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le_n: forall n : nat, n <= n
le_0_n: forall n : nat, 0 <= n
le_S: forall n m : nat, n <= m -> n <= S m
le_S_n: forall n m : nat, S n <= S m -> n <= m
le_pred: forall n m : nat, n <= m -> Nat.pred n <= Nat.pred m
le_n_S: forall n m : nat, n <= m -> S n <= S m
max_l: forall n m : nat, m <= n -> Nat.max n m = n
max_r: forall n m : nat, n <= m -> Nat.max n m = m
min_r: forall n m : nat, m <= n -> Nat.min n m = m
min_l: forall n m : nat, n <= m -> Nat.min n m = n
le_ind:
  forall (n : nat) (P : nat -> Prop),
  P n ->
  (forall m : nat, n <= m -> P m -> P (S m)) ->
  forall n0 : nat, n <= n0 -> P n0
le_sind:
  forall (n : nat) (P : nat -> SProp),
  P n ->
  (forall m : nat, n <= m -> P m -> P (S m)) ->
  forall n0 : nat, n <= n0 -> P n0
false: bool
true: bool
is_true: bool -> Prop
eq_true: bool -> Prop
negb: bool -> bool
xorb: bool -> bool -> bool
implb: bool -> bool -> bool
reflect: Prop -> bool -> Set
andb: bool -> bool -> bool
orb: bool -> bool -> bool
Nat.even: nat -> bool
Nat.odd: nat -> bool
BoolSpec: Prop -> Prop -> bool -> Prop
Decimal.uint_beq: Decimal.uint -> Decimal.uint -> bool
Nat.leb: nat -> nat -> bool
Decimal.decimal_beq: Decimal.decimal -> Decimal.decimal -> bool
Number.uint_beq: Number.uint -> Number.uint -> bool
Nat.ltb: nat -> nat -> bool
Decimal.signed_int_beq: Decimal.signed_int -> Decimal.signed_int -> bool
Nat.eqb: nat -> nat -> bool
Hexadecimal.uint_beq: Hexadecimal.uint -> Hexadecimal.uint -> bool
Number.signed_int_beq: Number.signed_int -> Number.signed_int -> bool
Number.number_beq: Number.number -> Number.number -> bool
Hexadecimal.signed_int_beq:
  Hexadecimal.signed_int -> Hexadecimal.signed_int -> bool
Hexadecimal.hexadecimal_beq:
  Hexadecimal.hexadecimal -> Hexadecimal.hexadecimal -> bool
Nat.testbit: nat -> nat -> bool
Nat.bitwise: (bool -> bool -> bool) -> nat -> nat -> nat -> nat
eq_true_sind:
  forall P : bool -> SProp, P true -> forall [b : bool], eq_true b -> P b
eq_true_rect:
  forall P : bool -> Type, P true -> forall [b : bool], eq_true b -> P b
eq_true_rect_r:
  forall (P : bool -> Type) [b : bool], P b -> eq_true b -> P true
eq_true_rec:
  forall P : bool -> Set, P true -> forall [b : bool], eq_true b -> P b
eq_true_ind:
  forall P : bool -> Prop, P true -> forall [b : bool], eq_true b -> P b
bool_ind: forall P : bool -> Prop, P true -> P false -> forall b : bool, P b
bool_rec: forall P : bool -> Set, P true -> P false -> forall b : bool, P b
eq_true_rec_r:
  forall (P : bool -> Set) [b : bool], P b -> eq_true b -> P true
eq_true_ind_r:
  forall (P : bool -> Prop) [b : bool], P b -> eq_true b -> P true
bool_sind:
  forall P : bool -> SProp, P true -> P false -> forall b : bool, P b
bool_rect: forall P : bool -> Type, P true -> P false -> forall b : bool, P b
bool_of_sumbool:
  forall [A B : Prop], {A} + {B} -> {b : bool | if b then A else B}
sumbool_of_bool: forall b : bool, {b = true} + {b = false}
Decimal.internal_decimal_dec_bl:
  forall x y : Decimal.decimal, Decimal.decimal_beq x y = true -> x = y
Number.internal_uint_dec_bl1:
  forall x y : Number.uint, Number.uint_beq x y = true -> x = y
Number.internal_uint_dec_lb1:
  forall x y : Number.uint, x = y -> Number.uint_beq x y = true
Number.internal_signed_int_dec_lb1:
  forall x y : Number.signed_int, x = y -> Number.signed_int_beq x y = true
Number.internal_number_dec_lb:
  forall x y : Number.number, x = y -> Number.number_beq x y = true
Decimal.internal_decimal_dec_lb:
