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// 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.
part of dart.convert;
// Character constants.
const int _LF = 10;
const int _CR = 13;
/// A [StreamTransformer] that splits a [String] into individual lines.
///
/// A line is terminated by either a CR (U+000D), a LF (U+000A), a
/// CR+LF sequence (DOS line ending),
/// and a final non-empty line can be ended by the end of the string.
///
/// The returned lines do not contain the line terminators.
class LineSplitter extends StreamTransformerBase<String, String> {
const LineSplitter();
/// Split [lines] into individual lines.
///
/// If [start] and [end] are provided, only split the contents of
/// `lines.substring(start, end)`. The [start] and [end] values must
/// specify a valid sub-range of [lines]
/// (`0 <= start <= end <= lines.length`).
static Iterable<String> split(String lines, [int start = 0, int? end]) sync* {
end = RangeError.checkValidRange(start, end, lines.length);
// TODO(38725): Remove workaround when assignment promotion is implemented
if (end == null) {
throw RangeError("Invalid range");
}
var sliceStart = start;
var char = 0;
for (var i = start; i < end; i++) {
var previousChar = char;
char = lines.codeUnitAt(i);
if (char != _CR) {
if (char != _LF) continue;
if (previousChar == _CR) {
sliceStart = i + 1;
continue;
}
}
yield lines.substring(sliceStart, i);
sliceStart = i + 1;
}
if (sliceStart < end) {
yield lines.substring(sliceStart, end);
}
}
List<String> convert(String data) {
var lines = <String>[];
var end = data.length;
var sliceStart = 0;
var char = 0;
for (var i = 0; i < end; i++) {
var previousChar = char;
char = data.codeUnitAt(i);
if (char != _CR) {
if (char != _LF) continue;
if (previousChar == _CR) {
sliceStart = i + 1;
continue;
}
}
lines.add(data.substring(sliceStart, i));
sliceStart = i + 1;
}
if (sliceStart < end) {
lines.add(data.substring(sliceStart, end));
}
return lines;
}
StringConversionSink startChunkedConversion(Sink<String> sink) {
return _LineSplitterSink(
sink is StringConversionSink ? sink : StringConversionSink.from(sink));
}
Stream<String> bind(Stream<String> stream) {
return Stream<String>.eventTransformed(
stream, (EventSink<String> sink) => _LineSplitterEventSink(sink));
}
}
// TODO(floitsch): deal with utf8.
class _LineSplitterSink extends StringConversionSinkBase {
final StringConversionSink _sink;
/// The carry-over from the previous chunk.
///
/// If the previous slice ended in a line without a line terminator,
/// then the next slice may continue the line.
String? _carry;
/// Whether to skip a leading LF character from the next slice.
///
/// If the previous slice ended on a CR character, a following LF
/// would be part of the same line termination, and should be ignored.
///
/// Only `true` when [_carry] is `null`.
bool _skipLeadingLF = false;
_LineSplitterSink(this._sink);
void addSlice(String chunk, int start, int end, bool isLast) {
end = RangeError.checkValidRange(start, end, chunk.length);
// If the chunk is empty, it's probably because it's the last one.
// Handle that here, so we know the range is non-empty below.
if (start >= end) {
if (isLast) close();
return;
}
String? carry = _carry;
if (carry != null) {
assert(!_skipLeadingLF);
chunk = carry + chunk.substring(start, end);
start = 0;
end = chunk.length;
_carry = null;
} else if (_skipLeadingLF) {
if (chunk.codeUnitAt(start) == _LF) {
start += 1;
}
_skipLeadingLF = false;
}
_addLines(chunk, start, end);
if (isLast) close();
}
void close() {
if (_carry != null) {
_sink.add(_carry!);
_carry = null;
}
_sink.close();
}
void _addLines(String lines, int start, int end) {
var sliceStart = start;
var char = 0;
for (var i = start; i < end; i++) {
var previousChar = char;
char = lines.codeUnitAt(i);
if (char != _CR) {
if (char != _LF) continue;
if (previousChar == _CR) {
sliceStart = i + 1;
continue;
}
}
_sink.add(lines.substring(sliceStart, i));
sliceStart = i + 1;
}
if (sliceStart < end) {
_carry = lines.substring(sliceStart, end);
} else {
_skipLeadingLF = (char == _CR);
}
}
}
class _LineSplitterEventSink extends _LineSplitterSink
implements EventSink<String> {
final EventSink<String> _eventSink;
_LineSplitterEventSink(EventSink<String> eventSink)
: _eventSink = eventSink,
super(StringConversionSink.from(eventSink));
void addError(Object o, [StackTrace? stackTrace]) {
_eventSink.addError(o, stackTrace);
}
}