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dart / sdk.git / ff14388f76bac087c11c4ad4ab42905b0c92b13f / . / runtime / lib / byte_array.dart
blob: 7eb126a2afe49d35e8033bb4a054b18510e414cf [file] [log] [blame]
// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
patch class Int8List {
/* patch */ factory Int8List(int length) {
return new _Int8Array(length);
}
/* patch */ factory Int8List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Int8List.view(ByteArray array,
[int start = 0, int length]) {
return new _Int8ArrayView(array, start, length);
}
static _ExternalInt8Array _newTransferable(int length)
native "Int8List_newTransferable";
}
patch class Uint8List {
/* patch */ factory Uint8List(int length) {
return new _Uint8Array(length);
}
/* patch */ factory Uint8List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Uint8List.view(ByteArray array,
[int start = 0, int length]) {
return new _Uint8ArrayView(array, start, length);
}
static _ExternalUint8Array _newTransferable(int length)
native "Uint8List_newTransferable";
}
patch class Uint8ClampedList {
/* patch */ factory Uint8ClampedList(int length) {
return new _Uint8ClampedArray(length);
}
/* patch */ factory Uint8ClampedList.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Uint8ClampedList.view(ByteArray array,
[int start = 0, int length]) {
return new _Uint8ClampedArrayView(array, start, length);
}
static _ExternalUint8ClampedArray _newTransferable(int length)
native "Uint8ClampedList_newTransferable";
}
patch class Int16List {
/* patch */ factory Int16List(int length) {
return new _Int16Array(length);
}
/* patch */ factory Int16List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Int16List.view(ByteArray array,
[int start = 0, int length]) {
return new _Int16ArrayView(array, start, length);
}
static _ExternalInt16Array _newTransferable(int length)
native "Int16List_newTransferable";
}
patch class Uint16List {
/* patch */ factory Uint16List(int length) {
return new _Uint16Array(length);
}
/* patch */ factory Uint16List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Uint16List.view(ByteArray array,
[int start = 0, int length]) {
return new _Uint16ArrayView(array, start, length);
}
static _ExternalUint16Array _newTransferable(int length)
native "Uint16List_newTransferable";
}
patch class Int32List {
/* patch */ factory Int32List(int length) {
return new _Int32Array(length);
}
/* patch */ factory Int32List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Int32List.view(ByteArray array,
[int start = 0, int length]) {
return new _Int32ArrayView(array, start, length);
}
static _ExternalInt32Array _newTransferable(int length)
native "Int32List_newTransferable";
}
patch class Uint32List {
/* patch */ factory Uint32List(int length) {
return new _Uint32Array(length);
}
/* patch */ factory Uint32List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Uint32List.view(ByteArray array,
[int start = 0, int length]) {
return new _Uint32ArrayView(array, start, length);
}
static _ExternalUint32Array _newTransferable(int length)
native "Uint32List_newTransferable";
}
patch class Int64List {
/* patch */ factory Int64List(int length) {
return new _Int64Array(length);
}
/* patch */ factory Int64List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Int64List.view(ByteArray array,
[int start = 0, int length]) {
return new _Int64ArrayView(array, start, length);
}
static _ExternalInt64Array _newTransferable(int length)
native "Int64List_newTransferable";
}
patch class Uint64List {
/* patch */ factory Uint64List(int length) {
return new _Uint64Array(length);
}
/* patch */ factory Uint64List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Uint64List.view(ByteArray array,
[int start = 0, int length]) {
return new _Uint64ArrayView(array, start, length);
}
static _ExternalUint64Array _newTransferable(int length)
native "Uint64List_newTransferable";
}
patch class Float32List {
/* patch */ factory Float32List(int length) {
return new _Float32Array(length);
}
/* patch */ factory Float32List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Float32List.view(ByteArray array,
[int start = 0, int length]) {
return new _Float32ArrayView(array, start, length);
}
static _ExternalFloat32Array _newTransferable(int length)
native "Float32List_newTransferable";
}
patch class Float64List {
/* patch */ factory Float64List(int length) {
return new _Float64Array(length);
}
/* patch */ factory Float64List.transferable(int length) {
return _newTransferable(length);
}
/* patch */ factory Float64List.view(ByteArray array,
[int start = 0, int length]) {
return new _Float64ArrayView(array, start, length);
}
static _ExternalFloat64Array _newTransferable(int length)
native "Float64List_newTransferable";
}
abstract class _ByteArrayBase {
int lengthInBytes();
int bytesPerElement();
operator[](int index);
// Methods implementing the Collection interface.
