Whats the easiest way to implement a lookup table that checks to see if a character is an alpha or not using a lookup table with an array 256 chars (256 bytes)? I know I can use isalpha function, but a lookup table can supposedly be more efficient, requiring one comparison instead of multiple ones. I was thinking of corresponding the index with the char decimal conversion and checking directly if it the char was equivalent to that.
Remember the first rule of optimisation: don't do it.
Then remember the second rule of optimisation, to be applied very rarely: don't do it yet.
Then, if you really are encountering a bottleneck and you've identified
Actually, according to Plauger in "The Standard C Library" 
Your compiler library's implementation is likely to be quite efficient and is probably already using a lookup table for most cases, but also handling some situations that might be a little tricky to get right if you're going to do your own
You might not need to handle non-ASCII locales, in which case you might (maybe) be able to improve slightly over the library.
In fact, I wouldn't be surprised if a macro or function that simply returned the result of:
might be faster than a table lookup since it wouldn't have to hit memory. But I doubt it would be faster in any meaningful way, and would be difficult to measure a difference except maybe in a benchmark that did nothing but
Just use the one in your compiler's library.
I've always used this single compare method (i assume it pipelines better), since its faster than doing up to four compares.
I benchmarked a few different ways and took into account TLB cache miss for lookup table method. I ran the benchmarks on windows. Here are the times if the charset was '0'..'z':
You can clearly see that the locale code has a cost.
Here are the times if the charset was 0..255:
The times are longer because more chars were tested. The # of segments I used for the tlb "flush" was larger in the second test. It might be that the table lookup method suffers more from the tlb miss than the first run indicates. You can also see that the single cmp method works better when the character is an alpha.
The lookup table method is the best if comparing many characters in a row, but it is not that much better than the single cmp method. If you are comparing characters here and there, then the tlb cache miss might make the tbl method worse than the single cmp method. The single cmp method works best when the characters are more likely to be alphas.
Here is the code:
If you are looking for alphabetic characters, a-Z, that's a lot less characters than your 255 array. You can subtract 'A' from the ASCII character in question (the lowest alphabetic character), which will be the index into your array. e.g. 'B' - 'A' is 1. The test, if negative, is not alpha. If greater than your max alpha ('z'), then it is not alpha.
If you are using unicode at all, this method will not work.
I think you can implement isalpha a lot more trivially than with a lookup table. Using the fact that characters 'a'-'z' and 'A'-'Z' are successive in ASCII a simple test like this is sufficient:
Note that this doesn't take into account different locales.