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package org.graalvm.compiler.options;

import static jdk.vm.ci.services.Services.IS_BUILDING_NATIVE_IMAGE;
import static jdk.vm.ci.services.Services.IS_IN_NATIVE_IMAGE;

import java.util.ArrayList;
import java.util.Collection;
import java.util.Formatter;
import java.util.List;
import java.util.ServiceLoader;

import jdk.internal.vm.compiler.collections.EconomicMap;
import jdk.internal.vm.compiler.collections.MapCursor;

This class contains methods for parsing Graal options and matching them against a set of OptionDescriptors. The OptionDescriptors are loaded via a ServiceLoader.
/** * This class contains methods for parsing Graal options and matching them against a set of * {@link OptionDescriptors}. The {@link OptionDescriptors} are loaded via a {@link ServiceLoader}. */
public class OptionsParser { private static volatile List<OptionDescriptors> cachedOptionDescriptors;
Gets an iterable of available OptionDescriptors.
/** * Gets an iterable of available {@link OptionDescriptors}. */
public static Iterable<OptionDescriptors> getOptionsLoader() { if (IS_IN_NATIVE_IMAGE || cachedOptionDescriptors != null) { return cachedOptionDescriptors; } return ModuleSupport.getOptionsLoader(); } public static void setCachedOptionDescriptors(List<OptionDescriptors> list) { assert IS_BUILDING_NATIVE_IMAGE : "Used to pre-initialize the option descriptors during native image generation"; OptionsParser.cachedOptionDescriptors = list; }
Parses a map representing assignments of values to options.
Params:
  • optionSettings – option settings (i.e., assignments of values to options)
  • values – the object in which to store the parsed values
  • loader – source of the available OptionDescriptors
Throws:
/** * Parses a map representing assignments of values to options. * * @param optionSettings option settings (i.e., assignments of values to options) * @param values the object in which to store the parsed values * @param loader source of the available {@link OptionDescriptors} * @throws IllegalArgumentException if there's a problem parsing {@code option} */
public static void parseOptions(EconomicMap<String, String> optionSettings, EconomicMap<OptionKey<?>, Object> values, Iterable<OptionDescriptors> loader) { if (optionSettings != null && !optionSettings.isEmpty()) { MapCursor<String, String> cursor = optionSettings.getEntries(); while (cursor.advance()) { parseOption(cursor.getKey(), cursor.getValue(), values, loader); } } }
Parses a given option setting string and adds the parsed key and value dst.
Params:
  • optionSetting – a string matching the pattern <name>=<value>
/** * Parses a given option setting string and adds the parsed key and value {@code dst}. * * @param optionSetting a string matching the pattern {@code <name>=<value>} */
public static void parseOptionSettingTo(String optionSetting, EconomicMap<String, String> dst) { int eqIndex = optionSetting.indexOf('='); if (eqIndex == -1) { throw new InternalError("Option setting has does not match the pattern <name>=<value>: " + optionSetting); } dst.put(optionSetting.substring(0, eqIndex), optionSetting.substring(eqIndex + 1)); }
Looks up an OptionDescriptor based on a given name.
Params:
  • loader – source of the available OptionDescriptors
  • name – the name of the option to look up
Returns:the OptionDescriptor whose name equals name or null if not such descriptor is available
/** * Looks up an {@link OptionDescriptor} based on a given name. * * @param loader source of the available {@link OptionDescriptors} * @param name the name of the option to look up * @return the {@link OptionDescriptor} whose name equals {@code name} or null if not such * descriptor is available */
private static OptionDescriptor lookup(Iterable<OptionDescriptors> loader, String name) { for (OptionDescriptors optionDescriptors : loader) { OptionDescriptor desc = optionDescriptors.get(name); if (desc != null) { return desc; } } return null; }
Parses a given option name and value.
Params:
  • name – the option name
  • uncheckedValue – the unchecked value for the option
  • values – the object in which to store the parsed option and value
  • loader – source of the available OptionDescriptors
Throws:
/** * Parses a given option name and value. * * @param name the option name * @param uncheckedValue the unchecked value for the option * @param values the object in which to store the parsed option and value * @param loader source of the available {@link OptionDescriptors} * @throws IllegalArgumentException if there's a problem parsing {@code option} */
