Crash_Override/MMDVMHost-Private
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MMDVMHost-Private/Display.cpp
Jonathan Naylor b398bba1ea Add POCSAG processing and display code.
2018-06-11 21:30:49 +01:00

433 lines
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C++
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/*
* Copyright (C) 2016,2017,2018 by Jonathan Naylor G4KLX
*
* 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 "Display.h"
#include "Defines.h"
#include "Log.h"
#include <cstdio>
#include <cassert>
#include <cstring>
CDisplay::CDisplay() :
m_timer1(3000U, 3U),
m_timer2(3000U, 3U),
m_mode1(MODE_IDLE),
m_mode2(MODE_IDLE)
{
}
CDisplay::~CDisplay()
{
}
void CDisplay::setIdle()
{
m_timer1.stop();
m_timer2.stop();
m_mode1 = MODE_IDLE;
m_mode2 = MODE_IDLE;
setIdleInt();
}
void CDisplay::setLockout()
{
m_timer1.stop();
m_timer2.stop();
m_mode1 = MODE_IDLE;
m_mode2 = MODE_IDLE;
setLockoutInt();
}
void CDisplay::setError(const char* text)
{
assert(text != NULL);
m_timer1.stop();
m_timer2.stop();
m_mode1 = MODE_IDLE;
m_mode2 = MODE_IDLE;
setErrorInt(text);
}
void CDisplay::writeDStar(const char* my1, const char* my2, const char* your, const char* type, const char* reflector)
{
assert(my1 != NULL);
assert(my2 != NULL);
assert(your != NULL);
assert(type != NULL);
assert(reflector != NULL);
m_timer1.start();
m_mode1 = MODE_IDLE;
writeDStarInt(my1, my2, your, type, reflector);
}
void CDisplay::writeDStarRSSI(unsigned char rssi)
{
if (rssi != 0U)
writeDStarRSSIInt(rssi);
}
void CDisplay::writeDStarBER(float ber)
{
writeDStarBERInt(ber);
}
void CDisplay::clearDStar()
{
if (m_timer1.hasExpired()) {
clearDStarInt();
m_timer1.stop();
m_mode1 = MODE_IDLE;
} else {
m_mode1 = MODE_DSTAR;
}
}
void CDisplay::writeDMR(unsigned int slotNo, const std::string& src, bool group, const std::string& dst, const char* type)
{
assert(type != NULL);
if (slotNo == 1U) {
m_timer1.start();
m_mode1 = MODE_IDLE;
} else {
m_timer2.start();
m_mode2 = MODE_IDLE;
}
writeDMRInt(slotNo, src, group, dst, type);
}
void CDisplay::writeDMRRSSI(unsigned int slotNo, unsigned char rssi)
{
if (rssi != 0U)
writeDMRRSSIInt(slotNo, rssi);
}
void CDisplay::writeDMRTA(unsigned int slotNo, unsigned char* talkerAlias, const char* type)
{
char TA[32U];
unsigned char *b;
unsigned char c;
int j;
unsigned int i,t1,t2, TAsize, TAformat;
if (strcmp(type," ")==0) { writeDMRTAInt(slotNo, (unsigned char*)TA, type); return; }
TAformat=(talkerAlias[0]>>6U) & 0x03U;
TAsize = (talkerAlias[0]>>1U) & 0x1FU;
::strcpy(TA,"(could not decode)");
switch (TAformat) {
case 0U: // 7 bit
::memset (&TA,0,32U);
b=&talkerAlias[0];
t1=0; t2=0; c=0;
for (i=0;(i<32U)&&(t2<TAsize);i++) {
for (j=7U;j>=0;j--) {
c = (c<<1U) | (b[i] >> j);
if (++t1==7U) { if (i>0) {TA[t2++]=c & 0x7FU; } t1=0; c=0; }
}
}
break;
case 1U: // ISO 8 bit
case 2U: // UTF8
::strcpy(TA,(char*)talkerAlias+1U);
break;
case 3U: // UTF16 poor man's conversion
t2=0;
::memset (&TA,0,32U);
for(i=0;(i<15)&&(t2<TAsize);i++) {
if (talkerAlias[2U*i+1U]==0)
TA[t2++]=talkerAlias[2U*i+2U]; else TA[t2++]='?';
}
TA[TAsize]=0;
break;
}
LogMessage("DMR Talker Alias (Data Format %u, Received %u/%u char): '%s'", TAformat, ::strlen(TA), TAsize, TA);
if (::strlen(TA)>TAsize) { if (strlen(TA)<29U) strcat(TA," ?"); else strcpy(TA+28U," ?"); }
if (strlen((char*)TA)>=4U) writeDMRTAInt(slotNo, (unsigned char*)TA, type);
}
void CDisplay::writeDMRBER(unsigned int slotNo, float ber)
{
writeDMRBERInt(slotNo, ber);
}
void CDisplay::clearDMR(unsigned int slotNo)
{
if (slotNo == 1U) {
if (m_timer1.hasExpired()) {
clearDMRInt(slotNo);
m_timer1.stop();
m_mode1 = MODE_IDLE;
} else {
m_mode1 = MODE_DMR;
}
} else {
if (m_timer2.hasExpired()) {
clearDMRInt(slotNo);
m_timer2.stop();
