TextTrackCueList

class TextTrackCueList extends JavaScriptObject with ListMixin<TextTrackCue>, ImmutableListMixin<TextTrackCue> implements List<TextTrackCue>

Annotations: @Native.new("TextTrackCueList")

Implemented types

• List<E>

Mixed-in types

• ListBase<E>
• ImmutableListMixin<E>

Properties

first read / write inherited-setter override-getter

TextTrackCue get first

getter:

The first element.

Throws a StateError if this is empty. Otherwise returns the first element in the iteration order, equivalent to this.elementAt(0).

setter:

The first element of the list.

The list must be non-empty when accessing its first element.

The first element of a list can be modified, unlike an Iterable. A list.first is equivalent to list[0], both for getting and setting the value.

final numbers = <int>[1, 2, 3];
print(numbers.first); // 1
numbers.first = 10;
print(numbers.first); // 10
numbers.clear();
numbers.first; // Throws.

Implementation

TextTrackCue get first {
  if (this.length > 0) {
    return JS('TextTrackCue', '#[0]', this);
  }
  throw new StateError("No elements");
}

void set first(E value) {
  if (length == 0) throw IterableElementError.noElement();
  this[0] = value;
}

hashCode no setter inherited

int get hashCode

Inherited from Interceptor.

Implementation

int get hashCode => Primitives.objectHashCode(this);

isEmpty no setter inherited

bool get isEmpty

Whether this collection has no elements.

May be computed by checking if iterator.moveNext() returns false.

Example:

final emptyList = <int>[];
print(emptyList.isEmpty); // true;
print(emptyList.iterator.moveNext()); // false

Inherited from ListBase.

Implementation

@pragma("vm:prefer-inline")
bool get isEmpty => length == 0;

isNotEmpty no setter inherited

bool get isNotEmpty

Whether this collection has at least one element.

May be computed by checking if iterator.moveNext() returns true.

Example:

final numbers = <int>{1, 2, 3};
print(numbers.isNotEmpty); // true;
print(numbers.iterator.moveNext()); // true

Inherited from ListBase.

Implementation

bool get isNotEmpty => !isEmpty;

iterator no setter inherited

Iterator<TextTrackCue> get iterator

A new Iterator that allows iterating the elements of this Iterable.

Iterable classes may specify the iteration order of their elements (for example List always iterate in index order), or they may leave it unspecified (for example a hash-based Set may iterate in any order).

Each time iterator is read, it returns a new iterator, which can be used to iterate through all the elements again. The iterators of the same iterable can be stepped through independently, but should return the same elements in the same order, as long as the underlying collection isn't changed.

Modifying the collection may cause new iterators to produce different elements, and may change the order of existing elements. A List specifies its iteration order precisely, so modifying the list changes the iteration order predictably. A hash-based Set may change its iteration order completely when adding a new element to the set.

Modifying the underlying collection after creating the new iterator may cause an error the next time Iterator.moveNext is called on that iterator. Any modifiable iterable class should specify which operations will break iteration.

Inherited from ImmutableListMixin.

Implementation

Iterator<E> get iterator {
  &#47;&#47; Note: NodeLists are not fixed size. And most probably length shouldn't
  &#47;&#47; be cached in both iterator _and_ forEach method. For now caching it
  &#47;&#47; for consistency.
  return new FixedSizeListIterator<E>(this);
}

last read / write inherited-setter override-getter

TextTrackCue get last

getter:

The last element.

Throws a StateError if this is empty. Otherwise may iterate through the elements and returns the last one seen. Some iterables may have more efficient ways to find the last element (for example a list can directly access the last element, without iterating through the previous ones).

setter:

The last element of the list.

The list must be non-empty when accessing its last element.

The last element of a list can be modified, unlike an Iterable. A list.last is equivalent to theList[theList.length - 1], both for getting and setting the value.

final numbers = <int>[1, 2, 3];
print(numbers.last); // 3
numbers.last = 10;
print(numbers.last); // 10
numbers.clear();
numbers.last; // Throws.

Implementation

TextTrackCue get last {
  int len = this.length;
  if (len > 0) {
    return JS('TextTrackCue', '#[#]', this, len - 1);
  }
  throw new StateError("No elements");
}

void set last(E value) {
  if (length == 0) throw IterableElementError.noElement();
  this[length - 1] = value;
}

length read / write override

int get length

getter:

The number of objects in this list.

The valid indices for a list are 0 through length - 1.

final numbers = <int>[1, 2, 3];
print(numbers.length); // 3

setter:

Setting the length changes the number of elements in the list.

The list must be growable. If newLength is greater than current length, new entries are initialized to null, so newLength must not be greater than the current length if the element type E is non-nullable.

final maybeNumbers = <int?>[1, null, 3];
maybeNumbers.length = 5;
print(maybeNumbers); // [1, null, 3, null, null]
maybeNumbers.length = 2;
print(maybeNumbers); // [1, null]

final numbers = <int>[1, 2, 3];
numbers.length = 1;
print(numbers); // [1]
numbers.length = 5; // Throws, cannot add `null`s.

Implementation

int get length => JS("int", "#.length", this);

set length(int newLength) {
  throw new UnsupportedError("Cannot resize immutable List.");
}

reversed no setter inherited

Iterable<TextTrackCue> get reversed

An Iterable of the objects in this list in reverse order.

final numbers = <String>['two', 'three', 'four'];
final reverseOrder = numbers.reversed;
print(reverseOrder.toList()); // [four, three, two]

Inherited from ListBase.

Implementation

Iterable<E> get reversed => ReversedListIterable<E>(this);

runtimeType no setter inherited

Type get runtimeType

Inherited from Interceptor.

