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lean4-htt/tests/elab/list_monadic_functions.lean.out.expected
Garmelon 08eb78a5b2
chore: switch to new test/bench suite (#12590) 
This PR sets up the new integrated test/bench suite. It then migrates
all benchmarks and some related tests to the new suite. There's also
some documentation and some linting.

For now, a lot of the old tests are left alone so this PR doesn't become
even larger than it already is. Eventually, all tests should be migrated
to the new suite though so there isn't a confusing mix of two systems.
2026-02-25 13:51:53 +00:00

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List.mapM.{u, v, w} {m : Type u → Type v} [Monad m] {α : Type w} {β : Type u} (f : α → m β) (as : List α) : m (List β)
Array.mapM.{u, v, w} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (f : α → m β) (as : Array α) :
m (Array β)
Vector.mapM.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {α : Type u_3} {β : Type u_1} {n : Nat} [Monad m] (f : α → m β)
(xs : Vector α n) : m (Vector β n)
List.flatMapM.{u, v, w} {m : Type u → Type v} [Monad m] {α : Type w} {β : Type u} (f : α → m (List β)) (as : List α) :
m (List β)
Array.flatMapM.{u, u_1, u_2} {α : Type u} {m : Type u_1 → Type u_2} {β : Type u_1} [Monad m] (f : α → m (Array β))
(as : Array α) : m (Array β)
Vector.flatMapM.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {α : Type u_3} {n : Nat} {β : Type u_1} {k : Nat} [Monad m]
(xs : Vector α n) (f : α → m (Vector β k)) : m (Vector β (n * k))
List.mapFinIdxM.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {α : Type u_3} {β : Type u_1} [Monad m] (as : List α)
(f : (i : Nat) → α → i < as.length → m β) : m (List β)
Array.mapFinIdxM.{u, v, w} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (as : Array α)
(f : (i : Nat) → α → i < as.size → m β) : m (Array β)
Vector.mapFinIdxM.{u, v, w} {n : Nat} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (xs : Vector α n)
(f : (i : Nat) → α → i < n → m β) : m (Vector β n)
List.mapIdxM.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {α : Type u_3} {β : Type u_1} [Monad m] (f : Nat → α → m β)
(as : List α) : m (List β)
Array.mapIdxM.{u, v, w} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (f : Nat → α → m β) (as : Array α) :
m (Array β)
Vector.mapIdxM.{u, v, w} {n : Nat} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (f : Nat → α → m β)
(xs : Vector α n) : m (Vector β n)
List.firstM.{u, v, w} {m : Type u → Type v} [Alternative m] {α : Type w} {β : Type u} (f : α → m β) : List α → m β
Array.firstM.{u, v, w} {β : Type v} {α : Type u} {m : Type v → Type w} [Alternative m] (f : α → m β) (as : Array α) :
m β
Vector.firstM.{u, v, w} {β : Type v} {n : Nat} {α : Type u} {m : Type v → Type w} [Alternative m] (f : α → m β)
(xs : Vector α n) : m β
List.forM.{u, v, w} {m : Type u → Type v} [Monad m] {α : Type w} (as : List α) (f : α → m PUnit) : m PUnit
Array.forM.{u, v, w} {α : Type u} {m : Type v → Type w} [Monad m] (f : α → m PUnit) (as : Array α) (start : Nat := 0)
(stop : Nat := as.size) : m PUnit
Vector.forM.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {α : Type u_3} {n : Nat} [Monad m] (xs : Vector α n)
(f : α → m PUnit) : m PUnit
List.filterM.{v} {m : Type → Type v} [Monad m] {α : Type} (p : α → m Bool) (as : List α) : m (List α)
Array.filterM.{u_1} {m : Type → Type u_1} {α : Type} [Monad m] (p : α → m Bool) (as : Array α) (start : Nat := 0)
(stop : Nat := as.size) : m (Array α)
List.filterRevM.{v} {m : Type → Type v} [Monad m] {α : Type} (p : α → m Bool) (as : List α) : m (List α)
Array.filterRevM.{u_1} {m : Type → Type u_1} {α : Type} [Monad m] (p : α → m Bool) (as : Array α)
(start : Nat := as.size) (stop : Nat := 0) : m (Array α)
List.filterMapM.{u, v, w} {m : Type u → Type v} [Monad m] {α : Type w} {β : Type u} (f : α → m (Option β))
(as : List α) : m (List β)
