On May 28, 2017 06:09, "Russell O'Connor" <roconnor@blockstream.io> wrote:

On May 28, 2017 03:16, "Peter Todd" <pete@petertodd.org> wrote:
On Mon, May 22, 2017 at 06:32:38PM -0400, Russell O'Connor wrote:
> On May 22, 2017 23:05, "Peter Todd" <pete@petertodd.org> wrote:
>
> On Mon, May 22, 2017 at 03:05:49AM -0400, Russell O'Connor via bitcoin-dev
> wrote:
> > MerkleRoot := SHA256(SHA256(LeftRoot ⋅ RightRoot))
> > sha256Compress : Word256 × Word512 -> Word256
>
> To be clear, what math operations do you mean by "⋅" and "×"?
>
>
> By "⋅", I usually mean concatenation (though I also use it for function
> composition in one instance). By "×", I mean the Cartesian product.

Cartesian product can mean a lot of things.

What specifically do you mean by "cartesian product" here?

Oops, I forgot to reply all. Below is my reply.

Given two types A and B, then A × B is the type of pairs of A and B in the sense of type theory as used in Standard ML or Haskell or other typed languages.

To follow up, by "sha256Compress : Word256 × Word512 -> Word256" I mean that sha256Compress is a function that takes two arguments, the first being a 256 bit word and the second being a 512 bit word, and returns a 256 bit word (or equivalently sha256Compress is a function that takes a pair as input, the first component being a 256 bit word and the second component being a 512 bit word, and returns a 256 bit word).

sha256Compress is meant to be the compression function defined by the SHA256 standard, though nothing here depends on anything more that its type signature.