Fixes soundness/completeness of the TPTP frontend for polymorphic (TF1/TH1)
problems, reducing TPTP-v9.2.1 BUG verdicts from 28 to 4.
* Treat regular-forall "! [A: $tType] : ..." as genuine type quantification
(bind A via mk_type_var) instead of monomorphizing it to the universe sort.
This is the standard THF/TH1 way to quantify over types, and monomorphizing
it silently prevented theory_polymorphism from instantiating the axioms.
* Use the plain smt solver (mk_smt_solver_factory) for problems that contain
type variables. The strategic solver's tactic preprocessing eliminates the
unconstrained conjecture instance before the core can link it to its
polymorphic axiom, yielding a spurious CounterSatisfiable.
* Detect value-indexed dependent type families ("T > $tType"), which the
parametric-polymorphism encoding cannot represent soundly, and downgrade
both sat and unsat verdicts to GaveUp (previously produced unsound Theorems,
e.g. SEV600/601/602).
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
A double-quoted TPTP token such as "138" is a distinct object, and a
single-quoted '138' is a functor name; neither is an arithmetic numeral.
parse_name() strips the quotes, so the subsequent is_nonempty_digit_string
check was converting them into Int literals (then boxed Int->U),
mis-encoding distinct objects as equal numbers. Guard both numeral checks
(parse_term_primary and the atomic-formula parser) with !m_last_name_quoted
so only bare unquoted digit tokens become numerals.
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
This is another PR towards the goal of getting Z3 to compile cleanly
when included via FetchContents into clang-tidy, which uses a pretty
strict set of warnings.
This is a second version of https://github.com/Z3Prover/z3/pull/9957. I
address @NikolajBjorner 's comments about not changing the semicolons
after macro invocations, because some editors work better with them
present. It now, to the best of my ability, only deletes semis:
* after the closing brace of namespace decl.
* after the closing brace of an extern "C" decl.
* after a function definition.
This PR is very large, but it consists entirely of deletions of
semicolons in these situations.
(If there was a way to update the previous PR, which had been closed,
and that is preferable, please let me know. I couldn't figure it out.)
Three translation defects in tptp_frontend.cpp caused spurious sat/unsat
verdicts (reported as SZS BUG against annotated status):
- Parenthesized negation bound the whole disjunction: ( ~ p | q ) parsed
as ~(p | q) instead of (~p) | q, flipping nearly every CNF/FOF clause.
Negate only the next unary unit, then resume precedence parsing via a
new parse_binary_rest helper.
- Quantifier bodies absorbed lower-precedence connectives: ! [X] : p(X) => g
parsed as ! [X] : (p(X) => g). TPTP quantifiers bind tighter than the
binary connectives, so parse the body at parse_expr(PREC_EQ).
- Mixed Int/Real equality coerced through an uninterpreted box function,
severing arithmetic semantics and yielding spurious models. Use the
arithmetic to_real/to_int conversions instead.
Add regression cases to src/test/tptp.cpp covering all three fixes.
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
This is another PR towards the goal of getting Z3 to compile cleanly
when included via FetchContents into clang-tidy, which uses a pretty
strict set of warnings.
The PR adds
```
"-Wsuggest-override"
"-Winconsistent-missing-override"
```
to the CLANG_ONLY_WARNINGS. This exposes a relatively small number of places where method overrides did not use the "override" keyword. The PR fixes those.
(In cmd_util.h, I also made the *_CMD macros be uniform in not ending the class they define with a semicolon; the invocation of the macro can add the semicolon.)
Fix the TPTP frontend so that a bare name used in an equality refers to
a single shared `func_decl`, regardless of how the surrounding context
coerces its sort.
## Problem
With the following input the conjecture was not proved:
```tptp
fof(a1,axiom, ! [X] : (X = a)).
fof(c1,conjecture, b = a).
```
`parse_atomic_formula` created bare names as 0-arity **Bool
predicates**, and `coerce_eq` later retyped them by calling
`m.mk_func_decl(...)` directly, without registering the result in
`m_decls`. So the `a` used inside `! [X] : (X = a)` (coerced to sort
`U`) and the `a` used inside `b = a` (left as Bool) ended up as two
unrelated `func_decl`s sharing only the name. The axiom no longer
constrained the conjecture.
## Fix
In `src/cmd_context/tptp_frontend.cpp`:
1. Add `mk_zero_arity_decl(name, range)` / `coerce_zero_arity(app*,
range)` helpers that memoize the 0-arity `func_decl` per `(name, target
sort)` in `m_decls`, delegating to the existing `mk_decl_or_ho_const`
for `U` and Bool targets.
