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dart / sdk.git / refs/tags/2.14.0-126.0.dev / . / pkg / kernel / lib / text / serializer_combinators.dart
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// Copyright (c) 2018, 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.
library kernel.serializer_combinators;
import 'dart:convert' show json;
import '../ast.dart' show Node;
import '../canonical_name.dart' show CanonicalName;
import 'text_serializer.dart' show Tagger;
class DeserializationEnvironment<T extends Node> {
final DeserializationEnvironment<T>? parent;
final Map<String, T> locals = <String, T>{};
final Map<String, T> binders = <String, T>{};
final Map<T, String> distinctNames = new Map<T, String>.identity();
DeserializationEnvironment(this.parent);
T lookup(String name) =>
locals[name] ??
parent?.lookup(name) ??
(throw StateError("No local '${name}' found in this scope."));
T addBinder(T node, String distinctName) {
if (lookupDistinctName(node) != null) {
throw StateError(
"Name '${distinctName}' is already declared in this scope.");
}
distinctNames[node] = distinctName;
return binders[distinctName] = node;
}
// TODO(dmitryas): Consider combining with [addBinder] into a single method.
void extend() {
locals.addAll(binders);
binders.clear();
}
String? lookupDistinctName(T object) {
return distinctNames[object] ?? parent?.lookupDistinctName(object);
}
}
class SerializationEnvironment<T extends Node> {
final SerializationEnvironment<T>? parent;
final Map<T, String> locals = new Map<T, String>.identity();
final Map<T, String> binders = new Map<T, String>.identity();
int nameCount;
Map<T, String> distinctNames = new Map<T, String>.identity();
SerializationEnvironment(this.parent) : nameCount = parent?.nameCount ?? 0;
String lookup(T node) =>
locals[node] ??
parent?.lookup(node) ??
(throw StateError("No name for ${node} found in this scope."));
String addBinder(T node, {String? nameClue}) {
final String separator = "^";
final int codeOfZero = "0".codeUnitAt(0);
final int codeOfNine = "9".codeUnitAt(0);
String prefix;
if (nameClue != null) {
int prefixLength = nameClue.length - 1;
bool isOnlyDigits = true;
while (prefixLength >= 0 && nameClue[prefixLength] != separator) {
int code = nameClue.codeUnitAt(prefixLength);
isOnlyDigits =
isOnlyDigits && (codeOfZero <= code && code <= codeOfNine);
--prefixLength;
}
if (prefixLength < 0 || !isOnlyDigits) {
prefixLength = nameClue.length;
}
prefix = nameClue.substring(0, prefixLength);
} else {
prefix = "ID";
}
String distinctName = "$prefix$separator${nameCount++}";
// The following checks for an internal error, not an error caused by the
// user. So, an assert is used instead of an exception.
assert(
lookupDistinctName(node) == null,
"Can't assign distinct name '${distinctName}' "
"to an object of kind '${node.runtimeType}': "
"it's already known by name '${lookupDistinctName(node)}'.");
distinctNames[node] = distinctName;
return binders[node] = distinctName;
}
// TODO(dmitryas): Consider combining with [addBinder] into a single method.
void extend() {
locals.addAll(binders);
binders.clear();
}
String? lookupDistinctName(T object) {
return distinctNames[object] ?? parent?.lookupDistinctName(object);
}
}
class DeserializationState {
final DeserializationEnvironment environment;
final CanonicalName nameRoot;
DeserializationState(this.environment, this.nameRoot);
}
class SerializationState {
final SerializationEnvironment environment;
SerializationState(this.environment);
}
abstract class TextSerializer<T> {
const TextSerializer();
T readFrom(Iterator<Object?> stream, DeserializationState? state);
void writeTo(StringBuffer buffer, T object, SerializationState? state);
/// True if this serializer/deserializer writes/reads nothing. This is true
/// for the serializer [Nothing] and also some serializers derived from it.
