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Packages that use LinearComb | |
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sbrt.ext.cplex | Provides a class that allows communication with CPLEX. |
sbrt.ext.glpk | Provides a class that allows communication with GLPK. |
sbrt.ext.mma.algebra | Provides classes that allow communication with Mathematica for the purposes of algebra. |
sbrt.kernel.fba | Provides classes and interfaces for creating objects relevant to Flux Balance Analysis. |
sbrt.kernel.fba.comp | Provides classes and interfaces for performing Flux Balance Analysis computations. |
sbrt.kernel.fba.proc | Provides classes and interfaces for executing Flux Balance Analysis processes. |
sbrt.kernel.math | Provides classes and interfaces for creating objects relevant to mathematics. |
sbrt.kernel.math.algebra | Provides classes and interfaces for creating objects relevant to algebra. |
sbrt.kernel.math.algebra.proc | Provides classes and interfaces for executing algebra-related processes. |
sbrt.kernel.math.geom | Provides classes and interfaces for creating objects relevant to computational geometry. |
sbrt.kernel.math.optimization | Provides classes and interfaces for creating objects relevant to solving optimization problems. |
sbrt.shell.io.fba | Provides classes and interfaces for reading and writing files relevant to Flux Balance Analysis. |
sbrt.shell.mng.algebra | Provides classes for creating algebra process managers. |
sbrt.shell.mng.fba | Provides classes and interfaces for creating Flux Balance Analysis process managers. |
sbrt.shell.mng.utilities | Provides classes and interfaces for creating mathematical process managers. |
sbrt.shell.text.fba | Provides classes and interfaces for defining formats for objects relevant to Flux Balance Analysis. |
sbrt.shell.text.math | Provides classes and interfaces for defining formats for mathematical objects. |
Uses of LinearComb in sbrt.ext.cplex |
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Methods in sbrt.ext.cplex with parameters of type LinearComb | |
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void |
CplexSolver.setConstraint(LinearComb<? extends C> linComb,
Interval c)
Sets a constraint on the provided mathematical expression of column variables. |
void |
CplexSolver.setObjectiveFunction(LinearComb<? extends C> objective)
Sets the objective function to the provided mathematical expression of column variables. |
void |
CplexSolver.setObjectiveFunction(LinearComb<? extends C> objective,
OptSense sense)
Sets the objective function and optimization sense to the provided values. |
Uses of LinearComb in sbrt.ext.glpk |
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Methods in sbrt.ext.glpk with parameters of type LinearComb | |
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void |
GlpkSolver.setConstraint(LinearComb<? extends C> expression,
Interval c)
Sets a constraint on the provided mathematical expression of column variables. |
void |
GlpkSolver.setObjectiveFunction(LinearComb<? extends C> expression)
Sets the objective function to the provided mathematical expression of column variables. |
void |
GlpkSolver.setObjectiveFunction(LinearComb<? extends C> expression,
OptSense sense)
Sets the objective function and optimization sense to the provided values. |
Uses of LinearComb in sbrt.ext.mma.algebra |
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Methods in sbrt.ext.mma.algebra that return types with arguments of type LinearComb | |
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protected static java.util.Map<java.lang.String,LinearComb<java.lang.String>> |
MMaExprInterpretter.interpretSolution(com.wolfram.jlink.Expr solution)
Converts the provided Mathematica expression to a Map . |
Method parameters in sbrt.ext.mma.algebra with type arguments of type LinearComb | |
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LinearSystemSolution<V> |
MathematicaSolver.solve(java.util.Map<LinearComb<V>,java.lang.Double> equations)
Computes and returns a solution to the provided system of linear equations. |
Uses of LinearComb in sbrt.kernel.fba |
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Methods in sbrt.kernel.fba that return LinearComb | |
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LinearComb<java.lang.String> |
RevExchRxn.getProducts()
Returns a linear combination representing the products of this exchange reaction. |
LinearComb<java.lang.String> |
AbstractExchangeRxn.getProducts()
Returns an empty linear combination. |
LinearComb<java.lang.String> |
AbstractRxn.getProducts()
Returns the products of this reaction. |
LinearComb<java.lang.String> |
SourceRxn.getProducts()
Returns a single-term linear combination. |
LinearComb<java.lang.String> |
