8202021: Improve variable naming in ReferenceProcesso
Reviewed-by: sangheki, sjohanss
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#ifndef SHARE_VM_GC_G1_G1BLOCKOFFSETTABLE_HPP
#define SHARE_VM_GC_G1_G1BLOCKOFFSETTABLE_HPP
#include "gc/g1/g1RegionToSpaceMapper.hpp"
#include "gc/shared/blockOffsetTable.hpp"
#include "memory/memRegion.hpp"
#include "memory/virtualspace.hpp"
#include "utilities/globalDefinitions.hpp"
// Forward declarations
class G1BlockOffsetTable;
class G1ContiguousSpace;
// This implementation of "G1BlockOffsetTable" divides the covered region
// into "N"-word subregions (where "N" = 2^"LogN". An array with an entry
// for each such subregion indicates how far back one must go to find the
// start of the chunk that includes the first word of the subregion.
//
// Each G1BlockOffsetTablePart is owned by a G1ContiguousSpace.
class G1BlockOffsetTable: public CHeapObj<mtGC> {
friend class G1BlockOffsetTablePart;
friend class VMStructs;
private:
// The reserved region covered by the table.
MemRegion _reserved;
// Array for keeping offsets for retrieving object start fast given an
// address.
u_char* _offset_array; // byte array keeping backwards offsets
void check_offset(size_t offset, const char* msg) const {
assert(offset <= BOTConstants::N_words,
"%s - offset: " SIZE_FORMAT ", N_words: %u",
msg, offset, BOTConstants::N_words);
}
// Bounds checking accessors:
// For performance these have to devolve to array accesses in product builds.
inline u_char offset_array(size_t index) const;
void set_offset_array_raw(size_t index, u_char offset) {
_offset_array[index] = offset;
}
inline void set_offset_array(size_t index, u_char offset);
inline void set_offset_array(size_t index, HeapWord* high, HeapWord* low);
inline void set_offset_array(size_t left, size_t right, u_char offset);
bool is_card_boundary(HeapWord* p) const;
void check_index(size_t index, const char* msg) const NOT_DEBUG_RETURN;
public:
// Return the number of slots needed for an offset array
// that covers mem_region_words words.
static size_t compute_size(size_t mem_region_words) {
size_t number_of_slots = (mem_region_words / BOTConstants::N_words);
return ReservedSpace::allocation_align_size_up(number_of_slots);
}
// Returns how many bytes of the heap a single byte of the BOT corresponds to.
static size_t heap_map_factor() {
return BOTConstants::N_bytes;
}
// Initialize the Block Offset Table to cover the memory region passed
// in the heap parameter.
G1BlockOffsetTable(MemRegion heap, G1RegionToSpaceMapper* storage);
// Return the appropriate index into "_offset_array" for "p".
inline size_t index_for(const void* p) const;
inline size_t index_for_raw(const void* p) const;
// Return the address indicating the start of the region corresponding to
// "index" in "_offset_array".
inline HeapWord* address_for_index(size_t index) const;
// Variant of address_for_index that does not check the index for validity.
inline HeapWord* address_for_index_raw(size_t index) const {
return _reserved.start() + (index << BOTConstants::LogN_words);
}
};
class G1BlockOffsetTablePart {
friend class G1BlockOffsetTable;
friend class VMStructs;
private:
// allocation boundary at which offset array must be updated
HeapWord* _next_offset_threshold;
size_t _next_offset_index; // index corresponding to that boundary
// Indicates if an object can span into this G1BlockOffsetTablePart.
debug_only(bool _object_can_span;)
// This is the global BlockOffsetTable.
G1BlockOffsetTable* _bot;
// The space that owns this subregion.
