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bristol-eurostar/tests/test_trip_planner.py
Edward Betts 06afd57957 Link to Eurostar search page with pricing; add Bristol departures RTT link 
Replace the Eurostar timetable link with the search URL
(eurostar.com/search/uk-en?adult=1&origin=…&destination=…&outbound=…)
so the footer links directly to the page that shows prices for the
specific date and destination.

Add a Bristol Temple Meads → Paddington departures link on RTT alongside
the existing Paddington arrivals link.

Also update "morning service unavailable" badge and tests to reflect the
removal of the morning-only cutoff filter from find_unreachable_morning_eurostars.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
2026-04-04 10:47:46 +01:00

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import pytest
from trip_planner import combine_trips, find_unreachable_morning_eurostars, _fmt_duration, cheapest_gwr_ticket
DATE = '2026-03-30'
# ---------------------------------------------------------------------------
# _fmt_duration
# ---------------------------------------------------------------------------
def test_fmt_duration_hours_and_minutes():
assert _fmt_duration(95) == '1h 35m'
def test_fmt_duration_exact_hours():
assert _fmt_duration(120) == '2h'
def test_fmt_duration_minutes_only():
assert _fmt_duration(45) == '45m'
# ---------------------------------------------------------------------------
# combine_trips — basic pairing
# ---------------------------------------------------------------------------
GWR_FAST = {'depart_bristol': '07:00', 'arrive_paddington': '08:45'} # 1h 45m
GWR_SLOW = {'depart_bristol': '07:00', 'arrive_paddington': '09:26'} # 2h 26m — over limit
ES_PARIS = {'depart_st_pancras': '10:01', 'arrive_destination': '13:34', 'destination': 'Paris Gare du Nord'}
ES_EARLY = {'depart_st_pancras': '09:00', 'arrive_destination': '12:00', 'destination': 'Paris Gare du Nord'}
def test_valid_trip_is_returned():
trips = combine_trips([GWR_FAST], [ES_PARIS], DATE)
assert len(trips) == 1
t = trips[0]
assert t['depart_bristol'] == '07:00'
assert t['arrive_paddington'] == '08:45'
assert t['depart_st_pancras'] == '10:01'
assert t['arrive_destination'] == '13:34'
assert t['destination'] == 'Paris Gare du Nord'
def test_gwr_too_slow_excluded():
# 2h 26m GWR journey exceeds MAX_GWR_MINUTES (110)
trips = combine_trips([GWR_SLOW], [ES_PARIS], DATE)
assert trips == []
def test_eurostar_too_early_excluded():
# Eurostar departs before min connection time has elapsed
trips = combine_trips([GWR_FAST], [ES_EARLY], DATE)
assert trips == []
def test_no_trains_returns_empty():
assert combine_trips([], [], DATE) == []
def test_no_gwr_returns_empty():
assert combine_trips([], [ES_PARIS], DATE) == []
def test_no_eurostar_returns_empty():
assert combine_trips([GWR_FAST], [], DATE) == []
# ---------------------------------------------------------------------------
# Connection window constraints
# ---------------------------------------------------------------------------
def test_min_connection_enforced():
# Arrive Paddington 08:45, need 75 min → earliest St Pancras 10:00
# ES at 09:59 should be excluded, 10:00 should be included
es_too_close = {'depart_st_pancras': '09:59', 'arrive_destination': '13:00', 'destination': 'Paris Gare du Nord'}
es_ok = {'depart_st_pancras': '10:00', 'arrive_destination': '13:00', 'destination': 'Paris Gare du Nord'}
assert combine_trips([GWR_FAST], [es_too_close], DATE, min_connection_minutes=75) == []
trips = combine_trips([GWR_FAST], [es_ok], DATE, min_connection_minutes=75)
assert len(trips) == 1
def test_max_connection_enforced():
# Arrive Paddington 08:45, max 140 min → latest St Pancras 11:05
es_ok = {'depart_st_pancras': '11:05', 'arrive_destination': '14:00', 'destination': 'Paris Gare du Nord'}
es_too_late = {'depart_st_pancras': '11:06', 'arrive_destination': '14:00', 'destination': 'Paris Gare du Nord'}
trips = combine_trips([GWR_FAST], [es_ok], DATE, max_connection_minutes=140)
assert len(trips) == 1
assert combine_trips([GWR_FAST], [es_too_late], DATE, max_connection_minutes=140) == []
# ---------------------------------------------------------------------------
# Only earliest valid Eurostar per GWR departure
# ---------------------------------------------------------------------------
def test_only_earliest_eurostar_per_gwr():
es1 = {'depart_st_pancras': '10:01', 'arrive_destination': '13:34', 'destination': 'Paris Gare du Nord'}
es2 = {'depart_st_pancras': '11:01', 'arrive_destination': '14:34', 'destination': 'Paris Gare du Nord'}
trips = combine_trips([GWR_FAST], [es1, es2], DATE)
assert len(trips) == 1
assert trips[0]['depart_st_pancras'] == '10:01'
