_track_8cpp_source.html

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


  Audacity: A Digital Audio Editor


  Track.cpp


  Dominic Mazzoni


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

#include "Track.h"


#include <algorithm>

#include <cassert>

#include <numeric>


#include <float.h>

#include <wx/file.h>

#include <wx/textfile.h>

#include <wx/log.h>


#include "BasicUI.h"

#include "Project.h"


#include "InconsistencyException.h"


#ifdef _MSC_VER

//Disable truncation warnings

#pragma warning( disable : 4786 )

#endif


Track::Track()

{

}


Track::Track(const Track& orig, ProtectedCreationArg&&)

{

}


// Copy all the track properties except the actual contents

void Track::Init(const Track &orig)

{

   mId = orig.mId;

   ChannelGroupAttachments &base = *this;

   // Intentional slice assignment deep-copies the attachment array:

   base = orig;

   CopyGroupProperties(orig);

   mLinkType = orig.mLinkType;

}


void Track::ReparentAllAttachments()

{

   this->AttachedTrackObjects::ForEach([&](auto &attachment){

      attachment.Reparent(this->SharedPointer());

   });

}


const wxString &Track::GetName() const

{

   return mName;

}


void Track::SetName( const wxString &n )

{

   auto &name = mName;

   if (name != n) {

      name = n;

      Notify(true);

   }

}


bool Track::GetSelected() const

{

   return mSelected;

}


void Track::SetSelected(bool s)

{

   auto &selected = mSelected;

   if (selected != s) {

      selected = s;

      auto pList = mList.lock();

      if (pList)

         pList->SelectionEvent(*this);

   }

}


void Track::CopyAttachments(Track &dst, const Track &src, bool deep)

{

   if (!deep) {

      // Share the satellites with the original, though they do not point

      // back to the duplicate track

      AttachedTrackObjects &attachments = dst;

      attachments = src; // shallow copy

   }

   else

      src.AttachedTrackObjects::ForEach([&](auto &attachment){

         // Copy view state that might be important to undo/redo

         attachment.CopyTo(dst);

      });

}


auto Track::Duplicate(DuplicateOptions options) const -> Holder

{

   // invoke "virtual constructor" to copy track object proper:

   auto result = Clone(options.backup);

   CopyAttachments(*result, *this, !options.shallowCopyAttachments);

   return result;

}


Track::~Track()

{

}


TrackNodePointer Track::GetNode() const

{

   return mNode;

}


void Track::SetOwner

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

{

   // BUG: When using this function to clear an owner, we may need to clear

   // focused track too.  Otherwise focus could remain on an invisible (or deleted) track.

   mList = list;

   mNode = node;

}


void Track::SetLinkType(LinkType linkType, bool completeList)

{

   DoSetLinkType(linkType, completeList);

   if (const auto pList = mList.lock()) {

      pList->RecalcPositions(mNode);

      pList->ResizingEvent(mNode);

   }

}


void Track::CopyGroupProperties(const Track &other)

{

   mName = other.mName;

   mSelected = other.mSelected;

}


void Track::DoSetLinkType(LinkType linkType, bool completeList)

{

   auto oldType = GetLinkType();

   if (linkType == oldType)

      // No change

      return;


   if (oldType == LinkType::None) {

      // Becoming linked


      // First ensure that the previous does not link to this

      if (auto partner = GetLinkedTrack())

         partner->mLinkType = LinkType::None;

      assert(!GetLinkedTrack());


      // Change my link type

      mLinkType = linkType;


      // Keep link consistency, while still in un-zipped state

      if (auto partner = GetLinkedTrack()) {

         partner->mLinkType = LinkType::None;

         partner->CopyGroupProperties(*this);

      }

   }

   else if (linkType == LinkType::None) {

      // Becoming unlinked

      if (HasLinkedTrack()) {

         if (auto partner = GetLinkedTrack()) {

            // Make independent copy of group data in the partner, which should

            // have had none

            ChannelGroupAttachments &base = *partner;

            // Intentional slice assignment deep-copies the attachment array:

            base = *this;

            partner->CopyGroupProperties(*this);

            partner->mLinkType = LinkType::None;

         }

      }

      mLinkType = LinkType::None;

   }

   else

      // Remaining linked, changing the type

      mLinkType = linkType;


   // Assertion checks only in a debug build, does not have side effects!

   assert(!completeList || LinkConsistencyCheck());

}


Track *Track::GetLinkedTrack() const

{

   auto pList = GetOwner();

   if (!pList)

      return nullptr;


   if (!pList->isNull(mNode)) {

      if (HasLinkedTrack()) {

         auto next = pList->getNext( mNode );

         if ( !pList->isNull( next ) )

            return next->get();

      }


      if (mNode != pList->ListOfTracks::begin()) {

         auto prev = pList->getPrev( mNode );

         if ( !pList->isNull( prev ) ) {

            auto track = prev->get();

            if (track && track->HasLinkedTrack())

               return track;

         }

      }

   }


   return nullptr;

}


bool Track::HasLinkedTrack() const noexcept

{

   return mLinkType != LinkType::None;

