command interpreter and epprom
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229
main.cpp
229
main.cpp
@ -2,72 +2,227 @@
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#include <string.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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#include "serial.h"
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#include "writepin.h"
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#include "WirelessRelay.h"
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#include "pwm.h"
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#include "eeprom.h"
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bool serialDispatch(Serial* serial , WirelessRelay* relayOne, WirelessRelay* relayTow, WirelessRelay* relayThree, WirelessRelay* relayFour)
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#define MAX_RELAYS 32
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#define COMMAND_BUFFER_SIZE 32
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struct WirelessRelayStore
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{
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WirelessRelay array[MAX_RELAYS];
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uint8_t count;
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};
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inline static void printHelp(Serial* serial)
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{
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serial->putString("Available Commands: \n\
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help : Show this prompt \n\
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relay add [id] : Add Wireless Relay\n\
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relay list : Print list of saved Wireless Relays \n\
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relay [on/off] [nn] : Turn on/off nth relay\n\
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erase : Erase epprom\n\
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rgb [on/off] : Turn on/off RGB leds at current value.\n\
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rgb print : Print current RGB value.\n\
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rgb set [RRR] [GGG] [BBB] : Set RGB value.\n\
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rgb pattern : RGB pattern\n\
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version : Print Version.\n\n");
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}
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void relayDispatch(WirelessRelayStore* relays, char* inBuffer, Serial* serial)
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{
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if( strncmp(inBuffer, "add", 3) == 0 && inBuffer[3] != '\0')
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{
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uint16_t id = strtol( inBuffer+4, nullptr, 16 );
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if(id != 0 && relays->count < MAX_RELAYS)
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{
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relays->array[relays->count].init(&PORTB, PB5, id);
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char buffer[64];
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EEPROM_write_char( 0, relays->count+1 );
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EEPROM_write_string( relays->count*2+1, (char*) &id, 2 );
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sprintf(buffer, "Relay saved! NUMBER: %u ID: %X\n\n", relays->count, id);
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serial->putString(buffer, 64);
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relays->count++;
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}
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else serial->putString("Usage: relay add [id] [id] being a 16bit hex nummber\n\n");
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}
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else if( strncmp(inBuffer, "list", 4) == 0)
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{
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serial->putString("Relays:\n");
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for(uint8_t i = 0; i < relays->count; i++)
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{
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char buffer[64];
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sprintf(buffer, "NUMBER: %u ID: %X\n", i, relays->array[i].getId());
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serial->putString(buffer, 64);
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}
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serial->putChar('\n');
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}
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else if( strncmp(inBuffer, "on", 2) == 0 && inBuffer[2] != '\0')
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{
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uint8_t selected = atoi(inBuffer+2);
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if (selected <= relays->count)
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{
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relays->array[selected].on();
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}
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}
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else if( strncmp(inBuffer, "off", 3) == 0 && inBuffer[3] != '\0')
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{
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uint8_t selected = atoi(inBuffer+3);
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if (selected <= relays->count)
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{
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relays->array[selected].off();
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}
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}
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else
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{
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serial->putString(inBuffer, COMMAND_BUFFER_SIZE-5);
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serial->putString(" is not a valid subcommand: relay [add/list/on/off]\n\n");
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}
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}
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void rgbDispatch(Pwm8b* pwmTc0, Pwm8b* pwmTc2, char* inBuffer, Serial* serial)
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{
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if( strncmp(inBuffer, "on", 2) == 0 )
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{
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pwmTc0->on();
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pwmTc2->on();
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serial->putString("RGB lights on\n\n");
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}
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else if( strncmp(inBuffer, "off", 3) == 0 )
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{
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pwmTc0->off();
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pwmTc2->off();
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serial->putString("RGB lights off\n\n");
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}
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else if( strncmp(inBuffer, "print", 5) == 0 )
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{
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char buffer[64];
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sprintf(buffer, "Current RGB values:\nR: %u G: %u B: %u\n\n", OCR0A, OCR0B, OCR2B);
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serial->putString(buffer, 64);
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}
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else if( strncmp(inBuffer, "set", 3) == 0 )
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{
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uint8_t i = 0;
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for(; inBuffer[i] != '\0' && i < COMMAND_BUFFER_SIZE-4; i++ );
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if( i > 14)
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{
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inBuffer[7] = '\0';
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inBuffer[11] = '\0';
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pwmTc0->setDutyA(atoi(inBuffer+4));
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pwmTc0->setDutyB(atoi(inBuffer+8));
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pwmTc2->setDutyB(atoi(inBuffer+12));
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serial->putString("Set RGB values\n\n");
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}
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else serial->putString("Usage: rgb set [RRR] [GGG] [BBB]\n\n");
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}
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else
