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// ASM: a very small and fast Java bytecode manipulation framework
// Copyright (c) 2000-2011 INRIA, France Telecom
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package org.mvel2.asm;

/**
 * An {@link AnnotationVisitor} that generates a corresponding 'annotation' or 'type_annotation'
 * structure, as defined in the Java Virtual Machine Specification (JVMS). AnnotationWriter
 * instances can be chained in a doubly linked list, from which Runtime[In]Visible[Type]Annotations
 * attributes can be generated with the {@link #putAnnotations} method. Similarly, arrays of such
 * lists can be used to generate Runtime[In]VisibleParameterAnnotations attributes.
 *
 * @see JVMS
 *     4.7.16
 * @see JVMS
 *     4.7.20
 * @author Eric Bruneton
 * @author Eugene Kuleshov
 */
final class AnnotationWriter extends AnnotationVisitor {

  /** Where the constants used in this AnnotationWriter must be stored. */
  private final SymbolTable symbolTable;

  /**
   * Whether values are named or not. AnnotationWriter instances used for annotation default and
   * annotation arrays use unnamed values (i.e. they generate an 'element_value' structure for each
   * value, instead of an element_name_index followed by an element_value).
   */
  private final boolean useNamedValues;

  /**
   * The 'annotation' or 'type_annotation' JVMS structure corresponding to the annotation values
   * visited so far. All the fields of these structures, except the last one - the
   * element_value_pairs array, must be set before this ByteVector is passed to the constructor
   * (num_element_value_pairs can be set to 0, it is reset to the correct value in {@link
   * #visitEnd()}). The element_value_pairs array is filled incrementally in the various visit()
   * methods.
   *
   * 

Note: as an exception to the above rules, for AnnotationDefault attributes (which contain a * single element_value by definition), this ByteVector is initially empty when passed to the * constructor, and {@link #numElementValuePairsOffset} is set to -1. */ private final ByteVector annotation; /** * The offset in {@link #annotation} where {@link #numElementValuePairs} must be stored (or -1 for * the case of AnnotationDefault attributes). */ private final int numElementValuePairsOffset; /** The number of element value pairs visited so far. */ private int numElementValuePairs; /** * The previous AnnotationWriter. This field is used to store the list of annotations of a * Runtime[In]Visible[Type]Annotations attribute. It is unused for nested or array annotations * (annotation values of annotation type), or for AnnotationDefault attributes. */ private final AnnotationWriter previousAnnotation; /** * The next AnnotationWriter. This field is used to store the list of annotations of a * Runtime[In]Visible[Type]Annotations attribute. It is unused for nested or array annotations * (annotation values of annotation type), or for AnnotationDefault attributes. */ private AnnotationWriter nextAnnotation; // ----------------------------------------------------------------------------------------------- // Constructors // ----------------------------------------------------------------------------------------------- /** * Constructs a new {@link AnnotationWriter}. * * @param symbolTable where the constants used in this AnnotationWriter must be stored. * @param useNamedValues whether values are named or not. AnnotationDefault and annotation arrays * use unnamed values. * @param annotation where the 'annotation' or 'type_annotation' JVMS structure corresponding to * the visited content must be stored. This ByteVector must already contain all the fields of * the structure except the last one (the element_value_pairs array). * @param previousAnnotation the previously visited annotation of the * Runtime[In]Visible[Type]Annotations attribute to which this annotation belongs, or null in * other cases (e.g. nested or array annotations). */ AnnotationWriter( final SymbolTable symbolTable, final boolean useNamedValues, final ByteVector annotation, final AnnotationWriter previousAnnotation) { super(Opcodes.ASM7); this.symbolTable = symbolTable; this.useNamedValues = useNamedValues; this.annotation = annotation; // By hypothesis, num_element_value_pairs is