}


std::optional<TranslatableString> Track::GetErrorOpening() const

{

   return {};

}


void Track::Notify(bool allChannels, int code)

{

   auto pList = mList.lock();

   if (pList)

      pList->DataEvent(SharedPointer(), allChannels, code);

}


void Track::SyncLockAdjust(double oldT1, double newT1)

{

   const auto endTime = GetEndTime();

   if (newT1 > oldT1 && oldT1 > endTime)

         return;

   if (newT1 > oldT1) {

      auto cutChannels = Cut(oldT1, endTime);

      Paste(newT1, *cutChannels);

   }

   else if (newT1 < oldT1)

      // Remove from the track

      Clear(newT1, oldT1);

}


bool Track::Any() const

   { return true; }


bool Track::IsSelected() const

   { return GetSelected(); }


bool Track::IsLeader() const

{

    return !GetLinkedTrack() || HasLinkedTrack();

}


bool Track::LinkConsistencyFix(bool doFix)

{

   assert(!doFix || IsLeader());

   // Sanity checks for linked tracks; unsetting the linked property

   // doesn't fix the problem, but it likely leaves us with orphaned

   // sample blocks instead of much worse problems.

   bool err = false;

   if (HasLinkedTrack()) {

      if (auto link = GetLinkedTrack()) {

         // A linked track's partner should never itself be linked

         if (link->HasLinkedTrack()) {

            err = true;

            if (doFix) {

               wxLogWarning(

                  L"Left track %s had linked right track %s with extra right "

                   "track link.\n   Removing extra link from right track.",

                  GetName(), link->GetName());

               link->SetLinkType(LinkType::None);

            }

         }

      }

      else {

         err = true;

         if (doFix) {

            wxLogWarning(

               L"Track %s had link to NULL track. Setting it to not be linked.",

               GetName());

            SetLinkType(LinkType::None);

         }

      }

   }

   return ! err;

}


// TrackList

//

// The TrackList sends events whenever certain updates occur to the list it

// is managing.  Any other classes that may be interested in get these updates

// should use TrackList::Subscribe().

//


// same value as in the default constructed TrackId:

long TrackList::sCounter = -1;


static const AudacityProject::AttachedObjects::RegisteredFactory key{

   [](AudacityProject &project) { return TrackList::Create( &project ); }

};


TrackList &TrackList::Get( AudacityProject &project )

{

   return project.AttachedObjects::Get< TrackList >( key );

}


const TrackList &TrackList::Get( const AudacityProject &project )

{

   return Get( const_cast< AudacityProject & >( project ) );

}


TrackList::TrackList( AudacityProject *pOwner )

   : mOwner{ pOwner }

{

}


// Factory function

TrackListHolder TrackList::Create(AudacityProject *pOwner)

{

   return std::make_shared<TrackList>(pOwner);

}


#if 0

TrackList &TrackList::operator= (TrackList &&that)

{

   if (this != &that) {

      this->Clear();

      Swap(that);

   }

   return *this;

}

#endif


void TrackList::Swap(TrackList &that)

{

   auto SwapLOTs = [](

      ListOfTracks &a, const std::weak_ptr< TrackList > &aSelf,

      ListOfTracks &b, const std::weak_ptr< TrackList > &bSelf )

   {

      a.swap(b);

      for (auto it = a.begin(), last = a.end(); it != last; ++it)

         (*it)->SetOwner(aSelf, it);

      for (auto it = b.begin(), last = b.end(); it != last; ++it)

         (*it)->SetOwner(bSelf, it);

   };


   const auto self = shared_from_this();

   const auto otherSelf = that.shared_from_this();

   SwapLOTs( *this, self, that, otherSelf );

}


TrackList::~TrackList()

{

   Clear(false);

}


wxString TrackList::MakeUniqueTrackName(const wxString& baseTrackName) const

{

   int n = 1;

   while(true) {

      auto name = wxString::Format("%s %d", baseTrackName, n++);


      bool found {false};

      for(const auto track : Tracks<const Track>()) {

         if(track->GetName() == name) {

            found = true;

            break;

         }

      }

      if(!found)

         return name;

   }

}


void TrackList::RecalcPositions(TrackNodePointer node)

{

   if (isNull(node))

      return;


   Track *t;


   auto prev = getPrev(node);

   if (!isNull(prev))

      t = prev->get();


   const auto theEnd = End();

   for (auto n = DoFind(node->get()); n != theEnd; ++n)

      t = *n;

}


void TrackList::QueueEvent(TrackListEvent event)

{

   BasicUI::CallAfter( [wThis = weak_from_this(), event = std::move(event)]{

      if (auto pThis = wThis.lock())

         pThis->Publish(event);

   } );

}


void TrackList::SelectionEvent(Track &track)

{

   for (auto channel : Channels(&track))

      QueueEvent({

         TrackListEvent::SELECTION_CHANGE, channel->shared_from_this() });

}


void TrackList::DataEvent(

   const std::shared_ptr<Track> &pTrack, bool allChannels, int code)

