psamm.lpsolver.qsoptex
– QSopt_ex LP solver¶
Linear programming solver using QSopt_ex.
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class
psamm.lpsolver.qsoptex.
Solver
¶ Represents an LP solver using QSopt_ex
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create_problem
(**kwargs)¶ Create a new LP-problem using the solver
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class
psamm.lpsolver.qsoptex.
Problem
(**kwargs)¶ Represents an LP-problem of a qsoptex.Solver
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qsoptex
¶ The underlying qsoptex.ExactProblem object
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define
(*names, **kwargs)¶ Define a variable in the problem.
Variables must be defined before they can be accessed by var() or set(). This function takes keyword arguments lower and upper to define the bounds of the variable (default: -inf to inf). The keyword argument types can be used to select the type of the variable (only Continuous is supported). Raises ValueError if a name is already defined.
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has_variable
(name)¶ Check whether variable is defined in the model.
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add_linear_constraints
(*relations)¶ Add constraints to the problem
Each constraint is represented by a Relation, and the expression in that relation can be a set expression.
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set_objective
(expression)¶ Set linear objective of problem
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set_linear_objective
(expression)¶ Set objective of the problem.
Deprecated since version 0.19: Use
set_objective()
instead.
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set_objective_sense
(sense)¶ Set type of problem (maximize or minimize)
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solve_unchecked
(sense=None)¶ Solve problem and return result.
The user must manually check the status of the result to determine whether an optimal solution was found. A
SolverError
may still be raised if the underlying solver raises an exception.
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result
¶ Result of solved problem
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feasibility_tolerance
¶ Feasibility tolerance.
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optimality_tolerance
¶ Optimality tolerance.
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class
psamm.lpsolver.qsoptex.
Constraint
(prob, name)¶ Represents a constraint in a qsoptex.Problem
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delete
()¶ Remove constraint from Problem instance
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class
psamm.lpsolver.qsoptex.
Result
(prob)¶ Represents the solution to a qsoptex.Problem
This object will be returned from the Problem.solve() method or by accessing the Problem.result property after solving a problem. This class should not be instantiated manually.
Result will evaluate to a boolean according to the success of the solution, so checking the truth value of the result will immediately indicate whether solving was successful.
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success
¶ Return boolean indicating whether a solution was found
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unbounded
¶ Whether the solution is unbounded
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status
¶ Return string indicating the error encountered on failure
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get_value
(expression)¶ Return value of expression
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