def run_line(match):
a = get_ints(match.group(3))
last_seen = get_ints(match.group(4))
t = get_ints(match.group(5))
expected = get_strings(match.group(6))
actual = solve(a, last_seen, t)
assert_equals(actual, expected)
def run_line(match):
t = int(match.group(1))
a = get_ints(match.group(2))
b = get_ints(match.group(3))
direct_cost = get_strings(match.group(4))
expected = int(match.group(5))
actual = minimize_cost(t, a, b, direct_cost)
assert_equals(actual, expected)
def run_line(match):
switches = get_strings(match.group(1))
lamps = get_strings(match.group(2))
expected = int(match.group(3))
actual = the_min(switches, lamps)
assert_equals(actual, expected)
def run_line(match):
clipboard = get_strings(match.group(1))
t = int(match.group(2))
expected = get_ints(match.group(3))
actual = count_colors(clipboard, t)
assert_equals(actual, expected)
def run_line(match):
g = get_strings(match.group(1))
expected = get_strings(match.group(2))
actual = find_graph(g)
assert_equals(actual, expected)
def run_line(match):
s = match.group(1)
k = int(match.group(2))
expected = get_strings(match.group(3))
actual = solve(s, k)
assert_equals(len(actual), len(expected))
def run_line(match):
a = int(match.group(1))
expected = get_strings(match.group(2))
actual = enclose(a)
assert_equals(area(actual), area(expected))
def run_line(match):
is_friend = get_strings(match.group(1))
d = int(match.group(2))
expected = int(match.group(3))
actual = max_difference(is_friend, d)
assert_equals(actual, expected)
def run_line(match):
sea_map = get_strings(match.group(1))
expected = int(match.group(2))
actual = longest(sea_map)
assert_equals(actual, expected)
def run_line(match):
buses = get_strings(match.group(1))
arrival_time = int(match.group(2))
expected = int(match.group(3))
actual = waiting_time(buses, arrival_time)
assert_equals(actual, expected)