public abstract enum class net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod extends java.lang.Enum implements net.bytebuddy.asm.Advice$OffsetMapping
{
public static final enum net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD;
public static final enum net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod CONSTRUCTOR;
public static final enum net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod EXECUTABLE;
public static final enum net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD_HANDLE;
public static final enum net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD_TYPE;
private static final net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] $VALUES;
public static net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] values()
{
java.lang.Object v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] v;
v = <net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] $VALUES>;
v = virtualinvoke v.<java.lang.Object: java.lang.Object clone()>();
return v;
}
public static net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod valueOf(java.lang.String)
{
java.lang.String v;
java.lang.Enum v;
v := @parameter: java.lang.String;
v = staticinvoke <java.lang.Enum: java.lang.Enum valueOf(java.lang.Class,java.lang.String)>(class "Lnet/bytebuddy/asm/Advice$OffsetMapping$ForInstrumentedMethod;", v);
return v;
}
private void <init>(java.lang.String, int)
{
int v;
java.lang.String v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod v;
v := @this: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod;
v := @parameter: java.lang.String;
v := @parameter: int;
specialinvoke v.<java.lang.Enum: void <init>(java.lang.String,int)>(v, v);
return;
}
public net.bytebuddy.asm.Advice$OffsetMapping$Target resolve(net.bytebuddy.description.type.TypeDescription, net.bytebuddy.description.method.MethodDescription, net.bytebuddy.implementation.bytecode.assign.Assigner, net.bytebuddy.asm.Advice$ArgumentHandler, net.bytebuddy.asm.Advice$OffsetMapping$Sort)
{
java.lang.IllegalStateException v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod v;
net.bytebuddy.asm.Advice$OffsetMapping$Target v;
net.bytebuddy.implementation.bytecode.assign.Assigner v;
net.bytebuddy.asm.Advice$OffsetMapping$Sort v;
net.bytebuddy.description.ByteCodeElement$TypeDependant v;
net.bytebuddy.description.method.MethodDescription v;
net.bytebuddy.asm.Advice$ArgumentHandler v;
java.lang.String v;
net.bytebuddy.description.type.TypeDescription v;
boolean v;
v := @this: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod;
v := @parameter: net.bytebuddy.description.type.TypeDescription;
v := @parameter: net.bytebuddy.description.method.MethodDescription;
v := @parameter: net.bytebuddy.implementation.bytecode.assign.Assigner;
v := @parameter: net.bytebuddy.asm.Advice$ArgumentHandler;
v := @parameter: net.bytebuddy.asm.Advice$OffsetMapping$Sort;
v = virtualinvoke v.<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: boolean isRepresentable(net.bytebuddy.description.method.MethodDescription)>(v);
if v != 0 goto label;
v = new java.lang.IllegalStateException;
v = dynamicinvoke "makeConcatWithConstants" <java.lang.String (net.bytebuddy.description.method.MethodDescription)>(v) <java.lang.invoke.StringConcatFactory: java.lang.invoke.CallSite makeConcatWithConstants(java.lang.invoke.MethodHandles$Lookup,java.lang.String,java.lang.invoke.MethodType,java.lang.String,java.lang.Object[])>("Cannot represent \u as the specified constant");
specialinvoke v.<java.lang.IllegalStateException: void <init>(java.lang.String)>(v);
throw v;
label:
v = interfaceinvoke v.<net.bytebuddy.description.method.MethodDescription: net.bytebuddy.description.ByteCodeElement$TypeDependant asDefined()>();
v = virtualinvoke v.<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$Target resolve(net.bytebuddy.description.method.MethodDescription$InDefinedShape)>(v);
return v;
}
protected abstract boolean isRepresentable(net.bytebuddy.description.method.MethodDescription);
protected abstract net.bytebuddy.asm.Advice$OffsetMapping$Target resolve(net.bytebuddy.description.method.MethodDescription$InDefinedShape);
private static net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] $values()
{
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod v, v, v, v, v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] v;
v = newarray (net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod)[5];
v = <net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD>;
v[0] = v;
v = <net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod CONSTRUCTOR>;
v[1] = v;
v = <net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod EXECUTABLE>;
v[2] = v;
v = <net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD_HANDLE>;
v[3] = v;
v = <net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD_TYPE>;
v[4] = v;
return v;
}
static void <clinit>()
{
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$1 v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$2 v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$3 v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$4 v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] v;
net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$5 v;
v = new net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$1;
specialinvoke v.<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$1: void <init>(java.lang.String,int)>("METHOD", 0);
<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD> = v;
v = new net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$2;
specialinvoke v.<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$2: void <init>(java.lang.String,int)>("CONSTRUCTOR", 1);
<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod CONSTRUCTOR> = v;
v = new net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$3;
specialinvoke v.<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$3: void <init>(java.lang.String,int)>("EXECUTABLE", 2);
<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod EXECUTABLE> = v;
v = new net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$4;
specialinvoke v.<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$4: void <init>(java.lang.String,int)>("METHOD_HANDLE", 3);
<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD_HANDLE> = v;
v = new net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$5;
specialinvoke v.<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod$5: void <init>(java.lang.String,int)>("METHOD_TYPE", 4);
<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod METHOD_TYPE> = v;
v = staticinvoke <net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] $values()>();
<net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod: net.bytebuddy.asm.Advice$OffsetMapping$ForInstrumentedMethod[] $VALUES> = v;
return;
}
}