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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* This file is part of the LibreOffice project.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*
* This file incorporates work covered by the following license notice:
*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed
* with this work for additional information regarding copyright
* ownership. The ASF licenses this file to you under the Apache
* License, Version 2.0 (the "License"); you may not use this file
* except in compliance with the License. You may obtain a copy of
* the License at http://www.apache.org/licenses/LICENSE-2.0 .
*/
#include <sal/config.h>
#include <memory>
#include "stortree.hxx"
#include <sal/types.h>
#include <sal/log.hxx>
#include <osl/diagnose.h>
#include <store/types.h>
#include "storbase.hxx"
#include "storbios.hxx"
using namespace store;
/*========================================================================
*
* OStoreBTreeNodeData implementation.
*
*======================================================================*/
/*
* OStoreBTreeNodeData.
*/
OStoreBTreeNodeData::OStoreBTreeNodeData (sal_uInt16 nPageSize)
: PageData (nPageSize)
{
base::m_aGuard.m_nMagic = store::htonl(self::theTypeId);
base::m_aDescr.m_nUsed = store::htons(self::thePageSize); // usageCount(0)
self::m_aGuard.m_nMagic = store::htonl(0); // depth(0)
sal_uInt16 const n = capacityCount();
T const t;
for (sal_uInt16 i = 1; i < n; i++)
{
// cppcheck-suppress arrayIndexOutOfBounds
m_pData[i] = t;
}
}
/*
* find.
*/
sal_uInt16 OStoreBTreeNodeData::find (const T& t) const
{
sal_Int32 l = 0;
sal_Int32 r = usageCount() - 1;
while (l < r)
{
sal_Int32 const m = ((l + r) >> 1);
if (t.m_aKey == m_pData[m].m_aKey)
return (sal_uInt16)m;
if (t.m_aKey < m_pData[m].m_aKey)
r = m - 1;
else
l = m + 1;
}
sal_uInt16 const k = (sal_uInt16)r;
if ((k < capacityCount()) && (t.m_aKey < m_pData[k].m_aKey))
return k - 1;
else
return k;
}
/*
* insert.
*/
void OStoreBTreeNodeData::insert (sal_uInt16 i, const T& t)
{
sal_uInt16 const n = usageCount();
sal_uInt16 const m = capacityCount();
if ((n < m) && (i < m))
{
// shift right.
memmove (&(m_pData[i + 1]), &(m_pData[i]), (n - i) * sizeof(T));
// insert.
m_pData[i] = t;
usageCount (n + 1);
}
}
/*
* remove.
*/
void OStoreBTreeNodeData::remove (sal_uInt16 i)
{
sal_uInt16 const n = usageCount();
if (i < n)
{
// shift left.
memmove (&(m_pData[i]), &(m_pData[i + 1]), (n - i - 1) * sizeof(T));
// truncate.
m_pData[n - 1] = T();
usageCount (n - 1);
}
}
/*
* split (left half copied from right half of left page).
*/
void OStoreBTreeNodeData::split (const self& rPageL)
{
sal_uInt16 const h = capacityCount() / 2;
memcpy (&(m_pData[0]), &(rPageL.m_pData[h]), h * sizeof(T));
truncate (h);
}
/*
* truncate.
*/
void OStoreBTreeNodeData::truncate (sal_uInt16 n)
{
sal_uInt16 const m = capacityCount();
T const t;
for (sal_uInt16 i = n; i < m; i++)
m_pData[i] = t;
usageCount (n);
}
/*========================================================================
*
* OStoreBTreeNodeObject implementation.
*
*======================================================================*/
/*
* guard.
*/
storeError OStoreBTreeNodeObject::guard (sal_uInt32 nAddr)
{
return PageHolderObject< page >::guard (m_xPage, nAddr);
}
/*
* verify.
*/
storeError OStoreBTreeNodeObject::verify (sal_uInt32 nAddr) const
{
return PageHolderObject< page >::verify (m_xPage, nAddr);
}
/*
* split.
*/
storeError OStoreBTreeNodeObject::split (
sal_uInt16 nIndexL,
PageHolderObject< page > & rxPageL,
OStorePageBIOS & rBIOS)
{
PageHolderObject< page > xPage (m_xPage);
if (!xPage.is())
return store_E_InvalidAccess;
// Check left page usage.
if (!rxPageL.is())
return store_E_InvalidAccess;
if (!rxPageL->querySplit())
return store_E_None;
// Construct right page.
PageHolderObject< page > xPageR;
if (!xPageR.construct (rBIOS.allocator()))
return store_E_OutOfMemory;
// Split right page off left page.
xPageR->split (*rxPageL);
xPageR->depth (rxPageL->depth());
// Allocate right page.
self aNodeR (xPageR.get());
storeError eErrCode = rBIOS.allocate (aNodeR);
if (eErrCode != store_E_None)
return eErrCode;
// Truncate left page.
rxPageL->truncate (rxPageL->capacityCount() / 2);
// Save left page.
self aNodeL (rxPageL.get());
eErrCode = rBIOS.saveObjectAt (aNodeL, aNodeL.location());
if (eErrCode != store_E_None)
return eErrCode;
// Insert right page.
