pkg/dev_compiler/tool/input_sdk/lib/core/string.dart - Issue 2698353003: unfork DDC's copy of most SDK libraries

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Issue 2698353003: unfork DDC's copy of most SDK libraries (Closed)

Patch Set: revert core_patch Created 3 years, 10 months ago

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Index: pkg/dev_compiler/tool/input_sdk/lib/core/string.dart

diff --git a/pkg/dev_compiler/tool/input_sdk/lib/core/string.dart b/pkg/dev_compiler/tool/input_sdk/lib/core/string.dart

deleted file mode 100644

index 39641df87e5439b414095eed8f9d017a9d4b0d71..0000000000000000000000000000000000000000

--- a/pkg/dev_compiler/tool/input_sdk/lib/core/string.dart

+++ /dev/null

@@ -1,792 +0,0 @@

-// BSD-style license that can be found in the LICENSE file.

-part of dart.core;

-/**

- * A sequence of characters.

- *

- * A string can be either single or multiline. Single line strings are

- * written using matching single or double quotes, and multiline strings are

- * written using triple quotes. The following are all valid Dart strings:

- *

- * 'Single quotes';

- * "Double quotes";

- * 'Double quotes in "single" quotes';

- * "Single quotes in 'double' quotes";

- *

- * '''A

- * multiline

- * string''';

- *

- * """

- * Another

- * multiline

- * string""";

- *

- * Strings are immutable. Although you cannot change a string, you can perform

- * an operation on a string and assign the result to a new string:

- *

- * var string = 'Dart is fun';

- * var newString = string.substring(0, 5);

- *

- * You can use the plus (`+`) operator to concatenate strings:

- *

- * 'Dart ' + 'is ' + 'fun!'; // 'Dart is fun!'

- *

- * You can also use adjacent string literals for concatenation:

- *

- * 'Dart ' 'is ' 'fun!'; // 'Dart is fun!'

- *

- * You can use `${}` to interpolate the value of Dart expressions

- * within strings. The curly braces can be omitted when evaluating identifiers:

- *

- * string = 'dartlang';

- * '$string has ${string.length} letters'; // 'dartlang has 8 letters'

- *

- * A string is represented by a sequence of Unicode UTF-16 code units

- * accessible through the [codeUnitAt] or the [codeUnits] members:

- *

- * string = 'Dart';

- * string.codeUnitAt(0); // 68

- * string.codeUnits; // [68, 97, 114, 116]

- *

- * The string representation of code units is accessible through the index

- * operator:

- *

- * string[0]; // 'D'

- *

- * The characters of a string are encoded in UTF-16. Decoding UTF-16, which

- * combines surrogate pairs, yields Unicode code points. Following a similar

- * terminology to Go, we use the name 'rune' for an integer representing a

- * Unicode code point. Use the [runes] property to get the runes of a string:

- *

- * string.runes.toList(); // [68, 97, 114, 116]

- *

- * For a character outside the Basic Multilingual Plane (plane 0) that is

- * composed of a surrogate pair, [runes] combines the pair and returns a

- * single integer. For example, the Unicode character for a

- * musical G-clef ('𝄞') with rune value 0x1D11E consists of a UTF-16 surrogate

- * pair: `0xD834` and `0xDD1E`. Using [codeUnits] returns the surrogate pair,

- * and using `runes` returns their combined value:

- *

- * var clef = '\u{1D11E}';

- * clef.codeUnits; // [0xD834, 0xDD1E]

- * clef.runes.toList(); // [0x1D11E]

- *

- * The String class can not be extended or implemented. Attempting to do so

- * yields a compile-time error.

- *

- * ## Other resources

- *

- * See [StringBuffer] to efficiently build a string incrementally. See

- * [RegExp] to work with regular expressions.

- *

- * Also see:

- * * [Dart Cookbook](https://www.dartlang.org/docs/cookbook/#strings)

- * for String examples and recipes.

