_track_8h_source.html

 /**********************************************************************


   Audacity: A Digital Audio Editor


   Track.h


   Dominic Mazzoni


 **********************************************************************/


 #ifndef __AUDACITY_TRACK__

 #define __AUDACITY_TRACK__


 #include "Audacity.h"


 #include "MemoryX.h"

 #include <vector>

 #include <list>

 #include <functional>

 #include <wx/event.h>

 #include <wx/gdicmn.h>

 #include <wx/longlong.h>

 #include <wx/string.h>


 #include "Experimental.h"

 #include "SampleFormat.h"

 #include "tracks/ui/CommonTrackPanelCell.h"

 #include "xml/XMLTagHandler.h"


 #ifdef __WXMSW__

 #pragma warning(disable:4284)

 #endif


 class wxTextFile;

 class DirManager;

 class Track;

 class AudioTrack;

 class PlayableTrack;

 class LabelTrack;

 class TimeTrack;

 class TrackControls;

 class TrackVRulerControls;

 class TrackPanelResizerCell;

 class WaveTrack;

 class NoteTrack;

 class AudacityProject;

 class ZoomInfo;


 class SelectHandle;

 class TimeShiftHandle;


 using TrackArray = std::vector< Track* >;

 using WaveTrackArray = std::vector < std::shared_ptr< WaveTrack > > ;

 using WaveTrackConstArray = std::vector < std::shared_ptr < const WaveTrack > >;


 using NoteTrackConstArray = std::vector < std::shared_ptr< const NoteTrack > >;


 #if defined(USE_MIDI)

 class NoteTrack;

 #endif


 class TrackList;


 using ListOfTracks = std::list< std::shared_ptr< Track > >;


 using TrackNodePointer =

 std::pair< ListOfTracks::iterator, ListOfTracks* >;


 inline bool operator == (const TrackNodePointer &a, const TrackNodePointer &b)

 { return a.second == b.second && a.first == b.first; }


 inline bool operator != (const TrackNodePointer &a, const TrackNodePointer &b)

 { return !(a == b); }


 enum class TrackKind

 {

    None,

    Wave,

 #if defined(USE_MIDI)

    Note,

 #endif

    Label,

    Time,

    Audio,

    Playable,

    All

 };


 constexpr bool CompatibleTrackKinds( TrackKind desired, TrackKind actual )

 {

    return

       (desired == actual)

       ||

       (desired == TrackKind::All)

       ||

       (desired == TrackKind::Audio    && actual == TrackKind::Wave)

 #ifdef USE_MIDI

       ||

       (desired == TrackKind::Audio    && actual == TrackKind::Note)

 #endif

       ||

       (desired == TrackKind::Playable && actual == TrackKind::Wave)

 #ifdef EXPERIMENTAL_MIDI_OUT

       ||

       (desired == TrackKind::Playable && actual == TrackKind::Note)

 #endif

    ;

 }


 namespace TrackTyper {

    template<typename, TrackKind> struct Pair;

    using List = std::tuple<

      Pair<Track,         TrackKind::All>,

      Pair<AudioTrack,    TrackKind::Audio>,

      Pair<PlayableTrack, TrackKind::Playable>,

      Pair<LabelTrack,    TrackKind::Label>,

      Pair<NoteTrack,     TrackKind::Note>,

      Pair<TimeTrack,     TrackKind::Time>,

      Pair<WaveTrack,     TrackKind::Wave>

      // New classes can be added easily to this list

    >;

    template<typename...> struct Lookup;

    template<typename TrackType, TrackKind Here, typename... Rest>

       struct Lookup< TrackType, std::tuple< Pair<TrackType, Here>, Rest... > > {

          static constexpr TrackKind value() {

             return Here;

          }

       };

    template<typename TrackType, typename NotHere, typename... Rest>

       struct Lookup< TrackType, std::tuple< NotHere, Rest... > > {

          static constexpr TrackKind value() {

             return Lookup< TrackType, std::tuple< Rest... > >::value();

          }

       };

 };


 template<typename TrackType> constexpr TrackKind track_kind ()

 {

    using namespace TrackTyper;

    return Lookup< typename std::remove_const<TrackType>::type, List >::value();

 }


 // forward declarations, so we can make them friends

 template<typename T>

    typename std::enable_if< std::is_pointer<T>::value, T >::type

       track_cast(Track *track);


 template<typename T>

    typename std::enable_if<

       std::is_pointer<T>::value &&

          std::is_const< typename std::remove_pointer< T >::type >::value,

       T

    >::type

       track_cast(const Track *track);


 class ViewInfo;


 class TrackId

 {

 public:

    TrackId() : mValue(-1) {}

    explicit TrackId (long value) : mValue(value) {}


    bool operator == (const TrackId &other) const

    { return mValue == other.mValue; }


    bool operator != (const TrackId &other) const

    { return mValue != other.mValue; }


    // Define this in case you want to key a std::map on TrackId

    // The operator does not mean anything else

    bool operator <  (const TrackId &other) const

    { return mValue <  other.mValue; }


 private:

    long mValue;

 };


 class AUDACITY_DLL_API Track /* not final */

    : public CommonTrackPanelCell, public XMLTagHandler

 {

    friend class TrackList;


  // To be TrackDisplay

  private:

    TrackId mId;


  protected:

    std::weak_ptr<TrackList> mList;

    TrackNodePointer mNode{};

    int            mIndex;

    int            mY;

    int            mHeight;

    wxString       mName;

    wxString       mDefaultName;


  private:

    bool           mSelected;


  protected:

    bool           mLinked;

    bool           mMinimized;


  public:


    enum ChannelType

    {

       LeftChannel = 0,

       RightChannel = 1,

       MonoChannel = 2

    };


    TrackId GetId() const { return mId; }

  private:

    void SetId( TrackId id ) { mId = id; }

  public:


    // Given a bare pointer, find a shared_ptr.  But this is not possible for

    // a track not owned by any project, so the result can be null.

    template<typename Subclass = Track>

    inline static std::shared_ptr<Subclass> Pointer( Track *t )

    {

       if (t) {

          auto pList = t->mList.lock();

          if (pList)

             return std::static_pointer_cast<Subclass>(*t->mNode.first);

       }

       return {};

    }


    template<typename Subclass = const Track>

    inline static std::shared_ptr<Subclass> Pointer( const Track *t )

    {

       if (t) {

          auto pList = t->mList.lock();

          if (pList) {

             std::shared_ptr<const Track> p{ *t->mNode.first };

             // Let you change the type, but not cast away the const

             return std::static_pointer_cast<Subclass>(p);

          }

       }

       return {};

    }


    // Find anything registered with TrackList::RegisterPendingChangedTrack and

    // not yet cleared or applied; if no such exists, return this track

    std::shared_ptr<const Track> SubstitutePendingChangedTrack() const;


    // If this track is a pending changed track, return the corresponding

    // original; else return this track

    std::shared_ptr<const Track> SubstituteOriginalTrack() const;


    // Cause certain overriding tool modes (Zoom; future ones?) to behave

    // uniformly in all tracks, disregarding track contents.

    // Do not further override this...

    std::vector<UIHandlePtr> HitTest

       (const TrackPanelMouseState &, const AudacityProject *pProject)

       final override;


    // Delegates the handling to the related TCP cell

    std::shared_ptr<TrackPanelCell> ContextMenuDelegate() override

       { return GetTrackControl(); }


  public:


    // Rather override this for subclasses:

    virtual std::vector<UIHandlePtr> DetailedHitTest

       (const TrackPanelMouseState &,

        const AudacityProject *pProject, int currentTool, bool bMultiTool)

       = 0;


    mutable wxSize vrulerSize;


    // Return another, associated TrackPanelCell object that implements the

    // drop-down, close and minimize buttons, etc.

    std::shared_ptr<TrackPanelCell> GetTrackControl();


    // Return another, associated TrackPanelCell object that implements the

    // mouse actions for the vertical ruler

    std::shared_ptr<TrackPanelCell> GetVRulerControl();


    // Return another, associated TrackPanelCell object that implements the

    // click and drag to resize

    std::shared_ptr<TrackPanelCell> GetResizer();


    // This just returns a constant and can be overriden by subclasses

    // to specify a different height for the case that the track is minimized.

    virtual int GetMinimizedHeight() const;

    int GetActualHeight() const { return mHeight; }


    int GetIndex() const;

    void SetIndex(int index);


    int GetY() const;

 private:

    // Always maintain a strictly contiguous layout of tracks.