OStorePageLink aLink (xPageR->location());
xPage->insert (nIndexL + 1, T(xPageR->m_pData[0].m_aKey, aLink));
// Save this page and leave.
return rBIOS.saveObjectAt (*this, location());
}
/*
* remove (down to leaf node, recursive).
*/
storeError OStoreBTreeNodeObject::remove (
sal_uInt16 nIndexL,
OStoreBTreeEntry & rEntryL,
OStorePageBIOS & rBIOS)
{
PageHolderObject< page > xImpl (m_xPage);
page & rPage = (*xImpl);
// Check depth.
storeError eErrCode = store_E_None;
if (rPage.depth())
{
// Check link entry.
T const aEntryL (rPage.m_pData[nIndexL]);
if (rEntryL.compare (aEntryL) != T::COMPARE_EQUAL)
return store_E_InvalidAccess;
// Load link node.
self aNodeL;
eErrCode = rBIOS.loadObjectAt (aNodeL, aEntryL.m_aLink.location());
if (eErrCode != store_E_None)
return eErrCode;
// Recurse: remove from link node.
eErrCode = aNodeL.remove (0, rEntryL, rBIOS);
if (eErrCode != store_E_None)
return eErrCode;
// Check resulting link node usage.
PageHolderObject< page > xPageL (aNodeL.get());
if (xPageL->usageCount() == 0)
{
// Free empty link node.
eErrCode = rBIOS.free (xPageL->location());
if (eErrCode != store_E_None)
return eErrCode;
// Remove index.
rPage.remove (nIndexL);
touch();
}
else
{
// Relink.
rPage.m_pData[nIndexL].m_aKey = xPageL->m_pData[0].m_aKey;
touch();
}
}
else
{
// Check leaf entry.
if (rEntryL.compare (rPage.m_pData[nIndexL]) != T::COMPARE_EQUAL)
return store_E_NotExists;
// Save leaf entry.
rEntryL = rPage.m_pData[nIndexL];
// Remove leaf index.
rPage.remove (nIndexL);
touch();
}
// Check for modified node.
if (dirty())
{
// Save this page.
eErrCode = rBIOS.saveObjectAt (*this, location());
}
// Done.
return eErrCode;
}
/*========================================================================
*
* OStoreBTreeRootObject implementation.
*
*======================================================================*/
/*
* testInvariant.
* Precond: root node page loaded.
*/
void OStoreBTreeRootObject::testInvariant (char const * message) const
{
OSL_PRECOND(m_xPage.get() != nullptr, "OStoreBTreeRootObject::testInvariant(): Null pointer");
SAL_WARN_IF( (m_xPage->location() - m_xPage->size()) != 0, "store", message);
}
/*
* loadOrCreate.
*/
storeError OStoreBTreeRootObject::loadOrCreate (
sal_uInt32 nAddr,
OStorePageBIOS & rBIOS)
{
storeError eErrCode = rBIOS.loadObjectAt (*this, nAddr);
if (eErrCode != store_E_NotExists)
return eErrCode;
eErrCode = construct<page>(rBIOS.allocator());
if (eErrCode != store_E_None)
return eErrCode;
eErrCode = rBIOS.allocate (*this);
if (eErrCode != store_E_None)
return eErrCode;
// Notify caller of the creation.
testInvariant("OStoreBTreeRootObject::loadOrCreate(): leave");
return store_E_Pending;
}
/*
* change.
*/
storeError OStoreBTreeRootObject::change (
PageHolderObject< page > & rxPageL,
OStorePageBIOS & rBIOS)
{
PageHolderObject< page > xPage (m_xPage);
testInvariant("OStoreBTreeRootObject::change(): enter");
// Save root location.
sal_uInt32 const nRootAddr = xPage->location();
// Construct new root.
if (!rxPageL.construct (rBIOS.allocator()))
return store_E_OutOfMemory;
// Save this as prev root.
storeError eErrCode = rBIOS.allocate (*this);
if (eErrCode != store_E_None)
return store_E_OutOfMemory;
// Setup new root.
rxPageL->depth (xPage->depth() + 1);
rxPageL->m_pData[0] = xPage->m_pData[0];
rxPageL->m_pData[0].m_aLink = xPage->location();
rxPageL->usageCount(1);
// Change root.
rxPageL.swap (xPage);
{
std::shared_ptr<PageData> tmp (xPage.get());
tmp.swap (m_xPage);
}
// Save this as new root and finish.
eErrCode = rBIOS.saveObjectAt (*this, nRootAddr);
testInvariant("OStoreBTreeRootObject::change(): leave");
return eErrCode;
}
/*
* find_lookup (w/o split()).
