import pandas as pd
import os, re
import numpy as np
from urllib.parse import urlencode, urlparse
import urllib.request
import json
from time import time

MS_IN_WEEK = 604800000

class DataProvider:
    chunk_size = 50000

    def __init__(self, datasource, target, data_filename):
        self.datasource = datasource
        self.target = target
        self.data_filename = data_filename
        self.last_time = None
        self.total_size = 0
        self.last_chunk_index = 0
        self.chunk_last_times = {}
        self.__init_chunks()
        self.synchronize()

    def get_dataframe(self, after_time=None):
        result = pd.DataFrame()
        for chunk_index, last_chunk_time in self.chunk_last_times.items():
            if after_time is None or after_time <= last_chunk_time:
                chunk = self.__load_chunk(chunk_index)
                if after_time is not None:
                    chunk = chunk[chunk['timestamp'] >= after_time]
                result = pd.concat([result, chunk])
        return result

    def get_upper_bound(self, after_time):
        for chunk_index, last_chunk_time in self.chunk_last_times.items():
            if after_time < last_chunk_time:
                chunk = self.__load_chunk(chunk_index)
                chunk = chunk[chunk['timestamp'] >= after_time]
                return chunk.index[0]
        return self.size()

    def size(self):
        return self.total_size

    def get_data_range(self, start_index, stop_index=None):
        return self.__get_data(start_index, stop_index)

    def transform_anomalies(self, anomalies):
        result = []
        if len(anomalies) == 0:
            return result
        dataframe = self.get_dataframe(None)
        for anomaly in anomalies:
            start_time = pd.to_datetime(anomaly['start'] - 1, unit='ms')
            finish_time = pd.to_datetime(anomaly['finish'] + 1, unit='ms')
            current_index = (dataframe['timestamp'] >= start_time) & (dataframe['timestamp'] <= finish_time)
            anomaly_frame = dataframe[current_index]
            if anomaly_frame.empty:
                continue

            cur_anomaly = {
                'start': anomaly_frame.index[0],
                'finish': anomaly_frame.index[len(anomaly_frame) - 1],
                'labeled': anomaly['labeled']
            }
            result.append(cur_anomaly)
        return result

    def inverse_transform_indexes(self, indexes):
        if len(indexes) == 0:
            return []
        dataframe = self.get_data_range(indexes[0][0], indexes[-1][1] + 1)

        return [(dataframe['timestamp'][i1], dataframe['timestamp'][i2]) for (i1, i2) in indexes]

    def synchronize(self):
        append_dataframe = self.load_from_db(self.last_time)
        self.__append_data(append_dataframe)

    def custom_query(self, after_time, before_time = None):
        if self.datasource['type'] == 'influxdb':
            query = self.datasource['params']['q']
            if after_time is not None:
                if before_time is not None:
                    timeFilter = 'time >= %s AND time <= %s' % (after_time, before_time)
                else:
                    timeFilter = 'time >= "%s"' % (str(after_time))
            else:
                timeFilter = 'time > 0ms'
            query = re.sub(r'(?:time >.+?)(GROUP.+)*$', timeFilter + r' \1', query)
            return query
        else:
            raise 'Datasource type ' + self.datasource['type'] + ' is not supported yet'

    def load_from_db(self, after_time=None):
        result = self.__load_data_chunks(after_time)
        if result == None or len(result['values']) == 0:
            dataframe = pd.DataFrame([])
        else:
            dataframe = pd.DataFrame(result['values'], columns = result['columns'])
            cols = dataframe.columns.tolist()
            cols.remove('time')
            cols = ['time'] + cols
            dataframe = dataframe[cols]
            dataframe['time'] = pd.to_datetime(dataframe['time'], unit='ms')
            dataframe = dataframe.dropna(axis=0, how='any')

        return dataframe

    def __load_data_chunks(self, after_time = None):
        params = self.datasource['params']

        if after_time == None:
            res = {
                'columns': [],
                'values': []
            }