    // So client code is not permitted to modify this attribute directly.

    void SetY(int y);

    // No need yet to make this virtual

    void DoSetY(int y);

 public:


    int GetHeight() const;

    void SetHeight(int h);

 protected:

    virtual void DoSetHeight(int h);

 public:


    bool GetMinimized() const;

    void SetMinimized(bool isMinimized);

 protected:

    virtual void DoSetMinimized(bool isMinimized);


 public:

    static void FinishCopy (const Track *n, Track *dest);


    // For use when loading a file.  Return true if ok, else make repair

    bool LinkConsistencyCheck();


 private:

    std::shared_ptr<TrackList> GetOwner() const { return mList.lock(); }


    Track *GetLink() const;

    bool GetLinked  () const { return mLinked; }


    friend WaveTrack; // WaveTrack needs to call SetLinked when reloading project

    void SetLinked  (bool l);


    void SetChannel(ChannelType c) { mChannel = c; }

 private:

    // No need yet to make this virtual

    void DoSetLinked(bool l);


    TrackNodePointer GetNode() const;

    void SetOwner

       (const std::weak_ptr<TrackList> &list, TrackNodePointer node);


  // Keep in Track


  protected:

    ChannelType         mChannel;

    double              mOffset;


    mutable std::shared_ptr<DirManager> mDirManager;


  public:


    enum : unsigned { DefaultHeight = 150 };


    Track(const std::shared_ptr<DirManager> &projDirManager);

    Track(const Track &orig);


    virtual ~ Track();


    void Init(const Track &orig);


    using Holder = std::unique_ptr<Track>;

    virtual Holder Duplicate() const = 0;


    // Called when this track is merged to stereo with another, and should

    // take on some paramaters of its partner.

    virtual void Merge(const Track &orig);


    wxString GetName() const { return mName; }

    void SetName( const wxString &n );

    wxString GetDefaultName() const { return mDefaultName; }

    void SetDefaultName( const wxString &n ) { mDefaultName = n; }


    bool GetSelected() const { return mSelected; }


    virtual void SetSelected(bool s);


 public:


    virtual ChannelType GetChannel() const { return mChannel;}

    virtual double GetOffset() const = 0;


    void Offset(double t) { SetOffset(GetOffset() + t); }

    virtual void SetOffset (double o) { mOffset = o; }


    virtual void SetPan( float ){ ;}

    virtual void SetPanFromChannelType(){ ;};


    // AS: Note that the dirManager is mutable.  This is

    // mostly to support "Duplicate" of const objects,

    // but in general, mucking with the dir manager is

    // separate from the Track.

    const std::shared_ptr<DirManager> &GetDirManager() const { return mDirManager; }


    // Create a NEW track and modify this track

    // Return non-NULL or else throw

    // May assume precondition: t0 <= t1

    virtual Holder Cut(double WXUNUSED(t0), double WXUNUSED(t1)) = 0;


    // Create a NEW track and don't modify this track

    // Return non-NULL or else throw

    // Note that subclasses may want to distinguish tracks stored in a clipboard

    // from those stored in a project

    // May assume precondition: t0 <= t1

    virtual Holder Copy

       (double WXUNUSED(t0), double WXUNUSED(t1), bool forClipboard = true) const = 0;


    // May assume precondition: t0 <= t1

    virtual void Clear(double WXUNUSED(t0), double WXUNUSED(t1)) = 0;


    virtual void Paste(double WXUNUSED(t), const Track * WXUNUSED(src)) = 0;


    // This can be used to adjust a sync-lock selected track when the selection

    // is replaced by one of a different length.

    virtual void SyncLockAdjust(double oldT1, double newT1);


    // May assume precondition: t0 <= t1

    virtual void Silence(double WXUNUSED(t0), double WXUNUSED(t1)) = 0;


    // May assume precondition: t0 <= t1

    virtual void InsertSilence(double WXUNUSED(t), double WXUNUSED(len)) = 0;


 private:

    virtual TrackKind GetKind() const { return TrackKind::None; }


    template<typename T>

       friend typename std::enable_if< std::is_pointer<T>::value, T >::type

          track_cast(Track *track);

    template<typename T>

       friend typename std::enable_if<

          std::is_pointer<T>::value &&

             std::is_const< typename std::remove_pointer< T >::type >::value,

          T

       >::type

          track_cast(const Track *track);


 public:

    bool SameKindAs(const Track &track) const

       { return GetKind() == track.GetKind(); }


    template < typename R = void >

    using Continuation = std::function< R() >;

    using Fallthrough = Continuation<>;


 private:


    // Variadic template specialized below

    template< typename ...Params >

    struct Executor;


    // This specialization grounds the recursion.

    template< typename R, typename ConcreteType >

    struct Executor< R, ConcreteType >

    {

       enum : unsigned { SetUsed = 0 };

       // No functions matched, so do nothing.

       R operator () (const void *) { return R{}; }

    };


    // And another specialization is needed for void return.

    template< typename ConcreteType >

    struct Executor< void, ConcreteType >

    {

       enum : unsigned { SetUsed = 0 };

       // No functions matched, so do nothing.

       void operator () (const void *) { }

    };


    // This struct groups some helpers needed to define the recursive cases of

    // Executor.

    struct Dispatcher {

       // This implements the specialization of Executor

       // for the first recursive case.

       template< typename R, typename ConcreteType,

                 typename Function, typename ...Functions >

       struct inapplicable

       {

          using Tail = Executor< R, ConcreteType, Functions... >;

          enum : unsigned { SetUsed = Tail::SetUsed << 1 };


          // Ignore the first, inapplicable function and try others.

          R operator ()

             (const Track *pTrack,

              const Function &, const Functions &...functions)

          { return Tail{}( pTrack, functions... ); }

       };


       // This implements the specialization of Executor

       // for the second recursive case.

       template< typename R, typename BaseClass, typename ConcreteType,

                 typename Function, typename ...Functions >

       struct applicable1

       {

          enum : unsigned { SetUsed = 1u };


          // Ignore the remaining functions and call the first only.

          R operator ()

             (const Track *pTrack,

              const Function &function, const Functions &...)

          { return function( (BaseClass *)pTrack ); }

       };


       // This implements the specialization of Executor

       // for the third recursive case.

       template< typename R, typename BaseClass, typename ConcreteType,

                 typename Function, typename ...Functions >

       struct applicable2

       {

          using Tail = Executor< R, ConcreteType, Functions... >;

          enum : unsigned { SetUsed = (Tail::SetUsed << 1) | 1u };


          // Call the first function, which may request dispatch to the further

          // functions by invoking a continuation.

          R operator ()

             (const Track *pTrack, const Function &function,

              const Functions &...functions)

          {

             auto continuation = Continuation<R>{ [&] {

                return Tail{}( pTrack, functions... );

             } };

             return function( (BaseClass *)pTrack, continuation );

          }

       };


       // This variadic template chooses among the implementations above.

       template< typename ... > struct Switch;


       // Ground the recursion.

       template< typename R, typename ConcreteType >

       struct Switch< R, ConcreteType >

       {

          // No BaseClass of ConcreteType is acceptable to Function.

          template< typename Function, typename ...Functions >

             static auto test()

                -> inapplicable< R, ConcreteType, Function, Functions... >;

       };


       // Recursive case.

       template< typename R, typename ConcreteType,

                 typename BaseClass, typename ...BaseClasses >

       struct Switch< R, ConcreteType, BaseClass, BaseClasses... >

       {

          using Retry = Switch< R, ConcreteType, BaseClasses... >;


          // If ConcreteType is not compatible with BaseClass, or if

          // Function does not accept BaseClass, try other BaseClasses.

          template< typename Function, typename ...Functions >

             static auto test( const void * )

                -> decltype( Retry::template test< Function, Functions... >() );


          // If BaseClass is a base of ConcreteType and Function can take it,

          // then overload resolution chooses this.

          // If not, then the sfinae rule makes this overload unavailable.

          template< typename Function, typename ...Functions >

             static auto test( std::true_type * )

                -> decltype(

                   (void) std::declval<Function>()

                      ( (BaseClass*)nullptr ),

                   applicable1< R, BaseClass, ConcreteType,

                                Function, Functions... >{}

                );


          // If BaseClass is a base of ConcreteType and Function can take it,

          // with a second argument for a continuation,

          // then overload resolution chooses this.

          // If not, then the sfinae rule makes this overload unavailable.

          template< typename Function, typename ...Functions >

             static auto test( std::true_type * )

                -> decltype(

                   (void) std::declval<Function>()

                      ( (BaseClass*)nullptr,

                        std::declval< Continuation<R> >() ),

                   applicable2< R, BaseClass, ConcreteType,

                                Function, Functions... >{}

                );


          static constexpr bool Compatible = CompatibleTrackKinds(

             track_kind<BaseClass>(), track_kind<ConcreteType>() );

          template< typename Function, typename ...Functions >

             static auto test()

                -> decltype(

                   test< Function, Functions... >(

                      (std::integral_constant<bool, Compatible>*)nullptr) );

       };

    };


    // This specialization is the recursive case for non-const tracks.

    template< typename R, typename ConcreteType,

              typename Function, typename ...Functions >

    struct Executor< R, ConcreteType, Function, Functions... >

       : decltype(

          Dispatcher::Switch< R, ConcreteType,

             Track, AudioTrack, PlayableTrack,

             WaveTrack, LabelTrack, TimeTrack,

             NoteTrack >

                ::template test<Function, Functions... >())

    {};


    // This specialization is the recursive case for const tracks.

    template< typename R, typename ConcreteType,

              typename Function, typename ...Functions >

    struct Executor< R, const ConcreteType, Function, Functions... >

       : decltype(

          Dispatcher::Switch< R, ConcreteType,

             const Track, const AudioTrack, const PlayableTrack,

             const WaveTrack, const LabelTrack, const TimeTrack,

             const NoteTrack >

                ::template test<Function, Functions... >())

    {};


 public:


    // A variadic function taking any number of function objects, each taking

    // a pointer to Track or a subclass, maybe const-qualified, and maybe a

    // second argument which is a fall-through continuation.

    // Each of the function objects (and supplied continuations) returns R.

    // Call the first in the sequence that accepts the actual type of the track.

    // If no function accepts the track, do nothing and return R{}

    // if R is not void.

