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import os | |
import time | |
import pickle | |
import random | |
from tqdm import tqdm | |
import argparse | |
import pandas as pd | |
import torch | |
from torch_geometric.loader import DataLoader | |
import torch.utils.data | |
from rdkit import RDLogger | |
torch.set_num_threads(5) | |
RDLogger.DisableLog('rdApp.*') | |
from rdkit.Chem import QED | |
from utils import * | |
from models import Generator | |
from new_dataloader import DruggenDataset | |
from loss import generator_loss | |
from training_data import load_molecules | |
from smiles_cor import smi_correct | |
class Inference(object): | |
"""Inference class for DrugGEN.""" | |
def __init__(self, config): | |
if config.set_seed: | |
np.random.seed(config.seed) | |
random.seed(config.seed) | |
torch.manual_seed(config.seed) | |
torch.cuda.manual_seed_all(config.seed) | |
torch.backends.cudnn.deterministic = True | |
torch.backends.cudnn.benchmark = False | |
os.environ["PYTHONHASHSEED"] = str(config.seed) | |
print(f'Using seed {config.seed}') | |
self.device = torch.device("cuda" if torch.cuda.is_available() else 'cpu') | |
# Initialize configurations | |
self.submodel = config.submodel | |
self.inference_model = config.inference_model | |
self.sample_num = config.sample_num | |
self.correct = config.correct | |
# Data loader. | |
self.inf_raw_file = config.inf_raw_file # SMILES containing text file for first dataset. | |
# Write the full path to file. | |
self.inf_dataset_file = config.inf_dataset_file # Dataset file name for the first GAN. | |
# Contains large number of molecules. | |
self.inf_batch_size = config.inf_batch_size | |
self.mol_data_dir = config.mol_data_dir # Directory where the dataset files are stored. | |
self.dataset_name = self.inf_dataset_file.split(".")[0] | |
self.max_atom = config.max_atom # Model is based on one-shot generation. | |
# Max atom number for molecules must be specified. | |
self.features = config.features # Small model uses atom types as node features. (Boolean, False uses atom types only.) | |
# Additional node features can be added. Please check new_dataloarder.py Line 102. | |
self.inf_dataset = DruggenDataset(self.mol_data_dir, | |
self.inf_dataset_file, | |
self.inf_raw_file, | |
self.max_atom, | |
self.features) # Dataset for the first GAN. Custom dataset class from PyG parent class. | |
# Can create any molecular graph dataset given smiles string. | |
# Nonisomeric SMILES are suggested but not necessary. | |
# Uses sparse matrix representation for graphs, | |
# For computational and speed efficiency. | |
self.inf_loader = DataLoader(self.inf_dataset, | |
shuffle=True, | |
batch_size=self.inf_batch_size, | |
drop_last=True) # PyG dataloader for the first GAN. | |
# Atom and bond type dimensions for the construction of the model. | |
self.atom_decoders = self.decoder_load("atom") # Atom type decoders for first GAN. | |
# eg. 0:0, 1:6 (C), 2:7 (N), 3:8 (O), 4:9 (F) | |
self.bond_decoders = self.decoder_load("bond") # Bond type decoders for first GAN. | |
# eg. 0: (no-bond), 1: (single), 2: (double), 3: (triple), 4: (aromatic) | |
self.m_dim = len(self.atom_decoders) if not self.features else int(self.inf_loader.dataset[0].x.shape[1]) # Atom type dimension. | |
self.b_dim = len(self.bond_decoders) # Bond type dimension. | |
self.vertexes = int(self.inf_loader.dataset[0].x.shape[0]) # Number of nodes in the graph. | |
# Transformer and Convolution configurations. | |
self.act = config.act | |
self.dim = config.dim | |
self.depth = config.depth | |
self.heads = config.heads | |
self.mlp_ratio = config.mlp_ratio | |
self.dropout = config.dropout | |
self.build_model() | |
def build_model(self): | |
"""Create generators and discriminators.""" | |
