116 lines
5.1 KiB
C++
116 lines
5.1 KiB
C++
// Copyright 2010-2022 Google LLC
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// Licensed under the Apache License, Version 2.0 (the "License");
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// you may not use this file except in compliance with the License.
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// You may obtain a copy of the License at
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//
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// http://www.apache.org/licenses/LICENSE-2.0
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//
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// Unless required by applicable law or agreed to in writing, software
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// distributed under the License is distributed on an "AS IS" BASIS,
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// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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// See the License for the specific language governing permissions and
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// limitations under the License.
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#ifndef OR_TOOLS_SAT_CP_MODEL_LOADER_H_
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#define OR_TOOLS_SAT_CP_MODEL_LOADER_H_
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#include <cstdint>
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#include <functional>
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#include <vector>
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#include "absl/container/flat_hash_set.h"
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#include "ortools/base/integral_types.h"
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#include "ortools/base/logging.h"
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#include "ortools/base/strong_vector.h"
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#include "ortools/sat/cp_model.pb.h"
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#include "ortools/sat/cp_model_mapping.h"
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#include "ortools/sat/cp_model_utils.h"
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#include "ortools/sat/integer.h"
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#include "ortools/sat/intervals.h"
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#include "ortools/sat/linear_relaxation.h"
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#include "ortools/sat/model.h"
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#include "ortools/sat/sat_base.h"
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#include "ortools/util/strong_integers.h"
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namespace operations_research {
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namespace sat {
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// Extracts all the used variables in the CpModelProto and creates a
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// sat::Model representation for them. More precisely
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// - All Boolean variables will be mapped.
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// - All Interval variables will be mapped.
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// - All non-Boolean variable will have a corresponding IntegerVariable, and
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// depending on the view_all_booleans_as_integers, some or all of the
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// BooleanVariable will also have an IntegerVariable corresponding to its
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// "integer view".
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//
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// Note(user): We could create IntegerVariable on the fly as they are needed,
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// but that loose the original variable order which might be useful in
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// heuristics later.
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void LoadVariables(const CpModelProto& model_proto,
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bool view_all_booleans_as_integers, Model* m);
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// Automatically detect optional variables.
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void DetectOptionalVariables(const CpModelProto& model_proto, Model* m);
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// Experimental. Loads the symmetry form the proto symmetry field, as long as
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// they only involve Booleans.
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//
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// TODO(user): We currently only have the code for Booleans, it is why we
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// currently ignore symmetries involving integer variables.
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void LoadBooleanSymmetries(const CpModelProto& model_proto, Model* m);
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// Extract the encodings (IntegerVariable <-> Booleans) present in the model.
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// This effectively load some linear constraints of size 1 that will be marked
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// as already loaded.
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void ExtractEncoding(const CpModelProto& model_proto, Model* m);
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// Extract element encodings from exactly_one constraints and
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// lit => var == value constraints.
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// This function must be called after ExtractEncoding() has been called.
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void ExtractElementEncoding(const CpModelProto& model_proto, Model* m);
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// Process all affine relations of the form a*X + b*Y == cte. For each
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// literals associated to (X >= bound) or (X == value) associate it to its
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// corresponding relation on Y. Also do the other side.
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//
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// TODO(user): In an ideal world, all affine relations like this should be
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// removed in the presolve.
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void PropagateEncodingFromEquivalenceRelations(const CpModelProto& model_proto,
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Model* m);
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// Inspect the search strategy stored in the model, and adds a full encoding to
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// variables appearing in a SELECT_MEDIAN_VALUE search strategy if the search
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// branching is set to FIXED_SEARCH.
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void AddFullEncodingFromSearchBranching(const CpModelProto& model_proto,
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Model* m);
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// Calls one of the functions below.
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// Returns false if we do not know how to load the given constraints.
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bool LoadConstraint(const ConstraintProto& ct, Model* m);
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void LoadBoolOrConstraint(const ConstraintProto& ct, Model* m);
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void LoadBoolAndConstraint(const ConstraintProto& ct, Model* m);
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void LoadAtMostOneConstraint(const ConstraintProto& ct, Model* m);
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void LoadExactlyOneConstraint(const ConstraintProto& ct, Model* m);
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void LoadBoolXorConstraint(const ConstraintProto& ct, Model* m);
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void LoadLinearConstraint(const ConstraintProto& ct, Model* m);
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void LoadAllDiffConstraint(const ConstraintProto& ct, Model* m);
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void LoadIntProdConstraint(const ConstraintProto& ct, Model* m);
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void LoadIntDivConstraint(const ConstraintProto& ct, Model* m);
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void LoadIntMinConstraint(const ConstraintProto& ct, Model* m);
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void LoadLinMaxConstraint(const ConstraintProto& ct, Model* m);
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void LoadIntMaxConstraint(const ConstraintProto& ct, Model* m);
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void LoadNoOverlapConstraint(const ConstraintProto& ct, Model* m);
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void LoadNoOverlap2dConstraint(const ConstraintProto& ct, Model* m);
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void LoadCumulativeConstraint(const ConstraintProto& ct, Model* m);
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void LoadCircuitConstraint(const ConstraintProto& ct, Model* m);
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void LoadReservoirConstraint(const ConstraintProto& ct, Model* m);
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void LoadRoutesConstraint(const ConstraintProto& ct, Model* m);
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void LoadCircuitCoveringConstraint(const ConstraintProto& ct, Model* m);
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} // namespace sat
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} // namespace operations_research
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#endif // OR_TOOLS_SAT_CP_MODEL_LOADER_H_
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