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/*
 * 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.codegen

import com.intellij.openapi.progress.ProcessCanceledException
import org.jetbrains.kotlin.backend.common.CodegenUtil
import org.jetbrains.kotlin.codegen.context.FieldOwnerContext
import org.jetbrains.kotlin.codegen.context.MethodContext
import org.jetbrains.kotlin.codegen.state.GenerationState
import org.jetbrains.kotlin.config.JvmAnalysisFlags
import org.jetbrains.kotlin.descriptors.*
import org.jetbrains.kotlin.fileClasses.JvmFileClassUtil
import org.jetbrains.kotlin.load.java.JvmAnnotationNames
import org.jetbrains.kotlin.load.kotlin.header.KotlinClassHeader
import org.jetbrains.kotlin.load.kotlin.incremental.IncrementalPackageFragmentProvider
import org.jetbrains.kotlin.name.FqName
import org.jetbrains.kotlin.name.JvmStandardClassIds.JVM_SYNTHETIC_ANNOTATION_FQ_NAME
import org.jetbrains.kotlin.progress.ProgressIndicatorAndCompilationCanceledStatus
import org.jetbrains.kotlin.psi.KtClassOrObject
import org.jetbrains.kotlin.psi.KtFile
import org.jetbrains.kotlin.psi.KtTypeAlias
import org.jetbrains.kotlin.resolve.BindingContext
import org.jetbrains.kotlin.resolve.DescriptorUtils
import org.jetbrains.kotlin.resolve.MemberComparator
import org.jetbrains.kotlin.resolve.descriptorUtil.annotationClass
import org.jetbrains.kotlin.resolve.jvm.AsmTypes
import org.jetbrains.kotlin.resolve.jvm.JvmClassName
import org.jetbrains.kotlin.resolve.jvm.diagnostics.ErrorsJvm
import org.jetbrains.kotlin.resolve.jvm.diagnostics.MultifileClass
import org.jetbrains.kotlin.resolve.jvm.diagnostics.MultifileClassPart
import org.jetbrains.kotlin.resolve.jvm.diagnostics.OtherOrigin
import org.jetbrains.kotlin.resolve.jvm.jvmSignature.JvmMethodSignature
import org.jetbrains.kotlin.resolve.lazy.descriptors.findPackageFragmentForFile
import org.jetbrains.kotlin.resolve.scopes.DescriptorKindFilter
import org.jetbrains.kotlin.resolve.scopes.MemberScope
import org.jetbrains.kotlin.serialization.deserialization.descriptors.DeserializedCallableMemberDescriptor
import org.jetbrains.kotlin.serialization.deserialization.descriptors.DeserializedPropertyDescriptor
import org.jetbrains.kotlin.serialization.deserialization.descriptors.DeserializedSimpleFunctionDescriptor
import org.jetbrains.org.objectweb.asm.MethodVisitor
import org.jetbrains.org.objectweb.asm.Opcodes
import org.jetbrains.org.objectweb.asm.Type

interface MultifileClassCodegen {
    fun generate()

    fun generateClassOrObject(classOrObject: KtClassOrObject, packagePartContext: FieldOwnerContext)
}

class MultifileClassCodegenImpl(
    private val state: GenerationState,
    private val files: Collection,
    private val facadeFqName: FqName
) : MultifileClassCodegen {
    private val facadeClassType = AsmUtil.asmTypeByFqNameWithoutInnerClasses(facadeFqName)

    private val packageFragment = getOnlyPackageFragment(files, state.module)

    private val compiledPackageFragment = getCompiledPackageFragment(facadeFqName, state)

    private val previouslyCompiledCallables =
        if (compiledPackageFragment == null)
            emptyList()
        else
            getDeserializedCallables(compiledPackageFragment)

    private fun getDeserializedCallables(compiledPackageFragment: PackageFragmentDescriptor) =
        compiledPackageFragment.getMemberScope()
            .getContributedDescriptors(DescriptorKindFilter.CALLABLES, MemberScope.ALL_NAME_FILTER)
            .filterIsInstance()

    private val shouldGeneratePartHierarchy =
        state.languageVersionSettings.getFlag(JvmAnalysisFlags.inheritMultifileParts)

    private val partInternalNamesSorted = run {
        val partInternalNamesSet = hashSetOf()
        for (file in files) {
            if (file.hasDeclarationsForPartClass()) {
                partInternalNamesSet.add(JvmFileClassUtil.getFileClassInternalName(file))
            }
        }
        compiledPackageFragment?.let {
            partInternalNamesSet.addAll(it.partsInternalNames)
        }
        partInternalNamesSet.sorted()
    }

