Idris2/libs/contrib/Data/Vect/Properties/Map.idr

||| Properties of Data.Vect.map
module Data.Vect.Properties.Map

import Data.Vect.Properties.Tabulate
import Data.Vect.Properties.Index
import Data.Vect.Properties.Foldr

import Data.Vect
import Data.Vect.Elem
import Data.Fin
import Data.Vect.Extra

import Syntax.PreorderReasoning

||| `map` functoriality: identity preservation
export
mapId : (xs : Vect n a) -> map Prelude.id xs = xs
mapId xs = vectorExtensionality _ _ $ \i => indexNaturality _ _ _

||| `mapWtihPos f` represents post-composition the tabulated function `f`
export
indexMapWithPos : (f : Fin n -> a -> b) -> (xs : Vect n a) -> (i : Fin n)
  -> index i (mapWithPos f xs) = f i (index i xs)
indexMapWithPos f (x :: _ )  FZ    = Refl
indexMapWithPos f (_ :: xs) (FS i) = indexMapWithPos _ _ _

||| `tabulate : (Fin n ->) -> Vect n` is a natural transformation
export
mapTabulate : (f : a -> b) -> (g : Fin n -> a)
  -> tabulate (f . g) = map f (tabulate g)
mapTabulate f g = irrelevantEq $
  vectorExtensionality _ _ $ \i => Calc $
  |~ index i (tabulate (f . g))
  ~~ f (g i)                      ...(indexTabulate _ _)
  ~~ f (index i $ tabulate g)     ...(cong f (sym $ indexTabulate _ _))
  ~~ index i (map f $ tabulate g) ...(sym $ indexNaturality _ _ _)

||| Tabulating with the constant function is replication
export
tabulateConstantly : (x : a) -> Fin.tabulate {len} (const x) === replicate len  x
tabulateConstantly x = irrelevantEq $
  vectorExtensionality _ _ $ \i => Calc $
  |~ index i (Fin.tabulate (const x))
  ~~ x ...(indexTabulate _ _)
  ~~ index i (replicate _ x) ...(sym $ indexReplicate _ _)

||| It's enough that two functions agree on the elements of a vector for the maps to agree
export
mapRestrictedExtensional : (f, g : a -> b) -> (xs : Vect n a)
  -> (prf : (i : Fin n) -> f (index i xs) = g (index i xs))
  -> map f xs = map g xs
mapRestrictedExtensional f g xs prf = vectorExtensionality _ _ $ \i => Calc $
  |~ index i (map f xs)
  ~~ f (index i xs)     ...(      indexNaturality _ _ _)
  ~~ g (index i xs)     ...(prf _)
  ~~ index i (map g xs) ...(sym $ indexNaturality _ _ _)

||| function extensionality is a congruence wrt map
export
mapExtensional : (f, g : a -> b)
  -> (prf : (x : a) -> f x = g x)
  -> (xs : Vect n a)
  -> map f xs = map g xs
mapExtensional f g prf xs = mapRestrictedExtensional f g xs (\i => prf (index i xs))

||| map-fusion property for vectors up to function extensionality
export
mapFusion : (f : b -> c) -> (g : a -> b) -> (xs : Vect n a)
  -> map f (map g xs) = map (f . g) xs
mapFusion f g    []     = Refl
mapFusion f g (x :: xs) = cong (f $ g x ::) $ mapFusion f g xs

||| function extensionality is a congruence wrt mapWithElem
export
mapWithElemExtensional : (xs : Vect n a) -> (f, g :  (x : a) -> (0 _ : x `Elem` xs) -> b)
  -> ((x : a) -> (0 pos : x `Elem` xs) -> f x pos = g x pos)
  -> mapWithElem xs f = mapWithElem xs g
mapWithElemExtensional    []     f g prf = Refl
mapWithElemExtensional (x :: xs) f g prf
  = cong2 (::) (prf x Here)
               (mapWithElemExtensional xs _ _ (\x,pos => prf x (There pos)))
Vect reasoning library (#1439) When working on Frex I needed a whole bunch of lemmata to do with Data.Vect. I hope it will be useful for others. 2021-05-20 13:55:22 +03:00			`\|\|\| Properties of Data.Vect.map`
			`module Data.Vect.Properties.Map`

			`import Data.Vect.Properties.Tabulate`
			`import Data.Vect.Properties.Index`
			`import Data.Vect.Properties.Foldr`

