org.jetbrains.kotlin.js.translate.utils.expandIsCalls.kt Maven / Gradle / Ivy
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/*
* Copyright 2010-2015 JetBrains s.r.o.
*
* 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 org.jetbrains.kotlin.js.translate.utils
import org.jetbrains.kotlin.js.backend.ast.*
import org.jetbrains.kotlin.js.backend.ast.metadata.TypeCheck
import org.jetbrains.kotlin.js.backend.ast.metadata.typeCheck
import org.jetbrains.kotlin.js.inline.util.IdentitySet
import org.jetbrains.kotlin.js.translate.context.TranslationContext
import org.jetbrains.kotlin.js.translate.utils.JsAstUtils.*
import java.util.*
fun expandIsCalls(node: JsNode, context: TranslationContext) {
TypeCheckRewritingVisitor(context).accept(node)
}
private class TypeCheckRewritingVisitor(private val context: TranslationContext) : JsVisitorWithContextImpl() {
private val scopes = Stack()
private val localVars = Stack>().apply { push(mutableSetOf()) }
override fun visit(x: JsFunction, ctx: JsContext<*>): Boolean {
scopes.push(x.scope)
localVars.push(IdentitySet().apply { this += x.parameters.map { it.name } })
return super.visit(x, ctx)
}
override fun visit(x: JsVars.JsVar, ctx: JsContext<*>): Boolean {
localVars.peek().add(x.name)
return super.visit(x, ctx)
}
override fun endVisit(x: JsFunction, ctx: JsContext<*>) {
scopes.pop()
localVars.pop()
super.endVisit(x, ctx)
}
override fun visit(x: JsInvocation, ctx: JsContext): Boolean {
// callee(calleeArgument)(argument)
val callee = x.qualifier as? JsInvocation
val calleeArguments = callee?.arguments
val argument = x.arguments.firstOrNull()
if (callee != null && argument != null && calleeArguments != null) {
val replacement = getReplacement(callee, calleeArguments, argument)
if (replacement != null) {
ctx.replaceMe(accept(replacement))
return false
}
}
return true
}
private fun getReplacement(callee: JsInvocation, calleeArguments: List, argument: JsExpression): JsExpression? {
val typeCheck = callee.typeCheck
return when (typeCheck) {
TypeCheck.TYPEOF -> {
// `Kotlin.isTypeOf(calleeArgument)(argument)` -> `typeOf argument === calleeArgument`
if (calleeArguments.size == 1) typeOfIs(argument, calleeArguments[0] as JsStringLiteral) else null
}
TypeCheck.INSTANCEOF -> {
// `Kotlin.isInstanceOf(calleeArgument)(argument)` -> `argument instanceof calleeArgument`
if (calleeArguments.size == 1) context.namer().isInstanceOf(argument, calleeArguments[0]) else null
}
TypeCheck.OR_NULL -> {
// `Kotlin.orNull(calleeArgument)(argument)` -> `(tmp = argument) == null || calleeArgument(tmp)`
if (calleeArguments.size == 1) getReplacementForOrNull(argument, calleeArguments[0]) else null
}
TypeCheck.AND_PREDICATE -> {
// `Kotlin.andPredicate(p1, p2)(argument)` -> `p1(tmp = argument) && p2(tmp)`
if (calleeArguments.size == 2) {
getReplacementForAndPredicate(argument, calleeArguments[0], calleeArguments[1])
}
else {
null
}
}
null -> null
}
}
private fun getReplacementForOrNull(argument: JsExpression, calleeArgument: JsExpression): JsExpression {
if (calleeArgument is JsInvocation && calleeArgument.typeCheck == TypeCheck.OR_NULL) {
return JsInvocation(calleeArgument, argument)
}
val (nullCheckTarget, nextCheckTarget) = expandArgumentForTwoInvocations(argument)
val isNull = TranslationUtils.isNullCheck(nullCheckTarget)
return or(isNull, JsInvocation(calleeArgument, nextCheckTarget))
}
private fun getReplacementForAndPredicate(argument: JsExpression, p1: JsExpression, p2: JsExpression): JsExpression {
val (arg1, arg2) = expandArgumentForTwoInvocations(argument)
val first = accept(JsInvocation(p1, arg1) as JsExpression)
val second = accept(JsInvocation(p2, arg2) as JsExpression)
return JsAstUtils.and(first, second)
}
private fun expandArgumentForTwoInvocations(argument: JsExpression) = when {
// `(P * Q)(localVar=someExpr)` -> `P(localVar=someExpr), Q(localVar)`
// Where P, Q - predicate, * - function composition
argument.isAssignmentToLocalVar -> Pair(argument, (argument as JsBinaryOperation).arg1)
// `(P * Q)(expression)` -> `P(tmp = expression), Q(tmp)`
argument.needsAlias -> generateAlias(argument)
// `(P * Q)(primitive)` -> `P(primitive), Q(primitive)`
else -> Pair(argument, argument)
}
private fun generateAlias(argument: JsExpression): Pair {
val currentScope = scopes.peek()
val tmp = currentScope.declareTemporary()
val statementContext = lastStatementLevelContext
statementContext.addPrevious(newVar(tmp, null))
return Pair(assignment(tmp.makeRef(), argument), tmp.makeRef())
}
private val JsExpression.needsAlias: Boolean
get() = when (this) {
is JsLiteral.JsValueLiteral -> false
else -> !isLocalVar
}
private val JsExpression.isLocalVar: Boolean
get() = localVars.isNotEmpty() && this is JsNameRef && name.let { it != null && it in localVars.peek() }
private val JsExpression.isAssignmentToLocalVar: Boolean
get() = localVars.isNotEmpty() &&
JsAstUtils.decomposeAssignmentToVariable(this).let { it != null && it.first in localVars.peek() }
}