self.G = Generator(self.act, | |
self.vertexes, | |
self.b_dim, | |
self.m_dim, | |
self.dropout, | |
dim=self.dim, | |
depth=self.depth, | |
heads=self.heads, | |
mlp_ratio=self.mlp_ratio) | |
self.print_network(self.G, 'G') | |
self.G.to(self.device) | |
def decoder_load(self, dictionary_name): | |
''' Loading the atom and bond decoders''' | |
with open("data/decoders/" + dictionary_name + "_" + self.dataset_name + '.pkl', 'rb') as f: | |
return pickle.load(f) | |
def print_network(self, model, name): | |
"""Print out the network information.""" | |
num_params = 0 | |
for p in model.parameters(): | |
num_params += p.numel() | |
print(model) | |
print(name) | |
print("The number of parameters: {}".format(num_params)) | |
def restore_model(self, submodel, model_directory): | |
"""Restore the trained generator and discriminator.""" | |
print('Loading the model...') | |
G_path = os.path.join(model_directory, '{}-G.ckpt'.format(submodel)) | |
self.G.load_state_dict(torch.load(G_path, map_location=lambda storage, loc: storage)) | |
def inference(self): | |
# Load the trained generator. | |
self.restore_model(self.submodel, self.inference_model) | |
# smiles data for metrics calculation. | |
chembl_smiles = [line for line in open("data/chembl_train.smi", 'r').read().splitlines()] | |
chembl_test = [line for line in open("data/chembl_test.smi", 'r').read().splitlines()] | |
drug_smiles = [line for line in open("data/akt_inhibitors.smi", 'r').read().splitlines()] | |
drug_mols = [Chem.MolFromSmiles(smi) for smi in drug_smiles] | |
drug_vecs = [AllChem.GetMorganFingerprintAsBitVect(x, 2, nBits=1024) for x in drug_mols if x is not None] | |
# Make directories if not exist. | |
if not os.path.exists("experiments/inference/{}".format(self.submodel)): | |
os.makedirs("experiments/inference/{}".format(self.submodel)) | |
if self.correct: | |
correct = smi_correct(self.submodel, "DrugGEN_/experiments/inference/{}".format(self.submodel)) | |
search_res = pd.DataFrame(columns=["submodel", "validity", | |
"uniqueness", "novelty", | |
"novelty_test", "AKT_novelty", | |
"max_len", "mean_atom_type", | |
"snn_chembl", "snn_akt", "IntDiv", "qed"]) | |
self.G.eval() | |
start_time = time.time() | |
metric_calc_dr = [] | |
uniqueness_calc = [] | |
real_smiles_snn = [] | |
nodes_sample = torch.Tensor(size=[1,45,1]).to(self.device) | |
f = open("experiments/inference/{}/inference_drugs.txt".format(self.submodel), "w") | |
f.write("SMILES") | |
f.write("\n") | |
val_counter = 0 | |
none_counter = 0 | |
# Inference mode | |
with torch.inference_mode(): | |
pbar = tqdm(range(self.sample_num)) | |
pbar.set_description('Inference mode for {} model started'.format(self.submodel)) | |
for i, data in enumerate(self.inf_loader): | |
val_counter += 1 | |
# Preprocess dataset | |
_, a_tensor, x_tensor = load_molecules( | |
data=data, | |
batch_size=self.inf_batch_size, | |
device=self.device, | |
b_dim=self.b_dim, | |
m_dim=self.m_dim, | |
) | |
_, _, node_sample, edge_sample = self.G(a_tensor, x_tensor) | |
g_edges_hat_sample = torch.max(edge_sample, -1)[1] | |
g_nodes_hat_sample = torch.max(node_sample, -1)[1] | |
fake_mol_g = [self.inf_dataset.matrices2mol_drugs(n_.data.cpu().numpy(), e_.data.cpu().numpy(), strict=False, file_name=self.dataset_name) | |
for e_, n_ in zip(g_edges_hat_sample, g_nodes_hat_sample)] | |
a_tensor_sample = torch.max(a_tensor, -1)[1] | |
x_tensor_sample = torch.max(x_tensor, -1)[1] | |
real_mols = [self.inf_dataset.matrices2mol_drugs(n_.data.cpu().numpy(), e_.data.cpu().numpy(), strict=True, file_name=self.dataset_name) | |
for e_, n_ in zip(a_tensor_sample, x_tensor_sample)] | |
inference_drugs = [None if line is None else Chem.MolToSmiles(line) for line in fake_mol_g] | |
