// Copyright 2014 The Bazel Authors. All rights reserved.
//
// 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 com.google.devtools.common.options;
import com.google.common.base.Function;
import com.google.common.base.Functions;
import com.google.common.base.Joiner;
import com.google.common.base.Preconditions;
import com.google.common.collect.ImmutableList;
import com.google.common.collect.Lists;
import com.google.common.collect.Maps;
import java.lang.reflect.Field;
import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collection;
import java.util.Collections;
import java.util.Comparator;
import java.util.List;
import java.util.Map;
/**
* A parser for options. Typical use case in a main method:
*
*
* OptionsParser parser = OptionsParser.newOptionsParser(FooOptions.class, BarOptions.class);
* parser.parseAndExitUponError(args);
* FooOptions foo = parser.getOptions(FooOptions.class);
* BarOptions bar = parser.getOptions(BarOptions.class);
* List<String> otherArguments = parser.getResidue();
*
*
* FooOptions and BarOptions would be options specification classes, derived
* from OptionsBase, that contain fields annotated with @Option(...).
*
*
Alternatively, rather than calling
* {@link #parseAndExitUponError(OptionPriority, String, String[])},
* client code may call {@link #parse(OptionPriority,String,List)}, and handle
* parser exceptions usage messages themselves.
*
*
This options parsing implementation has (at least) one design flaw. It
* allows both '--foo=baz' and '--foo baz' for all options except void, boolean
* and tristate options. For these, the 'baz' in '--foo baz' is not treated as
* a parameter to the option, making it is impossible to switch options between
* void/boolean/tristate and everything else without breaking backwards
* compatibility.
*
* @see Options a simpler class which you can use if you only have one options
* specification class
*/
public class OptionsParser implements OptionsProvider {
/**
* A cache for the parsed options data. Both keys and values are immutable, so
* this is always safe. Only access this field through the {@link
* #getOptionsData} method for thread-safety! The cache is very unlikely to
* grow to a significant amount of memory, because there's only a fixed set of
* options classes on the classpath.
*/
private static final Map>, OptionsData> optionsData =
Maps.newHashMap();
private static synchronized OptionsData getOptionsData(
ImmutableList> optionsClasses) {
OptionsData result = optionsData.get(optionsClasses);
if (result == null) {
result = OptionsData.of(optionsClasses);
optionsData.put(optionsClasses, result);
}
return result;
}
/**
* Returns all the annotated fields for the given class, including inherited
* ones.
*/
static Collection getAllAnnotatedFields(Class optionsClass) {
OptionsData data = getOptionsData(ImmutableList.>of(optionsClass));
return data.getFieldsForClass(optionsClass);
}
/**
* @see #newOptionsParser(Iterable)
*/
public static OptionsParser newOptionsParser(Class class1) {
return newOptionsParser(ImmutableList.>of(class1));
}
/**
* @see #newOptionsParser(Iterable)
*/
public static OptionsParser newOptionsParser(Class class1,
Class class2) {
return newOptionsParser(ImmutableList.of(class1, class2));
}
/**
* Create a new {@link OptionsParser}.
*/
public static OptionsParser newOptionsParser(
Iterable> optionsClasses) {
return new OptionsParser(getOptionsData(ImmutableList.copyOf(optionsClasses)));
}
/**
* Canonicalizes a list of options using the given option classes. The
* contract is that if the returned set of options is passed to an options
* parser with the same options classes, then that will have the same effect
* as using the original args (which are passed in here), except for cosmetic
* differences.
*/
public static List canonicalize(
Collection> optionsClasses, List args)
throws OptionsParsingException {
OptionsParser parser = new OptionsParser(optionsClasses);
parser.setAllowResidue(false);
parser.parse(args);
return parser.impl.asCanonicalizedList();
}
private final OptionsParserImpl impl;
private final List residue = new ArrayList();
private boolean allowResidue = true;
OptionsParser(Collection> optionsClasses) {
this(OptionsData.of(optionsClasses));
}
OptionsParser(OptionsData optionsData) {
impl = new OptionsParserImpl(optionsData);
}
/**
* Indicates whether or not the parser will allow a non-empty residue; that
* is, iff this value is true then a call to one of the {@code parse}
* methods will throw {@link OptionsParsingException} unless
* {@link #getResidue()} is empty after parsing.
