org.jetbrains.kotlin.ir.util.DumpIrTree.kt Maven / Gradle / Ivy
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the Kotlin compiler embeddable
/*
* Copyright 2010-2016 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.ir.util
import org.jetbrains.kotlin.ir.IrElement
import org.jetbrains.kotlin.ir.IrFileEntry
import org.jetbrains.kotlin.ir.declarations.*
import org.jetbrains.kotlin.ir.expressions.*
import org.jetbrains.kotlin.ir.symbols.IrSymbol
import org.jetbrains.kotlin.ir.types.IrType
import org.jetbrains.kotlin.ir.visitors.IrElementVisitor
import org.jetbrains.kotlin.ir.visitors.IrElementVisitorVoid
import org.jetbrains.kotlin.ir.visitors.acceptChildrenVoid
import org.jetbrains.kotlin.utils.Printer
fun IrElement.dump(options: DumpIrTreeOptions = DumpIrTreeOptions()): String =
try {
StringBuilder().also { sb ->
accept(DumpIrTreeVisitor(sb, options), "")
}.toString()
} catch (e: Exception) {
"(Full dump is not available: ${e.message})\n" + render(options)
}
fun IrFile.dumpTreesFromLineNumber(lineNumber: Int, options: DumpIrTreeOptions = DumpIrTreeOptions()): String {
if (shouldSkipDump()) return ""
val sb = StringBuilder()
accept(DumpTreeFromSourceLineVisitor(fileEntry, lineNumber, sb, options), null)
return sb.toString()
}
/**
* @property normalizeNames Rename temporary local variables using a stable naming scheme
* @property stableOrder Print declarations in a sorted order
* @property verboseErrorTypes Whether to dump the value of [IrErrorType.kotlinType] for [IrErrorType] nodes
* @property printFacadeClassInFqNames Whether printed fully-qualified names of top-level declarations should include the name of
* the file facade class (see [IrDeclarationOrigin.FILE_CLASS]) TODO: use [isHiddenDeclaration] instead.
* @property printFlagsInDeclarationReferences If `false`, flags like `fake_override`, `inline` etc. are not printed in rendered
* declaration references.
* @property renderOriginForExternalDeclarations If `true`, we only print a declaration's origin if it is not
* [IrDeclarationOrigin.DEFINED]. If `false`, we don't print the [IrDeclarationOrigin.IR_EXTERNAL_DECLARATION_STUB] origin as well.
* @property printSignatures Whether to print signatures for nodes that have public signatures
* @property isHiddenDeclaration The filter that can be used to exclude some declarations from printing.
*/
data class DumpIrTreeOptions(
val normalizeNames: Boolean = false,
val stableOrder: Boolean = false,
val verboseErrorTypes: Boolean = true,
val printFacadeClassInFqNames: Boolean = true,
val printFlagsInDeclarationReferences: Boolean = true,
val renderOriginForExternalDeclarations: Boolean = true,
val printSignatures: Boolean = false,
val printTypeAbbreviations: Boolean = true,
val printModuleName: Boolean = true,
val printFilePath: Boolean = true,
val isHiddenDeclaration: (IrDeclaration) -> Boolean = { false },
)
private fun IrFile.shouldSkipDump(): Boolean {
val entry = fileEntry as? NaiveSourceBasedFileEntryImpl ?: return false
return entry.lineStartOffsetsAreEmpty
}
/**
* Sorts the declarations in the list using the result of [IrDeclaration.render] as the sorting key.