- * * [Dart Up and Running](https://www.dartlang.org/docs/dart-up-and-running/ch03.html#strings-and-regular-expressions)

- */

-abstract class String implements Comparable<String>, Pattern {

- /**

- * Allocates a new String for the specified [charCodes].

- *

- * The [charCodes] can be UTF-16 code units or runes. If a char-code value is

- * 16-bit, it is copied verbatim:

- *

- * new String.fromCharCodes([68]); // 'D'

- *

- * If a char-code value is greater than 16-bits, it is decomposed into a

- * surrogate pair:

- *

- * var clef = new String.fromCharCodes([0x1D11E]);

- * clef.codeUnitAt(0); // 0xD834

- * clef.codeUnitAt(1); // 0xDD1E

- *

- * If [start] and [end] is provided, only the values of [charCodes]

- * at positions from `start` to, but not including, `end`, are used.

- * The `start` and `end` values must satisfy

- * `0 <= start <= end <= charCodes.length`.

- */

- external factory String.fromCharCodes(Iterable<int> charCodes,

- [int start = 0, int end]);

- /**

- * Allocates a new String for the specified [charCode].

- *

- * If the [charCode] can be represented by a single UTF-16 code unit, the new

- * string contains a single code unit. Otherwise, the [length] is 2 and

- * the code units form a surrogate pair. See documentation for

- * [fromCharCodes].

- *

- * Creating a String with half of a surrogate pair is allowed.

- */

- external factory String.fromCharCode(int charCode);

- /**

- * Returns the string value of the environment declaration [name].

- *

- * Environment declarations are provided by the surrounding system compiling

- * or running the Dart program. Declarations map a string key to a string

- * value.

- *

- * If [name] is not declared in the environment, the result is instead

- * [defaultValue].

- *

- * Example of getting a value:

- *

- * const String.fromEnvironment("defaultFloo", defaultValue: "no floo")

- *

- * Example of checking whether a declaration is there at all:

- *

- * var isDeclared = const String.fromEnvironment("maybeDeclared") != null;

- */

- external const factory String.fromEnvironment(String name,

- {String defaultValue});

- /**

- * Gets the character (as a single-code-unit [String]) at the given [index].

- *

- * The returned string represents exactly one UTF-16 code unit, which may be

- * half of a surrogate pair. A single member of a surrogate pair is an

- * invalid UTF-16 string:

- *

- * var clef = '\u{1D11E}';

- * // These represent invalid UTF-16 strings.

- * clef[0].codeUnits; // [0xD834]

- * clef[1].codeUnits; // [0xDD1E]

- *

- * This method is equivalent to

- * `new String.fromCharCode(this.codeUnitAt(index))`.

- */

- String operator [](int index);

- /**

- * Returns the 16-bit UTF-16 code unit at the given [index].

- */

- int codeUnitAt(int index);

- /**

- * The length of the string.

- *

- * Returns the number of UTF-16 code units in this string. The number

- * of [runes] might be fewer, if the string contains characters outside

- * the Basic Multilingual Plane (plane 0):

- *

- * 'Dart'.length; // 4

- * 'Dart'.runes.length; // 4

- *

- * var clef = '\u{1D11E}';

- * clef.length; // 2

- * clef.runes.length; // 1

- */

- int get length;

- /**

- * Returns a hash code derived from the code units of the string.

- *

- * This is compatible with [operator==]. Strings with the same sequence

- * of code units have the same hash code.

- */

- int get hashCode;

- /**

- * Returns true if other is a `String` with the same sequence of code units.

- *

- * This method compares each individual code unit of the strings.

- * It does not check for Unicode equivalence.

- * For example, both the following strings represent the string 'Amélie',

- * but due to their different encoding, are not equal:

- *

- * 'Am\xe9lie' == 'Ame\u{301}lie'; // false

- *

- * The first string encodes 'é' as a single unicode code unit (also

- * a single rune), whereas the second string encodes it as 'e' with the

- * combining accent character '◌́'.

