The set of initial invariants that we see might include:
?8 = func(inputs []int, function ?4) ?3
?8 = func(inputs []int, function ?10) ?9
?8 = func arg0 []int, arg1 ?6) ?7
From this we can infer that since they are all equal, that we also know
that ?4, ?10 and ?6 must also be equal. The same is true of ?3, ?9 and
?10. Those new equalities are sometimes necessary in order to complete
the full unification.
The second interesting aspect is when we have dissimilar equalities:
?2 = func(x ?1) str
?4 = func(a int) ?5
?10 = func(a int) ?11
In this example we also have an additional equality:
?6 = ?2
From this and the above we can determine that ?2, ?4, ?6 and ?10 are all
equal. We only know about ?4, ?6, and ?10 from the direct relationship,
and we add in ?2 from the indirect (graph) relationship. These
relationships let us determine new information that ?5 and ?11 are both
str and that ?1 is an int.
Two important reminders:
1) Arg names don't have to match. It would impossible to build such a
system where this was both possible, but also let us name our
functions sanely.
2) None of this guarantees we won't find an inconsistency in our
solution. If this is found, it simply means that someone wrote code
which does not type check.
6769786241