---

pcp.cpp

/*
   Copyright (C) 1999 PolyWog and Javaman for Ghetto.Org
   This file is part of the PCR-1000 API Library.

   The PCR-1000 API Library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Library General Public License as
   published by the Free Software Foundation; either version 2 of the
   License, or (at your option) any later version.

   The PCR-1000 API Library 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
   Library General Public License for more details.

   You should have received a copy of the GNU Library General Public
   License along with the PCR-1000 API Library; see the file LICENSE.  If not,
   write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330,
   Boston, MA 02111-1307, USA.
 */

/*
 *  This file declares PCP.
 *  PCP Is the actual object that interfaces with the GUI
 *  This API deals with the error handling and the calls
 *  that must be made to and from the radio, via the PComm
 *  serial i/o object.
 */

#include "pcp.h"

#include <stdio.h>
#include <unistd.h>
#include <stdlib.h>

#if defined (SunOS) || defined (Irix)
#include <strings.h>
#else // def SunOs/Irix
#include <string.h>
#endif // def SunOs/Irix

PCP :: PCP(char *port, tcflag_t speed, const char *name)
{
    PCPRadio = new PRadInf;
    PCPComm = new PComm(port, speed, name);

    bzero(PCPRadio, sizeof( PRadInf));
    bzero(PCPTemp, sizeof(PCPTemp));

    strncpy(PCPRadio->PCPPort, port, 0xff);
    PCPRadio->PCPSpeed = speed;
    PCPRadio->PCPVolume = 0;
    PCPRadio->PCPSquelch = 0;
    PCPRadio->PCPFreq = 146000000;
    strncpy(PCPRadio->PCPMode, PCRMODNFM, sizeof(PCPRadio->PCPMode));
    strncpy(PCPRadio->PCPFilter, PCRFLTR15, sizeof(PCPRadio->PCPFilter));
    PCPRadio->PCPToneSq=0;
    PCPRadio->PCPToneSqFloat=0.0;
    PCPRadio->PCPAutoGain=false;
    PCPRadio->PCPNoiseBlank=false;
    PCPRadio->PCPRFAttenuator=false;
    PCPRadio->PCPAutoUpdate = false;
    PCPStatus = false;
}
PCP :: ~PCP()
{
    delete PCPComm;
}
bool PCP :: PCPInit(bool autoUpdate)
{
    if (autoUpdate==false) {
        PCPComm->PCTell(PCRINITM);
        fprintf(stderr, "Radio is coming up. Please wait...\n");
        sleep(1); 
        if (PCPStatus) 
        if (PCPCheckResponse()) {
            PCPRadio->PCPAutoUpdate=false;
            return true;
        }
    } else {
        PCPComm->PCTell(PCRINITA);
        sleep(1);
        if (PCPStatus)
        if (PCPCheckResponse()) {
            PCPRadio->PCPAutoUpdate=true;
            return true;
        }
    }

    return false;
}
bool PCP :: PCPPowerUp()
{
    PCPComm->PCTell(PCRPWRON);
    if (PCPCheckResponse()) {
//      PCPCheckResponse();
        PCPStatus=true;
        return true;
    } 
    return false;
}
bool PCP :: PCPPowerDown()
{
    PCPComm->PCTell(PCRPWROFF);
    // if (PCPCheckResponse()) {
        PCPCheckResponse();
        PCPStatus=false;
        return true;
    // } 
    // return false;
}
bool PCP :: PCPSetSpeed(tcflag_t speed)
{
    if ( (B300<=speed)&&(speed<=B38400) ) {
        bzero(PCPRadio->PCPInitSpeed, sizeof(PCPRadio->PCPInitSpeed));
        switch (speed) {
                case B38400:
                        // you probably want to set the speed
                        // to fastest available, so let's put
                        // this here first
                        strncpy(PCPRadio->PCPInitSpeed, PCRBD38400,
                                sizeof(PCPRadio->PCPInitSpeed)-1);
                        break;
                case B19200:
                        strncpy(PCPRadio->PCPInitSpeed, PCRBD19200,
                                sizeof(PCPRadio->PCPInitSpeed)-1);
                        break;
                case B300:
                        strncpy(PCPRadio->PCPInitSpeed, PCRBD300,
                                sizeof(PCPRadio->PCPInitSpeed)-1);
                        break;
                case B1200:
                        strncpy(PCPRadio->PCPInitSpeed, PCRBD1200,
                                sizeof(PCPRadio->PCPInitSpeed)-1);
                        break;
                case B2400:
                        strncpy(PCPRadio->PCPInitSpeed, PCRBD2400,
                                sizeof(PCPRadio->PCPInitSpeed)-1);
                        break;
                default:
                        // if all else fails, we'll always
                        // have paris! ~=^)
                        strncpy(PCPRadio->PCPInitSpeed, PCRBD9600,
                                sizeof(PCPRadio->PCPInitSpeed)-1);
        }
        PCPComm->PCTell(PCPRadio->PCPInitSpeed);
        delete PCPComm;
        PCPComm = new PComm(PCPRadio->PCPPort, speed, "PCPComm_R");
// investigate possible responses, i dont think one is given.
//      PCPCheckResponse();
                PCPRadio->PCPSpeed = speed;
                return true;
    }

