| private getName ( ) : global::java.lang.String | ||
| return | global::java.lang.String | |
protected internal virtual string testName(Method method)
{
return method.getName();
}
private static bool testVirtual(GType type, Class clazz, Method method, bool create, bool isBaseClassPublic)
{
var modifiers = (ModifierFlags) method.getModifiers();
bool isStatic = (modifiers & ModifierFlags.Static) != ModifierFlags.None;
bool isVirtual = (modifiers & ModifierFlags.Final) == ModifierFlags.None;
if (!clazz.isInterface())
{
if (create && !isStatic && isVirtual && !type.IsRootType)
{
Method smethod = clazz.getSuperclass().GetMethodNoThrow(method.getName(), method.GetSignature(), false);
if (smethod != null && isBaseClassPublic)
{
create = false;
}
}
}
return create;
}
public static Generator.MethodInformation getMethodInformation(Method method)
{
if (!Modifier.isNative(method.getModifiers()))
return (Generator.MethodInformation) null;
Generator.MethodInformation methodInformation1 = new Generator.MethodInformation();
methodInformation1.method = method;
methodInformation1.annotations = ((AccessibleObject) method).getAnnotations();
methodInformation1.modifiers = method.getModifiers();
methodInformation1.returnType = method.getReturnType();
methodInformation1.name = method.getName();
methodInformation1.memberName = methodInformation1.name;
Name name1 = (Name) method.getAnnotation((Class) ClassLiteral<Name>.Value);
if (name1 != null)
{
methodInformation1.memberName = name1.value();
methodInformation1.memberNameSuffix = name1.suffix();
}
methodInformation1.parameterTypes = method.getParameterTypes();
methodInformation1.parameterAnnotations = method.getParameterAnnotations();
Class behavior = Generator.getBehavior(method);
int num1 = methodInformation1.returnType != Void.TYPE ? 1 : 0;
int num2 = 1;
for (int index = 0; index < methodInformation1.parameterTypes.Length; ++index)
{
if (methodInformation1.parameterTypes[index] != Integer.TYPE && methodInformation1.parameterTypes[index] != Long.TYPE)
{
num1 = 0;
if (index < methodInformation1.parameterTypes.Length - 1)
num2 = 0;
}
}
int num3 = Modifier.isStatic(methodInformation1.modifiers) || methodInformation1.returnType != Void.TYPE ? 0 : 1;
int num4 = num3 == 0 || methodInformation1.parameterTypes.Length != 1 || methodInformation1.parameterTypes[0] != Integer.TYPE && methodInformation1.parameterTypes[0] != Long.TYPE ? 0 : 1;
int num5 = 0;
int num6 = 0;
int num7 = 0;
int num8 = 0;
Method method1 = (Method) null;
foreach (Method method2 in method.getDeclaringClass().getDeclaredMethods(Generator.__\u003CGetCallerID\u003E()))
{
int modifiers = method2.getModifiers();
Class returnType = method2.getReturnType();
string name2 = method2.getName();
Class[] parameterTypes = method2.getParameterTypes();
if (!method.equals((object) method2) && Modifier.isNative(modifiers))
{
if (String.instancehelper_equals("get", (object) methodInformation1.name) && String.instancehelper_equals("put", (object) name2) && (methodInformation1.parameterTypes.Length == 0 && parameterTypes.Length == 1) && (parameterTypes[0] == methodInformation1.returnType && num1 != 0))
{
num5 = 1;
method1 = method2;
}
else if (String.instancehelper_equals("put", (object) methodInformation1.name) && String.instancehelper_equals("get", (object) name2) && (methodInformation1.parameterTypes.Length == 1 && parameterTypes.Length == 0) && (methodInformation1.parameterTypes[0] == returnType && num2 != 0))
{
num6 = 1;
method1 = method2;
}
else if (String.instancehelper_equals(name2, (object) methodInformation1.name))
{
methodInformation1.overloaded = true;
int num9 = 1;
for (int index = 0; index < methodInformation1.parameterTypes.Length && index < parameterTypes.Length; ++index)
{
if (methodInformation1.parameterTypes[index] != parameterTypes[index])
num9 = 0;
}
if (num9 != 0 && parameterTypes.Length - 1 == methodInformation1.parameterTypes.Length && (methodInformation1.returnType == parameterTypes[parameterTypes.Length - 1] && num1 != 0))
{
num7 = 1;
method1 = method2;
}
else if (num9 != 0 && methodInformation1.parameterTypes.Length - 1 == parameterTypes.Length && (returnType == methodInformation1.parameterTypes[methodInformation1.parameterTypes.Length - 1] && num2 != 0))
{
num8 = 1;
method1 = method2;
}
}
}
}
if (num1 != 0 && behavior == ClassLiteral<ValueGetter>.Value)
methodInformation1.valueGetter = true;
else if (num2 != 0 && behavior == ClassLiteral<ValueSetter>.Value)
methodInformation1.valueSetter = true;
else if (num1 != 0 && behavior == ClassLiteral<MemberGetter>.Value)
methodInformation1.memberGetter = true;
else if (num2 != 0 && behavior == ClassLiteral<MemberSetter>.Value)
