618 lines
17 KiB
C++
618 lines
17 KiB
C++
// This library is free software; you can redistribute it and/or
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// modify it under the terms of the GNU Lesser General Public
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// License as published by the Free Software Foundation; either
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// version 2.1 of the License, or (at your option) any later version.
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#include "DallasTemperature.h"
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extern "C" {
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#include "Arduino.h"
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}
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DallasTemperature::DallasTemperature(OneWire* _oneWire)
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#if REQUIRESALARMS
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: _AlarmHandler(&defaultAlarmHandler)
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#endif
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{
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_wire = _oneWire;
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devices = 0;
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parasite = false;
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conversionDelay = TEMP_9_BIT;
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}
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// initialize the bus
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void DallasTemperature::begin(void)
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{
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DeviceAddress deviceAddress;
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_wire->reset_search();
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devices = 0; // Reset the number of devices when we enumerate wire devices
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while (_wire->search(deviceAddress))
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{
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if (validAddress(deviceAddress))
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{
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if (!parasite && readPowerSupply(deviceAddress)) parasite = true;
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ScratchPad scratchPad;
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readScratchPad(deviceAddress, scratchPad);
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if (deviceAddress[0] == DS18S20MODEL) conversionDelay = TEMP_12_BIT; // 750 ms
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else if (scratchPad[CONFIGURATION] > conversionDelay) conversionDelay = scratchPad[CONFIGURATION];
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devices++;
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}
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}
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}
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// returns the number of devices found on the bus
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uint8_t DallasTemperature::getDeviceCount(void)
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{
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return devices;
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}
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// returns true if address is valid
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bool DallasTemperature::validAddress(uint8_t* deviceAddress)
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{
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return (_wire->crc8(deviceAddress, 7) == deviceAddress[7]);
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}
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// finds an address at a given index on the bus
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// returns true if the device was found
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bool DallasTemperature::getAddress(uint8_t* deviceAddress, uint8_t index)
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{
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uint8_t depth = 0;
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_wire->reset_search();
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while (depth <= index && _wire->search(deviceAddress))
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{
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if (depth == index && validAddress(deviceAddress)) return true;
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depth++;
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}
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return false;
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}
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// attempt to determine if the device at the given address is connected to the bus
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bool DallasTemperature::isConnected(uint8_t* deviceAddress)
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{
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ScratchPad scratchPad;
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return isConnected(deviceAddress, scratchPad);
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}
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// attempt to determine if the device at the given address is connected to the bus
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// also allows for updating the read scratchpad
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bool DallasTemperature::isConnected(uint8_t* deviceAddress, uint8_t* scratchPad)
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{
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readScratchPad(deviceAddress, scratchPad);
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return (_wire->crc8(scratchPad, 8) == scratchPad[SCRATCHPAD_CRC]);
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}
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// read device's scratch pad
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void DallasTemperature::readScratchPad(uint8_t* deviceAddress, uint8_t* scratchPad)
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{
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// send the command
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_wire->reset();
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_wire->select(deviceAddress);
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_wire->write(READSCRATCH);
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// read the response
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// byte 0: temperature LSB
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scratchPad[TEMP_LSB] = _wire->read();
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// byte 1: temperature MSB
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scratchPad[TEMP_MSB] = _wire->read();
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// byte 2: high alarm temp
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scratchPad[HIGH_ALARM_TEMP] = _wire->read();
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// byte 3: low alarm temp
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scratchPad[LOW_ALARM_TEMP] = _wire->read();
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// byte 4:
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// DS18S20: store for crc
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// DS18B20 & DS1822: configuration register
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scratchPad[CONFIGURATION] = _wire->read();
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// byte 5:
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// internal use & crc
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scratchPad[INTERNAL_BYTE] = _wire->read();
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// byte 6:
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// DS18S20: COUNT_REMAIN
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// DS18B20 & DS1822: store for crc
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scratchPad[COUNT_REMAIN] = _wire->read();
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// byte 7:
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// DS18S20: COUNT_PER_C
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// DS18B20 & DS1822: store for crc
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scratchPad[COUNT_PER_C] = _wire->read();
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// byte 8:
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// SCTRACHPAD_CRC
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scratchPad[SCRATCHPAD_CRC] = _wire->read();
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_wire->reset();