    private val superClassForInheritedPart = run {
        val result = hashMapOf()
        for (i in 1 until partInternalNamesSorted.size) {
            result[partInternalNamesSorted[i]] = partInternalNamesSorted[i - 1]
        }
        result
    }

    private val delegateGenerationTasks = hashMapOf Unit>()

    private fun getSuperClassForPart(partInternalName: String) =
        if (shouldGeneratePartHierarchy)
            superClassForInheritedPart[partInternalName] ?: J_L_OBJECT
        else
            J_L_OBJECT

    private val classBuilder = ClassBuilderOnDemand {
        val actualPackageFragment = packageFragment
            ?: compiledPackageFragment
            ?: throw AssertionError("No package fragment for multifile facade $facadeFqName; files: $files")

        val singleSourceFile =
            if (previouslyCompiledCallables.isEmpty())
                files.singleOrNull { it.hasDeclarationsForPartClass() }
            else
                null

        val superClassForFacade = if (shouldGeneratePartHierarchy) partInternalNamesSorted.last() else J_L_OBJECT

        state.factory.newVisitor(MultifileClass(files.firstOrNull(), actualPackageFragment), facadeClassType, files).apply {
            var attributes = FACADE_CLASS_ATTRIBUTES

            val nonJvmSyntheticParts = files.filterNot { it.isJvmSynthetic() }
            if (nonJvmSyntheticParts.isEmpty()) {
                attributes = attributes or Opcodes.ACC_SYNTHETIC
            } else if (nonJvmSyntheticParts.size < files.size) {
                for (part in nonJvmSyntheticParts) {
                    state.diagnostics.report(ErrorsJvm.NOT_ALL_MULTIFILE_CLASS_PARTS_ARE_JVM_SYNTHETIC.on(part.packageDirective ?: part))
                }
            }

            defineClass(
                singleSourceFile, state.config.classFileVersion, attributes,
                facadeClassType.internalName, null, superClassForFacade, emptyArray()
            )
            if (singleSourceFile != null) {
                visitSource(singleSourceFile.name, null)
            }

            if (shouldGeneratePartHierarchy) {
                newMethod(OtherOrigin(actualPackageFragment), Opcodes.ACC_PRIVATE, "", "()V", null, null).apply {
                    visitCode()
                    visitVarInsn(Opcodes.ALOAD, 0)
                    visitMethodInsn(Opcodes.INVOKESPECIAL, superClassForFacade, "", "()V", false)
                    visitInsn(Opcodes.RETURN)
                    visitMaxs(1, 1)
                    visitEnd()
                }
            }
        }
    }

    private fun KtFile.isJvmSynthetic(): Boolean {
        return annotationEntries.any { entry ->
            val descriptor = state.bindingContext[BindingContext.ANNOTATION, entry]
            descriptor?.annotationClass?.let(DescriptorUtils::getFqNameSafe) == JVM_SYNTHETIC_ANNOTATION_FQ_NAME
        }
    }

    override fun generate() {
        assert(delegateGenerationTasks.isEmpty()) { "generate() is called twice for facade class $facadeFqName" }

        generateCodeForSourceFiles()

        generateDelegatesToPreviouslyCompiledParts()

        if (partInternalNamesSorted.isNotEmpty()) {
            generateMultifileFacadeClass()
        }

        done()
    }

    private fun generateCodeForSourceFiles() {
        for (file in files) {
            ProgressIndicatorAndCompilationCanceledStatus.checkCanceled()
            try {
                generatePart(file)
                state.afterIndependentPart()
            } catch (e: ProcessCanceledException) {
                throw e
            } catch (e: Throwable) {
                CodegenUtil.reportBackendException(e, "multi-file class part code generation", file.virtualFile?.url)
            }
        }
    }

    private fun generateMultifileFacadeClass() {
        for (member in delegateGenerationTasks.keys.sortedWith(MemberComparator.INSTANCE)) {
            delegateGenerationTasks[member]!!()
        }

        writeKotlinMultifileFacadeAnnotationIfNeeded()
    }

    override fun generateClassOrObject(classOrObject: KtClassOrObject, packagePartContext: FieldOwnerContext) {
        MemberCodegen.genClassOrObject(packagePartContext, classOrObject, state, null)
    }

    private fun generatePart(file: KtFile) {
        val packageFragment = this.packageFragment
            ?: throw AssertionError("File part $file of $facadeFqName: no package fragment")

        val partType = Type.getObjectType(JvmFileClassUtil.getFileClassInternalName(file))
        val partContext = state.rootContext.intoMultifileClassPart(packageFragment, facadeClassType, partType, file)

