from enum import IntEnum
from .cosine import Cosine
from .damerau import Damerau
from .jaccard import Jaccard
from .jarowinkler import JaroWinkler
from .levenshtein import Levenshtein
from .longest_common_subsequence import LongestCommonSubsequence
from .metric_lcs import MetricLCS
from .ngram import NGram
from .normalized_levenshtein import NormalizedLevenshtein
from .optimal_string_alignment import OptimalStringAlignment
from .qgram import QGram
from .sorensen_dice import SorensenDice
from .weighted_levenshtein import WeightedLevenshtein


class Algorithm(IntEnum):
    COSINE = 1
    DAMERAU = 2
    JACCARD = 3
    JARO_WINKLE = 4
    LEVENSHTEIN = 5
    LCS = 6
    METRIC_LCS = 7
    N_GRAM = 8
    NORMALIZED_LEVENSHTEIN = 9
    OPTIMAL_STRING_ALIGNMENT = 10
    Q_GRAM = 11
    SORENSEN_DICE = 12
    WEIGHTED_LEVENSHTEIN = 13


class Factory:
    @staticmethod
    def get_algorithm(algorithm: Algorithm, k=3):
        if algorithm == Algorithm.COSINE:
            return Cosine(k)
        elif algorithm == Algorithm.DAMERAU:
            return Damerau()
        elif algorithm == Algorithm.JACCARD:
            return Jaccard(k)
        elif algorithm == Algorithm.JARO_WINKLE:
            return JaroWinkler()
        elif algorithm == Algorithm.LEVENSHTEIN:
            return Levenshtein()
        elif algorithm == Algorithm.LCS:
            return LongestCommonSubsequence()
        elif algorithm == Algorithm.METRIC_LCS:
            return MetricLCS()
        elif algorithm == Algorithm.N_GRAM:
            return NGram()
        elif algorithm == Algorithm.NORMALIZED_LEVENSHTEIN:
            return NormalizedLevenshtein()
        elif algorithm == Algorithm.OPTIMAL_STRING_ALIGNMENT:
            return OptimalStringAlignment()
        elif algorithm == Algorithm.Q_GRAM:
            return QGram()
        elif algorithm == Algorithm.SORENSEN_DICE:
            return SorensenDice(k)
        elif algorithm == Algorithm.WEIGHTED_LEVENSHTEIN:
            raise TypeError("This method does not support create weighted_levenshtein algorithm.")
        else:
            return Cosine(k)

    @staticmethod
    def get_weighted_levenshtein(char_sub, char_change):
        return WeightedLevenshtein(char_sub, char_change)


if __name__ == "__main__":
    a = Factory().get_algorithm(Algorithm.LEVENSHTEIN)
    distance_format = "distance: {:.4} between {} and {}"
    s0 = "你好"
    s1 = "你好啊"
    print(distance_format.format(str(a.distance(s0, s1)), s0, s1))