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package jdk.vm.ci.meta;

import java.lang.reflect.Array;

//JaCoCo Exclude

Denotes the basic kinds of types in CRI, including the all the Java primitive types, for example, Int for int and Object for all object types. A kind has a single character short name, a Java name, and a set of flags further describing its behavior.
/** * Denotes the basic kinds of types in CRI, including the all the Java primitive types, for example, * {@link JavaKind#Int} for {@code int} and {@link JavaKind#Object} for all object types. A kind has * a single character short name, a Java name, and a set of flags further describing its behavior. */
public enum JavaKind {
The primitive boolean kind, represented as an int on the stack.
/** The primitive boolean kind, represented as an int on the stack. */
Boolean('Z', "boolean", 1, true, java.lang.Boolean.TYPE, java.lang.Boolean.class),
The primitive byte kind, represented as an int on the stack.
/** The primitive byte kind, represented as an int on the stack. */
Byte('B', "byte", 1, true, java.lang.Byte.TYPE, java.lang.Byte.class),
The primitive short kind, represented as an int on the stack.
/** The primitive short kind, represented as an int on the stack. */
Short('S', "short", 1, true, java.lang.Short.TYPE, java.lang.Short.class),
The primitive char kind, represented as an int on the stack.
/** The primitive char kind, represented as an int on the stack. */
Char('C', "char", 1, true, java.lang.Character.TYPE, java.lang.Character.class),
The primitive int kind, represented as an int on the stack.
/** The primitive int kind, represented as an int on the stack. */
Int('I', "int", 1, true, java.lang.Integer.TYPE, java.lang.Integer.class),
The primitive float kind.
/** The primitive float kind. */
Float('F', "float", 1, false, java.lang.Float.TYPE, java.lang.Float.class),
The primitive long kind.
/** The primitive long kind. */
Long('J', "long", 2, false, java.lang.Long.TYPE, java.lang.Long.class),
The primitive double kind.
/** The primitive double kind. */
Double('D', "double", 2, false, java.lang.Double.TYPE, java.lang.Double.class),
The Object kind, also used for arrays.
/** The Object kind, also used for arrays. */
Object('A', "Object", 1, false, null, null),
The void kind.
/** The void kind. */
Void('V', "void", 0, false, java.lang.Void.TYPE, java.lang.Void.class),
The non-type.
/** The non-type. */
Illegal('-', "illegal", 0, false, null, null); private final char typeChar; private final String javaName; private final boolean isStackInt; private final Class<?> primitiveJavaClass; private final Class<?> boxedJavaClass; private final int slotCount; JavaKind(char typeChar, String javaName, int slotCount, boolean isStackInt, Class<?> primitiveJavaClass, Class<?> boxedJavaClass) { this.typeChar = typeChar; this.javaName = javaName; this.slotCount = slotCount; this.isStackInt = isStackInt; this.primitiveJavaClass = primitiveJavaClass; this.boxedJavaClass = boxedJavaClass; assert primitiveJavaClass == null || javaName.equals(primitiveJavaClass.getName()); }
Returns the number of stack slots occupied by this kind according to the Java bytecodes specification.
/** * Returns the number of stack slots occupied by this kind according to the Java bytecodes * specification. */
public int getSlotCount() { return this.slotCount; }
Returns whether this kind occupied two stack slots.
/** * Returns whether this kind occupied two stack slots. */
public boolean needsTwoSlots() { return this.slotCount == 2; }
Returns the name of the kind as a single upper case character. For the void and primitive kinds, this is the FieldType term in table 4.3-A of the JVM Specification. For Object, the character 'A' is returned and for Illegal, '-' is returned.
/** * Returns the name of the kind as a single upper case character. For the void and primitive * kinds, this is the <i>FieldType</i> term in * <a href="https://docs.oracle.com/javase/specs/jvms/se8/html/jvms-4.html#jvms-4.3.2-200"> * table 4.3-A</a> of the JVM Specification. For {@link #Object}, the character {@code 'A'} is * returned and for {@link #Illegal}, {@code '-'} is returned. */
public char getTypeChar() { return typeChar; }
Returns the name of this kind which will also be it Java programming language name if it is primitive or void.
/** * Returns the name of this kind which will also be it Java programming language name if it is * {@linkplain #isPrimitive() primitive} or {@code void}. */
public String getJavaName() { return javaName; }
Checks whether this type is a Java primitive type.
Returns:true if this is Boolean, Byte, Char, Short, Int, Long, Float, Double, or Void.
/** * Checks whether this type is a Java primitive type. * * @return {@code true} if this is {@link #Boolean}, {@link #Byte}, {@link #Char}, * {@link #Short}, {@link #Int}, {@link #Long}, {@link #Float}, {@link #Double}, or * {@link #Void}. */
public boolean isPrimitive() { return primitiveJavaClass != null; }
Returns the kind that represents this kind when on the Java operand stack.