    return false;
}
bool PCP :: PCPSetPort(const char *port) 
{
    PCPComm->PCClose();
    return(PCPComm->PCOpen(port));
}
bool PCP :: PCPSetVolume(int volume) 
{
    if ((0<=volume)&&(volume<=99)) {
        bzero(PCPTemp, sizeof(PCPTemp));
        sprintf(PCPTemp, "%s%0.2d", PCRVOL, volume);
        PCPComm->PCTell(PCPTemp);
        if (PCPCheckResponse()) {
            PCPRadio->PCPVolume=volume;
            return true;
        }
    }

    return false;
}
bool PCP :: PCPSetSquelch(int squelch) 
{
    if ((0<=squelch)&&(squelch<=99)) {
        bzero(PCPTemp, sizeof(PCPTemp));
        sprintf(PCPTemp, "%s%0.2d", PCRSQL, squelch);
        PCPComm->PCTell(PCPTemp);
        if (PCPCheckResponse()) {
            PCPRadio->PCPSquelch=squelch;
            return true;
        }
    }

    return false;
}
bool PCP :: PCPSetFreq(pcrfreq_t freq)
{
    char freqConv[32];
    bzero(freqConv, sizeof(freqConv));

    if ((LOWERFRQ<=freq)&&(freq<=UPPERFRQ)) {
        bzero(PCPTemp, sizeof(PCPTemp));
        sprintf(freqConv, "%0.10lu", freq);
        strcpy(PCPTemp, PCRFRQ);
        strcat(PCPTemp, freqConv);
        strcat(PCPTemp, PCPRadio->PCPMode);
        strcat(PCPTemp, PCPRadio->PCPFilter);
        strcat(PCPTemp, "00");
        PCPComm->PCTell(PCPTemp);
        if (PCPCheckResponse()) {
            PCPRadio->PCPFreq=freq;
#ifdef DEBUG_VER_
            fprintf(stderr, "PCP: PCPSETFREQ - Success\n");
#endif
            return true;
        }
    }
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPSETFREQ - Failed\n");
#endif
    return false;
}
bool PCP :: PCPSetMode(const char *mode)
{
    char freqConv[32];
    char temp[8];

    bzero(PCPTemp, sizeof(PCPTemp));
    sprintf(freqConv, "%0.10lu", PCPRadio->PCPFreq);
    strcpy(PCPTemp, PCRFRQ);
    strcat(PCPTemp, freqConv);

