This analysis will is needed for the reachability modelling (which
tracks things like which exceptions are caught by which handles), so it
makes more sense for it to move to `DataFlowDispatch` for now.
These could arguably be moved to `Class` itself, but for now I'm
choosing to limit the changes to the `DuckTyping` module (until we
decide on a proper API).
This module (which for convenience currently resides inside
`DataFlowDispatch`, but this may change later) contains convenience
predicates for bridging the gap between the data-flow layer and the old
points-to analysis.
Removes the use of points-to for accessing various built-ins from three
of the queries. In order for this to work I had to extend the lists of
known built-ins slightly.
Adds `hasOverloadDecorator` as a predicate on functions. It looks for
decorators called `overload` or `something.overload` (usually
`typing.overload` or `t.overload`). These are then filtered out in the
predicates that (approximate) resolving methods according to the MRO.
As the test introduced in the previous commit shows, this removes the
spurious resolutions we had before.
Moves the classes/predicates that _actually_ depend on points-to to the
`LegacyPointsTo` module, leaving behind a module that contains all of
the metrics-related stuff (line counts, nesting depth, etc.) that don't
need points-to to be evaluated.
Consequently, `Metrics` is now no longer a private import in
`python.qll`.
On `keras-team/keras`, this was producing ~200 million intermediate
tuples in order to produce a total of ... 2 tuples.
After the refactor, max intermediate tuple count is ~80k for the
charpred (and 4 for the new helper predicate).
These were causing the repo `gufolabs/noc` to spend ~30 seconds
evaluating `ControlFlowNode.strictlyDominates`. Just in case, I added
`overlay[caller] to the other instances of `pragma[inline]` as well.
