from __future__ import absolute_import
import numpy as np
import os
from .dgl_dataset import DGLBuiltinDataset
from .utils import loadtxt, save_graphs, load_graphs, save_info, load_info
from .. import backend as F
from ..convert import graph as dgl_graph
[docs]class LegacyTUDataset(DGLBuiltinDataset):
r"""LegacyTUDataset contains lots of graph kernel datasets for graph classification.
Parameters
----------
name : str
Dataset Name, such as ``ENZYMES``, ``DD``, ``COLLAB``, ``MUTAG``, can be the
datasets name on `<https://chrsmrrs.github.io/datasets/docs/datasets/>`_.
use_pandas : bool
Numpy's file read function has performance issue when file is large,
using pandas can be faster.
Default: False
hidden_size : int
Some dataset doesn't contain features.
Use constant node features initialization instead, with hidden size as ``hidden_size``.
Default : 10
max_allow_node : int
Remove graphs that contains more nodes than ``max_allow_node``.
Default : None
transform : callable, optional
A transform that takes in a :class:`~dgl.DGLGraph` object and returns
a transformed version. The :class:`~dgl.DGLGraph` object will be
transformed before every access.
Attributes
----------
max_num_node : int
Maximum number of nodes
num_labels : int
Number of classes
Notes
-----
LegacyTUDataset uses provided node feature by default. If no feature provided, it uses one-hot node label instead.
If neither labels provided, it uses constant for node feature.
The dataset sorts graphs by their labels.
Shuffle is preferred before manual train/val split.
Examples
--------
>>> data = LegacyTUDataset('DD')
The dataset instance is an iterable
>>> len(data)
1178
>>> g, label = data[1024]
>>> g
Graph(num_nodes=88, num_edges=410,
ndata_schemes={'feat': Scheme(shape=(89,), dtype=torch.float32), '_ID': Scheme(shape=(), dtype=torch.int64)}
edata_schemes={'_ID': Scheme(shape=(), dtype=torch.int64)})
>>> label
tensor(1)
Batch the graphs and labels for mini-batch training
>>> graphs, labels = zip(*[data[i] for i in range(16)])
>>> batched_graphs = dgl.batch(graphs)
>>> batched_labels = torch.tensor(labels)
>>> batched_graphs
Graph(num_nodes=9539, num_edges=47382,
ndata_schemes={'feat': Scheme(shape=(89,), dtype=torch.float32), '_ID': Scheme(shape=(), dtype=torch.int64)}
edata_schemes={'_ID': Scheme(shape=(), dtype=torch.int64)})
"""
_url = r"https://www.chrsmrrs.com/graphkerneldatasets/{}.zip"
def __init__(self, name, use_pandas=False,
hidden_size=10, max_allow_node=None,
raw_dir=None, force_reload=False, verbose=False, transform=None):
url = self._url.format(name)
self.hidden_size = hidden_size
self.max_allow_node = max_allow_node
self.use_pandas = use_pandas
super(LegacyTUDataset, self).__init__(name=name, url=url, raw_dir=raw_dir,
hash_key=(name, use_pandas, hidden_size, max_allow_node),
force_reload=force_reload, verbose=verbose, transform=transform)
def process(self):
self.data_mode = None
if self.use_pandas:
import pandas as pd
DS_edge_list = self._idx_from_zero(
pd.read_csv(self._file_path("A"), delimiter=",", dtype=int, header=None).values)
else:
DS_edge_list = self._idx_from_zero(
np.genfromtxt(self._file_path("A"), delimiter=",", dtype=int))
DS_indicator = self._idx_from_zero(
np.genfromtxt(self._file_path("graph_indicator"), dtype=int))
if os.path.exists(self._file_path("graph_labels")):
DS_graph_labels = self._idx_from_zero(
np.genfromtxt(self._file_path("graph_labels"), dtype=int))
self.num_labels = max(DS_graph_labels) + 1
self.graph_labels = DS_graph_labels
elif os.path.exists(self._file_path("graph_attributes")):
DS_graph_labels = np.genfromtxt(self._file_path("graph_attributes"), dtype=float)
self.num_labels = None