G1ContiguousSpace* _space;
// Sets the entries
// corresponding to the cards starting at "start" and ending at "end"
// to point back to the card before "start": the interval [start, end)
// is right-open.
void set_remainder_to_point_to_start(HeapWord* start, HeapWord* end);
// Same as above, except that the args here are a card _index_ interval
// that is closed: [start_index, end_index]
void set_remainder_to_point_to_start_incl(size_t start, size_t end);
// Zero out the entry for _bottom (offset will be zero). Does not check for availability of the
// memory first.
void zero_bottom_entry_raw();
// Variant of initialize_threshold that does not check for availability of the
// memory first.
HeapWord* initialize_threshold_raw();
inline size_t block_size(const HeapWord* p) const;
// Returns the address of a block whose start is at most "addr".
// If "has_max_index" is true, "assumes "max_index" is the last valid one
// in the array.
inline HeapWord* block_at_or_preceding(const void* addr,
bool has_max_index,
size_t max_index) const;
// "q" is a block boundary that is <= "addr"; "n" is the address of the
// next block (or the end of the space.) Return the address of the
// beginning of the block that contains "addr". Does so without side
// effects (see, e.g., spec of block_start.)
inline HeapWord* forward_to_block_containing_addr_const(HeapWord* q, HeapWord* n,
const void* addr) const;
// "q" is a block boundary that is <= "addr"; return the address of the
// beginning of the block that contains "addr". May have side effects
// on "this", by updating imprecise entries.
inline HeapWord* forward_to_block_containing_addr(HeapWord* q,
const void* addr);
// "q" is a block boundary that is <= "addr"; "n" is the address of the
// next block (or the end of the space.) Return the address of the
// beginning of the block that contains "addr". May have side effects
// on "this", by updating imprecise entries.
HeapWord* forward_to_block_containing_addr_slow(HeapWord* q,
HeapWord* n,
const void* addr);
// Requires that "*threshold_" be the first array entry boundary at or
// above "blk_start", and that "*index_" be the corresponding array
// index. If the block starts at or crosses "*threshold_", records
// "blk_start" as the appropriate block start for the array index
// starting at "*threshold_", and for any other indices crossed by the
// block. Updates "*threshold_" and "*index_" to correspond to the first
// index after the block end.
void alloc_block_work(HeapWord** threshold_, size_t* index_,
HeapWord* blk_start, HeapWord* blk_end);
void check_all_cards(size_t left_card, size_t right_card) const;
public:
// The elements of the array are initialized to zero.
G1BlockOffsetTablePart(G1BlockOffsetTable* array, G1ContiguousSpace* gsp);
void verify() const;
// Returns the address of the start of the block containing "addr", or
// else "null" if it is covered by no block. (May have side effects,
// namely updating of shared array entries that "point" too far
// backwards. This can occur, for example, when lab allocation is used
// in a space covered by the table.)
inline HeapWord* block_start(const void* addr);
// Same as above, but does not have any of the possible side effects
// discussed above.
inline HeapWord* block_start_const(const void* addr) const;
// Initialize the threshold to reflect the first boundary after the
// bottom of the covered region.
HeapWord* initialize_threshold();
void reset_bot() {
zero_bottom_entry_raw();
initialize_threshold_raw();
}
// Return the next threshold, the point at which the table should be
// updated.
HeapWord* threshold() const { return _next_offset_threshold; }
// These must be guaranteed to work properly (i.e., do nothing)
// when "blk_start" ("blk" for second version) is "NULL". In this
// implementation, that's true because NULL is represented as 0, and thus
// never exceeds the "_next_offset_threshold".
void alloc_block(HeapWord* blk_start, HeapWord* blk_end) {
if (blk_end > _next_offset_threshold) {
alloc_block_work(&_next_offset_threshold, &_next_offset_index, blk_start, blk_end);
}
}
void alloc_block(HeapWord* blk, size_t size) {
alloc_block(blk, blk+size);
}
void set_for_starts_humongous(HeapWord* obj_top, size_t fill_size);
void set_object_can_span(bool can_span) NOT_DEBUG_RETURN;
void print_on(outputStream* out) PRODUCT_RETURN;
};
#endif // SHARE_VM_GC_G1_G1BLOCKOFFSETTABLE_HPP