Move all interpreter methods inside IrInterpreter class
This commit is contained in:
+97
-88
@@ -5,10 +5,12 @@
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package org.jetbrains.kotlin.backend.common.interpreter
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package org.jetbrains.kotlin.backend.common.interpreter
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import org.jetbrains.kotlin.backend.common.CommonBackendContext
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import org.jetbrains.kotlin.backend.common.interpreter.builtins.CompileTimeFunction
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import org.jetbrains.kotlin.backend.common.interpreter.builtins.CompileTimeFunction
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import org.jetbrains.kotlin.backend.common.interpreter.builtins.binaryFunctions
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import org.jetbrains.kotlin.backend.common.interpreter.builtins.binaryFunctions
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import org.jetbrains.kotlin.backend.common.interpreter.builtins.unaryFunctions
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import org.jetbrains.kotlin.backend.common.interpreter.builtins.unaryFunctions
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import org.jetbrains.kotlin.backend.common.interpreter.stack.*
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import org.jetbrains.kotlin.backend.common.interpreter.stack.*
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import org.jetbrains.kotlin.backend.common.ir.Symbols
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import org.jetbrains.kotlin.builtins.DefaultBuiltIns
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import org.jetbrains.kotlin.builtins.DefaultBuiltIns
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import org.jetbrains.kotlin.ir.IrElement
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import org.jetbrains.kotlin.ir.IrElement
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import org.jetbrains.kotlin.ir.IrStatement
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import org.jetbrains.kotlin.ir.IrStatement
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@@ -25,31 +27,33 @@ enum class Code(var info: String = "") {
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NEXT, RETURN, BREAK_LOOP, BREAK_WHEN, CONTINUE, EXCEPTION
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NEXT, RETURN, BREAK_LOOP, BREAK_WHEN, CONTINUE, EXCEPTION
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}
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}
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class IrInterpreter(private val irSymbols: Symbols<CommonBackendContext>) {
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fun interpret(expression: IrExpression): IrExpression {
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fun interpret(expression: IrExpression): IrExpression {
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return InterpreterFrame().apply { expression.interpret(this) }.popReturnValue().toIrExpression(expression)
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return InterpreterFrame().apply { expression.interpret(this) }.popReturnValue().toIrExpression(expression)
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}
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}
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fun IrElement.interpret(data: Frame): Code {
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private fun IrElement.interpret(data: Frame): Code {
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try {
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try {
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val code = when (this) {
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val code = when (this) {
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is IrCall -> this.interpretCall(data)
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is IrCall -> interpretCall(this, data)
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is IrConstructorCall -> this.interpretConstructorCall(data)
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is IrConstructorCall -> interpretConstructorCall(this, data)
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is IrDelegatingConstructorCall -> this.interpretDelegatedConstructorCall(data)
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is IrDelegatingConstructorCall -> interpretDelegatedConstructorCall(this, data)
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is IrBody -> this.interpretBody(data)
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is IrBody -> interpretBody(this, data)
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is IrBlock -> this.interpretBlock(data)
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is IrBlock -> interpretBlock(this, data)
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is IrReturn -> this.interpretReturn(data)
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is IrReturn -> interpretReturn(this, data)
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is IrSetField -> this.interpretSetField(data)
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is IrSetField -> interpretSetField(this, data)
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is IrGetField -> this.interpretGetField(data)
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is IrGetField -> interpretGetField(this, data)
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is IrGetValue -> this.interpretGetValue(data)
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is IrGetValue -> interpretGetValue(this, data)
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is IrGetObjectValue -> this.interpretGetObjectValue(data)
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is IrGetObjectValue -> interpretGetObjectValue(this, data)
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is IrConst<*> -> this.interpretConst(data)
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is IrConst<*> -> interpretConst(this, data)
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is IrVariable -> this.interpretVariable(data)
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is IrVariable -> interpretVariable(this, data)
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is IrSetVariable -> this.interpretSetVariable(data)
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is IrSetVariable -> interpretSetVariable(this, data)
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is IrTypeOperatorCall -> this.interpretTypeOperatorCall(data)
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is IrTypeOperatorCall -> interpretTypeOperatorCall(this, data)
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is IrBranch -> this.interpretBranch(data)
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is IrBranch -> interpretBranch(this, data)
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is IrWhileLoop -> this.interpretWhile(data)
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is IrWhileLoop -> interpretWhile(this, data)
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is IrWhen -> this.interpretWhen(data)
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is IrWhen -> interpretWhen(this, data)
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is IrBreak -> this.interpretBreak(data)
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is IrBreak -> interpretBreak(this, data)
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else -> TODO("${this.javaClass} not supported")
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else -> TODO("${this.javaClass} not supported")
