Pyparsing includes an adaptive expression that is very similar to this, called countedArray. countedArray(expr) parses a leading integer 'n' and then parses 'n' instances of expr, returning the whole array as a single list. The way this works is that countedArray parses a leading integer expression, followed by an uninitialized Forward expression. The leading integer expression has a parse action attached that assigns the following Forward to 'n'*expr. The pyparsing parser then continues on, and parses the following 'n' expr's. So it is sort of a self-modifying parser.
To parse your expression, this would look something like:
integer = Word(nums).setParseAction(lambda t:int(t))
following = Forward()
integer.addParseAction(lambda t: following << Word(printables+" ",exact=t))
H_expr = integer + 'H' + following
print H_expr.parseString("22HThis is a test string.This is not in the string")
[22, 'H', 'This is a test string.']
If Ply has something similar, perhaps you could use this technique.