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|
Nat.sub : nat -> nat -> nat
Nat.sub is not universe polymorphic
Arguments Nat.sub (_ _)%nat_scope : simpl nomatch
The reduction tactics unfold Nat.sub but avoid exposing match constructs
Nat.sub is transparent
Expands to: Constant Coq.Init.Nat.sub
Nat.sub : nat -> nat -> nat
Nat.sub is not universe polymorphic
Arguments Nat.sub _%nat_scope / _%nat_scope : simpl nomatch
The reduction tactics unfold Nat.sub when applied to 1 argument
but avoid exposing match constructs
Nat.sub is transparent
Expands to: Constant Coq.Init.Nat.sub
Nat.sub : nat -> nat -> nat
Nat.sub is not universe polymorphic
Arguments Nat.sub !_%nat_scope / _%nat_scope : simpl nomatch
The reduction tactics unfold Nat.sub
when the 1st argument evaluates to a constructor and
when applied to 1 argument but avoid exposing match constructs
Nat.sub is transparent
Expands to: Constant Coq.Init.Nat.sub
Nat.sub : nat -> nat -> nat
Nat.sub is not universe polymorphic
Arguments Nat.sub (!_ !_)%nat_scope /
The reduction tactics unfold Nat.sub when the 1st and
2nd arguments evaluate to a constructor and when applied to 2 arguments
Nat.sub is transparent
Expands to: Constant Coq.Init.Nat.sub
Nat.sub : nat -> nat -> nat
Nat.sub is not universe polymorphic
Arguments Nat.sub (!_ !_)%nat_scope
The reduction tactics unfold Nat.sub when the 1st and
2nd arguments evaluate to a constructor
Nat.sub is transparent
Expands to: Constant Coq.Init.Nat.sub
pf :
forall {D1 C1 : Type},
(D1 -> C1) -> forall D2 C2 : Type, (D2 -> C2) -> D1 * D2 -> C1 * C2
pf is not universe polymorphic
Arguments pf {D1}%foo_scope {C1}%type_scope _ [D2 C2] _ _ : simpl never
The reduction tactics never unfold pf
pf is transparent
Expands to: Constant Arguments.pf
fcomp : forall {A B C : Type}, (B -> C) -> (A -> B) -> A -> C
fcomp is not universe polymorphic
Arguments fcomp {A B C}%type_scope _ _ _ /
The reduction tactics unfold fcomp when applied to 6 arguments
fcomp is transparent
Expands to: Constant Arguments.fcomp
volatile : nat -> nat
volatile is not universe polymorphic
Arguments volatile / _%nat_scope
The reduction tactics always unfold volatile
volatile is transparent
Expands to: Constant Arguments.volatile
f : T1 -> T2 -> nat -> unit -> nat -> nat
f is not universe polymorphic
Arguments f _ _ _%nat_scope _ _%nat_scope
f is transparent
Expands to: Constant Arguments.S1.S2.f
f : T1 -> T2 -> nat -> unit -> nat -> nat
f is not universe polymorphic
Arguments f _ _ !_%nat_scope !_ !_%nat_scope
The reduction tactics unfold f when the 3rd, 4th and
5th arguments evaluate to a constructor
f is transparent
Expands to: Constant Arguments.S1.S2.f
f : forall [T2 : Type], T1 -> T2 -> nat -> unit -> nat -> nat
f is not universe polymorphic
Arguments f [T2]%type_scope _ _ !_%nat_scope !_ !_%nat_scope
The reduction tactics unfold f when the 4th, 5th and
6th arguments evaluate to a constructor
f is transparent
Expands to: Constant Arguments.S1.f
f : forall [T1 T2 : Type], T1 -> T2 -> nat -> unit -> nat -> nat
f is not universe polymorphic
Arguments f [T1 T2]%type_scope _ _ !_%nat_scope !_ !_%nat_scope
The reduction tactics unfold f when the 5th, 6th and
7th arguments evaluate to a constructor
f is transparent
Expands to: Constant Arguments.f
= forall v : unit, f 0 0 5 v 3 = 2
: Prop
= 2 = 2
: Prop
f : forall T1 T2 : Type, T1 -> T2 -> nat -> unit -> nat -> nat
f is not universe polymorphic
Arguments f _ _ _ _ !_ !_ !_
The reduction tactics unfold f when the 5th, 6th and
7th arguments evaluate to a constructor
f is transparent
Expands to: Constant Arguments.f
forall w : r, w 3 true = tt
: Prop
The command has indeed failed with message:
Unknown interpretation for notation "$".
w 3 true = tt
: Prop
The command has indeed failed with message:
Extra arguments: _, _.
volatilematch : nat -> nat
volatilematch is not universe polymorphic
Arguments volatilematch / _%nat_scope : simpl nomatch
The reduction tactics always unfold volatilematch
but avoid exposing match constructs
volatilematch is transparent
Expands to: Constant Arguments.volatilematch
= fun n : nat => volatilematch n
: nat -> nat
|
