Compiling Help please

Pesho77 · May 17, 2025, 2:20pm

Im getting an error message of

Arduino: 1.8.19 (Windows Store 1.8.57.0) (Windows 10), Board: "Arduino Uno"


C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\arduino-builder -dump-prefs -logger=machine -hardware C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware -tools C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\tools-builder -tools C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -built-in-libraries C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\libraries -libraries C:\Users\peter\Documents\Arduino\libraries -fqbn=arduino:avr:uno -ide-version=10819 -build-path C:\Users\peter\AppData\Local\Temp\arduino_build_228124 -warnings=none -build-cache C:\Users\peter\AppData\Local\Temp\arduino_cache_324455 -prefs=build.warn_data_percentage=75 -prefs=runtime.tools.avrdude.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.avrdude-6.3.0-arduino17.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.arduinoOTA.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.arduinoOTA-1.3.0.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.avr-gcc.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.avr-gcc-7.3.0-atmel3.6.1-arduino7.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -verbose L:\Buffalo Shared Drive\Stanaway's\Aduino\sketch_Johny_5\sketch_Johny_5.ino

C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\arduino-builder -compile -logger=machine -hardware C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware -tools C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\tools-builder -tools C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -built-in-libraries C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\libraries -libraries C:\Users\peter\Documents\Arduino\libraries -fqbn=arduino:avr:uno -ide-version=10819 -build-path C:\Users\peter\AppData\Local\Temp\arduino_build_228124 -warnings=none -build-cache C:\Users\peter\AppData\Local\Temp\arduino_cache_324455 -prefs=build.warn_data_percentage=75 -prefs=runtime.tools.avrdude.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.avrdude-6.3.0-arduino17.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.arduinoOTA.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.arduinoOTA-1.3.0.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.avr-gcc.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -prefs=runtime.tools.avr-gcc-7.3.0-atmel3.6.1-arduino7.path=C:\Program Files\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\tools\avr -verbose L:\Buffalo Shared Drive\Stanaway's\Aduino\sketch_Johny_5\sketch_Johny_5.ino

Using board 'uno' from platform in folder: D:\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\arduino\avr

Using core 'arduino' from platform in folder: D:\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\arduino\avr

Detecting libraries used...

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp" -o nul

Alternatives for OneWire.h: [OneWire@2.3.8]

ResolveLibrary(OneWire.h)

  -> candidates: [OneWire@2.3.8]

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp" -o nul

Alternatives for DallasTemperature.h: [DallasTemperature@4.0.3]

ResolveLibrary(DallasTemperature.h)

  -> candidates: [DallasTemperature@4.0.3]

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp" -o nul

Alternatives for Adafruit_BMP085.h: [Adafruit_BMP085_Library@1.2.4]

ResolveLibrary(Adafruit_BMP085.h)

  -> candidates: [Adafruit_BMP085_Library@1.2.4]

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp" -o nul

Alternatives for Adafruit_I2CDevice.h: [Adafruit_BusIO@1.17.0]

ResolveLibrary(Adafruit_I2CDevice.h)

  -> candidates: [Adafruit_BusIO@1.17.0]

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp" -o nul

Alternatives for Wire.h: [Wire@1.0]

ResolveLibrary(Wire.h)

  -> candidates: [Wire@1.0]

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "C:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire\\OneWire.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "C:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature\\DallasTemperature.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "C:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library\\Adafruit_BMP085.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "C:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO\\Adafruit_BusIO_Register.cpp" -o nul

Alternatives for SPI.h: [SPI@1.0]

ResolveLibrary(SPI.h)

  -> candidates: [SPI@1.0]

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "C:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO\\Adafruit_BusIO_Register.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "C:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO\\Adafruit_GenericDevice.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "C:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO\\Adafruit_I2CDevice.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "C:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO\\Adafruit_SPIDevice.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "D:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src\\Wire.cpp" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "D:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src\\utility\\twi.c" -o nul

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "D:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src\\SPI.cpp" -o nul

Generating function prototypes...

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -flto -w -x c++ -E -CC -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp" -o "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\preproc\\ctags_target_for_gcc_minus_e.cpp"

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\tools-builder\\ctags\\5.8-arduino11/ctags" -u --language-force=c++ -f - --c++-kinds=svpf --fields=KSTtzns --line-directives "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\preproc\\ctags_target_for_gcc_minus_e.cpp"

Compiling sketch...

"C:\\Program Files\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\tools\\avr/bin/avr-g++" -c -g -Os -w -std=gnu++11 -fpermissive -fno-exceptions -ffunction-sections -fdata-sections -fno-threadsafe-statics -Wno-error=narrowing -MMD -flto -mmcu=atmega328p -DF_CPU=16000000L -DARDUINO=10819 -DARDUINO_AVR_UNO -DARDUINO_ARCH_AVR "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\cores\\arduino" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\variants\\standard" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\OneWire" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\DallasTemperature" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BMP085_Library" "-IC:\\Users\\peter\\Documents\\Arduino\\libraries\\Adafruit_BusIO" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\Wire\\src" "-ID:\\WindowsApps\\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\\hardware\\arduino\\avr\\libraries\\SPI\\src" "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp" -o "C:\\Users\\peter\\AppData\\Local\\Temp\\arduino_build_228124\\sketch\\sketch_Johny_5.ino.cpp.o"

L:\Buffalo Shared Drive\Stanaway's\Aduino\sketch_Johny_5\sketch_Johny_5.ino: In function 'float getTemperature(int)':

sketch_Johny_5:150:1: error: a function-definition is not allowed here before '{' token

 {

 ^

sketch_Johny_5:206:1: error: a function-definition is not allowed here before '{' token

 {

 ^

sketch_Johny_5:459:23: error: a function-definition is not allowed here before '{' token

 void WBPulseCounter() {

                       ^

sketch_Johny_5:465:35: error: a function-definition is not allowed here before '{' token

 void Rectification1PulseCounter() {

                                   ^

sketch_Johny_5:471:35: error: a function-definition is not allowed here before '{' token

 void Rectification2PulseCounter() {

                                   ^

sketch_Johny_5:477:30: error: a function-definition is not allowed here before '{' token

 void StillHeadPulseCounter() {

                              ^

sketch_Johny_5:486:20: error: a function-definition is not allowed here before '{' token

 void openWBValve() {

                    ^

sketch_Johny_5:492:21: error: a function-definition is not allowed here before '{' token

 void closeWBValve() {

                     ^

sketch_Johny_5:498:27: error: a function-definition is not allowed here before '{' token

 void WBValveOpenControl() { // MLTFill Open valve control for sparge

                           ^

sketch_Johny_5:522:28: error: a function-definition is not allowed here before '{' token

 void WBValveCloseControl() { // MLTFill Close valve control for sparge

                            ^

sketch_Johny_5:553:32: error: a function-definition is not allowed here before '{' token

 void openRectification1Valve() {

                                ^

sketch_Johny_5:559:33: error: a function-definition is not allowed here before '{' token

 void closeRectification1Valve() {

                                 ^

sketch_Johny_5:566:39: error: a function-definition is not allowed here before '{' token

 void Rectification1ValveOpenControl() { // Rectification1 Open valve control for sparge

                                       ^

sketch_Johny_5:590:40: error: a function-definition is not allowed here before '{' token

 void Rectification1ValveCloseControl() { // Rectification1 Close valve control for sparge

                                        ^

sketch_Johny_5:622:32: error: a function-definition is not allowed here before '{' token

 void openRectification2Valve() {

                                ^

sketch_Johny_5:628:33: error: a function-definition is not allowed here before '{' token

 void closeRectification2Valve() {

                                 ^

sketch_Johny_5:635:39: error: a function-definition is not allowed here before '{' token

 void Rectification2ValveOpenControl() { // Rectification2 Open valve control for sparge

