// Copyright 2017 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.devtools.common.options.OptionsParser.ConstructionException;
import java.lang.reflect.Constructor;
import java.lang.reflect.Field;
import java.lang.reflect.ParameterizedType;
import java.lang.reflect.Type;
import java.util.Collections;
import java.util.Comparator;
/**
* Everything the {@link OptionsParser} needs to know about how an option is defined.
*
* <p>An {@code OptionDefinition} is effectively a wrapper around the {@link Option} annotation and
* the {@link Field} that is annotated, and should contain all logic about default settings and
* behavior.
*/
public class OptionDefinition implements Comparable<OptionDefinition> {
// TODO(b/65049598) make ConstructionException checked, which will make this checked as well.
static class NotAnOptionException extends ConstructionException {
NotAnOptionException(Field field) {
super(
"The field "
+ field.getName()
+ " does not have the right annotation to be considered an option.");
}
}
/**
* If the {@code field} is annotated with the appropriate @{@link Option} annotation, returns the
* {@code OptionDefinition} for that option. Otherwise, throws a {@link NotAnOptionException}.
*
* <p>These values are cached in the {@link OptionsData} layer and should be accessed through
* {@link OptionsParser#getOptionDefinitions(Class)}.
*/
static OptionDefinition extractOptionDefinition(Field field) {
Option annotation = field == null ? null : field.getAnnotation(Option.class);
if (annotation == null) {
throw new NotAnOptionException(field);
}
return new OptionDefinition(field, annotation);
}
private final Field field;
private final Option optionAnnotation;
private Converter<?> converter = null;
private Object defaultValue = null;
private OptionDefinition(Field field, Option optionAnnotation) {
this.field = field;
this.optionAnnotation = optionAnnotation;
}
/** Returns the underlying {@code field} for this {@code OptionDefinition}. */
public Field getField() {
return field;
}
/**
* Returns the name of the option ("--name").
*
* <p>Labelled "Option" name to distinguish it from the field's name.
*/
public String getOptionName() {
return optionAnnotation.name();
}
/** The single-character abbreviation of the option ("-a"). */
public char getAbbreviation() {
return optionAnnotation.abbrev();
}
/** {@link Option#help()} */
public String getHelpText() {
return optionAnnotation.help();
}
/** {@link Option#valueHelp()} */
public String getValueTypeHelpText() {
return optionAnnotation.valueHelp();
}
/** {@link Option#defaultValue()} */
public String getUnparsedDefaultValue() {
return optionAnnotation.defaultValue();
}
/** {@link Option#category()} */
public String getOptionCategory() {
return optionAnnotation.category();
}
/** {@link Option#documentationCategory()} */
public OptionDocumentationCategory getDocumentationCategory() {
return optionAnnotation.documentationCategory();
}
/** {@link Option#effectTags()} */
public OptionEffectTag[] getOptionEffectTags() {
return optionAnnotation.effectTags();
}
/** {@link Option#metadataTags()} */
public OptionMetadataTag[] getOptionMetadataTags() {
return optionAnnotation.metadataTags();
}
/** {@link Option#converter()} ()} */
@SuppressWarnings({"rawtypes"})
public Class<? extends Converter> getProvidedConverter() {
return optionAnnotation.converter();
}
/** {@link Option#allowMultiple()} */
public boolean allowsMultiple() {
return optionAnnotation.allowMultiple();
}
/** {@link Option#expansion()} */
public String[] getOptionExpansion() {
return optionAnnotation.expansion();
}
/** {@link Option#expansionFunction()} ()} */
Class<? extends ExpansionFunction> getExpansionFunction() {
return optionAnnotation.expansionFunction();
}
/** {@link Option#implicitRequirements()} ()} */
public String[] getImplicitRequirements() {
return optionAnnotation.implicitRequirements();
}
/** {@link Option#deprecationWarning()} ()} */
public String getDeprecationWarning() {
return optionAnnotation.deprecationWarning();
}
/** {@link Option#oldName()} ()} ()} */
public String getOldOptionName() {
return optionAnnotation.oldName();
}
/** {@link Option#wrapperOption()} ()} ()} */
public boolean isWrapperOption() {
return optionAnnotation.wrapperOption();
}
/** Returns whether an option --foo has a negative equivalent --nofoo. */
public boolean hasNegativeOption() {
return getType().equals(boolean.class) || getType().equals(TriState.class);
}
/** The type of the optionDefinition. */
public Class<?> getType() {
return field.getType();
}
/** Whether this field has type Void. */
boolean isVoidField() {
return getType().equals(Void.class);
}
public boolean isSpecialNullDefault() {
return getUnparsedDefaultValue().equals("null") && !getType().isPrimitive();
}
/** Returns whether the arg is an expansion option. */
public boolean isExpansionOption() {
return (getOptionExpansion().length > 0 || usesExpansionFunction());
}
/** Returns whether the arg is an expansion option. */
public boolean hasImplicitRequirements() {
return (getImplicitRequirements().length > 0);
}
/**
* Returns whether the arg is an expansion option defined by an expansion function (and not a
* constant expansion value).
