InterferenceCache.h source code [llvm/lib/CodeGen/InterferenceCache.h]

1	//===- InterferenceCache.h - Caching per-block interference ----- 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	// InterferenceCache remembers per-block interference from LiveIntervalUnions,
10	// fixed RegUnit interference, and register masks.
11	//
12	//===----------------------------------------------------------------------===//
13
14	#ifndef LLVM_LIB_CODEGEN_INTERFERENCECACHE_H
15	#define LLVM_LIB_CODEGEN_INTERFERENCECACHE_H
16
17	#include "llvm/ADT/SmallVector.h"
18	#include "llvm/CodeGen/LiveInterval.h"
19	#include "llvm/CodeGen/LiveIntervalUnion.h"
20	#include "llvm/CodeGen/SlotIndexes.h"
21	#include "llvm/Support/Compiler.h"
22	#include <cassert>
23	#include <cstddef>
24	#include <cstdlib>
25
26	namespace llvm {
27
28	class LiveIntervals;
29	class MachineFunction;
30	class TargetRegisterInfo;
31
32	class LLVM_LIBRARY_VISIBILITY InterferenceCache {
33	/// BlockInterference - information about the interference in a single basic
34	/// block.
35	struct BlockInterference {
36	unsigned Tag = `0`;
37	SlotIndex First;
38	SlotIndex Last;
39
40	BlockInterference() = default;
41	};
42
43	/// Entry - A cache entry containing interference information for all aliases
44	/// of PhysReg in all basic blocks.
45	class Entry {
46	/// PhysReg - The register currently represented.
47	MCRegister PhysReg = `0`;
48
49	/// Tag - Cache tag is changed when any of the underlying LiveIntervalUnions
50	/// change.
51	unsigned Tag = `0`;
52
53	/// RefCount - The total number of Cursor instances referring to this Entry.
54	unsigned RefCount = `0`;
55
56	/// MF - The current function.
57	MachineFunction MF = nullptr*;
58
59	/// Indexes - Mapping block numbers to SlotIndex ranges.
60	SlotIndexes Indexes = nullptr*;
61
62	/// LIS - Used for accessing register mask interference maps.
63	LiveIntervals LIS = nullptr*;
64
65	/// PrevPos - The previous position the iterators were moved to.
66	SlotIndex PrevPos;
67
68	/// RegUnitInfo - Information tracked about each RegUnit in PhysReg.
69	/// When PrevPos is set, the iterators are valid as if advanceTo(PrevPos)
70	/// had just been called.
71	struct RegUnitInfo {
72	/// Iterator pointing into the LiveIntervalUnion containing virtual
73	/// register interference.
74	LiveIntervalUnion::SegmentIter VirtI;
75
76	/// Tag of the LIU last time we looked.
77	unsigned VirtTag;
78
79	/// Fixed interference in RegUnit.
80	LiveRange Fixed = nullptr*;
81
82	/// Iterator pointing into the fixed RegUnit interference.
83	LiveInterval::iterator FixedI;
84
85	RegUnitInfo(LiveIntervalUnion &LIU) : VirtTag(LIU.getTag()) {
86	VirtI.setMap(LIU.getMap());
87	}
88	};
89
90	/// Info for each RegUnit in PhysReg. It is very rare ofr a PHysReg to have
91	/// more than 4 RegUnits.
92	SmallVector<RegUnitInfo, `4`> RegUnits;
93
94	/// Blocks - Interference for each block in the function.
95	SmallVector<BlockInterference, `8`> Blocks;
96
97	/// update - Recompute Blocks[MBBNum]
98	void update(unsigned MBBNum);
99
100	public:
101	Entry() = default;
102
103	void clear(MachineFunction mf, SlotIndexes indexes, LiveIntervals *lis) {
104	assert(!hasRefs() && "Cannot clear cache entry with references");
105	PhysReg = MCRegister::NoRegister;
106	MF = mf;
107	Indexes = indexes;
108	LIS = lis;
109	}
110
111	MCRegister getPhysReg() const { return PhysReg; }
112
113	void addRef(int Delta) { RefCount += Delta; }
114
115	bool hasRefs() const { return RefCount > `0`; }
116
117	void revalidate(LiveIntervalUnion LIUArray, const* TargetRegisterInfo *TRI);
118
119	/// valid - Return true if this is a valid entry for physReg.