                                       ^

sketch_Johny_5:659:40: error: a function-definition is not allowed here before '{' token

 void Rectification2ValveCloseControl() { // Rectification2 Close valve control for sparge

                                        ^

sketch_Johny_5:685:27: error: a function-definition is not allowed here before '{' token

 void openStillHeadValve() {

                           ^

sketch_Johny_5:691:28: error: a function-definition is not allowed here before '{' token

 void closeStillHeadValve() {

                            ^

sketch_Johny_5:698:34: error: a function-definition is not allowed here before '{' token

 void StillHeadValveOpenControl() { // StillHead Open valve control for sparge

                                  ^

sketch_Johny_5:722:35: error: a function-definition is not allowed here before '{' token

 void StillHeadValveCloseControl() { // StillHead Close valve control for sparge

                                   ^

sketch_Johny_5:744:1: error: expected '}' at end of input

 }

 ^

Using library OneWire at version 2.3.8 in folder: C:\Users\peter\Documents\Arduino\libraries\OneWire 

Using library DallasTemperature at version 4.0.3 in folder: C:\Users\peter\Documents\Arduino\libraries\DallasTemperature 

Using library Adafruit_BMP085_Library at version 1.2.4 in folder: C:\Users\peter\Documents\Arduino\libraries\Adafruit_BMP085_Library 

Using library Adafruit_BusIO at version 1.17.0 in folder: C:\Users\peter\Documents\Arduino\libraries\Adafruit_BusIO 

Using library Wire at version 1.0 in folder: D:\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\arduino\avr\libraries\Wire 

Using library SPI at version 1.0 in folder: D:\WindowsApps\ArduinoLLC.ArduinoIDE_1.8.57.0_x86__mdqgnx93n4wtt\hardware\arduino\avr\libraries\SPI 

exit status 1

a function-definition is not allowed here before '{' token

The sketch has been uploaded, I cant see any brackets out of place so im stumped

Thanks

Pete

alto777 · May 17, 2025, 2:27pm

What makes you say that?

a7

Dave_Lowther · May 17, 2025, 2:28pm

I guess it's a simple matter of mismatched braces, but without being able to see your code, it can only be a guess.
Please post your sketch in code tabs by using this button:

In the IDE use autoformat

before copying / pasting into the code tabs.

jim-p · May 17, 2025, 2:30pm

You are missing a closing } at the end of the float getTemperature(int pin) function

Pesho77 · May 17, 2025, 2:42pm

``#include "OneWire.h"
#include "DallasTemperature.h"
// Define to which pin of the Arduino the 1-Wire bus is connected:
#define ONE_WIRE_BUS 9
#include <math.h>
#include <Adafruit_BMP085.h>
#define seaLevelPressure_hPa 1013.25

Adafruit_BMP085 bmp;

// Steinhart-Hart parameters
#define THERMISTORNOMINAL 10000
#define TEMPERATURENOMINAL 25
#define BCOEFFICIENT 3950
#define SERIESRESISTOR 10000

// Analog pins for the thermistors
const int THERMISTOR_PIN_1 = A0;
const int THERMISTOR_PIN_2 = A1;
const int THERMISTOR_PIN_3 = A2;
const int THERMISTOR_PIN_4 = A3;

// Create a new instance of the oneWire class to communicate with any OneWire device:
OneWire oneWire(ONE_WIRE_BUS);

// Pass the oneWire reference to DallasTemperature library:
DallasTemperature sensors(&oneWire);

int ledpin = 13; // initialize pin 13
int inpin = 7; // initialize pin 7
int val;// define val for Worm Barrel overflow sensor

const int PumpPin = 29; // for Worm Barrel pump

const int WBMotor1Pin = 22; // For Worm Barrel In put water valve
const int WBMotor2Pin = 23;
const int WBEnablePin = 24;

const byte WBSensorInterrupt = 0; // 1 = pin 2; 0 = pin 3 // For Worm Barrel hall sensor
const byte WBSensorPin = 2;

volatile byte WBPulseCount;
float WBCalibrationFactor = 4.5;

float WBFlowRate;
unsigned int WBFlowMilliLitres;
float WBTotalMilliLitresA;
unsigned long WBTotalMilliLitresB;
unsigned long WBOldTime;

float WBTargetTemperature = 20.00 ; // For Obstention temperature
float WBActualTemperature;

const int ChillStillHeadpin = 40; // Input from BSC460 for Still Head
const int ChillThumper1pin = 41; // Input from BSC460 For Inline Thumper 1
const int ChillThumper2pin = 42; // Input from BSC460 for Inline Thumper 2

const int Rectification1Motor1Pin = 30; // For Inline Thumper 1
const int Rectification1Motor2Pin = 31;
const int Rectification1EnablePin = 32;

const byte Rectification1SensorInterrupt = 1; // 1 = pin 2; 0 = pin 3
const byte Rectification1SensorPin = 5; // For Inline Thumper 1 hall sensor

float Rectification1FlowRate;
unsigned int Rectification1FlowMilliLitres;
float Rectification1TotalMilliLitresA;
unsigned long Rectification1TotalMilliLitresB;
unsigned long Rectification1OldTime;

volatile byte Rectification1PulseCount;
float Rectification1CalibrationFactor = 4.5;

const int Rectification2Motor1Pin = 46; // For Inline Thumper 2
const int Rectification2Motor2Pin = 47;
const int Rectification2EnablePin = 48;

const byte Rectification2SensorInterrupt = 3; // 1 = pin 2; 0 = pin 3
const byte Rectification2SensorPin = 6; // For Inline Thumper 2 hall sensor

float Rectification2FlowRate;
unsigned int Rectification2FlowMilliLitres;
float Rectification2TotalMilliLitresA;
unsigned long Rectification2TotalMilliLitresB;
unsigned long Rectification2OldTime;

volatile byte Rectification2PulseCount;
float Rectification2CalibrationFactor = 4.5;

const int StillHeadMotor1Pin = 30;
const int StillHeadMotor2Pin = 31;
const int StillHeadEnablePin = 32;

const byte StillHeadSensorInterrupt = 1; // 1 = pin 2; 0 = pin 3
const byte StillHeadSensorPin = 4;

float StillHeadFlowRate;
unsigned int StillHeadFlowMilliLitres;
float StillHeadTotalMilliLitresA;
unsigned long StillHeadTotalMilliLitresB;
unsigned long StillHeadOldTime;

volatile byte StillHeadPulseCount;
float StillHeadCalibrationFactor = 4.5;

const int Gas = 50; // for gas Burner 2 to be turned off above 80c
const int Electric = 51; // for Electric Element 2 to be turned off above 80c

const float setPointGas = 80.0; // Set point in Celsius
boolean signalStateGas = true; // Initial state of the signal for gas

const float setPointElectric = 80.0; // Set point in Celsius
boolean signalStateElectric = true; // Initial state of the signal for gas

float getTemperature(int pin) {
int rawADC = analogRead(pin);
float resistance = SERIESRESISTOR / ((1023.0 / rawADC) - 1.0);

float steinhart;
steinhart = resistance / THERMISTORNOMINAL;
steinhart = log(steinhart);
steinhart /= BCOEFFICIENT;
steinhart += 1.0 / (TEMPERATURENOMINAL + 273.15);
steinhart = 1.0 / steinhart;
steinhart -= 273.15;

return steinhart;

void setup()