    // If one of the functions invokes the call-through, then the next following

    // applicable funtion is called.

    template< typename R = void, typename ...Functions >

    R TypeSwitch(const Functions &...functions)

    {

       using WaveExecutor =

          Executor< R, WaveTrack,  Functions... >;

       using NoteExecutor =

          Executor< R, NoteTrack,  Functions... >;

       using LabelExecutor =

          Executor< R, LabelTrack, Functions... >;

       using TimeExecutor =

          Executor< R, TimeTrack,  Functions... >;

       using DefaultExecutor =

          Executor< R, Track >;

       enum { All = sizeof...( functions ) };


       static_assert(

          (1u << All) - 1u ==

             (WaveExecutor::SetUsed |

              NoteExecutor::SetUsed |

              LabelExecutor::SetUsed |

              TimeExecutor::SetUsed),

          "Uncallable case in Track::TypeSwitch"

       );


       switch (GetKind()) {

          case TrackKind::Wave:

             return WaveExecutor{} (this,  functions...);

 #if defined(USE_MIDI)

          case TrackKind::Note:

             return NoteExecutor{} (this,  functions...);

 #endif

          case TrackKind::Label:

             return LabelExecutor{}(this, functions...);

          case TrackKind::Time:

             return TimeExecutor{} (this,  functions...);

          default:

             return DefaultExecutor{} (this);

       }

    }


    // This is the overload of TypeSwitch (see above) for const tracks, taking

    // callable arguments that only accept arguments that are pointers to const

    template< typename R = void, typename ...Functions >

    R TypeSwitch(const Functions &...functions) const

    {

       using WaveExecutor =

          Executor< R, const WaveTrack,  Functions... >;

       using NoteExecutor =

          Executor< R, const NoteTrack,  Functions... >;

       using LabelExecutor =

          Executor< R, const LabelTrack, Functions... >;

       using TimeExecutor =

          Executor< R, const TimeTrack,  Functions... >;

       using DefaultExecutor =

          Executor< R, const Track >;

       enum { All = sizeof...( functions ) };


       static_assert(

          (1u << All) - 1u ==

             (WaveExecutor::SetUsed |

              NoteExecutor::SetUsed |

              LabelExecutor::SetUsed |

              TimeExecutor::SetUsed),

          "Uncallable case in Track::TypeSwitch"

       );


       switch (GetKind()) {

          case TrackKind::Wave:

             return WaveExecutor{} (this,  functions...);

 #if defined(USE_MIDI)

          case TrackKind::Note:

             return NoteExecutor{} (this,  functions...);

 #endif

          case TrackKind::Label:

             return LabelExecutor{}(this, functions...);

          case TrackKind::Time:

             return TimeExecutor{} (this,  functions...);

          default:

             return DefaultExecutor{} (this);

       }

    }


    // XMLTagHandler callback methods -- NEW virtual for writing

    virtual void WriteXML(XMLWriter &xmlFile) const = 0;


    // Returns true if an error was encountered while trying to

    // open the track from XML

    virtual bool GetErrorOpening() { return false; }


    virtual double GetStartTime() const = 0;

    virtual double GetEndTime() const = 0;


    // Checks if sync-lock is on and any track in its sync-lock group is selected.

    bool IsSyncLockSelected() const;


    // Send an event to listeners when state of the track changes

    // To do: define values for the argument to distinguish different parts

    // of the state, perhaps with wxNewId

    void Notify( int code = -1 );


    // An always-true predicate useful for defining iterators

    bool Any() const;


    // Frequently useful operands for + and -

    bool IsSelected() const;

    bool IsSelectedOrSyncLockSelected() const;

    bool IsLeader() const;

    bool IsSelectedLeader() const;


 protected:

    std::shared_ptr<Track> FindTrack() override;


    // These are called to create controls on demand:

    virtual std::shared_ptr<TrackControls> GetControls() = 0;

    virtual std::shared_ptr<TrackVRulerControls> GetVRulerControls() = 0;


    // These hold the controls:

    std::shared_ptr<TrackControls> mpControls;

    std::shared_ptr<TrackVRulerControls> mpVRulerContols;

    std::shared_ptr<TrackPanelResizerCell> mpResizer;


    std::weak_ptr<SelectHandle> mSelectHandle;

    std::weak_ptr<TimeShiftHandle> mTimeShiftHandle;

 };


 class AUDACITY_DLL_API AudioTrack /* not final */ : public Track

 {

 public:

    AudioTrack(const std::shared_ptr<DirManager> &projDirManager)

       : Track{ projDirManager } {}

    AudioTrack(const Track &orig) : Track{ orig } {}


    // Serialize, not with tags of its own, but as attributes within a tag.

    void WriteXMLAttributes(XMLWriter &WXUNUSED(xmlFile)) const {}


    // Return true iff the attribute is recognized.

    bool HandleXMLAttribute(const wxChar * /*attr*/, const wxChar * /*value*/)

    { return false; }

 };


 class AUDACITY_DLL_API PlayableTrack /* not final */ : public AudioTrack

 {

 public:

    PlayableTrack(const std::shared_ptr<DirManager> &projDirManager)

       : AudioTrack{ projDirManager } {}

    PlayableTrack(const Track &orig) : AudioTrack{ orig } {}


    bool GetMute    () const { return mMute;     }

    bool GetSolo    () const { return mSolo;     }

    void SetMute    (bool m);

    void SetSolo    (bool s);


    void Init( const PlayableTrack &init );

    void Merge( const Track &init ) override;


    // Serialize, not with tags of its own, but as attributes within a tag.

    void WriteXMLAttributes(XMLWriter &xmlFile) const;


    // Return true iff the attribute is recognized.

    bool HandleXMLAttribute(const wxChar *attr, const wxChar *value);


 protected:

    bool                mMute { false };

    bool                mSolo { false };

 };


 // Functions to encapsulate the checked down-casting of track pointers,

 // eliminating possibility of error -- and not quietly casting away const

 // typical usage:

 // if (auto wt = track_cast<WaveTrack*>(track)) { ... }

 template<typename T>

    inline typename std::enable_if< std::is_pointer<T>::value, T >::type

       track_cast(Track *track)

 {

    using BareType = typename std::remove_pointer< T >::type;

    if (track &&

        CompatibleTrackKinds( track_kind<BareType>(), track->GetKind() ))

       return reinterpret_cast<T>(track);

    else

       return nullptr;

 }


 // Overload for const pointers can cast only to other const pointer types

 template<typename T>

    inline typename std::enable_if<

       std::is_pointer<T>::value &&

          std::is_const< typename std::remove_pointer< T >::type >::value,

       T

    >::type

       track_cast(const Track *track)

 {

    using BareType = typename std::remove_pointer< T >::type;

    if (track &&

        CompatibleTrackKinds( track_kind<BareType>(), track->GetKind() ))

       return reinterpret_cast<T>(track);

    else

       return nullptr;

 }


 template < typename TrackType > struct TrackIterRange;


 // new track iterators can eliminate the need to cast the result

 template <

    typename TrackType // Track or a subclass, maybe const-qualified

 > class TrackIter

    : public std::iterator<

       std::bidirectional_iterator_tag,

       TrackType *const,

       ptrdiff_t,

       // pointer is void to disable operator -> in the reverse_iterator...

       void,

       // ... because what operator * returns is really a value type,

       // so you can't take its address

       TrackType *const

    >

 {

 public:

    // Type of predicate taking pointer to const TrackType

    // TODO C++14:  simplify away ::type

    using FunctionType = std::function< bool(

       typename std::add_pointer<

          typename std::add_const<

             typename std::remove_pointer<

                TrackType

             >::type

          >::type

       >::type

    ) >;


    template<typename Predicate = FunctionType>

    TrackIter( TrackNodePointer begin, TrackNodePointer iter,

               TrackNodePointer end, const Predicate &pred = {} )

       : mBegin( begin ), mIter( iter ), mEnd( end ), mPred( pred )

    {

       // Establish the class invariant

       if (this->mIter != this->mEnd && !this->valid())

          this->operator ++ ();

    }


    // Return an iterator that replaces the predicate, advancing to the first

    // position at or after the old position that satisfies the new predicate,

    // or to the end.

    template < typename Predicate2 >

       TrackIter Filter( const Predicate2 &pred2 ) const

    {

       return { this->mBegin, this->mIter, this->mEnd, pred2 };

    }


    // Return an iterator that refines the subclass (and not removing const),

    // advancing to the first position at or after the old position that

    // satisfies the type constraint, or to the end

    template < typename TrackType2 >

       auto Filter() const

          -> typename std::enable_if<

             std::is_base_of< TrackType, TrackType2 >::value &&

                (!std::is_const<TrackType>::value ||

                  std::is_const<TrackType2>::value),

             TrackIter< TrackType2 >

          >::type

    {

       return { this->mBegin, this->mIter, this->mEnd, this->mPred };

    }


    const FunctionType &GetPredicate() const

    { return this->mPred; }


    // Unlike with STL iterators, this class gives well defined behavior when

    // you increment an end iterator: you get the same.

    TrackIter &operator ++ ()

    {

       // Maintain the class invariant

       if (this->mIter != this->mEnd) do

          ++this->mIter.first;

       while (this->mIter != this->mEnd && !this->valid() );

       return *this;

    }


    TrackIter operator ++ (int)

    {

       TrackIter result { *this };

       this-> operator ++ ();

       return result;

    }


    // Unlike with STL iterators, this class gives well defined behavior when

    // you decrement past the beginning of a range: you wrap and get an end

    // iterator.

    TrackIter &operator -- ()

    {

       // Maintain the class invariant

       do {

          if (this->mIter == this->mBegin)

             // Go circularly

             this->mIter = this->mEnd;

          else

             --this->mIter.first;

       } while (this->mIter != this->mEnd && !this->valid() );

       return *this;

    }


    TrackIter operator -- (int)

    {

       TrackIter result { *this };

       this->operator -- ();

       return result;

    }


    // Unlike with STL iterators, this class gives well defined behavior when

    // you dereference an end iterator: you get a null pointer.

    TrackType *operator * () const

    {

       if (this->mIter == this->mEnd)

          return nullptr;

       else

          // Other methods guarantee that the cast is correct

          // (provided no operations on the TrackList invalidated

          // underlying iterators or replaced the tracks there)

          return static_cast< TrackType * >( &**this->mIter.first );

    }


    // This might be called operator + ,

    // but that might wrongly suggest constant time when the iterator is not

    // random access.

