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dart / sdk.git / refs/tags/0.7.6.3 / . / runtime / lib / typed_data.dart
blob: 0f10690aba688d14beddb4bc3f47461402dc50aa [file] [log] [blame]
// Copyright (c) 2013, 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 classes for Int8List ..... Float64List and ByteData implementations.
patch class Int8List {
/* patch */ factory Int8List(int length) {
return new _Int8Array(length);
}
/* patch */ factory Int8List.fromList(List<int> elements) {
var result = new _Int8Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Int8List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Int8ArrayView(buffer, offsetInBytes, length);
}
}
patch class Uint8List {
/* patch */ factory Uint8List(int length) {
return new _Uint8Array(length);
}
/* patch */ factory Uint8List.fromList(List<int> elements) {
var result = new _Uint8Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Uint8List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Uint8ArrayView(buffer, offsetInBytes, length);
}
}
patch class Uint8ClampedList {
/* patch */ factory Uint8ClampedList(int length) {
return new _Uint8ClampedArray(length);
}
/* patch */ factory Uint8ClampedList.fromList(List<int> elements) {
var result = new _Uint8ClampedArray(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Uint8ClampedList.view(ByteBuffer buffer,
[int offsetInBytes = 0,
int length]) {
return new _Uint8ClampedArrayView(buffer, offsetInBytes, length);
}
}
patch class Int16List {
/* patch */ factory Int16List(int length) {
return new _Int16Array(length);
}
/* patch */ factory Int16List.fromList(List<int> elements) {
var result = new _Int16Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Int16List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Int16ArrayView(buffer, offsetInBytes, length);
}
}
patch class Uint16List {
/* patch */ factory Uint16List(int length) {
return new _Uint16Array(length);
}
/* patch */ factory Uint16List.fromList(List<int> elements) {
var result = new _Uint16Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Uint16List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Uint16ArrayView(buffer, offsetInBytes, length);
}
}
patch class Int32List {
/* patch */ factory Int32List(int length) {
return new _Int32Array(length);
}
/* patch */ factory Int32List.fromList(List<int> elements) {
var result = new _Int32Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Int32List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Int32ArrayView(buffer, offsetInBytes, length);
}
}
patch class Uint32List {
/* patch */ factory Uint32List(int length) {
return new _Uint32Array(length);
}
/* patch */ factory Uint32List.fromList(List<int> elements) {
var result = new _Uint32Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Uint32List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Uint32ArrayView(buffer, offsetInBytes, length);
}
}
patch class Int64List {
/* patch */ factory Int64List(int length) {
return new _Int64Array(length);
}
/* patch */ factory Int64List.fromList(List<int> elements) {
var result = new _Int64Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Int64List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Int64ArrayView(buffer, offsetInBytes, length);
}
}
patch class Uint64List {
/* patch */ factory Uint64List(int length) {
return new _Uint64Array(length);
}
/* patch */ factory Uint64List.fromList(List<int> elements) {
var result = new _Uint64Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Uint64List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Uint64ArrayView(buffer, offsetInBytes, length);
}
}
patch class Float32List {
/* patch */ factory Float32List(int length) {
return new _Float32Array(length);
}
/* patch */ factory Float32List.fromList(List<double> elements) {
var result = new _Float32Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Float32List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Float32ArrayView(buffer, offsetInBytes, length);
}
}
patch class Float64List {
/* patch */ factory Float64List(int length) {
return new _Float64Array(length);
}
/* patch */ factory Float64List.fromList(List<double> elements) {
var result = new _Float64Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Float64List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Float64ArrayView(buffer, offsetInBytes, length);
}
}
patch class Float32x4List {
/* patch */ factory Float32x4List(int length) {
return new _Float32x4Array(length);
}
/* patch */ factory Float32x4List.fromList(List<Float32x4> elements) {
var result = new _Float32x4Array(elements.length);
for (int i = 0; i < elements.length; i++) {
result[i] = elements[i];
}
return result;
}
/* patch */ factory Float32x4List.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
return new _Float32x4ArrayView(buffer, offsetInBytes, length);
}
}
patch class Float32x4 {
/* patch */ factory Float32x4(double x, double y, double z, double w) {
return new _Float32x4(x, y, z, w);
}
/* patch */ factory Float32x4.splat(double v) {
return new _Float32x4.splat(v);
}
/* patch */ factory Float32x4.zero() {
return new _Float32x4.zero();
}
/* patch */ factory Float32x4.fromUint32x4Bits(Uint32x4 x) {
return new _Float32x4.fromUint32x4Bits(x);
}
}
patch class Uint32x4 {
/* patch */ factory Uint32x4(int x, int y, int z, int w) {
return new _Uint32x4(x, y, z, w);
}
/* patch */ factory Uint32x4.bool(bool x, bool y, bool z, bool w) {
return new _Uint32x4.bool(x, y, z, w);
}
/* patch */ factory Uint32x4.fromFloat32x4Bits(Float32x4 x) {
return new _Uint32x4.fromFloat32x4Bits(x);
}
}
patch class ByteData {
/* patch */ factory ByteData(int length) {
var list = new _Uint8Array(length);
return new _ByteDataView(list.buffer, 0, length);
}
/* patch */ factory ByteData.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = buffer.lengthInBytes - offsetInBytes;
}
return new _ByteDataView(buffer, offsetInBytes, length);
}
}
// Based class for _TypedList that provides common methods for implementing
// the collection and list interfaces.
abstract class _TypedListBase {
// Method(s) implementing the Collection interface.
