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#ifndef SHARE_OOPS_ARRAYOOP_HPP
#define SHARE_OOPS_ARRAYOOP_HPP
#include "oops/oop.hpp"
#include "utilities/align.hpp"
// arrayOopDesc is the abstract baseclass for all arrays. It doesn't
// declare pure virtual to enforce this because that would allocate a vtbl
// in each instance, which we don't want.
// The layout of array Oops is:
//
// markWord
// Klass* // 32 bits if compressed but declared 64 in LP64.
// length // shares klass memory or allocated after declared fields.
class arrayOopDesc : public oopDesc {
friend class VMStructs;
friend class arrayOopDescTest;
// Interpreter/Compiler offsets
// Header size computation.
// The header is considered the oop part of this type plus the length.
// Returns the aligned header_size_in_bytes. This is not equivalent to
// sizeof(arrayOopDesc) which should not appear in the code.
static int header_size_in_bytes() {
size_t hs = align_up(length_offset_in_bytes() + sizeof(int),
HeapWordSize);
#ifdef ASSERT
// make sure it isn't called before UseCompressedOops is initialized.
static size_t arrayoopdesc_hs = 0;
if (arrayoopdesc_hs == 0) arrayoopdesc_hs = hs;
assert(arrayoopdesc_hs == hs, "header size can't change");
#endif // ASSERT
return (int)hs;
}
// Check whether an element of a typeArrayOop with the given type must be
// aligned 0 mod 8. The typeArrayOop itself must be aligned at least this
// strongly.
static bool element_type_should_be_aligned(BasicType type) {
return type == T_DOUBLE || type == T_LONG;
}
public:
// The _length field is not declared in C++. It is allocated after the
// declared nonstatic fields in arrayOopDesc if not compressed, otherwise
// it occupies the second half of the _klass field in oopDesc.
static int length_offset_in_bytes() {
return UseCompressedClassPointers ? klass_gap_offset_in_bytes() :
sizeof(arrayOopDesc);
}
// Returns the offset of the first element.
static int base_offset_in_bytes(BasicType type) {
return header_size(type) * HeapWordSize;
}
// Returns the address of the first element. The elements in the array will not
// relocate from this address until a subsequent thread transition.
inline void* base(BasicType type) const;
inline void* base_raw(BasicType type) const; // GC barrier invariant
template <typename T>
static T* obj_offset_to_raw(arrayOop obj, size_t offset_in_bytes, T* raw) {
if (obj != NULL) {
assert(raw == NULL, "either raw or in-heap");
char* base = reinterpret_cast<char*>((void*) obj);
raw = reinterpret_cast<T*>(base + offset_in_bytes);
} else {
assert(raw != NULL, "either raw or in-heap");
}
return raw;
}
// Tells whether index is within bounds.
bool is_within_bounds(int index) const { return 0 <= index && index < length(); }
// Accessors for instance variable which is not a C++ declared nonstatic
// field.
int length() const {
return *(int*)(((intptr_t)this) + length_offset_in_bytes());
}
void set_length(int length) {
set_length((HeapWord*)this, length);
}
static void set_length(HeapWord* mem, int length) {
*(int*)(((char*)mem) + length_offset_in_bytes()) = length;
}
// Should only be called with constants as argument
// (will not constant fold otherwise)
// Returns the header size in words aligned to the requirements of the
// array object type.
static int header_size(BasicType type) {
size_t typesize_in_bytes = header_size_in_bytes();
return (int)(element_type_should_be_aligned(type)
? align_object_offset(typesize_in_bytes/HeapWordSize)
: typesize_in_bytes/HeapWordSize);
}
// Return the maximum length of an array of BasicType. The length can passed
// to typeArrayOop::object_size(scale, length, header_size) without causing an
// overflow. We also need to make sure that this will not overflow a size_t on
// 32 bit platforms when we convert it to a byte size.
static int32_t max_array_length(BasicType type) {
assert(type >= 0 && type < T_CONFLICT, "wrong type");
assert(type2aelembytes(type) != 0, "wrong type");
const size_t max_element_words_per_size_t =
align_down((SIZE_MAX/HeapWordSize - header_size(type)), MinObjAlignment);
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