    TrackIter advance( long amount ) const

    {

       auto copy = *this;

       std::advance( copy, amount );

       return copy;

    }


    friend inline bool operator == (TrackIter a, TrackIter b)

    {

       // Assume the predicate is not stateful.  Just compare the iterators.

       return

          a.mIter == b.mIter

          // Assume this too:

          // && a.mBegin == b.mBegin && a.mEnd == b.mEnd

       ;

    }


    friend inline bool operator != (TrackIter a, TrackIter b)

    {

       return !(a == b);

    }


 private:

    bool valid() const

    {

       // assume mIter != mEnd

       const auto pTrack = track_cast< TrackType * >( &**this->mIter.first );

       if (!pTrack)

          return false;

       return !this->mPred || this->mPred( pTrack );

    }


    // This friendship is needed in TrackIterRange::StartingWith and

    // TrackIterRange::EndingAfter()

    friend TrackIterRange< TrackType >;


    // The class invariant is that mIter == mEnd, or else, mIter != mEnd and

    // **mIter is of the appropriate subclass and mPred(&**mIter) is true.

    TrackNodePointer mBegin, mIter, mEnd;

    FunctionType mPred;

 };


 template <

    typename TrackType // Track or a subclass, maybe const-qualified

 > struct TrackIterRange

    : public IteratorRange< TrackIter< TrackType > >

 {

    TrackIterRange

       ( const TrackIter< TrackType > &begin,

         const TrackIter< TrackType > &end )

          : IteratorRange< TrackIter< TrackType > >

             ( begin, end )

    {}


    // Conjoin the filter predicate with another predicate

    // Read + as "and"

    template< typename Predicate2 >

       TrackIterRange operator + ( const Predicate2 &pred2 ) const

    {

       const auto &pred1 = this->first.GetPredicate();

       using Function = typename TrackIter<TrackType>::FunctionType;

       const auto &newPred = pred1

          ? Function{ [=] (typename Function::argument_type track) {

             return pred1(track) && pred2(track);

          } }

          : Function{ pred2 };

       return {

          this->first.Filter( newPred ),

          this->second.Filter( newPred )

       };

    }


    // Specify the added conjunct as a pointer to member function

    // Read + as "and"

    template< typename R, typename C >

       TrackIterRange operator + ( R ( C ::* pmf ) () const ) const

    {

       return this->operator + ( std::mem_fn( pmf ) );

    }


    // Conjoin the filter predicate with the negation of another predicate

    // Read - as "and not"

    template< typename Predicate2 >

       TrackIterRange operator - ( const Predicate2 &pred2 ) const

    {

       using ArgumentType =

          typename TrackIterRange::iterator::FunctionType::argument_type;

       auto neg = [=] (ArgumentType track) { return !pred2( track ); };

       return this->operator + ( neg );

    }


    // Specify the negated conjunct as a pointer to member function

    // Read - as "and not"

    template< typename R, typename C >

       TrackIterRange operator - ( R ( C ::* pmf ) () const ) const

    {

       return this->operator + ( std::not1( std::mem_fn( pmf ) ) );

    }


    template< typename TrackType2 >

       TrackIterRange< TrackType2 > Filter() const

    {

       return {

          this-> first.template Filter< TrackType2 >(),

          this->second.template Filter< TrackType2 >()

       };

    }


    TrackIterRange StartingWith( const Track *pTrack ) const

    {

       auto newBegin = this->find( pTrack );

       // More careful construction is needed so that the independent

       // increment and decrement of each iterator in the NEW pair

       // has the expected behavior at boundaries of the range

       return {

          { newBegin.mIter, newBegin.mIter,    this->second.mEnd,

            this->first.GetPredicate() },

          { newBegin.mIter, this->second.mEnd, this->second.mEnd,

            this->second.GetPredicate() }

       };

    }


    TrackIterRange EndingAfter( const Track *pTrack ) const

    {

       const auto newEnd = this->reversal().find( pTrack ).base();

       // More careful construction is needed so that the independent

       // increment and decrement of each iterator in the NEW pair

       // has the expected behavior at boundaries of the range

       return {

          { this->first.mBegin, this->first.mIter, newEnd.mIter,

            this->first.GetPredicate() },

          { this->first.mBegin, newEnd.mIter,      newEnd.mIter,

            this->second.GetPredicate() }

       };

    }


    // Exclude one given track

    TrackIterRange Excluding ( const TrackType *pExcluded ) const

    {

       return this->operator - (

          [=](const Track *pTrack){ return pExcluded == pTrack; } );

    }


    // See Track::TypeSwitch

    template< typename ...Functions >

    void Visit(const Functions &...functions)

    {

       for (auto track : *this)

          track->TypeSwitch(functions...);

    }


    // See Track::TypeSwitch

    // Visit until flag is false, or no more tracks

    template< typename Flag, typename ...Functions >

    void VisitWhile(Flag &flag, const Functions &...functions)

    {

       if ( flag ) for (auto track : *this) {

          track->TypeSwitch(functions...);

          if (!flag)

             break;

       }

    }

 };


 struct TrackListEvent : public wxCommandEvent

 {

    explicit

    TrackListEvent(

       wxEventType commandType,

       const std::weak_ptr<Track> &pTrack = {}, int code = -1)

    : wxCommandEvent{ commandType }

    , mpTrack{ pTrack }

    , mCode{ code }

    {}


    TrackListEvent( const TrackListEvent& ) = default;


    wxEvent *Clone() const override { return new TrackListEvent(*this); }


    std::weak_ptr<Track> mpTrack;

    int mCode;

 };


 // Posted when the set of selected tracks changes.

 wxDECLARE_EXPORTED_EVENT(AUDACITY_DLL_API,

                          EVT_TRACKLIST_SELECTION_CHANGE, TrackListEvent);


 // Posted when certain fields of a track change.

 wxDECLARE_EXPORTED_EVENT(AUDACITY_DLL_API,

                          EVT_TRACKLIST_TRACK_DATA_CHANGE, TrackListEvent);


 // Posted when tracks are reordered but otherwise unchanged.

 wxDECLARE_EXPORTED_EVENT(AUDACITY_DLL_API,

                          EVT_TRACKLIST_PERMUTED, TrackListEvent);


 // Posted when some track changed its height.

 wxDECLARE_EXPORTED_EVENT(AUDACITY_DLL_API,

                          EVT_TRACKLIST_RESIZING, TrackListEvent);


 // Posted when a track has been added to a tracklist.

 // Also posted when one track replaces another

 wxDECLARE_EXPORTED_EVENT(AUDACITY_DLL_API,

                          EVT_TRACKLIST_ADDITION, TrackListEvent);


 // Posted when a track has been deleted from a tracklist.

 // Also posted when one track replaces another

 wxDECLARE_EXPORTED_EVENT(AUDACITY_DLL_API,

                          EVT_TRACKLIST_DELETION, TrackListEvent);


 class TrackList final : public wxEvtHandler, public ListOfTracks

 {

    // privatize this, make you use Swap instead:

    using ListOfTracks::swap;


    // Create an empty TrackList

    TrackList();


    // Disallow copy

    TrackList(const TrackList &that) = delete;

    TrackList &operator= (const TrackList&) = delete;


    // Allow move

    TrackList(TrackList &&that) : TrackList() { Swap(that); }

    TrackList& operator= (TrackList&&);


    void clear() = delete;


  public:

    // Create an empty TrackList

    static std::shared_ptr<TrackList> Create();


    // Move is defined in terms of Swap

    void Swap(TrackList &that);


    // Destructor

    virtual ~TrackList();


    // Iteration


    // Hide the inherited begin() and end()

    using iterator = TrackIter<Track>;

    using const_iterator = TrackIter<const Track>;

    using value_type = Track *;

    iterator begin() { return Any().begin(); }

    iterator end() { return Any().end(); }

    const_iterator begin() const { return Any().begin(); }

    const_iterator end() const { return Any().end(); }

    const_iterator cbegin() const { return begin(); }

    const_iterator cend() const { return end(); }


    // Turn a pointer into an iterator (constant time).

    template < typename TrackType = Track >

       auto Find(Track *pTrack)

          -> TrackIter< TrackType >

    {

       if (!pTrack || pTrack->GetOwner().get() != this)

          return EndIterator<TrackType>();

       else

          return MakeTrackIterator<TrackType>( pTrack->GetNode() );

    }


    // Turn a pointer into an iterator (constant time).

    template < typename TrackType = const Track >

       auto Find(const Track *pTrack) const

          -> typename std::enable_if< std::is_const<TrackType>::value,

             TrackIter< TrackType >

          >::type

    {

       if (!pTrack || pTrack->GetOwner().get() != this)

          return EndIterator<TrackType>();

       else

          return MakeTrackIterator<TrackType>( pTrack->GetNode() );

    }


    // If the track is not an audio track, or not one of a group of channels,

    // return the track itself; else return the first channel of its group --

    // in either case as an iterator that will only visit other leader tracks.

    // (Generalizing away from the assumption of at most stereo)

    TrackIter< Track > FindLeader( Track *pTrack );


    TrackIter< const Track >

       FindLeader( const Track *pTrack ) const

    {

       return const_cast<TrackList*>(this)->

          FindLeader( const_cast<Track*>(pTrack) ).Filter< const Track >();

    }


    template < typename TrackType = Track >

       auto Any()

          -> TrackIterRange< TrackType >

    {

       return Tracks< TrackType >();

    }


    template < typename TrackType = const Track >

       auto Any() const

          -> typename std::enable_if< std::is_const<TrackType>::value,

             TrackIterRange< TrackType >

          >::type

    {

       return Tracks< TrackType >();

    }


    // Abbreviating some frequently used cases

    template < typename TrackType = Track >

       auto Selected()

          -> TrackIterRange< TrackType >

    {

       return Tracks< TrackType >( &Track::IsSelected );

    }


    template < typename TrackType = const Track >

       auto Selected() const

          -> typename std::enable_if< std::is_const<TrackType>::value,

             TrackIterRange< TrackType >

          >::type

    {

       return Tracks< TrackType >( &Track::IsSelected );

    }


    template < typename TrackType = Track >

       auto Leaders()

          -> TrackIterRange< TrackType >

    {

       return Tracks< TrackType >( &Track::IsLeader );

    }


    template < typename TrackType = const Track >

       auto Leaders() const

          -> typename std::enable_if< std::is_const<TrackType>::value,

             TrackIterRange< TrackType >

          >::type

    {

       return Tracks< TrackType >( &Track::IsLeader );

    }


    template < typename TrackType = Track >

       auto SelectedLeaders()

          -> TrackIterRange< TrackType >

    {

       return Tracks< TrackType >( &Track::IsSelectedLeader );

    }


    template < typename TrackType = const Track >

       auto SelectedLeaders() const

          -> typename std::enable_if< std::is_const<TrackType>::value,

             TrackIterRange< TrackType >

          >::type

    {

       return Tracks< TrackType >( &Track::IsSelectedLeader );

    }


    template<typename TrackType>

       static auto SingletonRange( TrackType *pTrack )

          -> TrackIterRange< TrackType >

    {

       return pTrack->GetOwner()->template Any<TrackType>()

          .StartingWith( pTrack ).EndingAfter( pTrack );

    }


    static TrackIterRange< Track >

       SyncLockGroup( Track *pTrack );


    static TrackIterRange< const Track >

       SyncLockGroup( const Track *pTrack )

    {

       return SyncLockGroup(const_cast<Track*>(pTrack)).Filter<const Track>();

    }


 private:

    template< typename TrackType, typename InTrackType >

       static TrackIterRange< TrackType >

          Channels_( TrackIter< InTrackType > iter1 )

    {

       // Assume iterator filters leader tracks

       if (*iter1) {

          return {

             iter1.Filter( &Track::Any )

                .template Filter<TrackType>(),

             (++iter1).Filter( &Track::Any )

                .template Filter<TrackType>()

          };

       }

       else

          // empty range

          return {

             iter1.template Filter<TrackType>(),

             iter1.template Filter<TrackType>()

          };

    }


 public:

    // Find an iterator range of channels including the given track.

    template< typename TrackType >

       static auto Channels( TrackType *pTrack )

          -> TrackIterRange< TrackType >

    {

       return Channels_<TrackType>( pTrack->GetOwner()->FindLeader(pTrack) );

    }


    friend class Track;


    void Permute(const std::vector<TrackNodePointer> &permutation);


    Track *FindById( TrackId id );


    template<typename TrackKind>

    Track *Add(std::unique_ptr<TrackKind> &&t);


    template<typename TrackKind>

    Track *AddToHead(std::unique_ptr<TrackKind> &&t);


    template<typename TrackKind>

    Track *Add(std::shared_ptr<TrackKind> &&t);


    void GroupChannels(

       Track &track, size_t groupSize, bool resetChannels = true );


    ListOfTracks::value_type Replace(Track * t, ListOfTracks::value_type &&with);


    TrackNodePointer Remove(Track *t);


    void Clear(bool sendEvent = true);


    int GetGroupHeight(const Track * t) const;


    bool CanMoveUp(Track * t) const;

    bool CanMoveDown(Track * t) const;


    bool MoveUp(Track * t);

    bool MoveDown(Track * t);

    bool Move(Track * t, bool up) { return up ? MoveUp(t) : MoveDown(t); }


    TimeTrack *GetTimeTrack();

    const TimeTrack *GetTimeTrack() const;


    unsigned GetNumExportChannels(bool selectionOnly) const;


    WaveTrackArray GetWaveTrackArray(bool selectionOnly, bool includeMuted = true);

    WaveTrackConstArray GetWaveTrackConstArray(bool selectionOnly, bool includeMuted = true) const;


 #if defined(USE_MIDI)

    NoteTrackConstArray GetNoteTrackConstArray(bool selectionOnly) const;

 #endif


    bool Contains(const Track * t) const;


    // Return non-null only if the weak pointer is not, and the track is

    // owned by this list; constant time.

    template <typename Subclass>

    std::shared_ptr<Subclass> Lock(const std::weak_ptr<Subclass> &wTrack)

    {

       auto pTrack = wTrack.lock();

       if (pTrack) {

          auto pList = pTrack->mList.lock();

          if (pTrack && this == pList.get())

             return pTrack;

       }

       return {};

    }


    bool empty() const;

    size_t size() const;


    double GetStartTime() const;

    double GetEndTime() const;


    double GetMinOffset() const;

    int GetHeight() const;


 #if LEGACY_PROJECT_FILE_SUPPORT

    // File I/O

    bool Load(wxTextFile * in, DirManager * dirManager) override;

    bool Save(wxTextFile * out, bool overwrite) override;

 #endif


 private:


    // Visit all tracks satisfying a predicate, mutative access

    template <

       typename TrackType = Track,

       typename Pred =

          typename TrackIterRange< TrackType >::iterator::FunctionType

    >

       auto Tracks( const Pred &pred = {} )

          -> TrackIterRange< TrackType >

    {

       auto b = getBegin(), e = getEnd();

       return { { b, b, e, pred }, { b, e, e, pred } };

    }


    // Visit all tracks satisfying a predicate, const access

    template <

       typename TrackType = const Track,

       typename Pred =

          typename TrackIterRange< TrackType >::iterator::FunctionType

    >

       auto Tracks( const Pred &pred = {} ) const

          -> typename std::enable_if< std::is_const<TrackType>::value,

             TrackIterRange< TrackType >

          >::type

    {

       auto b = const_cast<TrackList*>(this)->getBegin();

       auto e = const_cast<TrackList*>(this)->getEnd();

       return { { b, b, e, pred }, { b, e, e, pred } };

    }


    Track *GetPrev(Track * t, bool linked = false) const;

    Track *GetNext(Track * t, bool linked = false) const;


    std::pair<Track *, Track *> FindSyncLockGroup(Track *pMember) const;


    template < typename TrackType >

       TrackIter< TrackType >

          MakeTrackIterator( TrackNodePointer iter ) const

    {

       auto b = const_cast<TrackList*>(this)->getBegin();

       auto e = const_cast<TrackList*>(this)->getEnd();

       return { b, iter, e };

    }


    template < typename TrackType >

       TrackIter< TrackType >

          EndIterator() const

    {

       auto e = const_cast<TrackList*>(this)->getEnd();

       return { e, e, e };

    }


    TrackIterRange< Track > EmptyRange() const;


    bool isNull(TrackNodePointer p) const

    { return (p.second == this && p.first == ListOfTracks::end())

       || (p.second == &mPendingUpdates && p.first == mPendingUpdates.end()); }

    TrackNodePointer getEnd() const

    { return { const_cast<TrackList*>(this)->ListOfTracks::end(),

               const_cast<TrackList*>(this)}; }

    TrackNodePointer getBegin() const

    { return { const_cast<TrackList*>(this)->ListOfTracks::begin(),

               const_cast<TrackList*>(this)}; }


    // Move an iterator to the next node, if any; else stay at end

    TrackNodePointer getNext(TrackNodePointer p) const

    {

       if ( isNull(p) )

          return p;

       auto q = p;

       ++q.first;

       return q;

    }


    // Move an iterator to the previous node, if any; else wrap to end

    TrackNodePointer getPrev(TrackNodePointer p) const

    {

       if (p == getBegin())

          return getEnd();

       else {

          auto q = p;

          --q.first;

          return q;

       }

    }


    void RecalcPositions(TrackNodePointer node);

    void SelectionEvent( const std::shared_ptr<Track> &pTrack );

    void PermutationEvent();

    void DataEvent( const std::shared_ptr<Track> &pTrack, int code );

    void DeletionEvent();

    void AdditionEvent(TrackNodePointer node);

    void ResizingEvent(TrackNodePointer node);


    void SwapNodes(TrackNodePointer s1, TrackNodePointer s2);


    std::weak_ptr<TrackList> mSelf;


    // Nondecreasing during the session.

    // Nonpersistent.

    // Used to assign ids to added tracks.

    static long sCounter;


 public:

    using Updater = std::function< void(Track &dest, const Track &src) >;

    // Start a deferred update of the project.

    // The return value is a duplicate of the given track.

    // While ApplyPendingTracks or ClearPendingTracks is not yet called,

    // there may be other direct changes to the project that push undo history.

    // Meanwhile the returned object can accumulate other changes for a deferred

    // push, and temporarily shadow the actual project track for display purposes.

    // The Updater function, if not null, merges state (from the actual project

    // into the pending track) which is not meant to be overridden by the

    // accumulated pending changes.

    // To keep the display consistent, the Y and Height values, minimized state,

    // and Linked state must be copied, and this will be done even if the

    // Updater does not do it.

    // Pending track will have the same TrackId as the actual.

    // Pending changed tracks will not occur in iterations.

    std::shared_ptr<Track> RegisterPendingChangedTrack(

       Updater updater,

       Track *src

    );


    // Like the previous, but for a NEW track, not a replacement track.  Caller

    // supplies the track, and there are no updates.

    // Pending track will have an unassigned TrackId.

    // Pending changed tracks WILL occur in iterations, always after actual

    // tracks, and in the sequence that they were added.  They can be

    // distinguished from actual tracks by TrackId.

    void RegisterPendingNewTrack( const std::shared_ptr<Track> &pTrack );


    // Invoke the updaters of pending tracks.  Pass any exceptions from the

    // updater functions.

    void UpdatePendingTracks();


    // Forget pending track additions and changes;

    // if requested, give back the pending added tracks.

    void ClearPendingTracks( ListOfTracks *pAdded = nullptr );


    // Change the state of the project.

    // Strong guarantee for project state in case of exceptions.

    // Will always clear the pending updates.