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}
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// writes device's scratch pad
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void DallasTemperature::writeScratchPad(uint8_t* deviceAddress, const uint8_t* scratchPad)
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{
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_wire->reset();
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_wire->select(deviceAddress);
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_wire->write(WRITESCRATCH);
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_wire->write(scratchPad[HIGH_ALARM_TEMP]); // high alarm temp
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_wire->write(scratchPad[LOW_ALARM_TEMP]); // low alarm temp
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// DS18S20 does not use the configuration register
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if (deviceAddress[0] != DS18S20MODEL) _wire->write(scratchPad[CONFIGURATION]); // configuration
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_wire->reset();
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// save the newly written values to eeprom
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_wire->write(COPYSCRATCH, parasite);
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if (parasite) delay(10); // 10ms delay
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_wire->reset();
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}
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// reads the device's power requirements
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bool DallasTemperature::readPowerSupply(uint8_t* deviceAddress)
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{
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bool ret = false;
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_wire->reset();
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_wire->select(deviceAddress);
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_wire->write(READPOWERSUPPLY);
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if (_wire->read_bit() == 0) ret = true;
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_wire->reset();
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return ret;
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}
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// returns the current resolution, 9-12
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uint8_t DallasTemperature::getResolution(uint8_t* deviceAddress)
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{
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if (deviceAddress[0] == DS18S20MODEL) return 9; // this model has a fixed resolution
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ScratchPad scratchPad;
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readScratchPad(deviceAddress, scratchPad);
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switch (scratchPad[CONFIGURATION])
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{
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case TEMP_12_BIT:
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return 12;
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break;
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case TEMP_11_BIT:
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return 11;
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break;
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case TEMP_10_BIT:
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return 10;
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break;
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case TEMP_9_BIT:
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return 9;
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break;
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}
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}
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// set resolution of a device to 9, 10, 11, or 12 bits
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void DallasTemperature::setResolution(uint8_t* deviceAddress, uint8_t newResolution)
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{
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ScratchPad scratchPad;
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if (isConnected(deviceAddress, scratchPad))
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{
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// DS18S20 has a fixed 9-bit resolution
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if (deviceAddress[0] != DS18S20MODEL)
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{
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switch (newResolution)
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{
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case 12:
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scratchPad[CONFIGURATION] = TEMP_12_BIT;
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break;
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case 11:
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scratchPad[CONFIGURATION] = TEMP_11_BIT;
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break;
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case 10:
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scratchPad[CONFIGURATION] = TEMP_10_BIT;
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break;
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case 9:
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default:
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scratchPad[CONFIGURATION] = TEMP_9_BIT;
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break;
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}
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writeScratchPad(deviceAddress, scratchPad);
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}
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}
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}
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// sends command for all devices on the bus to perform a temperature
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void DallasTemperature::requestTemperatures(void)
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{
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_wire->reset();
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_wire->skip();
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_wire->write(STARTCONVO, parasite);
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switch (conversionDelay)
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{
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case TEMP_9_BIT:
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delay(94);
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break;
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case TEMP_10_BIT:
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delay(188);
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break;
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case TEMP_11_BIT:
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delay(375);
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break;
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case TEMP_12_BIT:
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default:
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delay(750);
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break;
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}
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}
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// sends command for one device to perform a temperature by address
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void DallasTemperature::requestTemperaturesByAddress(uint8_t* deviceAddress)
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{
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_wire->reset();
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_wire->select(deviceAddress);
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_wire->write(STARTCONVO, parasite);
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switch (conversionDelay)
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{
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case TEMP_9_BIT:
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delay(94);
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break;
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case TEMP_10_BIT:
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delay(188);
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break;
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case TEMP_11_BIT:
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delay(375);
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break;
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case TEMP_12_BIT:
