xref: /aosp_15_r20/external/regex-re2/util/sparse_set.h (revision ccdc9c3e24c519bfa4832a66aa2e83a52c19f295) 
1*ccdc9c3eSSadaf Ebrahimi // Copyright 2006 The RE2 Authors.  All Rights Reserved.
2*ccdc9c3eSSadaf Ebrahimi // Use of this source code is governed by a BSD-style
3*ccdc9c3eSSadaf Ebrahimi // license that can be found in the LICENSE file.
4*ccdc9c3eSSadaf Ebrahimi 
5*ccdc9c3eSSadaf Ebrahimi #ifndef UTIL_SPARSE_SET_H_
6*ccdc9c3eSSadaf Ebrahimi #define UTIL_SPARSE_SET_H_
7*ccdc9c3eSSadaf Ebrahimi 
8*ccdc9c3eSSadaf Ebrahimi // DESCRIPTION
9*ccdc9c3eSSadaf Ebrahimi //
10*ccdc9c3eSSadaf Ebrahimi // SparseSet(m) is a set of integers in [0, m).
11*ccdc9c3eSSadaf Ebrahimi // It requires sizeof(int)*m memory, but it provides
12*ccdc9c3eSSadaf Ebrahimi // fast iteration through the elements in the set and fast clearing
13*ccdc9c3eSSadaf Ebrahimi // of the set.
14*ccdc9c3eSSadaf Ebrahimi //
15*ccdc9c3eSSadaf Ebrahimi // Insertion and deletion are constant time operations.
16*ccdc9c3eSSadaf Ebrahimi //
17*ccdc9c3eSSadaf Ebrahimi // Allocating the set is a constant time operation
18*ccdc9c3eSSadaf Ebrahimi // when memory allocation is a constant time operation.
19*ccdc9c3eSSadaf Ebrahimi //
20*ccdc9c3eSSadaf Ebrahimi // Clearing the set is a constant time operation (unusual!).
21*ccdc9c3eSSadaf Ebrahimi //
22*ccdc9c3eSSadaf Ebrahimi // Iterating through the set is an O(n) operation, where n
23*ccdc9c3eSSadaf Ebrahimi // is the number of items in the set (not O(m)).
24*ccdc9c3eSSadaf Ebrahimi //
25*ccdc9c3eSSadaf Ebrahimi // The set iterator visits entries in the order they were first
26*ccdc9c3eSSadaf Ebrahimi // inserted into the set.  It is safe to add items to the set while
27*ccdc9c3eSSadaf Ebrahimi // using an iterator: the iterator will visit indices added to the set
28*ccdc9c3eSSadaf Ebrahimi // during the iteration, but will not re-visit indices whose values
29*ccdc9c3eSSadaf Ebrahimi // change after visiting.  Thus SparseSet can be a convenient
30*ccdc9c3eSSadaf Ebrahimi // implementation of a work queue.
31*ccdc9c3eSSadaf Ebrahimi //
32*ccdc9c3eSSadaf Ebrahimi // The SparseSet implementation is NOT thread-safe.  It is up to the
33*ccdc9c3eSSadaf Ebrahimi // caller to make sure only one thread is accessing the set.  (Typically
34*ccdc9c3eSSadaf Ebrahimi // these sets are temporary values and used in situations where speed is
35*ccdc9c3eSSadaf Ebrahimi // important.)
36*ccdc9c3eSSadaf Ebrahimi //
37*ccdc9c3eSSadaf Ebrahimi // The SparseSet interface does not present all the usual STL bells and
38*ccdc9c3eSSadaf Ebrahimi // whistles.
39*ccdc9c3eSSadaf Ebrahimi //
40*ccdc9c3eSSadaf Ebrahimi // Implemented with reference to Briggs & Torczon, An Efficient
41*ccdc9c3eSSadaf Ebrahimi // Representation for Sparse Sets, ACM Letters on Programming Languages
42*ccdc9c3eSSadaf Ebrahimi // and Systems, Volume 2, Issue 1-4 (March-Dec.  1993), pp.  59-69.
43*ccdc9c3eSSadaf Ebrahimi //
44*ccdc9c3eSSadaf Ebrahimi // This is a specialization of sparse array; see sparse_array.h.
45*ccdc9c3eSSadaf Ebrahimi 
46*ccdc9c3eSSadaf Ebrahimi // IMPLEMENTATION
47*ccdc9c3eSSadaf Ebrahimi //
48*ccdc9c3eSSadaf Ebrahimi // See sparse_array.h for implementation details.
