// // Copyright 2010 Ettus Research LLC // // 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 3 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, see . // #include #include #include #include #include #include #include #include #include #define rint(x) boost::math::iround(x) using namespace uhd; static const bool verbose = false; static bool compare_by_step_size( const size_t &rhs, const size_t &lhs, std::vector &fcns ){ return fcns.at(rhs).get_range().step > fcns.at(lhs).get_range().step; } /*********************************************************************** * gain group implementation **********************************************************************/ class gain_group_impl : public gain_group{ public: gain_group_impl(void){ /*NOP*/ } gain_range_t get_range(void){ float overall_min = 0, overall_max = 0, overall_step = 0; BOOST_FOREACH(const gain_fcns_t &fcns, get_all_fcns()){ const gain_range_t range = fcns.get_range(); overall_min += range.min; overall_max += range.max; //the overall step is the min (zero is invalid, first run) if (overall_step == 0) overall_step = range.step; overall_step = std::min(overall_step, range.step); } return gain_range_t(overall_min, overall_max, overall_step); } float get_value(void){ float overall_gain = 0; BOOST_FOREACH(const gain_fcns_t &fcns, get_all_fcns()){ overall_gain += fcns.get_value(); } return overall_gain; } void set_value(float gain){ std::vector all_fcns = get_all_fcns(); if (all_fcns.size() == 0) return; //nothing to set! //get the max step size among the gains float max_step = 0; BOOST_FOREACH(const gain_fcns_t &fcns, all_fcns){ max_step = std::max(max_step, fcns.get_range().step); } //create gain bucket to distribute power std::vector gain_bucket; //distribute power according to priority (round to max step) float gain_left_to_distribute = gain; BOOST_FOREACH(const gain_fcns_t &fcns, all_fcns){ const gain_range_t range = fcns.get_range(); gain_bucket.push_back( max_step*rint(std::clip(gain_left_to_distribute, range.min, range.max)/max_step) ); gain_left_to_distribute -= gain_bucket.back(); } //get a list of indexes sorted by step size large to small std::vector indexes_step_size_dec; for (size_t i = 0; i < all_fcns.size(); i++){ indexes_step_size_dec.push_back(i); } std::sort( indexes_step_size_dec.begin(), indexes_step_size_dec.end(), boost::bind(&compare_by_step_size, _1, _2, all_fcns) ); UHD_ASSERT_THROW( all_fcns.at(indexes_step_size_dec.front()).get_range().step >= all_fcns.at(indexes_step_size_dec.back()).get_range().step ); //distribute the remainder (less than max step) //fill in the largest step sizes first that are less than the remainder BOOST_FOREACH(size_t i, indexes_step_size_dec){ const gain_range_t range = all_fcns.at(i).get_range(); float additional_gain = range.step*int( std::clip(gain_bucket.at(i) + gain_left_to_distribute, range.min, range.max )/range.step) - gain_bucket.at(i); gain_bucket.at(i) += additional_gain; gain_left_to_distribute -= additional_gain; } if (verbose) std::cout << "gain_left_to_distribute " << gain_left_to_distribute << std::endl; //now write the bucket out to the individual gain values for (size_t i = 0; i < gain_bucket.size(); i++){ if (verbose) std::cout << gain_bucket.at(i) << std::endl; all_fcns.at(i).set_value(gain_bucket.at(i)); } } void register_fcns( const gain_fcns_t &gain_fcns, size_t priority ){ _registry[priority].push_back(gain_fcns); } private: //! get the gain function sets in order (highest priority first) std::vector get_all_fcns(void){ std::vector all_fcns; BOOST_FOREACH(ssize_t key, std::sorted(_registry.keys())){ const std::vector &fcns = _registry[key]; all_fcns.insert(all_fcns.begin(), fcns.begin(), fcns.end()); } return all_fcns; } uhd::dict > _registry; }; /*********************************************************************** * gain group factory function **********************************************************************/ gain_group::sptr gain_group::make(void){ return sptr(new gain_group_impl()); }