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rd2cd_data.py
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rd2cd_data.py
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import os.path as osp
import random
import numpy as np
import torch
from torch import Tensor
from cogdl.data import Dataset, Graph
from cogdl.utils import download_url, untar
base_url = "https://cloud.tsinghua.edu.cn/d/65d7c53dd8474d7091a9/files/?p=%2F"
def get_whole_mask(y, ratio: str, seed: int = 1234567):
"""split the whole dataset in proportion"""
y_have_label_mask = y != -1
total_node_num = len(y)
y_index_tensor = torch.tensor(list(range(total_node_num)), dtype=int)
masked_index = y_index_tensor[y_have_label_mask]
while True:
(train_mask, val_mask, test_mask) = get_order(ratio, masked_index, total_node_num, seed)
if check_train_containing(train_mask, y):
return (train_mask, val_mask, test_mask)
else:
seed += 1
def get_order(ratio: str, masked_index: Tensor, total_node_num: int, seed: int = 1234567):
"""
return:(train_mask,val_mask,test_mask)
"""
random.seed(seed)
masked_node_num = len(masked_index)
shuffle_criterion = list(range(masked_node_num))
random.shuffle(shuffle_criterion)
train_val_test_list = [int(i) for i in ratio.split("-")]
tvt_sum = sum(train_val_test_list)
tvt_ratio_list = [i / tvt_sum for i in train_val_test_list]
train_end_index = int(tvt_ratio_list[0] * masked_node_num)
val_end_index = train_end_index + int(tvt_ratio_list[1] * masked_node_num)
train_mask_index = shuffle_criterion[:train_end_index]
val_mask_index = shuffle_criterion[train_end_index:val_end_index]
test_mask_index = shuffle_criterion[val_end_index:]
train_mask = torch.zeros(total_node_num, dtype=torch.bool)
train_mask[masked_index[train_mask_index]] = True
val_mask = torch.zeros(total_node_num, dtype=torch.bool)
val_mask[masked_index[val_mask_index]] = True
test_mask = torch.zeros(total_node_num, dtype=torch.bool)
test_mask[masked_index[test_mask_index]] = True
return (train_mask, val_mask, test_mask)
def check_train_containing(train_mask, y):
for label in y.unique():
if label.item() == -1:
continue
if label.item() not in y[train_mask]:
return False
return True
class RD2CD(Dataset):
def __init__(self, root, name):
self.name = name
path = osp.join(root, name)
super(RD2CD, self).__init__(path)
self.data = torch.load(self.processed_paths[0])
@property
def raw_file_names(self):
names = ["x.npy", "y.npy", "edge_index.npy"]
return names
@property
def processed_file_names(self):
return "data.pt"
@property
def num_nodes(self):
assert hasattr(self.data, "y")
return self.data.y.shape[0]
def download(self):
fname = "{}.tgz".format(self.name.lower())
download_url("{}{}.tgz&dl=1".format(base_url, self.name), self.raw_dir, fname)
untar(self.raw_dir, fname)
def process(self):
numpy_x = np.load(self.raw_dir + "/x.npy")
x = torch.from_numpy(numpy_x).to(torch.float)
numpy_y = np.load(self.raw_dir + "/y.npy")
y = torch.from_numpy(numpy_y).to(torch.long)
numpy_edge_index = np.load(self.raw_dir + "/edge_index.npy")
edge_index = torch.from_numpy(numpy_edge_index).to(torch.long)
# set train/val/test mask in node_classification task
random_seed = 14530529 # a fixed seed
(train_mask, val_mask, test_mask) = get_whole_mask(y, "6-2-2", random_seed)
data = Graph(x=x, edge_index=edge_index, y=y, train_mask=train_mask, val_mask=val_mask, test_mask=test_mask)
torch.save(data, self.processed_paths[0])
return data
def get(self, idx):
return self.data
class Github(RD2CD):
def __init__(self, root="data"):
super(Github, self).__init__(root, "Github")
class Elliptic(RD2CD):
def __init__(self, root="data"):
super(Elliptic, self).__init__(root, "Elliptic")
class Film(RD2CD):
def __init__(self, root="data"):
super(Film, self).__init__(root, "Film")
class Wiki(RD2CD):
def __init__(self, root="data"):
super(Wiki, self).__init__(root, "Wiki")
class Clothing(RD2CD):
def __init__(self, root="data"):
super(Clothing, self).__init__(root, "Clothing")
class Electronics(RD2CD):
def __init__(self, root="data"):
super(Electronics, self).__init__(root, "Electronics")
class Dblp(RD2CD):
def __init__(self, root="data"):
super(Dblp, self).__init__(root, "Dblp")
class Yelpchi(RD2CD):
def __init__(self, root="data"):
super(Yelpchi, self).__init__(root, "Yelpchi")
class Alpha(RD2CD):
def __init__(self, root="data"):
super(Alpha, self).__init__(root, "Alpha")
class Weibo(RD2CD):
def __init__(self, root="data"):
super(Weibo, self).__init__(root, "Weibo")
class bgp(RD2CD):
def __init__(self, root="data"):
super(bgp, self).__init__(root, "bgp")
class ssn5(RD2CD):
def __init__(self, root="data"):
super(ssn5, self).__init__(root, "ssn5")
class ssn7(RD2CD):
def __init__(self, root="data"):
super(ssn7, self).__init__(root, "ssn7")
class Aids(RD2CD):
def __init__(self, root="data"):
super(Aids, self).__init__(root, "Aids")
class Nba(RD2CD):
def __init__(self, root="data"):
super(Nba, self).__init__(root, "Nba")
class Pokec_z(RD2CD):
def __init__(self, root="data"):
super(Pokec_z, self).__init__(root, "Pokec_z")