package sun.jvm.hotspot.oops;
import java.io.*;
import java.util.*;
import sun.jvm.hotspot.debugger.*;
import sun.jvm.hotspot.runtime.*;
import sun.jvm.hotspot.types.*;
import sun.jvm.hotspot.utilities.*;
public class CallTypeData<K,M> extends CounterData implements CallTypeDataInterface<K> {
final TypeStackSlotEntries<K,M> args;
final ReturnTypeEntry<K,M> ret;
int cellCountGlobalOffset() {
return CounterData.staticCellCount() + TypeEntriesAtCall.cellCountLocalOffset();
}
int () {
return uintAt(cellCountGlobalOffset());
}
public CallTypeData(MethodDataInterface<K,M> methodData, DataLayout layout) {
super(layout);
args = new TypeStackSlotEntries<K,M>(methodData, this, CounterData.staticCellCount()+TypeEntriesAtCall.headerCellCount(), numberOfArguments());
ret = new ReturnTypeEntry<K,M>(methodData, this, cellCount() - ReturnTypeEntry.staticCellCount());
}
static int staticCellCount() {
return -1;
}
public int cellCount() {
return CounterData.staticCellCount() +
TypeEntriesAtCall.headerCellCount() +
intAt(cellCountGlobalOffset());
}
public int numberOfArguments() {
return cellCountNoHeader() / TypeStackSlotEntries.perArgCount();
}
public boolean hasArguments() {
return cellCountNoHeader() >= TypeStackSlotEntries.perArgCount();
}
public K argumentType(int i) {
return args.type(i);
}
public boolean hasReturn() {
return (cellCountNoHeader() % TypeStackSlotEntries.perArgCount()) != 0;
}
public K returnType() {
return ret.type();
}
public int argumentTypeIndex(int i) {
return args.typeIndex(i);
}
public int returnTypeIndex() {
return ret.typeIndex();
}
public void printDataOn(PrintStream st) {
super.printDataOn(st);
if (hasArguments()) {
tab(st);
st.print("argument types");
args.printDataOn(st);
}
if (hasReturn()) {
tab(st);
st.print("return type");
ret.printDataOn(st);
}
}
}