def in_situ_env(environment):
print(
repr(environment)) # In case of error, prints the type of environment
parameter_set = ParameterSet()
parameter_set.add_parameters(x1=range(3), x2=range(3))
experiment = Experiment(__EXP_NAME__, parameter_set, TestComputation,
PickleStorage)
try:
error_code = environment.run(experiment, start=2, capacity=5)
assert_equal(error_code, 0)
except:
assert_true(False, "An exception was raised by the environment")
raise
storage = experiment.storage
parameters_ls, result_ls = storage.load_params_and_results()
assert_equal(len(parameters_ls), 5) # 5 computations
assert_equal(len(result_ls), 5) # 5 computations
for parameters, result in zip(parameters_ls, result_ls):
assert_equal(parameters["x1"] * parameters["x2"], result["mult"])
def do_auto_refresh(auto_refresh):
parameter_set = ParameterSet()
parameter_set.add_parameters(x1=range(3), x2=range(3))
experiment = Experiment("{}_1".format(__EXP_NAME__), parameter_set,
TestComputation)
# There should be 9 computations
assert_equal(len(experiment), 9)
count = 0
for i, _ in enumerate(
experiment.yield_computations(auto_refresh=auto_refresh)):
if i == 0:
state = CompletedState(
Experiment.name_computation(experiment.exp_name, 6))
PickleStorage(experiment.exp_name).update_state(state)
count += 1
print("Auto refresh?", auto_refresh, "--", count)
assert_equal(count, 8 if auto_refresh else 9)
def test_paramset_separator():
ps = ParameterSet()
ps.add_parameters(p1=[1, 2], p2=["a", "b"])
ps.add_separator(p3="param")
ps.add_parameters(p1=3)
assert_equal(len(ps), 6)
for i, param_dict in ps:
assert_equal(param_dict["p3"], "param")
if i < 4:
assert_in(param_dict["p1"], [1, 2])
else:
assert_equal(param_dict["p1"], 3)
ps.add_parameters(p2="c")
assert_equal(len(ps), 9)
count = 0
for i, param_dict in ps:
assert_equal(param_dict["p3"], "param")
if i < 4:
assert_in(param_dict["p1"], [1, 2])
assert_in(param_dict["p2"], ["a", "b"])
if param_dict["p1"] == 3 and param_dict["p2"] == "c":
count += 1
assert_equal(count, 1)
assert_raises(ValueError, ps.add_parameters, p4=10)
def test_paramset_yield():
ps = ParameterSet()
assert_equal(len(ps), 1) # The null dictionary
ps.add_parameters(p1=1, p2=[2, 3], p3="param")
ps.add_parameters(p1=4, p2=5)
cart_prod = [
{"p1": 1, "p2": 2, "p3": "param"},
{"p1": 1, "p2": 3, "p3": "param"},
{"p1": 1, "p2": 5, "p3": "param"},
{"p1": 4, "p2": 2, "p3": "param"},
{"p1": 4, "p2": 3, "p3": "param"},
{"p1": 4, "p2": 5, "p3": "param"},
]
assert_equal(len(ps), 6)
i = 0
for _, param_dict in ps:
assert_in(param_dict, cart_prod)
i += 1
assert_equal(i, 6)
assert_equal(len(ps), 6)
set_stdout_logging()
# Define the parameter set: the domain each variable can take
environment, namespace = env_parser().parse()
env_params = dict(namespace._get_kwargs())
data_path = "/scratch/users/rmormont/tissuenet"
env = {"image_path": os.path.join(data_path, "patches"),
"metadata_path": os.path.join(data_path, "metadata"),
"model_path": os.path.join(data_path, "models"),
"device": namespace.device,
"n_jobs": namespace.n_jobs
}
os.makedirs(env["image_path"], exist_ok=True)
os.makedirs(env["metadata_path"], exist_ok=True)
os.makedirs(env["model_path"], exist_ok=True)
param_set = ParameterSet()
param_set.add_parameters(epochs=40)
param_set.add_parameters(batch_size=[8])
param_set.add_parameters(zoom_level=[0])
param_set.add_parameters(train_size=0.7)
param_set.add_parameters(random_seed=42)
param_set.add_parameters(learning_rate=[0.001])
# Wrap it together as an experiment
experiment = Experiment("tissuenet-e2e-train-maxzoom", param_set, CliComputationFactory(main, **env))
# Finally run the experiment
environment.run(experiment)
