OperationInterfacePartFused.hpp
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00001 /***************************************************************************
00002   tag: The SourceWorks  Tue Sep 7 00:55:18 CEST 2010  OperationInterfacePartFused.hpp
00003 
00004                         OperationInterfacePartFused.hpp -  description
00005                            -------------------
00006     begin                : Tue September 07 2010
00007     copyright            : (C) 2010 The SourceWorks
00008     email                : peter@thesourceworks.com
00009 
00010  ***************************************************************************
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00037 
00038 
00039 #ifndef ORO_OPERATION_INTERFACE_PART_FUSED_HPP
00040 #define ORO_OPERATION_INTERFACE_PART_FUSED_HPP
00041 
00042 
00043 #include <boost/shared_ptr.hpp>
00044 #include <boost/function_types/result_type.hpp>
00045 #include <boost/function_types/parameter_types.hpp>
00046 // Fusion behaviour changed at Boost 1.42
00047 #include <boost/version.hpp>
00048 #if BOOST_VERSION >= 104100
00049 // our code goes up to 7 FUSION_MAX_VECTOR_SIZE defaults to 10
00050 #ifndef BOOST_FUSION_UNFUSED_MAX_ARITY
00051 #define BOOST_FUSION_UNFUSED_MAX_ARITY 7
00052 #endif
00053 #include <boost/fusion/functional/generation/make_unfused.hpp>
00054 #else
00055 // our code goes up to 7 FUSION_MAX_VECTOR_SIZE defaults to 10
00056 #ifndef BOOST_FUSION_UNFUSED_GENERIC_MAX_ARITY
00057 #define BOOST_FUSION_UNFUSED_GENERIC_MAX_ARITY 7
00058 #endif
00059 #include <boost/fusion/include/make_unfused_generic.hpp>
00060 #endif
00061 
00062 #ifndef USE_CPP11
00063 #include <boost/lambda/lambda.hpp>
00064 #endif
00065 
00066 #include <vector>
00067 #include <string>
00068 
00069 #include "DataSource.hpp"
00070 #include "CreateSequence.hpp"
00071 #include "FusedFunctorDataSource.hpp"
00072 #include "../OperationInterfacePart.hpp"
00073 #include "../FactoryExceptions.hpp"
00074 #include "../Operation.hpp"
00075 #include "../base/OperationCallerBase.hpp"
00076 
00082 namespace RTT
00083 {
00084     namespace internal {
00085 
00086         class RTT_API OperationInterfacePartHelper {
00087         public:
00088             static std::string description(base::OperationBase* ob);
00089             static std::vector<ArgumentDescription> getArgumentList(base::OperationBase* ob, const int arity, std::vector<std::string> const& types);
00090         };
00091 
00096         template<typename Signature>
00097         class OperationInterfacePartFused
00098             : public OperationInterfacePart
00099         {
00100         protected:
00101             typedef typename boost::function_traits<Signature>::result_type result_type;
00103             typedef create_sequence<typename boost::function_types::parameter_types<Signature>::type> SequenceFactory;
00105             typedef create_sequence<typename boost::function_types::parameter_types<typename CollectType<Signature>::type>::type > CollectSequenceFactory;
00106             Operation<Signature>* op;
00107         public:
00108             OperationInterfacePartFused( Operation<Signature>* o)
00109                 : op(o)
00110             {
00111             }
00112 
00113             virtual std::string getName() const {
00114                 return op->getName();
00115             }
00116 
00117             virtual std::string description() const {
00118                 return OperationInterfacePartHelper::description( op );
00119             }
00120 
00121             virtual std::vector<ArgumentDescription> getArgumentList() const {
00122                 std::vector<std::string> types;
00123                 for (unsigned int i = 1; i <= OperationInterfacePartFused::arity(); ++i )
00124                     types.push_back( SequenceFactory::GetType(i) );
00125                 return OperationInterfacePartHelper::getArgumentList( op, OperationInterfacePartFused::arity(), types );
00126             }
00127 
00128             std::string resultType() const
00129             {
00130                 return DataSourceTypeInfo<result_type>::getType() + DataSourceTypeInfo<result_type>::getQualifier();
00131             }
00132 
00133             unsigned int arity() const { return boost::function_traits<Signature>::arity; }
00134 
00135             const types::TypeInfo* getArgumentType(unsigned int arg) const
00136             {
00137                 if (arg == 0 )
00138                     return internal::DataSourceTypeInfo<result_type>::getTypeInfo();
00139                 return SequenceFactory::GetTypeInfo(arg);
00140             }
00141 
00142             unsigned int collectArity() const { return boost::function_traits< typename CollectType<Signature>::type >::arity; }
00143 
00144             const types::TypeInfo* getCollectType(unsigned int arg) const
00145             {
00146                 return CollectSequenceFactory::GetTypeInfo(arg);
00147             }
00148 
00149             base::DataSourceBase::shared_ptr produce(
00150                             const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* caller) const
00151             {
00152                 // convert our args and signature into a boost::fusion Sequence.
