给定 pushed 和 popped 两个序列,每个序列中的 值都不重复,只有当它们可能是在最初空栈上进行的推入 push 和弹出 pop 操作序列的结果时,返回 true;否则,返回 false 。
示例1:
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| 输入:pushed = [1,2,3,4,5], popped = [4,5,3,2,1]
输出:true
解释:我们可以按以下顺序执行:
push(1), push(2), push(3), push(4), pop() -> 4,
push(5), pop() -> 5, pop() -> 3, pop() -> 2, pop() -> 1
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示例2:
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| 输入:pushed = [1,2,3,4,5], popped = [4,3,5,1,2]
输出:false
解释:1 不能在 2 之前弹出。
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提示:
0 <= pushed.length == popped.length <= 10000 <= pushed[i], popped[i] < 1000pushed 是 popped 的排列。
来源:力扣(LeetCode)
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题解:
本题只讲思路,至于是用数组、栈、还是链表实现由你。遍历pushed数组,如果当前元素和popped数组当前所指元素相等,则指向pushed数组指针回退一格,指向popped数组指针前进一格,如果不等则指向pushed数组指针继续向前遍历,这里我采用栈结构实现。
具体代码如下:
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| class Solution {
public boolean validateStackSequences(int[] pushed, int[] popped) {
Deque<Integer> stack = new ArrayDeque();
int popIndex = 0;
for (int x : pushed) {
stack.push(x);
while (!stack.isEmpty() && stack.peek() == popped[popIndex]) {
stack.pop();
popIndex++;
}
}
return stack.isEmpty();
}
}
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链表结构实现:
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| class Solution {
public boolean validateStackSequences(int[] pushed, int[] popped) {
LinkedList<Integer> stack = new LinkedList<>();
int popIndex = 0;
for (int x : pushed) {
stack.push(x);
while (!stack.isEmpty() && stack.peek() == popped[popIndex]) {
stack.pop();
popIndex++;
}
}
return stack.isEmpty();
}
}
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数组结构实现:
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| class Solution {
public boolean validateStackSequences(int[] pushed, int[] popped) {
int[] stack = new int[pushed.length];
int pushIndex = 0, popIndex = 0;
for (int i = 0; i < pushed.length; i++) {
stack[pushIndex++] = pushed[i];
while (pushIndex > 0 && popped[popIndex] == stack[pushIndex - 1]) {
pushIndex--;
popIndex++;
}
}
return pushIndex == 0;
}
}
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