Copyright  (C) 20132016 University of Twente 2017 Google Inc. 

License  BSD2 (see the file LICENSE) 
Maintainer  Christiaan Baaij <christiaan.baaij@gmail.com> 
Safe Haskell  Safe 
Language  Haskell2010 
Whereas the output of a Moore machine depends on the previous state, the output of a Mealy machine depends on current transition.
Mealy machines are strictly more expressive, but may impose stricter timing requirements.
Synopsis
 mealy :: HiddenClockReset domain gated synchronous => (s > i > (s, o)) > s > Signal domain i > Signal domain o
 mealyB :: (Bundle i, Bundle o, HiddenClockReset domain gated synchronous) => (s > i > (s, o)) > s > Unbundled domain i > Unbundled domain o
 (<^>) :: (Bundle i, Bundle o, HiddenClockReset domain gated synchronous) => (s > i > (s, o)) > s > Unbundled domain i > Unbundled domain o
Mealy machine synchronised to the system clock
:: HiddenClockReset domain gated synchronous  
=> (s > i > (s, o))  Transfer function in mealy machine form:

> s  Initial state 
> Signal domain i > Signal domain o  Synchronous sequential function with input and output matching that of the mealy machine 
Create a synchronous function from a combinational function describing a mealy machine
macT :: Int  Current state > (Int,Int)  Input > (Int,Int)  (Updated state, output) macT s (x,y) = (s',s) where s' = x * y + s mac :: HiddenClockReset domain gated synchronous =>Signal
domain (Int, Int) >Signal
domain Int mac =mealy
macT 0
>>>
simulate mac [(1,1),(2,2),(3,3),(4,4)]
[0,1,5,14... ...
Synchronous sequential functions can be composed just like their combinational counterpart:
dualMac :: HiddenClockReset domain gated synchronous => (Signal
domain Int,Signal
domain Int) > (Signal
domain Int,Signal
domain Int) >Signal
domain Int dualMac (a,b) (x,y) = s1 + s2 where s1 =mealy
mac 0 (bundle
(a,x)) s2 =mealy
mac 0 (bundle
(b,y))
:: (Bundle i, Bundle o, HiddenClockReset domain gated synchronous)  
=> (s > i > (s, o))  Transfer function in mealy machine form:

> s  Initial state 
> Unbundled domain i > Unbundled domain o  Synchronous sequential function with input and output matching that of the mealy machine 
A version of mealy
that does automatic Bundle
ing
Given a function f
of type:
f :: Int > (Bool, Int) > (Int, (Int, Bool))
When we want to make compositions of f
in g
using mealy
, we have to
write:
g a b c = (b1,b2,i2) where (i1,b1) =unbundle
(mealy
f 0 (bundle
(a,b))) (i2,b2) =unbundle
(mealy
f 3 (bundle
(i1,c)))
Using mealyB
however we can write:
g a b c = (b1,b2,i2) where (i1,b1) =mealyB
f 0 (a,b) (i2,b2) =mealyB
f 3 (i1,c)
:: (Bundle i, Bundle o, HiddenClockReset domain gated synchronous)  
=> (s > i > (s, o))  Transfer function in mealy machine form:

> s  Initial state 
> Unbundled domain i > Unbundled domain o  Synchronous sequential function with input and output matching that of the mealy machine 
Infix version of mealyB