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ortools-clone/ortools/sat/diffn.h

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// Copyright 2010-2022 Google LLC
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#ifndef OR_TOOLS_SAT_DIFFN_H_
#define OR_TOOLS_SAT_DIFFN_H_
#include <functional>
#include <vector>
#include "absl/container/flat_hash_set.h"
#include "absl/types/span.h"
#include "ortools/base/integral_types.h"
#include "ortools/base/logging.h"
#include "ortools/base/macros.h"
#include "ortools/sat/diffn_util.h"
#include "ortools/sat/disjunctive.h"
#include "ortools/sat/integer.h"
#include "ortools/sat/intervals.h"
#include "ortools/sat/model.h"
#include "ortools/sat/sat_base.h"
#include "ortools/sat/util.h"
#include "ortools/util/strong_integers.h"
namespace operations_research {
namespace sat {
// Non overlapping rectangles.
class NonOverlappingRectanglesDisjunctivePropagator
: public PropagatorInterface {
public:
// The strict parameters indicates how to place zero width or zero height
// boxes. If strict is true, these boxes must not 'cross' another box, and are
// pushed by the other boxes.
// The slow_propagators select which disjunctive algorithms to propagate.
NonOverlappingRectanglesDisjunctivePropagator(bool strict,
SchedulingConstraintHelper* x,
SchedulingConstraintHelper* y,
Model* model);
~NonOverlappingRectanglesDisjunctivePropagator() override;
bool Propagate() final;
void Register(int fast_priority, int slow_priority);
private:
bool PropagateTwoBoxes();
bool FindBoxesThatMustOverlapAHorizontalLineAndPropagate(
bool fast_propagation, const SchedulingConstraintHelper& x,
SchedulingConstraintHelper* y);
SchedulingConstraintHelper& global_x_;
SchedulingConstraintHelper& global_y_;
SchedulingConstraintHelper x_;
const bool strict_;
GenericLiteralWatcher* watcher_;
int fast_id_; // Propagator id of the "fast" version.
std::vector<IndexedInterval> indexed_intervals_;
std::vector<std::vector<int>> events_overlapping_boxes_;
absl::flat_hash_set<absl::Span<int>> reduced_overlapping_boxes_;
std::vector<absl::Span<int>> boxes_to_propagate_;
std::vector<absl::Span<int>> disjoint_boxes_;
DisjunctiveOverloadChecker overload_checker_;
DisjunctiveDetectablePrecedences forward_detectable_precedences_;
DisjunctiveDetectablePrecedences backward_detectable_precedences_;
DisjunctiveNotLast forward_not_last_;
DisjunctiveNotLast backward_not_last_;
DisjunctiveEdgeFinding forward_edge_finding_;
DisjunctiveEdgeFinding backward_edge_finding_;
NonOverlappingRectanglesDisjunctivePropagator(
const NonOverlappingRectanglesDisjunctivePropagator&) = delete;
NonOverlappingRectanglesDisjunctivePropagator& operator=(
const NonOverlappingRectanglesDisjunctivePropagator&) = delete;
};
// Add a cumulative relaxation. That is, on one dimension, it does not enforce
// the rectangle aspect, allowing vertical slices to move freely.
void AddDiffnCumulativeRelationOnX(SchedulingConstraintHelper* x,
SchedulingConstraintHelper* y, Model* model);
// Enforces that the boxes with corners in (x, y), (x + dx, y), (x, y + dy)
// and (x + dx, y + dy) do not overlap.
// If strict is true, and if one box has a zero dimension, it still cannot
// intersect another box.
inline std::function<void(Model*)> NonOverlappingRectangles(
const std::vector<IntervalVariable>& x,
const std::vector<IntervalVariable>& y, bool is_strict) {
return [=](Model* model) {
SchedulingConstraintHelper* x_helper =
new SchedulingConstraintHelper(x, model);
SchedulingConstraintHelper* y_helper =
new SchedulingConstraintHelper(y, model);
model->TakeOwnership(x_helper);
model->TakeOwnership(y_helper);
NonOverlappingRectanglesDisjunctivePropagator* constraint =
new NonOverlappingRectanglesDisjunctivePropagator(is_strict, x_helper,
y_helper, model);
constraint->Register(/*fast_priority=*/3, /*slow_priority=*/4);
model->TakeOwnership(constraint);
const SatParameters* params = model->GetOrCreate<SatParameters>();
const bool add_cumulative_relaxation =
params->use_timetabling_in_no_overlap_2d() ||
params->use_energetic_reasoning_in_no_overlap_2d();
if (add_cumulative_relaxation) {
// We must first check if the cumulative relaxation is possible.
bool some_boxes_are_only_optional_on_x = false;
bool some_boxes_are_only_optional_on_y = false;
for (int i = 0; i < x.size(); ++i) {
if (x_helper->IsOptional(i) && y_helper->IsOptional(i) &&
x_helper->PresenceLiteral(i) != y_helper->PresenceLiteral(i)) {
// Abort as the task would be conditioned by two literals.
return;
}
if (x_helper->IsOptional(i) && !y_helper->IsOptional(i)) {
// We cannot use x_size as the demand of the cumulative based on
// the y_intervals.
some_boxes_are_only_optional_on_x = true;
}
if (y_helper->IsOptional(i) && !x_helper->IsOptional(i)) {
// We cannot use y_size as the demand of the cumulative based on
// the y_intervals.
some_boxes_are_only_optional_on_y = true;
}
}
if (!some_boxes_are_only_optional_on_y) {
AddDiffnCumulativeRelationOnX(x_helper, y_helper, model);
}
if (!some_boxes_are_only_optional_on_x) {
AddDiffnCumulativeRelationOnX(y_helper, x_helper, model);
}
}
};
}
} // namespace sat
} // namespace operations_research
#endif // OR_TOOLS_SAT_DIFFN_H_
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