It is commonly suggested to use a range scan via
stoprow as opposed to a
Rowkey Prefix Filter (for example, here). The reasoning for this is because a
Rowkey Prefix Filter results in a full table scan of the rowkey, whereas a range scan via
stoprow do not result in a full table scan. Why doesn't it? Most people say "because the rowkey is stored in lexographical order," which of course, doesn't explain why the
Rowkey Prefix Filter cannot leverage this.
At anyrate, how exactly does a range scan via
stoprow not result in a full table scan of the rowkey?
Take this small example in python to show why I don't understand how the lexagraphical ordering of the rowkeys means anything when it comes to avoiding a full table scan:
rowkeys = ['a1', 'a2', 'a3', 'b1', 'b2', 'b3', 'c1', 'c2', 'c3'] def range_scan(startrow, stoprow): is_found = False for rowkey in rowkeys: if startrow <= rowkey < stoprow: is_found = True yield rowkey else: if is_found: raise StopIteration()
Clearly, the HBase algorithm differs from this. How does it?
TLDR: How exactly does HBase avoid a full table scan when doing a range scan with startrow and stoprow?