self.graph_labels = DS_graph_labels
else:
raise Exception("Unknown graph label or graph attributes")
g = dgl_graph(([], []))
g.add_nodes(int(DS_edge_list.max()) + 1)
g.add_edges(DS_edge_list[:, 0], DS_edge_list[:, 1])
node_idx_list = []
self.max_num_node = 0
for idx in range(np.max(DS_indicator) + 1):
node_idx = np.where(DS_indicator == idx)
node_idx_list.append(node_idx[0])
if len(node_idx[0]) > self.max_num_node:
self.max_num_node = len(node_idx[0])
self.graph_lists = [g.subgraph(node_idx) for node_idx in node_idx_list]
try:
DS_node_labels = self._idx_from_zero(
np.loadtxt(self._file_path("node_labels"), dtype=int))
g.ndata['node_label'] = F.tensor(DS_node_labels)
one_hot_node_labels = self._to_onehot(DS_node_labels)
for idxs, g in zip(node_idx_list, self.graph_lists):
g.ndata['feat'] = F.tensor(one_hot_node_labels[idxs, :], F.float32)
self.data_mode = "node_label"
except IOError:
print("No Node Label Data")
try:
DS_node_attr = np.loadtxt(
self._file_path("node_attributes"), delimiter=",")
if DS_node_attr.ndim == 1:
DS_node_attr = np.expand_dims(DS_node_attr, -1)
for idxs, g in zip(node_idx_list, self.graph_lists):
g.ndata['feat'] = F.tensor(DS_node_attr[idxs, :], F.float32)
self.data_mode = "node_attr"
except IOError:
print("No Node Attribute Data")
if 'feat' not in g.ndata.keys():
for idxs, g in zip(node_idx_list, self.graph_lists):
g.ndata['feat'] = F.ones((g.number_of_nodes(), self.hidden_size),
F.float32, F.cpu())
self.data_mode = "constant"
if self.verbose:
print("Use Constant one as Feature with hidden size {}".format(self.hidden_size))
# remove graphs that are too large by user given standard
# optional pre-processing steop in conformity with Rex Ying's original
# DiffPool implementation
if self.max_allow_node:
preserve_idx = []
if self.verbose:
print("original dataset length : ", len(self.graph_lists))
for (i, g) in enumerate(self.graph_lists):
if g.number_of_nodes() <= self.max_allow_node:
preserve_idx.append(i)
self.graph_lists = [self.graph_lists[i] for i in preserve_idx]
if self.verbose:
print("after pruning graphs that are too big : ", len(self.graph_lists))
self.graph_labels = [self.graph_labels[i] for i in preserve_idx]
self.max_num_node = self.max_allow_node
self.graph_labels = F.tensor(self.graph_labels)
def save(self):
graph_path = os.path.join(self.save_path, 'legacy_tu_{}_{}.bin'.format(self.name, self.hash))
info_path = os.path.join(self.save_path, 'legacy_tu_{}_{}.pkl'.format(self.name, self.hash))
label_dict = {'labels': self.graph_labels}
info_dict = {'max_num_node': self.max_num_node,
'num_labels': self.num_labels}
save_graphs(str(graph_path), self.graph_lists, label_dict)
save_info(str(info_path), info_dict)
def load(self):
graph_path = os.path.join(self.save_path, 'legacy_tu_{}_{}.bin'.format(self.name, self.hash))
info_path = os.path.join(self.save_path, 'legacy_tu_{}_{}.pkl'.format(self.name, self.hash))
graphs, label_dict = load_graphs(str(graph_path))
info_dict = load_info(str(info_path))
self.graph_lists = graphs
self.graph_labels = label_dict['labels']
self.max_num_node = info_dict['max_num_node']
self.num_labels = info_dict['num_labels']
def has_cache(self):
graph_path = os.path.join(self.save_path, 'legacy_tu_{}_{}.bin'.format(self.name, self.hash))
info_path = os.path.join(self.save_path, 'legacy_tu_{}_{}.pkl'.format(self.name, self.hash))
if os.path.exists(graph_path) and os.path.exists(info_path):
return True
return False
[docs] def __getitem__(self, idx):
"""Get the idx-th sample.
Parameters
---------
idx : int
The sample index.
Returns
-------
(:class:`dgl.DGLGraph`, Tensor)
Graph with node feature stored in ``feat`` field and node label in ``node_label`` if available.