ChemRxn.getProducts()
Returns the products of this chemical reaction. |
LinearComb<java.lang.String> |
RevExchRxn.getReactants()
Returns a linear combination representing the reactants of this exchange reaction. |
LinearComb<java.lang.String> |
AbstractExchangeRxn.getReactants()
Returns an empty linear combination. |
LinearComb<java.lang.String> |
AbstractRxn.getReactants()
Returns the reactants of this reaction. |
LinearComb<java.lang.String> |
SinkRxn.getReactants()
Returns a single-term linear combination. |
LinearComb<java.lang.String> |
ChemRxn.getReactants()
Returns the reactants of this chemical reaction. |
Constructors in sbrt.kernel.fba with parameters of type LinearComb | |
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AbstractRxn(LinearComb<java.lang.String> reactants,
LinearComb<java.lang.String> products)
Constructs a new chemical reaction from the provided reactants and products with the given name. |
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AbstractRxn(LinearComb<java.lang.String> reactants,
LinearComb<java.lang.String> products)
Constructs a new chemical reaction from the provided reactants and products with the given name. |
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IrrevRxn(LinearComb<java.lang.String> reactants,
LinearComb<java.lang.String> products)
Constructs a new irreversible reaction from the provided reactants and products. |
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IrrevRxn(LinearComb<java.lang.String> reactants,
LinearComb<java.lang.String> products)
Constructs a new irreversible reaction from the provided reactants and products. |
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RevRxn(LinearComb<java.lang.String> reactants,
LinearComb<java.lang.String> products)
Constructs a new reversible reaction from the provided reactants and products. |
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RevRxn(LinearComb<java.lang.String> reactants,
LinearComb<java.lang.String> products)
Constructs a new reversible reaction from the provided reactants and products. |
Uses of LinearComb in sbrt.kernel.fba.comp |
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Methods in sbrt.kernel.fba.comp that return LinearComb | ||
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protected
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FbaOptimizer.getExpr(java.util.Collection<V> columnVariables)
Converts a collection of column variables to a linear combination. |
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protected
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FbaOptimizer.getExpr(V columnVariable)
Converts a column variable to a single-term linear combination. |
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protected LinearComb<java.lang.String> |
AbstractCvComputer.getRxnExpr(java.util.Collection<java.lang.String> reactionNames)
Converts a collection of reaction names to a linear combination. |
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protected LinearComb<java.lang.String> |
FbaOptimizer.getRxnExpr(java.util.Collection<java.lang.String> rxnNames)
Converts a collection of reaction names to a linear combination. |
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protected LinearComb<java.lang.String> |
AbstractCvComputer.getRxnExpr(java.lang.String reactionName)
Converts a reaction name to a single-term linear combination. |
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protected LinearComb<java.lang.String> |
FbaOptimizer.getRxnExpr(java.lang.String reactionName)
Converts a reaction name to a single-term linear combination. |
Methods in sbrt.kernel.fba.comp that return types with arguments of type LinearComb | |
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java.util.Map<java.lang.String,java.util.Set<LinearComb<java.lang.String>>> |
FluxCapComputer.getFluxCaps()
Computes and returns all flux caps. |
java.util.Map<LinearComb<java.lang.String>,Interval> |
CdHarFluxComp.getRxnExprConstraints()
Returns all current flux expression constraints. |
Methods in sbrt.kernel.fba.comp with parameters of type LinearComb | |
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void |
CdHarFluxComp.restoreRxnExprConstraint(LinearComb<java.lang.String> expr)
Restores the constraint on the provided flux expression to the value contained in the fluxome. |
void |
CdHarFluxComp.setRxnExprConstraint(LinearComb<java.lang.String> rxnExpr,
Interval c)
Changes the constraint on the provided linear combination of fluxes. |
Constructor parameters in sbrt.kernel.fba.comp with type arguments of type LinearComb | |
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FluxCapComputer(IrrevRxnFluxome fluxome,
java.util.Collection<LinearComb<java.lang.String>> allCycles)
