However, I would like to know if blocking of the actual user-visible rendering is something you can actually rely on. I'm 90% sure it is de facto the case in most browsers but I am hoping this isn't just a happily consistent accident. I can't seem to find any definitive statements from DOM specifications or even vendor documentation like MDM.
What worries me slightly is that while changes to the DOM are indeed not visible looking at the page, the internal DOM geometry (including CSS transforms and filters) does actually update during synchronous execution. For example:
console.log(element.getBoundingRect().width); element.classList.add("scale-and-rotate"); console.log(element.getBoundingRect().width); element.classList.remove("scale-and-rotate");
... will indeed report two different width values, though the page does not appear to flash. Synchronously waiting after the class is added (using a while loop) doesn't make the temporary changes visible either. Doing a Timeline trace in Chrome reveals that internally paint and re-paint is taking place just the same, which makes sense...
My concern is that, lacking a specific reason not, some browsers, like say, those dealing with underpowered mobile CPUs, may choose to actually reflect those internal calculations in the user-visible layout during that function's execution, and thus will result in an ugly "flash" during such temporary operations. So, more concretely, what I'm asking is: Do they have a specific reason not to?
(If you are wondering why I care about this at all, I sometimes need to measure calculated dimensions using
getBoundingRect for elements in a certain state to plan out spacing or animations or other such things, without actually putting them in that state or animating them first...)