Index: src/compiler/generic-node-inl.h |
diff --git a/src/compiler/generic-node-inl.h b/src/compiler/generic-node-inl.h |
new file mode 100644 |
index 0000000000000000000000000000000000000000..023fa0213d9b7cf79ef8a3858a62c771bf3d086f |
--- /dev/null |
+++ b/src/compiler/generic-node-inl.h |
@@ -0,0 +1,244 @@ |
+// Copyright 2013 the V8 project authors. All rights reserved. |
+// Use of this source code is governed by a BSD-style license that can be |
+// found in the LICENSE file. |
+ |
+#ifndef V8_COMPILER_GENERIC_NODE_INL_H_ |
+#define V8_COMPILER_GENERIC_NODE_INL_H_ |
+ |
+#include "src/v8.h" |
+ |
+#include "src/compiler/generic-graph.h" |
+#include "src/compiler/generic-node.h" |
+#include "src/zone.h" |
+ |
+namespace v8 { |
+namespace internal { |
+namespace compiler { |
+ |
+template <class B, class S> |
+GenericNode<B, S>::GenericNode(GenericGraphBase* graph, int input_count) |
+ : BaseClass(graph->zone()), |
+ input_count_(input_count), |
+ has_appendable_inputs_(false), |
+ use_count_(0), |
+ first_use_(NULL), |
+ last_use_(NULL) { |
+ inputs_.static_ = reinterpret_cast<Input*>(this + 1), AssignUniqueID(graph); |
+} |
+ |
+template <class B, class S> |
+inline void GenericNode<B, S>::AssignUniqueID(GenericGraphBase* graph) { |
+ id_ = graph->NextNodeID(); |
+} |
+ |
+template <class B, class S> |
+inline typename GenericNode<B, S>::Inputs::iterator |
+GenericNode<B, S>::Inputs::begin() { |
+ return GenericNode::Inputs::iterator(this->node_, 0); |
+} |
+ |
+template <class B, class S> |
+inline typename GenericNode<B, S>::Inputs::iterator |
+GenericNode<B, S>::Inputs::end() { |
+ return GenericNode::Inputs::iterator(this->node_, this->node_->InputCount()); |
+} |
+ |
+template <class B, class S> |
+inline typename GenericNode<B, S>::Uses::iterator |
+GenericNode<B, S>::Uses::begin() { |
+ return GenericNode::Uses::iterator(this->node_); |
+} |
+ |
+template <class B, class S> |
+inline typename GenericNode<B, S>::Uses::iterator |
+GenericNode<B, S>::Uses::end() { |
+ return GenericNode::Uses::iterator(); |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::ReplaceUses(GenericNode* replace_to) { |
+ for (Use* use = first_use_; use != NULL; use = use->next) { |
+ use->from->GetInputRecordPtr(use->input_index)->to = replace_to; |
+ } |
+ if (replace_to->last_use_ == NULL) { |
+ ASSERT_EQ(NULL, replace_to->first_use_); |
+ replace_to->first_use_ = first_use_; |
+ } else { |
+ ASSERT_NE(NULL, replace_to->first_use_); |
+ replace_to->last_use_->next = first_use_; |
+ first_use_->prev = replace_to->last_use_; |
+ } |
+ replace_to->last_use_ = last_use_; |
+ replace_to->use_count_ += use_count_; |
+ use_count_ = 0; |
+ first_use_ = NULL; |
+ last_use_ = NULL; |
+} |
+ |
+template <class B, class S> |
+template <class UnaryPredicate> |
+void GenericNode<B, S>::ReplaceUsesIf(UnaryPredicate pred, |
+ GenericNode* replace_to) { |
+ for (Use* use = first_use_; use != NULL;) { |
+ Use* next = use->next; |
+ if (pred(static_cast<S*>(use->from))) { |
+ RemoveUse(use); |
+ replace_to->AppendUse(use); |
+ use->from->GetInputRecordPtr(use->input_index)->to = replace_to; |
+ } |
+ use = next; |
+ } |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::RemoveAllInputs() { |
+ for (typename Inputs::iterator iter(inputs().begin()); iter != inputs().end(); |
+ ++iter) { |
+ iter.GetInput()->Update(NULL); |
+ } |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::TrimInputCount(int new_input_count) { |
+ if (new_input_count == input_count_) return; // Nothing to do. |
+ |
+ ASSERT(new_input_count < input_count_); |
+ |
+ // Update inline inputs. |
+ for (int i = new_input_count; i < input_count_; i++) { |
+ GenericNode<B, S>::Input* input = GetInputRecordPtr(i); |
+ input->Update(NULL); |
+ } |
