How can I program my Arduino in C on Ubuntu. I've heard of avr-gcc but all online tutorials seem extremely tedious and don't have options for an AVR chip with the Arduino bootloader. Can anyone help me with an easier way to install avr-gcc on Ubuntu and get started programming in C for the Arduino?

  • Why would you want that? You're already programming in C in the Arduino IDE. Is there anything you can only achieve by compiling C code manually? I would suggest sticking with the Arduino IDE. – adam10603 Sep 5 '15 at 14:08
  • 1
    @adam10603 for example, if someone dislikes the Arduino IDE, its dependence of Java; maybe he wants to integrate the project with another build system (e.g. Make), etc. There are various reasons why you want to do that. – The Paramagnetic Croissant Sep 5 '15 at 14:09
  • @adam10603 The Arduino language most closely resembles C++, but I'm trying to program it in C, because I'd like to get started with embedded C. – Application Developer Sep 5 '15 at 14:12
  • @adam10603 Also, I like the manual memory control that C provides on all platforms. – Application Developer Sep 5 '15 at 14:13
  • You can still use malloc and free as well as pointers in the Arduino IDE, they work the same way. – adam10603 Sep 5 '15 at 14:14

I recommend the following set of command line options for compiling:

avr-gcc -c
        -ffunction-sections -fdata-sections

And for linking:

avr-gcc -Os
        -ffunction-sections -fdata-sections


  • -c means "compile to object file only, do not link"
  • -std=gnu99 means "My code conforms to C99 and I use GNU extensions"
  • -Os means "optimize for executable size rather than code speed"
  • -Wall means "turn on (almost) all warnings"
  • -ffunction-sections -fdata-sections is necessary for the -Wl,--gc-sections optimization
  • -mmcu=m328p means "the MCU part number is ATmega 328P"
  • -DF_CPU=16000000 means "the clock frequency is 16 MHz" (adjust for your actual clock frequency)
  • -Wl,--gc-sections means "tell the linker to drop unused function and data sections" (this helps reduce code size).

In order to actually compile your code, you would first issue the avr-gcc command with the "compile only flags", like this:

avr-gcc -c -std=gnu99 <etc.> MyProgram.c -o MyProgram.o

Then you would repeat this for all of your source files. Finally, you would link the resulting object files together by invoking AVR-GCC in link mode:

avr-gcc -Os <etc.> MyProgram.o SomeUtility.o -o TheExecutable.elf

This generates an ELF file, which isn't directly executable by your MCU. Thus, you'll need to extract the useful part (the raw machine code) from it in the Intel Hex format:

avr-objcopy -O ihex -R .eeprom TheExecutable.elf TheExecutable.ihex

Finally, you will need AVRdude to upload the contents of the hex file to the MCU:

avrdude -C /path/to/avrdude.conf
        -p m328p
        -b 19600
        -P PORT_NAME
        -U flash:w:TheExecutable.ihex:i


  • -C /path/to/avrdude.conf means "use this file as the configuration file"
  • -c PROGRAMMER_NAME means "I am using a programmer of type PROGRAMMER_NAME" (you will need to fill this in yourself depending on what kind of programmer you use).
  • -b 19600 is the baud rate (you may need to adjust this depending on the baud rate you set or have pre-programmed into the bootloader)
  • -P PORT_NAME means "the programmer is connected to port PORT_NAME". On Linux, it will most often be something like /dev/ttyusbN, where N is some number.
  • -U flash:w:TheExecutable.ihex:i means "write to the Flash memory the contents of TheExecutable.ihex which is in Intel Hex format".
  • Thank you very much. However, I must ask where to download and install a functioning avr-gcc version. What is the difference between compiling and linking? Also, will this setup work with an Atmega chip with the Arduino bootloader pre-installed? – Application Developer Sep 5 '15 at 14:19
  • @ApplicationDeveloper "where to download and install a functioning avr-gcc version" – just google it. "What is the difference between compiling and linking?" – that's a long story, just google it. "will this setup work with an Atmega chip with the Arduino bootloader pre-installed?" – yes. – The Paramagnetic Croissant Sep 5 '15 at 14:24
  • Thanks for everything. – Application Developer Sep 5 '15 at 14:24

If you just want to use C code with an Arduino that already has a boot loader installed. You can literally write the code in C in the Arduino IDE and compile it as usual. Sketch is effectively a bunch of header files and Macros.

Here's the blink sketch written in C:

#include <avr/io.h> //defines pins, ports etc
#include<util/delay.h> //functions for wasting time

int main (void) {
DDRB |= (1<<PB5); //Data Direction Register B:
//writing a 1 to the Pin B5 bit enables output
//Event loop
  while (1) {
    PORTB = 0b00100000; //turn on 5th LED bit/pin in PORT B (Pin13 in Arduino)
    _delay_ms (1000); //wait

    PORTB = 0b00000000; //turn off all bits/pins on PB    
    _delay_ms (1000); //wait
  } //end loop
  return(0); //end program. This never happens.

Paste this into the IDE and try it for yourself.

If you want to move away from the Arduino to programming AVR's without a bootloader, may I recommend an excellent webcast by Elliot Williams as an introduction. - https://www.youtube.com/watch?v=ERY7d7W-6nA

Good luck and have fun :)

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