Exemplo n.º 1
0
        public byte *Execute()
        {
            Page rightPage = Tree.NewPage(_tx, _page.Flags, 1);

            _treeState.RecordNewPage(_page, 1);
            rightPage.Flags = _page.Flags;
            if (_cursor.PageCount == 0) // we need to do a root split
            {
                Page newRootPage = Tree.NewPage(_tx, PageFlags.Branch, 1);
                _cursor.Push(newRootPage);
                _treeState.RootPageNumber = newRootPage.PageNumber;
                _treeState.Depth++;
                _treeState.RecordNewPage(newRootPage, 1);

                // now add implicit left page
                newRootPage.AddPageRefNode(0, Slice.BeforeAllKeys, _page.PageNumber);
                _parentPage = newRootPage;
                _parentPage.LastSearchPosition++;
            }
            else
            {
                // we already popped the page, so the current one on the stack is the parent of the page

                if (_tree.Name == Constants.FreeSpaceTreeName)
                {
                    // a special case for FreeSpaceTree because the allocation of a new page called above
                    // can cause a delete of a free space section resulting in a run of the tree rebalancer
                    // and here the parent page that exists in cursor can be outdated

                    _parentPage = _tx.ModifyPage(_cursor.CurrentPage.PageNumber, null);                     // pass _null_ to make sure we'll get the most updated parent page
                    _parentPage.LastSearchPosition = _cursor.CurrentPage.LastSearchPosition;
                    _parentPage.LastMatch          = _cursor.CurrentPage.LastMatch;
                }
                else
                {
                    _parentPage = _tx.ModifyPage(_cursor.CurrentPage.PageNumber, _cursor.CurrentPage);
                }

                _cursor.Update(_cursor.Pages.First, _parentPage);
            }

            if (_page.IsLeaf)
            {
                _tx.ClearRecentFoundPages(_tree);
            }

            if (_tree.Name == Constants.FreeSpaceTreeName)
            {
                // we need to refresh the LastSearchPosition of the split page which is used by the free space handling
                // because the allocation of a new page called above could remove some sections
                // from the page that is being split

                _page.NodePositionFor(_newKey);
            }

            if (_page.LastSearchPosition >= _page.NumberOfEntries)
            {
                // when we get a split at the end of the page, we take that as a hint that the user is doing
                // sequential inserts, at that point, we are going to keep the current page as is and create a new
                // page, this will allow us to do minimal amount of work to get the best density

                byte *pos;
                if (_page.IsBranch)
                {
                    // here we steal the last entry from the current page so we maintain the implicit null left entry
                    NodeHeader *node = _page.GetNode(_page.NumberOfEntries - 1);
                    Debug.Assert(node->Flags == NodeFlags.PageRef);
                    rightPage.AddPageRefNode(0, Slice.Empty, node->PageNumber);
                    pos = AddNodeToPage(rightPage, 1);

                    AddSeparatorToParentPage(rightPage, new Slice(node));

                    _page.RemoveNode(_page.NumberOfEntries - 1);
                }
                else
                {
                    AddSeparatorToParentPage(rightPage, _newKey);
                    pos = AddNodeToPage(rightPage, 0);
                }
                _cursor.Push(rightPage);
                return(pos);
            }

            return(SplitPageInHalf(rightPage));
        }
Exemplo n.º 2
0
        public byte *Execute()
        {
            Page rightPage = Tree.NewPage(_tx, _page.Flags, 1);

            _treeState.RecordNewPage(_page, 1);
            rightPage.Flags = _page.Flags;
            if (_cursor.PageCount == 0) // we need to do a root split
            {
                Page newRootPage = Tree.NewPage(_tx, PageFlags.Branch, 1);
                _cursor.Push(newRootPage);
                _treeState.RootPageNumber = newRootPage.PageNumber;
                _treeState.Depth++;
                _treeState.RecordNewPage(newRootPage, 1);

                // now add implicit left page
                newRootPage.AddPageRefNode(0, Slice.BeforeAllKeys, _page.PageNumber);
                _parentPage = newRootPage;
                _parentPage.LastSearchPosition++;
            }
            else
            {
                // we already popped the page, so the current one on the stack is what the parent of the page
                _parentPage = _tx.ModifyPage(_cursor.CurrentPage.PageNumber, _cursor.CurrentPage);
                _cursor.Update(_cursor.Pages.First, _parentPage);
            }

            if (_page.IsLeaf)
            {
                _tx.ClearRecentFoundPages(_tree);
            }

            if (_page.LastSearchPosition >= _page.NumberOfEntries)
            {
                // when we get a split at the end of the page, we take that as a hint that the user is doing
                // sequential inserts, at that point, we are going to keep the current page as is and create a new
                // page, this will allow us to do minimal amount of work to get the best density

                byte *pos;
                if (_page.IsBranch)
                {
                    // here we steal the last entry from the current page so we maintain the implicit null left entry
                    NodeHeader *node = _page.GetNode(_page.NumberOfEntries - 1);
                    Debug.Assert(node->Flags == NodeFlags.PageRef);
                    rightPage.AddPageRefNode(0, Slice.Empty, node->PageNumber);
                    pos = AddNodeToPage(rightPage, 1);

                    AddSeparatorToParentPage(rightPage, new Slice(node));

                    _page.RemoveNode(_page.NumberOfEntries - 1);
                }
                else
                {
                    AddSeparatorToParentPage(rightPage, _newKey);
                    pos = AddNodeToPage(rightPage, 0);
                }
                _cursor.Push(rightPage);
                return(pos);
            }

            return(SplitPageInHalf(rightPage));
        }