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default:
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delay(750);
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break;
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}
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}
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// sends command for one device to perform a temp conversion by index
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void DallasTemperature::requestTemperaturesByIndex(uint8_t deviceIndex)
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{
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DeviceAddress deviceAddress;
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getAddress(deviceAddress, deviceIndex);
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requestTemperaturesByAddress(deviceAddress);
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}
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// Fetch temperature for device index
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float DallasTemperature::getTempCByIndex(uint8_t deviceIndex)
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{
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DeviceAddress deviceAddress;
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getAddress(deviceAddress, deviceIndex);
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return getTempC((uint8_t*)deviceAddress);
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}
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// Fetch temperature for device index
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float DallasTemperature::getTempFByIndex(uint8_t deviceIndex)
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{
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return DallasTemperature::toFahrenheit(getTempCByIndex(deviceIndex));
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}
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// reads scratchpad and returns the temperature in degrees C
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float DallasTemperature::calculateTemperature(uint8_t* deviceAddress, uint8_t* scratchPad)
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{
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int16_t rawTemperature = (((int16_t)scratchPad[TEMP_MSB]) << 8) | scratchPad[TEMP_LSB];
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switch (deviceAddress[0])
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{
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case DS18B20MODEL:
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case DS1822MODEL:
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switch (scratchPad[CONFIGURATION])
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{
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case TEMP_12_BIT:
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return (float)rawTemperature * 0.0625;
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break;
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case TEMP_11_BIT:
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return (float)(rawTemperature >> 1) * 0.125;
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break;
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case TEMP_10_BIT:
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return (float)(rawTemperature >> 2) * 0.25;
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break;
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case TEMP_9_BIT:
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return (float)(rawTemperature >> 3) * 0.5;
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break;
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}
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break;
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case DS18S20MODEL:
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/*
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Resolutions greater than 9 bits can be calculated using the data from
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the temperature, COUNT REMAIN and COUNT PER <20>C registers in the
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scratchpad. Note that the COUNT PER <20>C register is hard-wired to 16
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(10h). After reading the scratchpad, the TEMP_READ value is obtained
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by truncating the 0.5<EFBFBD>C bit (bit 0) from the temperature data. The
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extended resolution temperature can then be calculated using the
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following equation:
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COUNT_PER_C - COUNT_REMAIN
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TEMPERATURE = TEMP_READ - 0.25 + --------------------------
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COUNT_PER_C
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*/
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// Good spot. Thanks Nic Johns for your contribution
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return (float)(rawTemperature >> 1) - 0.25 +((float)(scratchPad[COUNT_PER_C] - scratchPad[COUNT_REMAIN]) / (float)scratchPad[COUNT_PER_C] );
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break;
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}
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}
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// returns temperature in degrees C or DEVICE_DISCONNECTED if the
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// device's scratch pad cannot be read successfully.
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// the numeric value of DEVICE_DISCONNECTED is defined in
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// DallasTemperature.h. it is a large negative number outside the
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// operating range of the device
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float DallasTemperature::getTempC(uint8_t* deviceAddress)
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{
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// TODO: Multiple devices (up to 64) on the same bus may take some time to negotiate a response
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// What happens in case of collision?
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ScratchPad scratchPad;
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if (isConnected(deviceAddress, scratchPad)) return calculateTemperature(deviceAddress, scratchPad);
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return DEVICE_DISCONNECTED;
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}
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// returns temperature in degrees F
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float DallasTemperature::getTempF(uint8_t* deviceAddress)
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{
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return toFahrenheit(getTempC(deviceAddress));
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}
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// returns true if the bus requires parasite power
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bool DallasTemperature::isParasitePowerMode(void)
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{
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return parasite;
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}
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#if REQUIRESALARMS
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/*
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ALARMS:
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TH and TL Register Format
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BIT 7 BIT 6 BIT 5 BIT 4 BIT 3 BIT 2 BIT 1 BIT 0
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S 2^6 2^5 2^4 2^3 2^2 2^1 2^0
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Only bits 11 through 4 of the temperature register are used
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in the TH and TL comparison since TH and TL are 8-bit
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registers. If the measured temperature is lower than or equal
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to TL or higher than or equal to TH, an alarm condition exists
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and an alarm flag is set inside the DS18B20. This flag is
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updated after every temperature measurement; therefore, if the
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alarm condition goes away, the flag will be turned off after
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the next temperature conversion.
