Embedding a single class? I don't see the problem with that. We do it with several Commons classes.
On 14 August 2017 at 11:59, Gary Gregory <[email protected]> wrote: > Wait a minute? We are embedding a third party jar? Yuk! -1, sorry that is > not what I thought was happening. > > Gary > > On Aug 14, 2017 10:18, <[email protected]> wrote: > > > http://git-wip-us.apache.org/repos/asf/logging-log4j2/blob/ > > c2818bec/log4j-core/src/main/java/org/apache/logging/log4j/ > > core/util/picocli/CommandLine.java > > ---------------------------------------------------------------------- > > diff --git a/log4j-core/src/main/java/org/apache/logging/log4j/core/ > util/picocli/CommandLine.java > > b/log4j-core/src/main/java/org/apache/logging/log4j/core/ > > util/picocli/CommandLine.java > > new file mode 100644 > > index 0000000..5c4e9cc > > --- /dev/null > > +++ b/log4j-core/src/main/java/org/apache/logging/log4j/core/ > > util/picocli/CommandLine.java > > @@ -0,0 +1,3900 @@ > > +/* > > + * Licensed to the Apache Software Foundation (ASF) under one or more > > + * contributor license agreements. See the NOTICE file distributed with > > + * this work for additional information regarding copyright ownership. > > + * The ASF licenses this file to You 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.apache.logging.log4j.core.util.picocli; > > + > > +import java.awt.Point; > > +import java.io.File; > > +import java.io.PrintStream; > > +import java.lang.annotation.ElementType; > > +import java.lang.annotation.Retention; > > +import java.lang.annotation.RetentionPolicy; > > +import java.lang.annotation.Target; > > +import java.lang.reflect.Array; > > +import java.lang.reflect.Constructor; > > +import java.lang.reflect.Field; > > +import java.math.BigDecimal; > > +import java.math.BigInteger; > > +import java.net.InetAddress; > > +import java.net.MalformedURLException; > > +import java.net.URI; > > +import java.net.URISyntaxException; > > +import java.net.URL; > > +import java.nio.charset.Charset; > > +import java.nio.file.Path; > > +import java.nio.file.Paths; > > +import java.sql.Time; > > +import java.text.BreakIterator; > > +import java.text.ParseException; > > +import java.text.SimpleDateFormat; > > +import java.util.ArrayList; > > +import java.util.Arrays; > > +import java.util.Collection; > > +import java.util.Collections; > > +import java.util.Comparator; > > +import java.util.Date; > > +import java.util.HashMap; > > +import java.util.HashSet; > > +import java.util.LinkedHashMap; > > +import java.util.LinkedList; > > +import java.util.List; > > +import java.util.Map; > > +import java.util.Queue; > > +import java.util.Set; > > +import java.util.SortedMap; > > +import java.util.SortedSet; > > +import java.util.Stack; > > +import java.util.TreeMap; > > +import java.util.TreeSet; > > +import java.util.UUID; > > +import java.util.regex.Pattern; > > + > > +import org.apache.logging.log4j.core.util.picocli.CommandLine.Help. > Ansi; > > +import org.apache.logging.log4j.core.util.picocli.CommandLine.Help. > > Ansi.IStyle; > > +import org.apache.logging.log4j.core.util.picocli.CommandLine.Help. > > Ansi.Style; > > +import org.apache.logging.log4j.core.util.picocli.CommandLine.Help. > > Ansi.Text; > > + > > +import static java.util.Locale.ENGLISH; > > +import static org.apache.logging.log4j.core. > > util.picocli.CommandLine.Help.Column.Overflow.SPAN; > > +import static org.apache.logging.log4j.core. > > util.picocli.CommandLine.Help.Column.Overflow.TRUNCATE; > > +import static org.apache.logging.log4j.core. > > util.picocli.CommandLine.Help.Column.Overflow.WRAP; > > + > > +/** > > + * <p> > > + * CommandLine interpreter that uses reflection to initialize an > > annotated domain object with values obtained from the > > + * command line arguments. > > + * </p><h2>Example</h2> > > + * <pre>import static picocli.CommandLine.*; > > + * > > + * @Command(header = "Encrypt FILE(s), or standard input, to > > standard output or to the output file.") > > + * public class Encrypt { > > + * > > + * @Parameters(type = File.class, description = "Any number of > > input files") > > + * private List<File> files = new ArrayList<File>(); > > + * > > + * @Option(names = { "-o", "--out" }, description = "Output > file > > (default: print to console)") > > + * private File outputFile; > > + * > > + * @Option(names = { "-v", "--verbose"}, description = > > "Verbosely list files processed") > > + * private boolean verbose; > > + * > > + * @Option(names = { "-h", "--help", "-?", "-help"}, help = > > true, description = "Display this help and exit") > > + * private boolean help; > > + * } > > + * </pre> > > + * <p> > > + * Use {@code CommandLine} to initialize a domain object as follows: > > + * </p><pre> > > + * public static void main(String... args) { > > + * try { > > + * Encrypt encrypt = CommandLine.populateCommand(new Encrypt(), > > args); > > + * if (encrypt.help) { > > + * CommandLine.usage(encrypt, System.out); > > + * } else { > > + * runProgram(encrypt); > > + * } > > + * } catch (ParameterException ex) { // command line arguments could > > not be parsed > > + * System.err.println(ex.getMessage()); > > + * CommandLine.usage(new Encrypt(), System.err); > > + * } > > + * } > > + * </pre><p> > > + * Invoke the above program with some command line arguments. The below > > are all equivalent: > > + * </p> > > + * <pre> > > + * --verbose --out=outfile in1 in2 > > + * --verbose --out outfile in1 in2 > > + * -v --out=outfile in1 in2 > > + * -v -o outfile in1 in2 > > + * -v -o=outfile in1 in2 > > + * -vo outfile in1 in2 > > + * -vo=outfile in1 in2 > > + * -v -ooutfile in1 in2 > > + * -vooutfile in1 in2 > > + * </pre> > > + * > > + * <p> > > + * Copied and modified from <a href="http://github.com/remkop/picocli/ > > ">picocli</a>. > > + * </p> > > + * > > + * @since 2.9 > > + */ > > +public class CommandLine { > > + /** This is picocli version {@value}. */ > > + public static final String VERSION = "0.9.8"; > > + > > + private final Interpreter interpreter; > > + private boolean overwrittenOptionsAllowed = false; > > + private boolean unmatchedArgumentsAllowed = false; > > + private List<String> unmatchedArguments = new ArrayList<String>(); > > + private CommandLine parent; > > + private boolean usageHelpRequested; > > + private boolean versionHelpRequested; > > + private List<String> versionLines = new ArrayList<String>(); > > + > > + /** > > + * Constructs a new {@code CommandLine} interpreter with the > > specified annotated object. > > + * When the {@link #parse(String...)} method is called, fields of > the > > specified object that are annotated > > + * with {@code @Option} or {@code @Parameters} will be initialized > > based on command line arguments. > > + * @param command the object to initialize from the command line > > arguments > > + * @throws IllegalArgumentException if the specified command object > > does not have a {@link Command}, {@link Option} or {@link Parameters} > > annotation > > + */ > > + public CommandLine(Object command) { > > + interpreter = new Interpreter(command); > > + } > > + > > + /** Registers a subcommand with the specified name. For example: > > + * <pre> > > + * CommandLine commandLine = new CommandLine(new Git()) > > + * .addSubcommand("status", new GitStatus()) > > + * .addSubcommand("commit", new GitCommit(); > > + * .addSubcommand("add", new GitAdd()) > > + * .addSubcommand("branch", new GitBranch()) > > + * .addSubcommand("checkout", new GitCheckout()) > > + * //... > > + * ; > > + * </pre> > > + * > > + * <p>The specified object can be an annotated object or a > > + * {@code CommandLine} instance with its own nested subcommands. For > > example:</p> > > + * <pre> > > + * CommandLine commandLine = new CommandLine(new MainCommand()) > > + * .addSubcommand("cmd1", new > > ChildCommand1()) // subcommand > > + * .addSubcommand("cmd2", new > ChildCommand2()) > > + * .addSubcommand("cmd3", new CommandLine(new > > ChildCommand3()) // subcommand with nested sub-subcommands > > + * .addSubcommand("cmd3sub1", new > > GrandChild3Command1()) > > + * .addSubcommand("cmd3sub2", new > > GrandChild3Command2()) > > + * .addSubcommand("cmd3sub3", new CommandLine(new > > GrandChild3Command3()) // deeper nesting > > + * .addSubcommand("cmd3sub3sub1", new > > GreatGrandChild3Command3_1()) > > + * .addSubcommand("cmd3sub3sub2", new > > GreatGrandChild3Command3_2()) > > + * ) > > + * ); > > + * </pre> > > + * <p>The default type converters are available on all subcommands > > and nested sub-subcommands, but custom type > > + * converters are registered only with the subcommand hierarchy as > it > > existed when the custom type was registered. > > + * To ensure a custom type converter is available to all > subcommands, > > register the type converter last, after > > + * adding subcommands.</p> > > + * > > + * @param name the string to recognize on the command line as a > > subcommand > > + * @param command the object to initialize with command line > > arguments following the subcommand name. > > + * This may be a {@code CommandLine} instance with its own > > (nested) subcommands > > + * @return this CommandLine object, to allow method chaining > > + * @see #registerConverter(Class, ITypeConverter) > > + * @since 0.9.7 > > + */ > > + public CommandLine addSubcommand(String name, Object command) { > > + CommandLine commandLine = toCommandLine(command); > > + commandLine.parent = this; > > + interpreter.commands.put(name, commandLine); > > + return this; > > + } > > + /** Returns a map with the subcommands {@linkplain > > #addSubcommand(String, Object) registered} on this instance. > > + * @return a map with the registered subcommands > > + * @since 0.9.7 > > + */ > > + public Map<String, CommandLine> getSubcommands() { > > + return new LinkedHashMap<String, CommandLine>(interpreter. > > commands); > > + } > > + /** > > + * Returns the command that this is a subcommand of, or {@code null} > > if this is a top-level command. > > + * @return the command that this is a subcommand of, or {@code null} > > if this is a top-level command > > + * @see #addSubcommand(String, Object) > > + * @see Command#subcommands() > > + * @since 0.9.8 > > + */ > > + public CommandLine getParent() { > > + return parent; > > + } > > + > > + /** > > + * Returns the annotated object that this {@code CommandLine} > > instance was constructed with. > > + * @return the annotated object that this {@code CommandLine} > > instance was constructed with > > + * @since 0.9.7 > > + */ > > + public Object getCommand() { > > + return