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04a0f5001f
We've always just used 0, which isn't correct if the function is going to be used in a runtime pattern match. Now calculate correctly so that we're explicit about which type level variables are used at runtime. This might cause some programs to fail to compile, if they use functions that calculate Pi types. The solution is to make those functions explicitly 0 multiplicity. If that doesn't work, you may have been accidentally trying to use compile-time only data at run time! Fixes #1163
33 lines
1.2 KiB
Idris
33 lines
1.2 KiB
Idris
||| N-ary dependent functions using telescopes
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||| Compare with `base/Data.Fun` and:
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||| Guillaume Allais. 2019. Generic level polymorphic n-ary functions. TyDe 2019.
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module Data.Telescope.Fun
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import Data.Telescope.Telescope
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import Data.Telescope.Segment
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import Data.Telescope.SimpleFun
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public export
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0 Fun : (env : Left.Environment gamma) -> {n : Nat} -> (0 delta : Segment n gamma)
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-> (cod : SimpleFun env delta Type)
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-> Type
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Fun env {n = 0 } [] cod = cod
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Fun env {n = S n} (ty :: delta) cod = (x : ty env) -> Fun (env ** x) delta (cod x)
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public export
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uncurry : {0 n : Nat} -> {0 env : Left.Environment gamma} -> {0 delta : Segment n gamma}
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-> {0 cod : SimpleFun env delta Type}
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-> (f : Fun env delta cod) -> (ext : Environment env delta)
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-> uncurry cod ext
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uncurry f Empty = f
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uncurry f (x .= xs) = Fun.uncurry (f x) xs
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public export
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curry : {n : Nat} -> {0 env : Left.Environment gamma} -> {0 delta : Segment n gamma}
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-> {0 cod : SimpleFun env delta Type}
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-> ((ext : Environment env delta) -> SimpleFun.uncurry cod ext)
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-> Fun env delta cod
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curry {n = 0 } {delta = [] } f = f Empty
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curry {n = S n} {delta = ty :: delta} f = \x => Fun.curry (\xs => f (x .= xs))
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