picocli.AutoComplete Maven / Gradle / Ivy
Go to download
Show more of this group Show more artifacts with this name
Show all versions of picocli Show documentation
Show all versions of picocli Show documentation
Java command line parser with both an annotations API and a programmatic API. Usage help with ANSI styles and colors. Autocomplete. Nested subcommands. Easily included as source to avoid adding a dependency.
/*
Copyright 2017 Remko Popma
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;
import java.io.File;
import java.io.FileWriter;
import java.io.IOException;
import java.io.Writer;
import java.net.InetAddress;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.LinkedHashMap;
import java.util.List;
import java.util.Map;
import picocli.CommandLine.Command;
import picocli.CommandLine.Model.PositionalParamSpec;
import picocli.CommandLine.Option;
import picocli.CommandLine.Parameters;
import picocli.CommandLine.Model.ArgSpec;
import picocli.CommandLine.Model.CommandSpec;
import picocli.CommandLine.Model.OptionSpec;
import picocli.CommandLine.ParseResult;
import static java.lang.String.*;
/**
* Stand-alone tool that generates bash auto-complete scripts for picocli-based command line applications.
*/
public class AutoComplete {
private AutoComplete() { }
/**
* Generates a bash completion script for the specified command class.
* @param args command line options. Specify at least the {@code commandLineFQCN} mandatory parameter, which is
* the fully qualified class name of the annotated {@code @Command} class to generate a completion script for.
* Other parameters are optional. Specify {@code -h} to see details on the available options.
*/
public static void main(String... args) { CommandLine.run(new App(), System.err, args); }
/**
* CLI command class for generating completion script.
*/
@Command(name = "picocli.AutoComplete", sortOptions = false,
description = "Generates a bash completion script for the specified command class.")
private static class App implements Runnable {
@Parameters(arity = "1", description = "Fully qualified class name of the annotated " +
"@Command class to generate a completion script for.")
String commandLineFQCN;
@Option(names = {"-n", "--name"}, description = "Name of the command to create a completion script for. " +
"When omitted, the annotated class @Command 'name' attribute is used. " +
"If no @Command 'name' attribute exists, '' (in lower-case) is used.")
String commandName;
@Option(names = {"-o", "--completionScript"},
description = "Path of the completion script file to generate. " +
"When omitted, a file named '_completion' " +
"is generated in the current directory.")
File autoCompleteScript;
@Option(names = {"-w", "--writeCommandScript"},
description = "Write a '' sample command script to the same directory " +
"as the completion script.")
boolean writeCommandScript;
@Option(names = {"-f", "--force"}, description = "Overwrite existing script files.")
boolean overwriteIfExists;
@Option(names = { "-h", "--help"}, usageHelp = true, description = "Display this help message and quit.")
boolean usageHelpRequested;
public void run() {
try {
Class cls = Class.forName(commandLineFQCN);
Object instance = CommandLine.defaultFactory().create(cls);
CommandLine commandLine = new CommandLine(instance);
if (commandName == null) {
commandName = commandLine.getCommandName(); //new CommandLine.Help(commandLine.commandDescriptor).commandName;
if (CommandLine.Help.DEFAULT_COMMAND_NAME.equals(commandName)) {
commandName = cls.getSimpleName().toLowerCase();
}
}
if (autoCompleteScript == null) {
autoCompleteScript = new File(commandName + "_completion");
}
File commandScript = null;
if (writeCommandScript) {
commandScript = new File(autoCompleteScript.getAbsoluteFile().getParentFile(), commandName);
}
if (commandScript != null && !overwriteIfExists && checkExists(commandScript)) { return; }
if (!overwriteIfExists && checkExists(autoCompleteScript)) { return; }
AutoComplete.bash(commandName, autoCompleteScript, commandScript, commandLine);
} catch (Exception ex) {
ex.printStackTrace();
CommandLine.usage(new App(), System.err);
}
}
private boolean checkExists(final File file) {
if (file.exists()) {
System.err.println(file.getAbsolutePath() + " exists. Specify -f to overwrite.");
CommandLine.usage(this, System.err);
return true;
}
return false;
}
}
private static interface Function {
V apply(T t);
}
/**
* Drops all characters that are not valid for bash function and identifier names.
