DriveHQ Start Menu
Cloud Drive Mapping
Folder Sync
Cloud Backup
True Drop Box
FTP/SFTP Hosting
Group Account
DriveHQ Start Menu
Online File Server
My Storage
|
Manage Shares
|
Publishes
|
Drop Boxes
|
Group Account
WebDAV Drive Mapping
Cloud Drive Home
|
WebDAV Guide
|
Drive Mapping Tool
|
Drive Mapping URL
Complete Data Backup
Backup Guide
|
Online Backup Tool
|
Cloud-to-Cloud Backup
FTP, Email & Web Service
FTP Home
|
FTP Hosting FAQ
|
Email Hosting
|
EmailManager
|
Web Hosting
Help & Resources
About
|
Enterprise Service
|
Partnership
|
Comparisons
|
Support
Quick Links
Security and Privacy
Download Software
Service Manual
Use Cases
Group Account
Online Help
Blog
Contact
Cloud Surveillance
Sign Up
Login
Features
Business Features
Online File Server
FTP Hosting
Cloud Drive Mapping
Cloud File Backup
Email Backup & Hosting
Cloud File Sharing
Folder Synchronization
Group Management
True Drop Box
Full-text Search
AD Integration/SSO
Mobile Access
IP Camera & DVR Solution
More...
Personal Features
Personal Cloud Drive
Backup All Devices
Mobile APPs
Personal Web Hosting
Sub-Account (for Kids)
Home/PC/Kids Monitoring
More...
Software
DriveHQ Drive Mapping Tool
DriveHQ FileManager
DriveHQ Online Backup
DriveHQ Mobile Apps
Pricing
Business Plans & Pricing
Personal Plans & Pricing
Price Comparison with Others
Feature Comparison with Others
Install Mobile App
Sign up
Creating account...
Invalid character in username! Only 0-9, a-z, A-Z, _, -, . allowed.
Username is required!
Invalid email address!
E-mail is required!
Password is required!
Password is invalid!
Password and confirmation do not match.
Confirm password is required!
I accept
Membership Agreement
Please read the Membership Agreement and check "I accept"!
Free Quick Sign-up
Sign-up Page
Log in
Signing in...
Username or e-mail address is required!
Password is required!
Keep me logged in
Quick Login
Forgot Password
Up
Upload
Download
Share
Publish
New Folder
New File
Copy
Cut
Delete
Paste
Rate
Upgrade
Rotate
Effect
Edit
Slide
History
/*============================================================================= Phoenix V1.2.1 Copyright (c) 2002 Joel de Guzman Copyright (c) 2002-2003 Hartmut Kaiser Use, modification and distribution is subject to the Boost Software License, Version 1.0. (See accompanying file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt) ==============================================================================*/ #ifndef PHOENIX_TUPLEHELPERS_HPP #define PHOENIX_TUPLEHELPERS_HPP /////////////////////////////////////////////////////////////////////////////// #include <cassert> #include <boost/spirit/phoenix/tuples.hpp> /////////////////////////////////////////////////////////////////////////////// namespace phoenix { /////////////////////////////////////////////////////////////////////////////// // // make_tuple template class // // This template class is used to calculate a tuple type required to hold // the given template parameter type // /////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////// // normal (non-tuple types are wrapped into a tuple) template <typename ResultT> struct make_tuple { typedef tuple<ResultT> type; }; /////////////////////////////////////////////////////////////////////////////// // nil_t is converted to an empty tuple type template <> struct make_tuple<nil_t> { typedef tuple<> type; }; /////////////////////////////////////////////////////////////////////////////// // tuple types are left alone without any refactoring template < typename A, typename B, typename C #if PHOENIX_LIMIT > 3 , typename D, typename E, typename F #if PHOENIX_LIMIT > 6 , typename G, typename H, typename I #if PHOENIX_LIMIT > 9 , typename J, typename K, typename L #if PHOENIX_LIMIT > 12 , typename M, typename N, typename O #endif #endif #endif #endif > struct make_tuple<tuple<A, B, C #if PHOENIX_LIMIT > 3 , D, E, F #if PHOENIX_LIMIT > 6 , G, H, I #if PHOENIX_LIMIT > 9 , J, K, L #if PHOENIX_LIMIT > 12 , M, N, O #endif #endif #endif #endif > > { // the tuple parameter itself is the required tuple type typedef tuple<A, B, C #if PHOENIX_LIMIT > 3 , D, E, F #if