LinearProgram

Definition

A model of LinearProgram describes a linear program of the form
(QP) minimize cTx+c0
subject to Ax b,
l x u
in n real variables x=(x0, ,xn-1). Here,

The description is given by appropriate random-access iterators over the program data, see below. The program therefore comes in dense representation which includes zero entries.

Has Models

Quadratic_program<NT>
Quadratic_program_from_mps<NT>
Linear_program_from_iterators<A_it, B_it, R_it, FL_it, L_it, FU_it, U_it, D_it, C_it>

Types

LinearProgram::A_iterator
A random access iterator type to go columnwise over the constraint matrix A. The value type is a random access iterator type for an individual column that goes over the entries in that column.


LinearProgram::B_iterator
A random access iterator type to go over the entries of the right-hand side b.


LinearProgram::R_iterator
A random access iterator type to go over the relations . The value type of R_iterator is CGAL::Comparison_result.


LinearProgram::FL_iterator
A random access iterator type to go over the existence (finiteness) of the lower bounds lj, j=0, ,n-1. The value type of FL_iterator is bool.


LinearProgram::L_iterator
A random acess iterator type to go over the entries of the lower bound vector l.


LinearProgram::UL_iterator
A random access iterator type to go over the existence (finiteness) of the upper bounds uj, j=0, ,n-1. The value type of UL_iterator is bool.


LinearProgram::U_iterator
A random acess iterator type to go over the entries of the upper bound vector u.


LinearProgram::C_iterator
A random access iterator type to go over the entries of the linear objective function vector c.

Operations

int lp.get_n () const returns the number n of variables (number of columns of A) in lp.

int lp.get_m () const returns the number m of constraints (number of rows of A) in lp.

A_iterator lp.get_a () const returns an iterator over the columns of A. The corresponding past-the-end iterator is get_a()+get_n(). For j=0, ,n-1, *(get_a()+j) is a random access iterator for column j.

B_iterator lp.get_b () const returns an iterator over the entries of b. The corresponding past-the-end iterator is get_b()+get_m().

R_iterator lp.get_r () const returns an iterator over the entries of . The corresponding past-the-end iterator is get_r()+get_m(). The value CGAL::SMALLER stands for , CGAL::EQUAL stands for =, and CGAL::LARGER stands for .

FL_iterator lp.get_fl () const returns an iterator over the existence of the lower bounds lj, j=0, ,n-1. The corresponding past-the-end iterator is get_fl()+get_n(). If *(get_fl()+j) has value true, the variable xj has a lower bound given by *(get_l()+j), otherwise it has no lower bound.

L_iterator lp.get_l () const returns an iterator over the entries of l. The corresponding past-the-end iterator is get_l()+get_n(). If *(get_fl()+j) has value false, the value *(get_l()+j) is not accessed.
Precondition: if both *(get_fl()+j) and *(get_fu()+j) have value true, then *(get_l()+j) *(get_u()+j)

FU_iterator lp.get_fu () const returns an iterator over the existence of the upper bounds uj, j=0, ,n-1. The corresponding past-the-end iterator is get_fu()+get_n(). If *(get_fu()+j) has value true, the variable xj has an upper bound given by *(get_u()+j), otherwise it has no upper bound.

L_iterator lp.get_u () const returns an iterator over the entries of u. The corresponding past-the-end iterator is get_u()+get_n(). If *(get_fu()+j) has value false, the value *(get_u()+j) is not accessed.
Precondition: if both *(get_fl()+j) and *(get_fu()+j) have value true, then *(get_l()+j) *(get_u()+j)

C_iterator lp.get_c () const returns an iterator over the entries of c. The corresponding past-the-end iterator is get_c()+get_n().

std::iterator_traits<C_iterator>::value_type
lp.get_c0 () const returns the constant term c0 of the objective function.

See Also

The models

Quadratic_program<NT>
Quadratic_program_from_mps<NT>
Linear_program_from_iterators<A_it, B_it, R_it, FL_it, L_it, FU_it, U_it, C_it>

and the other concepts

QuadraticProgram
NonnegativeQuadraticProgram
NonnegativeLinearProgram