If your "stuffing" should contain only '0'-'9', 'A'-'Z' and 'a'-'z' and are in some encoding based on ASCII (like most Unicode based encodings), then you can skip two comparisons in one of your loops, since only one bit differ between capital and minor characters.
ch>='0' && ch<='9' && ch>='A' && ch<='Z' && ch>='a' && ch<='a'
ch2 = ch & ~('a' ^ 'A')
ch>='0' && ch<='9' && ch2>='A' && ch2<='Z'
But you better look at the assembler code your compiler generate and do some benchmarking, depending on computer architecture and compiler, this trick could give slower code.
If branching is expensive compared to comparisons on your computer, you can also replace the
&. But most modern compilers know this trick in most situations.
If, on the other hand, you test for any printable glyph from some large character encoding, then it is most likely less expensive to test for white-space glyphs, rather then printable glyph.
Also, compile specifically for the computer that the code will run on and don't forget turn of any generation of debugging-code.
Don't make subroutine calls within your scan loops, unless it is worth it.
Whatever trick you use to speed up your loops, it will diminish if you have to make a sub-routine call within one of them. It is fine to use built-in functions that your compiler inline into your code, but if you use something lika an external regex-library and your compiler is unable to inline those functions (gcc can do that, sometimes, if you ask it to), then making that subroutine call will shuffle a lot of memory around, in worse case between different types of memory (registers, CPU buffers, RAM, harddisk et.c.) and may mess up CPU predictions and pipelines. Unless your text-snippets are very long, so that you spend much time parsing each of them, and the subroutine is effective enough to compensate for the cost of the call, don't do that. Some functions for parsing use call-backs, it might be more effective then you making a lot of subroutine calls from your loops (since the function can scan several pattern-matches in one sweep and bunch several call-backs together outside the critical loop), but that depend on how someone else have written that function and basically it is the same thing as you making the call.