bool get isEmpty => false;
}
class Nothing extends TextSerializer<void> {
const Nothing();
void readFrom(Iterator<Object?> stream, DeserializationState? _) {}
void writeTo(StringBuffer buffer, void ignored, SerializationState? _) {}
bool get isEmpty => true;
}
class DartString extends TextSerializer<String> {
const DartString();
String readFrom(Iterator<Object?> stream, DeserializationState? _) {
Object? current = stream.current;
if (current is! String) {
throw StateError("Expected an atom, found a list: '${current}'.");
}
String result = json.decode(current);
stream.moveNext();
return result;
}
void writeTo(StringBuffer buffer, String object, SerializationState? _) {
buffer.write(json.encode(object));
}
}
class DartInt extends TextSerializer<int> {
const DartInt();
int readFrom(Iterator<Object?> stream, DeserializationState? _) {
Object? current = stream.current;
if (current is! String) {
throw StateError("Expected an atom, found a list: '${current}'.");
}
int result = int.parse(current);
stream.moveNext();
return result;
}
void writeTo(StringBuffer buffer, int object, SerializationState? _) {
buffer.write(object);
}
}
class DartDouble extends TextSerializer<double> {
const DartDouble();
double readFrom(Iterator<Object?> stream, DeserializationState? _) {
Object? current = stream.current;
if (current is! String) {
throw StateError("Expected an atom, found a list: '${current}'.");
}
double result = double.parse(current);
stream.moveNext();
return result;
}
void writeTo(StringBuffer buffer, double object, SerializationState? _) {
buffer.write(object);
}
}
class DartBool extends TextSerializer<bool> {
const DartBool();
bool readFrom(Iterator<Object?> stream, DeserializationState? _) {
Object? current = stream.current;
if (current is! String) {
throw StateError("Expected an atom, found a list: '${current}'.");
}
bool result;
if (current == "true") {
result = true;
} else if (current == "false") {
result = false;
} else {
throw StateError("Expected 'true' or 'false', found '${current}'");
}
stream.moveNext();
return result;
}
void writeTo(StringBuffer buffer, bool object, SerializationState? _) {
buffer.write(object ? 'true' : 'false');
}
}
class UriSerializer extends TextSerializer<Uri> {
const UriSerializer();
Uri readFrom(Iterator<Object?> stream, DeserializationState? state) {
String uriAsString = const DartString().readFrom(stream, state);
return Uri.parse(uriAsString);
}
void writeTo(StringBuffer buffer, Uri object, SerializationState? state) {
const DartString().writeTo(buffer, object.toString(), state);
}
}
// == Serializers for tagged (disjoint) unions.
//
// They require a function mapping serializables to a tag string. This is
// implemented by Tagger visitors.
// A tagged union of serializer/deserializers.
class Case<T> extends TextSerializer<T> {
final Tagger<T> tagger;
final List<String> _tags;
final List<TextSerializer<T>> _serializers;
Case(this.tagger, Map<String, TextSerializer<T>> tagsAndSerializers)
: _tags = tagsAndSerializers.keys.toList(),
_serializers = tagsAndSerializers.values.toList();
Case.uninitialized(this.tagger)
: _tags = [],
_serializers = [];
void registerTags(Map<String, TextSerializer<T>> tagsAndSerializers) {
_tags.addAll(tagsAndSerializers.keys);
_serializers.addAll(tagsAndSerializers.values);
}
T readFrom(Iterator<Object?> stream, DeserializationState? state) {
Object? iterator = stream.current;
if (iterator is! Iterator<Object?>) {
throw StateError("Expected list, found atom: '${iterator}'.");
}
iterator.moveNext();
Object? element = iterator.current;
if (element is! String) {
throw StateError("Expected atom, found list: '${element}'.");
}
String tag = element;
for (int i = 0; i < _tags.length; ++i) {
if (_tags[i] == tag) {
iterator.moveNext();
T result = _serializers[i].readFrom(iterator, state);
if (iterator.moveNext()) {
throw StateError(
"Extra data in tagged '${tag}': '${iterator.current}'.");
}
stream.moveNext();
return result;
}
}
throw StateError("Unrecognized tag '${tag}'.");
}
void writeTo(StringBuffer buffer, T object, SerializationState? state) {
String tag = tagger.tag(object);
for (int i = 0; i < _tags.length; ++i) {
if (_tags[i] == tag) {
buffer.write("(${tag}");
if (!_serializers[i].isEmpty) {
buffer.write(" ");
}
_serializers[i].writeTo(buffer, object, state);
buffer.write(")");
return;
}
}
throw StateError("Unrecognized tag '${tag}'.");
}
}
// A serializer/deserializer that unwraps/wraps nodes before serialization and
// after deserialization.
