org.jetbrains.kotlin.cli.common.arguments.parseCommandLineArguments.kt Maven / Gradle / Ivy
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/*
* Copyright 2010-2017 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.cli.common.arguments
import org.jetbrains.kotlin.cli.common.CompilerSystemProperties
import org.jetbrains.kotlin.konan.file.File
import org.jetbrains.kotlin.load.java.JvmAbi
import org.jetbrains.kotlin.utils.SmartList
import java.lang.reflect.Method
import java.util.concurrent.ConcurrentHashMap
import kotlin.reflect.KClass
import kotlin.reflect.cast
@Target(AnnotationTarget.FIELD)
annotation class Argument(
val value: String,
val shortName: String = "",
val deprecatedName: String = "",
@property:RawDelimiter
val delimiter: String = Delimiters.default,
val valueDescription: String = "",
val description: String
) {
@RequiresOptIn(
message = "The raw delimiter value needs to be resolved. See 'resolvedDelimiter'. Using the raw value requires opt-in",
level = RequiresOptIn.Level.ERROR
)
annotation class RawDelimiter
object Delimiters {
const val default = ","
const val none = ""
const val pathSeparator = ""
}
}
val Argument.isAdvanced: Boolean
get() = isSpecial(ADVANCED_ARGUMENT_PREFIX)
val Argument.isInternal: Boolean
get() = isSpecial(INTERNAL_ARGUMENT_PREFIX)
private fun Argument.isSpecial(prefix: String): Boolean {
return value.startsWith(prefix) && value.length > prefix.length
}
@OptIn(Argument.RawDelimiter::class)
val Argument.resolvedDelimiter: String?
get() = when (delimiter) {
Argument.Delimiters.none -> null
Argument.Delimiters.pathSeparator -> File.pathSeparator
else -> delimiter
}
private const val ADVANCED_ARGUMENT_PREFIX = "-X"
internal const val INTERNAL_ARGUMENT_PREFIX = "-XX"
private const val FREE_ARGS_DELIMITER = "--"
data class ArgumentParseErrors(
val unknownArgs: MutableList = SmartList(),
val unknownExtraFlags: MutableList = SmartList(),
// Names of extra (-X...) arguments which have been passed in an obsolete form ("-Xaaa bbb", instead of "-Xaaa=bbb")
val extraArgumentsPassedInObsoleteForm: MutableList = SmartList(),
// Non-boolean arguments which have been passed multiple times, possibly with different values.
// The key in the map is the name of the argument, the value is the last passed value.
val duplicateArguments: MutableMap = mutableMapOf(),
// Arguments where [Argument.deprecatedName] was used; the key is the deprecated name, the value is the new name ([Argument.value])
val deprecatedArguments: MutableMap = mutableMapOf(),
var argumentWithoutValue: String? = null,
var booleanArgumentWithValue: String? = null,
val argfileErrors: MutableList = SmartList(),
// Reports from internal arguments parsers
val internalArgumentsParsingProblems: MutableList = SmartList()
)
inline fun parseCommandLineArguments(args: List): T {
return parseCommandLineArguments(T::class, args)
}
fun parseCommandLineArguments(clazz: KClass, args: List): T {
val constructor = clazz.java.constructors.find { it.parameters.isEmpty() }
?: error("Missing empty constructor on '${clazz.java.name}")
val arguments = clazz.cast(constructor.newInstance())
parseCommandLineArguments(args, arguments)
return arguments
}
// Parses arguments into the passed [result] object. Errors related to the parsing will be collected into [CommonToolArguments.errors].
fun parseCommandLineArguments(args: List, result: A, overrideArguments: Boolean = false) {
val errors = lazy { result.errors ?: ArgumentParseErrors().also { result.errors = it } }
val preprocessed = preprocessCommandLineArguments(args, errors)
parsePreprocessedCommandLineArguments(preprocessed, result, errors, overrideArguments)
}
fun parseCommandLineArgumentsFromEnvironment(arguments: A) {
val settingsFromEnvironment = CompilerSystemProperties.LANGUAGE_VERSION_SETTINGS.value?.takeIf { it.isNotEmpty() }
?.split(Regex("""\s"""))
?.filterNot { it.isBlank() }
?: return
parseCommandLineArguments(settingsFromEnvironment, arguments, overrideArguments = true)
}
private data class ArgumentField(val getter: Method, val setter: Method, val argument: Argument)
private val argumentsCache = ConcurrentHashMap, Map>()
private fun getArguments(klass: Class<*>): Map = argumentsCache.getOrPut(klass) {
if (klass == Any::class.java) emptyMap()
else buildMap {
putAll(getArguments(klass.superclass))
for (field in klass.declaredFields) {
field.getAnnotation(Argument::class.java)?.let { argument ->
val getter = klass.getMethod(JvmAbi.getterName(field.name))
val setter = klass.getMethod(JvmAbi.setterName(field.name), field.type)
val argumentField = ArgumentField(getter, setter, argument)
for (key in listOf(argument.value, argument.shortName, argument.deprecatedName)) {
if (key.isNotEmpty()) put(key, argumentField)
}
}
}
}
}
private fun parsePreprocessedCommandLineArguments(
args: List,
result: A,
errors: Lazy,
overrideArguments: Boolean
) {
val properties = getArguments(result::class.java)
val visitedArgs = mutableSetOf()
var freeArgsStarted = false
val freeArgs = ArrayList()
val internalArguments = ArrayList()
var i = 0
loop@ while (i < args.size) {
val arg = args[i++]
if (freeArgsStarted) {
freeArgs.add(arg)
continue
}
if (arg == FREE_ARGS_DELIMITER) {
freeArgsStarted = true
continue
}
val key = arg.substringBefore('=')
val argumentField = properties[key]
if (argumentField == null) {
when {
// Unknown -XX argument
arg.startsWith(INTERNAL_ARGUMENT_PREFIX) -> {
val matchingParsers = InternalArgumentParser.PARSERS.filter { it.canParse(arg) }
assert(matchingParsers.size <= 1) { "Internal error: internal argument $arg can be ambiguously parsed by parsers ${matchingParsers.joinToString()}" }
val parser = matchingParsers.firstOrNull()
if (parser == null) {
errors.value.unknownExtraFlags += arg
} else {
val newInternalArgument = parser.parseInternalArgument(arg, errors.value) ?: continue
// Manual language feature setting overrides the previous value of the same feature setting, if it exists.
