def main(save_id, train_p, eval_p, backbone_id, return_eval=False):
print(
"save_id: {0}, train_p : {1}, eval_p: {2}, backbone_id: {3}, ".format(
save_id, train_p, eval_p, backbone_id))
from model_def import define_model
model_dict = define_model(backbone_id)
num_segments = model_dict["num_segments"]
bottleneck_size = model_dict["bottleneck_size"]
dense_sample = model_dict["dense_sample"]
dense_rate = model_dict["dense_rate"]
dir_name = os.path.join("saved_models", save_id) # lfd_params
if not os.path.exists(dir_name):
os.makedirs(dir_name)
filename = os.path.join(dir_name, "../model")
lfd_params = default_model_args(
save_id=save_id,
log_dir=dir_name,
num_segments=num_segments,
bottleneck_size=bottleneck_size,
dense_sample=dense_sample,
dense_rate=dense_rate) # parse_model_args()
if train_p:
model = ClassifierDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=True,
use_spatial=True,
spatial_train=True)
model = train(lfd_params, model, verbose=True)
model.save_model()
if eval_p:
model = ClassifierDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=True,
use_spatial=True,
spatial_train=False)
train_df = evaluate(lfd_params, model, mode="train")
train_df["mode"] = ["train"] * len(train_df)
eval_df = evaluate(lfd_params, model, mode="evaluation", verbose=True)
eval_df["mode"] = ["evaluation"] * len(eval_df)
df = pd.concat([train_df, eval_df])
if return_eval:
return df
df["repeat"] = ["1"] * len(df)
out_filename = os.path.join(lfd_params.args.output_dir,
"output_" + save_id + "_spatial.csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
def main(save_id,
gen_itr,
gen_vee,
train_p,
eval_p,
backbone_id,
full_p=False):
print(
"save_id: {0}, train_p : {1}, eval_p: {2}, backbone_id: {3}, full_p: {4}"
.format(save_id, train_p, eval_p, backbone_id, full_p))
if full_p:
from exec_classifier_bottleneck import main as bottleneck_main
bottleneck_main(save_id, train_p, eval_p, backbone_id)
from model_def import define_model
model_dict = define_model(backbone_id)
num_segments = model_dict["num_segments"]
bottleneck_size = model_dict["bottleneck_size"]
dense_sample = model_dict["dense_sample"]
dense_rate = model_dict["dense_rate"]
dir_name = os.path.join("saved_models", save_id) # lfd_params
if not os.path.exists(dir_name):
os.makedirs(dir_name)
filename = os.path.join(dir_name, "../model")
lfd_params = default_model_args(save_id=save_id,
log_dir=dir_name,
num_segments=num_segments,
bottleneck_size=bottleneck_size,
dense_sample=dense_sample,
dense_rate=dense_rate)
if gen_itr:
print("Training Pipeline")
model = ClassifierDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=True,
use_spatial=False,
use_pipeline=True,
use_temporal=False,
spatial_train=False,
ditrl_pipeline_train=True,
use_gcn=True)
model = train_pipeline(lfd_params, model)
model.save_model()
print("Generating ITR Files")
generate_itr_files_gcn(lfd_params,
model,
"train",
backbone=backbone_id)
generate_itr_files_gcn(lfd_params,
model,
"evaluation",
backbone=backbone_id)
'''
if gen_vee:
model = ClassifierDITRL(lfd_params, filename, backbone_id, use_feature_extractor=True, use_spatial=False,
use_pipeline=True, use_temporal=False, spatial_train=False, ditrl_pipeline_train=False,
return_vee=True)
print("Generating Sparse IAD Files")
generate_binarized_iad_files(lfd_params, model, "train", backbone=backbone_id)
generate_binarized_iad_files(lfd_params, model, "evaluation", backbone=backbone_id)
'''
if train_p:
print("Training Policy")
model = PolicyLearnerDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=False,
use_spatial=False,
use_pipeline=False,
use_temporal=True,
spatial_train=False,
ditrl_pipeline_train=False,
temporal_train=True,
policy_train=True,
use_gcn=True)
model = train(lfd_params,
model,
input_dtype="gcn",
verbose=False,
ablation=False) # make sure to use ITRs
print("--------------")
print("Saved Model")
model.save_model()
if eval_p:
model = PolicyLearnerDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=False,
use_spatial=False,
use_pipeline=False,
use_temporal=True,