inference_drugs = [None if x is None else max(x.split('.'), key=len) for x in inference_drugs] | |
for molecules in inference_drugs: | |
if molecules is None: | |
none_counter += 1 | |
for molecules in inference_drugs: | |
if molecules is not None: | |
molecules = molecules.replace("*", "C") | |
f.write(molecules) | |
f.write("\n") | |
uniqueness_calc.append(molecules) | |
nodes_sample = torch.cat((nodes_sample, g_nodes_hat_sample.view(1,45,1)), 0) | |
pbar.update(1) | |
metric_calc_dr.append(molecules) | |
real_smiles_snn.append(real_mols[0]) | |
generation_number = len([x for x in metric_calc_dr if x is not None]) | |
if generation_number == self.sample_num or none_counter == self.sample_num: | |
break | |
f.close() | |
print("Inference completed, starting metrics calculation.") | |
if self.correct: | |
corrected = correct.correct("experiments/inference/{}/inference_drugs.txt".format(self.submodel)) | |
gen_smi = corrected["SMILES"].tolist() | |
else: | |
gen_smi = pd.read_csv("experiments/inference/{}/inference_drugs.txt".format(self.submodel))["SMILES"].tolist() | |
et = time.time() - start_time | |
with open("experiments/inference/{}/inference_drugs.txt".format(self.submodel), "w") as f: | |
for i in gen_smi: | |
f.write(i) | |
f.write("\n") | |
if self.correct: | |
val = round(len(gen_smi)/self.sample_num,3) | |
else: | |
val = round(fraction_valid(gen_smi),3) | |
return{ | |
"Runtime (seconds)": f"{et:.2f}", | |
"Validity": str(val), | |
"Uniqueness": f"{fraction_unique(uniqueness_calc):.2f}", | |
"Novelty (Train)": f"{novelty(metric_calc_dr, chembl_smiles):.2f}", | |
"Novelty (Inference)": f"{novelty(metric_calc_dr, chembl_test):.2f}", | |
} | |
if __name__=="__main__": | |
parser = argparse.ArgumentParser() | |
# Inference configuration. | |
parser.add_argument('--submodel', type=str, default="DrugGEN", help="Chose model subtype: DrugGEN, NoTarget", choices=['DrugGEN', 'NoTarget']) | |
parser.add_argument('--inference_model', type=str, help="Path to the model for inference") | |
parser.add_argument('--sample_num', type=int, default=100, help='inference samples') | |
parser.add_argument('--correct', type=str2bool, default=False, help='Correct smiles') | |
# Data configuration. | |
parser.add_argument('--inf_dataset_file', type=str, default='chembl45_test.pt') | |
parser.add_argument('--inf_raw_file', type=str, default='data/chembl_test.smi') | |
parser.add_argument('--inf_batch_size', type=int, default=1, help='Batch size for inference') | |
parser.add_argument('--mol_data_dir', type=str, default='data') | |
parser.add_argument('--features', type=str2bool, default=False, help='features dimension for nodes') | |
# Model configuration. | |
parser.add_argument('--act', type=str, default="relu", help="Activation function for the model.", choices=['relu', 'tanh', 'leaky', 'sigmoid']) | |
parser.add_argument('--max_atom', type=int, default=45, help='Max atom number for molecules must be specified.') | |
parser.add_argument('--dim', type=int, default=128, help='Dimension of the Transformer Encoder model for the GAN.') | |
parser.add_argument('--depth', type=int, default=1, help='Depth of the Transformer model from the GAN.') | |
parser.add_argument('--heads', type=int, default=8, help='Number of heads for the MultiHeadAttention module from the GAN.') | |
parser.add_argument('--mlp_ratio', type=int, default=3, help='MLP ratio for the Transformer.') | |
parser.add_argument('--dropout', type=float, default=0., help='dropout rate') | |
# Seed configuration. | |
parser.add_argument('--set_seed', type=bool, default=False, help='set seed for reproducibility') | |
parser.add_argument('--seed', type=int, default=1, help='seed for reproducibility') | |
config = parser.parse_args() | |
inference = Inference(config) | |
inference.inference() | |