gecko-dev/toolkit/components/places/nsNavHistoryResult.cpp

4744 lines
158 KiB
C++

//* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* 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/. */
#include <stdio.h>
#include "nsNavHistory.h"
#include "nsNavBookmarks.h"
#include "nsFaviconService.h"
#include "nsITaggingService.h"
#include "nsAnnotationService.h"
#include "Helpers.h"
#include "mozilla/DebugOnly.h"
#include "nsDebug.h"
#include "nsNetUtil.h"
#include "nsString.h"
#include "nsReadableUtils.h"
#include "nsUnicharUtils.h"
#include "prtime.h"
#include "prprf.h"
#include "nsCycleCollectionParticipant.h"
// Thanks, Windows.h :(
#undef CompareString
#define TO_ICONTAINER(_node) \
static_cast<nsINavHistoryContainerResultNode*>(_node)
#define TO_CONTAINER(_node) \
static_cast<nsNavHistoryContainerResultNode*>(_node)
#define NOTIFY_RESULT_OBSERVERS_RET(_result, _method, _ret) \
PR_BEGIN_MACRO \
NS_ENSURE_TRUE(_result, _ret); \
if (!_result->mSuppressNotifications) { \
ENUMERATE_WEAKARRAY(_result->mObservers, nsINavHistoryResultObserver, \
_method) \
} \
PR_END_MACRO
#define NOTIFY_RESULT_OBSERVERS(_result, _method) \
NOTIFY_RESULT_OBSERVERS_RET(_result, _method, NS_ERROR_UNEXPECTED)
// What we want is: NS_INTERFACE_MAP_ENTRY(self) for static IID accessors,
// but some of our classes (like nsNavHistoryResult) have an ambiguous base
// class of nsISupports which prevents this from working (the default macro
// converts it to nsISupports, then addrefs it, then returns it). Therefore, we
// expand the macro here and change it so that it works. Yuck.
#define NS_INTERFACE_MAP_STATIC_AMBIGUOUS(_class) \
if (aIID.Equals(NS_GET_IID(_class))) { \
NS_ADDREF(this); \
*aInstancePtr = this; \
return NS_OK; \
} else
// Number of changes to handle separately in a batch. If more changes are
// requested the node will switch to full refresh mode.
#define MAX_BATCH_CHANGES_BEFORE_REFRESH 5
// Emulate string comparison (used for sorting) for PRTime and int.
inline int32_t ComparePRTime(PRTime a, PRTime b)
{
if (a < b)
return -1;
else if (a > b)
return 1;
return 0;
}
inline int32_t CompareIntegers(uint32_t a, uint32_t b)
{
return a - b;
}
using namespace mozilla;
using namespace mozilla::places;
NS_IMPL_CYCLE_COLLECTION(nsNavHistoryResultNode, mParent)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsNavHistoryResultNode)
NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsINavHistoryResultNode)
NS_INTERFACE_MAP_ENTRY(nsINavHistoryResultNode)
NS_INTERFACE_MAP_END
NS_IMPL_CYCLE_COLLECTING_ADDREF(nsNavHistoryResultNode)
NS_IMPL_CYCLE_COLLECTING_RELEASE(nsNavHistoryResultNode)
nsNavHistoryResultNode::nsNavHistoryResultNode(
const nsACString& aURI, const nsACString& aTitle, uint32_t aAccessCount,
PRTime aTime, const nsACString& aIconURI) :
mParent(nullptr),
mURI(aURI),
mTitle(aTitle),
mAreTagsSorted(false),
mAccessCount(aAccessCount),
mTime(aTime),
mFaviconURI(aIconURI),
mBookmarkIndex(-1),
mItemId(-1),
mFolderId(-1),
mDateAdded(0),
mLastModified(0),
mIndentLevel(-1),
mFrecency(0),
mHidden(false),
mTransitionType(0)
{
mTags.SetIsVoid(true);
}
NS_IMETHODIMP
nsNavHistoryResultNode::GetIcon(nsACString& aIcon)
{
if (mFaviconURI.IsEmpty()) {
aIcon.Truncate();
return NS_OK;
}
nsFaviconService* faviconService = nsFaviconService::GetFaviconService();
NS_ENSURE_TRUE(faviconService, NS_ERROR_OUT_OF_MEMORY);
faviconService->GetFaviconSpecForIconString(mFaviconURI, aIcon);
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResultNode::GetParent(nsINavHistoryContainerResultNode** aParent)
{
NS_IF_ADDREF(*aParent = mParent);
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResultNode::GetParentResult(nsINavHistoryResult** aResult)
{
*aResult = nullptr;
if (IsContainer())
NS_IF_ADDREF(*aResult = GetAsContainer()->mResult);
else if (mParent)
NS_IF_ADDREF(*aResult = mParent->mResult);
NS_ENSURE_STATE(*aResult);
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResultNode::GetTags(nsAString& aTags) {
// Only URI-nodes may be associated with tags
if (!IsURI()) {
aTags.Truncate();
return NS_OK;
}
// Initially, the tags string is set to a void string (see constructor). We
// then build it the first time this method called is called (and by that,
// implicitly unset the void flag). Result observers may re-set the void flag
// in order to force rebuilding of the tags string.
if (!mTags.IsVoid()) {
// If mTags is assigned by a history query it is unsorted for performance
// reasons, it must be sorted by name on first read access.
if (!mAreTagsSorted) {
nsTArray<nsCString> tags;
ParseString(NS_ConvertUTF16toUTF8(mTags), ',', tags);
tags.Sort();
mTags.SetIsVoid(true);
for (nsTArray<nsCString>::index_type i = 0; i < tags.Length(); ++i) {
AppendUTF8toUTF16(tags[i], mTags);
if (i < tags.Length() - 1 )
mTags.AppendLiteral(", ");
}
mAreTagsSorted = true;
}
aTags.Assign(mTags);
return NS_OK;
}
// Fetch the tags
nsRefPtr<Database> DB = Database::GetDatabase();
NS_ENSURE_STATE(DB);
nsCOMPtr<mozIStorageStatement> stmt = DB->GetStatement(
"/* do not warn (bug 487594) */ "
"SELECT GROUP_CONCAT(tag_title, ', ') "
"FROM ( "
"SELECT t.title AS tag_title "
"FROM moz_bookmarks b "
"JOIN moz_bookmarks t ON t.id = +b.parent "
"WHERE b.fk = (SELECT id FROM moz_places WHERE url = :page_url) "
"AND t.parent = :tags_folder "
"ORDER BY t.title COLLATE NOCASE ASC "
") "
);
NS_ENSURE_STATE(stmt);
mozStorageStatementScoper scoper(stmt);
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_STATE(history);
nsresult rv = stmt->BindInt64ByName(NS_LITERAL_CSTRING("tags_folder"),
history->GetTagsFolder());
NS_ENSURE_SUCCESS(rv, rv);
rv = URIBinder::Bind(stmt, NS_LITERAL_CSTRING("page_url"), mURI);
NS_ENSURE_SUCCESS(rv, rv);
bool hasTags = false;
if (NS_SUCCEEDED(stmt->ExecuteStep(&hasTags)) && hasTags) {
rv = stmt->GetString(0, mTags);
NS_ENSURE_SUCCESS(rv, rv);
aTags.Assign(mTags);
mAreTagsSorted = true;
}
// If this node is a child of a history query, we need to make sure changes
// to tags are properly live-updated.
if (mParent && mParent->IsQuery() &&
mParent->mOptions->QueryType() == nsINavHistoryQueryOptions::QUERY_TYPE_HISTORY) {
nsNavHistoryQueryResultNode* query = mParent->GetAsQuery();
nsNavHistoryResult* result = query->GetResult();
NS_ENSURE_STATE(result);
result->AddAllBookmarksObserver(query);
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResultNode::GetPageGuid(nsACString& aPageGuid) {
aPageGuid = mPageGuid;
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResultNode::GetBookmarkGuid(nsACString& aBookmarkGuid) {
aBookmarkGuid = mBookmarkGuid;
return NS_OK;
}
void
nsNavHistoryResultNode::OnRemoving()
{
mParent = nullptr;
}
/**
* This will find the result for this node. We can ask the nearest container
* for this value (either ourselves or our parents should be a container,
* and all containers have result pointers).
*
* @note The result may be null, if the container is detached from the result
* who owns it.
*/
nsNavHistoryResult*
nsNavHistoryResultNode::GetResult()
{
nsNavHistoryResultNode* node = this;
do {
if (node->IsContainer()) {
nsNavHistoryContainerResultNode* container = TO_CONTAINER(node);
return container->mResult;
}
node = node->mParent;
} while (node);
MOZ_ASSERT(false, "No container node found in hierarchy!");
return nullptr;
}
/**
* Searches up the tree for the closest ancestor node that has an options
* structure. This will tell us the options that were used to generate this
* node.
*
* Be careful, this function walks up the tree, so it can not be used when
* result nodes are created because they have no parent. Only call this
* function after the tree has been built.
*/
nsNavHistoryQueryOptions*
nsNavHistoryResultNode::GetGeneratingOptions()
{
if (!mParent) {
// When we have no parent, it either means we haven't built the tree yet,
// in which case calling this function is a bug, or this node is the root
// of the tree. When we are the root of the tree, our own options are the
// generating options.
if (IsContainer())
return GetAsContainer()->mOptions;
NS_NOTREACHED("Can't find a generating node for this container, perhaps FillStats has not been called on this tree yet?");
return nullptr;
}
// Look up the tree. We want the options that were used to create this node,
// and since it has a parent, it's the options of an ancestor, not of the node
// itself. So start at the parent.
nsNavHistoryContainerResultNode* cur = mParent;
while (cur) {
if (cur->IsContainer())
return cur->GetAsContainer()->mOptions;
cur = cur->mParent;
}
// We should always find a container node as an ancestor.
NS_NOTREACHED("Can't find a generating node for this container, the tree seemes corrupted.");
return nullptr;
}
NS_IMPL_CYCLE_COLLECTION_INHERITED(nsNavHistoryContainerResultNode, nsNavHistoryResultNode,
mResult,
mChildren)
NS_IMPL_ADDREF_INHERITED(nsNavHistoryContainerResultNode, nsNavHistoryResultNode)
NS_IMPL_RELEASE_INHERITED(nsNavHistoryContainerResultNode, nsNavHistoryResultNode)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION_INHERITED(nsNavHistoryContainerResultNode)
NS_INTERFACE_MAP_STATIC_AMBIGUOUS(nsNavHistoryContainerResultNode)
NS_INTERFACE_MAP_ENTRY(nsINavHistoryContainerResultNode)
NS_INTERFACE_MAP_END_INHERITING(nsNavHistoryResultNode)
nsNavHistoryContainerResultNode::nsNavHistoryContainerResultNode(
const nsACString& aURI, const nsACString& aTitle,
const nsACString& aIconURI, uint32_t aContainerType, bool aReadOnly,
nsNavHistoryQueryOptions* aOptions) :
nsNavHistoryResultNode(aURI, aTitle, 0, 0, aIconURI),
mResult(nullptr),
mContainerType(aContainerType),
mExpanded(false),
mChildrenReadOnly(aReadOnly),
mOptions(aOptions),
mAsyncCanceledState(NOT_CANCELED)
{
}
nsNavHistoryContainerResultNode::nsNavHistoryContainerResultNode(
const nsACString& aURI, const nsACString& aTitle,
PRTime aTime,
const nsACString& aIconURI, uint32_t aContainerType, bool aReadOnly,
nsNavHistoryQueryOptions* aOptions) :
nsNavHistoryResultNode(aURI, aTitle, 0, aTime, aIconURI),
mResult(nullptr),
mContainerType(aContainerType),
mExpanded(false),
mChildrenReadOnly(aReadOnly),
mOptions(aOptions),
mAsyncCanceledState(NOT_CANCELED)
{
}
nsNavHistoryContainerResultNode::~nsNavHistoryContainerResultNode()
{
// Explicitly clean up array of children of this container. We must ensure
// all references are gone and all of their destructors are called.
mChildren.Clear();
}
/**
* Containers should notify their children that they are being removed when the
* container is being removed.
*/
void
nsNavHistoryContainerResultNode::OnRemoving()
{
nsNavHistoryResultNode::OnRemoving();
for (int32_t i = 0; i < mChildren.Count(); ++i)
mChildren[i]->OnRemoving();
mChildren.Clear();
mResult = nullptr;
}
bool
nsNavHistoryContainerResultNode::AreChildrenVisible()
{
nsNavHistoryResult* result = GetResult();
if (!result) {
NS_NOTREACHED("Invalid result");
return false;
}
if (!mExpanded)
return false;
// Now check if any ancestor is closed.
nsNavHistoryContainerResultNode* ancestor = mParent;
while (ancestor) {
if (!ancestor->mExpanded)
return false;
ancestor = ancestor->mParent;
}
return true;
}
NS_IMETHODIMP
nsNavHistoryContainerResultNode::GetContainerOpen(bool *aContainerOpen)
{
*aContainerOpen = mExpanded;
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryContainerResultNode::SetContainerOpen(bool aContainerOpen)
{
if (aContainerOpen) {
if (!mExpanded) {
nsNavHistoryQueryOptions* options = GetGeneratingOptions();
if (options && options->AsyncEnabled())
OpenContainerAsync();
else
OpenContainer();
}
}
else {
if (mExpanded)
CloseContainer();
else if (mAsyncPendingStmt)
CancelAsyncOpen(false);
}
return NS_OK;
}
/**
* Notifies the result's observers of a change in the container's state. The
* notification includes both the old and new states: The old is aOldState, and
* the new is the container's current state.
*
* @param aOldState
* The state being transitioned out of.
*/
nsresult
nsNavHistoryContainerResultNode::NotifyOnStateChange(uint16_t aOldState)
{
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
nsresult rv;
uint16_t currState;
rv = GetState(&currState);
NS_ENSURE_SUCCESS(rv, rv);
// Notify via the new ContainerStateChanged observer method.
NOTIFY_RESULT_OBSERVERS(result,
ContainerStateChanged(this, aOldState, currState));
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryContainerResultNode::GetState(uint16_t* _state)
{
NS_ENSURE_ARG_POINTER(_state);
*_state = mExpanded ? (uint16_t)STATE_OPENED
: mAsyncPendingStmt ? (uint16_t)STATE_LOADING
: (uint16_t)STATE_CLOSED;
return NS_OK;
}
/**
* This handles the generic container case. Other container types should
* override this to do their own handling.
*/
nsresult
nsNavHistoryContainerResultNode::OpenContainer()
{
NS_ASSERTION(!mExpanded, "Container must not be expanded to open it");
mExpanded = true;
nsresult rv = NotifyOnStateChange(STATE_CLOSED);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
/**
* Unset aSuppressNotifications to notify observers on this change. That is
* the normal operation. This is set to false for the recursive calls since the
* root container that is being closed will handle recomputation of the visible
* elements for its entire subtree.
*/
nsresult
nsNavHistoryContainerResultNode::CloseContainer(bool aSuppressNotifications)
{
NS_ASSERTION((mExpanded && !mAsyncPendingStmt) ||
(!mExpanded && mAsyncPendingStmt),
"Container must be expanded or loading to close it");
nsresult rv;
uint16_t oldState;
rv = GetState(&oldState);
NS_ENSURE_SUCCESS(rv, rv);
if (mExpanded) {
// Recursively close all child containers.
for (int32_t i = 0; i < mChildren.Count(); ++i) {
if (mChildren[i]->IsContainer() &&
mChildren[i]->GetAsContainer()->mExpanded)
mChildren[i]->GetAsContainer()->CloseContainer(true);
}
mExpanded = false;
}
// Be sure to set this to null before notifying observers. It signifies that
// the container is no longer loading (if it was in the first place).
mAsyncPendingStmt = nullptr;
if (!aSuppressNotifications) {
rv = NotifyOnStateChange(oldState);
NS_ENSURE_SUCCESS(rv, rv);
}
// If this is the root container of a result, we can tell the result to stop
// observing changes, otherwise the result will stay in memory and updates
// itself till it is cycle collected.
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
if (result->mRootNode == this) {
result->StopObserving();
// When reopening this node its result will be out of sync.
// We must clear our children to ensure we will call FillChildren
// again in such a case.
if (this->IsQuery())
this->GetAsQuery()->ClearChildren(true);
else if (this->IsFolder())
this->GetAsFolder()->ClearChildren(true);
}
return NS_OK;
}
/**
* The async version of OpenContainer.
*/
nsresult
nsNavHistoryContainerResultNode::OpenContainerAsync()
{
return NS_ERROR_NOT_IMPLEMENTED;
}
/**
* Cancels the pending asynchronous Storage execution triggered by
* FillChildrenAsync, if it exists. This method doesn't do much, because after
* cancelation Storage will call this node's HandleCompletion callback, where
* the real work is done.
*
* @param aRestart
* If true, async execution will be restarted by HandleCompletion.
*/
void
nsNavHistoryContainerResultNode::CancelAsyncOpen(bool aRestart)
{
NS_ASSERTION(mAsyncPendingStmt, "Async execution canceled but not pending");
mAsyncCanceledState = aRestart ? CANCELED_RESTART_NEEDED : CANCELED;
// Cancel will fail if the pending statement has already been canceled.
// That's OK since this method may be called multiple times, and multiple
// cancels don't harm anything.
(void)mAsyncPendingStmt->Cancel();
}
/**
* This builds up tree statistics from the bottom up. Call with a container
* and the indent level of that container. To init the full tree, call with
* the root container. The default indent level is -1, which is appropriate
* for the root level.
*
* CALL THIS AFTER FILLING ANY CONTAINER to update the parent and result node
* pointers, even if you don't care about visit counts and last visit dates.
*/
void
nsNavHistoryContainerResultNode::FillStats()
{
uint32_t accessCount = 0;
PRTime newTime = 0;
for (int32_t i = 0; i < mChildren.Count(); ++i) {
nsNavHistoryResultNode* node = mChildren[i];
node->mParent = this;
node->mIndentLevel = mIndentLevel + 1;
if (node->IsContainer()) {
nsNavHistoryContainerResultNode* container = node->GetAsContainer();
container->mResult = mResult;
container->FillStats();
}
accessCount += node->mAccessCount;
// this is how container nodes get sorted by date
// The container gets the most recent time of the child nodes.
if (node->mTime > newTime)
newTime = node->mTime;
}
if (mExpanded) {
mAccessCount = accessCount;
if (!IsQuery() || newTime > mTime)
mTime = newTime;
}
}
/**
* This is used when one container changes to do a minimal update of the tree
* structure. When something changes, you want to call FillStats if necessary
* and update this container completely. Then call this function which will
* walk up the tree and fill in the previous containers.
*
* Note that you have to tell us by how much our access count changed. Our
* access count should already be set to the new value; this is used tochange
* the parents without having to re-count all their children.