49*ccdc9c3eSSadaf Ebrahimi 
50*ccdc9c3eSSadaf Ebrahimi // Doing this simplifies the logic below.
51*ccdc9c3eSSadaf Ebrahimi #ifndef __has_feature
52*ccdc9c3eSSadaf Ebrahimi #define __has_feature(x) 0
53*ccdc9c3eSSadaf Ebrahimi #endif
54*ccdc9c3eSSadaf Ebrahimi 
55*ccdc9c3eSSadaf Ebrahimi #include <assert.h>
56*ccdc9c3eSSadaf Ebrahimi #include <stdint.h>
57*ccdc9c3eSSadaf Ebrahimi #if __has_feature(memory_sanitizer)
58*ccdc9c3eSSadaf Ebrahimi #include <sanitizer/msan_interface.h>
59*ccdc9c3eSSadaf Ebrahimi #endif
60*ccdc9c3eSSadaf Ebrahimi #include <algorithm>
61*ccdc9c3eSSadaf Ebrahimi #include <memory>
62*ccdc9c3eSSadaf Ebrahimi #include <utility>
63*ccdc9c3eSSadaf Ebrahimi 
64*ccdc9c3eSSadaf Ebrahimi #include "util/pod_array.h"
65*ccdc9c3eSSadaf Ebrahimi 
66*ccdc9c3eSSadaf Ebrahimi namespace re2 {
67*ccdc9c3eSSadaf Ebrahimi 
68*ccdc9c3eSSadaf Ebrahimi template<typename Value>
69*ccdc9c3eSSadaf Ebrahimi class SparseSetT {
70*ccdc9c3eSSadaf Ebrahimi  public:
71*ccdc9c3eSSadaf Ebrahimi   SparseSetT();
72*ccdc9c3eSSadaf Ebrahimi   explicit SparseSetT(int max_size);
73*ccdc9c3eSSadaf Ebrahimi   ~SparseSetT();
74*ccdc9c3eSSadaf Ebrahimi 
75*ccdc9c3eSSadaf Ebrahimi   typedef int* iterator;
76*ccdc9c3eSSadaf Ebrahimi   typedef const int* const_iterator;
77*ccdc9c3eSSadaf Ebrahimi 
78*ccdc9c3eSSadaf Ebrahimi   // Return the number of entries in the set.
size()79*ccdc9c3eSSadaf Ebrahimi   int size() const {
80*ccdc9c3eSSadaf Ebrahimi     return size_;
81*ccdc9c3eSSadaf Ebrahimi   }
82*ccdc9c3eSSadaf Ebrahimi 
83*ccdc9c3eSSadaf Ebrahimi   // Indicate whether the set is empty.
empty()84*ccdc9c3eSSadaf Ebrahimi   int empty() const {
85*ccdc9c3eSSadaf Ebrahimi     return size_ == 0;
86*ccdc9c3eSSadaf Ebrahimi   }
87*ccdc9c3eSSadaf Ebrahimi 
88*ccdc9c3eSSadaf Ebrahimi   // Iterate over the set.
begin()89*ccdc9c3eSSadaf Ebrahimi   iterator begin() {
90*ccdc9c3eSSadaf Ebrahimi     return dense_.data();
91*ccdc9c3eSSadaf Ebrahimi   }
end()92*ccdc9c3eSSadaf Ebrahimi   iterator end() {
93*ccdc9c3eSSadaf Ebrahimi     return dense_.data() + size_;
94*ccdc9c3eSSadaf Ebrahimi   }
95*ccdc9c3eSSadaf Ebrahimi 
begin()96*ccdc9c3eSSadaf Ebrahimi   const_iterator begin() const {
97*ccdc9c3eSSadaf Ebrahimi     return dense_.data();
98*ccdc9c3eSSadaf Ebrahimi   }
end()99*ccdc9c3eSSadaf Ebrahimi   const_iterator end() const {
100*ccdc9c3eSSadaf Ebrahimi     return dense_.data() + size_;
101*ccdc9c3eSSadaf Ebrahimi   }
102*ccdc9c3eSSadaf Ebrahimi 
103*ccdc9c3eSSadaf Ebrahimi   // Change the maximum size of the set.
104*ccdc9c3eSSadaf Ebrahimi   // Invalidates all iterators.
105*ccdc9c3eSSadaf Ebrahimi   void resize(int new_max_size);
106*ccdc9c3eSSadaf Ebrahimi 
107*ccdc9c3eSSadaf Ebrahimi   // Return the maximum size of the set.
