false: bool
true: bool
negb: bool -> bool
implb: bool -> bool -> bool
orb: bool -> bool -> bool
andb: bool -> bool -> bool
xorb: bool -> bool -> bool
Nat.even: nat -> bool
Nat.odd: nat -> bool
Nat.leb: nat -> nat -> bool
Nat.ltb: nat -> nat -> bool
Nat.testbit: nat -> nat -> bool
Nat.eqb: nat -> nat -> bool
Nat.two: nat
Nat.one: nat
Nat.zero: nat
O: nat
Nat.div2: nat -> nat
Nat.log2: nat -> nat
Nat.succ: nat -> nat
Nat.sqrt: nat -> nat
Nat.pred: nat -> nat
Nat.double: nat -> nat
Nat.square: nat -> nat
S: nat -> nat
Nat.ldiff: nat -> nat -> nat
Nat.tail_add: nat -> nat -> nat
Nat.land: nat -> nat -> nat
Nat.tail_mul: nat -> nat -> nat
Nat.div: nat -> nat -> nat
Nat.lor: nat -> nat -> nat
Nat.gcd: nat -> nat -> nat
Nat.modulo: nat -> nat -> nat
Nat.max: nat -> nat -> nat
Nat.sub: nat -> nat -> nat
Nat.mul: nat -> nat -> nat
Nat.lxor: nat -> nat -> nat
Nat.add: nat -> nat -> nat
Nat.min: nat -> nat -> nat
Nat.pow: nat -> nat -> nat
Nat.of_uint: Decimal.uint -> nat
Nat.tail_addmul: nat -> nat -> nat -> nat
Nat.of_uint_acc: Decimal.uint -> nat -> nat
Nat.log2_iter: nat -> nat -> nat -> nat -> nat
Nat.sqrt_iter: nat -> nat -> nat -> nat -> nat
length: forall A : Type, list A -> nat
Nat.bitwise: (bool -> bool -> bool) -> nat -> nat -> nat -> nat
Nat.div2: nat -> nat
Nat.sqrt: nat -> nat
Nat.log2: nat -> nat
Nat.double: nat -> nat
Nat.pred: nat -> nat
Nat.square: nat -> nat
Nat.succ: nat -> nat
S: nat -> nat
Nat.ldiff: nat -> nat -> nat
Nat.pow: nat -> nat -> nat
Nat.land: nat -> nat -> nat
Nat.lxor: nat -> nat -> nat
Nat.div: nat -> nat -> nat
Nat.lor: nat -> nat -> nat
Nat.tail_mul: nat -> nat -> nat
Nat.modulo: nat -> nat -> nat
Nat.sub: nat -> nat -> nat
Nat.mul: nat -> nat -> nat
Nat.gcd: nat -> nat -> nat
Nat.max: nat -> nat -> nat
Nat.tail_add: nat -> nat -> nat
Nat.add: nat -> nat -> nat
Nat.min: nat -> nat -> nat
Nat.tail_addmul: nat -> nat -> nat -> nat
Nat.of_uint_acc: Decimal.uint -> nat -> nat
Nat.log2_iter: nat -> nat -> nat -> nat -> nat
Nat.sqrt_iter: nat -> nat -> nat -> nat -> nat
Nat.bitwise: (bool -> bool -> bool) -> nat -> nat -> nat -> nat
mult_n_Sm: forall n m : nat, n * m + n = n * S m
iff_refl: forall A : Prop, A <-> A
le_n: forall n : nat, n <= n
identity_refl: forall (A : Type) (a : A), identity a a
eq_refl: forall (A : Type) (x : A), x = x
Nat.divmod: nat -> nat -> nat -> nat -> nat * nat
conj: forall A B : Prop, A -> B -> A /\ B
pair: forall A B : Type, A -> B -> A * B
Nat.divmod: nat -> nat -> nat -> nat -> nat * nat
h: n <> newdef n
h: n <> newdef n
h: P n
h': ~ P n
h: P n
h: P n