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*/
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// sets the high alarm temperature for a device in degrees celsius
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// accepts a float, but the alarm resolution will ignore anything
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// after a decimal point. valid range is -55C - 125C
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void DallasTemperature::setHighAlarmTemp(uint8_t* deviceAddress, char celsius)
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{
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// make sure the alarm temperature is within the device's range
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if (celsius > 125) celsius = 125;
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else if (celsius < -55) celsius = -55;
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ScratchPad scratchPad;
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if (isConnected(deviceAddress, scratchPad))
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{
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scratchPad[HIGH_ALARM_TEMP] = (uint8_t)celsius;
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writeScratchPad(deviceAddress, scratchPad);
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}
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}
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// sets the low alarm temperature for a device in degreed celsius
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// accepts a float, but the alarm resolution will ignore anything
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// after a decimal point. valid range is -55C - 125C
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void DallasTemperature::setLowAlarmTemp(uint8_t* deviceAddress, char celsius)
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{
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// make sure the alarm temperature is within the device's range
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if (celsius > 125) celsius = 125;
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else if (celsius < -55) celsius = -55;
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ScratchPad scratchPad;
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if (isConnected(deviceAddress, scratchPad))
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{
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scratchPad[LOW_ALARM_TEMP] = (uint8_t)celsius;
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writeScratchPad(deviceAddress, scratchPad);
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}
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}
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// returns a char with the current high alarm temperature or
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// DEVICE_DISCONNECTED for an address
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char DallasTemperature::getHighAlarmTemp(uint8_t* deviceAddress)
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{
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ScratchPad scratchPad;
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if (isConnected(deviceAddress, scratchPad)) return (char)scratchPad[HIGH_ALARM_TEMP];
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return DEVICE_DISCONNECTED;
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}
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// returns a char with the current low alarm temperature or
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// DEVICE_DISCONNECTED for an address
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char DallasTemperature::getLowAlarmTemp(uint8_t* deviceAddress)
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{
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ScratchPad scratchPad;
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if (isConnected(deviceAddress, scratchPad)) return (char)scratchPad[LOW_ALARM_TEMP];
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return DEVICE_DISCONNECTED;
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}
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// resets internal variables used for the alarm search
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void DallasTemperature::resetAlarmSearch()
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{
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alarmSearchJunction = -1;
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alarmSearchExhausted = 0;
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for(uint8_t i = 0; i < 7; i++)
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alarmSearchAddress[i] = 0;
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}
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// This is a modified version of the OneWire::search method.
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//
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// Also added the OneWire search fix documented here:
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// http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1238032295
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//
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// Perform an alarm search. If this function returns a '1' then it has
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// enumerated the next device and you may retrieve the ROM from the
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// OneWire::address variable. If there are no devices, no further
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// devices, or something horrible happens in the middle of the
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// enumeration then a 0 is returned. If a new device is found then
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// its address is copied to newAddr. Use
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// DallasTemperature::resetAlarmSearch() to start over.
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bool DallasTemperature::alarmSearch(uint8_t* newAddr)
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{
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uint8_t i;
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char lastJunction = -1;
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uint8_t done = 1;
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if (alarmSearchExhausted) return false;
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if (!_wire->reset()) return false;
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// send the alarm search command
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_wire->write(0xEC, 0);
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for(i = 0; i < 64; i++)
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{
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uint8_t a = _wire->read_bit( );
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uint8_t nota = _wire->read_bit( );
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uint8_t ibyte = i / 8;
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uint8_t ibit = 1 << (i & 7);
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// I don't think this should happen, this means nothing responded, but maybe if
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// something vanishes during the search it will come up.
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if (a && nota) return false;
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if (!a && !nota)
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{
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if (i == alarmSearchJunction)
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{
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// this is our time to decide differently, we went zero last time, go one.
