@JohnFx *"... mathematically impossible."*

poster states: *take a long sequence of integers ...*

Thus, just as limits are used in The Calculus, we can take the value as being the value - the study of Chaotics shows us finite limits may 'turn on themselves' producing tensor fields that provide the illusion of absolute(s), and which can be run as long as there is time and energy. Due to the curvature of space-time, there is no perfection - hence the op's "*... say 1 if perfectly random.*" is a misnomer.

{ **noted**: ample observations on that have been provided - spare me }

According to your position, given two byte[] of a few k, each randomized independently - op could not obtain "a measurement of how random the sequence is" The article at Wiki is informative, and makes definite strides dis-entagling the matter, but

In comparison to classical physics, quantum physics predicts that the properties of a quantum mechanical system depend on the measurement context, i.e. whether or not other system measurements are carried out.

A team of physicists from Innsbruck,
Austria, led by Christian Roos and
Rainer Blatt, have for the first time
proven in a comprehensive experiment
that it is not possible to explain
quantum phenomena in non-contextual
terms.

Source: Science Daily

Let us consider non-random lizard movements. The source of the stimulus that initiates complex movements in the shed tails of leopard geckos, under your original, corrected hyper-thesis, can never be known. We, the experienced computer scientists, suffer the innocent challenge posed by newbies knowing too well that there - in the context of an un-tainted and pristine mind - are them gems and germinators of feed-forward thinking.

If the thought-field of the original lizard produces a tensor-field ( deal with it folks, this is front-line research in sub-linear physics ) then we could have "the best algorithm to take a long sequence" of civilizations spanning from the Toba Event to present through a Chaotic Inversion". Consider the question whether such a thought-field produced by the lizard, taken independently, is a spooky or knowable.

"Direct observation of Hardy's paradox
by joint weak measurement with an
entangled photon pair," authored by
Kazuhiro Yokota, Takashi Yamamoto,
Masato Koashi and Nobuyuki Imoto from
the Graduate School of Engineering
Science at Osaka University and the
CREST Photonic Quantum Information
Project in Kawaguchi City

Source: Science Daily

( considering the spooky / knowable dichotomy )

I know from my own experiments that direct observation weakens the absoluteness of perceptible tensors, distinguishing between thought and perceptible tensors is impossible using only single focus techniques because the perceptible tensor is not the original thought. A fundamental consequence of quantaeus is that only weak states of perceptible tensors can be reliably distinguished from one another without causing a collapse into a unified perceptible tensor. Try it sometime - work on the mainifestation of some desired eventuality, using pure thought. Because an idea has no time or space, it is therefore in-finite. ( not-finite ) and therefore can attain "perfection" - i.e. absoluteness. Just for a hint, start with the weather as that is the easiest thing to influence ( as least as far as is currently known ) then move as soon as can be done to doing a join from the sleep-state to the waking-state with virtually no interruption of sequential chaining.

There is an almost unavoidable blip there when the body wakes up but it is just like when the doorbell rings, speaking of which brings an interesting area of statistical research to funding availability: How many thoughts can one maintain synchronously? I find that duality is the practical working limit, at triune it either breaks on the next thought or doesn't last very long.

Perhaps the work of Yokota et al could reveal the source of spurious net traffic...maybe it's ghosts.

given the history of the number sequence, how easy is it to predict the next number in the sequence". 0 means it's obvious what number should be next (as in a string of 4's), and 1 means it's completely unobvious (ie there's no recognizable pattern). In that sense PI (or sqrt(2)) are very random (although if you know the formula or how the number string is found then it is completely deterministic). – bobobobo Mar 23 '13 at 17:28