class Wrapped<S, K> extends TextSerializer<K> {
final S Function(K) unwrap;
final K Function(S) wrap;
final TextSerializer<S> contents;
const Wrapped(this.unwrap, this.wrap, this.contents);
K readFrom(Iterator<Object?> stream, DeserializationState? state) {
return wrap(contents.readFrom(stream, state));
}
void writeTo(StringBuffer buffer, K object, SerializationState? state) {
contents.writeTo(buffer, unwrap(object), state);
}
bool get isEmpty => contents.isEmpty;
}
class ScopedUse<T extends Node> extends TextSerializer<T> {
final DartString stringSerializer = const DartString();
const ScopedUse();
T readFrom(Iterator<Object?> stream, DeserializationState? state) {
if (state == null) {
throw StateError(
"No deserialization state provided for ${runtimeType}.readFrom.");
}
return state.environment.lookup(stringSerializer.readFrom(stream, null))
as T;
}
void writeTo(StringBuffer buffer, T object, SerializationState? state) {
if (state == null) {
throw StateError(
"No serialization state provided for ${runtimeType}.writeTo.");
}
stringSerializer.writeTo(buffer, state.environment.lookup(object), null);
}
}
// A serializer/deserializer for pairs.
class Tuple2Serializer<T1, T2> extends TextSerializer<Tuple2<T1, T2>> {
final TextSerializer<T1> first;
final TextSerializer<T2> second;
const Tuple2Serializer(this.first, this.second);
Tuple2<T1, T2> readFrom(
Iterator<Object?> stream, DeserializationState? state) {
return new Tuple2(
first.readFrom(stream, state), second.readFrom(stream, state));
}
void writeTo(
StringBuffer buffer, Tuple2<T1, T2> object, SerializationState? state) {
first.writeTo(buffer, object.first, state);
if (!second.isEmpty) buffer.write(' ');
second.writeTo(buffer, object.second, state);
}
}
class Tuple2<T1, T2> {
final T1 first;
final T2 second;
const Tuple2(this.first, this.second);
}
class Tuple3Serializer<T1, T2, T3> extends TextSerializer<Tuple3<T1, T2, T3>> {
final TextSerializer<T1> first;
final TextSerializer<T2> second;
final TextSerializer<T3> third;
const Tuple3Serializer(this.first, this.second, this.third);
Tuple3<T1, T2, T3> readFrom(
Iterator<Object?> stream, DeserializationState? state) {
return new Tuple3(first.readFrom(stream, state),
second.readFrom(stream, state), third.readFrom(stream, state));
}
void writeTo(StringBuffer buffer, Tuple3<T1, T2, T3> object,
SerializationState? state) {
first.writeTo(buffer, object.first, state);
if (!second.isEmpty) buffer.write(' ');
second.writeTo(buffer, object.second, state);
if (!third.isEmpty) buffer.write(' ');
third.writeTo(buffer, object.third, state);
}
}
class Tuple3<T1, T2, T3> {
final T1 first;
final T2 second;
final T3 third;
const Tuple3(this.first, this.second, this.third);
}
class Tuple4Serializer<T1, T2, T3, T4>
extends TextSerializer<Tuple4<T1, T2, T3, T4>> {
final TextSerializer<T1> first;
final TextSerializer<T2> second;
final TextSerializer<T3> third;
final TextSerializer<T4> fourth;
const Tuple4Serializer(this.first, this.second, this.third, this.fourth);
Tuple4<T1, T2, T3, T4> readFrom(
Iterator<Object?> stream, DeserializationState? state) {
return new Tuple4(
first.readFrom(stream, state),
second.readFrom(stream, state),
third.readFrom(stream, state),
fourth.readFrom(stream, state));
}
void writeTo(StringBuffer buffer, Tuple4<T1, T2, T3, T4> object,
SerializationState? state) {
first.writeTo(buffer, object.first, state);
if (!second.isEmpty) buffer.write(' ');
