I tested this myself. Concatenation is linear to the length of the second argument but assignment is always linear to the length of the string.

It looks like Perl does not count references for strings but associates a buffer with every variable (reference).

Here are some test results:

Concatenation seems to be constant and entire test is linear:

```
248ms my $x; $x .= "a" for 1..2_000_000
501ms my $x; $x .= "a" for 1..4_000_000
967ms my $x; $x .= "a" for 1..8_000_000
```

`$x = $x . $y`

seems to be optimized and uses `$x`

buffer in this case:

```
295ms my $x; $x = $x . "a" for 1..2_000_000
592ms my $x; $x = $x . "a" for 1..4_000_000
1170ms my $x; $x = $x . "a" for 1..8_000_000
```

Previous optimization seems to be done statically so concatenation in next test is linear to the resulting string length and entire test is quadratic:

```
233ms my $x; ${\$x} = ${\$x} . "a" for 1..40_000
951ms my $x; ${\$x} = ${\$x} . "a" for 1..80_000
3811ms my $x; ${\$x} = ${\$x} . "a" for 1..160_000
```

Copying is linear:

```
186ms my $x; for (1..50_000) { $x .= "a"; my $y = $x }
764ms my $x; for (1..100_000) { $x .= "a"; my $y = $x }
3029ms my $x; for (1..200_000) { $x .= "a"; my $y = $x }
```

Every copy is linear, reference counting is not used for strings:

```
545ms my $x; for (1..50_000) { $x .= "a"; my $y = $x; my $y2 = $x; my $y3 = $x }
2264ms my $x; for (1..100_000) { $x .= "a"; my $y = $x; my $y2 = $x; my $y3 = $x }
8951ms my $x; for (1..200_000) { $x .= "a"; my $y = $x; my $y2 = $x; my $y3 = $x }
```