wvlet.airframe.launcher.Launcher.scala Maven / Gradle / Ivy
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Command-line program launcher
/*
* 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.
*/
//--------------------------------------
//
// Launcher.scala
// Since: 2012/10/25 4:37 PM
//
//--------------------------------------
package wvlet.airframe.launcher
import java.lang.reflect.InvocationTargetException
import wvlet.airframe.codec.{MessageCodecFactory, MessageContext, ParamListCodec}
import wvlet.airframe.control.CommandLineTokenizer
import wvlet.airframe.launcher.OptionParser.CLOption
import wvlet.airframe.msgpack.spi.MessagePack
import wvlet.airframe.surface.reflect.ReflectSurfaceFactory
import wvlet.airframe.surface.{CName, MethodSurface, Surface}
import wvlet.log.LogSupport
/**
* Command launcher
*/
object Launcher extends LauncherCompat with LogSupport {
/**
* Create a launcher for a class
*
* @return
*/
private[launcher] def newCommandLauncher(
surface: Surface,
methods: Seq[MethodSurface],
name: String,
description: String
): CommandLauncher = {
val parser = OptionParser(surface)
// Generate a command-line usage message
val defaultUsage =
parser.schema.args.map(x => s"[${x}]").mkString(" ")
import wvlet.airframe.surface.reflect._
val command = surface.findAnnotationOf[command]
// If the user specified usage and description via @command annotation, use them.
val commandUsage = command.map(_.usage()).find(_.nonEmpty).getOrElse(defaultUsage)
val commandDescription = command.map(_.description()).find(_.nonEmpty).getOrElse(description.trim)
val commandName = if (name.nonEmpty) name else CName.toNaturalName(surface.name).replaceAll("\\s+", "_")
// Find sub commands marked with [[wvlet.airframe.opts.command]] annotation
import wvlet.airframe.surface.reflect._
val subCommands = for (m <- methods; c <- m.findAnnotationOf[command]) yield {
newMethodLauncher(m, c)
}
// Find the default command
val defaultCommand = methods
.find { m =>
import wvlet.airframe.surface.reflect._
m.findAnnotationOf[command] match {
case Some(cmd) => cmd.isDefault
case None => false
}
}
.map { m => { (li: LauncherInstance) => m.call(li.instance) } }
new CommandLauncher(
LauncherInfo(commandName, commandDescription, commandUsage),
parser,
subCommands,
defaultCommand
)
}
/**
* Create a launcher from a method in a class
*/
private def newMethodLauncher(m: MethodSurface, command: command): CommandLauncher = {
val parser = new OptionParser(m)
val defaultUsage = parser.schema.args.map(x => s"[${x.name}]").mkString(" ")
val description =
Some(command.description())
.map(x => x)
.find(_.nonEmpty)
.getOrElse("")
val usage = {
val argLine = Some(command.usage())
.map(x => x)
.find(_.nonEmpty)
.getOrElse(defaultUsage)
s"${m.name} ${argLine}"
}
val li = LauncherInfo(m.name, description, usage, command.isDefault)
new CommandLauncher(li, parser, Seq.empty, None)
}
}
private[launcher] case class LauncherConfig(
helpMessagePrinter: HelpMessagePrinter = HelpMessagePrinter.default,
codecFactory: MessageCodecFactory = MessageCodecFactory.defaultFactory,
// command name -> default action
defaultCommand: LauncherInstance => Any = { (li: LauncherInstance) => println("Type --help to see the usage") }
)
case class Launcher private[launcher] (config: LauncherConfig, private[launcher] val mainLauncher: CommandLauncher)
extends LauncherBaseCompat {
def printHelp: Unit = {
mainLauncher.printHelpInternal(config, List(mainLauncher))
}
/**
* Set a function to be used when there is no command is specified
*/
def withDefaultCommand(newDefaultCommand: LauncherInstance => Any): Launcher = {
this.copy(config = config.copy(defaultCommand = newDefaultCommand))
}
def withHelpMessagePrinter(newHelpMessagePrinter: HelpMessagePrinter): Launcher = {
this.copy(config = config.copy(helpMessagePrinter = newHelpMessagePrinter))
}
def withCodecFactory(newCodecFactory: MessageCodecFactory): Launcher = {
this.copy(config = config.copy(codecFactory = newCodecFactory))
}
def execute(argLine: String): LauncherResult = execute(CommandLineTokenizer.tokenize(argLine))
def execute(args: Array[String]): LauncherResult = {
mainLauncher.execute(config, List.empty, args.toSeq, showHelp = false)
}
def add(l: Launcher, name: String, description: String): Launcher = {
Launcher(config, mainLauncher.add(name, description, l.mainLauncher))
}
}
/**
* Command execution results
*
* @param result
*/
case class LauncherResult(launcherStack: List[LauncherInstance], result: Option[Any]) {
require(launcherStack.nonEmpty, "launcherStack should not be empty")
def getRootInstance: Any = launcherStack.reverse.head.instance
def executedInstance: Any = launcherStack.head.instance
}
case class LauncherInstance(launcher: CommandLauncher, instance: Any)
case class LauncherInfo(name: String, description: String, usage: String, isDefault: Boolean = false)
/**
* Command launcher.