*
* This does NOT update the last visit date downward. Therefore, if you are
* deleting a node that has the most recent last visit date, the parents will
* not get their last visit dates downshifted accordingly. This is a rather
* unusual case: we don't often delete things, and we usually don't even show
* the last visit date for folders. Updating would be slower because we would
* have to recompute it from scratch.
*/
nsresult
nsNavHistoryContainerResultNode::ReverseUpdateStats(int32_t aAccessCountChange)
{
if (mParent) {
nsNavHistoryResult* result = GetResult();
bool shouldNotify = result && mParent->mParent &&
mParent->mParent->AreChildrenVisible();
mParent->mAccessCount += aAccessCountChange;
bool timeChanged = false;
if (mTime > mParent->mTime) {
timeChanged = true;
mParent->mTime = mTime;
}
if (shouldNotify) {
NOTIFY_RESULT_OBSERVERS(result,
NodeHistoryDetailsChanged(TO_ICONTAINER(mParent),
mParent->mTime,
mParent->mAccessCount));
}
// check sorting, the stats may have caused this node to move if the
// sorting depended on something we are changing.
uint16_t sortMode = mParent->GetSortType();
bool sortingByVisitCount =
sortMode == nsINavHistoryQueryOptions::SORT_BY_VISITCOUNT_ASCENDING ||
sortMode == nsINavHistoryQueryOptions::SORT_BY_VISITCOUNT_DESCENDING;
bool sortingByTime =
sortMode == nsINavHistoryQueryOptions::SORT_BY_DATE_ASCENDING ||
sortMode == nsINavHistoryQueryOptions::SORT_BY_DATE_DESCENDING;
if ((sortingByVisitCount && aAccessCountChange != 0) ||
(sortingByTime && timeChanged)) {
int32_t ourIndex = mParent->FindChild(this);
NS_ASSERTION(ourIndex >= 0, "Could not find self in parent");
if (ourIndex >= 0)
EnsureItemPosition(static_cast<uint32_t>(ourIndex));
}
nsresult rv = mParent->ReverseUpdateStats(aAccessCountChange);
NS_ENSURE_SUCCESS(rv, rv);
}
return NS_OK;
}
/**
* This walks up the tree until we find a query result node or the root to get
* the sorting type.
*/
uint16_t
nsNavHistoryContainerResultNode::GetSortType()
{
if (mParent)
return mParent->GetSortType();
if (mResult)
return mResult->mSortingMode;
// This is a detached container, just use natural order.
return nsINavHistoryQueryOptions::SORT_BY_NONE;
}
nsresult nsNavHistoryContainerResultNode::Refresh() {
NS_WARNING("Refresh() is supported by queries or folders, not generic containers.");
return NS_OK;
}
void
nsNavHistoryContainerResultNode::GetSortingAnnotation(nsACString& aAnnotation)
{
if (mParent)
mParent->GetSortingAnnotation(aAnnotation);
else if (mResult)
aAnnotation.Assign(mResult->mSortingAnnotation);
}
/**
* @return the sorting comparator function for the give sort type, or null if
* there is no comparator.
*/
nsNavHistoryContainerResultNode::SortComparator
nsNavHistoryContainerResultNode::GetSortingComparator(uint16_t aSortType)
{
switch (aSortType)
{
case nsINavHistoryQueryOptions::SORT_BY_NONE:
return &SortComparison_Bookmark;
case nsINavHistoryQueryOptions::SORT_BY_TITLE_ASCENDING:
return &SortComparison_TitleLess;
case nsINavHistoryQueryOptions::SORT_BY_TITLE_DESCENDING:
return &SortComparison_TitleGreater;
case nsINavHistoryQueryOptions::SORT_BY_DATE_ASCENDING:
return &SortComparison_DateLess;
case nsINavHistoryQueryOptions::SORT_BY_DATE_DESCENDING:
return &SortComparison_DateGreater;
case nsINavHistoryQueryOptions::SORT_BY_URI_ASCENDING:
return &SortComparison_URILess;
case nsINavHistoryQueryOptions::SORT_BY_URI_DESCENDING:
return &SortComparison_URIGreater;
case nsINavHistoryQueryOptions::SORT_BY_VISITCOUNT_ASCENDING:
return &SortComparison_VisitCountLess;
case nsINavHistoryQueryOptions::SORT_BY_VISITCOUNT_DESCENDING:
return &SortComparison_VisitCountGreater;
case nsINavHistoryQueryOptions::SORT_BY_KEYWORD_ASCENDING:
return &SortComparison_KeywordLess;
case nsINavHistoryQueryOptions::SORT_BY_KEYWORD_DESCENDING:
return &SortComparison_KeywordGreater;
case nsINavHistoryQueryOptions::SORT_BY_ANNOTATION_ASCENDING:
return &SortComparison_AnnotationLess;
case nsINavHistoryQueryOptions::SORT_BY_ANNOTATION_DESCENDING:
return &SortComparison_AnnotationGreater;
case nsINavHistoryQueryOptions::SORT_BY_DATEADDED_ASCENDING:
return &SortComparison_DateAddedLess;
case nsINavHistoryQueryOptions::SORT_BY_DATEADDED_DESCENDING:
return &SortComparison_DateAddedGreater;
case nsINavHistoryQueryOptions::SORT_BY_LASTMODIFIED_ASCENDING:
return &SortComparison_LastModifiedLess;
case nsINavHistoryQueryOptions::SORT_BY_LASTMODIFIED_DESCENDING:
return &SortComparison_LastModifiedGreater;
case nsINavHistoryQueryOptions::SORT_BY_TAGS_ASCENDING:
return &SortComparison_TagsLess;
case nsINavHistoryQueryOptions::SORT_BY_TAGS_DESCENDING:
return &SortComparison_TagsGreater;
case nsINavHistoryQueryOptions::SORT_BY_FRECENCY_ASCENDING:
return &SortComparison_FrecencyLess;
case nsINavHistoryQueryOptions::SORT_BY_FRECENCY_DESCENDING:
return &SortComparison_FrecencyGreater;
default:
NS_NOTREACHED("Bad sorting type");
return nullptr;
}
}
/**
* This is used by Result::SetSortingMode and QueryResultNode::FillChildren to
* sort the child list.
*
* This does NOT update any visibility or tree information. The caller will
* have to completely rebuild the visible list after this.
*/
void
nsNavHistoryContainerResultNode::RecursiveSort(
const char* aData, SortComparator aComparator)
{
void* data = const_cast<void*>(static_cast<const void*>(aData));
mChildren.Sort(aComparator, data);
for (int32_t i = 0; i < mChildren.Count(); ++i) {
if (mChildren[i]->IsContainer())
mChildren[i]->GetAsContainer()->RecursiveSort(aData, aComparator);
}
}
/**
* @return the index that the given item would fall on if it were to be
* inserted using the given sorting.
*/
uint32_t
nsNavHistoryContainerResultNode::FindInsertionPoint(
nsNavHistoryResultNode* aNode, SortComparator aComparator,
const char* aData, bool* aItemExists)
{
if (aItemExists)
(*aItemExists) = false;
if (mChildren.Count() == 0)
return 0;
void* data = const_cast<void*>(static_cast<const void*>(aData));
// The common case is the beginning or the end because this is used to insert
// new items that are added to history, which is usually sorted by date.
int32_t res;
res = aComparator(aNode, mChildren[0], data);
if (res <= 0) {
if (aItemExists && res == 0)
(*aItemExists) = true;
return 0;
}
res = aComparator(aNode, mChildren[mChildren.Count() - 1], data);
if (res >= 0) {
if (aItemExists && res == 0)
(*aItemExists) = true;
return mChildren.Count();
}
uint32_t beginRange = 0; // inclusive
uint32_t endRange = mChildren.Count(); // exclusive
while (1) {
if (beginRange == endRange)
return endRange;
uint32_t center = beginRange + (endRange - beginRange) / 2;
int32_t res = aComparator(aNode, mChildren[center], data);
if (res <= 0) {
endRange = center; // left side
if (aItemExists && res == 0)
(*aItemExists) = true;
}
else {
beginRange = center + 1; // right site
}
}
}
/**
* This checks the child node at the given index to see if its sorting is
* correct. This is called when nodes are updated and we need to see whether
* we need to move it.
*
* @returns true if not and it should be resorted.
*/
bool
nsNavHistoryContainerResultNode::DoesChildNeedResorting(uint32_t aIndex,
SortComparator aComparator, const char* aData)
{
NS_ASSERTION(aIndex < uint32_t(mChildren.Count()),
"Input index out of range");
if (mChildren.Count() == 1)
return false;
void* data = const_cast<void*>(static_cast<const void*>(aData));
if (aIndex > 0) {
// compare to previous item
if (aComparator(mChildren[aIndex - 1], mChildren[aIndex], data) > 0)
return true;
}
if (aIndex < uint32_t(mChildren.Count()) - 1) {
// compare to next item
if (aComparator(mChildren[aIndex], mChildren[aIndex + 1], data) > 0)
return true;
}
return false;
}
/* static */
int32_t nsNavHistoryContainerResultNode::SortComparison_StringLess(
const nsAString& a, const nsAString& b) {
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, 0);
nsICollation* collation = history->GetCollation();
NS_ENSURE_TRUE(collation, 0);
int32_t res = 0;
collation->CompareString(nsICollation::kCollationCaseInSensitive, a, b, &res);
return res;
}
/**
* When there are bookmark indices, we should never have ties, so we don't
* need to worry about tiebreaking. When there are no bookmark indices,
* everything will be -1 and we don't worry about sorting.
*/
int32_t nsNavHistoryContainerResultNode::SortComparison_Bookmark(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return a->mBookmarkIndex - b->mBookmarkIndex;
}
/**
* These are a little more complicated because they do a localization
* conversion. If this is too slow, we can compute the sort keys once in
* advance, sort that array, and then reorder the real array accordingly.
* This would save some key generations.
*
* The collation object must be allocated before sorting on title!
*/
int32_t nsNavHistoryContainerResultNode::SortComparison_TitleLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
uint32_t aType;
a->GetType(&aType);
int32_t value = SortComparison_StringLess(NS_ConvertUTF8toUTF16(a->mTitle),
NS_ConvertUTF8toUTF16(b->mTitle));
if (value == 0) {
// resolve by URI
if (a->IsURI()) {
value = a->mURI.Compare(b->mURI.get());
}
if (value == 0) {
// resolve by date
value = ComparePRTime(a->mTime, b->mTime);
if (value == 0)
value = nsNavHistoryContainerResultNode::SortComparison_Bookmark(a, b, closure);
}
}
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_TitleGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -SortComparison_TitleLess(a, b, closure);
}
/**
* Equal times will be very unusual, but it is important that there is some
* deterministic ordering of the results so they don't move around.
*/
int32_t nsNavHistoryContainerResultNode::SortComparison_DateLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
int32_t value = ComparePRTime(a->mTime, b->mTime);
if (value == 0) {
value = SortComparison_StringLess(NS_ConvertUTF8toUTF16(a->mTitle),
NS_ConvertUTF8toUTF16(b->mTitle));
if (value == 0)
value = nsNavHistoryContainerResultNode::SortComparison_Bookmark(a, b, closure);
}
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_DateGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -nsNavHistoryContainerResultNode::SortComparison_DateLess(a, b, closure);
}
int32_t nsNavHistoryContainerResultNode::SortComparison_DateAddedLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
int32_t value = ComparePRTime(a->mDateAdded, b->mDateAdded);
if (value == 0) {
value = SortComparison_StringLess(NS_ConvertUTF8toUTF16(a->mTitle),
NS_ConvertUTF8toUTF16(b->mTitle));
if (value == 0)
value = nsNavHistoryContainerResultNode::SortComparison_Bookmark(a, b, closure);
}
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_DateAddedGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -nsNavHistoryContainerResultNode::SortComparison_DateAddedLess(a, b, closure);
}
int32_t nsNavHistoryContainerResultNode::SortComparison_LastModifiedLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
int32_t value = ComparePRTime(a->mLastModified, b->mLastModified);
if (value == 0) {
value = SortComparison_StringLess(NS_ConvertUTF8toUTF16(a->mTitle),
NS_ConvertUTF8toUTF16(b->mTitle));
if (value == 0)
value = nsNavHistoryContainerResultNode::SortComparison_Bookmark(a, b, closure);
}
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_LastModifiedGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -nsNavHistoryContainerResultNode::SortComparison_LastModifiedLess(a, b, closure);
}
/**
* Certain types of parent nodes are treated specially because URIs are not
* valid (like days or hosts).
*/
int32_t nsNavHistoryContainerResultNode::SortComparison_URILess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
int32_t value;
if (a->IsURI() && b->IsURI()) {
// normal URI or visit
value = a->mURI.Compare(b->mURI.get());
} else {
// for everything else, use title (= host name)
value = SortComparison_StringLess(NS_ConvertUTF8toUTF16(a->mTitle),
NS_ConvertUTF8toUTF16(b->mTitle));
}
if (value == 0) {
value = ComparePRTime(a->mTime, b->mTime);
if (value == 0)
value = nsNavHistoryContainerResultNode::SortComparison_Bookmark(a, b, closure);
}
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_URIGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -SortComparison_URILess(a, b, closure);
}
int32_t nsNavHistoryContainerResultNode::SortComparison_KeywordLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
int32_t value = 0;
if (a->mItemId != -1 || b->mItemId != -1) {
// compare the keywords
nsAutoString keywordA, keywordB;
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
NS_ENSURE_TRUE(bookmarks, 0);
nsresult rv;
if (a->mItemId != -1) {
rv = bookmarks->GetKeywordForBookmark(a->mItemId, keywordA);
NS_ENSURE_SUCCESS(rv, 0);
}
if (b->mItemId != -1) {
rv = bookmarks->GetKeywordForBookmark(b->mItemId, keywordB);
NS_ENSURE_SUCCESS(rv, 0);
}
value = SortComparison_StringLess(keywordA, keywordB);
}
// Fall back to title sorting.
if (value == 0)
value = SortComparison_TitleLess(a, b, closure);
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_KeywordGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -SortComparison_KeywordLess(a, b, closure);
}
int32_t nsNavHistoryContainerResultNode::SortComparison_AnnotationLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
nsAutoCString annoName(static_cast<char*>(closure));
NS_ENSURE_TRUE(!annoName.IsEmpty(), 0);
bool a_itemAnno = false;
bool b_itemAnno = false;
// Not used for item annos
nsCOMPtr<nsIURI> a_uri, b_uri;
if (a->mItemId != -1) {
a_itemAnno = true;
} else {
nsAutoCString spec;
if (NS_SUCCEEDED(a->GetUri(spec)))
NS_NewURI(getter_AddRefs(a_uri), spec);
NS_ENSURE_TRUE(a_uri, 0);
}
if (b->mItemId != -1) {
b_itemAnno = true;
} else {
nsAutoCString spec;
if (NS_SUCCEEDED(b->GetUri(spec)))
NS_NewURI(getter_AddRefs(b_uri), spec);
NS_ENSURE_TRUE(b_uri, 0);
}
nsAnnotationService* annosvc = nsAnnotationService::GetAnnotationService();
NS_ENSURE_TRUE(annosvc, 0);
bool a_hasAnno, b_hasAnno;
if (a_itemAnno) {
NS_ENSURE_SUCCESS(annosvc->ItemHasAnnotation(a->mItemId, annoName,
&a_hasAnno), 0);
} else {
NS_ENSURE_SUCCESS(annosvc->PageHasAnnotation(a_uri, annoName,
&a_hasAnno), 0);
}
if (b_itemAnno) {
NS_ENSURE_SUCCESS(annosvc->ItemHasAnnotation(b->mItemId, annoName,
&b_hasAnno), 0);
} else {
NS_ENSURE_SUCCESS(annosvc->PageHasAnnotation(b_uri, annoName,
&b_hasAnno), 0);
}
int32_t value = 0;
if (a_hasAnno || b_hasAnno) {
uint16_t annoType;
if (a_hasAnno) {
if (a_itemAnno) {
NS_ENSURE_SUCCESS(annosvc->GetItemAnnotationType(a->mItemId,
annoName,
&annoType), 0);
} else {
NS_ENSURE_SUCCESS(annosvc->GetPageAnnotationType(a_uri, annoName,
&annoType), 0);
}
}
if (b_hasAnno) {
uint16_t b_type;
if (b_itemAnno) {
NS_ENSURE_SUCCESS(annosvc->GetItemAnnotationType(b->mItemId,
annoName,
&b_type), 0);
} else {
NS_ENSURE_SUCCESS(annosvc->GetPageAnnotationType(b_uri, annoName,
&b_type), 0);
}
// We better make the API not support this state, really
// XXXmano: this is actually wrong for double<->int and int64_t<->int32_t
if (a_hasAnno && b_type != annoType)
return 0;
annoType = b_type;
}
#define GET_ANNOTATIONS_VALUES(METHOD_ITEM, METHOD_PAGE, A_VAL, B_VAL) \
if (a_hasAnno) { \
if (a_itemAnno) { \
NS_ENSURE_SUCCESS(annosvc->METHOD_ITEM(a->mItemId, annoName, \
A_VAL), 0); \
} else { \
NS_ENSURE_SUCCESS(annosvc->METHOD_PAGE(a_uri, annoName, \
A_VAL), 0); \
} \
} \
if (b_hasAnno) { \
if (b_itemAnno) { \
NS_ENSURE_SUCCESS(annosvc->METHOD_ITEM(b->mItemId, annoName, \
B_VAL), 0); \
} else { \
NS_ENSURE_SUCCESS(annosvc->METHOD_PAGE(b_uri, annoName, \
B_VAL), 0); \
} \
}
if (annoType == nsIAnnotationService::TYPE_STRING) {
nsAutoString a_val, b_val;
GET_ANNOTATIONS_VALUES(GetItemAnnotationString,
GetPageAnnotationString, a_val, b_val);
value = SortComparison_StringLess(a_val, b_val);
}
else if (annoType == nsIAnnotationService::TYPE_INT32) {
int32_t a_val = 0, b_val = 0;
GET_ANNOTATIONS_VALUES(GetItemAnnotationInt32,
GetPageAnnotationInt32, &a_val, &b_val);
value = (a_val < b_val) ? -1 : (a_val > b_val) ? 1 : 0;
}
else if (annoType == nsIAnnotationService::TYPE_INT64) {
int64_t a_val = 0, b_val = 0;
GET_ANNOTATIONS_VALUES(GetItemAnnotationInt64,
GetPageAnnotationInt64, &a_val, &b_val);
value = (a_val < b_val) ? -1 : (a_val > b_val) ? 1 : 0;
}
else if (annoType == nsIAnnotationService::TYPE_DOUBLE) {
double a_val = 0, b_val = 0;
GET_ANNOTATIONS_VALUES(GetItemAnnotationDouble,
GetPageAnnotationDouble, &a_val, &b_val);
value = (a_val < b_val) ? -1 : (a_val > b_val) ? 1 : 0;
}
}
// Note we also fall back to the title-sorting route one of the items didn't
// have the annotation set or if both had it set but in a different storage
// type
if (value == 0)
return SortComparison_TitleLess(a, b, nullptr);
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_AnnotationGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -SortComparison_AnnotationLess(a, b, closure);
}
/**
* Fall back on dates for conflict resolution
*/
int32_t nsNavHistoryContainerResultNode::SortComparison_VisitCountLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
int32_t value = CompareIntegers(a->mAccessCount, b->mAccessCount);
if (value == 0) {
value = ComparePRTime(a->mTime, b->mTime);
if (value == 0)
value = nsNavHistoryContainerResultNode::SortComparison_Bookmark(a, b, closure);
}
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_VisitCountGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -nsNavHistoryContainerResultNode::SortComparison_VisitCountLess(a, b, closure);
}
int32_t nsNavHistoryContainerResultNode::SortComparison_TagsLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
int32_t value = 0;
nsAutoString aTags, bTags;
nsresult rv = a->GetTags(aTags);
NS_ENSURE_SUCCESS(rv, 0);
rv = b->GetTags(bTags);
NS_ENSURE_SUCCESS(rv, 0);
value = SortComparison_StringLess(aTags, bTags);
// fall back to title sorting
if (value == 0)
value = SortComparison_TitleLess(a, b, closure);
return value;
}
int32_t nsNavHistoryContainerResultNode::SortComparison_TagsGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure)
{
return -SortComparison_TagsLess(a, b, closure);
}
/**
* Fall back on date and bookmarked status, for conflict resolution.