  forall x y : Decimal.decimal, x = y -> Decimal.decimal_beq x y = true
Byte.of_bits:
  bool * (bool * (bool * (bool * (bool * (bool * (bool * bool)))))) ->
  Byte.byte
Hexadecimal.internal_signed_int_dec_lb0:
  forall x y : Hexadecimal.signed_int,
  x = y -> Hexadecimal.signed_int_beq x y = true
Hexadecimal.internal_hexadecimal_dec_lb:
  forall x y : Hexadecimal.hexadecimal,
  x = y -> Hexadecimal.hexadecimal_beq x y = true
Hexadecimal.internal_signed_int_dec_bl0:
  forall x y : Hexadecimal.signed_int,
  Hexadecimal.signed_int_beq x y = true -> x = y
Number.internal_signed_int_dec_bl1:
  forall x y : Number.signed_int, Number.signed_int_beq x y = true -> x = y
Hexadecimal.internal_hexadecimal_dec_bl:
  forall x y : Hexadecimal.hexadecimal,
  Hexadecimal.hexadecimal_beq x y = true -> x = y
Decimal.internal_signed_int_dec_lb:
  forall x y : Decimal.signed_int, x = y -> Decimal.signed_int_beq x y = true
Byte.to_bits:
  Byte.byte ->
  bool * (bool * (bool * (bool * (bool * (bool * (bool * bool))))))
Decimal.internal_signed_int_dec_bl:
  forall x y : Decimal.signed_int, Decimal.signed_int_beq x y = true -> x = y
Number.internal_number_dec_bl:
  forall x y : Number.number, Number.number_beq x y = true -> x = y
Decimal.internal_uint_dec_bl:
  forall x : Decimal.uint,
  (fun x0 : Decimal.uint =>
   forall y : Decimal.uint, Decimal.uint_beq x0 y = true -> x0 = y) x
Decimal.internal_uint_dec_lb:
  forall x : Decimal.uint,
  (fun x0 : Decimal.uint =>
   forall y : Decimal.uint, x0 = y -> Decimal.uint_beq x0 y = true) x
Hexadecimal.internal_uint_dec_lb0:
  forall x : Hexadecimal.uint,
  (fun x0 : Hexadecimal.uint =>
   forall y : Hexadecimal.uint, x0 = y -> Hexadecimal.uint_beq x0 y = true) x
Hexadecimal.internal_uint_dec_bl0:
  forall x : Hexadecimal.uint,
  (fun x0 : Hexadecimal.uint =>
   forall y : Hexadecimal.uint, Hexadecimal.uint_beq x0 y = true -> x0 = y) x
andb_true_intro:
  forall [b1 b2 : bool], b1 = true /\ b2 = true -> (b1 && b2)%bool = true
andb_prop: forall a b : bool, (a && b)%bool = true -> a = true /\ b = true
bool_eq_ind:
  forall (b : bool) (P : bool -> Prop),
  (b = true -> P true) -> (b = false -> P false) -> P b
bool_eq_rec:
  forall (b : bool) (P : bool -> Set),
  (b = true -> P true) -> (b = false -> P false) -> P b
BoolSpec_sind:
  forall [P Q : Prop] (P0 : bool -> SProp),
  (P -> P0 true) ->
  (Q -> P0 false) -> forall [b : bool], BoolSpec P Q b -> P0 b
BoolSpec_ind:
  forall [P Q : Prop] (P0 : bool -> Prop),
  (P -> P0 true) ->
  (Q -> P0 false) -> forall [b : bool], BoolSpec P Q b -> P0 b
reflect_rect:
  forall [P : Prop] (P0 : forall b : bool, reflect P b -> Type),
  (forall p : P, P0 true (ReflectT P p)) ->
  (forall n : ~ P, P0 false (ReflectF P n)) ->
  forall [b : bool] (r : reflect P b), P0 b r
reflect_ind:
  forall [P : Prop] (P0 : forall b : bool, reflect P b -> Prop),
  (forall p : P, P0 true (ReflectT P p)) ->
  (forall n : ~ P, P0 false (ReflectF P n)) ->
  forall [b : bool] (r : reflect P b), P0 b r
reflect_sind:
  forall [P : Prop] (P0 : forall b : bool, reflect P b -> SProp),
  (forall p : P, P0 true (ReflectT P p)) ->
  (forall n : ~ P, P0 false (ReflectF P n)) ->
  forall [b : bool] (r : reflect P b), P0 b r
reflect_rec:
  forall [P : Prop] (P0 : forall b : bool, reflect P b -> Set),
  (forall p : P, P0 true (ReflectT P p)) ->
  (forall n : ~ P, P0 false (ReflectF P n)) ->
  forall [b : bool] (r : reflect P b), P0 b r
Byte.to_bits_of_bits:
  forall