*
* {{{
* class MyCommand(@option(prefix="-h,--help", description="display help", isHelp=true) help:Boolean) {
* @command(description="Say hello")
* def hello(@option(prefix="-r", description="repeat times")
* repeat:Int=1,
* @argument
* message:String = "hello") {
* for(i <- 0 until repeat) println(message)
* }
* }
*
* Launcher.execute[MyCommand]("hello -r 3") // hello x 3
* }}}
*/
class CommandLauncher(
private[launcher] val launcherInfo: LauncherInfo,
private[launcher] val optionParser: OptionParser,
private[launcher] val subCommands: Seq[CommandLauncher],
defaultCommand: Option[LauncherInstance => Any]
) extends CommandLauncherBaseCompat
with LogSupport {
def name: String = launcherInfo.name
def description: String = launcherInfo.description
def usage: String = launcherInfo.usage
private[launcher] def withLauncherInfo(name: String, description: String): CommandLauncher = {
new CommandLauncher(LauncherInfo(name, description, launcherInfo.usage), optionParser, subCommands, defaultCommand)
}
private[launcher] def optionList: Seq[CLOption] = {
optionParser.optionList
}
private[launcher] def add(name: String, description: String, commandLauncher: CommandLauncher): CommandLauncher = {
new CommandLauncher(
launcherInfo,
optionParser,
subCommands :+ commandLauncher.withLauncherInfo(name, description),
defaultCommand
)
}
private[launcher] def printHelp(launcherConfig: LauncherConfig, stack: List[LauncherInstance]): Unit = {
printHelpInternal(launcherConfig, stack.map(_.launcher))
}
private[launcher] def printMethodHelp(
launcherConfig: LauncherConfig,
m: MethodOptionSchema,
stack: List[LauncherInstance]
): Unit = {
val h = stack.head
val globalOptions = stack.tail.flatMap(_.launcher.optionParser.optionList)
val li = h.launcher.launcherInfo
val help = launcherConfig.helpMessagePrinter.render(
commandName = li.name,
arguments = m.args,
oneLineUsage = if (li.usage.isEmpty) None else Some(li.usage),
description = li.description,
options = m.options,
globalOptions = globalOptions,
subCommands = Seq.empty
)
print(help)
}
private[launcher] def printHelpInternal(launcherConfig: LauncherConfig, stack: List[CommandLauncher]): Unit = {
val l = stack.head
val schema = l.optionParser.schema
val globalOptions = stack.tail.flatMap(_.optionParser.optionList)
val help = launcherConfig.helpMessagePrinter.render(
commandName = l.name,
arguments = schema.args,
oneLineUsage = if (l.usage.isEmpty) None else Some(l.usage),
description = l.description,
options = schema.options,
globalOptions = globalOptions,
subCommands = l.subCommands.filterNot(x => x.launcherInfo.isDefault)
)
print(help)
}
private[launcher] def execute(
launcherConfig: LauncherConfig,
stack: List[LauncherInstance],
args: Seq[String],
showHelp: Boolean
): LauncherResult = {
val result = optionParser.parse(args.toArray)
trace(result)
val showHelpMessage = result.showHelp | showHelp
optionParser.schema match {
case c: ClassOptionSchema =>
val parseTree_mp = result.parseTree.toMsgPack
val codec = launcherConfig.codecFactory.withMapOutput.of(c.surface)
val h = new MessageContext
codec.unpack(MessagePack.newUnpacker(parseTree_mp), h)
h.getError.map { e =>
throw new IllegalArgumentException(s"Error occurered in launching ${c.surface}: ${e.getMessage}")
}
val obj = h.getLastValue
// val obj = result.buildObject(c.surface)
val head = LauncherInstance(this, obj)
val nextStack = head :: stack
if (result.unusedArgument.isEmpty) {
// This Launcher is a leaf (= no more sub commands)
if (showHelpMessage) {
// Show the help message
printHelp(launcherConfig, nextStack)
LauncherResult(nextStack, None)
} else {
// Run the default command
defaultCommand
.map { defaultCommand => defaultCommand(head) }
.map { x => LauncherResult(nextStack, Some(x)) }
.getOrElse {
LauncherResult(nextStack, None)
}
}
} else {
// The first argument should be sub command name
val subCommandName = result.unusedArgument.head
findSubCommand(subCommandName) match {
case Some(subCommand) =>
subCommand.execute(launcherConfig, nextStack, result.unusedArgument.tail.toIndexedSeq, showHelpMessage)
case None =>
throw new IllegalArgumentException(s"Unknown sub command: ${subCommandName}")
}
}
case m: MethodOptionSchema =>
// A command method inside the class
if (result.unusedArgument.nonEmpty) {
throw new IllegalArgumentException(s"Unknown arguments are found: [${result.unusedArgument.mkString(", ")}]")
}
val parentObj = stack.headOption.map(_.instance).getOrElse {
throw new IllegalStateException("parent should not be empty")
}
if (showHelpMessage) {
// Show the help message
printMethodHelp(launcherConfig, m, LauncherInstance(this, parentObj) :: stack)
LauncherResult(stack, None)
} else {
try {
// parseTree -> msgpack -> method arguments
val methodSurface = m.method
val paramCodecs = methodSurface.args.map { x => launcherConfig.codecFactory.of(x.surface) }
val methodArgCodec = new ParamListCodec(
methodSurface.name,
methodSurface.args.toIndexedSeq,
paramCodecs,
// We need to supply method owner object to resolve function arg values
methodOwner = Some(parentObj)
)
val msgpack = result.parseTree.toMsgPack
methodArgCodec
.unpackMsgPack(msgpack).map { args =>
trace(s"calling method ${methodSurface} with args: ${args.mkString(", ")}")
val methodResult = methodSurface.call(parentObj, args: _*)
LauncherResult(stack, Some(methodResult))
}
.getOrElse {
throw new IllegalArgumentException(s"Failed to call ${methodSurface}: ${result.parseTree}")
}
} catch {
case e: InvocationTargetException => throw e.getTargetException
case other: Throwable => throw other
}
}
}
}
private def findSubCommand(name: String): Option[CommandLauncher] = {
val cname = CName(name)
subCommands.find(x => CName(x.name) == cname)
}
}