10

It just seems to me that when writing code for dynamic data visualization, I end up doing the same things over and over in different languages/platforms. Now if I had a cross platform language(which I do) and something like a binary version of SVG, I could make my code target that and use/create interpreters for whatever platform I currently need to use it on.

The reason I don't want SVG is because the plaintext part makes it too slow for my purposes. I could of course just create my own intermediary format but if there is something already out there that's implemented by various things then the less work for me!

  • 2
    The correct answer depends on your needs. Did you consider binary versions of XML (which SVG is based on), such as MTOM, EXI, FastInfoSet, etc.? Which features of SVG do you need? Do you need support for paths, common shapes, groups, text, CSS styling, metadata, etc.? – Peter O. Jul 9 '15 at 21:26
  • 1
    gzip your SVG, that's binary and still parses as SVG. Almost nothing about the performance of SVG other than the transmission cost of sending it over a network is down to it being plaintext. – Robert Longson Jul 9 '15 at 22:41
  • 1
    gzip will not yield the same benefits by far. The problem is if you want to combine raster images in your svg a standard JPEG and another used for alpha mask for example. A binary format would half the size of those two images plus a tiny bit. In SVG format the size is much much larger. Consider: cat /usr/bin/screen | base64 -w0 | gzip -c9 | wc = 268406, without base64 it's 216816. In some cases it can be much worse than this. – jgmjgm Dec 8 '15 at 19:22
2

Depending on what you mean by “too slow”, the answer varies:

Filesize too large

Officially, the closest thing SVG has to a binary format is SVGZ, which is a gzipped SVG file with the .svgz extension. All conforming SVG viewers should be able to open it. Making one is simple on *nix systems:

gzip yourfile.svg && mv yourfile.svg.gz yourfile.svgz

You could also try Brotli compression, which tends to have smaller filesize at the cost of more compression time.

Including other assets is inefficient

SVG can only bundle bitmaps and other binary data through base64 encoding, which has a fair amount of overhead.

PDF can include “streams” of raw binary data, and is surprisingly efficient when programmatically generated.

Parsing the text data takes too long

This is tricky. PDF and its brother, Encapsulated PostScript, are also old, well-supported vector graphic formats. Unfortunately, they too are also text at their core, with optional compression.

You could try Computer Graphics Metafiles, which can be compiled ahead of time. But I’m unsure how well-supported they are across consumer devices.

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.