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{
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serial->putString(inBuffer, COMMAND_BUFFER_SIZE-4);
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serial->putString(" is not a valid subcommand: rgb [/on/off/print/set]\n\n");
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}
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}
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void serialDispatch(Serial* serial , WirelessRelayStore* relays, Pwm8b* pwmTc0, Pwm8b* pwmTc2)
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{
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if(serial->dataIsWaiting())
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{
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char buffer[20];
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const int length = serial->getString(buffer, 7);
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char buffer[COMMAND_BUFFER_SIZE];
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const int length = serial->getString(buffer, COMMAND_BUFFER_SIZE);
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if(length != 0)
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{
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//serial->putString("InString: ");
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//serial->putString(buffer, COMMAND_BUFFER_SIZE);
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//serial->putChar('\n');
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if(length > 4 && strncmp(buffer, "relay", 5) == 0)
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{
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relayDispatch(relays, buffer+6, serial);
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}
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else if(length > 2 && strncmp(buffer, "rgb", 3) == 0)
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{
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rgbDispatch(pwmTc0, pwmTc2, buffer+4, serial);
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}
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else if(length > 4 && strncmp(buffer, "erase", 5) == 0)
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{
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for(uint16_t i = 0; i < MAX_RELAYS*2+1; i++) EEPROM_write_char(i, 0);
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serial->putString("EEPROM erased\n\n");
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}
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else if(buffer[0] == '?' || ( length > 3 && strncmp(buffer, "help", 4) == 0))
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{
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printHelp(serial);
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}
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else
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{
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serial->putString("Not a valid command\n\n");
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}
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}
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}
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return false;
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}
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void restore_relays(WirelessRelayStore* relays)
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{
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relays->count = EEPROM_read_char(0);
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if(relays->count > MAX_RELAYS )
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{
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for(uint16_t i = 0; i < MAX_RELAYS*2+1; i++) EEPROM_write_char(i, 0);
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relays->count = 0;
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}
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for(uint8_t i = 0; i <= relays->count; i++)
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{
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uint16_t id;
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EEPROM_read_string(1+i*2, (char*) &id, 2);
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relays->array[i].init(&PORTB, PB5, id);
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}
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}
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int main()
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{
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DDRB = 0xFF;//= (1 << PB5) | ( 1 << PB1);
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DDRD = 0xFF;//= (1 << PD3) | (1 << PD5);
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DDRB = (1 << PB5) | ( 1 << PB1);
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DDRD = (1 << PD3) | (1 << PD5)| (1 << PD6);
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PORTB = 0x00;
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sei();
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sei();
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Serial serial;
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/* Pwm16b pwmA;
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/*
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Pwm16b pwmA;
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pwmA.setDuty(10);
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pwmA.on();*/
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pwmA.on();
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*/
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Pwm8b pwmTc0( &TCCR0A, &TCCR0B, &OCR0A, &OCR0B );
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//pwmB.on();
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Pwm8b pwmTc0( &TCCR0A, &TCCR0B, &OCR0A, &OCR0B, 0b00000011, true, true );
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Pwm8b pwmTc2( &TCCR2A, &TCCR2B, &OCR2A, &OCR2B, 0b00000101, false, true );
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//pwmTc0.setDutyA(10);
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//pwmTc0.setDutyB(10);
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pwmTc2.setDutyB(128);
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bool pattern = true;
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/*
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//fast 8 bit PWM pwm A
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TCCR0A|= (1<<COM0A1) | (1<<COM0B1);
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TCCR0A|=(1<<WGM01) | (1<<WGM00);
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WirelessRelayStore relays;
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relays.count=0;
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restore_relays(&relays);
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//start with /1024 prescaller
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TCCR0B =(1 << CS00) | (1 << CS01);*/
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uint8_t counter = 0;
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WirelessRelay relayOne(&PORTB, PB5, 0b1001110000000000);
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WirelessRelay relayTow(&PORTB, PB5, 0b1001101000000000);
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WirelessRelay relayThree(&PORTB, PB5, 0b1001100100000000);
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WirelessRelay relayFour(&PORTB, PB5, 0b1001100010000000);
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serial.putString("RGBController v0.1 starting\n");
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uint8_t duty = 0;
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serial.putString("RGBController v0.1 starting\n\n");
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while(true)
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{
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serialDispatch(&serial, &relayOne, &relayTow, &relayThree, &relayFour);
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pwmTc0.setDutyA(duty);
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pwmTc0.setDutyB(duty);
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pwmTc2.setDutyB(duty);
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duty++;
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_delay_us(50000);
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serialDispatch(&serial, &relays, &pwmTc0, &pwmTc2);
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if(pattern)
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{
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counter++;
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pwmTc0.setDutyA(counter);
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pwmTc0.setDutyB(counter-64);
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pwmTc2.setDutyB(counter-128);
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_usleep(20);
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}
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}
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return 0; //master interupt.
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