    if ( strncmp(mode, "AM", 2)==0 ) {
        strcat(PCPTemp, PCRMODAM);
        strcpy(temp, PCRMODAM);
    } else if ( strncmp(mode, "CW", 2)== 0 ) {
        strcat(PCPTemp, PCRMODCW);
        strcpy(temp, PCRMODCW);
    } else if ( strncmp(mode, "LSB", 3)==0 ) {
        strcat(PCPTemp, PCRMODLSB);
        strcpy(temp, PCRMODLSB);
    } else if ( strncmp(mode, "USB", 3)==0 ) {
        strcat(PCPTemp, PCRMODUSB);
        strcpy(temp, PCRMODUSB);
    } else if ( strncmp(mode, "NFM", 3)==0 ) {
        strcat(PCPTemp, PCRMODNFM);
        strcpy(temp, PCRMODNFM);
    } else if ( strncmp(mode, "WFM", 3)==0 ) {
        strcat(PCPTemp, PCRMODWFM);
        strcpy(temp, PCRMODWFM);
    } else {
        return false;
    }

    strcat(PCPTemp, PCPRadio->PCPFilter);
    strcat(PCPTemp, "00");
    PCPComm->PCTell(PCPTemp);
    if (PCPCheckResponse()) {
#ifdef DEBUG_VER_
        fprintf(stderr, "Storing PCPRadio->PCPMode: %s\n", temp);
#endif // DEBUG_VER_
        strcpy(PCPRadio->PCPMode,temp);
        return true;
    }
    
    return false;

}
bool PCP :: PCPSetFilter(const char *filter)
{
    char freqConv[32];
    char temp[8];

    bzero(PCPTemp, sizeof(PCPTemp));
    sprintf(freqConv, "%0.10lu", PCPRadio->PCPFreq);
    strcpy(PCPTemp, PCRFRQ);
    strcat(PCPTemp, freqConv);
    strcat(PCPTemp, PCPRadio->PCPMode);

    if ( strncmp(filter, "3", 1)==0 ) {
        strcat(PCPTemp, PCRFLTR3);
        strcpy(temp, PCRFLTR3);
    } else if ( strncmp(filter, "6", 1)== 0 ) {
        strcat(PCPTemp, PCRFLTR6);
        strcpy(temp, PCRFLTR6);
    } else if ( strncmp(filter, "15", 2)==0 ) {
        strcat(PCPTemp, PCRFLTR15);
        strcpy(temp, PCRFLTR15);
    } else if ( strncmp(filter, "50", 2)==0 ) {
        strcat(PCPTemp, PCRFLTR50);
        strcpy(temp, PCRFLTR50);
    } else if ( strncmp(filter, "230", 3)==0 ) {
        strcat(PCPTemp, PCRFLTR230);
        strcpy(temp, PCRFLTR230);
    } else {
        return false;
    }

    strcat(PCPTemp, "00");
    PCPComm->PCTell(PCPTemp);
    if (PCPCheckResponse()) {
#ifdef DEBUG_VER_
        fprintf(stderr, "Storing PCPRadio->PCPFilter: %s\n", temp);
#endif DEBUG_VER_
        strcpy(PCPRadio->PCPFilter,temp);
        return true;
    }

    return false;
}
bool PCP :: PCPSetToneSq(const char *value)
{
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPSETTONESQ (string) - %s\n", value);
#endif // DEBUG_VER_ 

        bzero(PCPTemp, sizeof(PCPTemp));
        strncpy(PCPTemp, PCRTSQL, sizeof(PCPTemp));
        strncat(PCPTemp, value, sizeof(PCPTemp));
        PCPComm->PCTell(PCPTemp);
        if (PCPCheckResponse()) {
                PCPRadio->PCPToneSq=value;
                return true;
        }

        return false;
}
bool PCP :: PCPSetToneSq(float passvalue)
{
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPSETTONESQ (float) - %f\n", passvalue);
#endif // DEBUG_VER_ 

        int tone;

        tone = (int)(passvalue * 10.0 + .1);  // Hack to remove truncating errors.
        PCPRadio->PCPToneSqFloat=passvalue;             