Implementation

Type get runtimeType =>
    getRuntimeTypeOfInterceptorNotArray(getInterceptor(this), this);

single no setter override

TextTrackCue get single

Checks that this iterable has only one element, and returns that element.

Throws a StateError if this is empty or has more than one element. This operation will not iterate past the second element.

Implementation

TextTrackCue get single {
  int len = this.length;
  if (len == 1) {
    return JS('TextTrackCue', '#[0]', this);
  }
  if (len == 0) throw new StateError("No elements");
  throw new StateError("More than one element");
}

Methods

add() inherited

void add(TextTrackCue value)

Adds value to the end of this list, extending the length by one.

The list must be growable.

final numbers = <int>[1, 2, 3];
numbers.add(4);
print(numbers); // [1, 2, 3, 4]

Inherited from ImmutableListMixin.

Implementation

void add(E value) {
  throw new UnsupportedError("Cannot add to immutable List.");
}

addAll() inherited

void addAll(Iterable<TextTrackCue> iterable)

Appends all objects of iterable to the end of this list.

Extends the length of the list by the number of objects in iterable. The list must be growable.

final numbers = <int>[1, 2, 3];
numbers.addAll([4, 5, 6]);
print(numbers); // [1, 2, 3, 4, 5, 6]

Inherited from ImmutableListMixin.

Implementation

void addAll(Iterable<E> iterable) {
  throw new UnsupportedError("Cannot add to immutable List.");
}

any() inherited

bool any(bool Function(TextTrackCue element) test)

Checks whether any element of this iterable satisfies test.

Checks every element in iteration order, and returns true if any of them make test return true, otherwise returns false. Returns false if the iterable is empty.

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
var result = numbers.any((element) => element >= 5); // true;
result = numbers.any((element) => element >= 10); // false;

Inherited from ListBase.

Implementation

bool any(bool test(E element)) {
  int length = this.length;
  for (int i = 0; i < length; i++) {
    if (test(this[i])) return true;
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
  return false;
}

asMap() inherited

Map<int, TextTrackCue> asMap()

An unmodifiable Map view of this list.

The map uses the indices of this list as keys and the corresponding objects as values. The Map.keys Iterable iterates the indices of this list in numerical order.

var words = <String>['fee', 'fi', 'fo', 'fum'];
var map = words.asMap();  // {0: fee, 1: fi, 2: fo, 3: fum}
map.keys.toList(); // [0, 1, 2, 3]

Inherited from ListBase.

Implementation

Map<int, E> asMap() {
  return ListMapView<E>(this);
}

cast() inherited

List<R> cast<R>()

Returns a view of this list as a list of R instances.

If this list contains only instances of R, all read operations will work correctly. If any operation tries to read an element that is not an instance of R, the access will throw instead.

Elements added to the list (e.g., by using add or addAll) must be instances of R to be valid arguments to the adding function, and they must also be instances of E to be accepted by this list as well.

Methods which accept Object? as argument, like contains and remove, will pass the argument directly to the this list's method without any checks. That means that you can do listOfStrings.cast<int>().remove("a") successfully, even if it looks like it shouldn't have any effect.

Typically implemented as List.castFrom<E, R>(this).

Inherited from ListBase.

Implementation

List<R> cast<R>() => List.castFrom<E, R>(this);

clear() inherited

void clear()

Removes all objects from this list; the length of the list becomes zero.

The list must be growable.

final numbers = <int>[1, 2, 3];
numbers.clear();
print(numbers.length); // 0
print(numbers); // []

Inherited from ListBase.

Implementation

void clear() {
  this.length = 0;
}

contains() inherited

bool contains(Object? element)

Whether the collection contains an element equal to element.

This operation will check each element in order for being equal to element, unless it has a more efficient way to find an element equal to element. Stops iterating on the first equal element.

The equality used to determine whether element is equal to an element of the iterable defaults to the Object.== of the element.

Some types of iterable may have a different equality used for its elements. For example, a Set may have a custom equality (see Set.identity) that its contains uses. Likewise the Iterable returned by a Map.keys call should use the same equality that the Map uses for keys.

Example:

final gasPlanets = <int, String>{1: 'Jupiter', 2: 'Saturn'};
final containsOne = gasPlanets.keys.contains(1); // true
final containsFive = gasPlanets.keys.contains(5); // false
final containsJupiter = gasPlanets.values.contains('Jupiter'); // true
final containsMercury = gasPlanets.values.contains('Mercury'); // false

Inherited from ListBase.

Implementation

bool contains(Object? element) {
  int length = this.length;
  for (int i = 0; i < length; i++) {
    if (this[i] == element) return true;
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
  return false;
}

elementAt() override

TextTrackCue elementAt(int index)

Returns the indexth element.

The index must be non-negative and less than length. Index zero represents the first element (so iterable.elementAt(0) is equivalent to iterable.first).

May iterate through the elements in iteration order, ignoring the first index elements and then returning the next. Some iterables may have a more efficient way to find the element.

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
final elementAt = numbers.elementAt(4); // 6

Implementation

TextTrackCue elementAt(int index) => this[index];

every() inherited

bool every(bool Function(TextTrackCue element) test)

Checks whether every element of this iterable satisfies test.

Checks every element in iteration order, and returns false if any of them make test return false, otherwise returns true. Returns true if the iterable is empty.

Example:

final planetsByMass = <double, String>{0.06: 'Mercury', 0.81: 'Venus',
  0.11: 'Mars'};
// Checks whether all keys are smaller than 1.
final every = planetsByMass.keys.every((key) => key < 1.0); // true

Inherited from ListBase.

Implementation

bool every(bool test(E element)) {
  int length = this.length;
  for (int i = 0; i < length; i++) {
    if (!test(this[i])) return false;
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
  return true;
}

expand() inherited

Iterable<T> expand<T>(Iterable<T> Function(TextTrackCue element) f)

Expands each element of this Iterable into zero or more elements.