# ---------------------------------------------------------------------------
# Multiple GWR trains → multiple trips
# ---------------------------------------------------------------------------
def test_multiple_gwr_trains():
gwr2 = {'depart_bristol': '08:00', 'arrive_paddington': '09:45'}
es = {'depart_st_pancras': '11:01', 'arrive_destination': '14:34', 'destination': 'Paris Gare du Nord'}
trips = combine_trips([GWR_FAST, gwr2], [es], DATE, max_connection_minutes=140)
assert len(trips) == 2
assert trips[0]['depart_bristol'] == '07:00'
assert trips[1]['depart_bristol'] == '08:00'
# ---------------------------------------------------------------------------
# Duration fields
# ---------------------------------------------------------------------------
def test_gwr_duration_in_trip():
trips = combine_trips([GWR_FAST], [ES_PARIS], DATE)
assert trips[0]['gwr_duration'] == '1h 45m'
def test_total_duration_in_trip():
# depart 07:00, arrive 13:34 → 6h 34m
trips = combine_trips([GWR_FAST], [ES_PARIS], DATE)
assert trips[0]['total_duration'] == '6h 34m'
def test_connection_duration_in_trip():
# arrive Paddington 08:45, depart St Pancras 10:01 → 1h 16m
trips = combine_trips([GWR_FAST], [ES_PARIS], DATE)
assert trips[0]['connection_duration'] == '1h 16m'
def test_find_unreachable_eurostars_excludes_connectable_services():
# GWR arrives 08:45; default min=50/max=110 → viable window 09:3510:35.
# 09:30 too early, 10:15 connectable, 12:30 beyond max connection.
gwr = [
{'depart_bristol': '07:00', 'arrive_paddington': '08:45'},
]
eurostar = [
{'depart_st_pancras': '09:30', 'arrive_destination': '12:00', 'destination': 'Paris Gare du Nord', 'train_number': 'ES 9001'},
{'depart_st_pancras': '10:15', 'arrive_destination': '13:40', 'destination': 'Paris Gare du Nord', 'train_number': 'ES 9002'},
{'depart_st_pancras': '12:30', 'arrive_destination': '15:55', 'destination': 'Paris Gare du Nord', 'train_number': 'ES 9003'},
]
unreachable = find_unreachable_morning_eurostars(gwr, eurostar, DATE)
assert [s['depart_st_pancras'] for s in unreachable] == ['09:30', '12:30']
# ---------------------------------------------------------------------------
# cheapest_gwr_ticket — Bristol Temple Meads → Paddington
# ---------------------------------------------------------------------------
# 2026-03-30 is a Monday; 2026-03-28 is a Saturday
def test_cheapest_ticket_weekday_super_off_peak_morning():
# 05:00 on Monday: dep ≤ 05:04 → Super Off-Peak
t = cheapest_gwr_ticket('05:00', '2026-03-30')
assert t['ticket'] == 'Super Off-Peak'
assert t['price'] == 45.00
def test_cheapest_ticket_weekday_anytime_window():
# 07:00 on Monday: 05:0508:25 → Anytime only
t = cheapest_gwr_ticket('07:00', '2026-03-30')
assert t['ticket'] == 'Anytime'
assert t['price'] == 138.70
def test_cheapest_ticket_weekday_off_peak():
# 08:30 on Monday: dep ≥ 08:26 but < 09:58 → Off-Peak
t = cheapest_gwr_ticket('08:30', '2026-03-30')
assert t['ticket'] == 'Off-Peak'
assert t['price'] == 63.60
def test_cheapest_ticket_weekday_super_off_peak_late():
# 10:00 on Monday: dep ≥ 09:58 → Super Off-Peak
t = cheapest_gwr_ticket('10:00', '2026-03-30')
assert t['ticket'] == 'Super Off-Peak'
assert t['price'] == 45.00
def test_cheapest_ticket_boundary_super_off_peak_cutoff():
# 05:04 is last valid minute for early Super Off-Peak
assert cheapest_gwr_ticket('05:04', '2026-03-30')['ticket'] == 'Super Off-Peak'
# 05:05 falls into the Anytime window (off-peak starts at 08:26)
assert cheapest_gwr_ticket('05:05', '2026-03-30')['ticket'] == 'Anytime'
def test_cheapest_ticket_boundary_off_peak_start():
assert cheapest_gwr_ticket('08:25', '2026-03-30')['ticket'] == 'Anytime'
assert cheapest_gwr_ticket('08:26', '2026-03-30')['ticket'] == 'Off-Peak'
def test_cheapest_ticket_boundary_super_off_peak_resumes():
assert cheapest_gwr_ticket('09:57', '2026-03-30')['ticket'] == 'Off-Peak'
assert cheapest_gwr_ticket('09:58', '2026-03-30')['ticket'] == 'Super Off-Peak'
def test_cheapest_ticket_weekend_always_super_off_peak():
# Saturday — no restrictions
t = cheapest_gwr_ticket('07:00', '2026-03-28')
assert t['ticket'] == 'Super Off-Peak'
assert t['price'] == 45.00
def test_combine_trips_includes_ticket_fields():
trips = combine_trips([GWR_FAST], [ES_PARIS], DATE)
assert len(trips) == 1
t = trips[0]
assert 'ticket_name' in t
assert 'ticket_price' in t
assert 'ticket_code' in t
def test_find_unreachable_eurostars_returns_empty_when_all_connectable():
gwr = [
{'depart_bristol': '07:00', 'arrive_paddington': '08:45'},
]
eurostar = [
{'depart_st_pancras': '10:15', 'arrive_destination': '13:40', 'destination': 'Paris Gare du Nord', 'train_number': 'ES 9002'},
]
assert find_unreachable_morning_eurostars(gwr, eurostar, DATE) == []
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