wxT("deviceinfo.txt"),
wxT("txt"),
wxT("*.txt"),
wxFD_SAVE | wxFD_OVERWRITE_PROMPT | wxRESIZE_BORDER,
this);
if (!fName.IsEmpty())
{
if (!text->SaveFile(fName))
{
wxMessageBox(_("Unable to save device info"), _("Save Device Info"));
}
}
}
}
void AudacityProject::OnSeparator()
{
}
void AudacityProject::OnCollapseAllTracks()
{
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t)
{
t->SetMinimized(true);
t = iter.Next();
}
ModifyState(true);
RedrawProject();
}
void AudacityProject::OnExpandAllTracks()
{
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t)
{
t->SetMinimized(false);
t = iter.Next();
}
ModifyState(true);
RedrawProject();
}
void AudacityProject::OnMuteAllTracks()
{
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t)
{
if (t->GetKind() == Track::Wave)
t->SetMute(true);
t = iter.Next();
}
ModifyState(true);
RedrawProject();
if (mMixerBoard)
mMixerBoard->UpdateMute();
}
void AudacityProject::OnUnMuteAllTracks()
{
TrackListIterator iter(mTracks);
Track *t = iter.First();
while (t)
{
t->SetMute(false);
t = iter.Next();
}
ModifyState(true);
RedrawProject();
if (mMixerBoard)
mMixerBoard->UpdateMute();
}
void AudacityProject::OnLockPlayRegion()
{
double start, end;
GetPlayRegion(&start, &end);
if (start >= mTracks->GetEndTime()) {
wxMessageBox(_("Cannot lock region beyond\nend of project."),
_("Error"));
}
else {
mLockPlayRegion = true;
mRuler->Refresh(false);
}
}
void AudacityProject::OnUnlockPlayRegion()
{
mLockPlayRegion = false;
mRuler->Refresh(false);
}
void AudacityProject::OnResample()
{
TrackListIterator iter(mTracks);
int newRate;
while (true)
{
wxDialog dlg(this, wxID_ANY, wxString(_("Resample")));
dlg.SetName(dlg.GetTitle());
ShuttleGui S(&dlg, eIsCreating);
wxString rate;
wxArrayString rates;
wxComboBox *cb;
rate.Printf(wxT("%ld"), lrint(mRate));
rates.Add(wxT("8000"));
rates.Add(wxT("11025"));
rates.Add(wxT("16000"));
rates.Add(wxT("22050"));
rates.Add(wxT("32000"));
rates.Add(wxT("44100"));
rates.Add(wxT("48000"));
rates.Add(wxT("88200"));
rates.Add(wxT("96000"));
rates.Add(wxT("176400"));
rates.Add(wxT("192000"));
rates.Add(wxT("352800"));
rates.Add(wxT("384000"));
S.StartVerticalLay(true);
{
S.AddSpace(-1, 15);
S.StartHorizontalLay(wxCENTER, false);
{
cb = S.AddCombo(_("New sample rate (Hz):"),
rate,
&rates);
}
S.EndHorizontalLay();
S.AddSpace(-1, 15);
S.AddStandardButtons();
}
S.EndVerticalLay();
dlg.Layout();
dlg.Fit();
dlg.Center();
if (dlg.ShowModal() != wxID_OK)
{
return; // user cancelled dialog
}
long lrate;
if (cb->GetValue().ToLong(&lrate) && lrate >= 1 && lrate <= 1000000)
{
newRate = (int)lrate;
break;
}
wxMessageBox(_("The entered value is invalid"), _("Error"),
wxICON_ERROR, this);
}
int ndx = 0;
for (Track *t = iter.First(); t; t = iter.Next())
{
wxString msg;
msg.Printf(_("Resampling track %d"), ++ndx);
ProgressDialog progress(_("Resample"), msg);
if (t->GetSelected() && t->GetKind() == Track::Wave)
if (!((WaveTrack*)t)->Resample(newRate, &progress))
break;
}
PushState(_("Resampled audio track(s)"), _("Resample Track"));
RedrawProject();
// Need to reset
FinishAutoScroll();
}
void AudacityProject::OnSnapToOff()
{
SetSnapTo(SNAP_OFF);
}
void AudacityProject::OnSnapToNearest()
