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package com.replaymod.gradle.remap
import com.replaymod.gradle.remap.PsiUtils.getSignature
import org.cadixdev.bombe.type.signature.MethodSignature
import org.cadixdev.lorenz.MappingSet
import org.cadixdev.lorenz.model.ClassMapping
import org.cadixdev.lorenz.model.MethodMapping
import org.jetbrains.kotlin.asJava.getRepresentativeLightMethod
import org.jetbrains.kotlin.com.intellij.lang.ASTNode
import org.jetbrains.kotlin.com.intellij.lang.jvm.JvmModifier
import org.jetbrains.kotlin.com.intellij.openapi.util.TextRange
import org.jetbrains.kotlin.com.intellij.openapi.util.text.StringUtil
import org.jetbrains.kotlin.com.intellij.psi.*
import org.jetbrains.kotlin.com.intellij.psi.search.GlobalSearchScope
import org.jetbrains.kotlin.com.intellij.psi.util.ClassUtil
import org.jetbrains.kotlin.descriptors.CallableMemberDescriptor
import org.jetbrains.kotlin.descriptors.FunctionDescriptor
import org.jetbrains.kotlin.js.resolve.diagnostics.findPsi
import org.jetbrains.kotlin.lexer.KtTokens
import org.jetbrains.kotlin.name.Name
import org.jetbrains.kotlin.psi.*
import org.jetbrains.kotlin.resolve.BindingContext
import org.jetbrains.kotlin.synthetic.SyntheticJavaPropertyDescriptor
import org.jetbrains.kotlin.synthetic.SyntheticJavaPropertyDescriptor.Companion.propertyNameByGetMethodName
import java.util.*
internal class PsiMapper(
private val map: MappingSet,
private val file: PsiFile,
private val patterns: PsiPatterns?
) {
private val mixinMappings = mutableMapOf<String, ClassMapping<*, *>>()
private val errors = mutableListOf<Pair<Int, String>>()
private val changes = TreeMap<TextRange, String>(compareBy<TextRange> { it.startOffset }.thenBy { it.endOffset })
private fun error(at: PsiElement, message: String) {
val line = StringUtil.offsetToLineNumber(file.text, at.textOffset)
errors.add(Pair(line, message))
}
private fun replace(e: PsiElement, with: String) = replace(e.textRange, with)
private fun replace(textRange: TextRange, with: String) {
changes.compute(textRange) { _, replacement ->
if (replacement != null) {
replacement + with
} else {
with
}
}
}
private fun replaceIdentifier(parent: PsiElement, with: String) {
var child = parent.firstChild
while (child != null) {
if (child is PsiIdentifier
|| child is ASTNode && child.elementType == KtTokens.IDENTIFIER) {
replace(child, with)
return
}
child = child.nextSibling
}
}
private fun valid(e: PsiElement): Boolean = valid(e.textRange)
private fun valid(range: TextRange): Boolean {
val before = changes.floorKey(range) ?: TextRange.EMPTY_RANGE
val after = changes.ceilingKey(range) ?: TextRange.EMPTY_RANGE
return !before.intersectsStrict(range) && !after.intersectsStrict(range)
}
private fun getResult(text: String): Pair<String, List<Pair<Int, String>>> {
var result = text
for ((key, value) in changes.descendingMap()) {
result = key.replace(result, value)
}
return Pair(result, errors)
}
private fun map(expr: PsiElement, field: PsiField) {
val fieldName = field.name ?: return
val declaringClass = field.containingClass ?: return
val name = declaringClass.dollarQualifiedName ?: return
var mapping: ClassMapping<*, *>? = this.mixinMappings[declaringClass.qualifiedName ?: return]
if (mapping == null) {
mapping = map.findClassMapping(name)
}
if (mapping == null) return
val mapped = mapping.findFieldMapping(fieldName)?.deobfuscatedName
if (mapped == null || mapped == fieldName) return
replaceIdentifier(expr, mapped)
if (expr is PsiJavaCodeReferenceElement
&& !expr.isQualified // qualified access is fine
&& !isSwitchCase(expr) // referencing constants in case statements is fine
) {
error(expr, "Implicit member reference to remapped field \"$fieldName\". " +
"This can cause issues if the remapped reference becomes shadowed by a local variable and is therefore forbidden. " +
"Use \"this.$fieldName\" instead.")