m_mode2 = MODE_IDLE;
} else {
m_mode2 = MODE_DMR;
}
}
}
void CDisplay::writeFusion(const char* source, const char* dest, const char* type, const char* origin)
{
assert(source != NULL);
assert(dest != NULL);
assert(type != NULL);
assert(origin != NULL);
m_timer1.start();
m_mode1 = MODE_IDLE;
writeFusionInt(source, dest, type, origin);
}
void CDisplay::writeFusionRSSI(unsigned char rssi)
{
if (rssi != 0U)
writeFusionRSSIInt(rssi);
}
void CDisplay::writeFusionBER(float ber)
{
writeFusionBERInt(ber);
}
void CDisplay::clearFusion()
{
if (m_timer1.hasExpired()) {
clearFusionInt();
m_timer1.stop();
m_mode1 = MODE_IDLE;
} else {
m_mode1 = MODE_YSF;
}
}
void CDisplay::writeP25(const char* source, bool group, unsigned int dest, const char* type)
{
assert(source != NULL);
assert(type != NULL);
m_timer1.start();
m_mode1 = MODE_IDLE;
writeP25Int(source, group, dest, type);
}
void CDisplay::writeP25RSSI(unsigned char rssi)
{
if (rssi != 0U)
writeP25RSSIInt(rssi);
}
void CDisplay::writeP25BER(float ber)
{
writeP25BERInt(ber);
}
void CDisplay::clearP25()
{
if (m_timer1.hasExpired()) {
clearP25Int();
m_timer1.stop();
m_mode1 = MODE_IDLE;
} else {
m_mode1 = MODE_P25;
}
}
void CDisplay::writeNXDN(const char* source, bool group, unsigned int dest, const char* type)
{
assert(source != NULL);
assert(type != NULL);
m_timer1.start();
m_mode1 = MODE_IDLE;
writeNXDNInt(source, group, dest, type);
}
void CDisplay::writeNXDNRSSI(unsigned char rssi)
{
if (rssi != 0U)
writeNXDNRSSIInt(rssi);
}
void CDisplay::writeNXDNBER(float ber)
{
writeNXDNBERInt(ber);
}
void CDisplay::clearNXDN()
{
if (m_timer1.hasExpired()) {
clearNXDNInt();
m_timer1.stop();
m_mode1 = MODE_IDLE;
} else {
m_mode1 = MODE_NXDN;
}
}
void CDisplay::writePOCSAG(uint32_t ric, const std::string& message)
{
m_timer1.start();
m_mode1 = MODE_POCSAG;
writePOCSAGInt(ric, message);
}
void CDisplay::clearPOCSAG()
{
if (m_timer1.hasExpired()) {
clearPOCSAGInt();
m_timer1.stop();
m_mode1 = MODE_IDLE;
} else {
m_mode1 = MODE_POCSAG;
}
}
void CDisplay::writeCW()
{
m_timer1.start();
m_mode1 = MODE_CW;
writeCWInt();
}
void CDisplay::clock(unsigned int ms)
{
m_timer1.clock(ms);
if (m_timer1.isRunning() && m_timer1.hasExpired()) {
switch (m_mode1) {
case MODE_DSTAR:
clearDStarInt();
m_mode1 = MODE_IDLE;
m_timer1.stop();
break;
case MODE_DMR:
clearDMRInt(1U);
m_mode1 = MODE_IDLE;
m_timer1.stop();
break;
case MODE_YSF:
clearFusionInt();
m_mode1 = MODE_IDLE;
m_timer1.stop();
break;
case MODE_P25:
clearP25Int();
m_mode1 = MODE_IDLE;
m_timer1.stop();
break;
case MODE_NXDN:
clearNXDNInt();
m_mode1 = MODE_IDLE;
m_timer1.stop();
break;
case MODE_POCSAG:
clearPOCSAGInt();
m_mode1 = MODE_IDLE;
m_timer1.stop();
break;
case MODE_CW:
clearCWInt();
m_mode1 = MODE_IDLE;
m_timer1.stop();
break;
default:
break;
}
}
// Timer/mode 2 are only used for DMR
m_timer2.clock(ms);
if (m_timer2.isRunning() && m_timer2.hasExpired()) {
if (m_mode2 == MODE_DMR) {
clearDMRInt(2U);
m_mode2 = MODE_IDLE;
m_timer2.stop();
}
}
clockInt(ms);
}
void CDisplay::clockInt(unsigned int ms)
{
}
void CDisplay::writeDStarRSSIInt(unsigned char rssi)
{
}
void CDisplay::writeDStarBERInt(float ber)
{
}
void CDisplay::writeDMRRSSIInt(unsigned int slotNo, unsigned char rssi)
{
}
void CDisplay::writeDMRTAInt(unsigned int slotNo, unsigned char* talkerAlias, const char* type)
{
}
void CDisplay::writeDMRBERInt(unsigned int slotNo, float ber)
{
}
void CDisplay::writeFusionRSSIInt(unsigned char rssi)
{
}
void CDisplay::writeFusionBERInt(float ber)
{
}
void CDisplay::writeP25RSSIInt(unsigned char rssi)
{
}
void CDisplay::writeP25BERInt(float ber)
{
}
void CDisplay::writeNXDNRSSIInt(unsigned char rssi)
{
}
void CDisplay::writeNXDNBERInt(float ber)
{
}
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