PHOENIX_LIMIT > 6 , G, H, I #if PHOENIX_LIMIT > 9 , J, K, L #if PHOENIX_LIMIT > 12 , M, N, O #endif #endif #endif #endif > type; }; /////////////////////////////////////////////////////////////////////////////// // // concat_tuple type computer // // This class returns the type of a tuple, which is constructed by // concatenating a tuple with a given type // /////////////////////////////////////////////////////////////////////////////// template <typename TupleT, typename AppendT> struct concat_tuple; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <0 member> class // /////////////////////////////////////////////////////////////////////////////// template <typename AppendT> struct concat_tuple<tuple<>, AppendT> { typedef tuple<AppendT> type; }; template <> struct concat_tuple<tuple<>, nil_t> { typedef tuple<> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <1 member> class // /////////////////////////////////////////////////////////////////////////////// template <typename A, typename AppendT> struct concat_tuple<tuple<A>, AppendT> { typedef tuple<A, AppendT> type; }; template <typename A> struct concat_tuple<tuple<A>, nil_t> { typedef tuple<A> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <2 member> class // /////////////////////////////////////////////////////////////////////////////// template <typename A, typename B, typename AppendT> struct concat_tuple<tuple<A, B>, AppendT> { typedef tuple<A, B, AppendT> type; }; template <typename A, typename B> struct concat_tuple<tuple<A, B>, nil_t> { typedef tuple<A, B> type; }; #if PHOENIX_LIMIT > 3 /////////////////////////////////////////////////////////////////////////////// // // concat tuple <3 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename AppendT > struct concat_tuple<tuple<A, B, C>, AppendT> { typedef tuple<A, B, C, AppendT> type; }; template < typename A, typename B, typename C > struct concat_tuple<tuple<A, B, C>, nil_t> { typedef tuple<A, B, C> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <4 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename AppendT > struct concat_tuple<tuple<A, B, C, D>, AppendT> { typedef tuple<A, B, C, D, AppendT> type; }; template < typename A, typename B, typename C, typename D > struct concat_tuple<tuple<A, B, C, D>, nil_t> { typedef tuple<A, B, C, D> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <5 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E>, AppendT> { typedef tuple<A, B, C, D, E, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E > struct concat_tuple<tuple<A, B, C, D, E>, nil_t> { typedef tuple<A, B, C, D, E> type; }; #if PHOENIX_LIMIT > 6 /////////////////////////////////////////////////////////////////////////////// // // concat tuple <6 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F>, AppendT> { typedef tuple<A, B, C, D, E, F, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F > struct concat_tuple<tuple<A, B, C, D, E, F>, nil_t> { typedef tuple<A, B, C, D, E, F> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <7 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F, G>, AppendT> { typedef tuple<A, B, C, D, E, F, G, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F, typename G > struct concat_tuple<tuple<A, B, C, D, E, F, G>, nil_t> { typedef tuple<A, B, C, D, E, F, G> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <8 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F, G, H>, AppendT> { typedef tuple<A, B, C, D, E, F, G, H, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H > struct concat_tuple<tuple<A, B, C, D, E, F, G, H>, nil_t> { typedef tuple<A, B, C, D, E, F, G, H> type; }; #if PHOENIX_LIMIT > 9 /////////////////////////////////////////////////////////////////////////////// // // concat tuple <9 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I>, AppendT> { typedef tuple<A, B, C, D, E, F, G, H, I, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I>, nil_t> { typedef tuple<A, B, C, D, E, F, G, H, I> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <10 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J>, AppendT> { typedef