bool contains(element) => IterableMixinWorkaround.contains(this, element);
void forEach(void f(element)) {
var len = this.length;
for (var i = 0; i < len; i++) {
f(this[i]);
}
}
Iterable map(f(int element)) {
return IterableMixinWorkaround.mapList(this, f);
}
String join([String separator]) {
return IterableMixinWorkaround.join(this, separator);
}
dynamic reduce(dynamic initialValue,
dynamic combine(dynamic initialValue, element)) {
return IterableMixinWorkaround.reduce(this, initialValue, combine);
}
Collection where(bool f(int element)) {
return IterableMixinWorkaround.where(this, f);
}
Iterable expand(Iterable f(int element)) {
return IterableMixinWorkaround.expand(this, f);
}
Iterable<int> take(int n) {
return IterableMixinWorkaround.takeList(this, n);
}
Iterable<int> takeWhile(bool test(int value)) {
return IterableMixinWorkaround.takeWhile(this, test);
}
Iterable<int> skip(int n) {
return IterableMixinWorkaround.skipList(this, n);
}
Iterable<int> skipWhile(bool test(int value)) {
return IterableMixinWorkaround.skipWhile(this, test);
}
bool every(bool f(element)) {
return IterableMixinWorkaround.every(this, f);
}
bool any(bool f(element)) {
return IterableMixinWorkaround.any(this, f);
}
int firstMatching(bool test(int value), {int orElse()}) {
return IterableMixinWorkaround.firstMatching(this, test, orElse);
}
int lastMatching(bool test(int value), {int orElse()}) {
return IterableMixinWorkaround.lastMatchingInList(this, test, orElse);
}
int singleMatching(bool test(int value)) {
return IterableMixinWorkaround.singleMatching(this, test);
}
int elementAt(int index) {
return this[index];
}
bool get isEmpty {
return this.length == 0;
}
int get length {
return _length();
}
// Methods implementing the List interface.
set length(newLength) {
throw new UnsupportedError(
"Cannot resize a non-extendable array");
}
void add(value) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
void addLast(value) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
void addAll(Iterable value) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
void sort([int compare(var a, var b)]) {
return IterableMixinWorkaround.sortList(this, compare);
}
int indexOf(element, [int start = 0]) {
return Arrays.indexOf(this, element, start, this.length);
}
int lastIndexOf(element, [int start = null]) {
if (start == null) start = length - 1;
return Arrays.lastIndexOf(this, element, start);
}
void clear() {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
int removeLast() {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void remove(Object element) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void removeAll(Iterable elements) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void retainAll(Iterable elements) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void removeMatching(bool test(int element)) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void retainMatching(bool test(int element)) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
int get first {
if (length > 0) return this[0];
throw new StateError("No elements");
}
int get last {
if (length > 0) return this[length - 1];
throw new StateError("No elements");
}
int get single {
if (length == 1) return this[0];
if (length == 0) throw new StateError("No elements");
throw new StateError("More than one element");
}
int min([int compare(int a, int b)]) => IterableMixinWorkaround.min(this, compare);
int max([int compare(int a, int b)]) => IterableMixinWorkaround.max(this, compare);
void removeRange(int start, int length) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void insertRange(int start, int length, [initialValue]) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.length;
}
_rangeCheck(this.length, start, length);
return new _ByteArrayView(this,
start * this.bytesPerElement(),
length * this.bytesPerElement());
}
List<int> toList() {
return new List<int>.from(this);
}
Set<int> toSet() {
return new Set<int>.from(this);
}
int _length() native "ByteArray_getLength";
void _setRange(int startInBytes, int lengthInBytes,
_ByteArrayBase from, int startFromInBytes)
native "ByteArray_setRange";
int _getInt8(int byteOffset) native "ByteArray_getInt8";
int _setInt8(int byteOffset, int value) native "ByteArray_setInt8";
int _getUint8(int byteOffset) native "ByteArray_getUint8";
int _setUint8(int byteOffset, int value) native "ByteArray_setUint8";
int _getInt16(int byteOffset) native "ByteArray_getInt16";
int _setInt16(int byteOffset, int value) native "ByteArray_setInt16";
int _getUint16(int byteOffset) native "ByteArray_getUint16";
