The IneqConstraint class

The IneqConstraint class

# S4 method for class 'Expression,Expression'
e1 <= e2

# S4 method for class 'Expression,ConstVal'
e1 <= e2

# S4 method for class 'ConstVal,Expression'
e1 <= e2

# S4 method for class 'Expression,Expression'
e1 < e2

# S4 method for class 'Expression,ConstVal'
e1 < e2

# S4 method for class 'ConstVal,Expression'
e1 < e2

# S4 method for class 'Expression,Expression'
e1 >= e2

# S4 method for class 'Expression,ConstVal'
e1 >= e2

# S4 method for class 'ConstVal,Expression'
e1 >= e2

# S4 method for class 'Expression,Expression'
e1 > e2

# S4 method for class 'Expression,ConstVal'
e1 > e2

# S4 method for class 'ConstVal,Expression'
e1 > e2

# S4 method for class 'IneqConstraint'
name(x)

# S4 method for class 'IneqConstraint'
dim(x)

# S4 method for class 'IneqConstraint'
size(object)

# S4 method for class 'IneqConstraint'
expr(object)

# S4 method for class 'IneqConstraint'
is_dcp(object)

# S4 method for class 'IneqConstraint'
is_dgp(object)

# S4 method for class 'IneqConstraint'
residual(object)

Arguments

e1, e2

The Expression objects or numeric constants to compare.

x, object

A IneqConstraint object.

Methods (by generic)

• name(IneqConstraint): The string representation of the constraint.

• dim(IneqConstraint): The dimensions of the constrained expression.

• size(IneqConstraint): The size of the constrained expression.

• expr(IneqConstraint): The expression to constrain.

• is_dcp(IneqConstraint): A non-positive constraint is DCP if its argument is convex.

• is_dgp(IneqConstraint): Is the constraint DGP?

• residual(IneqConstraint): The residual of the constraint.