{

   auto doQueueEvent = [this, code](const std::shared_ptr<Track> &theTrack){

      QueueEvent({ TrackListEvent::TRACK_DATA_CHANGE, theTrack, code });

   };

   if (allChannels)

      for (auto channel : Channels(pTrack.get()))

         doQueueEvent(channel->shared_from_this());

   else

      doQueueEvent(pTrack);

}


void TrackList::PermutationEvent(TrackNodePointer node)

{

   QueueEvent({ TrackListEvent::PERMUTED, *node });

}


void TrackList::DeletionEvent(std::weak_ptr<Track> node, bool duringReplace)

{

   QueueEvent(

      { TrackListEvent::DELETION, std::move(node), duringReplace ? 1 : 0 });

}


void TrackList::AdditionEvent(TrackNodePointer node)

{

   QueueEvent({ TrackListEvent::ADDITION, *node });

}


void TrackList::ResizingEvent(TrackNodePointer node)

{

   QueueEvent({ TrackListEvent::RESIZING, *node });

}


auto TrackList::EmptyRange() const

   -> TrackIterRange< Track >

{

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

   return {

      { it, it, it, &Track::Any },

      { it, it, it, &Track::Any }

   };

}


auto TrackList::DoFind(Track *pTrack) -> TrackIter<Track>

{

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

      return EndIterator<Track>();

   else

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

}


auto TrackList::Find(Track *pTrack) -> TrackIter<Track>

{

   auto iter = DoFind(pTrack);

   while( *iter && ! ( *iter )->IsLeader() )

      --iter;

   return iter.Filter( &Track::IsLeader );

}


void TrackList::Insert(const Track* before,

   const Track::Holder &pSrc, bool assignIds)

{

   assert(before == nullptr || Find(before) != EndIterator<const Track>());


   if(before == nullptr)

   {

      Add(pSrc, assignIds);

      return;

   }


   std::vector<Track *> arr;

   arr.reserve(Size() + 1);

   for (const auto track : *this) {

      if (track == before)

         arr.push_back(pSrc.get());

      arr.push_back(track);

   }

   Add(pSrc, assignIds);

   Permute(arr);

}


void TrackList::Permute(const std::vector<Track *> &tracks)

{

   std::vector<TrackNodePointer> permutation;

   for (const auto pTrack : tracks)

      for (const auto pChannel : Channels(pTrack))

         permutation.push_back(pChannel->GetNode());

   for (const auto iter : permutation) {

      ListOfTracks::value_type track = *iter;

      erase(iter);

      Track *pTrack = track.get();

      pTrack->SetOwner(shared_from_this(), insert(ListOfTracks::end(), track));

   }

   auto n = getBegin();

   RecalcPositions(n);

   PermutationEvent(n);

}


Track *TrackList::FindById( TrackId id )

{

   // Linear search.  Tracks in a project are usually very few.

   // Search only the non-pending tracks.

   auto it = std::find_if( ListOfTracks::begin(), ListOfTracks::end(),

      [=](const ListOfTracks::value_type &ptr){ return ptr->GetId() == id; } );

   if (it == ListOfTracks::end())

      return {};

   return it->get();

}


Track *TrackList::DoAddToHead(const std::shared_ptr<Track> &t)

{

   Track *pTrack = t.get();

   push_front(ListOfTracks::value_type(t));

   auto n = getBegin();

   pTrack->SetOwner(shared_from_this(), n);

   pTrack->SetId( TrackId{ ++sCounter } );

   RecalcPositions(n);

   AdditionEvent(n);

   return front().get();

}


Track *TrackList::DoAdd(const std::shared_ptr<Track> &t, bool assignIds)

{

   if (!ListOfTracks::empty()) {

      auto &pLast = *ListOfTracks::rbegin();

      if (pLast->mLinkType != Track::LinkType::None)

         t->CopyGroupProperties(*pLast);

   }


   push_back(t);


   auto n = getPrev( getEnd() );


   t->SetOwner(shared_from_this(), n);

   if (mAssignsIds && assignIds)

      t->SetId(TrackId{ ++sCounter });

   RecalcPositions(n);

   AdditionEvent(n);

   return back().get();

}


Track::Holder TrackList::ReplaceOne(Track &t, TrackList &&with)

{

   assert(t.GetOwner().get() == this);

   assert(!with.empty());


   auto save = t.shared_from_this();


   auto node = t.GetNode();

   t.SetOwner({}, {});


   const auto iter = with.ListOfTracks::begin();

   const auto pTrack = *iter;

   *node = pTrack;

   with.erase(iter);

   pTrack->SetOwner(shared_from_this(), node);

   pTrack->SetId(save->GetId());

   RecalcPositions(node);

   DeletionEvent(save, true);

   AdditionEvent(node);

   return save;

}


std::shared_ptr<Track> TrackList::Remove(Track &track)

{

   auto *t = &track;

   auto iter = getEnd();

   auto node = t->GetNode();

   t->SetOwner({}, {});


   std::shared_ptr<Track> holder;

   if (!isNull(node)) {

      holder = *node;


      iter = getNext(node);

      erase(node);

      if (!isNull(iter))

