Here's the assignment that is my homework:
Home Assignment 3 - hexasc
HA 3.1: Draw a flow-chart for a subroutine to convert a 4-bit hexadecimal value to the corresponding 7-bit ASCII-code. See the full specification for hexasc below. Example: binary 0010 (hexadecimal digit 2) is converted to 011 0010 (ASCII-code for '2'). Another example: binary 1011 (hexadecimal digit B) is converted to 100 0010 (ASCII-code for 'B') Make sure that your subroutine is documented according to our requirements.
HA 3.2: Using the labwork project in the Nios II IDE, create a new file called hexasc.s
HA 3.3: In the file
hexasc.s, write a subroutine called
hexasc, that converts a 4-bit hexadecimal value to the corresponding 7-bit ASCII-code. See the full specification below. Make sure that your subroutine is documented according to our requirements.
Name: The subroutine must be called hexasc.
Input parameters: Only one, in register r4. The 4 least significant bits in register r4 specify a number, from 0 through 15. The values of all other bits in the input must be ignored.
Return value: Only one, returned in register r2. The 7 least significant bits in register r2 must be an ASCII code as described below. All other bits in the output must be zero.
Required action: Input values 0 through 9 must be converted to the ASCII codes for the digits '0' through '9', respectively. Input values 10 through 15 must be converted to the ASCII codes for the letters 'A' through 'F', respectively.
Side effects: The values in registers r2 through r15 may be changed. All other registers must have unchanged values when the subroutine returns.
You must follow the specification.
Here is my solution:
.global hexasc .text .align 2 hexasc: movi r8, 0x09 movi r9, 0x0f andi r4, r4, 0x0f #keep only 4 bits bgt r4, r8, L1 #is x>9? movi r2, 0x30 add r2, r2, r4 andi r2, r2, 0xff ret L1: movi r2, 0x37 add r2, r2, r4 andi r2, r2, 0xff ret
I can call the above subroutine and get the output
123456789ABCDEF0123456789ABCDEF0123456789ABCDEF... from this program
# Lab program for Nios-II IDE tutorial # Created 2007-10-24 by F Lundevall # Modified 2008-10-08 by F Lundevall # Modified 2009-07-21 by F Lundevall # Copyright abandoned. This file is in the public domain. .global main # makes label "main" globally known .text # Instructions follow .align 2 # Align instructions to 4-byte words main: movi r16,0x41 # Load the hexadecimal value 41 # to register r16 loop: mov r4,r16 # Copy to r4 from r16 call hexasc # (later changed to call hexasc) mov r4, r2 # (later changed to mov r4,r2) movia r8,putchar # copy subroutine address to a register callr r8 # call subroutine via register addi r16, r16,1 # Add 1 to register r16 andi r16, r16, 0x7f # mask with 7 bits ori r16, r16, 0x20 # set a bit to avoid control chars br loop # Branch to loop .end # The assembler will stop reading here foo bar bletch # comes after .end - ignored
Do you think that I solved the assignment correctly? We don't have to worry about the flowchart since I did that already.
The assignment says that the output should be 0123456... but I get 12345... - does it matter?
Use registers r8 through r15 for any temporary values within your subroutine.
You can find an ASCII chart on many websites, including ascii-code.com and Wikipedia.
Specification for putchar - if you want to know the details
Name: The subroutine is called putchar. Input parameters: Only one, in register r4. The 8 least significant bits in register r4 specify a byte to be sent. All other bits are ignored. Return value: Only one, returned in register r2. If the byte was successfully sent, the input parameter value is returned. In case there was a problem with sending the byte, an error code is returned; the error code is always negative. Action: The least significant byte in register r4 is sent to the console window of the Nios II IDE. Bytes may be buffered, and sent after some reasonable delay. Side effects: The values in registers r2 through r15 may change. All other registers have unchanged values when the subroutine returns.
HA 3.4. Test your subroutine hexasc: Modify the program from home assignment 2, changing the two nop instructions into "call hexasc" and "mov r4,r2" as shown in the comments. Then verify that 0123456789ABCDEF is output repetitively.
There must be no errors and no warnings from your compilation. To test this, perform the following steps: Save all modified files. You can do this with the File - Save All menu item. Remove the Debug folder from your project. You can do this by right-clicking the Debug folder and selecting Delete. Right-click the project-name and select Build Project. Scroll through the console window and check all messages. A common warning is: warning: no newline at end of file. If you see this message, perform the following steps, in the following order. Step 1: place the cursor at the very end of your program file. Step 2: press Enter (or the Return key) to create a new blank line at the end of your file. Step 3: press the Home key to move the cursor to the very beginning of the last line. Step 4: press and hold the Delete key, to delete the whitespace characters that are usually auto-inserted by the Nios II IDE editor whenever you create a blank line.
Simulation will give a number of warnings every time: Warning : SOPC Builder system component character_lcd is not supported by the simulator. Simulation may be incorrect if your software attempts to access it, and so on, for different system components. These warnings will be seen at the beginning of every simulation, and can generally be ignored.
You may only use .include for files containing macro definitions. Files containing subroutines may not be included. Otherwise, some code will be compiled twice (or more), and the duplicates will be an endless source of errors and confusion Assignment home page is http://www.ict.kth.se/courses/IS1500/2012/nios2time/index.html