Prot2Text-Base-v1-1 / conversion.py
habdine's picture
Update code
8b4088d verified
raw
history blame
16.1 kB
"""Utilities for converting Graphein Networks to Geometric Deep Learning formats.
"""
# %%
# Graphein
# Author: Kexin Huang, Arian Jamasb <arian@jamasb.io>
# License: MIT
# Project Website: https://github.com/a-r-j/graphein
# Code Repository: https://github.com/a-r-j/graphein
from __future__ import annotations
from typing import List, Optional
import networkx as nx
import numpy as np
import torch
try:
from graphein.utils.dependencies import import_message
except ImportError:
raise Exception('You need to install graphein from source in addition to DSSP to use this model please refer to https://github.com/a-r-j/graphein and https://ssbio.readthedocs.io/en/latest/instructions/dssp.html')
try:
import torch_geometric
from torch_geometric.data import Data
except ImportError:
import_message(
submodule="graphein.ml.conversion",
package="torch_geometric",
pip_install=True,
conda_channel="rusty1s",
)
try:
import dgl
except ImportError:
import_message(
submodule="graphein.ml.conversion",
package="dgl",
pip_install=True,
conda_channel="dglteam",
)
try:
import jax.numpy as jnp
except ImportError:
import_message(
submodule="graphein.ml.conversion",
package="jax",
pip_install=True,
conda_channel="conda-forge",
)
try:
import jraph
except ImportError:
import_message(
submodule="graphein.ml.conversion",
package="jraph",
pip_install=True,
conda_channel="conda-forge",
)
SUPPORTED_FORMATS = ["nx", "pyg", "dgl", "jraph"]
"""Supported conversion formats.
``"nx"``: NetworkX graph
``"pyg"``: PyTorch Geometric Data object
``"dgl"``: DGL graph
``"Jraph"``: Jraph GraphsTuple
"""
SUPPORTED_VERBOSITY = ["gnn", "default", "all_info"]
"""Supported verbosity levels for preserving graph features in conversion."""
class GraphFormatConvertor:
"""
Provides conversion utilities between NetworkX Graphs and geometric deep learning library destination formats.
Currently, we provide support for converstion from ``nx.Graph`` to ``dgl.DGLGraph`` and ``pytorch_geometric.Data``. Supported conversion
formats can be retrieved from :const:`~graphein.ml.conversion.SUPPORTED_FORMATS`.
:param src_format: The type of graph you'd like to convert from. Supported formats are available in :const:`~graphein.ml.conversion.SUPPORTED_FORMATS`
:type src_format: Literal["nx", "pyg", "dgl", "jraph"]
:param dst_format: The type of graph format you'd like to convert to. Supported formats are available in:
``graphein.ml.conversion.SUPPORTED_FORMATS``
:type dst_format: Literal["nx", "pyg", "dgl", "jraph"]
:param verbose: Select from ``"gnn"``, ``"default"``, ``"all_info"`` to determine how much information is preserved (features)
as some are unsupported by various downstream frameworks
:type verbose: graphein.ml.conversion.SUPPORTED_VERBOSITY
:param columns: List of columns in the node features to retain
:type columns: List[str], optional
"""
def __init__(
self,
src_format: str,
dst_format: str,
verbose: SUPPORTED_VERBOSITY = "gnn",
columns: Optional[List[str]] = None,
):
if (src_format not in SUPPORTED_FORMATS) or (
dst_format not in SUPPORTED_FORMATS
):
raise ValueError(
"Please specify from supported format, "
+ "/".join(SUPPORTED_FORMATS)
)
self.src_format = src_format
self.dst_format = dst_format
# supported_verbose_format = ["gnn", "default", "all_info"]
if (columns is None) and (verbose not in SUPPORTED_VERBOSITY):
raise ValueError(
"Please specify the supported verbose mode ("
+ "/".join(SUPPORTED_VERBOSITY)
+ ") or specify column names!"