         RecalcPositions(iter);


      DeletionEvent(t->shared_from_this(), false);

   }

   return holder;

}


void TrackList::Clear(bool sendEvent)

{

   // Null out the back-pointers to this in tracks, in case there

   // are outstanding shared_ptrs to those tracks, making them outlive

   // the temporary ListOfTracks below.

   for (auto pTrack: Tracks<Track>()) {

      pTrack->SetOwner({}, {});


      if (sendEvent)

         DeletionEvent(pTrack->shared_from_this(), false);

   }


   ListOfTracks tempList;

   tempList.swap( *this );

}


Track *TrackList::GetNext(Track &t, bool linked) const

{

   auto node = t.GetNode();

   if (!isNull(node)) {

      if (linked && t.HasLinkedTrack())

         node = getNext(node);


      if (!isNull(node))

         node = getNext(node);


      if (!isNull(node))

         return node->get();

   }

   return nullptr;

}


Track *TrackList::GetPrev(Track &t, bool linked) const

{

   TrackNodePointer prev;

   auto node = t.GetNode();

   if (!isNull(node)) {

      // linked is true and input track second in team?

      if (linked) {

         prev = getPrev(node);

         if (!isNull(prev) &&

             !t.HasLinkedTrack() && t.GetLinkedTrack())

            // Make it the first

            node = prev;

      }


      prev = getPrev(node);

      if (!isNull(prev)) {

         // Back up once

         node = prev;


         // Back up twice sometimes when linked is true

         if (linked) {

            prev = getPrev(node);

            if( !isNull(prev) &&

                !(*node)->HasLinkedTrack() &&

               (*node)->GetLinkedTrack())

               node = prev;

         }


         return node->get();

      }

   }

   return nullptr;

}


bool TrackList::CanMoveUp(Track &t) const

{

   return GetPrev(t, true) != nullptr;

}


bool TrackList::CanMoveDown(Track &t) const

{

   return GetNext(t, true) != nullptr;

}


// This is used when you want to swap the track at s1 with the track at s2.

// The complication is that the tracks are stored in a single

// linked list.

void TrackList::SwapNodes(TrackNodePointer s1, TrackNodePointer s2)

{

   // if a null pointer is passed in, we want to know about it

   wxASSERT(!isNull(s1));

   wxASSERT(!isNull(s2));


   // Safety check...

   if (s1 == s2)

      return;


   // Be sure s1 is the earlier iterator

   {

      const auto begin = ListOfTracks::begin();

      auto d1 = std::distance(begin, s1);

      auto d2 = std::distance(begin, s2);

      if (d1 > d2)

         std::swap(s1, s2);

   }


   // For saving the removed tracks

   using Saved = ListOfTracks::value_type;

   Saved saved1, saved2;


   auto doSave = [&](Saved &saved, TrackNodePointer &s) {

      saved = *s, s = erase(s);

   };


   doSave(saved1, s1);

   // The two ranges are assumed to be disjoint but might abut

   const bool same = (s1 == s2);

   doSave(saved2, s2);

   if (same)

      // Careful, we invalidated s1 in the second doSave!

      s1 = s2;


   // Reinsert them

   auto doInsert = [&](Saved &saved, TrackNodePointer &s) {

      const auto pTrack = saved.get();

      // Insert before s, and reassign s to point at the new node before

      // old s; which is why we saved pointers in backwards order

      pTrack->SetOwner(shared_from_this(), s = insert(s, saved) );

   };

   // This does not invalidate s2 even when it equals s1:

   doInsert(saved2, s1);

   // Even if s2 was same as s1, this correctly inserts the saved1 range

   // after the saved2 range, when done after:

   doInsert(saved1, s2);


   // Now correct the Index in the tracks, and other things

   RecalcPositions(s1);

   PermutationEvent(s1);

}


bool TrackList::MoveUp(Track &t)

{

   Track *p = GetPrev(t, true);

   if (p) {

      SwapNodes(p->GetNode(), t.GetNode());

      return true;

   }

   return false;

}


bool TrackList::MoveDown(Track &t)

{

   Track *n = GetNext(t, true);

   if (n) {

      SwapNodes(t.GetNode(), n->GetNode());

      return true;

   }

   return false;

}


bool TrackList::empty() const

{

   return Begin() == End();

}


namespace {

   // Abstract the common pattern of the following two member functions

   inline double Accumulate(const TrackList &list,

      double (Track::*memfn)() const, double ident,

      const double &(*combine)(const double&, const double&))

   {

      // Default the answer to zero for empty list

      if (list.empty())

         return 0.0;


      // Otherwise accumulate minimum or maximum of track values

      return list.Any().accumulate(ident, combine, memfn);

   }

}


double TrackList::GetStartTime() const

{

   return Accumulate(*this, &Track::GetStartTime,

      std::numeric_limits<double>::max(), std::min);

}


double TrackList::GetEndTime() const

{

   return Accumulate(*this, &Track::GetEndTime,

      std::numeric_limits<double>::lowest(), std::max);

