Liststrings Class |
Inheritance HierarchyNamespace: DHI.Mike1D.Generic
Assembly: DHI.Mike1D.Generic (in DHI.Mike1D.Generic.dll) Version: 19.0.0.0 (11.1.1.1111)
SyntaxThe Liststrings type exposes the following members.
Constructors| Name | Description | |
|---|---|---|
 | Liststrings |
Initializes a new instance of the List class that is empty and has the default initial capacity.
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| Liststrings(IEnumerableString) |
Initializes a new instance of the List class that contains elements copied from the specified collection and has sufficient capacity to accommodate the number of elements copied.
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| Liststrings(Int32) |
Initializes a new instance of the List class that is empty and has the specified initial capacity.
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Properties| Name | Description | |
|---|---|---|
 | Capacity | Gets or sets the total number of elements the internal data structure can hold without resizing. (Inherited from ListString.) |
| Count | Gets the number of elements contained in the ListT. (Inherited from ListString.) |
| Item | Gets or sets the element at the specified index. (Inherited from ListString.) |
Methods| Name | Description | |
|---|---|---|
| Add | Adds an object to the end of the ListT. (Inherited from ListString.) |
| AddRange | Adds the elements of the specified collection to the end of the ListT. (Inherited from ListString.) |
| AsReadOnly | Returns a read-only ReadOnlyCollectionT wrapper for the current collection. (Inherited from ListString.) |
| BinarySearch(T) | Searches the entire sorted ListT for an element using the default comparer and returns the zero-based index of the element. (Inherited from ListString.) |
| BinarySearch(T, IComparerT) | Searches the entire sorted ListT for an element using the specified comparer and returns the zero-based index of the element. (Inherited from ListString.) |
| BinarySearch(Int32, Int32, T, IComparerT) | Searches a range of elements in the sorted ListT for an element using the specified comparer and returns the zero-based index of the element. (Inherited from ListString.) |
| Clear | Removes all elements from the ListT. (Inherited from ListString.) |
| Contains | Determines whether an element is in the ListT. (Inherited from ListString.) |
| ConvertAllTOutput | Converts the elements in the current ListT to another type, and returns a list containing the converted elements. (Inherited from ListString.) |
| CopyTo(T) | Copies the entire ListT to a compatible one-dimensional array, starting at the beginning of the target array. (Inherited from ListString.) |
| CopyTo(T, Int32) | Copies the entire ListT to a compatible one-dimensional array, starting at the specified index of the target array. (Inherited from ListString.) |
| CopyTo(Int32, T, Int32, Int32) | Copies a range of elements from the ListT to a compatible one-dimensional array, starting at the specified index of the target array. (Inherited from ListString.) |
| Equals | Determines whether the specified object is equal to the current object. (Inherited from Object.) |
| Exists | Determines whether the ListT contains elements that match the conditions defined by the specified predicate. (Inherited from ListString.) |
 | 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 | Searches for an element that matches the conditions defined by the specified predicate, and returns the first occurrence within the entire ListT. (Inherited from ListString.) |
| FindAll | Retrieves all the elements that match the conditions defined by the specified predicate. (Inherited from ListString.) |
| FindIndex(PredicateT) | 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 entire ListT. (Inherited from ListString.) |
| FindIndex(Int32, PredicateT) | 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. (Inherited from ListString.) |
| FindIndex(Int32, Int32, PredicateT) | 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 starts at the specified index and contains the specified number of elements. (Inherited from ListString.) |
| FindLast | Searches for an element that matches the conditions defined by the specified predicate, and returns the last occurrence within the entire ListT. (Inherited from ListString.) |
| FindLastIndex(PredicateT) | Searches for an element that matches the conditions defined by the specified predicate, and returns the zero-based index of the last occurrence within the entire ListT. (Inherited from ListString.) |
| FindLastIndex(Int32, PredicateT) | Searches for an element that matches the conditions defined by the specified predicate, and returns the zero-based index of the last occurrence within the range of elements in the ListT that extends from the first element to the specified index. (Inherited from ListString.) |
| FindLastIndex(Int32, Int32, PredicateT) | Searches for an element that matches the conditions defined by the specified predicate, and returns the zero-based index of the last occurrence within the range of elements in the ListT that contains the specified number of elements and ends at the specified index. (Inherited from ListString.) |
| ForEach | Performs the specified action on each element of the ListT. (Inherited from ListString.) |
| GetEnumerator | Returns an enumerator that iterates through the ListT. (Inherited from ListString.) |
| GetHashCode | Serves as the default hash function. (Inherited from Object.) |
| GetRange | Creates a shallow copy of a range of elements in the source ListT. (Inherited from ListString.) |
| GetType | Gets the Type of the current instance. (Inherited from Object.) |
| IndexOf(T) | Searches for the specified object and returns the zero-based index of the first occurrence within the entire ListT. (Inherited from ListString.) |
| IndexOf(T, Int32) | Searches for the specified object 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. (Inherited from ListString.) |
