Binding properties pattern
 | This article may be confusing or unclear to readers. (May 2017) |
The binding properties pattern is combining multiple observers to force properties in different objects to be synchronized or coordinated in some way. This pattern was first described as a technique by Victor Porton.[1][2] This pattern comes under concurrency patterns.
Comparison with aspect-oriented implementation
[edit]As an alternative to the aspect-oriented implementation of mutual properties, property binding can be proposed. In LibPropC++ C++ library it is implemented too.[3]
Some weakness in the LibPropC++ (with property binding):
- Its use is not transparent as it requires to be declared necessary object attributes as properties and appropriate accessor methods must be provided
- Binding of attributes in LibPropC++ is not designed to replace method calls
- The library does not maintain an interaction history.[3]
Implementation
[edit]There are two types of binding. One-way binding should be applied when one of the properties is read-only. In other cases, two-way binding must be applied.[2][3]
Infinite loops can be eliminated by blocking the signal, or comparing the assigned value with the property value before assignment, or eliminating unnecessary assignments.[2][3]
Binding properties of different types can be achieved through type conversions.[2][3]
Binding properties with transformations can be achieved through reducing the transformation function to the problem of binding properties, and the function can be imaginary consider as Type Conversions.[2][3]
Resulting context
[edit]Properties are being kept synchronized automatically. Between library calls they always have the values expressed by the EqualityConstraints.[3]
Deficiencies
[edit]Property changes watching mechanism acquires some resources.[3]
Sample code
[edit]Code sketch for one-way binding may look like as follows:
bind_multiple_one_way(src_obj, src_prop, dst_objs[], dst_props[])
{
for (i, j) in (dst_objs, dst_props)
{
bind_properties_one_way(src_obj, src_prop, i, j);
}
}
Two-way binding can be expressed as follows (in C++):
// In this pseudo-code are not taken into the account initial values assignments
bind_two_way(prop1, prop2)
{
bind(prop1, prop2);
bind(prop2, prop1);
}
Accomplishing the binding (i.e. connecting the property change notification in an event handler) may be like as follows:
on_property_change(src_prop, dst_prop)
{
block_signal(src_obj, on_property_change);
dst_prop := src_prop;
unblock_signal(src_obj, on_property_change);
}
See also
[edit]References
[edit]- ^ "Binding Properties". Cunningham & Cunningham. Cunningham & Cunningham. Retrieved 4 February 2015.
- ^ a b c d e f g Porton, V. "Binding together Properties of Objects". Victor Porton. Retrieved 25 February 2021.
- ^ a b c d e f g h i j Evermann, J., The Association Construct in Conceptual Modelling - An Analysis Using the Bunge Ontological Model, Wellington, New Zealand: School of Information Management, Victoria University