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/*
 * Copyright 2010-2021 JetBrains s.r.o. and Kotlin Programming Language contributors.
 * Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
 */

package org.jetbrains.kotlin.ir.interpreter

import org.jetbrains.kotlin.builtins.PrimitiveType
import org.jetbrains.kotlin.builtins.UnsignedType
import org.jetbrains.kotlin.constant.*
import org.jetbrains.kotlin.descriptors.ClassKind
import org.jetbrains.kotlin.descriptors.DescriptorVisibilities
import org.jetbrains.kotlin.descriptors.DescriptorVisibility
import org.jetbrains.kotlin.descriptors.Modality
import org.jetbrains.kotlin.ir.IrBuiltIns
import org.jetbrains.kotlin.ir.IrStatement
import org.jetbrains.kotlin.ir.declarations.*
import org.jetbrains.kotlin.ir.declarations.impl.IrFactoryImpl
import org.jetbrains.kotlin.ir.declarations.impl.IrVariableImpl
import org.jetbrains.kotlin.ir.expressions.*
import org.jetbrains.kotlin.ir.expressions.impl.*
import org.jetbrains.kotlin.ir.symbols.impl.IrClassSymbolImpl
import org.jetbrains.kotlin.ir.symbols.impl.IrSimpleFunctionSymbolImpl
import org.jetbrains.kotlin.ir.symbols.impl.IrVariableSymbolImpl
import org.jetbrains.kotlin.ir.types.*
import org.jetbrains.kotlin.ir.util.*
import org.jetbrains.kotlin.name.Name

internal val TEMP_CLASS_FOR_INTERPRETER = IrDeclarationOriginImpl("TEMP_CLASS_FOR_INTERPRETER")
internal val TEMP_FUNCTION_FOR_INTERPRETER = IrDeclarationOriginImpl("TEMP_FUNCTION_FOR_INTERPRETER")

@Deprecated("Please migrate to `org.jetbrains.kotlin.ir.util.toIrConst`", level = DeprecationLevel.HIDDEN)
fun Any?.toIrConst(irType: IrType, startOffset: Int = SYNTHETIC_OFFSET, endOffset: Int = SYNTHETIC_OFFSET): IrConst<*> =
    toIrConst(irType, startOffset, endOffset)

internal fun IrFunction.createCall(origin: IrStatementOrigin? = null): IrCall {
    this as IrSimpleFunction
    return IrCallImpl(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, returnType, symbol, typeParameters.size, valueParameters.size, origin)
}

internal fun IrConstructor.createConstructorCall(irType: IrType = returnType): IrConstructorCall {
    return IrConstructorCallImpl.fromSymbolOwner(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, irType, symbol)
}

internal fun IrValueDeclaration.createGetValue(): IrGetValue {
    return IrGetValueImpl(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, this.type, this.symbol)
}

internal fun IrValueDeclaration.createTempVariable(): IrVariable {
    return IrVariableImpl(
        SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, IrDeclarationOrigin.IR_TEMPORARY_VARIABLE, IrVariableSymbolImpl(),
        this.name, this.type, isVar = false, isConst = false, isLateinit = false
    )
}

internal fun IrClass.createGetObject(): IrGetObjectValue {
    return IrGetObjectValueImpl(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, this.defaultType, this.symbol)
}

internal fun IrFunction.createReturn(value: IrExpression): IrReturn {
    return IrReturnImpl(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, this.returnType, this.symbol, value)
}

internal fun createTempFunction(
    name: Name,
    type: IrType,
    origin: IrDeclarationOrigin = TEMP_FUNCTION_FOR_INTERPRETER,
    visibility: DescriptorVisibility = DescriptorVisibilities.PUBLIC
): IrSimpleFunction {
    return IrFactoryImpl.createSimpleFunction(
        startOffset = SYNTHETIC_OFFSET,
        endOffset = SYNTHETIC_OFFSET,
        origin = origin,
        name = name,
        visibility = visibility,
        isInline = false,
        isExpect = false,
        returnType = type,
        modality = Modality.FINAL,
        symbol = IrSimpleFunctionSymbolImpl(),
        isTailrec = false,
        isSuspend = false,
        isOperator = true,
        isInfix = false,
        isExternal = false,
    )
}

internal fun createTempClass(name: Name, origin: IrDeclarationOrigin = TEMP_CLASS_FOR_INTERPRETER): IrClass {
    return IrFactoryImpl.createClass(
        startOffset = SYNTHETIC_OFFSET,
        endOffset = SYNTHETIC_OFFSET,
        origin = origin,
        name = name,
        visibility = DescriptorVisibilities.PRIVATE,
        symbol = IrClassSymbolImpl(),
        kind = ClassKind.CLASS,
        modality = Modality.FINAL,
    )
}

internal fun IrFunction.createGetField(): IrExpression {
    val backingField = this.property!!.backingField!!
    val receiver = dispatchReceiverParameter ?: extensionReceiverParameter
    return backingField.createGetField(receiver)
}

