/* -*- c++ -*- */ // // Copyright 2008 Free Software Foundation, Inc. // // This file is part of GNU Radio // // GNU Radio 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 asversion 3, or (at your option) // any later version. // // GNU Radio 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 GNU Radio; see the file COPYING. If not, write to // the Free Software Foundation, Inc., 51 Franklin Street, // Boston, MA 02110-1301, USA. // #include #include #include #include #include #include #include #include #include #include #include std::vector instantiate_dbs(int dbid, usrp_basic_sptr usrp, int which_side) { std::vector db; switch(dbid) { case(USRP_DBID_BASIC_TX): db.push_back(db_base_sptr(new db_basic_tx(usrp, which_side))); break; case(USRP_DBID_BASIC_RX): db.push_back(db_base_sptr(new db_basic_rx(usrp, which_side, 0))); db.push_back(db_base_sptr(new db_basic_rx(usrp, which_side, 1))); break; case(USRP_DBID_LF_TX): db.push_back(db_base_sptr(new db_lf_tx(usrp, which_side))); break; case(USRP_DBID_LF_RX): db.push_back(db_base_sptr(new db_lf_rx(usrp, which_side, 0))); db.push_back(db_base_sptr(new db_lf_rx(usrp, which_side, 1))); break; case(USRP_DBID_DBS_RX): db.push_back(db_base_sptr(new db_dbs_rx(usrp, which_side))); break; case(USRP_DBID_TV_RX): db.push_back(db_base_sptr(new db_tv_rx(usrp, which_side, 43.75e6, 5.75e6))); break; case(USRP_DBID_TV_RX_REV_2): db.push_back(db_base_sptr(new db_tv_rx(usrp, which_side, 44e6, 20e6))); break; case(USRP_DBID_TV_RX_REV_3): db.push_back(db_base_sptr(new db_tv_rx(usrp, which_side, 44e6, 20e6))); break; case(USRP_DBID_FLEX_2400_TX): db.push_back(db_base_sptr(new db_flexrf_2400_tx(usrp, which_side))); break; case(USRP_DBID_FLEX_2400_RX): db.push_back(db_base_sptr(new db_flexrf_2400_rx(usrp, which_side))); break; case(USRP_DBID_FLEX_1200_TX): db.push_back(db_base_sptr(new db_flexrf_1200_tx(usrp, which_side))); break; case(USRP_DBID_FLEX_1200_RX): db.push_back(db_base_sptr(new db_flexrf_1200_rx(usrp, which_side))); break; case(USRP_DBID_FLEX_1800_TX): db.push_back(db_base_sptr(new db_flexrf_1800_tx(usrp, which_side))); break; case(USRP_DBID_FLEX_1800_RX): db.push_back(db_base_sptr(new db_flexrf_1800_rx(usrp, which_side))); break; case(USRP_DBID_FLEX_900_TX): db.push_back(db_base_sptr(new db_flexrf_900_tx(usrp, which_side))); break; case(USRP_DBID_FLEX_900_RX): db.push_back(db_base_sptr(new db_flexrf_900_rx(usrp, which_side))); break; case(USRP_DBID_FLEX_400_TX): db.push_back(db_base_sptr(new db_flexrf_400_tx(usrp, which_side))); break; case(USRP_DBID_FLEX_400_RX): db.push_back(db_base_sptr(new db_flexrf_400_rx(usrp, which_side))); break; case(USRP_DBID_FLEX_2400_TX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_2400_tx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_2400_RX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_2400_rx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_1800_TX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_1800_tx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_1800_RX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_1800_rx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_1200_TX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_1200_tx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_1200_RX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_1200_rx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_900_TX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_900_tx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_900_RX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_900_rx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_400_TX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_400_tx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_400_RX_MIMO_A): db.push_back(db_base_sptr(new db_flexrf_400_rx_mimo_a(usrp, which_side))); break; case(USRP_DBID_FLEX_2400_TX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_2400_tx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_2400_RX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_2400_rx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_1800_TX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_1800_tx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_1800_RX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_1800_rx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_1200_TX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_1200_tx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_1200_RX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_1200_rx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_900_TX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_900_tx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_900_RX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_900_rx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_400_TX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_400_tx_mimo_b(usrp, which_side))); break; case(USRP_DBID_FLEX_400_RX_MIMO_B): db.push_back(db_base_sptr(new db_flexrf_400_rx_mimo_b(usrp, which_side))); break; case(USRP_DBID_XCVR2450_TX): db.push_back(db_base_sptr(new db_xcvr2450_tx(usrp, which_side))); break; case(USRP_DBID_XCVR2450_RX): db.push_back(db_base_sptr(new db_xcvr2450_rx(usrp, which_side))); break; #if 0 // FIXME wbx doesn't compile case(USRP_DBID_WBX_LO_TX): db.push_back(db_base_sptr(new db_wbx_lo_tx(usrp, which_side))); break; case(USRP_DBID_WBX_LO_RX): db.push_back(db_base_sptr(new db_wbx_lo_rx(usrp, which_side))); break; #endif case(USRP_DBID_DTT754): db.push_back(db_base_sptr(new db_dtt754(usrp, which_side))); break; case(USRP_DBID_DTT768): db.push_back(db_base_sptr(new db_dtt768(usrp, which_side))); break; case(-1): if (boost::dynamic_pointer_cast(usrp)){ db.push_back(db_base_sptr(new db_basic_tx(usrp, which_side))); } else { db.push_back(db_base_sptr(new db_basic_rx(usrp, which_side, 0))); db.push_back(db_base_sptr(new db_basic_rx(usrp, which_side, 1))); } break; case(-2): default: if (boost::dynamic_pointer_cast(usrp)){ fprintf(stderr, "\n\aWarning: Treating daughterboard with invalid EEPROM contents as if it were a \"Basic Tx.\"\n"); fprintf(stderr, "Warning: This is almost certainly wrong... Use appropriate burn-*-eeprom utility.\n\n"); db.push_back(db_base_sptr(new db_basic_tx(usrp, which_side))); } else { fprintf(stderr, "\n\aWarning: Treating daughterboard with invalid EEPROM contents as if it were a \"Basic Rx.\"\n"); fprintf(stderr, "Warning: This is almost certainly wrong... Use appropriate burn-*-eeprom utility.\n\n"); db.push_back(db_base_sptr(new db_basic_rx(usrp, which_side, 0))); db.push_back(db_base_sptr(new db_basic_rx(usrp, which_side, 1))); } break; } return db; }