{
SetSnapTo(SNAP_NEAREST);
}
void AudacityProject::OnSnapToPrior()
{
SetSnapTo(SNAP_PRIOR);
}
void AudacityProject::OnFullScreen()
{
if(wxTopLevelWindow::IsFullScreen())
wxTopLevelWindow::ShowFullScreen(false);
else
wxTopLevelWindow::ShowFullScreen(true);
}
void AudacityProject::OnCursorLeft(bool shift, bool ctrl, bool keyup)
{
// PRL: What I found and preserved, strange though it be:
// During playback: jump depends on preferences and is independent of the zoom
// and does not vary if the key is held
// Else: jump depends on the zoom and gets bigger if the key is held
int snapToTime = GetSnapTo();
double quietSeekStepPositive = 1.0; // pixels
double audioSeekStepPositive = shift ? mSeekLong : mSeekShort;
SeekLeftOrRight
(true, shift, ctrl, keyup, snapToTime, true, false,
quietSeekStepPositive, true,
audioSeekStepPositive, false);
}
void AudacityProject::OnCursorRight(bool shift, bool ctrl, bool keyup)
{
// PRL: What I found and preserved, strange though it be:
// During playback: jump depends on preferences and is independent of the zoom
// and does not vary if the key is held
// Else: jump depends on the zoom and gets bigger if the key is held
int snapToTime = GetSnapTo();
double quietSeekStepPositive = 1.0; // pixels
double audioSeekStepPositive = shift ? mSeekLong : mSeekShort;
SeekLeftOrRight
(false, shift, ctrl, keyup, snapToTime, true, false,
quietSeekStepPositive, true,
audioSeekStepPositive, false);
}
// Handle small cursor and play head movements
void AudacityProject::SeekLeftOrRight
(bool leftward, bool shift, bool ctrl, bool keyup,
int snapToTime, bool mayAccelerateQuiet, bool mayAccelerateAudio,
double quietSeekStepPositive, bool quietStepIsPixels,
double audioSeekStepPositive, bool audioStepIsPixels)
{
if (keyup)
{
if (IsAudioActive())
{
return;
}
ModifyState(false);
return;
}
// If the last adjustment was very recent, we are
// holding the key down and should move faster.
const wxLongLong curtime = ::wxGetLocalTimeMillis();
enum { MIN_INTERVAL = 50 };
const bool fast = (curtime - mLastSelectionAdjustment < MIN_INTERVAL);
// How much faster should the cursor move if shift is down?
enum { LARGER_MULTIPLIER = 4 };
int multiplier = (fast && mayAccelerateQuiet) ? LARGER_MULTIPLIER : 1;
if (leftward)
multiplier = -multiplier;
if (shift && ctrl)
{
mLastSelectionAdjustment = curtime;
// Contract selection
// Reduce and constrain (counter-intuitive)
if (leftward) {
const double t1 = mViewInfo.selectedRegion.t1();
mViewInfo.selectedRegion.setT1(
std::max(mViewInfo.selectedRegion.t0(),
snapToTime
? GridMove(t1, multiplier)
: quietStepIsPixels
? mViewInfo.OffsetTimeByPixels(
t1, int(multiplier * quietSeekStepPositive))
: t1 + multiplier * quietSeekStepPositive
));
// Make sure it's visible.
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t1());
}
else {
const double t0 = mViewInfo.selectedRegion.t0();
mViewInfo.selectedRegion.setT0(
std::min(mViewInfo.selectedRegion.t1(),
snapToTime
? GridMove(t0, multiplier)
: quietStepIsPixels
? mViewInfo.OffsetTimeByPixels(
t0, int(multiplier * quietSeekStepPositive))
: t0 + multiplier * quietSeekStepPositive
));
// Make sure NEW position is in view.