*/
int32_t
nsNavHistoryContainerResultNode::SortComparison_FrecencyLess(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure
)
{
int32_t value = CompareIntegers(a->mFrecency, b->mFrecency);
if (value == 0) {
value = ComparePRTime(a->mTime, b->mTime);
if (value == 0) {
value = nsNavHistoryContainerResultNode::SortComparison_Bookmark(a, b, closure);
}
}
return value;
}
int32_t
nsNavHistoryContainerResultNode::SortComparison_FrecencyGreater(
nsNavHistoryResultNode* a, nsNavHistoryResultNode* b, void* closure
)
{
return -nsNavHistoryContainerResultNode::SortComparison_FrecencyLess(a, b, closure);
}
/**
* Searches this folder for a node with the given URI. Returns null if not
* found.
*
* @note Does not addref the node!
*/
nsNavHistoryResultNode*
nsNavHistoryContainerResultNode::FindChildURI(const nsACString& aSpec,
uint32_t* aNodeIndex)
{
for (int32_t i = 0; i < mChildren.Count(); ++i) {
if (mChildren[i]->IsURI()) {
if (aSpec.Equals(mChildren[i]->mURI)) {
*aNodeIndex = i;
return mChildren[i];
}
}
}
return nullptr;
}
/**
* This does the work of adding a child to the container. The child can be
* either a container or or a single item that may even be collapsed with the
* adjacent ones.
*
* Some inserts are "temporary" meaning that they are happening immediately
* after a temporary remove. We do this when movings elements when they
* change to keep them in the proper sorting position. In these cases, we
* don't need to recompute any statistics.
*/
nsresult
nsNavHistoryContainerResultNode::InsertChildAt(nsNavHistoryResultNode* aNode,
int32_t aIndex,
bool aIsTemporary)
{
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
aNode->mParent = this;
aNode->mIndentLevel = mIndentLevel + 1;
if (!aIsTemporary && aNode->IsContainer()) {
// need to update all the new item's children
nsNavHistoryContainerResultNode* container = aNode->GetAsContainer();
container->mResult = result;
container->FillStats();
}
if (!mChildren.InsertObjectAt(aNode, aIndex))
return NS_ERROR_OUT_OF_MEMORY;
// Update our stats and notify the result's observers.
if (!aIsTemporary) {
mAccessCount += aNode->mAccessCount;
if (mTime < aNode->mTime)
mTime = aNode->mTime;
if (!mParent || mParent->AreChildrenVisible()) {
NOTIFY_RESULT_OBSERVERS(result,
NodeHistoryDetailsChanged(TO_ICONTAINER(this),
mTime,
mAccessCount));
}
nsresult rv = ReverseUpdateStats(aNode->mAccessCount);
NS_ENSURE_SUCCESS(rv, rv);
}
// Update tree if we are visible. Note that we could be here and not
// expanded, like when there is a bookmark folder being updated because its
// parent is visible.
if (AreChildrenVisible())
NOTIFY_RESULT_OBSERVERS(result, NodeInserted(this, aNode, aIndex));
return NS_OK;
}
/**
* This locates the proper place for insertion according to the current sort
* and calls InsertChildAt
*/
nsresult
nsNavHistoryContainerResultNode::InsertSortedChild(
nsNavHistoryResultNode* aNode,
bool aIsTemporary, bool aIgnoreDuplicates)
{
if (mChildren.Count() == 0)
return InsertChildAt(aNode, 0, aIsTemporary);
SortComparator comparator = GetSortingComparator(GetSortType());
if (comparator) {
// When inserting a new node, it must have proper statistics because we use
// them to find the correct insertion point. The insert function will then
// recompute these statistics and fill in the proper parents and hierarchy
// level. Doing this twice shouldn't be a large performance penalty because
// when we are inserting new containers, they typically contain only one
// item (because we've browsed a new page).
if (!aIsTemporary && aNode->IsContainer()) {
// need to update all the new item's children
nsNavHistoryContainerResultNode* container = aNode->GetAsContainer();
container->mResult = mResult;
container->FillStats();
}
nsAutoCString sortingAnnotation;
GetSortingAnnotation(sortingAnnotation);
bool itemExists;
uint32_t position = FindInsertionPoint(aNode, comparator,
sortingAnnotation.get(),
&itemExists);
if (aIgnoreDuplicates && itemExists)
return NS_OK;
return InsertChildAt(aNode, position, aIsTemporary);
}
return InsertChildAt(aNode, mChildren.Count(), aIsTemporary);
}
/**
* This checks if the item at aIndex is located correctly given the sorting
* move. If it's not, the item is moved, and the result's observers are
* notified.
*
* @return true if the item position has been changed, false otherwise.
*/
bool
nsNavHistoryContainerResultNode::EnsureItemPosition(uint32_t aIndex) {
NS_ASSERTION(aIndex < (uint32_t)mChildren.Count(), "Invalid index");
if (aIndex >= (uint32_t)mChildren.Count())
return false;
SortComparator comparator = GetSortingComparator(GetSortType());
if (!comparator)
return false;
nsAutoCString sortAnno;
GetSortingAnnotation(sortAnno);
if (!DoesChildNeedResorting(aIndex, comparator, sortAnno.get()))
return false;
nsRefPtr<nsNavHistoryResultNode> node(mChildren[aIndex]);
mChildren.RemoveObjectAt(aIndex);
uint32_t newIndex = FindInsertionPoint(
node, comparator,sortAnno.get(), nullptr);
mChildren.InsertObjectAt(node.get(), newIndex);
if (AreChildrenVisible()) {
nsNavHistoryResult* result = GetResult();
NOTIFY_RESULT_OBSERVERS_RET(result,
NodeMoved(node, this, aIndex, this, newIndex),
false);
}
return true;
}
/**
* This does all the work of removing a child from this container, including
* updating the tree if necessary. Note that we do not need to be open for
* this to work.
*
* Some removes are "temporary" meaning that they'll just get inserted again.
* We do this for resorting. In these cases, we don't need to recompute any
* statistics, and we shouldn't notify those container that they are being
* removed.
*/
nsresult
nsNavHistoryContainerResultNode::RemoveChildAt(int32_t aIndex,
bool aIsTemporary)
{
NS_ASSERTION(aIndex >= 0 && aIndex < mChildren.Count(), "Invalid index");
// Hold an owning reference to keep from expiring while we work with it.
nsRefPtr<nsNavHistoryResultNode> oldNode = mChildren[aIndex];
// Update stats.
uint32_t oldAccessCount = 0;
if (!aIsTemporary) {
oldAccessCount = mAccessCount;
mAccessCount -= mChildren[aIndex]->mAccessCount;
NS_ASSERTION(mAccessCount >= 0, "Invalid access count while updating!");
}
// Remove it from our list and notify the result's observers.
mChildren.RemoveObjectAt(aIndex);
if (AreChildrenVisible()) {
nsNavHistoryResult* result = GetResult();
NOTIFY_RESULT_OBSERVERS(result,
NodeRemoved(this, oldNode, aIndex));
}
if (!aIsTemporary) {
nsresult rv = ReverseUpdateStats(mAccessCount - oldAccessCount);
NS_ENSURE_SUCCESS(rv, rv);
oldNode->OnRemoving();
}
return NS_OK;
}
/**
* Searches for matches for the given URI. If aOnlyOne is set, it will
* terminate as soon as it finds a single match. This would be used when there
* are URI results so there will only ever be one copy of any URI.
*
* When aOnlyOne is false, it will check all elements. This is for visit
* style results that may have multiple copies of any given URI.
*/
void
nsNavHistoryContainerResultNode::RecursiveFindURIs(bool aOnlyOne,
nsNavHistoryContainerResultNode* aContainer, const nsCString& aSpec,
nsCOMArray<nsNavHistoryResultNode>* aMatches)
{
for (int32_t child = 0; child < aContainer->mChildren.Count(); ++child) {
uint32_t type;
aContainer->mChildren[child]->GetType(&type);
if (nsNavHistoryResultNode::IsTypeURI(type)) {
// compare URIs
nsNavHistoryResultNode* uriNode = aContainer->mChildren[child];
if (uriNode->mURI.Equals(aSpec)) {
// found
aMatches->AppendObject(uriNode);
if (aOnlyOne)
return;
}
}
}
}
/**
* If aUpdateSort is true, we will also update the sorting of this item.
* Normally you want this to be true, but it can be false if the thing you are
* changing can not affect sorting (like favicons).
*
* You should NOT change any child lists as part of the callback function.
*/
bool
nsNavHistoryContainerResultNode::UpdateURIs(bool aRecursive, bool aOnlyOne,
bool aUpdateSort, const nsCString& aSpec,
nsresult (*aCallback)(nsNavHistoryResultNode*, const void*, const nsNavHistoryResult*),
const void* aClosure)
{
const nsNavHistoryResult* result = GetResult();
if (!result) {
MOZ_ASSERT(false, "Should have a result");
return false;
}
// this needs to be owning since sometimes we remove and re-insert nodes
// in their parents and we don't want them to go away.
nsCOMArray<nsNavHistoryResultNode> matches;
if (aRecursive) {
RecursiveFindURIs(aOnlyOne, this, aSpec, &matches);
} else if (aOnlyOne) {
uint32_t nodeIndex;
nsNavHistoryResultNode* node = FindChildURI(aSpec, &nodeIndex);
if (node)
matches.AppendObject(node);
} else {
MOZ_ASSERT(false,
"UpdateURIs does not handle nonrecursive updates of multiple items.");
// this case easy to add if you need it, just find all the matching URIs
// at this level. However, this isn't currently used. History uses
// recursive, Bookmarks uses one level and knows that the match is unique.
return false;
}
if (matches.Count() == 0)
return false;
// PERFORMANCE: This updates each container for each child in it that
// changes. In some cases, many elements have changed inside the same
// container. It would be better to compose a list of containers, and
// update each one only once for all the items that have changed in it.
for (int32_t i = 0; i < matches.Count(); ++i)
{
nsNavHistoryResultNode* node = matches[i];
nsNavHistoryContainerResultNode* parent = node->mParent;
if (!parent) {
MOZ_ASSERT(false, "All URI nodes being updated must have parents");
continue;
}
uint32_t oldAccessCount = node->mAccessCount;
PRTime oldTime = node->mTime;
aCallback(node, aClosure, result);
if (oldAccessCount != node->mAccessCount || oldTime != node->mTime) {
parent->mAccessCount += node->mAccessCount - oldAccessCount;
if (node->mTime > parent->mTime)
parent->mTime = node->mTime;
if (parent->AreChildrenVisible()) {
NOTIFY_RESULT_OBSERVERS_RET(result,
NodeHistoryDetailsChanged(
TO_ICONTAINER(parent),
parent->mTime,
parent->mAccessCount),
true);
}
DebugOnly<nsresult> rv = parent->ReverseUpdateStats(node->mAccessCount - oldAccessCount);
MOZ_ASSERT(NS_SUCCEEDED(rv), "should be able to ReverseUpdateStats");
}
if (aUpdateSort) {
int32_t childIndex = parent->FindChild(node);
MOZ_ASSERT(childIndex >= 0, "Could not find child we just got a reference to");
if (childIndex >= 0)
parent->EnsureItemPosition(childIndex);
}
}
return true;
}
/**
* This is used to update the titles in the tree. This is called from both
* query and bookmark folder containers to update the tree. Bookmark folders
* should be sure to set recursive to false, since child folders will have
* their own callbacks registered.
*/
static nsresult setTitleCallback(nsNavHistoryResultNode* aNode,
const void* aClosure,
const nsNavHistoryResult* aResult)
{
const nsACString* newTitle = static_cast<const nsACString*>(aClosure);
aNode->mTitle = *newTitle;
if (aResult && (!aNode->mParent || aNode->mParent->AreChildrenVisible()))
NOTIFY_RESULT_OBSERVERS(aResult, NodeTitleChanged(aNode, *newTitle));
return NS_OK;
}
nsresult
nsNavHistoryContainerResultNode::ChangeTitles(nsIURI* aURI,
const nsACString& aNewTitle,
bool aRecursive,
bool aOnlyOne)
{
// uri string
nsAutoCString uriString;
nsresult rv = aURI->GetSpec(uriString);
NS_ENSURE_SUCCESS(rv, rv);
// The recursive function will update the result's tree nodes, but only if we
// give it a non-null pointer. So if there isn't a tree, just pass nullptr
// so it doesn't bother trying to call the result.
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
uint16_t sortType = GetSortType();
bool updateSorting =
(sortType == nsINavHistoryQueryOptions::SORT_BY_TITLE_ASCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_TITLE_DESCENDING);
UpdateURIs(aRecursive, aOnlyOne, updateSorting, uriString,
setTitleCallback,
static_cast<const void*>(&aNewTitle));
return NS_OK;
}
/**
* Complex containers (folders and queries) will override this. Here, we
* handle the case of simple containers (like host groups) where the children
* are always stored.
*/
NS_IMETHODIMP
nsNavHistoryContainerResultNode::GetHasChildren(bool *aHasChildren)
{
*aHasChildren = (mChildren.Count() > 0);
return NS_OK;
}
/**
* @throws if this node is closed.
*/
NS_IMETHODIMP
nsNavHistoryContainerResultNode::GetChildCount(uint32_t* aChildCount)
{
if (!mExpanded)
return NS_ERROR_NOT_AVAILABLE;
*aChildCount = mChildren.Count();
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryContainerResultNode::GetChild(uint32_t aIndex,
nsINavHistoryResultNode** _retval)
{
if (!mExpanded)
return NS_ERROR_NOT_AVAILABLE;
if (aIndex >= uint32_t(mChildren.Count()))
return NS_ERROR_INVALID_ARG;
NS_ADDREF(*_retval = mChildren[aIndex]);
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryContainerResultNode::GetChildIndex(nsINavHistoryResultNode* aNode,
uint32_t* _retval)
{
if (!mExpanded)
return NS_ERROR_NOT_AVAILABLE;
int32_t nodeIndex = FindChild(static_cast<nsNavHistoryResultNode*>(aNode));
if (nodeIndex == -1)
return NS_ERROR_INVALID_ARG;
*_retval = nodeIndex;
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryContainerResultNode::FindNodeByDetails(const nsACString& aURIString,
PRTime aTime,
int64_t aItemId,
bool aRecursive,
nsINavHistoryResultNode** _retval) {
if (!mExpanded)
return NS_ERROR_NOT_AVAILABLE;
*_retval = nullptr;
for (int32_t i = 0; i < mChildren.Count(); ++i) {
if (mChildren[i]->mURI.Equals(aURIString) &&
mChildren[i]->mTime == aTime &&
mChildren[i]->mItemId == aItemId) {
*_retval = mChildren[i];
break;
}
if (aRecursive && mChildren[i]->IsContainer()) {
nsNavHistoryContainerResultNode* asContainer =
mChildren[i]->GetAsContainer();
if (asContainer->mExpanded) {
nsresult rv = asContainer->FindNodeByDetails(aURIString, aTime,
aItemId,
aRecursive,
_retval);
if (NS_SUCCEEDED(rv) && _retval)
break;
}
}
}
NS_IF_ADDREF(*_retval);
return NS_OK;
}
/**
* @note Overridden for folders to query the bookmarks service directly.
*/
NS_IMETHODIMP
nsNavHistoryContainerResultNode::GetChildrenReadOnly(bool *aChildrenReadOnly)
{
*aChildrenReadOnly = mChildrenReadOnly;
return NS_OK;
}
/**
* HOW QUERY UPDATING WORKS
*
* Queries are different than bookmark folders in that we can not always do
* dynamic updates (easily) and updates are more expensive. Therefore, we do
* NOT query if we are not open and want to see if we have any children (for
* drawing a twisty) and always assume we will.
*
* When the container is opened, we execute the query and register the
* listeners. Like bookmark folders, we stay registered even when closed, and
* clear ourselves as soon as a message comes in. This lets us respond quickly
* if the user closes and reopens the container.
*
* We try to handle the most common notifications for the most common query
* types dynamically, that is, figuring out what should happen in response to
* a message without doing a requery. For complex changes or complex queries,
* we give up and requery.
