base.py

from . import backend as T

def tensor_to_vec(tensor):
    """Vectorises a tensor
    
    Parameters
    ----------
    tensor : ndarray
             tensor of shape ``(i_1, ..., i_n)``
    
    Returns
    -------
    1D-array
        vectorised tensor of shape ``(i_1 * i_2 * ... * i_n)``
    """
    return T.reshape(tensor, (-1, ))


def vec_to_tensor(vec, shape):
    """Folds a vectorised tensor back into a tensor of shape `shape`
    
    Parameters
    ----------
    vec : 1D-array
        vectorised tensor of shape ``(i_1 * i_2 * ... * i_n)``
    shape : tuple
        shape of the ful tensor
    
    Returns
    -------
    ndarray
        tensor of shape `shape` = ``(i_1, ..., i_n)``
    """
    return T.reshape(vec, shape)


def unfold(tensor, mode):
    """Returns the mode-`mode` unfolding of `tensor` with modes starting at `0`.
    
    Parameters
    ----------
    tensor : ndarray
    mode : int, default is 0
           indexing starts at 0, therefore mode is in ``range(0, tensor.ndim)``
    
    Returns
    -------
    ndarray
        unfolded_tensor of shape ``(tensor.shape[mode], -1)``
    """
    return T.reshape(T.moveaxis(tensor, mode, 0), (tensor.shape[mode], -1))


def fold(unfolded_tensor, mode, shape):
    """Refolds the mode-`mode` unfolding into a tensor of shape `shape`
    
        In other words, refolds the n-mode unfolded tensor
        into the original tensor of the specified shape.
    
    Parameters
    ----------
    unfolded_tensor : ndarray
        unfolded tensor of shape ``(shape[mode], -1)``
    mode : int
        the mode of the unfolding
    shape : tuple
        shape of the original tensor before unfolding
    
    Returns
    -------
    ndarray
        folded_tensor of shape `shape`
    """
    full_shape = list(shape)
    mode_dim = full_shape.pop(mode)
    full_shape.insert(0, mode_dim)
    return T.moveaxis(T.reshape(unfolded_tensor, full_shape), 0, mode)

def partial_unfold(tensor, mode=0, skip_begin=1, skip_end=0, ravel_tensors=False):
    """Partially unfolds a tensor while ignoring the specified number of dimensions at the beginning and the end.                                       

        For instance, if the first dimension of the tensor is the number of samples, to unfold each sample, you would
        set skip_begin=1.
        This would, for each i in ``range(tensor.shape[0])``, unfold ``tensor[i, ...]``.

    Parameters
    ----------
    tensor : ndarray
        tensor of shape n_samples x n_1 x n_2 x ... x n_i
    mode : int
        indexing starts at 0, therefore mode is in range(0, tensor.ndim)
    skip_begin : int, optional
        number of dimensions to leave untouched at the beginning
    skip_end : int, optional
        number of dimensions to leave untouched at the end
    ravel_tensors : bool, optional
        if True, the unfolded tensors are also flattened

    Returns
    -------
    ndarray
        partially unfolded tensor
    """
    if ravel_tensors:
        new_shape = [-1]
    else:
        new_shape = [tensor.shape[mode + skip_begin], -1]

    if skip_begin:
        new_shape = [tensor.shape[i] for i in range(skip_begin)] + new_shape

    if skip_end:
        new_shape += [tensor.shape[-i] for i in range(skip_end)]

    return T.reshape(T.moveaxis(tensor, mode+skip_begin, skip_begin), new_shape)


def partial_fold(unfolded, mode, shape, skip_begin=1, skip_end=0):
    """Re-folds a partially unfolded tensor
    
    Parameters
    ----------
    unfolded : ndarray
        a partially unfolded tensor
    mode : int
        indexing starts at 0, therefore mode is in range(0, tensor.ndim)
    shape : tuple
        the shape of the original full tensor (including skipped dimensions)
    skip_begin : int, optional, default is 1
        number of dimensions to leave untouched at the beginning
    skip_end : int, optional
        number of dimensions to leave untouched at the end
    
    Returns
    -------
    ndarray
        partially re-folded tensor
    """
    transposed_shape = list(shape)
    mode_dim = transposed_shape.pop(skip_begin + mode)
    transposed_shape.insert(skip_begin, mode_dim)
    return T.moveaxis(T.reshape(unfolded, transposed_shape), skip_begin, skip_begin + mode)


def partial_tensor_to_vec(tensor, skip_begin=1, skip_end=0):
    """Partially vectorises a tensor
    
        Partially vectorises a tensor while ignoring the specified dimension at the beginning and the end
    
    Parameters
    ----------
    tensor : ndarray
        tensor to partially vectorise
    skip_begin : int, optional, default is 1
        number of dimensions to leave untouched at the beginning
    skip_end : int, optional
        number of dimensions to leave untouched at the end
    
    Returns
    -------
    ndarray
        partially vectorised tensor with the `skip_begin` first and `skip_end` last dimensions untouched
    """
    return partial_unfold(tensor, mode=0, skip_begin=skip_begin, skip_end=skip_end, ravel_tensors=True)

def partial_vec_to_tensor(matrix, shape, skip_begin=1, skip_end=0):
    """Refolds a partially vectorised tensor into a full one
    
    Parameters
    ----------
    matrix : ndarray
        a partially vectorised tensor
    shape : tuple
        the shape of the original full tensor (including skipped dimensions)
    skip_begin : int, optional, default is 1
        number of dimensions to leave untouched at the beginning
    skip_end : int, optional
        number of dimensions to leave untouched at the end
    
    Returns
    -------
    ndarray
        full tensor
    """
    return partial_fold(matrix, mode=0, shape=shape, skip_begin=skip_begin, skip_end=skip_end)