sat

Name		Name	Last commit message	Last commit date
parent directory ..
csharp		csharp
doc		doc
java		java
python		python
samples		samples
BUILD		BUILD
CMakeLists.txt		CMakeLists.txt
README.md		README.md
__init__.py		__init__.py
all_different.cc		all_different.cc
all_different.h		all_different.h
boolean_problem.cc		boolean_problem.cc
boolean_problem.h		boolean_problem.h
boolean_problem.proto		boolean_problem.proto
circuit.cc		circuit.cc
circuit.h		circuit.h
clause.cc		clause.cc
clause.h		clause.h
cp_constraints.cc		cp_constraints.cc
cp_constraints.h		cp_constraints.h
cp_model.cc		cp_model.cc
cp_model.h		cp_model.h
cp_model.proto		cp_model.proto
cp_model_checker.cc		cp_model_checker.cc
cp_model_checker.h		cp_model_checker.h
cp_model_expand.cc		cp_model_expand.cc
cp_model_expand.h		cp_model_expand.h
cp_model_lns.cc		cp_model_lns.cc
cp_model_lns.h		cp_model_lns.h
cp_model_loader.cc		cp_model_loader.cc
cp_model_loader.h		cp_model_loader.h
cp_model_objective.cc		cp_model_objective.cc
cp_model_objective.h		cp_model_objective.h
cp_model_postsolve.cc		cp_model_postsolve.cc
cp_model_postsolve.h		cp_model_postsolve.h
cp_model_presolve.cc		cp_model_presolve.cc
cp_model_presolve.h		cp_model_presolve.h
cp_model_search.cc		cp_model_search.cc
cp_model_search.h		cp_model_search.h
cp_model_solver.cc		cp_model_solver.cc
cp_model_solver.h		cp_model_solver.h
cp_model_symmetries.cc		cp_model_symmetries.cc
cp_model_symmetries.h		cp_model_symmetries.h
cp_model_utils.cc		cp_model_utils.cc
cp_model_utils.h		cp_model_utils.h
cumulative.cc		cumulative.cc
cumulative.h		cumulative.h
cumulative_energy.cc		cumulative_energy.cc
cumulative_energy.h		cumulative_energy.h
cuts.cc		cuts.cc
cuts.h		cuts.h
diffn.cc		diffn.cc
diffn.h		diffn.h
disjunctive.cc		disjunctive.cc
disjunctive.h		disjunctive.h
drat_checker.cc		drat_checker.cc
drat_checker.h		drat_checker.h
drat_proof_handler.cc		drat_proof_handler.cc
drat_proof_handler.h		drat_proof_handler.h
drat_writer.cc		drat_writer.cc
drat_writer.h		drat_writer.h
encoding.cc		encoding.cc
encoding.h		encoding.h
feasibility_pump.cc		feasibility_pump.cc
feasibility_pump.h		feasibility_pump.h
implied_bounds.cc		implied_bounds.cc
implied_bounds.h		implied_bounds.h
integer.cc		integer.cc
integer.h		integer.h
integer_expr.cc		integer_expr.cc
integer_expr.h		integer_expr.h
integer_search.cc		integer_search.cc
integer_search.h		integer_search.h
intervals.cc		intervals.cc
intervals.h		intervals.h
linear_constraint.cc		linear_constraint.cc
linear_constraint.h		linear_constraint.h
linear_constraint_manager.cc		linear_constraint_manager.cc
linear_constraint_manager.h		linear_constraint_manager.h
linear_programming_constraint.cc		linear_programming_constraint.cc
linear_programming_constraint.h		linear_programming_constraint.h
linear_relaxation.cc		linear_relaxation.cc
linear_relaxation.h		linear_relaxation.h
lp_utils.cc		lp_utils.cc
lp_utils.h		lp_utils.h
model.h		model.h
optimization.cc		optimization.cc
optimization.h		optimization.h
pb_constraint.cc		pb_constraint.cc
pb_constraint.h		pb_constraint.h
precedences.cc		precedences.cc
precedences.h		precedences.h
presolve_context.cc		presolve_context.cc
presolve_context.h		presolve_context.h
presolve_util.cc		presolve_util.cc
presolve_util.h		presolve_util.h
probing.cc		probing.cc
probing.h		probing.h
pseudo_costs.cc		pseudo_costs.cc
pseudo_costs.h		pseudo_costs.h

README.md

CP/SAT

This directory contains a next-gen Constraint Programming (CP) solver with clause learning. It is built on top of an efficient SAT/max-SAT solver whose code is also in this directory.