int _setUint16(int byteOffset, int value) native "ByteArray_setUint16";
int _getInt32(int byteOffset) native "ByteArray_getInt32";
int _setInt32(int byteOffset, int value) native "ByteArray_setInt32";
int _getUint32(int byteOffset) native "ByteArray_getUint32";
int _setUint32(int byteOffset, int value) native "ByteArray_setUint32";
int _getInt64(int byteOffset) native "ByteArray_getInt64";
int _setInt64(int byteOffset, int value) native "ByteArray_setInt64";
int _getUint64(int byteOffset) native "ByteArray_getUint64";
int _setUint64(int byteOffset, int value) native "ByteArray_setUint64";
double _getFloat32(int byteOffset) native "ByteArray_getFloat32";
int _setFloat32(int byteOffset, double value) native "ByteArray_setFloat32";
double _getFloat64(int byteOffset) native "ByteArray_getFloat64";
int _setFloat64(int byteOffset, double value) native "ByteArray_setFloat64";
}
int _toInt(int value, int mask) {
value &= mask;
if (value > (mask >> 1)) value -= mask + 1;
return value;
}
int _toInt8(int value) {
return _toInt(value, 0xFF);
}
int _toUint8(int value) {
return value & 0xFF;
}
int _toClampedUint8(int value) {
if (value < 0) return 0;
if (value > 0xFF) return 0xFF;
return value;
}
int _toInt16(int value) {
return _toInt(value, 0xFFFF);
}
int _toUint16(int value) {
return value & 0xFFFF;
}
int _toInt32(int value) {
return _toInt(value, 0xFFFFFFFF);
}
int _toUint32(int value) {
return value & 0xFFFFFFFF;
}
int _toInt64(int value) {
return _toInt(value, 0xFFFFFFFFFFFFFFFF);
}
int _toUint64(int value) {
return value & 0xFFFFFFFFFFFFFFFF;
}
void _rangeCheck(int listLength, int start, int length) {
if (length < 0) {
throw new RangeError.value(length);
}
if (start < 0) {
throw new RangeError.value(start);
}
if (start + length > listLength) {
throw new RangeError.value(start + length);
}
}
int _requireInteger(object) {
if (object is int) {
return object;
}
throw new ArgumentError("$object is not an integer");
}
int _requireIntegerOrNull(object, value) {
if (object is int) {
return object;
}
if (object == null) {
return _requireInteger(value);
}
throw new ArgumentError("$object is not an integer or null");
}
class _Int8Array extends _ByteArrayBase implements Int8List {
factory _Int8Array(int length) {
return _new(length);
}
factory _Int8Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = array.lengthInBytes();
}
return new _Int8ArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toInt8(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Int8Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 1;
static _Int8Array _new(int length) native "Int8Array_new";
int _getIndexed(int index) native "Int8Array_getIndexed";
int _setIndexed(int index, int value) native "Int8Array_setIndexed";
}
class _Uint8Array extends _ByteArrayBase implements Uint8List {
factory _Uint8Array(int length) {
return _new(length);
}
factory _Uint8Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = array.lengthInBytes();
}
return new _Uint8ArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toUint8(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Uint8Array || from is _ExternalUint8Array ||
from is _Uint8ClampedArray || from is _ExternalUint8ClampedArray) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 1;
static _Uint8Array _new(int length) native "Uint8Array_new";
int _getIndexed(int index) native "Uint8Array_getIndexed";
int _setIndexed(int index, int value) native "Uint8Array_setIndexed";
}
class _Uint8ClampedArray extends _ByteArrayBase implements Uint8ClampedList {
factory _Uint8ClampedArray(int length) {
return _new(length);
}
factory _Uint8ClampedArray.view(ByteArray array,
[int start = 0, int length]) {
if (length == null) {
length = array.lengthInBytes();
}
return new _Uint8ClampedArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toClampedUint8(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Uint8Array || from is _ExternalUint8Array ||
from is _Uint8ClampedArray || from is _ExternalUint8ClampedArray) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 1;
static _Uint8ClampedArray _new(int length) native "Uint8ClampedArray_new";
int _getIndexed(int index) native "Uint8ClampedArray_getIndexed";
int _setIndexed(int index, int value) native "Uint8ClampedArray_setIndexed";
}
class _Int16Array extends _ByteArrayBase implements Int16List {
factory _Int16Array(int length) {
return _new(length);
}
factory _Int16Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = (array.lengthInBytes() - start) ~/ _BYTES_PER_ELEMENT;
}
