Write a MIPS program to convert the following C code to MIPS: int bigger (int, int); int smaller (int, int); int main () int x = 30; int y = 27; int z - biger (x, y): int w - smaller (x, y): return 0; }// end main int bigger (int numl, int num2) { if (num2 < numl) ( return numl; ) else { return num2; int smaller (int numl, int num2) { if (num2 < numl) ( return num2; } else { return numl; At the beginning of the .asm file, type the following li $s0, 30 li $s1, 27 As you write the MIPS code, be aware of the following: • You will need to give the $a0 and $a1 registers values before calling the two procedures. Use two add instructions with the $zero register to do this. The Bigger procedure, which will need its own label, must determine which of $a0 and $a1 has the bigger value. Use a set-less-than (slt) instructions, followed by a branch instruction (beq or bne, you decide) to do this. • Once the bigger value is found, its register must be added to the $v0 register (add instruction with $zero) so that the correct value is returned. • When the value is returned, use another add instruction with $zero to store the bigger value in $s2. • The Smaller procedure will be similar to the Bigger procedure except its result should be stored in $s3 when it is done. • After $s2 and $s3 gets their values, you will need to use a jump 6) instruction with a label (like Exit) that will jump below the two procedures and end the program. • Be sure to test your program with the bigger value in $s0 and with the bigger value in $1. • Use any temporary registers ($t0, $t1, etc.) as needed to make sure instructions work. • You might have to use different labels within each procedure. • Make sure your program assembles by clicking this button: • Execute the program by clicking this button: • tis highly recommended you use the single-step feature to check values for registers after each instruction executes. You can single-step by clicking this button:

MIPS ONLY

Transcribed Image Text:

Write a MIPS program to convert the following C code to MIPS: int bigger (int, int); int smaller (int, int); int main () int x = 30; int y = 27; int z - biger (x, y): int w - smaller (x, y): return 0; }// end main int bigger (int numl, int num2) { if (num2 < numl) ( return numl; ) else { return num2; int smaller (int numl, int num2) { if (num2 < numl) ( return num2; } else { return numl; At the beginning of the .asm file, type the following li $s0, 30 li $s1, 27 As you write the MIPS code, be aware of the following: • You will need to give the $a0 and $a1 registers values before calling the two procedures. Use two add instructions with the $zero register to do this.

Transcribed Image Text:

The Bigger procedure, which will need its own label, must determine which of $a0 and $a1 has the bigger value. Use a set-less-than (slt) instructions, followed by a branch instruction (beq or bne, you decide) to do this. • Once the bigger value is found, its register must be added to the $v0 register (add instruction with $zero) so that the correct value is returned. • When the value is returned, use another add instruction with $zero to store the bigger value in $s2. • The Smaller procedure will be similar to the Bigger procedure except its result should be stored in $s3 when it is done. • After $s2 and $s3 gets their values, you will need to use a jump 6) instruction with a label (like Exit) that will jump below the two procedures and end the program. • Be sure to test your program with the bigger value in $s0 and with the bigger value in $1. • Use any temporary registers ($t0, $t1, etc.) as needed to make sure instructions work. • You might have to use different labels within each procedure. • Make sure your program assembles by clicking this button: • Execute the program by clicking this button: • tis highly recommended you use the single-step feature to check values for registers after each instruction executes. You can single-step by clicking this button: