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Retrieving and Parsing Field Modifiers
There are several modifiers that may be part of a field declaration:
- Access modifiers:
public, protected, and
private
- Field-specific modifiers governing runtime behavior:
transient and volatile
- Modifier restricting to one instance:
static
- Modifier prohibiting value modification:
final
- Annotations
The method
Field.getModifiers()
can be used to return the integer representing the set of declared modifiers
for the field. The bits representing the modifiers in this integer are defined
in
java.lang.reflect.Modifier.
The
FieldModifierSpyField.isSynthetic()
and
Field.isEnumCostant()
respectively.
import java.lang.reflect.Field;
import java.lang.reflect.Modifier;
import static java.lang.System.out;
enum Spy { BLACK , WHITE }
public class FieldModifierSpy {
volatile int share;
int instance;
class Inner {}
public static void main(String... args) {
try {
Class<?> c = Class.forName(args[0]);
int searchMods = 0x0;
for (int i = 1; i < args.length; i++) {
searchMods |= modifierFromString(args[i]);
}
Field[] flds = c.getDeclaredFields();
out.format("Fields in Class '%s' containing modifiers: %s%n",
c.getName(),
Modifier.toString(searchMods));
boolean found = false;
for (Field f : flds) {
int foundMods = f.getModifiers();
// Require all of the requested modifiers to be present
if ((foundMods & searchMods) == searchMods) {
out.format("%-8s [ synthetic=%-5b enum_constant=%-5b ]%n",
f.getName(), f.isSynthetic(),
f.isEnumConstant());
found = true;
}
}
if (!found) {
out.format("No matching fields%n");
}
// production code should handle this exception more gracefully
} catch (ClassNotFoundException x) {
x.printStackTrace();
}
}
private static int modifierFromString(String s) {
int m = 0x0;
if ("public".equals(s)) m |= Modifier.PUBLIC;
else if ("protected".equals(s)) m |= Modifier.PROTECTED;
else if ("private".equals(s)) m |= Modifier.PRIVATE;
else if ("static".equals(s)) m |= Modifier.STATIC;
else if ("final".equals(s)) m |= Modifier.FINAL;
else if ("transient".equals(s)) m |= Modifier.TRANSIENT;
else if ("volatile".equals(s)) m |= Modifier.VOLATILE;
return m;
}
}
Sample output follows:
$ java FieldModifierSpy FieldModifierSpy volatile
Fields in Class 'FieldModifierSpy' containing modifiers: volatile
share [ synthetic=false enum_constant=false ]
$ java FieldModifierSpy Spy public
Fields in Class 'Spy' containing modifiers: public
BLACK [ synthetic=false enum_constant=true ]
WHITE [ synthetic=false enum_constant=true ]
$ java FieldModifierSpy FieldModifierSpy\$Inner final
Fields in Class 'FieldModifierSpy$Inner' containing modifiers: final
this$0 [ synthetic=true enum_constant=false ]
$ java FieldModifierSpy Spy private static final
Fields in Class 'Spy' containing modifiers: private static final
$VALUES [ synthetic=true enum_constant=false ]
Notice that some fields are reported even though they are not declared in
the original code. This is because the compiler will generate some
synthetic fields which are needed during runtime. To test whether a
field is synthetic, the example invokes
Field.isSynthetic(). The set of synthetic fields is compiler-dependent; however commonly used
fields include this$0 for inner classes (i.e. nested classes
that are not static member classes) to reference the outermost enclosing class
and $VALUES used by enums to implement the implicitly defined
static method values(). The names of synthetic class members are
not specified and may not be the same in all compiler implementations or
releases. These and other synthetic fields will be included in the array
returned by
Class.getDeclaredFields()
but not identified by
Class.getField()
since synthetic members are not typically public.
Because
Field
implements the interface
java.lang.reflect.AnnotatedElement, it is possible to retrieve any runtime annotation with
java.lang.annotation.RetentionPolicy.RUNTIME. For an example of obtaining annotations see the section Examining Class Modifiers and
Types.