*/
NS_IMPL_ISUPPORTS_INHERITED(nsNavHistoryQueryResultNode,
nsNavHistoryContainerResultNode,
nsINavHistoryQueryResultNode)
nsNavHistoryQueryResultNode::nsNavHistoryQueryResultNode(
const nsACString& aTitle, const nsACString& aIconURI,
const nsACString& aQueryURI) :
nsNavHistoryContainerResultNode(aQueryURI, aTitle, aIconURI,
nsNavHistoryResultNode::RESULT_TYPE_QUERY,
true, nullptr),
mLiveUpdate(QUERYUPDATE_COMPLEX_WITH_BOOKMARKS),
mHasSearchTerms(false),
mContentsValid(false),
mBatchChanges(0)
{
}
nsNavHistoryQueryResultNode::nsNavHistoryQueryResultNode(
const nsACString& aTitle, const nsACString& aIconURI,
const nsCOMArray<nsNavHistoryQuery>& aQueries,
nsNavHistoryQueryOptions* aOptions) :
nsNavHistoryContainerResultNode(EmptyCString(), aTitle, aIconURI,
nsNavHistoryResultNode::RESULT_TYPE_QUERY,
true, aOptions),
mQueries(aQueries),
mContentsValid(false),
mBatchChanges(0),
mTransitions(mQueries[0]->Transitions())
{
NS_ASSERTION(aQueries.Count() > 0, "Must have at least one query");
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ASSERTION(history, "History service missing");
if (history) {
mLiveUpdate = history->GetUpdateRequirements(mQueries, mOptions,
&mHasSearchTerms);
}
// Collect transitions shared by all queries.
for (int32_t i = 1; i < mQueries.Count(); ++i) {
const nsTArray<uint32_t>& queryTransitions = mQueries[i]->Transitions();
for (uint32_t j = 0; j < mTransitions.Length() ; ++j) {
uint32_t transition = mTransitions.SafeElementAt(j, 0);
if (transition && !queryTransitions.Contains(transition))
mTransitions.RemoveElement(transition);
}
}
}
nsNavHistoryQueryResultNode::nsNavHistoryQueryResultNode(
const nsACString& aTitle, const nsACString& aIconURI,
PRTime aTime,
const nsCOMArray<nsNavHistoryQuery>& aQueries,
nsNavHistoryQueryOptions* aOptions) :
nsNavHistoryContainerResultNode(EmptyCString(), aTitle, aTime, aIconURI,
nsNavHistoryResultNode::RESULT_TYPE_QUERY,
true, aOptions),
mQueries(aQueries),
mContentsValid(false),
mBatchChanges(0),
mTransitions(mQueries[0]->Transitions())
{
NS_ASSERTION(aQueries.Count() > 0, "Must have at least one query");
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ASSERTION(history, "History service missing");
if (history) {
mLiveUpdate = history->GetUpdateRequirements(mQueries, mOptions,
&mHasSearchTerms);
}
// Collect transitions shared by all queries.
for (int32_t i = 1; i < mQueries.Count(); ++i) {
const nsTArray<uint32_t>& queryTransitions = mQueries[i]->Transitions();
for (uint32_t j = 0; j < mTransitions.Length() ; ++j) {
uint32_t transition = mTransitions.SafeElementAt(j, 0);
if (transition && !queryTransitions.Contains(transition))
mTransitions.RemoveElement(transition);
}
}
}
nsNavHistoryQueryResultNode::~nsNavHistoryQueryResultNode() {
// Remove this node from result's observers. We don't need to be notified
// anymore.
if (mResult && mResult->mAllBookmarksObservers.IndexOf(this) !=
mResult->mAllBookmarksObservers.NoIndex)
mResult->RemoveAllBookmarksObserver(this);
if (mResult && mResult->mHistoryObservers.IndexOf(this) !=
mResult->mHistoryObservers.NoIndex)
mResult->RemoveHistoryObserver(this);
}
/**
* Whoever made us may want non-expanding queries. However, we always expand
* when we are the root node, or else asking for non-expanding queries would be
* useless. A query node is not expandable if excludeItems is set or if
* expandQueries is unset.
*/
bool
nsNavHistoryQueryResultNode::CanExpand()
{
if (IsContainersQuery())
return true;
// If ExcludeItems is set on the root or on the node itself, don't expand.
if ((mResult && mResult->mRootNode->mOptions->ExcludeItems()) ||
Options()->ExcludeItems())
return false;
// Check the ancestor container.
nsNavHistoryQueryOptions* options = GetGeneratingOptions();
if (options) {
if (options->ExcludeItems())
return false;
if (options->ExpandQueries())
return true;
}
if (mResult && mResult->mRootNode == this)
return true;
return false;
}
/**
* Some query with a particular result type can contain other queries. They
* must be always expandable
*/
bool
nsNavHistoryQueryResultNode::IsContainersQuery()
{
uint16_t resultType = Options()->ResultType();
return resultType == nsINavHistoryQueryOptions::RESULTS_AS_DATE_QUERY ||
resultType == nsINavHistoryQueryOptions::RESULTS_AS_DATE_SITE_QUERY ||
resultType == nsINavHistoryQueryOptions::RESULTS_AS_TAG_QUERY ||
resultType == nsINavHistoryQueryOptions::RESULTS_AS_SITE_QUERY;
}
/**
* Here we do not want to call ContainerResultNode::OnRemoving since our own
* ClearChildren will do the same thing and more (unregister the observers).
* The base ResultNode::OnRemoving will clear some regular node stats, so it
* is OK.
*/
void
nsNavHistoryQueryResultNode::OnRemoving()
{
nsNavHistoryResultNode::OnRemoving();
ClearChildren(true);
mResult = nullptr;
}
/**
* Marks the container as open, rebuilding results if they are invalid. We
* may still have valid results if the container was previously open and
* nothing happened since closing it.
*
* We do not handle CloseContainer specially. The default one just marks the
* container as closed, but doesn't actually mark the results as invalid.
* The results will be invalidated by the next history or bookmark
* notification that comes in. This means if you open and close the item
* without anything happening in between, it will be fast (this actually
* happens when results are used as menus).
*/
nsresult
nsNavHistoryQueryResultNode::OpenContainer()
{
NS_ASSERTION(!mExpanded, "Container must be closed to open it");
mExpanded = true;
nsresult rv;
if (!CanExpand())
return NS_OK;
if (!mContentsValid) {
rv = FillChildren();
NS_ENSURE_SUCCESS(rv, rv);
}
rv = NotifyOnStateChange(STATE_CLOSED);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
/**
* When we have valid results we can always give an exact answer. When we
* don't we just assume we'll have results, since actually doing the query
* might be hard. This is used to draw twisties on the tree, so precise results
* don't matter.
*/
NS_IMETHODIMP
nsNavHistoryQueryResultNode::GetHasChildren(bool* aHasChildren)
{
*aHasChildren = false;
if (!CanExpand()) {
return NS_OK;
}
uint16_t resultType = mOptions->ResultType();
// Tags are always populated, otherwise they are removed.
if (resultType == nsINavHistoryQueryOptions::RESULTS_AS_TAG_CONTENTS) {
*aHasChildren = true;
return NS_OK;
}
// For tag containers query we must check if we have any tag
if (resultType == nsINavHistoryQueryOptions::RESULTS_AS_TAG_QUERY) {
nsCOMPtr<nsITaggingService> tagging =
do_GetService(NS_TAGGINGSERVICE_CONTRACTID);
if (tagging) {
bool hasTags;
*aHasChildren = NS_SUCCEEDED(tagging->GetHasTags(&hasTags)) && hasTags;
}
return NS_OK;
}
// For history containers query we must check if we have any history
if (resultType == nsINavHistoryQueryOptions::RESULTS_AS_DATE_QUERY ||
resultType == nsINavHistoryQueryOptions::RESULTS_AS_DATE_SITE_QUERY ||
resultType == nsINavHistoryQueryOptions::RESULTS_AS_SITE_QUERY) {
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
return history->GetHasHistoryEntries(aHasChildren);
}
//XXX: For other containers queries we must:
// 1. If it's open, just check mChildren for containers
// 2. Else null the view (keep it in a var), open container, check mChildren
// for containers, close container, reset the view
if (mContentsValid) {
*aHasChildren = (mChildren.Count() > 0);
return NS_OK;
}
*aHasChildren = true;
return NS_OK;
}
/**
* This doesn't just return mURI because in the case of queries that may
* be lazily constructed from the query objects.
*/
NS_IMETHODIMP
nsNavHistoryQueryResultNode::GetUri(nsACString& aURI)
{
nsresult rv = VerifyQueriesSerialized();
NS_ENSURE_SUCCESS(rv, rv);
aURI = mURI;
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::GetFolderItemId(int64_t* aItemId)
{
*aItemId = mItemId;
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::GetQueries(uint32_t* queryCount,
nsINavHistoryQuery*** queries)
{
nsresult rv = VerifyQueriesParsed();
NS_ENSURE_SUCCESS(rv, rv);
NS_ASSERTION(mQueries.Count() > 0, "Must have >= 1 query");
*queries = static_cast<nsINavHistoryQuery**>
(nsMemory::Alloc(mQueries.Count() * sizeof(nsINavHistoryQuery*)));
NS_ENSURE_TRUE(*queries, NS_ERROR_OUT_OF_MEMORY);
for (int32_t i = 0; i < mQueries.Count(); ++i)
NS_ADDREF((*queries)[i] = mQueries[i]);
*queryCount = mQueries.Count();
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::GetQueryOptions(
nsINavHistoryQueryOptions** aQueryOptions)
{
*aQueryOptions = Options();
NS_ADDREF(*aQueryOptions);
return NS_OK;
}
/**
* Safe options getter, ensures queries are parsed first.
*/
nsNavHistoryQueryOptions*
nsNavHistoryQueryResultNode::Options()
{
nsresult rv = VerifyQueriesParsed();
if (NS_FAILED(rv))
return nullptr;
NS_ASSERTION(mOptions, "Options invalid, cannot generate from URI");
return mOptions;
}
nsresult
nsNavHistoryQueryResultNode::VerifyQueriesParsed()
{
if (mQueries.Count() > 0) {
NS_ASSERTION(mOptions, "If a result has queries, it also needs options");
return NS_OK;
}
NS_ASSERTION(!mURI.IsEmpty(),
"Query nodes must have either a URI or query/options");
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
nsresult rv = history->QueryStringToQueryArray(mURI, &mQueries,
getter_AddRefs(mOptions));
NS_ENSURE_SUCCESS(rv, rv);
mLiveUpdate = history->GetUpdateRequirements(mQueries, mOptions,
&mHasSearchTerms);
return NS_OK;
}
nsresult
nsNavHistoryQueryResultNode::VerifyQueriesSerialized()
{
if (!mURI.IsEmpty()) {
return NS_OK;
}
NS_ASSERTION(mQueries.Count() > 0 && mOptions,
"Query nodes must have either a URI or query/options");
nsTArray<nsINavHistoryQuery*> flatQueries;
flatQueries.SetCapacity(mQueries.Count());
for (int32_t i = 0; i < mQueries.Count(); ++i)
flatQueries.AppendElement(static_cast<nsINavHistoryQuery*>
(mQueries.ObjectAt(i)));
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
nsresult rv = history->QueriesToQueryString(flatQueries.Elements(),
flatQueries.Length(),
mOptions, mURI);
NS_ENSURE_SUCCESS(rv, rv);
NS_ENSURE_STATE(!mURI.IsEmpty());
return NS_OK;
}
nsresult
nsNavHistoryQueryResultNode::FillChildren()
{
NS_ASSERTION(!mContentsValid,
"Don't call FillChildren when contents are valid");
NS_ASSERTION(mChildren.Count() == 0,
"We are trying to fill children when there already are some");
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
// get the results from the history service
nsresult rv = VerifyQueriesParsed();
NS_ENSURE_SUCCESS(rv, rv);
rv = history->GetQueryResults(this, mQueries, mOptions, &mChildren);
NS_ENSURE_SUCCESS(rv, rv);
// it is important to call FillStats to fill in the parents on all
// nodes and the result node pointers on the containers
FillStats();
uint16_t sortType = GetSortType();
if (mResult && mResult->mNeedsToApplySortingMode) {
// We should repopulate container and then apply sortingMode. To avoid
// sorting 2 times we simply do that here.
mResult->SetSortingMode(mResult->mSortingMode);
}
else if (mOptions->QueryType() != nsINavHistoryQueryOptions::QUERY_TYPE_HISTORY ||
sortType != nsINavHistoryQueryOptions::SORT_BY_NONE) {
// The default SORT_BY_NONE sorts by the bookmark index (position),
// which we do not have for history queries.
// Once we've computed all tree stats, we can sort, because containers will
// then have proper visit counts and dates.
SortComparator comparator = GetSortingComparator(GetSortType());
if (comparator) {
nsAutoCString sortingAnnotation;
GetSortingAnnotation(sortingAnnotation);
// Usually containers queries results comes already sorted from the
// database, but some locales could have special rules to sort by title.
// RecursiveSort won't apply these rules to containers in containers
// queries because when setting sortingMode on the result we want to sort
// contained items (bug 473157).
// Base container RecursiveSort will sort both our children and all
// descendants, and is used in this case because we have to do manual
// title sorting.
// Query RecursiveSort will instead only sort descendants if we are a
// constinaersQuery, e.g. a grouped query that will return other queries.
// For other type of queries it will act as the base one.
if (IsContainersQuery() &&
sortType == mOptions->SortingMode() &&
(sortType == nsINavHistoryQueryOptions::SORT_BY_TITLE_ASCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_TITLE_DESCENDING))
nsNavHistoryContainerResultNode::RecursiveSort(sortingAnnotation.get(), comparator);
else
RecursiveSort(sortingAnnotation.get(), comparator);
}
}
// if we are limiting our results remove items from the end of the
// mChildren array after sorting. This is done for root node only.
// note, if count < max results, we won't do anything.
if (!mParent && mOptions->MaxResults()) {
while ((uint32_t)mChildren.Count() > mOptions->MaxResults())
mChildren.RemoveObjectAt(mChildren.Count() - 1);
}
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
if (mOptions->QueryType() == nsINavHistoryQueryOptions::QUERY_TYPE_HISTORY ||
mOptions->QueryType() == nsINavHistoryQueryOptions::QUERY_TYPE_UNIFIED) {
// Date containers that contain site containers have no reason to observe
// history, if the inside site container is expanded it will update,
// otherwise we are going to refresh the parent query.
if (!mParent || mParent->mOptions->ResultType() != nsINavHistoryQueryOptions::RESULTS_AS_DATE_SITE_QUERY) {
// register with the result for history updates
result->AddHistoryObserver(this);
}
}
if (mOptions->QueryType() == nsINavHistoryQueryOptions::QUERY_TYPE_BOOKMARKS ||
mOptions->QueryType() == nsINavHistoryQueryOptions::QUERY_TYPE_UNIFIED ||
mLiveUpdate == QUERYUPDATE_COMPLEX_WITH_BOOKMARKS ||
mHasSearchTerms) {
// register with the result for bookmark updates
result->AddAllBookmarksObserver(this);
}
mContentsValid = true;
return NS_OK;
}
/**
* Call with unregister = false when we are going to update the children (for
* example, when the container is open). This will clear the list and notify
* all the children that they are going away.
*
* When the results are becoming invalid and we are not going to refresh them,
* set unregister = true, which will unregister the listener from the
* result if any. We use unregister = false when we are refreshing the list
* immediately so want to stay a notifier.
*/
void
nsNavHistoryQueryResultNode::ClearChildren(bool aUnregister)
{
for (int32_t i = 0; i < mChildren.Count(); ++i)
mChildren[i]->OnRemoving();
mChildren.Clear();
if (aUnregister && mContentsValid) {
nsNavHistoryResult* result = GetResult();
if (result) {
result->RemoveHistoryObserver(this);
result->RemoveAllBookmarksObserver(this);
}
}
mContentsValid = false;
}
/**
* This is called to update the result when something has changed that we
* can not incrementally update.
*/
nsresult
nsNavHistoryQueryResultNode::Refresh()
{
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
if (result->mBatchInProgress) {
result->requestRefresh(this);
return NS_OK;
}
// This is not a root node but it does not have a parent - this means that
// the node has already been cleared and it is now called, because it was
// left in a local copy of the observers array.
if (mIndentLevel > -1 && !mParent)
return NS_OK;
// Do not refresh if we are not expanded or if we are child of a query
// containing other queries. In this case calling Refresh for each child
// query could cause a major slowdown. We should not refresh nested
// queries, since we will already refresh the parent one.
if (!mExpanded ||
(mParent && mParent->IsQuery() &&
mParent->GetAsQuery()->IsContainersQuery())) {
// Don't update, just invalidate and unhook
ClearChildren(true);
return NS_OK; // no updates in tree state
}
if (mLiveUpdate == QUERYUPDATE_COMPLEX_WITH_BOOKMARKS)
ClearChildren(true);
else
ClearChildren(false);
// Ignore errors from FillChildren, since we will still want to refresh
// the tree (there just might not be anything in it on error).
(void)FillChildren();
NOTIFY_RESULT_OBSERVERS(result, InvalidateContainer(TO_CONTAINER(this)));
return NS_OK;
}
/**
* Here, we override GetSortType to return the current sorting for this
* query. GetSortType is used when dynamically inserting query results so we
* can see which comparator we should use to find the proper insertion point
* (it shouldn't be called from folder containers which maintain their own
* sorting).
*
* Normally, the container just forwards it up the chain. This is what we want
* for host groups, for example. For queries, we often want to use the query's
* sorting mode.
*
* However, we only use this query node's sorting when it is not the root.
* When it is the root, we use the result's sorting mode. This is because
* there are two cases:
* - You are looking at a bookmark hierarchy that contains an embedded
* result. We should always use the query's sort ordering since the result
* node's headers have nothing to do with us (and are disabled).
* - You are looking at a query in the tree. In this case, we want the
* result sorting to override ours (it should be initialized to the same
* sorting mode).
*/
uint16_t
nsNavHistoryQueryResultNode::GetSortType()
{
if (mParent)
return mOptions->SortingMode();
if (mResult)
return mResult->mSortingMode;
// This is a detached container, just use natural order.
return nsINavHistoryQueryOptions::SORT_BY_NONE;
}
void
nsNavHistoryQueryResultNode::GetSortingAnnotation(nsACString& aAnnotation) {
if (mParent) {
// use our sorting, we are not the root
mOptions->GetSortingAnnotation(aAnnotation);
}
else if (mResult) {
aAnnotation.Assign(mResult->mSortingAnnotation);
}
}
void
nsNavHistoryQueryResultNode::RecursiveSort(
const char* aData, SortComparator aComparator)
{
void* data = const_cast<void*>(static_cast<const void*>(aData));
if (!IsContainersQuery())
mChildren.Sort(aComparator, data);
for (int32_t i = 0; i < mChildren.Count(); ++i) {
if (mChildren[i]->IsContainer())
mChildren[i]->GetAsContainer()->RecursiveSort(aData, aComparator);
}
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnBeginUpdateBatch()
{
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnEndUpdateBatch()
{
// If the query has no children it's possible it's not yet listening to
// bookmarks changes, in such a case it's safer to force a refresh to gather
// eventual new nodes matching query options.
if (mChildren.Count() == 0) {
nsresult rv = Refresh();
NS_ENSURE_SUCCESS(rv, rv);
}
mBatchChanges = 0;
return NS_OK;
}
static nsresult setHistoryDetailsCallback(nsNavHistoryResultNode* aNode,
const void* aClosure,
const nsNavHistoryResult* aResult)
{
const nsNavHistoryResultNode* updatedNode =
static_cast<const nsNavHistoryResultNode*>(aClosure);
aNode->mAccessCount = updatedNode->mAccessCount;
aNode->mTime = updatedNode->mTime;
aNode->mFrecency = updatedNode->mFrecency;
aNode->mHidden = updatedNode->mHidden;
return NS_OK;
}
/**
* Here we need to update all copies of the URI we have with the new visit
* count, and potentially add a new entry in our query. This is the most
* common update operation and it is important that it be as efficient as
* possible.