- */

- bool operator ==(Object other);

- /**

- * Returns true if this string ends with [other]. For example:

- *

- * 'Dart'.endsWith('t'); // true

- */

- bool endsWith(String other);

- /**

- * Returns true if this string starts with a match of [pattern].

- *

- * var string = 'Dart';

- * string.startsWith('D'); // true

- * string.startsWith(new RegExp(r'[A-Z][a-z]')); // true

- *

- * If [index] is provided, this method checks if the substring starting

- * at that index starts with a match of [pattern]:

- *

- * string.startsWith('art', 1); // true

- * string.startsWith(new RegExp(r'\w{3}')); // true

- *

- * [index] must not be negative or greater than [length].

- *

- * A [RegExp] containing '^' does not match if the [index] is greater than

- * zero. The pattern works on the string as a whole, and does not extract

- * a substring starting at [index] first:

- *

- * string.startsWith(new RegExp(r'^art'), 1); // false

- * string.startsWith(new RegExp(r'art'), 1); // true

- */

- bool startsWith(Pattern pattern, [int index = 0]);

- /**

- * Returns the position of the first match of [pattern] in this string,

- * starting at [start], inclusive:

- *

- * var string = 'Dartisans';

- * string.indexOf('art'); // 1

- * string.indexOf(new RegExp(r'[A-Z][a-z]')); // 0

- *

- * Returns -1 if no match is found:

- *

- * string.indexOf(new RegExp(r'dart')); // -1

- *

- * [start] must not be negative or greater than [length].

- */

- int indexOf(Pattern pattern, [int start]);

- /**

- * Returns the position of the last match [pattern] in this string, searching

- * backward starting at [start], inclusive:

- *

- * var string = 'Dartisans';

- * string.lastIndexOf('a'); // 6

- * string.lastIndexOf(new RegExp(r'a(r|n)')); // 6

- *

- * Returns -1 if [other] could not be found.

- *

- * string.lastIndexOf(new RegExp(r'DART')); // -1

- *

- * [start] must not be negative or greater than [length].

- */

- int lastIndexOf(Pattern pattern, [int start]);

- /**

- * Returns true if this string is empty.

- */

- bool get isEmpty;

- /**

- * Returns true if this string is not empty.

- */

- bool get isNotEmpty;

- /**

- * Creates a new string by concatenating this string with [other].

- *

- * 'dart' + 'lang'; // 'dartlang'

- */

- String operator +(String other);

- /**

- * Returns the substring of this string that extends from [startIndex],

- * inclusive, to [endIndex], exclusive.

- *

- * var string = 'dartlang';

- * string.substring(1); // 'artlang'

- * string.substring(1, 4); // 'art'

- */

- String substring(int startIndex, [int endIndex]);

- /**

- * Returns the string without any leading and trailing whitespace.

- *

- * If the string contains leading or trailing whitespace, a new string with no

- * leading and no trailing whitespace is returned:

- *

- * '\tDart is fun\n'.trim(); // 'Dart is fun'

- *

- * Otherwise, the original string itself is returned:

- *

- * var str1 = 'Dart';

- * var str2 = str1.trim();

- * identical(str1, str2); // true

- *

- * Whitespace is defined by the Unicode White_Space property (as defined in

- * version 6.2 or later) and the BOM character, 0xFEFF.