*
* The exceptions for which relative order is preserved as it matters for code generation:
* * Properties with backing field
* * Anonymous initializers
* * Enum entries
* * Fields
*/
internal fun List.stableOrdered(): List {
val strictOrder = hashMapOf()
var idx = 0
forEach {
val shouldPreserveRelativeOrder = when (it) {
is IrProperty -> it.backingField != null && !it.isConst
is IrAnonymousInitializer, is IrEnumEntry, is IrField -> true
else -> false
}
if (shouldPreserveRelativeOrder) {
strictOrder[it] = idx++
}
}
return sortedWith { a, b ->
val strictA = strictOrder[a] ?: Int.MAX_VALUE
val strictB = strictOrder[b] ?: Int.MAX_VALUE
if (strictA == strictB) {
val rA = a.render()
val rB = b.render()
rA.compareTo(rB)
} else strictA - strictB
}
}
class DumpIrTreeVisitor(
out: Appendable,
private val options: DumpIrTreeOptions = DumpIrTreeOptions(),
) : IrElementVisitor {
private val printer = Printer(out, " ")
private val elementRenderer = RenderIrElementVisitor(options)
private fun IrType.render() = elementRenderer.renderType(this)
private fun List.ordered(): List = if (options.stableOrder) stableOrdered() else this
private fun IrDeclaration.isHidden(): Boolean = options.isHiddenDeclaration(this)
override fun visitElement(element: IrElement, data: String) {
element.dumpLabeledElementWith(data) {
if (element is IrAnnotationContainer) {
dumpAnnotations(element)
}
element.acceptChildren(this@DumpIrTreeVisitor, "")
}
}
override fun visitModuleFragment(declaration: IrModuleFragment, data: String) {
declaration.dumpLabeledElementWith(data) {
declaration.files.dumpElements()
}
}
override fun visitExternalPackageFragment(declaration: IrExternalPackageFragment, data: String) {
declaration.dumpLabeledElementWith(data) {
declaration.declarations.ordered().dumpElements()
}
}
override fun visitFile(declaration: IrFile, data: String) {
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
declaration.declarations.ordered().dumpElements()
}
}
override fun visitClass(declaration: IrClass, data: String) {
if (declaration.isHidden()) return
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
declaration.sealedSubclasses.dumpItems("sealedSubclasses") { it.dump() }
declaration.thisReceiver?.accept(this, "\$this")
declaration.typeParameters.dumpElements()
declaration.declarations.ordered().dumpElements()
}
}
override fun visitTypeAlias(declaration: IrTypeAlias, data: String) {
if (declaration.isHidden()) return
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
declaration.typeParameters.dumpElements()
}
}
override fun visitTypeParameter(declaration: IrTypeParameter, data: String) {
if (declaration.isHidden()) return
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
}
}
override fun visitSimpleFunction(declaration: IrSimpleFunction, data: String) {
if (declaration.isHidden()) return
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
declaration.correspondingPropertySymbol?.dumpInternal("correspondingProperty")
declaration.overriddenSymbols.dumpItems("overridden") { it.dump() }
declaration.typeParameters.dumpElements()
declaration.dispatchReceiverParameter?.accept(this, "\$this")
val contextReceiverParametersCount = declaration.contextReceiverParametersCount
if (contextReceiverParametersCount > 0) {
printer.println("contextReceiverParametersCount: $contextReceiverParametersCount")
}
declaration.extensionReceiverParameter?.accept(this, "\$receiver")
declaration.valueParameters.dumpElements()
declaration.body?.accept(this, "")
}
}
private fun dumpAnnotations(element: IrAnnotationContainer) {
element.annotations.dumpItems("annotations") { irAnnotation: IrConstructorCall ->
printer.println(elementRenderer.renderAsAnnotation(irAnnotation))
}
}
private fun IrSymbol.dump(label: String? = null) =
printer.println(
elementRenderer.renderSymbolReference(this).let {
if (label != null) "$label: $it" else it
}
)
override fun visitConstructor(declaration: IrConstructor, data: String) {
if (declaration.isHidden()) return
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
declaration.typeParameters.dumpElements()
declaration.dispatchReceiverParameter?.accept(this, "\$outer")
