sync/internal_api/change_reorder_buffer.cc - experimental/chromium/src - Git at Google

 // Copyright 2012 The Chromium 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 "sync/internal_api/change_reorder_buffer.h"

 #include <limits>
 #include <queue>
 #include <set>
 #include <utility>  // for pair<>

 #include "sync/internal_api/public/base_node.h"
 #include "sync/internal_api/public/base_transaction.h"
 #include "sync/syncable/entry.h"
 #include "sync/syncable/syncable_base_transaction.h"

 using std::numeric_limits;
 using std::pair;
 using std::queue;
 using std::set;

 namespace syncer {

 // Traversal provides a way to collect a set of nodes from the syncable
 // directory structure and then traverse them, along with any intermediate
 // nodes, in a top-down fashion, starting from a single common ancestor.  A
 // Traversal starts out empty and is grown by means of the ExpandToInclude
 // method.  Once constructed, the top(), begin_children(), and end_children()
 // methods can be used to explore the nodes in root-to-leaf order.
 class ChangeReorderBuffer::Traversal {
  public:
   typedef pair<int64, int64> ParentChildLink;
   typedef set<ParentChildLink> LinkSet;

   Traversal() : top_(kInvalidId) { }

   // Expand the traversal so that it includes the node indicated by
   // |child_handle|.
   void ExpandToInclude(syncable::BaseTransaction* trans,
                        int64 child_handle) {
     // If |top_| is invalid, this is the first insertion -- easy.
     if (top_ == kInvalidId) {
       top_ = child_handle;
       return;
     }

     int64 node_to_include = child_handle;
     while (node_to_include != kInvalidId && node_to_include != top_) {
       int64 node_parent = 0;

       syncable::Entry node(trans, syncable::GET_BY_HANDLE, node_to_include);
       CHECK(node.good());
       if (node.Get(syncable::ID).IsRoot()) {
         // If we've hit the root, and the root isn't already in the tree
         // (it would have to be |top_| if it were), start a new expansion
         // upwards from |top_| to unite the original traversal with the
         // path we just added that goes from |child_handle| to the root.
         node_to_include = top_;
         top_ = node.Get(syncable::META_HANDLE);
       } else {
         // Otherwise, get the parent ID so that we can add a ParentChildLink.
         syncable::Entry parent(trans, syncable::GET_BY_ID,
                                node.Get(syncable::PARENT_ID));
         CHECK(parent.good());
         node_parent = parent.Get(syncable::META_HANDLE);

         ParentChildLink link(node_parent, node_to_include);

         // If the link exists in the LinkSet |links_|, we don't need to search
         // any higher; we are done.
         if (links_.find(link) != links_.end())
           return;

         // Otherwise, extend |links_|, and repeat on the parent.
         links_.insert(link);
         node_to_include = node_parent;
       }
     }
   }

   // Return the top node of the traversal.  Use this as a starting point
   // for walking the tree.
   int64 top() const { return top_; }

   // Return an iterator corresponding to the first child (in the traversal)
   // of the node specified by |parent_id|.  Iterate this return value until
   // it is equal to the value returned by end_children(parent_id).  The
   // enumeration thus provided is unordered.
   LinkSet::const_iterator begin_children(int64 parent_id) const {
     return links_.upper_bound(
         ParentChildLink(parent_id, numeric_limits<int64>::min()));
   }

   // Return an iterator corresponding to the last child in the traversal
   // of the node specified by |parent_id|.
   LinkSet::const_iterator end_children(int64 parent_id) const {
     return begin_children(parent_id + 1);
   }

  private:
   // The topmost point in the directory hierarchy that is in the traversal,
   // and thus the first node to be traversed.  If the traversal is empty,
   // this is kInvalidId.  If the traversal contains exactly one member, |top_|
   // will be the solitary member, and |links_| will be empty.
   int64 top_;
   // A set of single-level links that compose the traversal below |top_|.  The
   // (parent, child) ordering of values enables efficient lookup of children
   // given the parent handle, which is used for top-down traversal.  |links_|
   // is expected to be connected -- every node that appears as a parent in a
   // link must either appear as a child of another link, or else be the
   // topmost node, |top_|.
   LinkSet links_;

   DISALLOW_COPY_AND_ASSIGN(Traversal);
 };

 ChangeReorderBuffer::ChangeReorderBuffer() {
 }

 ChangeReorderBuffer::~ChangeReorderBuffer() {
 }

 void ChangeReorderBuffer::PushAddedItem(int64 id) {
   operations_[id] = ChangeRecord::ACTION_ADD;
 }

 void ChangeReorderBuffer::PushDeletedItem(int64 id) {
   operations_[id] = ChangeRecord::ACTION_DELETE;
 }

 void ChangeReorderBuffer::PushUpdatedItem(int64 id) {
   operations_[id] = ChangeRecord::ACTION_UPDATE;
 }

 void ChangeReorderBuffer::SetExtraDataForId(
     int64 id,
     ExtraPasswordChangeRecordData* extra) {
   extra_data_[id] = make_linked_ptr<ExtraPasswordChangeRecordData>(extra);
 }

 void ChangeReorderBuffer::SetSpecificsForId(
     int64 id,
     const sync_pb::EntitySpecifics& specifics) {
   specifics_[id] = specifics;
 }

 void ChangeReorderBuffer::Clear() {
   operations_.clear();
 }

 bool ChangeReorderBuffer::IsEmpty() const {
   return operations_.empty();
 }

 bool ChangeReorderBuffer::GetAllChangesInTreeOrder(
     const BaseTransaction* sync_trans,
     ImmutableChangeRecordList* changes) {
   syncable::BaseTransaction* trans = sync_trans->GetWrappedTrans();

