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LUMIERA.clone/src/proc/mobject/session/scope-query.hpp

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/*
CONTENTS-QUERY.hpp - query to discover the contents of a container-like part of the model
Copyright (C) Lumiera.org
2009, Hermann Vosseler <Ichthyostega@web.de>
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License as
published by the Free Software Foundation; either version 2 of the
License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
*/
#ifndef MOBJECT_SESSION_SCOPE_QUERY_H
#define MOBJECT_SESSION_SCOPE_QUERY_H
#include "proc/mobject/placement.hpp"
#include "proc/mobject/session/query-resolver.hpp"
#include <tr1/functional>
namespace mobject {
namespace session {
using std::tr1::bind;
using std::tr1::function;
using std::tr1::placeholders::_1;
/**
* Mix-in ABC, combining a Query for placement-attached objects
* with an embedded result set iterator. Thus, an concrete (derived)
* DiscoveryQuery can be created by the invoking client code, and
* then immediately explored until exhaustion of the result iterator.
*/
template<class MO>
class DiscoveryQuery
: public Query<Placement<MO> >
, public Query<Placement<MO> >::iterator
{
/// Assignment explicitly disallowed (but copy ctor is ok)
DiscoveryQuery const& operator=(DiscoveryQuery const&);
protected:
typedef Query<Placement<MO> > _Query;
typedef typename _Query::iterator _QIter;
DiscoveryQuery ()
: _Query (_Query::defineQueryTypeID (Goal::DISCOVERY))
, _QIter ()
{ }
typedef PlacementMO const& Pla;
typedef function<bool(Pla)> ContentFilter;
/** yield an additional filter to be applied
* on the result set. */
virtual ContentFilter buildContentFilter() const =0;
};
enum ScopeQueryKind
{ CONTENTS = 0 ///< discover any contained objects depth-first
, CHILDREN ///< discover the immediate children
, PARENTS ///< discover the enclosing scopes
, PATH ///< discover the path to root
};
/**
* Query a scope to discover it's contents or location.
* This is a special kind of query, wired up such as to enumerate
* the contents or parents of a scope, filtered by a subtype-check.
* For the actual resolution of the elements to discover, this query
* relies on an index like facility (usually Session's PlacementIndex),
* which is abstracted as a QueryResolver, but actually is expected to
* cooperate especially with this Query subclass to retrieve the scope
* to be enumerated and the definition of the actual filter predicate.
* Currently (11/09), there is a special, hard-wired Query-kind-ID
* \c Goal::DISCOVERY to distinguish this special kind of a Query.
*
* Contrary to the usual handling of a generic query, a ScopeQuery
* object holds it's own discovery iterator and thus is completely
* self contained. The query is issued automatically on construction,
* thus the embedded iterator immediately points at the first result.
* Moreover, as any Lumiera Forward Iterator is \c bool checkable,
* a ScopeQuery not yielding any results will evaluate to \c false
* immediately after construction, allowing convenient inline checks.
* The query can be re-issued by the function operator, and the
* embedded result iterator can of course be copied to a bare
* iterator instance, e.g. for passing it on (ScopeQuery
* itself is intended to be used polymorphically and
* thus defined to be not assignable)
*/
template<class MO>
class ScopeQuery
: public DiscoveryQuery<MO>
{
typedef DiscoveryQuery<MO> _Par;
typedef typename _Par::_Query _Query;
QueryResolver const& index_;
PlacementMO const& startPoint_;
ScopeQueryKind to_discover_;
public:
typedef typename _Par::ContentFilter ContentFilter;
typedef typename _Query::iterator iterator;
ScopeQuery (QueryResolver const& resolver,
PlacementMO const& scope,
ScopeQueryKind direction)
: index_(resolver)
, startPoint_(scope)
, to_discover_(direction)
{
resetResultIteration (_Query::resolveBy(index_));
}
iterator
operator() () const
{
return _Query::resolveBy (index_);
}
PlacementMO const&
searchScope () const
{
return startPoint_;
}
ScopeQueryKind
searchDirection () const
{
return to_discover_;
}
ContentFilter
contentFilter () const
{
return buildContentFilter();
}
private:
/** the default implementation of the content filtering
* builds on the downcast-function available on each
* Placement instance. By parametrising this function
* with our template parameter MO, we pick out only
* those elements of the scope being subclasses of MO
*/
virtual ContentFilter
buildContentFilter() const
{
return bind (&PlacementMO::isCompatible<MO>, _1 );
}
void
resetResultIteration (iterator const& newQueryResults)
{
static_cast<iterator&> (*this) = newQueryResults;
}
};
template<class MO>
struct ContentsQuery
: ScopeQuery<MO>
{
ContentsQuery (QueryResolver const& resolver,
PlacementMO const& scope)
: ScopeQuery<MO> (resolver,scope, CONTENTS)
{ }
};
template<class MO>
struct PathQuery
: ScopeQuery<MO>
{
PathQuery (QueryResolver const& resolver,
PlacementMO const& scope)
: ScopeQuery<MO> (resolver,scope, PARENTS)
{ }
};
}} // namespace mobject::session
#endif
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