AxesAlignedConstrained Class

Initializes a new instance. The user must set Principal and Reference.

Initializes a new instance as a copy of an existing instance.

Initializes a new instance.

Initializes a new instance.

Gets a value indicating whether this object is frozen. A frozen object cannot be modified and an ObjectFrozenException will be thrown if an attempt is made to do so.

Gets or sets the principal direction vector with which the X-axis of this set of axes will be aligned.

Gets or sets the axis along which the Principal vector is aligned.

Gets or sets the reference direction vector. The Z-axis of this set of axes will be constrained to minimize the angular separation from this vector.

Gets or sets the axis against which the Reference vector is constrained.

Checks to determine if another instance has the same definition as this instance and returns if it does. Derived classes MUST override this method and check all new fields introduced by the derived class for definitional equivalence. It is NOT necessary to check base class fields because the base class will already have done that. When overriding this method, you should NOT call the base implementation because it will return for all derived-class instances. Derived classes should check the type of other to preserve the symmetric nature of IsSameDefinition(Object).

Checks to determine if another instance has the same definition as this instance and returns if it does. Derived classes MUST override this method and check all new fields introduced by the derived class for definitional equivalence. It is NOT necessary to check base class fields because the base class will already have done that. When overriding this method, you should NOT call the base implementation because it will return for all derived-class instances. Derived classes should check the type of other to preserve the symmetric nature of IsSameDefinition(Object).

Checks to determine if another instance has the same definition as this instance and returns if it does. Derived classes MUST override this method and check all new fields introduced by the derived class for definitional equivalence. It is NOT necessary to check base class fields because the base class will already have done that. When overriding this method, you should NOT call the base implementation because it will return for all derived-class instances. Derived classes should check the type of other to preserve the symmetric nature of IsSameDefinition(Object).

Clones this object using the specified context.

Computes a hash code based on the current properties of this object. Derived classes MUST override this method and compute a hash code that combines: a unique hash code seed, the base implementation result, and the hash codes of all new fields introduced by the derived class which are used in the CheckForSameDefinition(DefinitionalObject) method.

Given a principal and reference vector expressed in the same set of axes, computes a transformation that will take a vector expressed in that set of axes and expresses it in the aligned-constrained axes.

Given a principal and reference vector expressed in the same set of axes, computes a transformation that will take a vector expressed in that set of axes and expresses it in the aligned-constrained axes.

Given a principal and reference vector expressed in the same set of axes, computes a transformation that will take a vector expressed in that set of axes and expresses it in the aligned-constrained axes.

Given a principal and reference vector expressed in the same set of axes, computes a transformation that will take a vector expressed in that set of axes and expresses it in the aligned-constrained axes.

Given a principal and reference vector expressed in the same set of axes, computes a transformation that will take a vector expressed in that set of axes and expresses it in the aligned-constrained axes.

Given a principal and reference vector expressed in the same set of axes, computes a transformation that will take a vector expressed in that set of axes and expresses it in the aligned-constrained axes.

Enumerates the dependencies of this object by calling EnumerateT(T) for each object that this object directly depends upon. Derived classes which contain additional dependencies MUST override this method, call the base implementation, and enumerate dependencies introduced by the derived class.

Determines whether the specified object is equal to the current object.

Allows an object to try to free resources and perform other cleanup operations before it is reclaimed by garbage collection.

Freezes this object. Further attempts to modify it will result in an ObjectFrozenException.

Called by Freeze to also freeze any objects that are considered to be a part of this object. Derived classes which contain additional aggregated objects MUST override this method, call the base implementation, and freeze aggregated objects introduced by the derived class. The objects that need to be frozen in this method are frequently created in this object's constructor and are not settable via properties.

Gets a hash code representing the definition of this object.

Gets an evaluator that can be used to find the transformation from this axes' parent axes to this axes at a given date. Consider using the methods of GeometryTransformer instead of calling this method directly. See GetEvaluator(EvaluatorGroup) for details.

Gets an evaluator that can be used to find the transformation from Principal's Axes to a new Axes defined by the Principal and Reference vectors at a given JulianDate. The new axes will be represented by a Motion<UnitQuaternion, Cartesian> specifying the orientation of these Axes. Derivative information is provided if Principal and Reference provide their derivatives. Consider using the methods of GeometryTransformer instead of calling this method directly.

Serves as the default hash function.

Gets the service object of the specified type.

Gets the Type of the current instance.

Creates a Vector representing the X, Y or Z of this axes. Note that the vector returned will return trivial answers unless observed in some other axes. Use the GeometryTransformer to properly observe the vector instead of getting an evaluator directly.

Creates a Vector representing the X, Y or Z of this axes. Note that the vector returned will return trivial answers unless observed in some other axes. Use the GeometryTransformer to properly observe the vector instead of getting an evaluator directly.

Determines if this object has the same definition as another object.

Creates a shallow copy of the current Object.

Throws ObjectFrozenException if this object IsFrozen. This method should be called from any method or property that modifies this object.

Returns a string that represents the current object.