interpreter.command; > > + } > > + > > + /** Returns {@code true} if an option annotated with {@link > > Option#usageHelp()} was specified on the command line. > > + * @return whether the parser encountered an option annotated with > > {@link Option#usageHelp()} */ > > + public boolean isUsageHelpRequested() { return usageHelpRequested; } > > + > > + /** Returns {@code true} if an option annotated with {@link > > Option#versionHelp()} was specified on the command line. > > + * @return whether the parser encountered an option annotated with > > {@link Option#versionHelp()} */ > > + public boolean isVersionHelpRequested() { return > > versionHelpRequested; } > > + > > + /** Returns whether options for single-value fields can be specified > > multiple times on the command line. > > + * The default is {@code false} and a {@link > > OverwrittenOptionException} is thrown if this happens. > > + * When {@code true}, the last specified value is retained. > > + * @return {@code true} if options for single-value fields can be > > specified multiple times on the command line, {@code false} otherwise > > + * @since 0.9.7 > > + */ > > + public boolean isOverwrittenOptionsAllowed() { > > + return overwrittenOptionsAllowed; > > + } > > + > > + /** Sets whether options for single-value fields can be specified > > multiple times on the command line without a {@link > > OverwrittenOptionException} being thrown. > > + * <p>The specified setting will be registered with this {@code > > CommandLine} and the full hierarchy of its > > + * subcommands and nested sub-subcommands <em>at the moment this > > method is called</em>. Subcommands added > > + * later will have the default setting. To ensure a setting is > > applied to all > > + * subcommands, call the setter last, after adding subcommands.</p> > > + * @param newValue the new setting > > + * @return this {@code CommandLine} object, to allow method chaining > > + * @since 0.9.7 > > + */ > > + public CommandLine setOverwrittenOptionsAllowed(boolean newValue) { > > + this.overwrittenOptionsAllowed = newValue; > > + for (CommandLine command : interpreter.commands.values()) { > > + command.setOverwrittenOptionsAllowed(newValue); > > + } > > + return this; > > + } > > + > > + /** Returns whether the end user may specify arguments on the > command > > line that are not matched to any option or parameter fields. > > + * The default is {@code false} and a {@link > > UnmatchedArgumentException} is thrown if this happens. > > + * When {@code true}, the last unmatched arguments are available via > > the {@link #getUnmatchedArguments()} method. > > + * @return {@code true} if the end use may specify unmatched > > arguments on the command line, {@code false} otherwise > > + * @see #getUnmatchedArguments() > > + * @since 0.9.7 > > + */ > > + public boolean isUnmatchedArgumentsAllowed() { > > + return unmatchedArgumentsAllowed; > > + } > > + > > + /** Sets whether the end user may specify unmatched arguments on the > > command line without a {@link UnmatchedArgumentException} being thrown. > > + * <p>The specified setting will be registered with this {@code > > CommandLine} and the full hierarchy of its > > + * subcommands and nested sub-subcommands <em>at the moment this > > method is called</em>. Subcommands added > > + * later will have the default setting. To ensure a setting is > > applied to all > > + * subcommands, call the setter last, after adding subcommands.</p> > > + * @param newValue the new setting > > + * @return this {@code CommandLine} object, to allow method chaining > > + * @since 0.9.7 > > + */ > > + public CommandLine setUnmatchedArgumentsAllowed(boolean newValue) { > > + this.unmatchedArgumentsAllowed = newValue; > > + for (CommandLine command : interpreter.commands.values()) { > > + command.setUnmatchedArgumentsAllowed(newValue); > > + } > > + return this; > > + } > > + > > + /** Returns the list of unmatched command line arguments, if any. > > + * @return the list of unmatched command line arguments or an empty > > list > > + * @see #isUnmatchedArgumentsAllowed() > > + * @since 0.9.7 > > + */ > > + public List<String> getUnmatchedArguments() { > > + return unmatchedArguments; > > + } > > + > > + /** > > + * <p> > > + * Convenience method that initializes the specified annotated > object > > from the specified command line arguments. > > + * </p><p> > > + * This is equivalent to > > + * </p><pre> > > + * CommandLine cli = new CommandLine(command); > > + * cli.parse(args); > > + * return command; > > + * </pre> > > + * > > + * @param command the object to initialize. This object contains > > fields annotated with > > + * {@code @Option} or {@code @Parameters}. > > + * @param args the command line arguments to parse > > + * @param <T> the type of the annotated object > > + * @return the specified annotated object > > + * @throws IllegalArgumentException if the specified command object > > does not have a {@link Command}, {@link Option} or {@link Parameters} > > annotation > > + * @throws ParameterException if the specified command line > arguments > > are invalid > > + * @since 0.9.7 > > + */ > > + public static <T> T populateCommand(T command, String... args) { > > + CommandLine cli = toCommandLine(command); > > + cli.parse(args); > > + return command; > > + } > > + > > + /** > > + * <p> > > + * Initializes the annotated object that this {@code CommandLine} > was > > constructed with as well as > > + * possibly any registered commands, based on the specified command > > line arguments, > > + * and returns a list of all commands and subcommands that were > > initialized by this method. > > + * </p> > > + * > > + * @param args the command line arguments to parse > > + * @return a list with all commands and subcommands initialized by > > this method > > + * @throws ParameterException if the specified command line > arguments > > are invalid > > + */ > > + public List<CommandLine> parse(String... args) { > > + return interpreter.parse(args); > > + } > > + > > + /** > > + * Equivalent to {@code new CommandLine(command).usage(out)}. See > > {@link #usage(PrintStream)} for details. > > + * @param command the object annotated with {@link Command}, {@link > > Option} and {@link Parameters} > > + * @param out the print stream to print the help message to > > + * @throws IllegalArgumentException if the specified command object > > does not have a {@link Command}, {@link Option} or {@link Parameters} > > annotation > > + */ > > + public static void usage(Object command, PrintStream out) { > > + toCommandLine(command).usage(out); > > + } > > + > > + /** > > + * Equivalent to {@code new CommandLine(command).usage(out, ansi)}. > > + * See {@link #usage(PrintStream, Help.Ansi)} for details. > > + * @param command the object annotated with {@link Command}, {@link > > Option} and {@link Parameters} > > + * @param out the print stream to print the help message to > > + * @param ansi whether the usage message should contain ANSI escape > > codes or not > > + * @throws IllegalArgumentException if the specified command object > > does not have a {@link Command}, {@link Option} or {@link Parameters} > > annotation > > + */ > > + public static void usage(Object command, PrintStream out, Help.Ansi > > ansi) { > > + toCommandLine(command).usage(out, ansi); > > + } > > + > > + /** > > + * Equivalent to {@code new CommandLine(command).usage(out, > > colorScheme)}. > > + * See {@link #usage(PrintStream, Help.ColorScheme)} for details. > > + * @param command the object annotated with {@link Command}, {@link > > Option} and {@link Parameters} > > + * @param out the print stream to print the help message to > > + * @param colorScheme the {@code ColorScheme} defining the styles > for > > options, parameters and commands when ANSI is enabled > > + * @throws IllegalArgumentException if the specified command object > > does not have a {@link Command}, {@link Option} or {@link Parameters} > > annotation > > + */ > > + public static void usage(Object command, PrintStream out, > > Help.ColorScheme colorScheme) { > > + toCommandLine(command).usage(out, colorScheme); > > + } > > + > > + /** > > + * Delegates to {@link #usage(PrintStream, Help.Ansi)} with the > > {@linkplain Help.Ansi#AUTO platform default}. > > + * @param out the printStream to print to > > + * @see #usage(PrintStream, Help.ColorScheme) > > + */ > > + public void usage(PrintStream out) { > > + usage(out, Help.Ansi.AUTO); > > + } > > + > > + /** > > + * Delegates to {@link #usage(PrintStream, Help.ColorScheme)} with > > the {@linkplain Help#defaultColorScheme(CommandLine.Help.Ansi) default > > color scheme}. > > + * @param out the printStream to print to > > + * @param ansi whether the usage message should include ANSI escape > > codes or not > > + * @see #usage(PrintStream, Help.ColorScheme) > > + */ > > + public void usage(PrintStream out, Help.Ansi ansi) { > > + usage(out, Help.defaultColorScheme(ansi)); > > + } > > + /** > > + * Prints a usage help message for the annotated command class to > the > > specified {@code PrintStream}. > > + * Delegates construction of the usage help message to the {@link > > Help} inner class and is equivalent to: > > + * <pre> > > + * Help help = new Help(command).addAllSubcommands( > getSubcommands()); > > + * StringBuilder sb = new StringBuilder() > > + * .append(help.headerHeading()) > > + * .append(help.header()) > > + * .append(help.synopsisHeading()) //e.g. Usage: > > + * .append(help.synopsis()) //e.g. <main > > class> [OPTIONS] <command> [COMMAND-OPTIONS] [ARGUMENTS] > > + * .append(help.descriptionHeading()) //e.g. > > %nDescription:%n%n > > + * .append(help.description()) //e.g. {"Converts > > foos to bars.", "Use options to control conversion mode."} > > + * .append(help.parameterListHeading()) //e.g. %nPositional > > parameters:%n%n > > + * .append(help.parameterList()) //e.g. [FILE...] the > > files to convert > > + * .append(help.optionListHeading()) //e.g. > %nOptions:%n%n > > + * .append(help.optionList()) //e.g. -h, --help > > displays this help and exits > > + * .append(help.commandListHeading()) //e.g. > > %nCommands:%n%n > > + * .append(help.commandList()) //e.g. add > > adds the frup to the frooble > > + * .append(help.footerHeading()) > > + * .append(help.footer()); > > + * out.print(sb); > > + * </pre> > > + * <p>Annotate your class with {@link Command} to control many > > aspects of the usage help message, including > > + * the program name, text of section headings and section contents, > > and some aspects of the auto-generated sections > > + * of the usage help message. > > + * <p>To customize the auto-generated sections of the usage help > > message, like how option details are displayed, > > + * instantiate a {@link Help} object and use a {@link > Help.TextTable} > > with more of fewer columns, a custom > > + * {@linkplain Help.Layout layout}, and/or a custom option > > {@linkplain Help.IOptionRenderer renderer} > > + * for ultimate control over which aspects of an Option or Field are > > displayed where.