我正在尝试编写一个MIPS程序,它将罗马数字(作为ascii字符串输入)转换为其十进制值。有一个I / 0组件,提示用户输入,执行(有限的)有效性检查,然后输出原始字符串以及值。
要将每个罗马数字字符转换为十进制值,我使用了一个查找表(即我在“罗马数字”数组中获取每个字符的索引,然后使用此索引值从中获取相应的值“十进制值”数组。
罗马数字是从L到R读取的,但我不能简单地添加每个字符(即使总和纯粹递归),因为它可以有这样的字符串:XIV,其中X = 10,I = 1,和V = 5,得到的数字= 14(而不是15)。我有逻辑来输出这个结果,但是(不幸的是!),我是MIPS的新手并且为了实现和逻辑,我设置了一系列嵌套的子例程。
据我所知,对于一个未通过“jal”指令来“知道”其返回地址的子程序,你应该在堆栈上加载返回地址,并在子结尾处弹出它。例程,然后jr $ ra。然而, 我的代码中的一些数学逻辑依赖于分支,而不是“jal”指令。在所有这些混乱中,我的堆栈指针不正确,我的代码太快终止(即不会对字符串中的所有数字求和)。
任何帮助或指示将不胜感激。代码如下:
# This program runs in MIPS, and performs the following functions:
#
# (1) Reads input Roman Numerals as ASCII text characters
#
# (2) Calculates the equivalent decimal value
#
# (3) Writes the calculated value as Arabic numerals to the SPIM
# console, with appropriate commentary text
#
# (4) Tests by calculating the values of these Roman numerals:
# {I:1, V:5, X:10, L:50, C:100, D:500, M:1000}
#
# (5) Calculates and displays the results of the following Roman numerals:
# -> LXXIX: 79
# -> MMXVI: 2016
# -> MCMXLVIII: 1948
# -> MDCCCCVIIII: 1909
#
# NOTE: There is no check for "valid" Roman numerals (i.e., VIIII is not "valid" but will be computed as = 9)
# However, subtraction logic is used (i.e. numbers that decrease from L to R = addition; a smaller number to the left
# of a larger number represents subtraction, such that IX == VIIII == 9.
.data
# Lookup tables
#roman: .asciiz "IVXLCDMivxlcdm"
roman: .asciiz "IVXLCDM"
#values: .byte 1, 5, 10, 50, 100, 500, 1000, 1, 5, 10, 50, 100, 500, 1000
values: .byte 1, 5, 10, 50, 100, 500, 1000
# Input
input1: .word 4
input2: .asciiz "\n "
input3: .asciiz "\n "
input4: .asciiz "\n"
# Conversion
left: .word 0
sum: .word 0
counter: .word 0
temp: .word 0
# I/O and program control
convertAgain: .word 2
prompt1: .asciiz "\nPlease enter the Roman Numeral to convert in all uppercase OR all lowercase letters (i.e. VII or vii): "
outRecap: .asciiz "\nYou entered: "
outFinal: .asciiz "\nThe equivalent decimal value is: "
loopdriver: .asciiz "\nWould you like to convert another number? Enter 1 for YES and 2 for NO: "
stop: .asciiz "\n\nProgram complete.\n"
# Exception handling
error1: .asciiz "\nThe Roman numeral you have entered contains invalid character(s). Please try again.\n"
################################################################################
.text
.globl main
main:
#Prompt user to enter the Roman Numeral to convert
li $v0, 4 # print prompt1
la $a0, prompt1 # load address
syscall
# Load the word reserved for input, and read in the Roman Numeral string input by the user
la $a0, input1 # load contents of input1 (i.e. space allocated to save the input string) into $a0
la $a1, input1 # load the length allocated for input1 (i.e. 4 bytes or 32 bits) into $a1 to prevent overflow
li $v0, 8 # read string from user
syscall
# Go to sub-routines for lookup and conversion
jal init
# Display results for the user
# Load output string 1 to show the user their original input string
la $a0, outRecap # load contents of outRecap into $a0
li $v0, 4 # print string
syscall
# Load the string the user entered
la $a0, input1 # load contents of input1 into $a0
li $v0, 4 # print string
syscall
# Display the equivalent decimal value
la $a0, outFinal # load contents of outFinal (string) into $a0
li $v0, 4 # print string
syscall
