FLOPC++
Class Hierarchy

Go to the graphical class hierarchy

This inheritance list is sorted roughly, but not completely, alphabetically:
[detail level 12345]
oCflopc::Boolean_baseBase class for all "boolean" types of data
|oCflopc::Boolean_alltrue
|oCflopc::Boolean_and
|oCflopc::Boolean_bool
|oCflopc::Boolean_Constant
|oCflopc::Boolean_negate
|oCflopc::Boolean_or
|oCflopc::Boolean_SUBSETREF
|\Cflopc::Comparison
oCflopc::CoefInternal representation of a Coefficient in a matrix
oCflopc::CoefLess
oCflopc::Constant_baseBase class for all "constant" types of data
|oCflopc::Constant_abs
|oCflopc::Constant_ceil
|oCflopc::Constant_double
|oCflopc::Constant_exp
|oCflopc::Constant_floor
|oCflopc::Constant_index
|oCflopc::Constant_max
|oCflopc::Constant_min
|oCflopc::Constant_pos
|oCflopc::Constant_product
|oCflopc::Constant_sum
|\Cflopc::DataRefReference to a set of data
oCflopc::Constraint
oCflopc::FunctorFunction object. Often used
|oCflopc::Constant_max
|oCflopc::Constant_min
|oCflopc::Constant_product
|oCflopc::Constant_sum
|oCflopc::DataRefReference to a set of data
|oCflopc::Expression_sum
|oCflopc::Functor_conditional
|oCflopc::GenerateFunctorFunctor to facilitate generation of coefficients
|oCflopc::InsertFunctor< nbr >Internal representation of a "set"
|oCflopc::insertFunctor< nbr >Inserter for construction of a subset
|oCflopc::MP_dataInput data set.This is one of the main public interface classes. It is normally directly constructed given a set of indices (domain) over which it is valid. If the data is not bound at construction, either the value() or initialize() method must be called which (deep) copies in the actual data. If one wishes to refer to external data instead rather than doing a deep copy, use the constructor which takes the value pointer as an argument. This copies the original data pointer value (rather than a deep copy).
This is used for construction of :
|oCflopc::MP_domain_baseReference to a set of index values
|\Cflopc::MP_variableSymantic representation of a variable.This is one of the main public interface classes. It should be directly declared by clients of the FlopC++. The parametersof construction are MP_set s which specify the indexes over which the variable is defined
oCflopc::Handle< T >Utility for doing reference counted pointers
|\Cflopc::MP_domainRange over which some other constuct is defined.This is one of the main public interface classes. One uses this in the context of a constraint, objective, variable, or data. It is usually used in conjunction with an MP_set, or a subset, but can be used without one. It is the range over which the other construct is defined
oCflopc::Handle< Boolean_base * >
|\Cflopc::MP_booleanReference counted class for all "boolean" types of data.This contains counters to ConstantBase pointers. These pointers may be of any of the Boolean_base * type. This can be a constant valued boolean as well. explain SUBSETREF explain using pointer in – should be private?
oCflopc::Handle< Constant_base * >
|\Cflopc::ConstantReference counted class for all "constant" types of data
oCflopc::Handle< flopc::MP_domain_base * >
oCflopc::Handle< MP_domain_base * >
oCflopc::Handle< MP_expression_base * >
|\Cflopc::MP_expressionSymbolic representation of a linear expression.This is one of the main public interface classes. It is the basis for all linear expressions, including constraints, objective function, and expressions involving indexes.
Although these can be created directly and independently, it is expected these will be created through the use of the operators which are later in this file. (operator+, operator-, etc.)
oCflopc::Handle< MP_index_base * >
|\Cflopc::MP_index_expRepresentation of an expression involving an index.This is one of the main public interface classes. It is used to create complex arrangements of index values.
Index expressions can involve:
oCflopc::MessengerInteface for hooking up to internal flopc++ message handling.In more advanced use of FlopC++, it may be desirable to get access to internal calls for messages. In essence, sub-class this Messenger class, and register it with the MP_model. Also overload whichever message events you wish to handle
|\Cflopc::NormalMessenger
oCflopc::MP_expression_baseThe base class for all expressions
|oCflopc::Expression_mult
|oCflopc::Expression_operatorThe base class for all expressions
|oCflopc::Expression_sum
|\Cflopc::TerminalExpressionThe base class for all expressions
oCflopc::MP_index_baseInternal representation of a index
|oCflopc::MP_domain_baseReference to a set of index values
|oCflopc::MP_indexRepresentation of an index.This is one of the main public interface classes. It is used to iterate through, or index into an MP_domain. It is also used to share the 'current' index offsets between expressions which share an index
|oCflopc::MP_index_constant
|oCflopc::MP_index_difInternal representation of an index expression
|oCflopc::MP_index_multInternal representation of an index expression
|oCflopc::MP_index_subsetRef
|oCflopc::MP_index_sumInternal representation of an index expression
|\Cflopc::SUBSETREFInternal representation of a "set"
oCflopc::MP_modelThis is the anchor point for all constructs in a FlopC++ model.The constructors take an OsiSolverInterface, and (optionally) a replacemente for the Messenger class. There are some built-in changes to the verbosity for output.
The main methods to use are:
oCflopc::NamedUtility interface class for adding a string name onto a structure
|oCflopc::MP_constraintSemantic representation of a linear constraint.This is one of the main public interface classes. It is always constructed through operator overloading between expressions, constants, and variables. There are many 'friend' overloaded operators to do the constuction. The basic idea is to make the constraint look like a paper-model constraint in C++ code. Once constructed, it should be added to the model
|oCflopc::MP_dataInput data set.This is one of the main public interface classes. It is normally directly constructed given a set of indices (domain) over which it is valid. If the data is not bound at construction, either the value() or initialize() method must be called which (deep) copies in the actual data. If one wishes to refer to external data instead rather than doing a deep copy, use the constructor which takes the value pointer as an argument. This copies the original data pointer value (rather than a deep copy).
This is used for construction of :
|oCflopc::MP_set_baseInternal representation of a "set"
|\Cflopc::MP_variableSymantic representation of a variable.This is one of the main public interface classes. It should be directly declared by clients of the FlopC++. The parametersof construction are MP_set s which specify the indexes over which the variable is defined
\Cflopc::RowMajor
 oCflopc::MP_constraintSemantic representation of a linear constraint.This is one of the main public interface classes. It is always constructed through operator overloading between expressions, constants, and variables. There are many 'friend' overloaded operators to do the constuction. The basic idea is to make the constraint look like a paper-model constraint in C++ code. Once constructed, it should be added to the model
 oCflopc::MP_dataInput data set.This is one of the main public interface classes. It is normally directly constructed given a set of indices (domain) over which it is valid. If the data is not bound at construction, either the value() or initialize() method must be called which (deep) copies in the actual data. If one wishes to refer to external data instead rather than doing a deep copy, use the constructor which takes the value pointer as an argument. This copies the original data pointer value (rather than a deep copy).
This is used for construction of :
 \Cflopc::MP_variableSymantic representation of a variable.This is one of the main public interface classes. It should be directly declared by clients of the FlopC++. The parametersof construction are MP_set s which specify the indexes over which the variable is defined