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package proguard.evaluation.value.object;

import java.util.Objects;
import org.jetbrains.annotations.NotNull;
import org.jetbrains.annotations.Nullable;
import proguard.classfile.Clazz;
import proguard.classfile.util.ClassUtil;
import proguard.classfile.util.InitializedClassUtil;
import proguard.evaluation.value.Value;

/** Factory methods to create {@link AnalyzedObject}. */
public class AnalyzedObjectFactory {

  private AnalyzedObjectFactory() {}

  /**
   * Create a {@link AnalyzedObject}, representing the tracked value for a reference type. If an
   * object is created successfully it is guaranteed to be modeled if the passed value was an
   * instance of {@link Model}.
   *
   * 

Consistency checks on the arguments are performed: * *

    *
  • If "value" is null and "referencedClass" isn't, "type" should match the type of * "referencedClass" *
  • If "type" represents a primitive type or primitive array "referencedClass" should be null *
  • If "referencedClass" is not null, the type of "value" (or of the type modeled by "value" * if it is a {@link Model}) has to be the same type of "referencedClass" or of a class * inheriting from it. *
  • If "referencedClass" is null, "type" needs to match the type of "value" (or of the type * modeled by "value" if it is a {@link Model}) *
* * @param value the value of the tracked object. Can be the actual value or a {@link Model}. null * iff the tracked value is null * @param type the type of the value. This should be the static type specified in the method * signature, might not correspond to the type returned by the created {@link * AnalyzedObject#getType()} because dynamic typing might be taken into consideration. * @param referencedClass the class referenced when the value is created (e.g., the class of the * return value of a method call). Always null for primitive types (or arrays of primitive); * can be null if the library class pool is missing or the class pool references have not been * initialized; can also be null in some cases even if everything has been initialized. For * this reason this is used just for sanity checks when not-null, while it being null is not * considered in any way as something incorrect. */ public static AnalyzedObject create( @Nullable Object value, @Nullable String type, @Nullable Clazz referencedClass) { if (value == null && type == null) { checkValidNullObject(referencedClass); return createNull(); } checkValidType(type); if (value == null) { checkValidTypedNullObject(type, referencedClass); return createNullOfType(type); } if (value instanceof Model) { Model model = (Model) value; checkValidModel(model, referencedClass); return createModeled(model); } // TODO create ArrayObject if value is an array once we fix the code using // ParticularReferenceValue for arrays checkValidPrecise(value, type, referencedClass); return createPrecise(value); } private static void checkValidNullObject(Clazz referencedClass) { if (referencedClass != null) { throw new IllegalStateException( String.format( "'type' is null while 'referencedClass' is \"%s\", should 'type' be the one from 'referencedClass'?", referencedClass.getName())); } } private static void checkValidType(String type) { if (type == null) { throw new IllegalStateException("'type' should be null just for null 'value'"); } if (!ClassUtil.isInternalType(type)) { throw new IllegalStateException( String.format( "the 'type' \"%s\" has an invalid format, should be an internal type (e.g., 'Ljava/lang/String;')", type)); } } private static void checkValidTypedNullObject(String type, Clazz referencedClass) { if (referencedClass != null) { String referencedType = ClassUtil.internalTypeFromClassName(referencedClass.getName()); if (!type.equals(referencedType)) { throw new IllegalStateException( String.format( "'value' is null but 'type' \"%s\" is not the type of 'referencedClass' \"%s\"", type, referencedType)); } } } private static void checkValidModel(Model model, Clazz referencedClass) { if (referencedClass != null && !InitializedClassUtil.isInstanceOf(model.getType(), referencedClass)) { throw new IllegalStateException( String.format( "The type \"%s\" of model \"%s\" does not extend the referenced clazz \"%s\"", model.getType(), model, referencedClass.getName())); } } private static void checkValidPrecise(Object value, String type, Clazz referencedClass) { String objectType = ClassUtil.internalType(value.getClass().getTypeName()); if (referencedClass == null && !type.equals(objectType)) { throw new IllegalStateException( String.format( "The referenced clazz is null, the type \"%s\" of the object needs to be exactly the provided type \"%s\"", objectType, type)); } if (referencedClass != null && !InitializedClassUtil.isInstanceOf(objectType, referencedClass)) { throw new IllegalStateException( String.format( "The type \"%s\" of the object does not extend the referenced clazz \"%s\"", type, referencedClass.getName())); } } /** * Create a precise object wrapping the value. * * @param value The wrapped value */ public static AnalyzedObject createPrecise(@NotNull Object value) { Objects.requireNonNull(value, "'value' can't be null"); // TODO throw IllegalStateException if value is an array once we fix the code using // ParticularReferenceValue for arrays if (value instanceof Model) { throw new IllegalStateException("Models should not be used to create precise values"); } return new PreciseObject(value); } /** * Create an object the value of which is modeled. * * @param value The wrapped model */ public static AnalyzedObject createModeled(@NotNull Model value) { Objects.requireNonNull(value, "'value' can't be null"); if (value instanceof ArrayModel) { return new ArrayObject((ArrayModel) value); } return new ModeledObject(value); } /** * Create an object with null value and known type. * * @param type The known type of the null object */ public static AnalyzedObject createNullOfType(@NotNull String type) { Objects.requireNonNull(type, "'type' can't be null"); return new TypedNullObject(type); } /** Create an object with unknown type and null value. */ public static AnalyzedObject createNull() { return NullObject.INSTANCE; } /** * Create a modeled object representing a detailed array (i.e., it's model is a {@link * ArrayModel}. */ public static AnalyzedObject createDetailedArray(Value[] values, String type) { return new ArrayObject(new ArrayModel(values, type)); } }




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