return new _Int16ArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toInt16(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Int16Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 2;
static _Int16Array _new(int length) native "Int16Array_new";
int _getIndexed(int index) native "Int16Array_getIndexed";
int _setIndexed(int index, int value) native "Int16Array_setIndexed";
}
class _Uint16Array extends _ByteArrayBase implements Uint16List {
factory _Uint16Array(int length) {
return _new(length);
}
factory _Uint16Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = (array.lengthInBytes() - start) ~/ _BYTES_PER_ELEMENT;
}
return new _Uint16ArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toUint16(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Uint16Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 2;
static _Uint16Array _new(int length) native "Uint16Array_new";
int _getIndexed(int index) native "Uint16Array_getIndexed";
int _setIndexed(int index, int value) native "Uint16Array_setIndexed";
}
class _Int32Array extends _ByteArrayBase implements Int32List {
factory _Int32Array(int length) {
return _new(length);
}
factory _Int32Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = (array.lengthInBytes() - start) ~/ _BYTES_PER_ELEMENT;
}
return new _Int32ArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toInt32(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Int32Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 4;
static _Int32Array _new(int length) native "Int32Array_new";
int _getIndexed(int index) native "Int32Array_getIndexed";
int _setIndexed(int index, int value) native "Int32Array_setIndexed";
}
class _Uint32Array extends _ByteArrayBase implements Uint32List {
factory _Uint32Array(int length) {
return _new(length);
}
factory _Uint32Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = (array.lengthInBytes() - start) ~/ _BYTES_PER_ELEMENT;
}
return new _Uint32ArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toUint32(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Uint32Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 4;
static _Uint32Array _new(int length) native "Uint32Array_new";
int _getIndexed(int index) native "Uint32Array_getIndexed";
int _setIndexed(int index, int value) native "Uint32Array_setIndexed";
}
class _Int64Array extends _ByteArrayBase implements Int64List {
factory _Int64Array(int length) {
return _new(length);
}
factory _Int64Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = (array.lengthInBytes() - start) ~/ _BYTES_PER_ELEMENT;
}
return new _Int64ArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toInt64(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Int64Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 8;
static _Int64Array _new(int length) native "Int64Array_new";
int _getIndexed(int index) native "Int64Array_getIndexed";
int _setIndexed(int index, int value) native "Int64Array_setIndexed";
}
class _Uint64Array extends _ByteArrayBase implements Uint64List {
factory _Uint64Array(int length) {
return _new(length);
}
factory _Uint64Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = (array.lengthInBytes() - start) ~/ _BYTES_PER_ELEMENT;
}
return new _Uint64ArrayView(array, start, length);
}
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toUint64(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _Uint64Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 8;
static _Uint64Array _new(int length) native "Uint64Array_new";
int _getIndexed(int index) native "Uint64Array_getIndexed";
int _setIndexed(int index, int value) native "Uint64Array_setIndexed";
}
class _Float32Array extends _ByteArrayBase implements Float32List {
factory _Float32Array(int length) {
return _new(length);
}
factory _Float32Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = (array.lengthInBytes() - start) ~/ _BYTES_PER_ELEMENT;
}
return new _Float32ArrayView(array, start, length);
}
double operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, double value) {
_setIndexed(index, value);
}
Iterator<double> get iterator {
return new _ByteArrayIterator<double>(this);
}
List<double> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<double> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<double> from, [int startFrom = 0]) {
if (from is _Float32Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 4;
static _Float32Array _new(int length) native "Float32Array_new";
double _getIndexed(int index) native "Float32Array_getIndexed";
int _setIndexed(int index, double value) native "Float32Array_setIndexed";
}
class _Float64Array extends _ByteArrayBase implements Float64List {