- *

- * Here is the list of trimmed characters (following version 6.2):

- *

- * 0009..000D ; White_Space # Cc <control-0009>..<control-000D>

- * 0020 ; White_Space # Zs SPACE

- * 0085 ; White_Space # Cc <control-0085>

- * 00A0 ; White_Space # Zs NO-BREAK SPACE

- * 1680 ; White_Space # Zs OGHAM SPACE MARK

- * 180E ; White_Space # Zs MONGOLIAN VOWEL SEPARATOR

- * 2000..200A ; White_Space # Zs EN QUAD..HAIR SPACE

- * 2028 ; White_Space # Zl LINE SEPARATOR

- * 2029 ; White_Space # Zp PARAGRAPH SEPARATOR

- * 202F ; White_Space # Zs NARROW NO-BREAK SPACE

- * 205F ; White_Space # Zs MEDIUM MATHEMATICAL SPACE

- * 3000 ; White_Space # Zs IDEOGRAPHIC SPACE

- *

- * FEFF ; BOM ZERO WIDTH NO_BREAK SPACE

- */

- String trim();

- /**

- * Returns the string without any leading whitespace.

- *

- * As [trim], but only removes leading whitespace.

- */

- String trimLeft();

- /**

- * Returns the string without any trailing whitespace.

- *

- * As [trim], but only removes trailing whitespace.

- */

- String trimRight();

- /**

- * Creates a new string by concatenating this string with itself a number

- * of times.

- *

- * The result of `str * n` is equivalent to

- * `str + str + ...`(n times)`... + str`.

- *

- * Returns an empty string if [times] is zero or negative.

- */

- String operator *(int times);

- /**

- * Pads this string on the left if it is shorther than [width].

- *

- * Return a new string that prepends [padding] onto this string

- * one time for each position the length is less than [width].

- *

- * If [width] is already smaller than or equal to `this.length`,

- * no padding is added. A negative `width` is treated as zero.

- *

- * If [padding] has length different from 1, the result will not

- * have length `width`. This may be useful for cases where the

- * padding is a longer string representing a single character, like

- * `" "` or `"\u{10002}`".

- * In that case, the user should make sure that `this.length` is

- * the correct measure of the strings length.

- */

- String padLeft(int width, [String padding = ' ']);

- /**

- * Pads this string on the right if it is shorther than [width].

- *

- * Return a new string that appends [padding] after this string

- * one time for each position the length is less than [width].

- *

- * If [width] is already smaller than or equal to `this.length`,

- * no padding is added. A negative `width` is treated as zero.

- *

- * If [padding] has length different from 1, the result will not

- * have length `width`. This may be useful for cases where the

- * padding is a longer string representing a single character, like

- * `" "` or `"\u{10002}`".

- * In that case, the user should make sure that `this.length` is

- * the correct measure of the strings length.

- */

- String padRight(int width, [String padding = ' ']);

- /**

- * Returns true if this string contains a match of [other]:

- *

- * var string = 'Dart strings';

- * string.contains('D'); // true

- * string.contains(new RegExp(r'[A-Z]')); // true

- *

- * If [startIndex] is provided, this method matches only at or after that

- * index:

- *

- * string.contains('X', 1); // false

- * string.contains(new RegExp(r'[A-Z]'), 1); // false

- *

- * [startIndex] must not be negative or greater than [length].

- */

- bool contains(Pattern other, [int startIndex = 0]);

- /**

- * Returns a new string in which the first occurence of [from] in this string

- * is replaced with [to], starting from [startIndex]:

- *

- * '0.0001'.replaceFirst(new RegExp(r'0'), ''); // '.0001'

- * '0.0001'.replaceFirst(new RegExp(r'0'), '7', 1); // '0.7001'

- */

- String replaceFirst(Pattern from, String to, [int startIndex = 0]);

- /**

- * Replace the first occurence of [from] in this string.

- *

- * Returns a new string, which is this string

- * except that the first match of [pattern], starting from [startIndex],

- * is replaced by the result of calling [replace] with the match object.

- *

- * If the value returned by calling `replace` is not a [String], it

- * is converted to a `String` using its `toString` method, which must

- * then return a string.

- */

- String replaceFirstMapped(Pattern from, String replace(Match match),

- [int startIndex = 0]);

- /**

- * Replaces all substrings that match [from] with [replace].

