Idris2/tests/idris2/basic049/Fld.idr

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import Data.Maybe
import Data.Nat
namespace SuperDog
public export
record SuperDog where
constructor MkDog
supername : String
age : Int
weight : Int
namespace OrdinaryDog
public export
record OrdinaryDog where
constructor MkDog
name : String
age : Int
weight : Int
record Other a where
constructor MkOther
{imp : String}
fieldA : a
fieldB : b
------ Using new application syntax as sugar for data instantiation (be it data/record/interface) -------
myDog : OrdinaryDog
myDog = MkDog { age = 4
, weight = 12
, name = "Sam" }
mySuperDog : SuperDog
mySuperDog = MkDog { age = 3
, weight = 10
, supername = "Super-Sam" }
other : ?
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other = MkOther {fieldB = the Int 1, fieldA = "hi", imp = "Secret string"}
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otherOk1 : Main.other.fieldB = (the Int 1)
otherOk1 = Refl
otherOk2 : Main.other.fieldA = "hi"
otherOk2 = Refl
otherOk3 : Main.other.imp = "Secret string"
otherOk3 = Refl
same : MkDog {age = 2, name = "Rex", weight = 10} = (the OrdinaryDog $ MkDog "Rex" 2 10)
same = Refl
namespace R1
public export
record R1 where
constructor MkR
field : a
namespace R2
public export
record R2 where
constructor MkR
{auto field : a}
r1 : R1 -- explicit fields access
r1 = MkR {field = "string"}
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r2_shouldNotTypecheck1 : ?
r2_shouldNotTypecheck1 = MkR {field = the Nat 22} -- fail, impossible to disambiguate
interface Show a => (num : Num a) => MyIface a where -- Some interface with
constructor MkIface
-- constraints
data MyData : a -> Type -- and a data declaration.
someFunc : a -> a -- Constraints are now elaborated as auto implicits (as one would expect)
giveBack : {x : a} -> MyData x -> a -- (previously as explicit arguments of the interface
-- constructor)
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data MyDataImpl : a -> Type where -- implementation of MyData
MkMyData : (x : a) -> MyDataImpl x
-- implementation MyIface Int where
-- MyData = MyDataImpl
-- someFunc = id
-- giveBack (MkMyData x) = x
%hint
instanceMyIfaceInt : MyIface Integer -- this def, roughly speaking, is the 'same thing' as the above implementation
-- Show Int, Num Int are auto implicits of MkIface
instanceMyIfaceInt = MkIface { MyData = MyDataImpl
, someFunc = id
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, giveBack = \(MkMyData x) => x
, num = %search } -- auto implicit names are preserved
instanceOk : giveBack (MkMyData 22) = 22
instanceOk = Refl
interface Show' a where -- unlike Show, Show' reduces in types
constructor MkShow'
show' : a -> String
Show' String where
show' = id
%hint
showMaybe' : Show' a => Show' (Maybe a)
showMaybe' = MkShow' { show' = fromMaybe "Nothing" . (("Just " ++ ) . show' <$>) }
showMaybe'Ok : show' (Just "nice") = "Just nice"
showMaybe'Ok = Refl
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record AllFieldTypes a where
constructor MkAllFieldTypes
exp : a
{imp : a}
{auto aut : a}
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testAllFieldTypesOk : MkAllFieldTypes { aut = "aut"
, exp = "exp"
, imp = "imp" }
= MkAllFieldTypes "exp" {imp = "imp"} @{"aut"}
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testAllFieldTypesOk = Refl
-------------------------------------
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------ The Update syntax --------
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mapName : (String -> String) -> OrdinaryDog -> OrdinaryDog
mapName f = {name $= f}
setName : String -> OrdinaryDog -> OrdinaryDog
setName name' = {name := name'}
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data Three : Type -> Type -> Type -> Type where
MkThree : (x : a) -> (y : b) -> (z : c) -> Three a b c
mapSetMap : (a -> a') -> b' -> (c -> c') -> Three a b c -> Three a' b' c'
mapSetMap f y' g = {x $= f, y := y', z $= g}
setNameOld : String -> OrdinaryDog -> OrdinaryDog
setNameOld name' = {name := name'}
-------------------------------------
--------- Applications in presence of duplicate names ----------
-- Duplicate names are ok and treated sequentially
testDuplicateNames : {auto a : String} -> {auto a : String} -> String
testDuplicateNames @{a} @{a'} = show' a ++ ":" ++ show' a'
-- When binding arguments on LHS or listing arguments to
-- a function on RHS
-- unnamed arguments always take priority over named,
-- i.e they are bound/applied first,
-- regardless of their relative positions to named ones
testOrder1 : (a : String) -> (a : String) -> String
testOrder1 {a = a2} {-snd-} a1 {-fst-} = a1 ++ a2
testOrder1Ok : Main.testOrder1 "abc" "def" = "abcdef"
testOrder1Ok = Refl
-- unnamed explicit "1" is passed first, followed by named {a = "2"}
testAutoPriorityOk : Main.testOrder1 {a = "2"} "1" = "12"
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testAutoPriorityOk = Refl
-- Two arguments with the same name can be successfully bound
-- if one of them is renamed in patterns.
-- As both arguments are requested by name
-- They are bound in the same order they are given
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sameNamesOk : (a : String) -> (a : Nat) -> (String, Nat)
sameNamesOk {a {- = a-}, a = b} = (a, b)
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-- All arguments are named and are of different `plicities`. Binds occur sequentially.
-- Arguments are renamed on LHS
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eachArgType : (a : String) -> {a : String} -> {auto a : String} -> String
eachArgType {a = a1, a = a2, a = a3} = a1 ++ a2 ++ a3
eachArgTypeOk : eachArgType @{"3"} "1" {a = "2"} = "123"
eachArgTypeOk = Refl
-- Arguments with the same names are provided on RHS
-- which is ok, they are passed sequentially.
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eachArgTypeOk2 : eachArgType {a = "1", a = "2", a = "3"} = "123"
eachArgTypeOk2 = Refl
----------------------------------------
--------- Bind-all-explicits pattern ----------
-- This pattern works like inexhaustible supply of
-- `_` (Match-any patterns).
-- Here to complete the definition we only
-- need to know the name of the OrdinaryDog.
-- We bind it with `{name, _}` also stating that
-- any extra explicits should be disregarded,
-- by inserting `_` into the braces.
onlyName : OrdinaryDog -> String
onlyName (MkDog {name, _ {-age, weight-} }) = name
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dontCare : (x : String) -> (y : String) -> (z : String) -> String
dontCare {x, z, _} = x ++ z
dontCareOk : Main.dontCare "a" "b" "c" = "ac"
dontCareOk = Refl
-- If none of the explicit arguments are wanted
-- one `{}` can be used instead of writing an underscore for each.
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dontCare2 : (x : Nat) -> Nat -> Nat -> Nat -> (y : Nat) -> x + y = y + x
dontCare2 {} = plusCommutative {}
-- dontCare2 _ _ _ _ _ = plusCommutative _ _
data Tree a = Leaf a | Node (Tree a) a (Tree a)
isNode : Tree a -> Bool
isNode (Node {}) = True
isNode _ = False
data IsNode : Tree a -> Type where
Is : IsNode (Node {})
decIsNode : (x : Tree a) -> Dec (IsNode x)
decIsNode (Node {}) = Yes Is
decIsNode (Leaf {}) = No (\case Is impossible)
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