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| 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_GENERIC_NODE_INL_H_ |
| 6 #define V8_COMPILER_GENERIC_NODE_INL_H_ |
| 7 |
| 8 #include "src/v8.h" |
| 9 |
| 10 #include "src/compiler/generic-graph.h" |
| 11 #include "src/compiler/generic-node.h" |
| 12 #include "src/zone.h" |
| 13 |
| 14 namespace v8 { |
| 15 namespace internal { |
| 16 namespace compiler { |
| 17 |
| 18 template <class B, class S> |
| 19 GenericNode<B, S>::GenericNode(GenericGraphBase* graph, int input_count) |
| 20 : BaseClass(graph->zone()), |
| 21 input_count_(input_count), |
| 22 has_appendable_inputs_(false), |
| 23 use_count_(0), |
| 24 first_use_(NULL), |
| 25 last_use_(NULL) { |
| 26 inputs_.static_ = reinterpret_cast<Input*>(this + 1), AssignUniqueID(graph); |
| 27 } |
| 28 |
| 29 template <class B, class S> |
| 30 inline void GenericNode<B, S>::AssignUniqueID(GenericGraphBase* graph) { |
| 31 id_ = graph->NextNodeID(); |
| 32 } |
| 33 |
| 34 template <class B, class S> |
| 35 inline typename GenericNode<B, S>::Inputs::iterator |
| 36 GenericNode<B, S>::Inputs::begin() { |
| 37 return GenericNode::Inputs::iterator(this->node_, 0); |
| 38 } |
| 39 |
| 40 template <class B, class S> |
| 41 inline typename GenericNode<B, S>::Inputs::iterator |
| 42 GenericNode<B, S>::Inputs::end() { |
| 43 return GenericNode::Inputs::iterator(this->node_, this->node_->InputCount()); |
| 44 } |
| 45 |
| 46 template <class B, class S> |
| 47 inline typename GenericNode<B, S>::Uses::iterator |
| 48 GenericNode<B, S>::Uses::begin() { |
| 49 return GenericNode::Uses::iterator(this->node_); |
| 50 } |
| 51 |
| 52 template <class B, class S> |
| 53 inline typename GenericNode<B, S>::Uses::iterator |
| 54 GenericNode<B, S>::Uses::end() { |
| 55 return GenericNode::Uses::iterator(); |
| 56 } |
| 57 |
| 58 template <class B, class S> |
| 59 void GenericNode<B, S>::ReplaceUses(GenericNode* replace_to) { |
| 60 for (Use* use = first_use_; use != NULL; use = use->next) { |
| 61 use->from->GetInputRecordPtr(use->input_index)->to = replace_to; |
| 62 } |
| 63 if (replace_to->last_use_ == NULL) { |
| 64 ASSERT_EQ(NULL, replace_to->first_use_); |
| 65 replace_to->first_use_ = first_use_; |
| 66 } else { |
| 67 ASSERT_NE(NULL, replace_to->first_use_); |
| 68 replace_to->last_use_->next = first_use_; |
| 69 first_use_->prev = replace_to->last_use_; |
| 70 } |
| 71 replace_to->last_use_ = last_use_; |
| 72 replace_to->use_count_ += use_count_; |
| 73 use_count_ = 0; |
| 74 first_use_ = NULL; |
| 75 last_use_ = NULL; |
| 76 } |
| 77 |
| 78 template <class B, class S> |
| 79 template <class UnaryPredicate> |
| 80 void GenericNode<B, S>::ReplaceUsesIf(UnaryPredicate pred, |
| 81 GenericNode* replace_to) { |
| 82 for (Use* use = first_use_; use != NULL;) { |
| 83 Use* next = use->next; |
| 84 if (pred(static_cast<S*>(use->from))) { |
| 85 RemoveUse(use); |
| 86 replace_to->AppendUse(use); |
| 87 use->from->GetInputRecordPtr(use->input_index)->to = replace_to; |
| 88 } |
| 89 use = next; |
| 90 } |
| 91 } |
| 92 |
| 93 template <class B, class S> |
| 94 void GenericNode<B, S>::RemoveAllInputs() { |
| 95 for (typename Inputs::iterator iter(inputs().begin()); iter != inputs().end(); |
| 96 ++iter) { |
| 97 iter.GetInput()->Update(NULL); |
| 98 } |
| 99 } |
| 100 |
| 101 template <class B, class S> |
| 102 void GenericNode<B, S>::TrimInputCount(int new_input_count) { |
| 103 if (new_input_count == input_count_) return; // Nothing to do. |
| 104 |
| 105 ASSERT(new_input_count < input_count_); |
| 106 |
| 107 // Update inline inputs. |
| 108 for (int i = new_input_count; i < input_count_; i++) { |
| 109 GenericNode<B, S>::Input* input = GetInputRecordPtr(i); |
| 110 input->Update(NULL); |
| 111 } |
| 112 input_count_ = new_input_count; |
| 113 } |
| 114 |
| 115 template <class B, class S> |
| 116 void GenericNode<B, S>::ReplaceInput(int index, GenericNode<B, S>* new_to) { |
| 117 Input* input = GetInputRecordPtr(index); |
| 118 input->Update(new_to); |
| 119 } |
| 120 |
| 121 template <class B, class S> |
| 122 void GenericNode<B, S>::Input::Update(GenericNode<B, S>* new_to) { |