    // Return true if the state of the track list really did change.

    bool ApplyPendingTracks();


    bool HasPendingTracks() const;


 private:

    // Need to put pending tracks into a list so that GetLink() works

    ListOfTracks mPendingUpdates;

    // This is in correspondence with mPendingUpdates

    std::vector< Updater > mUpdaters;

 };


 class AUDACITY_DLL_API TrackFactory

 {

  private:

    TrackFactory(const std::shared_ptr<DirManager> &dirManager, const ZoomInfo *zoomInfo):

       mDirManager(dirManager)

       , mZoomInfo(zoomInfo)

    {

    }


    const std::shared_ptr<DirManager> mDirManager;

    const ZoomInfo *const mZoomInfo;

    friend class AudacityProject;

    friend class BenchmarkDialog;


  public:

    // These methods are defined in WaveTrack.cpp, NoteTrack.cpp,

    // LabelTrack.cpp, and TimeTrack.cpp respectively

    std::unique_ptr<WaveTrack> DuplicateWaveTrack(const WaveTrack &orig);

    std::unique_ptr<WaveTrack> NewWaveTrack(sampleFormat format = (sampleFormat)0,

                            double rate = 0);

    std::unique_ptr<LabelTrack> NewLabelTrack();

    std::unique_ptr<TimeTrack> NewTimeTrack();

 #if defined(USE_MIDI)

    std::unique_ptr<NoteTrack> NewNoteTrack();

 #endif

 };


 // global functions

 struct TransportTracks;

 TransportTracks GetAllPlaybackTracks(TrackList &trackList, bool selectedOnly, bool useMidi = false);


 #endif

CommonTrackPanelCell.h

TrackIter
Definition: Track.h:833

PlayableTrack::GetSolo
bool GetSolo() const
Definition: Track.h:777

Track::SetId
void SetId(TrackId id)
Definition: Track.h:227

Track::SetPan
virtual void SetPan(float)
Definition: Track.h:393

TrackIterRange
Definition: Track.h:828

TrackList
Definition: Track.h:1166

CompatibleTrackKinds
constexpr bool CompatibleTrackKinds(TrackKind desired, TrackKind actual)
Definition: Track.h:92

IteratorRange< TrackIter< TrackType > >::find
iterator find(const T &t) const
Definition: MemoryX.h:460

DirManager
Creates and manages BlockFile objects.
Definition: DirManager.h:52

TrackIterRange::Filter
TrackIterRange< TrackType2 > Filter() const
Definition: Track.h:1052

Track::GetActualHeight
int GetActualHeight() const
Definition: Track.h:301

GetAllPlaybackTracks
TransportTracks GetAllPlaybackTracks(TrackList &trackList, bool selectedOnly, bool useMidi=false)
Definition: Track.cpp:1418

ViewInfo
ViewInfo is used mainly to hold the zooming, selection and scroll information. It also has some statu...
Definition: ViewInfo.h:143

TrackList::EndIterator
TrackIter< TrackType > EndIterator() const
Definition: Track.h:1508

TrackList::CanMoveDown
bool CanMoveDown(Track *t) const
Definition: Track.cpp:973

TrackList::DataEvent
void DataEvent(const std::shared_ptr< Track > &pTrack, int code)
Definition: Track.cpp:647

TrackList::Selected
auto Selected() const -> typename std::enable_if< std::is_const< TrackType >::value, TrackIterRange< TrackType > >::type
Definition: Track.h:1270

TrackList::GetHeight
int GetHeight() const
Definition: Track.cpp:1191

PlayableTrack::PlayableTrack
PlayableTrack(const std::shared_ptr< DirManager > &projDirManager)
Definition: Track.h:772

TrackList::isNull
bool isNull(TrackNodePointer p) const
Definition: Track.h:1516

TrackIter::Filter
auto Filter() const -> typename std::enable_if< std::is_base_of< TrackType, TrackType2 >::value &&(!std::is_const< TrackType >::value||std::is_const< TrackType2 >::value), TrackIter< TrackType2 > >::type
Definition: Track.h:881

Track::TypeSwitch
R TypeSwitch(const Functions &...functions)
Definition: Track.h:630

TrackList::GetStartTime
double GetStartTime() const
Definition: Track.cpp:1226

TrackList::FindLeader
TrackIter< const Track > FindLeader(const Track *pTrack) const
Definition: Track.h:1238

Track::mIndex
int mIndex
Definition: Track.h:203

TrackArray
std::vector< Track * > TrackArray
Definition: Snap.h:26

TrackListEvent::mpTrack
std::weak_ptr< Track > mpTrack
Definition: Track.h:1136

TrackList::cend
const_iterator cend() const
Definition: Track.h:1205

Track::GetSelected
bool GetSelected() const
Definition: Track.h:381

Track::mNode
TrackNodePointer mNode
Definition: Track.h:202

TrackList::GroupChannels
void GroupChannels(Track &track, size_t groupSize, bool resetChannels=true)
Define a group of channels starting at the given track.
Definition: Track.cpp:789

Track::SetOffset
virtual void SetOffset(double o)
Definition: Track.h:391

TrackList::SelectedLeaders
auto SelectedLeaders() -> TrackIterRange< TrackType >
Definition: Track.h:1297

Track::GetKind
virtual TrackKind GetKind() const
Definition: Track.h:431

TrackIterRange::Visit
void Visit(const Functions &...functions)
Definition: Track.h:1097

TrackList::Leaders
auto Leaders() -> TrackIterRange< TrackType >
Definition: Track.h:1280

wxDECLARE_EXPORTED_EVENT
wxDECLARE_EXPORTED_EVENT(AUDACITY_DLL_API, EVT_TRACKLIST_SELECTION_CHANGE, TrackListEvent)

Track::GetId
TrackId GetId() const
Definition: Track.h:225

TrackList::Add
Track * Add(std::unique_ptr< TrackKind > &&t)
Add a Track, giving it a fresh id.
Definition: Track.cpp:732

Track::mHeight
int mHeight
Definition: Track.h:205

Track::mChannel
ChannelType mChannel
Definition: Track.h:353

TrackList::DeletionEvent
void DeletionEvent()
Definition: Track.cpp:660

TrackList::GetEndTime
double GetEndTime() const
Definition: Track.cpp:1231

Track::TypeSwitch
R TypeSwitch(const Functions &...functions) const
Definition: Track.h:672

Track::Offset
void Offset(double t)
Definition: Track.h:390

Track::mSelected
bool mSelected
Definition: Track.h:210

TrackList::SingletonRange
static auto SingletonRange(TrackType *pTrack) -> TrackIterRange< TrackType >
Definition: Track.h:1314

TrackList::RegisterPendingNewTrack
void RegisterPendingNewTrack(const std::shared_ptr< Track > &pTrack)
Definition: Track.cpp:1255

TrackList::begin
iterator begin()
Definition: Track.h:1200

TrackList::clear
void clear()=delete

TrackList::ClearPendingTracks
void ClearPendingTracks(ListOfTracks *pAdded=nullptr)
Definition: Track.cpp:1282

TrackIter::mIter
TrackNodePointer mIter
Definition: Track.h:990

TrackTyper::Lookup< TrackType, std::tuple< Pair< TrackType, Here >, Rest... > >::value
static constexpr TrackKind value()
Definition: Track.h:130

TrackPanelResizerCell
Definition: TrackPanelResizerCell.h:18

TrackKind
TrackKind
Definition: Track.h:75

TrackNodePointer
std::pair< ListOfTracks::iterator, ListOfTracks * > TrackNodePointer
Definition: Track.h:67

TrackList::Any
auto Any() const -> typename std::enable_if< std::is_const< TrackType >::value, TrackIterRange< TrackType > >::type
Definition: Track.h:1253

TrackList::Any
auto Any() -> TrackIterRange< TrackType >
Definition: Track.h:1246

TrackList::SwapNodes
void SwapNodes(TrackNodePointer s1, TrackNodePointer s2)
Definition: Track.cpp:982

Track::GetLinked
bool GetLinked() const
Definition: Track.h:336

Track::mSelectHandle
std::weak_ptr< SelectHandle > mSelectHandle
Definition: Track.h:750

TrackFactory::mDirManager
const std::shared_ptr< DirManager > mDirManager
Definition: Track.h:1626

TrackKind::All

TrackList::FindLeader
TrackIter< Track > FindLeader(Track *pTrack)
Definition: Track.cpp:697

TrackList::Find
auto Find(Track *pTrack) -> TrackIter< TrackType >
Definition: Track.h:1209

TrackList::sCounter
static long sCounter
Definition: Track.h:1563

IteratorRange
A convenience for use with range-for.
Definition: MemoryX.h:437

TrackList::MoveUp
bool MoveUp(Track *t)
Definition: Track.cpp:1041

Track::GetChannel
virtual ChannelType GetChannel() const
Definition: Track.h:387

TrackList::SyncLockGroup
static TrackIterRange< const Track > SyncLockGroup(const Track *pTrack)
Definition: Track.h:1326

TrackPanelMouseState
Definition: TrackPanelMouseEvent.h:27

TrackList::TrackList
TrackList(TrackList &&that)
Definition: Track.h:1179

TrackId::TrackId
TrackId()
Definition: Track.h:173

TrackIter::mEnd
TrackNodePointer mEnd
Definition: Track.h:990

Track::Dispatcher::Switch< R, ConcreteType, BaseClass, BaseClasses... >::test
static auto test(std::true_type *) -> decltype((void) std::declval< Function >()((BaseClass *) nullptr, std::declval< Continuation< R > >()), applicable2< R, BaseClass, ConcreteType, Function, Functions... >
Definition: Track.h:575

TrackList::getPrev
TrackNodePointer getPrev(TrackNodePointer p) const
Definition: Track.h:1537

TrackList::ApplyPendingTracks
bool ApplyPendingTracks()
Definition: Track.cpp:1309