{
Serial.begin(9600);
sensors.begin();
if (!bmp.begin()) {
Serial.println("Could not find a valid BMP085 sensor, check wiring!");
while (1) {}
}

pinMode ( PumpPin, OUTPUT);
digitalWrite ( PumpPin, HIGH) ;

pinMode ( Gas, OUTPUT);
pinMode ( Electric, OUTPUT);

digitalWrite ( Gas, HIGH);
digitalWrite ( Electric, HIGH);

pinMode (WBMotor1Pin, OUTPUT);
pinMode (WBMotor2Pin, OUTPUT);
pinMode (WBEnablePin, OUTPUT);

pinMode (Rectification1Motor1Pin, OUTPUT);
pinMode (Rectification1Motor1Pin, OUTPUT);
pinMode (Rectification1EnablePin , OUTPUT);

pinMode (Rectification2Motor1Pin, OUTPUT);
pinMode (Rectification2Motor1Pin, OUTPUT);
pinMode (Rectification2EnablePin , OUTPUT);

pinMode (StillHeadMotor1Pin, OUTPUT);
pinMode (StillHeadMotor1Pin, OUTPUT);
pinMode (StillHeadEnablePin , OUTPUT);

pinMode(ledpin, OUTPUT); // set LED pin as “output”
pinMode(inpin, INPUT); // set button pin as “input”

pinMode (ChillThumper1pin, INPUT); // Chill Thumper 1 from BSC460
pinMode (ChillThumper2pin, INPUT); // Chill Thumper 2 from BSC460
pinMode (ChillStillHeadpin, INPUT); // Chill Still Head from BSC460

digitalWrite (ChillThumper1pin, LOW); // Chill Thumper 1 from BSC460
digitalWrite (ChillThumper2pin, LOW); // Chill Thumper 2 from BSC460
digitalWrite (ChillStillHeadpin, LOW); // Chill Still Head from BSC460

}

void loop()

{

float temp1 = getTemperature(THERMISTOR_PIN_1); // Still body
float temp2 = getTemperature(THERMISTOR_PIN_2); // Still head
float temp3 = getTemperature(THERMISTOR_PIN_3); // Thumper 1
float temp4 = getTemperature(THERMISTOR_PIN_4); // Thumper 2

// Serial.println(" ");
// Serial.print("Still Body: ");
// Serial.print(temp1);
// Serial.print(" *C ");

// Serial.print("Still Head: ");
// Serial.print(temp2);
// Serial.print(" *C ");

// Serial.print("Thumper 1: ");
// Serial.print(temp3);
// Serial.print(" *C ");

// Serial.print("Thumper 2: ");
// Serial.print(temp4);
// Serial.print(" *C ");
// Serial.print(" *C ");
// Serial.println(" ");

// Serial.print("VAL ");
// Serial.print (val);

// Send the command for all devices on the bus to perform a temperature conversion:
sensors.requestTemperatures();

// Fetch the temperature in degrees Celsius for device index:
float tempC = sensors.getTempCByIndex(0); // the index 0 refers to the first device
// Fetch the temperature in degrees Fahrenheit for device index:
float tempF = sensors.getTempFByIndex(0);

WBActualTemperature = tempC ;
{
if ( temp1 >= 80 ) // Still Body temperature
{
signalStateGas = (false) ;
signalStateElectric = (false) ;
}

{
if ( signalStateGas == false) // Turns false as still body temp comes above 80c turning off the second burner
digitalWrite ( Gas, LOW);

if ( signalStateElectric == false) // Turns false as still body temp comes above 80c turning off the secong heater
digitalWrite ( Electric, LOW);
}
}

{
// Worm Barrel Control///////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////
val = digitalRead(inpin); // read the level value of pin 7 and assign it to val
{
if (tempC >= 20.0 )
{ WBValveOpenControl() ; }
else
{ WBValveCloseControl(); }
}
{
if (val == LOW)
{ WBValveOpenControl();}
else
{ closeWBValve(); }
}
{ if (WBActualTemperature <= 16) digitalWrite (PumpPin, LOW);
else digitalWrite ( PumpPin , HIGH);
}
}
////////////////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////////////

{
int ChillThumper1 = digitalRead(ChillThumper1pin ); // Read the pin state

if (ChillThumper1 == HIGH) { // If the button is pressed
Rectification1ValveOpenControl(); Serial.print(" Open TK1 ");
} else { // If the button is not pressed
Rectification1ValveCloseControl(); Serial.print(" close TK1 ");
}

int ChillThumper2 = digitalRead(ChillThumper2pin ); // Read the pin state

if (ChillThumper2 == HIGH) { // If the button is pressed
Rectification2ValveOpenControl(); Serial.print(" Open TK2 ");
} else { // If the button is not pressed
Rectification2ValveCloseControl(); Serial.print(" close TK2 ");
}

int ChillStillHead = digitalRead(ChillStillHeadpin ); // Read the pin state

if (ChillStillHead == HIGH) { // If the button is pressed
StillHeadValveOpenControl(); Serial.print(" Open SH ");
} else { // If the button is not pressed
StillHeadValveCloseControl(); Serial.print(" close SH ");
}

}

if ((millis() - WBOldTime) > 1000) {
detachInterrupt(WBSensorInterrupt);

WBFlowRate = ((1000.0 / (millis() - WBOldTime)) * WBPulseCount) / WBCalibrationFactor;

WBOldTime = millis();

WBFlowMilliLitres = (WBFlowRate / 60) * 1000;

// Add the millilitres passed in this second to the cumulative total
WBTotalMilliLitresA += WBFlowMilliLitres;
WBTotalMilliLitresB += WBFlowMilliLitres;

unsigned int WBFrac;

WBFrac = (WBFlowRate - int(WBFlowRate)) * 10;
// Reset the pulse counter so we can start incrementing again
WBPulseCount = 0;

// Enable the interrupt again now that we've finished sending output
attachInterrupt(WBSensorInterrupt, WBPulseCounter, FALLING);

}

if ((millis() - Rectification1OldTime) > 1000) {
detachInterrupt(Rectification1SensorInterrupt);

Rectification1FlowRate = ((1000.0 / (millis() - Rectification1OldTime)) * Rectification1PulseCount) / Rectification1CalibrationFactor;


Rectification1OldTime = millis();

Rectification1FlowMilliLitres = (Rectification1FlowRate / 60) * 1000;

// Add the millilitres passed in this second to the cumulative total
Rectification1TotalMilliLitresA += Rectification1FlowMilliLitres;
Rectification1TotalMilliLitresB += Rectification1FlowMilliLitres;

unsigned int Rectification1Frac;

Rectification1Frac = (Rectification1FlowRate - int(Rectification1FlowRate)) * 10;
// Reset the pulse counter so we can start incrementing again
Rectification1PulseCount = 0;

// Enable the interrupt again now that we've finished sending output
attachInterrupt(Rectification1SensorInterrupt, Rectification1PulseCounter, FALLING);

}

if ((millis() - Rectification2OldTime) > 1000) {
detachInterrupt(Rectification2SensorInterrupt);

Rectification2FlowRate = ((1000.0 / (millis() - Rectification2OldTime)) * Rectification2PulseCount) / Rectification2CalibrationFactor;


Rectification2OldTime = millis();

Rectification2FlowMilliLitres = (Rectification2FlowRate / 60) * 1000;

// Add the millilitres passed in this second to the cumulative total
Rectification2TotalMilliLitresA += Rectification2FlowMilliLitres;
Rectification2TotalMilliLitresB += Rectification2FlowMilliLitres;

unsigned int Rectification2Frac;

Rectification2Frac = (Rectification2FlowRate - int(Rectification2FlowRate)) * 10;
// Reset the pulse counter so we can start incrementing again
Rectification2PulseCount = 0;

// Enable the interrupt again now that we've finished sending output
attachInterrupt(Rectification2SensorInterrupt, Rectification2PulseCounter, FALLING);

}

if ((millis() - StillHeadOldTime) > 1000) {
detachInterrupt(StillHeadSensorInterrupt);

