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# Python3 program to evaluate a given
# expression where tokens are
# separated by space.
# Function to find precedence
# of operators.
def precedence(op):
if op == '+' or op == '-':
return 1
if op == '*' or op == '/':
return 2
return 0
# Function to perform arithmetic
# operations.
def applyOp(a, b, op):
if op == '+': return a + b
if op == '-': return a - b
if op == '*': return a * b
if op == '/': return a // b
# Function that returns value of
# expression after evaluation.
def evaluate(tokens):
# stack to store integer values.
values = []
# stack to store operators.
ops = []
i = 0
while i < len(tokens):
# Current token is a whitespace,
# skip it.
if tokens[i] == ' ':
i += 1
continue
# Current token is an opening
# brace, push it to 'ops'
elif tokens[i] == '(':
ops.append(tokens[i])
# Current token is a number, push
# it to stack for numbers.
elif tokens[i].isdigit():
val = 0
# There may be more than one
# digits in the number.
while (i < len(tokens) and
tokens[i].isdigit()):
val = (val * 10) + int(tokens[i])
i += 1
values.append(val)
# right now the i points to
# the character next to the digit,
# since the for loop also increases
# the i, we would skip one
# token position; we need to
# decrease the value of i by 1 to
# correct the offset.
i-=1
# Closing brace encountered,
# solve entire brace.
elif tokens[i] == ')':
while len(ops) != 0 and ops[-1] != '(':
val2 = values.pop()
val1 = values.pop()
op = ops.pop()
values.append(applyOp(val1, val2, op))
# pop opening brace.
ops.pop()
# Current token is an operator.
else:
# While top of 'ops' has same or
# greater precedence to current
# token, which is an operator.
# Apply operator on top of 'ops'
# to top two elements in values stack.
while (len(ops) != 0 and
precedence(ops[-1]) >=
precedence(tokens[i])):
val2 = values.pop()
val1 = values.pop()
op = ops.pop()
values.append(applyOp(val1, val2, op))
# Push current token to 'ops'.
ops.append(tokens[i])
i += 1
# Entire expression has been parsed
# at this point, apply remaining ops
# to remaining values.
while len(ops) != 0:
val2 = values.pop()
val1 = values.pop()
op = ops.pop()
values.append(applyOp(val1, val2, op))
# Top of 'values' contains result,
# return it.
return values[-1]
# Driver Code
if __name__ == "__main__":
print(evaluate("10 + 2 * 6"))
print(evaluate("100 * 2 + 12"))
print(evaluate("100 * ( 2 + 12 )"))
print(evaluate("100 * ( 2 + 12 ) / 14"))
# This code is contributed
# by Rituraj Jain
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