        switch (tone)
        {
                case 0: return PCPSetToneSq("00"); break;
                case 670: return PCPSetToneSq("01"); break;
                case 693: return PCPSetToneSq("02"); break;
                case 710: return PCPSetToneSq("03"); break;
                case 719: return PCPSetToneSq("04"); break;
                case 744: return PCPSetToneSq("05"); break;
                case 770: return PCPSetToneSq("06"); break;
                case 797: return PCPSetToneSq("07"); break;
                case 825: return PCPSetToneSq("08"); break;
                case 854: return PCPSetToneSq("09"); break;
                case 885: return PCPSetToneSq("0A"); break;
                case 915: return PCPSetToneSq("0B"); break;
                case 948: return PCPSetToneSq("0C"); break;
                case 974: return PCPSetToneSq("0D"); break;
                case 1000: return PCPSetToneSq("0E"); break;
                case 1035: return PCPSetToneSq("0F"); break;
                case 1072: return PCPSetToneSq("10"); break;
                case 1109: return PCPSetToneSq("11"); break;
                case 1148: return PCPSetToneSq("12"); break;
                case 1188: return PCPSetToneSq("13"); break;
                case 1230: return PCPSetToneSq("14"); break;
                case 1273: return PCPSetToneSq("15"); break;
                case 1318: return PCPSetToneSq("16"); break;
                case 1365: return PCPSetToneSq("17"); break;
                case 1413: return PCPSetToneSq("18"); break;
                case 1462: return PCPSetToneSq("19"); break;
                case 1514: return PCPSetToneSq("1A"); break;
                case 1567: return PCPSetToneSq("1B"); break;
                case 1598: return PCPSetToneSq("1C"); break;
                case 1622: return PCPSetToneSq("1D"); break;
                case 1655: return PCPSetToneSq("1E"); break;
                case 1679: return PCPSetToneSq("1F"); break;
                case 1713: return PCPSetToneSq("20"); break;
                case 1738: return PCPSetToneSq("21"); break;
                case 1773: return PCPSetToneSq("22"); break;
                case 1799: return PCPSetToneSq("23"); break;
                case 1835: return PCPSetToneSq("24"); break;
                case 1862: return PCPSetToneSq("25"); break;
                case 1899: return PCPSetToneSq("26"); break;
                case 1928: return PCPSetToneSq("27"); break;
                case 1966: return PCPSetToneSq("28"); break;
                case 1995: return PCPSetToneSq("29"); break;
                case 2035: return PCPSetToneSq("2A"); break;
                case 2065: return PCPSetToneSq("2B"); break;
                case 2107: return PCPSetToneSq("2C"); break;
                case 2181: return PCPSetToneSq("2D"); break;
                case 2257: return PCPSetToneSq("2E"); break;
                case 2291: return PCPSetToneSq("2F"); break;
                case 2336: return PCPSetToneSq("30"); break;
                case 2418: return PCPSetToneSq("31"); break;
                case 2503: return PCPSetToneSq("32"); break;
                case 2541: return PCPSetToneSq("33"); break;
                default: PCPSetToneSq("00"); break;
        }
        return false;
}
bool PCP :: PCPSetAutoGain(bool value)
{
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPSETAUTOGAIN - %d\n", value);
#endif // DEBUG_VER_ 

        (value)?(PCPComm->PCTell(PCRAGCON)):(PCPComm->PCTell(PCRAGCOFF));

        if (PCPCheckResponse()) {
                PCPRadio->PCPAutoGain=value;
                return true;
        }

        return false;
}
bool PCP :: PCPSetNB(bool value)
{
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPSETNB - %d\n", value);
#endif // DEBUG_VER_ 

        (value)?(PCPComm->PCTell(PCRNBON)):(PCPComm->PCTell(PCRNBOFF));
        
        if (PCPCheckResponse()) {
                PCPRadio->PCPNoiseBlank=value;
                return true;
        }

        return false;
}
bool PCP :: PCPSetRFAttenuator ( bool value )
{
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPSETRFATTENUATOR - %d\n", value);
#endif // DEBUG_VER_ 