00153                 if ( args.size() != OperationInterfacePartFused::arity() )
00154                     throw wrong_number_of_args_exception(OperationInterfacePartFused::arity(), args.size() );
00155                 return new FusedMCallDataSource<Signature>(typename base::OperationCallerBase<Signature>::shared_ptr(op->getOperationCaller()->cloneI(caller)), SequenceFactory::sources(args.begin()) );
00156             }
00157 
00158             virtual base::DataSourceBase::shared_ptr produceSend( const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* caller ) const {
00159                 // convert our args and signature into a boost::fusion Sequence.
00160                 if ( args.size() != OperationInterfacePartFused::arity() ) throw wrong_number_of_args_exception(OperationInterfacePartFused::arity(), args.size() );
00161                 return new FusedMSendDataSource<Signature>(typename base::OperationCallerBase<Signature>::shared_ptr(op->getOperationCaller()->cloneI(caller)), SequenceFactory::sources(args.begin()) );
00162             }
00163 
00164             virtual base::DataSourceBase::shared_ptr produceHandle() const {
00165                 // Because of copy/clone,program script variables ('var') must begin unbound.
00166                 return new internal::UnboundDataSource<ValueDataSource<SendHandle<Signature> > >();
00167             }
00168 
00169             virtual base::DataSourceBase::shared_ptr produceCollect( const std::vector<base::DataSourceBase::shared_ptr>& args, DataSource<bool>::shared_ptr blocking ) const {
00170                 const unsigned int carity = boost::mpl::size<typename FusedMCollectDataSource<Signature>::handle_and_arg_types>::value;
00171                 assert( carity == collectArity() + 1 ); // check for arity functions. (this is actually a compile time assert).
00172                 if ( args.size() != carity ) throw wrong_number_of_args_exception(carity, args.size() );
00173                 // we need to ask FusedMCollectDataSource what the arg types are, based on the collect signature.
00174                 return new FusedMCollectDataSource<Signature>( create_sequence<typename FusedMCollectDataSource<Signature>::handle_and_arg_types >::sources(args.begin()), blocking );
00175             }
00176 
00177 #ifdef ORO_SIGNALLING_OPERATIONS
00178             virtual Handle produceSignal( base::ActionInterface* func, const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* subscriber) const
00179             {
00180                 throw no_asynchronous_operation_exception("cannot use produceSignal on non-signalling operations");
00181             }
00182 #endif
00183             boost::shared_ptr<base::DisposableInterface> getLocalOperation() const {
00184                 return op->getImplementation();
00185             }
00186         };
00187 
00188 
00189 #ifdef ORO_SIGNALLING_OPERATIONS
00190 
00194         template<typename Signature>
00195         class EventOperationInterfacePartFused
00196             : public OperationInterfacePartFused<Signature>
00197         {
00198             typedef typename boost::function_traits<Signature>::result_type result_type;
00200             typedef create_sequence<typename boost::function_types::parameter_types<Signature>::type> SequenceFactory;
00202             typedef create_sequence<typename boost::function_types::parameter_types<typename CollectType<Signature>::type>::type > CollectSequenceFactory;
00203 
00204         public:
00205             EventOperationInterfacePartFused( Operation<Signature>* o)
00206                 : OperationInterfacePartFused<Signature>(o)
00207             {
00208             }
00209 
00210 
00211             virtual Handle produceSignal( base::ActionInterface* func, const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* subscriber) const {
00212                 base::OperationCallerInterface::shared_ptr impl = this->op->getOperationCaller();
00213                 if ( subscriber == impl->getMessageProcessor() )
00214                     subscriber = 0; // clear out to avoid dispatching
00215                 // convert our args and signature into a boost::fusion Sequence.
