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sparse_permutation.h
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sparse_permutation.h
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// Copyright 2010-2021 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_ALGORITHMS_SPARSE_PERMUTATION_H_
#define OR_TOOLS_ALGORITHMS_SPARSE_PERMUTATION_H_
#include <string>
#include <vector>
#include "ortools/base/logging.h"
namespace operations_research {
// A compact representation for permutations of {0..N-1} that displaces few
// elements: it needs only O(K) memory for a permutation that displaces
// K elements.
class SparsePermutation {
public:
explicit SparsePermutation(int size) : size_(size) {} // Identity.
// TODO(user,user): complete the reader API.
int Size() const { return size_; }
int NumCycles() const { return cycle_ends_.size(); }
// Returns the "support" of this permutation; that is, the set of elements
// displaced by it.
const std::vector<int>& Support() const { return cycles_; }
// The permutation has NumCycles() cycles numbered 0 .. NumCycles()-1.
// To iterate over cycle #i of the permutation, do this:
// for (const int e : permutation.Cycle(i)) { ...
struct Iterator;
Iterator Cycle(int i) const;
// This is useful for iterating over the pair {element, image}
// of a permutation:
//
// for (int c = 0; c < perm.NumCycles(); ++c) {
// int element = LastElementInCycle(c);
// for (int image : perm.Cycle(c)) {
// // The pair is (element, image).
// ...
// element = image;
// }
// }
//
// TODO(user): Provide a full iterator for this? Note that we have more
// information with the loop above. Not sure it is needed though.
int LastElementInCycle(int i) const;
// To add a cycle to the permutation, repeatedly call AddToCurrentCycle()
// with the cycle's orbit, then call CloseCurrentCycle();
// This shouldn't be called on trivial cycles (of length 1).
void AddToCurrentCycle(int x);
void CloseCurrentCycle();
// Removes the cycles with given indices from the permutation. This
// works in O(K) for a permutation displacing K elements.
void RemoveCycles(const std::vector<int>& cycle_indices);
// Output all non-identity cycles of the permutation, sorted
// lexicographically (each cycle is described starting by its smallest
// element; and all cycles are sorted lexicographically against each other).
// This isn't efficient; use for debugging only.
// Example: "(1 4 3) (5 9) (6 8 7)".
std::string DebugString() const;
private:
const int size_;
std::vector<int> cycles_;
std::vector<int> cycle_ends_;
};
inline void SparsePermutation::AddToCurrentCycle(int x) {
DCHECK_GE(x, 0);
DCHECK_LT(x, size_);
cycles_.push_back(x);
}
inline void SparsePermutation::CloseCurrentCycle() {
if (cycle_ends_.empty()) {
DCHECK_GE(cycles_.size(), 2);
} else {
DCHECK_GE(cycles_.size(), cycle_ends_.back() + 2);
}
cycle_ends_.push_back(cycles_.size());
}
struct SparsePermutation::Iterator {
// These typedefs allow this iterator to be used within testing::ElementsAre.
typedef int value_type;
typedef std::vector<int>::const_iterator const_iterator;
Iterator() {}
Iterator(const std::vector<int>::const_iterator& b,
const std::vector<int>::const_iterator& e)
: begin_(b), end_(e) {}
std::vector<int>::const_iterator begin() const { return begin_; }
std::vector<int>::const_iterator end() const { return end_; }
const std::vector<int>::const_iterator begin_;
const std::vector<int>::const_iterator end_;
int size() const { return end_ - begin_; }
};
inline SparsePermutation::Iterator SparsePermutation::Cycle(int i) const {
DCHECK_GE(i, 0);
DCHECK_LT(i, NumCycles());
return Iterator(cycles_.begin() + (i == 0 ? 0 : cycle_ends_[i - 1]),
cycles_.begin() + cycle_ends_[i]);
}
inline int SparsePermutation::LastElementInCycle(int i) const {
DCHECK_GE(i, 0);
DCHECK_LT(i, cycle_ends_.size());
DCHECK_GT(cycle_ends_[i], i == 0 ? 0 : cycle_ends_[i - 1]);
return cycles_[cycle_ends_[i] - 1];
}
} // namespace operations_research
#endif // OR_TOOLS_ALGORITHMS_SPARSE_PERMUTATION_H_