# How to convert from 4-bit hexadecimal to 7-bit ASCII?

The assigment is to learn assembly programming by writing a subroutine that can convert between 4-bit hexadecimal and 7-bit ASCII. At first I had no idea but after some research I could make and effort and draw a flowchart and make a program but it is not entirely correct so I'm asking for your guidance to help me solve this.

The actual assignment text is this:

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.

I've drawn a flowchart for the program:

And the program I've tried is this but I suspect that it is not according to spec:

``````        .global main

.text
.align 2

main:   movi r8, 0x09
movi r9, 0x0f

andi r4, r4, 0x0f

bgt r8, r4, L1

movi r2, 0x1e
andi r2, r2, 0xff

movia   r2,putchar
br  L2

L1:     movi r2, 0x29
andi r2, r2, 0xff

movia   r2,putchar

L2:  .end
``````

Can you help me develop and solve this assignment? There's plenty of time, it's not due until in a month.

## Update

After seeing here in a comment that the flowchart was incorrect, I've made the necessary adjustments:

I also want to discuss how this algorithm is correct that converts between hexadecimal and ASCII.

## Update / edit

Here is the complete program.

``````.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
andi r2, r2, 0xff
ret

L1:     movi r2, 0x37
andi r2, r2, 0xff
ret
``````
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The diagram is numerically incorrect. ASCII(x) = x + 30H(48d) if 0<=x<=9 or x + 37H(55d) otherwise (10<=x<=15). –  Alexey Frunze Aug 21 '12 at 11:55
I'm pretty sure you're supposed to mask and keep only the last four bits, not bytes. Your code does that correctly. –  harold Aug 21 '12 at 12:12
What is unclear in `a=h+((h>9)?55:49)`? It's what the corrected diagram describes now, except the formula must have 48 and not 49. –  Alexey Frunze Aug 21 '12 at 13:33
I don't know what assembler you're using, but it surely can work with character literals instead of just numbers. To convert 5 to ASCII, you just add 5 to the character `'0'`. Let the assembler do the work of evaluating that `'0'` is 30H and 30H + 5 is 35H which is ASCII character '5'. If you do it that way, your code is self documenting instead of littered with magic numbers. –  indiv Aug 21 '12 at 15:53
Of the myriad of how do I convert decimal, binary, hex, ascii questions we have seen at SO. This one is worth answering because you have actually attempted to do it, thought through it, understand the number systems and bit representations, just had a subtle math mistake. –  dwelch Aug 21 '12 at 17:15

When you mask off the lower four bits, you have the potential for ending up with the values 0x0 to 0xF. The table of desired results is:

``````0x0 -> '0' = 0x30
0x1 -> '1' = 0x31
0x2 -> '2' = 0x32
0x3 -> '3' = 0x33
0x4 -> '4' = 0x34
0x5 -> '5' = 0x35
0x6 -> '6' = 0x36
0x7 -> '7' = 0x37
0x8 -> '8' = 0x38
0x9 -> '9' = 0x39
0xA -> 'A' = 0x41
0xB -> 'B' = 0x42
0xC -> 'C' = 0x43
0xD -> 'D' = 0x44
0xE -> 'E' = 0x45
0xF -> 'F' = 0x46
``````

From that table of desired results we can see that there are two linear sections, from 0x0 to 0x9 and from 0xA to 0xF. For the 0x0 to 0x9 case 0x30 - 0x0 = 0x30 so we add 0x30. For the 0xA to 0xF section 0x41 - 0xA = 0x37.

Will that work?

``````0x0 + 0x30 = 0x30
0x1 + 0x30 = 0x31
0x2 + 0x30 = 0x32
0x3 + 0x30 = 0x33
0x4 + 0x30 = 0x34
0x5 + 0x30 = 0x35
0x6 + 0x30 = 0x36
0x7 + 0x30 = 0x37
0x8 + 0x30 = 0x38
0x9 + 0x30 = 0x39

0xA + 0x37 = 0x41
0xB + 0x37 = 0x42
0xC + 0x37 = 0x43
0xD + 0x37 = 0x44
0xE + 0x37 = 0x45
0xF + 0x37 = 0x46
``````

Looks good.

``````0x0 + 0x30 = 0x30
0x1 + 0x30 = 0x31
0x2 + 0x30 = 0x32
0x3 + 0x30 = 0x33
0x4 + 0x30 = 0x34
0x5 + 0x30 = 0x35
0x6 + 0x30 = 0x36
0x7 + 0x30 = 0x37
0x8 + 0x30 = 0x38
0x9 + 0x30 = 0x39
0xA + 0x30 + 7 = 0x41
0xB + 0x30 + 7 = 0x42
0xC + 0x30 + 7 = 0x43
0xD + 0x30 + 7 = 0x44
0xE + 0x30 + 7 = 0x45
0xF + 0x30 + 7 = 0x46
``````

When creating the desired result table, the left side you should have known something anded with 0xF gives you 0x0 to 0xF, and it appears you did. The right side of the desired table comes from an ASCII chart. I think if you had made that chart and gotten out a calculator (yea that little thing with buttons that old people use, although one that does hex, your phone should have an app for it). From there visually from that table come up with the algorithm.

You should also ask yourself, what if I want A to F to be lower case instead of upper case (a,b,c,d,e,f)? How do I change the algorithm?

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Thank you for a good answer but I would have liked to see more about the assembly programming since I still suspect that my program is not correct. I'm updating the question with a new version of the program, please have a look. –  909 Niklas Aug 22 '12 at 8:43
well the code you have there is still wrong but your updated algorithm uses the right numbers, you have 0x1e in the code where you should have 0x30 and 0x29 where you should have 0x37. you dont need to and with 0xFF at the end the largest numbers would be 0xF + 0x37 = 0x46. –  dwelch Aug 22 '12 at 13:52