# Print the sum
lw $a0, sum
li $v0,1
syscall
# Ask the user whether they want to convert another Roman Numeral (1 if YES; 2 if NO; default is NO)
la $a0, loopdriver
li $v0, 4
syscall
# Get user input from keyboard (1 = they want to convert another Roman Numeral; 2 = Exit; default = 2)
li $v0, 5 # read integer input
syscall
# Save the user's input and jump to "Exit"
sw $v0, convertAgain
lw $t0, convertAgain
bne $t0, 1, Exit # if the user enters a number != 1, go to Exit
j main # Go back to start if the user enters 1
######################################################################################################################################################
# Convert Roman Numeral string to integer decimal value
init:
sw $ra, 4($sp)
sw $a1, 0($sp)
addi $sp, $sp, -8 # move stack pointer
la $t2, input1 #load the address of the string (see by looking at starting index of each the length of each string
la $t3, roman
la $t4, values
# Loop through each char of the input string
loop1:
lb $a0, ($t2) # This gets the next byte of the string (from L to R); change the offset to get others (i.e. lb $a0, 3($t0) = I
beqz $a0, return # If the byte == 0, we have reached the end of the input string; jump to "return"
li $v0, 11 # print byte to console
syscall
# While string[i] != null:
jal index
addi $t2, $t2, 1 # Move to next character in input string
jal loop1 # iterate through loop1 again
# Find the index (i.e. offset) of the selected char in the "roman" lookup table
index:
lb $t5, ($t3) # load the first byte of romans
beqz $t5, invalid # if we reach the end of romans and the char isn't found, it's not a valid Roman numeral
sw $ra, 8($sp)
addi $sp, $sp, -4 # move stack pointer
beq $a0, $t5, getVal # once we find the index we want, where the romans value matches our char, need to look it up in values
jal iter # if we haven't found a match, jump to where we can increment $t3 and iterate through the loop again
# addi $t3, $t3, 1 # if we haven't found a match, increment $t3 and iterate through the loop again
# jal index # loop
# Use the index value to look up the char in the "values" array and get the decimal value
getVal:
la $t6, roman # Get the address of the array containing Roman numeral characters
la $t7, values
sub $t8, $t3, $t6 # Get the index value of the element that matches the byte we are working with [1:7]
add $t7, $t7, $t8
lb $t9, ($t7) # $t9 is the decimal value that corresponds to the letter
#added new
sw $t9, 12($sp)
addi $sp, $sp, -4 # move stack pointer
jal setup
addi $sp, $sp, 4 # reset the stack pointer
lw $ra, 8($sp) # fetch return address
jr $ra # go back to main so that results can be displayed
# This is the last part of the index loop
iter:
addi $t3, $t3, 1 # if we haven't found a match, increment $t3 and iterate through the loop again
jal index # loop
setup:
# Base case is that the string length == 1, and thus sum = the decimal equivalent of the only Roman numeral character
lw $s0, sum
beqz $s0, base # if sum == 0, this is our first pass through the loop, and we just want to add the first char's decimal value to sum and return to get the next char
jal calcSum
# Base case is our first pass through the loop, where sum == 0. We just want to add the value of the first number in the string to sum, and return to loop1 to get next char.
base: #lw $s0, sum
add $s0, $s0, $t9
sw $s0, sum
la $t3, roman
addi $sp, $sp, 4 # reset the stack pointer
lw $ra, 16($sp) # fetch return address
jr $ra # go back
#j return
# Here, we want to pop the previous letter's decimal value off the stack, compare it to current, process sum accordingly, and pop the current char onto the stack for the next iteration
calcSum: addi $sp, $sp, 8 #reset the stack pointer
lw $ra, 16($sp)
lw $t1, 12($sp) # pop the decimal value of the Roman numeral to the left of the current value in the original string
la $t3, roman
bge $t1, $t9, plus # If the decimal value of the previous char in the string is >= the current char, then we can add the current char to the sum
blt $t1, $t9, minus # if the decimal value of the previous char in the string is < the current char, we should add: current - (2*previous) to the sum
plus: lw $s0, sum
add $s0, $s0, $t9
la $t3, roman
addi $sp, $sp, 4 # reset the stack pointer
lw $ra, 16($sp) # fetch return address
jr $ra # go back
minus: lw $s0, sum
mul $t1, $t1, 2
sub $t9, $t9, $1
add $s0, $s0, $t9
la $t3, roman
addi $sp, $sp, 4 # reset the stack pointer
lw $ra, 16($sp) # fetch return address
jr $ra # go back to
# Go back to main
return:
addi $sp, $sp, 8 # reset the stack pointer
lw $a0, 0($sp) #
lw $ra, 4($sp) # fetch return address
jr $ra # go back to main so that results can be displayed
#Exception handling: User input string contains invalid character(s)
invalid:
li $v0, 4 # print string
la $a0, error1 # load address for error1 (a string)
syscall
j main
###############################################################################
#System Exit
Exit:
# Display exit message
li $v0, 4 # print string
la $a0, stop # load address for stop (a string)
syscall
li $v0, 10
syscall
################################################################################
答案 0 :(得分:0)
编辑:经过大量调试后,我设法让这个工作。代码如下,以防其他人有类似问题,或者可以提供有关如何改进此问题的反馈/指示。我学到的一些东西:jal指令需要在子程序调用之上和之下的堆栈指针。字节不是存储我的十进制值的绝佳选择,因为500和1000超出范围(有符号和无符号),我不得不将它们作为特殊情况处理。
.data
# Lookup tables
roman: .asciiz "IVXLCDM"
values: .byte 1, 5, 10, 50, 100, 500, 1000
# Input
input1: .word 4
input2: .asciiz "\n "
input3: .asciiz "\n "
input4: .asciiz "\n"
# Conversion
left: .word 0
sum: .word 0
# I/O and program control
convertAgain: .word 2
prompt1: .asciiz "\nPlease enter the Roman Numeral to convert in all uppercase letters (i.e. VII): "
outRecap: .asciiz "\nYou entered: "
outFinal: .asciiz "\nThe equivalent decimal value is: "
loopdriver: .asciiz "\nWould you like to convert another number? Enter 1 for YES and 2 for NO: "
stop: .asciiz "\n\nProgram complete.\n"
# Exception handling
error1: .asciiz "\nThe Roman numeral you have entered contains invalid character(s). Please try again.\n"
######################################################################################################################################################
.text
.globl main
main:
#Prompt user to enter the Roman Numeral to convert
li $v0, 4 # Print prompt1
la $a0, prompt1 # Load address
syscall
# Load the word reserved for input, and read in the Roman Numeral string input by the user
la $a0, input1 # Load contents of input1 (i.e. space allocated to save the input string) into $a0
la $a1, input1 # Load the length allocated for input1 (i.e. 4 bytes or 32 bits) into $a1 to prevent overflow
li $v0, 8 # Read string from user
syscall
sw $ra, 0($sp) # Push return address onto the stack
addi $sp, $sp, -4 # Move stack pointer
# Go to sub-routines for lookup and conversion
jal init
lw $ra, 0($sp) # Pop return address off the stack
addi $sp, $sp, 4 # Move stack pointer
# Display results for the user
display:
# Load output string 1 to show the user their original input string
la $a0, outRecap # load contents of outRecap into $a0
li $v0, 4 # print string
syscall
# Load the string the user entered
la $a0, input1 # load contents of input1 into $a0
li $v0, 4 # print string
syscall
# Display the equivalent decimal value
la $a0, outFinal # load contents of outFinal (string) into $a0
li $v0, 4 # print string
syscall
# Print the sum
lw $a0, sum # Load contents of sum into $a0
li $v0,1 # Print integer
syscall
# Ask the user whether they want to convert another Roman Numeral (1 if YES; 2 if NO; default is NO)
la $a0, loopdriver # Load contents of loopdriver (string) into $a0
li $v0, 4 # Print string
syscall
# Get user input from keyboard (1 = they want to convert another Roman Numeral; 2 = Exit; default = 2)
li $v0, 5 # Read integer input
syscall
# Save the user's input and jump to "Exit"
sw $v0, convertAgain
lw $t0, convertAgain
bne $t0, 1, Exit # if the user enters a number != 1, go to Exit
move $s0, $zero # Reinitialize
sw $zero, sum # Reinitialize
sw $zero, left # Reinitialize
j main # Go back to start if the user enters 1
######################################################################################################################################################
# Convert Roman Numeral string to integer decimal value
init:
#sw $ra, 4($sp)
sw $a1, 4($sp)
addi $sp, $sp, -4 # move stack pointer
la $t2, input1 #Load the address of the string (see by looking at starting index of each the length of each string
la $t3, roman # Load the address of the roman lookup table into $t3
la $t4, values # Load the address of the decimal lookup table into $t4
# Loop through each char of the input string
loop1:
lb $a0, ($t2) # This gets the next byte of the string (from L to R); change the offset to get others (i.e. lb $a0, 3($t0) = I
beq $a0, 10, return # If the ascii char == 0, we have reached the end of the input string; jump to "return"
beq $a0, 1, return # If the ascii char == 1, we've reached the "start of heading" (i.e. end of line; max = 12 char)
#li $v0, 11 # print byte to console
#syscall
sw $ra, 8($sp) # Push return address onto the stack
addi $sp, $sp, -4 # Move stack pointer
# While string[i] != null:
jal index
lw $ra, 8($sp) # Pop return address off stack
addi $sp, $sp, 4 # Move stack pointer
addi $t2, $t2, 1 # Move to next character in input string
sw $ra, 8($sp) # Push return address onto the stack
addi $sp, $sp, -4 # Move stack pointer
jal loop1 # iterate through loop1 again
lw $ra, 8($sp) # Pop return address off the stack
addi $sp, $sp, 4 # Move stack pointer
# Find the index (i.e. offset) of the selected char in the "roman" lookup table
index:
lb $t5, ($t3) # Load the first byte of romans
beqz $t5, invalid # If we reach the end of romans && char !found, INVALID char
beq $a0, $t5, getVal # When char == element in romans table, branch to getVal to look it up in decimal table
sw $ra, 12($sp) # Push return address onto the stack
addi $sp, $sp, -4 # Move stack pointer
jal iter # If we haven't found a match, jump to where we can increment $t3 and iterate through the loop again
lw $ra, 12($sp) # Pop return address off the stack
addi $sp, $sp, 4 # Move stack pointer
getVal:
la $t6, roman # Get the address of the array containing Roman numeral characters
la $t7, values
sub $t8, $t3, $t6 # Get the index value of the element that matches the byte we are working with [1:7]
add $t7, $t7, $t8
lbu $t9, ($t7) # $t9 is the decimal value that corresponds to the letter
bgeu $t9, 232, adjust1
j afterGV
adjust1:
seq $a2, $t5, 68 # If the character in question == D, set $a2 to 1; else, 0
mul $t9, $t9, $zero
beq $a2, 1, adjustD
addi $t9, $t9, 1000 # Char == M; decimal value = 1000
j afterGV
adjustD: addi $t9, $t9, 500
j afterGV
afterGV: sw $ra, 16($sp)
addi $sp, $sp, -4 # move stack pointer
jal setup
addi $sp, $sp, 4 # reset the stack pointer