factory _Float64Array(int length) {
return _new(length);
}
factory _Float64Array.view(ByteArray array, [int start = 0, int length]) {
if (length == null) {
length = (array.lengthInBytes() - start) ~/ _BYTES_PER_ELEMENT;
}
return new _Float64ArrayView(array, start, length);
}
double operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, double value) {
_setIndexed(index, value);
}
Iterator<double> get iterator {
return new _ByteArrayIterator<double>(this);
}
List<double> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<double> result = _new(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<double> from, [int startFrom = 0]) {
if (from is _Float64Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 8;
static _Float64Array _new(int length) native "Float64Array_new";
double _getIndexed(int index) native "Float64Array_getIndexed";
int _setIndexed(int index, double value) native "Float64Array_setIndexed";
}
class _ExternalInt8Array extends _ByteArrayBase implements Int8List {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toInt8(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Int8List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalInt8Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 1;
int _getIndexed(int index) native "ExternalInt8Array_getIndexed";
int _setIndexed(int index, int value) native "ExternalInt8Array_setIndexed";
}
class _ExternalUint8Array extends _ByteArrayBase implements Uint8List {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toUint8(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint8List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalUint8Array || from is _Uint8Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 1;
int _getIndexed(int index) native "ExternalUint8Array_getIndexed";
int _setIndexed(int index, int value) native "ExternalUint8Array_setIndexed";
}
class _ExternalUint8ClampedArray
extends _ByteArrayBase implements Uint8ClampedList {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toClampedUint8(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint8ClampedList(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalUint8ClampedArray || from is _Uint8ClampedArray) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 1;
int _getIndexed(int index) native "ExternalUint8ClampedArray_getIndexed";
int _setIndexed(int index, int value) native "ExternalUint8ClampedArray_setIndexed";
}
class _ExternalInt16Array extends _ByteArrayBase implements Int16List {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toInt16(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Int16List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalInt16Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 2;
int _getIndexed(int index) native "ExternalInt16Array_getIndexed";
int _setIndexed(int index, int value) native "ExternalInt16Array_setIndexed";
}
class _ExternalUint16Array extends _ByteArrayBase implements Uint16List {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toUint16(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint16List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalUint16Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 2;
int _getIndexed(int index)
native "ExternalUint16Array_getIndexed";
int _setIndexed(int index, int value)
native "ExternalUint16Array_setIndexed";
}
class _ExternalInt32Array extends _ByteArrayBase implements Int32List {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toInt32(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Int32List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalInt32Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 4;
int _getIndexed(int index)
native "ExternalInt32Array_getIndexed";
int _setIndexed(int index, int value)
native "ExternalInt32Array_setIndexed";
}
class _ExternalUint32Array extends _ByteArrayBase implements Uint32List {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toUint32(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint32List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalUint32Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 4;
int _getIndexed(int index)
native "ExternalUint32Array_getIndexed";
int _setIndexed(int index, int value)
native "ExternalUint32Array_setIndexed";
}
class _ExternalInt64Array extends _ByteArrayBase implements Int64List {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toInt64(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Int64List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalInt64Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 8;