Returns:the kind used on the operand stack
/** * Returns the kind that represents this kind when on the Java operand stack. * * @return the kind used on the operand stack */
public JavaKind getStackKind() { if (isStackInt) { return Int; } return this; }
Checks whether this type is a Java primitive type representing an integer number.
Returns:true if the stack kind is Int or Long.
/** * Checks whether this type is a Java primitive type representing an integer number. * * @return {@code true} if the stack kind is {@link #Int} or {@link #Long}. */
public boolean isNumericInteger() { return isStackInt || this == JavaKind.Long; }
Checks whether this type is a Java primitive type representing an unsigned number.
Returns:true if the kind is Boolean or Char.
/** * Checks whether this type is a Java primitive type representing an unsigned number. * * @return {@code true} if the kind is {@link #Boolean} or {@link #Char}. */
public boolean isUnsigned() { return this == JavaKind.Boolean || this == JavaKind.Char; }
Checks whether this type is a Java primitive type representing a floating point number.
Returns:true if this is Float or Double.
/** * Checks whether this type is a Java primitive type representing a floating point number. * * @return {@code true} if this is {@link #Float} or {@link #Double}. */
public boolean isNumericFloat() { return this == JavaKind.Float || this == JavaKind.Double; }
Checks whether this represent an Object of some sort.
Returns:true if this is Object.
/** * Checks whether this represent an Object of some sort. * * @return {@code true} if this is {@link #Object}. */
public boolean isObject() { return this == JavaKind.Object; }
Returns the kind corresponding to the Java type string.
Params:
  • typeString – the Java type string
Returns:the kind
/** * Returns the kind corresponding to the Java type string. * * @param typeString the Java type string * @return the kind */
public static JavaKind fromTypeString(String typeString) { assert typeString.length() > 0; final char first = typeString.charAt(0); if (first == '[' || first == 'L') { return JavaKind.Object; } return JavaKind.fromPrimitiveOrVoidTypeChar(first); }
Returns the kind of a word given the size of a word in bytes.
Params:
  • wordSizeInBytes – the size of a word in bytes
Returns:the kind representing a word value
/** * Returns the kind of a word given the size of a word in bytes. * * @param wordSizeInBytes the size of a word in bytes * @return the kind representing a word value */
public static JavaKind fromWordSize(int wordSizeInBytes) { if (wordSizeInBytes == 8) { return JavaKind.Long; } else { assert wordSizeInBytes == 4 : "Unsupported word size!"; return JavaKind.Int; } }
Returns the kind from the character describing a primitive or void.
Params:
  • ch – the character for a void or primitive kind as returned by getTypeChar()
Returns:the kind
/** * Returns the kind from the character describing a primitive or void. * * @param ch the character for a void or primitive kind as returned by {@link #getTypeChar()} * @return the kind */
public static JavaKind fromPrimitiveOrVoidTypeChar(char ch) { switch (ch) { case 'Z': return Boolean; case 'C': return Char; case 'F': return Float; case 'D': return Double; case 'B': return Byte; case 'S': return Short; case 'I': return Int; case 'J': return Long; case 'V': return Void; } throw new IllegalArgumentException("unknown primitive or void type character: " + ch); }
Returns the Kind representing the given Java class.
Params:
  • klass – the class
Returns:the kind
/** * Returns the Kind representing the given Java class. * * @param klass the class * @return the kind */
public static JavaKind fromJavaClass(Class<?> klass) { if (klass == Boolean.primitiveJavaClass) { return Boolean; } else if (klass == Byte.primitiveJavaClass) { return Byte; } else if (klass == Short.primitiveJavaClass) { return Short; } else if (klass == Char.primitiveJavaClass) { return Char; } else if (klass == Int.primitiveJavaClass) { return Int; } else if (klass == Long.primitiveJavaClass) { return Long; } else if (klass == Float.primitiveJavaClass) { return Float; } else if (klass == Double.primitiveJavaClass) { return Double; } else if (klass == Void.primitiveJavaClass) { return Void; } else { return Object; } }
Returns the Java class representing this kind.
Returns:the Java class
/** * Returns the Java class representing this kind. * * @return the Java class */
public Class<?> toJavaClass() { return primitiveJavaClass; }
Returns the Java class for instances of boxed values of this kind.
Returns:the Java class
/** * Returns the Java class for instances of boxed values of this kind. * * @return the Java class */
public Class<?> toBoxedJavaClass() { return boxedJavaClass; }
Converts this value type to a string.
/** * Converts this value type to a string. */
@Override public String toString() { return javaName; }
Marker interface for types that should be formatted with their Object.toString() value. Calling Object.toString() on other objects poses a security risk because it can potentially call user code.
/** * Marker interface for types that should be {@linkplain JavaKind#format(Object) formatted} with * their {@link Object#toString()} value. Calling {@link Object#toString()} on other objects * poses a security risk because it can potentially call user code. */
public interface FormatWithToString { }
Classes for which invoking Object.toString() does not run user code.
