def test_build_throughput():
m = Model(builds_per_hour=0.0, build_run_time=10, sec_per_tick=1,
initial_builder_count=1, builder_boot_time=0)
builds = [Build(m.ticks, m.build_run_time), Build(m.ticks, m.build_run_time)]
m.build_queue.extend(builds)
m.advance(20)
assert (builds[1].started_time - builds[1].queued_time) == m.build_run_time
def test_scale_up():
m = Model(build_run_time=50,
builder_boot_time=100,
builds_per_hour=0.0,
sec_per_tick=10,
initial_builder_count=2,
autoscale=True,
alarm_period_duration=10,
scale_up_alarm_period_count=3,
scale_down_alarm_period_count=1000,
scale_up_threshold=5,
scale_up_change=2,
scale_down_threshold=8,
scale_down_change=1)
assert len(m.builders) == 2
m.advance(3)
# No scaling until alarm has enough data
assert len(m.builders) == 2
m.advance(1)
assert len(m.builders) == 4
# Scale after one cooldown
# (ideal cooldown of builder_boot_time + alarm_period_duration)
m.advance(11)
assert len(m.builders) == 6
# But no more
m.advance(11)
assert len(m.builders) == 6
def test_fixed_builds_per_hour():
m = Model(ticks=3600,
builds_per_hour=100.0,
build_run_time=10,
sec_per_tick=10,
initial_builder_count=100,
builder_boot_time=0)
assert m.current_builds_per_hour() == 100.0
def test_build_throughput():
m = Model(builds_per_hour=0.0,
build_run_time=10,
sec_per_tick=1,
initial_builder_count=1,
builder_boot_time=0)
builds = [
Build(m.ticks, m.build_run_time),
Build(m.ticks, m.build_run_time)
]
m.build_queue.extend(builds)
m.advance(20)
assert (builds[1].started_time - builds[1].queued_time) == m.build_run_time
def test_dynamic_builds_per_hour():
m = Model(builds_per_hour=100.0, build_run_time=10, sec_per_tick=3600,
initial_builder_count=100, builder_boot_time=0, builds_per_hour_fn=Model.SINE)
assert m.current_builds_per_hour() == 0.0
m.advance(12)
print 'ticks:', m.ticks
print 'per hour:', m.current_builds_per_hour()
assert m.current_builds_per_hour() == 100.0
m.advance(12)
assert m.current_builds_per_hour() == 0.0
def test_dynamic_builds_per_hour():
m = Model(builds_per_hour=100.0,
build_run_time=10,
sec_per_tick=3600,
initial_builder_count=100,
builder_boot_time=0,
builds_per_hour_fn=Model.SINE)
assert m.current_builds_per_hour() == 0.0
m.advance(12)
print 'ticks:', m.ticks
print 'per hour:', m.current_builds_per_hour()
assert m.current_builds_per_hour() == 100.0
m.advance(12)
assert m.current_builds_per_hour() == 0.0
def test_utilization():
m = Model(build_run_time=100,
builder_boot_time=100,
builds_per_hour=0.0,
sec_per_tick=1,
initial_builder_count=2)
m.advance(200)
m.build_queue.append(Build(m.ticks, m.build_run_time))
m.advance(200)
assert m.mean_percent_utilization() == 12.5
assert m.mean_unused_builders() == 1.75
def test_utilization():
m = Model(build_run_time=100, builder_boot_time=100,
builds_per_hour=0.0, sec_per_tick=1, initial_builder_count=2)
m.advance(200)
m.build_queue.append(Build(m.ticks, m.build_run_time))
m.advance(200)
assert m.mean_percent_utilization() == 12.5
assert m.mean_unused_builders() == 1.75
def test_graceful_shutdown():
m = Model(build_run_time=10,
builder_boot_time=0,
builds_per_hour=0.0,
sec_per_tick=1,
initial_builder_count=2)
assert len(m.builders) == 2
m.build_queue.append(Build(m.ticks, m.build_run_time))
m.advance(5)
m.shutdown_builders(2)
m.advance(6)
assert len(m.builders) == 0
finished = m.finished_builds[0]