</p> > > + * @param out the {@code PrintStream} to print the usage help > message > > to > > + * @param colorScheme the {@code ColorScheme} defining the styles > for > > options, parameters and commands when ANSI is enabled > > + */ > > + public void usage(PrintStream out, Help.ColorScheme colorScheme) { > > + Help help = new Help(interpreter.command, colorScheme). > > addAllSubcommands(getSubcommands()); > > + StringBuilder sb = new StringBuilder() > > + .append(help.headerHeading()) > > + .append(help.header()) > > + .append(help.synopsisHeading()) //e.g. Usage: > > + .append(help.synopsis(help.synopsisHeadingLength())) > > //e.g. <main class> [OPTIONS] <command> [COMMAND-OPTIONS] > > [ARGUMENTS] > > + .append(help.descriptionHeading()) //e.g. > > %nDescription:%n%n > > + .append(help.description()) //e.g. {"Converts > > foos to bars.", "Use options to control conversion mode."} > > + .append(help.parameterListHeading()) //e.g. > %nPositional > > parameters:%n%n > > + .append(help.parameterList()) //e.g. [FILE...] > the > > files to convert > > + .append(help.optionListHeading()) //e.g. > > %nOptions:%n%n > > + .append(help.optionList()) //e.g. -h, --help > > displays this help and exits > > + .append(help.commandListHeading()) //e.g. > > %nCommands:%n%n > > + .append(help.commandList()) //e.g. add > > adds the frup to the frooble > > + .append(help.footerHeading()) > > + .append(help.footer()); > > + out.print(sb); > > + } > > + > > + /** > > + * Delegates to {@link #printVersionHelp(PrintStream, Help.Ansi)} > > with the {@linkplain Help.Ansi#AUTO platform default}. > > + * @param out the printStream to print to > > + * @see #printVersionHelp(PrintStream, Help.Ansi) > > + */ > > + public void printVersionHelp(PrintStream out) { > printVersionHelp(out, > > Help.Ansi.AUTO); } > > + > > + /** > > + * Prints version information from the {@link Command#version()} > > annotation to the specified {@code PrintStream}. > > + * Each element of the array of version strings is printed on a > > separate line. Version strings may contain > > + * <a href="http://picocli.info/#_usage_help_with_styles_and_colors > ">markup > > for colors and style</a>. > > + * @param out the printStream to print to > > + * @param ansi whether the usage message should include ANSI escape > > codes or not > > + * @see Command#version() > > + * @see Option#versionHelp() > > + * @see #isVersionHelpRequested() > > + */ > > + public void printVersionHelp(PrintStream out, Help.Ansi ansi) { > > + for (String versionInfo : versionLines) { > > + out.println(ansi.new Text(versionInfo)); > > + } > > + } > > + > > + /** > > + * Delegates to {@link #run(Runnable, PrintStream, Help.Ansi, > > String...)} with {@link Help.Ansi#AUTO}. > > + * @param command the command to run when {@linkplain > > #populateCommand(Object, String...) parsing} succeeds. > > + * @param out the printStream to print to > > + * @param args the command line arguments to parse > > + * @param <R> the annotated object must implement Runnable > > + * @see #run(Runnable, PrintStream, Help.Ansi, String...) > > + * @throws IllegalArgumentException if the specified command object > > does not have a {@link Command}, {@link Option} or {@link Parameters} > > annotation > > + */ > > + public static <R extends Runnable> void run(R command, PrintStream > > out, String... args) { > > + run(command, out, Help.Ansi.AUTO, args); > > + } > > + /** > > + * Convenience method to allow command line application authors to > > avoid some boilerplate code in their application. > > + * The annotated object needs to implement {@link Runnable}. Calling > > this method is equivalent to: > > + * <pre> > > + * CommandLine cmd = new CommandLine(command); > > + * try { > > + * cmd.parse(args); > > + * } catch (Exception ex) { > > + * System.err.println(ex.getMessage()); > > + * cmd.usage(out, ansi); > > + * return; > > + * } > > + * command.run(); > > + * </pre> > > + * Note that this method is not suitable for commands with > > subcommands. > > + * @param command the command to run when {@linkplain > > #populateCommand(Object, String...) parsing} succeeds. > > + * @param out the printStream to print to > > + * @param ansi whether the usage message should include ANSI escape > > codes or not > > + * @param args the command line arguments to parse > > + * @param <R> the annotated object must implement Runnable > > + * @throws IllegalArgumentException if the specified command object > > does not have a {@link Command}, {@link Option} or {@link Parameters} > > annotation > > + */ > > + public static <R extends Runnable> void run(R command, PrintStream > > out, Help.Ansi ansi, String... args) { > > + CommandLine cmd = new CommandLine(command); // validate command > > outside of try-catch > > + try { > > + cmd.parse(args); > > + } catch (Exception ex) { > > + out.println(ex.getMessage()); > > + cmd.usage(out, ansi); > > + return; > > + } > > + command.run(); > > + } > > + > > + /** > > + * Registers the specified type converter for the specified class. > > When initializing fields annotated with > > + * {@link Option}, the field's type is used as a lookup key to find > > the associated type converter, and this > > + * type converter converts the original command line argument string > > value to the correct type. > > + * <p> > > + * Java 8 lambdas make it easy to register custom type converters: > > + * </p> > > + * <pre> > > + * commandLine.registerConverter(java.nio.file.Path.class, s -> > > java.nio.file.Paths.get(s)); > > + * commandLine.registerConverter(java.time.Duration.class, s -> > > java.time.Duration.parse(s));</pre> > > + * <p> > > + * Built-in type converters are pre-registered for the following > java > > 1.5 types: > > + * </p> > > + * <ul> > > + * <li>all primitive types</li> > > + * <li>all primitive wrapper types: Boolean, Byte, Character, > > Double, Float, Integer, Long, Short</li> > > + * <li>any enum</li> > > + * <li>java.io.File</li> > > + * <li>java.math.BigDecimal</li> > > + * <li>java.math.BigInteger</li> > > + * <li>java.net.InetAddress</li> > > + * <li>java.net.URI</li> > > + * <li>java.net.URL</li> > > + * <li>java.nio.charset.Charset</li> > > + * <li>java.sql.Time</li> > > + * <li>java.util.Date</li> > > + * <li>java.util.UUID</li> > > + * <li>java.util.regex.Pattern</li> > > + * <li>StringBuilder</li> > > + * <li>CharSequence</li> > > + * <li>String</li> > > + * </ul> > > + * <p>The specified converter will be registered with this {@code > > CommandLine} and the full hierarchy of its > > + * subcommands and nested sub-subcommands <em>at the moment the > > converter is registered</em>. Subcommands added > > + * later will not have this converter added automatically. To ensure > > a custom type converter is available to all > > + * subcommands, register the type converter last, after adding > > subcommands.</p> > > + * > > + * @param cls the target class to convert parameter string values to > > + * @param converter the class capable of converting string values to > > the specified target type > > + * @param <K> the target type > > + * @return this CommandLine object, to allow method chaining > > + * @see #addSubcommand(String, Object) > > + */ > > + public <K> CommandLine registerConverter(Class<K> cls, > > ITypeConverter<K> converter) { > > + interpreter.converterRegistry.put(Assert.notNull(cls, "class"), > > Assert.notNull(converter, "converter")); > > + for (CommandLine command : interpreter.commands.values()) { > > + command.registerConverter(cls, converter); > > + } > > + return this; > > + } > > + > > + /** Returns the String that separates option names from option > values > > when parsing command line options. {@code '='} by default. > > + * @return the String the parser uses to separate option names from > > option values */ > > + public String getSeparator() { > > + return interpreter.separator; > > + } > > + > > + /** Sets the String the parser uses to separate option names from > > option values to the specified value. > > + * @param separator the String that separates option names from > > option values */ > > + public void setSeparator(String separator) { > > + interpreter.separator = Assert.notNull(separator, "separator"); > > + } > > + private static boolean empty(String str) { return str == null || > > str.trim().length() == 0; } > > + private static boolean empty(Object[] array) { return array == null > > || array.length == 0; } > > + private static boolean empty(Text txt) { return txt == null || > > txt.plain.toString().trim().length() == 0; } > > + private static String str(String[] arr, int i) { return (arr == null > > || arr.length == 0) ? "" : arr[i]; } > > + private static boolean isBoolean(Class<?> type) { return type == > > Boolean.class || type == Boolean.TYPE; } > > + private static CommandLine toCommandLine(Object obj) { return obj > > instanceof CommandLine ? (CommandLine) obj : new CommandLine(obj);} > > + /** > > + * <p> > > + * Annotate fields in your class with {@code @Option} and picocli > > will initialize these fields when matching > > + * arguments are specified on the command line. > > + * </p><p> > > + * For example: > > + * </p> > > + * <pre>import static picocli.CommandLine.