*/
private static class Bashify implements Function {
public String apply(CharSequence value) {
return bashify(value);
}
}
private static String bashify(CharSequence value) {
StringBuilder builder = new StringBuilder();
for (int i = 0; i < value.length(); i++) {
char c = value.charAt(i);
if (Character.isLetterOrDigit(c) || c == '_') {
builder.append(c);
} else if (Character.isSpaceChar(c)) {
builder.append('_');
}
}
return builder.toString();
}
private static class EnumNameFunction implements Function, String> {
public String apply(final Enum anEnum) {
return anEnum.name();
}
}
private static class NullFunction implements Function {
public String apply(CharSequence value) { return value.toString(); }
}
private static interface Predicate {
boolean test(T t);
}
private static class BooleanArgFilter implements Predicate {
public boolean test(ArgSpec f) {
return f.type() == Boolean.TYPE || f.type() == Boolean.class;
}
}
private static class EnumArgFilter implements Predicate {
public boolean test(ArgSpec f) {
return f.type().isEnum();
}
}
private static class HasCompletions implements Predicate {
public boolean test(ArgSpec f) {
return f.completionCandidates() != null;
}
}
private static Predicate negate(final Predicate original) {
return new Predicate() {
public boolean test(T t) {
return !original.test(t);
}
};
}
private static Predicate and(final Predicate left, final Predicate right) {
return new Predicate() {
public boolean test(T t) {
return left.test(t) && right.test(t);
}
};
}
private static List filter(List list, Predicate filter) {
List result = new ArrayList();
for (T t : list) { if (filter.test(t)) { result.add(t); } }
return result;
}
/** Package-private for tests; consider this class private. */
static class CommandDescriptor {
final String functionName;
final String commandName;
CommandDescriptor(String functionName, String commandName) {
this.functionName = functionName;
this.commandName = commandName;
}
public int hashCode() { return functionName.hashCode() * 37 + commandName.hashCode(); }
public boolean equals(Object obj) {
if (!(obj instanceof CommandDescriptor)) { return false; }
if (obj == this) { return true; }
CommandDescriptor other = (CommandDescriptor) obj;
return other.functionName.equals(functionName) && other.commandName.equals(commandName);
}
}
private static final String HEADER = "" +
"#!/usr/bin/env bash\n" +
"#\n" +
"# %1$s Bash Completion\n" +
"# =======================\n" +
"#\n" +
"# Bash completion support for the `%1$s` command,\n" +
"# generated by [picocli](http://picocli.info/) version %2$s.\n" +
"#\n" +
"# Installation\n" +
"# ------------\n" +
"#\n" +
"# 1. Source all completion scripts in your .bash_profile\n" +
"#\n" +
"# cd $YOUR_APP_HOME/bin\n" +
"# for f in $(find . -name \"*_completion\"); do line=\". $(pwd)/$f\"; grep \"$line\" ~/.bash_profile || echo \"$line\" >> ~/.bash_profile; done\n" +
"#\n" +
"# 2. Open a new bash console, and type `%1$s [TAB][TAB]`\n" +
"#\n" +
"# 1a. Alternatively, if you have [bash-completion](https://github.com/scop/bash-completion) installed:\n" +
"# Place this file in a `bash-completion.d` folder:\n" +
"#\n" +
"# * /etc/bash-completion.d\n" +
"# * /usr/local/etc/bash-completion.d\n" +
"# * ~/bash-completion.d\n" +
"#\n" +
"# Documentation\n" +
"# -------------\n" +
"# The script is called by bash whenever [TAB] or [TAB][TAB] is pressed after\n" +
"# '%1$s (..)'. By reading entered command line parameters,\n" +
"# it determines possible bash completions and writes them to the COMPREPLY variable.\n" +
"# Bash then completes the user input if only one entry is listed in the variable or\n" +
"# shows the options if more than one is listed in COMPREPLY.\n" +
"#\n" +
"# References\n" +
"# ----------\n" +