The resulting Iterable runs through the elements returned by toElements for each element of this, in iteration order.

The returned Iterable is lazy, and calls toElements for each element of this iterable every time the returned iterable is iterated.

Example:

Iterable<int> count(int n) sync* {
  for (var i = 1; i <= n; i++) {
    yield i;
   }
 }

var numbers = [1, 3, 0, 2];
print(numbers.expand(count)); // (1, 1, 2, 3, 1, 2)

Equivalent to:

Iterable<T> expand<T>(Iterable<T> toElements(E e)) sync* {
  for (var value in this) {
    yield* toElements(value);
  }
}

Inherited from ListBase.

Implementation

Iterable<T> expand<T>(Iterable<T> f(E element)) =>
    ExpandIterable<E, T>(this, f);

fillRange() inherited

void fillRange(int start, int end, [TextTrackCue? fillValue])

Overwrites a range of elements with fillValue.

Sets the positions greater than or equal to start and less than end, to fillValue.

The provided range, given by start and end, must be valid. A range from start to end is valid if 0 ≤ start ≤ end ≤ length. An empty range (with end == start) is valid.

If the element type is not nullable, the fillValue must be provided and must be non-null.

Example:

final words = List.filled(5, 'old');
print(words); // [old, old, old, old, old]
words.fillRange(1, 3, 'new');
print(words); // [old, new, new, old, old]

Inherited from ImmutableListMixin.

Implementation

void fillRange(int start, int end, [E? fillValue]) {
  throw new UnsupportedError("Cannot modify an immutable List.");
}

firstWhere() inherited

TextTrackCue firstWhere(
  bool Function(TextTrackCue element) test, {
  (TextTrackCue Function())? orElse,
})

The first element that satisfies the given predicate test.

Iterates through elements and returns the first to satisfy test.

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
var result = numbers.firstWhere((element) => element < 5); // 1
result = numbers.firstWhere((element) => element > 5); // 6
result =
    numbers.firstWhere((element) => element > 10, orElse: () => -1); // -1

If no element satisfies test, the result of invoking the orElse function is returned. If orElse is omitted, it defaults to throwing a StateError. Stops iterating on the first matching element.

Inherited from ListBase.

Implementation

E firstWhere(bool test(E element), {E Function()? orElse}) {
  int length = this.length;
  for (int i = 0; i < length; i++) {
    E element = this[i];
    if (test(element)) return element;
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
  if (orElse != null) return orElse();
  throw IterableElementError.noElement();
}

fold() inherited

T fold<T>(
  T initialValue,
  T Function(T previousValue, TextTrackCue element) combine,
)

Reduces a collection to a single value by iteratively combining each element of the collection with an existing value

Uses initialValue as the initial value, then iterates through the elements and updates the value with each element using the combine function, as if by:

var value = initialValue;
for (E element in this) {
  value = combine(value, element);
}
return value;

Example of calculating the sum of an iterable:

final numbers = <double>[10, 2, 5, 0.5];
const initialValue = 100.0;
final result = numbers.fold<double>(
    initialValue, (previousValue, element) => previousValue + element);
print(result); // 117.5

Inherited from ListBase.

Implementation

T fold<T>(T initialValue, T combine(T previousValue, E element)) {
  var value = initialValue;
  int length = this.length;
  for (int i = 0; i < length; i++) {
    value = combine(value, this[i]);
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
  return value;
}

followedBy() inherited

Iterable<TextTrackCue> followedBy(Iterable<TextTrackCue> other)

Creates the lazy concatenation of this iterable and other.

The returned iterable will provide the same elements as this iterable, and, after that, the elements of other, in the same order as in the original iterables.

Example:

var planets = <String>['Earth', 'Jupiter'];
var updated = planets.followedBy(['Mars', 'Venus']);
print(updated); // (Earth, Jupiter, Mars, Venus)

Inherited from ListBase.

Implementation

Iterable<E> followedBy(Iterable<E> other) =>
    FollowedByIterable<E>.firstEfficient(this, other);

forEach() inherited

void forEach(void Function(TextTrackCue cue) action)

Invokes action on each element of this iterable in iteration order.

Example:

final numbers = <int>[1, 2, 6, 7];
numbers.forEach(print);
// 1
// 2
// 6
// 7

Inherited from ListBase.

Implementation

void forEach(void action(E element)) {
  int length = this.length;
  for (int i = 0; i < length; i++) {
    action(this[i]);
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
}

getCueById()

TextTrackCue? getCueById(String id)

Implementation

TextTrackCue? getCueById(String id) native;

getRange() inherited

Iterable<TextTrackCue> getRange(int start, int end)

Creates an Iterable that iterates over a range of elements.

The returned iterable iterates over the elements of this list with positions greater than or equal to start and less than end.

The provided range, start and end, must be valid at the time of the call. A range from start to end is valid if 0 ≤ start ≤ end ≤ length. An empty range (with end == start) is valid.

The returned Iterable behaves like skip(start).take(end - start). That is, it does not break if this list changes size, it just ends early if it reaches the end of the list early (if end, or even start, becomes greater than length).

final colors = <String>['red', 'green', 'blue', 'orange', 'pink'];
final firstRange = colors.getRange(0, 3);
print(firstRange.join(', ')); // red, green, blue

final secondRange = colors.getRange(2, 5);
print(secondRange.join(', ')); // blue, orange, pink

Inherited from ListBase.

Implementation

Iterable<E> getRange(int start, int end) {
  RangeError.checkValidRange(start, end, this.length);
  return SubListIterable<E>(this, start, end);
}

indexOf() inherited

int indexOf(Object? element, [int start = 0])

The first index of element in this list.

