timetracker/common/time.py

import re
from datetime import date, datetime, timedelta

from django.utils import timezone

from common.utils import generate_split_ranges

dateformat: str = "%d/%m/%Y"
datetimeformat: str = "%d/%m/%Y %H:%M"
timeformat: str = "%H:%M"
durationformat: str = "%2.1H hours"
durationformat_manual: str = "%H hours"


def _safe_timedelta(duration: timedelta | int | None):
    if duration == None:
        return timedelta(0)
    elif isinstance(duration, int):
        return timedelta(seconds=duration)
    elif isinstance(duration, timedelta):
        return duration


def format_duration(
    duration: timedelta | int | float | None, format_string: str = "%H hours"
) -> str:
    """
    Format timedelta into the specified format_string.
    Valid format variables:
    - %H hours
    - %m minutes
    - %s seconds
    - %r total seconds
    Values don't change into higher units if those units are missing
    from the formatting string. For example:
    - 61 seconds as "%s" = 61 seconds
    - 61 seconds as "%m %s" = 1 minutes 1 seconds"
    Format specifiers can include width and precision options:
    - %5.2H: hours formatted with width 5 and 2 decimal places (padded with zeros)
    """
    minute_seconds = 60
    hour_seconds = 60 * minute_seconds
    day_seconds = 24 * hour_seconds
    safe_duration = _safe_timedelta(duration)
    # we don't need float
    seconds_total = int(safe_duration.total_seconds())
    # timestamps where end is before start
    if seconds_total < 0:
        seconds_total = 0
    days = hours = hours_float = minutes = seconds = 0
    remainder = seconds = seconds_total
    if "%d" in format_string:
        days, remainder = divmod(seconds_total, day_seconds)
    if re.search(r"%\d*\.?\d*H", format_string):
        hours_float, remainder = divmod(remainder, hour_seconds)
        hours = float(hours_float) + remainder / hour_seconds
    if re.search(r"%\d*\.?\d*m", format_string):
        minutes, seconds = divmod(remainder, minute_seconds)
    literals = {
        "d": str(days),
        "H": str(hours) if "m" not in format_string else str(hours_float),
        "m": str(minutes),
        "s": str(seconds),
        "r": str(seconds_total),
    }
    formatted_string = format_string
    for pattern, replacement in literals.items():
        # Match format specifiers with optional width and precision
        match = re.search(rf"%(\d*\.?\d*){pattern}", formatted_string)
        if match:
            format_spec = match.group(1)
            if "." in format_spec:
                # Format the number as float if precision is specified
                replacement = f"{float(replacement):{format_spec}f}"
            else:
                # Format the number as integer if no precision is specified
                replacement = f"{int(float(replacement)):>{format_spec}}"
            # Replace the format specifier with the formatted number
            formatted_string = re.sub(
                rf"%\d*\.?\d*{pattern}", replacement, formatted_string
            )
    return formatted_string


def local_strftime(datetime: datetime, format: str = datetimeformat) -> str:
    return timezone.localtime(datetime).strftime(format)


def daterange(start: date, end: date, end_inclusive: bool = False) -> list[date]:
    time_between: timedelta = end - start
    if (days_between := time_between.days) < 1:
        raise ValueError("start and end have to be at least 1 day apart.")
    if end_inclusive:
        print(f"{end_inclusive=}")
        print(f"{days_between=}")
        days_between += 1
    print(f"{days_between=}")
    return [start + timedelta(x) for x in range(days_between)]


def streak(datelist: list[date]) -> dict[str, int | tuple[date, date]]:
    if len(datelist) == 1:
        return {"days": 1, "dates": (datelist[0], datelist[0])}
    else:
        print(f"Processing {len(datelist)} dates.")
        missing = sorted(
            set(
                datelist[0] + timedelta(x)
                for x in range((datelist[-1] - datelist[0]).days)
            )
            - set(datelist)
        )
        print(f"{len(missing)} days missing.")
        datelist_with_missing = sorted(datelist + missing)
        ranges = list(generate_split_ranges(datelist_with_missing, missing))
        print(f"{len(ranges)} ranges calculated.")
        longest_consecutive_days = timedelta(0)
        longest_range: tuple[date, date] = (date(1970, 1, 1), date(1970, 1, 1))
        for start, end in ranges:
            if (current_streak := end - start) > longest_consecutive_days:
                longest_consecutive_days = current_streak
                longest_range = (start, end)
        return {"days": longest_consecutive_days.days + 1, "dates": longest_range}