00216                 if ( args.size() != OperationInterfacePartFused<Signature>::arity() ) throw wrong_number_of_args_exception(OperationInterfacePartFused<Signature>::arity(), args.size() );
00217                 // note: in boost 1.41.0+ the function make_unfused() is available.
00218 #if BOOST_VERSION >= 104100
00219 #ifdef USE_CPP11
00220                 return this->op->signals( boost::fusion::make_unfused(boost::bind(&FusedMSignal<Signature>::invoke,
00221                                                                                                                     boost::make_shared<FusedMSignal<Signature> >(func, SequenceFactory::assignable(args.begin()), subscriber),
00222                                                                             _1
00223                                                                             )
00224                                                                 )
00225                                    );
00226 #else
00227                 return this->op->signals( boost::fusion::make_unfused(boost::bind(&FusedMSignal<Signature>::invoke,
00228                                                                                                                     boost::make_shared<FusedMSignal<Signature> >(func, SequenceFactory::assignable(args.begin()), subscriber),
00229                                                                             boost::lambda::_1
00230                                                                             )
00231                                                                 )
00232                                    );
00233 #endif
00234 #else
00235                 return this->op->signals( boost::fusion::make_unfused_generic(boost::bind(&FusedMSignal<Signature>::invoke,
00236                                                                                                                             boost::make_shared<FusedMSignal<Signature> >(func, SequenceFactory::assignable(args.begin()),subscriber),
00237                                                                             boost::lambda::_1
00238                                                                             )
00239                                                                 )
00240                                    );
00241 #endif
00242             }
00243         };
00244 #endif
00245 
00251         template<typename Signature>
00252         class SynchronousOperationInterfacePartFused
00253             : public OperationInterfacePart
00254         {
00255             typedef typename boost::function_traits<Signature>::result_type result_type;
00257             typedef create_sequence<typename boost::function_types::parameter_types<Signature>::type> SequenceFactory;
00259             typedef create_sequence<typename boost::function_types::parameter_types<typename CollectType<Signature>::type>::type > CollectSequenceFactory;
00260             Operation<Signature>* op;
00261         public:
00262             SynchronousOperationInterfacePartFused( Operation<Signature>* o)
00263                 : op(o)
00264             {
00265             }
00266 
00267             virtual base::DataSourceBase::shared_ptr produceSend(const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* caller) const
00268             { throw no_asynchronous_operation_exception("cannot use produceSend on synchronous operations"); }
00269             virtual base::DataSourceBase::shared_ptr produceCollect(const std::vector<base::DataSourceBase::shared_ptr>& args, internal::DataSource<bool>::shared_ptr blocking) const
00270             { throw no_asynchronous_operation_exception("cannot use produceCollect on synchronous operations"); }
00271 #ifdef ORO_SIGNALLING_OPERATIONS
00272             virtual Handle produceSignal( base::ActionInterface* func, const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* subscriber) const
00273             { throw no_asynchronous_operation_exception("cannot use produceSignal on synchronous operations"); }
00274 #endif
00275             virtual base::DataSourceBase::shared_ptr produceHandle() const
00276             { throw no_asynchronous_operation_exception("cannot use produceHandle on synchronous operations"); }
00277 
00278             virtual std::string getName() const {
00279                 return op->getName();
00280             }
00281             virtual std::string description() const {
00282                 return OperationInterfacePartHelper::description( op );
00283             }
00284 
00285             virtual std::vector<ArgumentDescription> getArgumentList() const {
00286                 std::vector<std::string> types;
00287                 for (unsigned int i = 1; i <= SynchronousOperationInterfacePartFused::arity(); ++i )
00288                     types.push_back( SequenceFactory::GetType(i) );
00289                 return OperationInterfacePartHelper::getArgumentList( op, SynchronousOperationInterfacePartFused::arity(), types );
00290             }
00291 
00292             std::string resultType() const
00293             {
00294                 return DataSourceTypeInfo<result_type>::getType() + DataSourceTypeInfo<result_type>::getQualifier();
00295             }
00296 
00297             unsigned int arity() const { return boost::function_traits<Signature>::arity; }
00298 
00299             const types::TypeInfo* getArgumentType(unsigned int arg) const
00300             {
00301                 if (arg == 0 )
00302                     return internal::DataSourceTypeInfo<result_type>::getTypeInfo();
00303                 return SequenceFactory::GetTypeInfo(arg);
00304             }
00305 
00306             unsigned int collectArity() const { return boost::function_traits< typename CollectType<Signature>::type >::arity; }
00307 
00308             const types::TypeInfo* getCollectType(unsigned int arg) const
00309             {
00310                 return CollectSequenceFactory::GetTypeInfo(arg);
00311             }
00312 
00313             base::DataSourceBase::shared_ptr produce(
00314                             const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* caller) const
00315             {
00316                 // convert our args and signature into a boost::fusion Sequence.