)
if columns is None:
if verbose == "gnn":
columns = [
"edge_index",
"coords",
"dist_mat",
"name",
"node_id",
]
elif verbose == "default":
columns = [
"b_factor",
"chain_id",
"coords",
"dist_mat",
"edge_index",
"kind",
"name",
"node_id",
"residue_name",
]
elif verbose == "all_info":
columns = [
"atom_type",
"b_factor",
"chain_id",
"chain_ids",
"config",
"coords",
"dist_mat",
"edge_index",
"element_symbol",
"kind",
"name",
"node_id",
"node_type",
"pdb_df",
"raw_pdb_df",
"residue_name",
"residue_number",
"rgroup_df",
"sequence_A",
"sequence_B",
]
self.columns = columns
self.type2form = {
"atom_type": "str",
"b_factor": "float",
"chain_id": "str",
"coords": "np.array",
"dist_mat": "np.array",
"element_symbol": "str",
"node_id": "str",
"residue_name": "str",
"residue_number": "int",
"edge_index": "torch.tensor",
"kind": "str",
}
def convert_nx_to_dgl(self, G: nx.Graph) -> dgl.DGLGraph:
"""
Converts ``NetworkX`` graph to ``DGL``
:param G: ``nx.Graph`` to convert to ``DGLGraph``
:type G: nx.Graph
:return: ``DGLGraph`` object version of input ``NetworkX`` graph
:rtype: dgl.DGLGraph
"""
g = dgl.DGLGraph()
node_id = list(G.nodes())
G = nx.convert_node_labels_to_integers(G)
## add node level feat
node_dict = {}
for i, (_, feat_dict) in enumerate(G.nodes(data=True)):
for key, value in feat_dict.items():
if str(key) in self.columns:
node_dict[str(key)] = (
[value] if i == 0 else node_dict[str(key)] + [value]
)
string_dict = {}
node_dict_transformed = {}
for i, j in node_dict.items():
if i == "coords":
node_dict_transformed[i] = torch.Tensor(np.asarray(j)).type(
"torch.FloatTensor"
)
elif i == "dist_mat":
node_dict_transformed[i] = torch.Tensor(
np.asarray(j[0].values)
).type("torch.FloatTensor")
elif self.type2form[i] == "str":
string_dict[i] = j
elif self.type2form[i] in ["float", "int"]:
node_dict_transformed[i] = torch.Tensor(np.array(j))
g.add_nodes(
len(node_id),
node_dict_transformed,
)
edge_dict = {}
edge_index = torch.LongTensor(list(G.edges)).t().contiguous()
# add edge level features
for i, (_, _, feat_dict) in enumerate(G.edges(data=True)):
for key, value in feat_dict.items():
if str(key) in self.columns:
edge_dict[str(key)] = (
list(value)
if i == 0
else edge_dict[str(key)] + list(value)
)
edge_transform_dict = {}
for i, j in node_dict.items():
if self.type2form[i] == "str":
string_dict[i] = j
elif self.type2form[i] in ["float", "int"]:
edge_transform_dict[i] = torch.Tensor(np.array(j))
g.add_edges(edge_index[0], edge_index[1], edge_transform_dict)
# add graph level features
graph_dict = {
str(feat_name): [G.graph[feat_name]]
for feat_name in G.graph
if str(feat_name) in self.columns
}
return g
def convert_nx_to_pyg(self, G: nx.Graph) -> Data:
"""
Converts ``NetworkX`` graph to ``pytorch_geometric.data.Data`` object. Requires ``PyTorch Geometric`` (https://pytorch-geometric.readthedocs.io/en/latest/) to be installed.
:param G: ``nx.Graph`` to convert to PyTorch Geometric ``Data`` object
:type G: nx.Graph
:return: ``Data`` object containing networkx graph data
:rtype: pytorch_geometric.data.Data
"""
# Initialise dict used to construct Data object & Assign node ids as a feature
data = {"node_id": list(G.nodes())}
G = nx.convert_node_labels_to_integers(G)
# Construct Edge Index
edge_index = torch.LongTensor(list(G.edges)).t().contiguous()
# Add node features
for i, (_, feat_dict) in enumerate(G.nodes(data=True)):
for key, value in feat_dict.items():
if str(key) in self.columns:
data[str(key)] = (
[value] if i == 0 else data[str(key)] + [value]
)
# Add edge features
for i, (_, _, feat_dict) in enumerate(G.edges(data=True)):
for key, value in feat_dict.items():
if str(key) in self.columns:
data[str(key)] = (
list(value) if i == 0 else data[str(key)] + list(value)
)
# Add graph-level features
for feat_name in G.graph:
if str(feat_name) in self.columns:
data[str(feat_name)] = [G.graph[feat_name]]
if "edge_index" in self.columns:
data["edge_index"] = edge_index.view(2, -1)
data = Data.from_dict(data)
data.num_nodes = G.number_of_nodes()
return data
@staticmethod
def convert_nx_to_nx(G: nx.Graph) -> nx.Graph:
"""
Converts NetworkX graph (``nx.Graph``) to NetworkX graph (``nx.Graph``) object. Redundant - returns itself.
:param G: NetworkX Graph
:type G: nx.Graph
:return: NetworkX Graph
:rtype: nx.Graph
"""
return G
@staticmethod
def convert_dgl_to_nx(G: dgl.DGLGraph) -> nx.Graph:
"""
Converts a DGL Graph (``dgl.DGLGraph``) to a NetworkX (``nx.Graph``) object. Preserves node and edge attributes.
:param G: ``dgl.DGLGraph`` to convert to ``NetworkX`` graph.
:type G: dgl.DGLGraph
:return: NetworkX graph object.
