generators/evaluate/GenerateOperationsMap.kt - third_party/github/JetBrains/kotlin - Git at Google

 /*
  * 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.generators.evaluate

 import org.jetbrains.kotlin.builtins.DefaultBuiltIns
 import org.jetbrains.kotlin.builtins.KotlinBuiltIns
 import org.jetbrains.kotlin.descriptors.CallableDescriptor
 import org.jetbrains.kotlin.descriptors.ClassDescriptor
 import org.jetbrains.kotlin.descriptors.FunctionDescriptor
 import org.jetbrains.kotlin.generators.util.GeneratorsFileUtil
 import org.jetbrains.kotlin.types.KotlinType
 import org.jetbrains.kotlin.types.typeUtil.makeNotNullable
 import org.jetbrains.kotlin.utils.Printer
 import java.io.File

 val DEST_FILE: File = File("compiler/frontend.common/src/org/jetbrains/kotlin/resolve/constants/evaluate/OperationsMapGenerated.kt")
 private val EXCLUDED_FUNCTIONS: List<String> = listOf("rangeTo", "rangeUntil", "hashCode", "inc", "dec", "subSequence")

 fun main() {
     GeneratorsFileUtil.writeFileIfContentChanged(DEST_FILE, generate())
 }

 fun generate(): String {
     val sb = StringBuilder()
     val p = Printer(sb)
     p.println(File("license/COPYRIGHT_HEADER.txt").readText())
     p.println("@file:Suppress(\"DEPRECATION\", \"DEPRECATION_ERROR\")")

     p.println()
     p.println("package org.jetbrains.kotlin.resolve.constants.evaluate")
     p.println()
     p.println("import org.jetbrains.kotlin.resolve.constants.evaluate.CompileTimeType.*")
     p.println("import java.math.BigInteger")
     p.println()
     p.println("/** This file is generated by `./gradlew generateOperationsMap`. DO NOT MODIFY MANUALLY */")
     p.println()

     val unaryOperationsMap = arrayListOf<Triple<String, List<KotlinType>, Boolean>>()
     val binaryOperationsMap = arrayListOf<Pair<String, List<KotlinType>>>()

     val builtIns = DefaultBuiltIns.Instance

     @Suppress("UNCHECKED_CAST")
     val allPrimitiveTypes = builtIns.builtInsPackageScope.getContributedDescriptors()
         .filter { it is ClassDescriptor && KotlinBuiltIns.isPrimitiveType(it.defaultType) } as List<ClassDescriptor>

     val integerTypes = allPrimitiveTypes.map { it.defaultType }.filter { it.isIntegerType() }
     val fpTypes = allPrimitiveTypes.map { it.defaultType }.filter { it.isFpType() }

     for (descriptor in allPrimitiveTypes + builtIns.string) {
         @Suppress("UNCHECKED_CAST")
         val functions = descriptor.getMemberScope(listOf()).getContributedDescriptors()
             .filter { it is CallableDescriptor && !EXCLUDED_FUNCTIONS.contains(it.getName().asString()) } as List<CallableDescriptor>

         for (function in functions) {
             val parametersTypes = function.getParametersTypes()

             when (parametersTypes.size) {
                 1 -> unaryOperationsMap.add(Triple(function.name.asString(), parametersTypes, function is FunctionDescriptor))
                 2 -> binaryOperationsMap.add(function.name.asString() to parametersTypes)
                 else -> throw IllegalStateException(
                     "Couldn't add following method from builtins to operations map: ${function.name} in class ${descriptor.name}"
                 )
             }
         }
     }

     unaryOperationsMap.add(Triple("code", listOf(builtIns.charType), false))

     for (type in integerTypes) {
         for (otherType in integerTypes) {
             val parameters = listOf(type, otherType)
             binaryOperationsMap.add("mod" to parameters)
             binaryOperationsMap.add("floorDiv" to parameters)
         }
     }

     for (type in fpTypes) {
         for (otherType in fpTypes) {
             val parameters = listOf(type, otherType)
             binaryOperationsMap.add("mod" to parameters)
         }
     }