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t0());
}
GetTrackPanel()->Refresh(false);
}
else if (IsAudioActive()) {
#ifdef EXPERIMENTAL_IMPROVED_SEEKING
if (gAudioIO->GetLastPlaybackTime() < mLastSelectionAdjustment) {
// Allow time for the last seek to output a buffer before
// discarding samples again
// Do not advance mLastSelectionAdjustment
return;
}
#endif
mLastSelectionAdjustment = curtime;
// Ignore the multiplier for the quiet case
multiplier = (fast && mayAccelerateAudio) ? LARGER_MULTIPLIER : 1;
if (leftward)
multiplier = -multiplier;
// If playing, reposition
double seconds;
if (audioStepIsPixels) {
const double streamTime = gAudioIO->GetStreamTime();
const double newTime =
mViewInfo.OffsetTimeByPixels(streamTime, int(audioSeekStepPositive));
seconds = newTime - streamTime;
}
else
seconds = multiplier * audioSeekStepPositive;
gAudioIO->SeekStream(seconds);
return;
}
else if (shift)
{
mLastSelectionAdjustment = curtime;
// Extend selection
// Expand and constrain
if (leftward) {
const double t0 = mViewInfo.selectedRegion.t0();
mViewInfo.selectedRegion.setT0(
std::max(0.0,
snapToTime
? GridMove(t0, multiplier)
: quietStepIsPixels
? mViewInfo.OffsetTimeByPixels(
t0, int(multiplier * quietSeekStepPositive))
: t0 + multiplier * quietSeekStepPositive
));
// Make sure it's visible.
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t0());
}
else {
const double end = mTracks->GetEndTime();
const double t1 = mViewInfo.selectedRegion.t1();
mViewInfo.selectedRegion.setT1(
std::min(end,
snapToTime
? GridMove(t1, multiplier)
: quietStepIsPixels
? mViewInfo.OffsetTimeByPixels(
t1, int(multiplier * quietSeekStepPositive))
: t1 + multiplier * quietSeekStepPositive
));
// Make sure NEW position is in view.
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t1());
}
GetTrackPanel()->Refresh(false);
}
else
{
mLastSelectionAdjustment = curtime;
// Move the cursor
// Already in cursor mode?
if (mViewInfo.selectedRegion.isPoint())
{
// Move and constrain
const double end = mTracks->GetEndTime();
const double t0 = mViewInfo.selectedRegion.t0();
mViewInfo.selectedRegion.setT0(
std::max(0.0,
std::min(end,
snapToTime
? GridMove(t0, multiplier)
: quietStepIsPixels
? mViewInfo.OffsetTimeByPixels(
t0, int(multiplier * quietSeekStepPositive))
: t0 + multiplier * quietSeekStepPositive)),
false // do not swap selection boundaries
);
mViewInfo.selectedRegion.collapseToT0();
// Move the visual cursor, avoiding an unnecessary complete redraw
GetTrackPanel()->DrawOverlays(false);
}
else
{
// Transition to cursor mode.
if (leftward)
mViewInfo.selectedRegion.collapseToT0();
else
mViewInfo.selectedRegion.collapseToT1();
GetTrackPanel()->Refresh(false);
}
// Make sure NEW position is in view
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t1());
}
}
// Handles moving a selection edge with the keyboard in snap-to-time mode;
// returns the moved value.