*; > > + * > > + * public class MyClass { > > + * @Parameters(type = File.class, description = "Any number > > of input files") > > + * private List<File> files = new ArrayList<File>(); > > + * > > + * @Option(names = { "-o", "--out" }, description = "Output > > file (default: print to console)") > > + * private File outputFile; > > + * > > + * @Option(names = { "-v", "--verbose"}, description = > > "Verbosely list files processed") > > + * private boolean verbose; > > + * > > + * @Option(names = { "-h", "--help", "-?", "-help"}, help = > > true, description = "Display this help and exit") > > + * private boolean help; > > + * > > + * @Option(names = { "-V", "--version"}, help = true, > > description = "Display version information and exit") > > + * private boolean version; > > + * } > > + * </pre> > > + * <p> > > + * A field cannot be annotated with both {@code @Parameters} and > > {@code @Option} or a > > + * {@code ParameterException} is thrown. > > + * </p> > > + */ > > + @Retention(RetentionPolicy.RUNTIME) > > + @Target(ElementType.FIELD) > > + public @interface Option { > > + /** > > + * One or more option names. At least one option name is > required. > > + * <p> > > + * Different environments have different conventions for naming > > options, but usually options have a prefix > > + * that sets them apart from parameters. > > + * Picocli supports all of the below styles. The default > > separator is {@code '='}, but this can be configured. > > + * </p><p> > > + * <b>*nix</b> > > + * </p><p> > > + * In Unix and Linux, options have a short (single-character) > > name, a long name or both. > > + * Short options > > + * (<a href="http://pubs.opengroup.org/onlinepubs/9699919799/ > > basedefs/V1_chap12.html#tag_12_02">POSIX > > + * style</a> are single-character and are preceded by the {@code > > '-'} character, e.g., {@code `-v'}. > > + * <a href="https://www.gnu.org/software/tar/manual/html_node/ > > Long-Options.html">GNU-style</a> long > > + * (or <em>mnemonic</em>) options start with two dashes in a > row, > > e.g., {@code `--file'}. > > + * </p><p>Picocli supports the POSIX convention that short > > options can be grouped, with the last option > > + * optionally taking a parameter, which may be attached to the > > option name or separated by a space or > > + * a {@code '='} character. The below examples are all > equivalent: > > + * </p><pre> > > + * -xvfFILE > > + * -xvf FILE > > + * -xvf=FILE > > + * -xv --file FILE > > + * -xv --file=FILE > > + * -x -v --file FILE > > + * -x -v --file=FILE > > + * </pre><p> > > + * <b>DOS</b> > > + * </p><p> > > + * DOS options mostly have upper case single-character names and > > start with a single slash {@code '/'} character. > > + * Option parameters are separated by a {@code ':'} character. > > Options cannot be grouped together but > > + * must be specified separately. For example: > > + * </p><pre> > > + * DIR /S /A:D /T:C > > + * </pre><p> > > + * <b>PowerShell</b> > > + * </p><p> > > + * Windows PowerShell options generally are a word preceded by a > > single {@code '-'} character, e.g., {@code `-Help'}. > > + * Option parameters are separated by a space or by a {@code > ':'} > > character. > > + * </p> > > + * @return one or more option names > > + */ > > + String[] names(); > > + > > + /** > > + * Indicates whether this option is required. By default this is > > false. > > + * If an option is required, but a user invokes the program > > without specifying the required option, > > + * a {@link MissingParameterException} is thrown from the {@link > > #parse(String...)} method. > > + * @return whether this option is required > > + */ > > + boolean required() default false; > > + > > + /** > > + * Set {@code help=true} if this option should disable > validation > > of the remaining arguments: > > + * If the {@code help} option is specified, no error message is > > generated for missing required options. > > + * <p> > > + * This attribute is useful for special options like help > ({@code > > -h} and {@code --help} on unix, > > + * {@code -?} and {@code -Help} on Windows) or version ({@code > > -V} and {@code --version} on unix, > > + * {@code -Version} on Windows). > > + * </p> > > + * <p> > > + * Note that the {@link #parse(String...)} method will not print > > help documentation. It will only set > > + * the value of the annotated field. It is the responsibility of > > the caller to inspect the annotated fields > > + * and take the appropriate action. > > + * </p> > > + * @return whether this option disables validation of the other > > arguments > > + */ > > + boolean help() default false; > > + > > + /** > > + * Set {@code usageHelp=true} if this option allows the user to > > request usage help. If this option is > > + * specified on the command line, picocli will not validate the > > remaining arguments (so no "missing required > > + * option" errors) and the {@link CommandLine# > isUsageHelpRequested()} > > method will return {@code true}. > > + * <p> > > + * This attribute is useful for special options like help > ({@code > > -h} and {@code --help} on unix, > > + * {@code -?} and {@code -Help} on Windows). > > + * </p> > > + * <p> > > + * Note that the {@link #parse(String...)} method will not print > > usage help documentation. It will only set > > + * the value of the annotated field. It is the responsibility of > > the caller to inspect the annotated fields > > + * and take the appropriate action. > > + * </p> > > + * @return whether this option allows the user to request usage > > help > > + */ > > + boolean usageHelp() default false; > > + > > + /** > > + * Set {@code versionHelp=true} if this option allows the user > to > > request version information. If this option is > > + * specified on the command line, picocli will not validate the > > remaining arguments (so no "missing required > > + * option" errors) and the {@link CommandLine# > isVersionHelpRequested()} > > method will return {@code true}. > > + * <p> > > + * This attribute is useful for special options like version > > ({@code -V} and {@code --version} on unix, > > + * {@code -Version} on Windows). > > + * </p> > > + * <p> > > + * Note that the {@link #parse(String...)} method will not print > > version information. It will only set > > + * the value of the annotated field. It is the responsibility of > > the caller to inspect the annotated fields > > + * and take the appropriate action. > > + * </p> > > + * @return whether this option allows the user to request > version > > information > > + */ > > + boolean versionHelp() default false; > > + > > + /** > > + * Description of this option, used when generating the usage > > documentation. > > + * @return the description of this option > > + */ > > + String[] description() default {}; > > + > > + /** > > + * Specifies the minimum number of required parameters and the > > maximum number of accepted parameters. > > + * If an option declares a positive arity, and the user > specifies > > an insufficient number of parameters on the > > + * command line, a {@link MissingParameterException} is thrown > by > > the {@link #parse(String...)} method. > > + * <p> > > + * In many cases picocli can deduce the number of required > > parameters from the field's type. > > + * By default, flags (boolean options) have arity zero, > > + * and single-valued type fields (String, int, Integer, double, > > Double, File, Date, etc) have arity one. > > + * Generally, fields with types that cannot hold multiple values > > can omit the {@code arity} attribute. > > + * </p><p> > > + * Fields used to capture options with arity two or higher > should > > have a type that can hold multiple values, > > + * like arrays or Collections. See {@link #type()} for > > strongly-typed Collection fields. > > + * </p><p> > > + * For example, if an option has 2 required parameters and any > > number of optional parameters, > > + * specify {@code @Option(names = "-example", arity = "2..*")}. > > + * </p> > > + * <b>A note on boolean options</b> > > + * <p> > > + * By default picocli does not expect boolean options (also > > called "flags" or "switches") to have a parameter. > > + * You can make a boolean option take a required parameter by > > annotating your field with {@code arity="1"}. > > + * For example: </p> > > + * <pre>@Option(names = "-v", arity = "1") boolean > > verbose;</pre> > > + * <p> > > + * Because this boolean field is defined with arity 1, the user > > must specify either {@code <program> -v false} > > + * or {@code <program> -v true} > > + * on the command line, or a {@link MissingParameterException} > is > > thrown by the {@link #parse(String...)} > > + * method. > > + * </p><p> > > + * To make the boolean parameter possible but optional, define > > the field with {@code arity = "0..1"}. > > + * For example: </p> > > + * <pre>@Option(names="-v", arity="0..1") boolean > > verbose;</pre> > > + * <p>This will accept any of the below without throwing an > > exception:</p> > > + * <pre> > > + * -v > > + * -v true > > + * -v false > > + * </pre> > > + * @return how many arguments this option requires > > + */ > > + String arity() default ""; > > + > > + /** > > + * Specify a {@code paramLabel} for the option parameter to be > > used in the usage help message. If omitted, > > + * picocli uses the field name in fish brackets ({@code '<'} and > > {@code '>'}) by default. Example: > > + * <pre>class Example { > > + * @Option(names = {"-o", "--output"}, > > paramLabel="FILE", description="path of the output file") > > + * private File out; > > + * @Option(names = {"-j", "--jobs"}, arity="0..1", > > description="Allow N jobs at once; infinite jobs with no arg.") > > + * private int maxJobs = -1; > > + * }</pre> > > + * <p>By default, the above gives a usage help message like the > > following:</p><pre> > > + * Usage: <main class> [OPTIONS] > > + * -o, --output FILE path of the output file > > + * -j, --jobs [<maxJobs>] Allow N jobs at once; infinite > > jobs with no arg. > > + * </pre> > > + * @return name of the option parameter used in the usage help > > message > > + */ > > + String paramLabel() default ""; > > + > > + /** > > + * <p> > > + * Specify a {@code type} if the annotated field is a {@code > > Collection} that should hold objects other than Strings. > > + * </p><p> > > + * If the field's type is a {@code Collection}, the generic type > > parameter of the collection is erased and > > + * cannot be determined at runtime. Specify a {@code type} > > attribute to store values other than String in > > + * the Collection. Picocli will use the {@link ITypeConverter} > > + * that is {@linkplain #registerConverter(Class, ITypeConverter) > > registered} for that type to convert > > + * the raw String values before they are added to the > collection. > > + * </p><p> > > + * When the field's type is an array, the {@code type} attribute > > is ignored: the values will be converted > > + * to the array component type and the array will be replaced > > with a new instance containing both the old and > > + * the new values. </p> > > + * @return the type to convert the raw String values to before > > adding them to the Collection > > + */ > > + Class<?