Searches the list from index start to the end of the list. The first time an object o is encountered so that o == element, the index of o is returned.

final notes = <String>['do', 're', 'mi', 're'];
print(notes.indexOf('re')); // 1

final indexWithStart = notes.indexOf('re', 2); // 3

Returns -1 if element is not found.

final notes = <String>['do', 're', 'mi', 're'];
final index = notes.indexOf('fa'); // -1

Inherited from ListBase.

Implementation

int indexOf(Object? element, [int start = 0]) {
  if (start < 0) start = 0;
  for (int i = start; i < this.length; i++) {
    if (this[i] == element) return i;
  }
  return -1;
}

indexWhere() inherited

int indexWhere(bool Function(TextTrackCue element) test, [int start = 0])

The first index in the list that satisfies the provided test.

Searches the list from index start to the end of the list. The first time an object o is encountered so that test(o) is true, the index of o is returned.

final notes = <String>['do', 're', 'mi', 're'];
final first = notes.indexWhere((note) => note.startsWith('r')); // 1
final second = notes.indexWhere((note) => note.startsWith('r'), 2); // 3

Returns -1 if element is not found.

final notes = <String>['do', 're', 'mi', 're'];
final index = notes.indexWhere((note) => note.startsWith('k')); // -1

Inherited from ListBase.

Implementation

int indexWhere(bool test(E element), [int start = 0]) {
  if (start < 0) start = 0;
  for (int i = start; i < this.length; i++) {
    if (test(this[i])) return i;
  }
  return -1;
}

insert() inherited

void insert(int index, TextTrackCue element)

Inserts element at position index in this list.

This increases the length of the list by one and shifts all objects at or after the index towards the end of the list.

The list must be growable. The index value must be non-negative and no greater than length.

final numbers = <int>[1, 2, 3, 4];
const index = 2;
numbers.insert(index, 10);
print(numbers); // [1, 2, 10, 3, 4]

Inherited from ImmutableListMixin.

Implementation

void insert(int index, E element) {
  throw new UnsupportedError("Cannot add to immutable List.");
}

insertAll() inherited

void insertAll(int index, Iterable<TextTrackCue> iterable)

Inserts all objects of iterable at position index in this list.

This increases the length of the list by the length of iterable and shifts all later objects towards the end of the list.

The list must be growable. The index value must be non-negative and no greater than length.

final numbers = <int>[1, 2, 3, 4];
final insertItems = [10, 11];
numbers.insertAll(2, insertItems);
print(numbers); // [1, 2, 10, 11, 3, 4]

Inherited from ImmutableListMixin.

Implementation

void insertAll(int index, Iterable<E> iterable) {
  throw new UnsupportedError("Cannot add to immutable List.");
}

join() inherited

String join([String separator = ""])

Converts each element to a String and concatenates the strings.

Iterates through elements of this iterable, converts each one to a String by calling Object.toString, and then concatenates the strings, with the separator string interleaved between the elements.

Example:

final planetsByMass = <double, String>{0.06: 'Mercury', 0.81: 'Venus',
  0.11: 'Mars'};
final joinedNames = planetsByMass.values.join('-'); // Mercury-Venus-Mars

Inherited from ListBase.

Implementation

String join([String separator = ""]) {
  if (length == 0) return "";
  StringBuffer buffer = StringBuffer()..writeAll(this, separator);
  return buffer.toString();
}

lastIndexOf() inherited

int lastIndexOf(Object? element, [int? start])

The last index of element in this list.

Searches the list backwards from index start to 0.

The first time an object o is encountered so that o == element, the index of o is returned.

final notes = <String>['do', 're', 'mi', 're'];
const startIndex = 2;
final index = notes.lastIndexOf('re', startIndex); // 1

If start is not provided, this method searches from the end of the list.

final notes = <String>['do', 're', 'mi', 're'];
final index = notes.lastIndexOf('re'); // 3

Returns -1 if element is not found.

final notes = <String>['do', 're', 'mi', 're'];
final index = notes.lastIndexOf('fa'); // -1

Inherited from ListBase.

Implementation

int lastIndexOf(Object? element, [int? start]) {
  if (start == null || start >= this.length) start = this.length - 1;

  for (int i = start; i >= 0; i--) {
    if (this[i] == element) return i;
  }
  return -1;
}

lastIndexWhere() inherited

int lastIndexWhere(bool Function(TextTrackCue element) test, [int? start])

The last index in the list that satisfies the provided test.

Searches the list from index start to 0. The first time an object o is encountered so that test(o) is true, the index of o is returned. If start is omitted, it defaults to the length of the list.

final notes = <String>['do', 're', 'mi', 're'];
final first = notes.lastIndexWhere((note) => note.startsWith('r')); // 3
final second = notes.lastIndexWhere((note) => note.startsWith('r'),
    2); // 1

Returns -1 if element is not found.

final notes = <String>['do', 're', 'mi', 're'];
final index = notes.lastIndexWhere((note) => note.startsWith('k'));
print(index); // -1

Inherited from ListBase.

Implementation

int lastIndexWhere(bool test(E element), [int? start]) {
  if (start == null || start >= this.length) start = this.length - 1;

  for (int i = start; i >= 0; i--) {
    if (test(this[i])) return i;
  }
  return -1;
}

lastWhere() inherited

TextTrackCue lastWhere(
  bool Function(TextTrackCue element) test, {
  (TextTrackCue Function())? orElse,
})

The last element that satisfies the given predicate test.

An iterable that can access its elements directly may check its elements in any order (for example a list starts by checking the last element and then moves towards the start of the list). The default implementation iterates elements in iteration order, checks test(element) for each, and finally returns that last one that matched.

