8024468: PPC64 (part 201): cppInterpreter: implement bytecode profiling
Summary: Implement profiling for c2 jit compilation. Also enable new cppInterpreter features.
Reviewed-by: kvn
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#ifndef SHARE_VM_OOPS_OBJARRAYOOP_HPP
#define SHARE_VM_OOPS_OBJARRAYOOP_HPP
#include "oops/arrayOop.hpp"
// An objArrayOop is an array containing oops.
// Evaluating "String arg[10]" will create an objArrayOop.
class objArrayOopDesc : public arrayOopDesc {
friend class ObjArrayKlass;
friend class Runtime1;
friend class psPromotionManager;
friend class CSetMarkOopClosure;
friend class G1ParScanPartialArrayClosure;
template <class T> T* obj_at_addr(int index) const {
assert(is_within_bounds(index), "index out of bounds");
return &((T*)base())[index];
}
private:
// Give size of objArrayOop in HeapWords minus the header
static int array_size(int length) {
const int OopsPerHeapWord = HeapWordSize/heapOopSize;
assert(OopsPerHeapWord >= 1 && (HeapWordSize % heapOopSize == 0),
"Else the following (new) computation would be in error");
#ifdef ASSERT
// The old code is left in for sanity-checking; it'll
// go away pretty soon. XXX
// Without UseCompressedOops, this is simply:
// oop->length() * HeapWordsPerOop;
// With narrowOops, HeapWordsPerOop is 1/2 or equal 0 as an integer.
// The oop elements are aligned up to wordSize
const int HeapWordsPerOop = heapOopSize/HeapWordSize;
int old_res;
if (HeapWordsPerOop > 0) {
old_res = length * HeapWordsPerOop;
} else {
old_res = align_size_up(length, OopsPerHeapWord)/OopsPerHeapWord;
}
#endif // ASSERT
int res = ((uint)length + OopsPerHeapWord - 1)/OopsPerHeapWord;
assert(res == old_res, "Inconsistency between old and new.");
return res;
}
public:
// Returns the offset of the first element.
static int base_offset_in_bytes() {
return arrayOopDesc::base_offset_in_bytes(T_OBJECT);
}
// base is the address following the header.
HeapWord* base() const { return (HeapWord*) arrayOopDesc::base(T_OBJECT); }
// Accessing
oop obj_at(int index) const {
// With UseCompressedOops decode the narrow oop in the objArray to an
// uncompressed oop. Otherwise this is simply a "*" operator.
if (UseCompressedOops) {
return load_decode_heap_oop(obj_at_addr<narrowOop>(index));
} else {
return load_decode_heap_oop(obj_at_addr<oop>(index));
}
}
void obj_at_put(int index, oop value) {
if (UseCompressedOops) {
oop_store(obj_at_addr<narrowOop>(index), value);
} else {
oop_store(obj_at_addr<oop>(index), value);
}
}
// Sizing
static int header_size() { return arrayOopDesc::header_size(T_OBJECT); }
int object_size() { return object_size(length()); }
static int object_size(int length) {
// This returns the object size in HeapWords.
uint asz = array_size(length);
uint osz = align_object_size(header_size() + asz);
assert(osz >= asz, "no overflow");
assert((int)osz > 0, "no overflow");
return (int)osz;
}
// special iterators for index ranges, returns size of object
#define ObjArrayOop_OOP_ITERATE_DECL(OopClosureType, nv_suffix) \
int oop_iterate_range(OopClosureType* blk, int start, int end);
ALL_OOP_OOP_ITERATE_CLOSURES_1(ObjArrayOop_OOP_ITERATE_DECL)
ALL_OOP_OOP_ITERATE_CLOSURES_2(ObjArrayOop_OOP_ITERATE_DECL)
};
#endif // SHARE_VM_OOPS_OBJARRAYOOP_HPP