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transduce
Sequence.transduce
§(TA type, U type, xf transducer Sequence.transduce.TA Sequence.transduce.U Sequence.T, rf Function Sequence.transduce.TA Sequence.transduce.TA Sequence.transduce.U, init Sequence.transduce.TA):Any => Sequence.transduce.TA
§(TA
type
, U type
, xf transducer Sequence.transduce.TA Sequence.transduce.U Sequence.T, rf Function Sequence.transduce.TA Sequence.transduce.TA Sequence.transduce.U, init Sequence.transduce.TA):
Any =>
Sequence.transduce.TAFunctions
create a String from this instance. Unless redefined, `a.as_string` will
create `"instance[T]"` where `T` is the dynamic type of `a`
create `"instance[T]"` where `T` is the dynamic type of `a`
Get the dynamic type of this instance. For value instances `x`, this is
equal to `type_of x`, but for `x` with a `ref` type `x.dynamic_type` gives
the actual runtime type, while `type_of x` results in the static
compile-time type.
There is no dynamic type of a type instance since this would result in an
endless hierachy of types. So for Type values, dynamic_type is redefined
to just return Type.type.
equal to `type_of x`, but for `x` with a `ref` type `x.dynamic_type` gives
the actual runtime type, while `type_of x` results in the static
compile-time type.
There is no dynamic type of a type instance since this would result in an
endless hierachy of types. So for Type values, dynamic_type is redefined
to just return Type.type.
returns the result of applying the reducer xf f to the Sequence