I'm having a great deal of trouble wrapping my head around recursion. Simple recursion I can do but this is one is not easy for me. My goal here is to speed up this search algorithm. I'm guessing recursion will help. It takes 15 seconds on a simple 43 node tree with children as it is. Below is my unrolled recursion fomr of the code that works.

```
var nodeList = new Array();
var removeList = new Array();
var count = 0;
var foundInThisNodeTree;
var find = function ( condition )
{
}
while ( this.treeIDMap.igTree( "nodeByPath", count ).data() )
{
var foundInThisNodeTree = false;
var n;
n = this.treeIDMap.igTree( "nodeFromElement", this.treeIDMap.igTree( "nodeByPath", count ) )
if ( n.data.ITEM.indexOf( filter ) > -1 ) { foundInThisNodeTree = true; }
else {//look deeper
var i = 0;
while ( this.treeIDMap.igTree( "nodeByPath", count + "_" + i ).data() )
{
n = this.treeIDMap.igTree( "nodeFromElement", this.treeIDMap.igTree( "nodeByPath", count + "_" + i ) );
if ( n.data.ITEM.indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
else {//look deeper
var j = 0;
while ( this.treeIDMap.igTree( "nodeByPath", count + "_" + i + "_" + j ).data() )
{
n = this.treeIDMap.igTree( "nodeFromElement", this.treeIDMap.igTree( "nodeByPath", count + "_" + i + "_" + j ) );
if ( n.data.ITEM.indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
else {//look deeper
var k = 0;
while ( this.treeIDMap.igTree( "nodeByPath", count + "_" + i + "_" + j + "_" + k ).data() )
{
n = this.treeIDMap.igTree( "nodeFromElement", this.treeIDMap.igTree( "nodeByPath", count + "_" + i + "_" + j + "_" + k ) );
if ( n.data.ITEM.indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
k++;
}
}
j++;
}
}
i++;
}
}
if ( !foundInThisNodeTree ) this.treeIDMap.igTree("removeAt", ""+count )
else count++;
}
```

**** *** second revision suggested by Mirco Ellmann

*******```
var nodeList = new Array();
var removeList = new Array();
var count = 0;
var foundInThisNodeTree;
filter = filter.toLowerCase();
while ( this.treeIDMap.igTree( "nodeByPath", count ).data() )
{
var foundInThisNodeTree = false;
var n;
n = this.treeIDMap.igTree( "nodeFromElement", this.treeIDMap.igTree( "nodeByPath", count ) )
if ( n.data.ITEM.toLowerCase().indexOf( filter ) > -1 ) { foundInThisNodeTree = true; }
else {//look deeper
var i = 0;
n = this.treeIDMap.igTree( "childrenByPath", count );
while ( n[i] )
{
if ( n[i].data.ITEM.indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
var j = 0;
n = this.treeIDMap.igTree( "childrenByPath", count + "_" + i );
while ( n[j] )
{
if ( n[j].data.ITEM.indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
var k = 0;
n = this.treeIDMap.igTree( "childrenByPath", count + "_" + i + "_" + j);
while ( n[k] )
{
if ( n[k].data.ITEM.indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
k++;
}
j++;
}
i++;
}
}
if ( !foundInThisNodeTree ) this.treeIDMap.igTree("removeAt", ""+count )
else count++;
}
```

*********using my branchable trees to get the data no need for any calls to tree*******

```
var count = 0;
var foundInThisNodeTree;
filter = filter.toLowerCase();
while ( this.treeIDMap.igTree( "nodeByPath", count ).data() )
{
var foundInThisNodeTree = false;
var n;
n = this.treeIDMap.igTree( "nodeFromElement", this.treeIDMap.igTree( "nodeByPath", count ) )
if ( n.data.ITEM.toLowerCase().indexOf( filter ) > -1 ) { foundInThisNodeTree = true; }
if ( n.data.branch )//look at all childer under the root node
{
var i = 0;
n = n.data.branch;
while ( n[i] )//look at all childer under the root node
{
if ( n[i].ITEM.toLowerCase().indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
while ( n[i].branch )//look deeper
{
var j = 0;
n = n[i].branch;
if ( n[j].ITEM.toLowerCase().indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
while ( n[j].branch )//look deeper
{
var k = 0;
n = n[j].branch;
if ( n[k].ITEM.toLowerCase().indexOf( filter ) > -1 ) { foundInThisNodeTree = true; break; }
k++;
}
j++;
}
i++;
}
}
if ( !foundInThisNodeTree ) this.treeIDMap.igTree("removeAt", ""+count )
else count++;
}
```