I did notice it's been a year since this was active, but for what it's worth. I came across an article on CodeProject today that claims to solve this problem - maybe you can use ideas from there:
I can't vouch for its correctness, but might be worth taking a look at. :)
The implementation surely requires holding the entire string in memory, but you can easily work around that (as with any other implementation that performs the replacements) as long as you can split the input into blocks and guarantee that you never split at a position that is inside a symbol to be replaced. (One easy way to do that in your case is to split at a position where the next char isn't any of the chars used in a symbol.)
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There is a reason beyond performance (though that is a sufficient reason in my book) to add a "ReplaceMultiple" method to one's string library: Simply doing the replace operation N times is NOT correct in general.
If the values that are substituted for the symbols are not constrained, values can end up being treated as symbols in subsequent replace operations. (There could be situations where you'd actually want this, but there are definitely cases where you don't. Using strange-looking symbols reduces the severity of the problem, but doesn't solve it, and "is ugly" because the strings to be formatted may be user-defineable - and so should not require exotic characters.)
However, I suspect there is a good reason why I can't easily find a general multi-replace implementation. A "ReplaceMultiple" operation simply isn't (obviously) well-defined in general.
To see this, consider what it might mean to "replace 'aa' with '!' and 'baa' with '?' in the string 'abaa'"? Is the result 'ab!' or 'a?' - or is such a replacement illegal?
One could require symbols to be "prefix-free", but in many cases that'd be unacceptable. Say I want to use this to format some template text. And say my template is for code. I want to replace "§table" with a database table name known only at runtime. It'd be annoying if I now couldn't use "§t" in the same template. The templated script could be something completely generic, and lo-and-behold, one day I encounter the client that actually made use of "§" in his table names... potentially making my template library rather less useful.
A perhaps better solution would be to use a recursive-descent parser instead of simply replacing literals. :)
O(n) + O(n)
is stillO(n)
, what's the real motivation here?