ArrayList.h source code [llvm/lib/DWARFLinker/Parallel/ArrayList.h]

1	//===- ArrayList.h ----------------------------------------------- C++ --===//
2	//
3	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4	// See https://llvm.org/LICENSE.txt for license information.
5	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6	//
7	//===----------------------------------------------------------------------===//
8
9	#ifndef LLVM_LIB_DWARFLINKER_PARALLEL_ARRAYLIST_H
10	#define LLVM_LIB_DWARFLINKER_PARALLEL_ARRAYLIST_H
11
12	#include "llvm/Support/PerThreadBumpPtrAllocator.h"
13	#include <atomic>
14
15	namespace llvm {
16	namespace dwarf_linker {
17	namespace parallel {
18
19	/// This class is a simple list of T structures. It keeps elements as
20	/// pre-allocated groups to save memory for each element's next pointer.
21	/// It allocates internal data using specified per-thread BumpPtrAllocator.
22	/// Method add() can be called asynchronously.
23	template <typename T, size_t ItemsGroupSize = `512`> class ArrayList {
24	public:
25	ArrayList(llvm::parallel::PerThreadBumpPtrAllocator *Allocator)
26	: Allocator(Allocator) {}
27
28	/// Add specified \p Item to the list.
29	T &add(const T &Item) {
30	assert(Allocator);
31
32	// Allocate head group if it is not allocated yet.
33	while (!LastGroup) {
34	if (allocateNewGroup(AtomicGroup&: GroupsHead))
35	LastGroup = GroupsHead.load();
36	}
37
38	ItemsGroup *CurGroup;
39	size_t CurItemsCount;
40	do {
41	CurGroup = LastGroup;
42	CurItemsCount = CurGroup->ItemsCount.fetch_add(`1`);
43
44	// Check whether current group is full.
45	if (CurItemsCount < ItemsGroupSize)
46	break;
47
48	// Allocate next group if necessary.
49	if (!CurGroup->Next)
50	allocateNewGroup(AtomicGroup&: CurGroup->Next);
51
52	LastGroup.compare_exchange_weak(CurGroup, CurGroup->Next);
53	} while (true);
54
55	// Store item into the current group.
56	CurGroup->Items[CurItemsCount] = Item;
57	return CurGroup->Items[CurItemsCount];
58	}
59
60	using ItemHandlerTy = function_ref<void(T &)>;
61
62	/// Enumerate all items and apply specified \p Handler to each.
63	void forEach(ItemHandlerTy Handler) {
64	for (ItemsGroup *CurGroup = GroupsHead; CurGroup;
65	CurGroup = CurGroup->Next) {
66	for (T &Item : *CurGroup)
67	Handler(Item);
68	}
69	}
70
71	/// Check whether list is empty.
72	bool empty() { return !GroupsHead; }
73
74	/// Erase list.
75	void erase() {
76	GroupsHead = nullptr;
77	LastGroup = nullptr;
78	}
79
80	void sort(function_ref<bool(const T &LHS, const T &RHS)> Comparator) {
81	SmallVector<T> SortedItems;
82	forEach(Handler: [&](T &Item) { SortedItems.push_back(Item); });
83
84	if (SortedItems.size()) {
85	std::sort(SortedItems.begin(), SortedItems.end(), Comparator);
86
87	size_t SortedItemIdx = `0`;
88	forEach(Handler: [&](T &Item) { Item = SortedItems[SortedItemIdx++]; });
89	assert(SortedItemIdx == SortedItems.size());
90	}
91	}
92
93	size_t size() {
94	size_t Result = `0`;
95
96	for (ItemsGroup CurGroup = GroupsHead; CurGroup != nullptr*;
97	CurGroup = CurGroup->Next)
98	Result += CurGroup->getItemsCount();
99
100	return Result;
101	}
102
103	protected:
104	struct ItemsGroup {
105	using ArrayTy = std::array<T, ItemsGroupSize>;
106
107	// Array of items kept by this group.
108	ArrayTy Items;
109
110	// Pointer to the next items group.
111	std::atomic<ItemsGroup > Next = nullptr*;
112
113	// Number of items in this group.
114	// NOTE: ItemsCount could be inaccurate as it might be incremented by
115	// several threads. Use getItemsCount() method to get real number of items
116	// inside ItemsGroup.
117	std::atomic<size_t> ItemsCount = `0`;
118
119	size_t getItemsCount() const {
120	return std::min(a: ItemsCount.load(), b: ItemsGroupSize);
121	}
122
123	typename ArrayTy::iterator begin() { return Items.begin(); }
124	typename ArrayTy::iterator end() { return Items.begin() + getItemsCount(); }
125	};
126
127	// Allocate new group. Put allocated group into the \p AtomicGroup if
128	// it is empty. If \p AtomicGroup is filled by another thread then
129	// put allocated group into the end of groups list.
130	// \returns true if allocated group is put into the \p AtomicGroup.
131	bool allocateNewGroup(std::atomic<ItemsGroup *> &AtomicGroup) {
132	ItemsGroup CurGroup = nullptr*;
133
134	// Allocate new group.
135	ItemsGroup *NewGroup = Allocator->Allocate<ItemsGroup>();
136	NewGroup->ItemsCount = `0`;
137	NewGroup->Next = nullptr;
138
139	// Try to replace current group with allocated one.
140	if (AtomicGroup.compare_exchange_weak(CurGroup, NewGroup))
141	return true;
142
143	// Put allocated group as last group.
144	while (CurGroup) {
145	ItemsGroup *NextGroup = CurGroup->Next;
146
147	if (!NextGroup) {
148	if (CurGroup->Next.compare_exchange_weak(NextGroup, NewGroup))
149	break;
150	}
151
152	CurGroup = NextGroup;
153	}
154
155	return false;
156	}
157
158	std::atomic<ItemsGroup > GroupsHead = nullptr*;
159	std::atomic<ItemsGroup > LastGroup = nullptr*;
160	llvm::parallel::PerThreadBumpPtrAllocator Allocator = nullptr*;
161	};
162
163	} // end of namespace parallel
164	} // end of namespace dwarf_linker
165	} // end of namespace llvm
166
167	#endif // LLVM_LIB_DWARFLINKER_PARALLEL_ARRAYLIST_H
168

source code of llvm/lib/DWARFLinker/Parallel/ArrayList.h