I'm working on something in Assembly where it takes a string for an instruction, such as
add $t1, $t0, $t1
and prints out the instruction in hex.
I scan the string piece by piece, with add being recognized first. Add has an op code of 001000 (6 bits)
t1 is scanned, and it compares itself to the data section, and it has a value of 5 bits 01001, same with t0 with 01000, and t1 again at 01001. All these are scanned in order so precedence isn't that important as far as I can tell.
From then, I know I need to smush these together somehow and then convert from binary to hex. My problem is, I'm not sure how I'm supposed to be storing these binary values as they're read. Whether to store them in the data section, which doesn't seem right due to their odd bit sizes, or if there is some easier way.
Honestly, I don't know much about bit shifting, so the answer may lay in there.
Here's my code. It's very much a WIP
#text segement .text .globl main main: li $t0, 0 #pointer for input li $t1, 0 #pointer for storing li $t2, 0 #parser li $t3, 0 #temp hold t0 li $t4, 0 #hold reg num li $t8, 0 #number of reg li $v0, 8 la $a0, input li $a1, 32 syscall la $a0, input li $v0, 10 #end syscall scan: lb $t2, input($t0) #beq $t2,'$',pass beq $t2,' ',pass beq $t2,'*',next beq $t2,',',next beq $t2,10,end sb $t2, inst($t1) addi $t1,1 addi $t1,1 j scan next: move $t3, $t0 #store in t3 temporarily move $t0, $0 move $t1, $0 move $t2, $0 next2: lb $t2, inst($t0) beq $t2,'$',register #t2 = $, reg bge $t2,65,funct #t2 >= 65, funct ble $t2,57,num #57 >= t2, num funct: lb $t2, inst($t0) beq $t2, 'a', afunct beq $t2, 's', sfunct beq $t2, 'm', afunct afunct: lb $t2, inst($t0) sfunct: mfunct: num: lb $t2, inst($t0) register: addi $t0, 1 lb $t2, inst($t0) #get reg type addi $t0, 1 #increase pointer lb $t4, inst($t0) #find reg num and convert to t4 addi $t4, -48 beq $t2, 't', treg beq $t2, 'a', sreg beq $t2, 'v', vreg treg: mult $t4,4 mflo $t4 lw $t2, tr($t4) areg: mult $t4,4 mflo $t4 lw $t2, ar($t4) vreg: mult $t4,4 mflo $t4 lw $t2, vr($t4) .data input: .space 32 inst: .space 32 tr: 01000,01001,01010,01011,01100,01101,01111 sr: 00100 vr: 00010 a: 001000