hermit-0.2.0.0: examples/fib-tuple/Fib.hss
flatten-module
consider 'fib
{
ww-split [| wrap |] [| unwrap |]
consider 'work ; remember origwork
-- work = unwrap (f (wrap work))
def-rhs ; eta-expand 'n
-- work n = unwrap (f (wrap work)) n
any-call (unfold 'unwrap)
-- work n = (f (wrap work) n, f (wrap work) (n+1))
lam-body ; case-split-inline 'n
-- work 0 = (f (wrap work) 0, f (wrap work) 1)
-- work (n+1) = (f (wrap work) (n+1), f (wrap work) (n+2))
{ case-alt 0 ; any-call (unfold 'f) }
{ [ case-alt 1, alt-rhs, app-arg] ; any-call (unfold 'f) }
simplify
-- work 0 = (0, 1)
-- work (n+1) = (f (wrap work) (n+1), wrap work (n+1) + wrap work n)
[ case-alt 1, alt-rhs ]
{ app-arg ; any-call (unfold origwork) }
-- work 0 = (0, 1)
-- work (n+1) = (f (wrap work) (n+1), wrap (unwrap (f (wrap work))) (n+1) + wrap (unwrap (f (wrap work))) n)
any-bu (foreward (ww-assumption-A [| wrap |] [| unwrap |]))
-- work 0 = (0, 1)
-- work (n+1) = (f (wrap work) (n+1), f (wrap work) (n+1) + f (wrap work) n)
{ arg 3 ; arg 1 ; let-intro 'x }
{ arg 2 ; let-intro 'y }
innermost let-float
try (reorder-lets ['x,'y])
one-td (fold 'y)
let-tuple 'xy
-- work 0 = (0, 1)
-- work (n+1) = let (x,y) = (f (wrap work) n, f (wrap work) (n+1)) in (y,x+y)
one-td (fold 'unwrap)
-- work 0 = (0, 1)
-- work (n+1) = let (x,y) = unwrap (f (wrap work)) n in (y,x+y)
one-td (fold origwork)
-- work 0 = (0, 1)
-- work (n+1) = let (x,y) = work n in (y,x+y)
}
innermost dead-let-elimination
any-call (unfold 'wrap)
simplify