spatial_train=False,
ditrl_pipeline_train=False,
temporal_train=False,
use_gcn=True)
'''
df = evaluate_single_action(lfd_params, model, input_dtype="itr")
out_filename = os.path.join(lfd_params.args.output_dir, "output_" + save_id + "_single_action.csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
'''
df = evaluate_action_trace(lfd_params, model, input_dtype="gcn")
out_filename = os.path.join(lfd_params.args.output_dir,
"output_" + save_id + "_action_trace.csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
df = evaluate_action_trace(lfd_params,
model,
input_dtype="gcn",
ablation=True,
verbose=False,
mode="train")
out_filename = os.path.join(
lfd_params.args.output_dir,
"output_" + save_id + "_action_trace_ablation_train.csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
df = evaluate_action_trace(lfd_params,
model,
input_dtype="gcn",
ablation=True,
verbose=False,
mode="evaluation")
out_filename = os.path.join(
lfd_params.args.output_dir,
"output_" + save_id + "_action_trace_ablation_eval.csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
'''
for mode in ["train", "evaluation"]:
#vd = VideoDataset(root_path, mode, full_sample, image_tmpl=image_tmpl, num_segments=num_segments)
vd = DatasetVideo(root_path, mode, image_tmpl=image_tmpl, num_segments=num_segments)
if (mode == "train"):
user = input("There are {0} files to choose from:".format(len(vd)))
img_dict[mode] = vd.show(int(user))
get_concat_v(img_dict["train"], img_dict["evaluation"]).save("analysis/fig/out.png")
'''
from parameter_parser import default_model_args
lfd_params = default_model_args(save_id="",
log_dir="",
num_segments=num_segments,
bottleneck_size="",
dense_sample=False,
dense_rate=8)
# generate images from entire dataset
vd = DatasetVideo(lfd_params,
root_path,
"train",
image_tmpl=image_tmpl,
num_segments=num_segments)
for i in range(len(vd)):
print("i:", i, len(vd))
img = vd.show(i)
img.save("analysis/dataset_fig/" + str(i).zfill(2) + "_clean.png")
"""
parser = argparse.ArgumentParser(description='Generate IADs from input files')
large_frame.paste(iad_frame, (0, buffer_height))
new_frames.append(large_frame)
out_img = new_frames[0]
for z in range(1, len(new_frames)):
out_img = get_concat_h(out_img, new_frames[z])
# save the image
print(filename)
out_id = filename.split('/')[-1].split('.')[0]
out_img.save("analysis/fig/viz_"+out_id+".png")
if __name__ == '__main__':
save_id = "policy_learning_ditrl_tsm_bn16_2"
dir_name = os.path.join("saved_models", save_id) # lfd_params
assert os.path.exists(dir_name), "ERROR: run_iad_visualization.py: model filename not found"
filename = os.path.join(dir_name, "model")
lfd_params = default_model_args(save_id=save_id, log_dir=dir_name, num_segments=20)
model = ClassifierDITRLTSM(lfd_params, filename, use_feature_extractor=True, use_spatial=False,
use_pipeline=True, use_temporal=False,
spatial_train=False, ditrl_pipeline_train=False, temporal_train=False)
visualize(lfd_params, model, mode="train")
visualize(lfd_params, model, mode="evaluation")
def main(save_id,
gen_itr,
gen_vee,
train_p,
eval_p,
backbone_id,
full_p=False):
if full_p:
from exec_classifier_bottleneck import main as backbone_main
backbone_main(save_id, train_p, eval_p, backbone_id)
from model_def import define_model
model_dict = define_model(backbone_id)
num_segments = model_dict["num_segments"]
bottleneck_size = model_dict["bottleneck_size"]
dense_sample = model_dict["dense_sample"]
dense_rate = model_dict["dense_rate"]
dir_name = os.path.join("saved_models", save_id) # lfd_params
if not os.path.exists(dir_name):
os.makedirs(dir_name)
filename = os.path.join(dir_name, "../model")
lfd_params = default_model_args(save_id=save_id,
log_dir=dir_name,
num_segments=num_segments,
bottleneck_size=bottleneck_size,
dense_sample=dense_sample,
dense_rate=dense_rate)
if gen_itr:
print("Training Pipeline")
model = ClassifierDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=True,
use_spatial=False,
use_pipeline=True,
use_temporal=False,
spatial_train=False,
