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Picocli Groovy - easily use picocli in Groovy scripts.
/*
* Copyright 2017 the original author or authors.
*
* 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 picocli.groovy;
import groovy.lang.MissingPropertyException;
import groovy.lang.Script;
import picocli.CommandLine;
import picocli.CommandLine.Parameters;
import picocli.CommandLine.Option;
import picocli.CommandLine.ExecutionException;
import picocli.CommandLine.ParameterException;
import java.io.PrintStream;
import java.util.Arrays;
import java.util.List;
import java.util.concurrent.Callable;
/**
*
* Base script class that provides picocli declarative (annotation-based) command line
* argument processing for Groovy scripts, superseded by {@link PicocliBaseScript2}.
*
* Scripts may install this base script via the {@link PicocliScript} annotation or via the standard Groovy
* {@code @groovy.transform.BaseScript(picocli.groovy.PicocliBaseScript)} annotation, but
* the {@code @PicocliScript} annotation is preferred since it enables scripts to use the
* {@code @Command} annotation. Example usage:
*
*
* @Command(name = "myCommand", description = "does something special")
* @PicocliScript
* import picocli.groovy.PicocliScript
* import picocli.CommandLine.Command
* ...
*
*
* Before the script body is executed,
* the {@code PicocliBaseScript} base class parses the command line and initializes {@code @Field} variables
* annotated with {@code @Option} or {@code @Parameters}.
* It also takes care of error handling and common use cases like requests for usage help.
*
* See the {@link #run()} method for a detailed break-down of the steps the base class takes
* before the statements in the script body are executed.
*
*
* @author Jim White
* @author Remko Popma
* @since 2.0
* @see PicocliBaseScript2
* @deprecated Use {@link PicocliBaseScript2} instead.
*/
abstract public class PicocliBaseScript extends Script {
/**
* Name of the property that holds the CommandLine instance for this script ({@value}).
*/
public final static String COMMAND_LINE = "commandLine";
/**
* The script body.
* @return The result of the script evaluation.
*/
protected abstract Object runScriptBody();
/**
*
* Parses the command line and initializes {@code @Field} variables
* annotated with {@code @Option} or {@code @Parameters} before executing the script body.
* Also takes care of error handling and common use cases like requests for usage help.
*
* Here is a break-down of the steps the base class takes before the statements in the script body are executed:
*
*
* - A new {@link CommandLine} is created with this script instance as the annotated command object.
* The {@code CommandLine} instance is cached in the {@code commandLine} property
* (so it can be referred to in script code with
* {@code this.commandLine}). {@code CommandLine} creation and initialization may be
* customized by overriding {@link #createCommandLine()}.
* - The {@link #parseScriptArguments(CommandLine, String[])} method is called with the script arguments.
* This initialises all {@code @Field} variables annotated with {@link Option} or
* {@link Parameters}, unless the user input was invalid.
* - If the user input was invalid, an error message and the usage message are printed to standard err and the
* script exits. This may be customized by overriding
* {@link #handleParameterException(CommandLine.ParameterException, String[])}.
* - Otherwise, if the user input requested version help or usage help, the version string or usage help message is
* printed to standard err and the script exits.
* - If the script implements {@code Runnable} or {@code Callable}, its {@code run} (or {@code call}) method
* is called. The script may support subcommands. In that case only the last specified subcommand is run or called
* if it implements {@code Runnable} or {@code Callable}. This may be customized by overriding
* {@link #runRunnableSubcommand(List)}.
* - Finally, the script body is executed.
*
* @return The result of the script evaluation.
*/
@Override
public Object run() {
String[] args = getScriptArguments();
CommandLine commandLine = getOrCreateCommandLine();
List parsedCommands = null;
try {
parsedCommands = parseScriptArguments(commandLine, args);
} catch (ParameterException pe) {
return handleParameterException(pe, args);
}
try {
// check if the user requested help for the top-level command or any of the subcommands
for (CommandLine parsed : parsedCommands) {
if (parsed.isUsageHelpRequested()) {
return printHelpMessage(parsed, System.out);
}
if (parsed.isVersionHelpRequested()) {
return printVersionHelpMessage(parsed);
}
}
runRunnableSubcommand(parsedCommands);
return runScriptBody();
} catch (Exception ex) {
return handleExecutionException(commandLine, args, ex);
}
}
/**
* Return the script arguments as an array of strings.
* The default implementation is to get the "args" property.
*
* @return the script arguments as an array of strings.
*/
public String[] getScriptArguments() {
return (String[]) getProperty("args");
}
/**
* Return the CommandLine for this script.
* If there isn't one already, then create it using {@link #createCommandLine()}.
*
* @return the CommandLine for this script.
*/
protected CommandLine getOrCreateCommandLine() {
try {
CommandLine commandLine = (CommandLine) getProperty(COMMAND_LINE);
if (commandLine == null) {
commandLine = createCommandLine();
// The script has a real property (a field or getter) but if we let Script.setProperty handle
// this then it just gets stuffed into a binding that shadows the property.
// This is somewhat related to other bugged behavior in Script wrt properties and bindings.
// See http://jira.codehaus.org/browse/GROOVY-6582 for example.
// The correct behavior for Script.setProperty would be to check whether
// the property has a setter before creating a new script binding.
this.getMetaClass().setProperty(this, COMMAND_LINE, commandLine);
}
return commandLine;
} catch (MissingPropertyException mpe) {
CommandLine commandLine = createCommandLine();
// Since no property or binding already exists, we can use plain old setProperty here.
setProperty(COMMAND_LINE, commandLine);
return commandLine;
}
}
/**
* Create and returns a new CommandLine instance.