    b : bool * (bool * (bool * (bool * (bool * (bool * (bool * bool)))))),
  Byte.to_bits (Byte.of_bits b) = b
bool_choice:
  forall [S : Set] [R1 R2 : S -> Prop],
  (forall x : S, {R1 x} + {R2 x}) ->
  {f : S -> bool | forall x : S, f x = true /\ R1 x \/ f x = false /\ R2 x}
mult_n_O: forall n : nat, 0 = n * 0
plus_O_n: forall n : nat, 0 + n = n
plus_n_O: forall n : nat, n = n + 0
n_Sn: forall n : nat, n <> S n
pred_Sn: forall n : nat, n = Nat.pred (S n)
O_S: forall n : nat, 0 <> S n
f_equal_pred: forall x y : nat, x = y -> Nat.pred x = Nat.pred y
eq_S: forall x y : nat, x = y -> S x = S y
eq_add_S: forall n m : nat, S n = S m -> n = m
min_r: forall n m : nat, m <= n -> Nat.min n m = m
min_l: forall n m : nat, n <= m -> Nat.min n m = n
max_r: forall n m : nat, n <= m -> Nat.max n m = m
max_l: forall n m : nat, m <= n -> Nat.max n m = n
plus_Sn_m: forall n m : nat, S n + m = S (n + m)
plus_n_Sm: forall n m : nat, S (n + m) = n + S m
f_equal_nat: forall (B : Type) (f : nat -> B) (x y : nat), x = y -> f x = f y
not_eq_S: forall n m : nat, n <> m -> S n <> S m
mult_n_Sm: forall n m : nat, n * m + n = n * S m
f_equal2_plus:
  forall x1 y1 x2 y2 : nat, x1 = y1 -> x2 = y2 -> x1 + x2 = y1 + y2
f_equal2_mult:
  forall x1 y1 x2 y2 : nat, x1 = y1 -> x2 = y2 -> x1 * x2 = y1 * y2
f_equal2_nat:
  forall (B : Type) (f : nat -> nat -> B) (x1 y1 x2 y2 : nat),
  x1 = y1 -> x2 = y2 -> f x1 x2 = f y1 y2
sumbool_of_bool: forall b : bool, {b = true} + {b = false}
Number.internal_number_dec_lb:
  forall x y : Number.number, x = y -> Number.number_beq x y = true
Number.internal_signed_int_dec_lb1:
  forall x y : Number.signed_int, x = y -> Number.signed_int_beq x y = true
Number.internal_signed_int_dec_bl1:
  forall x y : Number.signed_int, Number.signed_int_beq x y = true -> x = y
Number.internal_uint_dec_lb1:
  forall x y : Number.uint, x = y -> Number.uint_beq x y = true
Number.internal_number_dec_bl:
  forall x y : Number.number, Number.number_beq x y = true -> x = y
Hexadecimal.internal_hexadecimal_dec_lb:
  forall x y : Hexadecimal.hexadecimal,
  x = y -> Hexadecimal.hexadecimal_beq x y = true
Decimal.internal_decimal_dec_bl:
  forall x y : Decimal.decimal, Decimal.decimal_beq x y = true -> x = y
Decimal.internal_signed_int_dec_lb:
  forall x y : Decimal.signed_int, x = y -> Decimal.signed_int_beq x y = true
Number.internal_uint_dec_bl1:
  forall x y : Number.uint, Number.uint_beq x y = true -> x = y
Decimal.internal_decimal_dec_lb:
  forall x y : Decimal.decimal, x = y -> Decimal.decimal_beq x y = true
Hexadecimal.internal_hexadecimal_dec_bl:
  forall x y : Hexadecimal.hexadecimal,
  Hexadecimal.hexadecimal_beq x y = true -> x = y
Hexadecimal.internal_signed_int_dec_lb0:
  forall x y : Hexadecimal.signed_int,
  x = y -> Hexadecimal.signed_int_beq x y = true
Hexadecimal.internal_signed_int_dec_bl0:
  forall x y : Hexadecimal.signed_int,
  Hexadecimal.signed_int_beq x y = true -> x = y
Decimal.internal_signed_int_dec_bl:
  forall x y : Decimal.signed_int, Decimal.signed_int_beq x y = true -> x = y
Hexadecimal.internal_uint_dec_lb0:
  forall x : Hexadecimal.uint,
  (fun x0 : Hexadecimal.uint =>
   forall y : Hexadecimal.uint, x0 = y -> Hexadecimal.uint_beq x0 y = true) x
Hexadecimal.internal_uint_dec_bl0:
  forall x : Hexadecimal.uint,
  (fun x0 : Hexadecimal.uint =>
   forall y : Hexadecimal.uint, Hexadecimal.uint_beq x0 y = true -> x0 = y) x
Decimal.internal_uint_dec_bl:
  forall x : Decimal.uint,
  (fun x0 : Decimal.uint =>