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
var result = numbers.lastWhere((element) => element < 5); // 3
result = numbers.lastWhere((element) => element > 5); // 7
result = numbers.lastWhere((element) => element > 10,
    orElse: () => -1); // -1

If no element satisfies test, the result of invoking the orElse function is returned. If orElse is omitted, it defaults to throwing a StateError.

Inherited from ListBase.

Implementation

E lastWhere(bool test(E element), {E Function()? orElse}) {
  int length = this.length;
  for (int i = length - 1; i >= 0; i--) {
    E element = this[i];
    if (test(element)) return element;
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
  if (orElse != null) return orElse();
  throw IterableElementError.noElement();
}

map() inherited

Iterable<T> map<T>(T Function(TextTrackCue element) f)

The current elements of this iterable modified by toElement.

Returns a new lazy Iterable with elements that are created by calling toElement on each element of this Iterable in iteration order.

The returned iterable is lazy, so it won't iterate the elements of this iterable until it is itself iterated, and then it will apply toElement to create one element at a time. The converted elements are not cached. Iterating multiple times over the returned Iterable will invoke the supplied toElement function once per element for on each iteration.

Methods on the returned iterable are allowed to omit calling toElement on any element where the result isn't needed. For example, elementAt may call toElement only once.

Equivalent to:

Iterable<T> map<T>(T toElement(E e)) sync* {
  for (var value in this) {
    yield toElement(value);
  }
}

Example:

var products = jsonDecode('''
[
  {"name": "Screwdriver", "price": 42.00},
  {"name": "Wingnut", "price": 0.50}
]
''');
var values = products.map((product) => product['price'] as double);
var totalPrice = values.fold(0.0, (a, b) => a + b); // 42.5.

Inherited from ListBase.

Implementation

Iterable<T> map<T>(T f(E element)) => MappedListIterable<E, T>(this, f);

noSuchMethod() inherited

dynamic noSuchMethod(Invocation invocation)

Invoked when a nonexistent method or property is accessed.

A dynamic member invocation can attempt to call a member which doesn't exist on the receiving object. Example:

dynamic object = 1;
object.add(42); // Statically allowed, run-time error

This invalid code will invoke the noSuchMethod method of the integer 1 with an Invocation representing the .add(42) call and arguments (which then throws).

Classes can override noSuchMethod to provide custom behavior for such invalid dynamic invocations.

A class with a non-default noSuchMethod invocation can also omit implementations for members of its interface. Example:

class MockList<T> implements List<T> {
  noSuchMethod(Invocation invocation) {
    log(invocation);
    super.noSuchMethod(invocation); // Will throw.
  }
}
void main() {
  MockList().add(42);
}

This code has no compile-time warnings or errors even though the MockList class has no concrete implementation of any of the List interface methods. Calls to List methods are forwarded to noSuchMethod, so this code will log an invocation similar to Invocation.method(#add, [42]) and then throw.

If a value is returned from noSuchMethod, it becomes the result of the original invocation. If the value is not of a type that can be returned by the original invocation, a type error occurs at the invocation.

The default behavior is to throw a NoSuchMethodError.

Inherited from Interceptor.

Implementation

dynamic noSuchMethod(Invocation invocation) {
  throw NoSuchMethodError.withInvocation(this, invocation);
}

reduce() inherited

TextTrackCue reduce(
  TextTrackCue Function(TextTrackCue previousValue, TextTrackCue element) combine,
)

Reduces a collection to a single value by iteratively combining elements of the collection using the provided function.

The iterable must have at least one element. If it has only one element, that element is returned.

Otherwise this method starts with the first element from the iterator, and then combines it with the remaining elements in iteration order, as if by:

E value = iterable.first;
iterable.skip(1).forEach((element) {
  value = combine(value, element);
});
return value;

Example of calculating the sum of an iterable:

final numbers = <double>[10, 2, 5, 0.5];
final result = numbers.reduce((value, element) => value + element);
print(result); // 17.5

Consider using fold if the iterable can be empty.

Inherited from ListBase.

Implementation

E reduce(E combine(E previousValue, E element)) {
  int length = this.length;
  if (length == 0) throw IterableElementError.noElement();
  E value = this[0];
  for (int i = 1; i < length; i++) {
    value = combine(value, this[i]);
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
  return value;
}

remove() inherited

bool remove(Object? object)

Removes the first occurrence of value from this list.

Returns true if value was in the list, false otherwise. The list must be growable.

final parts = <String>['head', 'shoulders', 'knees', 'toes'];
final retVal = parts.remove('head'); // true
print(parts); // [shoulders, knees, toes]

The method has no effect if value was not in the list.

final parts = <String>['shoulders', 'knees', 'toes'];
// Note: 'head' has already been removed.
final retVal = parts.remove('head'); // false
print(parts); // [shoulders, knees, toes]

Inherited from ImmutableListMixin.

Implementation

bool remove(Object? object) {
  throw new UnsupportedError("Cannot remove from immutable List.");
}

removeAt() inherited

TextTrackCue removeAt(int pos)

Removes the object at position index from this list.

This method reduces the length of this by one and moves all later objects down by one position.

Returns the removed value.

The index must be in the range 0 ≤ index < length. The list must be growable.

final parts = <String>['head', 'shoulder', 'knees', 'toes'];
final retVal = parts.removeAt(2); // knees
print(parts); // [head, shoulder, toes]

Inherited from ImmutableListMixin.

Implementation

E removeAt(int pos) {
  throw new UnsupportedError("Cannot remove from immutable List.");
}

removeLast() inherited

TextTrackCue removeLast()

Removes and returns the last object in this list.