bool contains(element) => IterableMixinWorkaround.contains(this, element);
void forEach(void f(num element)) {
var len = this.length;
for (var i = 0; i < len; i++) {
f(this[i]);
}
}
Iterable map(f(num element)) {
return IterableMixinWorkaround.mapList(this, f);
}
String join([String separator = ""]) {
return IterableMixinWorkaround.join(this, separator);
}
num reduce(dynamic combine(num value, num element)) {
return IterableMixinWorkaround.reduce(this, combine);
}
dynamic fold(dynamic initialValue,
dynamic combine(dynamic initialValue, num element)) {
return IterableMixinWorkaround.fold(this, initialValue, combine);
}
Iterable where(bool f(num element)) {
return IterableMixinWorkaround.where(this, f);
}
Iterable expand(Iterable f(num element)) {
return IterableMixinWorkaround.expand(this, f);
}
Iterable take(int n) {
return IterableMixinWorkaround.takeList(this, n);
}
Iterable takeWhile(bool test(num element)) {
return IterableMixinWorkaround.takeWhile(this, test);
}
Iterable skip(int n) {
return IterableMixinWorkaround.skipList(this, n);
}
Iterable skipWhile(bool test(num element)) {
return IterableMixinWorkaround.skipWhile(this, test);
}
bool every(bool f(num element)) {
return IterableMixinWorkaround.every(this, f);
}
bool any(bool f(num element)) {
return IterableMixinWorkaround.any(this, f);
}
num firstWhere(bool test(num element), {orElse()}) {
return IterableMixinWorkaround.firstWhere(this, test, orElse);
}
num lastWhere(bool test(num element), {orElse()}) {
return IterableMixinWorkaround.lastWhereList(this, test, orElse);
}
num singleWhere(bool test(num element)) {
return IterableMixinWorkaround.singleWhere(this, test);
}
Iterable<num> get reversed {
return IterableMixinWorkaround.reversedList(this);
}
num elementAt(int index) {
return this[index];
}
bool get isEmpty {
return this.length == 0;
}
bool get isNotEmpty => !isEmpty;
// Method(s) 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 addAll(Iterable value) {
throw new UnsupportedError(
"Cannot add to a non-extendable array");
}
void insert(int index, value) {
throw new UnsupportedError(
"Cannot insert into a non-extendable array");
}
void insertAll(int index, Iterable values) {
throw new UnsupportedError(
"Cannot insert into a non-extendable array");
}
void sort([int compare(num a, num b)]) {
return IterableMixinWorkaround.sortList(this, compare);
}
int indexOf(element, [int start = 0]) {
return IterableMixinWorkaround.indexOfList(this, element, start);
}
int lastIndexOf(element, [int start = null]) {
return IterableMixinWorkaround.lastIndexOfList(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");
}
bool remove(Object element) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
bool removeAt(int index) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void removeWhere(bool test(element)) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void retainWhere(bool test(element)) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
num get first {
if (length > 0) return this[0];
throw new StateError("No elements");
}
num get last {
if (length > 0) return this[length - 1];
throw new StateError("No elements");
}
num 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 end) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
void replaceRange(int start, int end, Iterable iterable) {
throw new UnsupportedError(
"Cannot remove from a non-extendable array");
}
List toList({bool growable: true}) {
return new List.from(this, growable: growable);
}
Set toSet() {
return new Set.from(this);
}
Map<int, num> asMap() {
return IterableMixinWorkaround.asMapList(this);
}
List sublist(int start, [int end]) {
if (end == null) end = length;
int length = end - start;
_rangeCheck(this.length, start, length);
List result = _createList(length);
result.setRange(0, length, this, start);
return result;
}
Iterable getRange(int start, [int end]) {
return IterableMixinWorkaround.getRangeList(this, start, end);
}
void setRange(int start, int end, Iterable iterable, [int skipCount = 0]) {
if (!_setRange(start, end - start, iterable, skipCount)) {
IterableMixinWorkaround.setRangeList(this, start,
end, iterable, skipCount);
}
}
void setAll(int index, Iterable iterable) {
IterableMixinWorkaround.setAllList(this, index, iterable);
}
void fillRange(int start, int end, [num fillValue]) {
IterableMixinWorkaround.fillRangeList(this, start, end, fillValue);
}
// Method(s) implementing Object interface.
String toString() {
return IterableMixinWorkaround.toStringIterable(this, '[', ']');
}
// Internal utility methods.
bool _setRange(int start, int length, Iterable from, int startFrom)
native "TypedData_setRange";
}
abstract class _TypedList extends _TypedListBase implements ByteBuffer {
// Default method implementing parts of the TypedData interface.
int get offsetInBytes {
return 0;
}
int get lengthInBytes {
return length * elementSizeInBytes;
}
ByteBuffer get buffer {
return this;
}
// Methods implementing the collection interface.
int get length native "TypedData_length";
// Internal utility methods.
int _getInt8(int offsetInBytes) native "TypedData_GetInt8";
void _setInt8(int offsetInBytes, int value) native "TypedData_SetInt8";
int _getUint8(int offsetInBytes) native "TypedData_GetUint8";
void _setUint8(int offsetInBytes, int value) native "TypedData_SetUint8";
int _getInt16(int offsetInBytes) native "TypedData_GetInt16";
void _setInt16(int offsetInBytes, int value) native "TypedData_SetInt16";
int _getUint16(int offsetInBytes) native "TypedData_GetUint16";
void _setUint16(int offsetInBytes, int value) native "TypedData_SetUint16";
int _getInt32(int offsetInBytes) native "TypedData_GetInt32";
void _setInt32(int offsetInBytes, int value) native "TypedData_SetInt32";
int _getUint32(int offsetInBytes) native "TypedData_GetUint32";
void _setUint32(int offsetInBytes, int value) native "TypedData_SetUint32";
int _getInt64(int offsetInBytes) native "TypedData_GetInt64";
void _setInt64(int offsetInBytes, int value) native "TypedData_SetInt64";
int _getUint64(int offsetInBytes) native "TypedData_GetUint64";
void _setUint64(int offsetInBytes, int value) native "TypedData_SetUint64";
double _getFloat32(int offsetInBytes) native "TypedData_GetFloat32";
void _setFloat32(int offsetInBytes, double value)
native "TypedData_SetFloat32";
double _getFloat64(int offsetInBytes) native "TypedData_GetFloat64";
void _setFloat64(int offsetInBytes, double value)
native "TypedData_SetFloat64";
Float32x4 _getFloat32x4(int offsetInBytes) native "TypedData_GetFloat32x4";
void _setFloat32x4(int offsetInBytes, Float32x4 value)
native "TypedData_SetFloat32x4";
}
class _Int8Array extends _TypedList implements Int8List {
// Factory constructors.
factory _Int8Array(int length) {
return _new(length);
}
factory _Int8Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = buffer.lengthInBytes - offsetInBytes;
}
return new _Int8ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getInt8(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setInt8(index, _toInt8(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Int8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Int8Array _createList(int length) {
return _new(length);
}
static _Int8Array _new(int length) native "TypedData_Int8Array_new";
}
class _Uint8Array extends _TypedList implements Uint8List {
// Factory constructors.