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}
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}
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@@ -157,25 +161,25 @@ private fun calculateRangeTo(expression: IrExpression, data: Frame): Code {
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return code
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return code
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}
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}
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fun IrMemberAccessExpression.interpretValueParameters(data: Frame): Code {
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private fun interpretValueParameters(parametersContainer: IrMemberAccessExpression, data: Frame): Code {
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for (i in (this.valueArgumentsCount - 1) downTo 0) {
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for (i in (parametersContainer.valueArgumentsCount - 1) downTo 0) {
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val code = this.getValueArgument(i)?.interpret(data) ?: Code.NEXT
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val code = parametersContainer.getValueArgument(i)?.interpret(data) ?: Code.NEXT
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if (code != Code.NEXT) return code
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if (code != Code.NEXT) return code
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}
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}
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return Code.NEXT
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return Code.NEXT
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}
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}
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fun IrCall.interpretCall(data: Frame): Code {
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private fun interpretCall(expression: IrCall, data: Frame): Code {
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val newFrame = InterpreterFrame()
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val newFrame = InterpreterFrame()
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this.interpretValueParameters(data).also { if (it != Code.NEXT) return it }
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interpretValueParameters(expression, data).also { if (it != Code.NEXT) return it }
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val valueParameters = this.symbol.descriptor.valueParameters.map { Variable(it, data.popReturnValue()) }
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val valueParameters = expression.symbol.descriptor.valueParameters.map { Variable(it, data.popReturnValue()) }
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val rawReceiver = this.dispatchReceiver ?: this.extensionReceiver
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val rawReceiver = expression.dispatchReceiver ?: expression.extensionReceiver
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rawReceiver?.interpret(data)?.also { if (it != Code.NEXT) return it }
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rawReceiver?.interpret(data)?.also { if (it != Code.NEXT) return it }
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val receiver = rawReceiver?.let { data.popReturnValue() }
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val receiver = rawReceiver?.let { data.popReturnValue() }
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val irFunction = receiver.getIrFunction(this)
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val irFunction = receiver.getIrFunction(expression)
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val receiverParameter = irFunction.symbol.getThisAsReceiver()
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val receiverParameter = irFunction.symbol.getThisAsReceiver()
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// it is important firstly to add receiver, then arguments
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// it is important firstly to add receiver, then arguments
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receiver?.let { newFrame.addVar(Variable(receiverParameter!!, it)) }
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receiver?.let { newFrame.addVar(Variable(receiverParameter!!, it)) }
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@@ -183,23 +187,26 @@ fun IrCall.interpretCall(data: Frame): Code {
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val code = when {
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val code = when {
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//irFunction.annotations.any { it.descriptor.containingDeclaration.fqNameSafe == evaluateIntrinsicAnnotation } -> empty
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//irFunction.annotations.any { it.descriptor.containingDeclaration.fqNameSafe == evaluateIntrinsicAnnotation } -> empty
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isBuiltIn(irFunction) -> calculateBuiltIns(this, newFrame)
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isBuiltIn(irFunction) -> calculateBuiltIns(expression, newFrame)
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this.isAbstract() -> calculateAbstract(irFunction, newFrame) //abstract check must be before fake overridden check
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expression.isAbstract() -> calculateAbstract(
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this.isFakeOverridden() -> calculateOverridden(irFunction as IrFunctionImpl, newFrame)
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irFunction,
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else -> (irFunction.body ?: this.getBody())!!.interpret(newFrame)
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newFrame
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) //abstract check must be before fake overridden check
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expression.isFakeOverridden() -> calculateOverridden(irFunction as IrFunctionImpl, newFrame)
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else -> (irFunction.body ?: expression.getBody())!!.interpret(newFrame)
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}
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}
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data.pushReturnValue(newFrame)
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data.pushReturnValue(newFrame)
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return code
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return code
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}
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}
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fun IrFunctionAccessExpression.interpretConstructor(data: Frame): Code {
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private fun interpretConstructor(constructorCall: IrFunctionAccessExpression, data: Frame): Code {
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this.interpretValueParameters(data).also { if (it != Code.NEXT) return it }
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interpretValueParameters(constructorCall, data).also { if (it != Code.NEXT) return it }
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val valueParameters = this.symbol.descriptor.valueParameters.map { Variable(it, data.popReturnValue()) }.toMutableList()
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val valueParameters = constructorCall.symbol.descriptor.valueParameters.map { Variable(it, data.popReturnValue()) }.toMutableList()