        (value)?(PCPComm->PCTell(PCRRFAON)):(PCPComm->PCTell(PCRRFAOFF));

        if (PCPCheckResponse()) {
                PCPRadio->PCPRFAttenuator=value;
                return true;
        }

        return false;
}

 // getter methods //

bool PCP :: PCPIsOn()
{
    return PCPStatus;
}
const char *PCP :: PCPSigStrengthStr()
{
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPSIGSTRENGTH (string) Called\n");
#endif // DEBUG_VER_ 
        if(PCPComm->PCAsk(PCRQRST)) {
                if(PCPComm->PCHear(PCPTemp)) {
                        return (const char*)PCPTemp;
                }
        }

        return 0;
}
int PCP :: PCPSigStrength()
{
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPSIGSTRENGTH (int) Called\n");
#endif // DEBUG_VER_

        int sigstr;
        char digit;
        if(PCPComm->PCAsk(PCRQRST)) {
                if(PCPComm->PCHear(PCPTemp)) {
                        digit = PCPTemp[2];
                        if((digit >= 'A') && (digit <= 'F'))
                                sigstr = (digit - 'A' + 1) * 16;
                        else
                                sigstr = atoi(&digit) * 16;

                        digit = PCPTemp[3];
                        if((digit >= 'A') && (digit <= 'F'))
                                sigstr += digit - 'A' + 1;
                        else
                                sigstr += atoi(&digit);

                        return sigstr;
                }
        }

        return 0;
}
bool PCP :: PCPQueryOn()
{
#ifdef DEBUG_VER_
        fprintf(stderr, "PCP: PCPQUERYON Called\n");
#endif // DEBUG_VER_
        if(PCPComm->PCAsk("H1")) {
                if(PCPComm->PCHear(PCPTemp)) {
                        if(strcmp(PCPTemp, "H101") == 0)
                                return true;
                        else
                                return false;
                }
        }

        return false;
}
bool PCP :: PCPQuerySquelch()
{
        char __tempvar1[8];
        bzero(__tempvar1, sizeof(__tempvar1));
        strncpy(__tempvar1, PCRASQL, sizeof(__tempvar1)-1);
        strncat(__tempvar1, PCRASQLCL, sizeof(__tempvar1)-strlen(__tempvar1)-1);

        if (PCPComm->PCAsk(PCRQSQL)) {
                if(PCPComm->PCHear(PCPTemp)) {
                        if (strncmp(PCPTemp, __tempvar1, 4)==0) {
                                return false;
                        } else {
                                return true;
                        }
                }
        }
        return false;
}
const char *PCP :: PCPGetPort()
// return a character string representing the current
// port setting /dev/*
{
    return PCPRadio->PCPPort;
}
tcflag_t PCP :: PCPGetSpeed_t()
{
        return PCPRadio->PCPSpeed;
}
const char *PCP :: PCPGetSpeed()
{
        switch(PCPRadio->PCPSpeed) {
                case B300: return "300"; break;
                case B600: return "600"; break;
                case B1200: return "1200"; break;
                case B1800: return "1800"; break;
                case B2400: return "2400"; break;
                case B4800: return "4800"; break;
                case B9600: return "9600"; break;
                case B19200: return "19200"; break;
                case B38400: return "38400"; break;
                case B57600: return "57600"; break;
                default: return "unknown"; break;
        }
        return "unknown";
}
int PCP :: PCPGetVolume()
{
    return (PCPRadio->PCPVolume);
}
const char *PCP :: PCPGetVolumeStr()
{
    sprintf(PCPTemp, "%d", PCPRadio->PCPVolume);
    return (PCPTemp);
}
int PCP :: PCPGetSquelch()
{
    return (PCPRadio->PCPSquelch);
}
const char *PCP :: PCPGetSquelchStr()
{
    sprintf(PCPTemp, "%d", PCPRadio->PCPSquelch);
    return (PCPTemp);
}
pcrfreq_t PCP :: PCPGetFreq()
{
    return PCPRadio->PCPFreq;
}
const char *PCP :: PCPGetFreqStr()
{
    sprintf(PCPTemp, "%0.10lu", PCPRadio->PCPFreq);
    return PCPTemp;
}
const pcrcmd_t *PCP :: PCPGetMode()
{
    return (PCPRadio->PCPMode);
}
const char *PCP :: PCPGetModeStr()
{
    bzero(PCPTemp, sizeof(PCPTemp));