}
}
private fun map(expr: PsiElement, method: PsiMethod) {
if (method.isConstructor) {
if (expr is KtSimpleNameExpression) {
map(expr, method.containingClass ?: return)
}
return
}
val mapped = findMapping(method)?.deobfuscatedName
if (mapped != null && mapped != method.name) {
val maybeGetter = propertyNameByGetMethodName(Name.identifier(mapped))
if (maybeGetter != null // must have getter-style name
&& !method.hasParameters() // getters cannot take any arguments
&& method.returnType != PsiType.VOID // and must return some value
&& !method.hasModifier(JvmModifier.STATIC) // synthetic properties cannot be static
// `super.getDebugInfo()` is a special case which cannot be replaced with a synthetic property
&& expr.parent.parent.let { it !is KtDotQualifiedExpression || it.firstChild !is KtSuperExpression }
// cannot use synthetic properties outside of kotlin files (cause they're a kotlin thing)
&& expr.containingFile is KtFile) {
// E.g. `entity.canUsePortal()` maps to `entity.isNonBoss()` but when we're using kotlin and the target
// isn't (as should be the case for remapped names), we can also write that as `entity.isNonBoss` (i.e.
// as a synthetic property).
// This is the reverse to the operation in [map(PsiElement, SyntheticJavaPropertyDescriptor)].
replace(expr.parent, maybeGetter.identifier)
return
}
replaceIdentifier(expr, mapped)
}
}
private fun map(expr: PsiElement, method: KtNamedFunction) {
val psiMethod = method.getRepresentativeLightMethod()
val mapped = findMapping(psiMethod ?: return)?.deobfuscatedName
if (mapped != null && mapped != method.name) {
replaceIdentifier(expr, mapped)
}
}
private fun map(expr: PsiElement, property: SyntheticJavaPropertyDescriptor) {
val getter = property.getMethod.findPsi() as? PsiMethod ?: return
val mappedGetter = findMapping(getter)?.deobfuscatedName ?: return
if (mappedGetter != getter.name) {
val maybeMapped = propertyNameByGetMethodName(Name.identifier(mappedGetter))
if (maybeMapped == null) {
// Can happen if a method is a synthetic property in the current mapping (e.g. `isNonBoss`) but not
// in the target mapping (e.g. `canUsePortal()`)
// TODO probably also want to convert in the opposite direction, though that's a lot harder
replaceIdentifier(expr, "$mappedGetter()")
} else {
val mapped = maybeMapped.identifier
replaceIdentifier(expr, mapped)
}
}
}
// See caller for why this exists
private fun map(expr: PsiElement, method: FunctionDescriptor) {
for (overriddenDescriptor in method.overriddenDescriptors) {
val overriddenPsi = overriddenDescriptor.findPsi()
if (overriddenPsi != null) {
map(expr, overriddenPsi) // found a psi element, continue as usually
} else {
map(expr, overriddenDescriptor) // recursion
}
}
}
private fun findMapping(method: PsiMethod): MethodMapping? {
var declaringClass: PsiClass? = method.containingClass ?: return null
val parentQueue = ArrayDeque<PsiClass>()
parentQueue.offer(declaringClass)
var mapping: ClassMapping<*, *>? = null
var name = declaringClass!!.qualifiedName
if (name != null) {
// If this method is declared in a mixin class, we want to consider the hierarchy of the target as well
mapping = mixinMappings[name]
// but only if the method conceptually belongs to the target class
val isShadow = method.getAnnotation(CLASS_SHADOW) != null
val isOverwrite = method.getAnnotation(CLASS_OVERWRITE) != null
val isOverride = method.getAnnotation(CLASS_OVERRIDE) != null
if (mapping != null && !isShadow && !isOverwrite && !isOverride) {
return null // otherwise, it belongs to the mixin and never gets remapped
}
}
while (true) {
if (mapping != null) {
val mapped = mapping.findMethodMapping(getSignature(method))
if (mapped != null) {
return mapped
}
mapping = null
}
while (mapping == null) {
declaringClass = parentQueue.poll()
if (declaringClass == null) return null
val superClass = declaringClass.superClass
if (superClass != null) {
parentQueue.offer(superClass)
}
for (anInterface in declaringClass.interfaces) {
parentQueue.offer(anInterface)
}
name = declaringClass.dollarQualifiedName
if (name == null) continue
mapping = map.findClassMapping(name)
}
}
}
private fun map(expr: PsiElement, resolved: PsiQualifiedNamedElement) {
val name = resolved.qualifiedName ?: return
val dollarName = (if (resolved is PsiClass) resolved.dollarQualifiedName else name) ?: return
val mapping = map.findClassMapping(dollarName) ?: return
var mapped = mapping.fullDeobfuscatedName
if (mapped == dollarName) return
mapped = mapped.replace('/', '.').replace('$', '.')
