import os
import pickle
import numpy as np

from tqdm import tqdm
from prettytable import PrettyTable
from pyarabic.araby import tokenize, strip_tashkeel
import diac_utils as du

class DatasetUtils:
    def __init__(self, config):
        self.base_path = config["paths"]["base"]
        self.special_tokens = ['<pad>', '<unk>', '<num>', '<punc>'] 
        self.delimeters = config["sentence-break"]["delimeters"]
        self.load_constants(config["paths"]["constants"])
        self.debug = config["debug"]

        self.stride = config["sentence-break"]["stride"]
        self.window = config["sentence-break"]["window"]
        self.val_stride = config["sentence-break"].get("val-stride", self.stride)

        self.test_stride = config["predictor"]["stride"]
        self.test_window = config["predictor"]["window"]
        
        self.max_word_len = config["train"]["max-word-len"]
        self.max_sent_len = config["train"]["max-sent-len"]
        self.max_token_count = config["train"]["max-token-count"]
        self.pad_target_val = -100
        self.pad_char_id = du.DIAC_PAD_IDX #LETTER_LIST.index('<pad>')

        self.markov_signal = config['train'].get('markov-signal', False)
        self.batch_first = config['train'].get('batch-first', True)

        self.gt_prob = config["predictor"]["gt-signal-prob"]
        if self.gt_prob > 0:
            self.s_idx = config["predictor"]["seed-idx"]
            subpath = f"test_gt_mask_{self.gt_prob}_{self.s_idx}.txt"
            mask_path = os.path.join(self.base_path, "test", subpath)
            with open(mask_path, 'r') as fin:
                self.gt_mask = fin.readlines()

        if "word-embs" in config["paths"] and config["paths"]["word-embs"].strip() != "":
            self.pad_val = self.special_tokens.index("<pad>")
            self.embeddings, self.vocab = self.load_embeddings(config["paths"]["word-embs"], config["loader"]["wembs-limit"])
            self.embeddings = self.normalize(self.embeddings, ["unit", "centeremb", "unit"])
            self.w2idx = {word: i for i, word in enumerate(self.vocab)}

    def load_file(self, path):
        with open(path, 'rb') as f:
            return list(pickle.load(f))

    def normalize(self, matrix, actions, mean=None):
        def length_normalize(matrix):
            norms = np.sqrt(np.sum(matrix**2, axis=1))
            norms[norms == 0] = 1
            matrix = matrix / norms[:, np.newaxis]
            return matrix

        def mean_center(matrix):
            return matrix - mean

        def length_normalize_dimensionwise(matrix):
            norms = np.sqrt(np.sum(matrix**2, axis=0))
            norms[norms == 0] = 1
            matrix = matrix / norms
            return matrix

        def mean_center_embeddingwise(matrix):
            avg = np.mean(matrix, axis=1)
            matrix = matrix - avg[:, np.newaxis]
            return matrix

        for action in actions:
            if action == 'unit':
                matrix = length_normalize(matrix)
            elif action == 'center':
                matrix = mean_center(matrix)
            elif action == 'unitdim':
                matrix = length_normalize_dimensionwise(matrix)
            elif action == 'centeremb':
                matrix = mean_center_embeddingwise(matrix)

        return matrix

    def load_constants(self, path):
        # self.numbers = [c for c in "0123456789"]
        # self.letter_list = self.special_tokens + self.load_file(os.path.join(path, 'ARABIC_LETTERS_LIST.pickle'))
        # self.diacritic_list = [' '] + self.load_file(os.path.join(path, 'DIACRITICS_LIST.pickle'))
        self.numbers = du.NUMBERS
        self.letter_list = du.LETTER_LIST
        self.diacritic_list = du.DIACRITICS_SHORT

    def split_word_on_characters_with_diacritics(self, word: str):
        return du.split_word_on_characters_with_diacritics(word)

    def load_mapping_v3(self, dtype, file_ext=None):
        mapping = {}
        if file_ext is None:
            file_ext = f"-{self.test_stride}-{self.test_window}.map"
        f_name = os.path.join(self.base_path, dtype, dtype + file_ext)
        with open(f_name, 'r') as fin:
            for line in fin:
                sent_idx, seg_idx, t_idx, c_idx = map(int, line.split(','))
                if sent_idx not in mapping:
                    mapping[sent_idx] = {}
                if seg_idx not in mapping[sent_idx]:
                    mapping[sent_idx][seg_idx] = {}
                if t_idx not in mapping[sent_idx][seg_idx]:
                    mapping[sent_idx][seg_idx][t_idx] = []
                mapping[sent_idx][seg_idx][t_idx] += [c_idx]
        return mapping

