OLD | NEW |
1 // Copyright 2012 the V8 project authors. All rights reserved. | 1 // Copyright 2012 the V8 project authors. All rights reserved. |
2 // Use of this source code is governed by a BSD-style license that can be | 2 // Use of this source code is governed by a BSD-style license that can be |
3 // found in the LICENSE file. | 3 // found in the LICENSE file. |
4 | 4 |
5 #include "ast.h" | 5 #include "ast.h" |
6 | 6 |
7 #include <cmath> // For isfinite. | 7 #include <cmath> // For isfinite. |
8 #include "builtins.h" | 8 #include "builtins.h" |
9 #include "code-stubs.h" | 9 #include "code-stubs.h" |
10 #include "contexts.h" | 10 #include "contexts.h" |
(...skipping 37 matching lines...) Expand 10 before | Expand all | Expand 10 after Loading... |
48 } | 48 } |
49 | 49 |
50 | 50 |
51 bool Expression::IsUndefinedLiteral(Isolate* isolate) const { | 51 bool Expression::IsUndefinedLiteral(Isolate* isolate) const { |
52 const VariableProxy* var_proxy = AsVariableProxy(); | 52 const VariableProxy* var_proxy = AsVariableProxy(); |
53 if (var_proxy == NULL) return false; | 53 if (var_proxy == NULL) return false; |
54 Variable* var = var_proxy->var(); | 54 Variable* var = var_proxy->var(); |
55 // The global identifier "undefined" is immutable. Everything | 55 // The global identifier "undefined" is immutable. Everything |
56 // else could be reassigned. | 56 // else could be reassigned. |
57 return var != NULL && var->location() == Variable::UNALLOCATED && | 57 return var != NULL && var->location() == Variable::UNALLOCATED && |
58 String::Equals(var_proxy->name(), | 58 var_proxy->raw_name()->IsOneByteEqualTo("undefined"); |
59 isolate->factory()->undefined_string()); | |
60 } | 59 } |
61 | 60 |
62 | 61 |
63 VariableProxy::VariableProxy(Zone* zone, Variable* var, int position) | 62 VariableProxy::VariableProxy(Zone* zone, Variable* var, int position) |
64 : Expression(zone, position), | 63 : Expression(zone, position), |
65 name_(var->name()), | 64 name_(var->raw_name()), |
66 var_(NULL), // Will be set by the call to BindTo. | 65 var_(NULL), // Will be set by the call to BindTo. |
67 is_this_(var->is_this()), | 66 is_this_(var->is_this()), |
68 is_trivial_(false), | 67 is_trivial_(false), |
69 is_lvalue_(false), | 68 is_lvalue_(false), |
70 interface_(var->interface()) { | 69 interface_(var->interface()) { |
71 BindTo(var); | 70 BindTo(var); |
72 } | 71 } |
73 | 72 |
74 | 73 |
75 VariableProxy::VariableProxy(Zone* zone, | 74 VariableProxy::VariableProxy(Zone* zone, |
76 Handle<String> name, | 75 const AstString* name, |
77 bool is_this, | 76 bool is_this, |
78 Interface* interface, | 77 Interface* interface, |
79 int position) | 78 int position) |
80 : Expression(zone, position), | 79 : Expression(zone, position), |
81 name_(name), | 80 name_(name), |
82 var_(NULL), | 81 var_(NULL), |
83 is_this_(is_this), | 82 is_this_(is_this), |
84 is_trivial_(false), | 83 is_trivial_(false), |
85 is_lvalue_(false), | 84 is_lvalue_(false), |
86 interface_(interface) { | 85 interface_(interface) { |
87 // Names must be canonicalized for fast equality checks. | |
88 ASSERT(name->IsInternalizedString()); | |
89 } | 86 } |
90 | 87 |
91 | 88 |
92 void VariableProxy::BindTo(Variable* var) { | 89 void VariableProxy::BindTo(Variable* var) { |
93 ASSERT(var_ == NULL); // must be bound only once | 90 ASSERT(var_ == NULL); // must be bound only once |
94 ASSERT(var != NULL); // must bind | 91 ASSERT(var != NULL); // must bind |
95 ASSERT(!FLAG_harmony_modules || interface_->IsUnified(var->interface())); | 92 ASSERT(!FLAG_harmony_modules || interface_->IsUnified(var->interface())); |
96 ASSERT((is_this() && var->is_this()) || name_.is_identical_to(var->name())); | 93 ASSERT((is_this() && var->is_this()) || name_ == var->raw_name()); |
97 // Ideally CONST-ness should match. However, this is very hard to achieve | 94 // Ideally CONST-ness should match. However, this is very hard to achieve |
98 // because we don't know the exact semantics of conflicting (const and | 95 // because we don't know the exact semantics of conflicting (const and |
99 // non-const) multiple variable declarations, const vars introduced via | 96 // non-const) multiple variable declarations, const vars introduced via |
100 // eval() etc. Const-ness and variable declarations are a complete mess | 97 // eval() etc. Const-ness and variable declarations are a complete mess |
101 // in JS. Sigh... | 98 // in JS. Sigh... |
102 var_ = var; | 99 var_ = var; |
103 var->set_is_used(true); | 100 var->set_is_used(true); |
104 } | 101 } |
105 | 102 |
106 | 103 |
(...skipping 66 matching lines...) Expand 10 before | Expand all | Expand 10 after Loading... |