second.writeTo(buffer, object.second, state);
if (!third.isEmpty) buffer.write(' ');
third.writeTo(buffer, object.third, state);
if (!fourth.isEmpty) buffer.write(' ');
fourth.writeTo(buffer, object.fourth, state);
}
}
class Tuple4<T1, T2, T3, T4> {
final T1 first;
final T2 second;
final T3 third;
final T4 fourth;
const Tuple4(this.first, this.second, this.third, this.fourth);
}
class Tuple5Serializer<T1, T2, T3, T4, T5>
extends TextSerializer<Tuple5<T1, T2, T3, T4, T5>> {
final TextSerializer<T1> first;
final TextSerializer<T2> second;
final TextSerializer<T3> third;
final TextSerializer<T4> fourth;
final TextSerializer<T5> fifth;
const Tuple5Serializer(
this.first, this.second, this.third, this.fourth, this.fifth);
Tuple5<T1, T2, T3, T4, T5> readFrom(
Iterator<Object?> stream, DeserializationState? state) {
return new Tuple5(
first.readFrom(stream, state),
second.readFrom(stream, state),
third.readFrom(stream, state),
fourth.readFrom(stream, state),
fifth.readFrom(stream, state));
}
void writeTo(StringBuffer buffer, Tuple5<T1, T2, T3, T4, T5> object,
SerializationState? state) {
first.writeTo(buffer, object.first, state);
if (!second.isEmpty) buffer.write(' ');
second.writeTo(buffer, object.second, state);
if (!third.isEmpty) buffer.write(' ');
third.writeTo(buffer, object.third, state);
if (!fourth.isEmpty) buffer.write(' ');
fourth.writeTo(buffer, object.fourth, state);
if (!fifth.isEmpty) buffer.write(' ');
fifth.writeTo(buffer, object.fifth, state);
}
}
class Tuple5<T1, T2, T3, T4, T5> {
final T1 first;
final T2 second;
final T3 third;
final T4 fourth;
final T5 fifth;
const Tuple5(this.first, this.second, this.third, this.fourth, this.fifth);
}
class Tuple6Serializer<T1, T2, T3, T4, T5, T6>
extends TextSerializer<Tuple6<T1, T2, T3, T4, T5, T6>> {
final TextSerializer<T1> first;
final TextSerializer<T2> second;
final TextSerializer<T3> third;
final TextSerializer<T4> fourth;
final TextSerializer<T5> fifth;
final TextSerializer<T6> sixth;
const Tuple6Serializer(
this.first, this.second, this.third, this.fourth, this.fifth, this.sixth);
Tuple6<T1, T2, T3, T4, T5, T6> readFrom(
Iterator<Object?> stream, DeserializationState? state) {
return new Tuple6(
first.readFrom(stream, state),
second.readFrom(stream, state),
third.readFrom(stream, state),
fourth.readFrom(stream, state),
fifth.readFrom(stream, state),
sixth.readFrom(stream, state));
}
void writeTo(StringBuffer buffer, Tuple6<T1, T2, T3, T4, T5, T6> object,
SerializationState? state) {
first.writeTo(buffer, object.first, state);
if (!second.isEmpty) buffer.write(' ');
second.writeTo(buffer, object.second, state);
if (!third.isEmpty) buffer.write(' ');
third.writeTo(buffer, object.third, state);
if (!fourth.isEmpty) buffer.write(' ');
fourth.writeTo(buffer, object.fourth, state);
if (!fifth.isEmpty) buffer.write(' ');
fifth.writeTo(buffer, object.fifth, state);
if (!sixth.isEmpty) buffer.write(' ');
sixth.writeTo(buffer, object.sixth, state);
}
}
class Tuple6<T1, T2, T3, T4, T5, T6> {
final T1 first;
final T2 second;
final T3 third;
final T4 fourth;
final T5 fifth;
final T6 sixth;
const Tuple6(
this.first, this.second, this.third, this.fourth, this.fifth, this.sixth);
}
class Tuple7Serializer<T1, T2, T3, T4, T5, T6, T7>
extends TextSerializer<Tuple7<T1, T2, T3, T4, T5, T6, T7>> {
final TextSerializer<T1> first;
final TextSerializer<T2> second;
final TextSerializer<T3> third;
final TextSerializer<T4> fourth;
final TextSerializer<T5> fifth;