*/
public void setAllowResidue(boolean allowResidue) {
this.allowResidue = allowResidue;
}
/**
* Indicates whether or not the parser will allow long options with a
* single-dash, instead of the usual double-dash, too, eg. -example instead of just --example.
*/
public void setAllowSingleDashLongOptions(boolean allowSingleDashLongOptions) {
this.impl.setAllowSingleDashLongOptions(allowSingleDashLongOptions);
}
public void parseAndExitUponError(String[] args) {
parseAndExitUponError(OptionPriority.COMMAND_LINE, "unknown", args);
}
/**
* A convenience function for use in main methods. Parses the command line
* parameters, and exits upon error. Also, prints out the usage message
* if "--help" appears anywhere within {@code args}.
*/
public void parseAndExitUponError(OptionPriority priority, String source, String[] args) {
try {
parse(priority, source, Arrays.asList(args));
} catch (OptionsParsingException e) {
System.err.println("Error parsing command line: " + e.getMessage());
System.err.println("Try --help.");
System.exit(2);
}
for (String arg : args) {
if (arg.equals("--help")) {
System.out.println(describeOptions(Collections.emptyMap(),
HelpVerbosity.LONG));
System.exit(0);
}
}
}
/**
* The metadata about an option.
*/
public static final class OptionDescription {
private final String name;
private final Object defaultValue;
private final Converter converter;
private final boolean allowMultiple;
public OptionDescription(String name, Object defaultValue, Converter converter,
boolean allowMultiple) {
this.name = name;
this.defaultValue = defaultValue;
this.converter = converter;
this.allowMultiple = allowMultiple;
}
public String getName() {
return name;
}
public Object getDefaultValue() {
return defaultValue;
}
public Converter getConverter() {
return converter;
}
public boolean getAllowMultiple() {
return allowMultiple;
}
}
/**
* The name and value of an option with additional metadata describing its
* priority, source, whether it was set via an implicit dependency, and if so,
* by which other option.
*/
public static class OptionValueDescription {
private final String name;
private final Object value;
private final OptionPriority priority;
private final String source;
private final String implicitDependant;
private final String expandedFrom;
public OptionValueDescription(String name, Object value,
OptionPriority priority, String source, String implicitDependant, String expandedFrom) {
this.name = name;
this.value = value;
this.priority = priority;
this.source = source;
this.implicitDependant = implicitDependant;
this.expandedFrom = expandedFrom;
}
public String getName() {
return name;
}
public Object getValue() {
return value;
}
/**
* @return the priority of the thing that set this value for this flag
*/
public OptionPriority getPriority() {
return priority;
}
/**
* @return the thing that set this value for this flag
*/
public String getSource() {
return source;
}
public String getImplicitDependant() {
return implicitDependant;
}
public boolean isImplicitDependency() {
return implicitDependant != null;
}
public String getExpansionParent() {
return expandedFrom;
}
public boolean isExpansion() {
return expandedFrom != null;
}
@Override
public String toString() {
StringBuilder result = new StringBuilder();
result.append("option '").append(name).append("' ");
result.append("set to '").append(value).append("' ");
result.append("with priority ").append(priority);
if (source != null) {
result.append(" and source '").append(source).append("'");
}
if (implicitDependant != null) {
result.append(" implicitly by ");
}
return result.toString();
}
}
/**
* The name and unparsed value of an option with additional metadata describing its
* priority, source, whether it was set via an implicit dependency, and if so,
* by which other option.
*
* Note that the unparsed value and the source parameters can both be null.
