diff --git a/requirements.txt b/requirements.txt index 59d2477..efea121 100644 --- a/requirements.txt +++ b/requirements.txt @@ -1,34 +1,39 @@ backcall==0.1.0 +chardet==3.0.4 Click==7.0 dateparser==0.7.2 -decorator==4.4.0 +DateTimeRange==0.6.1 +decorator==4.4.1 Flask==1.1.1 -freezegun==0.3.12 +freezegun==0.3.14 fuzzywuzzy==0.17.0 -geographiclib==1.49 -geopy==1.20.0 +geographiclib==1.50 +geopy==1.21.0 importlib-resources==1.0.2 -ipython==7.8.0 +ipython==7.12.0 ipython-genutils==0.2.0 +isodate==0.6.0 itsdangerous==1.1.0 -jedi==0.15.1 -Jinja2==2.10.3 +jedi==0.16.0 +Jinja2==2.11.1 MarkupSafe==1.1.1 +mbstrdecoder==0.8.4 numpy==1.18.1 -parso==0.5.1 -pexpect==4.7.0 +parso==0.6.1 +pexpect==4.8.0 pickleshare==0.7.5 -prompt-toolkit==2.0.9 +prompt-toolkit==3.0.3 ptyprocess==0.6.0 -Pygments==2.4.2 +Pygments==2.5.2 python-dateutil==2.8.1 python-Levenshtein==0.12.0 pytz==2019.3 -regex==2019.11.1 +regex==2020.1.8 six==1.14.0 -timezonefinder==4.1.0 -traitlets==4.3.2 +timezonefinder==4.2.0 +traitlets==4.3.3 +typepy==0.6.5 tzlocal==2.0.0 -wcwidth==0.1.7 -Werkzeug==0.16.0 +wcwidth==0.1.8 +Werkzeug==1.0.0 word2number==1.1 diff --git a/src/tww/localization.py b/src/tww/localization.py new file mode 100644 index 0000000..0e7e182 --- /dev/null +++ b/src/tww/localization.py @@ -0,0 +1,129 @@ +import contextlib +import csv +import locale +import os + +from fuzzywuzzy import fuzz + +from tww import basepath + + +@contextlib.contextmanager +def setlocale(*args, **kw): + saved = locale.setlocale(locale.LC_ALL) + yield locale.setlocale(*args, **kw) + locale.setlocale(locale.LC_ALL, saved) + + +def find_country_alias(locale_s): + with open(os.path.join(basepath, "data", "country_codes.csv")) as f: + cfile = csv.reader(f) + for row in cfile: + country, alpha2, alpha3 = row[0:3] + country, alpha2, alpha3 = country.lower(), alpha2.lower(), alpha3.lower() + if locale_s in [country, alpha2, alpha3]: + return country, alpha2, alpha3 + fuzz_ratio = fuzz.ratio(locale_s, country) + if fuzz_ratio > 90: + return country, alpha2, alpha3 + return None, None, None + + +def find_language_alias(locale_s): + with open(os.path.join(basepath, "data", "language_codes.csv")) as f: + cfile = csv.reader(f) + for row in cfile: + name, native_name, a2, a3 = row[1:5] + name, native_name, a2, a3 = name.lower(), native_name.lower(), a2.lower(), a3.lower() + if locale_s in [a2, a3, name, native_name]: + return name, native_name, a2, a3 + fuzz_ratio = fuzz.ratio(locale_s, name) + if fuzz_ratio > 90: + return name, native_name, a2, a3 + fuzz_ratio = fuzz.ratio(locale_s, native_name) + if fuzz_ratio > 80: + return name, native_name, a2, a3 + return None, None, None, None + + +def lc_time_to_codes(lc_time): + country_lang, encoding = lc_time.split('.') + country_code, lang_code = country_lang.split('_') + return country_code, lang_code, encoding + + +def get_default_locale(): + default_locale = locale.getlocale() + if type(default_locale) == tuple: + default_locale = "{}.