factory _Uint8Array(int length) {
return _new(length);
}
factory _Uint8Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = buffer.lengthInBytes - offsetInBytes;
}
return new _Uint8ArrayView(buffer, offsetInBytes, length);
}
// Methods implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getUint8(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setUint8(index, _toUint8(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Methods implementing TypedData interface.
int get elementSizeInBytes {
return Uint8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Uint8Array _createList(int length) {
return _new(length);
}
static _Uint8Array _new(int length) native "TypedData_Uint8Array_new";
}
class _Uint8ClampedArray extends _TypedList implements Uint8ClampedList {
// Factory constructors.
factory _Uint8ClampedArray(int length) {
return _new(length);
}
factory _Uint8ClampedArray.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = buffer.lengthInBytes - offsetInBytes;
}
return new _Uint8ClampedArrayView(buffer, offsetInBytes, length);
}
// Methods implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getUint8(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setUint8(index, _toClampedUint8(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Methods implementing TypedData interface.
int get elementSizeInBytes {
return Uint8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Uint8ClampedArray _createList(int length) {
return _new(length);
}
static _Uint8ClampedArray _new(int length)
native "TypedData_Uint8ClampedArray_new";
}
class _Int16Array extends _TypedList implements Int16List {
// Factory constructors.
factory _Int16Array(int length) {
return _new(length);
}
factory _Int16Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Int16List.BYTES_PER_ELEMENT;
}
return new _Int16ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedInt16(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedInt16(index, _toInt16(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Int16List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Int16Array _createList(int length) {
return _new(length);
}
int _getIndexedInt16(int index) {
return _getInt16(index * Int16List.BYTES_PER_ELEMENT);
}
void _setIndexedInt16(int index, int value) {
_setInt16(index * Int16List.BYTES_PER_ELEMENT, value);
}
static _Int16Array _new(int length) native "TypedData_Int16Array_new";
}
class _Uint16Array extends _TypedList implements Uint16List {
// Factory constructors.
factory _Uint16Array(int length) {
return _new(length);
}
factory _Uint16Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Uint16List.BYTES_PER_ELEMENT;
}
return new _Uint16ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedUint16(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedUint16(index, _toUint16(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Uint16List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Uint16Array _createList(int length) {
return _new(length);
}
int _getIndexedUint16(int index) {
return _getUint16(index * Uint16List.BYTES_PER_ELEMENT);
}
void _setIndexedUint16(int index, int value) {
_setUint16(index * Uint16List.BYTES_PER_ELEMENT, value);
}
static _Uint16Array _new(int length) native "TypedData_Uint16Array_new";
}
class _Int32Array extends _TypedList implements Int32List {
// Factory constructors.
factory _Int32Array(int length) {
return _new(length);
}
factory _Int32Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Int32List.BYTES_PER_ELEMENT;
}
return new _Int32ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedInt32(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedInt32(index, _toInt32(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Int32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Int32Array _createList(int length) {
return _new(length);
}
int _getIndexedInt32(int index) {
return _getInt32(index * Int32List.BYTES_PER_ELEMENT);
}
void _setIndexedInt32(int index, int value) {
_setInt32(index * Int32List.BYTES_PER_ELEMENT, value);
}
static _Int32Array _new(int length) native "TypedData_Int32Array_new";
}
class _Uint32Array extends _TypedList implements Uint32List {
// Factory constructors.
factory _Uint32Array(int length) {
return _new(length);
}
factory _Uint32Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Uint32List.BYTES_PER_ELEMENT;
}
return new _Uint32ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedUint32(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedUint32(index, _toUint32(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Uint32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Uint32Array _createList(int length) {
return _new(length);
}
int _getIndexedUint32(int index) {
return _getUint32(index * Uint32List.BYTES_PER_ELEMENT);
}
void _setIndexedUint32(int index, int value) {
_setInt32(index * Uint32List.BYTES_PER_ELEMENT, value);
}
static _Uint32Array _new(int length) native "TypedData_Uint32Array_new";
}
class _Int64Array extends _TypedList implements Int64List {
// Factory constructors.
factory _Int64Array(int length) {
return _new(length);
}
factory _Int64Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Int32List.BYTES_PER_ELEMENT;
}
return new _Int64ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedInt64(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedInt64(index, _toInt64(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Int64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Int64Array _createList(int length) {
return _new(length);
}
int _getIndexedInt64(int index) {
return _getInt64(index * Int64List.BYTES_PER_ELEMENT);
}
void _setIndexedInt64(int index, int value) {
_setInt64(index * Int64List.BYTES_PER_ELEMENT, value);
}
static _Int64Array _new(int length) native "TypedData_Int64Array_new";
}
class _Uint64Array extends _TypedList implements Uint64List {
// Factory constructors.
factory _Uint64Array(int length) {
return _new(length);
}
factory _Uint64Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Uint64List.BYTES_PER_ELEMENT;
}
return new _Uint64ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedUint64(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedUint64(index, _toUint64(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Uint64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Uint64Array _createList(int length) {
return _new(length);
}
int _getIndexedUint64(int index) {
return _getUint64(index * Uint64List.BYTES_PER_ELEMENT);
}
void _setIndexedUint64(int index, int value) {
_setUint64(index * Uint64List.BYTES_PER_ELEMENT, value);
}
static _Uint64Array _new(int length) native "TypedData_Uint64Array_new";
}
class _Float32Array extends _TypedList implements Float32List {
// Factory constructors.
factory _Float32Array(int length) {
return _new(length);
}
factory _Float32Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Float32List.BYTES_PER_ELEMENT;
}
return new _Float32ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing the List interface.
double operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedFloat32(index);
}
void operator[]=(int index, double value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedFloat32(index, value);
}
Iterator<double> get iterator {
return new _TypedListIterator<double>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Float32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Float32Array _createList(int length) {
return _new(length);
}
double _getIndexedFloat32(int index) {
return _getFloat32(index * Float32List.BYTES_PER_ELEMENT);
}
void _setIndexedFloat32(int index, double value) {
_setFloat32(index * Float32List.BYTES_PER_ELEMENT, value);
}
static _Float32Array _new(int length) native "TypedData_Float32Array_new";
}
class _Float64Array extends _TypedList implements Float64List {
// Factory constructors.
factory _Float64Array(int length) {
return _new(length);
}
factory _Float64Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Float64List.BYTES_PER_ELEMENT;
}
return new _Float64ArrayView(buffer, offsetInBytes, length);
}
// Method(s) implementing the List interface.
double operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedFloat64(index);
}
void operator[]=(int index, double value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedFloat64(index, value);
}
Iterator<double> get iterator {
return new _TypedListIterator<double>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Float64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Float64Array _createList(int length) {
return _new(length);
}
double _getIndexedFloat64(int index) {
return _getFloat64(index * Float64List.BYTES_PER_ELEMENT);
}
void _setIndexedFloat64(int index, double value) {
_setFloat64(index * Float64List.BYTES_PER_ELEMENT, value);
}
static _Float64Array _new(int length) native "TypedData_Float64Array_new";
}
class _Float32x4Array extends _TypedList implements Float32x4List {
// Factory constructors.
factory _Float32x4Array(int length) {
return _new(length);
}
factory _Float32x4Array.view(ByteBuffer buffer,
[int offsetInBytes = 0, int length]) {
if (length == null) {
length = (buffer.lengthInBytes - offsetInBytes) ~/
Float32x4List.BYTES_PER_ELEMENT;
}
return new _Float32x4ArrayView(buffer, offsetInBytes, length);
}
Float32x4 operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedFloat32x4(index);
}
void operator[]=(int index, Float32x4 value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedFloat32x4(index, value);
}
Iterator<Float32x4> get iterator {
return new _TypedListIterator<Float32x4>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Float32x4List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
_Float32x4Array _createList(int length) {
return _new(length);
}
Float32x4 _getIndexedFloat32x4(int index) {
return _getFloat32x4(index * Float32x4List.BYTES_PER_ELEMENT);
}
void _setIndexedFloat32x4(int index, Float32x4 value) {
_setFloat32x4(index * Float32x4List.BYTES_PER_ELEMENT, value);
}
static _Float32x4Array _new(int length) native "TypedData_Float32x4Array_new";
}
class _ExternalInt8Array extends _TypedList implements Int8List {
// Factory constructors.
factory _ExternalInt8Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getInt8(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setInt8(index, value);
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Int8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Int8List _createList(int length) {
return new Int8List(length);
}
static _ExternalInt8Array _new(int length) native
"ExternalTypedData_Int8Array_new";
}
class _ExternalUint8Array extends _TypedList implements Uint8List {
// Factory constructors.
factory _ExternalUint8Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getUint8(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setUint8(index, _toUint8(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Uint8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint8List _createList(int length) {
return new Uint8List(length);
}
static _ExternalUint8Array _new(int length) native
"ExternalTypedData_Uint8Array_new";
}
class _ExternalUint8ClampedArray extends _TypedList implements Uint8ClampedList {
// Factory constructors.
factory _ExternalUint8ClampedArray(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getUint8(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setUint8(index, _toClampedUint8(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Uint8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint8ClampedList _createList(int length) {
return new Uint8ClampedList(length);
}
static _ExternalUint8ClampedArray _new(int length) native
"ExternalTypedData_Uint8ClampedArray_new";
}
class _ExternalInt16Array extends _TypedList implements Int16List {
// Factory constructors.
factory _ExternalInt16Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedInt16(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedInt16(index, _toInt16(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Int16List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Int16List _createList(int length) {
return new Int16List(length);
}
int _getIndexedInt16(int index) {
return _getInt16(index * Int16List.BYTES_PER_ELEMENT);
}
void _setIndexedInt16(int index, int value) {
_setInt16(index * Int16List.BYTES_PER_ELEMENT, value);
}
static _ExternalInt16Array _new(int length) native
"ExternalTypedData_Int16Array_new";
}
class _ExternalUint16Array extends _TypedList implements Uint16List {
// Factory constructors.
factory _ExternalUint16Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedUint16(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedUint16(index, _toUint16(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Uint16List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint16List _createList(int length) {
return new Uint16List(length);
}
int _getIndexedUint16(int index) {
return _getUint16(index * Uint16List.BYTES_PER_ELEMENT);
}
void _setIndexedUint16(int index, int value) {
_setUint16(index * Uint16List.BYTES_PER_ELEMENT, value);
}
static _ExternalUint16Array _new(int length) native
"ExternalTypedData_Uint16Array_new";
}
class _ExternalInt32Array extends _TypedList implements Int32List {
// Factory constructors.
factory _ExternalInt32Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedInt32(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedInt32(index, _toInt32(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Int32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Int32List _createList(int length) {
return new Int32List(length);
}
int _getIndexedInt32(int index) {
return _getInt32(index * Int32List.BYTES_PER_ELEMENT);
}
void _setIndexedInt32(int index, int value) {
_setInt32(index * Int32List.BYTES_PER_ELEMENT, value);
}
static _ExternalInt32Array _new(int length) native
"ExternalTypedData_Int32Array_new";
}
class _ExternalUint32Array extends _TypedList implements Uint32List {
// Factory constructors.
factory _ExternalUint32Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedUint32(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedUint32(index, _toUint32(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Uint32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint32List _createList(int length) {
return new Uint32List(length);
}
int _getIndexedUint32(int index) {
return _getUint32(index * Uint32List.BYTES_PER_ELEMENT);
}
void _setIndexedUint32(int index, int value) {
_setInt32(index * Uint32List.BYTES_PER_ELEMENT, value);
}
static _ExternalUint32Array _new(int length) native
"ExternalTypedData_Uint32Array_new";
}
class _ExternalInt64Array extends _TypedList implements Int64List {
// Factory constructors.
factory _ExternalInt64Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedInt64(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedInt64(index, _toInt64(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Int64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Int64List _createList(int length) {
return new Int64List(length);
}
int _getIndexedInt64(int index) {
return _getInt64(index * Int64List.BYTES_PER_ELEMENT);
}
void _setIndexedInt64(int index, int value) {
_setInt64(index * Int64List.BYTES_PER_ELEMENT, value);
}
static _ExternalInt64Array _new(int length) native
"ExternalTypedData_Int64Array_new";
}
class _ExternalUint64Array extends _TypedList implements Uint64List {
// Factory constructors.
factory _ExternalUint64Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedUint64(index);
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedUint64(index, _toUint64(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Uint64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint64List _createList(int length) {
return new Uint64List(length);
}
int _getIndexedUint64(int index) {
return _getUint64(index * Uint64List.BYTES_PER_ELEMENT);
}
void _setIndexedUint64(int index, int value) {
_setUint64(index * Uint64List.BYTES_PER_ELEMENT, value);
}
static _ExternalUint64Array _new(int length) native
"ExternalTypedData_Uint64Array_new";
}
class _ExternalFloat32Array extends _TypedList implements Float32List {
// Factory constructors.