   // Step 1: Iterate through the operations, doing three things:
   // (a) Push deleted items straight into the |changelist|.
   // (b) Construct a traversal spanning all non-deleted items.
   // (c) Construct a set of all parent nodes of any position changes.
   Traversal traversal;

   ChangeRecordList changelist;

   OperationMap::const_iterator i;
   for (i = operations_.begin(); i != operations_.end(); ++i) {
     if (i->second == ChangeRecord::ACTION_DELETE) {
       ChangeRecord record;
       record.id = i->first;
       record.action = i->second;
       if (specifics_.find(record.id) != specifics_.end())
         record.specifics = specifics_[record.id];
       if (extra_data_.find(record.id) != extra_data_.end())
         record.extra = extra_data_[record.id];
       changelist.push_back(record);
     } else {
       traversal.ExpandToInclude(trans, i->first);
     }
   }

   // Step 2: Breadth-first expansion of the traversal.
   queue<int64> to_visit;
   to_visit.push(traversal.top());
   while (!to_visit.empty()) {
     int64 next = to_visit.front();
     to_visit.pop();

     // If the node has an associated action, output a change record.
     i = operations_.find(next);
     if (i != operations_.end()) {
       ChangeRecord record;
       record.id = next;
       record.action = i->second;
       if (specifics_.find(record.id) != specifics_.end())
         record.specifics = specifics_[record.id];
       if (extra_data_.find(record.id) != extra_data_.end())
         record.extra = extra_data_[record.id];
       changelist.push_back(record);
     }

     // Now add the children of |next| to |to_visit|.
     Traversal::LinkSet::const_iterator j = traversal.begin_children(next);
     Traversal::LinkSet::const_iterator end = traversal.end_children(next);
     for (; j != end; ++j) {
       CHECK(j->first == next);
       to_visit.push(j->second);
     }
   }

   *changes = ImmutableChangeRecordList(&changelist);
   return true;
 }

 }  // namespace syncer
	// Copyright 2012 The Chromium 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 "sync/internal_api/change_reorder_buffer.h"

	#include <limits>
	#include <queue>
	#include <set>
	#include <utility> // for pair<>

	#include "sync/internal_api/public/base_node.h"
	#include "sync/internal_api/public/base_transaction.h"
	#include "sync/syncable/entry.h"
	#include "sync/syncable/syncable_base_transaction.h"

	using std::numeric_limits;
	using std::pair;
	using std::queue;
	using std::set;

	namespace syncer {

	// Traversal provides a way to collect a set of nodes from the syncable
	// directory structure and then traverse them, along with any intermediate
	// nodes, in a top-down fashion, starting from a single common ancestor. A
	// Traversal starts out empty and is grown by means of the ExpandToInclude
	// method. Once constructed, the top(), begin_children(), and end_children()
	// methods can be used to explore the nodes in root-to-leaf order.
	class ChangeReorderBuffer::Traversal {
	public:
	typedef pair<int64, int64> ParentChildLink;
	typedef set<ParentChildLink> LinkSet;

	Traversal() : top_(kInvalidId) { }

	// Expand the traversal so that it includes the node indicated by
	// \|child_handle\|.
	void ExpandToInclude(syncable::BaseTransaction* trans,
	int64 child_handle) {
	// If \|top_\| is invalid, this is the first insertion -- easy.
	if (top_ == kInvalidId) {
	top_ = child_handle;
	return;
	}

	int64 node_to_include = child_handle;
	while (node_to_include != kInvalidId && node_to_include != top_) {
	int64 node_parent = 0;

	syncable::Entry node(trans, syncable::GET_BY_HANDLE, node_to_include);
	CHECK(node.good());
	if (node.Get(syncable::ID).IsRoot()) {
	// If we've hit the root, and the root isn't already in the tree
	// (it would have to be \|top_\| if it were), start a new expansion
	// upwards from \|top_\| to unite the original traversal with the
	// path we just added that goes from \|child_handle\| to the root.
	node_to_include = top_;
	top_ = node.Get(syncable::META_HANDLE);
	} else {
	// Otherwise, get the parent ID so that we can add a ParentChildLink.
	syncable::Entry parent(trans, syncable::GET_BY_ID,
	node.Get(syncable::PARENT_ID));
	CHECK(parent.good());
	node_parent = parent.Get(syncable::META_HANDLE);

	ParentChildLink link(node_parent, node_to_include);

	// If the link exists in the LinkSet \|links_\|, we don't need to search
	// any higher; we are done.
	if (links_.find(link) != links_.end())
	return;