Constructs a new flux cap computer from the cycles contained in the provided fluxome. |
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MsFluxIntervalComputer(FbaOptimizer<F> computer,
java.util.Map<java.lang.String,java.util.Set<LinearComb<java.lang.String>>> fluxCaps)
Constructs a new Mahadevan-Schilling flux interval computer. |
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MsFluxIntervalComputer(FbaOptimizer<F> computer,
java.util.Map<java.lang.String,java.util.Set<LinearComb<java.lang.String>>> fluxCaps,
double zeroCutoff)
Constructs a new Mahadevan-Schilling flux interval computer. |
Uses of LinearComb in sbrt.kernel.fba.proc |
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Methods in sbrt.kernel.fba.proc that return LinearComb | |
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LinearComb<java.lang.String> |
FbaOptProcess.getObjectiveFunction()
Returns the current objective function. |
Methods in sbrt.kernel.fba.proc with parameters of type LinearComb | |
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void |
FbaOptProcess.setObjectiveFunction(LinearComb<java.lang.String> objective)
Sets the objective function to the provided mathematical expression. |
Method parameters in sbrt.kernel.fba.proc with type arguments of type LinearComb | |
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void |
RandomObjectiveGenerator.run(ResultsManager<LinearComb<java.lang.String>> resultsManager)
Generates random objective functions and adds them to the provided results manager. |
void |
FluxCapProcess.run(ResultsManager<java.util.Map<java.lang.String,java.util.Set<LinearComb<java.lang.String>>>> resultsManager)
Computes the flux caps and adds the result to the provided manager. |
Uses of LinearComb in sbrt.kernel.math |
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Classes in sbrt.kernel.math that implement LinearComb | |
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class |
AbstractLinearComb<V>
This abstract class is a skeleton implementation of LinearComb. |
class |
HashLinearComb<V>
This class is a concrete implemenation of LinearComb. |
Methods in sbrt.kernel.math that return LinearComb | |
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LinearComb<V> |
LinearComb.add(double constant)
Adds, in the mathematical sense, the provided constant to this linear combination. |
LinearComb<V> |
LinearComb.add(LinearComb<? extends V> linComb)
Adds, in the mathematical sense, the provided linear combination to this linear combination. |
LinearComb<V> |
LinearComb.multiply(double constant)
Multiplies this linear combination by the provided constant. |
LinearComb<V> |
LinearComb.plugIn(java.util.Map<?,? extends LinearComb<? extends V>> linearCombs)
Plugs in the provided linear combinations to produce a new linear combination. |
LinearComb<V> |
LinearComb.plugIn(java.util.Map<?,java.lang.Double> numbers,
java.util.Map<?,? extends LinearComb<? extends V>> linearCombs)
Plugs in the provided numerical values and linear combinations to produce a new linear combination. |
LinearComb<V> |
LinearComb.plugIn(java.lang.Object variable,
double constant)
Assigns the value of the provided variable to the provided constant. |
LinearComb<V> |
LinearComb.plugIn(java.lang.Object variable,
LinearComb<? extends V> expr)
Assigns the value of the provided variable to the provided linear combination. |
LinearComb<V> |
LinearComb.plugInNumbers(java.util.Map<?,java.lang.Double> numbers)
Plugs in the provided numerical values to produce a new linear combination. |
LinearComb<V> |
LinearComb.solveFor(java.lang.Object variable,
double constant)
Equates this linear combination to the provided constant and solves for the provided variable. |
Methods in sbrt.kernel.math with parameters of type LinearComb | |
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LinearComb<V> |
LinearComb.add(LinearComb<? extends V> linComb)
Adds, in the mathematical sense, the provided linear combination to this linear combination. |
HashLinearComb<V> |
HashLinearComb.add(LinearComb<? extends V> expression)
Adds, in the mathematical sense, the provided linear combination to this linear combination. |
LinearComb<V> |
LinearComb.plugIn(java.lang.Object variable,
LinearComb<? extends V> expr)
Assigns the value of the provided variable to the provided linear combination. |
HashLinearComb<V> |
HashLinearComb.plugIn(java.lang.Object variable,
LinearComb<? extends V> expr)
Plugs the provided linear combination into the provided variable to produce a new linear combination. |
Method parameters in sbrt.kernel.math with type arguments of type LinearComb | |
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LinearComb<V> |
LinearComb.plugIn(java.util.Map<?,? extends LinearComb<? extends V>> linearCombs)