    def load_mapping_v3_from_list(self, mapping_list):
        mapping = {}
        for line in mapping_list:
            sent_idx, seg_idx, t_idx, c_idx = map(int, line.split(','))
            if sent_idx not in mapping:
                mapping[sent_idx] = {}
            if seg_idx not in mapping[sent_idx]:
                mapping[sent_idx][seg_idx] = {}
            if t_idx not in mapping[sent_idx][seg_idx]:
                mapping[sent_idx][seg_idx][t_idx] = []
            mapping[sent_idx][seg_idx][t_idx] += [c_idx]
        return mapping
    
    def load_embeddings(self, embs_path, limit=-1):
        if self.debug:
            return np.zeros((200+len(self.special_tokens),300)), self.special_tokens + ["c"] * 200

        words = [self.special_tokens[0]]
        print(f"[INFO] Reading Embeddings from {embs_path}")
        with open(embs_path, encoding='utf-8', mode='r') as fin:
            n, d = map(int, fin.readline().split())
            limit = n if limit <= 0 else limit
            embeddings = np.zeros((limit+1, d))
            for i, line in tqdm(enumerate(fin), total=limit):
                if i >= limit: break
                tokens = line.rstrip().split()
                words += [tokens[0]]
                embeddings[i+1] = list(map(float, tokens[1:]))
        return embeddings, words

    def load_file_clean(self, dtype, strip=False):
        f_name = os.path.join(self.base_path, dtype, dtype + ".txt")
        with open(f_name, 'r', encoding="utf-8", newline='\n') as fin:
            if strip:
                original_lines = [strip_tashkeel(self.preprocess(line)) for line in fin.readlines()]
            else:
                original_lines = [self.preprocess(line) for line in fin.readlines()]
        return original_lines

    def preprocess(self, line):
        return ' '.join(tokenize(line))

    def pad_and_truncate_sequence(self, tokens, max_len, pad=None):
        if pad is None: 
            pad = self.special_tokens.index("<pad>")
        if len(tokens) < max_len:
            offset = max_len - len(tokens)
            return tokens + [pad] * offset
        else:
            return tokens[:max_len]

    def stats(self, freq, percentile=90, name="stats"):
        table = PrettyTable(["Dataset", "Mean", "Std", "Min", "Max", f"{percentile}th Percentile"])
        freq = np.array(sorted(freq))
        table.add_row([name, freq.mean(), freq.std(), freq.min(), freq.max(), np.percentile(freq, percentile)])
        print(table)

    def create_gt_mask(self, lines, prob, idx, seed=1111):
        np.random.seed(seed)

        gt_masks = []
        for line in lines:
            tokens = tokenize(line.strip())
            gt_mask_token = ""
            for t_idx, token in enumerate(tokens):
                gt_mask_token += ''.join(map(str, np.random.binomial(1, prob, len(token))))
                if t_idx+1 < len(tokens):
                    gt_mask_token += " "
            gt_masks += [gt_mask_token]

        subpath = f"test_gt_mask_{prob}_{idx}.txt"
        mask_path = os.path.join(self.base_path, "test", subpath)

        with open(mask_path, 'w') as fout:
            fout.write('\n'.join(gt_masks))

    def create_gt_labels(self, lines):
        gt_labels = []
        for line in lines:
            gt_labels_line = []
            tokens = tokenize(line.strip())
            for w_idx, word in enumerate(tokens):
                split_word = self.split_word_on_characters_with_diacritics(word)
                _, cy_flat, _ = du.create_label_for_word(split_word)

                gt_labels_line.extend(cy_flat)
                if w_idx+1 < len(tokens):
                    gt_labels_line += [0]

            gt_labels += [gt_labels_line]
        return gt_labels

    def get_ce(self, diac_word_y, e_idx=None, return_idx=False):
        #^ diac_word_y: [Tw 3]
        if e_idx is None: e_idx = len(diac_word_y)
        for c_idx in reversed(range(e_idx)):
            if diac_word_y[c_idx] != [0,0,0]:
                return diac_word_y[c_idx] if not return_idx else c_idx
        return diac_word_y[e_idx-1] if not return_idx else e_idx-1

    def create_decoder_input(self, diac_code_y, prob=0):
        #^ diac_code_y: [Ts Tw 3]
        diac_code_x = np.zeros((*np.array(diac_code_y).shape[:-1], 8))
        if not self.markov_signal:
            return list(diac_code_x)
        prev_ce = list(np.eye(6)[-1]) + [0,0] # bos tag
        for w_idx, word in enumerate(diac_code_y):
            diac_code_x[w_idx, 0, :] = prev_ce
            for c_idx, char in enumerate(word[:-1]):
                # if np.random.rand() < prob: 
                #     continue 
                if char[0] == self.pad_target_val: 
                    break
                haraka = list(np.eye(6)[char[0]])
                diac_code_x[w_idx, c_idx+1, :] = haraka + char[1:]
            ce = self.get_ce(diac_code_y[w_idx], c_idx)
            prev_ce = list(np.eye(6)[ce[0]]) + ce[1:]
        return list(diac_code_x)