- *

- * Returns a new string in which the non-overlapping substrings matching

- * [from] (the ones iterated by `from.allMatches(thisString)`) are replaced

- * by the literal string [replace].

- *

- * 'resume'.replaceAll(new RegExp(r'e'), 'é'); // 'résumé'

- *

- * Notice that the [replace] string is not interpreted. If the replacement

- * depends on the match (for example on a [RegExp]'s capture groups), use

- * the [replaceAllMapped] method instead.

- */

- String replaceAll(Pattern from, String replace);

- /**

- * Replace all substrings that match [from] by a string computed from the

- * match.

- *

- * Returns a new string in which the non-overlapping substrings that match

- * [from] (the ones iterated by `from.allMatches(thisString)`) are replaced

- * by the result of calling [replace] on the corresponding [Match] object.

- *

- * This can be used to replace matches with new content that depends on the

- * match, unlike [replaceAll] where the replacement string is always the same.

- *

- * The [replace] function is called with the [Match] generated

- * by the pattern, and its result is used as replacement.

- *

- * The function defined below converts each word in a string to simplified

- * 'pig latin' using [replaceAllMapped]:

- *

- * pigLatin(String words) => words.replaceAllMapped(

- * new RegExp(r'\b(\w*?)([aeiou]\w*)', caseSensitive: false),

- * (Match m) => "${m[2]}${m[1]}${m[1].isEmpty ? 'way' : 'ay'}");

- *

- * pigLatin('I have a secret now!'); // 'Iway avehay away ecretsay ownay!'

- */

- String replaceAllMapped(Pattern from, String replace(Match match));

- /**

- * Replaces the substring from [start] to [end] with [replacement].

- *

- * Returns a new string equivalent to:

- *

- * this.substring(0, start) + replacement + this.substring(end)

- *

- * The [start] and [end] indices must specify a valid range of this string.

- * That is `0 <= start <= end <= this.length`.

- * If [end] is `null`, it defaults to [length].

- */

- String replaceRange(int start, int end, String replacement);

- /**

- * Splits the string at matches of [pattern] and returns a list of substrings.

- *

- * Finds all the matches of `pattern` in this string,

- * and returns the list of the substrings between the matches.

- *

- * var string = "Hello world!";

- * string.split(" "); // ['Hello', 'world!'];

- *

- * Empty matches at the beginning and end of the strings are ignored,

- * and so are empty matches right after another match.

- *

- * var string = "abba";

- * string.split(new RegExp(r"b*")); // ['a', 'a']

- * // not ['', 'a', 'a', '']

- *

- * If this string is empty, the result is an empty list if `pattern` matches

- * the empty string, and it is `[""]` if the pattern doesn't match.

- *

- * var string = '';

- * string.split(''); // []

- * string.split("a"); // ['']

- *

- * Splitting with an empty pattern splits the string into single-code unit

- * strings.

- *

- * var string = 'Pub';

- * string.split(''); // ['P', 'u', 'b']

- *

- * string.codeUnits.map((unit) {

- * return new String.fromCharCode(unit);

- * }).toList(); // ['P', 'u', 'b']

- *

- * Splitting happens at UTF-16 code unit boundaries,

- * and not at rune boundaries:

- *

- * // String made up of two code units, but one rune.

- * string = '\u{1D11E}';

- * string.split('').length; // 2 surrogate values

- *

- * To get a list of strings containing the individual runes of a string,

- * you should not use split. You can instead map each rune to a string

- * as follows:

- *

- * string.runes.map((rune) => new String.fromCharCode(rune)).toList();

- */

- List<String> split(Pattern pattern);

- /**

- * Splits the string, converts its parts, and combines them into a new

- * string.

- *

- * [pattern] is used to split the string into parts and separating matches.

- *

- * Each match is converted to a string by calling [onMatch]. If [onMatch]

- * is omitted, the matched string is used.

- *

- * Each non-matched part is converted by a call to [onNonMatch]. If

- * [onNonMatch] is omitted, the non-matching part is used.