final TextSerializer<T6> sixth;
final TextSerializer<T7> seventh;
const Tuple7Serializer(this.first, this.second, this.third, this.fourth,
this.fifth, this.sixth, this.seventh);
Tuple7<T1, T2, T3, T4, T5, T6, T7> readFrom(
Iterator<Object?> stream, DeserializationState? state) {
return new Tuple7(
first.readFrom(stream, state),
second.readFrom(stream, state),
third.readFrom(stream, state),
fourth.readFrom(stream, state),
fifth.readFrom(stream, state),
sixth.readFrom(stream, state),
seventh.readFrom(stream, state));
}
void writeTo(StringBuffer buffer, Tuple7<T1, T2, T3, T4, T5, T6, T7> object,
SerializationState? state) {
first.writeTo(buffer, object.first, state);
if (!second.isEmpty) buffer.write(' ');
second.writeTo(buffer, object.second, state);
if (!third.isEmpty) buffer.write(' ');
third.writeTo(buffer, object.third, state);
if (!fourth.isEmpty) buffer.write(' ');
fourth.writeTo(buffer, object.fourth, state);
if (!fifth.isEmpty) buffer.write(' ');
fifth.writeTo(buffer, object.fifth, state);
if (!sixth.isEmpty) buffer.write(' ');
sixth.writeTo(buffer, object.sixth, state);
if (!seventh.isEmpty) buffer.write(' ');
seventh.writeTo(buffer, object.seventh, state);
}
}
class Tuple7<T1, T2, T3, T4, T5, T6, T7> {
final T1 first;
final T2 second;
final T3 third;
final T4 fourth;
final T5 fifth;
final T6 sixth;
final T7 seventh;
const Tuple7(this.first, this.second, this.third, this.fourth, this.fifth,
this.sixth, this.seventh);
}
class Tuple8Serializer<T1, T2, T3, T4, T5, T6, T7, T8>
extends TextSerializer<Tuple8<T1, T2, T3, T4, T5, T6, T7, T8>> {
final TextSerializer<T1> first;
final TextSerializer<T2> second;
final TextSerializer<T3> third;
final TextSerializer<T4> fourth;
final TextSerializer<T5> fifth;
final TextSerializer<T6> sixth;
final TextSerializer<T7> seventh;
final TextSerializer<T8> eighth;
const Tuple8Serializer(this.first, this.second, this.third, this.fourth,
this.fifth, this.sixth, this.seventh, this.eighth);
Tuple8<T1, T2, T3, T4, T5, T6, T7, T8> readFrom(
Iterator<Object?> stream, DeserializationState? state) {
return new Tuple8(
first.readFrom(stream, state),
second.readFrom(stream, state),
third.readFrom(stream, state),
fourth.readFrom(stream, state),
fifth.readFrom(stream, state),
sixth.readFrom(stream, state),
seventh.readFrom(stream, state),
eighth.readFrom(stream, state));
}
void writeTo(
StringBuffer buffer,
Tuple8<T1, T2, T3, T4, T5, T6, T7, T8> object,
SerializationState? state) {
first.writeTo(buffer, object.first, state);
if (!second.isEmpty) buffer.write(' ');
second.writeTo(buffer, object.second, state);
if (!third.isEmpty) buffer.write(' ');
third.writeTo(buffer, object.third, state);
if (!fourth.isEmpty) buffer.write(' ');
fourth.writeTo(buffer, object.fourth, state);
if (!fifth.isEmpty) buffer.write(' ');
fifth.writeTo(buffer, object.fifth, state);
if (!sixth.isEmpty) buffer.write(' ');
sixth.writeTo(buffer, object.sixth, state);
if (!seventh.isEmpty) buffer.write(' ');
seventh.writeTo(buffer, object.seventh, state);
if (!eighth.isEmpty) buffer.write(' ');
eighth.writeTo(buffer, object.eighth, state);
}
}
class Tuple8<T1, T2, T3, T4, T5, T6, T7, T8> {
final T1 first;
final T2 second;
final T3 third;
final T4 fourth;
final T5 fifth;
final T6 sixth;
final T7 seventh;
final T8 eighth;
const Tuple8(this.first, this.second, this.third, this.fourth, this.fifth,
this.sixth, this.seventh, this.eighth);
}
// A serializer/deserializer for lists.