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val newFrame = InterpreterFrame(valueParameters)
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val newFrame = InterpreterFrame(valueParameters)
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val state = Complex(this.symbol.owner.parent as IrClass, mutableListOf())
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val state = Complex(constructorCall.symbol.owner.parent as IrClass, mutableListOf())
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newFrame.addVar(Variable(this.getThisAsReceiver(), state)) //used to set up fields in body
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newFrame.addVar(Variable(constructorCall.getThisAsReceiver(), state)) //used to set up fields in body
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val code = this.getBody()?.interpret(newFrame) ?: Code.NEXT
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val code = constructorCall.getBody()?.interpret(newFrame) ?: Code.NEXT
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if (newFrame.hasReturnValue()) {
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if (newFrame.hasReturnValue()) {
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state.setSuperQualifier(newFrame.popReturnValue() as Complex)
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state.setSuperQualifier(newFrame.popReturnValue() as Complex)
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}
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}
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@@ -207,29 +214,29 @@ fun IrFunctionAccessExpression.interpretConstructor(data: Frame): Code {
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return code
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return code
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}
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}
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fun IrConstructorCall.interpretConstructorCall(data: Frame): Code {
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private fun interpretConstructorCall(constructorCall: IrConstructorCall, data: Frame): Code {
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return this.interpretConstructor(data)
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return interpretConstructor(constructorCall, data)
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}
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}
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fun IrDelegatingConstructorCall.interpretDelegatedConstructorCall(data: Frame): Code {
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private fun interpretDelegatedConstructorCall(delegatingConstructorCall: IrDelegatingConstructorCall, data: Frame): Code {
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if (this.symbol.descriptor.containingDeclaration.defaultType == DefaultBuiltIns.Instance.anyType) {
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if (delegatingConstructorCall.symbol.descriptor.containingDeclaration.defaultType == DefaultBuiltIns.Instance.anyType) {
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return Code.NEXT
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return Code.NEXT
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}
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}
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return this.interpretConstructor(data)
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return interpretConstructor(delegatingConstructorCall, data)
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}
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}
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fun IrConst<*>.interpretConst(data: Frame): Code {
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private fun interpretConst(expression: IrConst<*>, data: Frame): Code {
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data.pushReturnValue(this.toPrimitive())
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data.pushReturnValue(expression.toPrimitive())
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return Code.NEXT
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return Code.NEXT
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}
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}
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fun List<IrStatement>.interpretStatements(data: Frame): Code {
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private fun interpretStatements(statements: List<IrStatement>, data: Frame): Code {
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//create newFrame
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//create newFrame
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val newFrame = data.copy()
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val newFrame = data.copy()
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var code = Code.NEXT
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var code = Code.NEXT
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val iterator = this.asSequence().iterator()
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val iterator = statements.asSequence().iterator()
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while (code == Code.NEXT && iterator.hasNext()) {
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while (code == Code.NEXT && iterator.hasNext()) {
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code = iterator.next().interpret(newFrame)
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code = iterator.next().interpret(newFrame)
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}
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}
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@@ -237,25 +244,25 @@ fun List<IrStatement>.interpretStatements(data: Frame): Code {
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return code
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return code
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}
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}
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fun IrBlock.interpretBlock(data: Frame): Code {
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private fun interpretBlock(block: IrBlock, data: Frame): Code {
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return this.statements.interpretStatements(data)
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return interpretStatements(block.statements, data)
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}
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}
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fun IrBody.interpretBody(data: Frame): Code {
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private fun interpretBody(body: IrBody, data: Frame): Code {
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return this.statements.interpretStatements(data)
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return interpretStatements(body.statements, data)
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}
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}
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fun IrReturn.interpretReturn(data: Frame): Code {
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private fun interpretReturn(expression: IrReturn, data: Frame): Code {
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val code = this.value.interpret(data)
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val code = expression.value.interpret(data)
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return if (code == Code.NEXT) Code.RETURN else code