	// Otherwise, extend \|links_\|, and repeat on the parent.
	links_.insert(link);
	node_to_include = node_parent;
	}
	}
	}

	// Return the top node of the traversal. Use this as a starting point
	// for walking the tree.
	int64 top() const { return top_; }

	// Return an iterator corresponding to the first child (in the traversal)
	// of the node specified by \|parent_id\|. Iterate this return value until
	// it is equal to the value returned by end_children(parent_id). The
	// enumeration thus provided is unordered.
	LinkSet::const_iterator begin_children(int64 parent_id) const {
	return links_.upper_bound(
	ParentChildLink(parent_id, numeric_limits<int64>::min()));
	}

	// Return an iterator corresponding to the last child in the traversal
	// of the node specified by \|parent_id\|.
	LinkSet::const_iterator end_children(int64 parent_id) const {
	return begin_children(parent_id + 1);
	}

	private:
	// The topmost point in the directory hierarchy that is in the traversal,
	// and thus the first node to be traversed. If the traversal is empty,
	// this is kInvalidId. If the traversal contains exactly one member, \|top_\|
	// will be the solitary member, and \|links_\| will be empty.
	int64 top_;
	// A set of single-level links that compose the traversal below \|top_\|. The
	// (parent, child) ordering of values enables efficient lookup of children
	// given the parent handle, which is used for top-down traversal. \|links_\|
	// is expected to be connected -- every node that appears as a parent in a
	// link must either appear as a child of another link, or else be the
	// topmost node, \|top_\|.
	LinkSet links_;

	DISALLOW_COPY_AND_ASSIGN(Traversal);
	};

	ChangeReorderBuffer::ChangeReorderBuffer() {
	}

	ChangeReorderBuffer::~ChangeReorderBuffer() {
	}

	void ChangeReorderBuffer::PushAddedItem(int64 id) {
	operations_[id] = ChangeRecord::ACTION_ADD;
	}

	void ChangeReorderBuffer::PushDeletedItem(int64 id) {
	operations_[id] = ChangeRecord::ACTION_DELETE;
	}

	void ChangeReorderBuffer::PushUpdatedItem(int64 id) {
	operations_[id] = ChangeRecord::ACTION_UPDATE;
	}

	void ChangeReorderBuffer::SetExtraDataForId(
	int64 id,
	ExtraPasswordChangeRecordData* extra) {
	extra_data_[id] = make_linked_ptr<ExtraPasswordChangeRecordData>(extra);
	}

	void ChangeReorderBuffer::SetSpecificsForId(
	int64 id,
	const sync_pb::EntitySpecifics& specifics) {
	specifics_[id] = specifics;
	}

	void ChangeReorderBuffer::Clear() {
	operations_.clear();
	}

	bool ChangeReorderBuffer::IsEmpty() const {
	return operations_.empty();
	}

	bool ChangeReorderBuffer::GetAllChangesInTreeOrder(
	const BaseTransaction* sync_trans,
	ImmutableChangeRecordList* changes) {
	syncable::BaseTransaction* trans = sync_trans->GetWrappedTrans();

	// Step 1: Iterate through the operations, doing three things:
	// (a) Push deleted items straight into the \|changelist\|.
	// (b) Construct a traversal spanning all non-deleted items.
	// (c) Construct a set of all parent nodes of any position changes.
	Traversal traversal;

	ChangeRecordList changelist;

	OperationMap::const_iterator i;
	for (i = operations_.begin(); i != operations_.end(); ++i) {
	if (i->second == ChangeRecord::ACTION_DELETE) {
	ChangeRecord record;
	record.id = i->first;
	record.action = i->second;
	if (specifics_.find(record.id) != specifics_.end())
	record.specifics = specifics_[record.id];
	if (extra_data_.find(record.id) != extra_data_.end())
	record.extra = extra_data_[record.id];
	changelist.push_back(record);
	} else {
	traversal.ExpandToInclude(trans, i->first);
	}
	}

	// Step 2: Breadth-first expansion of the traversal.
	queue<int64> to_visit;
	to_visit.push(traversal.top());
	while (!to_visit.empty()) {
	int64 next = to_visit.front();
	to_visit.pop();

	// If the node has an associated action, output a change record.
	i = operations_.find(next);
	if (i != operations_.end()) {
	ChangeRecord record;
	record.id = next;
	record.action = i->second;
	if (specifics_.find(record.id) != specifics_.end())
	record.specifics = specifics_[record.id];
	if (extra_data_.find(record.id) != extra_data_.end())
	record.extra = extra_data_[record.id];
	changelist.push_back(record);
	}

	// Now add the children of \|next\| to \|to_visit\|.
	Traversal::LinkSet::const_iterator j = traversal.begin_children(next);
	Traversal::LinkSet::const_iterator end = traversal.end_children(next);
	for (; j != end; ++j) {
	CHECK(j->first == next);
	to_visit.push(j->second);
	}
	}

	*changes = ImmutableChangeRecordList(&changelist);
	return true;
	}

	} // namespace syncer