// Cloned by Jamie on 3 Oct 2023 from World "Binary tree" by "Coding Train" project
// Please leave this clone trail here.
// Modified port of "01_binary_tree_viz" from AI course by Daniel Shiffman
// https://github.com/nature-of-code/NOC-S17-2-Intelligence-Learning/tree/master/week1-graphs
// Daniel Shiffman
// Nature of Code: Intelligence and Learning
// https://github.com/shiffman/NOC-S17-2-Intelligence-Learning
var start = new Date().getTime()
// canvas size
const cw = 900;
const ch = 600;
const root_x = cw / 2;
const root_y = ch / 10;
const ellipse_size = cw / 10;
// range of numbers
const MAX = 3000;
// how many nodes
const NONODES = MAX / 2;
// console log how we build the tree or not
const SHOWBUILD = true;
// Binary tree
var tree;
function setup()
{
createCanvas(cw,ch);
$.getScript ( "/uploads/yammers/ancientbrain.com_uploads_codingtrain_node.js", function() {
// console.log ("Got node");
$.getScript ( "/uploads/yammers/ancientbrain.com_uploads_codingtrain_tree.js", function() {
// console.log ("Got tree");
// New tree
var tree = new Date().getTime()
tree = new Tree();
console.log ("=== build tree =================");
// Add random values
for (var i = 0; i < NONODES; i++)
{
var n = floor(random(0, MAX));
// console.log ("adding node: " + n);
tree.addValue(n);
}
background("brown");
// Traverse the tree
// tree.traverse();
// Search the tree for random number
var x = floor(random(0, MAX));
AB.msg( "console log shows how we search a sorted tree quickly <br> search tree for " + x + "<br>" );
console.log ( "=== search tree for " + x + " ===================");
var result = tree.search(x);
if (result == null) AB.msg('not found', 2);
else AB.msg('found', 2);
var end = new Date().getTime()
console.log("time: ")
console.log(end - tree)
console.log(end - start)
} );
} );
}