int _getIndexed(int index)
native "ExternalInt64Array_getIndexed";
int _setIndexed(int index, int value)
native "ExternalInt64Array_setIndexed";
}
class _ExternalUint64Array extends _ByteArrayBase implements Uint64List {
int operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, int value) {
_setIndexed(index, _toUint64(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint64List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
if (from is _ExternalUint64Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 8;
int _getIndexed(int index)
native "ExternalUint64Array_getIndexed";
int _setIndexed(int index, int value)
native "ExternalUint64Array_setIndexed";
}
class _ExternalFloat32Array extends _ByteArrayBase implements Float32List {
double operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, double value) {
_setIndexed(index, value);
}
Iterator<double> get iterator {
return new _ByteArrayIterator<double>(this);
}
List<double> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<double> result = new Float32List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<double> from, [int startFrom = 0]) {
if (from is _ExternalFloat32Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 4;
double _getIndexed(int index)
native "ExternalFloat32Array_getIndexed";
int _setIndexed(int index, double value)
native "ExternalFloat32Array_setIndexed";
}
class _ExternalFloat64Array extends _ByteArrayBase implements Float64List {
double operator[](int index) {
return _getIndexed(index);
}
int operator[]=(int index, double value) {
_setIndexed(index, value);
}
Iterator<double> get iterator {
return new _ByteArrayIterator<double>(this);
}
List<double> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<double> result = new Float64List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<double> from, [int startFrom = 0]) {
if (from is _ExternalFloat64Array) {
_setRange(start * _BYTES_PER_ELEMENT,
length * _BYTES_PER_ELEMENT,
from,
startFrom * _BYTES_PER_ELEMENT);
} else {
Arrays.copy(from, startFrom, this, start, length);
}
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return _length() * _BYTES_PER_ELEMENT;
}
static const int _BYTES_PER_ELEMENT = 8;
double _getIndexed(int index)
native "ExternalFloat64Array_getIndexed";
int _setIndexed(int index, double value)
native "ExternalFloat64Array_setIndexed";
}
class _ByteArrayIterator<E> implements Iterator<E> {
final List<E> _array;
final int _length;
int _position;
E _current;
_ByteArrayIterator(List array)
: _array = array, _length = array.length, _position = -1 {
assert(array is _ByteArrayBase || array is _ByteArrayViewBase);
}
bool moveNext() {
int nextPosition = _position + 1;
if (nextPosition < _length) {
_current = _array[nextPosition];
_position = nextPosition;
return true;
}
_position = _length;
_current = null;
return false;
}
E get current => _current;
}
class _ByteArrayView implements ByteArray {
_ByteArrayView(this._array, this._offset, this._length) {
_rangeCheck(_array.lengthInBytes(), _offset, _length);
}
int lengthInBytes() {
return _length;
}
ByteArray subByteArray([int start = 0, int length]) {
if (start is! int) throw new ArgumentError("start is not an int");
if (length == null) {
length = this.lengthInBytes() - start;
} else if (length is! int) {
throw new ArgumentError("length is not an int");
}
return new _ByteArrayView(_array, _offset + start, length);
}
int getInt8(int byteOffset) {
return _array._getInt8(_offset + byteOffset);
}
int setInt8(int byteOffset, int value) {
return _array._setInt8(_offset + byteOffset, value);
}
int getUint8(int byteOffset) {
return _array._getUint8(_offset + byteOffset);
}
int setUint8(int byteOffset, int value) {
return _array._setUint8(_offset + byteOffset, value);
}
int getInt16(int byteOffset) {
return _array._getInt16(_offset + byteOffset);
}
int setInt16(int byteOffset, int value) {
return _array._setInt16(_offset + byteOffset, value);
}
int getUint16(int byteOffset) {
return _array._getUint16(_offset + byteOffset);
}
int setUint16(int byteOffset, int value) {
return _array._setUint16(_offset + byteOffset, value);
}
int getInt32(int byteOffset) {
return _array._getInt32(_offset + byteOffset);
}
int setInt32(int byteOffset, int value) {
return _array._setInt32(_offset + byteOffset, value);
}
int getUint32(int byteOffset) {
return _array._getUint32(_offset + byteOffset);
}
int setUint32(int byteOffset, int value) {
return _array._setUint32(_offset + byteOffset, value);
}
int getInt64(int byteOffset) {
return _array._getInt64(_offset + byteOffset);
}
