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tvbg.h
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tvbg.h
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/*
Last Updated: 30 Mar. 2018
By Anton Grimpelhuber ([email protected])
*/
// The TV-B-Gone for Arduino can use either the EU (European Union) or the NA (North America) database of POWER CODES
// EU is for Europe, Middle East, Australia, New Zealand, and some countries in Africa and South America
// NA is for North America, Asia, and the rest of the world not covered by EU
// Two regions!
#define NA 0 //set by a HIGH on REGIONSWITCH pin
#define EU 1 //set by a LOW on REGIONSWITCH pin
// Lets us calculate the size of the NA/EU databases
#define NUM_ELEM(x) (sizeof (x) / sizeof (*(x)));
// set define to 0 to turn off debug output
#define DEBUG 0
#define DEBUGP(x) if (DEBUG == 1) { x ; }
// Shortcut to insert single, non-optimized-out nop
#define NOP __asm__ __volatile__ ("nop")
// Not used any more on esp8266, so don't bother
// Tweak this if neccessary to change timing
// -for 8MHz Arduinos, a good starting value is 11
// -for 16MHz Arduinos, a good starting value is 25
#define DELAY_CNT 25
// Makes the codes more readable. the OCRA is actually
// programmed in terms of 'periods' not 'freqs' - that
// is, the inverse!
// #define freq_to_timerval(x) (F_CPU / 8 / x - 1)
#define freq_to_timerval(x) (x / 1000)
// The structure of compressed code entries
struct IrCode {
uint8_t timer_val;
uint8_t numpairs;
uint8_t bitcompression;
uint16_t const *times;
uint8_t const *codes;
};
void xmitCodeElement(uint16_t ontime, uint16_t offtime, uint8_t PWM_code );
void quickflashLEDx( uint8_t x );
void delay_ten_us(uint16_t us);
void quickflashLED( void );
uint8_t read_bits(uint8_t count);
uint16_t rawData[300];
#define MAX_WAIT_TIME 65535 //tens of us (ie: 655.350ms)
IRsend irsend(IRLED); // Set the GPIO to be used to sending the message.
extern const IrCode* const NApowerCodes[];
extern const IrCode* const EUpowerCodes[];
extern uint8_t num_NAcodes, num_EUcodes;
uint8_t bitsleft_r = 0;
uint8_t bits_r = 0;
uint8_t code_ptr;
volatile const IrCode * powerCode;
uint8_t read_bits(uint8_t count)
{
uint8_t i;
uint8_t tmp = 0;
for (i = 0; i < count; i++) {
if (bitsleft_r == 0) {
bits_r = powerCode->codes[code_ptr++];
bitsleft_r = 8;
}
bitsleft_r--;
tmp |= (((bits_r >> (bitsleft_r)) & 1) << (count - 1 - i));
}
return tmp;
}
uint16_t ontime, offtime;
uint8_t i, num_codes;
uint8_t region;
void delay_ten_us(uint16_t us) {
uint8_t timer;
while (us != 0) {
for (timer = 0; timer <= DELAY_CNT; timer++) {
NOP;
NOP;
}
NOP;
us--;
}
}
void quickflashLED( void ) {
#if defined(M5LED)
digitalWrite(IRLED, M5LED_ON);
delay_ten_us(3000); // 30 ms ON-time delay
digitalWrite(IRLED, M5LED_OFF);
#endif
}
void quickflashLEDx( uint8_t x ) {
quickflashLED();
while (--x) {
delay_ten_us(25000); // 250 ms OFF-time delay between flashes
quickflashLED();
}
}