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annotate DEPENDENCIES/generic/include/boost/pending/fibonacci_heap.hpp @ 133:4acb5d8d80b6 tip

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Don't fail environmental check if README.md exists (but .txt and no-suffix don't)
author Chris Cannam
date Tue, 30 Jul 2019 12:25:44 +0100
parents 2665513ce2d3
children
rev   line source
Chris@16 1 // (C) Copyright Jeremy Siek 2004.
Chris@16 2 // Distributed under the Boost Software License, Version 1.0. (See
Chris@16 3 // accompanying file LICENSE_1_0.txt or copy at
Chris@16 4 // http://www.boost.org/LICENSE_1_0.txt)
Chris@16 5 #ifndef BOOST_FIBONACCI_HEAP_HPP
Chris@16 6 #define BOOST_FIBONACCI_HEAP_HPP
Chris@16 7
Chris@16 8 #if defined(__sgi) && !defined(__GNUC__)
Chris@16 9 # include <math.h>
Chris@16 10 #else
Chris@16 11 # include <boost/config/no_tr1/cmath.hpp>
Chris@16 12 #endif
Chris@16 13 #include <iosfwd>
Chris@16 14 #include <vector>
Chris@16 15 #include <functional>
Chris@16 16 #include <boost/config.hpp>
Chris@16 17 #include <boost/property_map/property_map.hpp>
Chris@16 18
Chris@16 19 //
Chris@16 20 // An adaptation of Knuth's Fibonacci heap implementation
Chris@16 21 // in "The Stanford Graph Base", pages 475-482.
Chris@16 22 //
Chris@16 23
Chris@16 24 namespace boost {
Chris@16 25
Chris@16 26
Chris@16 27 template <class T,
Chris@16 28 class Compare = std::less<T>,
Chris@16 29 class ID = identity_property_map>
Chris@16 30 class fibonacci_heap
Chris@16 31 {
Chris@16 32 typedef typename boost::property_traits<ID>::value_type size_type;
Chris@16 33 typedef T value_type;
Chris@16 34 protected:
Chris@16 35 typedef fibonacci_heap self;
Chris@16 36 typedef std::vector<size_type> LinkVec;
Chris@16 37 typedef typename LinkVec::iterator LinkIter;
Chris@16 38 public:
Chris@16 39
Chris@16 40 fibonacci_heap(size_type n,
Chris@16 41 const Compare& cmp,
Chris@16 42 const ID& id = identity_property_map())
Chris@16 43 : _key(n), _left(n), _right(n), _p(n), _mark(n), _degree(n),
Chris@16 44 _n(0), _root(n), _id(id), _compare(cmp), _child(n),
Chris@16 45 #if defined(BOOST_MSVC) || defined(__ICL) // need a new macro?
Chris@16 46 new_roots(size_type(log(float(n))) + 5) { }
Chris@16 47 #else
Chris@16 48 new_roots(size_type(std::log(float(n))) + 5) { }
Chris@16 49 #endif
Chris@16 50
Chris@16 51 // 33
Chris@16 52 void push(const T& d) {
Chris@16 53 ++_n;
Chris@16 54 size_type v = get(_id, d);
Chris@16 55 _key[v] = d;
Chris@16 56 _p[v] = nil();
Chris@16 57 _degree[v] = 0;
Chris@16 58 _mark[v] = false;
Chris@16 59 _child[v] = nil();
Chris@16 60 if (_root == nil()) {
Chris@16 61 _root = _left[v] = _right[v] = v;
Chris@16 62 //std::cout << "root added" << std::endl;
Chris@16 63 } else {
Chris@16 64 size_type u = _left[_root];
Chris@16 65 _left[v] = u;
Chris@16 66 _right[v] = _root;
Chris@16 67 _left[_root] = _right[u] = v;
Chris@16 68 if (_compare(d, _key[_root]))
Chris@16 69 _root = v;
