src/v8/src/compiler/value-numbering-reducer.cc - cobalt - Git at Google

 // Copyright 2014 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.

 #include "src/compiler/value-numbering-reducer.h"

 #include <cstring>

 #include "src/base/functional.h"
 #include "src/compiler/node-properties.h"
 #include "src/compiler/node.h"

 namespace v8 {
 namespace internal {
 namespace compiler {

 ValueNumberingReducer::ValueNumberingReducer(Zone* temp_zone, Zone* graph_zone)
     : entries_(nullptr),
       capacity_(0),
       size_(0),
       temp_zone_(temp_zone),
       graph_zone_(graph_zone) {}

 ValueNumberingReducer::~ValueNumberingReducer() = default;


 Reduction ValueNumberingReducer::Reduce(Node* node) {
   if (!node->op()->HasProperty(Operator::kIdempotent)) return NoChange();

   const size_t hash = NodeProperties::HashCode(node);
   if (!entries_) {
     DCHECK_EQ(0, size_);
     DCHECK_EQ(0, capacity_);
     // Allocate the initial entries and insert the first entry.
     capacity_ = kInitialCapacity;
     entries_ = temp_zone()->NewArray<Node*>(kInitialCapacity);
     memset(entries_, 0, sizeof(*entries_) * kInitialCapacity);
     entries_[hash & (kInitialCapacity - 1)] = node;
     size_ = 1;
     return NoChange();
   }

   DCHECK(size_ < capacity_);
   DCHECK(size_ + size_ / 4 < capacity_);

   const size_t mask = capacity_ - 1;
   size_t dead = capacity_;

   for (size_t i = hash & mask;; i = (i + 1) & mask) {
     Node* entry = entries_[i];
     if (!entry) {
       if (dead != capacity_) {
         // Reuse dead entry that we discovered on the way.
         entries_[dead] = node;
       } else {
         // Have to insert a new entry.
         entries_[i] = node;
         size_++;

         // Resize to keep load factor below 80%
         if (size_ + size_ / 4 >= capacity_) Grow();
       }
       DCHECK(size_ + size_ / 4 < capacity_);
       return NoChange();
     }

     if (entry == node) {
       // We need to check for a certain class of collisions here. Imagine the
       // following scenario:
       //
       //  1. We insert node1 with op1 and certain inputs at index i.
       //  2. We insert node2 with op2 and certain inputs at index i+1.
       //  3. Some other reducer changes node1 to op2 and the inputs from node2.
       //
       // Now we are called again to reduce node1, and we would return NoChange
       // in this case because we find node1 first, but what we should actually
       // do is return Replace(node2) instead.
       for (size_t j = (i + 1) & mask;; j = (j + 1) & mask) {
         Node* entry = entries_[j];
         if (!entry) {
           // No collision, {node} is fine.
           return NoChange();
         }
         if (entry->IsDead()) {
           continue;
         }
         if (entry == node) {
           // Collision with ourselves, doesn't count as a real collision.
           // Opportunistically clean-up the duplicate entry if we're at the end
           // of a bucket.
           if (!entries_[(j + 1) & mask]) {
             entries_[j] = nullptr;
             size_--;
             return NoChange();
           }
           // Otherwise, keep searching for another collision.
           continue;
         }
         if (NodeProperties::Equals(entry, node)) {
           Reduction reduction = ReplaceIfTypesMatch(node, entry);
           if (reduction.Changed()) {
             // Overwrite the colliding entry with the actual entry.
             entries_[i] = entry;
             // Opportunistically clean-up the duplicate entry if we're at the
             // end of a bucket.
             if (!entries_[(j + 1) & mask]) {
               entries_[j] = nullptr;
               size_--;
             }
           }
           return reduction;
         }
       }
     }

     // Skip dead entries, but remember their indices so we can reuse them.
     if (entry->IsDead()) {
       dead = i;
       continue;
     }
     if (NodeProperties::Equals(entry, node)) {
       return ReplaceIfTypesMatch(node, entry);
     }
   }
 }

