Evaluate the value of an arithmetic expression in Reverse Polish Notation.
Valid operators are +, -, *, and /. Each operand may be an integer or another expression.
Note that division between two integers should truncate toward zero.
It is guaranteed that the given RPN expression is always valid. That means the expression would always evaluate to a result, and there will not be any division by zero operation.
Example 1:
Input: tokens = ["2","1","+","3","*"] Output: 9 Explanation: ((2 + 1) * 3) = 9
Example 2:
Input: tokens = ["4","13","5","/","+"] Output: 6 Explanation: (4 + (13 / 5)) = 6
Example 3:
Input: tokens = ["10","6","9","3","+","-11","*","/","*","17","+","5","+"] Output: 22 Explanation: ((10 * (6 / ((9 + 3) * -11))) + 17) + 5 = ((10 * (6 / (12 * -11))) + 17) + 5 = ((10 * (6 / -132)) + 17) + 5 = ((10 * 0) + 17) + 5 = (0 + 17) + 5 = 17 + 5 = 22
Constraints:
1 <= tokens.length <= 104tokens[i]is either an operator:"+","-","*", or"/", or an integer in the range[-200, 200].
import operator
class Solution:
def evalRPN(self, tokens: List[str]) -> int:
opt = {
"+": operator.add,
"-": operator.sub,
"*": operator.mul,
"/": operator.truediv
}
s = []
for token in tokens:
if token in opt:
s.append(int(opt[token](s.pop(-2), s.pop(-1))))
else:
s.append(int(token))
return s[0]class Solution:
def evalRPN(self, tokens: List[str]) -> int:
nums = []
for t in tokens:
if len(t) > 1 or t.isdigit():
nums.append(int(t))
else:
if t == "+":
nums[-2] += nums[-1]
elif t == "-":
nums[-2] -= nums[-1]
elif t == "*":
nums[-2] *= nums[-1]
else:
nums[-2] = int(nums[-2] / nums[-1])
nums.pop()
return nums[0]class Solution {
public int evalRPN(String[] tokens) {
Deque<Integer> stk = new ArrayDeque<>();
for (String t : tokens) {
if (t.length() > 1 || Character.isDigit(t.charAt(0))) {
stk.push(Integer.parseInt(t));
} else {
int y = stk.pop();
int x = stk.pop();
switch (t) {
case "+":
stk.push(x + y);
break;
case "-":
stk.push(x - y);
break;
case "*":
stk.push(x * y);
break;
default:
stk.push(x / y);
break;
}
}
}
return stk.pop();
}
}class Solution {
public:
int evalRPN(vector<string>& tokens) {
stack<int> stk;
for (auto& t : tokens) {
if (t.size() > 1 || isdigit(t[0]))
{
stk.push(stoi(t));
}
else
{
int y = stk.top();
stk.pop();
int x = stk.top();
stk.pop();
if (t[0] == '+') stk.push(x + y);
else if (t[0] == '-') stk.push(x - y);
else if (t[0] == '*') stk.push(x * y);
else stk.push(x / y);
}
}
return stk.top();
}
};func evalRPN(tokens []string) int {
// https://github.com/emirpasic/gods#arraystack
stk := arraystack.New()
for _, token := range tokens {
if len(token) > 1 || token[0] >= '0' && token[0] <= '9' {
num, _ := strconv.Atoi(token)
stk.Push(num)
} else {
y := popInt(stk)
x := popInt(stk)
switch token {
case "+":
stk.Push(x + y)
case "-":
stk.Push(x - y)
case "*":
stk.Push(x * y)
default:
stk.Push(x / y)
}
}
}
return popInt(stk)
}
func popInt(stack *arraystack.Stack) int {
v, _ := stack.Pop()
return v.(int)
}