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package com.sun.org.apache.bcel.internal.generic;

import com.sun.org.apache.bcel.internal.classfile.ConstantPool;
import com.sun.org.apache.bcel.internal.Constants;
import com.sun.org.apache.bcel.internal.ExceptionConstants;

import java.io.*;
import com.sun.org.apache.bcel.internal.util.ByteSequence;

INVOKEINTERFACE - Invoke interface method
Stack: ..., objectref, [arg1, [arg2 ...]] -> ...
Author: M. Dahm
/** * INVOKEINTERFACE - Invoke interface method * <PRE>Stack: ..., objectref, [arg1, [arg2 ...]] -&gt; ...</PRE> * * @author <A HREF="mailto:markus.dahm@berlin.de">M. Dahm</A> */
public final class INVOKEINTERFACE extends InvokeInstruction { private int nargs; // Number of arguments on stack (number of stack slots), called "count" in vmspec2
Empty constructor needed for the Class.newInstance() statement in Instruction.readInstruction(). Not to be used otherwise.
/** * Empty constructor needed for the Class.newInstance() statement in * Instruction.readInstruction(). Not to be used otherwise. */
INVOKEINTERFACE() {} public INVOKEINTERFACE(int index, int nargs) { super(Constants.INVOKEINTERFACE, index); length = 5; if(nargs < 1) throw new ClassGenException("Number of arguments must be > 0 " + nargs); this.nargs = nargs; }
Dump instruction as byte code to stream out.
Params:
  • out – Output stream
/** * Dump instruction as byte code to stream out. * @param out Output stream */
public void dump(DataOutputStream out) throws IOException { out.writeByte(opcode); out.writeShort(index); out.writeByte(nargs); out.writeByte(0); }
The count argument according to the Java Language Specification, Second Edition.
/** * The <B>count</B> argument according to the Java Language Specification, * Second Edition. */
public int getCount() { return nargs; }
Read needed data (i.e., index) from file.
/** * Read needed data (i.e., index) from file. */
protected void initFromFile(ByteSequence bytes, boolean wide) throws IOException { super.initFromFile(bytes, wide); length = 5; nargs = bytes.readUnsignedByte(); bytes.readByte(); // Skip 0 byte }
Returns:mnemonic for instruction with symbolic references resolved
/** * @return mnemonic for instruction with symbolic references resolved */
public String toString(ConstantPool cp) { return super.toString(cp) + " " + nargs; } public int consumeStack(ConstantPoolGen cpg) { // nargs is given in byte-code return nargs; // nargs includes this reference } public Class[] getExceptions() { Class[] cs = new Class[4 + ExceptionConstants.EXCS_INTERFACE_METHOD_RESOLUTION.length]; System.arraycopy(ExceptionConstants.EXCS_INTERFACE_METHOD_RESOLUTION, 0, cs, 0, ExceptionConstants.EXCS_INTERFACE_METHOD_RESOLUTION.length); cs[ExceptionConstants.EXCS_INTERFACE_METHOD_RESOLUTION.length+3] = ExceptionConstants.INCOMPATIBLE_CLASS_CHANGE_ERROR; cs[ExceptionConstants.EXCS_INTERFACE_METHOD_RESOLUTION.length+2] = ExceptionConstants.ILLEGAL_ACCESS_ERROR; cs[ExceptionConstants.EXCS_INTERFACE_METHOD_RESOLUTION.length+1] = ExceptionConstants.ABSTRACT_METHOD_ERROR; cs[ExceptionConstants.EXCS_INTERFACE_METHOD_RESOLUTION.length] = ExceptionConstants.UNSATISFIED_LINK_ERROR; return cs; }
Call corresponding visitor method(s). The order is: Call visitor methods of implemented interfaces first, then call methods according to the class hierarchy in descending order, i.e., the most specific visitXXX() call comes last.
Params:
  • v – Visitor object
/** * Call corresponding visitor method(s). The order is: * Call visitor methods of implemented interfaces first, then * call methods according to the class hierarchy in descending order, * i.e., the most specific visitXXX() call comes last. * * @param v Visitor object */
public void accept(Visitor v) { v.visitExceptionThrower(this); v.visitTypedInstruction(this); v.visitStackConsumer(this); v.visitStackProducer(this); v.visitLoadClass(this); v.visitCPInstruction(this); v.visitFieldOrMethod(this); v.visitInvokeInstruction(this); v.visitINVOKEINTERFACE(this); } }