The Norm1 class.
This class represents the 1-norm of an expression.
Norm1(x, axis = NA_real_, keepdims = FALSE) ## S4 method for signature 'Norm1' name(x) ## S4 method for signature 'Norm1' to_numeric(object, values) ## S4 method for signature 'Norm1' allow_complex(object) ## S4 method for signature 'Norm1' sign_from_args(object) ## S4 method for signature 'Norm1' is_atom_convex(object) ## S4 method for signature 'Norm1' is_atom_concave(object) ## S4 method for signature 'Norm1' is_incr(object, idx) ## S4 method for signature 'Norm1' is_decr(object, idx) ## S4 method for signature 'Norm1' is_pwl(object) ## S4 method for signature 'Norm1' get_data(object) ## S4 method for signature 'Norm1' .domain(object) ## S4 method for signature 'Norm1' .grad(object, values) ## S4 method for signature 'Norm1' .column_grad(object, value)
x |
An Expression object. |
axis |
(Optional) The dimension across which to apply the function: |
keepdims |
(Optional) Should dimensions be maintained when applying the atom along an axis? If |
object |
A Norm1 object. |
values |
A list of numeric values for the arguments |
idx |
An index into the atom. |
value |
A numeric value |
name: The name and arguments of the atom.
to_numeric: Returns the 1-norm of x along the given axis.
allow_complex: Does the atom handle complex numbers?
sign_from_args: The atom is always positive.
is_atom_convex: The atom is convex.
is_atom_concave: The atom is not concave.
is_incr: Is the composition weakly increasing in argument idx?
is_decr: Is the composition weakly decreasing in argument idx?
is_pwl: Is the atom piecewise linear?
get_data: Returns the axis.
.domain: Returns constraints describing the domain of the node
.grad: Gives the (sub/super)gradient of the atom w.r.t. each variable
.column_grad: Gives the (sub/super)gradient of the atom w.r.t. each column variable
xAn Expression object.
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