108*ccdc9c3eSSadaf Ebrahimi   // Indices can be in the range [0, max_size).
max_size()109*ccdc9c3eSSadaf Ebrahimi   int max_size() const {
110*ccdc9c3eSSadaf Ebrahimi     if (dense_.data() != NULL)
111*ccdc9c3eSSadaf Ebrahimi       return dense_.size();
112*ccdc9c3eSSadaf Ebrahimi     else
113*ccdc9c3eSSadaf Ebrahimi       return 0;
114*ccdc9c3eSSadaf Ebrahimi   }
115*ccdc9c3eSSadaf Ebrahimi 
116*ccdc9c3eSSadaf Ebrahimi   // Clear the set.
clear()117*ccdc9c3eSSadaf Ebrahimi   void clear() {
118*ccdc9c3eSSadaf Ebrahimi     size_ = 0;
119*ccdc9c3eSSadaf Ebrahimi   }
120*ccdc9c3eSSadaf Ebrahimi 
121*ccdc9c3eSSadaf Ebrahimi   // Check whether index i is in the set.
122*ccdc9c3eSSadaf Ebrahimi   bool contains(int i) const;
123*ccdc9c3eSSadaf Ebrahimi 
124*ccdc9c3eSSadaf Ebrahimi   // Comparison function for sorting.
125*ccdc9c3eSSadaf Ebrahimi   // Can sort the sparse set so that future iterations
126*ccdc9c3eSSadaf Ebrahimi   // will visit indices in increasing order using
127*ccdc9c3eSSadaf Ebrahimi   // std::sort(arr.begin(), arr.end(), arr.less);
128*ccdc9c3eSSadaf Ebrahimi   static bool less(int a, int b);
129*ccdc9c3eSSadaf Ebrahimi 
130*ccdc9c3eSSadaf Ebrahimi  public:
131*ccdc9c3eSSadaf Ebrahimi   // Insert index i into the set.
insert(int i)132*ccdc9c3eSSadaf Ebrahimi   iterator insert(int i) {
133*ccdc9c3eSSadaf Ebrahimi     return InsertInternal(true, i);
134*ccdc9c3eSSadaf Ebrahimi   }
135*ccdc9c3eSSadaf Ebrahimi 
136*ccdc9c3eSSadaf Ebrahimi   // Insert index i into the set.
137*ccdc9c3eSSadaf Ebrahimi   // Fast but unsafe: only use if contains(i) is false.
insert_new(int i)138*ccdc9c3eSSadaf Ebrahimi   iterator insert_new(int i) {
139*ccdc9c3eSSadaf Ebrahimi     return InsertInternal(false, i);
140*ccdc9c3eSSadaf Ebrahimi   }
141*ccdc9c3eSSadaf Ebrahimi 
142*ccdc9c3eSSadaf Ebrahimi  private:
InsertInternal(bool allow_existing,int i)143*ccdc9c3eSSadaf Ebrahimi   iterator InsertInternal(bool allow_existing, int i) {
144*ccdc9c3eSSadaf Ebrahimi     DebugCheckInvariants();
145*ccdc9c3eSSadaf Ebrahimi     if (static_cast<uint32_t>(i) >= static_cast<uint32_t>(max_size())) {
146*ccdc9c3eSSadaf Ebrahimi       assert(false && "illegal index");
147*ccdc9c3eSSadaf Ebrahimi       // Semantically, end() would be better here, but we already know
148*ccdc9c3eSSadaf Ebrahimi       // the user did something stupid, so begin() insulates them from
149*ccdc9c3eSSadaf Ebrahimi       // dereferencing an invalid pointer.
150*ccdc9c3eSSadaf Ebrahimi       return begin();
151*ccdc9c3eSSadaf Ebrahimi     }
152*ccdc9c3eSSadaf Ebrahimi     if (!allow_existing) {
153*ccdc9c3eSSadaf Ebrahimi       assert(!contains(i));
154*ccdc9c3eSSadaf Ebrahimi       create_index(i);
155*ccdc9c3eSSadaf Ebrahimi     } else {
156*ccdc9c3eSSadaf Ebrahimi       if (!contains(i))
157*ccdc9c3eSSadaf Ebrahimi         create_index(i);
158*ccdc9c3eSSadaf Ebrahimi     }
159*ccdc9c3eSSadaf Ebrahimi     DebugCheckInvariants();
160*ccdc9c3eSSadaf Ebrahimi     return dense_.data() + sparse_[i];
161*ccdc9c3eSSadaf Ebrahimi   }
162*ccdc9c3eSSadaf Ebrahimi 
163*ccdc9c3eSSadaf Ebrahimi   // Add the index i to the set.
