initial commit

index.py

@@ -0,0 +1,156 @@
+import datetime
+from datetime import timedelta
+import re
+from itertools import repeat
+
+days_long = ['monday', 'tuesday', 'wednesday', 'thursday', 'friday', 'saturday', 'sunday']
+days_short = ['mon', 'tue', 'wed', 'thu', 'fri', 'sat', 'sun']
+days = days_long + days_short
+
+months_long = ['january', 'february', 'march', 'april', 'may', 'june', 'july', 'august', 'september', 'october', 'november', 'december']
+months_short = ['jan', 'feb', 'march', 'april', 'may', 'june', 'july', 'aug', 'sept', 'oct', 'nov', 'dec']
+months = months_long + months_short
+
+years = list(map(str, range(datetime.datetime.now().year - 50, datetime.datetime.now().year + 50)))
+
+postfixes = {
+    'h': 'hour',
+    'm': 'minute',
+    'd': 'day',
+}
+
+time_prefix = 'at'
+time_postfix = ['am', 'pm']
+day_postfix = 'th'
+
+multipliers = {
+    'second': ('seconds', 1),
+    'minute': ('minutes', 1),
+    'hour': ('hours', 1),
+    'day': ('days', 1),
+    'week': ('days', 7),
+    'fortnight': ('days', 14),
+    'month': ('days', 30),
+    'year': ('days', 365),
+}
+
+direction = {
+    'ago': -1,
+    'last': -1,
+    'past': -1,
+}
+
+transformations = dict(zip((x + 's' for x in multipliers.keys()), multipliers.keys()))
+transformations.update({ 'next': '1', 'upcoming': '1', 'following': '1', 'a': '1', 'an': '1' })
+transformations.update(dict(zip(direction.keys(), (x + ' ' + '1' for x in direction.keys()))))
+
+keywords = list(multipliers.keys()) + months + months_short + years + days + days_short + list(direction.keys()) + [time_prefix] + time_postfix
+
+text = '12 jan 2019 at 12 will be amazing'
+
+def tokenize(string):
+    pattern = re.compile(r'\b(' + '|'.join(transformations.keys()) + r')\b')
+    string = pattern.sub(lambda x: transformations[x.group()], string)
+
+    words = string.lower().split(' ')
+    n = len(words)
+    filtered = []
+    for (i, w) in enumerate(words):
+        if w in keywords:
+            filtered.append(w)
+        elif w.isdigit() and ((i + 1 < n and words[i + 1] in keywords) or (i > 0 and words[i - 1] == time_prefix)):
+            filtered.append(int(w))
+        elif w[0:-1].isdigit():
+            postfix = next((x for x in postfixes if w.endswith(x)), None)
+            if postfix is not None:
+                filtered.append(int(w[0:-1]))
+                filtered.append(postfixes[postfix])
+        elif w[0:-2].isdigit() and w[-2:] in time_postfix and int(w[0:-2]) <= 12:
+            filtered.append(int(w[0:-2]))
+            filtered.append(w[-2:])
+        elif w[0:-2].isdigit() and w[-2:] == day_postfix:
+            filtered.append(int(w[0:-2]))
+            filtered.append(day_postfix)
+        elif ':' in w:
+            f, s = w[0:w.index(':')], w[w.index(':') + 1:]
+
+            if f.isdigit() and s.isdigit() and int(f) < 24 and int(s) < 60:
+                filtered.append((int(f), int(s)))
+
+    return filtered
+
+def compute(tokens):
+    base = datetime.datetime.now()
+    value = timedelta(0)
+    month = None
+    weekday = None
+    day = None
+    year = None
+    time = None
+    cdir = 1
+    n = len(tokens)
+
+    for (i, t) in enumerate(tokens):
+        has_next = i + 1 < n
+
+        if t in direction:
+            cdir = direction[t]
+        elif isinstance(t, int) and has_next and tokens[i + 1] in multipliers:
+            key, v = multipliers[tokens[i + 1]]
+            value += timedelta(**{ key: t * v })
+        elif isinstance(t, int) and has_next and (tokens[i + 1] in months or tokens[i + 1] == day_postfix):
+            day = t
+        elif isinstance(t, int) and has_next and tokens[i + 1] in time_postfix:
+            if tokens[i + 1] == 'am':
+                if t == 12:
+                    time = datetime.time(0)
+                else:
+                    time = datetime.time(t)
+            else:
+                if t == 12:
+                    time = datetime.time(12)
+                else:
+                    time = datetime.time(t + 12)
+
+        elif t in months:
+            month = months.index(t) % 12
+        elif t in years:
+            year = t
+        elif t in days:
+            weekday = days.index(t) % 7
+        elif isinstance(t, tuple):
+            f,s = t
+
+            time = datetime.time(f, s)
+        elif t == time_prefix and has_next and isinstance(tokens[i + 1], int) and tokens[i + 1] < 24:
+            time = datetime.time(tokens[i + 1])
+            tokens[i + 1] = None
+
+    try:
+        if time is not None:
+            base = base.replace(hour=time.hour, minute=time.minute)
+        if month is not None:
+            base = base.replace(month=month + 1)
+        if weekday is not None:
+            td = None
+            if weekday > base.weekday():
+                td = timedelta(days=weekday - base.weekday())
+            else:
+                td = timedelta(days=weekday - base.weekday() + 7)
+
+            if cdir == -1:
+                td = timedelta(days=7) - td
+
+            base += cdir * td
+        if year is not None:
+            base = base.replace(year=int(year))
+
+        if day is not None:
+            base = base.replace(day=day)
+    except:
+        pass
+
+    return cdir * value + base
+
+def parse_date(string):
+    return compute(tokenize(string))