}


auto Track::ClassTypeInfo() -> const TypeInfo &

{

   static Track::TypeInfo info{

      { "generic", "generic", XO("Generic Track") }, false };

   return info;

}


bool Track::SupportsBasicEditing() const

{

   return true;

}


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

void Track::WriteCommonXMLAttributes(

   XMLWriter &xmlFile, bool includeNameAndSelected) const

{

   if (includeNameAndSelected) {

      // May write name and selectedness redundantly for right channels,

      // but continue doing that in case the file is opened in Audacity 3.1.x

      // which does not have unique ChannelGroupData for the track

      xmlFile.WriteAttr(wxT("name"), GetName());

      xmlFile.WriteAttr(wxT("isSelected"), this->GetSelected());

   }

   AttachedTrackObjects::ForEach([&](auto &attachment){

      attachment.WriteXMLAttributes( xmlFile );

   });

}


// Return true iff the attribute is recognized.

bool Track::HandleCommonXMLAttribute(

   const std::string_view& attr, const XMLAttributeValueView& valueView)

{

   long nValue = -1;


   bool handled = false;

   AttachedTrackObjects::ForEach([&](auto &attachment){

      handled = handled || attachment.HandleXMLAttribute( attr, valueView );

   });

   if (handled)

      ;

   // Note that the per-group properties of name and selectedness may have

   // been written redundantly for each channel, and values for the last

   // channel will be the last ones assigned

   else if (attr == "name") {

      SetName(valueView.ToWString());

      return true;

   }

   else if (attr == "isSelected" && valueView.TryGet(nValue)) {

      this->SetSelected(nValue != 0);

      return true;

   }

   return false;

}


void Track::AdjustPositions()

{

   auto pList = mList.lock();

   if (pList) {

      pList->RecalcPositions(mNode);

      pList->ResizingEvent(mNode);

   }

}


Track::LinkType Track::GetLinkType() const noexcept

{

   return mLinkType;

}


TrackListHolder TrackList::Temporary(AudacityProject *pProject,

   const Track::Holder &pTrack)

{

    assert(pTrack == nullptr || pTrack->GetOwner() == nullptr);

   // Make a well formed channel group from these tracks

   auto tempList = Create(pProject);

   if (pTrack)

      tempList->Add(pTrack);

   tempList->mAssignsIds = false;

   return tempList;

}


void TrackList::AssignUniqueId(const Track::Holder &track)

{

   track->SetId(TrackId{ ++sCounter });

}


void TrackList::Append(TrackList &&list, bool assignIds)

{

   auto iter = list.ListOfTracks::begin(),

      end = list.ListOfTracks::end();

   while (iter != end) {

      auto pTrack = *iter;

      iter = list.erase(iter);

      this->Add(pTrack, assignIds);

   }

}


void TrackList::AppendOne(TrackList &&list)

{

   const auto iter = list.ListOfTracks::begin(),

      end = list.ListOfTracks::end();

   if (iter != end) {

      auto pTrack = *iter;

      list.erase(iter);

      this->Add(pTrack);

   }

}


Track::Holder TrackList::DetachFirst()

{

   auto iter = ListOfTracks::begin();

   auto result = *iter;

   erase(iter);

   result->SetOwner({}, {});

   return result;

}

wxT
wxT("CloseDown"))

BasicUI.h
Toolkit-neutral facade for basic user interface services.

min
int min(int a, int b)
Definition: CompareAudioCommand.cpp:114

XO
XO("Cut/Copy/Paste")

InconsistencyException.h
MessageBoxException for violation of preconditions or assertions.

ident
static CommandHandlerObject & ident(AudacityProject &project)
Definition: ModNullCallback.cpp:65

Project.h

name
wxString name
Definition: TagsEditor.cpp:166

tracks
const auto tracks
Definition: TestWaveTrackMaker.cpp:19

project
const auto project
Definition: TestWaveTrackMaker.cpp:18

key
static const AudacityProject::AttachedObjects::RegisteredFactory key
Definition: Track.cpp:310

Track.h
declares abstract base class Track, TrackList, and iterators over TrackList

TrackNodePointer
ListOfTracks::iterator TrackNodePointer
Definition: Track.h:46

ListOfTracks
std::list< std::shared_ptr< Track > > ListOfTracks
Definition: Track.h:44

TrackListHolder
std::shared_ptr< TrackList > TrackListHolder
Definition: Track.h:42

AudacityProject
The top-level handle to an Audacity project. It serves as a source of events that other objects can b...
Definition: Project.h:90

ChannelGroup::GetEndTime
double GetEndTime() const
Get the maximum of End() values of intervals, or 0 when none.
Definition: Channel.cpp:61

ChannelGroup::GetStartTime
double GetStartTime() const
Get the minimum of Start() values of intervals, or 0 when none.
Definition: Channel.cpp:50

ChannelGroup::LinkType
LinkType
For two tracks describes the type of the linkage.
Definition: Channel.h:515

ChannelGroup::LinkType::None
@ None
No linkage.