def streak_bruteforce(datelist: list[date]) -> dict[str, int | tuple[date, date]]:
    if (datelist_length := len(datelist)) == 0:
        raise ValueError("Number of dates in the list is 0.")
    datelist.sort()
    current_streak = 1
    current_start = datelist[0]
    current_end = datelist[0]
    current_date = datelist[0]
    highest_streak = 1
    highest_streak_daterange = (current_start, current_end)

    def update_highest_streak():
        nonlocal highest_streak, highest_streak_daterange
        if current_streak > highest_streak:
            highest_streak = current_streak
            highest_streak_daterange = (current_start, current_end)

    def reset_streak():
        nonlocal current_start, current_end, current_streak
        current_start = current_end = current_date
        current_streak = 1

    def increment_streak():
        nonlocal current_end, current_streak
        current_end = current_date
        current_streak += 1

    for i, datelist_item in enumerate(datelist, start=1):
        current_date = datelist_item
        if current_date == current_start or current_date == current_end:
            continue
        if current_date - timedelta(1) != current_end and i != datelist_length:
            update_highest_streak()
            reset_streak()
        elif current_date - timedelta(1) == current_end and i == datelist_length:
            increment_streak()
            update_highest_streak()
        else:
            increment_streak()
    return {"days": highest_streak, "dates": highest_streak_daterange}
Sort and clean up imports 2023-01-15 22:39:52 +00:00			`import re`
add streak-releted basic functionality 2024-09-04 19:58:56 +00:00			`from datetime import date, datetime, timedelta`
move time-related functionality out of views.general 2024-09-04 19:55:22 +00:00
			`from django.utils import timezone`

add streak-releted basic functionality 2024-09-04 19:58:56 +00:00			`from common.utils import generate_split_ranges`

move time-related functionality out of views.general 2024-09-04 19:55:22 +00:00			`dateformat: str = "%d/%m/%Y"`
			`datetimeformat: str = "%d/%m/%Y %H:%M"`
			`timeformat: str = "%H:%M"`
			`durationformat: str = "%2.1H hours"`
			`durationformat_manual: str = "%H hours"`
Add format_duration to common.util.time 2023-01-05 10:14:00 +00:00

Show playtime total on session list Fixes #6 Fixes #25 2023-01-09 17:57:22 +00:00			`def _safe_timedelta(duration: timedelta \| int \| None):`
			`if duration == None:`
			`return timedelta(0)`
			`elif isinstance(duration, int):`
			`return timedelta(seconds=duration)`
			`elif isinstance(duration, timedelta):`
			`return duration`


