8155672: Remove instanceKlassHandles and KlassHandles
Summary: Summary: Use unhandled pointers for Klass and InstanceKlass, remove handles with no implementation.
Reviewed-by: dholmes, lfoltan, vlivanov, sspitsyn
/*
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* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
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* 2 along with this work; if not, write to the Free Software Foundation,
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#ifndef SHARE_VM_GC_SHARED_SPACEDECORATOR_HPP
#define SHARE_VM_GC_SHARED_SPACEDECORATOR_HPP
#include "gc/parallel/mutableSpace.hpp"
#include "gc/shared/space.hpp"
#include "utilities/globalDefinitions.hpp"
class SpaceDecorator: public AllStatic {
public:
// Initialization flags.
static const bool Clear = true;
static const bool DontClear = false;
static const bool Mangle = true;
static const bool DontMangle = false;
};
// Functionality for use with class Space and class MutableSpace.
// The approach taken with the mangling is to mangle all
// the space initially and then to mangle areas that have
// been allocated since the last collection. Mangling is
// done in the context of a generation and in the context
// of a space.
// The space in a generation is mangled when it is first
// initialized and when the generation grows. The spaces
// are not necessarily up-to-date when this mangling occurs
// and the method mangle_region() is used.
// After allocations have been done in a space, the space generally
// need to be remangled. Remangling is only done on the
// recently allocated regions in the space. Typically, that is
// the region between the new top and the top just before a
// garbage collection.
// An exception to the usual mangling in a space is done when the
// space is used for an extraordinary purpose. Specifically, when
// to-space is used as scratch space for a mark-sweep-compact
// collection.
// Spaces are mangled after a collection. If the generation
// grows after a collection, the added space is mangled as part of
// the growth of the generation. No additional mangling is needed when the
// spaces are resized after an expansion.
// The class SpaceMangler keeps a pointer to the top of the allocated
// area and provides the methods for doing the piece meal mangling.
// Methods for doing sparces and full checking of the mangling are
// included. The full checking is done if DEBUG_MANGLING is defined.
// GenSpaceMangler is used with the GenCollectedHeap collectors and
// MutableSpaceMangler is used with the ParallelScavengeHeap collectors.
// These subclasses abstract the differences in the types of spaces used
// by each heap.
class SpaceMangler: public CHeapObj<mtGC> {
friend class VMStructs;
// High water mark for allocations. Typically, the space above
// this point have been mangle previously and don't need to be
// touched again. Space below this point has been allocated
// and remangling is needed between the current top and this
// high water mark.
HeapWord* _top_for_allocations;
HeapWord* top_for_allocations() { return _top_for_allocations; }
public:
// Setting _top_for_allocations to NULL at initialization
// makes it always below top so that mangling done as part
// of the initialize() call of a space does nothing (as it
// should since the mangling is done as part of the constructor
// for the space.
SpaceMangler() : _top_for_allocations(NULL) {}
// Methods for top and end that delegate to the specific
// space type.
virtual HeapWord* top() const = 0;
virtual HeapWord* end() const = 0;
// Return true if q matches the mangled pattern.
static bool is_mangled(HeapWord* q) PRODUCT_RETURN0;
// Used to save the an address in a space for later use during mangling.
void set_top_for_allocations(HeapWord* v);
// Overwrites the unused portion of this space.
// Mangle only the region not previously mangled [top, top_previously_mangled)
void mangle_unused_area();
// Mangle all the unused region [top, end)
void mangle_unused_area_complete();
// Do some sparse checking on the area that should have been mangled.
void check_mangled_unused_area(HeapWord* limit) PRODUCT_RETURN;
// Do a complete check of the area that should be mangled.
void check_mangled_unused_area_complete() PRODUCT_RETURN;
// Mangle the MemRegion. This is a non-space specific mangler. It
// is used during the initial mangling of a space before the space
// is fully constructed. Also is used when a generation is expanded
// and possibly before the spaces have been reshaped to to the new
// size of the generation.
static void mangle_region(MemRegion mr) PRODUCT_RETURN;
};
class ContiguousSpace;
// For use with GenCollectedHeap's
class GenSpaceMangler: public SpaceMangler {
ContiguousSpace* _sp;
ContiguousSpace* sp() { return _sp; }
HeapWord* top() const { return _sp->top(); }
HeapWord* end() const { return _sp->end(); }
public:
GenSpaceMangler(ContiguousSpace* sp) : SpaceMangler(), _sp(sp) {}
};
// For use with ParallelScavengeHeap's.
class MutableSpaceMangler: public SpaceMangler {
MutableSpace* _sp;
MutableSpace* sp() { return _sp; }
HeapWord* top() const { return _sp->top(); }
HeapWord* end() const { return _sp->end(); }
public:
MutableSpaceMangler(MutableSpace* sp) : SpaceMangler(), _sp(sp) {}
};
#endif // SHARE_VM_GC_SHARED_SPACEDECORATOR_HPP