File Coverage

src/panda/owning_list.h

Criterion	Covered	Total	%
statement	74	76	97.3
branch	96	172	55.8
condition			n/a
subroutine			n/a
pod			n/a
total	170	248	68.5

line	stmt	bran	code
1			#pragma once
2			#include "refcnt.h"
3
4			namespace panda {
5			/**
6			* owning_list where iterators share owning of nodes with list.
7			* Removing of any iterator never invalidates value under it.
8			* Forward iterator never invalidates, even if all list cleared.
9			* Backward iterator keep valid value, but operator++ may lead to invalid iterator if no one keep reference to it
10			* Removeing of element just fork list
11			* 1 -> 2 -> 3
12			* remove(2)
13			* 1 -> 3
14			* ^
15			* 2
16			* Node will be deleted when all strong reference to it will be forgotten
17			* Reference to previous node is weak
18			* 1-> 2-> 3
19			* iter = last; // it is 3
20			* remove(2)
21			* remove(3)
22			* *iter is still valid and == 3
23			* ++iter is invalid, because nobody keeps reference to node 2 and it was removed
24			* Like in std::list don't try using reverse_iterator after removing its node, but you can do it wit forward iterator
25			* You can use removed reversed_iterator if it is only removed and you are sure than prev is still valid
26			*/
27			template
28	2		struct owning_list {
29	160	50	struct node_t : Refcnt {
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30	40	50	node_t(const T& value) : value(value), valid(true), next(nullptr), prev(nullptr) {}
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31
32			T value;
33			bool valid;
34			iptr next;
35			node_t* prev;
36			};
37			using node_sp = iptr;
38
39	60		static void next_strategy(node_sp& node) {
40	60		node = node->next;
41	62	100	while (node && !node->valid) {
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42	2		node = node->next;
43			}
44	60		}
45
46	1		static void prev_strategy(node_sp& node) {
47	1		node = node->prev;
48	1	50	while (node && !node->valid) {
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49	0		node = node->prev;
50			}
51	1		}
52			void remove_node(node_t* node);
53
54			using inc_strategy_t = void(*)(node_sp&);
55
56			template
57	526		struct base_iterator {
58			node_sp node;
59
60	398		base_iterator(const node_sp& node) : node(node) {}
61	32		T& operator*() {
62	32		return node->value;
63			}
64	11		T* operator->() {
65	11		return &node->value;
66			}
67	61		base_iterator& operator++() {
68	61		inc(node);
69	61		return *this;
70			}
71			base_iterator operator++(int) {
72			base_iterator res = *this;
73			inc(node);
74			return res;
75			}
76
77	130		bool operator ==(const base_iterator& oth) const {
78	130		return node == oth.node;
79			}
80
81	96		bool operator !=(const base_iterator& oth) const {
82	96		return !operator==(oth);
83			}
84			};
85
86			using reverse_iterator = base_iterator;
87			using iterator = base_iterator;
88
89	46		owning_list() : _size(0), first(nullptr), last(nullptr) {}
90	24		~owning_list() {
91	24		clear(); // do not remove! we must invalidate all elements to make ++ on any iterator correct
92	24		}
93
94	59		iterator begin() {
95	59		return first;
96			}
97
98	119		iterator end() {
99	119	50	return iterator(nullptr);
100			}
101
102	10		reverse_iterator rbegin() {
103	10		return last;
104			}
105
106	11		reverse_iterator rend() {
107	11		return reverse_iterator(nullptr);
108			}
109
110			template
111	4		void push_back(TT&& val) {
112	8	0	node_sp node = new node_t(std::forward`(val));`
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113	4	0	if (last) {
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114	3		node->prev = last;
115	3		last->next = node;
116	3		last = node;
117			} else {
118	1		first = last = node;
119			}
120	4		++_size;
121	4		}
122
123			template
124	36		void push_front(TT&& val) {
125	72	50	node_sp node = new node_t(std::forward`(val));`
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126	36	100	if (first) {
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127	15		node->next = first;
128	15		first->prev = node;
129	15		first = node;
130			} else {
131	21		first = last = node;
132			}
133	36		++_size;
134	36		}
135
136
137			void remove(const T& val) {
138			node_sp node = first;
139			while (node) {
140			if (node->value == val) {
141			remove_node(node);
142			return;
143			}
144			node = node->next;
145			}
146			}
147
148			template
149	10		void erase(base_iterator iter) {
150	10		remove_node(iter.node);
151	10		}
152
153	25		void clear() {
154	56	50	for (auto iter = begin(); iter != end(); ++iter) {
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155	31		iter.node->valid = false;
156			}
157	25		first = nullptr;
158	25		last = nullptr;
159	25		_size = 0;
160	25		}
161
162			size_t size() const {
163			return _size;
164			}
165
166			bool empty() const {
167			return _size == 0;
168			}
169
170			private:
171			size_t _size;
172			node_sp first;
173			node_sp last;
174			};
175
176			template
177	10		void owning_list::remove_node(owning_list::node_t* node) {
178	10		node->valid = false;
179	10	50	if (node->prev) {
180	0		node->prev->next = node->next;
181			} else {
182	10		first = node->next;
183			}
184	10	100	if (node->next) {
185	1		node->next->prev = node->prev;
186			} else { // it is last value
187	9		last = node->prev;
188			}
189	10		_size--;
190	10		}
191
192			}