"# [1] http://stackoverflow.com/a/12495480/1440785\n" +
"# [2] http://tiswww.case.edu/php/chet/bash/FAQ\n" +
"# [3] https://www.gnu.org/software/bash/manual/html_node/The-Shopt-Builtin.html\n" +
"# [4] http://zsh.sourceforge.net/Doc/Release/Options.html#index-COMPLETE_005fALIASES\n" +
"# [5] https://stackoverflow.com/questions/17042057/bash-check-element-in-array-for-elements-in-another-array/17042655#17042655\n" +
"# [6] https://www.gnu.org/software/bash/manual/html_node/Programmable-Completion.html#Programmable-Completion\n" +
"#\n" +
"\n" +
"if [ -n \"$BASH_VERSION\" ]; then\n" +
" # Enable programmable completion facilities when using bash (see [3])\n" +
" shopt -s progcomp\n" +
"elif [ -n \"$ZSH_VERSION\" ]; then\n" +
" # Make alias a distinct command for completion purposes when using zsh (see [4])\n" +
" setopt COMPLETE_ALIASES\n" +
" alias compopt=complete\n" +
"fi\n" +
"\n" +
"# ArrContains takes two arguments, both of which are the name of arrays.\n" +
"# It creates a temporary hash from lArr1 and then checks if all elements of lArr2\n" +
"# are in the hashtable.\n" +
"#\n" +
"# Returns zero (no error) if all elements of the 2nd array are in the 1st array,\n" +
"# otherwise returns 1 (error).\n" +
"#\n" +
"# Modified from [5]\n" +
"function ArrContains() {\n" +
" local lArr1 lArr2\n" +
" declare -A tmp\n" +
" eval lArr1=(\"\\\"\\${$1[@]}\\\"\")\n" +
" eval lArr2=(\"\\\"\\${$2[@]}\\\"\")\n" +
" for i in \"${lArr1[@]}\";{ [ -n \"$i\" ] && ((++tmp[$i]));}\n" +
" for i in \"${lArr2[@]}\";{ [ -n \"$i\" ] && [ -z \"${tmp[$i]}\" ] && return 1;}\n" +
" return 0\n" +
"}\n" +
"\n";
private static final String FOOTER = "" +
"\n" +
"# Define a completion specification (a compspec) for the\n" +
"# `%1$s`, `%1$s.sh`, and `%1$s.bash` commands.\n" +
"# Uses the bash `complete` builtin (see [6]) to specify that shell function\n" +
"# `_complete_%1$s` is responsible for generating possible completions for the\n" +
"# current word on the command line.\n" +
"# The `-o default` option means that if the function generated no matches, the\n" +
"# default Bash completions and the Readline default filename completions are performed.\n" +
"complete -F _complete_%1$s -o default %1$s %1$s.sh %1$s.bash\n";
/**
* Generates source code for an autocompletion bash script for the specified picocli-based application,
* and writes this script to the specified {@code out} file, and optionally writes an invocation script
* to the specified {@code command} file.
* @param scriptName the name of the command to generate a bash autocompletion script for
* @param commandLine the {@code CommandLine} instance for the command line application
* @param out the file to write the autocompletion bash script source code to
* @param command the file to write a helper script to that invokes the command, or {@code null} if no helper script file should be written
* @throws IOException if a problem occurred writing to the specified files
*/
public static void bash(String scriptName, File out, File command, CommandLine commandLine) throws IOException {
String autoCompleteScript = bash(scriptName, commandLine);
Writer completionWriter = null;
Writer scriptWriter = null;
try {
completionWriter = new FileWriter(out);
completionWriter.write(autoCompleteScript);
if (command != null) {
scriptWriter = new FileWriter(command);
scriptWriter.write("" +
"#!/usr/bin/env bash\n" +
"\n" +
"LIBS=path/to/libs\n" +
"CP=\"${LIBS}/myApp.jar\"\n" +
"java -cp \"${CP}\" '" + commandLine.getCommand().getClass().getName() + "' $@");
}
} finally {
if (completionWriter != null) { completionWriter.close(); }
if (scriptWriter != null) { scriptWriter.close(); }
}
}
/**
* Generates and returns the source code for an autocompletion bash script for the specified picocli-based application.
