To put it most simply, it is because a block box with an
overflow that isn't
visible (the default) creates a new block formatting context.
Boxes that create new block formatting contexts are defined to stretch to contain their floats by height if they themselves do not have a specified height, defaulting to
auto (the spec calls these boxes block formatting context roots):
10.6.7 'Auto' heights for block formatting context roots
In certain cases (see, e.g., sections 10.6.4 and 10.6.6 above), the height of an element that establishes a block formatting context is computed as follows:
In addition, if the element has any floating descendants whose bottom margin edge is below the element's bottom content edge, then the height is increased to include those edges. Only floats that participate in this block formatting context are taken into account, e.g., floats inside absolutely positioned descendants or other floats are not.
This was not the case in the original CSS2 spec, but was introduced as a change in CSS2.1 in response to a different (and much more pressing) issue. This answer offers an explanation for the changes. For this reason, it seems quite apt to call it a side effect, although the changes were very much intentional.
Also note that this is not the same thing as clearance. Clearance of floats only happens when you use the
clear property and there is adequate float obstruction to clear. If you have a clearfix element that's a sibling of the outer element in your example, the floats will be cleared but the outer element will not stretch. If you have a clearfix element that's the last child of the outer element (a sibling that succeeds the floats), the outer element will stretch to the bottom of the height of the clearfix, and for a zero-height clearfix that essentially means the bottommost edge of the floats.