| Commit message (Collapse) | Author | Age |
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Remaining problem: 'add' in Compile doesn't use the D2 stuff
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The derivative of 'neural' in full accum mode is pretty atrocious now; I
think this is because when you have code like this:
\(a :: Arr 1 R) ->
let b = a
in let c = b
in sum d
then because the argument, as well as both let bindings, bind a value of
array type, each will introduce an accumulator, hence resulting in three
(!) nested `with` clauses that each just contribute their result back to
their parent. This is pointless, and we should fix this.
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The accumulator implementation was wrong because it forgot (in accumAdd)
to take into account that values may be variably-sized. Furthermore, it
was also complexity-inefficient because it did not build up a sparse
value. Thus let's go for the Haskell-interpreter-equivalent of what a
real, fast, compiled implementation would do: just a tree with mutable
variables. In practice one can decide to indeed flatten parts of that
tree, i.e. using a tree representation for nested pairs is bad, but that
should have been done _before_ execution and for _all_ occurrences of
that type fragment, not live at runtime by the accumulator
implementation.
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