Plugs in the provided linear combinations to produce a new linear combination. |
HashLinearComb<V> |
HashLinearComb.plugIn(java.util.Map<?,? extends LinearComb<? extends V>> variableValues)
Plugs in the provided linear combinations to produce a new linear combination. |
LinearComb<V> |
LinearComb.plugIn(java.util.Map<?,java.lang.Double> numbers,
java.util.Map<?,? extends LinearComb<? extends V>> linearCombs)
Plugs in the provided numerical values and linear combinations to produce a new linear combination. |
HashLinearComb<V> |
HashLinearComb.plugIn(java.util.Map<?,java.lang.Double> numbers,
java.util.Map<?,? extends LinearComb<? extends V>> linearCombs)
Plugs in the provided numerical values and linear combinations to produce a new linear combination. |
Uses of LinearComb in sbrt.kernel.math.algebra |
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Methods in sbrt.kernel.math.algebra that return LinearComb | |
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LinearComb<V> |
HashLinearSystemSolution.getSolution(java.lang.Object variable)
Returns the linear combination of free variables to which the provided variable is equal. |
LinearComb<V> |
LinearSystemSolution.getSolution(java.lang.Object variable)
Returns the linear combination of free variables to which the provided variable is equal. |
Methods in sbrt.kernel.math.algebra that return types with arguments of type LinearComb | |
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java.util.List<LinearComb<C>> |
DoubleMatrixWrap.toLinearCombs()
Returns this matrix as a list of linear combinations. |
java.util.List<LinearComb<C>> |
DoubleMatrix.toLinearCombs()
Returns this matrix as a list of linear combinations. |
java.util.List<LinearComb<C>> |
AbstractSmdMatrix.toLinearCombs()
Returns this matrix as a list of linear combinations. |
java.util.Map<V,LinearComb<V>> |
HashLinearSystemSolution.toMap()
Returns this solution as a map. |
java.util.Map<V,LinearComb<V>> |
LinearSystemSolution.toMap()
Returns this solution as a map. |
Method parameters in sbrt.kernel.math.algebra with type arguments of type LinearComb | |
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LinearSystemSolution<V> |
LinearSystemSolver.solve(java.util.Map<LinearComb<V>,java.lang.Double> equations)
Computes and returns a solution to the provided system of linear equations. |
Constructor parameters in sbrt.kernel.math.algebra with type arguments of type LinearComb | |
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HashLinearSystemSolution(java.util.Map<? extends V,? extends LinearComb<? extends V>> solutions)
Constructs a new hash code-based linear system solution. |
Uses of LinearComb in sbrt.kernel.math.algebra.proc |
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Method parameters in sbrt.kernel.math.algebra.proc with type arguments of type LinearComb | |
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void |
LinearSolverProcess.setEquations(java.util.Map<LinearComb<V>,java.lang.Double> equations)
Sets the system of linear equations to be solver. |
Uses of LinearComb in sbrt.kernel.math.geom |
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Methods in sbrt.kernel.math.geom that return LinearComb | |
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LinearComb<V> |
ParallelHyperplanes.getPlane()
Returns the hyperplane. |
Constructors in sbrt.kernel.math.geom with parameters of type LinearComb | |
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ParallelHyperplanes(LinearComb<V> hyperplane,
Interval bounds)
Constructs a new pair of bounding parallel hyperplanes. |
Uses of LinearComb in sbrt.kernel.math.optimization |
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Methods in sbrt.kernel.math.optimization with parameters of type LinearComb | |
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void |
LinearProgramSolver.setConstraint(LinearComb<? extends C> expression,
Interval c)
Sets a constraint on the provided linear combination of column variables. |
void |
LinearProgramSolver.setObjectiveFunction(LinearComb<? extends C> expression)
Sets the objective function to the provided linear combination of column variables. |
void |
LinearProgramSolver.setObjectiveFunction(LinearComb<? extends C> expression,
OptSense sense)
Sets the objective function and optimization sense to the provided values. |
Uses of LinearComb in sbrt.shell.io.fba |
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Methods in sbrt.shell.io.fba that return types with arguments of type LinearComb | |
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static java.util.Set<LinearComb<java.lang.String>> |
FluxIntervalInputFile.convertVariables(java.util.Set<java.lang.String> rxnNames)
Converts a set of reaction names to a set of single-term linear combinations. |