2. Rewrite `coerce_eq` to use the new helpers and add an explicit Bool /
non-Bool retyping branch so a bare-Bool side is recast to the other
side's sort.
3. In `parse_atomic_formula`, when a bare name is immediately followed
by `=` or `!=`, create it as a non-predicate (sort `U`). Terms in
equalities are no longer first introduced as Bool predicates.
4. Reorder the constructor init-list so `m_univ` is initialized before
the pinned ref vectors (matches declaration order; silences
`-Wreorder`).
Net effect: every reference to a given name at a given sort yields the
same `func_decl`, eliminating duplicate-symbol bugs in equalities over
bare TPTP constants.
## Test
Added `fof-bare-constant-equality` to `src/test/tptp.cpp`. Without the
C++ change the new case asserts; with it, `./build/release/test-z3 /seq
tptp` reports `PASS`.
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
Co-authored-by: Copilot <223556219+Copilot@users.noreply.github.com>
Discussion #9524 reported systematic TPTP result polarity errors
(notably `Unsatisfiable/Theorem` cases returned as `Satisfiable`) and
timeout-path instability in the frontend. The dominant issue was
semantic: free variables in FOF/CNF formulas were parsed as constants
instead of implicitly universally quantified variables.
- **Parser semantics: free variables now follow TPTP rules**
- In `/home/runner/work/z3/z3/src/cmd_context/tptp_frontend.cpp`, free
variables encountered while parsing an annotated formula are now
collected in formula scope and wrapped with a top-level `forall`.
- This applies to both term and atomic-formula paths, so variable
occurrences are treated consistently.
- Explicitly bound quantifier variables continue to take precedence over
implicit ones.
- **Scoped implementation cleanup**
- Added scoped state for implicit-variable collection to avoid leaking
parser state across formulas.
- Kept variable binding order stable so quantifier construction is
deterministic.
- **Timeout-path robustness**
- Updated frontend exception catches to `const&` in the TPTP stream
entrypoint to make timeout/error handling behavior consistent with
thrown exception forms.
- **Regression tests**
- Extended `/home/runner/work/z3/z3/src/test/tptp.cpp` with focused
cases for:
- FOF free-variable implicit universal quantification.
- CNF free-variable implicit universal quantification.
```tptp
cnf(c1,axiom, p(X)).
cnf(c2,axiom, ~ p(a)).
```
This now maps to `forall X. p(X)` plus `~p(a)`, yielding `% SZS status
Unsatisfiable` as expected.
---------
Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com>
Co-authored-by: NikolajBjorner <3085284+NikolajBjorner@users.noreply.github.com>
This PR targets the main TFF frontend parsing failures: bare numeric
atoms were being treated as uninterpreted terms (`U`) in formula
position, decimal literals were not parsed, and `$uminus` was not
recognized as an arithmetic builtin. These issues caused widespread
parse/type failures in arithmetic-heavy TPTP inputs.
- **Numeric atom parsing in formulas (TFF)**
- Added a shared numeric-literal parser path for term/formula contexts.
- In atomic formulas, numeric LHS now parses as arithmetic numerals
before `=`/`!=` handling, avoiding `U` vs `Int/Real` mismatches.
- **Decimal literal support**
- Extended numeral parsing to accept `d.d` forms and construct `Real`
numerals.
- Keeps existing integer (`d`) and rational (`d/d`) behavior on the same
code path.
- **`$uminus` builtin support**
- Added explicit handling for `$uminus(<arg>)` in term parsing.
- Enforces arity 1 and arithmetic-argument checks; maps directly to
arithmetic unary minus.
- **Focused regression coverage**
- Added/updated TPTP unit cases for:
- bare integer inequality: `31 != 12`
- decimal arithmetic literal usage
- `$uminus` in arithmetic predicates
Example of now-supported inputs:
```tptp
tff(c1,conjecture, 31 != 12).
tff(c2,conjecture, ~ $less(-3.25,-8.69)).
tff(c3,conjecture, $less($uminus(2),0)).