stored in the last unsigned short of 'annotation'. this.numElementValuePairsOffset = annotation.length == 0 ? -1 : annotation.length - 2; this.previousAnnotation = previousAnnotation; if (previousAnnotation != null) { previousAnnotation.nextAnnotation = this; } } /** * Constructs a new {@link AnnotationWriter} using named values. * * @param symbolTable where the constants used in this AnnotationWriter must be stored. * @param annotation where the 'annotation' or 'type_annotation' JVMS structure corresponding to * the visited content must be stored. This ByteVector must already contain all the fields of * the structure except the last one (the element_value_pairs array). * @param previousAnnotation the previously visited annotation of the * Runtime[In]Visible[Type]Annotations attribute to which this annotation belongs, or null in * other cases (e.g. nested or array annotations). */ AnnotationWriter( final SymbolTable symbolTable, final ByteVector annotation, final AnnotationWriter previousAnnotation) { this(symbolTable, /* useNamedValues = */ true, annotation, previousAnnotation); } // ----------------------------------------------------------------------------------------------- // Implementation of the AnnotationVisitor abstract class // ----------------------------------------------------------------------------------------------- @Override public void visit(final String name, final Object value) { // Case of an element_value with a const_value_index, class_info_index or array_index field. // See https://docs.oracle.com/javase/specs/jvms/se9/html/jvms-4.html#jvms-4.7.16.1. ++numElementValuePairs; if (useNamedValues) { annotation.putShort(symbolTable.addConstantUtf8(name)); } if (value instanceof String) { annotation.put12('s', symbolTable.addConstantUtf8((String) value)); } else if (value instanceof Byte) { annotation.put12('B', symbolTable.addConstantInteger(((Byte) value).byteValue()).index); } else if (value instanceof Boolean) { int booleanValue = ((Boolean) value).booleanValue() ? 1 : 0; annotation.put12('Z', symbolTable.addConstantInteger(booleanValue).index); } else if (value instanceof Character) { annotation.put12('C', symbolTable.addConstantInteger(((Character) value).charValue()).index); } else if (value instanceof Short) { annotation.put12('S', symbolTable.addConstantInteger(((Short) value).shortValue()).index); } else if (value instanceof Type) { annotation.put12('c', symbolTable.addConstantUtf8(((Type) value).getDescriptor())); } else if (value instanceof byte[]) { byte[] byteArray = (byte[]) value; annotation.put12('[', byteArray.length); for (byte byteValue : byteArray) { annotation.put12('B', symbolTable.addConstantInteger(byteValue).index); } } else if (value instanceof boolean[]) { boolean[] booleanArray = (boolean[]) value; annotation.put12('[', booleanArray.length); for (boolean booleanValue : booleanArray) { annotation.put12('Z', symbolTable.addConstantInteger(booleanValue ? 1 : 0).index); } } else if (value instanceof short[]) { short[] shortArray = (short[]) value; annotation.put12('[', shortArray.length); for (short shortValue : shortArray) { annotation.put12('S', symbolTable.addConstantInteger(shortValue).index); } } else if (value instanceof char[]) { char[] charArray = (char[]) value; annotation.put12('[', charArray.length); for (char charValue : charArray) { annotation.put12('C', symbolTable.addConstantInteger(charValue).index); } } else if (value instanceof int[]) { int[] intArray = (int[]) value; annotation.put12('[', intArray.length); for (int intValue : intArray) { annotation.put12('I', symbolTable.addConstantInteger(intValue).index); } } else if (value instanceof long[]) { long[] longArray = (long[]) value; annotation.put12('[', longArray.length); for (long longValue : longArray) { annotation.put12('J', symbolTable.addConstantLong(longValue).index); } } else if (value instanceof float[]) { float[] floatArray = (float[]) value; annotation.put12('[', floatArray.length); for (float floatValue : floatArray) { annotation.put12('F', symbolTable.addConstantFloat(floatValue).index); } } else if (value instanceof double[]) { double[] doubleArray = (double[]) value; annotation.put12('[', doubleArray.length); for (double doubleValue : doubleArray) { annotation.put12('D', symbolTable.addConstantDouble(doubleValue).index); } } else { Symbol symbol = symbolTable.addConstant(value); annotation.put12(".s.IFJDCS".charAt(symbol.tag), symbol.index); } } @Override public void visitEnum(final String name, final String descriptor, final String value) { // Case of an element_value with an enum_const_value field. // See https://docs.oracle.com/javase/specs/jvms/se9/html/jvms-4.html#jvms-4.7.16.1. ++numElementValuePairs; if (useNamedValues) { annotation.putShort(symbolTable.addConstantUtf8(name)); } annotation .put12('e', symbolTable.addConstantUtf8(descriptor)) .putShort(symbolTable.addConstantUtf8(value)); } @Override public AnnotationVisitor visitAnnotation(final String name, final String descriptor) { // Case of an element_value with an annotation_value field. // See https://docs.oracle.com/javase/specs/jvms/se9/html/jvms-4.html#jvms-4.7.16.1. ++numElementValuePairs; if (useNamedValues) { annotation.putShort(symbolTable.addConstantUtf8(name)); } // Write tag and type_index, and reserve 2 bytes for num_element_value_pairs. annotation.put12('@', symbolTable.addConstantUtf8(descriptor)).putShort(0); return new AnnotationWriter(symbolTable, annotation, null); } @Override public AnnotationVisitor visitArray(final String name) { // Case of an element_value with an array_value field. // https://docs.oracle.com/javase/specs/jvms/se9/html/jvms-4.html#jvms-4.7.16.1 ++numElementValuePairs; if (useNamedValues) { annotation.putShort(symbolTable.addConstantUtf8(name)); } // Write tag, and reserve 2 bytes for num_values. Here we take advantage of the fact that the // end of an element_value of array type is similar to the end of an 'annotation' structure: an // unsigned short num_values followed by num_values element_value, versus an unsigned short // num_element_value_pairs, followed by num_element_value_pairs { element_name_index, // element_value } tuples. This allows us to use an AnnotationWriter with unnamed values to // visit the array elements. Its num_element_value_pairs will correspond to the number of array // elements and will be stored in what is in fact num_values. annotation.put12('[', 0); return new AnnotationWriter(symbolTable, /* useNamedValues = */ false, annotation, null); } @Override public void visitEnd() { if (numElementValuePairsOffset != -1) { byte[] data = annotation.data; data[numElementValuePairsOffset] = (byte) (numElementValuePairs >>> 8); data[numElementValuePairsOffset + 1] = (byte) numElementValuePairs; } } // ----------------------------------------------------------------------------------------------- // Utility methods // ----------------------------------------------------------------------------------------------- /** * Returns the size of a Runtime[In]Visible[Type]Annotations attribute containing this annotation * and all its predecessors (see {@link #previousAnnotation}. Also adds the attribute name * to the constant pool of the class (if not null). * * @param attributeName one of "Runtime[In]Visible[Type]Annotations", or null. * @return the size in bytes of a Runtime[In]Visible[Type]Annotations attribute containing this * annotation and all its predecessors. This includes the size of the attribute_name_index and * attribute_length fields. */ int computeAnnotationsSize(final String attributeName) { if (attributeName != null) { symbolTable.addConstantUtf8(attributeName); } // The attribute_name_index, attribute_length and num_annotations fields use 8 bytes. int attributeSize = 8; AnnotationWriter annotationWriter = this; while (annotationWriter != null) { attributeSize += annotationWriter.annotation.length; annotationWriter = annotationWriter.previousAnnotation; } return attributeSize; } /** * Puts a Runtime[In]Visible[Type]Annotations attribute containing this annotations and all its * predecessors (see {@link #previousAnnotation} in the given ByteVector. Annotations are * put in the same order they have been visited. * * @param attributeNameIndex the constant pool index of the attribute name (one of * "Runtime[In]Visible[Type]Annotations"). * @param output where the attribute must be put. */ void putAnnotations(final int attributeNameIndex, final ByteVector output) { int attributeLength = 2; // For num_annotations. int numAnnotations = 0; AnnotationWriter annotationWriter = this; AnnotationWriter