And its label.
"""
g = self.graph_lists[idx]
if self._transform is not None:
g = self._transform(g)
return g, self.graph_labels[idx]
[docs] def __len__(self):
"""Return the number of graphs in the dataset."""
return len(self.graph_lists)
def _file_path(self, category):
return os.path.join(self.raw_path, self.name,
"{}_{}.txt".format(self.name, category))
@staticmethod
def _idx_from_zero(idx_tensor):
return idx_tensor - np.min(idx_tensor)
@staticmethod
def _to_onehot(label_tensor):
label_num = label_tensor.shape[0]
assert np.min(label_tensor) == 0
one_hot_tensor = np.zeros((label_num, np.max(label_tensor) + 1))
one_hot_tensor[np.arange(label_num), label_tensor] = 1
return one_hot_tensor
def statistics(self):
return self.graph_lists[0].ndata['feat'].shape[1],\
self.num_labels,\
self.max_num_node
[docs]class TUDataset(DGLBuiltinDataset):
r"""
TUDataset contains lots of graph kernel datasets for graph classification.
Parameters
----------
name : str
Dataset Name, such as ``ENZYMES``, ``DD``, ``COLLAB``, ``MUTAG``, can be the
datasets name on `<https://chrsmrrs.github.io/datasets/docs/datasets/>`_.
transform : callable, optional
A transform that takes in a :class:`~dgl.DGLGraph` object and returns
a transformed version. The :class:`~dgl.DGLGraph` object will be
transformed before every access.
Attributes
----------
max_num_node : int
Maximum number of nodes
num_labels : int
Number of classes
Notes
-----
**IMPORTANT:** Some of the datasets have duplicate edges exist in the graphs, e.g.
the edges in ``IMDB-BINARY`` are all duplicated. DGL faithfully keeps the duplicates
as per the original data. Other frameworks such as PyTorch Geometric removes the
duplicates by default. You can remove the duplicate edges with :func:`dgl.to_simple`.
Graphs may have node labels, node attributes, edge labels, and edge attributes,
varing from different dataset.
Labels are mapped to :math:`\lbrace 0,\cdots,n-1 \rbrace` where :math:`n` is the
number of labels (some datasets have raw labels :math:`\lbrace -1, 1 \rbrace` which
will be mapped to :math:`\lbrace 0, 1 \rbrace`). In previous versions, the minimum
label was added so that :math:`\lbrace -1, 1 \rbrace` was mapped to
:math:`\lbrace 0, 2 \rbrace`.
The dataset sorts graphs by their labels.
Shuffle is preferred before manual train/val split.
Examples
--------
>>> data = TUDataset('DD')
The dataset instance is an iterable
>>> len(data)
188
>>> g, label = data[1024]
>>> g
Graph(num_nodes=88, num_edges=410,
ndata_schemes={'_ID': Scheme(shape=(), dtype=torch.int64), 'node_labels': Scheme(shape=(1,), dtype=torch.int64)}
edata_schemes={'_ID': Scheme(shape=(), dtype=torch.int64)})
>>> label
tensor([1])
Batch the graphs and labels for mini-batch training
>>> graphs, labels = zip(*[data[i] for i in range(16)])
>>> batched_graphs = dgl.batch(graphs)
>>> batched_labels = torch.tensor(labels)
>>> batched_graphs
Graph(num_nodes=9539, num_edges=47382,
ndata_schemes={'node_labels': Scheme(shape=(1,), dtype=torch.int64), '_ID': Scheme(shape=(), dtype=torch.int64)}
edata_schemes={'_ID': Scheme(shape=(), dtype=torch.int64)})
"""
_url = r"https://www.chrsmrrs.com/graphkerneldatasets/{}.zip"
def __init__(self, name, raw_dir=None, force_reload=False, verbose=False, transform=None):
url = self._url.format(name)
super(TUDataset, self).__init__(name=name, url=url,
raw_dir=raw_dir, force_reload=force_reload,
verbose=verbose, transform=transform)
def process(self):
DS_edge_list = self._idx_from_zero(
loadtxt(self._file_path("A"), delimiter=",").astype(int))
DS_indicator = self._idx_from_zero(
