gecko-dev/dom/xul/templates/nsXULTemplateQueryProcessor...

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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/* 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/. */
#ifndef nsXULTemplateQueryProcessorRDF_h__
#define nsXULTemplateQueryProcessorRDF_h__
#include "nsIRDFContainer.h"
#include "nsIRDFContainerUtils.h"
#include "nsIRDFDataSource.h"
#include "nsIRDFObserver.h"
#include "nsIRDFService.h"
#include "nsIXULTemplateBuilder.h"
#include "nsIXULTemplateQueryProcessor.h"
#include "nsCollationCID.h"
#include "nsResourceSet.h"
#include "nsRuleNetwork.h"
#include "nsRDFQuery.h"
#include "nsRDFBinding.h"
#include "nsXULTemplateResultSetRDF.h"
#include "nsCOMArray.h"
#include "nsString.h"
#include "nsClassHashtable.h"
#include "nsRefPtrHashtable.h"
#include "nsCycleCollectionParticipant.h"
#include "mozilla/Attributes.h"
#include "mozilla/Logging.h"
extern PRLogModuleInfo* gXULTemplateLog;
class nsIContent;
class nsXULTemplateResultRDF;
/**
* An object that generates results from a query on an RDF graph
*/
class nsXULTemplateQueryProcessorRDF final : public nsIXULTemplateQueryProcessor,
public nsIRDFObserver
{
public:
typedef nsTArray<RefPtr<nsXULTemplateResultRDF> > ResultArray;
nsXULTemplateQueryProcessorRDF();
nsresult InitGlobals();
// nsISupports interface
NS_DECL_CYCLE_COLLECTING_ISUPPORTS
NS_DECL_CYCLE_COLLECTION_CLASS_AMBIGUOUS(nsXULTemplateQueryProcessorRDF,
nsIXULTemplateQueryProcessor)
// nsIXULTemplateQueryProcessor interface
NS_DECL_NSIXULTEMPLATEQUERYPROCESSOR
// nsIRDFObserver interface
NS_DECL_NSIRDFOBSERVER
/*
* Propagate all changes through the rule network when an assertion is
* added to the graph, adding any new results.
*/
nsresult
Propagate(nsIRDFResource* aSource,
nsIRDFResource* aProperty,
nsIRDFNode* aTarget);
/*
* Retract all changes through the rule network when an assertion is
* removed from the graph, removing any results that no longer match.
*/
nsresult
Retract(nsIRDFResource* aSource,
nsIRDFResource* aProperty,
nsIRDFNode* aTarget);
/*
* Synchronize results when the graph changes, updating their bindings.
*/
nsresult
SynchronizeAll(nsIRDFResource* aSource,
nsIRDFResource* aProperty,
nsIRDFNode* aOldTarget,
nsIRDFNode* aNewTarget);
/*
* Return true if a resource is a container
*/
nsresult
CheckContainer(nsIRDFResource* aTargetResource,
bool* aIsContainer);
/*
* Check if a resource does not have any children
*/
nsresult
CheckEmpty(nsIRDFResource* aTargetResource,
bool* aIsEmpty);
/**
* Check if a resource is a separator
*/
nsresult
CheckIsSeparator(nsIRDFResource* aResource, bool* aIsSeparator);
/*
* Compute the containment properties which are additional arcs which
* indicate that a node is a container, in additional to the RDF container
* tests. The computed list is stored in mContainmentProperties
*/
nsresult
ComputeContainmentProperties(nsIDOMNode* aRootNode);
/**
* Compile a query that uses the extended template syntax. The last
* compiled node of the query is returned as aLastNode. This node will
* have been added to mAllTests which owns the node.
*/
nsresult
CompileExtendedQuery(nsRDFQuery* aQuery,
nsIContent* aConditions,
TestNode** aLastNode);
/**
* Compile a single query child and return the compiled node in aResult.
* This node will have been added to mAllTests which owns the node and
* set as a child of aParentNode.
*/
virtual nsresult
CompileQueryChild(nsIAtom* aTag,
nsRDFQuery* aQuery,
nsIContent* aConditions,
TestNode* aParentNode,
TestNode** aResult);
/**
* Parse the value of a property test assertion for a condition or a simple
* rule based on the parseType attribute into the appropriate literal type.
*/
nsresult ParseLiteral(const nsString& aParseType,
const nsString& aValue,
nsIRDFNode** aResult);
/**
* Compile a <triple> condition and return the compiled node in aResult.
* This node will have been added to mAllTests which owns the node and
* set as a child of aParentNode.
*/
nsresult
CompileTripleCondition(nsRDFQuery* aQuery,
nsIContent* aCondition,
TestNode* aParentNode,
TestNode** aResult);
/**
* Compile a <member> condition and return the compiled node in aResult.
* This node will have been added to mAllTests which owns the node and
* set as a child of aParentNode.
*/
nsresult
CompileMemberCondition(nsRDFQuery* aQuery,
nsIContent* aCondition,
TestNode* aParentNode,
TestNode** aResult);
/**
* Add the default rules shared by all simple queries. This creates
* the content start node followed by a member test. The member TestNode
* is returned in aChildNode. Both nodes will have been added to mAllTests
* which owns the nodes.