StillHeadFlowRate = ((1000.0 / (millis() - StillHeadOldTime)) * StillHeadPulseCount) / StillHeadCalibrationFactor;


StillHeadOldTime = millis();

StillHeadFlowMilliLitres = (StillHeadFlowRate / 60) * 1000;

// Add the millilitres passed in this second to the cumulative total
StillHeadTotalMilliLitresA += StillHeadFlowMilliLitres;
StillHeadTotalMilliLitresB += StillHeadFlowMilliLitres;

unsigned int StillHeadFrac;

StillHeadFrac = (StillHeadFlowRate - int(StillHeadFlowRate)) * 10;
// Reset the pulse counter so we can start incrementing again
StillHeadPulseCount = 0;

// Enable the interrupt again now that we've finished sending output
attachInterrupt(StillHeadSensorInterrupt, StillHeadPulseCounter, FALLING);

}

{

// Serial.println();
// Serial.print( "Worm Barrel L ") ;
// Serial.print (WBTotalMilliLitresA);
// Serial.print (" Still Head L ");
// Serial.print (StillHeadTotalMilliLitresA);
// Serial.print (" Thumper 1 L ");
// Serial.print (Rectification1TotalMilliLitresA);
// Serial.print (" Thumper 2 L ");
// Serial.print (Rectification2TotalMilliLitresA);
// Serial.print(" Obstention Temperature: ");
// Serial.print(tempC);
// Serial.print(" \xC2\xB0"); // shows degree symbol
// Serial.print("C ");
Serial.println();
Serial.print("Ambient Temperature = ");
Serial.print(bmp.readTemperature());
Serial.println(" *C");

Serial.print("Pressure = ");
Serial.print(bmp.readPressure());
Serial.println(" Pa");


Serial.println();

}
}

void WBPulseCounter() {

// Increment the pulse counter
WBPulseCount++;
}

void Rectification1PulseCounter() {

// Increment the pulse counter
Rectification1PulseCount++;
}

void Rectification2PulseCounter() {

// Increment the pulse counter
Rectification2PulseCount++;
}

void StillHeadPulseCounter() {

// Increment the pulse counter
StillHeadPulseCount++;
}

void openWBValve() {
digitalWrite(WBEnablePin, HIGH);
digitalWrite(WBMotor1Pin, LOW);
digitalWrite(WBMotor2Pin, HIGH);
}

void closeWBValve() {
digitalWrite(WBEnablePin, HIGH);
digitalWrite(WBMotor1Pin, HIGH);
digitalWrite(WBMotor2Pin, LOW);
}

void WBValveOpenControl() { // MLTFill Open valve control for sparge
long interval = 100;
long shortInterval = 50;
unsigned long currentMillis = millis();
long previousMillis = 0;
unsigned long SIcurrentMillis = millis();
long SIpreviousMillis = 0;
if (currentMillis - previousMillis > interval) {
digitalWrite(WBEnablePin, HIGH);
digitalWrite(WBMotor1Pin, LOW);
digitalWrite(WBMotor2Pin, HIGH);
////////////// A delay may be required here as the valve ages
delay(100);
previousMillis = currentMillis;
}

if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
digitalWrite(WBEnablePin, LOW);
digitalWrite(WBMotor1Pin, LOW);
digitalWrite(WBMotor2Pin, HIGH);
SIpreviousMillis = SIcurrentMillis;
}
}

void WBValveCloseControl() { // MLTFill Close valve control for sparge
long interval = 100;
long shortInterval = 50;
unsigned long currentMillis = millis();
long previousMillis = 0;
unsigned long SIcurrentMillis = millis();
long SIpreviousMillis = 0;
if (currentMillis - previousMillis > interval) {
digitalWrite(WBEnablePin, HIGH);
digitalWrite(WBMotor1Pin, HIGH);
digitalWrite(WBMotor2Pin, LOW);
////////////// A delay may be requireed as the valve ages
delay (100);
previousMillis = currentMillis;
}

if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
digitalWrite(WBEnablePin, LOW);
digitalWrite(WBMotor1Pin, HIGH);
digitalWrite(WBMotor2Pin, LOW);
SIpreviousMillis = SIcurrentMillis;
}
}

///////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
/////////// Chill Thumper 1

void openRectification1Valve() {
digitalWrite(Rectification1EnablePin, HIGH);
digitalWrite(Rectification1Motor1Pin, LOW);
digitalWrite(Rectification1Motor2Pin, HIGH);
}

void closeRectification1Valve() {
digitalWrite(Rectification1EnablePin, HIGH);
digitalWrite(Rectification1Motor1Pin, HIGH);
digitalWrite(Rectification1Motor2Pin, LOW);
}

void Rectification1ValveOpenControl() { // Rectification1 Open valve control for sparge
long interval = 100;
long shortInterval = 50;
unsigned long currentMillis = millis();
long previousMillis = 0;
unsigned long SIcurrentMillis = millis();
long SIpreviousMillis = 0;
if (currentMillis - previousMillis > interval) {
digitalWrite(Rectification1EnablePin, HIGH);
digitalWrite(Rectification1Motor1Pin, LOW);
digitalWrite(Rectification1Motor2Pin, HIGH);
////////////// A delay may be required here as the valve ages
delay(100);
previousMillis = currentMillis;
}

if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
digitalWrite(Rectification1EnablePin, LOW);
digitalWrite(Rectification1Motor1Pin, LOW);
digitalWrite(Rectification1Motor2Pin, HIGH);
SIpreviousMillis = SIcurrentMillis;
}
}

void Rectification1ValveCloseControl() { // Rectification1 Close valve control for sparge
long interval = 100;
long shortInterval = 50;
unsigned long currentMillis = millis();
long previousMillis = 0;
unsigned long SIcurrentMillis = millis();
long SIpreviousMillis = 0;
if (currentMillis - previousMillis > interval) {
digitalWrite(Rectification1EnablePin, HIGH);
digitalWrite(Rectification1Motor1Pin, HIGH);
digitalWrite(Rectification1Motor2Pin, LOW);
////////////// A delay may be requireed as the valve ages
delay(100);
previousMillis = currentMillis;
}

if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
digitalWrite(Rectification1EnablePin, LOW);
digitalWrite(Rectification1Motor1Pin, LOW);
digitalWrite(Rectification1Motor2Pin, HIGH);
SIpreviousMillis = SIcurrentMillis;
}
}
////////////////////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////////////////////

////////////////////////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////////////////////////
//Chill Thumper 2

void openRectification2Valve() {
digitalWrite(Rectification2EnablePin, HIGH);
digitalWrite(Rectification2Motor1Pin, LOW);
digitalWrite(Rectification2Motor2Pin, HIGH);
}

void closeRectification2Valve() {
digitalWrite(Rectification2EnablePin, HIGH);
digitalWrite(Rectification2Motor1Pin, HIGH);
digitalWrite(Rectification2Motor2Pin, LOW);
}

void Rectification2ValveOpenControl() { // Rectification2 Open valve control for sparge
long interval = 100;
long shortInterval = 50;
unsigned long currentMillis = millis();
long previousMillis = 0;
unsigned long SIcurrentMillis = millis();
long SIpreviousMillis = 0;
if (currentMillis - previousMillis > interval) {
digitalWrite(Rectification2EnablePin, HIGH);
digitalWrite(Rectification2Motor1Pin, LOW);
digitalWrite(Rectification2Motor2Pin, HIGH);
////////////// A delay may be required here as the valve ages
delay(100);
previousMillis = currentMillis;
}

if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
digitalWrite(Rectification2EnablePin, LOW);
digitalWrite(Rectification2Motor1Pin, LOW);
digitalWrite(Rectification2Motor2Pin, HIGH);
SIpreviousMillis = SIcurrentMillis;
}
}

