I'm trying to wrap my head around the Bitap algorithm, but am having trouble understanding the reasons behind the steps of the algorithm.

I understand the basic premise of the algorithm, which is (correct me if i'm wrong):

```
Two strings: PATTERN (the desired string)
TEXT (the String to be perused for the presence of PATTERN)
Two indices: i (currently processing index in PATTERN), 1 <= i < PATTERN.SIZE
j (arbitrary index in TEXT)
Match state S(x): S(PATTERN(i)) = S(PATTERN(i-1)) && PATTERN[i] == TEXT[j], S(0) = 1
```

In english terms, `PATTERN.substring(0,i)`

matches a substring of TEXT if the previous substring `PATTERN.substring(0, i-1)`

was successfully matched and the character at `PATTERN[i]`

is the same as the character at `TEXT[j]`

.

What I don't understand is the bit-shifting implementation of this. The official paper detailing this algorithm basically lays it out, but I can't seem to visualize what's supposed to go on. **The algorithm specification is only the first 2 pages of the paper**, but I'll highlight the important parts:

Here is the bit-shifting version of the concept:

Here is T[text] for a sample search string:

And here is a trace of the algorithm.

Specifically, I don't understand what the T table signifies, and the reason behind `OR`

ing an entry in it with the current state.

I'd be grateful if anyone can help me understand what exactly is going on