loadtxt(self._file_path("graph_indicator"), delimiter=",").astype(int))
if os.path.exists(self._file_path("graph_labels")):
DS_graph_labels = self._idx_reset(
loadtxt(self._file_path("graph_labels"), delimiter=",").astype(int))
self.num_labels = max(DS_graph_labels) + 1
self.graph_labels = F.tensor(DS_graph_labels)
elif os.path.exists(self._file_path("graph_attributes")):
DS_graph_labels = loadtxt(self._file_path("graph_attributes"), delimiter=",").astype(float)
self.num_labels = None
self.graph_labels = F.tensor(DS_graph_labels)
else:
raise Exception("Unknown graph label or graph attributes")
g = dgl_graph(([], []))
g.add_nodes(int(DS_edge_list.max()) + 1)
g.add_edges(DS_edge_list[:, 0], DS_edge_list[:, 1])
node_idx_list = []
self.max_num_node = 0
for idx in range(np.max(DS_indicator) + 1):
node_idx = np.where(DS_indicator == idx)
node_idx_list.append(node_idx[0])
if len(node_idx[0]) > self.max_num_node:
self.max_num_node = len(node_idx[0])
self.attr_dict = {
'node_labels': ('ndata', 'node_labels'),
'node_attributes': ('ndata', 'node_attr'),
'edge_labels': ('edata', 'edge_labels'),
'edge_attributes': ('edata', 'node_labels'),
}
for filename, field_name in self.attr_dict.items():
try:
data = loadtxt(self._file_path(filename),
delimiter=',')
if 'label' in filename:
data = F.tensor(self._idx_from_zero(data))
else:
data = F.tensor(data)
getattr(g, field_name[0])[field_name[1]] = data
except IOError:
pass
self.graph_lists = [g.subgraph(node_idx) for node_idx in node_idx_list]
def save(self):
graph_path = os.path.join(self.save_path, 'tu_{}.bin'.format(self.name))
info_path = os.path.join(self.save_path, 'tu_{}.pkl'.format(self.name))
label_dict = {'labels': self.graph_labels}
info_dict = {'max_num_node': self.max_num_node,
'num_labels': self.num_labels}
save_graphs(str(graph_path), self.graph_lists, label_dict)
save_info(str(info_path), info_dict)
def load(self):
graph_path = os.path.join(self.save_path, 'tu_{}.bin'.format(self.name))
info_path = os.path.join(self.save_path, 'tu_{}.pkl'.format(self.name))
graphs, label_dict = load_graphs(str(graph_path))
info_dict = load_info(str(info_path))
self.graph_lists = graphs
self.graph_labels = label_dict['labels']
self.max_num_node = info_dict['max_num_node']
self.num_labels = info_dict['num_labels']
def has_cache(self):
graph_path = os.path.join(self.save_path, 'tu_{}.bin'.format(self.name))
info_path = os.path.join(self.save_path, 'tu_{}.pkl'.format(self.name))
if os.path.exists(graph_path) and os.path.exists(info_path):
return True
return False
[docs] def __getitem__(self, idx):
"""Get the idx-th sample.
Parameters
---------
idx : int
The sample index.
Returns
-------
(:class:`dgl.DGLGraph`, Tensor)
Graph with node feature stored in ``feat`` field and node label in ``node_label`` if available.
And its label.
"""
g = self.graph_lists[idx]
if self._transform is not None:
g = self._transform(g)
return g, self.graph_labels[idx]
[docs] def __len__(self):
"""Return the number of graphs in the dataset."""
return len(self.graph_lists)
def _file_path(self, category):
return os.path.join(self.raw_path, self.name,
"{}_{}.txt".format(self.name, category))
@staticmethod
def _idx_from_zero(idx_tensor):
return idx_tensor - np.min(idx_tensor)
@staticmethod
def _idx_reset(idx_tensor):
"""Maps n unique labels to {0, ..., n-1} in an ordered fashion."""
labels = np.unique(idx_tensor)
relabel_map = {x: i for i, x in enumerate(labels)}
new_idx_tensor = np.vectorize(relabel_map.get)(idx_tensor)
return new_idx_tensor
def statistics(self):
return self.graph_lists[0].ndata['feat'].shape[1], \
self.num_labels, \
self.max_num_node