ClientData::Site::RegisteredFactory
Client code makes static instance from a factory of attachments; passes it to Get or Find as a retrie...
Definition: ClientData.h:275

ClientData::Site
Utility to register hooks into a host class that attach client data.
Definition: ClientData.h:229

ClientData::Site::ForEach
void ForEach(const Function &function)
Invoke function on each ClientData object that has been created in this.
Definition: ClientData.h:389

Track
Abstract base class for an object holding data associated with points on a time axis.
Definition: Track.h:110

Track::GetSelected
bool GetSelected() const
Selectedness is always the same for all channels of a group.
Definition: Track.cpp:78

Track::Paste
virtual void Paste(double t, const Track &src)=0
Weak precondition allows overrides to replicate one channel into many.

Track::Track
Track()
Definition: Track.cpp:38

Track::SetSelected
virtual void SetSelected(bool s)
Definition: Track.cpp:83

Track::IsSelected
bool IsSelected() const
Definition: Track.cpp:258

Track::Notify
void Notify(bool allChannels, int code=-1)
Definition: Track.cpp:234

Track::~Track
virtual ~Track()
Definition: Track.cpp:117

Track::SupportsBasicEditing
virtual bool SupportsBasicEditing() const
Whether this track type implements cut-copy-paste; by default, true.
Definition: Track.cpp:797

Track::ClassTypeInfo
static const TypeInfo & ClassTypeInfo()
Definition: Track.cpp:790

Track::mLinkType
LinkType mLinkType
Definition: Track.h:439

Track::SyncLockAdjust
virtual void SyncLockAdjust(double oldT1, double newT1)
Definition: Track.cpp:241

Track::GetNode
TrackNodePointer GetNode() const
Retrieve mNode with debug checks.
Definition: Track.cpp:122

Track::GetOwner
std::shared_ptr< TrackList > GetOwner() const
Definition: Track.h:230

Track::mSelected
bool mSelected
Definition: Track.h:440

Track::CopyAttachments
static void CopyAttachments(Track &dst, const Track &src, bool deep)
Copy (deep) or just share (!deep) AttachedTrackObjects.
Definition: Track.cpp:94

Track::LinkConsistencyFix
virtual bool LinkConsistencyFix(bool doFix=true)
Check consistency of channel groups, and maybe fix it.
Definition: Track.cpp:266

Track::SetLinkType
void SetLinkType(LinkType linkType, bool completeList=true)
Definition: Track.cpp:136

Track::SharedPointer
std::shared_ptr< Subclass > SharedPointer()
Definition: Track.h:146

Track::HasLinkedTrack
bool HasLinkedTrack() const noexcept
During file loading only, true for leaders of multichannel groups.
Definition: Track.cpp:224

Track::CopyGroupProperties
void CopyGroupProperties(const Track &other)
Definition: Track.cpp:145

Track::Clear
virtual void Clear(double t0, double t1)=0

Track::Holder
std::shared_ptr< Track > Holder
Definition: Track.h:202

Track::mName
wxString mName
Definition: Track.h:437

Track::SetOwner
void SetOwner(const std::weak_ptr< TrackList > &list, TrackNodePointer node)
Update mNode when Track is added to TrackList, or removed from it.
Definition: Track.cpp:128

Track::SetId
void SetId(TrackId id)
Definition: Track.h:138

Track::ReparentAllAttachments
void ReparentAllAttachments()
Definition: Track.cpp:57

Track::HandleCommonXMLAttribute
bool HandleCommonXMLAttribute(const std::string_view &attr, const XMLAttributeValueView &valueView)
Definition: Track.cpp:819

Track::GetName
const wxString & GetName() const
Name is always the same for all channels of a group.
Definition: Track.cpp:64

Track::Init
void Init(const Track &orig)
Definition: Track.cpp:47

Track::Duplicate
virtual Holder Duplicate(DuplicateOptions={}) const
public nonvirtual duplication function that invokes Clone()
Definition: Track.cpp:109

Track::WriteCommonXMLAttributes
void WriteCommonXMLAttributes(XMLWriter &xmlFile, bool includeNameAndSelected=true) const
Definition: Track.cpp:803

Track::AdjustPositions
void AdjustPositions()
Definition: Track.cpp:844

Track::mList
std::weak_ptr< TrackList > mList
Definition: Track.h:127

Track::mNode
TrackNodePointer mNode
Holds iterator to self, so that TrackList::Find can be constant-time.
Definition: Track.h:129

Track::IsLeader
bool IsLeader() const
Definition: Track.cpp:261

Track::GetLinkedTrack
Track * GetLinkedTrack() const
Definition: Track.cpp:198

Track::GetLinkType
LinkType GetLinkType() const noexcept
Definition: Track.cpp:853

Track::GetErrorOpening
virtual std::optional< TranslatableString > GetErrorOpening() const
Definition: Track.cpp:229

Track::DoSetLinkType
void DoSetLinkType(LinkType linkType, bool completeList=true)
Definition: Track.cpp:151

Track::LinkConsistencyCheck
bool LinkConsistencyCheck()
Do the non-mutating part of consistency fix only and return status.
Definition: Track.h:225

Track::Cut
virtual Holder Cut(double t0, double t1)=0
Create tracks and modify this track.