class ListSerializer<T> extends TextSerializer<List<T>> {
final TextSerializer<T> elements;
const ListSerializer(this.elements);
List<T> readFrom(Iterator<Object?> stream, DeserializationState? state) {
Object? iterator = stream.current;
if (iterator is! Iterator<Object?>) {
throw StateError("Expected a list, found an atom: '${iterator}'.");
}
iterator.moveNext();
List<T> result = [];
while (iterator.current != null) {
result.add(elements.readFrom(iterator, state));
}
stream.moveNext();
return result;
}
void writeTo(StringBuffer buffer, List<T> object, SerializationState? state) {
buffer.write('(');
for (int i = 0; i < object.length; ++i) {
if (i != 0) buffer.write(' ');
elements.writeTo(buffer, object[i], state);
}
buffer.write(')');
}
}
class Optional<T> extends TextSerializer<T?> {
final TextSerializer<T> contents;
const Optional(this.contents);
T? readFrom(Iterator<Object?> stream, DeserializationState? state) {
if (stream.current == '_') {
stream.moveNext();
return null;
}
return contents.readFrom(stream, state);
}
void writeTo(StringBuffer buffer, T? object, SerializationState? state) {
if (object == null) {
buffer.write('_');
} else {
contents.writeTo(buffer, object, state);
}
}
}
/// Introduces a binder to the environment.
///
/// Serializes an object and uses it as a binder for the name that is retrieved
/// from the object using [nameGetter] and (temporarily) modified using
/// [nameSetter]. The binder is added to the enclosing environment.
class Binder<T extends Node> extends TextSerializer<Tuple2<String, T>> {
final Tuple2Serializer<String, T> namedContents;
Binder(TextSerializer<T> contents)
: namedContents = new Tuple2Serializer(const DartString(), contents);
Tuple2<String, T> readFrom(
Iterator<Object?> stream, DeserializationState? state) {
if (state == null) {
throw StateError(
"No deserialization state provided for ${runtimeType}.readFrom.");
}
Tuple2<String, T> namedObject = namedContents.readFrom(stream, state);
String name = namedObject.first;
T object = namedObject.second;
state.environment.addBinder(object, name);
return new Tuple2(name, object);
}
void writeTo(StringBuffer buffer, Tuple2<String, T> namedObject,
SerializationState? state) {
if (state == null) {
throw StateError(
"No serialization state provided for ${runtimeType}.writeTo.");
}
String nameClue = namedObject.first;
T object = namedObject.second;
String distinctName =
state.environment.addBinder(object, nameClue: nameClue);
namedContents.writeTo(buffer, new Tuple2(distinctName, object), state);
}
}
/// Binds binders from one term in the other.