00317                 if ( args.size() != SynchronousOperationInterfacePartFused::arity() )
00318                     throw wrong_number_of_args_exception(SynchronousOperationInterfacePartFused::arity(), args.size() );
00319                 return new FusedMCallDataSource<Signature>(typename base::OperationCallerBase<Signature>::shared_ptr(op->getOperationCaller()->cloneI(caller)), SequenceFactory::sources(args.begin()) );
00320             }
00321 
00322             boost::shared_ptr<base::DisposableInterface> getLocalOperation() const {
00323                 return op->getImplementation();
00324             }
00325         };
00326 
00335             template<typename Signature,typename ObjT>
00336             class OperationInterfacePartFusedDS
00337                 : public OperationInterfacePart
00338             {
00339                 typedef create_sequence<typename boost::function_types::parameter_types<Signature>::type> SequenceFactory;
00340                 typedef create_sequence<typename boost::function_types::parameter_types<typename CollectType<Signature>::type>::type > CollectSequenceFactory;
00341                 typedef typename boost::function_traits<Signature>::result_type result_type;
00342                 Operation<Signature>* op;
00343                 // the datasource that stores a weak pointer is itself stored by a shared_ptr.
00344                 typename DataSource<boost::shared_ptr<ObjT> >::shared_ptr mwp;
00345             public:
00346                 OperationInterfacePartFusedDS( DataSource< boost::shared_ptr<ObjT> >* wp, Operation<Signature>* o)
00347                     : op( o ), mwp(wp)
00348                 {
00349                 }
00350 
00351                 typedef std::vector<base::DataSourceBase::shared_ptr> ArgList;
00352 
00353                 std::string resultType() const
00354                 {
00355                     return DataSourceTypeInfo<result_type>::getType() + DataSourceTypeInfo<result_type>::getQualifier();
00356                 }
00357 
00358                 unsigned int arity() const { return boost::function_traits<Signature>::arity - 1;/*lie about the hidden member pointer */ }
00359 
00360                 const types::TypeInfo* getArgumentType(unsigned int arg) const
00361                 {
00362                     if (arg == 0 )
00363                         return internal::DataSourceTypeInfo<result_type>::getTypeInfo();
00364                     return SequenceFactory::GetTypeInfo(arg);
00365                 }
00366 
00367                 unsigned int collectArity() const { return boost::function_traits< typename CollectType<Signature>::type >::arity; }
00368 
00369                 const types::TypeInfo* getCollectType(unsigned int arg) const
00370                 {
00371                     return CollectSequenceFactory::GetTypeInfo(arg);
00372                 }
00373 
00374                 virtual std::string getName() const {
00375                     return op->getName();
00376                 }
00377 
00378                 virtual std::string description() const {
00379                     return op->getDescriptions().front();
00380                 }
00381 
00382                 virtual std::vector<ArgumentDescription> getArgumentList() const {
00383                     std::vector<std::string> descr = op->getDescriptions();
00384                     std::vector<ArgumentDescription> ret;
00385                     descr.resize( 1 + arity() * 2 );
00386                     for (unsigned int i =1; i < descr.size(); i +=2 )
00387                         ret.push_back(ArgumentDescription(descr[i],descr[i+1], SequenceFactory::GetType((i-1)/2+2)) );
00388                     return ret;
00389                 }
00390 
00391                 base::DataSourceBase::shared_ptr produce(ArgList const& args, ExecutionEngine* caller) const
00392                 {
00393                     if ( args.size() != arity() ) throw wrong_number_of_args_exception(arity(), args.size() );
00394                     // the user won't give the necessary object argument, so we glue it in front.