 Reduction ValueNumberingReducer::ReplaceIfTypesMatch(Node* node,
                                                      Node* replacement) {
   // Make sure the replacement has at least as good type as the original node.
   if (NodeProperties::IsTyped(replacement) && NodeProperties::IsTyped(node)) {
     Type replacement_type = NodeProperties::GetType(replacement);
     Type node_type = NodeProperties::GetType(node);
     if (!replacement_type.Is(node_type)) {
       // Ideally, we would set an intersection of {replacement_type} and
       // {node_type} here. However, typing of NumberConstants assigns different
       // types to constants with the same value (it creates a fresh heap
       // number), which would make the intersection empty. To be safe, we use
       // the smaller type if the types are comparable.
       if (node_type.Is(replacement_type)) {
         NodeProperties::SetType(replacement, node_type);
       } else {
         // Types are not comparable => do not replace.
         return NoChange();
       }
     }
   }
   return Replace(replacement);
 }


 void ValueNumberingReducer::Grow() {
   // Allocate a new block of entries double the previous capacity.
   Node** const old_entries = entries_;
   size_t const old_capacity = capacity_;
   capacity_ *= 2;
   entries_ = temp_zone()->NewArray<Node*>(capacity_);
   memset(entries_, 0, sizeof(*entries_) * capacity_);
   size_ = 0;
   size_t const mask = capacity_ - 1;

   // Insert the old entries into the new block (skipping dead nodes).
   for (size_t i = 0; i < old_capacity; ++i) {
     Node* const old_entry = old_entries[i];
     if (!old_entry || old_entry->IsDead()) continue;
     for (size_t j = NodeProperties::HashCode(old_entry) & mask;;
          j = (j + 1) & mask) {
       Node* const entry = entries_[j];
       if (entry == old_entry) {
         // Skip duplicate of the old entry.
         break;
       }
       if (!entry) {
         entries_[j] = old_entry;
         size_++;
         break;
       }
     }
   }
 }

 }  // namespace compiler
 }  // namespace internal
 }  // namespace v8
	// Copyright 2014 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.

	#include "src/compiler/value-numbering-reducer.h"

	#include <cstring>

	#include "src/base/functional.h"
	#include "src/compiler/node-properties.h"
	#include "src/compiler/node.h"

	namespace v8 {
	namespace internal {
	namespace compiler {

	ValueNumberingReducer::ValueNumberingReducer(Zone* temp_zone, Zone* graph_zone)
	: entries_(nullptr),
	capacity_(0),
	size_(0),
	temp_zone_(temp_zone),
	graph_zone_(graph_zone) {}

	ValueNumberingReducer::~ValueNumberingReducer() = default;


	Reduction ValueNumberingReducer::Reduce(Node* node) {
	if (!node->op()->HasProperty(Operator::kIdempotent)) return NoChange();

	const size_t hash = NodeProperties::HashCode(node);
	if (!entries_) {
	DCHECK_EQ(0, size_);
	DCHECK_EQ(0, capacity_);
	// Allocate the initial entries and insert the first entry.
	capacity_ = kInitialCapacity;
	entries_ = temp_zone()->NewArray<Node*>(kInitialCapacity);
	memset(entries_, 0, sizeof(entries_) kInitialCapacity);
	entries_[hash & (kInitialCapacity - 1)] = node;
	size_ = 1;
	return NoChange();
	}

	DCHECK(size_ < capacity_);
	DCHECK(size_ + size_ / 4 < capacity_);

	const size_t mask = capacity_ - 1;
	size_t dead = capacity_;

	for (size_t i = hash & mask;; i = (i + 1) & mask) {
	Node* entry = entries_[i];
	if (!entry) {
	if (dead != capacity_) {
	// Reuse dead entry that we discovered on the way.
	entries_[dead] = node;
	} else {
	// Have to insert a new entry.
	entries_[i] = node;
	size_++;