| 123 GenericNode* old_to = this->to; |
| 124 if (new_to == old_to) return; // Nothing to do. |
| 125 // Snip out the use from where it used to be |
| 126 if (old_to != NULL) { |
| 127 old_to->RemoveUse(use); |
| 128 } |
| 129 to = new_to; |
| 130 // And put it into the new node's use list. |
| 131 if (new_to != NULL) { |
| 132 new_to->AppendUse(use); |
| 133 } else { |
| 134 use->next = NULL; |
| 135 use->prev = NULL; |
| 136 } |
| 137 } |
| 138 |
| 139 template <class B, class S> |
| 140 void GenericNode<B, S>::EnsureAppendableInputs(Zone* zone) { |
| 141 if (!has_appendable_inputs_) { |
| 142 void* deque_buffer = zone->New(sizeof(InputDeque)); |
| 143 InputDeque* deque = new (deque_buffer) InputDeque(ZoneInputAllocator(zone)); |
| 144 for (int i = 0; i < input_count_; ++i) { |
| 145 deque->push_back(inputs_.static_[i]); |
| 146 } |
| 147 inputs_.appendable_ = deque; |
| 148 has_appendable_inputs_ = true; |
| 149 } |
| 150 } |
| 151 |
| 152 template <class B, class S> |
| 153 void GenericNode<B, S>::AppendInput(Zone* zone, GenericNode<B, S>* to_append) { |
| 154 EnsureAppendableInputs(zone); |
| 155 Use* new_use = new (zone) Use; |
| 156 Input new_input; |
| 157 new_input.to = to_append; |
| 158 new_input.use = new_use; |
| 159 inputs_.appendable_->push_back(new_input); |
| 160 new_use->input_index = input_count_; |
| 161 new_use->from = this; |
| 162 to_append->AppendUse(new_use); |
| 163 input_count_++; |
| 164 } |
| 165 |
| 166 template <class B, class S> |
| 167 void GenericNode<B, S>::InsertInput(Zone* zone, int index, |
| 168 GenericNode<B, S>* to_insert) { |
| 169 ASSERT(index >= 0 && index < InputCount()); |
| 170 // TODO(turbofan): Optimize this implementation! |
| 171 AppendInput(zone, InputAt(InputCount() - 1)); |
| 172 for (int i = InputCount() - 1; i > index; --i) { |
| 173 ReplaceInput(i, InputAt(i - 1)); |
| 174 } |
| 175 ReplaceInput(index, to_insert); |
| 176 } |
| 177 |
| 178 template <class B, class S> |
| 179 void GenericNode<B, S>::AppendUse(Use* use) { |
| 180 use->next = NULL; |
| 181 use->prev = last_use_; |
| 182 if (last_use_ == NULL) { |
| 183 first_use_ = use; |
| 184 } else { |
| 185 last_use_->next = use; |
| 186 } |
| 187 last_use_ = use; |
| 188 ++use_count_; |
| 189 } |
| 190 |
| 191 template <class B, class S> |
| 192 void GenericNode<B, S>::RemoveUse(Use* use) { |
| 193 if (last_use_ == use) { |
| 194 last_use_ = use->prev; |
| 195 } |
| 196 if (use->prev != NULL) { |
| 197 use->prev->next = use->next; |
| 198 } else { |
| 199 first_use_ = use->next; |
| 200 } |
| 201 if (use->next != NULL) { |
| 202 use->next->prev = use->prev; |
| 203 } |
| 204 --use_count_; |
| 205 } |
| 206 |
| 207 template <class B, class S> |
| 208 inline bool GenericNode<B, S>::OwnedBy(GenericNode* owner) const { |
| 209 return first_use_ != NULL && first_use_->from == owner && |
| 210 first_use_->next == NULL; |
| 211 } |
| 212 |
| 213 template <class B, class S> |
| 214 S* GenericNode<B, S>::New(GenericGraphBase* graph, int input_count, |
| 215 S** inputs) { |
| 216 size_t node_size = sizeof(GenericNode); |
| 217 size_t inputs_size = input_count * sizeof(Input); |
| 218 size_t uses_size = input_count * sizeof(Use); |
| 219 size_t size = node_size + inputs_size + uses_size; |
| 220 Zone* zone = graph->zone(); |
| 221 void* buffer = zone->New(size); |
| 222 S* result = new (buffer) S(graph, input_count); |
| 223 Input* input = |
| 224 reinterpret_cast<Input*>(reinterpret_cast<char*>(buffer) + node_size); |
| 225 Use* use = |
| 226 reinterpret_cast<Use*>(reinterpret_cast<char*>(input) + inputs_size); |
| 227 |
| 228 for (int current = 0; current < input_count; ++current) { |
| 229 GenericNode* to = *inputs++; |
| 230 input->to = to; |
| 231 input->use = use; |
| 232 use->input_index = current; |
| 233 use->from = result; |
| 234 to->AppendUse(use); |
| 235 ++use; |
| 236 ++input; |
| 237 } |
| 238 return result; |
| 239 } |
| 240 } |
| 241 } |
| 242 } // namespace v8::internal::compiler |
| 243 |
| 244 #endif // V8_COMPILER_GENERIC_NODE_INL_H_ |
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