*/
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnVisit(nsIURI* aURI, int64_t aVisitId,
PRTime aTime, int64_t aSessionId,
int64_t aReferringId,
uint32_t aTransitionType,
const nsACString& aGUID,
bool aHidden,
uint32_t* aAdded)
{
if (aHidden && !mOptions->IncludeHidden())
return NS_OK;
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
if (result->mBatchInProgress &&
++mBatchChanges > MAX_BATCH_CHANGES_BEFORE_REFRESH) {
nsresult rv = Refresh();
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
switch(mLiveUpdate) {
case QUERYUPDATE_HOST: {
// For these simple yet common cases we can check the host ourselves
// before doing the overhead of creating a new result node.
MOZ_ASSERT(mQueries.Count() == 1,
"Host updated queries can have only one object");
nsRefPtr<nsNavHistoryQuery> query = do_QueryObject(mQueries[0]);
bool hasDomain;
query->GetHasDomain(&hasDomain);
if (!hasDomain)
return NS_OK;
nsAutoCString host;
if (NS_FAILED(aURI->GetAsciiHost(host)))
return NS_OK;
if (!query->Domain().Equals(host))
return NS_OK;
// Fall through to check the time, if the time is not present it will
// still match.
}
case QUERYUPDATE_TIME: {
// For these simple yet common cases we can check the time ourselves
// before doing the overhead of creating a new result node.
MOZ_ASSERT(mQueries.Count() == 1,
"Time updated queries can have only one object");
nsRefPtr<nsNavHistoryQuery> query = do_QueryObject(mQueries[0]);
bool hasIt;
query->GetHasBeginTime(&hasIt);
if (hasIt) {
PRTime beginTime = history->NormalizeTime(query->BeginTimeReference(),
query->BeginTime());
if (aTime < beginTime)
return NS_OK; // before our time range
}
query->GetHasEndTime(&hasIt);
if (hasIt) {
PRTime endTime = history->NormalizeTime(query->EndTimeReference(),
query->EndTime());
if (aTime > endTime)
return NS_OK; // after our time range
}
// Now we know that our visit satisfies the time range, fallback to the
// QUERYUPDATE_SIMPLE case.
}
case QUERYUPDATE_SIMPLE: {
// If all of the queries are filtered by some transitions, skip the
// update if aTransitionType doesn't match any of them.
if (mTransitions.Length() > 0 && !mTransitions.Contains(aTransitionType))
return NS_OK;
// The history service can tell us whether the new item should appear
// in the result. We first have to construct a node for it to check.
nsRefPtr<nsNavHistoryResultNode> addition;
nsresult rv = history->VisitIdToResultNode(aVisitId, mOptions,
getter_AddRefs(addition));
NS_ENSURE_SUCCESS(rv, rv);
NS_ENSURE_STATE(addition);
addition->mTransitionType = aTransitionType;
if (!history->EvaluateQueryForNode(mQueries, mOptions, addition))
return NS_OK; // don't need to include in our query
if (mOptions->ResultType() == nsNavHistoryQueryOptions::RESULTS_AS_VISIT) {
// If this is a visit type query, just insert the new visit. We never
// update visits, only add or remove them.
rv = InsertSortedChild(addition);
NS_ENSURE_SUCCESS(rv, rv);
} else {
uint16_t sortType = GetSortType();
bool updateSorting =
sortType == nsINavHistoryQueryOptions::SORT_BY_VISITCOUNT_ASCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_VISITCOUNT_DESCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_DATE_ASCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_DATE_DESCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_FRECENCY_ASCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_FRECENCY_DESCENDING;
if (!UpdateURIs(false, true, updateSorting, addition->mURI,
setHistoryDetailsCallback,
const_cast<void*>(static_cast<void*>(addition.get())))) {
// Couldn't find a node to update.
rv = InsertSortedChild(addition);
NS_ENSURE_SUCCESS(rv, rv);
}
}
if (aAdded)
++(*aAdded);
break;
}
case QUERYUPDATE_COMPLEX:
case QUERYUPDATE_COMPLEX_WITH_BOOKMARKS:
// need to requery in complex cases
return Refresh();
default:
MOZ_ASSERT(false, "Invalid value for mLiveUpdate");
return Refresh();
}
return NS_OK;
}
/**
* Find every node that matches this URI and rename it. We try to do
* incremental updates here, even when we are closed, because changing titles
* is easier than requerying if we are invalid.
*
* This actually gets called a lot. Typically, we will get an AddURI message
* when the user visits the page, and then the title will be set asynchronously
* when the title element of the page is parsed.
*/
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnTitleChanged(nsIURI* aURI,
const nsAString& aPageTitle,
const nsACString& aGUID)
{
if (!mExpanded) {
// When we are not expanded, we don't update, just invalidate and unhook.
// It would still be pretty easy to traverse the results and update the
// titles, but when a title changes, its unlikely that it will be the only
// thing. Therefore, we just give up.
ClearChildren(true);
return NS_OK; // no updates in tree state
}
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
if (result->mBatchInProgress &&
++mBatchChanges > MAX_BATCH_CHANGES_BEFORE_REFRESH) {
nsresult rv = Refresh();
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
// compute what the new title should be
NS_ConvertUTF16toUTF8 newTitle(aPageTitle);
bool onlyOneEntry =
mOptions->ResultType() == nsINavHistoryQueryOptions::RESULTS_AS_URI ||
mOptions->ResultType() == nsINavHistoryQueryOptions::RESULTS_AS_TAG_CONTENTS;
// See if our queries have any search term matching.
if (mHasSearchTerms) {
// Find all matching URI nodes.
nsCOMArray<nsNavHistoryResultNode> matches;
nsAutoCString spec;
nsresult rv = aURI->GetSpec(spec);
NS_ENSURE_SUCCESS(rv, rv);
RecursiveFindURIs(onlyOneEntry, this, spec, &matches);
if (matches.Count() == 0) {
// This could be a new node matching the query, thus we could need
// to add it to the result.
nsRefPtr<nsNavHistoryResultNode> node;
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
rv = history->URIToResultNode(aURI, mOptions, getter_AddRefs(node));
NS_ENSURE_SUCCESS(rv, rv);
if (history->EvaluateQueryForNode(mQueries, mOptions, node)) {
rv = InsertSortedChild(node, true);
NS_ENSURE_SUCCESS(rv, rv);
}
}
for (int32_t i = 0; i < matches.Count(); ++i) {
// For each matched node we check if it passes the query filter, if not
// we remove the node from the result, otherwise we'll update the title
// later.
nsNavHistoryResultNode* node = matches[i];
// We must check the node with the new title.
node->mTitle = newTitle;
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
if (!history->EvaluateQueryForNode(mQueries, mOptions, node)) {
nsNavHistoryContainerResultNode* parent = node->mParent;
// URI nodes should always have parents
NS_ENSURE_TRUE(parent, NS_ERROR_UNEXPECTED);
int32_t childIndex = parent->FindChild(node);
NS_ASSERTION(childIndex >= 0, "Child not found in parent");
parent->RemoveChildAt(childIndex);
}
}
}
return ChangeTitles(aURI, newTitle, true, onlyOneEntry);
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnFrecencyChanged(nsIURI* aURI,
int32_t aNewFrecency,
const nsACString& aGUID,
bool aHidden,
PRTime aLastVisitDate)
{
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnManyFrecenciesChanged()
{
return NS_OK;
}
/**
* Here, we can always live update by just deleting all occurrences of
* the given URI.
*/
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnDeleteURI(nsIURI* aURI,
const nsACString& aGUID,
uint16_t aReason)
{
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
if (result->mBatchInProgress &&
++mBatchChanges > MAX_BATCH_CHANGES_BEFORE_REFRESH) {
nsresult rv = Refresh();
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
if (IsContainersQuery()) {
// Incremental updates of query returning queries are pretty much
// complicated. In this case it's possible one of the child queries has
// no more children and it should be removed. Unfortunately there is no
// way to know that without executing the child query and counting results.
nsresult rv = Refresh();
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
bool onlyOneEntry = (mOptions->ResultType() ==
nsINavHistoryQueryOptions::RESULTS_AS_URI ||
mOptions->ResultType() ==
nsINavHistoryQueryOptions::RESULTS_AS_TAG_CONTENTS);
nsAutoCString spec;
nsresult rv = aURI->GetSpec(spec);
NS_ENSURE_SUCCESS(rv, rv);
nsCOMArray<nsNavHistoryResultNode> matches;
RecursiveFindURIs(onlyOneEntry, this, spec, &matches);
for (int32_t i = 0; i < matches.Count(); ++i) {
nsNavHistoryResultNode* node = matches[i];
nsNavHistoryContainerResultNode* parent = node->mParent;
// URI nodes should always have parents
NS_ENSURE_TRUE(parent, NS_ERROR_UNEXPECTED);
int32_t childIndex = parent->FindChild(node);
NS_ASSERTION(childIndex >= 0, "Child not found in parent");
parent->RemoveChildAt(childIndex);
if (parent->mChildren.Count() == 0 && parent->IsQuery() &&
parent->mIndentLevel > -1) {
// When query subcontainers (like hosts) get empty we should remove them
// as well. If the parent is not the root node, append it to our list
// and it will get evaluated later in the loop.
matches.AppendObject(parent);
}
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnClearHistory()
{
nsresult rv = Refresh();
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
static nsresult setFaviconCallback(nsNavHistoryResultNode* aNode,
const void* aClosure,
const nsNavHistoryResult* aResult)
{
const nsCString* newFavicon = static_cast<const nsCString*>(aClosure);
aNode->mFaviconURI = *newFavicon;
if (aResult && (!aNode->mParent || aNode->mParent->AreChildrenVisible()))
NOTIFY_RESULT_OBSERVERS(aResult, NodeIconChanged(aNode));
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnPageChanged(nsIURI* aURI,
uint32_t aChangedAttribute,
const nsAString& aNewValue,
const nsACString& aGUID)
{
nsAutoCString spec;
nsresult rv = aURI->GetSpec(spec);
NS_ENSURE_SUCCESS(rv, rv);
switch (aChangedAttribute) {
case nsINavHistoryObserver::ATTRIBUTE_FAVICON: {
NS_ConvertUTF16toUTF8 newFavicon(aNewValue);
bool onlyOneEntry = (mOptions->ResultType() ==
nsINavHistoryQueryOptions::RESULTS_AS_URI ||
mOptions->ResultType() ==
nsINavHistoryQueryOptions::RESULTS_AS_TAG_CONTENTS);
UpdateURIs(true, onlyOneEntry, false, spec, setFaviconCallback,
&newFavicon);
break;
}
default:
NS_WARNING("Unknown page changed notification");
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnDeleteVisits(nsIURI* aURI,
PRTime aVisitTime,
const nsACString& aGUID,
uint16_t aReason,
uint32_t aTransitionType)
{
NS_PRECONDITION(mOptions->QueryType() == nsINavHistoryQueryOptions::QUERY_TYPE_HISTORY,
"Bookmarks queries should not get a OnDeleteVisits notification");
if (aVisitTime == 0) {
// All visits for this uri have been removed, but the uri won't be removed
// from the databse, most likely because it's a bookmark. For a history
// query this is equivalent to a onDeleteURI notification.
nsresult rv = OnDeleteURI(aURI, aGUID, aReason);
NS_ENSURE_SUCCESS(rv, rv);
}
if (aTransitionType > 0) {
// All visits for aTransitionType have been removed, if the query is
// filtering on such transition type, this is equivalent to an onDeleteURI
// notification.
if (mTransitions.Length() > 0 && mTransitions.Contains(aTransitionType)) {
nsresult rv = OnDeleteURI(aURI, aGUID, aReason);
NS_ENSURE_SUCCESS(rv, rv);
}
}
return NS_OK;
}
nsresult
nsNavHistoryQueryResultNode::NotifyIfTagsChanged(nsIURI* aURI)
{
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
nsAutoCString spec;
nsresult rv = aURI->GetSpec(spec);
NS_ENSURE_SUCCESS(rv, rv);
bool onlyOneEntry = (mOptions->ResultType() ==
nsINavHistoryQueryOptions::RESULTS_AS_URI ||
mOptions->ResultType() ==
nsINavHistoryQueryOptions::RESULTS_AS_TAG_CONTENTS
);
// Find matching URI nodes.
nsRefPtr<nsNavHistoryResultNode> node;
nsNavHistory* history = nsNavHistory::GetHistoryService();
nsCOMArray<nsNavHistoryResultNode> matches;
RecursiveFindURIs(onlyOneEntry, this, spec, &matches);
if (matches.Count() == 0 && mHasSearchTerms && !mRemovingURI) {
// A new tag has been added, it's possible it matches our query.
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
rv = history->URIToResultNode(aURI, mOptions, getter_AddRefs(node));
NS_ENSURE_SUCCESS(rv, rv);
if (history->EvaluateQueryForNode(mQueries, mOptions, node)) {
rv = InsertSortedChild(node, true);
NS_ENSURE_SUCCESS(rv, rv);
}
}
for (int32_t i = 0; i < matches.Count(); ++i) {
nsNavHistoryResultNode* node = matches[i];
// Force a tags update before checking the node.
node->mTags.SetIsVoid(true);
nsAutoString tags;
rv = node->GetTags(tags);
NS_ENSURE_SUCCESS(rv, rv);
// It's possible now this node does not respect anymore the conditions.
// In such a case it should be removed.
if (mHasSearchTerms &&
!history->EvaluateQueryForNode(mQueries, mOptions, node)) {
nsNavHistoryContainerResultNode* parent = node->mParent;
// URI nodes should always have parents
NS_ENSURE_TRUE(parent, NS_ERROR_UNEXPECTED);
int32_t childIndex = parent->FindChild(node);
NS_ASSERTION(childIndex >= 0, "Child not found in parent");
parent->RemoveChildAt(childIndex);
}
else {
NOTIFY_RESULT_OBSERVERS(result, NodeTagsChanged(node));
}
}
return NS_OK;
}
/**
* These are the bookmark observer functions for query nodes. They listen
* for bookmark events and refresh the results if we have any dependence on
* the bookmark system.
*/
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnItemAdded(int64_t aItemId,
int64_t aParentId,
int32_t aIndex,
uint16_t aItemType,
nsIURI* aURI,
const nsACString& aTitle,
PRTime aDateAdded,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
if (aItemType == nsINavBookmarksService::TYPE_BOOKMARK &&
mLiveUpdate != QUERYUPDATE_SIMPLE && mLiveUpdate != QUERYUPDATE_TIME) {
nsresult rv = Refresh();
NS_ENSURE_SUCCESS(rv, rv);
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnItemRemoved(int64_t aItemId,
int64_t aParentId,
int32_t aIndex,
uint16_t aItemType,
nsIURI* aURI,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
mRemovingURI = aURI;
if (aItemType == nsINavBookmarksService::TYPE_BOOKMARK &&
mLiveUpdate != QUERYUPDATE_SIMPLE && mLiveUpdate != QUERYUPDATE_TIME) {
nsresult rv = Refresh();
NS_ENSURE_SUCCESS(rv, rv);
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnItemChanged(int64_t aItemId,
const nsACString& aProperty,
bool aIsAnnotationProperty,
const nsACString& aNewValue,
PRTime aLastModified,
uint16_t aItemType,
int64_t aParentId,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
// History observers should not get OnItemChanged
// but should get the corresponding history notifications instead.
// For bookmark queries, "all bookmark" observers should get OnItemChanged.
// For example, when a title of a bookmark changes, we want that to refresh.
if (mLiveUpdate == QUERYUPDATE_COMPLEX_WITH_BOOKMARKS) {
switch (aItemType) {
case nsINavBookmarksService::TYPE_SEPARATOR:
// No separators in queries.
return NS_OK;
case nsINavBookmarksService::TYPE_FOLDER:
// Queries never result as "folders", but the tags-query results as
// special "tag" containers, which should follow their corresponding
// folders titles.
if (mOptions->ResultType() != nsINavHistoryQueryOptions::RESULTS_AS_TAG_QUERY)
return NS_OK;
default:
(void)Refresh();
}
}
else {
// Some node could observe both bookmarks and history. But a node observing
// only history should never get a bookmark notification.
NS_WARN_IF_FALSE(mResult && (mResult->mIsAllBookmarksObserver || mResult->mIsBookmarkFolderObserver),
"history observers should not get OnItemChanged, but should get the corresponding history notifications instead");
// Tags in history queries are a special case since tags are per uri and
// we filter tags based on searchterms.
if (aItemType == nsINavBookmarksService::TYPE_BOOKMARK &&
aProperty.EqualsLiteral("tags")) {
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
NS_ENSURE_TRUE(bookmarks, NS_ERROR_OUT_OF_MEMORY);
nsCOMPtr<nsIURI> uri;
nsresult rv = bookmarks->GetBookmarkURI(aItemId, getter_AddRefs(uri));
NS_ENSURE_SUCCESS(rv, rv);
rv = NotifyIfTagsChanged(uri);
NS_ENSURE_SUCCESS(rv, rv);
}
}
return nsNavHistoryResultNode::OnItemChanged(aItemId, aProperty,
aIsAnnotationProperty,
aNewValue, aLastModified,
aItemType, aParentId, aGUID,
aParentGUID);
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnItemVisited(int64_t aItemId,
int64_t aVisitId,
PRTime aTime,
uint32_t aTransitionType,
nsIURI* aURI,
int64_t aParentId,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
// for bookmark queries, "all bookmark" observer should get OnItemVisited
// but it is ignored.
if (mLiveUpdate != QUERYUPDATE_COMPLEX_WITH_BOOKMARKS)
NS_WARN_IF_FALSE(mResult && (mResult->mIsAllBookmarksObserver || mResult->mIsBookmarkFolderObserver),
"history observers should not get OnItemVisited, but should get OnVisit instead");
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryQueryResultNode::OnItemMoved(int64_t aFolder,
int64_t aOldParent,
int32_t aOldIndex,
int64_t aNewParent,
int32_t aNewIndex,
uint16_t aItemType,
const nsACString& aGUID,
const nsACString& aOldParentGUID,
const nsACString& aNewParentGUID)
{
// 1. The query cannot be affected by the item's position
// 2. For the time being, we cannot optimize this not to update
// queries which are not restricted to some folders, due to way
// sub-queries are updated (see Refresh)
if (mLiveUpdate == QUERYUPDATE_COMPLEX_WITH_BOOKMARKS &&
aItemType != nsINavBookmarksService::TYPE_SEPARATOR &&
aOldParent != aNewParent) {
return Refresh();
}
return NS_OK;
}
/**
* HOW DYNAMIC FOLDER UPDATING WORKS
*
* When you create a result, it will automatically keep itself in sync with
* stuff that happens in the system. For folder nodes, this means changes to
* bookmarks.
*
* A folder will fill its children "when necessary." This means it is being
* opened or whether we need to see if it is empty for twisty drawing. It will
* then register its ID with the main result object that owns it. This result
* object will listen for all bookmark notifications and pass those
* notifications to folder nodes that have registered for that specific folder
* ID.
*
* When a bookmark folder is closed, it will not clear its children. Instead,
* it will keep them and also stay registered as a listener. This means that
* you can more quickly re-open the same folder without doing any work. This
* happens a lot for menus, and bookmarks don't change very often.
