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shortest-completing-word.py
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shortest-completing-word.py
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# Time: O(n)
# Space: O(1)
# 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].
import collections
class Solution(object):
def shortestCompletingWord(self, licensePlate, words):
"""
:type licensePlate: str
:type words: List[str]
:rtype: str
"""
def contains(counter1, w2):
c2 = collections.Counter(w2.lower())
c2.subtract(counter1)
return all(map(lambda x: x >= 0, c2.values()))
result = None
counter = collections.Counter(c.lower() for c in licensePlate if c.isalpha())
for word in words:
if (result is None or (len(word) < len(result))) and \
contains(counter, word):
result = word
return result