assert (finished.finished_time - finished.started_time) == m.build_run_time
def test_scale_down():
m = Model(build_run_time=50, builder_boot_time=0,
builds_per_hour=0.0, sec_per_tick=1,
initial_builder_count=10, autoscale=True,
alarm_period_duration=10, scale_up_alarm_period_count=1000,
scale_down_alarm_period_count=3,
scale_up_threshold=5, scale_up_change=2,
scale_down_threshold=8, scale_down_change=1)
# opposite of test_scale_up
assert len(m.builders) == 10
m.advance(30)
assert len(m.builders) == 10
m.advance(1)
assert len(m.builders) == 9
m.advance(60)
assert len(m.builders) == 8
m.advance(60)
assert len(m.builders) == 8
def test_dynamic_builds_per_hour_e2e():
# This test is not deterministic, but random fails should be extremely rare
m = Model(builds_per_hour=6000.0, build_run_time=10, sec_per_tick=60,
initial_builder_count=100, builder_boot_time=0, builds_per_hour_fn=Model.SINE)
m.advance(1)
assert len(m.finished_builds) < 10
m.advance(720) # 12 hrs
initial =len(m.finished_builds)
m.advance(1)
final = len(m.finished_builds)
assert 90 < final - initial < 110
def test_dynamic_builds_per_hour_e2e():
# This test is not deterministic, but random fails should be extremely rare
m = Model(builds_per_hour=6000.0,
build_run_time=10,
sec_per_tick=60,
initial_builder_count=100,
builder_boot_time=0,
builds_per_hour_fn=Model.SINE)
m.advance(1)
assert len(m.finished_builds) < 10
m.advance(720) # 12 hrs
initial = len(m.finished_builds)
m.advance(1)
final = len(m.finished_builds)
assert 90 < final - initial < 110
def test_graceful_shutdown():
m = Model(build_run_time=10, builder_boot_time=0,
builds_per_hour=0.0, sec_per_tick=1,
initial_builder_count=2)
assert len(m.builders) == 2
m.build_queue.append(Build(m.ticks, m.build_run_time))
m.advance(5)
m.shutdown_builders(2)
m.advance(6)
assert len(m.builders) == 0
finished = m.finished_builds[0]
assert (finished.finished_time - finished.started_time) == m.build_run_time
def test_scale_down():
m = Model(build_run_time=50,
builder_boot_time=0,
builds_per_hour=0.0,
sec_per_tick=1,
initial_builder_count=10,
autoscale=True,
alarm_period_duration=10,
scale_up_alarm_period_count=1000,
scale_down_alarm_period_count=3,
scale_up_threshold=5,
scale_up_change=2,
scale_down_threshold=8,
scale_down_change=1)
# opposite of test_scale_up
assert len(m.builders) == 10
m.advance(30)
assert len(m.builders) == 10
m.advance(1)
assert len(m.builders) == 9
m.advance(60)
assert len(m.builders) == 8
m.advance(60)
assert len(m.builders) == 8
def test_scale_up():
m = Model(build_run_time=50, builder_boot_time=100,
builds_per_hour=0.0, sec_per_tick=10,
initial_builder_count=2, autoscale=True,
alarm_period_duration=10, scale_up_alarm_period_count=3,
scale_down_alarm_period_count=1000,
scale_up_threshold=5, scale_up_change=2,
scale_down_threshold=8, scale_down_change=1)
assert len(m.builders) == 2
m.advance(3)
# No scaling until alarm has enough data
assert len(m.builders) == 2
m.advance(1)
assert len(m.builders) == 4
# Scale after one cooldown
# (ideal cooldown of builder_boot_time + alarm_period_duration)
m.advance(11)
assert len(m.builders) == 6
# But no more
m.advance(11)
assert len(m.builders) == 6
def test_fixed_builds_per_hour():
m = Model(ticks=3600, builds_per_hour=100.0, build_run_time=10, sec_per_tick=10,
initial_builder_count=100, builder_boot_time=0)
assert m.current_builds_per_hour() == 100.0