Initializing help system before first use

AddVariables Method

Overload List
  Name Description
Public method AddVariables<K1>(ICollection<K1>)
Create an 1-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional map of binary variables
System.Collections.Generic.Dictionary<K1 ,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 )
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMapBuilder for details of how to modify the specification in the builder.
Public method AddVariables<K1>(IEnumerable<K1>)
Create an 1-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional array of binary columns
System.Collections.Generic.Dictionary<K1 ,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 )
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMapBuilder for details of how to modify the specification in the builder.
Public method AddVariables(Int32)
Create an 1-dimensional array of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToArray() function. 
// Create a multi-dimensional array of binary variables
Optimizer.Objects.Variable[ ] = prob.AddVariables(dim)
                      .WithType(Optimizer.Objects.ColumnType.Binary)
                      .ToArray();
See Optimizer.VariableBuilder.VariableArrayBuilder for details of how to modify the specification in the builder.
Public method AddVariables<K1>(K1)
Create an 1-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional array of binary columns
System.Collections.Generic.Dictionary<K1 ,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 )
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMapBuilder for details of how to modify the specification in the builder.
Public method AddVariables<K1, K2>(ICollection<K1>, ICollection<K2>)
Create an 2-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional map of binary variables
Optimizer.Maps.HashMap2<K1 ,K2,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 ,coll2)
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMap2Builder for details of how to modify the specification in the builder.
Public method AddVariables(Int32, Int32)
Create an 2-dimensional array of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToArray() function. 
// Create a multi-dimensional array of binary variables
Optimizer.Objects.Variable[ ,] = prob.AddVariables(dim1 ,dim2)
                      .WithType(Optimizer.Objects.ColumnType.Binary)
                      .ToArray();
See Optimizer.VariableBuilder.VariableArray2Builder for details of how to modify the specification in the builder.
Public method AddVariables<K1, K2>(K1, K2)
Create an 2-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional array of binary columns
Optimizer.Maps.HashMap2<K1 ,K2,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 ,coll2)
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMap2Builder for details of how to modify the specification in the builder.
Public method AddVariables<K1, K2, K3>(ICollection<K1>, ICollection<K2>, ICollection<K3>)
Create an 3-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional map of binary variables
Optimizer.Maps.HashMap3<K1 ,K2 ,K3,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 ,coll2 ,coll3)
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMap3Builder for details of how to modify the specification in the builder.
Public method AddVariables(Int32, Int32, Int32)
Create an 3-dimensional array of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToArray() function. 
// Create a multi-dimensional array of binary variables
Optimizer.Objects.Variable[ , ,] = prob.AddVariables(dim1 ,dim2 ,dim3)
                      .WithType(Optimizer.Objects.ColumnType.Binary)
                      .ToArray();
See Optimizer.VariableBuilder.VariableArray3Builder for details of how to modify the specification in the builder.
Public method AddVariables<K1, K2, K3>(K1, K2, K3)
Create an 3-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional array of binary columns
Optimizer.Maps.HashMap3<K1 ,K2 ,K3,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 ,coll2 ,coll3)
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMap3Builder for details of how to modify the specification in the builder.
Public method AddVariables<K1, K2, K3, K4>(ICollection<K1>, ICollection<K2>, ICollection<K3>, ICollection<K4>)
Create an 4-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional map of binary variables
Optimizer.Maps.HashMap4<K1 ,K2 ,K3 ,K4,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 ,coll2 ,coll3 ,coll4)
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMap4Builder for details of how to modify the specification in the builder.
Public method AddVariables(Int32, Int32, Int32, Int32)
Create an 4-dimensional array of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToArray() function. 
// Create a multi-dimensional array of binary variables
Optimizer.Objects.Variable[ , , ,] = prob.AddVariables(dim1 ,dim2 ,dim3 ,dim4)
                      .WithType(Optimizer.Objects.ColumnType.Binary)
                      .ToArray();
See Optimizer.VariableBuilder.VariableArray4Builder for details of how to modify the specification in the builder.
Public method AddVariables<K1, K2, K3, K4>(K1, K2, K3, K4)
Create an 4-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional array of binary columns
Optimizer.Maps.HashMap4<K1 ,K2 ,K3 ,K4,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 ,coll2 ,coll3 ,coll4)
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMap4Builder for details of how to modify the specification in the builder.
Public method AddVariables<K1, K2, K3, K4, K5>(ICollection<K1>, ICollection<K2>, ICollection<K3>, ICollection<K4>, ICollection<K5>)
Create an 5-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional map of binary variables
Optimizer.Maps.HashMap5<K1 ,K2 ,K3 ,K4 ,K5,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 ,coll2 ,coll3 ,coll4 ,coll5)
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMap5Builder for details of how to modify the specification in the builder.
Public method AddVariables(Int32, Int32, Int32, Int32, Int32)
Create an 5-dimensional array of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToArray() function. 
// Create a multi-dimensional array of binary variables
Optimizer.Objects.Variable[ , , , ,] = prob.AddVariables(dim1 ,dim2 ,dim3 ,dim4 ,dim5)
                      .WithType(Optimizer.Objects.ColumnType.Binary)
                      .ToArray();
See Optimizer.VariableBuilder.VariableArray5Builder for details of how to modify the specification in the builder.
Public method AddVariables<K1, K2, K3, K4, K5>(K1, K2, K3, K4, K5)
Create an 5-dimensional map of variables. This function returns a builder that generates variables according to a specification. The specification can be modified. In order to actually create the variables, you have to call the returned builder's ToMap() function. 
// Create a multi-dimensional array of binary columns
Optimizer.Maps.HashMap5<K1 ,K2 ,K3 ,K4 ,K5,Optimizer.Objects.Variable> x = prob.AddVariables(coll1 ,coll2 ,coll3 ,coll4 ,coll5)
                                   .WithType(Optimizer.Objects.ColumnType.Binary)
                                   .ToMap();
See Optimizer.VariableBuilder.VariableMap5Builder for details of how to modify the specification in the builder.
Top
See Also
Covered Topics
Parent Topic XpressProblem Methods

© 2001-2025 Fair Isaac Corporation. All rights reserved. This documentation is the property of Fair Isaac Corporation (“FICO”). Receipt or possession of this documentation does not convey rights to disclose, reproduce, make derivative works, use, or allow others to use it except solely for internal evaluation purposes to determine whether to purchase a license to the software described in this documentation, or as otherwise set forth in a written software license agreement between you and FICO (or a FICO affiliate). Use of this documentation and the software described in it must conform strictly to the foregoing permitted uses, and no other use is permitted.