tuple<A, B, C, D, E, F, G, H, I, J, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J>, nil_t> { typedef tuple<A, B, C, D, E, F, G, H, I, J> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <11 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J, K>, AppendT> { typedef tuple<A, B, C, D, E, F, G, H, I, J, K, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J, K>, nil_t> { typedef tuple<A, B, C, D, E, F, G, H, I, J, K> type; }; #if PHOENIX_LIMIT > 12 /////////////////////////////////////////////////////////////////////////////// // // concat tuple <12 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J, K, L>, AppendT> { typedef tuple<A, B, C, D, E, F, G, H, I, J, K, L, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J, K, L>, nil_t> { typedef tuple<A, B, C, D, E, F, G, H, I, J, K, L> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <13 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L, typename M, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J, K, L, M>, AppendT> { typedef tuple<A, B, C, D, E, F, G, H, I, J, K, L, M, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L, typename M > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J, K, L, M>, nil_t> { typedef tuple<A, B, C, D, E, F, G, H, I, J, K, L, M> type; }; /////////////////////////////////////////////////////////////////////////////// // // concat tuple <14 member> class // /////////////////////////////////////////////////////////////////////////////// template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L, typename M, typename N, typename AppendT > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J, K, L, M, N>, AppendT> { typedef tuple<A, B, C, D, E, F, G, H, I, J, K, L, M, N, AppendT> type; }; template < typename A, typename B, typename C, typename D, typename E, typename F, typename G, typename H, typename I, typename J, typename K, typename L, typename M, typename N > struct concat_tuple<tuple<A, B, C, D, E, F, G, H, I, J, K, L, M, N>, nil_t> { typedef tuple<A, B, C, D, E, F, G, H, I, J, K, L, M, N> type; }; #endif #endif #endif #endif /////////////////////////////////////////////////////////////////////////////// // // concat_tuples type computer // // This template class returns the type of a tuple built from the // concatenation of two given tuples. // /////////////////////////////////////////////////////////////////////////////// template <typename TupleT1, typename TupleT2, int N, typename AppendT> struct concat_tuple_element { typedef typename concat_tuple_element< typename concat_tuple<TupleT1, AppendT>::type, TupleT2, N+1, typename tuple_element<N+1, TupleT2>::type >::type type; }; template <typename TupleT1, typename TupleT2, int N> struct concat_tuple_element<TupleT1, TupleT2, N, nil_t> { typedef TupleT1 type; }; template <typename TupleT1, typename TupleT2> struct concat_tuples { typedef typename concat_tuple_element< TupleT1, TupleT2, 0, typename tuple_element<0, TupleT2>::type >::type type; }; /////////////////////////////////////////////////////////////////////////////// // // convert_actors template function // // The convert_actors template functions constructs a new tuple object // composed of the elements returned by the actors contained in the // input tuple. (i.e. the given tuple type 'actor_tuple' contains a set // of actors to evaluate and the resulting tuple contains the results of // evaluating the actors.) // /////////////////////////////////////////////////////////////////////////////// template <typename ActorT, typename TupleT> struct actor_result; // forward declaration namespace impl { template <unsigned N> struct convert_actors_ {}; } template <typename TupleResultT, typename ActorTupleT> TupleResultT convert_actors(ActorTupleT const& actor_tuple) { BOOST_STATIC_ASSERT(ActorTupleT::length <= TupleResultT::length); BOOST_STATIC_CONSTANT(int, length = TupleResultT::length); return impl::convert_actors_<length> ::template apply<TupleResultT, ActorTupleT>::do_(actor_tuple); } namespace impl { template <int N, typename TupleResultT, typename ActorTupleT> struct convert_actor { typedef typename tuple_element<N, TupleResultT>::type type; template <bool C> struct is_default_t {}; typedef is_default_t<true> is_default; typedef is_default_t<false> is_not_default; static type actor_element(ActorTupleT const& /*actor_tuple*/, is_default) { return type(); // default construct } static type actor_element(ActorTupleT const& actor_tuple, is_not_default) { BOOST_STATIC_ASSERT(ActorTupleT::length <= TupleResultT::length); return actor_tuple[tuple_index<N>()](); // apply the actor } static type do_(ActorTupleT const& actor_tuple) { return actor_element( actor_tuple, is_default_t<(N >= ActorTupleT::length)>()); } }; /////////////////////////////////////// template <> struct convert_actors_<1> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; return TupleResultT( converter0::do_(actor_tuple) ); } }; }; /////////////////////////////////////// template <> struct convert_actors_<2> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) ); } }; }; /////////////////////////////////////// template <> struct convert_actors_<3> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) ); } }; }; #if PHOENIX_LIMIT > 3 ///////////////////////////////////// template <> struct convert_actors_<4> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) ); } }; }; ///////////////////////////////////// template <> struct convert_actors_<5> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) ); } }; }; ///////////////////////////////////// template <> struct convert_actors_<6> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) ); } }; }; #if PHOENIX_LIMIT > 6 ///////////////////////////////////// template <> struct convert_actors_<7> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) ); } }; }; ///////////////////////////////////// template <> struct convert_actors_<8> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; typedef impl::convert_actor<7, TupleResultT, ActorTupleT> converter7; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) , converter7::do_(actor_tuple) ); } }; }; ///////////////////////////////////// template <> struct convert_actors_<9> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; typedef impl::convert_actor<7, TupleResultT, ActorTupleT> converter7; typedef impl::convert_actor<8, TupleResultT, ActorTupleT> converter8; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) , converter7::do_(actor_tuple) , converter8::do_(actor_tuple) ); } }; }; #if PHOENIX_LIMIT > 9 ///////////////////////////////////// template <> struct convert_actors_<10> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; typedef impl::convert_actor<7, TupleResultT, ActorTupleT> converter7; typedef impl::convert_actor<8, TupleResultT, ActorTupleT> converter8; typedef impl::convert_actor<9, TupleResultT, ActorTupleT> converter9; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) , converter7::do_(actor_tuple) , converter8::do_(actor_tuple) , converter9::do_(actor_tuple) ); } }; }; ///////////////////////////////////// template <> struct convert_actors_<11> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; typedef impl::convert_actor<7, TupleResultT, ActorTupleT> converter7; typedef impl::convert_actor<8, TupleResultT, ActorTupleT> converter8; typedef impl::convert_actor<9, TupleResultT, ActorTupleT> converter9; typedef impl::convert_actor<10, TupleResultT, ActorTupleT> converter10; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) , converter7::do_(actor_tuple) , converter8::do_(actor_tuple) , converter9::do_(actor_tuple) , converter10::do_(actor_tuple) ); } }; }; ///////////////////////////////////// template <> struct convert_actors_<12> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; typedef impl::convert_actor<7, TupleResultT, ActorTupleT> converter7; typedef impl::convert_actor<8, TupleResultT, ActorTupleT> converter8; typedef impl::convert_actor<9, TupleResultT, ActorTupleT> converter9; typedef impl::convert_actor<10, TupleResultT, ActorTupleT> converter10; typedef impl::convert_actor<11, TupleResultT, ActorTupleT> converter11; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) , converter7::do_(actor_tuple) , converter8::do_(actor_tuple) , converter9::do_(actor_tuple) , converter10::do_(actor_tuple) , converter11::do_(actor_tuple) ); } }; }; #if