lw $ra, 16($sp) # Pop return address off stack
# lw $t9, 12($sp) # fetch $t9
jr $ra # go back
# This is the last part of the index loop
iter:
addi $t3, $t3, 1 # if we haven't found a match, increment $t3 and iterate through the loop again
jal index # loop
# Prepare to compare current char w/previous char (i.e. if string is XI, compare I to X)
setup:
# Base case is that the string length == 1, and thus sum = the decimal equivalent of the only Roman numeral character
lw $s0, sum # Load sum into $s0
beqz $s0, base # If sum == 0, this is our first pass through the loop, and we just want to add the first char's decimal value to sum and return to get the next char
sw $ra, 20($sp) # Push return address onto stack
addi $sp, $sp, -4 # Move stack pointer
jal calcSum # Jump to subroutine that calculates the sum
addi $sp, $sp, 4 # Reset the stack pointer
lw $ra, 20($sp) # Pop return address off stack
jr $ra # Go back to return address
# Base case is our first pass through the loop, where sum == 0.
# We just want to add the value of the first number in the string to sum, and return to loop1 to get next char.
base: add $s0, $s0, $t9 # Add value of first char + 0 and store in $s0
sw $s0, sum # Store contents of $s0 in sum
sw $t9, left # Store contents of $t9 (i.e. current char) as "left" for use in next iteration
la $t3, roman # Load address of roman array into $t3 (reset pointer)
addi $t2, $t2, 1 # Add 1 to $t2, so that we can select next char in input string
jal loop1 # Jump back to beginning of loop
# Compare current char to previous, and calculate sum accordingly, per rules of Roman Numerals
calcSum: addi $sp, $sp, 8 # Reset the stack pointer
lw $t1, left # Pop the decimal value of the Roman numeral to the left of the current value in the original string
sw $t9, left # Reset left pointer so it points to current char ("left" of *next* char)
la $t3, roman # Load address of roman array into $t3 (reset pointer)
bge $t1, $t9, plus # If value of the previous char >= current char, then add the current char's value to the sum
blt $t1, $t9, minus # If the previous char in the string is < the current char, add: current - (2*previous) to the sum
plus: lw $s0, sum # Load sum into $s0
add $s0, $s0, $t9 # Add current char's decimal value to sum
sw $s0, sum # Store the result in sum
la $t3, roman # Load address of roman array into $t3 (reset pointer)
addi $t2, $t2, 1 # Add 1 to $t2, so that we can select next char in input string
jal loop1 # Jump back to beginning of loop
minus: lw $s0, sum # Load sum into $s0
mul $t1, $t1, 2 # Multiply $1 by 2 (need to subtract twice, to get a net impact of -1 * $t1)
sub $t9, $t9, $t1 # Subtract (previous char - (2* current char)) (i.e. if XIV, do 11 + (5-(2*1)) = 14)
add $s0, $s0, $t9 # Add this result to the existing sum
sw $s0, sum # Store the result in sum
la $t3, roman # Load address of roman array into $t3 (reset pointer)
addi $t2, $t2, 1 # Add 1 to $t2, so that we can select next char in input string
jal loop1 # Jump back to beginning of loop
# Go back to main
return:
sw $s0, sum # Store sum
j display # Jump to display to print output for the user
#Exception handling: User input string contains invalid character(s)
invalid:
li $v0, 4 # Print string
la $a0, error1 # Load address for error1 (a string)
syscall
j main
######################################################################################################################################################
#System Exit
Exit:
# Display exit message
li $v0, 4 # Print string
la $a0, stop # Load address for stop (a string)
syscall
li $v0, 10 # System exit
syscall
######################################################################################################################################################