Chris@16 70 //std::cout << "non-root node added" << std::endl;
Chris@16 71 }
Chris@16 72 }
Chris@16 73 T& top() { return _key[_root]; }
Chris@16 74 const T& top() const { return _key[_root]; }
Chris@16 75
Chris@16 76 // 38
Chris@16 77 void pop() {
Chris@16 78 --_n;
Chris@16 79 int h = -1;
Chris@16 80 size_type v, w;
Chris@16 81 if (_root != nil()) {
Chris@16 82 if (_degree[_root] == 0) {
Chris@16 83 v = _right[_root];
Chris@16 84 } else {
Chris@16 85 w = _child[_root];
Chris@16 86 v = _right[w];
Chris@16 87 _right[w] = _right[_root];
Chris@16 88 for (w = v; w != _right[_root]; w = _right[w])
Chris@16 89 _p[w] = nil();
Chris@16 90 }
Chris@16 91 while (v != _root) {
Chris@16 92 w = _right[v];
Chris@16 93 add_tree_to_new_roots(v, new_roots.begin(), h);
Chris@16 94 v = w;
Chris@16 95 }
Chris@16 96 rebuild_root_list(new_roots.begin(), h);
Chris@16 97 }
Chris@16 98 }
Chris@16 99 // 39
Chris@16 100 inline void add_tree_to_new_roots(size_type v,
Chris@16 101 LinkIter new_roots,
Chris@16 102 int& h)
Chris@16 103 {
Chris@16 104 int r;
Chris@16 105 size_type u;
Chris@16 106 r = _degree[v];
Chris@16 107 while (1) {
Chris@16 108 if (h < r) {
Chris@16 109 do {
Chris@16 110 ++h;
Chris@16 111 new_roots[h] = (h == r ? v : nil());
Chris@16 112 } while (h < r);
Chris@16 113 break;
Chris@16 114 }
Chris@16 115 if (new_roots[r] == nil()) {
Chris@16 116 new_roots[r] = v;
Chris@16 117 break;
Chris@16 118 }
Chris@16 119 u = new_roots[r];
Chris@16 120 new_roots[r] = nil();
Chris@16 121 if (_compare(_key[u], _key[v])) {
Chris@16 122 _degree[v] = r;
Chris@16 123 _mark[v] = false;
Chris@16 124 std::swap(u, v);
Chris@16 125 }
Chris@16 126 make_child(u, v, r);
Chris@16 127 ++r;
Chris@16 128 }
Chris@16 129 _degree[v] = r;
Chris@16 130 _mark[v] = false;
Chris@16 131 }
Chris@16 132 // 40
Chris@16 133 void make_child(size_type u, size_type v, size_type r) {
Chris@16 134 if (r == 0) {
Chris@16 135 _child[v] = u;
Chris@16 136 _left[u] = u;
Chris@16 137 _right[u] = u;
Chris@16 138 } else {
Chris@16 139 size_type t = _child[v];
Chris@16 140 _right[u] = _right[t];
Chris@16 141 _left[u] = t;
Chris@16 142 _right[t] = u;
Chris@16 143 _left[_right[u]] = u;
Chris@16 144 }
Chris@16 145 _p[u] = v;
Chris@16 146 }
Chris@16 147 // 41
Chris@16 148 inline void rebuild_root_list(LinkIter new_roots, int& h)
Chris@16 149 {
Chris@16 150 size_type u, v, w;
Chris@16 151 if (h < 0)
Chris@16 152 _root = nil();
Chris@16 153 else {
Chris@16 154 T d;
Chris@16 155 u = v = new_roots[h];
Chris@16 156 d = _key[u];
Chris@16 157 _root = u;
Chris@16 158 for (h--; h >= 0; --h)
Chris@16 159 if (new_roots[h] != nil()) {
Chris@16 160 w = new_roots[h];
Chris@16 161 _left[w] = v;
Chris@16 162 _right[v] = w;
Chris@16 163 if (_compare(_key[w], d)) {
Chris@16 164 _root = w;
Chris@16 165 d = _key[w];
Chris@16 166 }
Chris@16 167 v = w;
Chris@16 168 }
Chris@16 169 _right[v] = u;
Chris@16 170 _left[u] = v;
Chris@16 171 }
Chris@16 172 }
Chris@16 173
Chris@16 174 // 34
Chris@16 175 void update(const T& d) {
Chris@16 176 size_type v = get(_id, d);
Chris@16 177 assert(!_compare(_key[v], d));
Chris@16 178 _key[v] = d;
Chris@16 179 size_type p = _p[v];
Chris@16 180 if (p == nil()) {
Chris@16 181 if (_compare(d, _key[_root]))
Chris@16 182 _root = v;
Chris@16 183 } else if (_compare(d, _key[p]))
Chris@16 184 while (1) {
Chris@16 185 size_type r = _degree[p];
Chris@16 186 if (r >= 2)
Chris@16 187 remove_from_family(v, p);
Chris@16 188 insert_into_forest(v, d);
Chris@16 189 size_type pp = _p[p];
Chris@16 190 if (pp == nil()) {
Chris@16 191 --_degree[p];
Chris@16 192 break;
Chris@16 193 }
Chris@16 194 if (_mark[p] == false) {
Chris@16 195 _mark[p] = true;
Chris@16 196 --_degree[p];
Chris@16 197 break;
Chris@16 198 } else
Chris@16 199 --_degree[p];
Chris@16 200 v = p;
Chris@16 201 p = pp;
Chris@16 202 }
Chris@16 203 }
Chris@16 204
Chris@16 205 inline size_type size() const { return _n; }
Chris@16 206 inline bool empty() const { return _n == 0; }
Chris@16 207
Chris@16 208 void print(std::ostream& os) {
Chris@16 209 if (_root != nil()) {
Chris@16 210 size_type i = _root;
Chris@16 211 do {
Chris@16 212 print_recur(i, os);
Chris@16 213 os << std::endl;
Chris@16 214 i = _right[i];
Chris@16 215 } while (i != _root);
Chris@16 216 }
Chris@16 217 }
Chris@16 218
Chris@16 219 protected:
Chris@16 220 // 35
Chris@16 221 inline void remove_from_family(size_type v, size_type p) {
Chris@16 222 size_type u = _left[v];
Chris@16 223 size_type w = _right[v];
Chris@16 224 _right[u] = w;
Chris@16 225 _left[w] = u;
Chris@16 226 if (_child[p] == v)
Chris@16 227 _child[p] = w;
Chris@16 228 }
Chris@16 229 // 36
Chris@16 230 inline void insert_into_forest(size_type v, const T& d) {
Chris@16 231 _p[v] = nil();
Chris@16 232 size_type u = _left[_root];
Chris@16 233 _left[v] = u;
Chris@16 234 _right[v] = _root;
Chris@16 235 _left[_root] = _right[u] = v;
Chris@16 236 if (_compare(d, _key[_root]))
Chris@16 237 _root = v;
Chris@16 238 }
Chris@16 239
Chris@16 240 void print_recur(size_type x, std::ostream& os) {
Chris@16 241 if (x != nil()) {
Chris@16 242 os << x;
Chris@16 243 if (_degree[x] > 0) {
Chris@16 244 os << "(";
Chris@16 245 size_type i = _child[x];
Chris@16 246 do {
Chris@16 247 print_recur(i, os); os << " ";
Chris@16 248 i = _right[i];
Chris@16 249 } while (i != _child[x]);
Chris@16 250 os << ")";
Chris@16 251 }
Chris@16 252 }
Chris@16 253 }
Chris@16 254
Chris@16 255 size_type nil() const { return _left.size(); }
Chris@16 256
Chris@16 257 std::vector<T> _key;
Chris@16 258 LinkVec _left, _right, _p;
Chris@16 259 std::vector<bool> _mark;
Chris@16 260 LinkVec _degree;
Chris@16 261 size_type _n, _root;
Chris@16 262 ID _id;
Chris@16 263 Compare _compare;
Chris@16 264 LinkVec _child;
Chris@16 265 LinkVec new_roots;
Chris@16 266 };
Chris@16 267
Chris@16 268 } // namespace boost
Chris@16 269
Chris@16 270
Chris@16 271 #endif // BOOST_FIBONACCI_HEAP_HPP