$24
Objectives
More practice writing assembly language programs
Introduction to peripherals: LEDs and buttons
Introduction to subroutines
AVR Studio Project
As in assignment 1, you should create a new assembly language project in AVR Studio for this assignment. Download the sample code and add the files to the project.
Subroutines
In the sample code, subroutines use specific registers to pass parameters and return values. Registers are effectively global variables, so register usage must be consistent across every subroutine. The register usage is documented in the comments.
Rather than tracking register usage by hand, you may wish to update the subroutines to use the stack to save and restore registers. If you do this, be sure to initialize the stack pointer and update the comments appropriately regarding register usage.
Part I – Lighting the LEDs
As you've seen in the lab, the boards include a 6 LED strip, where each LED can be controlled independently from the others.
Although the LEDs are wired to adjacent Arduino pins, they are controlled using two AVR ports:
PORTB and PORTL. The exact mapping is shown in the table below:
Pin
PORT
Bit #
42
L
7
44
L
5
46
L
3
48
L
1
50
B
3
52
B
1
You should modify the code in a2q1.asm so that it displays the value in R0 in binary using the 6 LEDs. You should consider the LED on Pin 42 to be the least-significant bit and the LED on Pin 52 to be the most-significant bit.
For example, if R0 contains the value 0x13, the LEDs should look like:
Pin
52
50
48
46
44
42
Value
OFF
ON
OFF
OFF
ON
ON
Be sure to test your code on several different values.
Your instructor's solution used a combination of ANDI and BRNE instructions to test the individual bits in R0 and then used ORI to set individual bits in two output registers: one that is output to PORTL and another that is output to PORTB.
Be sure you understand the assignment 2 exercise posted with the assignment before you start programming. It will be the in class exercise on October 12, 2018.
Part II – Subroutines and timing
Using the code you wrote in Part I and the delay code provided to you in Lab 4, write a program that does the following:
counter = 0
start:
display counter in binary on the LEDs
counter = counter + 1
delay between 100 and 300 milliseconds
goto start
First you should turn the code you wrote in Part I into a subroutine called display. Then write a main program that implements the algorithm shown above. It will be easiest if you use r0 for your counter.
Part III – Button press counting
Using the button code and delay code provided to you in Lab 4, write a program that does the following:
counter = 0
start:
if button pressed
counter = counter + 1
delay between 100 and 300 milliseconds display counter in binary on the LEDs goto start
Part IV – Improved button code
Improve the button code so that it correctly determines which button has been pressed. Study the comments in a2q4.asm for details on the values returned from the analog to digital conversion when the buttons are pressed.
You've been provided with a main program – you'll need to fix the button subroutine and include your LED display subroutine. Once you do that, a different light should come on for each button you press.
Your instructor's solution used the BRSH instruction.
Submission
Submit your a2q1.asm, a2q2.asm, a2q3.asm and a2q4.asm using connex. Do NOT submit your project file – just the .asm files.
Grading
If you submit a program that does not assemble you will receive 0 for that part of the assignment.
Question 1
4 marks
Question 2
4 marks
Question 3
4 marks
Question 4
2 marks
Total
14 marks