Add format_duration to common.util.time 2023-01-05 10:14:00 +00:00			`def format_duration(`
add more types 2024-08-08 19:19:43 +00:00			`duration: timedelta \| int \| float \| None, format_string: str = "%H hours"`
Add format_duration to common.util.time 2023-01-05 10:14:00 +00:00			`) -> str:`
			`"""`
			`Format timedelta into the specified format_string.`
			`Valid format variables:`
			`- %H hours`
			`- %m minutes`
			`- %s seconds`
Set up tests, add tests for common.util.time, add %d 2023-01-05 14:18:57 +00:00			`- %r total seconds`
Make format_duration more robust 2023-01-09 21:48:09 +00:00			`Values don't change into higher units if those units are missing`
			`from the formatting string. For example:`
			`- 61 seconds as "%s" = 61 seconds`
			`- 61 seconds as "%m %s" = 1 minutes 1 seconds"`
Display durations in a consistent manner Fixes #61 2023-10-13 14:32:12 +00:00			`Format specifiers can include width and precision options:`
			`- %5.2H: hours formatted with width 5 and 2 decimal places (padded with zeros)`
Add format_duration to common.util.time 2023-01-05 10:14:00 +00:00			`"""`
Set up tests, add tests for common.util.time, add %d 2023-01-05 14:18:57 +00:00			`minute_seconds = 60`
			`hour_seconds = 60 * minute_seconds`
			`day_seconds = 24 * hour_seconds`
Improve game overview - add counts for each section - add average hours per session 2023-10-08 22:00:45 +00:00			`safe_duration = _safe_timedelta(duration)`
Show playtime total on session list Fixes #6 Fixes #25 2023-01-09 17:57:22 +00:00			`# we don't need float`
Improve game overview - add counts for each section - add average hours per session 2023-10-08 22:00:45 +00:00			`seconds_total = int(safe_duration.total_seconds())`
Fix negative playtimes being considered positive 2023-01-05 16:13:45 +00:00			`# timestamps where end is before start`
			`if seconds_total < 0:`
			`seconds_total = 0`
Fix edge case in format_duration Fixes #65 ```python def test_specific_precise_if_unncessary(self): delta = timedelta(hours=2, minutes=40) result = format_duration(delta, "%02.0H:%02.0m") self.assertEqual(result, "02:40") ``` This test fails by returning "03:40" instead. The problem is in the way `format_duration` handles fractional hours. To fix it, we need to switch between using hours and fractional hours depending on if minutes are present in the formatted string. 2023-11-10 19:07:41 +00:00			`days = hours = hours_float = minutes = seconds = 0`
Make format_duration more robust 2023-01-09 21:48:09 +00:00			`remainder = seconds = seconds_total`
			`if "%d" in format_string:`
			`days, remainder = divmod(seconds_total, day_seconds)`
Display durations in a consistent manner Fixes #61 2023-10-13 14:32:12 +00:00			`if re.search(r"%\d\.?\dH", format_string):`
			`hours_float, remainder = divmod(remainder, hour_seconds)`
			`hours = float(hours_float) + remainder / hour_seconds`
			`if re.search(r"%\d\.?\dm", format_string):`
Make format_duration more robust 2023-01-09 21:48:09 +00:00			`minutes, seconds = divmod(remainder, minute_seconds)`
Set up tests, add tests for common.util.time, add %d 2023-01-05 14:18:57 +00:00			`literals = {`
Display durations in a consistent manner Fixes #61 2023-10-13 14:32:12 +00:00			`"d": str(days),`
Fix edge case in format_duration Fixes #65 ```python def test_specific_precise_if_unncessary(self): delta = timedelta(hours=2, minutes=40) result = format_duration(delta, "%02.0H:%02.0m") self.assertEqual(result, "02:40") ``` This test fails by returning "03:40" instead. The problem is in the way `format_duration` handles fractional hours. To fix it, we need to switch between using hours and fractional hours depending on if minutes are present in the formatted string. 2023-11-10 19:07:41 +00:00			`"H": str(hours) if "m" not in format_string else str(hours_float),`
Display durations in a consistent manner Fixes #61 2023-10-13 14:32:12 +00:00			`"m": str(minutes),`
			`"s": str(seconds),`
			`"r": str(seconds_total),`
Set up tests, add tests for common.util.time, add %d 2023-01-05 14:18:57 +00:00			`}`
			`formatted_string = format_string`
			`for pattern, replacement in literals.items():`
Display durations in a consistent manner Fixes #61 2023-10-13 14:32:12 +00:00			`# Match format specifiers with optional width and precision`
			`match = re.search(rf"%(\d\.?\d){pattern}", formatted_string)`
			`if match:`
			`format_spec = match.group(1)`
Do not format as float if no precision specified 2023-10-13 14:58:12 +00:00			`if "." in format_spec:`
			`# Format the number as float if precision is specified`
Display durations in a consistent manner Fixes #61 2023-10-13 14:32:12 +00:00			`replacement = f"{float(replacement):{format_spec}f}"`
Do not format as float if no precision specified 2023-10-13 14:58:12 +00:00			`else:`
			`# Format the number as integer if no precision is specified`
			`replacement = f"{int(float(replacement)):>{format_spec}}"`
Display durations in a consistent manner Fixes #61 2023-10-13 14:32:12 +00:00			`# Replace the format specifier with the formatted number`
			`formatted_string = re.sub(`
			`rf"%\d\.?\d{pattern}", replacement, formatted_string`
			`)`
Set up tests, add tests for common.util.time, add %d 2023-01-05 14:18:57 +00:00			`return formatted_string`
move time-related functionality out of views.general 2024-09-04 19:55:22 +00:00