173 SharedFunctionInfo* shared = SharedFunctionInfo::cast(obj); | 170 SharedFunctionInfo* shared = SharedFunctionInfo::cast(obj); |
174 if (shared->start_position() == start_position()) { | 171 if (shared->start_position() == start_position()) { |
175 shared_info_ = Handle<SharedFunctionInfo>(shared); | 172 shared_info_ = Handle<SharedFunctionInfo>(shared); |
176 break; | 173 break; |
177 } | 174 } |
178 } | 175 } |
179 } | 176 } |
180 } | 177 } |
181 | 178 |
182 | 179 |
183 ObjectLiteralProperty::ObjectLiteralProperty( | 180 ObjectLiteralProperty::ObjectLiteralProperty(Zone* zone, |
184 Zone* zone, Literal* key, Expression* value) { | 181 AstStringTable* string_table, |
| 182 Literal* key, Expression* value) { |
185 emit_store_ = true; | 183 emit_store_ = true; |
186 key_ = key; | 184 key_ = key; |
187 value_ = value; | 185 value_ = value; |
188 Handle<Object> k = key->value(); | 186 if (key->raw_value()->EqualsString(string_table->proto_string())) { |
189 if (k->IsInternalizedString() && | |
190 String::Equals(Handle<String>::cast(k), | |
191 zone->isolate()->factory()->proto_string())) { | |
192 kind_ = PROTOTYPE; | 187 kind_ = PROTOTYPE; |
193 } else if (value_->AsMaterializedLiteral() != NULL) { | 188 } else if (value_->AsMaterializedLiteral() != NULL) { |
194 kind_ = MATERIALIZED_LITERAL; | 189 kind_ = MATERIALIZED_LITERAL; |
195 } else if (value_->IsLiteral()) { | 190 } else if (value_->IsLiteral()) { |
196 kind_ = CONSTANT; | 191 kind_ = CONSTANT; |
197 } else { | 192 } else { |
198 kind_ = COMPUTED; | 193 kind_ = COMPUTED; |
199 } | 194 } |
200 } | 195 } |
201 | 196 |
(...skipping 913 matching lines...) Expand 10 before | Expand all | Expand 10 after Loading... |
1115 DONT_CACHE_NODE(ModuleLiteral) | 1110 DONT_CACHE_NODE(ModuleLiteral) |
1116 | 1111 |
1117 | 1112 |
1118 void AstConstructionVisitor::VisitCallRuntime(CallRuntime* node) { | 1113 void AstConstructionVisitor::VisitCallRuntime(CallRuntime* node) { |
1119 increase_node_count(); | 1114 increase_node_count(); |
1120 if (node->is_jsruntime()) { | 1115 if (node->is_jsruntime()) { |
1121 // Don't try to inline JS runtime calls because we don't (currently) even | 1116 // Don't try to inline JS runtime calls because we don't (currently) even |
1122 // optimize them. | 1117 // optimize them. |
1123 add_flag(kDontInline); | 1118 add_flag(kDontInline); |
1124 } else if (node->function()->intrinsic_type == Runtime::INLINE && | 1119 } else if (node->function()->intrinsic_type == Runtime::INLINE && |
1125 (node->name()->IsOneByteEqualTo( | 1120 (node->raw_name()->IsOneByteEqualTo("_ArgumentsLength") || |
1126 STATIC_ASCII_VECTOR("_ArgumentsLength")) || | 1121 node->raw_name()->IsOneByteEqualTo("_Arguments"))) { |
1127 node->name()->IsOneByteEqualTo(STATIC_ASCII_VECTOR("_Arguments")))) { | |
1128 // Don't inline the %_ArgumentsLength or %_Arguments because their | 1122 // Don't inline the %_ArgumentsLength or %_Arguments because their |
1129 // implementation will not work. There is no stack frame to get them | 1123 // implementation will not work. There is no stack frame to get them |
1130 // from. | 1124 // from. |
1131 add_flag(kDontInline); | 1125 add_flag(kDontInline); |
1132 } | 1126 } |
1133 } | 1127 } |
1134 | 1128 |
1135 #undef REGULAR_NODE | 1129 #undef REGULAR_NODE |
1136 #undef DONT_OPTIMIZE_NODE | 1130 #undef DONT_OPTIMIZE_NODE |
1137 #undef DONT_SELFOPTIMIZE_NODE | 1131 #undef DONT_SELFOPTIMIZE_NODE |
1138 #undef DONT_CACHE_NODE | 1132 #undef DONT_CACHE_NODE |
1139 | 1133 |
1140 | 1134 |
1141 Handle<String> Literal::ToString() { | 1135 Handle<String> Literal::ToString() { |
1142 if (value_->IsString()) return Handle<String>::cast(value_); | 1136 if (value_->IsString()) return value_->AsString()->string(); |
1143 ASSERT(value_->IsNumber()); | 1137 ASSERT(value_->IsNumber()); |
1144 char arr[100]; | 1138 char arr[100]; |
1145 Vector<char> buffer(arr, ARRAY_SIZE(arr)); | 1139 Vector<char> buffer(arr, ARRAY_SIZE(arr)); |
1146 const char* str; | 1140 const char* str; |
1147 if (value_->IsSmi()) { | 1141 if (value()->IsSmi()) { |
1148 // Optimization only, the heap number case would subsume this. | 1142 // Optimization only, the heap number case would subsume this. |
1149 OS::SNPrintF(buffer, "%d", Smi::cast(*value_)->value()); | 1143 OS::SNPrintF(buffer, "%d", Smi::cast(*value())->value()); |
1150 str = arr; | 1144 str = arr; |
1151 } else { | 1145 } else { |
1152 str = DoubleToCString(value_->Number(), buffer); | 1146 str = DoubleToCString(value()->Number(), buffer); |
1153 } | 1147 } |
1154 return isolate_->factory()->NewStringFromAsciiChecked(str); | 1148 return isolate_->factory()->NewStringFromAsciiChecked(str); |
1155 } | 1149 } |
1156 | 1150 |
1157 | 1151 |
1158 } } // namespace v8::internal | 1152 } } // namespace v8::internal |
OLD | NEW |