///
/// Serializes a [Tuple2] of [pattern] and [term], closing [term] over the
/// binders found in [pattern]. The binders aren't added to the enclosing
/// environment.
class Bind<P, T> extends TextSerializer<Tuple2<P, T>> {
final TextSerializer<P> pattern;
final TextSerializer<T> term;
const Bind(this.pattern, this.term);
Tuple2<P, T> readFrom(Iterator<Object?> stream, DeserializationState? state) {
if (state == null) {
throw StateError(
"No deserialization state provided for ${runtimeType}.readFrom.");
}
DeserializationState bindingState = new DeserializationState(
new DeserializationEnvironment(state.environment), state.nameRoot);
P first = pattern.readFrom(stream, bindingState);
bindingState.environment.extend();
T second = term.readFrom(stream, bindingState);
return new Tuple2(first, second);
}
void writeTo(
StringBuffer buffer, Tuple2<P, T> tuple, SerializationState? state) {
if (state == null) {
throw StateError(
"No serialization state provided for ${runtimeType}.writeTo.");
}
SerializationState bindingState =
new SerializationState(new SerializationEnvironment(state.environment));
pattern.writeTo(buffer, tuple.first, bindingState);
bindingState.environment.extend();
buffer.write(' ');
term.writeTo(buffer, tuple.second, bindingState);
}
}
/// Nested binding pattern that also binds binders from one term in the other.
///
/// Serializes a [Tuple2] of [pattern1] and [pattern2], closing [pattern2] over
/// the binders found in [pattern1]. The binders from both [pattern1] and
/// [pattern2] are added to the enclosing environment.
class Rebind<P, T> extends TextSerializer<Tuple2<P, T>> {
final TextSerializer<P> pattern1;
final TextSerializer<T> pattern2;
const Rebind(this.pattern1, this.pattern2);
Tuple2<P, T> readFrom(Iterator<Object?> stream, DeserializationState? state) {
if (state == null) {
throw StateError(
"No deserialization state provided for ${runtimeType}.readFrom.");
}
P first = pattern1.readFrom(stream, state);
DeserializationState closedState = new DeserializationState(
new DeserializationEnvironment(state.environment)
..binders.addAll(state.environment.binders)
..extend(),
state.nameRoot);
T second = pattern2.readFrom(stream, closedState);
state.environment.binders.addAll(closedState.environment.binders);
return new Tuple2(first, second);
}
void writeTo(
StringBuffer buffer, Tuple2<P, T> tuple, SerializationState? state) {
if (state == null) {
throw StateError(
"No serialization state provided for ${runtimeType}.writeTo.");
}
pattern1.writeTo(buffer, tuple.first, state);
SerializationState closedState =
new SerializationState(new SerializationEnvironment(state.environment)
..binders.addAll(state.environment.binders)
..extend());
buffer.write(' ');
pattern2.writeTo(buffer, tuple.second, closedState);
state.environment.binders.addAll(closedState.environment.binders);
}
}
class Zip<T, T1, T2> extends TextSerializer<List<T>> {
final TextSerializer<Tuple2<List<T1>, List<T2>>> lists;
final T Function(T1, T2) zip;
final Tuple2<T1, T2> Function(T) unzip;
const Zip(this.lists, this.zip, this.unzip);
List<T> readFrom(Iterator<Object?> stream, DeserializationState? state) {
Tuple2<List<T1>, List<T2>> toZip = lists.readFrom(stream, state);
List<T1> firsts = toZip.first;
List<T> zipped;
if (firsts.isEmpty) {
zipped = <T>[];
} else {
List<T2> seconds = toZip.second;
zipped =
new List<T>.filled(toZip.first.length, zip(firsts[0], seconds[0]));
for (int i = 1; i < zipped.length; ++i) {
zipped[i] = zip(firsts[i], seconds[i]);
}
}
return zipped;
}
void writeTo(StringBuffer buffer, List<T> zipped, SerializationState? state) {
List<T1> firsts;
List<T2> seconds;
if (zipped.isEmpty) {
firsts = <T1>[];
seconds = <T2>[];
} else {
Tuple2<T1, T2> initial = unzip(zipped[0]);
firsts = new List<T1>.filled(zipped.length, initial.first);
seconds = new List<T2>.filled(zipped.length, initial.second);
for (int i = 1; i < zipped.length; ++i) {
Tuple2<T1, T2> tuple = unzip(zipped[i]);
firsts[i] = tuple.first;
seconds[i] = tuple.second;
}
}
lists.writeTo(buffer, new Tuple2(firsts, seconds), state);
}
}