declaration.valueParameters.dumpElements()
declaration.body?.accept(this, "")
}
}
override fun visitProperty(declaration: IrProperty, data: String) {
if (declaration.isHidden()) return
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
declaration.overriddenSymbols.dumpItems("overridden") { it.dump() }
declaration.backingField?.accept(this, "")
declaration.getter?.accept(this, "")
declaration.setter?.accept(this, "")
}
}
override fun visitField(declaration: IrField, data: String) {
if (declaration.isHidden()) return
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
declaration.initializer?.accept(this, "")
}
}
private fun List.dumpElements() {
forEach { it.accept(this@DumpIrTreeVisitor, "") }
}
override fun visitErrorCallExpression(expression: IrErrorCallExpression, data: String) {
expression.dumpLabeledElementWith(data) {
expression.explicitReceiver?.accept(this, "receiver")
expression.arguments.dumpElements()
}
}
override fun visitEnumEntry(declaration: IrEnumEntry, data: String) {
if (declaration.isHidden()) return
declaration.dumpLabeledElementWith(data) {
dumpAnnotations(declaration)
declaration.initializerExpression?.accept(this, "init")
declaration.correspondingClass?.accept(this, "class")
}
}
override fun visitMemberAccess(expression: IrMemberAccessExpression<*>, data: String) {
expression.dumpLabeledElementWith(data) {
dumpTypeArguments(expression)
expression.dispatchReceiver?.accept(this, "\$this")
expression.extensionReceiver?.accept(this, "\$receiver")
val valueParameterNames = expression.getValueParameterNamesForDebug()
for (index in 0 until expression.valueArgumentsCount) {
expression.getValueArgument(index)?.accept(this, valueParameterNames[index])
}
}
}
override fun visitConstructorCall(expression: IrConstructorCall, data: String) {
expression.dumpLabeledElementWith(data) {
dumpTypeArguments(expression)
expression.outerClassReceiver?.accept(this, "\$outer")
dumpConstructorValueArguments(expression)
}
}
private fun dumpConstructorValueArguments(expression: IrConstructorCall) {
val valueParameterNames = expression.getValueParameterNamesForDebug()
for (index in 0 until expression.valueArgumentsCount) {
expression.getValueArgument(index)?.accept(this, valueParameterNames[index])
}
}
private fun dumpTypeArguments(expression: IrMemberAccessExpression<*>) {
val typeParameterNames = expression.getTypeParameterNames(expression.typeArgumentsCount)
for (index in 0 until expression.typeArgumentsCount) {
printer.println("<${typeParameterNames[index]}>: ${expression.renderTypeArgument(index)}")
}
}
private fun dumpTypeArguments(expression: IrConstructorCall) {
val typeParameterNames = expression.getTypeParameterNames(expression.typeArgumentsCount)
for (index in 0 until expression.typeArgumentsCount) {
val typeParameterName = typeParameterNames[index]
val parameterLabel =
if (index < expression.classTypeArgumentsCount)
"class: $typeParameterName"
else
typeParameterName
printer.println("<$parameterLabel>: ${expression.renderTypeArgument(index)}")
}
}
private fun IrMemberAccessExpression<*>.getTypeParameterNames(expectedCount: Int): List =
if (symbol.isBound)
symbol.owner.getTypeParameterNames(expectedCount)
else
getPlaceholderParameterNames(expectedCount)
private fun IrSymbolOwner.getTypeParameterNames(expectedCount: Int): List =
if (this is IrTypeParametersContainer) {
val typeParameters = if (this is IrConstructor) getFullTypeParametersList() else this.typeParameters
(0 until expectedCount).map {
if (it < typeParameters.size)
typeParameters[it].name.asString()
else
"${it + 1}"
}
} else {
getPlaceholderParameterNames(expectedCount)
}
private fun IrConstructor.getFullTypeParametersList(): List {
val parentClass = try {
parent as? IrClass ?: return typeParameters
} catch (e: Exception) {
return typeParameters
}
return parentClass.typeParameters + typeParameters
}
private fun IrMemberAccessExpression<*>.renderTypeArgument(index: Int): String =
getTypeArgument(index)?.render() ?: ""
override fun visitBlock(expression: IrBlock, data: String) {
if (expression !is IrInlinedFunctionBlock) return super.visitBlock(expression, data)
expression.dumpLabeledElementWith(data) {