     p.println("fun evalUnaryOp(name: String, type: CompileTimeType, value: Any): Any? {")
     p.pushIndent()
     p.println("when (type) {")
     p.pushIndent()
     for ((type, operations) in unaryOperationsMap.groupBy { (_, parameters, _) -> parameters.single() }) {
         p.println("${type.asString()} -> when (name) {")
         p.pushIndent()
         for ((name, _, isFunction) in operations) {
             val parenthesesOrBlank = if (isFunction) "()" else ""
             p.println("\"$name\" -> return (value as ${type.typeName}).$name$parenthesesOrBlank")
         }
         p.popIndent()
         p.println("}")
     }
     p.println("else -> {}")
     p.popIndent()
     p.println("}")
     p.println("return null")
     p.popIndent()
     p.println("}")
     p.println()

     p.println("fun evalBinaryOp(name: String, leftType: CompileTimeType, left: Any, rightType: CompileTimeType, right: Any): Any? {")
     p.pushIndent()
     p.println("when (leftType) {")
     p.pushIndent()
     for ((leftType, operationsOnThisLeftType) in binaryOperationsMap.groupBy { (_, parameters) -> parameters.first() }) {
         p.println("${leftType.asString()} -> when (rightType) {")
         p.pushIndent()
         for ((rightType, operations) in operationsOnThisLeftType.groupBy { (_, parameters) -> parameters[1] }) {
             p.println("${rightType.asString()} -> when (name) {")
             p.pushIndent()
             for ((name, _) in operations) {
                 val castToRightType = if (rightType.typeName == "Any") "" else " as ${rightType.typeName}"
                 p.println("\"$name\" -> return (left as ${leftType.typeName}).$name(right$castToRightType)")
             }
             p.popIndent()
             p.println("}")
         }
         p.println("else -> {}")
         p.popIndent()
         p.println("}")
     }
     p.println("else -> {}")
     p.popIndent()
     p.println("}")
     p.println("return null")
     p.popIndent()
     p.println("}")
     p.println()

     p.println("fun checkBinaryOp(")
     p.println("    name: String, leftType: CompileTimeType, left: BigInteger, rightType: CompileTimeType, right: BigInteger")
     p.println("): BigInteger? {")
     p.pushIndent()
     p.println("when (leftType) {")
     p.pushIndent()
     val checkedBinaryOperations =
         binaryOperationsMap.filter { (name, parameters) -> getBinaryCheckerName(name, parameters[0], parameters[1]) != null }
     for ((leftType, operationsOnThisLeftType) in checkedBinaryOperations.groupBy { (_, parameters) -> parameters.first() }) {
         p.println("${leftType.asString()} -> when (rightType) {")
         p.pushIndent()
         for ((rightType, operations) in operationsOnThisLeftType.groupBy { (_, parameters) -> parameters[1] }) {
             p.println("${rightType.asString()} -> when (name) {")
             p.pushIndent()
             for ((name, _) in operations) {
                 val checkerName = getBinaryCheckerName(name, leftType, rightType)!!
                 p.println("\"$name\" -> return left.$checkerName(right)")
             }
             p.popIndent()
             p.println("}")
         }
         p.println("else -> {}")
         p.popIndent()
         p.println("}")
     }
     p.println("else -> {}")
     p.popIndent()
     p.println("}")
     p.println("return null")
     p.popIndent()
     p.println("}")

     return sb.toString()
 }

 private fun getBinaryCheckerName(name: String, leftType: KotlinType, rightType: KotlinType): String? {
     if (!leftType.isIntegerType() || !rightType.isIntegerType()) return null

     return when (name) {
         "plus" -> "add"
         "minus" -> "subtract"
         "div" -> "divide"
         "times" -> "multiply"
         "rem", "xor", "or", "and" -> name
         else -> null
     }
 }

 private fun KotlinType.isIntegerType(): Boolean =
     KotlinBuiltIns.isInt(this) || KotlinBuiltIns.isShort(this) || KotlinBuiltIns.isByte(this) || KotlinBuiltIns.isLong(this)

 private fun KotlinType.isFpType(): Boolean =
     KotlinBuiltIns.isDouble(this) || KotlinBuiltIns.isFloat(this)

 private fun CallableDescriptor.getParametersTypes(): List<KotlinType> =
     listOf((containingDeclaration as ClassDescriptor).defaultType) +
             valueParameters.map { it.type.makeNotNullable() }

 private fun KotlinType.asString(): String = typeName.uppercase()