*/
public boolean usesExpansionFunction() {
return getExpansionFunction() != ExpansionFunction.class;
}
/**
* For an option that does not use {@link Option#allowMultiple}, returns its type. For an option
* that does use it, asserts that the type is a {@code List<T>} and returns its element type
* {@code T}.
*/
Type getFieldSingularType() {
Type fieldType = getField().getGenericType();
if (allowsMultiple()) {
// The validity of the converter is checked at compile time. We know the type to be
// List<singularType>.
ParameterizedType pfieldType = (ParameterizedType) fieldType;
fieldType = pfieldType.getActualTypeArguments()[0];
}
return fieldType;
}
/**
* Retrieves the {@link Converter} that will be used for this option, taking into account the
* default converters if an explicit one is not specified.
*
* <p>Memoizes the converter-finding logic to avoid repeating the computation.
*/
public Converter<?> getConverter() {
if (converter != null) {
return converter;
}
Class<? extends Converter> converterClass = getProvidedConverter();
if (converterClass == Converter.class) {
// No converter provided, use the default one.
Type type = getFieldSingularType();
converter = Converters.DEFAULT_CONVERTERS.get(type);
} else {
try {
// Instantiate the given Converter class.
Constructor<?> constructor = converterClass.getConstructor();
converter = (Converter<?>) constructor.newInstance();
} catch (SecurityException | IllegalArgumentException | ReflectiveOperationException e) {
// This indicates an error in the Converter, and should be discovered the first time it is
// used.
throw new ConstructionException(
String.format("Error in the provided converter for option %s", getField().getName()),
e);
}
}
return converter;
}
/**
* Returns whether a field should be considered as boolean.
*
* <p>Can be used for usage help and controlling whether the "no" prefix is allowed.
*/
public boolean usesBooleanValueSyntax() {
return getType().equals(boolean.class)
|| getType().equals(TriState.class)
|| getConverter() instanceof BoolOrEnumConverter;
}
/** Returns the evaluated default value for this option & memoizes the result. */
public Object getDefaultValue() {
if (defaultValue != null || isSpecialNullDefault()) {
return defaultValue;
}
Converter<?> converter = getConverter();
String defaultValueAsString = getUnparsedDefaultValue();
boolean allowsMultiple = allowsMultiple();
// If the option allows multiple values then we intentionally return the empty list as
// the default value of this option since it is not always the case that an option
// that allows multiple values will have a converter that returns a list value.
if (allowsMultiple) {
defaultValue = Collections.emptyList();
} else {
// Otherwise try to convert the default value using the converter
try {
defaultValue = converter.convert(defaultValueAsString);
} catch (OptionsParsingException e) {
throw new ConstructionException(
String.format(
"OptionsParsingException while retrieving the default value for %s: %s",
getField().getName(), e.getMessage()),
e);
}
}
return defaultValue;
}
/**
* {@link OptionDefinition} is really a wrapper around a {@link Field} that caches information
* obtained through reflection. Checking that the fields they represent are equal is sufficient
* to check that two {@link OptionDefinition} objects are equal.
*/
@Override
public boolean equals(Object object) {
if (!(object instanceof OptionDefinition)) {
return false;
}
OptionDefinition otherOption = (OptionDefinition) object;
return field.equals(otherOption.field);
}
@Override
public int hashCode() {
return field.hashCode();
}
@Override
public int compareTo(OptionDefinition o) {
return getOptionName().compareTo(o.getOptionName());
}
@Override
public String toString() {
return String.format("option '--%s'", getOptionName());
}
static final Comparator<OptionDefinition> BY_OPTION_NAME =
Comparator.comparing(OptionDefinition::getOptionName);
/**
* An ordering relation for option-field fields that first groups together options of the same
* category, then sorts by name within the category.
*/
static final Comparator<OptionDefinition> BY_CATEGORY =
(left, right) -> {
int r = left.getOptionCategory().compareTo(right.getOptionCategory());
return r == 0 ? BY_OPTION_NAME.compare(left, right) : r;
};
}