   forall y : Decimal.uint, Decimal.uint_beq x0 y = true -> x0 = y) x
Decimal.internal_uint_dec_lb:
  forall x : Decimal.uint,
  (fun x0 : Decimal.uint =>
   forall y : Decimal.uint, x0 = y -> Decimal.uint_beq x0 y = true) x
andb_prop: forall a b : bool, (a && b)%bool = true -> a = true /\ b = true
andb_true_intro:
  forall [b1 b2 : bool], b1 = true /\ b2 = true -> (b1 && b2)%bool = true
bool_eq_rec:
  forall (b : bool) (P : bool -> Set),
  (b = true -> P true) -> (b = false -> P false) -> P b
bool_eq_ind:
  forall (b : bool) (P : bool -> Prop),
  (b = true -> P true) -> (b = false -> P false) -> P b
bool_choice:
  forall [S : Set] [R1 R2 : S -> Prop],
  (forall x : S, {R1 x} + {R2 x}) ->
  {f : S -> bool | forall x : S, f x = true /\ R1 x \/ f x = false /\ R2 x}
Number.internal_number_dec_lb:
  forall x y : Number.number, x = y -> Number.number_beq x y = true
Number.internal_number_dec_bl:
  forall x y : Number.number, Number.number_beq x y = true -> x = y
Number.internal_signed_int_dec_lb1:
  forall x y : Number.signed_int, x = y -> Number.signed_int_beq x y = true
Number.internal_signed_int_dec_bl1:
  forall x y : Number.signed_int, Number.signed_int_beq x y = true -> x = y
Number.internal_uint_dec_lb1:
  forall x y : Number.uint, x = y -> Number.uint_beq x y = true
Number.internal_uint_dec_bl1:
  forall x y : Number.uint, Number.uint_beq x y = true -> x = y
Hexadecimal.internal_hexadecimal_dec_lb:
  forall x y : Hexadecimal.hexadecimal,
  x = y -> Hexadecimal.hexadecimal_beq x y = true
Hexadecimal.internal_hexadecimal_dec_bl:
  forall x y : Hexadecimal.hexadecimal,
  Hexadecimal.hexadecimal_beq x y = true -> x = y
Hexadecimal.internal_signed_int_dec_lb0:
  forall x y : Hexadecimal.signed_int,
  x = y -> Hexadecimal.signed_int_beq x y = true
Hexadecimal.internal_signed_int_dec_bl0:
  forall x y : Hexadecimal.signed_int,
  Hexadecimal.signed_int_beq x y = true -> x = y
Decimal.internal_decimal_dec_lb:
  forall x y : Decimal.decimal, x = y -> Decimal.decimal_beq x y = true
Decimal.internal_decimal_dec_bl:
  forall x y : Decimal.decimal, Decimal.decimal_beq x y = true -> x = y
Decimal.internal_signed_int_dec_lb:
  forall x y : Decimal.signed_int, x = y -> Decimal.signed_int_beq x y = true
Decimal.internal_signed_int_dec_bl:
  forall x y : Decimal.signed_int, Decimal.signed_int_beq x y = true -> x = y
Hexadecimal.internal_uint_dec_bl0:
  forall x : Hexadecimal.uint,
  (fun x0 : Hexadecimal.uint =>
   forall y : Hexadecimal.uint, Hexadecimal.uint_beq x0 y = true -> x0 = y) x
Decimal.internal_uint_dec_bl:
  forall x : Decimal.uint,
  (fun x0 : Decimal.uint =>
   forall y : Decimal.uint, Decimal.uint_beq x0 y = true -> x0 = y) x
Decimal.internal_uint_dec_lb:
  forall x : Decimal.uint,
  (fun x0 : Decimal.uint =>
   forall y : Decimal.uint, x0 = y -> Decimal.uint_beq x0 y = true) x
Hexadecimal.internal_uint_dec_lb0:
  forall x : Hexadecimal.uint,
  (fun x0 : Hexadecimal.uint =>
   forall y : Hexadecimal.uint, x0 = y -> Hexadecimal.uint_beq x0 y = true) x
andb_true_intro:
  forall [b1 b2 : bool], b1 = true /\ b2 = true -> (b1 && b2)%bool = true
andb_prop: forall a b : bool, (a && b)%bool = true -> a = true /\ b = true
andb_prop: forall a b : bool, (a && b)%bool = true -> a = true /\ b = true
h: n <> newdef n
h': newdef n <> n
h: n <> newdef n
h': newdef n <> n
h: n <> newdef n
h: n <> newdef n
h: n <> newdef n
h': newdef n <> n
File "./output/Search.v", line 23, characters 2-23:
The command has indeed failed with message:
[Focus] No such goal.