 private val KotlinType.typeName: String
     get(): String = constructor.declarationDescriptor!!.name.asString()
	/*
	* 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.generators.evaluate

	import org.jetbrains.kotlin.builtins.DefaultBuiltIns
	import org.jetbrains.kotlin.builtins.KotlinBuiltIns
	import org.jetbrains.kotlin.descriptors.CallableDescriptor
	import org.jetbrains.kotlin.descriptors.ClassDescriptor
	import org.jetbrains.kotlin.descriptors.FunctionDescriptor
	import org.jetbrains.kotlin.generators.util.GeneratorsFileUtil
	import org.jetbrains.kotlin.types.KotlinType
	import org.jetbrains.kotlin.types.typeUtil.makeNotNullable
	import org.jetbrains.kotlin.utils.Printer
	import java.io.File

	val DEST_FILE: File = File("compiler/frontend.common/src/org/jetbrains/kotlin/resolve/constants/evaluate/OperationsMapGenerated.kt")
	private val EXCLUDED_FUNCTIONS: List<String> = listOf("rangeTo", "rangeUntil", "hashCode", "inc", "dec", "subSequence")

	fun main() {
	GeneratorsFileUtil.writeFileIfContentChanged(DEST_FILE, generate())
	}

	fun generate(): String {
	val sb = StringBuilder()
	val p = Printer(sb)
	p.println(File("license/COPYRIGHT_HEADER.txt").readText())
	p.println("@file:Suppress(\"DEPRECATION\", \"DEPRECATION_ERROR\")")

	p.println()
	p.println("package org.jetbrains.kotlin.resolve.constants.evaluate")
	p.println()
	p.println("import org.jetbrains.kotlin.resolve.constants.evaluate.CompileTimeType.*")
	p.println("import java.math.BigInteger")
	p.println()
	p.println("/** This file is generated by `./gradlew generateOperationsMap`. DO NOT MODIFY MANUALLY */")
	p.println()

	val unaryOperationsMap = arrayListOf<Triple<String, List<KotlinType>, Boolean>>()
	val binaryOperationsMap = arrayListOf<Pair<String, List<KotlinType>>>()

	val builtIns = DefaultBuiltIns.Instance

	@Suppress("UNCHECKED_CAST")
	val allPrimitiveTypes = builtIns.builtInsPackageScope.getContributedDescriptors()
	.filter { it is ClassDescriptor && KotlinBuiltIns.isPrimitiveType(it.defaultType) } as List<ClassDescriptor>

	val integerTypes = allPrimitiveTypes.map { it.defaultType }.filter { it.isIntegerType() }
	val fpTypes = allPrimitiveTypes.map { it.defaultType }.filter { it.isFpType() }

	for (descriptor in allPrimitiveTypes + builtIns.string) {
	@Suppress("UNCHECKED_CAST")
	val functions = descriptor.getMemberScope(listOf()).getContributedDescriptors()
	.filter { it is CallableDescriptor && !EXCLUDED_FUNCTIONS.contains(it.getName().asString()) } as List<CallableDescriptor>

	for (function in functions) {
	val parametersTypes = function.getParametersTypes()

	when (parametersTypes.size) {
	1 -> unaryOperationsMap.add(Triple(function.name.asString(), parametersTypes, function is FunctionDescriptor))
	2 -> binaryOperationsMap.add(function.name.asString() to parametersTypes)
	else -> throw IllegalStateException(
	"Couldn't add following method from builtins to operations map: ${function.name} in class ${descriptor.name}"
	)
	}
	}
	}

	unaryOperationsMap.add(Triple("code", listOf(builtIns.charType), false))

	for (type in integerTypes) {
	for (otherType in integerTypes) {
	val parameters = listOf(type, otherType)
	binaryOperationsMap.add("mod" to parameters)
	binaryOperationsMap.add("floorDiv" to parameters)
	}
	}

	for (type in fpTypes) {
	for (otherType in fpTypes) {
	val parameters = listOf(type, otherType)
	binaryOperationsMap.add("mod" to parameters)
	}
	}