UnmodifiableMap<java.lang.String,java.util.Set<LinearComb<java.lang.String>>> |
FluxCapInputFile.getFluxCaps()
Returns the flux caps contained in this file. |
MapFormat<java.lang.String,java.util.Set<LinearComb<java.lang.String>>> |
FluxCapInputFile.getMapFormat()
Returns the map format used to parse this file. |
java.util.Iterator<java.util.Map<java.lang.String,java.util.Set<LinearComb<java.lang.String>>>> |
FluxCapInputFile.iterator()
Returns an iterator over this file. |
Method parameters in sbrt.shell.io.fba with type arguments of type LinearComb | |
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static FluxConstraints |
FluxIntervalInputFile.convertConstraints(java.util.Map<LinearComb<java.lang.String>,Interval> intervals,
Fluxome fluxome,
double tolerance)
Converts the provided intervals into a FluxConstraints object. |
Constructor parameters in sbrt.shell.io.fba with type arguments of type LinearComb | |
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FluxIntervalInputFile(java.lang.String fileName,
FileFormat fileFormat,
java.util.Set<LinearComb<java.lang.String>> requiredVariables,
MapFormat<LinearComb<java.lang.String>,Interval> mapFormat,
Fluxome fluxome,
double tolerance)
Constructs a new flux-interval input file. |
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FluxIntervalInputFile(java.lang.String fileName,
FileFormat fileFormat,
java.util.Set<LinearComb<java.lang.String>> requiredVariables,
MapFormat<LinearComb<java.lang.String>,Interval> mapFormat,
Fluxome fluxome,
double tolerance)
Constructs a new flux-interval input file. |
Uses of LinearComb in sbrt.shell.mng.algebra |
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Methods in sbrt.shell.mng.algebra that return types with arguments of type LinearComb | |
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static java.util.Map<LinearComb<java.lang.String>,java.lang.Double> |
LinearSolverManager.getEquations(ManagerInput<java.lang.String,java.lang.String> input,
java.io.PrintWriter out)
Returns the set of linear equations contained in the file with the provided name. |
static java.util.Map<LinearComb<java.lang.String>,java.lang.Double> |
LinearSolverManager.getEquations(java.lang.String fileName)
Returns the set of linear equations contained in the file with the provided name. |
static java.util.Map<LinearComb<java.lang.String>,java.lang.Double> |
LinearSolverManager.getEquations(java.lang.String fileName,
java.io.PrintWriter out)
Returns the set of linear equations contained in the file with the provided name. |
Uses of LinearComb in sbrt.shell.mng.fba |
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Methods in sbrt.shell.mng.fba that return LinearComb | |
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static LinearComb<java.lang.String> |
FbaOptManager.getObjFunc(ManagerInput<java.lang.String,java.lang.String> input,
java.io.PrintWriter out,
Fluxome fluxome)
Parses and returns the value for FbaOptManager.OBJECTIVE_FUNCTION in the provided manager input. |
Methods in sbrt.shell.mng.fba that return types with arguments of type LinearComb | |
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static java.util.List<LinearComb<java.lang.String>> |
FluxCapManager.getCycles(ManagerInput<java.lang.String,java.lang.String> input,
java.io.PrintWriter out,
Fluxome fluxome)
Opens the file denoted by FluxCapManager.CYCLE_FILE in the provided manager input and returns the list of cycles it contains. |
static UnmodifiableMap<java.lang.String,java.util.Set<LinearComb<java.lang.String>>> |
MsFluxIntervalManager.getFluxCaps(ManagerInput<java.lang.String,java.lang.String> input,
java.io.PrintWriter out,
Fluxome fluxome)
Returns the flux caps contained in the file with the name specified by MsFluxIntervalManager.FLUX_CAP_FILE in the provided input. |
static TextInputFile<LinearComb<java.lang.String>> |
ObjectiveFunctionManager.getInputFile(ManagerInput<java.lang.String,java.lang.String> input,
java.io.PrintWriter out,
Fluxome fluxome)
Returns the file denoted by ObjectiveFunctionManager.OBJ_FUNCT_FILE in the provided manager input. |
static TextInputFile<LinearComb<java.lang.String>> |
ObjectiveFunctionManager.getInputFile(java.lang.String fileName,
FileFormat format,
Fluxome fluxome)
Returns the input file with the provided name. |
static TextInputFile<LinearComb<java.lang.String>> |
ObjectiveFunctionManager.getInputFile(java.lang.String fileName,
Fluxome fluxome)
Returns the input file with the provided name. |
static TextOutputFile<LinearComb<java.lang.String>> |
RandomObjectiveManager.getOutputFile(ManagerInput<java.lang.String,java.lang.String> input,
java.io.PrintWriter out,
Fluxome fluxome)
Returns an empty output file that is suitable for storing randomly generated objective functions. |
