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Optimize train_CSL_graph_classification.py #84

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Optimize train_CSL_graph_classification.py #84

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81 changes: 47 additions & 34 deletions train/train_CSL_graph_classification.py
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Original file line number Diff line number Diff line change
Expand Up @@ -16,108 +16,120 @@ def train_epoch_sparse(model, optimizer, device, data_loader, epoch):
epoch_loss = 0
epoch_train_acc = 0
nb_data = 0
gpu_mem = 0

optimizer.zero_grad()

for iter, (batch_graphs, batch_labels) in enumerate(data_loader):
batch_x = batch_graphs.ndata['feat'].to(device) # num x feat
batch_x = batch_graphs.ndata['feat'].to(device)
batch_e = batch_graphs.edata['feat'].to(device)
batch_graphs = batch_graphs.to(device)
batch_labels = batch_labels.to(device)
optimizer.zero_grad()

try:
batch_pos_enc = batch_graphs.ndata['pos_enc'].to(device)
sign_flip = torch.rand(batch_pos_enc.size(1)).to(device)
sign_flip[sign_flip>=0.5] = 1.0; sign_flip[sign_flip<0.5] = -1.0
sign_flip[sign_flip >= 0.5] = 1.0
sign_flip[sign_flip < 0.5] = -1.0
batch_pos_enc = batch_pos_enc * sign_flip.unsqueeze(0)
batch_scores = model.forward(batch_graphs, batch_x, batch_e, batch_pos_enc)
except:
batch_scores = model.forward(batch_graphs, batch_x, batch_e)
loss = model.loss(batch_scores, batch_labels)

loss = model.loss(batch_scores, batch_labels)
loss.backward()
optimizer.step()
epoch_loss += loss.detach().item()

epoch_loss += loss.item()
epoch_train_acc += accuracy(batch_scores, batch_labels)
nb_data += batch_labels.size(0)

optimizer.step()
optimizer.zero_grad()

epoch_loss /= (iter + 1)
epoch_train_acc /= nb_data

return epoch_loss, epoch_train_acc, optimizer


def evaluate_network_sparse(model, device, data_loader, epoch):
model.eval()
epoch_test_loss = 0
epoch_test_acc = 0
nb_data = 0

with torch.no_grad():
for iter, (batch_graphs, batch_labels) in enumerate(data_loader):
batch_x = batch_graphs.ndata['feat'].to(device)
batch_e = batch_graphs.edata['feat'].to(device)
batch_graphs = batch_graphs.to(device)
batch_labels = batch_labels.to(device)

try:
batch_pos_enc = batch_graphs.ndata['pos_enc'].to(device)
batch_scores = model.forward(batch_graphs, batch_x, batch_e, batch_pos_enc)
except:
batch_scores = model.forward(batch_graphs, batch_x, batch_e)
loss = model.loss(batch_scores, batch_labels)
epoch_test_loss += loss.detach().item()

loss = model.loss(batch_scores, batch_labels)
epoch_test_loss += loss.item()
epoch_test_acc += accuracy(batch_scores, batch_labels)
nb_data += batch_labels.size(0)
epoch_test_loss /= (iter + 1)
epoch_test_acc /= nb_data

return epoch_test_loss, epoch_test_acc

epoch_test_loss /= (iter + 1)
epoch_test_acc /= nb_data

return epoch_test_loss, epoch_test_acc


"""
For WL-GNNs
"""
def train_epoch_dense(model, optimizer, device, data_loader, epoch, batch_size):
def train_epoch_dense(model, optimizer, device, data_loader, epoch):
model.train()
epoch_loss = 0
epoch_train_acc = 0
nb_data = 0
gpu_mem = 0

optimizer.zero_grad()

for iter, (x_with_node_feat, labels) in enumerate(data_loader):
x_with_node_feat = x_with_node_feat.to(device)
labels = labels.to(device)

scores = model.forward(x_with_node_feat)
loss = model.loss(scores, labels)
loss = model.loss(scores, labels)
loss.backward()

if not (iter%batch_size):
optimizer.step()
optimizer.zero_grad()

epoch_loss += loss.detach().item()

epoch_loss += loss.item()
epoch_train_acc += accuracy(scores, labels)
nb_data += labels.size(0)

optimizer.step()
optimizer.zero_grad()

epoch_loss /= (iter + 1)
epoch_train_acc /= nb_data

return epoch_loss, epoch_train_acc, optimizer


def evaluate_network_dense(model, device, data_loader, epoch):
model.eval()
epoch_test_loss = 0
epoch_test_acc = 0
nb_data = 0

with torch.no_grad():
for iter, (x_with_node_feat, labels) in enumerate(data_loader):
x_with_node_feat = x_with_node_feat.to(device)
labels = labels.to(device)

scores = model.forward(x_with_node_feat)
loss = model.loss(scores, labels)
epoch_test_loss += loss.detach().item()
loss = model.loss(scores, labels)
epoch_test_loss += loss.item()
epoch_test_acc += accuracy(scores, labels)
nb_data += labels.size(0)
epoch_test_loss /= (iter + 1)
epoch_test_acc /= nb_data


epoch_test_loss /= (iter + 1)
epoch_test_acc /= nb_data

return epoch_test_loss, epoch_test_acc


Expand All @@ -128,4 +140,5 @@ def check_patience(all_losses, best_loss, best_epoch, curr_loss, curr_epoch, cou
best_epoch = curr_epoch
else:
counter += 1

return best_loss, best_epoch, counter