kopia lustrzana https://github.com/Hamlib/Hamlib
303 wiersze
8.5 KiB
C++
303 wiersze
8.5 KiB
C++
/*
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* Hamlib C++ bindings - API header
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* Copyright (c) 2001-2002 by Stephane Fillod
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*
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2.1 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*
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*/
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#ifndef _RIGCLASS_H
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#define _RIGCLASS_H 1
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#include <hamlib/rig.h>
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#include <iostream>
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class BACKEND_IMPEXP Rig
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{
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private:
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RIG *theRig; // Global ref. to the rig
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protected:
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public:
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Rig(rig_model_t rig_model);
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virtual ~Rig();
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const struct rig_caps *caps;
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// This method opens the communication port to the rig
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void open(void);
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// This method closes the communication port to the rig
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void close(void);
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void setConf(token_t token, const char *val);
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void setConf(const char *name, const char *val);
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void getConf(token_t token, char *val);
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void getConf(const char *name, char *val);
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token_t tokenLookup(const char *name);
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void setFreq(freq_t freq, vfo_t vfo = RIG_VFO_CURR);
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freq_t getFreq(vfo_t vfo = RIG_VFO_CURR);
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void setMode(rmode_t,
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pbwidth_t width = RIG_PASSBAND_NORMAL,
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vfo_t vfo = RIG_VFO_CURR);
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rmode_t getMode(pbwidth_t&, vfo_t vfo = RIG_VFO_CURR);
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void setVFO(vfo_t);
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vfo_t getVFO();
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void setPTT(ptt_t ptt, vfo_t vfo = RIG_VFO_CURR);
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ptt_t getPTT(vfo_t vfo = RIG_VFO_CURR);
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dcd_t getDCD(vfo_t vfo = RIG_VFO_CURR);
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void setLevel(setting_t level, int vali, vfo_t vfo = RIG_VFO_CURR);
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void setLevel(setting_t level, float valf, vfo_t vfo = RIG_VFO_CURR);
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void getLevel(setting_t level, int& vali, vfo_t vfo = RIG_VFO_CURR);
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void getLevel(setting_t level, float& valf, vfo_t vfo = RIG_VFO_CURR);
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int getLevelI(setting_t level, vfo_t vfo = RIG_VFO_CURR);
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float getLevelF(setting_t level, vfo_t vfo = RIG_VFO_CURR);
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bool hasGetLevel(setting_t level);
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bool hasSetLevel(setting_t level);
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void setParm(setting_t parm, int vali);
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void setParm(setting_t parm, float valf);
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void getParm(setting_t parm, int& vali);
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void getParm(setting_t parm, float& valf);
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int getParmI(setting_t parm);
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float getParmF(setting_t parm);
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bool hasGetParm(setting_t parm);
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bool hasSetParm(setting_t parm);
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void setFunc(setting_t func, bool status, vfo_t vfo = RIG_VFO_CURR);
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bool getFunc(setting_t func, vfo_t vfo = RIG_VFO_CURR);
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bool hasGetFunc(setting_t func);
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bool hasSetFunc(setting_t func);
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void VFOop(vfo_op_t op, vfo_t vfo = RIG_VFO_CURR);
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bool hasVFOop(vfo_op_t op);
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void scan(scan_t scan, int ch, vfo_t vfo = RIG_VFO_CURR);
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bool hasScan(scan_t scan);
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const char * getInfo(void);
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pbwidth_t passbandNormal(rmode_t);
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pbwidth_t passbandNarrow(rmode_t);
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pbwidth_t passbandWide(rmode_t);
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void setRptrShift(rptr_shift_t rptr_shift, vfo_t vfo = RIG_VFO_CURR);
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rptr_shift_t getRptrShift(vfo_t vfo = RIG_VFO_CURR);
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void setRptrOffs(shortfreq_t rptr_offs, vfo_t vfo = RIG_VFO_CURR);
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shortfreq_t getRptrOffs(vfo_t vfo = RIG_VFO_CURR);
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void setTs(shortfreq_t ts, vfo_t vfo = RIG_VFO_CURR);
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shortfreq_t getTs(vfo_t vfo = RIG_VFO_CURR);
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void setCTCSS(tone_t tone, vfo_t vfo = RIG_VFO_CURR);
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tone_t getCTCSS(vfo_t vfo = RIG_VFO_CURR);
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void setDCS(tone_t code, vfo_t vfo = RIG_VFO_CURR);
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tone_t getDCS(vfo_t vfo = RIG_VFO_CURR);
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void setCTCSSsql(tone_t tone, vfo_t vfo = RIG_VFO_CURR);
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tone_t getCTCSSsql(vfo_t vfo = RIG_VFO_CURR);
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void setDCSsql(tone_t tone, vfo_t vfo = RIG_VFO_CURR);
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tone_t getDCSsql(vfo_t vfo = RIG_VFO_CURR);
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unsigned int power2mW(float power, freq_t freq, rmode_t mode);
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float mW2power(unsigned int mwpower, freq_t freq, rmode_t mode);
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void setTrn(int trn);
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int getTrn(void);
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void setBank(int bank, vfo_t vfo = RIG_VFO_CURR);
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void setMem(int ch, vfo_t vfo = RIG_VFO_CURR);
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int getMem(vfo_t vfo = RIG_VFO_CURR);
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void setChannel(const channel_t *chan);
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void getChannel(channel_t *chan);
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void setPowerStat(powerstat_t status);
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powerstat_t getPowerStat(void);
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rmode_t RngRxModes(freq_t freq);
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rmode_t RngTxModes(freq_t freq);
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void setSplitFreq(freq_t tx_freq, vfo_t vfo = RIG_VFO_CURR);
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freq_t getSplitFreq(vfo_t vfo = RIG_VFO_CURR);
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void setSplitMode(rmode_t,
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pbwidth_t width = RIG_PASSBAND_NORMAL,
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vfo_t vfo = RIG_VFO_CURR);
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rmode_t getSplitMode(pbwidth_t&, vfo_t vfo = RIG_VFO_CURR);
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void setSplitFreqMode(freq_t, rmode_t,
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pbwidth_t width = RIG_PASSBAND_NORMAL,
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vfo_t vfo = RIG_VFO_CURR);
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freq_t getSplitFreqMode(rmode_t&, pbwidth_t&, vfo_t vfo = RIG_VFO_CURR);
