ON Semiconductor
/
RemoteIR
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Fork of
RemoteIR
by 
Shinichiro Nakamura
ReceiverIR.cpp
- Committer:
- shintamainjp
- Date:
- 2010-09-17
- Revision:
- 10:c54fb1204d1e
- Parent:
- 9:dcfdac59ef74
- Child:
- 11:268cc2ab63bd
File content as of revision 10:c54fb1204d1e:
/**
* IR receiver (Version 0.0.4)
*
* Copyright (C) 2010 Shinichiro Nakamura (CuBeatSystems)
* http://shinta.main.jp/
*/
#include "ReceiverIR.h"
#define LOCK()
#define UNLOCK()
#define InRange(x,y) ((((y) * 0.7) < (x)) && ((x) < ((y) * 1.3)))
/**
* Constructor.
*
* @param rxpin Pin for receive IR signal.
*/
ReceiverIR::ReceiverIR(PinName rxpin) : evt(rxpin) {
init_state();
evt.fall(this, &ReceiverIR::isr_fall);
evt.rise(this, &ReceiverIR::isr_rise);
evt.mode(PullUp);
ticker.attach_us(this, &ReceiverIR::isr_wdt, 10 * 1000);
}
/**
* Destructor.
*/
ReceiverIR::~ReceiverIR() {
}
/**
* Get state.
*
* @return Current state.
*/
ReceiverIR::State ReceiverIR::getState() {
LOCK();
State s = work.state;
UNLOCK();
return s;
}
/**
* Get data.
*
* @param format Pointer to format.
* @param buf Buffer of a data.
* @param bitlength Bit length of the buffer.
*
* @return Data bit length.
*/
int ReceiverIR::getData(RemoteIR::Format *format, uint8_t *buf, int bitlength) {
LOCK();
if (bitlength < data.bitcount) {
UNLOCK();
return -1;
}
const int nbits = data.bitcount;
const int nbytes = data.bitcount / 8 + (((data.bitcount % 8) != 0) ? 1 : 0);
*format = data.format;
for (int i = 0; i < nbytes; i++) {
buf[i] = data.buffer[i];
}
init_state();
UNLOCK();
return nbits;
}
void ReceiverIR::init_state(void) {
work.c1 = -1;
work.c2 = -1;
work.c3 = -1;
work.d1 = -1;
work.d2 = -1;
work.state = Idle;
data.format = RemoteIR::UNKNOWN;
data.bitcount = 0;
timer.stop();
timer.reset();
for (int i = 0; i < sizeof(data.buffer); i++) {
data.buffer[i] = 0;
}
}
void ReceiverIR::isr_wdt(void) {
LOCK();
static int cnt = 0;
if ((Idle != work.state) || ((0 <= work.c1) || (0 <= work.c2) || (0 <= work.c3) || (0 <= work.d1) || (0 <= work.d2))) {
cnt++;
if (cnt > 50) {
#if 1
printf("# WDT [c1=%d, c2=%d, c3=%d, d1=%d, d2=%d, state=%d, format=%d, bitcount=%d]\n",
work.c1,
work.c2,
work.c3,
work.d1,
work.d2,
work.state,
data.format,
data.bitcount);
#endif
init_state();
cnt = 0;
}
} else {
cnt = 0;
}
UNLOCK();
}
void ReceiverIR::isr_fall(void) {
LOCK();
switch (work.state) {
case Idle:
if (work.c1 < 0) {
timer.start();
work.c1 = timer.read_us();
} else {
work.c3 = timer.read_us();
int a = work.c2 - work.c1;
int b = work.c3 - work.c2;
if (InRange(a, TUS_NEC * 16) && InRange(b, TUS_NEC * 8)) {
/*
* NEC.
*/
data.format = RemoteIR::NEC;
work.state = Receiving;
data.bitcount = 0;
} else if (InRange(a, TUS_NEC * 16) && InRange(b, TUS_NEC * 4)) {
/*
* NEC Repeat.
*/
data.format = RemoteIR::NEC_REPEAT;
work.state = Received;
data.bitcount = 0;
work.c1 = -1;
work.c2 = -1;
work.c3 = -1;
work.d1 = -1;
work.d2 = -1;
} else if (InRange(a, TUS_AEHA * 8) && InRange(b, TUS_AEHA * 4)) {
/*
* AEHA.
*/
data.format = RemoteIR::AEHA;
work.state = Receiving;
data.bitcount = 0;
} else if (InRange(a, TUS_AEHA * 8) && InRange(b, TUS_AEHA * 8)) {
/*
* AEHA Repeat.