firstAnnotation = null; while (annotationWriter != null) { // In case the user forgot to call visitEnd(). annotationWriter.visitEnd(); attributeLength += annotationWriter.annotation.length; numAnnotations++; firstAnnotation = annotationWriter; annotationWriter = annotationWriter.previousAnnotation; } output.putShort(attributeNameIndex); output.putInt(attributeLength); output.putShort(numAnnotations); annotationWriter = firstAnnotation; while (annotationWriter != null) { output.putByteArray(annotationWriter.annotation.data, 0, annotationWriter.annotation.length); annotationWriter = annotationWriter.nextAnnotation; } } /** * Returns the size of a Runtime[In]VisibleParameterAnnotations attribute containing all the * annotation lists from the given AnnotationWriter sub-array. Also adds the attribute name to the * constant pool of the class. * * @param attributeName one of "Runtime[In]VisibleParameterAnnotations". * @param annotationWriters an array of AnnotationWriter lists (designated by their last * element). * @param annotableParameterCount the number of elements in annotationWriters to take into account * (elements [0..annotableParameterCount[ are taken into account). * @return the size in bytes of a Runtime[In]VisibleParameterAnnotations attribute corresponding * to the given sub-array of AnnotationWriter lists. This includes the size of the * attribute_name_index and attribute_length fields. */ static int computeParameterAnnotationsSize( final String attributeName, final AnnotationWriter[] annotationWriters, final int annotableParameterCount) { // Note: attributeName is added to the constant pool by the call to computeAnnotationsSize // below. This assumes that there is at least one non-null element in the annotationWriters // sub-array (which is ensured by the lazy instantiation of this array in MethodWriter). // The attribute_name_index, attribute_length and num_parameters fields use 7 bytes, and each // element of the parameter_annotations array uses 2 bytes for its num_annotations field. int attributeSize = 7 + 2 * annotableParameterCount; for (int i = 0; i < annotableParameterCount; ++i) { AnnotationWriter annotationWriter = annotationWriters[i]; attributeSize += annotationWriter == null ? 0 : annotationWriter.computeAnnotationsSize(attributeName) - 8; } return attributeSize; } /** * Puts a Runtime[In]VisibleParameterAnnotations attribute containing all the annotation lists * from the given AnnotationWriter sub-array in the given ByteVector. * * @param attributeNameIndex constant pool index of the attribute name (one of * Runtime[In]VisibleParameterAnnotations). * @param annotationWriters an array of AnnotationWriter lists (designated by their last * element). * @param annotableParameterCount the number of elements in annotationWriters to put (elements * [0..annotableParameterCount[ are put). * @param output where the attribute must be put. */ static void putParameterAnnotations( final int attributeNameIndex, final AnnotationWriter[] annotationWriters, final int annotableParameterCount, final ByteVector output) { // The num_parameters field uses 1 byte, and each element of the parameter_annotations array // uses 2 bytes for its num_annotations field. int attributeLength = 1 + 2 * annotableParameterCount; for (int i = 0; i < annotableParameterCount; ++i) { AnnotationWriter annotationWriter = annotationWriters[i]; attributeLength += annotationWriter == null ? 0 : annotationWriter.computeAnnotationsSize(null) - 8; } output.putShort(attributeNameIndex); output.putInt(attributeLength); output.putByte(annotableParameterCount); for (int i = 0; i < annotableParameterCount; ++i) { AnnotationWriter annotationWriter = annotationWriters[i]; AnnotationWriter firstAnnotation = null; int numAnnotations = 0; while (annotationWriter != null) { // In case user the forgot to call visitEnd(). annotationWriter.visitEnd(); numAnnotations++; firstAnnotation = annotationWriter; annotationWriter = annotationWriter.previousAnnotation; } output.putShort(numAnnotations); annotationWriter = firstAnnotation; while (annotationWriter != null) { output.putByteArray( annotationWriter.annotation.data, 0, annotationWriter.annotation.length); annotationWriter = annotationWriter.nextAnnotation; } } } }





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