> type() default String.class; > > + > > + /** > > + * Specify a regular expression to use to split option parameter > > values before applying them to the field. > > + * All elements resulting from the split are added to the array > > or Collection. Ignored for single-value fields. > > + * @return a regular expression to split option parameter values > > or {@code ""} if the value should not be split > > + * @see String#split(String) > > + */ > > + String split() default ""; > > + > > + /** > > + * Set {@code hidden=true} if this option should not be included > > in the usage documentation. > > + * @return whether this option should be excluded from the usage > > message > > + */ > > + boolean hidden() default false; > > + } > > + /** > > + * <p> > > + * Fields annotated with {@code @Parameters} will be initialized > with > > positional parameters. By specifying the > > + * {@link #index()} attribute you can pick which (or what range) of > > the positional parameters to apply. If no index > > + * is specified, the field will get all positional parameters (so it > > should be an array or a collection). > > + * </p><p> > > + * When parsing the command line arguments, picocli first tries to > > match arguments to {@link Option Options}. > > + * Positional parameters are the arguments that follow the options, > > or the arguments that follow a "--" (double > > + * dash) argument on the command line. > > + * </p><p> > > + * For example: > > + * </p> > > + * <pre>import static picocli.CommandLine.*; > > + * > > + * public class MyCalcParameters { > > + * @Parameters(type = BigDecimal.class, description = "Any > > number of input numbers") > > + * private List<BigDecimal> files = new > > ArrayList<BigDecimal>(); > > + * > > + * @Option(names = { "-h", "--help", "-?", "-help"}, help = > > true, description = "Display this help and exit") > > + * private boolean help; > > + * } > > + * </pre><p> > > + * A field cannot be annotated with both {@code @Parameters} and > > {@code @Option} or a {@code ParameterException} > > + * is thrown.</p> > > + */ > > + @Retention(RetentionPolicy.RUNTIME) > > + @Target(ElementType.FIELD) > > + public @interface Parameters { > > + /** Specify an index ("0", or "1", etc.) to pick which of the > > command line arguments should be assigned to this > > + * field. For array or Collection fields, you can also specify > an > > index range ("0..3", or "2..*", etc.) to assign > > + * a subset of the command line arguments to this field. The > > default is "*", meaning all command line arguments. > > + * @return an index or range specifying which of the command > line > > arguments should be assigned to this field > > + */ > > + String index() default "*"; > > + > > + /** Description of the parameter(s), used when generating the > > usage documentation. > > + * @return the description of the parameter(s) > > + */ > > + String[] description() default {}; > > + > > + /** > > + * Specifies the minimum number of required parameters and the > > maximum number of accepted parameters. If a > > + * positive arity is declared, and the user specifies an > > insufficient number of parameters on the command line, > > + * {@link MissingParameterException} is thrown by the {@link > > #parse(String...)} method. > > + * <p>The default depends on the type of the parameter: booleans > > require no parameters, arrays and Collections > > + * accept zero to any number of parameters, and any other type > > accepts one parameter.</p> > > + * @return the range of minimum and maximum parameters accepted > > by this command > > + */ > > + String arity() default ""; > > + > > + /** > > + * Specify a {@code paramLabel} for the parameter to be used in > > the usage help message. If omitted, > > + * picocli uses the field name in fish brackets ({@code '<'} and > > {@code '>'}) by default. Example: > > + * <pre>class Example { > > + * @Parameters(paramLabel="FILE", description="path of > > the input FILE(s)") > > + * private File[] inputFiles; > > + * }</pre> > > + * <p>By default, the above gives a usage help message like the > > following:</p><pre> > > + * Usage: <main class> [FILE...] > > + * [FILE...] path of the input FILE(s) > > + * </pre> > > + * @return name of the positional parameter used in the usage > > help message > > + */ > > + String paramLabel() default ""; > > + > > + /** > > + * <p> > > + * Specify a {@code type} if the annotated field is a {@code > > Collection} that should hold objects other than Strings. > > + * </p><p> > > + * If the field's type is a {@code Collection}, the generic type > > parameter of the collection is erased and > > + * cannot be determined at runtime. Specify a {@code type} > > attribute to store values other than String in > > + * the Collection. Picocli will use the {@link ITypeConverter} > > + * that is {@linkplain #registerConverter(Class, ITypeConverter) > > registered} for that type to convert > > + * the raw String values before they are added to the > collection. > > + * </p><p> > > + * When the field's type is an array, the {@code type} attribute > > is ignored: the values will be converted > > + * to the array component type and the array will be replaced > > with a new instance containing both the old and > > + * the new values. </p> > > + * @return the type to convert the raw String values to before > > adding them to the Collection > > + */ > > + Class<?> type() default String.class; > > + > > + /** > > + * Specify a regular expression to use to split positional > > parameter values before applying them to the field. > > + * All elements resulting from the split are added to the array > > or Collection. Ignored for single-value fields. > > + * @return a regular expression to split operand values or > {@code > > ""} if the value should not be split > > + * @see String#split(String) > > + */ > > + String split() default ""; > > + > > + /** > > + * Set {@code hidden=true} if this parameter should not be > > included in the usage message. > > + * @return whether this parameter should be excluded from the > > usage message > > + */ > > + boolean hidden() default false; > > + } > > + > > + /** > > + * <p>Annotate your class with {@code @Command} when you want more > > control over the format of the generated help > > + * message. > > + * </p><pre> > > + * @Command(name = "Encrypt", > > + * description = "Encrypt FILE(s), or standard input, to > > standard output or to the output file.", > > + * footer = "Copyright (c) 2017") > > + * public class Encrypt { > > + * @Parameters(paramLabel = "FILE", type = File.class, > > description = "Any number of input files") > > + * private List<File> files = new > > ArrayList<File>(); > > + * > > + * @Option(names = { "-o", "--out" }, description = "Output > > file (default: print to console)") > > + * private File outputFile; > > + * }</pre> > > + * <p> > > + * The structure of a help message looks like this: > > + * </p><ul> > > + * <li>[header]</li> > > + * <li>[synopsis]: {@code Usage: <commandName> [OPTIONS] > > [FILE...]}</li> > > + * <li>[description]</li> > > + * <li>[parameter list]: {@code [FILE...] Any number of > > input files}</li> > > + * <li>[option list]: {@code -h, --help prints this help > > message and exits}</li> > > + * <li>[footer]</li> > > + * </ul> */ > > + @Retention(RetentionPolicy.RUNTIME) > > + @Target(ElementType.TYPE) > > + public @interface Command { > > + /** Program name to show in the synopsis. If omitted, {@code > > "<main class>"} is used. > > + * For {@linkplain #subcommands() declaratively added} > > subcommands, this attribute is also used > > + * by the parser to recognize subcommands in the command line > > arguments. > > + * @return the program name to show in the synopsis > > + * @see Help#commandName */ > > + String name() default "<main class>"; > > + > > + /** A list of classes to instantiate and register as > subcommands. > > When registering subcommands declaratively > > + * like this, you don't need to call the {@link > > CommandLine#addSubcommand(String, Object)} method. For example, this: > > + * <pre> > > + * @Command(subcommands = { > > + * GitStatus.class, > > + * GitCommit.class, > > + * GitBranch.class }) > > + * public class Git { ... } > > + * > > + * CommandLine commandLine = new CommandLine(new Git()); > > + * </pre> is equivalent to this: > > + * <pre> > > + * // alternative: programmatically add subcommands. > > + * // NOTE: in this case there should be no `subcommands` > > attribute on the @Command annotation. > > + * @Command public class Git { ... } > > + * > > + * CommandLine commandLine = new CommandLine(new Git()) > > + * .addSubcommand("status", new GitStatus()) > > + * .addSubcommand("commit", new GitCommit()) > > + * .addSubcommand("branch", new GitBranch()); > > + * </pre> > > + * @return the declaratively registered subcommands of this > > command, or an empty array if none > > + * @see CommandLine#addSubcommand(String, Object) > > + * @since 0.9.8 > > + */ > > + Class<?>[] subcommands() default {}; > > + > > + /** String that separates options from option parameters. > Default > > is {@code "="}. Spaces are also accepted. > > + * @return the string that separates options from option > > parameters, used both when parsing and when generating usage help > > + * @see Help#separator > > + * @see CommandLine#setSeparator(String) */ > > + String separator() default "="; > > + > > + /** Version information for this command, to print to the > console > > when the user specifies an > > + * {@linkplain Option#versionHelp() option} to request version > > help. This is not part of the usage help message. > > + * > > + * @return a string or an array of strings with version > > information about this command. > > + * @since 0.9.8 > > + * @see CommandLine#printVersionHelp(PrintStream) > > + */ > > + String[] version() default {}; > > + > > + /** Set the heading preceding the header section. May contain > > embedded {@linkplain java.util.Formatter format specifiers}. > > + * @return the heading preceding the header section > > + * @see Help#headerHeading(Object...) */ > > + String headerHeading() default ""; > > + > > + /** Optional summary description of the command, shown before > the > > synopsis. > > + * @return summary description of the command > > + * @see Help#header > > + * @see Help#header(Object...) */ > > + String[] header() default {}; > > + > > + /** Set the heading preceding the synopsis text. May contain > > embedded > > + * {@linkplain java.util.Formatter format specifiers}. The > > default heading is {@code "Usage: "} (without a line > > + * break between the heading and the synopsis text). > > + * @return the heading preceding the synopsis text > > + * @see Help#synopsisHeading(Object...) */ > > + String synopsisHeading() default "Usage: "; > > + > > + /** Specify {@code true} to generate an abbreviated synopsis > like > > {@code "<main> [OPTIONS] [PARAMETERS...]"