void Rectification2ValveCloseControl() { // Rectification2 Close valve control for sparge
long interval = 100;
long shortInterval = 50;
unsigned long currentMillis = millis();
long previousMillis = 0;
unsigned long SIcurrentMillis = millis();
long SIpreviousMillis = 0;
if (currentMillis - previousMillis > interval) {
digitalWrite(Rectification2EnablePin, HIGH);
digitalWrite(Rectification2Motor1Pin, HIGH);
digitalWrite(Rectification2Motor2Pin, LOW);
////////////// A delay may be requireed as the valve ages
delay(100);
previousMillis = currentMillis;
}

if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
digitalWrite(Rectification2EnablePin, LOW);
digitalWrite(Rectification2Motor1Pin, LOW);
digitalWrite(Rectification2Motor2Pin, HIGH);
SIpreviousMillis = SIcurrentMillis;
}
}
//////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////

void openStillHeadValve() {
digitalWrite(StillHeadEnablePin, HIGH);
digitalWrite(StillHeadMotor1Pin, LOW);
digitalWrite(StillHeadMotor2Pin, HIGH);
}

void closeStillHeadValve() {
digitalWrite(StillHeadEnablePin, HIGH);
digitalWrite(StillHeadMotor1Pin, HIGH);
digitalWrite(StillHeadMotor2Pin, LOW);
}

void StillHeadValveOpenControl() { // StillHead Open valve control for sparge
long interval = 100;
long shortInterval = 50;
unsigned long currentMillis = millis();
long previousMillis = 0;
unsigned long SIcurrentMillis = millis();
long SIpreviousMillis = 0;
if (currentMillis - previousMillis > interval) {
digitalWrite(StillHeadEnablePin, HIGH);
digitalWrite(StillHeadMotor1Pin, LOW);
digitalWrite(StillHeadMotor2Pin, HIGH);
////////////// A delay may be required here as the valve ages
delay(100);
previousMillis = currentMillis;
}

if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
digitalWrite(StillHeadEnablePin, LOW);
digitalWrite(StillHeadMotor1Pin, LOW);
digitalWrite(StillHeadMotor2Pin, LOW);
SIpreviousMillis = SIcurrentMillis;
}
}

void StillHeadValveCloseControl() { // StillHead Close valve control for sparge
long interval = 100;
long shortInterval = 50;
unsigned long currentMillis = millis();
long previousMillis = 0;
unsigned long SIcurrentMillis = millis();
long SIpreviousMillis = 0;
if (currentMillis - previousMillis > interval) {
digitalWrite(StillHeadEnablePin, HIGH);
digitalWrite(StillHeadMotor1Pin, HIGH);
digitalWrite(StillHeadMotor2Pin, LOW);
////////////// A delay may be requireed as the valve ages
delay(100);
previousMillis = currentMillis;
}

if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
digitalWrite(StillHeadEnablePin, LOW);
digitalWrite(StillHeadMotor1Pin, LOW);
digitalWrite(StillHeadMotor2Pin, LOW);
SIpreviousMillis = SIcurrentMillis;
}
}

camsysca · May 17, 2025, 2:45pm

Try again. Do exactly as described below:

in the IDE, press ctrl-t
in the IDE, press shift-ctrl-c
in a new message below mine, press ctrl-v
press "reply"

Pesho77 · May 17, 2025, 2:48pm

#include "OneWire.h"
#include "DallasTemperature.h"
// Define to which pin of the Arduino the 1-Wire bus is connected:
#define ONE_WIRE_BUS 9
#include <math.h>
#include <Adafruit_BMP085.h>
#define seaLevelPressure_hPa 1013.25

Adafruit_BMP085 bmp;


// Steinhart-Hart parameters
#define THERMISTORNOMINAL 10000
#define TEMPERATURENOMINAL 25
#define BCOEFFICIENT 3950
#define SERIESRESISTOR 10000

// Analog pins for the thermistors
const int THERMISTOR_PIN_1 = A0;
const int THERMISTOR_PIN_2 = A1;
const int THERMISTOR_PIN_3 = A2;
const int THERMISTOR_PIN_4 = A3;



// Create a new instance of the oneWire class to communicate with any OneWire device:
OneWire oneWire(ONE_WIRE_BUS);

// Pass the oneWire reference to DallasTemperature library:
DallasTemperature sensors(&oneWire);



int ledpin = 13; // initialize pin 13
int inpin = 7; // initialize pin 7
int val;// define val for Worm Barrel overflow sensor

const int PumpPin = 29;                    // for Worm Barrel pump

const int     WBMotor1Pin  = 22;    // For Worm Barrel In put water valve
const int     WBMotor2Pin  = 23;
const int     WBEnablePin  = 24;

const byte WBSensorInterrupt = 0;  // 1 = pin 2; 0 = pin 3  // For Worm Barrel hall sensor
const byte WBSensorPin       = 2;

volatile byte WBPulseCount;
float WBCalibrationFactor = 4.5;

float         WBFlowRate;
unsigned int  WBFlowMilliLitres;
float         WBTotalMilliLitresA;
unsigned long WBTotalMilliLitresB;
unsigned long WBOldTime;

float WBTargetTemperature = 20.00 ;  // For Obstention temperature
float WBActualTemperature;


const int ChillStillHeadpin = 40;  // Input from BSC460 for Still Head
const int ChillThumper1pin = 41;   // Input from BSC460 For Inline Thumper 1
const int ChillThumper2pin = 42;  // Input from BSC460 for Inline Thumper 2


const int     Rectification1Motor1Pin  = 30;   // For Inline Thumper 1
const int     Rectification1Motor2Pin  = 31;
const int     Rectification1EnablePin  = 32;


const byte Rectification1SensorInterrupt = 1;  // 1 = pin 2; 0 = pin 3
const byte Rectification1SensorPin       = 5;  // For Inline Thumper 1 hall sensor

float         Rectification1FlowRate;
unsigned int  Rectification1FlowMilliLitres;
float         Rectification1TotalMilliLitresA;
unsigned long Rectification1TotalMilliLitresB;
unsigned long Rectification1OldTime;

volatile byte Rectification1PulseCount;
float Rectification1CalibrationFactor = 4.5;



const int     Rectification2Motor1Pin  = 46;    // For Inline Thumper 2
const int     Rectification2Motor2Pin  = 47;
const int     Rectification2EnablePin  = 48;


const byte Rectification2SensorInterrupt = 3;  // 1 = pin 2; 0 = pin 3
const byte Rectification2SensorPin       = 6; // For Inline Thumper 2 hall sensor

float         Rectification2FlowRate;
unsigned int  Rectification2FlowMilliLitres;
float         Rectification2TotalMilliLitresA;
unsigned long Rectification2TotalMilliLitresB;
unsigned long Rectification2OldTime;

volatile byte Rectification2PulseCount;
float Rectification2CalibrationFactor = 4.5;


const int     StillHeadMotor1Pin  = 30;
const int     StillHeadMotor2Pin  = 31;
const int     StillHeadEnablePin  = 32;


const byte StillHeadSensorInterrupt = 1;  // 1 = pin 2; 0 = pin 3
const byte StillHeadSensorPin       = 4;

float         StillHeadFlowRate;
unsigned int  StillHeadFlowMilliLitres;
float         StillHeadTotalMilliLitresA;
unsigned long StillHeadTotalMilliLitresB;
unsigned long StillHeadOldTime;

volatile byte StillHeadPulseCount;
float StillHeadCalibrationFactor = 4.5;


const int Gas = 50; // for gas Burner 2 to be turned off above 80c
const int Electric = 51; // for Electric Element 2 to be turned off above 80c


const float setPointGas = 80.0; // Set point in Celsius
boolean signalStateGas = true; // Initial state of the signal for gas

const float setPointElectric = 80.0; // Set point in Celsius
boolean signalStateElectric = true; // Initial state of the signal for gas

float getTemperature(int pin) {
  int rawADC = analogRead(pin);
  float resistance = SERIESRESISTOR / ((1023.0 / rawADC) - 1.0);

  float steinhart;
  steinhart = resistance / THERMISTORNOMINAL;
  steinhart = log(steinhart);
  steinhart /= BCOEFFICIENT;
  steinhart += 1.0 / (TEMPERATURENOMINAL + 273.15);
  steinhart = 1.0 / steinhart;
  steinhart -= 273.15;

  return steinhart;





  void setup()

