/* * Copyright (C) 2015,2016,2017,2018,2020,2021 by Jonathan Naylor G4KLX * Copyright (C) 2016 by Colin Durbridge G4EML * * 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 2 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, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "Config.h" #include "Globals.h" // Global variables MMDVM_STATE m_modemState = STATE_IDLE; bool m_dstarEnable = true; bool m_dmrEnable = true; bool m_ysfEnable = true; bool m_p25Enable = true; bool m_nxdnEnable = true; bool m_m17Enable = true; bool m_pocsagEnable = true; bool m_fmEnable = true; bool m_ax25Enable = true; bool m_duplex = true; bool m_tx = false; bool m_dcd = false; #if defined(MODE_DSTAR) CDStarRX dstarRX; CDStarTX dstarTX; CCalDStarRX calDStarRX; CCalDStarTX calDStarTX; #endif #if defined(MODE_DMR) CDMRIdleRX dmrIdleRX; CDMRRX dmrRX; CDMRTX dmrTX; CDMRDMORX dmrDMORX; CDMRDMOTX dmrDMOTX; CCalDMR calDMR; #endif #if defined(MODE_YSF) CYSFRX ysfRX; CYSFTX ysfTX; #endif #if defined(MODE_P25) CP25RX p25RX; CP25TX p25TX; CCalP25 calP25; #endif #if defined(MODE_NXDN) CNXDNRX nxdnRX; CNXDNTX nxdnTX; CCalNXDN calNXDN; #endif #if defined(MODE_M17) CM17RX m17RX; CM17TX m17TX; CCalM17 calM17; #endif #if defined(MODE_POCSAG) CPOCSAGTX pocsagTX; CCalPOCSAG calPOCSAG; #endif #if defined(MODE_FM) CFM fm; CCalFM calFM; #endif #if defined(MODE_AX25) CAX25RX ax25RX; CAX25TX ax25TX; #endif CCalRSSI calRSSI; CCWIdTX cwIdTX; CSerialPort serial; CIO io; void setup() { serial.start(); } void loop() { serial.process(); io.process(); // The following is for transmitting #if defined(MODE_DSTAR) if (m_dstarEnable && m_modemState == STATE_DSTAR) dstarTX.process(); #endif #if defined(MODE_DMR) if (m_dmrEnable && m_modemState == STATE_DMR) { if (m_duplex) dmrTX.process(); else dmrDMOTX.process(); } #endif #if defined(MODE_YSF) if (m_ysfEnable && m_modemState == STATE_YSF) ysfTX.process(); #endif #if defined(MODE_P25) if (m_p25Enable && m_modemState == STATE_P25) p25TX.process(); #endif #if defined(MODE_NXDN) if (m_nxdnEnable && m_modemState == STATE_NXDN) nxdnTX.process(); #endif #if defined(MODE_M17) if (m_m17Enable && m_modemState == STATE_M17) m17TX.process(); #endif #if defined(MODE_POCSAG) if (m_pocsagEnable && (m_modemState == STATE_POCSAG || pocsagTX.busy())) pocsagTX.process(); #endif #if defined(MODE_AX25) if (m_ax25Enable && (m_modemState == STATE_IDLE || m_modemState == STATE_FM)) ax25TX.process(); #endif #if defined(MODE_FM) if (m_fmEnable && m_modemState == STATE_FM) fm.process(); #endif #if defined(MODE_DSTAR) if (m_modemState == STATE_DSTARCAL) calDStarTX.process(); #endif #if defined(MODE_DMR) if (m_modemState == STATE_DMRCAL || m_modemState == STATE_LFCAL || m_modemState == STATE_DMRCAL1K || m_modemState == STATE_DMRDMO1K) calDMR.process(); #endif #if defined(MODE_FM) if (m_modemState == STATE_FMCAL10K || m_modemState == STATE_FMCAL12K || m_modemState == STATE_FMCAL15K || m_modemState == STATE_FMCAL20K || m_modemState == STATE_FMCAL25K || m_modemState == STATE_FMCAL30K) calFM.process(); #endif #if defined(MODE_P25) if (m_modemState == STATE_P25CAL1K) calP25.process(); #endif #if defined(MODE_NXDN) if (m_modemState == STATE_NXDNCAL1K) calNXDN.process(); #endif #if defined(MODE_M17) if (m_modemState == STATE_M17CAL) calM17.process(); #endif #if defined(MODE_POCSAG) if (m_modemState == STATE_POCSAGCAL) calPOCSAG.process(); #endif if (m_modemState == STATE_IDLE) cwIdTX.process(); }