cygprofile: increase timeouts to allow showing web contents
[chromium-blink-merge.git] / sandbox / linux / bpf_dsl / cons.h
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1 // Copyright 2014 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #ifndef SANDBOX_LINUX_BPF_DSL_CONS_H_
6 #define SANDBOX_LINUX_BPF_DSL_CONS_H_
8 #include "base/memory/ref_counted.h"
9 #include "sandbox/sandbox_export.h"
11 namespace sandbox {
12 namespace cons {
14 // Namespace cons provides an abstraction for immutable "cons list"
15 // data structures as commonly provided in functional programming
16 // languages like Lisp or Haskell.
18 // A cons list is a linked list consisting of "cells", each of which
19 // have a "head" and a "tail" element. A cell's head element contains
20 // a user specified value, while the tail element contains a (possibly
21 // null) pointer to another cell.
23 // An empty list (idiomatically referred to as "nil") can be
24 // constructed as "cons::List<Foo>()" or simply as "nullptr" if Foo
25 // can be inferred from context (e.g., calling a function that has a
26 // "cons::List<Foo>" parameter).
28 // Existing lists (including empty lists) can be extended by
29 // prepending new values to the front using the "Cons(head, tail)"
30 // function, which will allocate a new cons cell. Notably, cons lists
31 // support creating multiple lists that share a common tail sequence.
33 // Lastly, lists support iteration via C++11's range-based for loop
34 // construct.
36 // Examples:
38 // // basic construction
39 // const cons::List<char> kNil = nullptr;
40 // cons::List<char> ba = Cons('b', Cons('a', kNil));
42 // // common tail sequence
43 // cons::List<char> cba = Cons('c', ba);
44 // cons::List<char> dba = Cons('d', ba);
46 // // iteration
47 // for (const char& ch : cba) {
48 // // iterates 'c', 'b', 'a'
49 // }
50 // for (const char& ch : dba) {
51 // // iterates 'd', 'b', 'a'
52 // }
54 // Forward declarations.
55 template <typename T>
56 class Cell;
57 template <typename T>
58 class ListIterator;
60 // List represents a (possibly null) pointer to a cons cell.
61 template <typename T>
62 using List = scoped_refptr<const Cell<T>>;
64 // Cons extends a cons list by prepending a new value to the front.
65 template <typename T>
66 List<T> Cons(const T& head, const List<T>& tail) {
67 return List<T>(new const Cell<T>(head, tail));
70 // Cell represents an individual "cons cell" within a cons list.
71 template <typename T>
72 class Cell : public base::RefCounted<Cell<T>> {
73 public:
74 Cell(const T& head, const List<T>& tail) : head_(head), tail_(tail) {}
76 // Head returns this cell's head element.
77 const T& head() const { return head_; }
79 // Tail returns this cell's tail element.
80 const List<T>& tail() const { return tail_; }
82 private:
83 virtual ~Cell() {}
85 T head_;
86 List<T> tail_;
88 friend class base::RefCounted<Cell<T>>;
89 DISALLOW_COPY_AND_ASSIGN(Cell);
92 // Begin returns a list iterator pointing to the first element of the
93 // cons list. It's provided to support range-based for loops.
94 template <typename T>
95 ListIterator<T> begin(const List<T>& list) {
96 return ListIterator<T>(list);
99 // End returns a list iterator pointing to the "past-the-end" element
100 // of the cons list (i.e., nil). It's provided to support range-based
101 // for loops.
102 template <typename T>
103 ListIterator<T> end(const List<T>& list) {
104 return ListIterator<T>();
107 // ListIterator provides C++ forward iterator semantics for traversing
108 // a cons list.
109 template <typename T>
110 class ListIterator {
111 public:
112 ListIterator() : list_() {}
113 explicit ListIterator(const List<T>& list) : list_(list) {}
115 const T& operator*() const { return list_->head(); }
117 ListIterator& operator++() {
118 list_ = list_->tail();
119 return *this;
122 friend bool operator==(const ListIterator& lhs, const ListIterator& rhs) {
123 return lhs.list_ == rhs.list_;
126 private:
127 List<T> list_;
130 template <typename T>
131 bool operator!=(const ListIterator<T>& lhs, const ListIterator<T>& rhs) {
132 return !(lhs == rhs);
135 } // namespace cons
136 } // namespace sandbox
138 #endif // SANDBOX_LINUX_BPF_DSL_CONS_H_