I would add that, not only does it not guarantee that the capacity of the slice would be equal to the length, in fact, for large lengths, it would almost never be the case where the resulting slice would have capacity would equal the length.
append()
is promoted as the replacement to the vector
package. In order to do this, the complexity of appending must match the complexity in the vector
package, which means that appending an element must have amortized O(1) complexity. Although this complexity is not guaranteed in the language specification, it must be true for the patterns for which append()
is used now in the Go community to work efficiently.
In order for append()
to be amortized O(1), it must expand the capacity by a fixed percentage of the current capacity each time it runs out of space. For example, doubling in capacity. Think about it, if it doubles in capacity every time it runs out, the length and capacity can only be the same if the length is exactly a power of 2 (assuming it started out as a power of 2), which is not frequent.