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return if (code == Code.NEXT) Code.RETURN else code
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}
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}
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fun IrWhileLoop.interpretWhile(data: Frame): Code {
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private fun interpretWhile(expression: IrWhileLoop, data: Frame): Code {
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var code = Code.NEXT
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var code = Code.NEXT
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while (code == Code.NEXT) {
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while (code == Code.NEXT) {
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code = this.condition.interpret(data)
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code = expression.condition.interpret(data)
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if (code == Code.NEXT && (data.popReturnValue() as? Primitive<*>)?.getIrConst()?.value as? Boolean == true) {
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if (code == Code.NEXT && (data.popReturnValue() as? Primitive<*>)?.getIrConst()?.value as? Boolean == true) {
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code = this.body?.interpret(data) ?: Code.NEXT
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code = expression.body?.interpret(data) ?: Code.NEXT
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} else {
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} else {
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break
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break
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}
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}
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@@ -263,85 +270,87 @@ fun IrWhileLoop.interpretWhile(data: Frame): Code {
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return code
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return code
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}
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}
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fun IrWhen.interpretWhen(data: Frame): Code {
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private fun interpretWhen(expression: IrWhen, data: Frame): Code {
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var code = Code.NEXT
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var code = Code.NEXT
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val iterator = this.branches.asSequence().iterator()
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val iterator = expression.branches.asSequence().iterator()
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while (code == Code.NEXT && iterator.hasNext()) {
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while (code == Code.NEXT && iterator.hasNext()) {
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code = iterator.next().interpret(data)
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code = iterator.next().interpret(data)
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}
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}
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return code
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return code
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}
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}
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fun IrBranch.interpretBranch(data: Frame): Code {
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private fun interpretBranch(expression: IrBranch, data: Frame): Code {
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var code = this.condition.interpret(data)
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var code = expression.condition.interpret(data)
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if (code == Code.NEXT && (data.popReturnValue() as? Primitive<*>)?.getIrConst()?.value as? Boolean == true) {
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if (code == Code.NEXT && (data.popReturnValue() as? Primitive<*>)?.getIrConst()?.value as? Boolean == true) {
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code = this.result.interpret(data)
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code = expression.result.interpret(data)
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if (code == Code.NEXT) return Code.BREAK_WHEN
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if (code == Code.NEXT) return Code.BREAK_WHEN
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}
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}
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return code
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return code
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}
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}
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fun IrBreak.interpretBreak(data: Frame): Code {
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private fun interpretBreak(breakStatement: IrBreak, data: Frame): Code {
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return Code.BREAK_LOOP.apply { info = this@interpretBreak.label ?: "" }
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return Code.BREAK_LOOP.apply { info = breakStatement.label ?: "" }
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}
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}
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fun IrSetField.interpretSetField(data: Frame): Code {
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private fun interpretSetField(expression: IrSetField, data: Frame): Code {
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val code = this.value.interpret(data)
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val code = expression.value.interpret(data)
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if (code != Code.NEXT) return code
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if (code != Code.NEXT) return code
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val receiver = (this.receiver as IrDeclarationReference).symbol.descriptor
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val receiver = (expression.receiver as IrDeclarationReference).symbol.descriptor
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data.getVariableState(receiver).setState(Variable(this.symbol.owner.descriptor, data.popReturnValue()))
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data.getVariableState(receiver).setState(Variable(expression.symbol.owner.descriptor, data.popReturnValue()))
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return Code.NEXT
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return Code.NEXT
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}
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}
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fun IrGetField.interpretGetField(data: Frame): Code {
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private fun interpretGetField(expression: IrGetField, data: Frame): Code {
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val receiver = (this.receiver as? IrDeclarationReference)?.symbol?.descriptor // receiver is null, for example, for top level fields
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val receiver = (expression.receiver as? IrDeclarationReference)?.symbol?.descriptor // receiver is null, for example, for top level fields
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val result = receiver?.let { data.getVariableState(receiver).getState(this.symbol.descriptor)?.copy() }