:rtype: nx.Graph
"""
node_attrs = G.node_attr_schemes().keys()
edge_attrs = G.edge_attr_schemes().keys()
return dgl.to_networkx(G, node_attrs, edge_attrs)
@staticmethod
def convert_pyg_to_nx(G: Data) -> nx.Graph:
"""Converts PyTorch Geometric ``Data`` object to NetworkX graph (``nx.Graph``).
:param G: Pytorch Geometric Data.
:type G: torch_geometric.data.Data
:returns: NetworkX graph.
:rtype: nx.Graph
"""
return torch_geometric.utils.to_networkx(G)
def convert_nx_to_jraph(self, G: nx.Graph) -> jraph.GraphsTuple:
"""Converts NetworkX graph (``nx.Graph``) to Jraph GraphsTuple graph. Requires ``jax`` and ``Jraph``.
:param G: Networkx graph to convert.
:type G: nx.Graph
:return: Jraph GraphsTuple graph.
:rtype: jraph.GraphsTuple
"""
G = nx.convert_node_labels_to_integers(G)
n_node = len(G)
n_edge = G.number_of_edges()
edge_list = list(G.edges())
senders, receivers = zip(*edge_list)
senders, receivers = jnp.array(senders), jnp.array(receivers)
# Add node features
node_features = {}
for i, (_, feat_dict) in enumerate(G.nodes(data=True)):
for key, value in feat_dict.items():
if str(key) in self.columns:
# node_features[str(key)] = (
# [value]
# if i == 0
# else node_features[str(key)] + [value]
# )
feat = (
[value]
if i == 0
else node_features[str(key)] + [value]
)
try:
feat = torch.tensor(feat)
node_features[str(key)] = feat
except TypeError:
node_features[str(key)] = feat
# Add edge features
edge_features = {}
for i, (_, _, feat_dict) in enumerate(G.edges(data=True)):
for key, value in feat_dict.items():
if str(key) in self.columns:
edge_features[str(key)] = (
list(value)
if i == 0
else edge_features[str(key)] + list(value)
)
# Add graph features
global_context = {
str(feat_name): [G.graph[feat_name]]
for feat_name in G.graph
if str(feat_name) in self.columns
}
return jraph.GraphsTuple(
nodes=node_features,
senders=senders,
receivers=receivers,
edges=edge_features,
n_node=n_node,
n_edge=n_edge,
globals=global_context,
)
def __call__(self, G: nx.Graph):
nx_g = eval("self.convert_" + self.src_format + "_to_nx(G)")
dst_g = eval("self.convert_nx_to_" + self.dst_format + "(nx_g)")
return dst_g
# def convert_nx_to_pyg_data(G: nx.Graph) -> Data:
# # Initialise dict used to construct Data object
# data = {"node_id": list(G.nodes())}
# G = nx.convert_node_labels_to_integers(G)
# # Construct Edge Index
# edge_index = torch.LongTensor(list(G.edges)).t().contiguous()
# # Add node features
# for i, (_, feat_dict) in enumerate(G.nodes(data=True)):
# for key, value in feat_dict.items():
# data[str(key)] = [value] if i == 0 else data[str(key)] + [value]
# # Add edge features
# for i, (_, _, feat_dict) in enumerate(G.edges(data=True)):
# for key, value in feat_dict.items():
# data[str(key)] = (
# list(value) if i == 0 else data[str(key)] + list(value)
# )
# # Add graph-level features
# for feat_name in G.graph:
# data[str(feat_name)] = [G.graph[feat_name]]
# data["edge_index"] = edge_index.view(2, -1)
# data = Data.from_dict(data)
# data.num_nodes = G.number_of_nodes()
# return data
def convert_nx_to_pyg_data(G: nx.Graph) -> Data:
# Initialise dict used to construct Data object
data = {"node_id": list(G.nodes())}
G = nx.convert_node_labels_to_integers(G)
# Construct Edge Index
edge_index = torch.LongTensor(list(G.edges)).t().contiguous()
# Add node features
for i, (_, feat_dict) in enumerate(G.nodes(data=True)):
for key, value in feat_dict.items():
data[str(key)] = [value] if i == 0 else data[str(key)] + [value]
# Add edge features
for i, (_, _, feat_dict) in enumerate(G.edges(data=True)):
for key, value in feat_dict.items():
if key == 'distance':
data[str(key)] = (
[value] if i == 0 else data[str(key)] + [value]
)
else:
data[str(key)] = (
[list(value)] if i == 0 else data[str(key)] + [list(value)]
)
# Add graph-level features
for feat_name in G.graph:
data[str(feat_name)] = [G.graph[feat_name]]
data["edge_index"] = edge_index.view(2, -1)
data = Data.from_dict(data)
data.num_nodes = G.number_of_nodes()
return data