These type checks were overlapping with `assignOperatorWithWrongType` is
are no longer needed now that `assignOperatorWithWrongType` is improved.
They were causing FPs and misleading error messages on uninstantiated
templates.
Adding this call to `getUnspecifiedType` makes the error message better
in the presence of typedefs and qualifiers on an assignment operator
return type. It's also needed to avoid losing valid results in the
commit that comes after this.
The predicate `AlwaysTrueUponEntryLoop.getARelevantVariable` was very
sensitive to join ordering, and with the 1.19 QL engine it got an
unfortunate join order that made it explode on certain snapshots. With
this change, it goes from taking minutes to taking less than a second on
a libretro-uae snapshot.
This predicate was fast with the queries and engine from 1.18. With the
queries from `master` it got a bad join order in the
`UninitializedLocal.ql` query, which made it take 2m34s on Wireshark.
This commit decomposes `bbEntryReachesLocally` into two predicates that
together take only 4s.
The `nullValue` predicate performs a slow custom data-flow analysis to
find possible null values. It's so slow that it timed out after 1200s on
Wireshark.
In `UnsafeCreateProcessCall.ql`, the values found with `nullValue` were
used as sources in another data-flow analysis. By using the `NullValue`
class as sink instead of `nullValue`, we avoid the slow-down of doing
data flow twice. The `NullValue` class is essentially the base case of
`nullValue`. Confusing names, yes.
This commit adds Chi nodes to the successor relation and accounts for
them in the CFG, but does not add them to the SSA data graph. Chi nodes
are inserted for partial writes to any VirtualVariable, regardless of
whether the partial write reaches any uses.
This enables the addition of new instructions in later phases of IR
construction; in particular, aliasing write instructions and inference
instructions.
This test was failing due to a semantic merge conflict between #509,
which added `UninitializedInstruction`, and #517, which added new test
code that would get `UninitializedInstruction`s in it after merging with #509.
This adds a `NewOrNewArrayExpr.getPlacementPointer` predicate and uses
it in `Alloc.qll` to detect when a `new`-expression is not an
allocation.
User-defined replacements for `operator new` may not be allocations
either, but the code continues to assume that they are. It's possible
that we want to change this assumption in the future or leave it up to
individual queries to decide on which side to err. It's hard to
statically tell whether `operator new` has been overloaded in a
particular file because it can be overloaded by a definition that is not
in scope but is only linked together with that file.