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Tasmota/lib/IRremoteESP8266-2.2.1.02/src/ir_LG.cpp

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// Copyright 2015 Darryl Smith
// Copyright 2015 cheaplin
// Copyright 2017 David Conran
#include "ir_LG.h"
#include <algorithm>
#include "IRrecv.h"
#include "IRsend.h"
#include "IRtimer.h"
#include "IRutils.h"
// L GGGG
// L G
// L G GG
// L G G
// LLLLL GGG
// LG decode originally added by Darryl Smith (based on the JVC protocol)
// LG send originally added by https://github.com/chaeplin
// Constants
#define LG_TICK 50U
#define LG_HDR_MARK_TICKS 160U
#define LG_HDR_MARK (LG_HDR_MARK_TICKS * LG_TICK)
#define LG_HDR_SPACE_TICKS 80U
#define LG_HDR_SPACE (LG_HDR_SPACE_TICKS * LG_TICK)
#define LG_BIT_MARK_TICKS 11U
#define LG_BIT_MARK (LG_BIT_MARK_TICKS * LG_TICK)
#define LG_ONE_SPACE_TICKS 32U
#define LG_ONE_SPACE (LG_ONE_SPACE_TICKS * LG_TICK)
#define LG_ZERO_SPACE_TICKS 11U
#define LG_ZERO_SPACE (LG_ZERO_SPACE_TICKS * LG_TICK)
#define LG_RPT_SPACE_TICKS 45U
#define LG_RPT_SPACE (LG_RPT_SPACE_TICKS * LG_TICK)
#define LG_MIN_GAP_TICKS 795U
#define LG_MIN_GAP (LG_MIN_GAP_TICKS * LG_TICK)
#define LG_MIN_MESSAGE_LENGTH_TICKS 2161U
#define LG_MIN_MESSAGE_LENGTH (LG_MIN_MESSAGE_LENGTH_TICKS * LG_TICK)
#define LG32_HDR_MARK_TICKS 90U
#define LG32_HDR_MARK (LG32_HDR_MARK_TICKS * LG_TICK)
#define LG32_HDR_SPACE_TICKS 89U
#define LG32_HDR_SPACE (LG32_HDR_SPACE_TICKS * LG_TICK)
#define LG32_RPT_HDR_MARK_TICKS 179U
#define LG32_RPT_HDR_MARK (LG32_RPT_HDR_MARK_TICKS * LG_TICK)
#if (SEND_LG || DECODE_LG)
// Calculate the rolling 4-bit wide checksum over all of the data.
// Args:
// data: The value to be checksum'ed.
// Returns:
// A 4-bit checksum.
uint8_t calcLGChecksum(uint16_t data) {
return(((data >> 12) + ((data >> 8) & 0xF) + ((data >> 4) & 0xF) +
(data & 0xF)) & 0xF);
}
#endif
#if SEND_LG
// Send an LG formatted message.
//
// Args:
// data: The contents of the message you want to send.
// nbits: The bit size of the message being sent.
// Typically LG_BITS or LG32_BITS.
// repeat: The number of times you want the message to be repeated.
//
// Status: Beta / Should be working.
//
// Notes:
// LG has a separate message to indicate a repeat, like NEC does.
void IRsend::sendLG(uint64_t data, uint16_t nbits, uint16_t repeat) {
// Set IR carrier frequency
enableIROut(38);
uint16_t repeatHeaderMark = 0;
IRtimer usecTimer = IRtimer();
if (nbits >= LG32_BITS) {
// LG 32bit protocol is near identical to Samsung except for repeats.
sendSAMSUNG(data, nbits, 0); // Send it as a single Samsung message.
repeatHeaderMark = LG32_RPT_HDR_MARK;
repeat++;
} else {
// LG (28-bit) protocol.
repeatHeaderMark = LG_HDR_MARK;
// Header
usecTimer.reset();
mark(LG_HDR_MARK);
space(LG_HDR_SPACE);
// Data
sendData(LG_BIT_MARK, LG_ONE_SPACE, LG_BIT_MARK, LG_ZERO_SPACE,
data, nbits, true);
// Footer
mark(LG_BIT_MARK);
space(std::max((uint32_t) (LG_MIN_MESSAGE_LENGTH - usecTimer.elapsed()),
(uint32_t) LG_MIN_GAP));
}
// Repeat
// Protocol has a mandatory repeat-specific code sent after every command.
for (uint16_t i = 0; i < repeat; i++) {
usecTimer.reset();
mark(repeatHeaderMark);
space(LG_RPT_SPACE);
mark(LG_BIT_MARK);
space(std::max((uint32_t) LG_MIN_MESSAGE_LENGTH - usecTimer.elapsed(),
(uint32_t) LG_MIN_GAP));
}
}
// Construct a raw 28-bit LG message from the supplied address & command.
//
// Args:
// address: The address code.
// command: The command code.
// Returns:
// A raw 28-bit LG message suitable for sendLG().