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val result = receiver?.let { data.getVariableState(receiver).getState(expression.symbol.descriptor)?.copy() }
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if (result == null) {
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if (result == null) {
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return this.symbol.owner.initializer?.expression?.interpret(data) ?: Code.NEXT
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return expression.symbol.owner.initializer?.expression?.interpret(data) ?: Code.NEXT
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}
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}
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data.pushReturnValue(result)
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data.pushReturnValue(result)
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return Code.NEXT
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return Code.NEXT
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}
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}
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fun IrGetValue.interpretGetValue(data: Frame): Code {
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private fun interpretGetValue(expression: IrGetValue, data: Frame): Code {
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data.pushReturnValue(data.getVariableState(this.symbol.descriptor).copy())
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data.pushReturnValue(data.getVariableState(expression.symbol.descriptor).copy())
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return Code.NEXT
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return Code.NEXT
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}
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}
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fun IrVariable.interpretVariable(data: Frame): Code {
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private fun interpretVariable(expression: IrVariable, data: Frame): Code {
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val code = this.initializer?.interpret(data)
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val code = expression.initializer?.interpret(data)
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if (code != Code.NEXT) return code ?: Code.NEXT
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if (code != Code.NEXT) return code ?: Code.NEXT
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data.addVar(Variable(this.descriptor, data.popReturnValue()))
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data.addVar(Variable(expression.descriptor, data.popReturnValue()))
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return Code.NEXT
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return Code.NEXT
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}
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}
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fun IrSetVariable.interpretSetVariable(data: Frame): Code {
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private fun interpretSetVariable(expression: IrSetVariable, data: Frame): Code {
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val code = this.value.interpret(data)
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val code = expression.value.interpret(data)
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if (code != Code.NEXT) return code
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if (code != Code.NEXT) return code
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if (data.contains(this.symbol.descriptor)) {
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if (data.contains(expression.symbol.descriptor)) {
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val variable = data.getVariableState(this.symbol.descriptor)
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val variable = data.getVariableState(expression.symbol.descriptor)
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variable.setState(Variable(this.symbol.descriptor, data.popReturnValue()))
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variable.setState(Variable(expression.symbol.descriptor, data.popReturnValue()))
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} else {
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} else {
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data.addVar(Variable(this.symbol.descriptor, data.popReturnValue()))
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data.addVar(Variable(expression.symbol.descriptor, data.popReturnValue()))
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}
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}
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return Code.NEXT
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return Code.NEXT
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}
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}
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fun IrGetObjectValue.interpretGetObjectValue(data: Frame): Code {
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private fun interpretGetObjectValue(expression: IrGetObjectValue, data: Frame): Code {
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data.pushReturnValue(Complex(this.symbol.owner, mutableListOf()))
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data.pushReturnValue(Complex(expression.symbol.owner, mutableListOf()))
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return Code.NEXT
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return Code.NEXT
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}
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}
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fun IrTypeOperatorCall.interpretTypeOperatorCall(data: Frame): Code {
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private fun interpretTypeOperatorCall(expression: IrTypeOperatorCall, data: Frame): Code {
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return when (this.operator) {
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return when (expression.operator) {
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IrTypeOperator.IMPLICIT_COERCION_TO_UNIT -> {
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IrTypeOperator.IMPLICIT_COERCION_TO_UNIT -> {
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this.argument.interpret(data)
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expression.argument.interpret(data)
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}
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}
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IrTypeOperator.CAST -> {
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IrTypeOperator.CAST -> {
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this.argument.interpret(data) //todo check cast correctness
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expression.argument.interpret(data) //todo check cast correctness
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}
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}
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else -> TODO("${this.operator} not implemented")
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else -> TODO("${expression.operator} not implemented")
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}
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}
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}
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}
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}
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Block a user