tests.py

@@ -0,0 +1,122 @@
+import unittest
+import datetime
+from datetime import timedelta
+from index import parse_date, days, months, years
+
+class HumanDateTests(unittest.TestCase):
+    def setUp(self):
+        self.now = datetime.datetime.now()
+        self.today = datetime.date.today()
+
+    def test_weekdays(self):
+        for (i, d) in enumerate(days):
+            self.assertEqual(parse_date(d).weekday(), i % 7)
+
+        for (i, d) in enumerate(days):
+            self.assertEqual(parse_date('past {}'.format(d)).weekday(), i % 7)
+
+    def test_months(self):
+        for (i, m) in enumerate(months):
+            self.assertEqual(parse_date(m).month, i % 12 + 1)
+
+        for (i, m) in enumerate(months):
+            self.assertEqual(parse_date('past {}'.format(m)).month, i % 12 + 1)
+
+    def test_years(self):
+        for y in years:
+            self.assertEqual(parse_date(y).year, int(y))
+
+    def test_time(self):
+        tests = {
+            '00:00': (0, 0),
+            '0:0'  : (0, 0),
+            '12:00': (12, 0),
+            '12:0' : (12, 0),
+            '24:00': (self.now.hour, self.now.minute),
+            '10:60': (self.now.hour, self.now.minute),
+            '23:59': (23, 59),
+            'at 12': (12, 0),
+            'at 24': (self.now.hour, self.now.minute),
+            '12AM' : (0, 0),
+            '12PM' : (12, 0),
+            '11PM' : (23, 0),
+            '12 AM': (0, 0),
+            '5 pm' : (17, 0),
+        }
+
+        for (k, (h, m)) in tests.items():
+            d = parse_date(k)
+            self.assertEqual((d.hour, d.minute), (h, m))
+
+    def test_day_of_month(self):
+        tests = {
+            '12 jan': (12, 1),
+            '28 february': (28, 2),
+            '1th december': (1, 12)
+        }
+
+        for (k, (day, m)) in tests.items():
+            d = parse_date(k)
+            self.assertEqual((d.day, d.month), (day, m))
+
+    def test_relative_future_dates(self):
+        tests = {
+            'next week': self.today + timedelta(days=7),
+            'next 2 weeks': self.today + timedelta(days=7*2),
+            'in 2 weeks': self.today + timedelta(days=7*2),
+            'next fortnight': self.today + timedelta(days=7*2),
+            'next month': self.today + timedelta(days=30),
+            'next year': self.today + timedelta(days=365),
+            'this week': self.today,
+            'this month': self.today,
+            'this year': self.today,
+        }
+
+        for (k, date) in tests.items():
+            d = parse_date(k)
+            self.assertEqual(d.date(), date)
+
+    def test_relative_future_times(self):
+        tests = {
+            '2 seconds': (self.now.hour, self.now.minute, self.now.second + 2),
+            '3 minute': (self.now.hour, self.now.minute + 3, self.now.second),
+            '10 hours': ((self.now.hour + 10) % 24, self.now.minute, self.now.second),
+        }
+
+        for (k, t) in tests.items():
+            d = parse_date(k)
+            self.assertEqual((d.hour, d.minute, d.second), t)
+
+    def test_relative_past_dates(self):
+        tests = {
+            'past week': self.today - timedelta(days=7),
+            'past 2 weeks': self.today - timedelta(days=7*2),
+            'last 2 weeks': self.today - timedelta(days=7*2),
+            'past fortnight': self.today - timedelta(days=7*2),
+            'past month': self.today - timedelta(days=30),
+            'past year': self.today - timedelta(days=365),
+            'a week ago': self.today - timedelta(days=7),
+            'a month ago': self.today - timedelta(days=30),
+            'a year past': self.today - timedelta(days=365),
+        }
+
+        for (k, date) in tests.items():
+            d = parse_date(k)
+            self.assertEqual(d.date(), date)
+
+    def test_relative_past_times(self):
+        tests = {
+            '2 seconds ago': (self.now.hour, self.now.minute, self.now.second - 2),
+            'past 3 minute': (self.now.hour, self.now.minute - 3, self.now.second),
+            'last 10 hours': ((self.now.hour - 10) % 24, self.now.minute, self.now.second),
+        }
+
+        for (k, t) in tests.items():
+            d = parse_date(k)
+            self.assertEqual((d.hour, d.minute, d.second), t)
+
+def main():
+    unittest.main()
+
+if __name__ == '__main__':
+    main()