The list must be growable and non-empty.

final parts = <String>['head', 'shoulder', 'knees', 'toes'];
final retVal = parts.removeLast(); // toes
print(parts); // [head, shoulder, knees]

Inherited from ImmutableListMixin.

Implementation

E removeLast() {
  throw new UnsupportedError("Cannot remove from immutable List.");
}

removeRange() inherited

void removeRange(int start, int end)

Removes a range of elements from the list.

Removes the elements with positions greater than or equal to start and less than end, from the list. This reduces the list's length by end - start.

The provided range, given by start and end, must be valid. A range from start to end is valid if 0 ≤ start ≤ end ≤ length. An empty range (with end == start) is valid.

The list must be growable.

final numbers = <int>[1, 2, 3, 4, 5];
numbers.removeRange(1, 4);
print(numbers); // [1, 5]

Inherited from ImmutableListMixin.

Implementation

void removeRange(int start, int end) {
  throw new UnsupportedError("Cannot removeRange on immutable List.");
}

removeWhere() inherited

void removeWhere(bool Function(TextTrackCue element) test)

Removes all objects from this list that satisfy test.

An object o satisfies test if test(o) is true.

final numbers = <String>['one', 'two', 'three', 'four'];
numbers.removeWhere((item) => item.length == 3);
print(numbers); // [three, four]

The list must be growable.

Inherited from ImmutableListMixin.

Implementation

void removeWhere(bool test(E element)) {
  throw new UnsupportedError("Cannot remove from immutable List.");
}

replaceRange() inherited

void replaceRange(int start, int end, Iterable<TextTrackCue> iterable)

Replaces a range of elements with the elements of replacements.

Removes the objects in the range from start to end, then inserts the elements of replacements at start.

final numbers = <int>[1, 2, 3, 4, 5];
final replacements = [6, 7];
numbers.replaceRange(1, 4, replacements);
print(numbers); // [1, 6, 7, 5]

The provided range, given by start and end, must be valid. A range from start to end is valid if 0 ≤ start ≤ end ≤ length. An empty range (with end == start) is valid.

The operation list.replaceRange(start, end, replacements) is roughly equivalent to:

final numbers = <int>[1, 2, 3, 4, 5];
numbers.removeRange(1, 4);
final replacements = [6, 7];
numbers.insertAll(1, replacements);
print(numbers); // [1, 6, 7, 5]

but may be more efficient.

The list must be growable. This method does not work on fixed-length lists, even when replacements has the same number of elements as the replaced range. In that case use setRange instead.

Inherited from ImmutableListMixin.

Implementation

void replaceRange(int start, int end, Iterable<E> iterable) {
  throw new UnsupportedError("Cannot modify an immutable List.");
}

retainWhere() inherited

void retainWhere(bool Function(TextTrackCue element) test)

Removes all objects from this list that fail to satisfy test.

An object o satisfies test if test(o) is true.

final numbers = <String>['one', 'two', 'three', 'four'];
numbers.retainWhere((item) => item.length == 3);
print(numbers); // [one, two]

The list must be growable.

Inherited from ImmutableListMixin.

Implementation

void retainWhere(bool test(E element)) {
  throw new UnsupportedError("Cannot remove from immutable List.");
}

setAll() inherited

void setAll(int index, Iterable<TextTrackCue> iterable)

Overwrites elements with the objects of iterable.

The elements of iterable are written into this list, starting at position index. This operation does not increase the length of the list.

The index must be non-negative and no greater than length.

The iterable must not have more elements than what can fit from index to length.

If iterable is based on this list, its values may change during the setAll operation.

final list = <String>['a', 'b', 'c', 'd'];
list.setAll(1, ['bee', 'sea']);
print(list); // [a, bee, sea, d]

Inherited from ImmutableListMixin.

Implementation

void setAll(int index, Iterable<E> iterable) {
  throw new UnsupportedError("Cannot modify an immutable List.");
}

setRange() inherited

void setRange(
  int start,
  int end,
  Iterable<TextTrackCue> iterable, [
  int skipCount = 0,
])

Writes some elements of iterable into a range of this list.

Copies the objects of iterable, skipping skipCount objects first, into the range from start, inclusive, to end, exclusive, of this list.

final list1 = <int>[1, 2, 3, 4];
final list2 = <int>[5, 6, 7, 8, 9];
// Copies the 4th and 5th items in list2 as the 2nd and 3rd items
// of list1.
const skipCount = 3;
list1.setRange(1, 3, list2, skipCount);
print(list1); // [1, 8, 9, 4]

The provided range, given by start and end, must be valid. A range from start to end is valid if 0 ≤ start ≤ end ≤ length. An empty range (with end == start) is valid.

The iterable must have enough objects to fill the range from start to end after skipping skipCount objects.

If iterable is this list, the operation correctly copies the elements originally in the range from skipCount to skipCount + (end - start) to the range start to end, even if the two ranges overlap.

If iterable depends on this list in some other way, no guarantees are made.

Inherited from ImmutableListMixin.

Implementation

void setRange(int start, int end, Iterable<E> iterable, [int skipCount = 0]) {
  throw new UnsupportedError("Cannot setRange on immutable List.");
}

shuffle() inherited

void shuffle([Random? random])

Shuffles the elements of this list randomly.

final numbers = <int>[1, 2, 3, 4, 5];
numbers.shuffle();
print(numbers); // [1, 3, 4, 5, 2] OR some other random result.

Inherited from ImmutableListMixin.

Implementation

void shuffle([Random? random]) {
  throw new UnsupportedError("Cannot shuffle immutable List.");
}

singleWhere() inherited

TextTrackCue singleWhere(
  bool Function(TextTrackCue element) test, {
  (TextTrackCue Function())? orElse,
})

The single element that satisfies test.

