Dynamic filling of very large trees
How to optimize the implementation of large tree-views?
When a huge tree needs to be displayed, tree data filling can be optimized by creating the nodes on demand. There is no need to fill the complete program array with all possible nodes (down to the last leaf), when only the first levels/branches of the tree are displayed on the screen.
To implement a dynamically filled tree, first define an additional column in the
TREE
container, to indicate whether a given node has children. That field will be
used to render a node with a [+] button, so as to allow the end user click on the node to expand it,
even if no child nodes are created yet.
DISPLAY ARRAY
code, if a node is expanded (or collapsed), the dialog will
invoke the ON EXPAND
or
ON COLLAPSE
triggers, to let the
program add (or remove) rows in the array, and to adapt the tree data dynamically by following
navigation
events.DEFINE row_index INTEGER
...
DISPLAY ARRAY tree_arr TO sr.* ATTRIBUTES(UNBUFFERED)
ON EXPAND (row_index)
DISPLAY "EXPAND - Expanded row is: ", row_index
-- Fill with children nodes for tree_arr[row_index]
ON COLLAPSE (row_index)
DISPLAY "COLLAPSE - Collapsed row is: ", row_index
-- Remove children nodes of tree_arr[row_index]
END DISPLAY
The program array can be filled directly before the dialog execution, but once the dialog has
started, use dialog methods such as DIALOG.insertNode()
to modify the tree,
otherwise information like multi-range selection flags and cell attributes will not be synchronized.
This is typically the case when implementing a dynamically-filled tree with ON EXPAND
/ ON COLLAPSE
triggers.