164*ccdc9c3eSSadaf Ebrahimi   // Only use if contains(i) is known to be false.
165*ccdc9c3eSSadaf Ebrahimi   // This function is private, only intended as a helper
166*ccdc9c3eSSadaf Ebrahimi   // for other methods.
167*ccdc9c3eSSadaf Ebrahimi   void create_index(int i);
168*ccdc9c3eSSadaf Ebrahimi 
169*ccdc9c3eSSadaf Ebrahimi   // In debug mode, verify that some invariant properties of the class
170*ccdc9c3eSSadaf Ebrahimi   // are being maintained. This is called at the end of the constructor
171*ccdc9c3eSSadaf Ebrahimi   // and at the beginning and end of all public non-const member functions.
172*ccdc9c3eSSadaf Ebrahimi   void DebugCheckInvariants() const;
173*ccdc9c3eSSadaf Ebrahimi 
174*ccdc9c3eSSadaf Ebrahimi   // Initializes memory for elements [min, max).
MaybeInitializeMemory(int min,int max)175*ccdc9c3eSSadaf Ebrahimi   void MaybeInitializeMemory(int min, int max) {
176*ccdc9c3eSSadaf Ebrahimi #if __has_feature(memory_sanitizer)
177*ccdc9c3eSSadaf Ebrahimi     __msan_unpoison(sparse_.data() + min, (max - min) * sizeof sparse_[0]);
178*ccdc9c3eSSadaf Ebrahimi #elif defined(RE2_ON_VALGRIND)
179*ccdc9c3eSSadaf Ebrahimi     for (int i = min; i < max; i++) {
180*ccdc9c3eSSadaf Ebrahimi       sparse_[i] = 0xababababU;
181*ccdc9c3eSSadaf Ebrahimi     }
182*ccdc9c3eSSadaf Ebrahimi #endif
183*ccdc9c3eSSadaf Ebrahimi   }
184*ccdc9c3eSSadaf Ebrahimi 
185*ccdc9c3eSSadaf Ebrahimi   int size_ = 0;
186*ccdc9c3eSSadaf Ebrahimi   PODArray<int> sparse_;
187*ccdc9c3eSSadaf Ebrahimi   PODArray<int> dense_;
188*ccdc9c3eSSadaf Ebrahimi };
189*ccdc9c3eSSadaf Ebrahimi 
190*ccdc9c3eSSadaf Ebrahimi template<typename Value>
191*ccdc9c3eSSadaf Ebrahimi SparseSetT<Value>::SparseSetT() = default;
192*ccdc9c3eSSadaf Ebrahimi 
193*ccdc9c3eSSadaf Ebrahimi // Change the maximum size of the set.
194*ccdc9c3eSSadaf Ebrahimi // Invalidates all iterators.
195*ccdc9c3eSSadaf Ebrahimi template<typename Value>
resize(int new_max_size)196*ccdc9c3eSSadaf Ebrahimi void SparseSetT<Value>::resize(int new_max_size) {
197*ccdc9c3eSSadaf Ebrahimi   DebugCheckInvariants();
198*ccdc9c3eSSadaf Ebrahimi   if (new_max_size > max_size()) {
199*ccdc9c3eSSadaf Ebrahimi     const int old_max_size = max_size();
200*ccdc9c3eSSadaf Ebrahimi 
201*ccdc9c3eSSadaf Ebrahimi     // Construct these first for exception safety.
202*ccdc9c3eSSadaf Ebrahimi     PODArray<int> a(new_max_size);
203*ccdc9c3eSSadaf Ebrahimi     PODArray<int> b(new_max_size);
204*ccdc9c3eSSadaf Ebrahimi 
205*ccdc9c3eSSadaf Ebrahimi     std::copy_n(sparse_.data(), old_max_size, a.data());
206*ccdc9c3eSSadaf Ebrahimi     std::copy_n(dense_.data(), old_max_size, b.data());
207*ccdc9c3eSSadaf Ebrahimi 
208*ccdc9c3eSSadaf Ebrahimi     sparse_ = std::move(a);
209*ccdc9c3eSSadaf Ebrahimi     dense_ = std::move(b);
210*ccdc9c3eSSadaf Ebrahimi 
211*ccdc9c3eSSadaf Ebrahimi     MaybeInitializeMemory(old_max_size, new_max_size);
212*ccdc9c3eSSadaf Ebrahimi   }
213*ccdc9c3eSSadaf Ebrahimi   if (size_ > new_max_size)
214*ccdc9c3eSSadaf Ebrahimi     size_ = new_max_size;
215*ccdc9c3eSSadaf Ebrahimi   DebugCheckInvariants();
216*ccdc9c3eSSadaf Ebrahimi }
217*ccdc9c3eSSadaf Ebrahimi 
218*ccdc9c3eSSadaf Ebrahimi // Check whether index i is in the set.