methodInformation1.memberSetter = true;
else if (num3 != 0 && behavior == ClassLiteral<Allocator>.Value)
methodInformation1.allocator = true;
else if (num4 != 0 && behavior == ClassLiteral<ArrayAllocator>.Value)
{
Generator.MethodInformation methodInformation2 = methodInformation1;
Generator.MethodInformation methodInformation3 = methodInformation1;
int num9 = 1;
Generator.MethodInformation methodInformation4 = methodInformation3;
int num10 = num9;
methodInformation4.arrayAllocator = num9 != 0;
methodInformation2.allocator = num10 != 0;
}
else if (behavior == null)
{
if (methodInformation1.returnType == Void.TYPE && String.instancehelper_equals("deallocate", (object) methodInformation1.name) && (!Modifier.isStatic(methodInformation1.modifiers) && methodInformation1.parameterTypes.Length == 2) && (methodInformation1.parameterTypes[0] == Long.TYPE && methodInformation1.parameterTypes[1] == Long.TYPE))
methodInformation1.deallocator = true;
else if (num3 != 0 && String.instancehelper_equals("allocate", (object) methodInformation1.name))
methodInformation1.allocator = true;
else if (num4 != 0 && String.instancehelper_equals("allocateArray", (object) methodInformation1.name))
{
Generator.MethodInformation methodInformation2 = methodInformation1;
Generator.MethodInformation methodInformation3 = methodInformation1;
int num9 = 1;
Generator.MethodInformation methodInformation4 = methodInformation3;
int num10 = num9;
methodInformation4.arrayAllocator = num9 != 0;
methodInformation2.allocator = num10 != 0;
}
else if (methodInformation1.returnType.isAssignableFrom((Class) ClassLiteral<ByteBuffer>.Value) && String.instancehelper_equals("asDirectBuffer", (object) methodInformation1.name) && (!Modifier.isStatic(methodInformation1.modifiers) && methodInformation1.parameterTypes.Length == 1) && (methodInformation1.parameterTypes[0] == Integer.TYPE || methodInformation1.parameterTypes[0] == Long.TYPE))
methodInformation1.bufferGetter = true;
else if (num5 != 0)
{
methodInformation1.valueGetter = true;
methodInformation1.pairedMethod = method1;
}
else if (num6 != 0)
{
methodInformation1.valueSetter = true;
methodInformation1.pairedMethod = method1;
}
else if (num7 != 0)
{
methodInformation1.memberGetter = true;
methodInformation1.pairedMethod = method1;
}
else if (num8 != 0)
{
methodInformation1.memberSetter = true;
methodInformation1.pairedMethod = method1;
}
}
else
{
Generator.logger.log((Level) Level.WARNING, new StringBuilder().append("Method \"").append((object) method).append("\" cannot behave like a \"").append((object) behavior).append("\". No code will be generated.").toString());
return (Generator.MethodInformation) null;
}
if (name1 == null && methodInformation1.pairedMethod != null)
{
Name name2 = (Name) methodInformation1.pairedMethod.getAnnotation((Class) ClassLiteral<Name>.Value);
if (name2 != null)
{
methodInformation1.memberName = name2.value();
methodInformation1.memberNameSuffix = name2.suffix();
}
}
methodInformation1.noOffset = ((AccessibleObject) method).isAnnotationPresent((Class) ClassLiteral<NoOffset>.Value);
if (!methodInformation1.noOffset && methodInformation1.pairedMethod != null)
methodInformation1.noOffset = ((AccessibleObject) methodInformation1.pairedMethod).isAnnotationPresent((Class) ClassLiteral<NoOffset>.Value);
return methodInformation1;
}
private static void RegisterJVMMethod(GType type, Method method, bool register)
{
var modifiers = (ModifierFlags)method.getModifiers();
Annotation annotation = HasAnnotation(method, "net.sf.jni4net.attributes.ClrMethod");
if (annotation != null ||
(modifiers & (ModifierFlags.Private | ModifierFlags.Synthetic)) != ModifierFlags.None)
{
if (annotation == null)
{
if (config.Verbose)
{
Console.WriteLine("Skip " + type + "." + method);
}
}
return;
}
var res = new GMethod();
res.Type = type;
res.Name = method.getName();
res.JVMName = res.Name;
res.CLRName = res.JVMName;
res.IsJVMMethod = true;
Class[] parameterTypes = method.getParameterTypes();
for (int i = 0; i < parameterTypes.Length; i++)
{
Class paramType = parameterTypes[i];
res.ParameterNames.Add("par" + i); //+ paramType.ShortName
res.Parameters.Add(RegisterClass(paramType));
}
ConvertJVMAttributes(type, res, method);
res.LowerName = res.Name + res.GetSignatureLowerNoRet();
res.ReturnType = RegisterClass(method.getReturnType());
if (register)
{
bool force = false;
if (UseMethodModifier(type, res, res.Name, res.GetJVMSignature(), ref force))
{
if (config.Verbose)
{
Console.WriteLine("Skip " + type + "." + method);
}
return;
}
FinishRegistration(method.getName(), type, res, force, res.Name + res.GetCLRSignatureNoRet(), skipCLR);
}
}