    if (strcmp(PCRMODWFM, PCPRadio->PCPMode)==0) {
        strcpy(PCPTemp, "WFM");
        return PCPTemp;
    } else if (strcmp(PCRMODNFM, PCPRadio->PCPMode)==0) {
        strcpy(PCPTemp, "NFM");
        return PCPTemp;
    } else if (strcmp(PCRMODCW, PCPRadio->PCPMode)==0) {
        strcpy(PCPTemp, "CW");
        return PCPTemp;
    } else if (strcmp(PCRMODAM, PCPRadio->PCPMode)==0) {
        strcpy(PCPTemp, "AM");
        return PCPTemp;
    } else if (strcmp(PCRMODUSB, PCPRadio->PCPMode)==0) {
        strcpy(PCPTemp, "USB");
        return PCPTemp;
    } else if (strcmp(PCRMODLSB, PCPRadio->PCPMode)==0) {
        strcpy(PCPTemp, "LSB");
        return PCPTemp;
    } 
    
    strcpy(PCPTemp, "UNKNOWN");
    return PCPTemp;

}
const pcrcmd_t *PCP :: PCPGetFilter()
{
    return (PCPRadio->PCPFilter);
}
const char *PCP :: PCPGetFilterStr()
{
    bzero(PCPTemp, sizeof(PCPTemp));

    if (strcmp(PCRFLTR230, PCPRadio->PCPFilter)==0) {
        strcpy(PCPTemp, "230");
        return PCPTemp;
    } else if (strcmp(PCRFLTR50, PCPRadio->PCPFilter)==0) {
        strcpy(PCPTemp, "50");
        return PCPTemp;
    } else if (strcmp(PCRFLTR15, PCPRadio->PCPFilter)==0) {
        strcpy(PCPTemp, "15");
        return PCPTemp;
    } else if (strcmp(PCRFLTR6, PCPRadio->PCPFilter)==0) {
        strcpy(PCPTemp, "6");
        return PCPTemp;
    } else if (strcmp(PCRFLTR3, PCPRadio->PCPFilter)==0) {
        strcpy(PCPTemp, "3");
        return PCPTemp;
    } 

    return PCPRadio->PCPFilter;
}
const char *PCP :: PCPGetToneSq()
{
    return PCPRadio->PCPToneSq;
}
const char *PCP :: PCPGetToneSqStr()
{
    bzero(PCPTemp, sizeof(PCPTemp));
    sprintf(PCPTemp, "%f", PCPRadio->PCPToneSqFloat);
    return PCPTemp;
}
bool PCP :: PCPGetAutoGain()
{
    return PCPRadio->PCPAutoGain;
}       
const char *PCP :: PCPGetAutoGainStr()
{
    bzero(PCPTemp, sizeof(PCPTemp));
    (PCPGetAutoGain())?(strcpy(PCPTemp,"1")):(strcpy(PCPTemp,"0"));
    return PCPTemp;
}
bool PCP :: PCPGetNB()
{
    return PCPRadio->PCPNoiseBlank;
}
const char *PCP :: PCPGetNBStr()
{
    bzero(PCPTemp, sizeof(PCPTemp));
    (PCPGetNB())?(strcpy(PCPTemp,"1")):(strcpy(PCPTemp,"0"));
    return PCPTemp;
}
bool PCP :: PCPGetRFAttenuator()
{
    return PCPRadio->PCPRFAttenuator;
}
const char *PCP :: PCPGetRFAttenuatorStr()
{
    bzero(PCPTemp, sizeof(PCPTemp));
    (PCPGetRFAttenuator())?(strcpy(PCPTemp,"1")):(strcpy(PCPTemp,"0"));
    return PCPTemp;
}
const PRadInf PCP :: PCPGetRadioInfo()
{
    return *PCPRadio;
}

bool PCP :: PCPCheckResponse()
{
    PCPComm->PCHear(PCPTemp);
    if (strncmp(PCPTemp, PCRAOK, 4)==0) {
        PCPErrRead=false;
        return true;
    } else if (strncmp(PCPTemp, PCRABAD, 4)==0) {
        PCPErrRead=false;
        return false;
    }

    PCPErrRead = true;
    return false;
}

---