}. > > + * By default, a detailed synopsis with individual option names > > and parameters is generated. > > + * @return whether the synopsis should be abbreviated > > + * @see Help#abbreviateSynopsis > > + * @see Help#abbreviatedSynopsis() > > + * @see Help#detailedSynopsis(Comparator, boolean) */ > > + boolean abbreviateSynopsis() default false; > > + > > + /** Specify one or more custom synopsis lines to display instead > > of an auto-generated synopsis. > > + * @return custom synopsis text to replace the auto-generated > > synopsis > > + * @see Help#customSynopsis > > + * @see Help#customSynopsis(Object...) */ > > + String[] customSynopsis() default {}; > > + > > + /** Set the heading preceding the description section. May > > contain embedded {@linkplain java.util.Formatter format specifiers}. > > + * @return the heading preceding the description section > > + * @see Help#descriptionHeading(Object...) */ > > + String descriptionHeading() default ""; > > + > > + /** Optional text to display between the synopsis line(s) and > the > > list of options. > > + * @return description of this command > > + * @see Help#description > > + * @see Help#description(Object...) */ > > + String[] description() default {}; > > + > > + /** Set the heading preceding the parameters list. May contain > > embedded {@linkplain java.util.Formatter format specifiers}. > > + * @return the heading preceding the parameters list > > + * @see Help#parameterListHeading(Object...) */ > > + String parameterListHeading() default ""; > > + > > + /** Set the heading preceding the options list. May contain > > embedded {@linkplain java.util.Formatter format specifiers}. > > + * @return the heading preceding the options list > > + * @see Help#optionListHeading(Object...) */ > > + String optionListHeading() default ""; > > + > > + /** Specify {@code false} to show Options in declaration order. > > The default is to sort alphabetically. > > + * @return whether options should be shown in alphabetic order. > > + * @see Help#sortOptions */ > > + boolean sortOptions() default true; > > + > > + /** Prefix required options with this character in the options > > list. The default is no marker: the synopsis > > + * indicates which options and parameters are required. > > + * @return the character to show in the options list to mark > > required options > > + * @see Help#requiredOptionMarker */ > > + char requiredOptionMarker() default ' '; > > + > > + /** Specify {@code true} to show default values in the > > description column of the options list (except for > > + * boolean options). False by default. > > + * @return whether the default values for options and parameters > > should be shown in the description column > > + * @see Help#showDefaultValues */ > > + boolean showDefaultValues() default false; > > + > > + /** Set the heading preceding the subcommands list. May contain > > embedded {@linkplain java.util.Formatter format specifiers}. > > + * The default heading is {@code "Commands:%n"} (with a line > > break at the end). > > + * @return the heading preceding the subcommands list > > + * @see Help#commandListHeading(Object...) */ > > + String commandListHeading() default "Commands:%n"; > > + > > + /** Set the heading preceding the footer section. May contain > > embedded {@linkplain java.util.Formatter format specifiers}. > > + * @return the heading preceding the footer section > > + * @see Help#footerHeading(Object...) */ > > + String footerHeading() default ""; > > + > > + /** Optional text to display after the list of options. > > + * @return text to display after the list of options > > + * @see Help#footer > > + * @see Help#footer(Object...) */ > > + String[] footer() default {}; > > + } > > + /** > > + * <p> > > + * When parsing command line arguments and initializing > > + * fields annotated with {@link Option @Option} or {@link Parameters > > @Parameters}, > > + * String values can be converted to any type for which a {@code > > ITypeConverter} is registered. > > + * </p><p> > > + * This interface defines the contract for classes that know how to > > convert a String into some domain object. > > + * Custom converters can be registered with the {@link > > #registerConverter(Class, ITypeConverter)} method. > > + * </p><p> > > + * Java 8 lambdas make it easy to register custom type converters: > > + * </p> > > + * <pre> > > + * commandLine.registerConverter(java.nio.file.Path.class, s -> > > java.nio.file.Paths.get(s)); > > + * commandLine.registerConverter(java.time.Duration.class, s -> > > java.time.Duration.parse(s));</pre> > > + * <p> > > + * Built-in type converters are pre-registered for the following > java > > 1.5 types: > > + * </p> > > + * <ul> > > + * <li>all primitive types</li> > > + * <li>all primitive wrapper types: Boolean, Byte, Character, > > Double, Float, Integer, Long, Short</li> > > + * <li>any enum</li> > > + * <li>java.io.File</li> > > + * <li>java.math.BigDecimal</li> > > + * <li>java.math.BigInteger</li> > > + * <li>java.net.InetAddress</li> > > + * <li>java.net.URI</li> > > + * <li>java.net.URL</li> > > + * <li>java.nio.charset.Charset</li> > > + * <li>java.sql.Time</li> > > + * <li>java.util.Date</li> > > + * <li>java.util.UUID</li> > > + * <li>java.util.regex.Pattern</li> > > + * <li>StringBuilder</li> > > + * <li>CharSequence</li> > > + * <li>String</li> > > + * </ul> > > + * @param <K> the type of the object that is the result of the > > conversion > > + */ > > + public interface ITypeConverter<K> { > > + /** > > + * Converts the specified command line argument value to some > > domain object. > > + * @param value the command line argument String value > > + * @return the resulting domain object > > + * @throws Exception an exception detailing what went wrong > > during the conversion > > + */ > > + K convert(String value) throws Exception; > > + } > > + /** Describes the number of parameters required and accepted by an > > option or a positional parameter. > > + * @since 0.9.7 > > + */ > > + public static class Range implements Comparable<Range> { > > + /** Required number of parameters for an option or positional > > parameter. */ > > + public final int min; > > + /** Maximum accepted number of parameters for an option or > > positional parameter. */ > > + public final int max; > > + public final boolean isVariable; > > + private final boolean isUnspecified; > > + private final String originalValue; > > + > > + /** Constructs a new Range object with the specified parameters. > > + * @param min minimum number of required parameters > > + * @param max maximum number of allowed parameters (or > > Integer.MAX_VALUE if variable) > > + * @param variable {@code true} if any number or parameters is > > allowed, {@code false} otherwise > > + * @param unspecified {@code true} if no arity was specified on > > the option/parameter (value is based on type) > > + * @param originalValue the original value that was specified on > > the option or parameter > > + */ > > + public Range(int min, int max, boolean variable, boolean > > unspecified, String originalValue) { > > + this.min = min; > > + this.max = max; > > + this.isVariable = variable; > > + this.isUnspecified = unspecified; > > + this.originalValue = originalValue; > > + } > > + /** Returns a new {@code Range} based on the {@link > > Option#arity()} annotation on the specified field, > > + * or the field type's default arity if no arity was specified. > > + * @param field the field whose Option annotation to inspect > > + * @return a new {@code Range} based on the Option arity > > annotation on the specified field */ > > + public static Range optionArity(Field field) { > > + return field.isAnnotationPresent(Option.class) > > + ? adjustForType(Range.valueOf( > > field.getAnnotation(Option.class).arity()), field) > > + : new Range(0, 0, false, true, "0"); > > + } > > + /** Returns a new {@code Range} based on the {@link > > Parameters#arity()} annotation on the specified field, > > + * or the field type's default arity if no arity was specified. > > + * @param field the field whose Parameters annotation to inspect > > + * @return a new {@code Range} based on the Parameters arity > > annotation on the specified field */ > > + public static Range parameterArity(Field field) { > > + return field.isAnnotationPresent(Parameters.class) > > + ? adjustForType(Range.valueOf(field.getAnnotation( > Parameters.class).arity()), > > field) > > + : new Range(0, 0, false, true, "0"); > > + } > > + /** Returns a new {@code Range} based on the {@link > > Parameters#index()} annotation on the specified field. > > + * @param field the field whose Parameters annotation to inspect > > + * @return a new {@code Range} based on the Parameters index > > annotation on the specified field */ > > + public static Range parameterIndex(Field field) { > > + return field.isAnnotationPresent(Parameters.class) > > + ? Range.valueOf(field.getAnnotation(Parameters. > > class).index()) > > + : new Range(0, 0, false, true, "0"); > > + } > > + static Range adjustForType(Range result, Field field) { > > + return result.isUnspecified ? defaultArity(field.getType()) > : > > result; > > + } > > + /** Returns a new {@code Range} based on the specified type: > > booleans have arity 0, arrays or Collections have > > + * arity "0..*", and other types have arity 1. > > + * @param type the type whose default arity to return > > + * @return a new {@code Range} indicating the default arity of > > the specified type */ > > + public static Range defaultArity(Class<?> type) { > > + if (isBoolean(type)) { > > + return Range.valueOf("0"); > > + } else if (type.isArray() || Collection.class. > isAssignableFrom(type)) > > { > > + return Range.valueOf("0..*"); > > + } > > + return Range.valueOf("1");// for single-valued fields > > + } > > + /** Leniently parses the specified String as an {@code Range} > > value and return the result. A range string can > > + * be a fixed integer value or a range of the form {@code > > MIN_VALUE + ".." + MAX_VALUE}. If the > > + * {@code MIN_VALUE} string is not numeric, the minimum is zero. > > If the {@code MAX_VALUE} is not numeric, the > > + * range is taken to be variable and the maximum is {@code > > Integer.MAX_VALUE}. > > + * @param range the value range string to parse > > + * @return a new {@code Range} value */ > > + public static Range valueOf(String range) { > > + range = range.trim(); > > + boolean unspecified = range.length() == 0 || > > range.startsWith(".."); // || range.endsWith(".."); > > + int min = -1, max = -1; > > + boolean variable = false; > > + int dots = -1; > > + if ((dots = range.indexOf("..")) >= 0) { > > + min = parseInt(range.substring(0, dots), 0); > > + max = parseInt(range.substring(dots + 2), > > Integer.MAX_VALUE); > > + variable = max == Integer.MAX_VALUE; > > + } else { > > + max = parseInt(range, Integer.MAX_VALUE); > > + variable = max == Integer.MAX_VALUE; > > + min = variable ? 