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void setSplitVFO(split_t split,
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vfo_t vfo = RIG_VFO_CURR,
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vfo_t tx_vfo = RIG_VFO_CURR);
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split_t getSplitVFO(vfo_t& tx_vfo, vfo_t vfo = RIG_VFO_CURR);
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void setRit(shortfreq_t rit, vfo_t vfo = RIG_VFO_CURR);
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shortfreq_t getRit(vfo_t vfo = RIG_VFO_CURR);
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void setXit(shortfreq_t xit, vfo_t vfo = RIG_VFO_CURR);
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shortfreq_t getXit(vfo_t vfo = RIG_VFO_CURR);
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void setAnt(value_t option, ant_t ant, vfo_t vfo = RIG_VFO_CURR);
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ant_t getAnt(value_t &option, ant_t &ant, vfo_t vfo = RIG_VFO_CURR);
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void sendDtmf(const char *digits, vfo_t vfo = RIG_VFO_CURR);
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int recvDtmf(char *digits, vfo_t vfo = RIG_VFO_CURR);
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void sendMorse(const char *msg, vfo_t vfo = RIG_VFO_CURR);
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shortfreq_t getResolution(rmode_t mode);
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void reset(reset_t reset);
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// callbacks available in your derived object
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virtual int FreqEvent(vfo_t, freq_t, rig_ptr_t) const
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{
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return RIG_OK;
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}
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virtual int ModeEvent(vfo_t, rmode_t, pbwidth_t, rig_ptr_t) const
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{
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return RIG_OK;
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}
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virtual int VFOEvent(vfo_t, rig_ptr_t) const
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{
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return RIG_OK;
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}
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virtual int PTTEvent(vfo_t, ptt_t, rig_ptr_t) const
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{
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return RIG_OK;
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}
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virtual int DCDEvent(vfo_t, dcd_t, rig_ptr_t) const
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{
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return RIG_OK;
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}
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};
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#ifdef __GNUG__
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# if ((__GNUG__ <= 2) && (__GNUC_MINOR__ < 8))
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# if HAVE_TYPEINFO
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# include <typeinfo>
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# endif
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# endif
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#endif
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#if defined(__GNUG__)
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# if HAVE_BUILTIN_H || HAVE_GXX_BUILTIN_H || HAVE_GPP_BUILTIN_H
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# if ETIP_NEEDS_MATH_H
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# if ETIP_NEEDS_MATH_EXCEPTION
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# undef exception
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# define exception math_exception
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# endif
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# include <math.h>
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# endif
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# undef exception
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# define exception builtin_exception
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# if HAVE_GPP_BUILTIN_H
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# include <gpp/builtin.h>
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# elif HAVE_GXX_BUILTIN_H
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# include <g++/builtin.h>
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# else
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# include <builtin.h>
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# endif
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# undef exception
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# endif
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#elif defined (__SUNPRO_CC)
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# include <generic.h>
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# include <string.h>
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#else
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# include <string.h>
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#endif
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extern "C" {
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#if HAVE_VALUES_H
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# include <values.h>
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#endif
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#include <assert.h>
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#include <errno.h>
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}
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#include <iostream>
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#if !(defined(__GNUG__)||defined(__SUNPRO_CC)||defined(_WIN32))
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extern "C" void exit(int);
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#endif
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// Forward Declarations
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class BACKEND_IMPEXP RigException
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{
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public:
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const char *message;
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int errorno;
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RigException(const char *msg, int err)
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: message(msg), errorno(err)
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{};
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RigException(int err)
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: message(rigerror(err)), errorno(err)
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{};
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RigException(const char *msg)
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: message(msg), errorno(-RIG_EINTERNAL)
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{};
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virtual ~RigException()
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{};
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void print() const
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{
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std::cerr << "Rig exception: " << message << std::endl;
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}
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virtual const char *classname() const
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{
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return "Rig";
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}
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};
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inline void THROW(const RigException *e)
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{
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#if defined(__GNUG__)
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# if ((__GNUG__ <= 2) && (__GNUC_MINOR__ < 8))
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(*lib_error_handler)(e ? e->classname() : "", e ? e->message : "");
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#else
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throw *e;
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#endif
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#elif defined(__SUNPRO_CC)
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genericerror(1, ((e != 0) ? (char *)(e->message) : ""));
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#else
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if (e) {
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std::cerr << e->message << std::endl;
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}
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exit(0);
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#endif
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}
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#define THROWS(s)
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#endif // _RIGCLASS_H
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