  {
    Serial.begin(9600);
    sensors.begin();
    if (!bmp.begin()) {
      Serial.println("Could not find a valid BMP085 sensor, check wiring!");
      while (1) {}
    }

    pinMode ( PumpPin, OUTPUT);
    digitalWrite ( PumpPin,  HIGH) ;

    pinMode ( Gas, OUTPUT);
    pinMode ( Electric, OUTPUT);

    digitalWrite ( Gas, HIGH);
    digitalWrite ( Electric, HIGH);

    pinMode          (WBMotor1Pin, OUTPUT);
    pinMode          (WBMotor2Pin, OUTPUT);
    pinMode          (WBEnablePin, OUTPUT);


    pinMode          (Rectification1Motor1Pin, OUTPUT);
    pinMode          (Rectification1Motor1Pin, OUTPUT);
    pinMode          (Rectification1EnablePin , OUTPUT);


    pinMode          (Rectification2Motor1Pin, OUTPUT);
    pinMode          (Rectification2Motor1Pin, OUTPUT);
    pinMode          (Rectification2EnablePin , OUTPUT);


    pinMode          (StillHeadMotor1Pin, OUTPUT);
    pinMode          (StillHeadMotor1Pin, OUTPUT);
    pinMode          (StillHeadEnablePin , OUTPUT);

    pinMode(ledpin, OUTPUT); // set LED pin as “output”
    pinMode(inpin, INPUT); // set button pin as “input”


    pinMode (ChillThumper1pin, INPUT); // Chill Thumper 1 from BSC460
    pinMode (ChillThumper2pin, INPUT); // Chill Thumper 2 from BSC460
    pinMode (ChillStillHeadpin, INPUT); // Chill Still Head from BSC460


    digitalWrite (ChillThumper1pin, LOW);   // Chill Thumper 1 from BSC460
    digitalWrite (ChillThumper2pin, LOW);   // Chill Thumper 2 from BSC460
    digitalWrite (ChillStillHeadpin, LOW);  // Chill Still Head from BSC460


  }



  void loop()

  {

    float temp1 = getTemperature(THERMISTOR_PIN_1); // Still body
    float temp2 = getTemperature(THERMISTOR_PIN_2); // Still head
    float temp3 = getTemperature(THERMISTOR_PIN_3); // Thumper 1
    float temp4 = getTemperature(THERMISTOR_PIN_4); // Thumper 2


    //  Serial.println(" ");
    //  Serial.print("Still Body: ");
    //  Serial.print(temp1);
    //  Serial.print(" *C ");

    //  Serial.print("Still Head: ");
    //  Serial.print(temp2);
    //  Serial.print(" *C ");

    //  Serial.print("Thumper 1: ");
    //  Serial.print(temp3);
    //  Serial.print(" *C ");

    //  Serial.print("Thumper 2: ");
    //  Serial.print(temp4);
    //  Serial.print(" *C ");
    //  Serial.print(" *C ");
    //  Serial.println(" ");

    // Serial.print("VAL ");
    // Serial.print (val);

    // Send the command for all devices on the bus to perform a temperature conversion:
    sensors.requestTemperatures();

    // Fetch the temperature in degrees Celsius for device index:
    float tempC = sensors.getTempCByIndex(0); // the index 0 refers to the first device
    // Fetch the temperature in degrees Fahrenheit for device index:
    float tempF = sensors.getTempFByIndex(0);


    WBActualTemperature = tempC ;
    {
      if ( temp1 >= 80 ) // Still Body temperature
      {
        signalStateGas = (false) ;
        signalStateElectric = (false) ;
      }

      {
        if ( signalStateGas == false)   // Turns false as still body temp comes above 80c turning off the second burner
          digitalWrite ( Gas, LOW);

        if ( signalStateElectric == false)   // Turns false as still body temp comes above 80c turning off the secong heater
          digitalWrite ( Electric, LOW);
      }
    }





    {
      // Worm Barrel Control///////////////////////////////////////////////////////////////////////
      ////////////////////////////////////////////////////////////////////////////////////////
      val = digitalRead(inpin); // read the level value of pin 7 and assign it to val
      {
        if (tempC >= 20.0 )
        {
          WBValveOpenControl() ;
        }
        else
        {
          WBValveCloseControl();
        }
      }
      {
        if (val == LOW)
        {
          WBValveOpenControl();
        }
        else
        {
          closeWBValve();
        }
      }
      { if (WBActualTemperature <= 16) digitalWrite (PumpPin,  LOW);
        else digitalWrite ( PumpPin , HIGH);
      }
    }
    ////////////////////////////////////////////////////////////////////////////////////////////
    ////////////////////////////////////////////////////////////////////////////////////////////


    {
      int ChillThumper1  = digitalRead(ChillThumper1pin );  // Read the pin state

      if (ChillThumper1 == HIGH) {  // If the button is pressed
        Rectification1ValveOpenControl(); Serial.print(" Open TK1 ");
      } else {  // If the button is not pressed
        Rectification1ValveCloseControl(); Serial.print(" close TK1 ");
      }


      int ChillThumper2  = digitalRead(ChillThumper2pin );  // Read the pin state

      if (ChillThumper2 == HIGH) {  // If the button is pressed
        Rectification2ValveOpenControl(); Serial.print(" Open TK2 ");
      } else {  // If the button is not pressed
        Rectification2ValveCloseControl(); Serial.print(" close TK2 ");
      }


      int ChillStillHead  = digitalRead(ChillStillHeadpin );  // Read the pin state

      if (ChillStillHead == HIGH) {  // If the button is pressed
        StillHeadValveOpenControl(); Serial.print(" Open SH ");
      } else {  // If the button is not pressed
        StillHeadValveCloseControl(); Serial.print(" close SH ");
      }


    }


    if ((millis() - WBOldTime) > 1000) {
      detachInterrupt(WBSensorInterrupt);

      WBFlowRate = ((1000.0 / (millis() - WBOldTime)) * WBPulseCount) / WBCalibrationFactor;

      WBOldTime = millis();

      WBFlowMilliLitres = (WBFlowRate / 60) * 1000;

      // Add the millilitres passed in this second to the cumulative total
      WBTotalMilliLitresA += WBFlowMilliLitres;
      WBTotalMilliLitresB += WBFlowMilliLitres;

      unsigned int WBFrac;

      WBFrac = (WBFlowRate - int(WBFlowRate)) * 10;
      // Reset the pulse counter so we can start incrementing again
      WBPulseCount = 0;

      // Enable the interrupt again now that we've finished sending output
      attachInterrupt(WBSensorInterrupt, WBPulseCounter, FALLING);

    }




    if ((millis() - Rectification1OldTime) > 1000)  {
      detachInterrupt(Rectification1SensorInterrupt);

      Rectification1FlowRate = ((1000.0 / (millis() - Rectification1OldTime)) * Rectification1PulseCount) / Rectification1CalibrationFactor;


      Rectification1OldTime = millis();