* Precond: root node page loaded.
*/
storeError OStoreBTreeRootObject::find_lookup (
OStoreBTreeNodeObject & rNode, // [out]
sal_uInt16 & rIndex, // [out]
OStorePageKey const & rKey,
OStorePageBIOS & rBIOS) const
{
// Init node w/ root page.
testInvariant("OStoreBTreeRootObject::find_lookup(): enter");
{
std::shared_ptr<PageData> tmp (m_xPage);
tmp.swap (rNode.get());
}
// Setup BTree entry.
T const entry (rKey);
// Check current page.
PageHolderObject< page > xPage (rNode.get());
for (; xPage->depth() > 0; xPage = rNode.makeHolder< page >())
{
// Find next page.
page const & rPage = (*xPage);
sal_uInt16 const i = rPage.find(entry);
sal_uInt16 const n = rPage.usageCount();
if (i >= n)
{
// Path to entry not exists (Must not happen(?)).
return store_E_NotExists;
}
// Check address.
sal_uInt32 const nAddr = rPage.m_pData[i].m_aLink.location();
if (nAddr == STORE_PAGE_NULL)
{
// Path to entry not exists (Must not happen(?)).
return store_E_NotExists;
}
// Load next page.
storeError eErrCode = rBIOS.loadObjectAt (rNode, nAddr);
if (eErrCode != store_E_None)
return eErrCode;
}
// Find index.
page const & rPage = (*xPage);
rIndex = rPage.find(entry);
if (rIndex >= rPage.usageCount())
return store_E_NotExists;
// Compare entry.
T::CompareResult eResult = entry.compare(rPage.m_pData[rIndex]);
if (eResult == T::COMPARE_LESS)
{
SAL_WARN("store", "store::BTreeRoot::find_lookup(): sort error");
return store_E_Unknown;
}
// Greater or Equal.
testInvariant("OStoreBTreeRootObject::find_lookup(): leave");
return store_E_None;
}
/*
* find_insert (possibly with split()).
* Precond: root node page loaded.
*/
storeError OStoreBTreeRootObject::find_insert (
OStoreBTreeNodeObject & rNode, // [out]
sal_uInt16 & rIndex, // [out]
OStorePageKey const & rKey,
OStorePageBIOS & rBIOS)
{
testInvariant("OStoreBTreeRootObject::find_insert(): enter");
// Check for RootNode split.
PageHolderObject< page > xRoot (m_xPage);
if (xRoot->querySplit())
{
PageHolderObject< page > xPageL;
// Change root.
storeError eErrCode = change (xPageL, rBIOS);
if (eErrCode != store_E_None)
return eErrCode;
// Split left page (prev root).
eErrCode = split (0, xPageL, rBIOS);
if (eErrCode != store_E_None)
return eErrCode;
}
// Init node w/ root page.
{
std::shared_ptr<PageData> tmp (m_xPage);
tmp.swap (rNode.get());
}
// Setup BTree entry.
T const entry (rKey);
// Check current Page.
PageHolderObject< page > xPage (rNode.get());
for (; xPage->depth() > 0; xPage = rNode.makeHolder< page >())
{
// Find next page.
page const & rPage = (*xPage);
sal_uInt16 const i = rPage.find (entry);
sal_uInt16 const n = rPage.usageCount();
if (i >= n)
{
// Path to entry not exists (Must not happen(?)).
return store_E_NotExists;
}
// Check address.
sal_uInt32 const nAddr = rPage.m_pData[i].m_aLink.location();
if (nAddr == STORE_PAGE_NULL)
{
// Path to entry not exists (Must not happen(?)).
return store_E_NotExists;
}
// Load next page.
OStoreBTreeNodeObject aNext;
storeError eErrCode = rBIOS.loadObjectAt (aNext, nAddr);
if (eErrCode != store_E_None)
return eErrCode;
// Check for next node split.
PageHolderObject< page > xNext (aNext.get());
if (xNext->querySplit())
{
// Split next node.
eErrCode = rNode.split (i, xNext, rBIOS);
if (eErrCode != store_E_None)
return eErrCode;
// Restart.
continue;
}
// Let next page be current.
std::shared_ptr<PageData> tmp (aNext.get());
tmp.swap (rNode.get());
}
// Find index.
page const & rPage = (*xPage);
rIndex = rPage.find(entry);
if (rIndex < rPage.usageCount())
{
// Compare entry.
T::CompareResult result = entry.compare (rPage.m_pData[rIndex]);
if (result == T::COMPARE_LESS)
{
SAL_WARN("store", "store::BTreeRoot::find_insert(): sort error");
return store_E_Unknown;
}
if (result == T::COMPARE_EQUAL)
return store_E_AlreadyExists;
}
// Greater or not (yet) existing.
testInvariant("OStoreBTreeRootObject::find_insert(): leave");
return store_E_None;
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
|