The list does not allow SolverSettings with the same ID.
public class LocalSolverSettings : IList<SolverSettings>,
ICollection<SolverSettings>, IEnumerable<SolverSettings>, IEnumerable,
IReadOnlyList<SolverSettings>, IReadOnlyCollection<SolverSettings>| LocalSolverSettings | Default constructor. |
| LocalSolverSettings(IEnumerableSolverSettings) | Constructor initializing the list with another collection. |
| Count | Represents a non-generic collection of objects that can be individually accessed by index. |
| IsReadOnly | Gets a value indicating whether the ICollectionT is read-only. |
| ItemInt32 | Represents a non-generic collection of objects that can be individually accessed by index. |
| ItemString | Find SolverSettings based on ID. |
| NetworkType | Dictionary specifying network type. |
| Add | Adds an item to the ICollectionT. |
| Clear | Removes all items from the ICollectionT. |
| Contains | Determines whether the ICollectionT contains a specific value. |
| CopyTo | Copies the elements of the ICollectionT to an Array, starting at a particular Array index. |
| Equals | Determines whether the specified object is equal to the current object. (Inherited from Object) |
| Finalize | Allows an object to try to free resources and perform other cleanup operations before it is reclaimed by garbage collection. (Inherited from Object) |
| Find(PredicateSolverSettings) |
Searches for an element that matches the conditions defined by the specified predicate, and returns the first occurrence within the entire list.
Linear searching, o(n), so use with care. |
| Find(String) | Find SolverSettings based on ID. |
| GetEnumerator | Returns an enumerator that iterates through the collection. |
| GetHashCode | Serves as the default hash function. (Inherited from Object) |
| GetType | Gets the Type of the current instance. (Inherited from Object) |
| IndexOf | Determines the index of a specific item in the IListT. |
| Insert | Inserts an item to the IListT at the specified index. |
| MemberwiseClone | Creates a shallow copy of the current Object. (Inherited from Object) |
| Remove | Removes the first occurrence of a specific object from the ICollectionT. |
| RemoveAt | Removes the IListT item at the specified index. |
| SetSolverSettings(ILocation, String) | Set solver settings for given network location. |
| SetSolverSettings(LocationSpan, String) | Set solver settings for given location span. |
| SetSolverSettingsNode | Set solver settings for given node ID. |
| SetSolverSettingsReach | Set solver settings type for given reach. |
| ToString | Returns a string that represents the current object. (Inherited from Object) |
| TrimExcess | Sets the capacity to the actual number of elements in the collection, if that number is less than a threshold value. |
| BinarySearchSolverSettings |
Searches the entire sorted IListT for an element using the provided
comparer and returns the zero-based index of the element.
This differs from the "ordinary" binary search in allowing a comparer delegate that defines whether an item is found (returning 0), whether the item in the list is before (<0) or after (>0) that knows how to compare a class with its key. Example, if the list contains classes of type T having an id number and the class is sorted on that id, then the keySelector returns the id number for that class. Example
If having a list of doubles, to find 4.5 in the list, use:
int index = list.BinarySearch(d => d.CompareTo(4.5))
(Defined by GenericExtensions) |
| BinarySearchSolverSettings |
Searches the entire sorted IListT for an element
and returns the zero-based index of the element.
If the key is not found, a negative number is returned,
which can be intepreted as the bitwise complement
of the interval of indices that the key is in between, i.e.
(Defined by GenericExtensions) |
| BinarySearchSolverSettings |
Searches the entire sorted IListT for an element using the provided
comparer and returns the zero-based index of the element.
If the key is not found, a negative number is returned,
which can be intepreted as the bitwise complement
of the interval of indices that the key is in between, i.e.
(Defined by GenericExtensions) |
| BinarySearchSolverSettings, TKey |
Searches the entire sorted IListT for an element
and returns the zero-based index of the element.
If the key is not found, a negative number is returned,
which can be intepreted as the bitwise complement
of the interval of indices that the key is in between, i.e.
This differs from the "ordinary" binary search in allowing a keySelectorcomparer that knows how to compare a class with its key. Example, if the list contains classes of type T having an id number and the class is sorted on that id, then the keySelector returns the id number for that class. (Defined by GenericExtensions) |
| BinarySearchSolverSettings, TKey |
Searches the entire sorted IListT for an element using the provided
comparer and returns the zero-based index of the element.
If the key is not found, a negative number is returned,
which can be intepreted as the bitwise complement
of the interval of indices that the key is in between, i.e.
This differs from the "ordinary" binary search in allowing a keySelectorcomparer that knows how to compare a class with its key. Example, if the list contains classes of type T having an id number and the class is sorted on that id, then the keySelector returns the id number for that class. (Defined by GenericExtensions) |
| BinarySearchROSolverSettings, TKey |
Searches the entire sorted IReadOnlyListT for an element
and returns the zero-based index of the element.
If the key is not found, a negative number is returned,
which can be intepreted as the bitwise complement
of the interval of indices that the key is in between, i.e.
This differs from the "ordinary" binary search in allowing a keySelectorcomparer that knows how to compare a class with its key. Example, if the list contains classes of type T having an id number and the class is sorted on that id, then the keySelector returns the id number for that class. (Defined by GenericExtensions) |
| BinarySearchROSolverSettings, TKey |
Searches the entire sorted IReadOnlyListT for an element using the provided
comparer and returns the zero-based index of the element.
If the key is not found, a negative number is returned,
which can be intepreted as the bitwise complement
of the interval of indices that the key is in between, i.e.
This differs from the "ordinary" binary search in allowing a keySelectorcomparer that knows how to compare a class with its key. Example, if the list contains classes of type T having an id number and the class is sorted on that id, then the keySelector returns the id number for that class. (Defined by GenericExtensions) |
| FindIndexSolverSettings | Searches for an element that matches the conditions defined by the specified predicate, and returns the zero-based index of the first occurrence within the range of elements in the list. (Defined by GenericExtensions) |
| FindIndexSolverSettings | Searches for an element that matches the conditions defined by the specified predicate, and returns the zero-based index of the first occurrence within the range of elements in the ListT that extends from the specified index to the last element. (Defined by GenericExtensions) |
| SortSolverSettings |
Sorts the elements in the entire List{T} using the default comparer.
A quick sort algorithm is used. Quick sort is a un-stable sort algorithm i.e. if two elements are equal their order may not be preserved. If the provided IList is either an array or a list, the build in sorting method is used (also quick sort). (Defined by GenericExtensions) |
| SortSolverSettings |
Sorts the elements in the entire List{T} using the provided comparer.
A quick sort algorithm is used. Quick sort is a un-stable sort algorithm i.e. if two elements are equal their order may not be preserved. If the provided IList is either an array or a list, the build in sorting method is used (also quick sort). (Defined by GenericExtensions) |
| SortStableSolverSettings |
Sorts the elements in the entire List{T} using the default comparer.
A merge sort algorithm is used. merge sort is a stable sort algorithm i.e. if two elements are equal their order are preserved. (Defined by GenericExtensions) |
| SortStableSolverSettings |
Sorts the elements in the entire List{T} using the provided comparer.
A merge sort algorithm is used. merge sort is a stable sort algorithm i.e. if two elements are equal their order are preserved. (Defined by GenericExtensions) |
| SortStableSolverSettings |
Sorts the elements in the entire List{T} using the provided comparer.
A merge sort algorithm is used. merge sort is a stable sort algorithm i.e. if two elements are equal their order are preserved. (Defined by GenericExtensions) |