public static void parseOption(String name, Object uncheckedValue, EconomicMap<OptionKey<?>, Object> values, Iterable<OptionDescriptors> loader) { OptionDescriptor desc = lookup(loader, name); if (desc == null) { List<OptionDescriptor> matches = fuzzyMatch(loader, name); Formatter msg = new Formatter(); msg.format("Could not find option %s", name); if (!matches.isEmpty()) { msg.format("%nDid you mean one of the following?"); for (OptionDescriptor match : matches) { msg.format("%n %s=<value>", match.getName()); } } IllegalArgumentException iae = new IllegalArgumentException(msg.toString()); if (isFromLibGraal(iae)) { msg.format("%nIf %s is a libgraal option, it must be specified with '-Dlibgraal.%s' as opposed to '-Dgraal.%s'.", name, name, name); iae = new IllegalArgumentException(msg.toString()); } throw iae; } Object value = parseOptionValue(desc, uncheckedValue); desc.getOptionKey().update(values, value); } private static boolean isFromLibGraal(Throwable t) { for (StackTraceElement frame : t.getStackTrace()) { if ("jdk.internal.vm.compiler.libgraal.LibGraal".equals(frame.getClassName())) { return true; } } return false; }
Parses a given option value with a known descriptor.
/** Parses a given option value with a known descriptor. */
public static Object parseOptionValue(OptionDescriptor desc, Object uncheckedValue) { Class<?> optionType = desc.getOptionValueType(); Object value; if (!(uncheckedValue instanceof String)) { if (optionType != uncheckedValue.getClass()) { String type = optionType.getSimpleName(); throw new IllegalArgumentException(type + " option '" + desc.getName() + "' must have " + type + " value, not " + uncheckedValue.getClass() + " [toString: " + uncheckedValue + "]"); } value = uncheckedValue; } else { String valueString = (String) uncheckedValue; if (optionType == Boolean.class) { if ("true".equals(valueString)) { value = Boolean.TRUE; } else if ("false".equals(valueString)) { value = Boolean.FALSE; } else { throw new IllegalArgumentException("Boolean option '" + desc.getName() + "' must have value \"true\" or \"false\", not \"" + uncheckedValue + "\""); } } else if (optionType == String.class) { value = valueString; } else if (Enum.class.isAssignableFrom(optionType)) { value = ((EnumOptionKey<?>) desc.getOptionKey()).valueOf(valueString); } else { if (valueString.isEmpty()) { throw new IllegalArgumentException("Non empty value required for option '" + desc.getName() + "'"); } try { if (optionType == Float.class) { value = Float.parseFloat(valueString); } else if (optionType == Double.class) { value = Double.parseDouble(valueString); } else if (optionType == Integer.class) { value = Integer.valueOf((int) parseLong(valueString)); } else if (optionType == Long.class) { value = Long.valueOf(parseLong(valueString)); } else { throw new IllegalArgumentException("Wrong value for option '" + desc.getName() + "'"); } } catch (NumberFormatException nfe) { throw new IllegalArgumentException("Value for option '" + desc.getName() + "' has invalid number format: " + valueString); } } } return value; } private static long parseLong(String v) { String valueString = v.toLowerCase(); long scale = 1; if (valueString.endsWith("k")) { scale = 1024L; } else if (valueString.endsWith("m")) { scale = 1024L * 1024L; } else if (valueString.endsWith("g")) { scale = 1024L * 1024L * 1024L; } else if (valueString.endsWith("t")) { scale = 1024L * 1024L * 1024L * 1024L; } if (scale != 1) { /* Remove trailing scale character. */ valueString = valueString.substring(0, valueString.length() - 1); } return Long.parseLong(valueString) * scale; }
Compute string similarity based on Dice's coefficient. Ported from str_similar() in globals.cpp.
/** * Compute string similarity based on Dice's coefficient. * * Ported from str_similar() in globals.cpp. */
public static float stringSimilarity(String str1, String str2) { int hit = 0; for (int i = 0; i < str1.length() - 1; ++i) { for (int j = 0; j < str2.length() - 1; ++j) { if ((str1.charAt(i) == str2.charAt(j)) && (str1.charAt(i + 1) == str2.charAt(j + 1))) { ++hit; break; } } } return 2.0f * hit / (str1.length() + str2.length()); } public static final float FUZZY_MATCH_THRESHOLD = 0.7F;
Returns the set of options that fuzzy match a given option name.
/** * Returns the set of options that fuzzy match a given option name. */
private static List<OptionDescriptor> fuzzyMatch(Iterable<OptionDescriptors> loader, String optionName) { List<OptionDescriptor> matches = new ArrayList<>(); for (OptionDescriptors options : loader) { collectFuzzyMatches(options, optionName, matches); } return matches; }
Collects the set of options that fuzzy match a given option name. String similarity for fuzzy matching is based on Dice's coefficient.
Params:
  • toSearch – the set of option descriptors to search
  • name – the option name to search for
  • matches – the collection to which fuzzy matches of name will be added
Returns:whether any fuzzy matches were found
/** * Collects the set of options that fuzzy match a given option name. String similarity for fuzzy * matching is based on Dice's coefficient. * * @param toSearch the set of option descriptors to search * @param name the option name to search for * @param matches the collection to which fuzzy matches of {@code name} will be added * @return whether any fuzzy matches were found */
public static boolean collectFuzzyMatches(Iterable<OptionDescriptor> toSearch, String name, Collection<OptionDescriptor> matches) { boolean found = false; for (OptionDescriptor option : toSearch) { float score = stringSimilarity(option.getName(), name); if (score >= FUZZY_MATCH_THRESHOLD) { found = true; matches.add(option); } } return found; } }