factory _ExternalFloat32Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
double operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedFloat32(index);
}
void operator[]=(int index, double value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedFloat32(index, value);
}
Iterator<double> get iterator {
return new _TypedListIterator<double>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Float32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Float32List _createList(int length) {
return new Float32List(length);
}
double _getIndexedFloat32(int index) {
return _getFloat32(index * Float32List.BYTES_PER_ELEMENT);
}
void _setIndexedFloat32(int index, double value) {
_setFloat32(index * Float32List.BYTES_PER_ELEMENT, value);
}
static _ExternalFloat32Array _new(int length) native
"ExternalTypedData_Float32Array_new";
}
class _ExternalFloat64Array extends _TypedList implements Float64List {
// Factory constructors.
factory _ExternalFloat64Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
double operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedFloat64(index);
}
void operator[]=(int index, double value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedFloat64(index, value);
}
Iterator<double> get iterator {
return new _TypedListIterator<double>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Float64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Float64List _createList(int length) {
return new Float64List(length);
}
double _getIndexedFloat64(int index) {
return _getFloat64(index * Float64List.BYTES_PER_ELEMENT);
}
void _setIndexedFloat64(int index, double value) {
_setFloat64(index * Float64List.BYTES_PER_ELEMENT, value);
}
static _ExternalFloat64Array _new(int length) native
"ExternalTypedData_Float64Array_new";
}
class _ExternalFloat32x4Array extends _TypedList implements Float32x4List {
// Factory constructors.
factory _ExternalFloat32x4Array(int length) {
return _new(length);
}
// Method(s) implementing the List interface.
Float32x4 operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _getIndexedFloat32x4(index);
}
void operator[]=(int index, Float32x4 value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_setIndexedFloat32x4(index, value);
}
Iterator<Float32x4> get iterator {
return new _TypedListIterator<Float32x4>(this);
}
// Method(s) implementing the TypedData interface.
int get elementSizeInBytes {
return Float32x4List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Float32x4List _createList(int length) {
return new Float32x4List(length);
}
Float32x4 _getIndexedFloat32x4(int index) {
return _getFloat32x4(index * Float32x4List.BYTES_PER_ELEMENT);
}
void _setIndexedFloat32x4(int index, Float32x4 value) {
_setFloat32x4(index * Float32x4List.BYTES_PER_ELEMENT, value);
}
static _ExternalFloat32x4Array _new(int length) native
"ExternalTypedData_Float32x4Array_new";
}
class _Float32x4 implements Float32x4 {
factory _Float32x4(double x, double y, double z, double w)
native "Float32x4_fromDoubles";
factory _Float32x4.splat(double v) native "Float32x4_splat";
factory _Float32x4.zero() native "Float32x4_zero";
factory _Float32x4.fromUint32x4Bits(Uint32x4 x)
native "Float32x4_fromUint32x4Bits";
Float32x4 operator +(Float32x4 other) {
return _add(other);
}
Float32x4 _add(Float32x4 other) native "Float32x4_add";
Float32x4 operator -() {
return _negate();
}
Float32x4 _negate() native "Float32x4_negate";
Float32x4 operator -(Float32x4 other) {
return _sub(other);
}
Float32x4 _sub(Float32x4 other) native "Float32x4_sub";
Float32x4 operator *(Float32x4 other) {
return _mul(other);
}
Float32x4 _mul(Float32x4 other) native "Float32x4_mul";
Float32x4 operator /(Float32x4 other) {
return _div(other);
}
Float32x4 _div(Float32x4 other) native "Float32x4_div";
Uint32x4 lessThan(Float32x4 other) {
return _cmplt(other);
}
Uint32x4 _cmplt(Float32x4 other) native "Float32x4_cmplt";
Uint32x4 lessThanOrEqual(Float32x4 other) {
return _cmplte(other);
}
Uint32x4 _cmplte(Float32x4 other) native "Float32x4_cmplte";
Uint32x4 greaterThan(Float32x4 other) {
return _cmpgt(other);
}
Uint32x4 _cmpgt(Float32x4 other) native "Float32x4_cmpgt";
Uint32x4 greaterThanOrEqual(Float32x4 other) {
return _cmpgte(other);
}
Uint32x4 _cmpgte(Float32x4 other) native "Float32x4_cmpgte";
Uint32x4 equal(Float32x4 other) {
return _cmpequal(other);
}
Uint32x4 _cmpequal(Float32x4 other)
native "Float32x4_cmpequal";
Uint32x4 notEqual(Float32x4 other) {
return _cmpnequal(other);
}
Uint32x4 _cmpnequal(Float32x4 other)
native "Float32x4_cmpnequal";
Float32x4 scale(double s) {
return _scale(s);
}
Float32x4 _scale(double s) native "Float32x4_scale";
Float32x4 abs() {
return _abs();
}
Float32x4 _abs() native "Float32x4_abs";
Float32x4 clamp(Float32x4 lowerLimit,
Float32x4 upperLimit) {
return _clamp(lowerLimit, upperLimit);
}
Float32x4 _clamp(Float32x4 lowerLimit,
Float32x4 upperLimit)
native "Float32x4_clamp";
double get x native "Float32x4_getX";
double get y native "Float32x4_getY";
double get z native "Float32x4_getZ";
double get w native "Float32x4_getW";
int get signMask native "Float32x4_getSignMask";
Float32x4 shuffle(int mask) native "Float32x4_shuffle";
Float32x4 withZWInXY(Float32x4 other) native "Float32x4_withZWInXY";
Float32x4 interleaveXY(Float32x4 other) native "Float32x4_interleaveXY";
Float32x4 interleaveZW(Float32x4 other) native "Float32x4_interleaveZW";
Float32x4 interleaveXYPairs(Float32x4 other)
native "Float32x4_interleaveXYPairs";
Float32x4 interleaveZWPairs(Float32x4 other)
native "Float32x4_interleaveZWPairs";
Float32x4 withX(double x) native "Float32x4_setX";
Float32x4 withY(double y) native "Float32x4_setY";
Float32x4 withZ(double z) native "Float32x4_setZ";
Float32x4 withW(double w) native "Float32x4_setW";
Float32x4 min(Float32x4 other) {
return _min(other);
}
Float32x4 _min(Float32x4 other) native "Float32x4_min";
Float32x4 max(Float32x4 other) {
return _max(other);
}
Float32x4 _max(Float32x4 other) native "Float32x4_max";
Float32x4 sqrt() {
return _sqrt();
}
Float32x4 _sqrt() native "Float32x4_sqrt";
Float32x4 reciprocal() {
return _reciprocal();
}
Float32x4 _reciprocal() native "Float32x4_reciprocal";
Float32x4 reciprocalSqrt() {
return _reciprocalSqrt();
}
Float32x4 _reciprocalSqrt() native "Float32x4_reciprocalSqrt";
}
class _Uint32x4 implements Uint32x4 {
factory _Uint32x4(int x, int y, int z, int w)
native "Uint32x4_fromInts";
factory _Uint32x4.bool(bool x, bool y, bool z, bool w)
native "Uint32x4_fromBools";
