master/mt.py

import time
from math import ceil
from threading import Thread, Lock


class mt():
    def __init__(self, threads, data, verbose=False, progressinterval=1000):
        self.__running = False
        self.__closed = False
        self.__data = data
        self.__verbose = verbose
        # dummy
        self.__final = None
        self.__comment = None
        self.__starttime = None
        self.__endtime = None
        self.__type = None
        # thread things
        self.__threadcount = threads
        self.__threads = []
        self.__lock = Lock()
        self.__results = []
        self.__progress = 0
        self.__progressinterval = progressinterval
        for i in range(self.__threadcount):
            self.__results.append([])
            self.__threads.append(None)

    def filter(self, cond, comment=None):
        if self.__closed:
            raise RuntimeError("Already closed")
        if self.__running:
            self.join()
            self.__data = self.getresults()
            self.__progress = 0
        self.__running = True
        self.__final = self.__getresultsmapfilter
        self.__type = "filter"
        self.__comment = comment
        if comment is not None:
            print(self.__comment + ": 0/" + str(len(self.__data)) + " ...", end='\n' if self.__verbose else '', flush=True)
        self.__starttime = self.__cms()
        self.__endtime = None
        for i in range(self.__threadcount):
            part = self.__data[i * len(self.__data) // self.__threadcount:(i + 1) * len(self.__data) // self.__threadcount]
            self.__threads[i] = Thread(target=self.__dofilter, args=(i, part, cond))
            self.__threads[i].start()
        return self

    def __dofilter(self, i, list, cond):
        now = self.__cms()

        results = []
        for j in range(ceil(len(list) / self.__progressinterval)):
            part = list[j * self.__progressinterval: min((j + 1) * self.__progressinterval, len(list))]
            results += [l for l in part if cond(l)]
            with self.__lock:
                self.__progress += len(part)
                if self.__comment is not None:
                    print("\r" + self.__comment + ": " + str(self.__progress) + "/" + str(len(self.__data)) + " ...", end='', flush=True)

        with self.__lock:
            self.__results[i] = results
        dur = self.__cms() - now
        if self.__verbose:
            if self.__comment is not None:
                print(self.__comment + ": Thread " + str(i) + ": filter took " + str(dur) + "ms")
            else:
                print("Thread " + str(i) + ": filter took " + str(dur) + "ms")

    def map(self, func, comment=None):
        if self.__closed:
            raise RuntimeError("Already closed")
        if self.__running:
            self.join()
            self.__data = self.getresults()
            self.__progress = 0
        self.__running = True
        self.__final = self.__getresultsmapfilter
        self.__type = "map"
        self.__comment = comment
        if comment is not None:
            print(self.__comment + ": 0/" + str(len(self.__data)) + " ...", end='\n' if self.__verbose else '', flush=True)
        self.__starttime = self.__cms()
        self.__endtime = None
        for i in range(self.__threadcount):
            part = self.__data[i * len(self.__data) // self.__threadcount:(i + 1) * len(self.__data) // self.__threadcount]
            self.__threads[i] = Thread(target=self.__domap, args=(i, part, func))
            self.__threads[i].start()
        return self

    def __domap(self, i, list, func):
        now = self.__cms()
        results = []
        for j in range(ceil(len(list) / self.__progressinterval)):
            part = list[j * self.__progressinterval: min((j + 1) * self.__progressinterval, len(list))]
            results += [func(l) for l in part]
            with self.__lock:
                self.__progress += len(part)
                if self.__comment is not None:
                    print("\r" + self.__comment + ": " + str(self.__progress) + "/" + str(len(self.__data)) + " ...", end='', flush=True)

        with self.__lock:
            self.__results[i] = results
        dur = self.__cms() - now
        if self.__verbose:
            if self.__comment is not None:
                print(self.__comment + ": Thread " + str(i) + ": filter took " + str(dur) + "ms")
            else:
                print("Thread " + str(i) + ": filter took " + str(dur) + "ms")

    def reduce(self, reducer, aggregator, initval, comment=None):
        if self.__closed:
            raise RuntimeError("Already closed")
        if self.__running:
            self.join()
            self.__data = self.getresults()
            self.__progress = 0
        self.__running = True
        self.__final = lambda: self.__getresultsreduce(aggregator, initval)
        self.__type = "reduce"
        self.__comment = comment
        if comment is not None:
            print(self.__comment + ": 0/" + str(len(self.__data)) + " ...", end='\n' if self.__verbose else '', flush=True)
        self.__starttime = self.__cms()
        self.__endtime = None
        for i in range(self.__threadcount):
            part = self.__data[i * len(self.__data) // self.__threadcount:(i + 1) * len(self.__data) // self.__threadcount]
            self.__threads[i] = Thread(target=self.__doreduce, args=(i, part, reducer, initval))
            self.__threads[i].start()
        return self

    def __doreduce(self, i, list, reducer, initval):
        now = self.__cms()
        val = initval()

        for j in range(ceil(len(list) / self.__progressinterval)):
            part = list[j * self.__progressinterval: min((j + 1) * self.__progressinterval, len(list))]
            for k in range(len(part)):
                val = reducer(val, part[k])
            with self.__lock:
                self.__progress += len(part)
                if self.__comment is not None:
                    print("\r" + self.__comment + ": " + str(self.__progress) + "/" + str(len(self.__data)) + " ...", end='', flush=True)

        with self.__lock:
            self.__results[i] = val
        dur = self.__cms() - now
        if self.__verbose:
            if self.__comment is not None:
                print(self.__comment + ": Thread " + str(i) + ": filter took " + str(dur) + "ms")
            else:
                print("Thread " + str(i) + ": filter took " + str(dur) + "ms")

    def getresults(self):
        self.join()
        return self.__final()

    def __getresultsmapfilter(self):
        res = []
        for i in range(self.__threadcount):
            res += self.__results[i]
        return res

    def __getresultsreduce(self, aggregator, initval):
        val = initval()
        for j in range(self.__threadcount):
            val = aggregator(val, self.__results[j])
        return val

    def join(self):
        if self.__closed:
            raise RuntimeError("Already closed")
        for i in range(self.__threadcount):
            if self.__threads[i] is not None:
                self.__threads[i].join()
                self.__threads[i] = None
        if self.__endtime is None:
            self.__endtime = self.__cms()
            if self.__comment is not None:
                dur = self.__endtime - self.__starttime
                if self.__verbose:
                    print(self.__comment + ": " + str(self.__progress) + "/" + str(len(self.__data)) + (
                        " -> #" + str(sum([len(l) for l in self.__results])) if self.__type == "filter" else "") + " ... took " + str(dur) + "ms")
                else:
                    print("\r" + self.__comment + ": " + str(self.__progress) + "/" + str(len(self.__data)) + (
                        " -> #" + str(sum([len(l) for l in self.__results])) if self.__type == "filter" else "") + " ... took " + str(dur) + "ms")
        return self

    def close(self):
        if self.__closed:
            raise RuntimeError("Already closed")
        self.join()
        self.__closed = True

    def __cms(self):
        return int(round(time.time() * 1000))