```
---------
Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com>
Co-authored-by: NikolajBjorner <3085284+NikolajBjorner@users.noreply.github.com>
* Initial plan
* Refactor find_probe() to use std::optional
- Updated tactic_manager.h: Changed return type to std::optional<probe_info*>
- Updated tactic_manager.cpp: Modified implementation to return std::nullopt or probe pointer
- Updated api_tactic.cpp: Changed 2 call sites to use optional checks and dereference
- Updated tactic_cmds.cpp: Changed 1 call site to use optional check and dereference
- Build verified successfully
- Probe functionality tested with Python bindings
Co-authored-by: NikolajBjorner <3085284+NikolajBjorner@users.noreply.github.com>
---------
Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com>
Co-authored-by: NikolajBjorner <3085284+NikolajBjorner@users.noreply.github.com>
* Initial plan
* Refactor mk_and and mk_or call sites to use overloaded methods
Changed 130 call sites across 64 files to use vector overloads directly instead of manually passing .size() and .data()/.c_ptr()
Co-authored-by: NikolajBjorner <3085284+NikolajBjorner@users.noreply.github.com>
* Revert mk_or changes for ptr_buffer/ptr_vector (no overload exists in ast_util.h)
* Fix compilation errors from mk_and/mk_or refactoring
Fixed type mismatches by:
- Removing m parameter for expr_ref_vector (ast_util.h has mk_and/mk_or(expr_ref_vector) overloads)
- Reverting changes for ref_buffer types (no overload exists in ast_util.h, only in ast.h for m.mk_and)
- Verified build succeeds and Z3 works correctly
Co-authored-by: NikolajBjorner <3085284+NikolajBjorner@users.noreply.github.com>
* Fix test files to use correct mk_and/mk_or overloads
Changed test/doc.cpp and test/udoc_relation.cpp to use mk_and(expr_ref_vector) and mk_or(expr_ref_vector) without m parameter
Co-authored-by: NikolajBjorner <3085284+NikolajBjorner@users.noreply.github.com>
---------
Co-authored-by: copilot-swe-agent[bot] <198982749+Copilot@users.noreply.github.com>
Co-authored-by: NikolajBjorner <3085284+NikolajBjorner@users.noreply.github.com>
* somewhaat failed attempt at declaring subterm predicate
I can't really figure out how to link the smt parser to the rest of the
machinenery, so I will stop here and try from the other side. I'll start
implmenting the logic and see if it brings me back to the parser.
* initial logic implmentation
Very primitive, but I don't like have that much work uncommitted.
* parser implementation
* more theory
* Working base
* subterm reflexivity
* a few optimization
Skip adding obvious equalities or disequality
* removed some optimisations
* better handling of backtracking
* stupid segfault
Add m_subterm to the trail
* Update src/smt/theory_datatype.h
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
* Update src/ast/rewriter/datatype_rewriter.cpp
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
* Update src/smt/theory_datatype.cpp
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
* Update src/smt/theory_datatype.cpp
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
* Update src/smt/theory_datatype.cpp
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
* review
* forgot to update `iterate_subterm`'s signature
* fix iterator segfault
* Remove duplicate include statement
Removed duplicate include of 'theory_datatype.h'.
* Replace 'optional' with 'std::option' in datatype_decl_plugin.h
* Add is_subterm_predicate matcher to datatype_decl_plugin
* Change std::option to std::optional for m_subterm
* Update pdecl.h
* Change has_subterm to use has_value method
* Update pdecl.cpp
---------
Co-authored-by: Nikolaj Bjorner <nbjorner@microsoft.com>
Co-authored-by: Copilot <175728472+Copilot@users.noreply.github.com>
Add commands:
(prefer <formula>)
- will instruct case split queue to assign formula to true.
- prefer commands added within a scope are forgotten after leaving the scope.
(reset-preferences)
- resets asserted preferences. Has to be invoked at base level.
This provides functionality related to MathSAT and based on an ask by Tomáš Kolárik who is integrating the functionality with OpenSMT2
* Introduce X-macro-based trace tag definition
- Created trace_tags.def to centralize TRACE tag definitions
- Each tag includes a symbolic name and description
- Set up enum class TraceTag for type-safe usage in TRACE macros
* Add script to generate Markdown documentation from trace_tags.def
- Python script parses trace_tags.def and outputs trace_tags.md
* Refactor TRACE_NEW to prepend TraceTag and pass enum to is_trace_enabled
* trace: improve trace tag handling system with hierarchical tagging
- Introduce hierarchical tag-class structure: enabling a tag class activates all child tags
- Unify TRACE, STRACE, SCTRACE, and CTRACE under enum TraceTag
- Implement initial version of trace_tag.def using X(tag, tag_class, description)
(class names and descriptions to be refined in a future update)
* trace: replace all string-based TRACE tags with enum TraceTag
- Migrated all TRACE, STRACE, SCTRACE, and CTRACE macros to use enum TraceTag values instead of raw string literals
* trace : add cstring header
* trace : Add Markdown documentation generation from trace_tags.def via mk_api_doc.py
* trace : rename macro parameter 'class' to 'tag_class' and remove Unicode comment in trace_tags.h.
* trace : Add TODO comment for future implementation of tag_class activation
* trace : Disable code related to tag_class until implementation is ready (#7663).