if (expr.text == name) {
replace(expr, mapped)
return
}
val parent: PsiElement? = expr.parent
if ((parent is KtUserType || parent is KtQualifiedExpression) && parent.text == name) {
if (valid(parent)) {
replace(parent, mapped)
}
return
}
// FIXME this incorrectly filters things like "Packet<?>" and doesn't filter same-name type aliases
// if (expr.text != name.substring(name.lastIndexOf('.') + 1)) {
// return // type alias, will be remapped at its definition
// }
replaceIdentifier(expr, mapped.substring(mapped.lastIndexOf('.') + 1))
}
private fun map(expr: PsiElement, resolved: PsiElement?) {
when (resolved) {
is PsiField -> map(expr, resolved)
is PsiMethod -> map(expr, resolved)
is KtNamedFunction -> map(expr, resolved.getRepresentativeLightMethod())
is PsiClass, is PsiPackage -> map(expr, resolved as PsiQualifiedNamedElement)
}
}
// Note: Supports only Mixins with a single target (ignores others)
private fun getMixinTarget(annotation: PsiAnnotation): Pair<PsiClass, ClassMapping<*, *>>? {
for (pair in annotation.parameterList.attributes) {
val name = pair.name
if (name == null || "value" == name) {
val value = pair.value
if (value !is PsiClassObjectAccessExpression) continue
val type = value.operand
val reference = type.innermostComponentReferenceElement ?: continue
val psiClass = reference.resolve() as PsiClass? ?: continue
val qualifiedName = psiClass.dollarQualifiedName ?: continue
val mapping = map.findClassMapping(qualifiedName) ?: continue
return Pair(psiClass, mapping)
}
if ("targets" == name) {
val value = pair.value
if (value !is PsiLiteral) continue
val qualifiedName = value.value as? String ?: continue
val mapping = map.findPotentialInnerClassMapping(qualifiedName) ?: continue
val mapped = mapping.fullDeobfuscatedName?.replace('/', '.')