Track::Any
bool Any() const
Definition: Track.cpp:255

Track::SetName
void SetName(const wxString &n)
Definition: Track.cpp:69

Track::mId
TrackId mId
Identifies the track only in-session, not persistently.
Definition: Track.h:124

TrackId
An in-session identifier of track objects across undo states. It does not persist between sessions.
Definition: Track.h:79

TrackIter
Iterator over only members of a TrackList of the specified subtype, optionally filtered by a predicat...
Definition: Track.h:521

TrackList
A flat linked list of tracks supporting Add, Remove, Clear, and Contains, serialization of the list o...
Definition: Track.h:850

TrackList::PermutationEvent
void PermutationEvent(TrackNodePointer node)
Definition: Track.cpp:431

TrackList::CanMoveUp
bool CanMoveUp(Track &t) const
Definition: Track.cpp:672

TrackList::DoAdd
Track * DoAdd(const std::shared_ptr< Track > &t, bool assignIds)
Definition: Track.cpp:540

TrackList::empty
bool empty() const
Definition: Track.cpp:758

TrackList::Create
static TrackListHolder Create(AudacityProject *pOwner)
Definition: Track.cpp:330

TrackList::Insert
void Insert(const Track *before, const Track::Holder &pSrc, bool assignIds=false)
Moves *pSrc to position where before is located. If before is nullptr the track is appended.
Definition: Track.cpp:478

TrackList::AppendOne
void AppendOne(TrackList &&list)
Remove first track (if any) from list and put it at the end of this
Definition: Track.cpp:886

TrackList::sCounter
static long sCounter
Definition: Track.h:1220

TrackList::GetNext
Track * GetNext(Track &, bool linked=false) const
Return a track in the list that comes after Track t.
Definition: Track.cpp:622

TrackList::Permute
void Permute(const std::vector< Track * > &tracks)
Definition: Track.cpp:500

TrackList::AssignUniqueId
static void AssignUniqueId(const Track::Holder &track)
Assigns a new unique non-persistent id to a track.
Definition: Track.cpp:870

TrackList::GetEndTime
double GetEndTime() const
Return the greatest end time of the tracks, or 0 when no tracks.
Definition: Track.cpp:784

TrackList::ResizingEvent
void ResizingEvent(TrackNodePointer node)
Definition: Track.cpp:447

TrackList::getBegin
TrackNodePointer getBegin() const
Definition: Track.h:1180

TrackList::end
iterator end()
Definition: Track.h:906

TrackList::Find
TrackIter< Track > Find(Track *pTrack)
Definition: Track.cpp:470

TrackList::MakeUniqueTrackName
wxString MakeUniqueTrackName(const wxString &baseTrackName) const
Returns string that contains baseTrackName, but is guaranteed to be unique among other tracks in that...
Definition: Track.cpp:369

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

TrackList::GetStartTime
double GetStartTime() const
Return the least start time of the tracks, or 0 when no tracks.
Definition: Track.cpp:778

TrackList::Append
void Append(TrackList &&list, bool assignIds=true)
Remove all tracks from list and put them at the end of this
Definition: Track.cpp:875

TrackList::Size
size_t Size() const
Definition: Track.h:1091

TrackList::isNull
bool isNull(TrackNodePointer p) const
Definition: Track.h:1177

TrackList::CanMoveDown
bool CanMoveDown(Track &t) const
Definition: Track.cpp:677

TrackList::getNext
TrackNodePointer getNext(TrackNodePointer p) const
Move an iterator to the next node, if any; else stay at end.
Definition: Track.h:1184

TrackList::Swap
void Swap(TrackList &that)
Definition: Track.cpp:346

TrackList::AdditionEvent
void AdditionEvent(TrackNodePointer node)
Definition: Track.cpp:442

TrackList::RecalcPositions
void RecalcPositions(TrackNodePointer node)
Definition: Track.cpp:387

TrackList::Any
auto Any() -> TrackIterRange< TrackType >
Definition: Track.h:950

TrackList::MoveUp
bool MoveUp(Track &t)
Definition: Track.cpp:738

TrackList::SelectionEvent
void SelectionEvent(Track &track)
Definition: Track.cpp:411

TrackList::getEnd
TrackNodePointer getEnd() const
Definition: Track.h:1178

TrackList::DetachFirst
Track::Holder DetachFirst()
Remove and return the first track.
Definition: Track.cpp:897

TrackList::EmptyRange
TrackIterRange< Track > EmptyRange() const
Definition: Track.cpp:452

TrackList::ReplaceOne
Track::Holder ReplaceOne(Track &t, TrackList &&with)
Definition: Track.cpp:560

TrackList::Get
static TrackList & Get(AudacityProject &project)
Definition: Track.cpp:314

TrackList::begin
iterator begin()
Definition: Track.h:905

TrackList::DoAddToHead
Track * DoAddToHead(const std::shared_ptr< Track > &t)
Definition: Track.cpp:528