static TextOutputFile<LinearComb<java.lang.String>> |
RandomObjectiveManager.getOutputFile(java.lang.String fileName,
FileFormat format,
java.io.PrintWriter out,
Fluxome fluxome)
Returns an empty output file that is suitable for storing randomly generated objective functions. |
static RxnNameExprFormat<LinearComb<java.lang.String>,java.lang.String> |
FbaManager.getRxnNameExprFormat(Fluxome f)
Returns the default reaction name expression format. |
Method parameters in sbrt.shell.mng.fba with type arguments of type LinearComb | |
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static FluxIntervalInputFile |
IntervalVariationManager.getIntervalInputFile(java.lang.String fileName,
Fluxome fluxome,
MapFormat<LinearComb<java.lang.String>,Interval> mapFormat,
double tolerance)
Returns the flux interval input file with the provided name. |
Uses of LinearComb in sbrt.shell.mng.utilities |
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Methods in sbrt.shell.mng.utilities that return types with arguments of type LinearComb | |
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static java.util.List<LinearComb<java.lang.String>> |
VariableParticipationManager.getExpressions(ManagerInput<java.lang.String,java.lang.String> input,
java.io.PrintWriter out)
Opens the file denoted by VariableParticipationManager.EXPRESSION_FILE in the provided manager input and returns the list of mathematical expressions it contains. |
VariableParticipation<LinearComb<java.lang.String>,java.lang.String> |
VariableParticipationManager.getProcess()
Returns the process this process manager controls. |
Uses of LinearComb in sbrt.shell.text.fba |
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Methods in sbrt.shell.text.fba that return LinearComb | |
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LinearComb<java.lang.String> |
PalssonRxnNodeParser.getProducts(org.w3c.dom.Node reactionNode)
Returns the products of the provided reaction node. |
LinearComb<java.lang.String> |
BiggRxnNodeParser.getProducts(org.w3c.dom.Node reactionNode)
Returns the products of the provided reaction node. |
LinearComb<java.lang.String> |
PalssonRxnNodeParser.getReactants(org.w3c.dom.Node reactionNode)
Returns the reactants of the provided reaction node. |
LinearComb<java.lang.String> |
BiggRxnNodeParser.getReactants(org.w3c.dom.Node reactionNode)
Returns the reactants of the provided reaction node. |
LinearComb<java.lang.String> |
RxnNameExprFormatV1.parse(java.lang.String rxnNameExpr)
Parses the provided string and returns its corresponding linear combination of reaction names. |
Methods in sbrt.shell.text.fba that return types with arguments of type LinearComb | |
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PipeListFormat<java.util.Set<LinearComb<java.lang.String>>> |
FluxCapFormatV1.getListFormat()
Returns the format used for lists of values. |
PipeListFormat<LinearComb<java.lang.String>> |
FluxomeSolFileLineFormatV1.getListFormat()
Returns the format used for lists of values. |
PipeSetFormat<LinearComb<java.lang.String>> |
ConstraintsFileLineFormatV2.getSetFormat()
Returns the format used for sets of variables. |
Methods in sbrt.shell.text.fba with parameters of type LinearComb | |
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java.lang.String |
RxnNameExprFormatV1.format(LinearComb<java.lang.String> rxnNameExpr)
Returns a formatted string representation of the provided linear combination of reaction names. |
Uses of LinearComb in sbrt.shell.text.math |
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Methods in sbrt.shell.text.math that return LinearComb | |
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LinearComb<V> |
LinearCombFormat.parse(java.lang.String expression)
Parses the provided string and returns its corresponding linear combination. |
LinearComb<V> |
LinearCombFormatV2.parse(java.lang.String expression)
Parses the provided string and returns its corresponding linear combination. |
LinearComb<V> |
LinearCombFormatV1.parse(java.lang.String expression)
Parses the provided string and returns its corresponding linear combination. |
Methods in sbrt.shell.text.math with parameters of type LinearComb | |
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java.lang.String |
LinearCombFormat.format(LinearComb<V> expression)
Returns a formatted string representation of the provided linear combination. |
java.lang.String |
LinearCombFormatV2.format(LinearComb<V> expression)
Returns a formatted string representation of the provided linear combination. |
java.lang.String |
LinearCombFormatV1.format(LinearComb<V> expression)
Returns a formatted string representation of the provided linear combination. |
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