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sample.py
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sample.py
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import torch
from dnadiffusion.data.dataloader import load_data
from dnadiffusion.metrics.metrics import generate_heatmap, kl_heatmap
from dnadiffusion.models.diffusion import Diffusion
from dnadiffusion.models.unet import UNet
from dnadiffusion.utils.sample_util import create_sample
def sample(model_path: str, num_samples: int = 1000, heatmap: bool = False):
# Instantiating data and model
print("Loading data")
encode_data = load_data(
data_path="src/dnadiffusion/data/K562_hESCT0_HepG2_GM12878_12k_sequences_per_group.txt",
saved_data_path="src/dnadiffusion/data/encode_data.pkl",
subset_list=[
"GM12878_ENCLB441ZZZ",
"hESCT0_ENCLB449ZZZ",
"K562_ENCLB843GMH",
"HepG2_ENCLB029COU",
],
limit_total_sequences=0,
num_sampling_to_compare_cells=1000,
load_saved_data=True,
)
print("Instantiating unet")
unet = UNet(
dim=200,
channels=1,
dim_mults=(1, 2, 4),
resnet_block_groups=4,
)
print("Instantiating diffusion class")
diffusion = Diffusion(
unet,
timesteps=50,
)
# Load checkpoint
print("Loading checkpoint")
checkpoint_dict = torch.load(model_path)
diffusion.load_state_dict(checkpoint_dict["model"])
# Send model to device
print("Sending model to device")
diffusion = diffusion.to("cuda")
# Generating cell specific samples
cell_num_list = encode_data["cell_types"]
cell_list = list(encode_data["tag_to_numeric"].keys())
for i in cell_num_list:
print(f"Generating {num_samples} samples for cell {encode_data['numeric_to_tag'][i]}")
create_sample(
diffusion,
conditional_numeric_to_tag=encode_data["numeric_to_tag"],
cell_types=encode_data["cell_types"],
number_of_samples=int(num_samples / 10),
group_number=i,
cond_weight_to_metric=1,
save_timesteps=False,
save_dataframe=True,
)
if heatmap:
# Generate synthetic vs train heatmap
motif_df = kl_heatmap(
cell_list,
encode_data["train_motifs_cell_specific"],
)
generate_heatmap(motif_df, "DNADiffusion", "Train", cell_list)
# Generate synthetic vs test heatmap
motif_df = kl_heatmap(
cell_list,
encode_data["test_motifs_cell_specific"],
)
generate_heatmap(motif_df, "DNADiffusion", "Test", cell_list)
# Generate synthetic vs shuffle heatmap
motif_df = kl_heatmap(
cell_list,
encode_data["shuffle_motifs_cell_specific"],
)
generate_heatmap(motif_df, "DNADiffusion", "Shuffle", cell_list)
print("Finished generating heatmaps")
return
if __name__ == "__main__":
sample()