factory _Uint32x4.fromFloat32x4Bits(Float32x4 x)
native "Uint32x4_fromFloat32x4Bits";
Uint32x4 operator |(Uint32x4 other) {
return _or(other);
}
Uint32x4 _or(Uint32x4 other) native "Uint32x4_or";
Uint32x4 operator &(Uint32x4 other) {
return _and(other);
}
Uint32x4 _and(Uint32x4 other) native "Uint32x4_and";
Uint32x4 operator ^(Uint32x4 other) {
return _xor(other);
}
Uint32x4 _xor(Uint32x4 other) native "Uint32x4_xor";
Uint32x4 operator +(Uint32x4 other) {
return _add(other);
}
Uint32x4 _add(Uint32x4 other) native "Uint32x4_add";
Uint32x4 operator -(Uint32x4 other) {
return _sub(other);
}
Uint32x4 _sub(Uint32x4 other) native "Uint32x4_sub";
int get x native "Uint32x4_getX";
int get y native "Uint32x4_getY";
int get z native "Uint32x4_getZ";
int get w native "Uint32x4_getW";
int get signMask native "Uint32x4_getSignMask";
Uint32x4 withX(int x) native "Uint32x4_setX";
Uint32x4 withY(int y) native "Uint32x4_setY";
Uint32x4 withZ(int z) native "Uint32x4_setZ";
Uint32x4 withW(int w) native "Uint32x4_setW";
bool get flagX native "Uint32x4_getFlagX";
bool get flagY native "Uint32x4_getFlagY";
bool get flagZ native "Uint32x4_getFlagZ";
bool get flagW native "Uint32x4_getFlagW";
Uint32x4 withFlagX(bool x) native "Uint32x4_setFlagX";
Uint32x4 withFlagY(bool y) native "Uint32x4_setFlagY";
Uint32x4 withFlagZ(bool z) native "Uint32x4_setFlagZ";
Uint32x4 withFlagW(bool w) native "Uint32x4_setFlagW";
Float32x4 select(Float32x4 trueValue,
Float32x4 falseValue) {
return _select(trueValue, falseValue);
}
Float32x4 _select(Float32x4 trueValue,
Float32x4 falseValue)
native "Uint32x4_select";
}
class _TypedListIterator<E> implements Iterator<E> {
final List<E> _array;
final int _length;
int _position;
E _current;
_TypedListIterator(List array)
: _array = array, _length = array.length, _position = -1 {
assert(array is _TypedList || array is _TypedListView);
}
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 _TypedListView extends _TypedListBase implements TypedData {
_TypedListView(ByteBuffer _buffer, int _offset, int _length)
: _typedData = _buffer, // This assignment is type safe.
offsetInBytes = _offset,
length = _length {
}
// Method(s) implementing the TypedData interface.
int get lengthInBytes {
return length * elementSizeInBytes;
}
ByteBuffer get buffer {
return _typedData.buffer;
}
final TypedData _typedData;
final int offsetInBytes;
final int length;
}
class _Int8ArrayView extends _TypedListView implements Int8List {
// Constructor.
_Int8ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Int8List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
_offsetInBytes,
length * Int8List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getInt8(offsetInBytes +
(index * Int8List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setInt8(offsetInBytes + (index * Int8List.BYTES_PER_ELEMENT),
_toInt8(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Int8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Int8List _createList(int length) {
return new Int8List(length);
}
}
class _Uint8ArrayView extends _TypedListView implements Uint8List {
// Constructor.
_Uint8ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Uint8List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
_offsetInBytes,
length * Uint8List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getUint8(offsetInBytes +
(index * Uint8List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setUint8(offsetInBytes + (index * Uint8List.BYTES_PER_ELEMENT),
_toUint8(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Uint8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint8List _createList(int length) {
return new Uint8List(length);
}
}
class _Uint8ClampedArrayView extends _TypedListView implements Uint8ClampedList {
// Constructor.
_Uint8ClampedArrayView(ByteBuffer buffer,
[int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Uint8List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Uint8List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getUint8(offsetInBytes +
(index * Uint8List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setUint8(offsetInBytes + (index * Uint8List.BYTES_PER_ELEMENT),
_toClampedUint8(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Uint8List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint8ClampedList _createList(int length) {
return new Uint8ClampedList(length);
}
}
class _Int16ArrayView extends _TypedListView implements Int16List {
// Constructor.
_Int16ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Int16List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Int16List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Int16List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getInt16(offsetInBytes +
(index * Int16List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setInt16(offsetInBytes + (index * Int16List.BYTES_PER_ELEMENT),
_toInt16(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Int16List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Int16List _createList(int length) {
return new Int16List(length);
}
}
class _Uint16ArrayView extends _TypedListView implements Uint16List {
// Constructor.
_Uint16ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Uint16List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Uint16List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Uint16List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getUint16(offsetInBytes +
(index * Uint16List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setUint16(offsetInBytes + (index * Uint16List.BYTES_PER_ELEMENT),
_toUint16(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Uint16List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint16List _createList(int length) {
return new Uint16List(length);
}
}
class _Int32ArrayView extends _TypedListView implements Int32List {
// Constructor.
_Int32ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Int32List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Int32List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Int32List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getInt32(offsetInBytes +
(index * Int32List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setInt32(offsetInBytes + (index * Int32List.BYTES_PER_ELEMENT),
_toInt32(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Int32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Int32List _createList(int length) {
return new Int32List(length);
}
}
class _Uint32ArrayView extends _TypedListView implements Uint32List {
// Constructor.