TrackList::Remove
Track::Holder Remove(Track &track)
Remove a track and return it.
Definition: Track.cpp:584

TrackList::FindById
Track * FindById(TrackId id)
Definition: Track.cpp:517

TrackList::DoFind
TrackIter< Track > DoFind(Track *pTrack)
Definition: Track.cpp:462

TrackList::DataEvent
void DataEvent(const std::shared_ptr< Track > &pTrack, bool allChannels, int code)
Definition: Track.cpp:418

TrackList::Begin
iterator Begin()
This private function still iterates channels not tracks.
Definition: Track.h:939

TrackList::End
iterator End()
This private function still iterates channels not tracks.
Definition: Track.h:941

TrackList::QueueEvent
void QueueEvent(TrackListEvent event)
Definition: Track.cpp:403

TrackList::SwapNodes
void SwapNodes(TrackNodePointer s1, TrackNodePointer s2)
Definition: Track.cpp:685

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

TrackList::Add
TrackKind * Add(const std::shared_ptr< TrackKind > &t, bool assignIds=true)
Definition: Track.h:1048

TrackList::MoveDown
bool MoveDown(Track &t)
Definition: Track.cpp:748

TrackList::~TrackList
virtual ~TrackList()
Definition: Track.cpp:364

TrackList::Clear
void Clear(bool sendEvent=true)
Make the list empty.
Definition: Track.cpp:605

TrackList::DeletionEvent
void DeletionEvent(std::weak_ptr< Track > node, bool duringReplace)
Definition: Track.cpp:436

TrackList::mAssignsIds
bool mAssignsIds
Definition: Track.h:1226

TrackList::getPrev
TrackNodePointer getPrev(TrackNodePointer p) const
Move an iterator to the previous node, if any; else wrap to end.
Definition: Track.h:1194

TrackList::Temporary
static TrackListHolder Temporary(AudacityProject *pProject, const Track::Holder &pTrack={})
Definition: Track.cpp:858

TrackList::Channels
static auto Channels(TrackType *pTrack) -> TrackIterRange< TrackType >
Definition: Track.h:1016

TrackList::GetPrev
Track * GetPrev(Track &, bool linked=false) const
Definition: Track.cpp:638

XMLAttributeValueView
A view into an attribute value. The class does not take the ownership of the data.
Definition: XMLAttributeValueView.h:44

XMLAttributeValueView::ToWString
wxString ToWString() const
Convert the view value to wxString.
Definition: XMLAttributeValueView.cpp:266

XMLAttributeValueView::TryGet
bool TryGet(bool &value) const noexcept
Try to get a boolean value from the view.
Definition: XMLAttributeValueView.cpp:125

XMLWriter
Base class for XMLFileWriter and XMLStringWriter that provides the general functionality for creating...
Definition: XMLWriter.h:25

XMLWriter::WriteAttr
void WriteAttr(const wxString &name, const Identifier &value)
Definition: XMLWriter.h:36

BasicUI::CallAfter
void CallAfter(Action action)
Schedule an action to be done later, and in the main thread.
Definition: BasicUI.cpp:214

anonymous_namespace{NoteTrack.cpp}::swap
void swap(std::unique_ptr< Alg_seq > &a, std::unique_ptr< Alg_seq > &b)
Definition: NoteTrack.cpp:634

anonymous_namespace{Track.cpp}::Accumulate
double Accumulate(const TrackList &list, double(Track::*memfn)() const, double ident, const double &(*combine)(const double &, const double &))
Definition: Track.cpp:765

details::end
const char * end(const char *str) noexcept
Definition: StringUtils.h:106

details::begin
const char * begin(const char *str) noexcept
Definition: StringUtils.h:101

Track::DuplicateOptions
Choices when duplicating a track.
Definition: Track.h:271

Track::ProtectedCreationArg
Empty argument passed to some public constructors.
Definition: Track.h:117

Track::TypeInfo
Definition: Track.h:180

TrackIterRange
Range between two TrackIters, usable in range-for statements, and with Visit member functions.
Definition: Track.h:682

TrackListEvent
Notification of changes in individual tracks of TrackList, or of TrackList's composition.
Definition: Track.h:803

TrackListEvent::RESIZING
@ RESIZING
Posted when some track changed its height.
Definition: Track.h:816

TrackListEvent::SELECTION_CHANGE
@ SELECTION_CHANGE
Posted when the set of selected tracks changes.
Definition: Track.h:806

TrackListEvent::DELETION
@ DELETION
Posted when a track has been deleted from a tracklist. Also posted when one track replaces another.
Definition: Track.h:825

TrackListEvent::ADDITION
@ ADDITION
Posted when a track has been added to a tracklist. Also posted when one track replaces another.
Definition: Track.h:819

TrackListEvent::PERMUTED
@ PERMUTED
Posted when tracks are reordered but otherwise unchanged.
Definition: Track.h:813

TrackListEvent::TRACK_DATA_CHANGE
@ TRACK_DATA_CHANGE
Posted when certain fields of a track change.
Definition: Track.h:809