ditrl_pipeline_train=True)
model = train_pipeline(lfd_params, model)
model.save_model()
print("Generating ITR Files")
generate_itr_files(lfd_params, model, "train")
generate_itr_files(lfd_params, model, "evaluation")
if gen_vee:
model = ClassifierDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=True,
use_spatial=False,
use_pipeline=True,
use_temporal=False,
spatial_train=False,
ditrl_pipeline_train=False,
return_vee=True)
print("Generating Sparse IAD Files")
generate_binarized_iad_files(lfd_params,
model,
"train",
backbone=backbone_id)
generate_binarized_iad_files(lfd_params,
model,
"evaluation",
backbone=backbone_id)
if train_p:
model = ClassifierDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=False,
use_spatial=False,
use_pipeline=False,
use_temporal=True,
spatial_train=False,
ditrl_pipeline_train=False,
temporal_train=True)
model = train(lfd_params, model, input_dtype="itr",
verbose=True) # make sure to use ITRs
model.save_model()
if eval_p:
print("Evaluating Model")
model = ClassifierDITRL(lfd_params,
filename,
backbone_id,
use_feature_extractor=False,
use_spatial=False,
use_pipeline=False,
use_temporal=True,
spatial_train=False,
ditrl_pipeline_train=False,
temporal_train=False)
train_df = evaluate(lfd_params, model, mode="train", input_dtype="itr")
train_df["mode"] = ["train"] * len(train_df)
eval_df = evaluate(lfd_params,
model,
mode="evaluation",
verbose=True,
input_dtype="itr")
eval_df["mode"] = ["evaluation"] * len(eval_df)
df = pd.concat([train_df, eval_df])
df["repeat"] = [save_id] * len(df)
out_filename = os.path.join(lfd_params.args.output_dir,
"output_" + save_id + ".csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
def main(save_id, gen_p, train_p, eval_p, backbone_id, use_bottleneck=True):
from model_def import define_model
model_dict = define_model(backbone_id)
num_segments = model_dict["num_segments"]
bottleneck_size = model_dict["bottleneck_size"]
dense_sample = model_dict["dense_sample"]
dense_rate = model_dict["dense_rate"]
dir_name = os.path.join("saved_models", save_id) # lfd_params
if not os.path.exists(dir_name):
os.makedirs(dir_name)
filename = os.path.join(dir_name, "../model")
lfd_params = default_model_args(save_id=save_id,
log_dir=dir_name,
num_segments=num_segments,
bottleneck_size=bottleneck_size,
dense_sample=dense_sample,
dense_rate=dense_rate)
if gen_p:
# Generate IADs
print("Generating ITR Files")
model = Classifier(lfd_params,
filename,
backbone_id,
use_feature_extractor=True,
use_spatial_lstm=False,
spatial_train=False,
use_bottleneck=use_bottleneck)
generate_iad_files(lfd_params, model, "train", backbone=backbone_id)
generate_iad_files(lfd_params,
model,
"evaluation",
backbone=backbone_id)
if train_p:
print("Training Policy")
model = PolicyLearner(lfd_params,
filename,
backbone_id,
use_feature_extractor=False,
use_spatial_lstm=True,
spatial_train=True,
policy_train=True,
use_bottleneck=use_bottleneck)
# Train policy learner
model = train(lfd_params,
model,
verbose=False,
input_dtype="iad",
ablation=False)
model.save_model()
if eval_p:
model = PolicyLearner(lfd_params,
filename,
backbone_id,
use_feature_extractor=False,
use_spatial_lstm=True,
policy_train=False,
use_bottleneck=use_bottleneck)
df = evaluate_action_trace(lfd_params,
model,
verbose=True,
input_dtype="iad")
out_filename = os.path.join(lfd_params.args.output_dir,
"output_" + save_id + "_action_trace.csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
df = evaluate_action_trace(lfd_params,
model,
input_dtype="iad",
ablation=True,
verbose=True,
mode="train")
out_filename = os.path.join(
lfd_params.args.output_dir,
"output_" + save_id + "_action_trace_ablation_train.csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
df = evaluate_action_trace(lfd_params,
model,
input_dtype="iad",
ablation=True,
verbose=True,
mode="evaluation")
out_filename = os.path.join(
lfd_params.args.output_dir,
"output_" + save_id + "_action_trace_ablation_eval.csv")
df.to_csv(out_filename)
print("Output placed in: " + out_filename)