{}".format(*default_locale) + country_code, lang_code, encoding = lc_time_to_codes(default_locale) + return country_code, lang_code, encoding, default_locale + + +def resolve_locale(locale_s): + country_code, lang_code, encoding, default_locale = get_default_locale() + rv = dict( + query=locale_s, + country_code=country_code, + lang_code=lang_code, + encoding=encoding, + lc_time=default_locale, + ) + default_encoding = 'utf-8' + if not locale_s: + return rv + if '.' in locale_s: + country_lang, encoding = locale_s.split('.') + else: + country_lang, encoding = locale_s, default_encoding + if '_' in country_lang: + country_code, lang_code = country_lang.split('_') + if len(country_code) == 2 and len(lang_code) == 2: + try: + lc_time = "{}_{}.{}".format(country_code, lang_code, encoding) + locale.setlocale(locale.LC_TIME, lc_time) + rv["country_code"] = country_code + rv["lang_code"] = lang_code + rv["encoding"] = encoding + rv["lc_time"] = lc_time + return rv + except: + ... + locale_s = locale_s.strip().lower() + country, alpha2, alpha3 = find_country_alias(locale_s) + lang_name, lang_native_name, lang2, lang3 = find_language_alias(locale_s) + if alpha2: + locale_hypotheses = {k: v for k, v in locale.locale_alias.items() if k.startswith(alpha2)} + for k, v in locale_hypotheses.items(): + lower = k.lower() + if 'utf-8' in lower: + rv["lc_time"] = v + break + else: + if locale_hypotheses: + lc_time = locale_hypotheses.get(alpha2) + if lc_time: + country_code, lang_code, encoding = lc_time_to_codes(lc_time) + rv["country_code"] = country_code + rv["lang_code"] = lang_code + rv["encoding"] = encoding + rv["lc_time"] = lc_time + return rv + if lang2: + locale_hypotheses = {k: v for k, v in locale.locale_alias.items() if k.startswith(lang2)} + for k, v in locale_hypotheses.items(): + lower = k.lower() + if 'utf-8' in lower: + rv["lc_time"] = v + break + else: + if locale_hypotheses: + lc_time = locale_hypotheses.get(lang2) + if lc_time: + country_code, lang_code, encoding = lc_time_to_codes(lc_time) + rv["country_code"] = country_code + rv["lang_code"] = lang_code + rv["encoding"] = encoding + rv["lc_time"] = lc_time + return rv + return rv \ No newline at end of file diff --git a/src/tww/tokenizer.py b/src/tww/tokenizer.py index 9e01506..795e0da 100644 --- a/src/tww/tokenizer.py +++ b/src/tww/tokenizer.py @@ -1,16 +1,13 @@ -import contextlib -import csv import json import locale -import os import re import sys from datetime import datetime -from fuzzywuzzy import fuzz from pygments import highlight, lexers, formatters -from tww import ISO_FORMAT, time_to_emoji, time_ago, basepath +from localization import setlocale, resolve_locale +from tww import ISO_FORMAT, time_to_emoji, time_ago, workday_diff, workhours_diff, td_remainders, td_totals, td_iso8601 from tww import resolve_timezone, dateparser_parse_dt, get_utcnow, get_s_since_epoch, get_ms_since_epoch, \ dt_tz_translation, get_local_now, query_to_format_result @@ -25,6 +22,12 @@ r_time_in = re.compile('(?:time)?\s*in\s*(.*)', flags=re.IGNORECASE) r_time_since = re.compile('(?:time)?\s*since\s*(.*)', flags=re.IGNORECASE) r_time_until = re.compile('(?:time)?\s*until\s*(.*)', flags=re.IGNORECASE) r_time_between = re.compile('(?:time)?\s*between\s*(.*)\s*and\s*(.*)', flags=re.IGNORECASE) +r_workdays_since = re.compile('(?:workdays|work days)?\s*since\s*(.*)', flags=re.IGNORECASE) +r_workdays_until = re.compile('(?:workdays|work days)?\s*until\s*(.*)', flags=re.IGNORECASE) +r_workdays_between = re.compile('(?:workdays|work days)?\s*between\s*(.*)\s*and\s*(.*)', flags=re.IGNORECASE) +r_workhours_since = re.compile('(?:workhours|work hours)?\s*since\s*(.*)', flags=re.IGNORECASE) +r_workhours_until = re.compile('(?:workhours|work hours)?