	p.println("fun evalUnaryOp(name: String, type: CompileTimeType, value: Any): Any? {")
	p.pushIndent()
	p.println("when (type) {")
	p.pushIndent()
	for ((type, operations) in unaryOperationsMap.groupBy { (_, parameters, _) -> parameters.single() }) {
	p.println("${type.asString()} -> when (name) {")
	p.pushIndent()
	for ((name, _, isFunction) in operations) {
	val parenthesesOrBlank = if (isFunction) "()" else ""
	p.println("\"$name\" -> return (value as ${type.typeName}).$name$parenthesesOrBlank")
	}
	p.popIndent()
	p.println("}")
	}
	p.println("else -> {}")
	p.popIndent()
	p.println("}")
	p.println("return null")
	p.popIndent()
	p.println("}")
	p.println()

	p.println("fun evalBinaryOp(name: String, leftType: CompileTimeType, left: Any, rightType: CompileTimeType, right: Any): Any? {")
	p.pushIndent()
	p.println("when (leftType) {")
	p.pushIndent()
	for ((leftType, operationsOnThisLeftType) in binaryOperationsMap.groupBy { (_, parameters) -> parameters.first() }) {
	p.println("${leftType.asString()} -> when (rightType) {")
	p.pushIndent()
	for ((rightType, operations) in operationsOnThisLeftType.groupBy { (_, parameters) -> parameters[1] }) {
	p.println("${rightType.asString()} -> when (name) {")
	p.pushIndent()
	for ((name, _) in operations) {
	val castToRightType = if (rightType.typeName == "Any") "" else " as ${rightType.typeName}"
	p.println("\"$name\" -> return (left as ${leftType.typeName}).$name(right$castToRightType)")
	}
	p.popIndent()
	p.println("}")
	}
	p.println("else -> {}")
	p.popIndent()
	p.println("}")
	}
	p.println("else -> {}")
	p.popIndent()
	p.println("}")
	p.println("return null")
	p.popIndent()
	p.println("}")
	p.println()

	p.println("fun checkBinaryOp(")
	p.println(" name: String, leftType: CompileTimeType, left: BigInteger, rightType: CompileTimeType, right: BigInteger")
	p.println("): BigInteger? {")
	p.pushIndent()
	p.println("when (leftType) {")
	p.pushIndent()
	val checkedBinaryOperations =
	binaryOperationsMap.filter { (name, parameters) -> getBinaryCheckerName(name, parameters[0], parameters[1]) != null }
	for ((leftType, operationsOnThisLeftType) in checkedBinaryOperations.groupBy { (_, parameters) -> parameters.first() }) {
	p.println("${leftType.asString()} -> when (rightType) {")
	p.pushIndent()
	for ((rightType, operations) in operationsOnThisLeftType.groupBy { (_, parameters) -> parameters[1] }) {
	p.println("${rightType.asString()} -> when (name) {")
	p.pushIndent()
	for ((name, _) in operations) {
	val checkerName = getBinaryCheckerName(name, leftType, rightType)!!
	p.println("\"$name\" -> return left.$checkerName(right)")
	}
	p.popIndent()
	p.println("}")
	}
	p.println("else -> {}")
	p.popIndent()
	p.println("}")
	}
	p.println("else -> {}")
	p.popIndent()
	p.println("}")
	p.println("return null")
	p.popIndent()
	p.println("}")

	return sb.toString()
	}

	private fun getBinaryCheckerName(name: String, leftType: KotlinType, rightType: KotlinType): String? {
	if (!leftType.isIntegerType() \|\| !rightType.isIntegerType()) return null

	return when (name) {
	"plus" -> "add"
	"minus" -> "subtract"
	"div" -> "divide"
	"times" -> "multiply"
	"rem", "xor", "or", "and" -> name
	else -> null
	}
	}

	private fun KotlinType.isIntegerType(): Boolean =
	KotlinBuiltIns.isInt(this) \|\| KotlinBuiltIns.isShort(this) \|\| KotlinBuiltIns.isByte(this) \|\| KotlinBuiltIns.isLong(this)

	private fun KotlinType.isFpType(): Boolean =
	KotlinBuiltIns.isDouble(this) \|\| KotlinBuiltIns.isFloat(this)

	private fun CallableDescriptor.getParametersTypes(): List<KotlinType> =
	listOf((containingDeclaration as ClassDescriptor).defaultType) +
	valueParameters.map { it.type.makeNotNullable() }

	private fun KotlinType.asString(): String = typeName.uppercase()

	private val KotlinType.typeName: String
	get(): String = constructor.declarationDescriptor!!.name.asString()