			`import Data.Vect`
			`import Data.Vect.Elem`
			`import Data.Fin`
			`import Data.Vect.Extra`

			`import Syntax.PreorderReasoning`

			\|\|\| `map` functoriality: identity preservation
			`export`
			`mapId : (xs : Vect n a) -> map Prelude.id xs = xs`
[ breaking ] remove parsing of dangling binders (#1711) * [ breaking ] remove parsing of dangling binders It used to be the case that ``` ID : Type -> Type ID a = a test : ID (a : Type) -> a -> a test = \ a, x => x ``` and ``` head : List $ a -> Maybe a head [] = Nothing head (x :: _) = Just x ``` were accepted but these are now rejected because: * `ID (a : Type) -> a -> a` is parsed as `(ID (a : Type)) -> a -> a` * `List $ a -> Maybe a` is parsed as `List (a -> Maybe a)` Similarly if you want to use a lambda / rewrite / let expression as part of the last argument of an application, the use of `$` or parens is now mandatory. This should hopefully allow us to make progress on #1703 2021-08-10 21:24:32 +03:00			`mapId xs = vectorExtensionality _ _ $ \i => indexNaturality _ _ _`
Vect reasoning library (#1439) When working on Frex I needed a whole bunch of lemmata to do with Data.Vect. I hope it will be useful for others. 2021-05-20 13:55:22 +03:00
			\|\|\| `mapWtihPos f` represents post-composition the tabulated function `f`
			`export`
			`indexMapWithPos : (f : Fin n -> a -> b) -> (xs : Vect n a) -> (i : Fin n)`
			`-> index i (mapWithPos f xs) = f i (index i xs)`
			`indexMapWithPos f (x :: _ ) FZ = Refl`
			`indexMapWithPos f (_ :: xs) (FS i) = indexMapWithPos _ _ _`

			\|\|\| `tabulate : (Fin n ->) -> Vect n` is a natural transformation
			`export`
			`mapTabulate : (f : a -> b) -> (g : Fin n -> a)`
			`-> tabulate (f . g) = map f (tabulate g)`
			`mapTabulate f g = irrelevantEq $`
[ breaking ] remove parsing of dangling binders (#1711) * [ breaking ] remove parsing of dangling binders It used to be the case that ``` ID : Type -> Type ID a = a test : ID (a : Type) -> a -> a test = \ a, x => x ``` and ``` head : List $ a -> Maybe a head [] = Nothing head (x :: _) = Just x ``` were accepted but these are now rejected because: * `ID (a : Type) -> a -> a` is parsed as `(ID (a : Type)) -> a -> a` * `List $ a -> Maybe a` is parsed as `List (a -> Maybe a)` Similarly if you want to use a lambda / rewrite / let expression as part of the last argument of an application, the use of `$` or parens is now mandatory. This should hopefully allow us to make progress on #1703 2021-08-10 21:24:32 +03:00			`vectorExtensionality _ _ $ \i => Calc $`
Vect reasoning library (#1439) When working on Frex I needed a whole bunch of lemmata to do with Data.Vect. I hope it will be useful for others. 2021-05-20 13:55:22 +03:00			`\|~ index i (tabulate (f . g))`
			`~~ f (g i) ...(indexTabulate _ _)`
			`~~ f (index i $ tabulate g) ...(cong f (sym $ indexTabulate _ _))`
			`~~ index i (map f $ tabulate g) ...(sym $ indexNaturality _ _ _)`

			`\|\|\| Tabulating with the constant function is replication`
			`export`
			`tabulateConstantly : (x : a) -> Fin.tabulate {len} (const x) === replicate len x`
			`tabulateConstantly x = irrelevantEq $`
[ breaking ] remove parsing of dangling binders (#1711) * [ breaking ] remove parsing of dangling binders It used to be the case that ``` ID : Type -> Type ID a = a test : ID (a : Type) -> a -> a test = \ a, x => x ``` and ``` head : List $ a -> Maybe a head [] = Nothing head (x :: _) = Just x ``` were accepted but these are now rejected because: * `ID (a : Type) -> a -> a` is parsed as `(ID (a : Type)) -> a -> a` * `List $ a -> Maybe a` is parsed as `List (a -> Maybe a)` Similarly if you want to use a lambda / rewrite / let expression as part of the last argument of an application, the use of `$` or parens is now mandatory. This should hopefully allow us to make progress on #1703 2021-08-10 21:24:32 +03:00			`vectorExtensionality _ _ $ \i => Calc $`
Vect reasoning library (#1439) When working on Frex I needed a whole bunch of lemmata to do with Data.Vect. I hope it will be useful for others. 2021-05-20 13:55:22 +03:00			`\|~ index i (Fin.tabulate (const x))`
			`~~ x ...(indexTabulate _ _)`
			`~~ index i (replicate _ x) ...(sym $ indexReplicate _ _)`