\s*until\s*(.*)', flags=re.IGNORECASE) +r_workhours_between = re.compile('(?:workhours|work hours)?\s*between\s*(.*)\s*and\s*(.*)', flags=re.IGNORECASE) r_timezone_translation = re.compile('(.*)?\s(?:in|to)\s(.*)', flags=re.IGNORECASE) r_timezone = re.compile('(.*)?\s(?:timezone|timezones|tz)', flags=re.IGNORECASE) r_timezone_2 = re.compile('(?:timezone in|timezones in|tz in|timezone|timezones|tz)\s(.*)?', flags=re.IGNORECASE) @@ -65,6 +68,28 @@ def handler_time_since_until(start_dt_s: str) -> dict: return handler_time_diff(dateparser_parse_dt(start_dt_s), get_local_now()) +def handler_workdays_diff(start_dt: datetime, end_dt: datetime) -> dict: + diff = workday_diff(start_dt, end_dt) + return dict(start=dt_pretty(start_dt), + end=dt_pretty(end_dt), + diff=td_pretty(diff)) + + +def handler_workdays_since_until(start_dt_s: str) -> dict: + return handler_workdays_diff(dateparser_parse_dt(start_dt_s), get_local_now()) + + +def handler_workhours_diff(start_dt: datetime, end_dt: datetime) -> dict: + diff = workhours_diff(start_dt, end_dt) + return dict(start=dt_pretty(start_dt), + end=dt_pretty(end_dt), + diff=td_pretty(diff)) + + +def handler_workhours_since_until(start_dt_s: str) -> dict: + return handler_workhours_diff(dateparser_parse_dt(start_dt_s), get_local_now()) + + def handler_timezone_translation(dt_s: str, timezone_like_s: str) -> dict: src_dt = dateparser_parse_dt(dt_s) tz = resolve_timezone(timezone_like_s) @@ -106,6 +131,12 @@ regex_handlers = [ (r_time_since, handler_time_since_until, QUERY_TYPE_TD), (r_time_until, handler_time_since_until, QUERY_TYPE_TD), (r_time_between, handler_time_diff, QUERY_TYPE_TD), + (r_workdays_since, handler_workdays_since_until, QUERY_TYPE_TD), + (r_workdays_until, handler_workdays_since_until, QUERY_TYPE_TD), + (r_workdays_between, handler_workdays_diff, QUERY_TYPE_TD), + (r_workhours_since, handler_workhours_since_until, QUERY_TYPE_TD), + (r_workhours_until, handler_workhours_since_until, QUERY_TYPE_TD), + (r_workhours_between, handler_workhours_diff, QUERY_TYPE_TD), (r_time_in, handler_time_in_parser, QUERY_TYPE_DT), (r_timezone, handler_timezone, QUERY_TYPE_TZ), (r_timezone_2, handler_timezone, QUERY_TYPE_TZ), @@ -137,158 +168,12 @@ def tokenize(s): return solutions -def test(): - test_strings = [ - None, - "", - "s", - " ", - "Time since 2019-05-12", - "Since yesterday", - "time between yesterday and tomorrow", - "time until 25 december", - "time sinc", - "now in milliseconds", - "seconds since epoch", - "1992-01-27 to epoch", - "milliseconds since 1992-01-27", - "now in sofia", - "now in PST", - "2 hours ago to Sydney", - "now in +03:00", - "now in dublin", - ] - for s in test_strings: - print("{} -> {}".format(s, tokenize(s))) - - def pretty_print_dict(obj): formatted_json = json.dumps(obj, indent=2, ensure_ascii=False) colorful_json = highlight(formatted_json, lexers.JsonLexer(), formatters.TerminalFormatter()) print(colorful_json) -@contextlib.contextmanager -def setlocale(*args, **kw): - saved = locale.setlocale(locale.LC_ALL) - yield locale.setlocale(*args, **kw) - locale.setlocale(locale.LC_ALL, saved) - - -def find_country_alias(locale_s): - with open(os.path.join(basepath, "data", "country_codes.csv")) as f: - cfile = csv.reader(f) - for row in cfile: - country, alpha2, alpha3 = row[0:3] - country, alpha2, alpha3 = country.lower(), alpha2.lower(), alpha3.lower() - if locale_s in [country, alpha2, alpha3]: - return country, alpha2, alpha3 - fuzz_ratio = fuzz.ratio(locale_s, country) - if fuzz_ratio > 90: - return country, alpha2, alpha3 - return None, None, None - - -def find_language_alias(locale_s): - with open(os.path.join(basepath, "data", "language_codes.csv")) as f: - cfile = csv.reader(f) - for row in cfile: - name, native_name, a2, a3 = row[1:5] - name, native_name, a2, a3 = name.lower(), native_name.lower(), a2.lower(), a3.lower() - if locale_s in [a2, a3, name, native_name]: - return name, native_name, a2, a3 - fuzz_ratio = fuzz.ratio(locale_s, name) - if fuzz_ratio > 90: - return name, native_name, a2, a3 - fuzz_ratio = fuzz.ratio(locale_s, native_name) - if fuzz_ratio > 80: - return name, native_name, a2, a3 - return None, None, None, None - - -def lc_time_to_codes(lc_time): - country_lang, encoding = lc_time.split('.') - country_code, lang_code = country_lang.split('_') - return country_code, lang_code, encoding - - -def get_default_locale(): - default_locale = locale.getlocale() - if type(default_locale) == tuple: - default_locale = "{}.{}".format(*default_locale) - country_code, lang_code, encoding = lc_time_to_codes(default_locale) - return country_code, lang_code, encoding, default_locale - - -def resolve_locale(locale_s): - country_code, lang_code, encoding, default_locale = get_default_locale() - rv = dict( - query=locale_s, - country_code=country_code, - lang_code=lang_code, - encoding=encoding, - lc_time=default_locale, - ) - default_encoding = 'utf-8' - if not locale_s: - return rv - if '.' in locale_s: - country_lang, encoding = locale_s.split('.') - else: - country_lang, encoding = locale_s, default_encoding - if '_' in country_lang: - country_code, lang_code = country_lang.split('_') - if len(country_code) == 2 and len(lang_code) == 2: - try: - lc_time = "{}_{}.{}".format(country_code, lang_code, encoding) - locale.setlocale(locale.LC_TIME, lc_time) - rv["country_code"] = country_code - rv["lang_code"] = lang_code - rv["encoding"] = encoding - rv["lc_time"] = lc_time - return rv - except: - ... - locale_s = locale_s.strip().lower() - country, alpha2, alpha3 = find_country_alias(locale_s) - lang_name, lang_native_name, lang2, lang3 = find_language_alias(locale_s) - if alpha2: - locale_hypotheses = {k: v for k, v in locale.locale_alias.items() if k.startswith(alpha2)} - for k, v in locale_hypotheses.items(): - lower = k.lower() - if 'utf-8' in lower: - rv["lc_time"] = v - break - else: - if locale_hypotheses: - lc_time = locale_hypotheses.get(alpha2) - if lc_time: - country_code, lang_code, encoding = lc_time_to_codes(lc_time) - rv["country_code"] = country_code - rv["lang_code"] = lang_code - rv["encoding"] = encoding - rv["lc_time"] = lc_time - return rv - if lang2: - locale_hypotheses = {k: v for k, v in locale.locale_alias.items() if k.startswith(lang2)} - for k, v in locale_hypotheses.items(): - lower = k.lower() - if 'utf-8' in lower: - rv["lc_time"] = v - break - else: - if locale_hypotheses: - lc_time = locale_hypotheses.get(lang2) - if lc_time: - country_code, lang_code, encoding = lc_time_to_codes(lc_time) - rv["country_code"] = country_code - rv["lang_code"] = lang_code - rv["encoding"] = encoding - rv["lc_time"] = lc_time - return