PHOENIX_LIMIT > 12 ///////////////////////////////////// template <> struct convert_actors_<13> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; typedef impl::convert_actor<7, TupleResultT, ActorTupleT> converter7; typedef impl::convert_actor<8, TupleResultT, ActorTupleT> converter8; typedef impl::convert_actor<9, TupleResultT, ActorTupleT> converter9; typedef impl::convert_actor<10, TupleResultT, ActorTupleT> converter10; typedef impl::convert_actor<11, TupleResultT, ActorTupleT> converter11; typedef impl::convert_actor<12, TupleResultT, ActorTupleT> converter12; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) , converter7::do_(actor_tuple) , converter8::do_(actor_tuple) , converter9::do_(actor_tuple) , converter10::do_(actor_tuple) , converter11::do_(actor_tuple) , converter12::do_(actor_tuple) ); } }; }; /////////////////////////////////////// template <> struct convert_actors_<14> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; typedef impl::convert_actor<7, TupleResultT, ActorTupleT> converter7; typedef impl::convert_actor<8, TupleResultT, ActorTupleT> converter8; typedef impl::convert_actor<9, TupleResultT, ActorTupleT> converter9; typedef impl::convert_actor<10, TupleResultT, ActorTupleT> converter10; typedef impl::convert_actor<11, TupleResultT, ActorTupleT> converter11; typedef impl::convert_actor<12, TupleResultT, ActorTupleT> converter12; typedef impl::convert_actor<13, TupleResultT, ActorTupleT> converter13; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) , converter7::do_(actor_tuple) , converter8::do_(actor_tuple) , converter9::do_(actor_tuple) , converter10::do_(actor_tuple) , converter11::do_(actor_tuple) , converter12::do_(actor_tuple) , converter13::do_(actor_tuple) ); } }; }; /////////////////////////////////////// template <> struct convert_actors_<15> { template <typename TupleResultT, typename ActorTupleT> struct apply { static TupleResultT do_(ActorTupleT const& actor_tuple) { typedef impl::convert_actor<0, TupleResultT, ActorTupleT> converter0; typedef impl::convert_actor<1, TupleResultT, ActorTupleT> converter1; typedef impl::convert_actor<2, TupleResultT, ActorTupleT> converter2; typedef impl::convert_actor<3, TupleResultT, ActorTupleT> converter3; typedef impl::convert_actor<4, TupleResultT, ActorTupleT> converter4; typedef impl::convert_actor<5, TupleResultT, ActorTupleT> converter5; typedef impl::convert_actor<6, TupleResultT, ActorTupleT> converter6; typedef impl::convert_actor<7, TupleResultT, ActorTupleT> converter7; typedef impl::convert_actor<8, TupleResultT, ActorTupleT> converter8; typedef impl::convert_actor<9, TupleResultT, ActorTupleT> converter9; typedef impl::convert_actor<10, TupleResultT, ActorTupleT> converter10; typedef impl::convert_actor<11, TupleResultT, ActorTupleT> converter11; typedef impl::convert_actor<12, TupleResultT, ActorTupleT> converter12; typedef impl::convert_actor<13, TupleResultT, ActorTupleT> converter13; typedef impl::convert_actor<14, TupleResultT, ActorTupleT> converter14; using namespace tuple_index_names; return TupleResultT( converter0::do_(actor_tuple) , converter1::do_(actor_tuple) , converter2::do_(actor_tuple) , converter3::do_(actor_tuple) , converter4::do_(actor_tuple) , converter5::do_(actor_tuple) , converter6::do_(actor_tuple) , converter7::do_(actor_tuple) , converter8::do_(actor_tuple) , converter9::do_(actor_tuple) , converter10::do_(actor_tuple) , converter11::do_(actor_tuple) , converter12::do_(actor_tuple) , converter13::do_(actor_tuple) , converter14::do_(actor_tuple) ); } }; }; #endif #endif #endif #endif } // namespace impl /////////////////////////////////////////////////////////////////////////////// } // namespace phoenix #endif // PHOENIX_TUPLEHELPERS_HPP
tuple_helpers.hpp
Page URL
File URL
Prev
12/13
Next
Download
( 39 KB )
Note: The DriveHQ service banners will NOT be displayed if the file owner is a paid member.
Comments
Total ratings:
0
Average rating:
Not Rated
Would you like to comment?
Join DriveHQ
for a free account, or
Logon
if you are already a member.