expression.inlinedElement.dumpInternal("inlinedElement")
expression.acceptChildren(this, "")
}
}
override fun visitGetField(expression: IrGetField, data: String) {
expression.dumpLabeledElementWith(data) {
expression.receiver?.accept(this, "receiver")
}
}
override fun visitSetField(expression: IrSetField, data: String) {
expression.dumpLabeledElementWith(data) {
expression.receiver?.accept(this, "receiver")
expression.value.accept(this, "value")
}
}
override fun visitWhen(expression: IrWhen, data: String) {
expression.dumpLabeledElementWith(data) {
expression.branches.dumpElements()
}
}
override fun visitBranch(branch: IrBranch, data: String) {
branch.dumpLabeledElementWith(data) {
branch.condition.accept(this, "if")
branch.result.accept(this, "then")
}
}
override fun visitWhileLoop(loop: IrWhileLoop, data: String) {
loop.dumpLabeledElementWith(data) {
loop.condition.accept(this, "condition")
loop.body?.accept(this, "body")
}
}
override fun visitDoWhileLoop(loop: IrDoWhileLoop, data: String) {
loop.dumpLabeledElementWith(data) {
loop.body?.accept(this, "body")
loop.condition.accept(this, "condition")
}
}
override fun visitTry(aTry: IrTry, data: String) {
aTry.dumpLabeledElementWith(data) {
aTry.tryResult.accept(this, "try")
aTry.catches.dumpElements()
aTry.finallyExpression?.accept(this, "finally")
}
}
override fun visitTypeOperator(expression: IrTypeOperatorCall, data: String) {
expression.dumpLabeledElementWith(data) {
expression.acceptChildren(this, "")
}
}
override fun visitDynamicOperatorExpression(expression: IrDynamicOperatorExpression, data: String) {
expression.dumpLabeledElementWith(data) {
expression.receiver.accept(this, "receiver")
for ((i, arg) in expression.arguments.withIndex()) {
arg.accept(this, i.toString())
}
}
}
override fun visitConstantArray(expression: IrConstantArray, data: String) {
expression.dumpLabeledElementWith(data) {
for ((i, value) in expression.elements.withIndex()) {
value.accept(this, i.toString())
}
}
}
override fun visitConstantObject(expression: IrConstantObject, data: String) {
expression.dumpLabeledElementWith(data) {
for ((index, argument) in expression.valueArguments.withIndex()) {
argument.accept(this, expression.constructor.owner.valueParameters[index].name.toString())
}
}
}
private inline fun IrElement.dumpLabeledElementWith(label: String, body: () -> Unit) {
printer.println(accept(elementRenderer, null).withLabel(label))
indented(body)
}
private inline fun Collection.dumpItems(caption: String, renderElement: (T) -> Unit) {
if (isEmpty()) return
indented(caption) {
forEach {
renderElement(it)
}
}
}
private fun IrSymbol.dumpInternal(label: String? = null) {
if (isBound)
owner.dumpInternal(label)
else
printer.println("$label: UNBOUND ${javaClass.simpleName}")
}
private fun IrElement.dumpInternal(label: String? = null) {
if (label != null) {
printer.println("$label: ", accept(elementRenderer, null))
} else {
printer.println(accept(elementRenderer, null))
}
}
private inline fun indented(label: String, body: () -> Unit) {
printer.println("$label:")
indented(body)
}
private inline fun indented(body: () -> Unit) {
printer.pushIndent()
body()
printer.popIndent()
}
private fun String.withLabel(label: String) =
if (label.isEmpty()) this else "$label: $this"
}
class DumpTreeFromSourceLineVisitor(
val fileEntry: IrFileEntry,
private val lineNumber: Int,
out: Appendable,
options: DumpIrTreeOptions,
) : IrElementVisitorVoid {
private val dumper = DumpIrTreeVisitor(out, options)
override fun visitElement(element: IrElement) {
if (fileEntry.getLineNumber(element.startOffset) == lineNumber) {
element.accept(dumper, "")
return
}
element.acceptChildrenVoid(this)
}
}
internal fun IrMemberAccessExpression<*>.getValueParameterNamesForDebug(): List {
val expectedCount = valueArgumentsCount
if (symbol.isBound) {
val owner = symbol.owner
if (owner is IrFunction) {
return (0 until expectedCount).map {
if (it < owner.valueParameters.size)
owner.valueParameters[it].name.asString()
else
"${it + 1}"
}
}
}
return getPlaceholderParameterNames(expectedCount)
}
internal fun getPlaceholderParameterNames(expectedCount: Int) =
(1..expectedCount).map { "$it" }