* This method sets the command name in the usage help message to the script's class simple name (unless
* annotated with some other command name with the {@code @Command(name = "...")} annotation).
*
* Subclasses may override to register custom type converters or programmatically add subcommands.
*
*
* @return A CommandLine instance.
*/
public CommandLine createCommandLine() {
CommandLine commandLine = new CommandLine(this);
if (commandLine.getCommandName().equals("")) { // only if user did not specify @Command(name) attribute
commandLine.setCommandName(this.getClass().getSimpleName());
}
return commandLine;
}
/**
* Returns the result of calling {@link CommandLine#parse(String...)} with the given arguments.
*
* Subclasses may override if any action should be taken immediately before or after parsing.
*
* @param commandLine The CommandLine instance for this script instance.
* @param args The argument array.
* @return the list of {@code CommandLine} objects that result from parsing the user input
*/
@SuppressWarnings("deprecation")
public List parseScriptArguments(CommandLine commandLine, String[] args) {
return commandLine.parse(args);
}
/**
* If the most specific subcommand (the last {@code CommandLine} object in the list) implements Runnable or Callable,
* then run it.
* This method will not run the main script {@link #runScriptBody()} method; that will be called from {@code {@link #run()}}.
*
* @param parsedCommands the list of {@code CommandLine} objects returns from the {@code CommandLine.parse} method
* @throws Exception if the Callable throws an exception
*/
public void runRunnableSubcommand(List parsedCommands) throws Exception {
CommandLine deepestSubcommand = parsedCommands.get(parsedCommands.size() - 1);
Object commandObject = deepestSubcommand.getCommand();
if (commandObject == this) {
return;
}
if (commandObject instanceof Runnable) {
((Runnable) commandObject).run();
} else if (commandObject instanceof Callable) {
((Callable) commandObject).call();
}
}
/**
* Error messages that arise from command line processing call this.
* The default is to print to System.err.
* If you want to use System.out, a logger, or something else, this is the method to override.
*
* @param message the error message to print
*/
public void printErrorMessage(String message) {
System.err.println(message);
}
/**
* If a ParameterException occurs during {@link #parseScriptArguments(CommandLine, String[])}
* then this method gets called to report the problem.
* The default behavior is to show the exception message using {@link #printErrorMessage(String)},
* then call {@link #printHelpMessage(CommandLine)}.
* The return value becomes the return value for the Script.run which will be the exit code
* if we've been called from the command line.
*
* @param pe The ParameterException that occurred
* @param args The argument array
* @return The value that Script.run should return. This implementation returns 1, subclasses may override.
*/
public Object handleParameterException(ParameterException pe, String[] args) {
printErrorMessage(String.format("args: %s%n%s", Arrays.toString(args), pe.getMessage()));
printHelpMessage(pe.getCommandLine());
return 1;
}
/**
* If an Exception occurs during {@link #runRunnableSubcommand(List)}, or {@link #runScriptBody()}
* then this gets called to report the problem.
* The default behavior is to throw a new {@code ExecutionException} wrapping the specified exception.
*
* @param commandLine The CommandLine instance
* @param args The argument array
* @param ex The Exception that occurred
* @return The value that Script.run should return when overriding this method
* @throws ExecutionException wrapping the specified exception by default
*/
public Object handleExecutionException(CommandLine commandLine, String[] args, Exception ex) {
if (ex instanceof ExecutionException) {
throw (ExecutionException) ex;
}
throw new ExecutionException(commandLine, ex.toString(), ex);
}
/**
* If an @Option whose {@code usageHelp} attribute is annotated as true appears in the arguments.
* then the script body is not run and this {@code printHelpMessage} method is called instead.
* The default behavior is to print the {@link CommandLine#usage(PrintStream)} to {@code System.err}.
* The return value becomes the return value for the Script.run which will be the exit code
* if we've been called from the command line.
*
* @param commandLine The CommandLine instance
* @return The value that Script.run should return ({@code null} by default).
*/
public Object printHelpMessage(CommandLine commandLine) {
return printHelpMessage(commandLine, System.err);
}
/**
* If an @Option whose {@code usageHelp} attribute is annotated as true appears in the arguments.
* then the script body is not run and this {@code printHelpMessage} method is called instead.
* The default behavior is to print the {@link CommandLine#usage(PrintStream)} to the specified stream.
* The return value becomes the return value for the Script.run which will be the exit code
* if we've been called from the command line.
*
* @param commandLine The CommandLine instance
* @param stream the stream to print the usage help message to
* @return The value that Script.run should return ({@code null} by default).
* @since 3.0
*/
public Object printHelpMessage(CommandLine commandLine, PrintStream stream) {
commandLine.usage(stream);
return null;
}
/**
* If an @Option whose {@code versionHelp} attribute is annotated as true appears in the arguments.
* then the script body is not run and this printVersionHelpMessage method is called instead.
* The default behavior is to print the {@link CommandLine#printVersionHelp(PrintStream)} to {@code System.out}.
* The return value becomes the return value for the Script.run which will be the exit code
* if we've been called from the command line.
*
* @param commandLine The CommandLine instance
* @return The value that Script.run should return ({@code null} by default).
*/
public Object printVersionHelpMessage(CommandLine commandLine) {
commandLine.printVersionHelp(System.out);
return null;
}
}