/** * Classes for which invoking {@link Object#toString()} does not run user code. */
private static boolean isToStringSafe(Class<?> c) { return c == Boolean.class || c == Byte.class || c == Character.class || c == Short.class || c == Integer.class || c == Float.class || c == Long.class || c == Double.class; }
Gets a formatted string for a given value of this kind.
Params:
  • value – a value of this kind
Returns:a formatted string for value based on this kind
/** * Gets a formatted string for a given value of this kind. * * @param value a value of this kind * @return a formatted string for {@code value} based on this kind */
public String format(Object value) { if (isPrimitive()) { assert isToStringSafe(value.getClass()); return value.toString(); } else { if (value == null) { return "null"; } else { if (value instanceof String) { String s = (String) value; if (s.length() > 50) { return "String:\"" + s.substring(0, 30) + "...\""; } else { return "String:\"" + s + '"'; } } else if (value instanceof JavaType) { return "JavaType:" + ((JavaType) value).toJavaName(); } else if (value instanceof Enum) { return MetaUtil.getSimpleName(value.getClass(), true) + ":" + ((Enum<?>) value).name(); } else if (value instanceof FormatWithToString) { return MetaUtil.getSimpleName(value.getClass(), true) + ":" + String.valueOf(value); } else if (value instanceof Class<?>) { return "Class:" + ((Class<?>) value).getName(); } else if (isToStringSafe(value.getClass())) { return value.toString(); } else if (value.getClass().isArray()) { return formatArray(value); } else { return MetaUtil.getSimpleName(value.getClass(), true) + "@" + System.identityHashCode(value); } } } } private static final int MAX_FORMAT_ARRAY_LENGTH = 5; private static String formatArray(Object array) { Class<?> componentType = array.getClass().getComponentType(); assert componentType != null; int arrayLength = Array.getLength(array); StringBuilder buf = new StringBuilder(MetaUtil.getSimpleName(componentType, true)).append('[').append(arrayLength).append("]{"); int length = Math.min(MAX_FORMAT_ARRAY_LENGTH, arrayLength); boolean primitive = componentType.isPrimitive(); for (int i = 0; i < length; i++) { if (primitive) { buf.append(Array.get(array, i)); } else { Object o = ((Object[]) array)[i]; buf.append(JavaKind.Object.format(o)); } if (i != length - 1) { buf.append(", "); } } if (arrayLength != length) { buf.append(", ..."); } return buf.append('}').toString(); }
Gets the minimum value that can be represented as a value of this kind.
Returns:the minimum value represented as a long
/** * Gets the minimum value that can be represented as a value of this kind. * * @return the minimum value represented as a {@code long} */
public long getMinValue() { switch (this) { case Boolean: return 0; case Byte: return java.lang.Byte.MIN_VALUE; case Char: return java.lang.Character.MIN_VALUE; case Short: return java.lang.Short.MIN_VALUE; case Int: return java.lang.Integer.MIN_VALUE; case Long: return java.lang.Long.MIN_VALUE; case Float: return java.lang.Float.floatToRawIntBits(java.lang.Float.MIN_VALUE); case Double: return java.lang.Double.doubleToRawLongBits(java.lang.Double.MIN_VALUE); default: throw new IllegalArgumentException("illegal call to minValue on " + this); } }
Gets the maximum value that can be represented as a value of this kind.
Returns:the maximum value represented as a long
/** * Gets the maximum value that can be represented as a value of this kind. * * @return the maximum value represented as a {@code long} */
public long getMaxValue() { switch (this) { case Boolean: return 1; case Byte: return java.lang.Byte.MAX_VALUE; case Char: return java.lang.Character.MAX_VALUE; case Short: return java.lang.Short.MAX_VALUE; case Int: return java.lang.Integer.MAX_VALUE; case Long: return java.lang.Long.MAX_VALUE; case Float: return java.lang.Float.floatToRawIntBits(java.lang.Float.MAX_VALUE); case Double: return java.lang.Double.doubleToRawLongBits(java.lang.Double.MAX_VALUE); default: throw new IllegalArgumentException("illegal call to maxValue on " + this); } }
Number of bytes that are necessary to represent a value of this kind.
Returns:the number of bytes
/** * Number of bytes that are necessary to represent a value of this kind. * * @return the number of bytes */
public int getByteCount() { if (this == Boolean) { return 1; } else { return getBitCount() >> 3; } }
Number of bits that are necessary to represent a value of this kind.
Returns:the number of bits
/** * Number of bits that are necessary to represent a value of this kind. * * @return the number of bits */
public int getBitCount() { switch (this) { case Boolean: return 1; case Byte: return 8; case Char: case Short: return 16; case Float: return 32; case Int: return 32; case Double: return 64; case Long: return 64; default: throw new IllegalArgumentException("illegal call to bits on " + this); } } }