120	bool valid(LiveIntervalUnion LIUArray, const* TargetRegisterInfo *TRI);
121
122	/// reset - Initialize entry to represent physReg's aliases.
123	void reset(MCRegister physReg, LiveIntervalUnion *LIUArray,
124	const TargetRegisterInfo TRI, const* MachineFunction *MF);
125
126	/// get - Return an up to date BlockInterference.
127	BlockInterference get(unsigned* MBBNum) {
128	if (Blocks [MBBNum].Tag != Tag)
129	update(MBBNum);
130	return &Blocks [MBBNum];
131	}
132	};
133
134	// We don't keep a cache entry for every physical register, that would use too
135	// much memory. Instead, a fixed number of cache entries are used in a round-
136	// robin manner.
137	enum { CacheEntries = `32` };
138
139	const TargetRegisterInfo TRI = nullptr*;
140	LiveIntervalUnion LIUArray = nullptr*;
141	MachineFunction MF = nullptr*;
142
143	// Point to an entry for each physreg. The entry pointed to may not be up to
144	// date, and it may have been reused for a different physreg.
145	unsigned char* PhysRegEntries = nullptr;
146	size_t PhysRegEntriesCount = `0`;
147
148	// Next round-robin entry to be picked.
149	unsigned RoundRobin = `0`;
150
151	// The actual cache entries.
152	Entry Entries[CacheEntries];
153
154	// get - Get a valid entry for PhysReg.
155	Entry *get(MCRegister PhysReg);
156
157	public:
158	InterferenceCache() = default;
159	InterferenceCache &operator=(const InterferenceCache &other) = delete;
160	InterferenceCache(const InterferenceCache &other) = delete;
161	~InterferenceCache() {
162	free(ptr: PhysRegEntries);
163	}
164
165	void reinitPhysRegEntries();
166
167	/// init - Prepare cache for a new function.
168	void init(MachineFunction mf, LiveIntervalUnion liuarray,
169	SlotIndexes indexes, LiveIntervals lis,
170	const TargetRegisterInfo *tri);
171
172	/// getMaxCursors - Return the maximum number of concurrent cursors that can
173	/// be supported.
174	unsigned getMaxCursors() const { return CacheEntries; }
175
176	/// Cursor - The primary query interface for the block interference cache.
177	class Cursor {
178	Entry CacheEntry = nullptr*;
179	const BlockInterference Current = nullptr*;
180	static const BlockInterference NoInterference;
181
182	void setEntry(Entry *E) {
183	Current = nullptr;
184	// Update reference counts. Nothing happens when RefCount reaches 0, so
185	// we don't have to check for E == CacheEntry etc.
186	if (CacheEntry)
187	CacheEntry->addRef(Delta: -`1`);
188	CacheEntry = E;
189	if (CacheEntry)
190	CacheEntry->addRef(Delta: +`1`);
191	}
192
193	public:
194	/// Cursor - Create a dangling cursor.
195	Cursor() = default;
196
197	Cursor(const Cursor &O) {
198	setEntry(O.CacheEntry);
199	}
200
201	Cursor &operator=(const Cursor &O) {
202	setEntry(O.CacheEntry);
203	return *this;
204	}
205
206	~Cursor() { setEntry(nullptr); }
207
208	/// setPhysReg - Point this cursor to PhysReg's interference.
209	void setPhysReg(InterferenceCache &Cache, MCRegister PhysReg) {
210	// Release reference before getting a new one. That guarantees we can
211	// actually have CacheEntries live cursors.
212	setEntry(nullptr);
213	if (PhysReg.isValid())
214	setEntry(Cache.get(PhysReg));
215	}
216
217	/// moveTo - Move cursor to basic block MBBNum.
218	void moveToBlock(unsigned MBBNum) {
219	Current = CacheEntry ? CacheEntry->get(MBBNum) : &NoInterference;
220	}
221
222	/// hasInterference - Return true if the current block has any interference.
223	bool hasInterference() {
224	return Current->First.isValid();
225	}
226
227	/// first - Return the starting index of the first interfering range in the
228	/// current block.
229	SlotIndex first() {
230	return Current->First;
231	}
232
233	/// last - Return the ending index of the last interfering range in the
234	/// current block.
235	SlotIndex last() {
236	return Current->Last;
237	}
238	};
239	};
240
241	} // end namespace llvm
242
243	#endif // LLVM_LIB_CODEGEN_INTERFERENCECACHE_H
244

source code of llvm/lib/CodeGen/InterferenceCache.h