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7a2a8fb28b
This adds a _base transcript which will be run as a prelude before the other transcripts (not sure how yet). The goal is to cut down on the boilerplate which has been creeping into the tests. We also rename a few more of the builtin IO functions which return Either Failure a
3.4 KiB
3.4 KiB
Test for code serialization operations.
.> builtins.merge
.> cd builtin
Define a function, serialize it, then deserialize it back to an actual function. Also ask for its dependencies for display later.
save : a -> Bytes
save x = Value.serialize (Value.value x)
load : Bytes ->{io2.IO, Throw Text} a
load b = match Value.deserialize b with
Left _ -> throw "could not deserialize value"
Right v -> match Value.load v with
Left _ -> throw "could not load value"
Right x -> x
roundtrip : a ->{io2.IO, Throw Text} a
roundtrip x = load (save x)
handleTest : Text -> Request {Throw Text} a -> Result
handleTest t = let
pfx = "(" ++ t ++ ") "
cases
{ _ } -> Ok (pfx ++ "passed")
{ Throw.throw s -> _ } -> Fail (pfx ++ s)
identical : Text -> a -> a ->{Throw Text} ()
identical err x y =
if x == y
then ()
else throw ("mismatch" ++ err)
type Three a b c = zero a | one b | two c
showThree : Three Nat Nat Nat -> Text
showThree = cases
zero n -> "zero " ++ toText n
one n -> "one " ++ toText n
two n -> "two " ++ toText n
concatMap : (a -> [b]) -> [a] -> [b]
concatMap f = cases
[] -> []
x +: xs -> f x ++ concatMap f xs
prod : [a] -> [b] -> [(a,b)]
prod l = cases
[] -> []
y +: ys -> map (x -> (x,y)) l ++ prod l ys
threes : [Three Nat Nat Nat]
threes = map zero fib10 ++ map one fib10 ++ map two fib10
extensionals
: (a -> b -> Text)
-> (a -> b -> c)
-> (a -> b -> c)
-> [(a,b)] ->{Throw Text} ()
extensionals sh f g = cases
[] -> ()
(x,y) +: xs ->
identical (" on: " ++ sh x y) (f x y) (g x y)
extensionals sh f g xs
fib10 : [Nat]
fib10 = [1,2,3,5,8,13,21,34,55,89]
extensionality : Text -> (Three Nat Nat Nat -> Nat -> b) ->{io2.IO} Result
extensionality t f = let
sh t n = "(" ++ showThree t ++ ", " ++ toText n ++ ")"
handle
g = roundtrip f
extensionals sh f g (prod threes fib10)
with handleTest t
identicality : Text -> a ->{io2.IO} Result
identicality t x
= handle identical "" x (roundtrip x) with handleTest t
.> add
ability Zap where
zap : Three Nat Nat Nat
h : Three Nat Nat Nat -> Nat -> Nat
h y x = match y with
zero y -> x + y
one y -> x + y + y
two y -> x + 3*y
f : Nat ->{Zap} Nat
f x = h zap x
fVal : Value
fVal = Value.value f
fDeps : [Term]
fDeps = Value.dependencies fVal
fSer : Bytes
fSer = Value.serialize fVal
rotate : Three Nat Nat Nat -> Three Nat Nat Nat
rotate = cases
zero n -> one (n+1)
one n -> two (n+2)
two n -> zero (drop n 6)
zapper : Three Nat Nat Nat -> Request {Zap} r -> r
zapper t = cases
{ r } -> r
{ zap -> k } -> handle k t with zapper (rotate t)
tests : '{io2.IO} [Result]
tests =
'[ extensionality "ext f" (t x -> handle f x with zapper t)
, extensionality "ext h" h
, identicality "ident compound" (x -> handle f x with zapper (zero 5))
, identicality "ident fib10" fib10
, identicality "ident effect" (_ -> zap)
, identicality "ident zero" zero
, identicality "ident h" h
, identicality "ident text" "hello"
, identicality "ident int" +5
, identicality "ident float" 0.5
, identicality "ident termlink" fDeps
, identicality "ident bool" false
, identicality "ident bytes" [fSer, Bytes.empty]
]
This simply runs some functions to make sure there isn't a crash. Once we gain the ability to capture output in a transcript, it can be modified to actual show that the serialization works.
.> add
.> display fDeps
.> io.test tests