if (mapped != qualifiedName) {
replace(value, "\"$mapped\"")
}
val psiClass = JavaPsiFacade.getInstance(file.project).findClass(
qualifiedName.replace('$', '.'),
GlobalSearchScope.allScope(file.project),
) ?: continue
return Pair(psiClass, mapping)
}
}
return null
}
private fun remapAccessors(mapping: ClassMapping<*, *>) {
file.accept(object : JavaRecursiveElementVisitor() {
override fun visitMethod(method: PsiMethod) {
val annotation = method.getAnnotation(CLASS_ACCESSOR) ?: method.getAnnotation(CLASS_INVOKER) ?: return
val methodName = method.name
val targetByName = when {
methodName.startsWith("invoke") -> methodName.substring(6)
methodName.startsWith("is") -> methodName.substring(2)
methodName.startsWith("get") || methodName.startsWith("set") -> methodName.substring(3)
else -> null
}?.decapitalize()
val target = annotation.parameterList.attributes.find {
it.name == null || it.name == "value"
}?.literalValue ?: targetByName ?: throw IllegalArgumentException("Cannot determine accessor target for $method")
val mapped = if (methodName.startsWith("invoke")) {
mapping.methodMappings.find { it.obfuscatedName == target }?.deobfuscatedName
} else {
mapping.findFieldMapping(target)?.deobfuscatedName
}
if (mapped != null && mapped != target) {
// Update accessor target
replace(annotation.parameterList, if (mapped == targetByName) {
// Mapped name matches implied target, can just remove the explict target
""
} else {
// Mapped name does not match implied target, need to set the target as annotation value
"(\"" + StringUtil.escapeStringCharacters(mapped) + "\")"
})
}
}
})
}
private fun remapMixinInjections(targetClass: PsiClass, mapping: ClassMapping<*, *>) {
file.accept(object : JavaRecursiveElementVisitor() {
override fun visitMethod(method: PsiMethod) {
val annotation = method.getAnnotation(CLASS_INJECT)
?: method.getAnnotation(CLASS_MODIFY_ARG)
?: method.getAnnotation(CLASS_MODIFY_ARGS)
?: method.getAnnotation(CLASS_MODIFY_CONSTANT)
?: method.getAnnotation(CLASS_MODIFY_VARIABLE)
?: method.getAnnotation(CLASS_REDIRECT)
?: return
for (attribute in annotation.parameterList.attributes) {
if ("method" != attribute.name) continue
// Note: mixin supports multiple targets, we do not (yet)
val (literalExpr, literalValue) = attribute.resolvedLiteralValue ?: continue
val (targetName, targetDesc) = if ('(' in literalValue) {
MethodSignature.of(literalValue).let { it.name to it.descriptor.toString() }
} else {
literalValue to null
}
val targetMethods = targetClass.findMethodsByName(targetName, false)
val targetMethod = if (targetDesc != null) {
targetMethods.find {
ClassUtil.getAsmMethodSignature(it) == targetDesc
}
} else {
if (targetMethods.size > 1) {
error(attribute, "Ambiguous mixin method \"$targetName\" may refer to any of: ${targetMethods.joinToString {
"\"${it.name}${ClassUtil.getAsmMethodSignature(it)}\""
}}")
}
targetMethods.firstOrNull()
}
val mappedName = targetMethod?.let(::findMapping)?.deobfuscatedName ?: targetName
val ambiguousName = mapping.methodMappings.count { it.deobfuscatedName == mappedName } > 1
val mapped = mappedName + when {
ambiguousName && targetMethod != null ->
remapMethodDesc(ClassUtil.getAsmMethodSignature(targetMethod))
targetDesc != null -> remapMethodDesc(targetDesc)
else -> ""
}
if (mapped != literalValue) {
replace(literalExpr, '"'.toString() + mapped + '"'.toString())
}
}
}
})
}
private fun remapInternalType(internalType: String): String =
StringBuilder().apply { remapInternalType(internalType, this) }.toString()
private fun remapInternalType(internalType: String, result: StringBuilder): ClassMapping<*, *>? {
if (internalType[0] == 'L') {
val type = internalType.substring(1, internalType.length - 1).replace('/', '.')
