Module For_int8s.Num
include Flambda2_simplify.Number_adjuncts.Num_common
include Flambda2_algorithms.Container_types.S
include Flambda2_algorithms.Container_types_intf.Thing
with type t := Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t
include Stdlib.Hashtbl.HashedType
with type t := Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t
val equal :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t ->
Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t ->
boolThe equality predicate used to compare keys.
val hash : Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t -> intA hashing function on keys. It must be such that if two keys are equal according to equal, then they have identical hash values as computed by hash. Examples: suitable (equal, hash) pairs for arbitrary key types include
- (
(=),hash) for comparing objects by structure (provided objects do not contain floats) - (
(fun x y -> compare x y = 0),hash) for comparing objects by structure and handlingStdlib.nancorrectly - (
(==),hash) for comparing objects by physical equality (e.g. for mutable or cyclic objects).
include Stdlib.Map.OrderedType
with type t := Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t
val compare :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t ->
Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t ->
intA total ordering function over the keys. This is a two-argument function f such that f e1 e2 is zero if the keys e1 and e2 are equal, f e1 e2 is strictly negative if e1 is smaller than e2, and f e1 e2 is strictly positive if e1 is greater than e2. Example: a suitable ordering function is the generic structural comparison function Stdlib.compare.
val print :
Stdlib.Format.formatter ->
Flambda2_simplify.Number_adjuncts.For_int8s.Num.T.t ->
unitmodule Map :
Flambda2_algorithms.Container_types_intf.Map
with type key = Flambda2_simplify.Number_adjuncts.For_int8s.Num.t
and module Set = Flambda2_simplify.Number_adjuncts.For_int8s.Num.Setmodule Pair : sig ... endval minus_one :
Target_system.Machine_width.t ->
Flambda2_simplify.Number_adjuncts.For_int8s.Num.tval to_naked_float32 :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Flambda2_numbers.Numeric_types.Float32_by_bit_pattern.tval to_naked_int8 :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Flambda2_numbers.Numeric_types.Int8.tval to_naked_int16 :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Flambda2_numbers.Numeric_types.Int16.tval to_naked_int32 :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Flambda2_numbers.Numeric_types.Int32.tval to_naked_int64 :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Flambda2_numbers.Numeric_types.Int64.tval to_naked_nativeint :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Target_system.Machine_width.t ->
Flambda2_numbers.Targetint_32_64.tval shift_right_logical :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Flambda2_numbers.Target_ocaml_int.t ->
Flambda2_simplify.Number_adjuncts.For_int8s.Num.tval swap_byte_endianness :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Flambda2_simplify.Number_adjuncts.For_int8s.Num.tval compare_unsigned :
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
Flambda2_simplify.Number_adjuncts.For_int8s.Num.t ->
int