TrackIter::operator--
TrackIter & operator--()
Definition: Track.h:916

TrackList::EmptyRange
TrackIterRange< Track > EmptyRange() const
Definition: Track.cpp:678

IteratorRange< TrackIter< TrackType > >::reversal
IteratorRange< reverse_iterator > reversal() const
Definition: MemoryX.h:447

track_kind
constexpr TrackKind track_kind()
Definition: Track.h:142

Track::GetDirManager
const std::shared_ptr< DirManager > & GetDirManager() const
Definition: Track.h:400

Track::mDefaultName
wxString mDefaultName
Definition: Track.h:207

TrackId::TrackId
TrackId(long value)
Definition: Track.h:174

TrackList::Leaders
auto Leaders() const -> typename std::enable_if< std::is_const< TrackType >::value, TrackIterRange< TrackType > >::type
Definition: Track.h:1287

Track::mpVRulerContols
std::shared_ptr< TrackVRulerControls > mpVRulerContols
Definition: Track.h:747

Track::Dispatcher::applicable1
Definition: Track.h:499

TrackList::GetTimeTrack
TimeTrack * GetTimeTrack()
Definition: Track.cpp:1087

TrackList::operator=
TrackList & operator=(const TrackList &)=delete

ZoomInfo
Definition: ViewInfo.h:31

TrackList::Selected
auto Selected() -> TrackIterRange< TrackType >
Definition: Track.h:1263

TrackList::ResizingEvent
void ResizingEvent(TrackNodePointer node)
Definition: Track.cpp:672

TrackKind::Note

TrackList::Create
static std::shared_ptr< TrackList > Create()
Definition: Track.cpp:574

TrackFactory
Used to create a WaveTrack, or a LabelTrack.. Implementation of the functions of this class are dispe...
Definition: Track.h:1617

PlayableTrack::PlayableTrack
PlayableTrack(const Track &orig)
Definition: Track.h:774

TrackPanelCell::HitTest
virtual std::vector< UIHandlePtr > HitTest(const TrackPanelMouseState &state, const AudacityProject *pProject)=0

LabelTrack
A LabelTrack is a Track that holds labels (LabelStruct).
Definition: LabelTrack.h:113

Track::ChannelType
ChannelType
Definition: Track.h:218

TrackList::RegisterPendingChangedTrack
std::shared_ptr< Track > RegisterPendingChangedTrack(Updater updater, Track *src)
Definition: Track.cpp:1237

TimeShiftHandle
Definition: TimeShiftHandle.h:47

TrackIter::mPred
FunctionType mPred
Definition: Track.h:991

Track::GetDefaultName
wxString GetDefaultName() const
Definition: Track.h:378

TrackList::TrackList
TrackList()
Definition: Track.cpp:568

TrackList::Swap
void Swap(TrackList &that)
Definition: Track.cpp:590

AudioTrack::AudioTrack
AudioTrack(const std::shared_ptr< DirManager > &projDirManager)
Definition: Track.h:757

TrackListEvent
TrackList is a flat linked list of tracks supporting Add, Remove, Clear, and Contains, plus serialization of the list of tracks.
Definition: Track.h:1121

TrackList::MakeTrackIterator
TrackIter< TrackType > MakeTrackIterator(TrackNodePointer iter) const
Definition: Track.h:1499

AudacityProject
AudacityProject provides the main window, with tools and tracks contained within it.
Definition: Project.h:174

TimeTrack
A kind of Track used to 'warp time'.
Definition: TimeTrack.h:29

TrackId::operator!=
bool operator!=(const TrackId &other) const
Definition: Track.h:179

TrackList::size
size_t size() const
Definition: Track.cpp:1077

IteratorRange< TrackIter< TrackType > >::begin
TrackIter< TrackType > begin() const
Definition: MemoryX.h:450

TrackList::Updater
std::function< void(Track &dest, const Track &src) > Updater
Definition: Track.h:1566

TrackKind::Time

TrackList::CanMoveUp
bool CanMoveUp(Track *t) const
Definition: Track.cpp:968

format
int format
Definition: ExportPCM.cpp:56

TrackList::GetWaveTrackConstArray
WaveTrackConstArray GetWaveTrackConstArray(bool selectionOnly, bool includeMuted=true) const
Definition: Track.cpp:1179

AudioTrack::HandleXMLAttribute
bool HandleXMLAttribute(const wxChar *, const wxChar *)
Definition: Track.h:765

AudioTrack::AudioTrack
AudioTrack(const Track &orig)
Definition: Track.h:759

TrackKind::Label

Track::Dispatcher
Definition: Track.h:478

TrackIter::operator!=
friend bool operator!=(TrackIter a, TrackIter b)
Definition: Track.h:969

TrackList::mPendingUpdates
ListOfTracks mPendingUpdates
Definition: Track.h:1612

TrackList::GetNext
Track * GetNext(Track *t, bool linked=false) const
Return a track in the list that comes after Track t.
Definition: Track.cpp:906

TrackId::mValue
long mValue
Definition: Track.h:188

TrackControls
Definition: TrackControls.h:25

TrackList::AdditionEvent
void AdditionEvent(TrackNodePointer node)
Definition: Track.cpp:666

Track::Any
bool Any() const
Definition: Track.cpp:439

TrackList::AddToHead
Track * AddToHead(std::unique_ptr< TrackKind > &&t)
Add a Track, giving it a fresh id.
Definition: Track.cpp:756

WaveTrackArray
std::vector< std::shared_ptr< WaveTrack > > WaveTrackArray
Definition: AudioIO.h:67

TrackId::operator<
bool operator<(const TrackId &other) const
Definition: Track.h:184

TrackTyper::Pair
Definition: Track.h:116

TrackIter::FunctionType
std::function< bool(typename std::add_pointer< typename std::add_const< typename std::remove_pointer< TrackType >::type >::type >::type) > FunctionType
Definition: Track.h:856

TrackList::RecalcPositions
void RecalcPositions(TrackNodePointer node)
Definition: Track.cpp:613

Track::mpResizer
std::shared_ptr< TrackPanelResizerCell > mpResizer
Definition: Track.h:748

WaveTrackConstArray
std::vector< std::shared_ptr< const WaveTrack > > WaveTrackConstArray
Definition: AudioIO.h:68

TrackIter::Filter
TrackIter Filter(const Predicate2 &pred2) const
Definition: Track.h:872

Track::mMinimized
bool mMinimized
Definition: Track.h:214

Track::Executor
Definition: Track.h:456

TrackList::Contains
bool Contains(const Track *t) const
Mainly a test function. Uses a linear search, so could be slow.
Definition: Track.cpp:1067

TrackIter::mBegin
TrackNodePointer mBegin
Definition: Track.h:990

Audacity.h

Track::SetPanFromChannelType
virtual void SetPanFromChannelType()
Definition: Track.h:394

TrackList::Move
bool Move(Track *t, bool up)
Definition: Track.h:1409

Track::ContextMenuDelegate
std::shared_ptr< TrackPanelCell > ContextMenuDelegate() override
Definition: Track.h:273

TrackIter::operator*
TrackType * operator*() const
Definition: Track.h:938

AudioTrack
A Track that can load/save audio data to/from XML.
Definition: Track.h:754

sampleFormat
sampleFormat
Definition: Types.h:188

TrackList::FindById
Track * FindById(TrackId id)
Definition: Track.cpp:720

TrackIter::operator++
TrackIter & operator++()
Definition: Track.h:897

TrackList::~TrackList
virtual ~TrackList()
Definition: Track.cpp:608

Track::mTimeShiftHandle
std::weak_ptr< TimeShiftHandle > mTimeShiftHandle
Definition: Track.h:751

TrackList::Replace
ListOfTracks::value_type Replace(Track *t, ListOfTracks::value_type &&with)
Definition: Track.cpp:841

Track::mList
std::weak_ptr< TrackList > mList
Definition: Track.h:201

WaveTrack
A Track that contains audio waveform data.
Definition: WaveTrack.h:60

TrackList::GetWaveTrackArray
WaveTrackArray GetWaveTrackArray(bool selectionOnly, bool includeMuted=true)
Definition: Track.cpp:1174

TrackIter::advance
TrackIter advance(long amount) const
Definition: Track.h:952

TrackIterRange::VisitWhile
void VisitWhile(Flag &flag, const Functions &...functions)
Definition: Track.h:1106

TrackList::HasPendingTracks
bool HasPendingTracks() const
Definition: Track.cpp:1406

Track
Fundamental data object of Audacity, placed in the TrackPanel. Classes derived form it include the Wa...
Definition: Track.h:191

Experimental.h

Track::GetOwner
std::shared_ptr< TrackList > GetOwner() const
Definition: Track.h:333

TrackList::begin
const_iterator begin() const
Definition: Track.h:1202

Track::Dispatcher::applicable2
Definition: Track.h:514

Track::Dispatcher::inapplicable
Definition: Track.h:483

XMLTagHandler
This class is an interface which should be implemented by classes which wish to be able to load and s...
Definition: XMLTagHandler.h:72

TrackTyper::Lookup< TrackType, std::tuple< NotHere, Rest... > >::value
static constexpr TrackKind value()
Definition: Track.h:136

TrackList::GetNumExportChannels
unsigned GetNumExportChannels(bool selectionOnly) const
Find out how many channels this track list mixes to.
Definition: Track.cpp:1097

Track::Continuation
std::function< R() > Continuation
Definition: Track.h:449

TrackKind::Audio

TrackList::SelectedLeaders
auto SelectedLeaders() const -> typename std::enable_if< std::is_const< TrackType >::value, TrackIterRange< TrackType > >::type
Definition: Track.h:1304

TrackKind::Playable

TrackList::Find
auto Find(const Track *pTrack) const -> typename std::enable_if< std::is_const< TrackType >::value, TrackIter< TrackType > >::type
Definition: Track.h:1220

