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I'm currently building a hash key string (collapsed from a map) where the values that are delimited by the special ASCII unit delimiter 31 (1F).

This nicely solves the problem of trying to guess what ASCII characters won't be used in the string values and I don't need to worry about escaping or quoting values etc.

However reading about the history of this is it appears to be a relic from the 1960s and I haven't seen many examples where strings are built and tokenised using this special character so it all seems too easy.

Are there any issues to using this delimiter in a modern application?

I'm currently doing this in a non-Unicode C++ application, however I'm interested to know how this applies generally in other languages such as Java, C# and with Unicode.

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Wikipedia has an article on delimiters that describes these characters. – Basil Bourque Dec 15 '13 at 1:10
up vote 4 down vote accepted

The lower 128 char map of ASCII is fully set in stone into the Unicode standard, this including characters 0->31. The only reason you don't see special ASCII chars in use in strings very often is simply because of human interfacing limitations: they do not visualize well (if at all) when displayed to screen or written to file, and you can't easily type them in from a keyboard either. They're also not allowed in un-escaped form within various popular 'human readable' file formats, such as XML.

For logical processing tasks within a program that do not need end-user interaction, however, they are perfectly suitable for whatever use you can find for them. Your particular use sounds novel and efficient and I think you should definitely run with it.

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Your application is free to accept whatever binary format it pleases. However, if you need to embed arbitrary binary data in your input, you need to escape whatever delimiters or other special codes your format uses. This is true regardless of which ones you choose.

I'd also not ignore Unicode. It's 2012, by now it's rather silly to work with an outdated model for dealing with text. If your input data is textual, handle it as such.

The one issue that comes to mind is why invent another format instead of using XML or JSON; or if you need a compact encoding, a "binary" variant of those two (Fast Infoset, msgpack, who knows what else), or ASN.1? There's probably a whole bunch of other issues that you'll encounter when rolling your own that the design and tooling for those formats already solved.

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This answer confuses me. (a) ASCII 29-31 are indeed Unicode characters. Their Unicode names are INFORMATION SEPARATOR FOUR, THREE, TWO, and ONE (respectively). (b) Using these characters is not a binary format. (c) Using these characters is not inventing a new format. Their very purpose is to facilitate data exchange, explicitly defined. – Basil Bourque Dec 15 '13 at 1:06
@BasilBourque And maybe if you've asked this a year ago I'd have remembered what my reasoning was behind providing this answer. These days I'd just have objected to a question of the form "are there any issues?" without describing the use case well since it's kind of vague. That said: your comment was actually kind of my point. U+0029U+0031 are valid characters, and thus may be present in the string values themselves, using them as a delimiter isn't "safe" unless you specify what's allowed. And by "text format" I tend to understand something that's reasonably feasible to type by hand. – millimoose Dec 15 '13 at 20:59

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