_Uint32ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Uint32List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Uint32List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Uint32List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getUint32(offsetInBytes +
(index * Uint32List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setUint32(offsetInBytes + (index * Uint32List.BYTES_PER_ELEMENT),
_toUint32(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Uint32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint32List _createList(int length) {
return new Uint32List(length);
}
}
class _Int64ArrayView extends _TypedListView implements Int64List {
// Constructor.
_Int64ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Int64List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Int64List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Int64List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getInt64(offsetInBytes +
(index * Int64List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setInt64(offsetInBytes + (index * Int64List.BYTES_PER_ELEMENT),
_toInt64(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Int64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Int64List _createList(int length) {
return new Int64List(length);
}
}
class _Uint64ArrayView extends _TypedListView implements Uint64List {
// Constructor.
_Uint64ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Uint64List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Uint64List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Uint64List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
int operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getUint64(offsetInBytes +
(index * Uint64List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, int value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setUint64(offsetInBytes + (index * Uint64List.BYTES_PER_ELEMENT),
_toUint64(value));
}
Iterator<int> get iterator {
return new _TypedListIterator<int>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Uint64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Uint64List _createList(int length) {
return new Uint64List(length);
}
}
class _Float32ArrayView extends _TypedListView implements Float32List {
// Constructor.
_Float32ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Float32List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Float32List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Float32List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
double operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getFloat32(offsetInBytes +
(index * Float32List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, double value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setFloat32(offsetInBytes +
(index * Float32List.BYTES_PER_ELEMENT), value);
}
Iterator<double> get iterator {
return new _TypedListIterator<double>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Float32List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Float32List _createList(int length) {
return new Float32List(length);
}
}
class _Float64ArrayView extends _TypedListView implements Float64List {
// Constructor.
_Float64ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Float64List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Float64List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Float64List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
double operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getFloat64(offsetInBytes +
(index * Float64List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, double value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setFloat64(offsetInBytes +
(index * Float64List.BYTES_PER_ELEMENT), value);
}
Iterator<double> get iterator {
return new _TypedListIterator<double>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Float64List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Float64List _createList(int length) {
return new Float64List(length);
}
}
class _Float32x4ArrayView extends _TypedListView implements Float32x4List {
// Constructor.
_Float32x4ArrayView(ByteBuffer buffer, [int _offsetInBytes = 0, int _length])
: super(buffer, _offsetInBytes,
_defaultIfNull(_length,
((buffer.lengthInBytes - _offsetInBytes) ~/
Float32x4List.BYTES_PER_ELEMENT))) {
_rangeCheck(buffer.lengthInBytes,
offsetInBytes,
length * Float32x4List.BYTES_PER_ELEMENT);
_offsetAlignmentCheck(_offsetInBytes, Float32x4List.BYTES_PER_ELEMENT);
}
// Method(s) implementing List interface.
Float32x4 operator[](int index) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
return _typedData._getFloat32x4(offsetInBytes +
(index * Float32x4List.BYTES_PER_ELEMENT));
}
void operator[]=(int index, Float32x4 value) {
if (index < 0 || index >= length) {
_throwRangeError(index, length);
}
_typedData._setFloat32x4(offsetInBytes +
(index * Float32x4List.BYTES_PER_ELEMENT), value);
}
Iterator<Float32x4> get iterator {
return new _TypedListIterator<Float32x4>(this);
}
// Method(s) implementing TypedData interface.
int get elementSizeInBytes {
return Float32x4List.BYTES_PER_ELEMENT;
}
// Internal utility methods.
Float32x4List _createList(int length) {
return new Float32x4List(length);
}
}
class _ByteDataView implements ByteData {
_ByteDataView(ByteBuffer _buffer, int _offsetInBytes, int _lengthInBytes)
: _typedData = _buffer, // _buffer is guaranteed to be a TypedData here.
_offset = _offsetInBytes,
length = _lengthInBytes {
_rangeCheck(_buffer.lengthInBytes, _offset, length);
}
// Method(s) implementing TypedData interface.
ByteBuffer get buffer {
return _typedData.buffer;
}
int get lengthInBytes {
return length;
}
int get offsetInBytes {
return _offset;
}
// Method(s) implementing ByteData interface.
int getInt8(int byteOffset) {
if (byteOffset < 0 || byteOffset >= length) {
_throwRangeError(byteOffset, length);
}
return _typedData._getInt8(_offset + byteOffset);
}
void setInt8(int byteOffset, int value) {
if (byteOffset < 0 || byteOffset >= length) {
_throwRangeError(byteOffset, length);
}
_typedData._setInt8(_offset + byteOffset, _toInt8(value));
}
int getUint8(int byteOffset) {
if (byteOffset < 0 || byteOffset >= length) {
_throwRangeError(byteOffset, length);
}
return _typedData._getUint8(_offset + byteOffset);
}
void setUint8(int byteOffset, int value) {
if (byteOffset < 0 || byteOffset >= length) {
_throwRangeError(byteOffset, length);
}
_typedData._setUint8(_offset + byteOffset, _toUint8(value));
}
int getInt16(int byteOffset, [Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 1 >= length) {
_throwRangeError(byteOffset + 1, length);
}
var result = _typedData._getInt16(_offset + byteOffset);
if (identical(endian, Endianness.HOST_ENDIAN)) {
return result;
}
return _toEndianInt16(result, endian._littleEndian);
}
void setInt16(int byteOffset,
int value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 1 >= length) {
_throwRangeError(byteOffset + 1, length);
}