Track::GetName
wxString GetName() const
Definition: Track.h:376

TrackIterRange::TrackIterRange
TrackIterRange(const TrackIter< TrackType > &begin, const TrackIter< TrackType > &end)
Definition: Track.h:1000

TrackList::end
iterator end()
Definition: Track.h:1201

TrackList::cbegin
const_iterator cbegin() const
Definition: Track.h:1204

Track::SetChannel
void SetChannel(ChannelType c)
Definition: Track.h:341

TrackList::Clear
void Clear(bool sendEvent=true)
Make the list empty.
Definition: Track.cpp:884

SampleFormat.h

TrackIterRange::operator-
TrackIterRange operator-(const Predicate2 &pred2) const
Definition: Track.h:1035

TrackList::getEnd
TrackNodePointer getEnd() const
Definition: Track.h:1519

TrackList::Lock
std::shared_ptr< Subclass > Lock(const std::weak_ptr< Subclass > &wTrack)
Definition: Track.h:1435

TrackListEvent::TrackListEvent
TrackListEvent(wxEventType commandType, const std::weak_ptr< Track > &pTrack={}, int code=-1)
Definition: Track.h:1124

TrackList::GetGroupHeight
int GetGroupHeight(const Track *t) const
Definition: Track.cpp:963

TrackKind::None

MemoryX.h

TrackIterRange::Excluding
TrackIterRange Excluding(const TrackType *pExcluded) const
Definition: Track.h:1089

PlayableTrack
An AudioTrack that can be played and stopped.
Definition: Track.h:769

TrackList::Channels_
static TrackIterRange< TrackType > Channels_(TrackIter< InTrackType > iter1)
Definition: Track.h:1334

TransportTracks
Definition: AudioIO.h:158

TrackList::MoveDown
bool MoveDown(Track *t)
Definition: Track.cpp:1054

Track::mOffset
double mOffset
Definition: Track.h:354

TrackId::operator==
bool operator==(const TrackId &other) const
Definition: Track.h:176

Track::SetDefaultName
void SetDefaultName(const wxString &n)
Definition: Track.h:379

XMLTagHandler.h

operator==
bool operator==(const TrackNodePointer &a, const TrackNodePointer &b)
Definition: Track.h:69

TrackList::Track
friend class Track
Definition: Track.h:1362

Track::mLinked
bool mLinked
Definition: Track.h:213

Track::IsLeader
bool IsLeader() const
Definition: Track.cpp:448

TrackList::getBegin
TrackNodePointer getBegin() const
Definition: Track.h:1522

TrackList::GetMinOffset
double GetMinOffset() const
Definition: Track.cpp:1221

Track::Fallthrough
Continuation<> Fallthrough
Definition: Track.h:450

TrackList::GetNoteTrackConstArray
NoteTrackConstArray GetNoteTrackConstArray(bool selectionOnly) const
Definition: Track.cpp:1185

TrackList::Remove
TrackNodePointer Remove(Track *t)
Definition: Track.cpp:863

TrackKind::Wave

TrackList::SelectionEvent
void SelectionEvent(const std::shared_ptr< Track > &pTrack)
Definition: Track.cpp:640

TrackIter::operator==
friend bool operator==(TrackIter a, TrackIter b)
Definition: Track.h:959

TrackList::GetPrev
Track * GetPrev(Track *t, bool linked=false) const
Definition: Track.cpp:925

TrackList::Permute
void Permute(const std::vector< TrackNodePointer > &permutation)
For use in sorting: assume each iterator points into this list, no duplications.
Definition: Track.cpp:706

Track::IsSelected
bool IsSelected() const
Definition: Track.cpp:442

TrackList::Tracks
auto Tracks(const Pred &pred={}) -> TrackIterRange< TrackType >
Definition: Track.h:1469

Track::Init
void Init(const Track &orig)
Definition: Track.cpp:78

TrackTyper::List
std::tuple< Pair< Track, TrackKind::All >, Pair< AudioTrack, TrackKind::Audio >, Pair< PlayableTrack, TrackKind::Playable >, Pair< LabelTrack, TrackKind::Label >, Pair< NoteTrack, TrackKind::Note >, Pair< TimeTrack, TrackKind::Time >, Pair< WaveTrack, TrackKind::Wave > > List
Definition: Track.h:126

Track::Dispatcher::Switch< R, ConcreteType, BaseClass, BaseClasses... >::test
static auto test(std::true_type *) -> decltype((void) std::declval< Function >()((BaseClass *) nullptr), applicable1< R, BaseClass, ConcreteType, Function, Functions... >
Definition: Track.h:562

TrackList::SyncLockGroup
static TrackIterRange< Track > SyncLockGroup(Track *pTrack)
Definition: Track.cpp:688

Track::IsSelectedLeader
bool IsSelectedLeader() const
Definition: Track.cpp:451

AudioTrack::WriteXMLAttributes
void WriteXMLAttributes(XMLWriter &WXUNUSED(xmlFile)) const
Definition: Track.h:762

TrackFactory::TrackFactory
TrackFactory(const std::shared_ptr< DirManager > &dirManager, const ZoomInfo *zoomInfo)
Definition: Track.h:1620

TrackListEvent::mCode
int mCode
Definition: Track.h:1137

TrackVRulerControls
Definition: TrackVRulerControls.h:22

TrackList::Tracks
auto Tracks(const Pred &pred={}) const -> typename std::enable_if< std::is_const< TrackType >::value, TrackIterRange< TrackType > >::type
Definition: Track.h:1482

TrackFactory::mZoomInfo
const ZoomInfo *const mZoomInfo
Definition: Track.h:1627

CommonTrackPanelCell
Definition: CommonTrackPanelCell.h:20

PlayableTrack::GetMute
bool GetMute() const
Definition: Track.h:776

TrackId
Definition: Track.h:170

TrackList::mUpdaters
std::vector< Updater > mUpdaters
Definition: Track.h:1614

Track::SameKindAs
bool SameKindAs(const Track &track) const
Definition: Track.h:445

TrackList::getNext
TrackNodePointer getNext(TrackNodePointer p) const
Definition: Track.h:1527

TrackIterRange::EndingAfter
TrackIterRange EndingAfter(const Track *pTrack) const
Definition: Track.h:1074

TrackTyper::Lookup
Definition: Track.h:127

Track::Pointer
static std::shared_ptr< Subclass > Pointer(const Track *t)
Definition: Track.h:244

TrackList::end
const_iterator end() const
Definition: Track.h:1203

Track::Holder
std::unique_ptr< Track > Holder
Definition: Track.h:369

XMLWriter
Base class for XMLFileWriter and XMLStringWriter that provides the general functionality for creating...
Definition: XMLWriter.h:22

TrackList::PermutationEvent
void PermutationEvent()
Definition: Track.cpp:654

Track::Pointer
static std::shared_ptr< Subclass > Pointer(Track *t)
Definition: Track.h:233

ListOfTracks
std::list< std::shared_ptr< Track > > ListOfTracks
Definition: Track.h:64

TrackIter::TrackIter
TrackIter(TrackNodePointer begin, TrackNodePointer iter, TrackNodePointer end, const Predicate &pred={})
Definition: Track.h:859

Track::Merge
virtual void Merge(const Track &orig)
Definition: Track.cpp:112

track_cast
std::enable_if< std::is_pointer< T >::value, T >::type track_cast(Track *track)
Definition: Track.h:801

TrackIter::valid
bool valid() const
Definition: Track.h:975

TrackList::Channels
static auto Channels(TrackType *pTrack) -> TrackIterRange< TrackType >
Definition: Track.h:1356

TrackIterRange::StartingWith
TrackIterRange StartingWith(const Track *pTrack) const
Definition: Track.h:1060

Track::Dispatcher::Switch
Definition: Track.h:533

Track::GetErrorOpening
virtual bool GetErrorOpening()
Definition: Track.h:716

Track::vrulerSize
wxSize vrulerSize
Definition: Track.h:284

operator!=
bool operator!=(const TrackNodePointer &a, const TrackNodePointer &b)
Definition: Track.h:72

NoteTrackConstArray
std::vector< std::shared_ptr< const NoteTrack > > NoteTrackConstArray
Definition: AudioIO.h:39

Track::mY
int mY
Definition: Track.h:204

TrackList::FindSyncLockGroup
std::pair< Track *, Track * > FindSyncLockGroup(Track *pMember) const
Definition: Track.cpp:511

Track::mDirManager
std::shared_ptr< DirManager > mDirManager
Definition: Track.h:356

Track::mpControls
std::shared_ptr< TrackControls > mpControls
Definition: Track.h:746

SelectHandle
Definition: SelectHandle.h:32

TrackList::mSelf
std::weak_ptr< TrackList > mSelf
Definition: Track.h:1558

TrackList::UpdatePendingTracks
void UpdatePendingTracks()
Definition: Track.cpp:1262

TrackListEvent::Clone
wxEvent * Clone() const override
Definition: Track.h:1134

TrackList::empty
bool empty() const
Definition: Track.cpp:1072

TrackIterRange::operator+
TrackIterRange operator+(const Predicate2 &pred2) const
Definition: Track.h:1009

BenchmarkDialog
BenchmarkDialog is used for measuring performance and accuracy of the BlockFile system.
Definition: Benchmark.cpp:46

IteratorRange< TrackIter< TrackType > >::end
TrackIter< TrackType > end() const
Definition: MemoryX.h:451

NoteTrack
A Track that is used for Midi notes. (Somewhat old code).
Definition: NoteTrack.h:66

Track::mId
TrackId mId
Definition: Track.h:198

Track::WaveTrack
friend WaveTrack
Definition: Track.h:338

TrackIter::GetPredicate
const FunctionType & GetPredicate() const
Definition: Track.h:892

Track::mName
wxString mName
Definition: Track.h:206