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Shaded fat Jar for pkl-config-java, a Java config library based on the Pkl config language.

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/*
 * Copyright (c) 2018, 2021, Oracle and/or its affiliates. All rights reserved.
 * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
 *
 * The Universal Permissive License (UPL), Version 1.0
 *
 * Subject to the condition set forth below, permission is hereby granted to any
 * person obtaining a copy of this software, associated documentation and/or
 * data (collectively the "Software"), free of charge and under any and all
 * copyright rights in the Software, and any and all patent rights owned or
 * freely licensable by each licensor hereunder covering either (i) the
 * unmodified Software as contributed to or provided by such licensor, or (ii)
 * the Larger Works (as defined below), to deal in both
 *
 * (a) the Software, and
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 * (b) any piece of software and/or hardware listed in the lrgrwrks.txt file if
 * one is included with the Software each a "Larger Work" to which the Software
 * is contributed by such licensors),
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 * without restriction, including without limitation the rights to copy, create
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 * Software and the Larger Work(s), and to sublicense the foregoing rights on
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package org.pkl.thirdparty.graalvm.nativeimage.hosted;

import org.pkl.thirdparty.graalvm.nativeimage.ImageSingletons;
import org.pkl.thirdparty.graalvm.nativeimage.Platform;
import org.pkl.thirdparty.graalvm.nativeimage.Platforms;
import org.pkl.thirdparty.graalvm.nativeimage.impl.RuntimeClassInitializationSupport;

/**
 * This class provides methods that can be called during native-image building to configure class
 * initialization behavior. By default, all JDK classes that are seen as reachable for a native
 * image are initialized during image building, i.e. the class initialization method is executed
 * during image building and is not seen as a reachable method at runtime. Application classes, on
 * the other hand, are initialized during image building if they can be proven safe. Unsafe classes,
 * e.g. ones that create threads, will be initialized at image run time.
 *
 * For classes that can't be proven safe, it is sometimes beneficial to ensure initialization during
 * image building, and for some that are safe, it is still necessary to initialize at runtime (e.g.,
 * the order of initializer execution matters).
 * 

* This class provides two different registration methods: Classes registered via * {@link #initializeAtRunTime} are not initialized at all during image generation, and only * initialized at runtime, i.e., the class initializer is executed once at runtime. Classes * registered via {@link #initializeAtBuildTime} will be initialized during image building. * * It is also possible define initialization for whole packages with * {@link #initializeAtRunTime(String[])} and {@link #initializeAtBuildTime(String[])}. The rules * for packages can be further refined by using methods for individual classes. * * Initializing classes at runtime comes with some costs and restrictions: *

    *
  • The class initialization status must be checked before a static field access, static method * call, and object allocation of such classes. This has an impact on performance.
  • *
  • Instances of such classes are not allowed on the image heap, i.e., on the initial heap that * is part of the native executable. Otherwise instances would exist before the class is * initialized, which violates the class initialization specification.
  • *
      * * @since 19.0 */ @Platforms(Platform.HOSTED_ONLY.class) public final class RuntimeClassInitialization { /** * Registers the provided classes, and all of their subclasses, for class initialization at * runtime. The classes are not initialized automatically during image generation, and also must * not be initialized manually by the user during image generation. *

      * Unfortunately, classes are initialized for many reasons, and it is not possible to intercept * class initialization and report an error at this time. If a registered class gets * initialized, an error can be reported only later and the user must manually debug the reason * for class initialization. This can be done by, e.g., setting a breakpoint in the class * initializer or adding debug printing (print the stack trace) in the class initializer. * * @since 19.0 */ public static void initializeAtRunTime(Class... classes) { StackTraceElement[] stacktrace = Thread.currentThread().getStackTrace(); for (Class aClass : classes) { ImageSingletons.lookup(RuntimeClassInitializationSupport.class).initializeAtRunTime(aClass, classReason(stacktrace, getUnqualifiedName(aClass) + ".class")); } } /** * Registers the provided classes as eagerly initialized during image-build time. *

      * All static initializers of {@code classes} will be executed during image-build time and * static fields that are assigned values will be available at runtime. {@code static final} * fields will be considered as constant. *

      * It is up to the user to ensure that this behavior makes sense and does not lead to wrong * application behavior. * * @since 19.0 */ public static void initializeAtBuildTime(Class... classes) { StackTraceElement[] stacktrace = Thread.currentThread().getStackTrace(); for (Class aClass : classes) { ImageSingletons.lookup(RuntimeClassInitializationSupport.class).initializeAtBuildTime(aClass, classReason(stacktrace, getUnqualifiedName(aClass) + ".class")); } } /** * Registers all classes in provided packages, and all of their subclasses, for class * initialization at runtime. The classes are not initialized automatically during image * generation, and also must not be initialized manually by the user during image generation. *

      * Unfortunately, classes are initialized for many reasons, and it is not possible to intercept * class initialization and report an error at this time. If a registered class gets * initialized, an error can be reported only later and the user must manually debug the reason * for class initialization. This can be done by, e.g., setting a breakpoint in the class * initializer or adding debug printing (print the stack trace) in the class initializer. * * @since 19.0 */ public static void initializeAtRunTime(String... packages) { StackTraceElement[] stacktrace = Thread.currentThread().getStackTrace(); for (String aPackage : packages) { ImageSingletons.lookup(RuntimeClassInitializationSupport.class).initializeAtRunTime(aPackage, classReason(stacktrace, aPackage)); } } /** * Registers all classes in provided packages as eagerly initialized during image-build time. *

      * All static initializers of {@code classes} will be executed during image-build time and * static fields that are assigned values will be available at runtime. {@code static final} * fields will be considered as constant. *

      * It is up to the user to ensure that this behavior makes sense and does not lead to wrong * application behavior. * * @since 19.0 */ public static void initializeAtBuildTime(String... packages) { StackTraceElement[] stacktrace = Thread.currentThread().getStackTrace(); for (String aPackage : packages) { ImageSingletons.lookup(RuntimeClassInitializationSupport.class).initializeAtBuildTime(aPackage, classReason(stacktrace, aPackage)); } } private static String getCaller(StackTraceElement[] stackTrace) { StackTraceElement e = stackTrace[2]; return e.getClassName() + "." + e.getMethodName(); } private static String classReason(StackTraceElement[] stacktrace, String simpleName) { return "from feature " + getCaller(stacktrace) + " with '" + simpleName + "'"; } /** * Alternative to {@link Class#getSimpleName} that does not probe the enclosing class or method * which fails when they are not yet loaded. Duplicated from * {@code ClassUtil.getUnqualifiedName} which is not reachable here. */ private static String getUnqualifiedName(Class aClass) { String name = aClass.getTypeName(); return name.substring(name.lastIndexOf('.') + 1); // strip the package name } private RuntimeClassInitialization() { } }





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