00395                     ArgList a2;
00396                     a2.reserve(args.size()+1);
00397                     a2.push_back(mwp);
00398                     a2.insert(a2.end(), args.begin(), args.end());
00399                     // convert our args and signature into a boost::fusion Sequence.
00400                     return new FusedMCallDataSource<Signature>(typename base::OperationCallerBase<Signature>::shared_ptr(op->getOperationCaller()->cloneI(caller)), SequenceFactory::sources(a2.begin()) );
00401                 }
00402 
00403                 virtual base::DataSourceBase::shared_ptr produceSend( const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* caller ) const {
00404                     if ( args.size() != arity() ) throw wrong_number_of_args_exception(arity(), args.size() );
00405                     // the user won't give the necessary object argument, so we glue it in front.
00406                     ArgList a2;
00407                     a2.reserve(args.size()+1);
00408                     a2.push_back(mwp);
00409                     a2.insert(a2.end(), args.begin(), args.end());
00410                     // convert our args and signature into a boost::fusion Sequence.
00411                     return new FusedMSendDataSource<Signature>(typename base::OperationCallerBase<Signature>::shared_ptr(op->getOperationCaller()->cloneI(caller)), SequenceFactory::sources(a2.begin()) );
00412                 }
00413 
00414                 virtual base::DataSourceBase::shared_ptr produceHandle() const {
00415                     // Because of copy/clone,value objects must begin unbound.
00416                     return new internal::UnboundDataSource<ValueDataSource<SendHandle<Signature> > >();
00417                 }
00418 
00419                 virtual base::DataSourceBase::shared_ptr produceCollect( const std::vector<base::DataSourceBase::shared_ptr>& args, DataSource<bool>::shared_ptr blocking ) const {
00420                     const unsigned int carity = boost::mpl::size<typename FusedMCollectDataSource<Signature>::handle_and_arg_types>::value;
00421                     assert( carity == collectArity() + 1 ); // check for arity functions. (this is actually a compile time assert).
00422                     if ( args.size() != carity ) throw wrong_number_of_args_exception(carity, args.size() );
00423                     // we need to ask FusedMCollectDataSource what the arg types are, based on the collect signature.
00424                     return new FusedMCollectDataSource<Signature>( create_sequence<typename FusedMCollectDataSource<Signature>::handle_and_arg_types >::sources(args.begin()), blocking );
00425                 }
00426 #ifdef ORO_SIGNALLING_OPERATIONS
00427                 virtual Handle produceSignal( base::ActionInterface* func, const std::vector<base::DataSourceBase::shared_ptr>& args, ExecutionEngine* subscriber) const {
00428                     if ( args.size() != arity() ) throw wrong_number_of_args_exception(arity(), args.size() );
00429                     base::OperationCallerInterface::shared_ptr impl = op->getOperationCaller();
00430                     if ( subscriber == impl->getMessageProcessor() )
00431                         subscriber = 0; // clear out to avoid dispatching
00432                     // the user won't give the necessary object argument, so we glue it in front.
00433                     ArgList a2;
00434                     a2.reserve(args.size()+1);
00435                     a2.push_back(mwp);
00436                     a2.insert(a2.end(), args.begin(), args.end());
00437                     // note: in boost 1.41.0+ the function make_unfused() is available.
00438     #if BOOST_VERSION >= 104100
00439                     return this->op->signals( boost::fusion::make_unfused(boost::bind(&FusedMSignal<Signature>::invoke,
00440                                                                                 boost::make_shared<FusedMSignal<Signature> >(func, SequenceFactory::assignable(args.begin()),subscriber),
00441                                                                                 _1
00442                                                                                 )
00443                                                                     )
00444                                        );
00445     #else
00446                     return this->op->signals( boost::fusion::make_unfused_generic(boost::bind(&FusedMSignal<Signature>::invoke,
00447                                                                                         boost::make_shared<FusedMSignal<Signature> >(func, SequenceFactory::assignable(args.begin()),subscriber),
00448                                                                                 _1
00449                                                                                 )
00450                                                                     )
00451                                        );
00452     #endif
00453                 }
00454 #endif
00455                 boost::shared_ptr<base::DisposableInterface> getLocalOperation() const {
00456                     return this->op->getImplementation();
00457                 }
00458             };
00459     }
00460 }
00461 
00462 #endif


rtt
Author(s): RTT Developers
autogenerated on Sat Jun 8 2019 18:46:16