      Rectification1FlowMilliLitres = (Rectification1FlowRate / 60) * 1000;

      // Add the millilitres passed in this second to the cumulative total
      Rectification1TotalMilliLitresA += Rectification1FlowMilliLitres;
      Rectification1TotalMilliLitresB += Rectification1FlowMilliLitres;

      unsigned int Rectification1Frac;

      Rectification1Frac = (Rectification1FlowRate - int(Rectification1FlowRate)) * 10;
      // Reset the pulse counter so we can start incrementing again
      Rectification1PulseCount = 0;

      // Enable the interrupt again now that we've finished sending output
      attachInterrupt(Rectification1SensorInterrupt, Rectification1PulseCounter, FALLING);

    }







    if ((millis() - Rectification2OldTime) > 1000)  {
      detachInterrupt(Rectification2SensorInterrupt);

      Rectification2FlowRate = ((1000.0 / (millis() - Rectification2OldTime)) * Rectification2PulseCount) / Rectification2CalibrationFactor;


      Rectification2OldTime = millis();

      Rectification2FlowMilliLitres = (Rectification2FlowRate / 60) * 1000;

      // Add the millilitres passed in this second to the cumulative total
      Rectification2TotalMilliLitresA += Rectification2FlowMilliLitres;
      Rectification2TotalMilliLitresB += Rectification2FlowMilliLitres;

      unsigned int Rectification2Frac;

      Rectification2Frac = (Rectification2FlowRate - int(Rectification2FlowRate)) * 10;
      // Reset the pulse counter so we can start incrementing again
      Rectification2PulseCount = 0;

      // Enable the interrupt again now that we've finished sending output
      attachInterrupt(Rectification2SensorInterrupt, Rectification2PulseCounter, FALLING);

    }


    if ((millis() - StillHeadOldTime) > 1000)  {
      detachInterrupt(StillHeadSensorInterrupt);

      StillHeadFlowRate = ((1000.0 / (millis() - StillHeadOldTime)) * StillHeadPulseCount) / StillHeadCalibrationFactor;


      StillHeadOldTime = millis();

      StillHeadFlowMilliLitres = (StillHeadFlowRate / 60) * 1000;

      // Add the millilitres passed in this second to the cumulative total
      StillHeadTotalMilliLitresA += StillHeadFlowMilliLitres;
      StillHeadTotalMilliLitresB += StillHeadFlowMilliLitres;

      unsigned int StillHeadFrac;

      StillHeadFrac = (StillHeadFlowRate - int(StillHeadFlowRate)) * 10;
      // Reset the pulse counter so we can start incrementing again
      StillHeadPulseCount = 0;

      // Enable the interrupt again now that we've finished sending output
      attachInterrupt(StillHeadSensorInterrupt, StillHeadPulseCounter, FALLING);

    }

    {

      //  Serial.println();
      //  Serial.print( "Worm Barrel L ") ;
      //  Serial.print (WBTotalMilliLitresA);
      //  Serial.print ("  Still Head L ");
      //  Serial.print (StillHeadTotalMilliLitresA);
      //  Serial.print ("  Thumper 1 L ");
      //  Serial.print (Rectification1TotalMilliLitresA);
      //  Serial.print ("  Thumper 2 L ");
      //  Serial.print (Rectification2TotalMilliLitresA);
      // Serial.print("  Obstention Temperature: ");
      // Serial.print(tempC);
      // Serial.print(" \xC2\xB0"); // shows degree symbol
      // Serial.print("C  ");
      Serial.println();
      Serial.print("Ambient Temperature = ");
      Serial.print(bmp.readTemperature());
      Serial.println(" *C");

      Serial.print("Pressure = ");
      Serial.print(bmp.readPressure());
      Serial.println(" Pa");


      Serial.println();
    }
  }

  void WBPulseCounter() {

    // Increment the pulse counter
    WBPulseCount++;
  }

  void Rectification1PulseCounter() {

    // Increment the pulse counter
    Rectification1PulseCount++;
  }

  void Rectification2PulseCounter() {

    // Increment the pulse counter
    Rectification2PulseCount++;
  }

  void StillHeadPulseCounter() {

    // Increment the pulse counter
    StillHeadPulseCount++;
  }




  void openWBValve() {
    digitalWrite(WBEnablePin, HIGH);
    digitalWrite(WBMotor1Pin, LOW);
    digitalWrite(WBMotor2Pin, HIGH);
  }

  void closeWBValve() {
    digitalWrite(WBEnablePin, HIGH);
    digitalWrite(WBMotor1Pin, HIGH);
    digitalWrite(WBMotor2Pin, LOW);
  }

  void WBValveOpenControl() { // MLTFill Open valve control for sparge
    long interval = 100;
    long shortInterval = 50;
    unsigned long currentMillis = millis();
    long previousMillis = 0;
    unsigned long SIcurrentMillis = millis();
    long SIpreviousMillis = 0;
    if (currentMillis - previousMillis > interval) {
      digitalWrite(WBEnablePin, HIGH);
      digitalWrite(WBMotor1Pin, LOW);
      digitalWrite(WBMotor2Pin, HIGH);
      ////////////// A delay may be required here as the valve ages
      delay(100);
      previousMillis = currentMillis;
    }

    if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
      digitalWrite(WBEnablePin, LOW);
      digitalWrite(WBMotor1Pin, LOW);
      digitalWrite(WBMotor2Pin, HIGH);
      SIpreviousMillis = SIcurrentMillis;
    }
  }

  void WBValveCloseControl() { // MLTFill Close valve control for sparge
    long interval = 100;
    long shortInterval = 50;
    unsigned long currentMillis = millis();
    long previousMillis = 0;
    unsigned long SIcurrentMillis = millis();
    long SIpreviousMillis = 0;
    if (currentMillis - previousMillis > interval) {
      digitalWrite(WBEnablePin, HIGH);
      digitalWrite(WBMotor1Pin, HIGH);
      digitalWrite(WBMotor2Pin, LOW);
      ////////////// A delay may be requireed as the valve ages
      delay (100);
      previousMillis = currentMillis;
    }

    if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
      digitalWrite(WBEnablePin, LOW);
      digitalWrite(WBMotor1Pin, HIGH);
      digitalWrite(WBMotor2Pin, LOW);
      SIpreviousMillis = SIcurrentMillis;
    }
  }




  ///////////////////////////////////////////////////////////////////////////////
  //////////////////////////////////////////////////////////////////////////////
  /////////// Chill Thumper 1

  void openRectification1Valve() {
    digitalWrite(Rectification1EnablePin, HIGH);
    digitalWrite(Rectification1Motor1Pin, LOW);
    digitalWrite(Rectification1Motor2Pin, HIGH);
  }

  void closeRectification1Valve() {
    digitalWrite(Rectification1EnablePin, HIGH);
    digitalWrite(Rectification1Motor1Pin, HIGH);
    digitalWrite(Rectification1Motor2Pin, LOW);
  }


  void Rectification1ValveOpenControl() { // Rectification1 Open valve control for sparge
    long interval = 100;
    long shortInterval = 50;
    unsigned long currentMillis = millis();
    long previousMillis = 0;
    unsigned long SIcurrentMillis = millis();
    long SIpreviousMillis = 0;
    if (currentMillis - previousMillis > interval) {
      digitalWrite(Rectification1EnablePin, HIGH);
      digitalWrite(Rectification1Motor1Pin, LOW);
      digitalWrite(Rectification1Motor2Pin, HIGH);
      ////////////// A delay may be required here as the valve ages
      delay(100);
      previousMillis = currentMillis;
    }

    if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
      digitalWrite(Rectification1EnablePin, LOW);
      digitalWrite(Rectification1Motor1Pin, LOW);
      digitalWrite(Rectification1Motor2Pin, HIGH);
      SIpreviousMillis = SIcurrentMillis;
    }
  }

  void Rectification1ValveCloseControl() { // Rectification1 Close valve control for sparge
    long interval = 100;
    long shortInterval = 50;
    unsigned long currentMillis = millis();
    long previousMillis = 0;
    unsigned long SIcurrentMillis = millis();
    long SIpreviousMillis = 0;
    if (currentMillis - previousMillis > interval) {
      digitalWrite(Rectification1EnablePin, HIGH);
      digitalWrite(Rectification1Motor1Pin, HIGH);
      digitalWrite(Rectification1Motor2Pin, LOW);
      ////////////// A delay may be requireed as the valve ages
      delay(100);
      previousMillis = currentMillis;
    }

    if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
      digitalWrite(Rectification1EnablePin, LOW);
      digitalWrite(Rectification1Motor1Pin, LOW);
      digitalWrite(Rectification1Motor2Pin, HIGH);
      SIpreviousMillis = SIcurrentMillis;
    }
  }
  ////////////////////////////////////////////////////////////////////////////////
  /////////////////////////////////////////////////////////////////////////////////