| IndexOf(T, Int32, Int32) | Searches for the specified object and returns the zero-based index of the first occurrence within the range of elements in the ListT that starts at the specified index and contains the specified number of elements. (Inherited from ListString.) |
| Insert | Inserts an element into the ListT at the specified index. (Inherited from ListString.) |
| InsertRange | Inserts the elements of a collection into the ListT at the specified index. (Inherited from ListString.) |
| LastIndexOf(T) | Searches for the specified object and returns the zero-based index of the last occurrence within the entire ListT. (Inherited from ListString.) |
| LastIndexOf(T, Int32) | Searches for the specified object and returns the zero-based index of the last occurrence within the range of elements in the ListT that extends from the first element to the specified index. (Inherited from ListString.) |
| LastIndexOf(T, Int32, Int32) | Searches for the specified object and returns the zero-based index of the last occurrence within the range of elements in the ListT that contains the specified number of elements and ends at the specified index. (Inherited from ListString.) |
| MemberwiseClone | Creates a shallow copy of the current Object. (Inherited from Object.) |
| Remove | Removes the first occurrence of a specific object from the ListT. (Inherited from ListString.) |
| RemoveAll | Removes all the elements that match the conditions defined by the specified predicate. (Inherited from ListString.) |
| RemoveAt | Removes the element at the specified index of the ListT. (Inherited from ListString.) |
| RemoveRange | Removes a range of elements from the ListT. (Inherited from ListString.) |
| Reverse | Reverses the order of the elements in the entire ListT. (Inherited from ListString.) |
| Reverse(Int32, Int32) | Reverses the order of the elements in the specified range. (Inherited from ListString.) |
| Sort | Sorts the elements in the entire ListT using the default comparer. (Inherited from ListString.) |
| Sort(IComparerT) | Sorts the elements in the entire ListT using the specified comparer. (Inherited from ListString.) |
| Sort(ComparisonT) | Sorts the elements in the entire ListT using the specified ComparisonT. (Inherited from ListString.) |
| Sort(Int32, Int32, IComparerT) | Sorts the elements in a range of elements in ListT using the specified comparer. (Inherited from ListString.) |
| ToArray | Copies the elements of the ListT to a new array. (Inherited from ListString.) |
| ToString | Returns a string that represents the current object. (Inherited from Object.) |
| TrimExcess | Sets the capacity to the actual number of elements in the ListT, if that number is less than a threshold value. (Inherited from ListString.) |
| TrueForAll | Determines whether every element in the ListT matches the conditions defined by the specified predicate. (Inherited from ListString.) |
Extension Methods| Name | Description | |
|---|---|---|
 | BinarySearchString(String) | Overloaded.
Searches the entire sorted IListT for an element
and returns the zero-based index of the element.
(Defined by GenericExtensions.)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. list[interval-1] < key < list[interval] |
 | BinarySearchString(FuncString, Int32) | Overloaded.
Searches the entire sorted IListT for an element using the provided
comparer and returns the zero-based index of the element.
(Defined by GenericExtensions.)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. Examples
If having a list of doubles, to find 4.5 in the list, use:
int index = list.BinarySearch(d => d.CompareTo(4.5)) |
| BinarySearchString(String, IComparerString) | Overloaded.
Searches the entire sorted IListT for an element using the provided
comparer and returns the zero-based index of the element.
(Defined by GenericExtensions.)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. list[interval-1] < key < list[interval] |
| BinarySearchString, TKey(FuncString, TKey, TKey) | Overloaded.
Searches the entire sorted IListT for an element
and returns the zero-based index of the element.
(Defined by GenericExtensions.)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. list[interval-1] < key < list[interval]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. |
| BinarySearchString, TKey(FuncString, TKey, TKey, IComparerTKey) | Overloaded.
Searches the entire sorted IListT for an element using the provided
comparer and returns the zero-based index of the element.
(Defined by GenericExtensions.)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. list[interval-1] < key < list[interval]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. |
| FindIndexString(PredicateString) | Overloaded. 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.) |
| FindIndexString(Int32, PredicateString) | Overloaded. 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.) |
| SortString | Overloaded.
Sorts the elements in the entire List{T} using the default comparer.
(Defined by GenericExtensions.)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). |
| SortString(IComparerString) | Overloaded.
Sorts the elements in the entire List{T} using the provided comparer.
(Defined by GenericExtensions.)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). |
| SortStableString | Overloaded. (Defined by GenericExtensions.) |
| SortStableString(IComparerString) | Overloaded.
Sorts the elements in the entire List{T} using the provided comparer.
(Defined by GenericExtensions.)A merge sort algorithm is used. merge sort is a stable sort algorithm i.e. if two elements are equal their order are preserved. |
| SortStableString(ComparisonString) | Overloaded.
Sorts the elements in the entire List{T} using the provided comparer.
(Defined by GenericExtensions.)A merge sort algorithm is used. merge sort is a stable sort algorithm i.e. if two elements are equal their order are preserved. |
See Also