*/
nsresult
AddDefaultSimpleRules(nsRDFQuery* aQuery,
TestNode** aChildNode);
/**
* Compile a query that's specified using the simple template
* syntax. Each TestNode is created in a chain, the last compiled node
* is returned as aLastNode. All nodes will have been added to mAllTests
* which owns the nodes.
*/
nsresult
CompileSimpleQuery(nsRDFQuery* aQuery,
nsIContent* aQueryElement,
TestNode** aLastNode);
RDFBindingSet*
GetBindingsForRule(nsIDOMNode* aRule);
/*
* Indicate that a result is dependant on a particular resource. When an
* assertion is added to or removed from the graph involving that
* resource, that result must be recalculated.
*/
void
AddBindingDependency(nsXULTemplateResultRDF* aResult,
nsIRDFResource* aResource);
/**
* Remove a dependency a result has on a particular resource.
*/
void
RemoveBindingDependency(nsXULTemplateResultRDF* aResult,
nsIRDFResource* aResource);
/**
* A memory element is a hash of an RDF triple. One exists for each triple
* that was involved in generating a result. This function adds this to a
* map, keyed by memory element, when the value is a list of results that
* depend on that memory element. When an RDF triple is removed from the
* datasource, RetractElement is called, and this map is examined to
* determine which results are no longer valid.
*/
nsresult
AddMemoryElements(const Instantiation& aInst,
nsXULTemplateResultRDF* aResult);
/**
* Remove the memory elements associated with a result when the result is
* no longer being used.
*/
nsresult
RemoveMemoryElements(const Instantiation& aInst,
nsXULTemplateResultRDF* aResult);
/**
* Remove the results associated with a memory element since the
* RDF triple the memory element is a hash of has been removed.
*/
void RetractElement(const MemoryElement& aMemoryElement);
/**
* Return the index of a result's resource in its RDF container
*/
int32_t
GetContainerIndexOf(nsIXULTemplateResult* aResult);
/**
* Given a result and a predicate to sort on, get the target value of
* the triple to use for sorting. The sort predicate is the predicate
* with '?sort=true' appended.
*/
nsresult
GetSortValue(nsIXULTemplateResult* aResult,
nsIRDFResource* aPredicate,
nsIRDFResource* aSortPredicate,
nsISupports** aResultNode);
nsIRDFDataSource* GetDataSource() { return mDB; }
nsIXULTemplateBuilder* GetBuilder() { return mBuilder; }
nsResourceSet& ContainmentProperties() { return mContainmentProperties; }
nsresult
Log(const char* aOperation,
nsIRDFResource* aSource,
nsIRDFResource* aProperty,
nsIRDFNode* aTarget);
#define LOG(_op, _src, _prop, _targ) \
Log(_op, _src, _prop, _targ)
protected:
~nsXULTemplateQueryProcessorRDF();
// We are an observer of the composite datasource. The cycle is
// broken when the document is destroyed.
nsCOMPtr<nsIRDFDataSource> mDB;
// weak reference to the builder, cleared when the document is destroyed
nsIXULTemplateBuilder* mBuilder;
// true if the query processor has been initialized
bool mQueryProcessorRDFInited;
// true if results have been generated. Once set, bindings can no longer
// be added. If they were, the binding value arrays for results that have
// already been generated would be the wrong size
bool mGenerationStarted;
// nesting level for RDF batch notifications
int32_t mUpdateBatchNest;
// containment properties that are checked to determine if a resource is
// a container
nsResourceSet mContainmentProperties;
// the end node of the default simple node hierarchy
TestNode* mSimpleRuleMemberTest;
// the reference variable
nsCOMPtr<nsIAtom> mRefVariable;
// the last ref that was calculated, used for simple rules
nsCOMPtr<nsIXULTemplateResult> mLastRef;
/**
* A map between nsIRDFNodes that form the left-hand side (the subject) of
* a <binding> and an array of nsIXULTemplateResults. When a new assertion
* is added to the graph involving a particular rdf node, it is looked up
* in this binding map. If it exists, the corresponding results must then
* be synchronized.
*/
nsClassHashtable<nsISupportsHashKey, ResultArray> mBindingDependencies;
/**
* A map between memory elements and an array of nsIXULTemplateResults.
* When a triple is unasserted from the graph, the corresponding results
* no longer match so they must be removed.
*/
nsClassHashtable<nsUint32HashKey,
nsCOMArray<nsXULTemplateResultRDF> > mMemoryElementToResultMap;
// map of the rules to the bindings for those rules.
// XXXndeakin this might be better just as an array since there is usually
// ten or fewer rules
nsRefPtrHashtable<nsISupportsHashKey, RDFBindingSet> mRuleToBindingsMap;
/**
* The queries
*/
nsTArray<nsCOMPtr<nsITemplateRDFQuery> > mQueries;
/**
* All of the RDF tests in the rule network, which are checked when a new
* assertion is added to the graph. This is a subset of mAllTests, which
* also includes non-RDF tests.
*/
ReteNodeSet mRDFTests;
/**
* All of the tests in the rule network, owned by this list
*/
ReteNodeSet mAllTests;
// pseudo-constants
static nsrefcnt gRefCnt;
public:
static nsIRDFService* gRDFService;
static nsIRDFContainerUtils* gRDFContainerUtils;
static nsIRDFResource* kNC_BookmarkSeparator;
static nsIRDFResource* kRDF_type;
};
#endif // nsXULTemplateQueryProcessorRDF_h__