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examples for transfer

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aarne
2003-10-08 14:14:09 +00:00
parent a979508aa7
commit ddd103ccd7
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55
grammars/numerals/Nat.gf Normal file
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-- Unary and binary natural numbers, and conversions between them. AR 8/10/2003
-- To be used as an example of transfer.
abstract Nat = {
cat Nat ;
fun
One : Nat ; -- 1
Succ : Nat -> Nat ; -- n'
data Nat = One | Succ ;
cat Bin ;
fun
BOne : Bin ; -- 1
BX : Bin -> Bin ; -- b 0
BXPlus : Bin -> Bin ; -- b 1
data Bin = BOne | BX | BXPlus ;
fun succ : Bin -> Bin ;
def
succ BOne = BX BOne ;
succ (BX b) = BXPlus b ;
succ (BXPlus BOne) = BX (BX BOne) ;
succ b = succAux b (lastZero b) ;
fun lastZero : Bin -> Nat ;
def
lastZero (BX _) = One ;
lastZero (BXPlus b) = Succ (lastZero b) ;
fun succAux : Bin -> Nat -> Bin ;
def
succAux (BXPlus b) One = BX (succ b) ;
succAux (BXPlus b) (Succ n) = BX (succAux b n) ;
succAux b _ = succ b ;
-- this is the transfer function
fun nat2bin : Nat -> Bin ;
def
nat2bin One = BOne ;
nat2bin (Succ n) = succ (nat2bin n) ;
-- and the other way round
fun bin2nat : Bin -> Nat ;
def
bin2nat BOne = One ;
bin2nat (BX b) = double (bin2nat b) ;
bin2nat (BXPlus b) = Succ (double (bin2nat b)) ;
fun double : Nat -> Nat ;
def
double One = Succ One ;
double (Succ n) = Succ (Succ (double n)) ;
}

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grammars/numerals/Nat.hs Normal file
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module Nat where
-- testing transfer from unary to binary, for Nat.gf. AR 8/10/2003
data Nat = One | Succ Nat deriving Show
data Bin = BOne | BX Bin | BXPlus Bin deriving Show
succBin:: Bin -> Bin
succBin BOne = BX BOne
succBin (BX b) = BXPlus b
succBin (BXPlus BOne) = BX (BX BOne)
succBin b = succAux b (lastZero b)
lastZero :: Bin -> Nat
lastZero (BX _) = One
lastZero (BXPlus b) = Succ (lastZero b)
succAux :: Bin -> Nat -> Bin
succAux (BXPlus b) One = BX (succBin b)
succAux (BXPlus b) (Succ n) = BX (succAux b n)
succAux b _ = succBin b
int2bin :: Int -> Bin
int2bin 1 = BOne
int2bin n = succBin (int2bin (n-1))
bin2nat :: Bin -> Nat
bin2nat BOne = One
bin2nat (BX b) = double (bin2nat b)
bin2nat (BXPlus b) = Succ (double (bin2nat b))
double :: Nat -> Nat
double One = Succ One
double (Succ n) = Succ (Succ (double n))
-- to test
prBin :: Bin -> String
prBin BOne = "1"
prBin (BX b) = prBin b ++ "0"
prBin (BXPlus b) = prBin b ++ "1"
test = map (prBin . int2bin) [1..16]
test2 = map (bin2nat . int2bin) [1..16]

12
grammars/numerals/Symb.gf Normal file
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concrete Symb of Nat = open Prelude in {
lincat Nat, Bin = SS ;
lin
One = ss "1" ;
Succ = postfixSS "'" ;
BOne = ss "1" ;
BX = postfixSS "0" ;
BXPlus = postfixSS "1" ;
}