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a = 1;
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alarmSearchJunction = lastJunction;
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}
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else if (i < alarmSearchJunction)
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{
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// take whatever we took last time, look in address
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if (alarmSearchAddress[ibyte] & ibit) a = 1;
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else
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{
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// Only 0s count as pending junctions, we've already exhasuted the 0 side of 1s
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a = 0;
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done = 0;
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lastJunction = i;
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}
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}
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else
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{
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// we are blazing new tree, take the 0
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a = 0;
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alarmSearchJunction = i;
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done = 0;
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}
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// OneWire search fix
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// See: http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1238032295
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}
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if (a) alarmSearchAddress[ibyte] |= ibit;
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else alarmSearchAddress[ibyte] &= ~ibit;
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_wire->write_bit(a);
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}
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if (done) alarmSearchExhausted = 1;
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for (i = 0; i < 8; i++) newAddr[i] = alarmSearchAddress[i];
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return true;
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}
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// returns true if device address has an alarm condition
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bool DallasTemperature::hasAlarm(uint8_t* deviceAddress)
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{
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ScratchPad scratchPad;
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if (isConnected(deviceAddress, scratchPad))
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{
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float temp = calculateTemperature(deviceAddress, scratchPad);
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// check low alarm
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if ((char)temp <= (char)scratchPad[LOW_ALARM_TEMP]) return true;
|
||
|
||
// check high alarm
|
||
if ((char)temp >= (char)scratchPad[HIGH_ALARM_TEMP]) return true;
|
||
}
|
||
|
||
// no alarm
|
||
return false;
|
||
}
|
||
|
||
// returns true if any device is reporting an alarm condition on the bus
|
||
bool DallasTemperature::hasAlarm(void)
|
||
{
|
||
DeviceAddress deviceAddress;
|
||
resetAlarmSearch();
|
||
return alarmSearch(deviceAddress);
|
||
}
|
||
|
||
// runs the alarm handler for all devices returned by alarmSearch()
|
||
void DallasTemperature::processAlarms(void)
|
||
{
|
||
resetAlarmSearch();
|
||
DeviceAddress alarmAddr;
|
||
|
||
while (alarmSearch(alarmAddr))
|
||
{
|
||
if (validAddress(alarmAddr))
|
||
_AlarmHandler(alarmAddr);
|
||
}
|
||
}
|
||
|
||
// sets the alarm handler
|
||
void DallasTemperature::setAlarmHandler(AlarmHandler *handler)
|
||
{
|
||
_AlarmHandler = handler;
|
||
}
|
||
|
||
// The default alarm handler
|
||
void DallasTemperature::defaultAlarmHandler(uint8_t* deviceAddress)
|
||
{
|
||
}
|
||
|
||
#endif
|
||
|
||
// Convert float celsius to fahrenheit
|
||
float DallasTemperature::toFahrenheit(float celsius)
|
||
{
|
||
return (celsius * 1.8) + 32;
|
||
}
|
||
|
||
// Convert float fahrenheit to celsius
|
||
float DallasTemperature::toCelsius(float fahrenheit)
|
||
{
|
||
return (fahrenheit - 32) / 1.8;
|
||
}
|
||
|
||
#if REQUIRESNEW
|
||
|
||
// MnetCS - Allocates memory for DallasTemperature. Allows us to instance a new object
|
||
void* DallasTemperature::operator new(unsigned int size) // Implicit NSS obj size
|
||
{
|
||
void * p; // void pointer
|
||
p = malloc(size); // Allocate memory
|
||
memset((DallasTemperature*)p,0,size); // Initalise memory
|
||
|
||
//!!! CANT EXPLICITLY CALL CONSTRUCTOR - workaround by using an init() methodR - workaround by using an init() method
|
||
return (DallasTemperature*) p; // Cast blank region to NSS pointer
|
||
}
|
||
|
||
// MnetCS 2009 - Unallocates the memory used by this instance
|
||
void DallasTemperature::operator delete(void* p)
|
||
{
|
||
DallasTemperature* pNss = (DallasTemperature*) p; // Cast to NSS pointer
|
||
pNss->~DallasTemperature(); // Destruct the object
|
||
|
||
free(p); // Free the memory
|
||
}
|
||
|
||
#endif
|