A Constraints object holds the
constraints that govern the way a component's size and position
change in a container controlled by a SpringLayout.
A Constraints object is
like a Rectangle, in that it
has x, y,
width, and height properties.
In the Constraints object, however,
these properties have
Spring values instead of integers.
In addition,
a Constraints object
can be manipulated as four edges
-- north, south, east, and west --
using the constraint property.
The following formulas are always true
for a Constraints object (here WEST and x are synonyms, as are and NORTH and y):
EAST = WEST + WIDTH
SOUTH = NORTH + HEIGHT
HORIZONTAL_CENTER = WEST + WIDTH/2
VERTICAL_CENTER = NORTH + HEIGHT/2
ABSOLUTE_BASELINE = NORTH + RELATIVE_BASELINE*
For example, if you have specified the WIDTH and WEST (X) location the EAST is calculated as WEST + WIDTH. If you instead specified the WIDTH and EAST locations the WEST (X) location is then calculated as EAST - WIDTH.
[RELATIVE_BASELINE is a private constraint that is set automatically when the SpringLayout.Constraints(Component) constructor is called or when a constraints object is registered with a SpringLayout object.]
Note: In this document,
operators represent methods
in the Spring class.
For example, "a + b" is equal to
Spring.sum(a, b),
and "a - b" is equal to
Spring.sum(a, Spring.minus(b)).
See the
Spring API documentation
for further details
of spring arithmetic.
Because a Constraints object's properties --
representing its edges, size, and location -- can all be set
independently and yet are interrelated,
a Constraints object can become over-constrained.
For example, if the WEST, WIDTH and
EAST edges are all set, steps must be taken to ensure that
the first of the formulas above holds. To do this, the
Constraints
object throws away the least recently set
constraint so as to make the formulas hold.