*
* When a message comes in and the folder is open, we will do the correct
* operations to keep ourselves in sync with the bookmark service. If the
* folder is closed, we just clear our list to mark it as invalid and
* unregister as a listener. This means we do not have to keep maintaining
* an up-to-date list for the entire bookmark menu structure in every place
* it is used.
*/
NS_IMPL_ISUPPORTS_INHERITED(nsNavHistoryFolderResultNode,
nsNavHistoryContainerResultNode,
nsINavHistoryQueryResultNode)
nsNavHistoryFolderResultNode::nsNavHistoryFolderResultNode(
const nsACString& aTitle, nsNavHistoryQueryOptions* aOptions,
int64_t aFolderId) :
nsNavHistoryContainerResultNode(EmptyCString(), aTitle, EmptyCString(),
nsNavHistoryResultNode::RESULT_TYPE_FOLDER,
false, aOptions),
mContentsValid(false),
mQueryItemId(-1),
mIsRegisteredFolderObserver(false)
{
mItemId = aFolderId;
}
nsNavHistoryFolderResultNode::~nsNavHistoryFolderResultNode()
{
if (mIsRegisteredFolderObserver && mResult)
mResult->RemoveBookmarkFolderObserver(this, mItemId);
}
/**
* Here we do not want to call ContainerResultNode::OnRemoving since our own
* ClearChildren will do the same thing and more (unregister the observers).
* The base ResultNode::OnRemoving will clear some regular node stats, so it is
* OK.
*/
void
nsNavHistoryFolderResultNode::OnRemoving()
{
nsNavHistoryResultNode::OnRemoving();
ClearChildren(true);
mResult = nullptr;
}
nsresult
nsNavHistoryFolderResultNode::OpenContainer()
{
NS_ASSERTION(!mExpanded, "Container must be expanded to close it");
nsresult rv;
if (!mContentsValid) {
rv = FillChildren();
NS_ENSURE_SUCCESS(rv, rv);
}
mExpanded = true;
rv = NotifyOnStateChange(STATE_CLOSED);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
/**
* The async version of OpenContainer.
*/
nsresult
nsNavHistoryFolderResultNode::OpenContainerAsync()
{
NS_ASSERTION(!mExpanded, "Container already expanded when opening it");
// If the children are valid, open the container synchronously. This will be
// the case when the container has already been opened and any other time
// FillChildren or FillChildrenAsync has previously been called.
if (mContentsValid)
return OpenContainer();
nsresult rv = FillChildrenAsync();
NS_ENSURE_SUCCESS(rv, rv);
rv = NotifyOnStateChange(STATE_CLOSED);
NS_ENSURE_SUCCESS(rv, rv);
return NS_OK;
}
/**
* @see nsNavHistoryQueryResultNode::HasChildren. The semantics here are a
* little different. Querying the contents of a bookmark folder is relatively
* fast and it is common to have empty folders. Therefore, we always want to
* return the correct result so that twisties are drawn properly.
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::GetHasChildren(bool* aHasChildren)
{
if (!mContentsValid) {
nsresult rv = FillChildren();
NS_ENSURE_SUCCESS(rv, rv);
}
*aHasChildren = (mChildren.Count() > 0);
return NS_OK;
}
/**
* @return the id of the item from which the folder node was generated, it
* could be either a concrete folder-itemId or the id used in a
* simple-folder-query-bookmark (place:folder=X).
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::GetItemId(int64_t* aItemId)
{
*aItemId = mQueryItemId == -1 ? mItemId : mQueryItemId;
return NS_OK;
}
/**
* Here, we override the getter and ignore the value stored in our object.
* The bookmarks service can tell us whether this folder should be read-only
* or not.
*
* It would be nice to put this code in the folder constructor, but the
* database was complaining. I believe it is because most folders are created
* while enumerating the bookmarks table and having a statement open, and doing
* another statement might make it unhappy in some cases.
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::GetChildrenReadOnly(bool *aChildrenReadOnly)
{
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
NS_ENSURE_TRUE(bookmarks, NS_ERROR_UNEXPECTED);
return bookmarks->GetFolderReadonly(mItemId, aChildrenReadOnly);
}
NS_IMETHODIMP
nsNavHistoryFolderResultNode::GetFolderItemId(int64_t* aItemId)
{
*aItemId = mItemId;
return NS_OK;
}
/**
* Lazily computes the URI for this specific folder query with the current
* options.
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::GetUri(nsACString& aURI)
{
if (!mURI.IsEmpty()) {
aURI = mURI;
return NS_OK;
}
uint32_t queryCount;
nsINavHistoryQuery** queries;
nsresult rv = GetQueries(&queryCount, &queries);
NS_ENSURE_SUCCESS(rv, rv);
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
rv = history->QueriesToQueryString(queries, queryCount, mOptions, aURI);
for (uint32_t queryIndex = 0; queryIndex < queryCount; ++queryIndex) {
NS_RELEASE(queries[queryIndex]);
}
nsMemory::Free(queries);
return rv;
}
/**
* @return the queries that give you this bookmarks folder
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::GetQueries(uint32_t* queryCount,
nsINavHistoryQuery*** queries)
{
// get the query object
nsCOMPtr<nsINavHistoryQuery> query;
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
nsresult rv = history->GetNewQuery(getter_AddRefs(query));
NS_ENSURE_SUCCESS(rv, rv);
// query just has the folder ID set and nothing else
rv = query->SetFolders(&mItemId, 1);
NS_ENSURE_SUCCESS(rv, rv);
// make array of our 1 query
*queries = static_cast<nsINavHistoryQuery**>
(nsMemory::Alloc(sizeof(nsINavHistoryQuery*)));
if (!*queries)
return NS_ERROR_OUT_OF_MEMORY;
NS_ADDREF((*queries)[0] = query);
*queryCount = 1;
return NS_OK;
}
/**
* Options for the query that gives you this bookmarks folder. This is just
* the options for the folder with the current folder ID set.
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::GetQueryOptions(
nsINavHistoryQueryOptions** aQueryOptions)
{
NS_ASSERTION(mOptions, "Options invalid");
*aQueryOptions = mOptions;
NS_ADDREF(*aQueryOptions);
return NS_OK;
}
nsresult
nsNavHistoryFolderResultNode::FillChildren()
{
NS_ASSERTION(!mContentsValid,
"Don't call FillChildren when contents are valid");
NS_ASSERTION(mChildren.Count() == 0,
"We are trying to fill children when there already are some");
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
NS_ENSURE_TRUE(bookmarks, NS_ERROR_OUT_OF_MEMORY);
// Actually get the folder children from the bookmark service.
nsresult rv = bookmarks->QueryFolderChildren(mItemId, mOptions, &mChildren);
NS_ENSURE_SUCCESS(rv, rv);
// PERFORMANCE: it may be better to also fill any child folders at this point
// so that we can draw tree twisties without doing a separate query later.
// If we don't end up drawing twisties a lot, it doesn't matter. If we do
// this, we should wrap everything in a transaction here on the bookmark
// service's connection.
return OnChildrenFilled();
}
/**
* Performs some tasks after all the children of the container have been added.
* The container's contents are not valid until this method has been called.
*/
nsresult
nsNavHistoryFolderResultNode::OnChildrenFilled()
{
// It is important to call FillStats to fill in the parents on all
// nodes and the result node pointers on the containers.
FillStats();
if (mResult && mResult->mNeedsToApplySortingMode) {
// We should repopulate container and then apply sortingMode. To avoid
// sorting 2 times we simply do that here.
mResult->SetSortingMode(mResult->mSortingMode);
}
else {
// Once we've computed all tree stats, we can sort, because containers will
// then have proper visit counts and dates.
SortComparator comparator = GetSortingComparator(GetSortType());
if (comparator) {
nsAutoCString sortingAnnotation;
GetSortingAnnotation(sortingAnnotation);
RecursiveSort(sortingAnnotation.get(), comparator);
}
}
// If we are limiting our results remove items from the end of the
// mChildren array after sorting. This is done for root node only.
// Note, if count < max results, we won't do anything.
if (!mParent && mOptions->MaxResults()) {
while ((uint32_t)mChildren.Count() > mOptions->MaxResults())
mChildren.RemoveObjectAt(mChildren.Count() - 1);
}
// Register with the result for updates.
EnsureRegisteredAsFolderObserver();
mContentsValid = true;
return NS_OK;
}
/**
* Registers the node with its result as a folder observer if it is not already
* registered.
*/
void
nsNavHistoryFolderResultNode::EnsureRegisteredAsFolderObserver()
{
if (!mIsRegisteredFolderObserver && mResult) {
mResult->AddBookmarkFolderObserver(this, mItemId);
mIsRegisteredFolderObserver = true;
}
}
/**
* The async version of FillChildren. This begins asynchronous execution by
* calling nsNavBookmarks::QueryFolderChildrenAsync. During execution, this
* node's async Storage callbacks, HandleResult and HandleCompletion, will be
* called.
*/
nsresult
nsNavHistoryFolderResultNode::FillChildrenAsync()
{
NS_ASSERTION(!mContentsValid, "FillChildrenAsync when contents are valid");
NS_ASSERTION(mChildren.Count() == 0, "FillChildrenAsync when children exist");
// ProcessFolderNodeChild, called in HandleResult, increments this for every
// result row it processes. Initialize it here as we begin async execution.
mAsyncBookmarkIndex = -1;
nsNavBookmarks* bmSvc = nsNavBookmarks::GetBookmarksService();
NS_ENSURE_TRUE(bmSvc, NS_ERROR_OUT_OF_MEMORY);
nsresult rv =
bmSvc->QueryFolderChildrenAsync(this, mItemId,
getter_AddRefs(mAsyncPendingStmt));
NS_ENSURE_SUCCESS(rv, rv);
// Register with the result for updates. All updates during async execution
// will cause it to be restarted.
EnsureRegisteredAsFolderObserver();
return NS_OK;
}
/**
* A mozIStorageStatementCallback method. Called during the async execution
* begun by FillChildrenAsync.
*
* @param aResultSet
* The result set containing the data from the database.
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::HandleResult(mozIStorageResultSet* aResultSet)
{
NS_ENSURE_ARG_POINTER(aResultSet);
nsNavBookmarks* bmSvc = nsNavBookmarks::GetBookmarksService();
if (!bmSvc) {
CancelAsyncOpen(false);
return NS_ERROR_OUT_OF_MEMORY;
}
// Consume all the currently available rows of the result set.
nsCOMPtr<mozIStorageRow> row;
while (NS_SUCCEEDED(aResultSet->GetNextRow(getter_AddRefs(row))) && row) {
nsresult rv = bmSvc->ProcessFolderNodeRow(row, mOptions, &mChildren,
mAsyncBookmarkIndex);
if (NS_FAILED(rv)) {
CancelAsyncOpen(false);
return rv;
}
}
return NS_OK;
}
/**
* A mozIStorageStatementCallback method. Called during the async execution
* begun by FillChildrenAsync.
*
* @param aReason
* Indicates the final state of execution.
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::HandleCompletion(uint16_t aReason)
{
if (aReason == mozIStorageStatementCallback::REASON_FINISHED &&
mAsyncCanceledState == NOT_CANCELED) {
// Async execution successfully completed. The container is ready to open.
nsresult rv = OnChildrenFilled();
NS_ENSURE_SUCCESS(rv, rv);
mExpanded = true;
mAsyncPendingStmt = nullptr;
// Notify observers only after mExpanded and mAsyncPendingStmt are set.
rv = NotifyOnStateChange(STATE_LOADING);
NS_ENSURE_SUCCESS(rv, rv);
}
else if (mAsyncCanceledState == CANCELED_RESTART_NEEDED) {
// Async execution was canceled and needs to be restarted.
mAsyncCanceledState = NOT_CANCELED;
ClearChildren(false);
FillChildrenAsync();
}
else {
// Async execution failed or was canceled without restart. Remove all
// children and close the container, notifying observers.
mAsyncCanceledState = NOT_CANCELED;
ClearChildren(true);
CloseContainer();
}
return NS_OK;
}
void
nsNavHistoryFolderResultNode::ClearChildren(bool unregister)
{
for (int32_t i = 0; i < mChildren.Count(); ++i)
mChildren[i]->OnRemoving();
mChildren.Clear();
bool needsUnregister = unregister && (mContentsValid || mAsyncPendingStmt);
if (needsUnregister && mResult && mIsRegisteredFolderObserver) {
mResult->RemoveBookmarkFolderObserver(this, mItemId);
mIsRegisteredFolderObserver = false;
}
mContentsValid = false;
}
/**
* This is called to update the result when something has changed that we
* can not incrementally update.
*/
nsresult
nsNavHistoryFolderResultNode::Refresh()
{
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
if (result->mBatchInProgress) {
result->requestRefresh(this);
return NS_OK;
}
ClearChildren(true);
if (!mExpanded) {
// When we are not expanded, we don't update, just invalidate and unhook.
return NS_OK;
}
// Ignore errors from FillChildren, since we will still want to refresh
// the tree (there just might not be anything in it on error). ClearChildren
// has unregistered us as an observer since FillChildren will try to
// re-register us.
(void)FillChildren();
NOTIFY_RESULT_OBSERVERS(result, InvalidateContainer(TO_CONTAINER(this)));
return NS_OK;
}
/**
* Implements the logic described above the constructor. This sees if we
* should do an incremental update and returns true if so. If not, it
* invalidates our children, unregisters us an observer, and returns false.
*/
bool
nsNavHistoryFolderResultNode::StartIncrementalUpdate()
{
// if any items are excluded, we can not do incremental updates since the
// indices from the bookmark service will not be valid
if (!mOptions->ExcludeItems() &&
!mOptions->ExcludeQueries() &&
!mOptions->ExcludeReadOnlyFolders()) {
// easy case: we are visible, always do incremental update
if (mExpanded || AreChildrenVisible())
return true;
nsNavHistoryResult* result = GetResult();
NS_ENSURE_TRUE(result, false);
// When any observers are attached also do incremental updates if our
// parent is visible, so that twisties are drawn correctly.
if (mParent)
return result->mObservers.Length() > 0;
}
// otherwise, we don't do incremental updates, invalidate and unregister
(void)Refresh();
return false;
}
/**
* This function adds aDelta to all bookmark indices between the two endpoints,
* inclusive. It is used when items are added or removed from the bookmark
* folder.
*/
void
nsNavHistoryFolderResultNode::ReindexRange(int32_t aStartIndex,
int32_t aEndIndex,
int32_t aDelta)
{
for (int32_t i = 0; i < mChildren.Count(); ++i) {
nsNavHistoryResultNode* node = mChildren[i];
if (node->mBookmarkIndex >= aStartIndex &&
node->mBookmarkIndex <= aEndIndex)
node->mBookmarkIndex += aDelta;
}
}
/**
* Searches this folder for a node with the given id.
*
* @return the node if found, null otherwise.
* @note Does not addref the node!
*/
nsNavHistoryResultNode*
nsNavHistoryFolderResultNode::FindChildById(int64_t aItemId,
uint32_t* aNodeIndex)
{
for (int32_t i = 0; i < mChildren.Count(); ++i) {
if (mChildren[i]->mItemId == aItemId ||
(mChildren[i]->IsFolder() &&
mChildren[i]->GetAsFolder()->mQueryItemId == aItemId)) {
*aNodeIndex = i;
return mChildren[i];
}
}
return nullptr;
}
// Used by nsNavHistoryFolderResultNode's nsINavBookmarkObserver methods below.
// If the container is notified of a bookmark event while asynchronous execution
// is pending, this restarts it and returns.
#define RESTART_AND_RETURN_IF_ASYNC_PENDING() \
if (mAsyncPendingStmt) { \
CancelAsyncOpen(true); \
return NS_OK; \
}
NS_IMETHODIMP
nsNavHistoryFolderResultNode::OnBeginUpdateBatch()
{
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryFolderResultNode::OnEndUpdateBatch()
{
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryFolderResultNode::OnItemAdded(int64_t aItemId,
int64_t aParentFolder,
int32_t aIndex,
uint16_t aItemType,
nsIURI* aURI,
const nsACString& aTitle,
PRTime aDateAdded,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
NS_ASSERTION(aParentFolder == mItemId, "Got wrong bookmark update");
bool excludeItems = (mResult && mResult->mRootNode->mOptions->ExcludeItems()) ||
(mParent && mParent->mOptions->ExcludeItems()) ||
mOptions->ExcludeItems();
// here, try to do something reasonable if the bookmark service gives us
// a bogus index.
if (aIndex < 0) {
NS_NOTREACHED("Invalid index for item adding: <0");
aIndex = 0;
}
else if (aIndex > mChildren.Count()) {
if (!excludeItems) {
// Something wrong happened while updating indexes.
