• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 // Copyright 2013 the V8 project 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.
4 
5 #ifndef V8_COMPILER_MACHINE_OPERATOR_H_
6 #define V8_COMPILER_MACHINE_OPERATOR_H_
7 
8 #include "src/compiler/machine-type.h"
9 
10 namespace v8 {
11 namespace internal {
12 namespace compiler {
13 
14 // Forward declarations.
15 struct MachineOperatorBuilderImpl;
16 class Operator;
17 
18 
19 // Supported write barrier modes.
20 enum WriteBarrierKind { kNoWriteBarrier, kFullWriteBarrier };
21 
22 OStream& operator<<(OStream& os, const WriteBarrierKind& write_barrier_kind);
23 
24 
25 typedef MachineType LoadRepresentation;
26 
27 
28 // A Store needs a MachineType and a WriteBarrierKind
29 // in order to emit the correct write barrier.
30 class StoreRepresentation FINAL {
31  public:
StoreRepresentation(MachineType machine_type,WriteBarrierKind write_barrier_kind)32   StoreRepresentation(MachineType machine_type,
33                       WriteBarrierKind write_barrier_kind)
34       : machine_type_(machine_type), write_barrier_kind_(write_barrier_kind) {}
35 
machine_type()36   MachineType machine_type() const { return machine_type_; }
write_barrier_kind()37   WriteBarrierKind write_barrier_kind() const { return write_barrier_kind_; }
38 
39  private:
40   MachineType machine_type_;
41   WriteBarrierKind write_barrier_kind_;
42 };
43 
44 inline bool operator==(const StoreRepresentation& rep1,
45                        const StoreRepresentation& rep2) {
46   return rep1.machine_type() == rep2.machine_type() &&
47          rep1.write_barrier_kind() == rep2.write_barrier_kind();
48 }
49 
50 inline bool operator!=(const StoreRepresentation& rep1,
51                        const StoreRepresentation& rep2) {
52   return !(rep1 == rep2);
53 }
54 
55 OStream& operator<<(OStream& os, const StoreRepresentation& rep);
56 
57 
58 // Interface for building machine-level operators. These operators are
59 // machine-level but machine-independent and thus define a language suitable
60 // for generating code to run on architectures such as ia32, x64, arm, etc.
61 class MachineOperatorBuilder FINAL {
62  public:
63   explicit MachineOperatorBuilder(MachineType word = kMachPtr);
64 
65   const Operator* Word32And();
66   const Operator* Word32Or();
67   const Operator* Word32Xor();
68   const Operator* Word32Shl();
69   const Operator* Word32Shr();
70   const Operator* Word32Sar();
71   const Operator* Word32Ror();
72   const Operator* Word32Equal();
73 
74   const Operator* Word64And();
75   const Operator* Word64Or();
76   const Operator* Word64Xor();
77   const Operator* Word64Shl();
78   const Operator* Word64Shr();
79   const Operator* Word64Sar();
80   const Operator* Word64Ror();
81   const Operator* Word64Equal();
82 
83   const Operator* Int32Add();
84   const Operator* Int32AddWithOverflow();
85   const Operator* Int32Sub();
86   const Operator* Int32SubWithOverflow();
87   const Operator* Int32Mul();
88   const Operator* Int32Div();
89   const Operator* Int32UDiv();
90   const Operator* Int32Mod();
91   const Operator* Int32UMod();
92   const Operator* Int32LessThan();
93   const Operator* Int32LessThanOrEqual();
94   const Operator* Uint32LessThan();
95   const Operator* Uint32LessThanOrEqual();
96 
97   const Operator* Int64Add();
98   const Operator* Int64Sub();
99   const Operator* Int64Mul();
100   const Operator* Int64Div();
101   const Operator* Int64UDiv();
102   const Operator* Int64Mod();
103   const Operator* Int64UMod();
104   const Operator* Int64LessThan();
105   const Operator* Int64LessThanOrEqual();
106 
107   // These operators change the representation of numbers while preserving the
108   // value of the number. Narrowing operators assume the input is representable
109   // in the target type and are *not* defined for other inputs.
110   // Use narrowing change operators only when there is a static guarantee that
111   // the input value is representable in the target value.
112   const Operator* ChangeFloat32ToFloat64();
113   const Operator* ChangeFloat64ToInt32();   // narrowing
114   const Operator* ChangeFloat64ToUint32();  // narrowing
115   const Operator* ChangeInt32ToFloat64();
116   const Operator* ChangeInt32ToInt64();
117   const Operator* ChangeUint32ToFloat64();
118   const Operator* ChangeUint32ToUint64();
119 
120   // These operators truncate numbers, both changing the representation of
121   // the number and mapping multiple input values onto the same output value.
122   const Operator* TruncateFloat64ToFloat32();
123   const Operator* TruncateFloat64ToInt32();  // JavaScript semantics.
124   const Operator* TruncateInt64ToInt32();
125 
126   // Floating point operators always operate with IEEE 754 round-to-nearest.
127   const Operator* Float64Add();
128   const Operator* Float64Sub();
129   const Operator* Float64Mul();
130   const Operator* Float64Div();
131   const Operator* Float64Mod();
132   const Operator* Float64Sqrt();
133 
134   // Floating point comparisons complying to IEEE 754.
135   const Operator* Float64Equal();
136   const Operator* Float64LessThan();
137   const Operator* Float64LessThanOrEqual();
138 
139   // load [base + index]
140   const Operator* Load(LoadRepresentation rep);
141 
142   // store [base + index], value
143   const Operator* Store(StoreRepresentation rep);
144 
145   // Target machine word-size assumed by this builder.
Is32()146   bool Is32() const { return word() == kRepWord32; }
Is64()147   bool Is64() const { return word() == kRepWord64; }
word()148   MachineType word() const { return word_; }
149 
150 // Pseudo operators that translate to 32/64-bit operators depending on the
151 // word-size of the target machine assumed by this builder.
152 #define PSEUDO_OP_LIST(V) \
153   V(Word, And)            \
154   V(Word, Or)             \
155   V(Word, Xor)            \
156   V(Word, Shl)            \
157   V(Word, Shr)            \
158   V(Word, Sar)            \
159   V(Word, Ror)            \
160   V(Word, Equal)          \
161   V(Int, Add)             \
162   V(Int, Sub)             \
163   V(Int, Mul)             \
164   V(Int, Div)             \
165   V(Int, UDiv)            \
166   V(Int, Mod)             \
167   V(Int, UMod)            \
168   V(Int, LessThan)        \
169   V(Int, LessThanOrEqual)
170 #define PSEUDO_OP(Prefix, Suffix)                                \
171   const Operator* Prefix##Suffix() {                             \
172     return Is32() ? Prefix##32##Suffix() : Prefix##64##Suffix(); \
173   }
174   PSEUDO_OP_LIST(PSEUDO_OP)
175 #undef PSEUDO_OP
176 #undef PSEUDO_OP_LIST
177 
178  private:
179   const MachineOperatorBuilderImpl& impl_;
180   const MachineType word_;
181 };
182 
183 }  // namespace compiler
184 }  // namespace internal
185 }  // namespace v8
186 
187 #endif  // V8_COMPILER_MACHINE_OPERATOR_H_
188