- *

- * Then all the converted parts are combined into the resulting string.

- *

- * 'Eats shoots leaves'.splitMapJoin((new RegExp(r'shoots')),

- * onMatch: (m) => '${m.group(0)}',

- * onNonMatch: (n) => '*'); // *shoots*

- */

- String splitMapJoin(Pattern pattern,

- {String onMatch(Match match),

- String onNonMatch(String nonMatch)});

- /**

- * Returns an unmodifiable list of the UTF-16 code units of this string.

- */

- List<int> get codeUnits;

- /**

- * Returns an [Iterable] of Unicode code-points of this string.

- *

- * If the string contains surrogate pairs, they are combined and returned

- * as one integer by this iterator. Unmatched surrogate halves are treated

- * like valid 16-bit code-units.

- */

- Runes get runes;

- /**

- * Converts all characters in this string to lower case.

- * If the string is already in all lower case, this method returns [:this:].

- *

- * 'ALPHABET'.toLowerCase(); // 'alphabet'

- * 'abc'.toLowerCase(); // 'abc'

- *

- * This function uses the language independent Unicode mapping and thus only

- * works in some languages.

- */

- // TODO(floitsch): document better. (See EcmaScript for description).

- String toLowerCase();

- /**

- * Converts all characters in this string to upper case.

- * If the string is already in all upper case, this method returns [:this:].

- *

- * 'alphabet'.toUpperCase(); // 'ALPHABET'

- * 'ABC'.toUpperCase(); // 'ABC'

- *

- * This function uses the language independent Unicode mapping and thus only

- * works in some languages.

- */

- // TODO(floitsch): document better. (See EcmaScript for description).

- String toUpperCase();

-/**

- * The runes (integer Unicode code points) of a [String].

- */

-class Runes extends Iterable<int> {

- final String string;

- Runes(this.string);

- RuneIterator get iterator => new RuneIterator(string);

- int get last {

- if (string.length == 0) {

- throw new StateError('No elements.');

- }

- int length = string.length;

- int code = string.codeUnitAt(length - 1);

- if (_isTrailSurrogate(code) && string.length > 1) {

- int previousCode = string.codeUnitAt(length - 2);

- if (_isLeadSurrogate(previousCode)) {

- return _combineSurrogatePair(previousCode, code);

- }

- return code;

- }

-// Is then code (a 16-bit unsigned integer) a UTF-16 lead surrogate.

-bool _isLeadSurrogate(int code) => (code & 0xFC00) == 0xD800;

-// Is then code (a 16-bit unsigned integer) a UTF-16 trail surrogate.

-bool _isTrailSurrogate(int code) => (code & 0xFC00) == 0xDC00;

-// Combine a lead and a trail surrogate value into a single code point.

-int _combineSurrogatePair(int start, int end) {

- return 0x10000 + ((start & 0x3FF) << 10) + (end & 0x3FF);

-/** [Iterator] for reading runes (integer Unicode code points) out of a Dart

- * string.

- */

-class RuneIterator implements BidirectionalIterator<int> {

- /** String being iterated. */

- final String string;

- /** Position before the current code point. */

- int _position;

- /** Position after the current code point. */

- int _nextPosition;

- /**

- * Current code point.

- *

- * If the iterator has hit either end, the [_currentCodePoint] is null

- * and [: _position == _nextPosition :].

- */

- int _currentCodePoint;

- /** Create an iterator positioned at the beginning of the string. */

- RuneIterator(String string)

- : this.string = string, _position = 0, _nextPosition = 0;

- /**

- * Create an iterator positioned before the [index]th code unit of the string.

- *

- * When created, there is no [current] value.

- * A [moveNext] will use the rune starting at [index] the current value,

- * and a [movePrevious] will use the rune ending just before [index] as the

- * the current value.

- *

- * The [index] position must not be in the middle of a surrogate pair.