Checks elements to see if test(element) returns true. If exactly one element satisfies test, that element is returned. If more than one matching element is found, throws StateError. If no matching element is found, returns the result of orElse. If orElse is omitted, it defaults to throwing a StateError.

Example:

final numbers = <int>[2, 2, 10];
var result = numbers.singleWhere((element) => element > 5); // 10

When no matching element is found, the result of calling orElse is returned instead.

result = numbers.singleWhere((element) => element == 1,
    orElse: () => -1); // -1

There must not be more than one matching element.

result = numbers.singleWhere((element) => element == 2); // Throws Error.

Inherited from ListBase.

Implementation

E singleWhere(bool test(E element), {E Function()? orElse}) {
  int length = this.length;
  late E match;
  bool matchFound = false;
  for (int i = 0; i < length; i++) {
    E element = this[i];
    if (test(element)) {
      if (matchFound) {
        throw IterableElementError.tooMany();
      }
      matchFound = true;
      match = element;
    }
    if (length != this.length) {
      throw ConcurrentModificationError(this);
    }
  }
  if (matchFound) return match;
  if (orElse != null) return orElse();
  throw IterableElementError.noElement();
}

skip() inherited

Iterable<TextTrackCue> skip(int count)

Creates an Iterable that provides all but the first count elements.

When the returned iterable is iterated, it starts iterating over this, first skipping past the initial count elements. If this has fewer than count elements, then the resulting Iterable is empty. After that, the remaining elements are iterated in the same order as in this iterable.

Some iterables may be able to find later elements without first iterating through earlier elements, for example when iterating a List. Such iterables are allowed to ignore the initial skipped elements.

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
final result = numbers.skip(4); // (6, 7)
final skipAll = numbers.skip(100); // () - no elements.

The count must not be negative.

Inherited from ListBase.

Implementation

Iterable<E> skip(int count) => SubListIterable<E>(this, count, null);

skipWhile() inherited

Iterable<TextTrackCue> skipWhile(bool Function(TextTrackCue element) test)

Creates an Iterable that skips leading elements while test is satisfied.

The filtering happens lazily. Every new Iterator of the returned iterable iterates over all elements of this.

The returned iterable provides elements by iterating this iterable, but skipping over all initial elements where test(element) returns true. If all elements satisfy test the resulting iterable is empty, otherwise it iterates the remaining elements in their original order, starting with the first element for which test(element) returns false.

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
var result = numbers.skipWhile((x) => x < 5); // (5, 6, 7)
result = numbers.skipWhile((x) => x != 3); // (3, 5, 6, 7)
result = numbers.skipWhile((x) => x != 4); // ()
result = numbers.skipWhile((x) => x.isOdd); // (2, 3, 5, 6, 7)

Inherited from ListBase.

Implementation

Iterable<E> skipWhile(bool test(E element)) {
  return SkipWhileIterable<E>(this, test);
}

sort() inherited

void sort([(int Function(TextTrackCue a, TextTrackCue b))? compare])

Sorts this list according to the order specified by the compare function.

The compare function must act as a Comparator.

final numbers = <String>['two', 'three', 'four'];
// Sort from shortest to longest.
numbers.sort((a, b) => a.length.compareTo(b.length));
print(numbers); // [two, four, three]

The default List implementations use Comparable.compare if compare is omitted.

final numbers = <int>[13, 2, -11, 0];
numbers.sort();
print(numbers); // [-11, 0, 2, 13]

In that case, the elements of the list must be Comparable to each other.

A Comparator may compare objects as equal (return zero), even if they are distinct objects. The sort function is not guaranteed to be stable, so distinct objects that compare as equal may occur in any order in the result:

final numbers = <String>['one', 'two', 'three', 'four'];
numbers.sort((a, b) => a.length.compareTo(b.length));
print(numbers); // [one, two, four, three] OR [two, one, four, three]

Inherited from ImmutableListMixin.

Implementation

void sort([int compare(E a, E b)?]) {
  throw new UnsupportedError("Cannot sort immutable List.");
}

sublist() inherited

List<TextTrackCue> sublist(int start, [int? end])

Returns a new list containing the elements between start and end.

The new list is a List<E> containing the elements of this list at positions greater than or equal to start and less than end in the same order as they occur in this list.

final colors = <String>['red', 'green', 'blue', 'orange', 'pink'];
print(colors.sublist(1, 3)); // [green, blue]

If end is omitted, it defaults to the length of this list.

final colors = <String>['red', 'green', 'blue', 'orange', 'pink'];
print(colors.sublist(3)); // [orange, pink]

The start and end positions must satisfy the relations 0 ≤ start ≤ end ≤ length. If end is equal to start, then the returned list is empty.

Inherited from ListBase.

Implementation

List<E> sublist(int start, [int? end]) {
  int listLength = this.length;
  end ??= listLength;

  RangeError.checkValidRange(start, end, listLength);
  return List.of(getRange(start, end));
}

take() inherited

Iterable<TextTrackCue> take(int count)

Creates a lazy iterable of the count first elements of this iterable.

The returned Iterable may contain fewer than count elements, if this contains fewer than count elements.

The elements can be computed by stepping through iterator until count elements have been seen.

The count must not be negative.

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
final result = numbers.take(4); // (1, 2, 3, 5)
final takeAll = numbers.take(100); // (1, 2, 3, 5, 6, 7)

Inherited from ListBase.

Implementation

Iterable<E> take(int count) =>
    SubListIterable<E>(this, 0, checkNotNullable(count, "count"));

takeWhile() inherited

Iterable<TextTrackCue> takeWhile(bool Function(TextTrackCue element) test)

Creates a lazy iterable of the leading elements satisfying test.

The filtering happens lazily. Every new iterator of the returned iterable starts iterating over the elements of this.

