It is known that if x ∈ [0, 1] is polynomial time random (i.e. no polynomial time computable martingale succeeds on the binary fractional expansion of x) then x is normal in any integer base greater than one. We show that if x is polynomial time random and β > 1 is Pisot, then x is “normal in base β”, in the sense that the sequence (xβn)n∈N is uniformly distributed modulo one. We work with the notion of P-martingale, a generalization of martingales to non-uniform distributions, and show that a sequence over a finite alphabet is distributed according to an irreducible, invariant Markov measure P if an only if no P-martingale whose betting factors are computed by a deterministic finite automaton succeeds on it. This is a generalization of Sch...