def run(self, result, x, z, w, y=2, n=0, **parameters):
import time
from random import randint, normalvariate
result["multiply"] = x * y
# Simulate the effect of the new parameter: in this case we add
# some gaussian noise to the computation of the sum
result["sum"] = z + w + normalvariate(0, n)
time.sleep(randint(1, 10))
if __name__ == "__main__":
set_stdout_logging()
parser = CTParser()
environment, _ = parser.parse()
param_set = ParameterSet()
param_set.add_parameters(x=[1, 2, 3], z=4, w=[5, 6])
# Add the separator, the default value for what was computed previously and
# the new parameter values
# -- Separator (compare this to `004_adding_parameter_values.py`)
param_set.add_separator(n=0) # Notice we pass the default value
# -- new parameter values
param_set.add_parameters(n=[0.01, 0.001])
experiment = Experiment("BasicUsage", param_set, MyComputation)
environment.run(experiment)
super().__init__(exp_name, comp_name, context, storage_factory)
self.my_environment_parameter = my_environment_parameter
def run(self, result, x, z, w, y=2, **parameters):
import time
from random import randint
# We can access our environment parameter
print(self.my_environment_parameter)
result["multiply"] = x * y
result["sum"] = z + w
time.sleep(randint(1, 10))
if __name__ == "__main__":
set_stdout_logging()
parser = CTParser()
environment, _ = parser.parse()
param_set = ParameterSet()
param_set.add_parameters(x=[1, 2, 3], z=4, w=[5, 6])
# We use the :meth:`partialize` class method to specialize the
# computation class with our environment parameter
my_factory = MyComputation.partialize(my_environment_parameter="Test")
experiment = Experiment("BasicUsage", param_set, my_factory)
environment.run(experiment)
def test_prioritized_paramset():
ps = ParameterSet()
ps.add_parameters(p1=[1, 2, 3, 4], p2=["a", "b", "c"])
pps = PrioritizedParamSet(ps)
pps.prioritize("p2", "b")
pps.prioritize("p1", 2)
pps.prioritize("p1", 3)
pps.prioritize("p2", "c")
expected = [
(4, {
"p1": 2,
"p2": "b"
}), # 12 = 0 2^0 + 0 2^1 + 1 2^2 + 1 2^ 3
(7, {
"p1": 3,
"p2": "b"
}), # 10 = 0 2^0 + 1 2^1 + 0 2^2 + 1 2^ 3
(1, {
"p1": 1,
"p2": "b"
}), # 8 = 0 2^0 + 0 2^1 + 0 2^2 + 1 2^ 3
(10, {
"p1": 4,
"p2": "b"
}), # 8 = 0 2^0 + 0 2^1 + 0 2^2 + 1 2^ 3
(5, {
"p1": 2,
"p2": "c"
}), # 5 = 1 2^0 + 0 2^1 + 1 2^2 + 0 2^ 3
(3, {
"p1": 2,
"p2": "a"
}), # 4 = 0 2^0 + 0 2^1 + 1 2^2 + 0 2^ 3
(8, {
"p1": 3,
"p2": "c"
}), # 3 = 1 2^0 + 1 2^1 + 0 2^2 + 0 2^ 3
(6, {
"p1": 3,
"p2": "a"
}), # 2 = 0 2^0 + 2 2^1 + 0 2^2 + 0 2^ 3
(2, {
"p1": 1,
"p2": "c"
}), # 1 = 1 2^0 + 0 2^1 + 0 2^2 + 0 2^ 3
(11, {
"p1": 4,
"p2": "c"
}), # 1 = 1 2^0 + 0 2^1 + 0 2^2 + 0 2^ 3
(0, {
"p1": 1,
"p2": "a"
}), # 0 = 0 2^0 + 0 2^1 + 0 2^2 + 0 2^ 3
(9, {
"p1": 4,
"p2": "a"
}), # 0 = 0 2^0 + 0 2^1 + 0 2^2 + 0 2^ 3
]
result = list(pps)
assert_equal(result, expected)
parser.add_argument("--device", dest="device", default="cuda:0")
parser.add_argument("--n_jobs", dest="n_jobs", default=1, type=int)
_ = Cytomine._add_cytomine_cli_args(parser.parser)
return parser
if __name__ == "__main__":
set_stdout_logging()
# Define the parameter set: the domain each variable can take
environment, namespace = env_parser().parse()
env_params = dict(namespace._get_kwargs())
os.makedirs(namespace.save_path, exist_ok=True)
param_set = ParameterSet()
param_set.add_parameters(batch_size=[8])
param_set.add_parameters(epochs=[5])
param_set.add_parameters(overlap=[0])
param_set.add_parameters(tile_size=[512, 256])
param_set.add_parameters(lr=[0.001])
param_set.add_parameters(init_fmaps=[8])
param_set.add_parameters(zoom_level=[0, 1, 2])
def make_build_fn(**kwargs):
def build_fn(exp_name,
comp_name,