219*ccdc9c3eSSadaf Ebrahimi template<typename Value>
contains(int i)220*ccdc9c3eSSadaf Ebrahimi bool SparseSetT<Value>::contains(int i) const {
221*ccdc9c3eSSadaf Ebrahimi   assert(i >= 0);
222*ccdc9c3eSSadaf Ebrahimi   assert(i < max_size());
223*ccdc9c3eSSadaf Ebrahimi   if (static_cast<uint32_t>(i) >= static_cast<uint32_t>(max_size())) {
224*ccdc9c3eSSadaf Ebrahimi     return false;
225*ccdc9c3eSSadaf Ebrahimi   }
226*ccdc9c3eSSadaf Ebrahimi   // Unsigned comparison avoids checking sparse_[i] < 0.
227*ccdc9c3eSSadaf Ebrahimi   return (uint32_t)sparse_[i] < (uint32_t)size_ &&
228*ccdc9c3eSSadaf Ebrahimi          dense_[sparse_[i]] == i;
229*ccdc9c3eSSadaf Ebrahimi }
230*ccdc9c3eSSadaf Ebrahimi 
231*ccdc9c3eSSadaf Ebrahimi template<typename Value>
create_index(int i)232*ccdc9c3eSSadaf Ebrahimi void SparseSetT<Value>::create_index(int i) {
233*ccdc9c3eSSadaf Ebrahimi   assert(!contains(i));
234*ccdc9c3eSSadaf Ebrahimi   assert(size_ < max_size());
235*ccdc9c3eSSadaf Ebrahimi   sparse_[i] = size_;
236*ccdc9c3eSSadaf Ebrahimi   dense_[size_] = i;
237*ccdc9c3eSSadaf Ebrahimi   size_++;
238*ccdc9c3eSSadaf Ebrahimi }
239*ccdc9c3eSSadaf Ebrahimi 
SparseSetT(int max_size)240*ccdc9c3eSSadaf Ebrahimi template<typename Value> SparseSetT<Value>::SparseSetT(int max_size) :
241*ccdc9c3eSSadaf Ebrahimi     sparse_(max_size), dense_(max_size) {
242*ccdc9c3eSSadaf Ebrahimi   MaybeInitializeMemory(size_, max_size);
243*ccdc9c3eSSadaf Ebrahimi   DebugCheckInvariants();
244*ccdc9c3eSSadaf Ebrahimi }
245*ccdc9c3eSSadaf Ebrahimi 
~SparseSetT()246*ccdc9c3eSSadaf Ebrahimi template<typename Value> SparseSetT<Value>::~SparseSetT() {
247*ccdc9c3eSSadaf Ebrahimi   DebugCheckInvariants();
248*ccdc9c3eSSadaf Ebrahimi }
249*ccdc9c3eSSadaf Ebrahimi 
DebugCheckInvariants()250*ccdc9c3eSSadaf Ebrahimi template<typename Value> void SparseSetT<Value>::DebugCheckInvariants() const {
251*ccdc9c3eSSadaf Ebrahimi   assert(0 <= size_);
252*ccdc9c3eSSadaf Ebrahimi   assert(size_ <= max_size());
253*ccdc9c3eSSadaf Ebrahimi }
254*ccdc9c3eSSadaf Ebrahimi 
255*ccdc9c3eSSadaf Ebrahimi // Comparison function for sorting.
less(int a,int b)256*ccdc9c3eSSadaf Ebrahimi template<typename Value> bool SparseSetT<Value>::less(int a, int b) {
257*ccdc9c3eSSadaf Ebrahimi   return a < b;
258*ccdc9c3eSSadaf Ebrahimi }
259*ccdc9c3eSSadaf Ebrahimi 
260*ccdc9c3eSSadaf Ebrahimi typedef SparseSetT<void> SparseSet;
261*ccdc9c3eSSadaf Ebrahimi 
262*ccdc9c3eSSadaf Ebrahimi }  // namespace re2
263*ccdc9c3eSSadaf Ebrahimi 
264*ccdc9c3eSSadaf Ebrahimi #endif  // UTIL_SPARSE_SET_H_
265