val mapping = map.findClassMapping(type)
if (mapping != null) {
result.append('L').append(mapping.fullDeobfuscatedName).append(';')
return mapping
}
}
result.append(internalType)
return null
}
private fun remapMixinTarget(target: String): String {
return if (target.contains(':') || target.contains('(')) {
remapFullyQualifiedMethodOrField(target)
} else {
if (target[0] == 'L') {
remapInternalType(target)
} else {
remapInternalType("L$target;").drop(1).dropLast(1)
}
}
}
private fun remapFullyQualifiedMethodOrField(signature: String): String {
val ownerEnd = signature.indexOf(';')
var argsBegin = signature.indexOf('(')
var argsEnd = signature.indexOf(')')
val method = argsBegin != -1
if (!method) {
argsEnd = signature.indexOf(':')
argsBegin = argsEnd
}
val owner = signature.substring(0, ownerEnd + 1)
val name = signature.substring(ownerEnd + 1, argsBegin)
val returnType = signature.substring(argsEnd + 1)
val ownerPsi = JavaPsiFacade.getInstance(file.project).findClass(
owner.drop(1).dropLast(1).replace('/', '.').replace('$', '.'),
GlobalSearchScope.allScope(file.project),
)
val methodPsi = if (method) {
val desc = signature.substring(argsBegin)
ownerPsi?.findMethodsByName(name, true)?.find { ClassUtil.getAsmMethodSignature(it) == desc }
} else {
null
}
val builder = StringBuilder(signature.length + 32)
val mapping = remapInternalType(owner, builder)
var mapped: String? = null
if (methodPsi != null) {
mapped = findMapping(methodPsi)?.deobfuscatedName
}
if (mapped == null && mapping != null) {
mapped = (if (method) {
mapping.findMethodMapping(MethodSignature.of(signature.substring(ownerEnd + 1)))
} else {
mapping.findFieldMapping(name)
})?.deobfuscatedName
}
builder.append(mapped ?: name)
if (method) {
builder.append('(')
val args = signature.substring(argsBegin + 1, argsEnd)
var i = 0
while (i < args.length) {
val c = args[i]
if (c != 'L') {
builder.append(c)
i++
continue
}
val end = args.indexOf(';', i)
val arg = args.substring(i, end + 1)
remapInternalType(arg, builder)
i = end
i++
}
builder.append(')')
} else {
builder.append(':')
}
remapInternalType(returnType, builder)
return builder.toString()
}
private fun remapMethodDesc(desc: String): String =
remapFullyQualifiedMethodOrField("Ldummy;dummy$desc").dropWhile { it != '(' }
private fun remapAtTargets() {
file.accept(object : JavaRecursiveElementVisitor() {
override fun visitAnnotation(annotation: PsiAnnotation) {
if (CLASS_AT != annotation.qualifiedName) {
super.visitAnnotation(annotation)
return
}
for (attribute in annotation.parameterList.attributes) {
if ("target" != attribute.name) continue
val (value, signature) = attribute.resolvedLiteralValue ?: continue
val newSignature = remapMixinTarget(signature)
if (newSignature != signature) {
replace(value, "\"$newSignature\"")
}
}
}
})
}
private fun applyPatternMatch(matcher: PsiPattern.Matcher) {
val changes = matcher.toChanges()
if (changes.all { valid(it.first) }) {
changes.forEach { (range, text) -> replace(range, text)}
} else if (changes.any { it.first !in this.changes }) {
System.err.println("Conflicting pattern changes in $file")
System.err.println("Proposed changes:")
changes.forEach { println("${it.first}: \"${it.second}\" (${if (valid(it.first)) "accepted" else "rejected"})") }
System.err.println("Current changes:")
this.changes.forEach { println("${it.key}: \"${it.value}\"") }
}
}
fun remapFile(bindingContext: BindingContext): Pair<String, List<Pair<Int, String>>> {
if (patterns != null) {
file.accept(object : JavaRecursiveElementVisitor() {
override fun visitCodeBlock(block: PsiCodeBlock) {
patterns.find(block).forEach { applyPatternMatch(it) }
}
override fun visitExpression(expression: PsiExpression) {
patterns.find(expression).forEach { applyPatternMatch(it) }
}
})
}
file.accept(object : JavaRecursiveElementVisitor() {
override fun visitClass(psiClass: PsiClass) {
val annotation = psiClass.getAnnotation(CLASS_MIXIN) ?: return
remapAtTargets()
val (targetClass, mapping) = getMixinTarget(annotation) ?: return
mixinMappings[psiClass.qualifiedName!!] = mapping
if (!mapping.fieldMappings.isEmpty()) {
remapAccessors(mapping)
}
if (!mapping.methodMappings.isEmpty()) {
remapMixinInjections(targetClass, mapping)
}
}
})
file.accept(object : JavaRecursiveElementVisitor() {
override fun visitField(field: PsiField) {
if (valid(field)) {
map(field, field)
}
super.visitField(field)
}
override fun visitMethod(method: PsiMethod) {
if (valid(method)) {
map(method, method)
}
super.visitMethod(method)
}
override fun visitReferenceElement(reference: PsiJavaCodeReferenceElement) {
if (valid(reference)) {
map(reference, reference.resolve())
}
super.visitReferenceElement(reference)
}
})
if (file is KtFile) {
file.accept(object : KtTreeVisitor<Void>() {
override fun visitNamedFunction(function: KtNamedFunction, data: Void?): Void? {
if (valid(function)) {
map(function, function)
}
return super.visitNamedFunction(function, data)
}
override fun visitDotQualifiedExpression(expression: KtDotQualifiedExpression, data: Void?): Void? {
// Dot qualified expressions such as "a.pkg.A.Inner" we want to remap back to front because the
// latter parts are more specific.