internalArguments.removeIf {
(it as? ManualLanguageFeatureSetting)?.languageFeature ==
(newInternalArgument as? ManualLanguageFeatureSetting)?.languageFeature
}
internalArguments.add(newInternalArgument)
}
}
// Unknown -X argument
arg.startsWith(ADVANCED_ARGUMENT_PREFIX) -> errors.value.unknownExtraFlags.add(arg)
arg.startsWith("-") -> errors.value.unknownArgs.add(arg)
else -> freeArgs.add(arg)
}
continue
}
val (getter, setter, argument) = argumentField
// Tests for -shortName=value, which isn't currently allowed.
if (key != arg && key == argument.shortName) {
errors.value.unknownArgs.add(arg)
continue
}
val deprecatedName = argument.deprecatedName
if (deprecatedName == key) {
errors.value.deprecatedArguments[deprecatedName] = argument.value
}
if (argument.value == arg) {
if (argument.isAdvanced && getter.returnType.kotlin != Boolean::class) {
errors.value.extraArgumentsPassedInObsoleteForm.add(arg)
}
}
val value: Any = when {
getter.returnType.kotlin == Boolean::class -> {
if (arg.startsWith(argument.value + "=")) {
// Can't use toBooleanStrict yet because this part of the compiler is used in Gradle and needs API version 1.4.
when (arg.substring(argument.value.length + 1)) {
"true" -> true
"false" -> false
else -> true.also { errors.value.booleanArgumentWithValue = arg }
}
} else true
}
arg.startsWith(argument.value + "=") -> {
arg.substring(argument.value.length + 1)
}
arg.startsWith(argument.deprecatedName + "=") -> {
arg.substring(argument.deprecatedName.length + 1)
}
i == args.size -> {
errors.value.argumentWithoutValue = arg
break@loop
}
else -> {
args[i++]
}
}
if (!getter.returnType.isArray && !visitedArgs.add(argument.value) && value is String && getter(result) != value
) {
errors.value.duplicateArguments[argument.value] = value
}
updateField(getter, setter, result, value, argument.resolvedDelimiter, overrideArguments)
}
result.freeArgs += freeArgs
result.updateInternalArguments(internalArguments, overrideArguments)
}
private fun A.updateInternalArguments(
newInternalArguments: ArrayList,
overrideArguments: Boolean
) {
val filteredExistingArguments = if (overrideArguments) {
internalArguments.filter { existingArgument ->
existingArgument !is ManualLanguageFeatureSetting ||
newInternalArguments.none {
it is ManualLanguageFeatureSetting && it.languageFeature == existingArgument.languageFeature
}
}
} else internalArguments
internalArguments = filteredExistingArguments + newInternalArguments
}
private fun updateField(
getter: Method,
setter: Method,
result: A,
value: Any,
delimiter: String?,
overrideArguments: Boolean
) {
when (getter.returnType.kotlin) {
Boolean::class, String::class -> setter(result, value)
Array::class -> {
val newElements = if (delimiter.isNullOrEmpty()) {
arrayOf(value as String)
} else {
(value as String).split(delimiter).toTypedArray()
}
@Suppress("UNCHECKED_CAST")
val oldValue = getter(result) as Array?
setter(result, if (oldValue != null && !overrideArguments) arrayOf(*oldValue, *newElements) else newElements)
}
else -> throw IllegalStateException("Unsupported argument type: ${getter.returnType}")
}
}
/**
* @return error message if arguments are parsed incorrectly, null otherwise
*/
fun validateArguments(errors: ArgumentParseErrors?): String? {
if (errors == null) return null
if (errors.argumentWithoutValue != null) {
return "No value passed for argument ${errors.argumentWithoutValue}"
}
errors.booleanArgumentWithValue?.let { arg ->
return "No value expected for boolean argument ${arg.substringBefore('=')}. Please remove the value: $arg"
}
if (errors.unknownArgs.isNotEmpty()) {
return "Invalid argument: ${errors.unknownArgs.first()}"
}
return null
}