Beispiel #1
0
    /// =-=-=-=-=-=-=-
    /// @brief given the property map the properties next_child and child_vector,
    ///        select the next property in the vector to be tapped as the RR resc
    irods::error random_get_next_child_resource(
        irods::resource_child_map& _cmap,
        std::string&                _next_child ) {
        irods::error result = SUCCESS();

        // =-=-=-=-=-=-=-
        // if the child map is empty then just return
        if ( _cmap.size() > 0 ) {

            // =-=-=-=-=-=-=-
            // get the size of the map and randomly pick an index into it
            double rand_number  = static_cast<double>( rand() );
            rand_number /= static_cast<double>( RAND_MAX );
            size_t target_index = ( size_t )round( ( _cmap.size() - 1 ) * rand_number );

            // =-=-=-=-=-=-=-
            // child map is keyed by resource name so we need to count out the index
            // and then snag the child name from the key of the hash map
            size_t counter = 0;
            std::string next_child;
            irods::resource_child_map::iterator itr = _cmap.begin();
            for ( ; itr != _cmap.end(); ++itr ) {
                if ( counter == target_index ) {
                    next_child = itr->first;
                    break;

                }
                else {
                    ++counter;

                }

            } // for itr

            // =-=-=-=-=-=-=-
            // assign the next_child to the out variable
            _next_child = next_child;
        }

        return result;

    } // random_get_next_child_resource
    /// =-=-=-=-=-=-=-
    /// @brief build a sorted list of children based on hints in the context
    ///        string for them and their positoin in the child map
    // NOTE :: this assumes the order in the icat dictates the order of the RR.
    //         the user can override that behavior with applying an index to the
    //         child.  should the resc id wrap, this should still work as it
    //         should behave like a circular queue.
    irods::error build_sorted_child_vector(
        irods::resource_child_map& _cmap,
        std::vector< std::string >& _child_vector ) {
        // =-=-=-=-=-=-=-
        // vector holding all of the children
        size_t list_size = _cmap.size();
        _child_vector.resize( list_size );

        // =-=-=-=-=-=-=-
        // iterate over the children and look for indicies on the
        // childrens context strings.  use those to build the initial
        // list.
        irods::resource_child_map::iterator itr;
        for ( itr  = _cmap.begin();
                itr != _cmap.end();
                ++itr ) {

            std::string           ctx  = itr->second.first;
            irods::resource_ptr& resc = itr->second.second;
            if ( !ctx.empty() ) {
                try {
                    // =-=-=-=-=-=-=-
                    // cast std::string to int index
                    size_t idx = boost::lexical_cast<int>( ctx );
                    if ( idx < 0 || idx >= list_size ) {
                        irods::log( ERROR( -1, "build_sorted_child_vector - index < 0" ) );
                        continue;
                    }

                    // =-=-=-=-=-=-=-
                    // make sure the map at this spot is already empty, could have
                    // duplicate indicies on children
                    if ( !_child_vector[ idx ].empty() ) {
                        std::stringstream msg;
                        msg << "build_sorted_child_vector - child map list is not empty ";
                        msg << "for index " << idx << " colliding with [";
                        msg << _child_vector[ idx ] << "]";
                        irods::log( ERROR( -1, msg.str() ) );
                        continue;
                    }

                    // =-=-=-=-=-=-=-
                    // snag child resource name
                    std::string name;
                    irods::error ret = resc->get_property< std::string >( irods::RESOURCE_NAME, name );
                    if ( !ret.ok() ) {
                        irods::log( ERROR( -1, "build_sorted_child_vector - get property for resource name failed." ) );
                        continue;
                    }

                    // =-=-=-=-=-=-=-
                    // finally add child to the list
                    _child_vector[ idx ] = name;

                }
                catch ( boost::bad_lexical_cast const& ) {
                    irods::log( ERROR( -1, "build_sorted_child_vector - lexical cast failed" ) );
                }

            } // if ctx != empty

        } // for itr


        // =-=-=-=-=-=-=-
        // iterate over the children again and add in any in the holes
        // left from the first pass
        for ( itr  = _cmap.begin();
                itr != _cmap.end();
                ++itr ) {

            std::string           ctx  = itr->second.first;
            irods::resource_ptr& resc = itr->second.second;

            // =-=-=-=-=-=-=-
            // skip any resource whose context is not empty
            // as they should have places already
            if ( !ctx.empty() ) {
                continue;
            }

            // =-=-=-=-=-=-=-
            // iterate over the _child_vector and find a hole to
            // fill in with this resource name
            bool   filled_flg = false;
            size_t idx        = 0;
            std::vector< std::string >::iterator vitr;
            for ( vitr  = _child_vector.begin();
                    vitr != _child_vector.end();
                    ++vitr ) {
                if ( vitr->empty() ) {
                    // =-=-=-=-=-=-=-
                    // snag child resource name
                    std::string name;
                    irods::error ret = resc->get_property< std::string >( irods::RESOURCE_NAME, name );
                    if ( !ret.ok() ) {
                        irods::log( ERROR( -1, "build_sorted_child_vector - get property for resource name failed." ) );
                        idx++;
                        continue;
                    }

                    ( *vitr ) = name;
                    filled_flg = true;
                    break;

                }
                else {
                    idx++;
                }

            } // for vitr

            // =-=-=-=-=-=-=-
            // check to ensure that the resc found its way into the list
            if ( false == filled_flg ) {
                irods::log( ERROR( -1, "build_sorted_child_vector - failed to find an entry in the resc list" ) );
            }

        } // for itr


        return SUCCESS();

    } // build_sorted_child_vector