            after_time = int(time()*1000 - MS_IN_WEEK)
            before_time = int(time()*1000)
            while True:
                params['q'] = self.custom_query(str(after_time) + 'ms', str(before_time) + 'ms')
                serie = self.__query_grafana(params)

                if serie != None:
                    res['columns'] = serie['columns']
                    res['values'] += serie['values']

                    after_time -= MS_IN_WEEK
                    before_time -= MS_IN_WEEK
                else:
                    return res
        else:
            params['q'] = self.custom_query(str(after_time))

            return self.__query_grafana(params)

    def __query_grafana(self, params):
        
        headers = { 'Authorization': 'Bearer ' + os.environ['HASTIC_API_KEY'] }
        url = self.datasource['origin'] + '/' + self.datasource['url'] + '?' + urlencode(params)

        req = urllib.request.Request(url, headers=headers)
        with urllib.request.urlopen(req) as resp:
            res = json.loads(resp.read().decode('utf-8'))['results'][0]
            if 'series' in res:
                return res['series'][0]
            else:
                return None

    def __init_chunks(self):
        chunk_index = 0
        self.last_chunk_index = 0
        while True:
            filename = self.data_filename
            if chunk_index > 0:
                filename += "." + str(chunk_index)
            if os.path.exists(filename):
                self.last_chunk_index = chunk_index
                chunk = self.__load_chunk(chunk_index)
                chunk_last_time = chunk.iloc[len(chunk) - 1]['timestamp']
                self.chunk_last_times[chunk_index] = chunk_last_time
                self.last_time = chunk_last_time
            else:
                break
            chunk_index += 1
        self.total_size = self.last_chunk_index * self.chunk_size
        last_chunk = self.__load_chunk(self.last_chunk_index)
        self.total_size += len(last_chunk)

    def __load_chunk(self, index):
        filename = self.data_filename
        if index > 0:
            filename += "." + str(index)

        if os.path.exists(filename):
            chunk = pd.read_csv(filename, parse_dates=[0])
            frame_index = np.arange(index * self.chunk_size, index * self.chunk_size + len(chunk))
            chunk = chunk.set_index(frame_index)
            return chunk.rename(columns={chunk.columns[0]: "timestamp", chunk.columns[1]: "value"})
        return pd.DataFrame()

    def __save_chunk(self, index, dataframe):
        filename = self.data_filename
        if index > 0:
            filename += "." + str(index)

        chunk_last_time = dataframe.iloc[len(dataframe) - 1]['time']
        self.chunk_last_times[index] = chunk_last_time

        if os.path.exists(filename):
            dataframe.to_csv(filename, mode='a', index=False, header=False)
        else:
            dataframe.to_csv(filename, mode='w', index=False, header=True)

    def __append_data(self, dataframe):
        while len(dataframe) > 0:
            chunk = self.__load_chunk(self.last_chunk_index)
            rows_count = min(self.chunk_size - len(chunk), len(dataframe))

            rows = dataframe.iloc[0:rows_count]

            if len(rows) > 0:
                self.__save_chunk(self.last_chunk_index, rows)
                self.total_size += rows_count

                self.last_time = rows.iloc[-1]['time']
                dataframe = dataframe[rows_count:]

            if len(dataframe) > 0:
                self.last_chunk_index += 1

    def __get_data(self, start_index, stop_index):
        result = pd.DataFrame()
        start_chunk = start_index // self.chunk_size
        finish_chunk = self.last_chunk_index
        if stop_index is not None:
            finish_chunk = stop_index // self.chunk_size
        for chunk_num in range(start_chunk, finish_chunk + 1):
            chunk = self.__load_chunk(chunk_num)
            if stop_index is not None and chunk_num == finish_chunk:
                chunk = chunk[:stop_index % self.chunk_size]
            if chunk_num == start_chunk:
                chunk = chunk[start_index % self.chunk_size:]
            result = pd.concat([result, chunk])
        return result