Array.filterMapM.{u, u_1, u_2} {α : Type u} {m : Type u_1 → Type u_2} {β : Type u_1} [Monad m] (f : α → m (Option β))
(as : Array α) (start : Nat := 0) (stop : Nat := as.size) : m (Array β)
List.foldlM.{u, v, w} {m : Type u → Type v} [Monad m] {s : Type u} {α : Type w} (f : s → α → m s) (init : s) :
List α → m s
Array.foldlM.{u, v, w} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (f : β → α → m β) (init : β)
(as : Array α) (start : Nat := 0) (stop : Nat := as.size) : m β
Vector.foldlM.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {β : Type u_1} {α : Type u_3} {n : Nat} [Monad m]
(f : β → α → m β) (b : β) (xs : Vector α n) : m β
List.foldrM.{u, v, w} {m : Type u → Type v} [Monad m] {s : Type u} {α : Type w} (f : α → s → m s) (init : s)
(l : List α) : m s
Array.foldrM.{u, v, w} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (f : α → β → m β) (init : β)
(as : Array α) (start : Nat := as.size) (stop : Nat := 0) : m β
Vector.foldrM.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {α : Type u_3} {β : Type u_1} {n : Nat} [Monad m]
(f : α → β → m β) (b : β) (xs : Vector α n) : m β
List.findM?.{u} {m : Type → Type u} [Monad m] {α : Type} (p : α → m Bool) : List α → m (Option α)
Array.findM?.{u_1} {m : Type → Type u_1} {α : Type} [Monad m] (p : α → m Bool) (as : Array α) : m (Option α)
Vector.findM? {n : Nat} {α : Type} {m : Type → Type} [Monad m] (f : α → m Bool) (as : Vector α n) : m (Option α)
List.findSomeM?.{u, v, w} {m : Type u → Type v} [Monad m] {α : Type w} {β : Type u} (f : α → m (Option β)) :
List α → m (Option β)
Array.findSomeM?.{u, v, w} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (f : α → m (Option β))
(as : Array α) : m (Option β)
Vector.findSomeM?.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {α : Type u_3} {β : Type u_1} {n : Nat} [Monad m]
(f : α → m (Option β)) (as : Vector α n) : m (Option β)
List.anyM.{u, v} {m : Type → Type u} [Monad m] {α : Type v} (p : α → m Bool) (l : List α) : m Bool
Array.anyM.{u, w} {α : Type u} {m : Type → Type w} [Monad m] (p : α → m Bool) (as : Array α) (start : Nat := 0)
(stop : Nat := as.size) : m Bool
Vector.anyM.{u_1, u_2} {m : Type → Type u_1} {α : Type u_2} {n : Nat} [Monad m] (p : α → m Bool) (xs : Vector α n) :
m Bool
List.allM.{u, v} {m : Type → Type u} [Monad m] {α : Type v} (p : α → m Bool) (l : List α) : m Bool
Array.allM.{u, w} {α : Type u} {m : Type → Type w} [Monad m] (p : α → m Bool) (as : Array α) (start : Nat := 0)
(stop : Nat := as.size) : m Bool
Vector.allM.{u_1, u_2} {m : Type → Type u_1} {α : Type u_2} {n : Nat} [Monad m] (p : α → m Bool) (xs : Vector α n) :
m Bool
List.instForIn'InferInstanceMembershipOfMonad
Array.instForIn'InferInstanceMembershipOfMonad
Vector.instForIn'InferInstanceMembershipOfMonad
List.forM.{u, v, w} {m : Type u → Type v} [Monad m] {α : Type w} (as : List α) (f : α → m PUnit) : m PUnit
Array.forM.{u, v, w} {α : Type u} {m : Type v → Type w} [Monad m] (f : α → m PUnit) (as : Array α) (start : Nat := 0)
(stop : Nat := as.size) : m PUnit
Vector.forM.{u_1, u_2, u_3} {m : Type u_1 → Type u_2} {α : Type u_3} {n : Nat} [Monad m] (xs : Vector α n)
(f : α → m PUnit) : m PUnit
List.instForMOfMonad
Array.instForMOfMonad
Vector.instForMOfMonad
List.instFunctor
Array.instFunctor
Array.modifyM.{u, u_1} {α : Type u} {m : Type u → Type u_1} [Monad m] (xs : Array α) (i : Nat) (f : α → m α) :
m (Array α)
Array.forRevM.{u, v, w} {α : Type u} {m : Type v → Type w} [Monad m] (f : α → m PUnit) (as : Array α)
(start : Nat := as.size) (stop : Nat := 0) : m PUnit
Array.findRevM?.{w} {α : Type} {m : Type → Type w} [Monad m] (p : α → m Bool) (as : Array α) : m (Option α)
Array.findSomeRevM?.{u, v, w} {α : Type u} {β : Type v} {m : Type v → Type w} [Monad m] (f : α → m (Option β))
(as : Array α) : m (Option β)
Array.findIdxM?.{u, u_1} {α : Type u} {m : Type → Type u_1} [Monad m] (p : α → m Bool) (as : Array α) : m (Option Nat)
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