Summary:
The solver for single equations no longer needs access to the internal
representation of the context.
Reviewed By: jvillard
Differential Revision: D25883722
fbshipit-source-id: 4ccd97674
Summary:
When `no_fresh` is true, then no fresh variables will be generated
while solving. So it is not necessary to provide a set with respect to
which variables must be generated fresh.
Reviewed By: jvillard
Differential Revision: D25883724
fbshipit-source-id: fd886067f
Summary:
Currently when solving an equation requires solving one or more other
equations, they are handled recursively. This diff reworks the solver
to instead queue pending equations in a list rather than eagerly
solving them eagerly. The pending list will be needed when changing
the Context.t representation since some equations will need to be
delayed until representation invariants are re-established.
Additionally, the solution is accumulated as an association list
rather than being eagerly incorporated into the context
representation. This enables the uses in equality solving and
quantifier elimination to use different representations.
Reviewed By: jvillard
Differential Revision: D25883727
fbshipit-source-id: 2f6b5efa3
Summary:
When used by the first-order solver, solve_extract may generate fresh
variables to express the solution substitutions, but when used by
quantifier elimination via solve_for_vars, fresh variables should not
be generated. This diff makes the difference between these use cases
simpler and clearer by replacing the obscure filter predicate argument
that is passed eventually to compose1 with a boolean indicating
whether fresh variables may be generated.
Reviewed By: jvillard
Differential Revision: D25756562
fbshipit-source-id: 53a35b71c
Summary:
Context.solve_for_vars returns a solution substitution consisting of
oriented equalities that are implied by the given context. It is
logically valid to express these equations using terms that are
normalized with respect to the solution substitution itself. This diff
normalizes uninterpreted terms with the solution substitution when
extending it. This preserves the logical strength of the solutions,
and strengthens other purely syntactic operations on the substitution,
such as Context.Subst.is_valid_eq.
Reviewed By: jvillard
Differential Revision: D25756582
fbshipit-source-id: cd997c46b
Summary:
- Fix clamping of percentage change of memory quantities
- Improve sorting of coverage changes relative to unchanged error
results
- Filter out results for invalid LLVM code
- Fix printing multiple status values
- Fix passing args to sledge, different subcommands need different
args
- Fix cleaning commands
- Add an unknown error status to the report if sledge exits without
producing a status in the report
- Internalize globals for tests, as otherwise C++ tests are unreadable
due to the runtime system models
Reviewed By: jvillard
Differential Revision: D25756567
fbshipit-source-id: 3b4c003f4
Summary:
The ~20% hit in compilation time is dominated by the time saved
running the tests. This also makes the memory allocation numbers more
robust to inconsequential changes. Note that `make check` is still
fast.
Note that normally dune passes `-g` to ocamlopt itself, but not if the
build profile includes an `ocamlopt_flags` entry. So add it explicitly
to ensure that compilation includes debug symbols.
(Also remove `-error-style short` that was missed in 9c4f263.)
Reviewed By: jvillard
Differential Revision: D25756570
fbshipit-source-id: 94d18bac2
Summary:
When a stem has an occurrence of an existential, say x, and x is
substituted out by different witnesses, say a and b, in two disjuncts,
then the connection to other occurrences of a and b are lost.
This diff fixes this problem by propagating the solved variables that
survive normalization down to subformulas, and not removing those
variables from subformulas.
Reviewed By: jvillard
Differential Revision: D25756583
fbshipit-source-id: dabda743f
Summary:
Trade a bit more code for lowering complexity from linear to
logarithmic.
Reviewed By: jvillard
Differential Revision: D25756569
fbshipit-source-id: 83ad575fe
Summary:
Composing two substitutions does not need to require that their
domains are disjoint.
Leave disjointness check for composing a single mapping just to check
expected usage.
Reviewed By: jvillard
Differential Revision: D25756557
fbshipit-source-id: 04e92b864
Summary:
The overall operation of the quantifier elimination algorithm in
Sh.simplify is to first descend through the disjunctive structure of a
symbolic heap formula, process the leaves, and then proceed back up
the formula. At each point on the way back up, the first-order solver
is used to compute a solution substitution representing witnesses of
existential variables. This substitution is then used to normalize the
entire subformula at that point. Note that this results in
substituting and normalizing each subformula a number of times
proportional to its depth in the disjunctive structure.
This diff removes this redundancy and substitutes through each
subformula once. This is done by changing from an overall bottom-up to
top-down algorithm, and involves composing solution substitutions
rather than substituting multiple times. This change also heavily
relies on the strengthened Context.apply_and_elim operation, where the
bottom-up many-substitutions approach relies on the internal details
of repeated substitutions.
Reviewed By: jvillard
Differential Revision: D25756549
fbshipit-source-id: ca7cd814a
Summary:
The current implementation of quantifier elimination in Sh.simplify is
tightly coupled with the details of what the Context operations
support. In particular, successfully eliminating variables with
Context.elim effectively relies on being given a context that has been
transformed by Context.apply_subst. These operations are sound
independently, but achieving the desired result is delicate.
To simplify this situation, this diff refactors the tightly coupled
usage into a Context.apply_and_elim operation that hides the details
of the interaction inside the Context module. This enables an accurate
specification of apply_and_elim to be given much more simply than can
be done for the separate operations. This also simplifies the
implementation of Sh.simplify.