0 : max; > > + } > > + Range result = new Range(min, max, variable, unspecified, > > range); > > + return result; > > + } > > + private static int parseInt(String str, int defaultValue) { > > + try { > > + return Integer.parseInt(str); > > + } catch (Exception ex) { > > + return defaultValue; > > + } > > + } > > + /** Returns a new Range object with the {@code min} value > > replaced by the specified value. > > + * The {@code max} of the returned Range is guaranteed not to be > > less than the new {@code min} value. > > + * @param newMin the {@code min} value of the returned Range > > object > > + * @return a new Range object with the specified {@code min} > > value */ > > + public Range min(int newMin) { return new Range(newMin, > > Math.max(newMin, max), isVariable, isUnspecified, originalValue); } > > + > > + /** Returns a new Range object with the {@code max} value > > replaced by the specified value. > > + * The {@code min} of the returned Range is guaranteed not to be > > greater than the new {@code max} value. > > + * @param newMax the {@code max} value of the returned Range > > object > > + * @return a new Range object with the specified {@code max} > > value */ > > + public Range max(int newMax) { return new Range(Math.min(min, > > newMax), newMax, isVariable, isUnspecified, originalValue); } > > + > > + public boolean equals(Object object) { > > + if (!(object instanceof Range)) { return false; } > > + Range other = (Range) object; > > + return other.max == this.max && other.min == this.min && > > other.isVariable == this.isVariable; > > + } > > + public int hashCode() { > > + return ((17 * 37 + max) * 37 + min) * 37 + (isVariable ? 1 : > > 0); > > + } > > + public String toString() { > > + return min == max ? String.valueOf(min) : min + ".." + > > (isVariable ? "*" : max); > > + } > > + public int compareTo(Range other) { > > + int result = min - other.min; > > + return (result == 0) ? max - other.max : result; > > + } > > + } > > + private static void init(Class<?> cls, > > + List<Field> requiredFields, > > + Map<String, Field> optionName2Field, > > + Map<Character, Field> > singleCharOption2Field, > > + List<Field> positionalParametersFields) { > > + Field[] declaredFields = cls.getDeclaredFields(); > > + for (Field field : declaredFields) { > > + field.setAccessible(true); > > + if (field.isAnnotationPresent(Option.class)) { > > + Option option = field.getAnnotation(Option.class); > > + if (option.required()) { > > + requiredFields.add(field); > > + } > > + for (String name : option.names()) { // cannot be null > or > > empty > > + Field existing = optionName2Field.put(name, field); > > + if (existing != null && existing != field) { > > + throw DuplicateOptionAnnotationsExce > ption.create(name, > > field, existing); > > + } > > + if (name.length() == 2 && name.startsWith("-")) { > > + char flag = name.charAt(1); > > + Field existing2 = singleCharOption2Field.put( > flag, > > field); > > + if (existing2 != null && existing2 != field) { > > + throw DuplicateOptionAnnotationsExce > ption.create(name, > > field, existing2); > > + } > > + } > > + } > > + } > > + if (field.isAnnotationPresent(Parameters.class)) { > > + if (field.isAnnotationPresent(Option.class)) { > > + throw new ParameterException("A field can be either > > @Option or @Parameters, but '" > > + + field.getName() + "' is both."); > > + } > > + positionalParametersFields.add(field); > > + Range arity = Range.parameterArity(field); > > + if (arity.min > 0) { > > + requiredFields.add(field); > > + } > > + } > > + } > > + } > > + static void validatePositionalParameters(List<Field> > > positionalParametersFields) { > > + int min = 0; > > + for (Field field : positionalParametersFields) { > > + Range index = Range.parameterIndex(field); > > + if (index.min > min) { > > + throw new ParameterIndexGapException("Missing field > > annotated with @Parameter(index=" + min + > > + "). Nearest field '" + field.getName() + "' has > > index=" + index.min); > > + } > > + min = Math.max(min, index.max); > > + min = min == Integer.MAX_VALUE ? min : min + 1; > > + } > > + } > > + private static <T> Stack<T> reverse(Stack<T> stack) { > > + Collections.reverse(stack); > > + return stack; > > + } > > + /** > > + * Helper class responsible for processing command line arguments. > > + */ > > + private class Interpreter { > > + private final Map<String, CommandLine> commands > > = new LinkedHashMap<String, CommandLine>(); > > + private final Map<Class<?>, ITypeConverter<?>> converterRegistry > > = new HashMap<Class<?>, ITypeConverter<?>>(); > > + private final Map<String, Field> optionName2Field > > = new HashMap<String, Field>(); > > + private final Map<Character, Field> singleCharOption2Field > > = new HashMap<Character, Field>(); > > + private final List<Field> requiredFields > > = new ArrayList<Field>(); > > + private final List<Field> positionalParametersFields > > = new ArrayList<Field>(); > > + private final Object command; > > + private boolean isHelpRequested; > > + private String separator = "="; > > + > > + Interpreter(Object command) { > > + converterRegistry.put(Path.class, new > > BuiltIn.PathConverter()); > > + converterRegistry.put(String.class, new > > BuiltIn.StringConverter()); > > + converterRegistry.put(StringBuilder.class, new BuiltIn. > > StringBuilderConverter()); > > + converterRegistry.put(CharSequence.class, new > > BuiltIn.CharSequenceConverter()); > > + converterRegistry.put(Byte.class, new > > BuiltIn.ByteConverter()); > > + converterRegistry.put(Byte.TYPE, new > > BuiltIn.ByteConverter()); > > + converterRegistry.put(Boolean.class, new > > BuiltIn.BooleanConverter()); > > + converterRegistry.put(Boolean.TYPE, new > > BuiltIn.BooleanConverter()); > > + converterRegistry.put(Character.class, new > > BuiltIn.CharacterConverter()); > > + converterRegistry.put(Character.TYPE, new > > BuiltIn.CharacterConverter()); > > + converterRegistry.put(Short.class, new > > BuiltIn.ShortConverter()); > > + converterRegistry.put(Short.TYPE, new > > BuiltIn.ShortConverter()); > > + converterRegistry.put(Integer.class, new > > BuiltIn.IntegerConverter()); > > + converterRegistry.put(Integer.TYPE, new > > BuiltIn.IntegerConverter()); > > + converterRegistry.put(Long.class, new > > BuiltIn.LongConverter()); > > + converterRegistry.put(Long.TYPE, new > > BuiltIn.LongConverter()); > > + converterRegistry.put(Float.class, new > > BuiltIn.FloatConverter()); > > + converterRegistry.put(Float.TYPE, new > > BuiltIn.FloatConverter()); > > + converterRegistry.put(Double.class, new > > BuiltIn.DoubleConverter()); > > + converterRegistry.put(Double.TYPE, new > > BuiltIn.DoubleConverter()); > > + converterRegistry.put(File.class, new > > BuiltIn.FileConverter()); > > + converterRegistry.put(URI.class, new > > BuiltIn.URIConverter()); > > + converterRegistry.put(URL.class, new > > BuiltIn.URLConverter()); > > + converterRegistry.put(Date.class, new > > BuiltIn.ISO8601DateConverter()); > > + converterRegistry.put(Time.class, new > > BuiltIn.ISO8601TimeConverter()); > > + converterRegistry.put(BigDecimal.class, new > > BuiltIn.BigDecimalConverter()); > > + converterRegistry.put(BigInteger.class, new > > BuiltIn.BigIntegerConverter()); > > + converterRegistry.put(Charset.class, new > > BuiltIn.CharsetConverter()); > > + converterRegistry.put(InetAddress.class, new > > BuiltIn.InetAddressConverter()); > > + converterRegistry.put(Pattern.class, new > > BuiltIn.PatternConverter()); > > + converterRegistry.put(UUID.class, new > > BuiltIn.UUIDConverter()); > > + > > + this.command = Assert.notNull(command, > "command"); > > + Class<?> cls = command.getClass(); > > + String declaredSeparator = null; > > + boolean hasCommandAnnotation = false; > > + while (cls != null) { > > + init(cls, requiredFields, optionName2Field, > > singleCharOption2Field, positionalParametersFields); > > + if (cls.isAnnotationPresent(Command.class)) { > > + hasCommandAnnotation = true; > > + Command cmd = cls.getAnnotation(Command.class); > > + declaredSeparator = (declaredSeparator == null) ? > > cmd.separator() : declaredSeparator; > > + CommandLine.this.versionLines. > > addAll(Arrays.asList(cmd.version())); > > + > > + for (Class<?> sub : cmd.subcommands()) { > > + Command subCommand = sub.getAnnotation(Command. > > class); > > + if (subCommand == null || > > Help.DEFAULT_COMMAND_NAME.equals(subCommand.name())) { > > + throw new IllegalArgumentException(" > Subcommand > > " + sub.getName() + > > + " is missing the mandatory @Command > > annotation with a 'name' attribute"); > > + } > > + try { > > + Constructor<?