*/
public static class UnparsedOptionValueDescription {
private final String name;
private final Field field;
private final String unparsedValue;
private final OptionPriority priority;
private final String source;
private final boolean explicit;
public UnparsedOptionValueDescription(String name, Field field, String unparsedValue,
OptionPriority priority, String source, boolean explicit) {
this.name = name;
this.field = field;
this.unparsedValue = unparsedValue;
this.priority = priority;
this.source = source;
this.explicit = explicit;
}
public String getName() {
return name;
}
Field getField() {
return field;
}
public boolean isBooleanOption() {
return field.getType().equals(boolean.class);
}
private DocumentationLevel documentationLevel() {
Option option = field.getAnnotation(Option.class);
return OptionsParser.documentationLevel(option.category());
}
public boolean isDocumented() {
return documentationLevel() == DocumentationLevel.DOCUMENTED;
}
public boolean isHidden() {
return documentationLevel() == DocumentationLevel.HIDDEN;
}
boolean isExpansion() {
Option option = field.getAnnotation(Option.class);
return option.expansion().length > 0;
}
boolean isImplicitRequirement() {
Option option = field.getAnnotation(Option.class);
return option.implicitRequirements().length > 0;
}
boolean allowMultiple() {
Option option = field.getAnnotation(Option.class);
return option.allowMultiple();
}
public String getUnparsedValue() {
return unparsedValue;
}
OptionPriority getPriority() {
return priority;
}
public String getSource() {
return source;
}
public boolean isExplicit() {
return explicit;
}
@Override
public String toString() {
StringBuilder result = new StringBuilder();
result.append("option '").append(name).append("' ");
result.append("set to '").append(unparsedValue).append("' ");
result.append("with priority ").append(priority);
if (source != null) {
result.append(" and source '").append(source).append("'");
}
return result.toString();
}
}
/**
* The verbosity with which option help messages are displayed: short (just
* the name), medium (name, type, default, abbreviation), and long (full
* description).
*/
public enum HelpVerbosity { LONG, MEDIUM, SHORT }
/**
* The level of documentation. Only documented options are output as part of
* the help.
*
*
We use 'hidden' so that options that form the protocol between the
* client and the server are not logged.
*/
enum DocumentationLevel {
DOCUMENTED, UNDOCUMENTED, HIDDEN
}
/**
* Returns a description of all the options this parser can digest.
* In addition to {@link Option} annotations, this method also
* interprets {@link OptionsUsage} annotations which give an intuitive short
* description for the options.
*
* @param categoryDescriptions a mapping from category names to category
* descriptions. Options of the same category (see {@link
* Option#category}) will be grouped together, preceded by the description
* of the category.
* @param helpVerbosity if {@code long}, the options will be described
* verbosely, including their types, defaults and descriptions. If {@code
* medium}, the descriptions are omitted, and if {@code short}, the options
* are just enumerated.
*/
public String describeOptions(Map categoryDescriptions,
HelpVerbosity helpVerbosity) {
StringBuilder desc = new StringBuilder();
if (!impl.getOptionsClasses().isEmpty()) {
List allFields = Lists.newArrayList();
for (Class optionsClass : impl.getOptionsClasses()) {
allFields.addAll(impl.getAnnotatedFieldsFor(optionsClass));
}
Collections.sort(allFields, OptionsUsage.BY_CATEGORY);
String prevCategory = null;
for (Field optionField : allFields) {
String category = optionField.getAnnotation(Option.class).category();
if (!category.equals(prevCategory)) {
prevCategory = category;
String description = categoryDescriptions.get(category);
if (description == null) {
description = "Options category '" + category + "'";
}
if (documentationLevel(category) == DocumentationLevel.DOCUMENTED) {
desc.append("\n").append(description).append(":\n");
}
}
if (documentationLevel(prevCategory) == DocumentationLevel.DOCUMENTED) {
OptionsUsage.getUsage(optionField, desc, helpVerbosity);
}
}
}
return desc.toString().trim();
}
/**
* Returns a string listing the possible flag completion for this command along with the command
* completion if any. See {@link OptionsUsage#getCompletion(Field, StringBuilder)} for more
* details on the format for the flag completion.
*/
public String getOptionsCompletion() {
StringBuilder desc = new StringBuilder();
// List all options
List allFields = Lists.newArrayList();
for (Class optionsClass : impl.getOptionsClasses()) {
allFields.addAll(impl.getAnnotatedFieldsFor(optionsClass));
}
// Sort field for deterministic ordering
Collections.sort(allFields, new Comparator() {
@Override
public int compare(Field f1, Field f2) {
String name1 = f1.getAnnotation(Option.class).name();
String name2 = f2.getAnnotation(Option.class).name();
return name1.compareTo(name2);
}
});
for (Field optionField : allFields) {
String category = optionField.getAnnotation(Option.class).category();
if (documentationLevel(category) == DocumentationLevel.DOCUMENTED) {
OptionsUsage.getCompletion(optionField, desc);
}
}
return desc.toString();
}
/**
* Returns a description of the option.