int setInt64(int byteOffset, int value) {
return _array._setInt64(_offset + byteOffset, value);
}
int getUint64(int byteOffset) {
return _array._getUint64(_offset + byteOffset);
}
int setUint64(int byteOffset, int value) {
return _array._setUint64(_offset + byteOffset, value);
}
double getFloat32(int byteOffset) {
return _array._getFloat32(_offset + byteOffset);
}
int setFloat32(int byteOffset, double value) {
return _array._setFloat32(_offset + byteOffset, value);
}
double getFloat64(int byteOffset) {
return _array._getFloat64(_offset + byteOffset);
}
int setFloat64(int byteOffset, double value) {
return _array._setFloat64(_offset + byteOffset, value);
}
final _ByteArrayBase _array;
final int _offset;
final int _length;
}
// TODO(floitsch): extending the collection adds extra cost (because of type
// parameters). Consider copying the functions from Collection into this class
// and just implementing Collection<int>.
class _ByteArrayViewBase extends Collection<int> {
_ByteArrayViewBase(this._array, this._offset, this.length);
num operator[](int index);
// Methods implementing the Collection interface.
void forEach(void f(element)) {
var len = this.length;
for (var i = 0; i < len; i++) {
f(this[i]);
}
}
bool get isEmpty {
return this.length == 0;
}
// Methods implementing the List interface.
set length(newLength) {
throw new UnsupportedError(
"Cannot resize a non-extendable array");
}
void add(value) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
void addLast(value) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
void addAll(Iterable value) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
void sort([int compare(var a, var b)]) {
return IterableMixinWorkaround.sortList(this, compare);
}
int indexOf(element, [int start = 0]) {
return Arrays.indexOf(this, element, start, this.length);
}
int lastIndexOf(element, [int start = null]) {
if (start == null) start = length - 1;
return Arrays.lastIndexOf(this, element, start);
}
void clear() {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
int removeLast() {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
int removeAt(int index) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void remove(Object element) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void removeAll(Iterable elements) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void retainAll(Iterable elements) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void removeMatching(bool test(int element)) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void retainMatching(bool test(int element)) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
int get first {
if (length > 0) return this[0];
throw new StateError("No elements");
}
int get last {
if (length > 0) return this[length - 1];
throw new StateError("No elements");
}
int get single {
if (length == 1) return this[0];
if (length == 0) throw new StateError("No elements");
throw new StateError("More than one element");
}
void removeRange(int start, int length) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void insertRange(int start, int length, [initialValue]) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
final ByteArray _array;
final int _offset;
final int length;
}
class _Int8ArrayView extends _ByteArrayViewBase implements Int8List {
_Int8ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
int operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getInt8(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setInt8(_offset + (index * _BYTES_PER_ELEMENT), _toInt8(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Int8List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 1;
}
class _Uint8ArrayView extends _ByteArrayViewBase implements Uint8List {
_Uint8ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
int operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getUint8(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setUint8(_offset + (index * _BYTES_PER_ELEMENT), _toUint8(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint8List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 1;
}
class _Int16ArrayView extends _ByteArrayViewBase implements Int16List {
_Int16ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
int operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getInt16(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setInt16(_offset + (index * _BYTES_PER_ELEMENT), _toInt16(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Int16List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 2;
}
class _Uint16ArrayView extends _ByteArrayViewBase implements Uint16List {