var set_value = _toInt16(value);
if (!identical(endian, Endianness.HOST_ENDIAN)) {
set_value = _toEndianInt16(set_value, endian._littleEndian);
}
_typedData._setInt16(_offset + byteOffset, set_value);
}
int getUint16(int byteOffset, [Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 1 >= length) {
_throwRangeError(byteOffset + 1, length);
}
var result = _typedData._getUint16(_offset + byteOffset);
if (identical(endian, Endianness.HOST_ENDIAN)) {
return result;
}
return _toEndianUint16(result, endian._littleEndian);
}
void setUint16(int byteOffset,
int value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 1 >= length) {
_throwRangeError(byteOffset + 1, length);
}
var set_value = _toUint16(value);
if (!identical(endian, Endianness.HOST_ENDIAN)) {
set_value = _toEndianUint16(set_value, endian._littleEndian);
}
_typedData._setUint16(_offset + byteOffset, set_value);
}
int getInt32(int byteOffset, [Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 3 >= length) {
_throwRangeError(byteOffset + 3, length);
}
var result = _typedData._getInt32(_offset + byteOffset);
if (identical(endian, Endianness.HOST_ENDIAN)) {
return result;
}
return _toEndianInt32(result, endian._littleEndian);
}
void setInt32(int byteOffset,
int value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 3 >= length) {
_throwRangeError(byteOffset + 3, length);
}
var set_value = _toInt32(value);
if (!identical(endian, Endianness.HOST_ENDIAN)) {
set_value = _toEndianInt32(set_value, endian._littleEndian);
}
_typedData._setInt32(_offset + byteOffset, set_value);
}
int getUint32(int byteOffset, [Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 3 >= length) {
_throwRangeError(byteOffset + 3, length);
}
var result = _typedData._getUint32(_offset + byteOffset);
if (identical(endian, Endianness.HOST_ENDIAN)) {
return result;
}
return _toEndianUint32(result, endian._littleEndian);
}
void setUint32(int byteOffset,
int value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 3 >= length) {
_throwRangeError(byteOffset + 3, length);
}
var set_value = _toUint32(value);
if (!identical(endian, Endianness.HOST_ENDIAN)) {
set_value = _toEndianUint32(set_value, endian._littleEndian);
}
_typedData._setUint32(_offset + byteOffset, set_value);
}
int getInt64(int byteOffset, [Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 7 >= length) {
_throwRangeError(byteOffset + 7, length);
}
var result = _typedData._getInt64(_offset + byteOffset);
if (identical(endian, Endianness.HOST_ENDIAN)) {
return result;
}
return _toEndianInt64(result, endian._littleEndian);
}
void setInt64(int byteOffset,
int value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 7 >= length) {
_throwRangeError(byteOffset + 7, length);
}
var set_value = _toInt64(value);
if (!identical(endian, Endianness.HOST_ENDIAN)) {
set_value = _toEndianInt64(set_value, endian._littleEndian);
}
_typedData._setInt64(_offset + byteOffset, set_value);
}
int getUint64(int byteOffset, [Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 7 >= length) {
_throwRangeError(byteOffset + 7, length);
}
var result = _typedData._getUint64(_offset + byteOffset);
if (identical(endian, Endianness.HOST_ENDIAN)) {
return result;
}
return _toEndianUint64(result, endian._littleEndian);
}
void setUint64(int byteOffset,
int value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 7 >= length) {
_throwRangeError(byteOffset + 7, length);
}
var set_value = _toUint64(value);
if (!identical(endian, Endianness.HOST_ENDIAN)) {
set_value = _toEndianUint64(set_value, endian._littleEndian);
}
_typedData._setUint64(_offset + byteOffset, set_value);
}
double getFloat32(int byteOffset,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 3 >= length) {
_throwRangeError(byteOffset + 3, length);
}
var result = _typedData._getFloat32(_offset + byteOffset);
if (identical(endian, Endianness.HOST_ENDIAN)) {
return result;
}
return _toEndianFloat32(result, endian._littleEndian);
}
void setFloat32(int byteOffset,
double value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 3 >= length) {
_throwRangeError(byteOffset + 3, length);
}
var set_value = value;
if (!identical(endian, Endianness.HOST_ENDIAN)) {
set_value = _toEndianFloat32(set_value, endian._littleEndian);
}
_typedData._setFloat32(_offset + byteOffset, set_value);
}
double getFloat64(int byteOffset,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 7 >= length) {
_throwRangeError(byteOffset + 7, length);
}
var result = _typedData._getFloat64(_offset + byteOffset);
if (identical(endian, Endianness.HOST_ENDIAN)) {
return result;
}
return _toEndianFloat64(result, endian._littleEndian);
}
void setFloat64(int byteOffset,
double value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 7 >= length) {
_throwRangeError(byteOffset + 7, length);
}
var set_value = value;
if (!identical(endian, Endianness.HOST_ENDIAN)) {
set_value = _toEndianFloat64(set_value, endian._littleEndian);
}
_typedData._setFloat64(_offset + byteOffset, set_value);
}
Float32x4 getFloat32x4(int byteOffset,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 3 >= length) {
_throwRangeError(byteOffset + 3, length);
}
// TODO(johnmccutchan) : Need to resolve this for endianity.
return _typedData._getFloat32x4(_offset + byteOffset);
}
void setFloat32x4(int byteOffset,
Float32x4 value,
[Endianness endian = Endianness.BIG_ENDIAN]) {
if (byteOffset < 0 || byteOffset + 3 >= length) {
_throwRangeError(byteOffset + 3, length);
}
// TODO(johnmccutchan) : Need to resolve this for endianity.
_typedData._setFloat32x4(_offset + byteOffset, value);
}
// Internal utility methods.
static int _toEndianInt16(int host_value, bool little_endian)
native "ByteData_ToEndianInt16";
static int _toEndianUint16(int host_value, bool little_endian)
native "ByteData_ToEndianUint16";
static int _toEndianInt32(int host_value, bool little_endian)
native "ByteData_ToEndianInt32";
static int _toEndianUint32(int host_value, bool little_endian)
native "ByteData_ToEndianUint32";
static int _toEndianInt64(int host_value, bool little_endian)
native "ByteData_ToEndianInt64";
static int _toEndianUint64(int host_value, bool little_endian)
native "ByteData_ToEndianUint64";
static double _toEndianFloat32(double host_value, bool little_endian)
native "ByteData_ToEndianFloat32";
static double _toEndianFloat64(double host_value, bool little_endian)
native "ByteData_ToEndianFloat64";
final TypedData _typedData;
final int _offset;
final int length;
}
// Top level utility methods.
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);
}
}
void _offsetAlignmentCheck(int offset, int alignment) {
if ((offset % alignment) != 0) {
throw new RangeError('Offset ($offset) must be a multiple of '
'BYTES_PER_ELEMENT ($alignment)');
}
}
int _defaultIfNull(object, value) {
if (object == null) {
return value;
}
return object;
}
void _throwRangeError(int index, int length) {
String message = "$index must be in the range [0..$length)";
throw new RangeError(message);
}