* @param scriptName the name of the command to generate a bash autocompletion script for
* @param commandLine the {@code CommandLine} instance for the command line application
* @return source code for an autocompletion bash script
*/
public static String bash(String scriptName, CommandLine commandLine) {
if (scriptName == null) { throw new NullPointerException("scriptName"); }
if (commandLine == null) { throw new NullPointerException("commandLine"); }
String result = "";
result += format(HEADER, scriptName, CommandLine.VERSION);
Map function2command = new LinkedHashMap();
result += generateEntryPointFunction(scriptName, commandLine, function2command);
for (Map.Entry functionSpec : function2command.entrySet()) {
CommandDescriptor descriptor = functionSpec.getKey();
result += generateFunctionForCommand(descriptor.functionName, descriptor.commandName, functionSpec.getValue());
}
result += format(FOOTER, scriptName);
return result;
}
private static String generateEntryPointFunction(String scriptName,
CommandLine commandLine,
Map function2command) {
String HEADER = "" +
"# Bash completion entry point function.\n" +
"# _complete_%1$s finds which commands and subcommands have been specified\n" +
"# on the command line and delegates to the appropriate function\n" +
"# to generate possible options and subcommands for the last specified subcommand.\n" +
"function _complete_%1$s() {\n" +
// " CMDS1=(%1$s gettingstarted)\n" +
// " CMDS2=(%1$s tool)\n" +
// " CMDS3=(%1$s tool sub1)\n" +
// " CMDS4=(%1$s tool sub2)\n" +
// "\n" +
// " ArrContains COMP_WORDS CMDS4 && { _picocli_basic_tool_sub2; return $?; }\n" +
// " ArrContains COMP_WORDS CMDS3 && { _picocli_basic_tool_sub1; return $?; }\n" +
// " ArrContains COMP_WORDS CMDS2 && { _picocli_basic_tool; return $?; }\n" +
// " ArrContains COMP_WORDS CMDS1 && { _picocli_basic_gettingstarted; return $?; }\n" +
// " _picocli_%1$s; return $?;\n" +
// "}\n" +
// "\n" +
// "complete -F _complete_%1$s %1$s\n" +
// "\n";
"";
String FOOTER = "\n" +
" # No subcommands were specified; generate completions for the top-level command.\n" +
" _picocli_%1$s; return $?;\n" +
"}\n";
StringBuilder buff = new StringBuilder(1024);
buff.append(format(HEADER, scriptName));
List predecessors = new ArrayList();
List functionCallsToArrContains = new ArrayList();
function2command.put(new CommandDescriptor("_picocli_" + scriptName, scriptName), commandLine);
generateFunctionCallsToArrContains(scriptName, predecessors, commandLine, buff, functionCallsToArrContains, function2command);
buff.append("\n");
Collections.reverse(functionCallsToArrContains);
for (String func : functionCallsToArrContains) {
buff.append(func);
}
buff.append(format(FOOTER, scriptName));
return buff.toString();
}
private static void generateFunctionCallsToArrContains(String scriptName,
List predecessors,
CommandLine commandLine,
StringBuilder buff,
List functionCalls,
Map function2command) {
// breadth-first: generate command lists and function calls for predecessors + each subcommand
for (Map.Entry entry : commandLine.getSubcommands().entrySet()) {
int count = functionCalls.size();
String functionName = "_picocli_" + scriptName + "_" + concat("_", predecessors, entry.getKey(), new Bashify());
functionCalls.add(format(" ArrContains COMP_WORDS CMDS%2$d && { %1$s; return $?; }\n", functionName, count));
buff.append( format(" CMDS%2$d=(%1$s)\n", concat(" ", predecessors, entry.getKey(), new NullFunction()), count));
// remember the function name and associated subcommand so we can easily generate a function later
function2command.put(new CommandDescriptor(functionName, entry.getKey()), entry.getValue());
}
// then recursively do the same for all nested subcommands
for (Map.Entry entry : commandLine.getSubcommands().entrySet()) {
predecessors.add(entry.getKey());
generateFunctionCallsToArrContains(scriptName, predecessors, entry.getValue(), buff, functionCalls, function2command);
predecessors.remove(predecessors.size() - 1);
}
}
private static String concat(String infix, String... values) {
return concat(infix, Arrays.asList(values));
}
private static String concat(String infix, List values) {
return concat(infix, values, null, new NullFunction());
}
private static String concat(String infix, List values, T lastValue, Function normalize) {
StringBuilder sb = new StringBuilder();
for (T val : values) {
if (sb.length() > 0) { sb.append(infix); }
sb.append(normalize.apply(val));
}
if (lastValue == null) { return sb.toString(); }
if (sb.length() > 0) { sb.append(infix); }
return sb.append(normalize.apply(lastValue)).toString();
}
private static String generateFunctionForCommand(String functionName, String commandName, CommandLine commandLine) {
String HEADER = "" +
"\n" +
"# Generates completions for the options and subcommands of the `%s` %scommand.\n" +
"function %s() {\n" +
" # Get completion data\n" +
" CURR_WORD=${COMP_WORDS[COMP_CWORD]}\n" +
" PREV_WORD=${COMP_WORDS[COMP_CWORD-1]}\n" +
"\n" +
" COMMANDS=\"%s\"\n" + // COMMANDS="gettingstarted tool"
" FLAG_OPTS=\"%s\"\n" + // FLAG_OPTS="--verbose -V -x --extract -t --list"
" ARG_OPTS=\"%s\"\n"; // ARG_OPTS="--host --option --file -f -u --timeUnit"
String FOOTER = "" +
"\n" +
" COMPREPLY=( $(compgen -W \"${FLAG_OPTS} ${ARG_OPTS} ${COMMANDS}\" -- ${CURR_WORD}) )\n" +
"}\n";
// Get the fields annotated with @Option and @Parameters for the specified CommandLine.
