This module contains basic statements about the invariants that are satisfied by the LRAT checker
implementation in Implementation
.
This invariant states that if the assignments
field of a default formula f
indicates that f
contains an assignment b
at index i
, then the unit literal (i, b)
must be included in f
.
Default formulas are expected to satisfy this invariant at all times except during intermediate
stages of unit propogation (during which, default formulas are only expected to satisfy the more
lenient AssignmentsInvariant
defined below).
Equations
- One or more equations did not get rendered due to their size.
Instances For
This invariant states that if the assignments
field of a default formula f
indicates that f
contains an assignment b
at index i
, then the unit literal (i, b)
is entailed by f
. This is
distinct from the StrongAssignmentsInvariant
defined above in that the entailment described here
does not require explicitly containing the literal (i, b)
. For example, if f
contains (i, b) ∨ (j, b')
as well as (i, b) ∨ (j, ¬b')
, then the AssignmentsInvariant
would permit the assignments
field of f
to contain assignment b
at index i
, but the StrongAssignmentsInvariant
would not.
Equations
- One or more equations did not get rendered due to their size.
Instances For
performRupAdd adds to f.rupUnits and then clears f.rupUnits. If f begins with some units in f.rupUnits, then performRupAdd will clear more than it intended to which will break the correctness of rupAdd_result.
Instances For
performRatAdd adds to f.rupUnits and f.ratUnits and then clears both. If f begins with some units in either, then performRatAdd will clear more than it intended to which will break the correctness of ratAdd_result