*
* @return The {@link OptionValueDescription} for the option, or null if there is no option by
* the given name.
*/
public OptionDescription getOptionDescription(String name) {
return impl.getOptionDescription(name);
}
/**
* Returns a description of the option value set by the last previous call to
* {@link #parse(OptionPriority, String, List)} that successfully set the given
* option. If the option is of type {@link List}, the description will
* correspond to any one of the calls, but not necessarily the last.
*
* @return The {@link OptionValueDescription} for the option, or null if the value has not been
* set.
* @throws IllegalArgumentException if there is no option by the given name.
*/
public OptionValueDescription getOptionValueDescription(String name) {
return impl.getOptionValueDescription(name);
}
static DocumentationLevel documentationLevel(String category) {
if ("undocumented".equals(category)) {
return DocumentationLevel.UNDOCUMENTED;
} else if ("hidden".equals(category)) {
return DocumentationLevel.HIDDEN;
} else {
return DocumentationLevel.DOCUMENTED;
}
}
/**
* A convenience method, equivalent to
* {@code parse(OptionPriority.COMMAND_LINE, null, Arrays.asList(args))}.
*/
public void parse(String... args) throws OptionsParsingException {
parse(OptionPriority.COMMAND_LINE, (String) null, Arrays.asList(args));
}
/**
* A convenience method, equivalent to
* {@code parse(OptionPriority.COMMAND_LINE, null, args)}.
*/
public void parse(List args) throws OptionsParsingException {
parse(OptionPriority.COMMAND_LINE, (String) null, args);
}
/**
* Parses {@code args}, using the classes registered with this parser.
* {@link #getOptions(Class)} and {@link #getResidue()} return the results.
* May be called multiple times; later options override existing ones if they
* have equal or higher priority. The source of options is a free-form string
* that can be used for debugging. Strings that cannot be parsed as options
* accumulates as residue, if this parser allows it.
*
* @see OptionPriority
*/
public void parse(OptionPriority priority, String source,
List args) throws OptionsParsingException {
parseWithSourceFunction(priority, Functions.constant(source), args);
}
/**
* Parses {@code args}, using the classes registered with this parser.
* {@link #getOptions(Class)} and {@link #getResidue()} return the results. May be called
* multiple times; later options override existing ones if they have equal or higher priority.
* The source of options is given as a function that maps option names to the source of the
* option. Strings that cannot be parsed as options accumulates as* residue, if this parser
* allows it.
*/
public void parseWithSourceFunction(OptionPriority priority,
Function sourceFunction, List args)
throws OptionsParsingException {
Preconditions.checkNotNull(priority);
Preconditions.checkArgument(priority != OptionPriority.DEFAULT);
residue.addAll(impl.parse(priority, sourceFunction, args));
if (!allowResidue && !residue.isEmpty()) {
String errorMsg = "Unrecognized arguments: " + Joiner.on(' ').join(residue);
throw new OptionsParsingException(errorMsg);
}
}
/**
* Clears the given option. Also clears expansion arguments and implicit requirements for that
* option.
*
* This will not affect options objects that have already been retrieved from this parser
* through {@link #getOptions(Class)}.
*
* @param optionName The full name of the option to clear.
* @return A map of an option name to the old value of the options that were cleared.
* @throws IllegalArgumentException If the flag does not exist.
*/
public Map clearValue(String optionName) {
Map clearedValues = Maps.newHashMap();
impl.clearValue(optionName, clearedValues);
return clearedValues;
}
@Override
public List getResidue() {
return ImmutableList.copyOf(residue);
}
/**
* Returns a list of warnings about problems encountered by previous parse calls.
*/
public List getWarnings() {
return impl.getWarnings();
}
@Override
public O getOptions(Class optionsClass) {
return impl.getParsedOptions(optionsClass);
}
@Override
public boolean containsExplicitOption(String name) {
return impl.containsExplicitOption(name);
}
@Override
public List asListOfUnparsedOptions() {
return impl.asListOfUnparsedOptions();
}
@Override
public List asListOfExplicitOptions() {
return impl.asListOfExplicitOptions();
}
@Override
public List asListOfEffectiveOptions() {
return impl.asListOfEffectiveOptions();
}
}