`equivalentBoolValues` compares equivalence between two booleans. The current implementation does not consider constraints imposed by flow conditions on the booleans and its subvalues.
Depends On D128520
Reviewed By: gribozavr2, xazax.hun
Differential Revision: https://reviews.llvm.org/D128521
Given a set of `Constraints`, `querySolver` adds common background information across queries (`TrueVal` is always true and `FalseVal` is always false) and passes the query to the solver.
`checkUnsatisfiable` is a simple wrapper around `querySolver` for checking that the solver returns an unsatisfiable result.
Depends On D128519
Reviewed By: gribozavr2, xazax.hun
Differential Revision: https://reviews.llvm.org/D128520
To keep functionality of creating boolean expressions in a consistent location.
Depends On D128357
Reviewed By: gribozavr2, sgatev, xazax.hun
Differential Revision: https://reviews.llvm.org/D128519
A flow condition is represented with an atomic boolean token, and it is bound to a set of constraints: `(FC <=> C1 ^ C2 ^ ...)`. \
This was internally represented as `(FC v !C1 v !C2 v ...) ^ (C1 v !FC) ^ (C2 v !FC) ^ ...` and tracked by 2 maps:
- `FlowConditionFirstConjunct` stores the first conjunct `(FC v !C1 v !C2 v ...)`
- `FlowConditionRemainingConjuncts` stores the remaining conjuncts `(C1 v !FC) ^ (C2 v !FC) ^ ...`
This patch simplifies the tracking of the constraints by using a single `FlowConditionConstraints` map which stores `(C1 ^ C2 ^ ...)`, eliminating the use of two maps.
Reviewed By: gribozavr2, sgatev, xazax.hun
Differential Revision: https://reviews.llvm.org/D128357
A follow-up to 62b2a47 to centralize the logic that skips expressions
that the CFG does not emit. This allows client code to avoid
sprinkling this logic everywhere.
Add redirects in the transfer function to similarly skip such
expressions by forwarding the visit to the sub-expression.
Differential Revision: https://reviews.llvm.org/D124965
Enable efficient implementation of context-aware joining of distinct
boolean values. It can be used to join distinct boolean values while
preserving flow condition information.
Flow conditions are represented as Token <=> Clause iff formulas. To
perform context-aware joining, one can simply add the tokens of flow
conditions to the formula when joining distinct boolean values, e.g:
`makeOr(makeAnd(FC1, Val1), makeAnd(FC2, Val2))`. This significantly
simplifies the implementation of `Environment::join`.
This patch removes the `DataflowAnalysisContext::getSolver` method.
The `DataflowAnalysisContext::flowConditionImplies` method should be
used instead.
Reviewed-by: ymandel, xazax.hun
Differential Revision: https://reviews.llvm.org/D124395
This is part of the implementation of the dataflow analysis framework.
See "[RFC] A dataflow analysis framework for Clang AST" on cfe-dev.
Reviewed-by: ymandel, xazax.hun
Differential Revision: https://reviews.llvm.org/D120711