Reviewed By: jvillard
Differential Revision: D25756577
fbshipit-source-id: b344b3da6
Summary:
The implementation of quantifier elimination in Sh.simplify currently
relies on a subtle implementation detail of Context.apply_subst to
remove some identity mappings. Now that Context.elim has been
strengthened and generalized, it can be used to to give a much clearer
implementation, that is also more robust to representation changes in
Context.
Reviewed By: jvillard
Differential Revision: D25756554
fbshipit-source-id: 6be0de2f3
Summary:
The current implementation of Context.elim crudely removes oriented
equations from terms involving the given variables. This is easy to
use in a way that violates the representation invariants of Context,
as well as destroys completeness. This diff resolves this by making
Context.elim remove the desired variables by rearranging the existing
equality classes, in particular promoting a new representative term
when the existing representative is to be removed. Also, since this
basic approach is incomplete for interpreted terms, they are detected
and not removed. As a result, the interface changes to return the set
of variables that have been removed.
Reviewed By: jvillard
Differential Revision: D25756573
fbshipit-source-id: 0eead9281
Summary:
Context.fold_uses_of should enumerate the transitive subterms of a
term rather than only the immediate subterms.
Reviewed By: jvillard
Differential Revision: D25756553
fbshipit-source-id: a3911d9f5
Summary:
Previously Sh had a representation invariant which ensured that
existentials of a subformula did not shadow universals of its
superformulas. The current implementation of Sh.freshen_nested_xs
mistakenly still assumes this invariant, but it no longer holds. This
diff fixes freshen_nested_xs to freshen nested existentials with
respect to not only ancestor universals in addition to existentials.
Reviewed By: jvillard
Differential Revision: D25756551
fbshipit-source-id: 54c48b067
Summary:
Sh.simplify propagates first-order constraints over the formula's
propositional structure, and can reveal inconsistency. It is therefore
sometimes beneficial to check consistency after simplifying rather
than before.
Reviewed By: jvillard
Differential Revision: D25756585
fbshipit-source-id: 2a205c965
Summary:
Simplifying a symbolic heap can reveal inconsistencies, either of
individual disjuncts or (therefore) of toplevel formulas. This is due
to the first-order contexts being propagated from a formula to its
descendents, and for the intersection of the contexts of disjunctions
being propagated to their parent. The later stages of eliminating
redundant quantifiers, etc. do not reveal further
inconsistencies. Therefore this diff moves the inconsistency detection
earlier, to just after the contexts are strengthened. This is clearer,
and also a minor optimization.
Reviewed By: jvillard
Differential Revision: D25756564
fbshipit-source-id: d3acf875b
Summary:
Sh operations usually detect inconsistency where needed. But some
operations such as Context.inter must treat the unsat case
specially. This diff increases robustness by not relying on Sh to
detect inconsistency in order to get the correct context or pure
constraints, or to use the fast-paths through Context or Formula
operations.
Reviewed By: jvillard
Differential Revision: D25756550
fbshipit-source-id: 091439ff6
Summary:
Sh.is_false checks if the pure constraints are inconsistent with the
first-order consequences of the spatial constraints. This involves
some, though not very expensive, logical reasoning. But is it not
checking only testing for the representation of Sh.false_, which one
might expect from its name. This renaming also makes room for the
operation that does test for the representation of Sh.false_.
Reviewed By: jvillard
Differential Revision: D25756580
fbshipit-source-id: 30510f45a
Summary:
Context.apply_subst erroneously resets everything in the
representation of a context except the solution substitution when
applying a substitution.
Reviewed By: jvillard
Differential Revision: D25756548
fbshipit-source-id: 949a34ced
Summary:
This is a simple CFG transformation that compresses jumps to jumps
into jumps to the final destination. LLVM's simplifycfg pass seemingly
should have eliminated these, but does not.
Reviewed By: jvillard
Differential Revision: D25196728
fbshipit-source-id: 3288dbd8d
Summary:
Currently the symbolic execution options, obtained from the command
line flags and preanalysis, are passed to the Control entry points as
a record, and then passed around within Control as needed. This diff
simplifies the code in Control by replacing the record mechanism with
an additional functor parameter containing the options. The main
benefit is that the bound option no longer needs to be part of the
analysis state.
This change does make the code in Sledge_cli slightly more
complicated, as it now performs a functor application using a
first-class module computed from the command line flags.
Reviewed By: jvillard
Differential Revision: D25196735
fbshipit-source-id: 80e5d5d62
Summary:
Revise the control-flow exploration scheduling algorithm to fix
several issues. The main difference is to change the priority queue to
keep the control edges on the frontier of exploration in sync with the
states that are waiting to be propagated. This fixes several sorts of
issue where the decision of which control and state joins to perform
was unexpected / wrong. Part of keeping the frontier edges and waiting
states in sync is that the waiting states are associated not only with
a destination block, but the stack of that block. This fixes several
issues.
Combined, these changes lead to the algorithm only attempting joins
for which the pointwise max join on depth maps is correct (with the
caveat of no mathematical proof yet).
Reviewed By: jvillard
Differential Revision: D25196733
fbshipit-source-id: db007fe1f
Summary:
The first-order solver sometimes needs to generate fresh variables to
express the solution of equations. It needs to ensure that these
generated variables do not clash. Before this diff, there was a
confusion where new variables were fresh with respect to only the
current set of "universal" variables. This is wrong, and this diff
adds the full set of variables instead.
Reviewed By: jvillard
Differential Revision: D25196732
fbshipit-source-id: afc56834a