  ////////////////////////////////////////////////////////////////////////////////////
  ////////////////////////////////////////////////////////////////////////////////////
  //Chill Thumper 2

  void openRectification2Valve() {
    digitalWrite(Rectification2EnablePin, HIGH);
    digitalWrite(Rectification2Motor1Pin, LOW);
    digitalWrite(Rectification2Motor2Pin, HIGH);
  }

  void closeRectification2Valve() {
    digitalWrite(Rectification2EnablePin, HIGH);
    digitalWrite(Rectification2Motor1Pin, HIGH);
    digitalWrite(Rectification2Motor2Pin, LOW);
  }


  void Rectification2ValveOpenControl() { // Rectification2 Open valve control for sparge
    long interval = 100;
    long shortInterval = 50;
    unsigned long currentMillis = millis();
    long previousMillis = 0;
    unsigned long SIcurrentMillis = millis();
    long SIpreviousMillis = 0;
    if (currentMillis - previousMillis > interval) {
      digitalWrite(Rectification2EnablePin, HIGH);
      digitalWrite(Rectification2Motor1Pin, LOW);
      digitalWrite(Rectification2Motor2Pin, HIGH);
      ////////////// A delay may be required here as the valve ages
      delay(100);
      previousMillis = currentMillis;
    }

    if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
      digitalWrite(Rectification2EnablePin, LOW);
      digitalWrite(Rectification2Motor1Pin, LOW);
      digitalWrite(Rectification2Motor2Pin, HIGH);
      SIpreviousMillis = SIcurrentMillis;
    }
  }

  void Rectification2ValveCloseControl() { // Rectification2 Close valve control for sparge
    long interval = 100;
    long shortInterval = 50;
    unsigned long currentMillis = millis();
    long previousMillis = 0;
    unsigned long SIcurrentMillis = millis();
    long SIpreviousMillis = 0;
    if (currentMillis - previousMillis > interval) {
      digitalWrite(Rectification2EnablePin, HIGH);
      digitalWrite(Rectification2Motor1Pin, HIGH);
      digitalWrite(Rectification2Motor2Pin, LOW);
      ////////////// A delay may be requireed as the valve ages
      delay(100);
      previousMillis = currentMillis;
    }

    if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
      digitalWrite(Rectification2EnablePin, LOW);
      digitalWrite(Rectification2Motor1Pin, LOW);
      digitalWrite(Rectification2Motor2Pin, HIGH);
      SIpreviousMillis = SIcurrentMillis;
    }
  }
  //////////////////////////////////////////////////////////
  //////////////////////////////////////////////////////////

  void openStillHeadValve() {
    digitalWrite(StillHeadEnablePin, HIGH);
    digitalWrite(StillHeadMotor1Pin, LOW);
    digitalWrite(StillHeadMotor2Pin, HIGH);
  }

  void closeStillHeadValve() {
    digitalWrite(StillHeadEnablePin, HIGH);
    digitalWrite(StillHeadMotor1Pin, HIGH);
    digitalWrite(StillHeadMotor2Pin, LOW);
  }


  void StillHeadValveOpenControl() { // StillHead Open valve control for sparge
    long interval = 100;
    long shortInterval = 50;
    unsigned long currentMillis = millis();
    long previousMillis = 0;
    unsigned long SIcurrentMillis = millis();
    long SIpreviousMillis = 0;
    if (currentMillis - previousMillis > interval) {
      digitalWrite(StillHeadEnablePin, HIGH);
      digitalWrite(StillHeadMotor1Pin, LOW);
      digitalWrite(StillHeadMotor2Pin, HIGH);
      ////////////// A delay may be required here as the valve ages
      delay(100);
      previousMillis = currentMillis;
    }

    if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
      digitalWrite(StillHeadEnablePin, LOW);
      digitalWrite(StillHeadMotor1Pin, LOW);
      digitalWrite(StillHeadMotor2Pin, LOW);
      SIpreviousMillis = SIcurrentMillis;
    }
  }

  void StillHeadValveCloseControl() { // StillHead Close valve control for sparge
    long interval = 100;
    long shortInterval = 50;
    unsigned long currentMillis = millis();
    long previousMillis = 0;
    unsigned long SIcurrentMillis = millis();
    long SIpreviousMillis = 0;
    if (currentMillis - previousMillis > interval) {
      digitalWrite(StillHeadEnablePin, HIGH);
      digitalWrite(StillHeadMotor1Pin, HIGH);
      digitalWrite(StillHeadMotor2Pin, LOW);
      ////////////// A delay may be requireed as the valve ages
      delay(100);
      previousMillis = currentMillis;
    }

    if (SIcurrentMillis - SIpreviousMillis > shortInterval) {
      digitalWrite(StillHeadEnablePin, LOW);
      digitalWrite(StillHeadMotor1Pin, LOW);
      digitalWrite(StillHeadMotor2Pin, LOW);
      SIpreviousMillis = SIcurrentMillis;
    }
  }

camsysca · May 17, 2025, 2:51pm

See post#4. With the indentation fixed by ctrl-t, it's perfectly obvious, because "void setup() {"
begins in column 3, not column 1. Learn to use the automatic formatting to your benefit.

jim-p · May 17, 2025, 3:07pm

See post #4

Pesho77 · May 17, 2025, 3:08pm

Thanks for the advice but I don't understand that can you explain it please.

srnet · May 17, 2025, 3:18pm

Look at the function on line 130;

float getTemperature(int pin) {

It has the required opening brace { , but no closing brace } between the return steinhart at the end of the function and the start of the next function.

steinhart = 1.0 / steinhart;
  steinhart -= 273.15;

  return steinhart;





  void setup()

  {
    Serial.begin(9600);
    sensors.begin();

Pesho77 · May 17, 2025, 3:31pm

I see it thank you very much

jim-p · May 18, 2025, 9:00am

See post #4

jim-p · May 18, 2025, 9:02am

See post #4

xfpd · May 19, 2025, 1:27am

Please, correct Post #5.

Topic		Replies	Views
Prima volta con Arduino - Arduino: 1.8.13 (Windows 10), Board: "Arduino Nano, ATmega328P" Software	28	1169	March 6, 2023
Der abgeänderte Sketch zeigt mir Fehler (gelöst) Deutsch	27	1635	May 6, 2021
Hello I have a small problem, there is an error message that I do not understand Programming	29	2395	May 5, 2021
non trovo le differenze Software	12	858	May 7, 2021
Exit status 1, Error compiling for board Arduino/Genuino Uno. [Solved!] Programming	42	287740	May 5, 2021

Compiling Help please

Related topics