[InstCombine] Signed saturation patterns
[llvm-core.git] / include / llvm / MC / LaneBitmask.h
blobd5f69287a265b0a2be3b3c24b0f0299644c6a25c
1 //===- llvm/MC/LaneBitmask.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 /// \file
10 /// A common definition of LaneBitmask for use in TableGen and CodeGen.
11 ///
12 /// A lane mask is a bitmask representing the covering of a register with
13 /// sub-registers.
14 ///
15 /// This is typically used to track liveness at sub-register granularity.
16 /// Lane masks for sub-register indices are similar to register units for
17 /// physical registers. The individual bits in a lane mask can't be assigned
18 /// any specific meaning. They can be used to check if two sub-register
19 /// indices overlap.
20 ///
21 /// Iff the target has a register such that:
22 ///
23 /// getSubReg(Reg, A) overlaps getSubReg(Reg, B)
24 ///
25 /// then:
26 ///
27 /// (getSubRegIndexLaneMask(A) & getSubRegIndexLaneMask(B)) != 0
29 #ifndef LLVM_MC_LANEBITMASK_H
30 #define LLVM_MC_LANEBITMASK_H
32 #include "llvm/Support/Compiler.h"
33 #include "llvm/Support/Format.h"
34 #include "llvm/Support/Printable.h"
35 #include "llvm/Support/raw_ostream.h"
37 namespace llvm {
39 struct LaneBitmask {
40 // When changing the underlying type, change the format string as well.
41 using Type = unsigned;
42 enum : unsigned { BitWidth = 8*sizeof(Type) };
43 constexpr static const char *const FormatStr = "%08X";
45 constexpr LaneBitmask() = default;
46 explicit constexpr LaneBitmask(Type V) : Mask(V) {}
48 constexpr bool operator== (LaneBitmask M) const { return Mask == M.Mask; }
49 constexpr bool operator!= (LaneBitmask M) const { return Mask != M.Mask; }
50 constexpr bool operator< (LaneBitmask M) const { return Mask < M.Mask; }
51 constexpr bool none() const { return Mask == 0; }
52 constexpr bool any() const { return Mask != 0; }
53 constexpr bool all() const { return ~Mask == 0; }
55 constexpr LaneBitmask operator~() const {
56 return LaneBitmask(~Mask);
58 constexpr LaneBitmask operator|(LaneBitmask M) const {
59 return LaneBitmask(Mask | M.Mask);
61 constexpr LaneBitmask operator&(LaneBitmask M) const {
62 return LaneBitmask(Mask & M.Mask);
64 LaneBitmask &operator|=(LaneBitmask M) {
65 Mask |= M.Mask;
66 return *this;
68 LaneBitmask &operator&=(LaneBitmask M) {
69 Mask &= M.Mask;
70 return *this;
73 constexpr Type getAsInteger() const { return Mask; }
75 unsigned getNumLanes() const {
76 return countPopulation(Mask);
78 unsigned getHighestLane() const {
79 return Log2_32(Mask);
82 static constexpr LaneBitmask getNone() { return LaneBitmask(0); }
83 static constexpr LaneBitmask getAll() { return ~LaneBitmask(0); }
84 static constexpr LaneBitmask getLane(unsigned Lane) {
85 return LaneBitmask(Type(1) << Lane);
88 private:
89 Type Mask = 0;
92 /// Create Printable object to print LaneBitmasks on a \ref raw_ostream.
93 inline Printable PrintLaneMask(LaneBitmask LaneMask) {
94 return Printable([LaneMask](raw_ostream &OS) {
95 OS << format(LaneBitmask::FormatStr, LaneMask.getAsInteger());
96 });
99 } // end namespace llvm
101 #endif // LLVM_MC_LANEBITMASK_H