internal fun IrField.createGetField(receiver: IrValueParameter? = null): IrGetField {
    return IrGetFieldImpl(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, this.symbol, this.type, receiver?.createGetValue())
}

internal fun List.wrapWithBlockBody(): IrBlockBody {
    return IrFactoryImpl.createBlockBody(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, this)
}

internal fun IrFunctionAccessExpression.shallowCopy(copyTypeArguments: Boolean = true): IrFunctionAccessExpression {
    return when (this) {
        is IrCall -> symbol.owner.createCall()
        is IrConstructorCall -> symbol.owner.createConstructorCall()
        is IrDelegatingConstructorCall -> IrDelegatingConstructorCallImpl.fromSymbolOwner(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, type, symbol)
        is IrEnumConstructorCall ->
            IrEnumConstructorCallImpl(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, type, symbol, typeArgumentsCount, valueArgumentsCount)
        else -> TODO("Expression $this cannot be copied")
    }.apply {
        if (copyTypeArguments) {
            (0 until [email protected]).forEach { this.putTypeArgument(it, [email protected](it)) }
        }
    }
}

internal fun IrBuiltIns.copyArgs(from: IrFunctionAccessExpression, into: IrFunctionAccessExpression) {
    into.dispatchReceiver = from.dispatchReceiver
    into.extensionReceiver = from.extensionReceiver
    (0 until from.valueArgumentsCount)
        .map { from.getValueArgument(it) }
        .forEachIndexed { i, arg ->
            into.putValueArgument(i, arg ?: IrConstImpl.constNull(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, this.anyNType))
        }
}

internal fun IrBuiltIns.irEquals(arg1: IrExpression, arg2: IrExpression): IrCall {
    val equalsCall = this.eqeqSymbol.owner.createCall(IrStatementOrigin.EQEQ)
    equalsCall.putValueArgument(0, arg1)
    equalsCall.putValueArgument(1, arg2)
    return equalsCall
}

internal fun IrBuiltIns.irIfNullThenElse(nullableArg: IrExpression, ifTrue: IrExpression, ifFalse: IrExpression): IrWhen {
    val nullCondition = this.irEquals(nullableArg, IrConstImpl.constNull(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, this.anyNType))
    val trueBranch = IrBranchImpl(nullCondition, ifTrue) // use default
    val elseBranch = IrElseBranchImpl(IrConstImpl.constTrue(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, this.booleanType), ifFalse)

    return IrIfThenElseImpl(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, ifTrue.type).apply { branches += listOf(trueBranch, elseBranch) }
}

internal fun IrBuiltIns.emptyArrayConstructor(arrayType: IrType): IrConstructorCall {
    val arrayClass = arrayType.classOrNull!!.owner
    val constructor = arrayClass.constructors.firstOrNull { it.valueParameters.size == 1 } ?: arrayClass.constructors.first()
    val constructorCall = constructor.createConstructorCall(arrayType)

    constructorCall.putValueArgument(0, 0.toIrConst(this.intType))
    if (constructor.valueParameters.size == 2) {
        // TODO find a way to avoid creation of empty lambda
        val tempFunction = createTempFunction(Name.identifier("TempForVararg"), this.anyType)
        tempFunction.parent = arrayClass // can be anything, will not be used in any case
        val initLambda = IrFunctionExpressionImpl(SYNTHETIC_OFFSET, SYNTHETIC_OFFSET, constructor.valueParameters[1].type, tempFunction, IrStatementOrigin.LAMBDA)
        constructorCall.putValueArgument(1, initLambda)
        constructorCall.putTypeArgument(0, (arrayType as IrSimpleType).arguments.singleOrNull()?.typeOrNull)
    }
    return constructorCall
}

internal fun IrConst<*>.toConstantValue(): ConstantValue<*> {
    if (value == null) return NullValue

    val constType = this.type.makeNotNull().removeAnnotations()
    return when (this.type.getPrimitiveType()) {
        PrimitiveType.BOOLEAN -> BooleanValue(this.value as Boolean)
        PrimitiveType.CHAR -> CharValue(this.value as Char)
        PrimitiveType.BYTE -> ByteValue((this.value as Number).toByte())
        PrimitiveType.SHORT -> ShortValue((this.value as Number).toShort())
        PrimitiveType.INT -> IntValue((this.value as Number).toInt())
        PrimitiveType.FLOAT -> FloatValue((this.value as Number).toFloat())
        PrimitiveType.LONG -> LongValue((this.value as Number).toLong())
        PrimitiveType.DOUBLE -> DoubleValue((this.value as Number).toDouble())
        null -> when (constType.getUnsignedType()) {
            UnsignedType.UBYTE -> UByteValue((this.value as Number).toByte())
            UnsignedType.USHORT -> UShortValue((this.value as Number).toShort())
            UnsignedType.UINT -> UIntValue((this.value as Number).toInt())
            UnsignedType.ULONG -> ULongValue((this.value as Number).toLong())
            null -> when {
                constType.isString() -> StringValue(this.value as String)
                else -> error("Cannot convert IrConst ${this.render()} to ConstantValue")
            }
        }
    }
}




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