rv - return rv - - def dt_pretty(dt): rv = {} global custom_locale @@ -313,63 +198,6 @@ def dt_pretty(dt): return rv -def td_remainders(td): - # split seconds to larger units - seconds = td.total_seconds() - minutes, seconds = divmod(seconds, 60) - hours, minutes = divmod(minutes, 60) - days, hours = divmod(hours, 24) - months, days = divmod(days, 30.42) - years, months = divmod(months, 12) - years, months, days, hours, minutes, seconds = map(int, (years, months, days, hours, minutes, seconds)) - years, months, days, hours, minutes, seconds = map(abs, (years, months, days, hours, minutes, seconds)) - return dict( - seconds=seconds, - minutes=minutes, - hours=hours, - days=days, - months=months, - years=years, - ) - - -def td_totals(td): - seconds = td.total_seconds() - minutes = seconds // 60 - hours = seconds // (60 * 60) - days = seconds // (24 * 60 * 60) - weeks = seconds // (7 * 24 * 60 * 60) - months = seconds // (30 * 24 * 60 * 60) - years = seconds // (365 * 24 * 60 * 60) - years, months, weeks, days, hours, minutes, seconds = map(abs, - (years, months, weeks, days, hours, minutes, seconds)) - return dict( - seconds=seconds, - minutes=minutes, - hours=hours, - days=days, - weeks=weeks, - months=months, - years=years, - ) - - -def td_iso8601(td): - """P[n]Y[n]M[n]DT[n]H[n]M[n]S""" - rem = td_remainders(td) - fmt = "P" - for short, timeframe in [("Y", "years"), ("M", "months"), ("D", "days")]: - if rem[timeframe]: - fmt += "{}{}".format(rem[timeframe], short) - hms = [("H", "hours"), ("M", "minutes"), ("S", "seconds")] - if any([rem[t[1]] for t in hms]): - fmt += "T" - for short, timeframe in hms: - if rem[timeframe]: - fmt += "{}{}".format(rem[timeframe], short) - return fmt - - def td_pretty(td): rv = { "sign": '-' if td.days < 0 else '+', @@ -401,24 +229,54 @@ def resolve_query(query): handler, results, query_type = solution element["handler"] = handler element["query_type"] = query_type - if query_type == QUERY_TYPE_DT: - element["dt"] = dt_pretty(results) - elif query_type == QUERY_TYPE_DT_TR: - element["src_dt"] = dt_pretty(results[0]) - element["dst_dt"] = dt_pretty(results[1]) - element["tz"] = results[2] - elif query_type == QUERY_TYPE_TZ: - element["tz"] = results - elif query_type == QUERY_TYPE_TD: - element["timedelta"] = results - rv["solutions"].append(element) + try: + if query_type == QUERY_TYPE_DT: + element["dt"] = dt_pretty(results) + elif query_type == QUERY_TYPE_DT_TR: + element["src_dt"] = dt_pretty(results[0]) + element["dst_dt"] = dt_pretty(results[1]) + element["tz"] = results[2] + elif query_type == QUERY_TYPE_TZ: + element["tz"] = results + elif query_type == QUERY_TYPE_TD: + element["timedelta"] = results + rv["solutions"].append(element) + except Exception: + ... return rv +def test(): + test_strings = [ + None, + "", + "s", + " ", + "Time since 2019-05-12", + "Since yesterday", + "time between yesterday and tomorrow", + "time until 25 december", + "time sinc", + "now in milliseconds", + "seconds since epoch", + "1992-01-27 to epoch", + "milliseconds since 1992-01-27", + "now in sofia", + "now in PST", + "2 hours ago to Sydney", + "now in +03:00", + "now in dublin", + "workdays since 2/07/2020 12:00", + "workhours since 2/07/2020 12:00", + ] + for s in test_strings: + print("{} -> {}".format(s, resolve_query(s))) + + if __name__ == "__main__": - query = ' '.join(sys.argv[1:]) - # query = "now in india" custom_locale = "" custom_locale = resolve_locale(custom_locale) + query = ' '.join(sys.argv[1:]) + # query = "workhours until 2/12/2020 12:00" result = resolve_query(query) pretty_print_dict(result) diff --git a/src/tww/tww.py b/src/tww/tww.py index 92375b0..5eaba7a 100644 --- a/src/tww/tww.py +++ b/src/tww/tww.py @@ -14,6 +14,7 @@ from datetime import datetime, timedelta import pytz from dateparser import parse as parse_dt +from datetimerange import DateTimeRange from dateutil.parser import parse as dutil_parse from dateparser.timezone_parser import StaticTzInfo from dateutil.tz import gettz, tzlocal @@ -183,7 +184,7 @@ def resolve_location_local(query): try: result = heappop(heap) except IndexError: - logger.error("Could not find location {}".format(query)) + logger.info("Could not find location {}".format(query)) return "" ratio, location = result logger.debug("Location result ({}): {}".format(-ratio, location)) @@ -205,17 +206,18 @@ def resolve_location_remote(query): write_to_cache(query, location) return location except GeocoderTimedOut: - logger.error("Timed out resolving location. Try specifying a timezone directly") + logger.info("Timed out resolving location. Try specifying a timezone directly") def parse_query(query): """ + TODO: DEPRECATE THIS Parses the user query to the datetime, tz/loc parts """ # query = ' '.join(query) query = query.strip() if not query: - logger.error("Use a query like ['to' ]") + logger.info("TO DEPRECATE: Use a query like ['to' ]") to_query = query.split(" to ") logger.debug("to_query: {}".format(to_query)) if len(to_query) == 1: @@ -225,7 +227,7 @@ def parse_query(query): # datetime to timezone human_dt, human_tz_loc = to_query else: - logger.error("There can be only one 'to' in the query string") + logger.info("TO DEPRECATE: There can be only one 'to' in the query string") logger.debug("raw human_dt: {}".format(human_dt)) logger.debug("raw human_tz_loc: {}".format(human_tz_loc)) @@ -358,7 +360,7 @@ def solve_query(human_dt, human_tz_loc): def format_result(result, fmt): if result is None: - logger.error("Could not solve query") + logger.info("Could not solve query") logger.debug("Format: {}".format(fmt)) format_result = result.strftime(fmt) logger.debug("Formated result: {} -> {}".format(result, format_result)) @@ -577,3 +579,119 @@ def time_to_emoji(dt): seconds = get_local_s_since_epoch(dt) a = int((seconds / 900 - 3) / 2 % 24) return chr(128336 + a // 2 + a % 2 * 12) + + +def workday_diff(start, end, workdays=None): + """ + Calculates the difference between two dates excluding weekends + + # TODO: doesn't work with Until (i.e. future calculation) + """ + if not workdays: + workdays = range(0, 5) + td = end - start + daygenerator = (start + timedelta(x + 1) for x in range(td.days)) + weekdays = sum(1 for day in daygenerator if day.weekday() in workdays) + return timedelta(days=weekdays) + + +def workhours_diff(start, end, workhour_begin="09:00", workhour_end="17:00", workdays=None): + """ + Calculates the difference between two dates excluding non-workhours + This can potentially be very slow for long ranges as it calculates per minute resolution. + + # TODO: doesn't work with Until (i.e. future calculation) + + """ + if not workdays: + workdays = range(0, 