To begin, skim cp_model.proto to understand how optimization problems can be modeled using the solver. You can then solve a model with the functions in cp_model_solver.h.

Parameters

sat_parameters.proto: The SAT solver parameters. Also contains max-SAT and CP parameters.

Model

The optimization model description and related utilities:

cp_model.proto: Proto describing a general Constraint Programming model.
cp_model_utils.h: Utilities to manipulate and create a cp_model.proto.
cp_model_checker.h: Tools to validate cp_model.proto and test a solution feasibility.
cp_model_solver.h: The solver API.
cp_model_presolve.h: Presolve a cp_model.proto by applying simple rules to simplify a subsequent solve.

SAT solver

Stand-alone SAT solver and related files. Note that this is more than a basic SAT solver as it already includes non-clause constraints. However, these do not work on the general integer problems that the CP solver handles.

Pure SAT solver:

sat_base.h: SAT core classes.
clause.h: SAT clause propagator with the two-watcher mechanism. Also contains propagators for binary clauses.
sat_solver.h: The SatSolver code.
simplification.h: SAT postsolver and presolver.
symmetry.h: Dynamic symmetry breaking constraint in SAT. Not used by default.

Extension:

pb_constraint.h: Implementation of a Pseudo-Boolean constraint propagator for SAT. Pseudo-Boolean constraints are simply another name used in the SAT community for linear constraints on Booleans.
no_cycle.h: Implementation of a no-cycle constraint on a graph whose arc presences are controlled by Boolean. This is a SAT propagator, not used in CP.
encoding.h: Basic algorithm to encode integer variables into a binary representation. This is not used by the CP solver, just by the max-SAT core based algorithm in optimization.h.

Input/output:

drat_writer.h: Write UNSAT proof in the DRAT format. This allows to check the correctness of an UNSAT proof with the third party program DRAT-trim.
opb_reader.h: Parser for the .opb format for Pseudo-Boolean optimization problems.
sat_cnf_reader.h: Parser for the classic SAT .cnf format. Also parses max-SAT files.
boolean_problem.proto: Deprecated by cp_model.proto.

CP solver

CP solver built on top of the SAT solver:

integer.h: The entry point, which defines the core of the solver.

Basic constraints:

all_different.h: Propagation algorithms for the AllDifferent constraint.
integer_expr.h: Propagation algorithms for integer expression (linear, max, min, div, mod, ...).
table.h: Propagation algorithms for the table and automaton constraints.
precedences.h: Propagation algorithms for integer inequalities (integer difference logic theory).
cp_constraints.h: Propagation algorithms for other classic CP constraints (XOR, circuit, non-overlapping rectangles, ...)
linear_programming_constraint.h: Constraint that solves an LP relaxation of a set of constraints and uses the dual-ray to explain an eventual infeasibility. Also implements reduced-cost fixing.
flow_costs.h: Deprecated. Network flow constraint. We use the generic linear_programming_constraint instead.

Scheduling constraints:

intervals.h: Definition and utility for manipulating "interval" variables (a.k.a. task or activities). This is the basic CP variable type used in scheduling problems.
disjunctive.h: Propagation algorithms for the disjunctive scheduling constraint.
cumulative.h, timetable.h, overload_checker.h, timetable_edgefinding.h: Propagation algorithms for the cumulative scheduling constraint.
cumulative_energy.h: Propagation algorithms for a more general cumulative constraint.
theta_tree.h: Data structure used in the cumulative/disjunctive propagation algorithm.

Other

model.h: Generic class that implements a basic dependency injection framework for singleton objects and manages the memory ownership of all the solver classes.
optimization.h: Algorithms to solve an optimization problem using a satisfiability solver as a black box.
lp_utils.h: Utility to scale and convert a MIP model into CP.

Recipes

You can find a set a code recipes in the documentation directory.

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