Exemple #1
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def sparse_adj_to_sparse_tensor(x: sp.csr_matrix, dtype=None):

    if dtype is None:
        dtype = gf.infer_type(x)
    elif isinstance(dtype, tf.dtypes.DType):
        dtype = dtype.name
    if not isinstance(dtype, str):
        raise TypeError(dtype)

    edge_index, edge_weight = gf.sparse_adj_to_edge(x)
    edge_weight = edge_weight.astype(dtype, copy=False)
    return sparse_edge_to_sparse_tensor(edge_index, edge_weight, x.shape)
Exemple #2
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def sparse_adj_to_sparse_tensor(x, dtype=None):

    if dtype is None:
        dtype = gf.infer_type(x)
    elif isinstance(dtype, torch.dtype):
        dtype = str(dtype).split('.')[-1]

    if not isinstance(dtype, str):
        raise TypeError(dtype)

    edge_index, edge_weight = gf.sparse_adj_to_edge(x)
    edge_weight = edge_weight.astype(dtype, copy=False)
    return sparse_edge_to_sparse_tensor(edge_index, edge_weight, x.shape)
Exemple #3
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def astensor(x, *, dtype=None, device=None, escape=None):

    try:
        if x is None or (escape is not None and isinstance(x, escape)):
            return x
    except TypeError:
        raise TypeError(f"argument 'escape' must be a type or tuple of types.")

    if dtype is None:
        dtype = gf.infer_type(x)

    if isinstance(dtype, (np.dtype, str)):
        dtype = data_type_dict().get(str(dtype), dtype)
    elif not isinstance(dtype, torch.dtype):
        raise TypeError(
            f"argument 'dtype' must be torch.dtype, np.dtype or str, but got {type(dtype)}."
        )

    if is_tensor(x):
        tensor = x.to(dtype)
    elif gf.is_tensor(x, backend='tensorflow'):
        return astensor(gf.tensoras(x),
                        dtype=dtype,
                        device=device,
                        escape=escape)
    elif sp.isspmatrix(x):
        if gg.backend() == "dgl_torch":
            import dgl
            tensor = dgl.from_scipy(x, idtype=getattr(torch, gg.intx()))
        elif gg.backend() == "pyg":
            edge_index, edge_weight = gf.sparse_adj_to_edge(x)
            return (astensor(edge_index,
                             dtype=gg.intx(),
                             device=device,
                             escape=escape),
                    astensor(edge_weight,
                             dtype=gg.floatx(),
                             device=device,
                             escape=escape))
        else:
            tensor = sparse_adj_to_sparse_tensor(x, dtype=dtype)
    elif any((isinstance(x, (np.ndarray, np.matrix)), gg.is_listlike(x),
              gg.is_scalar(x))):
        tensor = torch.tensor(x, dtype=dtype, device=device)
    else:
        raise TypeError(
            f"Invalid type of inputs. Allowed data type (Tensor, SparseTensor, Numpy array, Scipy sparse tensor, None), but got {type(x)}."
        )
    return tensor.to(device)
Exemple #4
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def astensor(x, *, dtype=None, device=None, escape=None):

    try:
        if x is None or (escape is not None and isinstance(x, escape)):
            return x
    except TypeError:
        raise TypeError(f"argument 'escape' must be a type or tuple of types.")
    if dtype is None:
        dtype = gf.infer_type(x)
    elif isinstance(dtype, tf.dtypes.DType):
        dtype = dtype.name
    elif isinstance(dtype, (np.dtype, str)):
        dtype = str(dtype)
    else:
        raise TypeError(
            f"argument 'dtype' must be tf.dtypes.DType, np.dtype or str, but got {type(dtype)}."
        )

    with tf.device(device):
        if is_tensor(x):
            if x.dtype != dtype:
                return tf.cast(x, dtype=dtype)
            return tf.identity(x)
        elif gf.is_tensor(x, backend='torch'):
            return astensor(gf.tensoras(x),
                            dtype=dtype,
                            device=device,
                            escape=escape)
        elif sp.isspmatrix(x):
            if gg.backend() == "dgl_tf":
                import dgl
                return dgl.from_scipy(x, idtype=getattr(tf,
                                                        gg.intx())).to(device)
            else:
                return sparse_adj_to_sparse_tensor(x, dtype=dtype)
        elif any((isinstance(x, (np.ndarray, np.matrix)), gg.is_listlike(x),
                  gg.is_scalar(x))):
            return tf.convert_to_tensor(x, dtype=dtype)
        else:
            raise TypeError(
                f"Invalid type of inputs. Allowed data type(Tensor, SparseTensor, Numpy array, Scipy sparse matrix, None), but got {type(x)}."
            )
Exemple #5
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def astensor(x, *, dtype=None, device=None, escape=None) -> torch.Tensor:

    try:
        if x is None or (escape is not None and isinstance(x, escape)):
            return x
    except TypeError:
        raise TypeError(f"argument 'escape' must be a type or tuple of types.")
    device = torch.device(device) if device is not None else torch.device(
        "cpu")
    # update: accept `dict` instance
    if isinstance(x, dict):
        for k, v in x.items():
            try:
                x[k] = astensor(v, dtype=dtype, device=device, escape=escape)
            except TypeError:
                pass
        return x

    if dtype is None:
        dtype = gf.infer_type(x)

    if isinstance(dtype, (np.dtype, str)):
        dtype = data_type_dict().get(str(dtype), dtype)
    elif not isinstance(dtype, torch.dtype):
        raise TypeError(
            f"argument 'dtype' must be torch.dtype, np.dtype or str, but got {type(dtype)}."
        )

    if is_tensor(x):
        tensor = x.to(dtype)

    elif sp.isspmatrix(x):
        if gg.backend() == "dgl":
            import dgl

            if x.sum() != x.nnz:
                warnings.warn(
                    "Got a weighted sparse matrix with elements not equal to 1. "
                    "The element weights can be accessed by `g.edata['_edge_weight'].`"
                )
                tensor = dgl.from_scipy(x,
                                        idtype=torch.int64,
                                        eweight_name="_edge_weight")
            else:
                tensor = dgl.from_scipy(x, idtype=torch.int64)

        elif gg.backend() == "pyg":
            edge_index, edge_weight = gf.sparse_adj_to_edge(x)
            return (astensor(edge_index,
                             dtype=torch.int64,
                             device=device,
                             escape=escape),
                    astensor(edge_weight,
                             dtype=torch.float32,
                             device=device,
                             escape=escape))
        else:
            tensor = sparse_adj_to_sparse_tensor(x, dtype=dtype)
    elif any((isinstance(x, (np.ndarray, np.matrix)), gg.is_listlike(x),
              gg.is_scalar(x))):
        tensor = torch.tensor(x, dtype=dtype, device=device)
    else:
        raise TypeError(
            f"Invalid type of inputs. Allowed data type (Tensor, SparseTensor, Numpy array, Scipy sparse tensor, None), but got {type(x)}."
        )
    return tensor.to(device)