- */

- RuneIterator.at(String string, int index)

- : string = string, _position = index, _nextPosition = index {

- RangeError.checkValueInInterval(index, 0, string.length);

- _checkSplitSurrogate(index);

- }

- /** Throw an error if the index is in the middle of a surrogate pair. */

- void _checkSplitSurrogate(int index) {

- if (index > 0 && index < string.length &&

- _isLeadSurrogate(string.codeUnitAt(index - 1)) &&

- _isTrailSurrogate(string.codeUnitAt(index))) {

- throw new ArgumentError('Index inside surrogate pair: $index');

- }

- /**

- * Returns the starting position of the current rune in the string.

- *

- * Returns null if the [current] rune is null.

- */

- int get rawIndex => (_position != _nextPosition) ? _position : null;

- /**

- * Resets the iterator to the rune at the specified index of the string.

- *

- * Setting a negative [rawIndex], or one greater than or equal to

- * [:string.length:],

- * is an error. So is setting it in the middle of a surrogate pair.

- *

- * Setting the position to the end of then string will set [current] to null.

- */

- void set rawIndex(int rawIndex) {

- RangeError.checkValidIndex(rawIndex, string, "rawIndex");

- reset(rawIndex);

- moveNext();

- }

- /**

- * Resets the iterator to the given index into the string.

- *

- * After this the [current] value is unset.

- * You must call [moveNext] make the rune at the position current,

- * or [movePrevious] for the last rune before the position.

- *

- * Setting a negative [rawIndex], or one greater than [:string.length:],

- * is an error. So is setting it in the middle of a surrogate pair.

- */

- void reset([int rawIndex = 0]) {

- RangeError.checkValueInInterval(rawIndex, 0, string.length, "rawIndex");

- _checkSplitSurrogate(rawIndex);

- _position = _nextPosition = rawIndex;

- _currentCodePoint = null;

- }

- /** The rune (integer Unicode code point) starting at the current position in

- * the string.

- */

- int get current => _currentCodePoint;

- /**

- * The number of code units comprising the current rune.

- *

- * Returns zero if there is no current rune ([current] is null).

- */

- int get currentSize => _nextPosition - _position;

- /**

- * A string containing the current rune.

- *

- * For runes outside the basic multilingual plane, this will be

- * a String of length 2, containing two code units.

- *

- * Returns null if [current] is null.

- */

- String get currentAsString {

- if (_position == _nextPosition) return null;

- if (_position + 1 == _nextPosition) return string[_position];

- return string.substring(_position, _nextPosition);

- }

- bool moveNext() {

- _position = _nextPosition;

- if (_position == string.length) {

- _currentCodePoint = null;

- return false;

- }

- int codeUnit = string.codeUnitAt(_position);

- int nextPosition = _position + 1;

- if (_isLeadSurrogate(codeUnit) && nextPosition < string.length) {

- int nextCodeUnit = string.codeUnitAt(nextPosition);

- if (_isTrailSurrogate(nextCodeUnit)) {

- _nextPosition = nextPosition + 1;

- _currentCodePoint = _combineSurrogatePair(codeUnit, nextCodeUnit);

- return true;

- }

- _nextPosition = nextPosition;

- _currentCodePoint = codeUnit;

- return true;

- }

- bool movePrevious() {

- _nextPosition = _position;

- if (_position == 0) {

- _currentCodePoint = null;

- return false;

- }

- int position = _position - 1;

- int codeUnit = string.codeUnitAt(position);

- if (_isTrailSurrogate(codeUnit) && position > 0) {

- int prevCodeUnit = string.codeUnitAt(position - 1);

- if (_isLeadSurrogate(prevCodeUnit)) {

- _position = position - 1;

- _currentCodePoint = _combineSurrogatePair(prevCodeUnit, codeUnit);

- return true;

- }

- _position = position;

- _currentCodePoint = codeUnit;

- return true;

- }