_Uint16ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
int operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getUint16(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setUint16(_offset + (index * _BYTES_PER_ELEMENT), _toUint16(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint16List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 2;
}
class _Int32ArrayView extends _ByteArrayViewBase implements Int32List {
_Int32ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
int operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getInt32(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setInt32(_offset + (index * _BYTES_PER_ELEMENT), _toInt32(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Int32List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 4;
}
class _Uint32ArrayView extends _ByteArrayViewBase implements Uint32List {
_Uint32ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
int operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getUint32(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setUint32(_offset + (index * _BYTES_PER_ELEMENT), _toUint32(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint32List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 4;
}
class _Int64ArrayView extends _ByteArrayViewBase implements Int64List {
_Int64ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
int operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getInt64(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setInt64(_offset + (index * _BYTES_PER_ELEMENT), _toInt64(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Int64List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 8;
}
class _Uint64ArrayView extends _ByteArrayViewBase implements Uint64List {
_Uint64ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
int operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getUint64(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setUint64(_offset + (index * _BYTES_PER_ELEMENT), _toUint64(value));
}
Iterator<int> get iterator {
return new _ByteArrayIterator<int>(this);
}
List<int> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<int> result = new Uint64List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<int> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 8;
}
class _Float32ArrayView extends _ByteArrayViewBase implements Float32List {
_Float32ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
double operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getFloat32(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, double value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setFloat32(_offset + (index * _BYTES_PER_ELEMENT), value);
}
Iterator<double> get iterator {
return new _ByteArrayIterator<double>(this);
}
List<double> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<double> result = new Float32List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<double> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 4;
}
class _Float64ArrayView extends _ByteArrayViewBase implements Float64List {
_Float64ArrayView(ByteArray array, [int offsetInBytes = 0, int _length])
: super(array, _requireInteger(offsetInBytes),
_requireIntegerOrNull(
_length,
((array.lengthInBytes() - offsetInBytes) ~/ _BYTES_PER_ELEMENT))) {
_rangeCheck(array.lengthInBytes(), _offset, length * _BYTES_PER_ELEMENT);
}
double operator[](int index) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
return _array.getFloat64(_offset + (index * _BYTES_PER_ELEMENT));
}
void operator[]=(int index, double value) {
if (index < 0 || index >= length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}
_array.setFloat64(_offset + (index * _BYTES_PER_ELEMENT), value);
}
Iterator<double> get iterator {
return new _ByteArrayIterator<double>(this);
}
List<double> getRange(int start, int length) {
_rangeCheck(this.length, start, length);
List<double> result = new Float64List(length);
result.setRange(0, length, this, start);
return result;
}
void setRange(int start, int length, List<double> from, [int startFrom = 0]) {
Arrays.copy(from, startFrom, this, start, length);
}
String toString() {
return Collections.collectionToString(this);
}
int bytesPerElement() {
return _BYTES_PER_ELEMENT;
}
int lengthInBytes() {
return length * _BYTES_PER_ELEMENT;
}
ByteArray asByteArray([int start = 0, int length]) {
if (length == null) {
length = this.lengthInBytes();
}
_rangeCheck(this.length, start, length);
return _array.subByteArray(_offset + start, length);
}
static const int _BYTES_PER_ELEMENT = 8;
}