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state.cpp
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state.cpp
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/*
state.cpp
system states
Don Thompson
Raynham MA
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 3 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, see <http://www.gnu.org/licenses/>.
*/
#include "state.h"
State::State(){
//Can't do here .. sos error ???
//Particle.variable("remoteStatus", remoteStatus);
status = 0;
remoteStatus = 0; // DESIGN: read from eeprom ??
ledNoticeState = 0;
startTime = Time.now();
}
void State::sysState(uint8_t current) {
int notificationLED;
curState = current;
//debug starting state changes
for(int k=0; k<10; k++) {
digitalWrite(SYSTEM_NOTIFICATION_PIN, HIGH);
digitalWrite(SYSTEM_STATUS_PIN, HIGH);
delay(500);
digitalWrite(SYSTEM_NOTIFICATION_PIN, LOW);
digitalWrite(SYSTEM_STATUS_PIN, LOW);
delay(500);
}
switch(current) {
case sys_undefined:
#ifdef SERIAL_DEBUG
Serial.print("sys_undefined ");
Serial.println("SYSTEM_VERSION");
#endif
digitalWrite(SYSTEM_NOTIFICATION_PIN, LOW);
digitalWrite(SYSTEM_STATUS_PIN, LOW);
digitalWrite(TRIGGER_PIN, LOW);
break;
case sys_starting:
#ifdef SERIAL_DEBUG
Serial.print("sys_starting ");
Serial.println("SYSTEM_VERSION");
#endif
digitalWrite(SYSTEM_NOTIFICATION_PIN, LOW);
digitalWrite(SYSTEM_STATUS_PIN, LOW);
digitalWrite(TRIGGER_PIN, LOW);
break;
case sys_configure:
//GREEN LED Off, RED ON
#ifdef SERIAL_DEBUG
Serial.println("sys_configure");
#endif
digitalWrite(SYSTEM_STATUS_PIN, HIGH);
break;
case sys_fail:
//HANG with fast red (hardware) or green (configuration) blink
#ifdef SERIAL_DEBUG
Serial.print("sys_fail:");
Serial.println(status,HEX);
#endif
if((status & fail_hardware) || (status & fail_ds2482))
notificationLED = SYSTEM_STATUS_PIN;
else
notificationLED = SYSTEM_NOTIFICATION_PIN;
while(1) {
digitalWrite(notificationLED, ledNoticeState);
if(++ledNoticeState > 1) ledNoticeState = 0;
delay(200);
}
break;
case sys_running:
//green ON
#ifdef SERIAL_DEBUG
Serial.print("sys_running");
Serial.println(SYSTEM_VERSION);
#endif
startTime = Time.now(); //?? in class initializer
digitalWrite(SYSTEM_STATUS_PIN, LOW);
digitalWrite(SYSTEM_NOTIFICATION_PIN, HIGH);
break;
#ifdef SERIAL_DEBUG
default:
Serial.print("sysState-invalid state:");
Serial.println(curState);
#endif
}
}
void State::addStatus(uint8_t sbit) {
status |= sbit;
}
uint8_t State::sysStatus() {
return status;
}
bool State::owPresent() {
return !(status & fail_ds2482);
}
int State::upTime() {
return Time.now() - startTime;
}
//calculate and format system up-time as dd hh:mm
char* State::upTime(char* upTimeStr) {
// int now;
int uptime,uptimeH,uptimeM;
int updays,uphours,upminutes,upseconds;
//now = Time.now();
//uptime = now-startTime;
uptime = upTime();
updays = uptime / SECS_IN_DAY; //days
uptimeH = uptime % SECS_IN_DAY; //uptime hours (minus days)u
uphours = uptimeH / SECS_IN_HOUR; //hours
uptimeM = uptimeH % SECS_IN_HOUR;
upminutes = uptimeM / SECS_IN_MINUTE; //minutes
upseconds = uptimeM % SECS_IN_MINUTE;
sprintf(upTimeStr,"%2d %02d:%02d:%02d",updays,uphours,upminutes,upseconds);
return upTimeStr;
}
void State::setRemoteStatus(uint8_t remoteId, bool newState) {
if(newState)
remoteStatus |= 1 << remoteId;
else
remoteStatus &= ~(1 << remoteId);
}
bool State::getRemoteStatus(uint8_t remoteId) {
return (remoteStatus >> remoteId) & 1;
}
//FIX: not needed since config builds from common def
void State::setRemoteName(uint8_t id, String name) {
if(id >= 0 && id <= 7) {
remoteNames[id] = name;
}
}
String State::getRemoteName(uint8_t id) {
if(id < 0 || id > 7) return "";
return remoteNames[id];
}
void State::setSysId(uint8_t id) {
sysId = id;
}
void State::setRemotes(uint8_t rv) {
remoteStatus = rv;
}
uint8_t State::getRemotes() {
return remoteStatus;
}
uint8_t State::getSysId() {
return sysId;
}