This article describes a very simple web page that we'll use to illustrate some features of the Memory tool.
You can try out the site at https://mdn.github.io/performance-scenarios/dom-allocs/alloc.html.
It just contains a script that creates a large number of DOM nodes:
var toolbarButtonCount = 20; var toolbarCount = 200; function getRandomInt(min, max) { return Math.floor(Math.random() * (max - min + 1)) + min; } function createToolbarButton() { var toolbarButton = document.createElement("span"); toolbarButton.classList.add("toolbarbutton"); // stop Spidermonkey from sharing instances toolbarButton[getRandomInt(0,5000)] = "foo"; return toolbarButton; } function createToolbar() { var toolbar = document.createElement("div"); // stop Spidermonkey from sharing instances toolbar[getRandomInt(0,5000)] = "foo"; for (var i = 0; i < toolbarButtonCount; i++) { var toolbarButton = createToolbarButton(); toolbar.appendChild(toolbarButton); } return toolbar; } function createToolbars() { var container = document.getElementById("container"); for (var i = 0; i < toolbarCount; i++) { var toolbar = createToolbar(); container.appendChild(toolbar); } } createToolbars();
A simple pseudocode representation of how this code operates looks like this:
createToolbars() -> createToolbar() // called 200 times, creates 1 DIV element each time -> createToolbarButton() // called 20 times per toolbar, creates 1 SPAN element each time
In total, then, it creates 200 HTMLDivElement
objects, and 4000 HTMLSpanElement
objects.