Find the minimum length word from a given dictionary words, which has all the letters from the string licensePlate. Such a word is said to complete the given string licensePlate
Here, for letters we ignore case. For example, "P" on the licensePlate still matches "p" on the word.
It is guaranteed an answer exists. If there are multiple answers, return the one that occurs first in the array.
The license plate might have the same letter occurring multiple times. For example, given a licensePlate of "PP", the word "pair" does not complete the licensePlate, but the word "supper" does.
Example 1:
Input: licensePlate = "1s3 PSt", words = ["step", "steps", "stripe", "stepple"]
Output: "steps"
Explanation: The smallest length word that contains the letters "S", "P", "S", and "T".
Note that the answer is not "step", because the letter "s" must occur in the word twice.
Also note that we ignored case for the purposes of comparing whether a letter exists in the word.
Example 2:
Input: licensePlate = "1s3 456", words = ["looks", "pest", "stew", "show"]
Output: "pest"
Explanation: There are 3 smallest length words that contains the letters "s".
We return the one that occurred first.
Note:
- licensePlate will be a string with length in range [1, 7].
- licensePlate will contain digits, spaces, or letters (uppercase or lowercase).
- words will have a length in the range [10, 1000].
- Every words[i] will consist of lowercase letters, and have length in range [1, 15].
Solution1:(TLE)
class Solution:
def shortestCompletingWord(self, licensePlate, words):
"""
:type licensePlate: str
:type words: List[str]
:rtype: str
"""
dic = []
for i in licensePlate:
if i.isalpha():
dic.append(i.lower())
# print(dic)
def bubble_sort(l):
for i in range(len(l)-1):
for j in range(len(l)-1-i):
if len(l[j])>len(l[j+1]):
l[j],l[j+1] = l[j+1],l[j]
# print(l)
def judge(a):
# print('a',a)
d = {}
for i in a:
if i not in d:
d[i] = 1
else:
d[i] += 1
# print('d',d)
for i in dic:
if i not in d:
return False
if d[i]<1:
return False
d[i] -= 1
return True
bubble_sort(words)
# print(words)
for word in words:
if judge(word):
return word
Solution2:
class Solution:
def shortestCompletingWord(self, licensePlate, words):
"""
:type licensePlate: str
:type words: List[str]
:rtype: str
"""
dic = []
for i in licensePlate:
if i.isalpha():
dic.append(i.lower())
# print(dic)
def judge(a):
# print('a',a)
d = {}
for i in a:
if i not in d:
d[i] = 1
else:
d[i] += 1
# print('d',d)
for i in dic:
if i not in d:
return False
if d[i]<1:
return False
d[i] -= 1
return True
words.sort(key = lambda x:len(x))
# print(words)
for word in words:
if judge(word):
return word
只是成了sort就过了,注意sort本身就是稳定的排序方法了。