CommandSpec commandSpec = commandLine.getCommandSpec();
// Build a list of "flag" options that take no parameters and "arg" options that do take parameters, and subcommands.
String flagOptionNames = optionNames(filter(commandSpec.options(), new BooleanArgFilter()));
List argOptionFields = filter(commandSpec.options(), negate(new BooleanArgFilter()));
String argOptionNames = optionNames(argOptionFields);
String commands = concat(" ", new ArrayList(commandLine.getSubcommands().keySet())).trim();
// Generate the header: the function declaration, CURR_WORD, PREV_WORD and COMMANDS, FLAG_OPTS and ARG_OPTS.
StringBuilder buff = new StringBuilder(1024);
String sub = functionName.equals("_picocli_" + commandName) ? "" : "sub";
buff.append(format(HEADER, commandName, sub, functionName, commands, flagOptionNames, argOptionNames));
// Generate completion lists for options with a known set of valid values.
// Starting with java enums.
List enumOptions = filter(commandSpec.options(), new EnumArgFilter());
for (OptionSpec f : enumOptions) {
generateEnumCompetionCandidates(buff, f);
}
List optionsWithCompletionCandidates = filter(commandSpec.options(), and(new HasCompletions(), negate(new EnumArgFilter())));
for (OptionSpec f : optionsWithCompletionCandidates) {
generateNonEnumCompetionCandidates(buff, f);
}
// TODO generate completion lists for other option types:
// Charset, Currency, Locale, TimeZone, ByteOrder,
// javax.crypto.Cipher, javax.crypto.KeyGenerator, javax.crypto.Mac, javax.crypto.SecretKeyFactory
// java.security.AlgorithmParameterGenerator, java.security.AlgorithmParameters, java.security.KeyFactory, java.security.KeyPairGenerator, java.security.KeyStore, java.security.MessageDigest, java.security.Signature
// sql.Types?
// Now generate the "case" switches for the options whose arguments we can generate completions for
buff.append(generateOptionsSwitch(argOptionFields, enumOptions));
// Generate the footer: a default COMPREPLY to fall back to, and the function closing brace.
buff.append(format(FOOTER));
return buff.toString();
}
private static void generateEnumCompetionCandidates(StringBuilder buff, OptionSpec f) {
buff.append(format(" %s_OPTION_ARGS=\"%s\" # %s values\n",
bashify(f.paramLabel()),
concat(" ", Arrays.asList((Enum[]) f.type().getEnumConstants()), null, new EnumNameFunction()).trim(),
f.type().getSimpleName()));
}
private static void generateNonEnumCompetionCandidates(StringBuilder buff, OptionSpec f) {
buff.append(format(" %s_OPTION_ARGS=\"%s\" # %s values\n",
bashify(f.paramLabel()),
concat(" ", extract(f.completionCandidates())).trim(),
f.longestName()));
}
private static List extract(Iterable generator) {
List result = new ArrayList();
for (String e : generator) {
result.add(e);
}
return result;
}
private static String generateOptionsSwitch(List argOptions, List enumOptions) {
StringBuilder buff = new StringBuilder(1024);
buff.append("\n");
buff.append(" case ${CURR_WORD} in\n"); // outer case
String outerCases = generateOptionsCases(argOptions, enumOptions, "", "\"\"");
if (outerCases.length() == 0) {
return "";
}
buff.append(outerCases);
buff.append(" *)\n");
buff.append(" case ${PREV_WORD} in\n"); // inner case
buff.append(generateOptionsCases(argOptions, enumOptions, " ", "$CURR_WORD"));
buff.append(" esac\n"); // end inner case
buff.append(" esac\n"); // end outer case
return buff.toString();
}
private static String generateOptionsCases(List argOptionFields, List enumOptions, String indent, String currWord) {
StringBuilder buff = new StringBuilder(1024);
for (OptionSpec option : argOptionFields) {
if (enumOptions.contains(option) || option.completionCandidates() != null) {
buff.append(format("%s %s)\n", indent, concat("|", option.names()))); // " -u|--timeUnit)\n"