        PackageCodegenImpl.generateClassesAndObjectsInFile(file, partContext, state)

        if (!state.generateDeclaredClassFilter.shouldGeneratePackagePart(file) || !file.hasDeclarationsForPartClass()) return

        state.factory.packagePartRegistry.addPart(packageFragment.fqName, partType.internalName, facadeClassType.internalName)

        val builder = state.factory.newVisitor(MultifileClassPart(file, packageFragment), partType, file)

        MultifileClassPartCodegen(
            builder, file, packageFragment, getSuperClassForPart(partType.internalName), shouldGeneratePartHierarchy, partContext, state
        ).generate()

        addDelegateGenerationTasksForDeclarationsInFile(file, packageFragment, partType)
    }

    private fun addDelegateGenerationTasksForDeclarationsInFile(file: KtFile, packageFragment: PackageFragmentDescriptor, partType: Type) {
        val facadeContext = state.rootContext.intoMultifileClass(packageFragment, facadeClassType, partType)
        val memberCodegen = createCodegenForDelegatesInMultifileFacade(facadeContext)
        for (declaration in CodegenUtil.getMemberDeclarationsToGenerate(file)) {
            // In light classes, we intentionally do not analyze type aliases, since they're metadata-only
            if (declaration is KtTypeAlias && !state.classBuilderMode.generateMetadata) continue

            val descriptor = state.bindingContext.get(BindingContext.DECLARATION_TO_DESCRIPTOR, declaration)
            if (descriptor !is MemberDescriptor) {
                throw AssertionError("Expected callable member, was " + descriptor + " for " + declaration.text)
            }
            addDelegateGenerationTaskIfNeeded(descriptor) { memberCodegen.genSimpleMember(declaration) }
        }
    }

    private fun shouldGenerateInFacade(descriptor: MemberDescriptor): Boolean {
        if (DescriptorVisibilities.isPrivate(descriptor.visibility)) return false
        if (DescriptorAsmUtil.getVisibilityAccessFlag(descriptor) == Opcodes.ACC_PRIVATE) return false

        if (!state.classBuilderMode.generateBodies) return true

        if (shouldGeneratePartHierarchy) {
            if (descriptor !is PropertyDescriptor || !descriptor.isConst) return false
        }

        return true
    }

    private fun addDelegateGenerationTaskIfNeeded(callable: MemberDescriptor, task: () -> Unit) {
        if (shouldGenerateInFacade(callable)) {
            delegateGenerationTasks[callable] = task
        }
    }

    private fun generateDelegatesToPreviouslyCompiledParts() {
        if (compiledPackageFragment == null) return

        for (callable in previouslyCompiledCallables) {
            val partFqName = JvmFileClassUtil.getPartFqNameForDeserialized(callable)
            val partType = AsmUtil.asmTypeByFqNameWithoutInnerClasses(partFqName)

            addDelegateGenerationTaskIfNeeded(callable) { generateDelegateToCompiledMember(callable, compiledPackageFragment, partType) }
        }
    }

    private fun generateDelegateToCompiledMember(
        member: CallableMemberDescriptor,
        compiledPackageFragment: PackageFragmentDescriptor,
        partType: Type
    ) {
        val context = state.rootContext.intoMultifileClass(compiledPackageFragment, facadeClassType, partType)

        val memberCodegen = createCodegenForDelegatesInMultifileFacade(context)

        when (member) {
            is DeserializedSimpleFunctionDescriptor -> {
                memberCodegen.functionCodegen.generateMethod(OtherOrigin(member), member, DelegateToCompiledMemberGenerationStrategy)

                memberCodegen.functionCodegen.generateDefaultIfNeeded(
                    context.intoFunction(member), member, OwnerKind.PACKAGE, DefaultParameterValueLoader.DEFAULT, null
                )

                memberCodegen.functionCodegen.generateOverloadsWithDefaultValues(null, member, member)
            }
            is DeserializedPropertyDescriptor -> {
                memberCodegen.propertyCodegen.generateInPackageFacade(member)
            }
            else -> {
                throw IllegalStateException("Unexpected member: $member")
            }
        }
    }

    object DelegateToCompiledMemberGenerationStrategy : FunctionGenerationStrategy() {
        override fun skipNotNullAssertionsForParameters(): Boolean {
            throw IllegalStateException("shouldn't be called")
        }

