The MinElemwise class.

This class represents the elementwise minimum.

MinElemwise(arg1, arg2, ...)

# S4 method for class 'MinElemwise'
to_numeric(object, values)

# S4 method for class 'MinElemwise'
sign_from_args(object)

# S4 method for class 'MinElemwise'
is_atom_convex(object)

# S4 method for class 'MinElemwise'
is_atom_concave(object)

# S4 method for class 'MinElemwise'
is_atom_log_log_convex(object)

# S4 method for class 'MinElemwise'
is_atom_log_log_concave(object)

# S4 method for class 'MinElemwise'
is_incr(object, idx)

# S4 method for class 'MinElemwise'
is_decr(object, idx)

# S4 method for class 'MinElemwise'
is_pwl(object)

# S4 method for class 'MinElemwise'
.grad(object, values)

Arguments

arg1

The first Expression in the minimum operation.

arg2

The second Expression in the minimum operation.

...

Additional Expression objects in the minimum operation.

object

A MinElemwise object.

values

A list of numeric values for the arguments

idx

An index into the atom.

Methods (by generic)

• to_numeric(MinElemwise): The elementwise minimum.

• sign_from_args(MinElemwise): The sign of the atom.

• is_atom_convex(MinElemwise): The atom is not convex.

• is_atom_concave(MinElemwise): The atom is not concave.

• is_atom_log_log_convex(MinElemwise): Is the atom log-log convex?

• is_atom_log_log_concave(MinElemwise): Is the atom log-log concave?

• is_incr(MinElemwise): The atom is weakly increasing.

• is_decr(MinElemwise): The atom is not weakly decreasing.

• is_pwl(MinElemwise): Are all the arguments piecewise linear?

• .grad(MinElemwise): Gives the (sub/super)gradient of the atom w.r.t. each variable

Slots

arg1

The first Expression in the minimum operation.

arg2

The second Expression in the minimum operation.

...

Additional Expression objects in the minimum operation.