The `Seq(0)`

is treated as a `PartialFunction`

that is defined only at index `0`

, and produces as result the constant value `0`

if it is given the only valid input `0`

.

When you invoke `orElse`

with `Seq(1)`

, a new partial function is constructed, that first tries to apply `Seq(0)`

, and if it finds nothing in the domain of definition of `Seq(0)`

, it falls back to `Seq(1)`

. Since the domain of `Seq(1)`

is the same as the domain of `Seq(0)`

(namely just the `{0}`

), the `orElse`

does essentially nothing in this case, and returns a partial function equivalent to `Seq(0)`

.

So, the result is again a partial function defined at `0`

that gives `0`

if it is passed the only valid input `0`

.

Here is a non-degenerate example with sequences of different length, which hopefully makes it easier to understand what the `orElse`

method is for:

```
val f = Seq(1,2,3).orElse(Seq(10, 20, 30, 40, 50))
```

is a partial function:

```
f: PartialFunction[Int,Int] = <function1>
```

Here is how it maps values 0 to 4:

```
0 to 4 map f
// Output: Vector(1, 2, 3, 40, 50)
```

That is, it uses first three values from the first sequence, and falls back to the second sequence passed to `orElse`

for inputs `3`

and `4`

.

This also works with arbitrary partial functions, not only sequences:

```
scala> val g = Seq(42,43,44).orElse[Int, Int]{ case n => n * n }
g: PartialFunction[Int,Int] = <function1>
scala> 0 to 10 map g
res7 = Vector(42, 43, 44, 9, 16, 25, 36, 49, 64, 81, 100)
```

If you wanted to select between two sequences without treating them as partial functions, you might consider using

```
Option(Seq(0)).getOrElse(Seq(1))
```

This will return `Seq(0)`

, if this is what you wanted.

`Seq(0).orElse(Seq(1))`

. If you meant`Seq(0).apply(0).orElse(Seq(1))`

, then it's invalid, because`Int`

has no method`orElse`

.@ Seq(0).apply.orElse(Seq(1)) cmd3.sc:1: missing argument list for method apply in trait SeqLike`PartialFunction`

would have to be F-polymorphically bounded by the return type of the`orElse`

-method. Given how deeply`PartialFunction`

is embedded in the standard API and the compiler, this will probably never happen. If you don't need this type-safely, it wouldtheoreticallybe possible to implement the`orElse`

in this way, but it would be more of a hack... May I askwhyyou need this? Wouldn't your own "pimp-my-library"-pattern do the trick?