q-tools/web/transfer-time

#!/usr/bin/env python3

import argparse
import datetime
import os
import sys


def is_digit(d):
    try:
        d = int(d)
        return True
    except ValueError:
        return False


def is_numerical(f):
    try:
        f = float(f)
        return True
    except ValueError:
        return False


def get_files_size(path):

    if not os.path.exists(path):
        return None

    if os.path.isfile(path):
        return float(os.path.getsize(path))

    total_size = 0
    for dirpath, dirnames, filenames in os.walk(path):
        for f in filenames:
            fp = os.path.join(dirpath, f)
            total_size += os.path.getsize(fp)
    return float(total_size)


def get_numerical(num_string):

    num_string = num_string.lower()
    numerical_part = ""
    last_digit = 0
    for i, c in enumerate(num_string):
        if is_digit(c):
            last_digit = i + 1
            numerical_part = num_string[0:last_digit]

    if not is_numerical(numerical_part):
        return None, None

    return numerical_part, last_digit


def parse_options():
    parser = argparse.ArgumentParser(
        description="Transfer time calculator.  Two arguments only! The third is calculated.",
        epilog="You may omit the 'b' to time events. ex. '20 minutes / task, 7 tasks to do': %(prog)s 3/h 7",
    )
    parser.add_argument(
        "--rate",
        "-r",
        help="Rate: inverse of speed. ex: 0.1s/b",
        action="store",
        default=None,
    )
    parser.add_argument(
        "--speed", "-v", help="Speed of transfer (ex. 3.2Mb/s). Time units: s, m, h, d, w", default=None
    )
    parser.add_argument(
        "--size",
        "-s",
        help="Data size (ex. 4.55GB), or folder/file path. Units: b, kb, mb, gb, tb, pb or kib, mib ... ",
        default=None,
    )
    parser.add_argument(
        "--time", "-t", help="Time used to transfer Units: s,m,h,d or [dd]:[hh]:[mm]:[ss].[ss]... ", default=None
    )
    parsed = parser.parse_args()
    if parsed.rate and parsed.speed:
        parser.error("Can't use both rate and speed")

    if (
        sum((int(parsed.speed is None and parsed.rate is None), int(parsed.time is None), int(parsed.size is None)))
        != 1
    ):
        parser.error("Exactly two measures required")

    return parsed


def parse_rate(rate_string):

    if not "/" in rate_string:
        return None

    (divisor_string, divider_string) = rate_string.split("/", 1)

    numerical_part, last_digit = get_numerical(divisor_string)

    if not is_numerical(numerical_part):
        return None

    numerical_part = float(numerical_part)
    multiplier = divisor_string[last_digit:]

    divider = parse_size("1" + divider_string)
    if divider == None:
        # Cannot parse
        return divider

    if multiplier == "s":
        return divider / 1 / numerical_part

    if multiplier == "m":
        return divider / 60 / numerical_part
    if multiplier == "h":
        return divider / 3600 / numerical_part
    if multiplier == "d":
        return divider / (24 * 3600) / numerical_part

    return None


def parse_size(size_string):

    numerical_part, last_digit = get_numerical(size_string)
    if not is_numerical(numerical_part):
        return None

    numerical_part = float(numerical_part)
    multiplier_part = size_string[last_digit:]

    if multiplier_part in ("b", ""):
        return numerical_part

    if multiplier_part == "kb":
        return 1024 * numerical_part
    if multiplier_part == "mb":
        return 1024**2 * numerical_part
    if multiplier_part == "gb":
        return 1024**3 * numerical_part
    if multiplier_part == "tb":
        return 1024**4 * numerical_part
    if multiplier_part == "pb":
        return 1024**5 * numerical_part

    if multiplier_part == "kib":
        return 1000 * numerical_part
    if multiplier_part == "mib":
        return 1000**2 * numerical_part
    if multiplier_part == "gib":
        return 1000**3 * numerical_part
    if multiplier_part == "tib":
        return 1000**4 * numerical_part
    if multiplier_part == "pib":
        return 1000**5 * numerical_part

    return None


def parse_speed(speed_string):

    if not "/" in speed_string:
        return None

    (divisor_string, divider_string) = speed_string.split("/", 1)
    divisor = parse_size(divisor_string)

    if divisor == None:
        # Cannot parse
        return divisor

    if divider_string == "s":
        return divisor
    if divider_string == "m":
        return divisor / 60
    if divider_string == "h":
        return divisor / 3600
    if divider_string == "d":
        return divisor / (24 * 3600)

    return None


def parse_time(time_string):
    """Return in seconds"""
    if ":" in time_string:
        split_time = time_string.split(":")
        if len(split_time) > 0:
            s = float(split_time.pop())
        if len(split_time) > 0:
            s += 60 * float(split_time.pop())
        if len(split_time) > 0:
            s += 60 * 60 * float(split_time.pop())
        if len(split_time) > 0:
            s += 24 * 60 * 60 * float(split_time.pop())
        if len(split_time) > 0:
            raise ValueError("Too many digits in time string")
        return s

    if is_numerical(time_string):
        return float(time_string)

    value = float(time_string[0:-1])
    unit = time_string[-1]

    if unit == "s":
        return value
    if unit == "m":
        return 60 * value
    if unit == "h":
        return 60 * 60 * value
    if unit == "d":
        return 24 * 60 * 60 * value
    if unit == "w":
        return 7 * 24 * 60 * 60 * value
    if unit == "y":
        return 365 * 24 * 60 * 60 * value

    raise ValueError("Can't parse time unit")


def print_err(s):
    sys.stderr.write(str(s) + "\n")
    sys.stderr.flush()


def time_human(seconds):
    return str(datetime.timedelta(seconds=seconds))


def size_human(size, precision=1):
    if size == None:
        return "nan"
    suffixes = ["B", "KB", "MB", "GB", "TB", "PB"]
    suffixIndex = 0
    defPrecision = 0
    while size > 1024:
        suffixIndex += 1  # increment the index of the suffix
        size = float(size / 1024.0)  # apply the division
        defPrecision = precision
    return "%.*f%s" % (defPrecision, size, suffixes[suffixIndex])


if __name__ == "__main__":
    opts = parse_options()
    speed, size, time = (None, None, None)

    if opts.rate is not None:
        speed = parse_rate(opts.rate.lower())
        if speed is None:
            raise ValueError("Cannot parse rate ( ex. 3.5s/kb ), Rate: %s" % (opts.speed,))

    if opts.speed is not None:
        speed = parse_speed(opts.speed.lower())
        if speed is None:
            raise ValueError("Cannot parse speed ( ex. 3.5Mb/s ), Speed: %s" % (opts.speed,))

    if opts.size is not None:
        if os.path.exists(opts.size):
            size = get_files_size(opts.size)
        else:
            size = parse_size(opts.size.lower())

        if size is None:
            raise ValueError(
                "Cannot parse size, and it's not a path either ( ex. 11Gb / file.name ), Size: %s" % (opts.size,)
            )

    if opts.time is not None:
        time = parse_time(opts.time.lower())

    if time is None:
        print(f"Transfer time: {time_human(round(size / speed))}")
    if size is None:
        print(f"Transferred size: {size_human(speed * time)}")
    if speed is None:
        print(f"Transfer speed: {size_human(size/time)}/s")