Sebastian's answer is accurate, but I wanted to know why it was safe, so I did some digging into the Map source code. It looks like on a call to
delete(k, v), it basically just sets a flag (as well as changing the count value) instead of actually deleting the value:
b->tophash[i] = Empty;
(Empty is a constant for the value
What the map appears to actually be doing is allocating a set number of buckets depending on the size of the map, which grows as you perform inserts at the rate of
2^B (from this source code):
byte *buckets; // array of 2^B Buckets. may be nil if count==0.
So there are almost always more buckets allocated than you're using, and when you do a
range over the map, it checks that
tophash value of each bucket in that
2^B to see if it can skip over it.
To summarize, the
delete within a
range is safe because the data is technically still there, but when it checks the
tophash it sees that it can just skip over it and not include it in whatever
range operation you're performing. The source code even includes a
// TODO: consolidate buckets if they are mostly empty
// can only consolidate if there are no live iterators at this size.
This explains why using the
delete(k,v) function doesn't actually free up memory, just removes it from the list of buckets you're allowed to access. If you want to free up the actual memory you'll need to make the entire map unreachable so that garbage collection will step in. You can do this using a line like
map = nil