			`\|\|\| It's enough that two functions agree on the elements of a vector for the maps to agree`
			`export`
			`mapRestrictedExtensional : (f, g : a -> b) -> (xs : Vect n a)`
			`-> (prf : (i : Fin n) -> f (index i xs) = g (index i xs))`
			`-> map f xs = map g xs`
[ breaking ] remove parsing of dangling binders (#1711) * [ breaking ] remove parsing of dangling binders It used to be the case that ``` ID : Type -> Type ID a = a test : ID (a : Type) -> a -> a test = \ a, x => x ``` and ``` head : List $ a -> Maybe a head [] = Nothing head (x :: _) = Just x ``` were accepted but these are now rejected because: * `ID (a : Type) -> a -> a` is parsed as `(ID (a : Type)) -> a -> a` * `List $ a -> Maybe a` is parsed as `List (a -> Maybe a)` Similarly if you want to use a lambda / rewrite / let expression as part of the last argument of an application, the use of `$` or parens is now mandatory. This should hopefully allow us to make progress on #1703 2021-08-10 21:24:32 +03:00			`mapRestrictedExtensional f g xs prf = vectorExtensionality _ _ $ \i => Calc $`
Vect reasoning library (#1439) When working on Frex I needed a whole bunch of lemmata to do with Data.Vect. I hope it will be useful for others. 2021-05-20 13:55:22 +03:00			`\|~ index i (map f xs)`
			`~~ f (index i xs) ...( indexNaturality _ _ _)`
			`~~ g (index i xs) ...(prf _)`
			`~~ index i (map g xs) ...(sym $ indexNaturality _ _ _)`

			`\|\|\| function extensionality is a congruence wrt map`
			`export`
			`mapExtensional : (f, g : a -> b)`
			`-> (prf : (x : a) -> f x = g x)`
			`-> (xs : Vect n a)`
			`-> map f xs = map g xs`
			`mapExtensional f g prf xs = mapRestrictedExtensional f g xs (\i => prf (index i xs))`

			`\|\|\| map-fusion property for vectors up to function extensionality`
			`export`
			`mapFusion : (f : b -> c) -> (g : a -> b) -> (xs : Vect n a)`
			`-> map f (map g xs) = map (f . g) xs`
			`mapFusion f g [] = Refl`
			`mapFusion f g (x :: xs) = cong (f $ g x ::) $ mapFusion f g xs`
[contrib] More properties of vectors (#1449) 2021-05-24 10:48:00 +03:00
			`\|\|\| function extensionality is a congruence wrt mapWithElem`
			`export`
			mapWithElemExtensional : (xs : Vect n a) -> (f, g : (x : a) -> (0 _ : x `Elem` xs) -> b)
			-> ((x : a) -> (0 pos : x `Elem` xs) -> f x pos = g x pos)
			`-> mapWithElem xs f = mapWithElem xs g`
			`mapWithElemExtensional [] f g prf = Refl`
[ breaking ] remove parsing of dangling binders (#1711) * [ breaking ] remove parsing of dangling binders It used to be the case that ``` ID : Type -> Type ID a = a test : ID (a : Type) -> a -> a test = \ a, x => x ``` and ``` head : List $ a -> Maybe a head [] = Nothing head (x :: _) = Just x ``` were accepted but these are now rejected because: * `ID (a : Type) -> a -> a` is parsed as `(ID (a : Type)) -> a -> a` * `List $ a -> Maybe a` is parsed as `List (a -> Maybe a)` Similarly if you want to use a lambda / rewrite / let expression as part of the last argument of an application, the use of `$` or parens is now mandatory. This should hopefully allow us to make progress on #1703 2021-08-10 21:24:32 +03:00			`mapWithElemExtensional (x :: xs) f g prf`
			`= cong2 (::) (prf x Here)`
			`(mapWithElemExtensional xs _ _ (\x,pos => prf x (There pos)))`