File "./output/Search.v", line 24, characters 2-25:
The command has indeed failed with message:
Query commands only support the single numbered goal selector.
File "./output/Search.v", line 25, characters 2-25:
The command has indeed failed with message:
Query commands only support the single numbered goal selector.
h: P n
h': ~ P n
h: P n
h': ~ P n
h: P n
h': ~ P n
h: P n
h: P n
a: A
b: A
or_assoc: forall A B C : Prop, (A \/ B) \/ C <-> A \/ B \/ C
and_assoc: forall A B C : Prop, (A /\ B) /\ C <-> A /\ B /\ C
eq_trans_assoc:
  forall [A : Type] [x y z t : A] (e : x = y) (e' : y = z) (e'' : z = t),
  eq_trans e (eq_trans e' e'') = eq_trans (eq_trans e e') e''
plus_O_n: forall n : nat, 0 + n = n
plus_n_O: forall n : nat, n = n + 0
plus_n_Sm: forall n m : nat, S (n + m) = n + S m
plus_Sn_m: forall n m : nat, S n + m = S (n + m)
mult_n_Sm: forall n m : nat, n * m + n = n * S m
f_equal2_plus:
  forall x1 y1 x2 y2 : nat, x1 = y1 -> x2 = y2 -> x1 + x2 = y1 + y2
nat_rect_plus:
  forall (n m : nat) {A : Type} (f : A -> A) (x : A),
  nat_rect (fun _ : nat => A) x (fun _ : nat => f) (n + m) =
  nat_rect (fun _ : nat => A)
    (nat_rect (fun _ : nat => A) x (fun _ : nat => f) m)
    (fun _ : nat => f) n
Nat.bitwise: (bool -> bool -> bool) -> nat -> nat -> nat -> nat
Number.internal_number_dec_bl:
  forall x y : Number.number, Number.number_beq x y = true -> x = y
Number.internal_signed_int_dec_bl1:
  forall x y : Number.signed_int, Number.signed_int_beq x y = true -> x = y
Number.internal_uint_dec_bl1:
  forall x y : Number.uint, Number.uint_beq x y = true -> x = y
Hexadecimal.internal_hexadecimal_dec_bl:
  forall x y : Hexadecimal.hexadecimal,
  Hexadecimal.hexadecimal_beq x y = true -> x = y
Hexadecimal.internal_signed_int_dec_bl0:
  forall x y : Hexadecimal.signed_int,
  Hexadecimal.signed_int_beq x y = true -> x = y
Decimal.internal_decimal_dec_bl:
  forall x y : Decimal.decimal, Decimal.decimal_beq x y = true -> x = y
Decimal.internal_signed_int_dec_bl:
  forall x y : Decimal.signed_int, Decimal.signed_int_beq x y = true -> x = y
Byte.of_bits:
  bool * (bool * (bool * (bool * (bool * (bool * (bool * bool)))))) ->
  Byte.byte
Byte.to_bits_of_bits:
  forall
    b : bool * (bool * (bool * (bool * (bool * (bool * (bool * bool)))))),
  Byte.to_bits (Byte.of_bits b) = b
bool_of_sumbool:
  forall [A B : Prop], {A} + {B} -> {b : bool | if b then A else B}
sumbool_of_bool: forall b : bool, {b = true} + {b = false}
Number.internal_number_dec_lb:
  forall x y : Number.number, x = y -> Number.number_beq x y = true
Number.internal_uint_dec_lb1:
  forall x y : Number.uint, x = y -> Number.uint_beq x y = true
Number.internal_signed_int_dec_lb1:
  forall x y : Number.signed_int, x = y -> Number.signed_int_beq x y = true
Decimal.internal_signed_int_dec_lb:
  forall x y : Decimal.signed_int, x = y -> Decimal.signed_int_beq x y = true
Hexadecimal.internal_hexadecimal_dec_lb:
  forall x y : Hexadecimal.hexadecimal,
  x = y -> Hexadecimal.hexadecimal_beq x y = true
Hexadecimal.internal_signed_int_dec_lb0:
  forall x y : Hexadecimal.signed_int,
  x = y -> Hexadecimal.signed_int_beq x y = true
Decimal.internal_decimal_dec_lb:
  forall x y : Decimal.decimal, x = y -> Decimal.decimal_beq x y = true
Byte.to_bits:
  Byte.byte ->
  bool * (bool * (bool * (bool * (bool * (bool * (bool * bool))))))
Hexadecimal.internal_uint_dec_bl0:
  forall x : Hexadecimal.uint,
  (fun x0 : Hexadecimal.uint =>
   forall y : Hexadecimal.uint, Hexadecimal.uint_beq x0 y = true -> x0 = y) x
Decimal.internal_uint_dec_lb:
  forall x : Decimal.uint,
  (fun x0 : Decimal.uint =>
   forall y : Decimal.uint, x0 = y -> Decimal.uint_beq x0 y = true) x
Decimal.internal_uint_dec_bl:
  forall x : Decimal.uint,
  (fun x0 : Decimal.uint =>
   forall y : Decimal.uint, Decimal.uint_beq x0 y = true -> x0 = y) x
Hexadecimal.internal_uint_dec_lb0:
  forall x : Hexadecimal.uint,
  (fun x0 : Hexadecimal.uint =>
   forall y : Hexadecimal.uint, x0 = y -> Hexadecimal.uint_beq x0 y = true) x
andb_prop: forall a b : bool, (a && b)%bool = true -> a = true /\ b = true
andb_true_intro:
  forall [b1 b2 : bool], b1 = true /\ b2 = true -> (b1 && b2)%bool = true
Byte.to_bits_of_bits:
  forall
    b : bool * (bool * (bool * (bool * (bool * (bool * (bool * bool)))))),
  Byte.to_bits (Byte.of_bits b) = b
bool_choice:
  forall [S : Set] [R1 R2 : S -> Prop],
  (forall x : S, {R1 x} + {R2 x}) ->
  {f : S -> bool | forall x : S, f x = true /\ R1 x \/ f x = false /\ R2 x}
Nat.two: nat
Nat.one: nat
Nat.zero: nat
newdef: nat -> nat
Nat.succ: nat -> nat
Nat.log2: nat -> nat
Nat.sqrt: nat -> nat
Nat.square: nat -> nat
Nat.double: nat -> nat
Nat.pred: nat -> nat
Nat.ldiff: nat -> nat -> nat
Nat.tail_mul: nat -> nat -> nat
Nat.land: nat -> nat -> nat
Nat.div: nat -> nat -> nat
Nat.modulo: nat -> nat -> nat
Nat.lor: nat -> nat -> nat
Nat.lxor: nat -> nat -> nat
Nat.of_hex_uint: Hexadecimal.uint -> nat
Nat.of_uint: Decimal.uint -> nat
Nat.of_num_uint: Number.uint -> nat
length: forall [A : Type], list A -> nat
plus_n_O: forall n : nat, n = n + 0
plus_O_n: forall n : nat, 0 + n = n
plus_n_Sm: forall n m : nat, S (n + m) = n + S m
plus_Sn_m: forall n m : nat, S n + m = S (n + m)
mult_n_Sm: forall n m : nat, n * m + n = n * S m
should say both t and t_alias
- : Init.unit = ()
t: T
t_alias: T
should say only t
- : Init.unit = ()
BlacklistLocals.t: BlacklistLocals.T
should say both t and t_alias
- : Init.unit = ()
BlacklistLocals.t_alias: BlacklistLocals.T
BlacklistLocals.t: BlacklistLocals.T

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