*/
data.format = RemoteIR::AEHA_REPEAT;
work.state = Received;
data.bitcount = 0;
work.c1 = -1;
work.c2 = -1;
work.c3 = -1;
work.d1 = -1;
work.d2 = -1;
} else {
init_state();
}
}
break;
case Receiving:
if (RemoteIR::NEC == data.format) {
work.d2 = timer.read_us();
int a = work.d2 - work.d1;
if (InRange(a, TUS_NEC * 3)) {
data.buffer[data.bitcount / 8] |= (1 << (data.bitcount % 8));
} else if (InRange(a, TUS_NEC * 1)) {
data.buffer[data.bitcount / 8] &= ~(1 << (data.bitcount % 8));
}
data.bitcount++;
#if 0
/*
* Length of NEC is always 32 bits.
*/
if (32 <= data.bitcount) {
data.state = Received;
work.c1 = -1;
work.c2 = -1;
work.c3 = -1;
work.d1 = -1;
work.d2 = -1;
}
#else
/*
* Set timeout for tail detection automatically.
*/
timeout.detach();
timeout.attach_us(this, &ReceiverIR::isr_timeout, TUS_NEC * 5);
#endif
} else if (RemoteIR::AEHA == data.format) {
work.d2 = timer.read_us();
int a = work.d2 - work.d1;
if (InRange(a, TUS_AEHA * 3)) {
data.buffer[data.bitcount / 8] |= (1 << (data.bitcount % 8));
} else if (InRange(a, TUS_AEHA * 1)) {
data.buffer[data.bitcount / 8] &= ~(1 << (data.bitcount % 8));
}
data.bitcount++;
#if 0
/*
* Typical length of AEHA is 48 bits.
* Please check a specification of your remote controller if you find a problem.
*/
if (48 <= data.bitcount) {
data.state = Received;
work.c1 = -1;
work.c2 = -1;
work.c3 = -1;
work.d1 = -1;
work.d2 = -1;
}
#else
/*
* Set timeout for tail detection automatically.
*/
timeout.detach();
timeout.attach_us(this, &ReceiverIR::isr_timeout, TUS_AEHA * 5);
#endif
} else if (RemoteIR::SONY == data.format) {
work.d1 = timer.read_us();
}
break;
case Received:
break;
default:
break;
}
UNLOCK();
}
void ReceiverIR::isr_rise(void) {
LOCK();
switch (work.state) {
case Idle:
if (0 <= work.c1) {
work.c2 = timer.read_us();
int a = work.c2 - work.c1;
if (InRange(a, TUS_SONY * 4)) {
data.format = RemoteIR::SONY;
work.state = Receiving;
data.bitcount = 0;
} else {
static const int MINIMUM_LEADER_WIDTH = 150;
if (a < MINIMUM_LEADER_WIDTH) {
init_state();
}
}
} else {
init_state();
}
break;
case Receiving:
if (RemoteIR::NEC == data.format) {
work.d1 = timer.read_us();
} else if (RemoteIR::AEHA == data.format) {
work.d1 = timer.read_us();
} else if (RemoteIR::SONY == data.format) {
work.d2 = timer.read_us();
int a = work.d2 - work.d1;
if (InRange(a, TUS_SONY * 2)) {
data.buffer[data.bitcount / 8] |= (1 << (data.bitcount % 8));
} else if (InRange(a, TUS_SONY * 1)) {
data.buffer[data.bitcount / 8] &= ~(1 << (data.bitcount % 8));
}
data.bitcount++;
#if 0
/*
* How do I know the correct length? (6bits, 12bits, 15bits, 20bits...)
* By a model only?
* Please check a specification of your remote controller if you find a problem.
*/
if (12 <= data.bitcount) {
data.state = Received;
work.c1 = -1;
work.c2 = -1;
work.c3 = -1;
work.d1 = -1;
work.d2 = -1;
}
#else
/*
* Set timeout for tail detection automatically.
*/
timeout.detach();
timeout.attach_us(this, &ReceiverIR::isr_timeout, TUS_SONY * 4);
#endif
}
break;
case Received:
break;
default:
break;
}
UNLOCK();
}
void ReceiverIR::isr_timeout(void) {
LOCK();
#if 0
printf("# TIMEOUT [c1=%d, c2=%d, c3=%d, d1=%d, d2=%d, state=%d, format=%d, bitcount=%d]\n",
work.c1,
work.c2,
work.c3,
work.d1,
work.d2,
work.state,
data.format,
data.bitcount);
#endif
if (work.state == Receiving) {
work.state = Received;
work.c1 = -1;
work.c2 = -1;
work.c3 = -1;
work.d1 = -1;
work.d2 = -1;
}
UNLOCK();
}