5) + + workday_start_h, workday_start_m = map(int, workhour_begin.split(':')) + workday_end_h, workday_end_m = map(int, workhour_end.split(':')) + + # assume night shift if next workday starts after + day_diff = 1 if workday_end_h < workday_start_h else 0 + + prev_dt_minute, dt_minute = start, start + timedelta(minutes=1) + summins = 0 + while dt_minute < end: + if dt_minute.weekday() not in workdays: + prev_dt_minute, dt_minute = prev_dt_minute + timedelta(days=1), dt_minute + timedelta(days=1) + continue + this_day_workhours_begin = datetime(year=dt_minute.year, month=dt_minute.month, day=dt_minute.day, + hour=workday_start_h, minute=workday_start_m, tzinfo=dt_minute.tzinfo) + this_day_workhours_end = datetime(year=dt_minute.year, month=dt_minute.month, day=dt_minute.day, + hour=workday_end_h, minute=workday_end_m, tzinfo=dt_minute.tzinfo) + # calc if night shift + this_day_workhours_end += timedelta(days=day_diff) + + # test if this minute is within workhours with daterange + this_day_workhours = DateTimeRange(this_day_workhours_begin, this_day_workhours_end) + time_range = DateTimeRange(prev_dt_minute, dt_minute) + if time_range in this_day_workhours: + # we are in workhours, add all the minutes here until the end (now) or end of workday - whichever is smaller + end_delta = end if end < this_day_workhours_end else this_day_workhours_end + summins += (end_delta - prev_dt_minute).total_seconds() // 60 + prev_dt_minute = end_delta + else: + # skip until next workday - naively add one day; it could be weekend, but it will be caught above + prev_dt_minute = this_day_workhours_begin + timedelta(days=1) + dt_minute = prev_dt_minute + timedelta(minutes=1) + return timedelta(seconds=int(summins * 60)) + + +def td_remainders(td): + # split seconds to larger units + seconds = td.total_seconds() + minutes, seconds = divmod(seconds, 60) + hours, minutes = divmod(minutes, 60) + days, hours = divmod(hours, 24) + months, days = divmod(days, 30.42) + years, months = divmod(months, 12) + years, months, days, hours, minutes, seconds = map(int, (years, months, days, hours, minutes, seconds)) + years, months, days, hours, minutes, seconds = map(abs, (years, months, days, hours, minutes, seconds)) + return dict( + seconds=seconds, + minutes=minutes, + hours=hours, + days=days, + months=months, + years=years, + ) + + +def td_totals(td): + seconds = td.total_seconds() + minutes = seconds // 60 + hours = seconds // (60 * 60) + days = seconds // (24 * 60 * 60) + weeks = seconds // (7 * 24 * 60 * 60) + months = seconds // (30 * 24 * 60 * 60) + years = seconds // (365 * 24 * 60 * 60) + years, months, weeks, days, hours, minutes, seconds = map(abs, + (years, months, weeks, days, hours, minutes, seconds)) + return dict( + seconds=seconds, + minutes=minutes, + hours=hours, + days=days, + weeks=weeks, + months=months, + years=years, + ) + + +def td_iso8601(td): + """P[n]Y[n]M[n]DT[n]H[n]M[n]S""" + rem = td_remainders(td) + fmt = "P" + for short, timeframe in [("Y", "years"), ("M", "months"), ("D", "days")]: + if rem[timeframe]: + fmt += "{}{}".format(rem[timeframe], short) + hms = [("H", "hours"), ("M", "minutes"), ("S", "seconds")] + if any([rem[t[1]] for t in hms]): + fmt += "T" + for short, timeframe in hms: + if rem[timeframe]: + fmt += "{}{}".format(rem[timeframe], short) + return fmt \ No newline at end of file