// I.e. we start with the inner class, and only if there is no mapping for that, do we try to remap
// the outer class.
expression.selectorExpression?.accept(this)
expression.receiverExpression.accept(this)
return null
}
override fun visitUserType(type: KtUserType, data: Void?): Void? {
// Same as visitDotQualifiedExpression but for typealias declarations
type.referenceExpression?.accept(this)
type.qualifier?.accept(this)
type.typeArgumentList?.accept(this)
return null
}
override fun visitReferenceExpression(expression: KtReferenceExpression, data: Void?): Void? {
if (valid(expression)) {
val target = bindingContext[BindingContext.REFERENCE_TARGET, expression]
if (target is SyntheticJavaPropertyDescriptor) {
map(expression, target)
} else if (target != null && (target as? CallableMemberDescriptor)?.kind != CallableMemberDescriptor.Kind.SYNTHESIZED) {
val targetPsi = target.findPsi()
if (targetPsi != null) {
map(expression, targetPsi)
} else if (target is FunctionDescriptor) {
// Appears to be the case if we're referencing an overwritten function in a previously
// compiled kotlin file
// E.g. A.f overwrites B.f overwrites C.f
// C is a Minecraft class, B is a previously compiled (and already remapped) kotlin
// class and we're currently in A.f trying to call `super.f()`.
// `target` is a DeserializedSimpleFunctionDescriptor with no linked PSI element.
map(expression, target)
}
}
}
return super.visitReferenceExpression(expression, data)
}
}, null)
}
return getResult(file.text)
}
companion object {
private const val CLASS_MIXIN = "org.spongepowered.asm.mixin.Mixin"
private const val CLASS_SHADOW = "org.spongepowered.asm.mixin.Shadow"
private const val CLASS_OVERWRITE = "org.spongepowered.asm.mixin.Overwrite"
private const val CLASS_ACCESSOR = "org.spongepowered.asm.mixin.gen.Accessor"
private const val CLASS_INVOKER = "org.spongepowered.asm.mixin.gen.Invoker"
private const val CLASS_AT = "org.spongepowered.asm.mixin.injection.At"
private const val CLASS_INJECT = "org.spongepowered.asm.mixin.injection.Inject"
private const val CLASS_MODIFY_ARG = "org.spongepowered.asm.mixin.injection.ModifyArg"
private const val CLASS_MODIFY_ARGS = "org.spongepowered.asm.mixin.injection.ModifyArgs"
private const val CLASS_MODIFY_CONSTANT = "org.spongepowered.asm.mixin.injection.ModifyConstant"
private const val CLASS_MODIFY_VARIABLE = "org.spongepowered.asm.mixin.injection.ModifyVariable"
private const val CLASS_REDIRECT = "org.spongepowered.asm.mixin.injection.Redirect"
private const val CLASS_OVERRIDE = "java.lang.Override"
private fun isSwitchCase(e: PsiElement): Boolean {
if (e is PsiSwitchLabelStatement) {
return true
}
val parent = e.parent
return parent != null && isSwitchCase(parent)
}
}
}
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