Provided by: ivtools-dev_2.0.11d.a1-1build4_amd64 
NAME
Deck - a stack of interactors on top of each other
SYNOPSIS
#include <InterViews/deck.h>
DESCRIPTION
A deck is a scene containing interactors that are conceptually stacked on top of each
other. Only one interactor is visible at a time. A deck is useful to implement
``paging'' through a document, or where only one of several similar components should be
visible at a time, as in applications using alternate tool pallets or menus with alternate
entries.
A deck will try to stretch or shrink the visible interactor to fill the total space. The
natural size of a deck is the maximum of its components.
A deck uses its perspective to specify which component is visible. The components are
numbered in the order in which they are inserted into the deck, starting with one. A
scroller or other interactor which operates on the perspective can be used to allow a user
to specify the component to view. Either horizontal or vertical scrolling can be used.
PUBLIC OPERATIONS
Deck() Construct a new deck.
void Insert(Interactor*)
Add an interactor to the deck.
void Change(Interactor*)
Notify the deck that an interactor's shape has changed. If propagation is on, the
deck recomputes its own shape and notifies its parent.
void Remove(Interactor*)
Take an interactor out of a deck.
void Flip(int count = 1)
void FlipTo(int position)
void Top()
void Bottom()
Perform operations on the perspective to specify the component to view. Flip
specifies the component relative to the current component. A positive value of
count specifies a component nearer to the ``bottom'' of the deck (the components
inserted last), and a negative value specifies a component nearer to the ``top''.
FlipTo specifies a component by its absolute position in the deck. A positive
value of position specifies a position from the top, starting at 1. A negative
value specifies a position from the bottom, starting at -1. Top and Bottom are
equivalent to FlipTo(1) and FlipTo(-1) respectively.
SEE ALSO
Interactor(3I), Scene(3I), Shape(3I)