NS_NOTREACHED("Invalid index for item adding: greater than count");
}
aIndex = mChildren.Count();
}
RESTART_AND_RETURN_IF_ASYNC_PENDING();
nsresult rv;
// Check for query URIs, which are bookmarks, but treated as containers
// in results and views.
bool isQuery = false;
if (aItemType == nsINavBookmarksService::TYPE_BOOKMARK) {
NS_ASSERTION(aURI, "Got a null URI when we are a bookmark?!");
nsAutoCString itemURISpec;
rv = aURI->GetSpec(itemURISpec);
NS_ENSURE_SUCCESS(rv, rv);
isQuery = IsQueryURI(itemURISpec);
}
if (aItemType != nsINavBookmarksService::TYPE_FOLDER &&
!isQuery && excludeItems) {
// don't update items when we aren't displaying them, but we still need
// to adjust bookmark indices to account for the insertion
ReindexRange(aIndex, INT32_MAX, 1);
return NS_OK;
}
if (!StartIncrementalUpdate())
return NS_OK; // folder was completely refreshed for us
// adjust indices to account for insertion
ReindexRange(aIndex, INT32_MAX, 1);
nsRefPtr<nsNavHistoryResultNode> node;
if (aItemType == nsINavBookmarksService::TYPE_BOOKMARK) {
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
rv = history->BookmarkIdToResultNode(aItemId, mOptions, getter_AddRefs(node));
NS_ENSURE_SUCCESS(rv, rv);
}
else if (aItemType == nsINavBookmarksService::TYPE_FOLDER) {
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
NS_ENSURE_TRUE(bookmarks, NS_ERROR_OUT_OF_MEMORY);
rv = bookmarks->ResultNodeForContainer(aItemId, mOptions, getter_AddRefs(node));
NS_ENSURE_SUCCESS(rv, rv);
}
else if (aItemType == nsINavBookmarksService::TYPE_SEPARATOR) {
node = new nsNavHistorySeparatorResultNode();
NS_ENSURE_TRUE(node, NS_ERROR_OUT_OF_MEMORY);
node->mItemId = aItemId;
}
node->mBookmarkIndex = aIndex;
if (aItemType == nsINavBookmarksService::TYPE_SEPARATOR ||
GetSortType() == nsINavHistoryQueryOptions::SORT_BY_NONE) {
// insert at natural bookmarks position
return InsertChildAt(node, aIndex);
}
// insert at sorted position
return InsertSortedChild(node, false);
}
NS_IMETHODIMP
nsNavHistoryFolderResultNode::OnItemRemoved(int64_t aItemId,
int64_t aParentFolder,
int32_t aIndex,
uint16_t aItemType,
nsIURI* aURI,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
// We only care about notifications when a child changes. When the deleted
// item is us, our parent should also be registered and will remove us from
// its list.
if (mItemId == aItemId)
return NS_OK;
NS_ASSERTION(aParentFolder == mItemId, "Got wrong bookmark update");
RESTART_AND_RETURN_IF_ASYNC_PENDING();
bool excludeItems = (mResult && mResult->mRootNode->mOptions->ExcludeItems()) ||
(mParent && mParent->mOptions->ExcludeItems()) ||
mOptions->ExcludeItems();
// don't trust the index from the bookmark service, find it ourselves. The
// sorting could be different, or the bookmark services indices and ours might
// be out of sync somehow.
uint32_t index;
nsNavHistoryResultNode* node = FindChildById(aItemId, &index);
if (!node) {
if (excludeItems)
return NS_OK;
NS_NOTREACHED("Removing item we don't have");
return NS_ERROR_FAILURE;
}
if ((node->IsURI() || node->IsSeparator()) && excludeItems) {
// don't update items when we aren't displaying them, but we do need to
// adjust everybody's bookmark indices to account for the removal
ReindexRange(aIndex, INT32_MAX, -1);
return NS_OK;
}
if (!StartIncrementalUpdate())
return NS_OK; // we are completely refreshed
// shift all following indices down
ReindexRange(aIndex + 1, INT32_MAX, -1);
return RemoveChildAt(index);
}
NS_IMETHODIMP
nsNavHistoryResultNode::OnItemChanged(int64_t aItemId,
const nsACString& aProperty,
bool aIsAnnotationProperty,
const nsACString& aNewValue,
PRTime aLastModified,
uint16_t aItemType,
int64_t aParentId,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
if (aItemId != mItemId)
return NS_OK;
mLastModified = aLastModified;
nsNavHistoryResult* result = GetResult();
NS_ENSURE_STATE(result);
bool shouldNotify = !mParent || mParent->AreChildrenVisible();
if (aIsAnnotationProperty) {
if (shouldNotify)
NOTIFY_RESULT_OBSERVERS(result, NodeAnnotationChanged(this, aProperty));
}
else if (aProperty.EqualsLiteral("title")) {
// XXX: what should we do if the new title is void?
mTitle = aNewValue;
if (shouldNotify)
NOTIFY_RESULT_OBSERVERS(result, NodeTitleChanged(this, mTitle));
}
else if (aProperty.EqualsLiteral("uri")) {
// clear the tags string as well
mTags.SetIsVoid(true);
mURI = aNewValue;
if (shouldNotify)
NOTIFY_RESULT_OBSERVERS(result, NodeURIChanged(this, mURI));
}
else if (aProperty.EqualsLiteral("favicon")) {
mFaviconURI = aNewValue;
if (shouldNotify)
NOTIFY_RESULT_OBSERVERS(result, NodeIconChanged(this));
}
else if (aProperty.EqualsLiteral("cleartime")) {
mTime = 0;
if (shouldNotify) {
NOTIFY_RESULT_OBSERVERS(result,
NodeHistoryDetailsChanged(this, 0, mAccessCount));
}
}
else if (aProperty.EqualsLiteral("tags")) {
mTags.SetIsVoid(true);
if (shouldNotify)
NOTIFY_RESULT_OBSERVERS(result, NodeTagsChanged(this));
}
else if (aProperty.EqualsLiteral("dateAdded")) {
// aNewValue has the date as a string, but we can use aLastModified,
// because it's set to the same value when dateAdded is changed.
mDateAdded = aLastModified;
if (shouldNotify)
NOTIFY_RESULT_OBSERVERS(result, NodeDateAddedChanged(this, mDateAdded));
}
else if (aProperty.EqualsLiteral("lastModified")) {
if (shouldNotify) {
NOTIFY_RESULT_OBSERVERS(result,
NodeLastModifiedChanged(this, aLastModified));
}
}
else if (aProperty.EqualsLiteral("keyword")) {
if (shouldNotify)
NOTIFY_RESULT_OBSERVERS(result, NodeKeywordChanged(this, aNewValue));
}
else
NS_NOTREACHED("Unknown bookmark property changing.");
if (!mParent)
return NS_OK;
// DO NOT OPTIMIZE THIS TO CHECK aProperty
// The sorting methods fall back to each other so we need to re-sort the
// result even if it's not set to sort by the given property.
int32_t ourIndex = mParent->FindChild(this);
NS_ASSERTION(ourIndex >= 0, "Could not find self in parent");
if (ourIndex >= 0)
mParent->EnsureItemPosition(ourIndex);
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryFolderResultNode::OnItemChanged(int64_t aItemId,
const nsACString& aProperty,
bool aIsAnnotationProperty,
const nsACString& aNewValue,
PRTime aLastModified,
uint16_t aItemType,
int64_t aParentId,
const nsACString& aGUID,
const nsACString&aParentGUID)
{
// The query-item's title is used for simple-query nodes
if (mQueryItemId != -1) {
bool isTitleChange = aProperty.EqualsLiteral("title");
if ((mQueryItemId == aItemId && !isTitleChange) ||
(mQueryItemId != aItemId && isTitleChange)) {
return NS_OK;
}
}
RESTART_AND_RETURN_IF_ASYNC_PENDING();
return nsNavHistoryResultNode::OnItemChanged(aItemId, aProperty,
aIsAnnotationProperty,
aNewValue, aLastModified,
aItemType, aParentId, aGUID,
aParentGUID);
}
/**
* Updates visit count and last visit time and refreshes.
*/
NS_IMETHODIMP
nsNavHistoryFolderResultNode::OnItemVisited(int64_t aItemId,
int64_t aVisitId,
PRTime aTime,
uint32_t aTransitionType,
nsIURI* aURI,
int64_t aParentId,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
bool excludeItems = (mResult && mResult->mRootNode->mOptions->ExcludeItems()) ||
(mParent && mParent->mOptions->ExcludeItems()) ||
mOptions->ExcludeItems();
if (excludeItems)
return NS_OK; // don't update items when we aren't displaying them
RESTART_AND_RETURN_IF_ASYNC_PENDING();
if (!StartIncrementalUpdate())
return NS_OK;
uint32_t nodeIndex;
nsNavHistoryResultNode* node = FindChildById(aItemId, &nodeIndex);
if (!node)
return NS_ERROR_FAILURE;
// Update node.
node->mTime = aTime;
++node->mAccessCount;
// Update us.
int32_t oldAccessCount = mAccessCount;
++mAccessCount;
if (aTime > mTime)
mTime = aTime;
nsresult rv = ReverseUpdateStats(mAccessCount - oldAccessCount);
NS_ENSURE_SUCCESS(rv, rv);
// Update frecency for proper frecency ordering.
// TODO (bug 832617): we may avoid one query here, by providing the new
// frecency value in the notification.
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_OK);
nsRefPtr<nsNavHistoryResultNode> visitNode;
rv = history->VisitIdToResultNode(aVisitId, mOptions,
getter_AddRefs(visitNode));
NS_ENSURE_SUCCESS(rv, rv);
NS_ENSURE_STATE(visitNode);
node->mFrecency = visitNode->mFrecency;
if (AreChildrenVisible()) {
// Sorting has not changed, just redraw the row if it's visible.
nsNavHistoryResult* result = GetResult();
NOTIFY_RESULT_OBSERVERS(result,
NodeHistoryDetailsChanged(node, mTime, mAccessCount));
}
// Update sorting if necessary.
uint32_t sortType = GetSortType();
if (sortType == nsINavHistoryQueryOptions::SORT_BY_VISITCOUNT_ASCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_VISITCOUNT_DESCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_DATE_ASCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_DATE_DESCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_FRECENCY_ASCENDING ||
sortType == nsINavHistoryQueryOptions::SORT_BY_FRECENCY_DESCENDING) {
int32_t childIndex = FindChild(node);
NS_ASSERTION(childIndex >= 0, "Could not find child we just got a reference to");
if (childIndex >= 0) {
EnsureItemPosition(childIndex);
}
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryFolderResultNode::OnItemMoved(int64_t aItemId,
int64_t aOldParent,
int32_t aOldIndex,
int64_t aNewParent,
int32_t aNewIndex,
uint16_t aItemType,
const nsACString& aGUID,
const nsACString& aOldParentGUID,
const nsACString& aNewParentGUID)
{
NS_ASSERTION(aOldParent == mItemId || aNewParent == mItemId,
"Got a bookmark message that doesn't belong to us");
RESTART_AND_RETURN_IF_ASYNC_PENDING();
if (!StartIncrementalUpdate())
return NS_OK; // entire container was refreshed for us
if (aOldParent == aNewParent) {
// getting moved within the same folder, we don't want to do a remove and
// an add because that will lose your tree state.
// adjust bookmark indices
ReindexRange(aOldIndex + 1, INT32_MAX, -1);
ReindexRange(aNewIndex, INT32_MAX, 1);
uint32_t index;
nsNavHistoryResultNode* node = FindChildById(aItemId, &index);
if (!node) {
NS_NOTREACHED("Can't find folder that is moving!");
return NS_ERROR_FAILURE;
}
NS_ASSERTION(index < uint32_t(mChildren.Count()), "Invalid index!");
node->mBookmarkIndex = aNewIndex;
// adjust position
EnsureItemPosition(index);
return NS_OK;
} else {
// moving between two different folders, just do a remove and an add
nsCOMPtr<nsIURI> itemURI;
nsAutoCString itemTitle;
if (aItemType == nsINavBookmarksService::TYPE_BOOKMARK) {
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
NS_ENSURE_TRUE(bookmarks, NS_ERROR_OUT_OF_MEMORY);
nsresult rv = bookmarks->GetBookmarkURI(aItemId, getter_AddRefs(itemURI));
NS_ENSURE_SUCCESS(rv, rv);
rv = bookmarks->GetItemTitle(aItemId, itemTitle);
NS_ENSURE_SUCCESS(rv, rv);
}
if (aOldParent == mItemId) {
OnItemRemoved(aItemId, aOldParent, aOldIndex, aItemType, itemURI,
aGUID, aOldParentGUID);
}
if (aNewParent == mItemId) {
OnItemAdded(aItemId, aNewParent, aNewIndex, aItemType, itemURI, itemTitle,
PR_Now(), // This is a dummy dateAdded, not the real value.
aGUID, aNewParentGUID);
}
}
return NS_OK;
}
/**
* Separator nodes do not hold any data.
*/
nsNavHistorySeparatorResultNode::nsNavHistorySeparatorResultNode()
: nsNavHistoryResultNode(EmptyCString(), EmptyCString(),
0, 0, EmptyCString())
{
}
static PLDHashOperator
RemoveBookmarkFolderObserversCallback(nsTrimInt64HashKey::KeyType aKey,
nsNavHistoryResult::FolderObserverList*& aData,
void* userArg)
{
delete aData;
return PL_DHASH_REMOVE;
}
NS_IMPL_CYCLE_COLLECTION_CLASS(nsNavHistoryResult)
NS_IMPL_CYCLE_COLLECTION_UNLINK_BEGIN(nsNavHistoryResult)
tmp->StopObserving();
NS_IMPL_CYCLE_COLLECTION_UNLINK(mRootNode)
NS_IMPL_CYCLE_COLLECTION_UNLINK(mObservers)
tmp->mBookmarkFolderObservers.Enumerate(&RemoveBookmarkFolderObserversCallback, nullptr);
NS_IMPL_CYCLE_COLLECTION_UNLINK(mAllBookmarksObservers)
NS_IMPL_CYCLE_COLLECTION_UNLINK(mHistoryObservers)
NS_IMPL_CYCLE_COLLECTION_UNLINK_END
static PLDHashOperator
TraverseBookmarkFolderObservers(nsTrimInt64HashKey::KeyType aKey,
nsNavHistoryResult::FolderObserverList* &aData,
void *aClosure)
{
nsCycleCollectionTraversalCallback* cb =
static_cast<nsCycleCollectionTraversalCallback*>(aClosure);
for (uint32_t i = 0; i < aData->Length(); ++i) {
NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(*cb,
"mBookmarkFolderObservers value[i]");
nsNavHistoryResultNode* node = aData->ElementAt(i);
cb->NoteXPCOMChild(node);
}
return PL_DHASH_NEXT;
}
static void
traverseResultObservers(nsMaybeWeakPtrArray<nsINavHistoryResultObserver> aObservers,
void *aClosure)
{
nsCycleCollectionTraversalCallback* cb =
static_cast<nsCycleCollectionTraversalCallback*>(aClosure);
for (uint32_t i = 0; i < aObservers.Length(); ++i) {
NS_CYCLE_COLLECTION_NOTE_EDGE_NAME(*cb, "mResultObservers value[i]");
const nsCOMPtr<nsINavHistoryResultObserver> &obs = aObservers.ElementAt(i);
cb->NoteXPCOMChild(obs);
}
}
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_BEGIN(nsNavHistoryResult)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mRootNode)
traverseResultObservers(tmp->mObservers, &cb);
tmp->mBookmarkFolderObservers.Enumerate(&TraverseBookmarkFolderObservers, &cb);
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mAllBookmarksObservers)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE(mHistoryObservers)
NS_IMPL_CYCLE_COLLECTION_TRAVERSE_END
NS_IMPL_CYCLE_COLLECTING_ADDREF(nsNavHistoryResult)
NS_IMPL_CYCLE_COLLECTING_RELEASE(nsNavHistoryResult)
NS_INTERFACE_MAP_BEGIN_CYCLE_COLLECTION(nsNavHistoryResult)
NS_INTERFACE_MAP_ENTRY_AMBIGUOUS(nsISupports, nsINavHistoryResult)
NS_INTERFACE_MAP_STATIC_AMBIGUOUS(nsNavHistoryResult)
NS_INTERFACE_MAP_ENTRY(nsINavHistoryResult)
NS_INTERFACE_MAP_ENTRY(nsINavBookmarkObserver)
NS_INTERFACE_MAP_ENTRY(nsINavHistoryObserver)
NS_INTERFACE_MAP_ENTRY(nsISupportsWeakReference)
NS_INTERFACE_MAP_END
nsNavHistoryResult::nsNavHistoryResult(nsNavHistoryContainerResultNode* aRoot)
: mRootNode(aRoot)
, mNeedsToApplySortingMode(false)
, mIsHistoryObserver(false)
, mIsBookmarkFolderObserver(false)
, mIsAllBookmarksObserver(false)
, mBookmarkFolderObservers(128)
, mBatchInProgress(false)
, mSuppressNotifications(false)
{
mRootNode->mResult = this;
}
nsNavHistoryResult::~nsNavHistoryResult()
{
// delete all bookmark folder observer arrays which are allocated on the heap
mBookmarkFolderObservers.Enumerate(&RemoveBookmarkFolderObserversCallback, nullptr);
}
void
nsNavHistoryResult::StopObserving()
{
if (mIsBookmarkFolderObserver || mIsAllBookmarksObserver) {
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
if (bookmarks) {
bookmarks->RemoveObserver(this);
mIsBookmarkFolderObserver = false;
mIsAllBookmarksObserver = false;
}
}
if (mIsHistoryObserver) {
nsNavHistory* history = nsNavHistory::GetHistoryService();
if (history) {
history->RemoveObserver(this);
mIsHistoryObserver = false;
}
}
}
/**
* @note you must call AddRef before this, since we may do things like
* register ourselves.
*/
nsresult
nsNavHistoryResult::Init(nsINavHistoryQuery** aQueries,
uint32_t aQueryCount,
nsNavHistoryQueryOptions *aOptions)
{
nsresult rv;
NS_ASSERTION(aOptions, "Must have valid options");
NS_ASSERTION(aQueries && aQueryCount > 0, "Must have >1 query in result");
// Fill saved source queries with copies of the original (the caller might
// change their original objects, and we always want to reflect the source
// parameters).
for (uint32_t i = 0; i < aQueryCount; ++i) {
nsCOMPtr<nsINavHistoryQuery> queryClone;
rv = aQueries[i]->Clone(getter_AddRefs(queryClone));
NS_ENSURE_SUCCESS(rv, rv);
if (!mQueries.AppendObject(queryClone))
return NS_ERROR_OUT_OF_MEMORY;
}
rv = aOptions->Clone(getter_AddRefs(mOptions));
NS_ENSURE_SUCCESS(rv, rv);
mSortingMode = aOptions->SortingMode();
rv = aOptions->GetSortingAnnotation(mSortingAnnotation);
NS_ENSURE_SUCCESS(rv, rv);
NS_ASSERTION(mRootNode->mIndentLevel == -1,
"Root node's indent level initialized wrong");
mRootNode->FillStats();
return NS_OK;
}
/**
* Constructs a new history result object.
*/
nsresult // static
nsNavHistoryResult::NewHistoryResult(nsINavHistoryQuery** aQueries,
uint32_t aQueryCount,
nsNavHistoryQueryOptions* aOptions,
nsNavHistoryContainerResultNode* aRoot,
bool aBatchInProgress,
nsNavHistoryResult** result)
{
*result = new nsNavHistoryResult(aRoot);
if (!*result)
return NS_ERROR_OUT_OF_MEMORY;
NS_ADDREF(*result); // must happen before Init
// Correctly set mBatchInProgress for the result based on the root node value.
(*result)->mBatchInProgress = aBatchInProgress;
nsresult rv = (*result)->Init(aQueries, aQueryCount, aOptions);
if (NS_FAILED(rv)) {
NS_RELEASE(*result);
*result = nullptr;
return rv;
}
return NS_OK;
}
void
nsNavHistoryResult::AddHistoryObserver(nsNavHistoryQueryResultNode* aNode)
{
if (!mIsHistoryObserver) {
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ASSERTION(history, "Can't create history service");
history->AddObserver(this, true);
mIsHistoryObserver = true;
}
// Don't add duplicate observers. In some case we don't unregister when
// children are cleared (see ClearChildren) and the next FillChildren call
// will try to add the observer again.
if (mHistoryObservers.IndexOf(aNode) == mHistoryObservers.NoIndex) {
mHistoryObservers.AppendElement(aNode);
}
}
void
nsNavHistoryResult::AddAllBookmarksObserver(nsNavHistoryQueryResultNode* aNode)
{
if (!mIsAllBookmarksObserver && !mIsBookmarkFolderObserver) {
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
if (!bookmarks) {
NS_NOTREACHED("Can't create bookmark service");
return;
}
bookmarks->AddObserver(this, true);
mIsAllBookmarksObserver = true;
}
// Don't add duplicate observers. In some case we don't unregister when
// children are cleared (see ClearChildren) and the next FillChildren call
// will try to add the observer again.
if (mAllBookmarksObservers.IndexOf(aNode) == mAllBookmarksObservers.NoIndex) {
mAllBookmarksObservers.AppendElement(aNode);
}
}
void
nsNavHistoryResult::AddBookmarkFolderObserver(nsNavHistoryFolderResultNode* aNode,
int64_t aFolder)
{
if (!mIsBookmarkFolderObserver && !mIsAllBookmarksObserver) {
nsNavBookmarks* bookmarks = nsNavBookmarks::GetBookmarksService();
if (!bookmarks) {
NS_NOTREACHED("Can't create bookmark service");
return;
}
bookmarks->AddObserver(this, true);
mIsBookmarkFolderObserver = true;
}
// Don't add duplicate observers. In some case we don't unregister when
// children are cleared (see ClearChildren) and the next FillChildren call
// will try to add the observer again.