	// Resize to keep load factor below 80%
	if (size_ + size_ / 4 >= capacity_) Grow();
	}
	DCHECK(size_ + size_ / 4 < capacity_);
	return NoChange();
	}

	if (entry == node) {
	// We need to check for a certain class of collisions here. Imagine the
	// following scenario:
	//
	// 1. We insert node1 with op1 and certain inputs at index i.
	// 2. We insert node2 with op2 and certain inputs at index i+1.
	// 3. Some other reducer changes node1 to op2 and the inputs from node2.
	//
	// Now we are called again to reduce node1, and we would return NoChange
	// in this case because we find node1 first, but what we should actually
	// do is return Replace(node2) instead.
	for (size_t j = (i + 1) & mask;; j = (j + 1) & mask) {
	Node* entry = entries_[j];
	if (!entry) {
	// No collision, {node} is fine.
	return NoChange();
	}
	if (entry->IsDead()) {
	continue;
	}
	if (entry == node) {
	// Collision with ourselves, doesn't count as a real collision.
	// Opportunistically clean-up the duplicate entry if we're at the end
	// of a bucket.
	if (!entries_[(j + 1) & mask]) {
	entries_[j] = nullptr;
	size_--;
	return NoChange();
	}
	// Otherwise, keep searching for another collision.
	continue;
	}
	if (NodeProperties::Equals(entry, node)) {
	Reduction reduction = ReplaceIfTypesMatch(node, entry);
	if (reduction.Changed()) {
	// Overwrite the colliding entry with the actual entry.
	entries_[i] = entry;
	// Opportunistically clean-up the duplicate entry if we're at the
	// end of a bucket.
	if (!entries_[(j + 1) & mask]) {
	entries_[j] = nullptr;
	size_--;
	}
	}
	return reduction;
	}
	}
	}

	// Skip dead entries, but remember their indices so we can reuse them.
	if (entry->IsDead()) {
	dead = i;
	continue;
	}
	if (NodeProperties::Equals(entry, node)) {
	return ReplaceIfTypesMatch(node, entry);
	}
	}
	}

	Reduction ValueNumberingReducer::ReplaceIfTypesMatch(Node* node,
	Node* replacement) {
	// Make sure the replacement has at least as good type as the original node.
	if (NodeProperties::IsTyped(replacement) && NodeProperties::IsTyped(node)) {
	Type replacement_type = NodeProperties::GetType(replacement);
	Type node_type = NodeProperties::GetType(node);
	if (!replacement_type.Is(node_type)) {
	// Ideally, we would set an intersection of {replacement_type} and
	// {node_type} here. However, typing of NumberConstants assigns different
	// types to constants with the same value (it creates a fresh heap
	// number), which would make the intersection empty. To be safe, we use
	// the smaller type if the types are comparable.
	if (node_type.Is(replacement_type)) {
	NodeProperties::SetType(replacement, node_type);
	} else {
	// Types are not comparable => do not replace.
	return NoChange();
	}
	}
	}
	return Replace(replacement);
	}


	void ValueNumberingReducer::Grow() {
	// Allocate a new block of entries double the previous capacity.
	Node** const old_entries = entries_;
	size_t const old_capacity = capacity_;
	capacity_ *= 2;
	entries_ = temp_zone()->NewArray<Node*>(capacity_);
	memset(entries_, 0, sizeof(entries_) capacity_);
	size_ = 0;
	size_t const mask = capacity_ - 1;

	// Insert the old entries into the new block (skipping dead nodes).
	for (size_t i = 0; i < old_capacity; ++i) {
	Node* const old_entry = old_entries[i];
	if (!old_entry \|\| old_entry->IsDead()) continue;
	for (size_t j = NodeProperties::HashCode(old_entry) & mask;;
	j = (j + 1) & mask) {
	Node* const entry = entries_[j];
	if (entry == old_entry) {
	// Skip duplicate of the old entry.
	break;
	}
	if (!entry) {
	entries_[j] = old_entry;
	size_++;
	break;
	}
	}
	}
	}

	} // namespace compiler
	} // namespace internal
	} // namespace v8