com.google.javascript.jscomp.JsIterables Maven / Gradle / Ivy
Show all versions of closure-compiler-linter Show documentation
/*
* Copyright 2014 The Closure Compiler Authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.google.javascript.jscomp;
import static com.google.javascript.rhino.jstype.JSTypeNative.ASYNC_ITERABLE_TYPE;
import static com.google.javascript.rhino.jstype.JSTypeNative.ITERABLE_TYPE;
import static com.google.javascript.rhino.jstype.JSTypeNative.UNKNOWN_TYPE;
import com.google.javascript.rhino.jstype.JSType;
import com.google.javascript.rhino.jstype.JSTypeNative;
import com.google.javascript.rhino.jstype.JSTypeRegistry;
import com.google.javascript.rhino.jstype.TemplateTypeMap;
import java.util.ArrayList;
import java.util.List;
/**
* Models type transformations of JavaScript `Iterable` and `Iterator` types.
*
* These tranformations can be especially helpful when working with generator functions.
* `Generator` is a subtype of `Iterable`.
*/
final class JsIterables {
/**
* Returns the given `Iterable`s element type.
*
*
If the given type is not an `Iterator`, `Iterable`, `AsyncIterator`, or `AsyncIterable`,
* returns the unknown type.
*/
static final JSType getElementType(JSType iterableOrIterator, JSTypeRegistry typeRegistry) {
TemplateTypeMap templateTypeMap =
iterableOrIterator
// Remember that `string` will box to a `Iterable`.
.autobox()
.getTemplateTypeMap();
if (templateTypeMap.hasTemplateKey(typeRegistry.getIterableTemplate())) {
// `Iterable` or `Generator`
return templateTypeMap.getResolvedTemplateType(typeRegistry.getIterableTemplate());
} else if (templateTypeMap.hasTemplateKey(typeRegistry.getIteratorTemplate())) {
// `Iterator`
return templateTypeMap.getResolvedTemplateType(typeRegistry.getIteratorTemplate());
} else if (templateTypeMap.hasTemplateKey(typeRegistry.getAsyncIterableTemplate())) {
// `AsyncIterable` or `AsyncGenerator`
return templateTypeMap.getResolvedTemplateType(typeRegistry.getAsyncIterableTemplate());
} else if (templateTypeMap.hasTemplateKey(typeRegistry.getAsyncIteratorTemplate())) {
// `AsyncIterator`
return templateTypeMap.getResolvedTemplateType(typeRegistry.getAsyncIteratorTemplate());
}
return typeRegistry.getNativeType(UNKNOWN_TYPE);
}
/**
* Returns an `Iterable` type templated on {@code elementType}.
*
* Example: `number' => `Iterable`.
*/
static final JSType createIterableTypeOf(JSType elementType, JSTypeRegistry typeRegistry) {
return typeRegistry.createTemplatizedType(
typeRegistry.getNativeObjectType(ITERABLE_TYPE), elementType);
}
/**
* The template of an Iterable|AsyncIterable, or a mismatch if subtype of Iterable|AsyncIterable.
*/
static final class MaybeBoxedIterableOrAsyncIterable {
private final JSType templatedType;
private final JSType mismatchType;
/**
* @param templatedType the unwrapped type that is being yieled by the iterable / async
* iterable. e.g. in {@code Iterable|AsyncIterable|string}, this should be
* {@code number|Qux|string}. Null if a mismatch.
* @param mismatchType the type that caused the mismatch. This can be the entire type (e.g.
* {@code number} is not iterable or async iterable) or a piece of a union that caused the
* mismatch (e.g. {@code number} in {@code number|Iterable}). Null if a match.
*/
private MaybeBoxedIterableOrAsyncIterable(JSType templatedType, JSType mismatchType) {
this.templatedType = templatedType;
this.mismatchType = mismatchType;
}
/**
* @return the template of the iterable / async iterable
* @throws if not an iterable / async iterable
*/
JSType getTemplatedType() {
if (!isMatch()) {
throw new IllegalStateException("Type was not boxable to iterable or async iterable!");
}
return templatedType;
}
/** @return the type that caused the mismatch, if any */
JSType getMismatchType() {
return mismatchType;
}
JSType orElse(JSType type) {
if (isMatch()) {
return templatedType;
}
return type;
}
boolean isMatch() {
return templatedType != null;
}
}
/**
* Given a type, if it is an iterable or async iterable, will return its template. If not a
* subtype of Iterable|AsyncIterable, returns an object that has no match, and will indicate the
* mismatch. e.g. both {@code number} and {@code number|Iterable} are not subtypes of
* Iterable|AsyncIterable.
*/
static final MaybeBoxedIterableOrAsyncIterable maybeBoxIterableOrAsyncIterable(
JSType type, JSTypeRegistry typeRegistry) {
List templatedTypes = new ArrayList<>();
// Note: we don't just use JSType.autobox() here because that removes null and undefined.
// We want to keep null and undefined around because they should cause a mismatch.
if (type.isUnionType()) {
for (JSType alt : type.toMaybeUnionType().getAlternates()) {
alt = alt.isBoxableScalar() ? alt.autoboxesTo() : alt;
boolean isIterable = alt.isSubtypeOf(typeRegistry.getNativeType(ITERABLE_TYPE));
boolean isAsyncIterable = alt.isSubtypeOf(typeRegistry.getNativeType(ASYNC_ITERABLE_TYPE));
if (!isIterable && !isAsyncIterable) {
return new MaybeBoxedIterableOrAsyncIterable(null, alt);
}
JSTypeNative iterableType = isAsyncIterable ? ASYNC_ITERABLE_TYPE : ITERABLE_TYPE;
templatedTypes.add(
alt.getInstantiatedTypeArgument(typeRegistry.getNativeType(iterableType)));
}
} else {
JSType autoboxedType = type.isBoxableScalar() ? type.autoboxesTo() : type;
boolean isIterable = autoboxedType.isSubtypeOf(typeRegistry.getNativeType(ITERABLE_TYPE));
boolean isAsyncIterable =
autoboxedType.isSubtypeOf(typeRegistry.getNativeType(ASYNC_ITERABLE_TYPE));
if (!isIterable && !isAsyncIterable) {
return new MaybeBoxedIterableOrAsyncIterable(null, autoboxedType);
}
JSTypeNative iterableType = isAsyncIterable ? ASYNC_ITERABLE_TYPE : ITERABLE_TYPE;
templatedTypes.add(
autoboxedType.getInstantiatedTypeArgument(typeRegistry.getNativeType(iterableType)));
}
return new MaybeBoxedIterableOrAsyncIterable(
typeRegistry.createUnionType(templatedTypes), null);
}
private JsIterables() {}
}