As implicitly pointed out by Ryan Parman (+1), there are two different layers at play when it comes to compression (and/or optimization), which seem to get mixed a bit in this discussion so far:
My initial answer below has addressed lossless compression using Cloudfront as per your question title, which is concerned with the HTTP compression layer:
HTTP compression is a capability that can be built into web servers and web clients to make better use of available bandwidth, and provide greater transmission speeds between both.
[...] data is compressed before it is sent from the server: compliant browsers will announce what methods are supported to the server before downloading the correct format; browsers that do not support compliant compression method will download uncompressed data. [...]
That is, the compress/decompress operation is usually automatically handled by the server and the client to optimize bandwidth usage and transmission performance - the difference with CloudFront is, that its server implementation does indeed not handle compression automatically like most web servers, which is why you need to prepare a compressed representation yourself if desired.
Now, your question body talks about a different compression/optimization layer all together, namely lossy JPEG_compression and specifically Lossless_editing as well as optimization via jpegoptim - this has nothing to do with how files are handled by HTTP servers and clients, rather just compressing/optimizing the files themselves to better match the performance constraints within specific use cases like web or mobile browsing, where the transmission of a digital photo in its original size wouldn't make any sense when it is simply to be viewed on a web page for example.
- This kind of compression/optimization is one that is rarely offered by web servers themselves so far, even though notable efforts like Google's mod_pagespeed are available these days - usually it is the responsibility of the web designer to prepare appropriate assets, ideally optimized for and selectively delivered to the expected target audience via CSS Media queries.
AWS CloudFront is capable of Serving Compressed Files, however, this is to be taken literally:
Amazon CloudFront can serve both compressed and uncompressed files
from an origin server. CloudFront relies on the origin server either
to compress the files or to have compressed and uncompressed versions
of files available; CloudFront does not perform the compression on
behalf of the origin server. With some qualifications, CloudFront can
also serve compressed content from Amazon S3. For more information,
see Choosing the File Types to Compress. [emphasis mine]
That is, you'll need to provide compressed versions yourself, but once you've set this up, this is transparent for clients - please note that the content must be compressed using gzip; other compression algorithms are not supported:
[...] If the request header includes additional content encodings, for example, deflate or sdch, CloudFront removes them before forwarding the request to the origin server. If gzip is missing from the Accept-Encoding field, CloudFront serves only the uncompressed version of the file. [...]
Details regarding the requirements and process are outlined in How CloudFront Serves Compressed Content from a Custom Origin and Serving Compressed Files from Amazon S3.