context="n/a",
storage_factory=PickleStorage):
return TrainComputation(exp_name,
comp_name,
**kwargs,
import time
from random import randint
result["multiply"] = x * y
result["sum"] = z + w
time.sleep(randint(1, 10))
if __name__ == "__main__":
set_stdout_logging()
parser = CTParser()
# Add custom argument to parser
parser.add_argument("y", help="The value of the `y` parameter", type=int)
environment, namespace = parser.parse()
param_set = ParameterSet()
# add `y` given in command line to parameter set
param_set.add_parameters(x=[1, 2, 3], z=4, w=[5, 6], y=namespace.y)
# Change the name of the computation according to the value of `y`
# Note that this is mandatory. Otherwise, Clustertools cannot distinguish
# between the two "sub" experiment
exp_name = "BasicUsage_{}".format(namespace.y)
print("This is experiment", exp_name)
experiment = Experiment(exp_name, param_set, MyComputation)
environment.run(experiment)
for i in range(100):
m = (a+b)/2.
if P(a)*P(m) < 0:
b = m
else:
a = m
# Notify the progression of the task. `notify_progress` takes as
# input a float between 0 and 1
self.notify_progress((i+1)/100.)
# Wait some time to be able to see the update with
# `clustertools count`
time.sleep(1)
result["root"] = m
if __name__ == "__main__":
set_stdout_logging()
parser = CTParser()
environment, _ = parser.parse()
param_set = ParameterSet()
param_set.add_parameters(a=1, b=2)
experiment = Experiment("BasicUsageMonitoring", param_set, MyComputation)
environment.run(experiment)
data_path = "/scratch/users/rmormont/tissuenet"
env = {
"image_path": os.path.join(data_path, "patches"),
"metadata_path": os.path.join(data_path, "metadata"),
"model_path": os.path.join(data_path, "models"),
"device": namespace.device,
"n_jobs": namespace.n_jobs
}
os.makedirs(env["image_path"], exist_ok=True)
os.makedirs(env["metadata_path"], exist_ok=True)
os.makedirs(env["model_path"], exist_ok=True)
param_set = ParameterSet()
param_set.add_parameters(pretrained=["imagenet", "mtdp"])
param_set.add_parameters(architecture=["densenet121", "resnet34"])
param_set.add_parameters(epochs=60)
param_set.add_parameters(batch_size=[24])
param_set.add_parameters(zoom_level=[2])
param_set.add_parameters(train_size=0.8)
param_set.add_parameters(random_seed=42)
param_set.add_parameters(learning_rate=[0.001])
param_set.add_parameters(aug_elastic_alpha_low=[80])
param_set.add_parameters(aug_elastic_alpha_high=[120])
param_set.add_parameters(aug_elastic_sigma_low=[9.0])
param_set.add_parameters(aug_elastic_sigma_high=[11.0])
param_set.add_parameters(aug_hed_bias_range=[0.0125, 0.025, 0.05, 0.1])
param_set.add_parameters(aug_hed_coef_range=[0.0125, 0.025, 0.05, 0.1])
param_set.add_separator()
type=int)
parser.add_argument("--image_id", dest="image_id", default=-1, type=int)
_ = Cytomine._add_cytomine_cli_args(parser.parser)
return parser
if __name__ == "__main__":
set_stdout_logging()
# Define the parameter set: the domain each variable can take
environment, namespace = env_parser().parse()
env_params = dict(namespace._get_kwargs())
os.makedirs(namespace.save_path, exist_ok=True)
param_set = ParameterSet()
param_set.add_parameters(image_id=[77150767, 77150761, 77150809])
param_set.add_parameters(batch_size=[8])
param_set.add_parameters(tile_overlap=[0])
param_set.add_parameters(tile_size=256)
param_set.add_parameters(init_fmaps=8)
param_set.add_parameters(zoom_level=2)
param_set.add_separator()
param_set.add_parameters(tile_size=512)
param_set.add_parameters(zoom_level=0)
def make_build_fn(**kwargs):
def build_fn(exp_name,
comp_name,
context="n/a",
storage_factory=PickleStorage):
return ProcessWSIComputation(exp_name,