FolderObserverList* list = BookmarkFolderObserversForId(aFolder, true);
if (list->IndexOf(aNode) == list->NoIndex) {
list->AppendElement(aNode);
}
}
void
nsNavHistoryResult::RemoveHistoryObserver(nsNavHistoryQueryResultNode* aNode)
{
mHistoryObservers.RemoveElement(aNode);
}
void
nsNavHistoryResult::RemoveAllBookmarksObserver(nsNavHistoryQueryResultNode* aNode)
{
mAllBookmarksObservers.RemoveElement(aNode);
}
void
nsNavHistoryResult::RemoveBookmarkFolderObserver(nsNavHistoryFolderResultNode* aNode,
int64_t aFolder)
{
FolderObserverList* list = BookmarkFolderObserversForId(aFolder, false);
if (!list)
return; // we don't even have an entry for that folder
list->RemoveElement(aNode);
}
nsNavHistoryResult::FolderObserverList*
nsNavHistoryResult::BookmarkFolderObserversForId(int64_t aFolderId, bool aCreate)
{
FolderObserverList* list;
if (mBookmarkFolderObservers.Get(aFolderId, &list))
return list;
if (!aCreate)
return nullptr;
// need to create a new list
list = new FolderObserverList;
mBookmarkFolderObservers.Put(aFolderId, list);
return list;
}
NS_IMETHODIMP
nsNavHistoryResult::GetSortingMode(uint16_t* aSortingMode)
{
*aSortingMode = mSortingMode;
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::SetSortingMode(uint16_t aSortingMode)
{
NS_ENSURE_STATE(mRootNode);
if (aSortingMode > nsINavHistoryQueryOptions::SORT_BY_FRECENCY_DESCENDING)
return NS_ERROR_INVALID_ARG;
// Keep everything in sync.
NS_ASSERTION(mOptions, "Options should always be present for a root query");
mSortingMode = aSortingMode;
if (!mRootNode->mExpanded) {
// Need to do this later when node will be expanded.
mNeedsToApplySortingMode = true;
return NS_OK;
}
// Actually do sorting.
nsNavHistoryContainerResultNode::SortComparator comparator =
nsNavHistoryContainerResultNode::GetSortingComparator(aSortingMode);
if (comparator) {
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_ERROR_OUT_OF_MEMORY);
mRootNode->RecursiveSort(mSortingAnnotation.get(), comparator);
}
NOTIFY_RESULT_OBSERVERS(this, SortingChanged(aSortingMode));
NOTIFY_RESULT_OBSERVERS(this, InvalidateContainer(mRootNode));
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::GetSortingAnnotation(nsACString& _result) {
_result.Assign(mSortingAnnotation);
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::SetSortingAnnotation(const nsACString& aSortingAnnotation) {
mSortingAnnotation.Assign(aSortingAnnotation);
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::AddObserver(nsINavHistoryResultObserver* aObserver,
bool aOwnsWeak)
{
NS_ENSURE_ARG(aObserver);
nsresult rv = mObservers.AppendWeakElement(aObserver, aOwnsWeak);
NS_ENSURE_SUCCESS(rv, rv);
rv = aObserver->SetResult(this);
NS_ENSURE_SUCCESS(rv, rv);
// If we are batching, notify a fake batch start to the observers.
// Not doing so would then notify a not coupled batch end.
if (mBatchInProgress) {
NOTIFY_RESULT_OBSERVERS(this, Batching(true));
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::RemoveObserver(nsINavHistoryResultObserver* aObserver)
{
NS_ENSURE_ARG(aObserver);
return mObservers.RemoveWeakElement(aObserver);
}
NS_IMETHODIMP
nsNavHistoryResult::GetSuppressNotifications(bool* _retval)
{
*_retval = mSuppressNotifications;
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::SetSuppressNotifications(bool aSuppressNotifications)
{
mSuppressNotifications = aSuppressNotifications;
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::GetRoot(nsINavHistoryContainerResultNode** aRoot)
{
if (!mRootNode) {
NS_NOTREACHED("Root is null");
*aRoot = nullptr;
return NS_ERROR_FAILURE;
}
return mRootNode->QueryInterface(NS_GET_IID(nsINavHistoryContainerResultNode),
reinterpret_cast<void**>(aRoot));
}
void
nsNavHistoryResult::requestRefresh(nsNavHistoryContainerResultNode* aContainer)
{
// Don't add twice the same container.
if (mRefreshParticipants.IndexOf(aContainer) == mRefreshParticipants.NoIndex)
mRefreshParticipants.AppendElement(aContainer);
}
// nsINavBookmarkObserver implementation
// Here, it is important that we create a COPY of the observer array. Some
// observers will requery themselves, which may cause the observer array to
// be modified or added to.
#define ENUMERATE_BOOKMARK_FOLDER_OBSERVERS(_folderId, _functionCall) \
PR_BEGIN_MACRO \
FolderObserverList* _fol = BookmarkFolderObserversForId(_folderId, false); \
if (_fol) { \
FolderObserverList _listCopy(*_fol); \
for (uint32_t _fol_i = 0; _fol_i < _listCopy.Length(); ++_fol_i) { \
if (_listCopy[_fol_i]) \
_listCopy[_fol_i]->_functionCall; \
} \
} \
PR_END_MACRO
#define ENUMERATE_LIST_OBSERVERS(_listType, _functionCall, _observersList, _conditionCall) \
PR_BEGIN_MACRO \
_listType _listCopy(_observersList); \
for (uint32_t _obs_i = 0; _obs_i < _listCopy.Length(); ++_obs_i) { \
if (_listCopy[_obs_i] && _listCopy[_obs_i]->_conditionCall) \
_listCopy[_obs_i]->_functionCall; \
} \
PR_END_MACRO
#define ENUMERATE_QUERY_OBSERVERS(_functionCall, _observersList, _conditionCall) \
ENUMERATE_LIST_OBSERVERS(QueryObserverList, _functionCall, _observersList, _conditionCall)
#define ENUMERATE_ALL_BOOKMARKS_OBSERVERS(_functionCall) \
ENUMERATE_QUERY_OBSERVERS(_functionCall, mAllBookmarksObservers, IsQuery())
#define ENUMERATE_HISTORY_OBSERVERS(_functionCall) \
ENUMERATE_QUERY_OBSERVERS(_functionCall, mHistoryObservers, IsQuery())
#define NOTIFY_REFRESH_PARTICIPANTS() \
PR_BEGIN_MACRO \
ENUMERATE_LIST_OBSERVERS(ContainerObserverList, Refresh(), mRefreshParticipants, IsContainer()); \
mRefreshParticipants.Clear(); \
PR_END_MACRO
NS_IMETHODIMP
nsNavHistoryResult::OnBeginUpdateBatch()
{
// Since we could be observing both history and bookmarks, it's possible both
// notify the batch. We can safely ignore nested calls.
if (!mBatchInProgress) {
mBatchInProgress = true;
ENUMERATE_HISTORY_OBSERVERS(OnBeginUpdateBatch());
ENUMERATE_ALL_BOOKMARKS_OBSERVERS(OnBeginUpdateBatch());
NOTIFY_RESULT_OBSERVERS(this, Batching(true));
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnEndUpdateBatch()
{
// Since we could be observing both history and bookmarks, it's possible both
// notify the batch. We can safely ignore nested calls.
// Notice it's possible we are notified OnEndUpdateBatch more times than
// onBeginUpdateBatch, since the result could be created in the middle of
// nested batches.
if (mBatchInProgress) {
ENUMERATE_HISTORY_OBSERVERS(OnEndUpdateBatch());
ENUMERATE_ALL_BOOKMARKS_OBSERVERS(OnEndUpdateBatch());
// Setting mBatchInProgress before notifying the end of the batch to
// observers would make evantual calls to Refresh() directly handled rather
// than enqueued. Thus set it just before handling refreshes.
mBatchInProgress = false;
NOTIFY_REFRESH_PARTICIPANTS();
NOTIFY_RESULT_OBSERVERS(this, Batching(false));
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnItemAdded(int64_t aItemId,
int64_t aParentId,
int32_t aIndex,
uint16_t aItemType,
nsIURI* aURI,
const nsACString& aTitle,
PRTime aDateAdded,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
ENUMERATE_BOOKMARK_FOLDER_OBSERVERS(aParentId,
OnItemAdded(aItemId, aParentId, aIndex, aItemType, aURI, aTitle, aDateAdded,
aGUID, aParentGUID)
);
ENUMERATE_HISTORY_OBSERVERS(
OnItemAdded(aItemId, aParentId, aIndex, aItemType, aURI, aTitle, aDateAdded,
aGUID, aParentGUID)
);
ENUMERATE_ALL_BOOKMARKS_OBSERVERS(
OnItemAdded(aItemId, aParentId, aIndex, aItemType, aURI, aTitle, aDateAdded,
aGUID, aParentGUID)
);
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnItemRemoved(int64_t aItemId,
int64_t aParentId,
int32_t aIndex,
uint16_t aItemType,
nsIURI* aURI,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
ENUMERATE_BOOKMARK_FOLDER_OBSERVERS(aParentId,
OnItemRemoved(aItemId, aParentId, aIndex, aItemType, aURI, aGUID,
aParentGUID));
ENUMERATE_ALL_BOOKMARKS_OBSERVERS(
OnItemRemoved(aItemId, aParentId, aIndex, aItemType, aURI, aGUID,
aParentGUID));
ENUMERATE_HISTORY_OBSERVERS(
OnItemRemoved(aItemId, aParentId, aIndex, aItemType, aURI, aGUID,
aParentGUID));
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnItemChanged(int64_t aItemId,
const nsACString &aProperty,
bool aIsAnnotationProperty,
const nsACString &aNewValue,
PRTime aLastModified,
uint16_t aItemType,
int64_t aParentId,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
ENUMERATE_ALL_BOOKMARKS_OBSERVERS(
OnItemChanged(aItemId, aProperty, aIsAnnotationProperty, aNewValue,
aLastModified, aItemType, aParentId, aGUID, aParentGUID));
// Note: folder-nodes set their own bookmark observer only once they're
// opened, meaning we cannot optimize this code path for changes done to
// folder-nodes.
FolderObserverList* list = BookmarkFolderObserversForId(aParentId, false);
if (!list)
return NS_OK;
for (uint32_t i = 0; i < list->Length(); ++i) {
nsRefPtr<nsNavHistoryFolderResultNode> folder = list->ElementAt(i);
if (folder) {
uint32_t nodeIndex;
nsRefPtr<nsNavHistoryResultNode> node =
folder->FindChildById(aItemId, &nodeIndex);
// if ExcludeItems is true we don't update non visible items
bool excludeItems = (mRootNode->mOptions->ExcludeItems()) ||
folder->mOptions->ExcludeItems();
if (node &&
(!excludeItems || !(node->IsURI() || node->IsSeparator())) &&
folder->StartIncrementalUpdate()) {
node->OnItemChanged(aItemId, aProperty, aIsAnnotationProperty,
aNewValue, aLastModified, aItemType, aParentId,
aGUID, aParentGUID);
}
}
}
// Note: we do NOT call history observers in this case. This notification is
// the same as other history notification, except that here we know the item
// is a bookmark. History observers will handle the history notification
// instead.
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnItemVisited(int64_t aItemId,
int64_t aVisitId,
PRTime aVisitTime,
uint32_t aTransitionType,
nsIURI* aURI,
int64_t aParentId,
const nsACString& aGUID,
const nsACString& aParentGUID)
{
ENUMERATE_BOOKMARK_FOLDER_OBSERVERS(aParentId,
OnItemVisited(aItemId, aVisitId, aVisitTime, aTransitionType, aURI,
aParentId, aGUID, aParentGUID));
ENUMERATE_ALL_BOOKMARKS_OBSERVERS(
OnItemVisited(aItemId, aVisitId, aVisitTime, aTransitionType, aURI,
aParentId, aGUID, aParentGUID));
// Note: we do NOT call history observers in this case. This notification is
// the same as OnVisit, except that here we know the item is a bookmark.
// History observers will handle the history notification instead.
return NS_OK;
}
/**
* Need to notify both the source and the destination folders (if they are
* different).
*/
NS_IMETHODIMP
nsNavHistoryResult::OnItemMoved(int64_t aItemId,
int64_t aOldParent,
int32_t aOldIndex,
int64_t aNewParent,
int32_t aNewIndex,
uint16_t aItemType,
const nsACString& aGUID,
const nsACString& aOldParentGUID,
const nsACString& aNewParentGUID)
{
ENUMERATE_BOOKMARK_FOLDER_OBSERVERS(aOldParent,
OnItemMoved(aItemId, aOldParent, aOldIndex, aNewParent, aNewIndex,
aItemType, aGUID, aOldParentGUID, aNewParentGUID));
if (aNewParent != aOldParent) {
ENUMERATE_BOOKMARK_FOLDER_OBSERVERS(aNewParent,
OnItemMoved(aItemId, aOldParent, aOldIndex, aNewParent, aNewIndex,
aItemType, aGUID, aOldParentGUID, aNewParentGUID));
}
ENUMERATE_ALL_BOOKMARKS_OBSERVERS(OnItemMoved(aItemId, aOldParent, aOldIndex,
aNewParent, aNewIndex,
aItemType, aGUID,
aOldParentGUID,
aNewParentGUID));
ENUMERATE_HISTORY_OBSERVERS(OnItemMoved(aItemId, aOldParent, aOldIndex,
aNewParent, aNewIndex, aItemType,
aGUID, aOldParentGUID,
aNewParentGUID));
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnVisit(nsIURI* aURI, int64_t aVisitId, PRTime aTime,
int64_t aSessionId, int64_t aReferringId,
uint32_t aTransitionType, const nsACString& aGUID,
bool aHidden)
{
uint32_t added = 0;
ENUMERATE_HISTORY_OBSERVERS(OnVisit(aURI, aVisitId, aTime, aSessionId,
aReferringId, aTransitionType, aGUID,
aHidden, &added));
if (!mRootNode->mExpanded)
return NS_OK;
// If this visit is accepted by an overlapped container, and not all
// overlapped containers are visible, we should still call Refresh if the
// visit falls into any of them.
bool todayIsMissing = false;
uint32_t resultType = mRootNode->mOptions->ResultType();
if (resultType == nsINavHistoryQueryOptions::RESULTS_AS_DATE_QUERY ||
resultType == nsINavHistoryQueryOptions::RESULTS_AS_DATE_SITE_QUERY) {
uint32_t childCount;
nsresult rv = mRootNode->GetChildCount(&childCount);
NS_ENSURE_SUCCESS(rv, rv);
if (childCount) {
nsCOMPtr<nsINavHistoryResultNode> firstChild;
rv = mRootNode->GetChild(0, getter_AddRefs(firstChild));
NS_ENSURE_SUCCESS(rv, rv);
nsAutoCString title;
rv = firstChild->GetTitle(title);
NS_ENSURE_SUCCESS(rv, rv);
nsNavHistory* history = nsNavHistory::GetHistoryService();
NS_ENSURE_TRUE(history, NS_OK);
nsAutoCString todayLabel;
history->GetStringFromName(
MOZ_UTF16("finduri-AgeInDays-is-0"), todayLabel);
todayIsMissing = !todayLabel.Equals(title);
}
}
if (!added || todayIsMissing) {
// None of registered query observers has accepted our URI. This means,
// that a matching query either was not expanded or it does not exist.
uint32_t resultType = mRootNode->mOptions->ResultType();
if (resultType == nsINavHistoryQueryOptions::RESULTS_AS_DATE_QUERY ||
resultType == nsINavHistoryQueryOptions::RESULTS_AS_DATE_SITE_QUERY) {
// If the visit falls into the Today bucket and the bucket exists, it was
// just not expanded, thus there's no reason to update.
int64_t beginOfToday =
nsNavHistory::NormalizeTime(nsINavHistoryQuery::TIME_RELATIVE_TODAY, 0);
if (todayIsMissing || aTime < beginOfToday) {
(void)mRootNode->GetAsQuery()->Refresh();
}
return NS_OK;
}
if (resultType == nsINavHistoryQueryOptions::RESULTS_AS_SITE_QUERY) {
(void)mRootNode->GetAsQuery()->Refresh();
return NS_OK;
}
// We are result of a folder node, then we should run through history
// observers that are containers queries and refresh them.
// We use a copy of the observers array since requerying could potentially
// cause changes to the array.
ENUMERATE_QUERY_OBSERVERS(Refresh(), mHistoryObservers, IsContainersQuery());
}
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnTitleChanged(nsIURI* aURI,
const nsAString& aPageTitle,
const nsACString& aGUID)
{
ENUMERATE_HISTORY_OBSERVERS(OnTitleChanged(aURI, aPageTitle, aGUID));
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnFrecencyChanged(nsIURI* aURI,
int32_t aNewFrecency,
const nsACString& aGUID,
bool aHidden,
PRTime aLastVisitDate)
{
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnManyFrecenciesChanged()
{
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnDeleteURI(nsIURI *aURI,
const nsACString& aGUID,
uint16_t aReason)
{
ENUMERATE_HISTORY_OBSERVERS(OnDeleteURI(aURI, aGUID, aReason));
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnClearHistory()
{
ENUMERATE_HISTORY_OBSERVERS(OnClearHistory());
return NS_OK;
}
NS_IMETHODIMP
nsNavHistoryResult::OnPageChanged(nsIURI* aURI,
uint32_t aChangedAttribute,
const nsAString& aValue,
const nsACString& aGUID)
{
ENUMERATE_HISTORY_OBSERVERS(OnPageChanged(aURI, aChangedAttribute, aValue, aGUID));
return NS_OK;
}
/**
* Don't do anything when visits expire.
*/
NS_IMETHODIMP
nsNavHistoryResult::OnDeleteVisits(nsIURI* aURI,
PRTime aVisitTime,
const nsACString& aGUID,
uint16_t aReason,
uint32_t aTransitionType)
{
ENUMERATE_HISTORY_OBSERVERS(OnDeleteVisits(aURI, aVisitTime, aGUID, aReason,
aTransitionType));
return NS_OK;
}