        override fun generateBody(
            mv: MethodVisitor, frameMap: FrameMap, signature: JvmMethodSignature, context: MethodContext, parentCodegen: MemberCodegen<*>
        ) {
            throw IllegalStateException("shouldn't be called")
        }
    }

    private fun writeKotlinMultifileFacadeAnnotationIfNeeded() {
        if (!state.classBuilderMode.generateMetadata) {
            classBuilder.ensureGenerated()
            return
        }
        if (files.any { it.isScript() }) return

        val extraFlags = if (shouldGeneratePartHierarchy) JvmAnnotationNames.METADATA_MULTIFILE_PARTS_INHERIT_FLAG else 0

        val kotlinPackageFqName =
            packageFragment?.fqName ?: compiledPackageFragment?.fqName
            ?: error("Either source package or compiled package should not be null: $facadeClassType ($files)")

        if (files.any { it.packageFqName != kotlinPackageFqName })
            throw UnsupportedOperationException(
                "Multi-file parts of a facade with JvmPackageName should all lie in the same Kotlin package:\n  " +
                        files.joinToString("\n  ") { file -> "$file: package ${file.packageFqName}" }
            )

        writeMetadata(classBuilder, state, extraFlags, partInternalNamesSorted, facadeClassType, kotlinPackageFqName)
    }

    private fun createCodegenForDelegatesInMultifileFacade(facadeContext: FieldOwnerContext<*>): MemberCodegen =
        object : MemberCodegen(state, null, facadeContext, null, classBuilder) {
            override fun generateDeclaration() = throw UnsupportedOperationException()
            override fun generateBody() = throw UnsupportedOperationException()
            override fun generateKotlinMetadataAnnotation() = throw UnsupportedOperationException()
        }

    private fun done() {
        classBuilder.done(state.config.generateSmapCopyToAnnotation)
        if (classBuilder.isComputed) {
            state.afterIndependentPart()
        }
    }

    companion object {
        private val J_L_OBJECT = AsmTypes.OBJECT_TYPE.internalName
        private const val FACADE_CLASS_ATTRIBUTES = Opcodes.ACC_PUBLIC or Opcodes.ACC_FINAL or Opcodes.ACC_SUPER

        private fun getOnlyPackageFragment(files: Collection, moduleDescriptor: ModuleDescriptor): PackageFragmentDescriptor? {
            val fragments = files.mapTo(linkedSetOf()) { file ->
                moduleDescriptor.findPackageFragmentForFile(file)
                    ?: throw AssertionError("package fragment is null for " + file + "\n" + file.text)
            }
            if (fragments.size > 1) {
                throw IllegalStateException("More than one package fragment, files: $files | fragments: $fragments")
            }
            return fragments.firstOrNull()
        }

        private fun KtFile.hasDeclarationsForPartClass() =
            CodegenUtil.getMemberDeclarationsToGenerate(this).isNotEmpty()

        private fun getCompiledPackageFragment(
            facadeFqName: FqName, state: GenerationState
        ): IncrementalPackageFragmentProvider.IncrementalMultifileClassPackageFragment? {
            if (!state.isIncrementalCompilation) return null

            val packageFqName = facadeFqName.parent()

            val incrementalPackageFragment = state.module.getPackage(packageFqName).fragments.firstOrNull { fragment ->
                fragment is IncrementalPackageFragmentProvider.IncrementalPackageFragment && fragment.target == state.targetId
            } as IncrementalPackageFragmentProvider.IncrementalPackageFragment?

            return incrementalPackageFragment?.getPackageFragmentForMultifileClass(facadeFqName)
        }

        fun writeMetadata(
            classBuilder: ClassBuilder,
            state: GenerationState,
            flags: Int,
            partInternalNames: List,
            facadeClassType: Type,
            kotlinPackageFqName: FqName
        ) {
            writeKotlinMetadata(classBuilder, state.config, KotlinClassHeader.Kind.MULTIFILE_CLASS, false, flags) { av ->
                val arv = av.visitArray(JvmAnnotationNames.METADATA_DATA_FIELD_NAME)
                for (internalName in partInternalNames) {
                    arv.visit(null, internalName)
                }
                arv.visitEnd()

                if (kotlinPackageFqName != JvmClassName.byInternalName(facadeClassType.internalName).packageFqName) {
                    av.visit(JvmAnnotationNames.METADATA_PACKAGE_NAME_FIELD_NAME, kotlinPackageFqName.asString())
                }
            }
        }
    }
}




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