The elements can be computed by stepping through iterator until an element is found where test(element) is false. At that point, the returned iterable stops (its moveNext() returns false).

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
var result = numbers.takeWhile((x) => x < 5); // (1, 2, 3)
result = numbers.takeWhile((x) => x != 3); // (1, 2)
result = numbers.takeWhile((x) => x != 4); // (1, 2, 3, 5, 6, 7)
result = numbers.takeWhile((x) => x.isOdd); // (1)

Inherited from ListBase.

Implementation

Iterable<E> takeWhile(bool test(E element)) {
  return TakeWhileIterable<E>(this, test);
}

toList() inherited

List<TextTrackCue> toList({bool growable = true})

Creates a List containing the elements of this Iterable.

The elements are in iteration order. The list is fixed-length if growable is false.

Example:

final planets = <int, String>{1: 'Mercury', 2: 'Venus', 3: 'Mars'};
final keysList = planets.keys.toList(growable: false); // [1, 2, 3]
final valuesList =
    planets.values.toList(growable: false); // [Mercury, Venus, Mars]

Inherited from ListBase.

Implementation

List<E> toList({bool growable = true}) {
  if (this.isEmpty) return List<E>.empty(growable: growable);
  var first = this[0];
  var result = List<E>.filled(this.length, first, growable: growable);
  for (int i = 1; i < this.length; i++) {
    result[i] = this[i];
  }
  return result;
}

toSet() inherited

Set<TextTrackCue> toSet()

Creates a Set containing the same elements as this iterable.

The set may contain fewer elements than the iterable, if the iterable contains an element more than once, or it contains one or more elements that are equal. The order of the elements in the set is not guaranteed to be the same as for the iterable.

Example:

final planets = <int, String>{1: 'Mercury', 2: 'Venus', 3: 'Mars'};
final valueSet = planets.values.toSet(); // {Mercury, Venus, Mars}

Inherited from ListBase.

Implementation

Set<E> toSet() {
  Set<E> result = Set<E>();
  for (int i = 0; i < length; i++) {
    result.add(this[i]);
  }
  return result;
}

toString() inherited

String toString()

A string representation of this object.

Some classes have a default textual representation, often paired with a static parse function (like int.parse). These classes will provide the textual representation as their string representation.

Other classes have no meaningful textual representation that a program will care about. Such classes will typically override toString to provide useful information when inspecting the object, mainly for debugging or logging.

Inherited from ListBase.

Implementation

String toString() => listToString(this);

where() inherited

Iterable<TextTrackCue> where(bool Function(TextTrackCue element) test)

Creates a new lazy Iterable with all elements that satisfy the predicate test.

The matching elements have the same order in the returned iterable as they have in iterator.

This method returns a view of the mapped elements. As long as the returned Iterable is not iterated over, the supplied function test will not be invoked. Iterating will not cache results, and thus iterating multiple times over the returned Iterable may invoke the supplied function test multiple times on the same element.

Example:

final numbers = <int>[1, 2, 3, 5, 6, 7];
var result = numbers.where((x) => x < 5); // (1, 2, 3)
result = numbers.where((x) => x > 5); // (6, 7)
result = numbers.where((x) => x.isEven); // (2, 6)

Inherited from ListBase.

Implementation

Iterable<E> where(bool test(E element)) => WhereIterable<E>(this, test);

whereType() inherited

Iterable<T> whereType<T>()

Creates a new lazy Iterable with all elements that have type T.

The matching elements have the same order in the returned iterable as they have in iterator.

This method returns a view of the mapped elements. Iterating will not cache results, and thus iterating multiple times over the returned Iterable may yield different results, if the underlying elements change between iterations.

Inherited from ListBase.

Implementation

Iterable<T> whereType<T>() => WhereTypeIterable<T>(this);

Operators

operator +() inherited

List<TextTrackCue> operator +(List<TextTrackCue> other)

Returns the concatenation of this list and other.

Returns a new list containing the elements of this list followed by the elements of other.

The default behavior is to return a normal growable list. Some list types may choose to return a list of the same type as themselves (see Uint8List.+);

Inherited from ListBase.

Implementation

List<E> operator +(List<E> other) => [...this, ...other];

operator ==() inherited

bool operator ==(Object other)

The equality operator.

The default behavior for all Objects is to return true if and only if this object and other are the same object.

Override this method to specify a different equality relation on a class. The overriding method must still be an equivalence relation. That is, it must be:

• Total: It must return a boolean for all arguments. It should never throw.

• Reflexive: For all objects o, o == o must be true.

• Symmetric: For all objects o1 and o2, o1 == o2 and o2 == o1 must either both be true, or both be false.

• Transitive: For all objects o1, o2, and o3, if o1 == o2 and o2 == o3 are true, then o1 == o3 must be true.

The method should also be consistent over time, so whether two objects are equal should only change if at least one of the objects was modified.

If a subclass overrides the equality operator, it should override the hashCode method as well to maintain consistency.

Inherited from Interceptor.

Implementation

bool operator ==(Object other) => identical(this, other);

operator override

TextTrackCue operator [](int index)

The object at the given index in the list.

The index must be a valid index of this list, which means that index must be non-negative and less than length.

Implementation

TextTrackCue operator [](int index) {
  if (JS("bool", "# >>> 0 !== # || # >= #", index, index, index, length))
    throw new IndexError.withLength(index, length, indexable: this);
  return JS("TextTrackCue", "#[#]", this, index);
}

operator []=() override

void operator []=(int index, TextTrackCue value)

Sets the value at the given index in the list to value.

The index must be a valid index of this list, which means that index must be non-negative and less than length.

Implementation

void operator []=(int index, TextTrackCue value) {
  throw new UnsupportedError("Cannot assign element of immutable List.");
}