//
// Status: BETA / Should work.
//
// Notes:
// e.g. Sequence of bits = address + command + checksum.
uint32_t IRsend::encodeLG(uint16_t address, uint16_t command) {
return ((address << 20) | (command << 4) | calcLGChecksum(command));
}
#endif
#if DECODE_LG
// Decode the supplied LG message.
// LG protocol has a repeat code which is 4 items long.
// Even though the protocol has 28/32 bits of data, only 24/28 bits are
// distinct.
// In transmission order, the 28/32 bits are constructed as follows:
// 8/12 bits of address + 16 bits of command + 4 bits of checksum.
//
// Args:
// results: Ptr to the data to decode and where to store the decode result.
// nbits: Nr. of bits to expect in the data portion.
// Typically LG_BITS or LG32_BITS.
// strict: Flag to indicate if we strictly adhere to the specification.
// Returns:
// boolean: True if it can decode it, false if it can't.
//
// Status: BETA / Should work.
//
// Note:
// LG 32bit protocol appears near identical to the Samsung protocol.
// They possibly differ on how they repeat and initial HDR mark.
// Ref:
// https://funembedded.wordpress.com/2014/11/08/ir-remote-control-for-lg-conditioner-using-stm32f302-mcu-on-mbed-platform/
bool IRrecv::decodeLG(decode_results *results, uint16_t nbits, bool strict) {
if (results->rawlen < 2 * nbits + HEADER + FOOTER - 1 && results->rawlen != 4)
return false; // Can't possibly be a valid LG message.
if (strict && nbits != LG_BITS && nbits != LG32_BITS)
return false; // Doesn't comply with expected LG protocol.
uint64_t data = 0;
uint16_t offset = OFFSET_START;
// Header
if (!matchMark(results->rawbuf[offset], LG_HDR_MARK) &&
!matchMark(results->rawbuf[offset], LG32_HDR_MARK)) return false;
uint32_t m_tick;
if (matchMark(results->rawbuf[offset], LG_HDR_MARK))
m_tick = results->rawbuf[offset++] * RAWTICK / LG_HDR_MARK_TICKS;
else
m_tick = results->rawbuf[offset++] * RAWTICK / LG32_HDR_MARK_TICKS;
if (!matchSpace(results->rawbuf[offset], LG_HDR_SPACE) &&
!matchSpace(results->rawbuf[offset], LG32_HDR_SPACE)) return false;
uint32_t s_tick;
if (matchSpace(results->rawbuf[offset], LG_HDR_SPACE))
s_tick = results->rawbuf[offset++] * RAWTICK / LG_HDR_SPACE_TICKS;
else
s_tick = results->rawbuf[offset++] * RAWTICK / LG32_HDR_SPACE_TICKS;
// Data
match_result_t data_result = matchData(&(results->rawbuf[offset]), nbits,
LG_BIT_MARK_TICKS * m_tick,
LG_ONE_SPACE_TICKS * s_tick,
LG_BIT_MARK_TICKS * m_tick,
LG_ZERO_SPACE_TICKS * s_tick);
if (data_result.success == false) return false;
data = data_result.data;
offset += data_result.used;
// Footer
if (!matchMark(results->rawbuf[offset++], LG_BIT_MARK_TICKS * m_tick))
return false;
if (offset < results->rawlen &&
!matchAtLeast(results->rawbuf[offset], LG_MIN_GAP_TICKS * s_tick))
return false;
// Repeat
if (nbits >= LG32_BITS) {
// If we are expecting the LG 32-bit protocol, there is always
// a repeat message. So, check for it.
#ifndef UNIT_TEST
if (!matchSpace(results->rawbuf[offset], LG_MIN_GAP_TICKS * s_tick))
#else
if (!(matchSpace(results->rawbuf[offset],
LG_MIN_MESSAGE_LENGTH_TICKS * s_tick) ||
matchSpace(results->rawbuf[offset], 65500) ||
matchSpace(results->rawbuf[offset], LG_MIN_GAP_TICKS * s_tick)))
#endif // UNIT_TEST
return false;
offset++;
if (!matchMark(results->rawbuf[offset++], LG32_RPT_HDR_MARK_TICKS * m_tick))
return false;
if (!matchSpace(results->rawbuf[offset++], LG_RPT_SPACE_TICKS * s_tick))
return false;
if (!matchMark(results->rawbuf[offset++], LG_BIT_MARK_TICKS * m_tick))
return false;
if (offset < results->rawlen &&
!matchAtLeast(results->rawbuf[offset], LG_MIN_GAP_TICKS * s_tick))
return false;
}
// Compliance
uint16_t command = (data >> 4) & 0xFFFF; // The 16 bits before the checksum.
if (strict && (data & 0xF) != calcLGChecksum(command))
return false; // The last 4 bits sent are the expected checksum.
// Success
results->decode_type = LG;
results->bits = nbits;
results->value = data;
results->command = command;
results->address = data >> 20; // The bits before the command.
return true;
}
#endif
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