			`def local_strftime(datetime: datetime, format: str = datetimeformat) -> str:`
			`return timezone.localtime(datetime).strftime(format)`


add streak-releted basic functionality 2024-09-04 19:58:56 +00:00			`def daterange(start: date, end: date, end_inclusive: bool = False) -> list[date]:`
			`time_between: timedelta = end - start`
			`if (days_between := time_between.days) < 1:`
			`raise ValueError("start and end have to be at least 1 day apart.")`
			`if end_inclusive:`
			`print(f"{end_inclusive=}")`
			`print(f"{days_between=}")`
			`days_between += 1`
			`print(f"{days_between=}")`
			`return [start + timedelta(x) for x in range(days_between)]`


			`def streak(datelist: list[date]) -> dict[str, int \| tuple[date, date]]:`
			`if len(datelist) == 1:`
			`return {"days": 1, "dates": (datelist[0], datelist[0])}`
			`else:`
			`print(f"Processing {len(datelist)} dates.")`
			`missing = sorted(`
			`set(`
			`datelist[0] + timedelta(x)`
			`for x in range((datelist[-1] - datelist[0]).days)`
			`)`
			`- set(datelist)`
			`)`
			`print(f"{len(missing)} days missing.")`
			`datelist_with_missing = sorted(datelist + missing)`
			`ranges = list(generate_split_ranges(datelist_with_missing, missing))`
			`print(f"{len(ranges)} ranges calculated.")`
			`longest_consecutive_days = timedelta(0)`
			`longest_range: tuple[date, date] = (date(1970, 1, 1), date(1970, 1, 1))`
			`for start, end in ranges:`
			`if (current_streak := end - start) > longest_consecutive_days:`
			`longest_consecutive_days = current_streak`
			`longest_range = (start, end)`
			`return {"days": longest_consecutive_days.days + 1, "dates": longest_range}`


			`def streak_bruteforce(datelist: list[date]) -> dict[str, int \| tuple[date, date]]:`
			`if (datelist_length := len(datelist)) == 0:`
			`raise ValueError("Number of dates in the list is 0.")`
			`datelist.sort()`
			`current_streak = 1`
			`current_start = datelist[0]`
			`current_end = datelist[0]`
			`current_date = datelist[0]`
			`highest_streak = 1`
			`highest_streak_daterange = (current_start, current_end)`

			`def update_highest_streak():`
			`nonlocal highest_streak, highest_streak_daterange`
			`if current_streak > highest_streak:`
			`highest_streak = current_streak`
			`highest_streak_daterange = (current_start, current_end)`

			`def reset_streak():`
			`nonlocal current_start, current_end, current_streak`
			`current_start = current_end = current_date`
			`current_streak = 1`

			`def increment_streak():`
			`nonlocal current_end, current_streak`
			`current_end = current_date`
			`current_streak += 1`

			`for i, datelist_item in enumerate(datelist, start=1):`
			`current_date = datelist_item`
			`if current_date == current_start or current_date == current_end:`
			`continue`
			`if current_date - timedelta(1) != current_end and i != datelist_length:`
			`update_highest_streak()`
			`reset_streak()`
			`elif current_date - timedelta(1) == current_end and i == datelist_length:`
			`increment_streak()`
			`update_highest_streak()`
			`else:`
			`increment_streak()`
			`return {"days": highest_streak, "dates": highest_streak_daterange}`