Enum Class Reference

Inherits from	`BasicType`
Declared in	`flip/Enum.h`

template <class T> class Enum;

flip::Enum is a type that represents an enumeration. The enumeration must start from the value 0.

Because every enumeration receive a textual name, it is has the main advantage, over a flip::Int, to make a markup language representation more easy to understand, as the textual name will be used instead of just a number.

See EnumClass to see how to declare an enumeration. In particular, the enumeration itself must be declared before an Enum member can be declared in the model.

Template Parameters

`T`	The enumeration type. `T` must be an `enum` or `enum class`

Member Types

value_type

T

Member Functions Synopsys

Constructor	Constructs the `Enum`
Destructor	Destructs the `Enum`
`operator =`	Assigns value

Document Management

`document`	Returns the document to which the object is attached to
`ref`	Returns the unique reference number of the object
`added`	Returns `true` iff the object was just attached to the document tree
`removed`	Returns `true` iff the object was just detached from the document tree
`resident`	Returns `true` iff the object was neither attached nor detached from the document tree
`changed`	Returns `true` iff the object or one of its children was modified
`ancestor`	Returns a reference to a parent in the current parent chain of the object
`disable_in_undo`	Disables the record state modification in history
`inherit_in_undo`	Inherits the record state modification in history
`is_in_undo_enabled`	Returns `true` iff this object modifications are recorded in history
`revert`	Reverts all the changes made to the object and its children if any
`assign`	Replaces the content of the object with the content of the provided object

Value Access

`operator T`	Returns the current value of the object
`before`	Returns the previous value of the object

Comparaison

`operator ==`	Returns `true` iff objects current values are equal
`operator !=`	Returns `true` iff objects current values are different

Member Functions

Constructor

Enum ();                      (1)
Enum (const Enum & other);    (2)
Enum (T value);               (3)

Default constructor, constructs with a 0 value.
Copy constructor. Constructs the object with the value of other.
Constructor. Constructs the object with value.

WARNING: Variant 3 of the constructor cannot be called from the default constructor of a flip object.

Destructor

~Enum ();

Destructor.

`operator =`

Enum & operator = (const Enum & other);   (1)
Enum & operator = (T value);              (2)

Copy assignment operator.
Assignment operator. Assigns the object with value.

`document`

DocumentBase & document () const;

Returns the document to which the object is attached to.

WARNING: Temporary flip objects are not attached to a document

`ref`

const Ref & ref () const;

Returns the unique reference number of the object.

`added`

bool  added () const;

Returns true iff the object was just attached to the document tree.

Example :

void  Observer::document_changed (Note & note)
{
   if (note.added ())
   {
      // A note was added to the document. Create the corresponding
      // view element
      note.entity ().emplace <NoteView> ();
   }
   [...]
}

`removed`

bool  removed () const;

Returns true iff the object was just detached from the document tree.

Example :

void  Observer::document_changed (Note & note)
{
   [...]
   if (note.removed ())
   {
      // A note was removed from the document. Release the corresponding
      // view element
      note.entity ().erase <NoteView> ();
   }
}

`resident`

bool  resident () const;

Returns true iff the object was neither attached nor detached from the document tree.

An object can be resident but moved. In this case the iterator pointing to it will allow to detect the move.

Example :

void  Observer::document_changed (Array <Track> & tracks)
{
   auto it = tracks.begin ();
   auto it_end = tracks.end ();
   for (; it != it_end ; ++it)
   {
      Track & track = *it;
      if (it.added () && track.resident ())
      {
         // the track was moved in the container
         // this is the destination position
      }
      if (it.added () && track.resident ())
      {
         // the track was moved in the container
         // this is the source position
      }
   }
}

`changed`

bool  changed () const;

Returns true iff the object or one of its children was modified.

Example :

void  Observer::document_changed (Note & note)
{
   auto & view = note.entity ().use <ViewNote> ();
   if (note.changed ())
   {
      // one or more properties of the note changed
      if (note.position.changed ())
      {
         view.set_position (note.position);
      }
      if (note.duration.changed ())
      {
         view.set_duration (note.duration);
      }
   }
}

`ancestor`

template <class T>   T &   ancestor ();
template <class T>   const T &   ancestor () const;

Returns a reference to a parent in the current parent chain of the object.

Note: If an object or its parent is moved from one container to another, this function will always return the current parent, that is not the previous one

`disable_in_undo`

void   disable_in_undo ();

Disables the record state modification in history of the object and its subtree if any.

Example :

void  add_user (Root & root)
{
   // emplace a new User of the document to store
   // user specific data. User is constructed with
   // the unique user id number given at document
   // creation
   User & user = root.users.emplace <User> (root.document ().user ());
   // we don't want the scroll position in the document
   // to be part of undo
   user.scroll_position.disable_in_undo ();
}

`inherit_in_undo`

void   inherit_in_undo ();

Inherits the record state modification in history of the object and its subtree if any, from its parent state. This is the default mode.

Note: If the Root object of the tree is in inherited mode, then it is considered as enabled in undo.

`is_in_undo_enabled`

bool  is_in_undo_enabled () const;

Returns true iff this object modifications are recorded in history. The function recursively search for disabled state starting from the object itself and navigating through the parent objects, if the state is inherited.

`revert`

void  revert () const;

Reverts all the changes make to the object and its children if any.

Example :

// initially, note.position == 1
note.position = 2;
note.revert ();
// now, note.position == 1

`assign`

void  assign (const Type & rhs);

Replaces the content of the object with the content of the provided object. Both objects need to be bound to a document for the function to succeed.

Example :

// initially :
// note.position == 1
// note.duration == 3
// note2.position == 2
// note2.duration == 1
note.assign (note2);
// now :
// note.position == 2
// note.duration == 1

`operator T`

operator T () const;

Returns the current value of the object.

`before`

T  before () const;

Returns the previous value of the object.

`operator ==`

bool  operator == (const Enum & rhs) const;
bool  operator == (T rhs) const;

`operator !=`

bool  operator != (const Enum & rhs) const;
bool  operator != (T rhs) const;

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