// Will move at least minPix pixels -- set minPix positive to move forward,
// negative to move backward.
double AudacityProject::GridMove(double t, int minPix)
{
NumericConverter nc(NumericConverter::TIME, GetSelectionFormat(), t, GetRate());
// Try incrementing/decrementing the value; if we've moved far enough we're
// done
double result;
minPix >= 0 ? nc.Increment() : nc.Decrement();
result = nc.GetValue();
if (std::abs(mViewInfo.TimeToPosition(result) - mViewInfo.TimeToPosition(t))
>= abs(minPix))
return result;
// Otherwise, move minPix pixels, then snap to the time.
result = mViewInfo.OffsetTimeByPixels(t, minPix);
nc.SetValue(result);
result = nc.GetValue();
return result;
}
void AudacityProject::OnBoundaryMove(bool left, bool boundaryContract)
{
// Move the left/right selection boundary, to either expand or contract the selection
// left=true: operate on left boundary; left=false: operate on right boundary
// boundaryContract=true: contract region; boundaryContract=false: expand region.
// If the last adjustment was very recent, we are
// holding the key down and should move faster.
wxLongLong curtime = ::wxGetLocalTimeMillis();
int pixels = 1;
if( curtime - mLastSelectionAdjustment < 50 )
{
pixels = 4;
}
mLastSelectionAdjustment = curtime;
if (IsAudioActive())
{
double indicator = gAudioIO->GetStreamTime();
if (left)
mViewInfo.selectedRegion.setT0(indicator, false);
else
mViewInfo.selectedRegion.setT1(indicator);
ModifyState(false);
GetTrackPanel()->Refresh(false);
}
else
{
// BOUNDARY MOVEMENT
// Contract selection from the right to the left
if( boundaryContract )
{
if (left) {
// Reduce and constrain left boundary (counter-intuitive)
// Move the left boundary by at most the desired number of pixels,
// but not past the right
mViewInfo.selectedRegion.setT0(
std::min(mViewInfo.selectedRegion.t1(),
mViewInfo.OffsetTimeByPixels(
mViewInfo.selectedRegion.t0(),
pixels)));
// Make sure it's visible
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t0());
}
else
{
// Reduce and constrain right boundary (counter-intuitive)
// Move the right boundary by at most the desired number of pixels,
// but not past the left
mViewInfo.selectedRegion.setT1(
std::max(mViewInfo.selectedRegion.t0(),
mViewInfo.OffsetTimeByPixels(
mViewInfo.selectedRegion.t1(),
-pixels)));
// Make sure it's visible
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t1());
}
}
// BOUNDARY MOVEMENT
// Extend selection toward the left
else
{
if (left) {
// Expand and constrain left boundary
mViewInfo.selectedRegion.setT0(
std::max(0.0,
mViewInfo.OffsetTimeByPixels(
mViewInfo.selectedRegion.t0(),
-pixels)));
// Make sure it's visible
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t0());
}
else
{
// Expand and constrain right boundary
const double end = mTracks->GetEndTime();
mViewInfo.selectedRegion.setT1(
std::min(end,
mViewInfo.OffsetTimeByPixels(
mViewInfo.selectedRegion.t1(),
pixels)));
// Make sure it's visible
GetTrackPanel()->ScrollIntoView(mViewInfo.selectedRegion.t1());
}
}
GetTrackPanel()->Refresh( false );
ModifyState(false);
}
}
// Move the cursor forward or backward, while paused or while playing.
// forward=true: Move cursor forward; forward=false: Move cursor backwards
// jump=false: Move cursor determined by zoom; jump=true: Use seek times
// longjump=false: Use mSeekShort; longjump=true: Use mSeekLong
void AudacityProject::OnCursorMove(bool forward, bool jump, bool longjump )
{
// PRL: nobody calls this yet with !jump
double positiveSeekStep;
bool byPixels;
if (jump) {
if (!longjump) {
positiveSeekStep = mSeekShort;
} else {
positiveSeekStep = mSeekLong;
}
byPixels = false;
} else {
positiveSeekStep = 1.0;
byPixels = true;
}
bool mayAccelerate = !jump;
SeekLeftOrRight
(!forward, false, false, false,
0, mayAccelerate, mayAccelerate,
positiveSeekStep, byPixels,
positiveSeekStep, byPixels);
ModifyState(false);
}
Reference in New Issue View Git Blame Copy Permalink