buff.append(format("%s COMPREPLY=( $( compgen -W \"${%s_OPTION_ARGS}\" -- %s ) )\n", indent, bashify(option.paramLabel()), currWord));
buff.append(format("%s return $?\n", indent));
buff.append(format("%s ;;\n", indent));
} else if (option.type().equals(File.class) || "java.nio.file.Path".equals(option.type().getName())) {
buff.append(format("%s %s)\n", indent, concat("|", option.names()))); // " -f|--file)\n"
buff.append(format("%s compopt -o filenames\n", indent));
buff.append(format("%s COMPREPLY=( $( compgen -f -- %s ) ) # files\n", indent, currWord));
buff.append(format("%s return $?\n", indent));
buff.append(format("%s ;;\n", indent));
} else if (option.type().equals(InetAddress.class)) {
buff.append(format("%s %s)\n", indent, concat("|", option.names()))); // " -h|--host)\n"
buff.append(format("%s compopt -o filenames\n", indent));
buff.append(format("%s COMPREPLY=( $( compgen -A hostname -- %s ) )\n", indent, currWord));
buff.append(format("%s return $?\n", indent));
buff.append(format("%s ;;\n", indent));
}
}
return buff.toString();
}
private static String optionNames(List options) {
List result = new ArrayList();
for (OptionSpec option : options) {
result.addAll(Arrays.asList(option.names()));
}
return concat(" ", result, "", new NullFunction()).trim();
}
public static int complete(CommandSpec spec, String[] args, int argIndex, int positionInArg, int cursor, List candidates) {
if (spec == null) { throw new NullPointerException("spec is null"); }
if (args == null) { throw new NullPointerException("args is null"); }
if (candidates == null) { throw new NullPointerException("candidates list is null"); }
if (argIndex == args.length) {
String[] copy = new String[args.length + 1];
System.arraycopy(args, 0, copy, 0, args.length);
args = copy;
args[argIndex] = "";
}
if (argIndex < 0 || argIndex >= args.length) { throw new IllegalArgumentException("Invalid argIndex " + argIndex + ": args array only has " + args.length + " elements."); }
if (positionInArg < 0 || positionInArg > args[argIndex].length()) { throw new IllegalArgumentException("Invalid positionInArg " + positionInArg + ": args[" + argIndex + "] (" + args[argIndex] + ") only has " + args[argIndex].length() + " characters."); }
boolean reset = spec.parser().collectErrors();
try {
String committedPrefix = args[argIndex].substring(0, positionInArg);
spec.parser().collectErrors(true);
CommandLine parser = new CommandLine(spec);
ParseResult parseResult = parser.parseArgs(args);
if (argIndex >= parseResult.tentativeMatch.size()) {
Object startPoint = findCompletionStartPoint(parseResult);
addCandidatesForArgsFollowing(startPoint, candidates);
} else {
Object obj = parseResult.tentativeMatch.get(argIndex);
if (obj instanceof CommandSpec) { // subcommand
addCandidatesForArgsFollowing(((CommandSpec) obj).parent(), candidates);
} else if (obj instanceof OptionSpec) { // option
int sep = args[argIndex].indexOf(spec.parser().separator());
if (sep < 0 || positionInArg < sep) { // no '=' or cursor before '='
addCandidatesForArgsFollowing(findCommandFor((OptionSpec) obj, spec), candidates);
} else {
committedPrefix = args[argIndex].substring(sep + 1, positionInArg);
addCandidatesForArgsFollowing((OptionSpec) obj, candidates);
}
} else if (obj instanceof PositionalParamSpec) { // positional
addCandidatesForArgsFollowing(findCommandFor((PositionalParamSpec) obj, spec), candidates);
} else {
int i = argIndex - 1;
while (i > 0 && !isPicocliModelObject(parseResult.tentativeMatch.get(i))) {i--;}
if (i < 0) { return -1; }
addCandidatesForArgsFollowing(parseResult.tentativeMatch.get(i), candidates);
}
}
filterAndTrimMatchingPrefix(committedPrefix, candidates);
return candidates.isEmpty() ? -1 : cursor;
} finally {
spec.parser().collectErrors(reset);
}
}
private static Object findCompletionStartPoint(ParseResult parseResult) {
List