> constructor = > > sub.getDeclaredConstructor(); > > + constructor.setAccessible(true); > > + CommandLine commandLine = > > toCommandLine(constructor.newInstance()); > > + commandLine.parent = CommandLine.this; > > + commands.put(subCommand.name(), > commandLine); > > + } > > + catch (IllegalArgumentException ex) { throw ex; > } > > + catch (NoSuchMethodException ex) { throw new > > IllegalArgumentException("Cannot instantiate subcommand " + > > + sub.getName() + ": the class has no > > constructor", ex); } > > + catch (Exception ex) { > > + throw new IllegalStateException("Could not > > instantiate and add subcommand " + > > + sub.getName() + ": " + ex, ex); > > + } > > + } > > + } > > + cls = cls.getSuperclass(); > > + } > > + separator = declaredSeparator != null ? declaredSeparator : > > separator; > > + Collections.sort(positionalParametersFields, new > > PositionalParametersSorter()); > > + validatePositionalParameters(positionalParametersFields); > > + > > + if (positionalParametersFields.isEmpty() && > > optionName2Field.isEmpty() && !hasCommandAnnotation) { > > + throw new IllegalArgumentException(command + " (" + > > command.getClass() + > > + ") is not a command: it has no @Command, @Option > > or @Parameters annotations"); > > + } > > + } > > + > > + /** > > + * Entry point into parsing command line arguments. > > + * @param args the command line arguments > > + * @return a list with all commands and subcommands initialized > > by this method > > + * @throws ParameterException if the specified command line > > arguments are invalid > > + */ > > + List<CommandLine> parse(String... args) { > > + Assert.notNull(args, "argument array"); > > + Stack<String> arguments = new Stack<String>(); > > + for (int i = args.length - 1; i >= 0; i--) { > > + arguments.push(args[i]); > > + } > > + List<CommandLine> result = new ArrayList<CommandLine>(); > > + parse(result, arguments, args); > > + return result; > > + } > > + > > + private void parse(List<CommandLine> parsedCommands, > > Stack<String> argumentStack, String[] originalArgs) { > > + // first reset any state in case this CommandLine instance > is > > being reused > > + isHelpRequested = false; > > + CommandLine.this.versionHelpRequested = false; > > + CommandLine.this.usageHelpRequested = false; > > + > > + parsedCommands.add(CommandLine.this); > > + List<Field> required = new ArrayList<Field>( > requiredFields); > > + Set<Field> initialized = new HashSet<Field>(); > > + Collections.sort(required, new > PositionalParametersSorter()); > > + try { > > + processArguments(parsedCommands, argumentStack, > > required, initialized, originalArgs); > > + } catch (ParameterException ex) { > > + throw ex; > > + } catch (Exception ex) { > > + int offendingArgIndex = originalArgs.length - > > argumentStack.size(); > > + String arg = offendingArgIndex >= 0 && offendingArgIndex > > < originalArgs.length ? originalArgs[offendingArgIndex] : "?"; > > + throw ParameterException.create(ex, arg, > > argumentStack.size(), originalArgs); > > + } > > + if (!isAnyHelpRequested() && !required.isEmpty()) { > > + if (required.get(0).isAnnotationPresent(Option.class)) > { > > + throw MissingParameterException.create(required); > > + } else { > > + try { > > + processPositionalParameters0(required, true, > new > > Stack<String>()); > > + } catch (ParameterException ex) { throw ex; > > + } catch (Exception ex) { throw new > > IllegalStateException("Internal error: " + ex, ex); } > > + } > > + } > > + } > > + > > + private void processArguments(List<CommandLine> parsedCommands, > > + Stack<String> args, > > + Collection<Field> required, > > + Set<Field> initialized, > > + String[] originalArgs) throws > > Exception { > > + // arg must be one of: > > + // 1. the "--" double dash separating options from > positional > > arguments > > + // 1. a stand-alone flag, like "-v" or "--verbose": no value > > required, must map to boolean or Boolean field > > + // 2. a short option followed by an argument, like "-f file" > > or "-ffile": may map to any type of field > > + // 3. a long option followed by an argument, like "-file > > out.txt" or "-file=out.txt" > > + // 3. one or more remaining arguments without any associated > > options. Must be the last in the list. > > + // 4. a combination of stand-alone options, like "-vxr". > > Equivalent to "-v -x -r", "-v true -x true -r true" > > + // 5. a combination of stand-alone options and one option > > with an argument, like "-vxrffile" > > + > > + while (!args.isEmpty()) { > > + String arg = args.pop(); > > + > > + // Double-dash separates options from positional > > arguments. > > + // If found, then interpret the remaining args as > > positional parameters. > > + if ("--".equals(arg)) { > > + processPositionalParameters(required, args); > > + return; // we are done > > + } > > + > > + // if we find another command, we are done with the > > current command > > + if (commands.containsKey(arg)) { > > + if (!isHelpRequested && !required.isEmpty()) { // > > ensure current command portion is valid > > + throw MissingParameterException. > create(required); > > + } > > + commands.get(arg).interpreter.parse(parsedCommands, > > args, originalArgs); > > + return; // remainder done by the command > > + } > > + > > + // First try to interpret the argument as a single > option > > (as opposed to a compact group of options). > > + // A single option may be without option parameters, > like > > "-v" or "--verbose" (a boolean value), > > + // or an option may have one or more option parameters. > > + // A parameter may be attached to the option. > > + boolean paramAttachedToOption = false; > > + int separatorIndex = arg.indexOf(separator); > > + if (separatorIndex > 0) { > > + String key = arg.substring(0, separatorIndex); > > + // be greedy. Consume the whole arg as an option if > > possible. > > + if (optionName2Field.containsKey(key) && > > !optionName2Field.containsKey(arg)) { > > + paramAttachedToOption = true; > > + String optionParam = > arg.substring(separatorIndex > > + separator.length()); > > + args.push(optionParam); > > + arg = key; > > + } > > + } > > + if (optionName2Field.containsKey(arg)) { > > + processStandaloneOption(required, initialized, arg, > > args, paramAttachedToOption); > > + } > > + // Compact (single-letter) options can be grouped with > > other options or with an argument. > > + // only single-letter options can be combined with other > > options or with an argument > > + else if (arg.length() > 2 && arg.startsWith("-")) { > > + processClusteredShortOptions(required, initialized, > > arg, args); > > + } > > + // The argument could not be interpreted as an option. > > + // We take this to mean that the remainder are > positional > > arguments > > + else { > > + args.push(arg); > > + processPositionalParameters(required, args); > > + return; > > + } > > + } > > + } > > + > > + private void processPositionalParameters(Collection<Field> > > required, Stack<String> args) throws Exception { > > + processPositionalParameters0(required, false, args); > > + if (!args.empty()) { > > + handleUnmatchedArguments(args); > > + return; > > + }; > > + } > > + > > + private void handleUnmatchedArguments(Stack<String> args) { > > + if (!isUnmatchedArgumentsAllowed()) { throw new > > UnmatchedArgumentException(args); } > > + while (!args.isEmpty()) { unmatchedArguments.add(args. > pop()); > > } // addAll would give args in reverse order > > + } > > + > > + private void processPositionalParameters0(Collection<Field> > > required, boolean validateOnly, Stack<String> args) throws Exception { > > + int max = -1; > > + for (Field positionalParam : positionalParametersFields) { > > + Range indexRange = Range.parameterIndex( > positionalParam); > > + max = Math.max(max, indexRange.max); > > + @SuppressWarnings("unchecked") > > + Stack<String> argsCopy = reverse((Stack<String>) > > args.clone()); > > + if (!indexRange.isVariable) { > > + for (int i = argsCopy.size() - 1; i > > indexRange.max; > > i--) { > > + argsCopy.removeElementAt(i); > > + } > > + } > > + Collections.reverse(argsCopy); > > + for (int i = 0; i < indexRange.min && > > !argsCopy.isEmpty(); i++) { argsCopy.pop(); } > > + Range arity = Range.parameterArity(positionalParam); > > + assertNoMissingParameters(positionalParam, arity.min, > > argsCopy); > > + if (!validateOnly) { > > + applyOption(positionalParam, Parameters.class, > arity, > > false, argsCopy, null); > > + required.remove(positionalParam); > > + } > > + } > > + // remove processed args from the stack > > + if (!validateOnly && !positionalParametersFields.isEmpty()) > { > > + int processedArgCount = Math.min(args.size(), max < > > Integer.MAX_VALUE ? max + 1 : Integer.MAX_VALUE); > > + for (int i = 0; i < processedArgCount; i++) { > args.pop(); > > } > > + } > > + } > > + > > + private void processStandaloneOption(Collection<Field> > required, > > + Set<Field> initialized, > > + String arg, > > + Stack<String> args, > > + boolean paramAttachedToKey) > > throws Exception { > > + Field field = optionName2Field.get(arg); > > + required.remove(field); > > + Range arity = Range.optionArity(field); > > + if (paramAttachedToKey) { > > + arity = arity.min(Math.max(1, arity.min)); // if > > key=value, minimum arity is at least 1 > > + } > > + applyOption(field, Option.class, arity, paramAttachedToKey, > > args, initialized); > > + } > > + > > + private void processClusteredShortOptions(Collection<Field> > > required, > > + Set<Field> > initialized, > > + String arg, > > + Stack<String> args) > > + throws Exception { > > + String prefix = arg.substring(0, 1); > > + String cluster = arg.substring(1); > > + boolean paramAttachedToOption = true; > > + do { > > + if (cluster.length() > 0 && singleCharOption2Field. > > containsKey(cluster.charAt(0))) { > > + Field field = singleCharOption2Field.get( > > cluster.charAt(0)); > > + required.remove(field); > > + cluster = cluster.length() > 0 ? > cluster.substring(1) > > : ""; > > + paramAttachedToOption = cluster.length() > 0; > > + Range arity = Range.optionArity(field); > > + if (cluster.startsWith(separator)) {// attached > with > > separator, like -f=FILE or -v=true > > + cluster = cluster.substring(separator. > length()); > > + arity = arity.min(Math.max(1, arity.min)); // if > > key=value, minimum arity is at least 1 > > + } > > + args.push(cluster); // interpret remainder as option > > parameter (CAUTION: may be empty string!) > > + // arity may be >= 1, or > > + // arity <= 0 && !cluster.startsWith(separator) > > + // e.g., boolean @Option("-v", arity=0, > > varargs=true); arg "-rvTRUE", remainder cluster="TRUE" > > + int consumed = applyOption(field, Option.class, > > arity, paramAttachedToOption, args, initialized); > > + // only return if cluster (and maybe more) was > > consumed, otherwise continue do-while loop > > + if (consumed > 0) { > > + return; > > + } > > + cluster = args.pop(); > > + } else { // cluster is empty || cluster.charAt(0) is not > > a short option key > > + if (cluster.length() == 0) { // we finished parsing > a > > group of short options like -rxv > > + return; // return normally and parse the next > arg > > + } > > + // We get here when the remainder of the cluster > > group is neither an option, > > + // nor a parameter that the last option could > consume. > > + if (arg.endsWith(cluster)) { > > + // remainder was part of a clustered group that > > could not be completely parsed > > + args.push(paramAttachedToOption ? prefix + > > cluster : cluster); > > + handleUnmatchedArguments(args); > > + } > > + args.push(cluster); > > + processPositionalParameters(required, args); > > + return; > > + } > > + } while (true); > > + } > > + > > + private int applyOption(Field field, > > + Class<?> annotation, > > + Range arity, > > + boolean valueAttachedToOption, > > + Stack<String> args, > > + Set<Field> initialized) throws > Exception { > > + updateHelpRequested(field); > > + if (!args.isEmpty() && args.peek().length() == 0 && !v > > > > <TRUNCATED> > > > -- Matt Sicker <[email protected]>