+ input_count_ = new_input_count; |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::ReplaceInput(int index, GenericNode<B, S>* new_to) { |
+ Input* input = GetInputRecordPtr(index); |
+ input->Update(new_to); |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::Input::Update(GenericNode<B, S>* new_to) { |
+ GenericNode* old_to = this->to; |
+ if (new_to == old_to) return; // Nothing to do. |
+ // Snip out the use from where it used to be |
+ if (old_to != NULL) { |
+ old_to->RemoveUse(use); |
+ } |
+ to = new_to; |
+ // And put it into the new node's use list. |
+ if (new_to != NULL) { |
+ new_to->AppendUse(use); |
+ } else { |
+ use->next = NULL; |
+ use->prev = NULL; |
+ } |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::EnsureAppendableInputs(Zone* zone) { |
+ if (!has_appendable_inputs_) { |
+ void* deque_buffer = zone->New(sizeof(InputDeque)); |
+ InputDeque* deque = new (deque_buffer) InputDeque(ZoneInputAllocator(zone)); |
+ for (int i = 0; i < input_count_; ++i) { |
+ deque->push_back(inputs_.static_[i]); |
+ } |
+ inputs_.appendable_ = deque; |
+ has_appendable_inputs_ = true; |
+ } |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::AppendInput(Zone* zone, GenericNode<B, S>* to_append) { |
+ EnsureAppendableInputs(zone); |
+ Use* new_use = new (zone) Use; |
+ Input new_input; |
+ new_input.to = to_append; |
+ new_input.use = new_use; |
+ inputs_.appendable_->push_back(new_input); |
+ new_use->input_index = input_count_; |
+ new_use->from = this; |
+ to_append->AppendUse(new_use); |
+ input_count_++; |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::InsertInput(Zone* zone, int index, |
+ GenericNode<B, S>* to_insert) { |
+ ASSERT(index >= 0 && index < InputCount()); |
+ // TODO(turbofan): Optimize this implementation! |
+ AppendInput(zone, InputAt(InputCount() - 1)); |
+ for (int i = InputCount() - 1; i > index; --i) { |
+ ReplaceInput(i, InputAt(i - 1)); |
+ } |
+ ReplaceInput(index, to_insert); |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::AppendUse(Use* use) { |
+ use->next = NULL; |
+ use->prev = last_use_; |
+ if (last_use_ == NULL) { |
+ first_use_ = use; |
+ } else { |
+ last_use_->next = use; |
+ } |
+ last_use_ = use; |
+ ++use_count_; |
+} |
+ |
+template <class B, class S> |
+void GenericNode<B, S>::RemoveUse(Use* use) { |
+ if (last_use_ == use) { |
+ last_use_ = use->prev; |
+ } |
+ if (use->prev != NULL) { |
+ use->prev->next = use->next; |
+ } else { |
+ first_use_ = use->next; |
+ } |
+ if (use->next != NULL) { |
+ use->next->prev = use->prev; |
+ } |
+ --use_count_; |
+} |
+ |
+template <class B, class S> |
+inline bool GenericNode<B, S>::OwnedBy(GenericNode* owner) const { |
+ return first_use_ != NULL && first_use_->from == owner && |
+ first_use_->next == NULL; |
+} |
+ |
+template <class B, class S> |
+S* GenericNode<B, S>::New(GenericGraphBase* graph, int input_count, |
+ S** inputs) { |
+ size_t node_size = sizeof(GenericNode); |
+ size_t inputs_size = input_count * sizeof(Input); |
+ size_t uses_size = input_count * sizeof(Use); |
+ size_t size = node_size + inputs_size + uses_size; |
+ Zone* zone = graph->zone(); |
+ void* buffer = zone->New(size); |
+ S* result = new (buffer) S(graph, input_count); |
+ Input* input = |
+ reinterpret_cast<Input*>(reinterpret_cast<char*>(buffer) + node_size); |
+ Use* use = |
+ reinterpret_cast<Use*>(reinterpret_cast<char*>(input) + inputs_size); |
+ |
+ for (int current = 0; current < input_count; ++current) { |
+ GenericNode* to = *inputs++; |
+ input->to = to; |
+ input->use = use; |
+ use->input_index = current; |
+ use->from = result; |
+ to->AppendUse(use); |
+ ++use; |
+ ++input; |
+ } |
+ return result; |
+} |
+} |
+} |
+} // namespace v8::internal::compiler |
+ |
+#endif // V8_COMPILER_GENERIC_NODE_INL_H_ |