// // Copyright 2011,2016 Ettus Research LLC // // SPDX-License-Identifier: GPL-3.0 // #include #include #include #include #include #include #include #include using namespace uhd; convert::converter::~converter(void){ /* NOP */ } bool convert::operator==(const convert::id_type &lhs, const convert::id_type &rhs){ return true and (lhs.input_format == rhs.input_format) and (lhs.num_inputs == rhs.num_inputs) and (lhs.output_format == rhs.output_format) and (lhs.num_outputs == rhs.num_outputs) ; } std::string convert::id_type::to_pp_string(void) const{ return str(boost::format( "conversion ID\n" " Input format: %s\n" " Num inputs: %d\n" " Output format: %s\n" " Num outputs: %d\n" ) % this->input_format % this->num_inputs % this->output_format % this->num_outputs ); } std::string convert::id_type::to_string(void) const{ return str(boost::format("%s (%d) -> %s (%d)") % this->input_format % this->num_inputs % this->output_format % this->num_outputs ); } /*********************************************************************** * Setup the table registry **********************************************************************/ typedef uhd::dict > fcn_table_type; UHD_SINGLETON_FCN(fcn_table_type, get_table); /*********************************************************************** * The registry functions **********************************************************************/ void uhd::convert::register_converter( const id_type &id, const function_type &fcn, const priority_type prio ){ get_table()[id][prio] = fcn; //----------------------------------------------------------------// //UHD_LOG_TRACE("CONVERT", boost::format("register_converter: %s prio: %s") % id.to_string() % prio) //----------------------------------------------------------------// } /*********************************************************************** * The converter functions **********************************************************************/ convert::function_type convert::get_converter( const id_type &id, const priority_type prio ){ if (not get_table().has_key(id)) throw uhd::key_error( "Cannot find a conversion routine for " + id.to_pp_string()); //find a matching priority priority_type best_prio = -1; for(priority_type prio_i: get_table()[id].keys()){ if (prio_i == prio) { //----------------------------------------------------------------// UHD_LOGGER_DEBUG("CONVERT") << "get_converter: For converter ID: " << id.to_pp_string() << " Using prio: " << prio; ; //----------------------------------------------------------------// return get_table()[id][prio]; } best_prio = std::max(best_prio, prio_i); } //wanted a specific prio, didnt find if (prio != -1) throw uhd::key_error( "Cannot find a conversion routine [with prio] for " + id.to_pp_string()); //----------------------------------------------------------------// UHD_LOGGER_DEBUG("CONVERT") << "get_converter: For converter ID: " << id.to_pp_string() << " Using prio: " << best_prio; //----------------------------------------------------------------// //otherwise, return best prio return get_table()[id][best_prio]; } /*********************************************************************** * Mappings for item format to byte size for all items we can **********************************************************************/ typedef uhd::dict item_size_type; UHD_SINGLETON_FCN(item_size_type, get_item_size_table); void convert::register_bytes_per_item( const std::string &format, const size_t size ){ get_item_size_table()[format] = size; } size_t convert::get_bytes_per_item(const std::string &format){ if (get_item_size_table().has_key(format)) return get_item_size_table()[format]; //OK. I am sorry about this. //We didnt find a match, so lets find a match for the first term. //This is partially a hack because of the way I append strings. //But as long as life is kind, we can keep this. const size_t pos = format.find("_"); if (pos != std::string::npos){ return get_bytes_per_item(format.substr(0, pos)); } throw uhd::key_error("Cannot find an item size:\n" + format); } UHD_STATIC_BLOCK(convert_register_item_sizes){ //register standard complex types convert::register_bytes_per_item("fc64", sizeof(std::complex)); convert::register_bytes_per_item("fc32", sizeof(std::complex)); convert::register_bytes_per_item("sc64", sizeof(std::complex)); convert::register_bytes_per_item("sc32", sizeof(std::complex)); convert::register_bytes_per_item("sc16", sizeof(std::complex)); convert::register_bytes_per_item("sc8", sizeof(std::complex)); //register standard real types convert::register_bytes_per_item("f64", sizeof(double)); convert::register_bytes_per_item("f32", sizeof(float)); convert::register_bytes_per_item("s64", sizeof(int64_t)); convert::register_bytes_per_item("s32", sizeof(int32_t)); convert::register_bytes_per_item("s16", sizeof(int16_t)); convert::register_bytes_per_item("s8", sizeof(int8_t)); convert::register_bytes_per_item("u8", sizeof(uint8_t)); //register VITA types convert::register_bytes_per_item("item32", sizeof(int32_t)); }