Mercurial > hg > truffle
changeset 12830:9b4d0569f2f4
8025852: Remove unnecessary setters in collector policy classes
Summary: Use instance variables directly within the collector policy classes and remove unused setters.
Reviewed-by: tschatzl, jcoomes
| author | jwilhelm |
|---|---|
| date | Thu, 03 Oct 2013 21:36:29 +0200 |
| parents | c49c7f835e8d |
| children | 087f02e22fc2 263f2c796d6c |
| files | src/share/vm/gc_implementation/g1/g1CollectorPolicy.cpp src/share/vm/memory/collectorPolicy.cpp src/share/vm/memory/collectorPolicy.hpp |
| diffstat | 3 files changed, 107 insertions(+), 131 deletions(-) [+] |
line wrap: on
line diff
--- a/src/share/vm/gc_implementation/g1/g1CollectorPolicy.cpp Thu Oct 03 17:16:23 2013 +0200 +++ b/src/share/vm/gc_implementation/g1/g1CollectorPolicy.cpp Thu Oct 03 21:36:29 2013 +0200 @@ -319,10 +319,10 @@ } void G1CollectorPolicy::initialize_flags() { - set_min_alignment(HeapRegion::GrainBytes); + _min_alignment = HeapRegion::GrainBytes; size_t card_table_alignment = GenRemSet::max_alignment_constraint(rem_set_name()); size_t page_size = UseLargePages ? os::large_page_size() : os::vm_page_size(); - set_max_alignment(MAX3(card_table_alignment, min_alignment(), page_size)); + _max_alignment = MAX3(card_table_alignment, _min_alignment, page_size); if (SurvivorRatio < 1) { vm_exit_during_initialization("Invalid survivor ratio specified"); }
--- a/src/share/vm/memory/collectorPolicy.cpp Thu Oct 03 17:16:23 2013 +0200 +++ b/src/share/vm/memory/collectorPolicy.cpp Thu Oct 03 21:36:29 2013 +0200 @@ -53,12 +53,12 @@ } void CollectorPolicy::initialize_flags() { - assert(max_alignment() >= min_alignment(), - err_msg("max_alignment: " SIZE_FORMAT " less than min_alignment: " SIZE_FORMAT, - max_alignment(), min_alignment())); - assert(max_alignment() % min_alignment() == 0, - err_msg("max_alignment: " SIZE_FORMAT " not aligned by min_alignment: " SIZE_FORMAT, - max_alignment(), min_alignment())); + assert(_max_alignment >= _min_alignment, + err_msg("max_alignment: " SIZE_FORMAT " less than min_alignment: " SIZE_FORMAT, + _max_alignment, _min_alignment)); + assert(_max_alignment % _min_alignment == 0, + err_msg("max_alignment: " SIZE_FORMAT " not aligned by min_alignment: " SIZE_FORMAT, + _max_alignment, _min_alignment)); if (MaxHeapSize < InitialHeapSize) { vm_exit_during_initialization("Incompatible initial and maximum heap sizes specified"); @@ -72,23 +72,23 @@ // Ideally, we would be able to set the default value of MaxMetaspaceSize in // globals.hpp to the aligned value, but this is not possible, since the // alignment depends on other flags being parsed. - MaxMetaspaceSize = restricted_align_down(MaxMetaspaceSize, max_alignment()); + MaxMetaspaceSize = restricted_align_down(MaxMetaspaceSize, _max_alignment); if (MetaspaceSize > MaxMetaspaceSize) { MetaspaceSize = MaxMetaspaceSize; } - MetaspaceSize = restricted_align_down(MetaspaceSize, min_alignment()); + MetaspaceSize = restricted_align_down(MetaspaceSize, _min_alignment); assert(MetaspaceSize <= MaxMetaspaceSize, "Must be"); - MinMetaspaceExpansion = restricted_align_down(MinMetaspaceExpansion, min_alignment()); - MaxMetaspaceExpansion = restricted_align_down(MaxMetaspaceExpansion, min_alignment()); + MinMetaspaceExpansion = restricted_align_down(MinMetaspaceExpansion, _min_alignment); + MaxMetaspaceExpansion = restricted_align_down(MaxMetaspaceExpansion, _min_alignment); - MinHeapDeltaBytes = align_size_up(MinHeapDeltaBytes, min_alignment()); + MinHeapDeltaBytes = align_size_up(MinHeapDeltaBytes, _min_alignment); - assert(MetaspaceSize % min_alignment() == 0, "metapace alignment"); - assert(MaxMetaspaceSize % max_alignment() == 0, "maximum metaspace alignment"); + assert(MetaspaceSize % _min_alignment == 0, "metapace alignment"); + assert(MaxMetaspaceSize % _max_alignment == 0, "maximum metaspace alignment"); if (MetaspaceSize < 256*K) { vm_exit_during_initialization("Too small initial Metaspace size"); } @@ -96,36 +96,36 @@ void CollectorPolicy::initialize_size_info() { // User inputs from -mx and ms must be aligned - set_min_heap_byte_size(align_size_up(Arguments::min_heap_size(), min_alignment())); - set_initial_heap_byte_size(align_size_up(InitialHeapSize, min_alignment())); - set_max_heap_byte_size(align_size_up(MaxHeapSize, max_alignment())); + _min_heap_byte_size = align_size_up(Arguments::min_heap_size(), _min_alignment); + _initial_heap_byte_size = align_size_up(InitialHeapSize, _min_alignment); + _max_heap_byte_size = align_size_up(MaxHeapSize, _max_alignment); // Check heap parameter properties - if (initial_heap_byte_size() < M) { + if (_initial_heap_byte_size < M) { vm_exit_during_initialization("Too small initial heap"); } // Check heap parameter properties - if (min_heap_byte_size() < M) { + if (_min_heap_byte_size < M) { vm_exit_during_initialization("Too small minimum heap"); } - if (initial_heap_byte_size() <= NewSize) { + if (_initial_heap_byte_size <= NewSize) { // make sure there is at least some room in old space vm_exit_during_initialization("Too small initial heap for new size specified"); } - if (max_heap_byte_size() < min_heap_byte_size()) { + if (_max_heap_byte_size < _min_heap_byte_size) { vm_exit_during_initialization("Incompatible minimum and maximum heap sizes specified"); } - if (initial_heap_byte_size() < min_heap_byte_size()) { + if (_initial_heap_byte_size < _min_heap_byte_size) { vm_exit_during_initialization("Incompatible minimum and initial heap sizes specified"); } - if (max_heap_byte_size() < initial_heap_byte_size()) { + if (_max_heap_byte_size < _initial_heap_byte_size) { vm_exit_during_initialization("Incompatible initial and maximum heap sizes specified"); } if (PrintGCDetails && Verbose) { gclog_or_tty->print_cr("Minimum heap " SIZE_FORMAT " Initial heap " SIZE_FORMAT " Maximum heap " SIZE_FORMAT, - min_heap_byte_size(), initial_heap_byte_size(), max_heap_byte_size()); + _min_heap_byte_size, _initial_heap_byte_size, _max_heap_byte_size); } } @@ -180,15 +180,15 @@ size_t GenCollectorPolicy::scale_by_NewRatio_aligned(size_t base_size) { size_t x = base_size / (NewRatio+1); - size_t new_gen_size = x > min_alignment() ? - align_size_down(x, min_alignment()) : - min_alignment(); + size_t new_gen_size = x > _min_alignment ? + align_size_down(x, _min_alignment) : + _min_alignment; return new_gen_size; } size_t GenCollectorPolicy::bound_minus_alignment(size_t desired_size, size_t maximum_size) { - size_t alignment = min_alignment(); + size_t alignment = _min_alignment; size_t max_minus = maximum_size - alignment; return desired_size < max_minus ? desired_size : max_minus; } @@ -207,8 +207,8 @@ void GenCollectorPolicy::initialize_flags() { // All sizes must be multiples of the generation granularity. - set_min_alignment((uintx) Generation::GenGrain); - set_max_alignment(compute_max_alignment()); + _min_alignment = (uintx) Generation::GenGrain; + _max_alignment = compute_max_alignment(); CollectorPolicy::initialize_flags(); @@ -218,14 +218,14 @@ if (NewSize > MaxNewSize) { MaxNewSize = NewSize; } - NewSize = align_size_down(NewSize, min_alignment()); - MaxNewSize = align_size_down(MaxNewSize, min_alignment()); + NewSize = align_size_down(NewSize, _min_alignment); + MaxNewSize = align_size_down(MaxNewSize, _min_alignment); // Check validity of heap flags - assert(NewSize % min_alignment() == 0, "eden space alignment"); - assert(MaxNewSize % min_alignment() == 0, "survivor space alignment"); + assert(NewSize % _min_alignment == 0, "eden space alignment"); + assert(MaxNewSize % _min_alignment == 0, "survivor space alignment"); - if (NewSize < 3*min_alignment()) { + if (NewSize < 3 * _min_alignment) { // make sure there room for eden and two survivor spaces vm_exit_during_initialization("Too small new size specified"); } @@ -237,7 +237,7 @@ void TwoGenerationCollectorPolicy::initialize_flags() { GenCollectorPolicy::initialize_flags(); - OldSize = align_size_down(OldSize, min_alignment()); + OldSize = align_size_down(OldSize, _min_alignment); if (FLAG_IS_CMDLINE(OldSize) && FLAG_IS_DEFAULT(NewSize)) { // NewRatio will be used later to set the young generation size so we use @@ -246,11 +246,11 @@ assert(NewRatio > 0, "NewRatio should have been set up earlier"); size_t calculated_heapsize = (OldSize / NewRatio) * (NewRatio + 1); - calculated_heapsize = align_size_up(calculated_heapsize, max_alignment()); + calculated_heapsize = align_size_up(calculated_heapsize, _max_alignment); MaxHeapSize = calculated_heapsize; InitialHeapSize = calculated_heapsize; } - MaxHeapSize = align_size_up(MaxHeapSize, max_alignment()); + MaxHeapSize = align_size_up(MaxHeapSize, _max_alignment); // adjust max heap size if necessary if (NewSize + OldSize > MaxHeapSize) { @@ -260,18 +260,18 @@ uintx calculated_size = NewSize + OldSize; double shrink_factor = (double) MaxHeapSize / calculated_size; // align - NewSize = align_size_down((uintx) (NewSize * shrink_factor), min_alignment()); + NewSize = align_size_down((uintx) (NewSize * shrink_factor), _min_alignment); // OldSize is already aligned because above we aligned MaxHeapSize to - // max_alignment(), and we just made sure that NewSize is aligned to - // min_alignment(). In initialize_flags() we verified that max_alignment() - // is a multiple of min_alignment(). + // _max_alignment, and we just made sure that NewSize is aligned to + // _min_alignment. In initialize_flags() we verified that _max_alignment + // is a multiple of _min_alignment. OldSize = MaxHeapSize - NewSize; } else { MaxHeapSize = NewSize + OldSize; } } // need to do this again - MaxHeapSize = align_size_up(MaxHeapSize, max_alignment()); + MaxHeapSize = align_size_up(MaxHeapSize, _max_alignment); // adjust max heap size if necessary if (NewSize + OldSize > MaxHeapSize) { @@ -281,24 +281,24 @@ uintx calculated_size = NewSize + OldSize; double shrink_factor = (double) MaxHeapSize / calculated_size; // align - NewSize = align_size_down((uintx) (NewSize * shrink_factor), min_alignment()); + NewSize = align_size_down((uintx) (NewSize * shrink_factor), _min_alignment); // OldSize is already aligned because above we aligned MaxHeapSize to - // max_alignment(), and we just made sure that NewSize is aligned to - // min_alignment(). In initialize_flags() we verified that max_alignment() - // is a multiple of min_alignment(). + // _max_alignment, and we just made sure that NewSize is aligned to + // _min_alignment. In initialize_flags() we verified that _max_alignment + // is a multiple of _min_alignment. OldSize = MaxHeapSize - NewSize; } else { MaxHeapSize = NewSize + OldSize; } } // need to do this again - MaxHeapSize = align_size_up(MaxHeapSize, max_alignment()); + MaxHeapSize = align_size_up(MaxHeapSize, _max_alignment); always_do_update_barrier = UseConcMarkSweepGC; // Check validity of heap flags - assert(OldSize % min_alignment() == 0, "old space alignment"); - assert(MaxHeapSize % max_alignment() == 0, "maximum heap alignment"); + assert(OldSize % _min_alignment == 0, "old space alignment"); + assert(MaxHeapSize % _max_alignment == 0, "maximum heap alignment"); } // Values set on the command line win over any ergonomically @@ -313,7 +313,7 @@ void GenCollectorPolicy::initialize_size_info() { CollectorPolicy::initialize_size_info(); - // min_alignment() is used for alignment within a generation. + // _min_alignment is used for alignment within a generation. // There is additional alignment done down stream for some // collectors that sometimes causes unwanted rounding up of // generations sizes. @@ -322,18 +322,18 @@ size_t max_new_size = 0; if (FLAG_IS_CMDLINE(MaxNewSize) || FLAG_IS_ERGO(MaxNewSize)) { - if (MaxNewSize < min_alignment()) { - max_new_size = min_alignment(); + if (MaxNewSize < _min_alignment) { + max_new_size = _min_alignment; } - if (MaxNewSize >= max_heap_byte_size()) { - max_new_size = align_size_down(max_heap_byte_size() - min_alignment(), - min_alignment()); + if (MaxNewSize >= _max_heap_byte_size) { + max_new_size = align_size_down(_max_heap_byte_size - _min_alignment, + _min_alignment); warning("MaxNewSize (" SIZE_FORMAT "k) is equal to or " "greater than the entire heap (" SIZE_FORMAT "k). A " "new generation size of " SIZE_FORMAT "k will be used.", - MaxNewSize/K, max_heap_byte_size()/K, max_new_size/K); + MaxNewSize/K, _max_heap_byte_size/K, max_new_size/K); } else { - max_new_size = align_size_down(MaxNewSize, min_alignment()); + max_new_size = align_size_down(MaxNewSize, _min_alignment); } // The case for FLAG_IS_ERGO(MaxNewSize) could be treated @@ -351,7 +351,7 @@ // just accept those choices. The choices currently made are // not always "wise". } else { - max_new_size = scale_by_NewRatio_aligned(max_heap_byte_size()); + max_new_size = scale_by_NewRatio_aligned(_max_heap_byte_size); // Bound the maximum size by NewSize below (since it historically // would have been NewSize and because the NewRatio calculation could // yield a size that is too small) and bound it by MaxNewSize above. @@ -364,13 +364,13 @@ // Given the maximum gen0 size, determine the initial and // minimum gen0 sizes. - if (max_heap_byte_size() == min_heap_byte_size()) { + if (_max_heap_byte_size == _min_heap_byte_size) { // The maximum and minimum heap sizes are the same so // the generations minimum and initial must be the // same as its maximum. - set_min_gen0_size(max_new_size); - set_initial_gen0_size(max_new_size); - set_max_gen0_size(max_new_size); + _min_gen0_size = max_new_size; + _initial_gen0_size = max_new_size; + _max_gen0_size = max_new_size; } else { size_t desired_new_size = 0; if (!FLAG_IS_DEFAULT(NewSize)) { @@ -391,43 +391,37 @@ // Use the default NewSize as the floor for these values. If // NewRatio is overly large, the resulting sizes can be too // small. - _min_gen0_size = MAX2(scale_by_NewRatio_aligned(min_heap_byte_size()), - NewSize); + _min_gen0_size = MAX2(scale_by_NewRatio_aligned(_min_heap_byte_size), NewSize); desired_new_size = - MAX2(scale_by_NewRatio_aligned(initial_heap_byte_size()), - NewSize); + MAX2(scale_by_NewRatio_aligned(_initial_heap_byte_size), NewSize); } assert(_min_gen0_size > 0, "Sanity check"); - set_initial_gen0_size(desired_new_size); - set_max_gen0_size(max_new_size); + _initial_gen0_size = desired_new_size; + _max_gen0_size = max_new_size; // At this point the desirable initial and minimum sizes have been // determined without regard to the maximum sizes. // Bound the sizes by the corresponding overall heap sizes. - set_min_gen0_size( - bound_minus_alignment(_min_gen0_size, min_heap_byte_size())); - set_initial_gen0_size( - bound_minus_alignment(_initial_gen0_size, initial_heap_byte_size())); - set_max_gen0_size( - bound_minus_alignment(_max_gen0_size, max_heap_byte_size())); + _min_gen0_size = bound_minus_alignment(_min_gen0_size, _min_heap_byte_size); + _initial_gen0_size = bound_minus_alignment(_initial_gen0_size, _initial_heap_byte_size); + _max_gen0_size = bound_minus_alignment(_max_gen0_size, _max_heap_byte_size); // At this point all three sizes have been checked against the // maximum sizes but have not been checked for consistency // among the three. // Final check min <= initial <= max - set_min_gen0_size(MIN2(_min_gen0_size, _max_gen0_size)); - set_initial_gen0_size( - MAX2(MIN2(_initial_gen0_size, _max_gen0_size), _min_gen0_size)); - set_min_gen0_size(MIN2(_min_gen0_size, _initial_gen0_size)); + _min_gen0_size = MIN2(_min_gen0_size, _max_gen0_size); + _initial_gen0_size = MAX2(MIN2(_initial_gen0_size, _max_gen0_size), _min_gen0_size); + _min_gen0_size = MIN2(_min_gen0_size, _initial_gen0_size); } if (PrintGCDetails && Verbose) { gclog_or_tty->print_cr("1: Minimum gen0 " SIZE_FORMAT " Initial gen0 " SIZE_FORMAT " Maximum gen0 " SIZE_FORMAT, - min_gen0_size(), initial_gen0_size(), max_gen0_size()); + _min_gen0_size, _initial_gen0_size, _max_gen0_size); } } @@ -447,19 +441,17 @@ if ((*gen1_size_ptr + *gen0_size_ptr) > heap_size) { if ((heap_size < (*gen0_size_ptr + min_gen1_size)) && - (heap_size >= min_gen1_size + min_alignment())) { + (heap_size >= min_gen1_size + _min_alignment)) { // Adjust gen0 down to accommodate min_gen1_size *gen0_size_ptr = heap_size - min_gen1_size; *gen0_size_ptr = - MAX2((uintx)align_size_down(*gen0_size_ptr, min_alignment()), - min_alignment()); + MAX2((uintx)align_size_down(*gen0_size_ptr, _min_alignment), _min_alignment); assert(*gen0_size_ptr > 0, "Min gen0 is too large"); result = true; } else { *gen1_size_ptr = heap_size - *gen0_size_ptr; *gen1_size_ptr = - MAX2((uintx)align_size_down(*gen1_size_ptr, min_alignment()), - min_alignment()); + MAX2((uintx)align_size_down(*gen1_size_ptr, _min_alignment), _min_alignment); } } return result; @@ -480,10 +472,9 @@ // The maximum gen1 size can be determined from the maximum gen0 // and maximum heap size since no explicit flags exits // for setting the gen1 maximum. - _max_gen1_size = max_heap_byte_size() - _max_gen0_size; + _max_gen1_size = _max_heap_byte_size - _max_gen0_size; _max_gen1_size = - MAX2((uintx)align_size_down(_max_gen1_size, min_alignment()), - min_alignment()); + MAX2((uintx)align_size_down(_max_gen1_size, _min_alignment), _min_alignment); // If no explicit command line flag has been set for the // gen1 size, use what is left for gen1. if (FLAG_IS_DEFAULT(OldSize) || FLAG_IS_ERGO(OldSize)) { @@ -492,70 +483,66 @@ // with the overall heap size). In either case make // the minimum, maximum and initial sizes consistent // with the gen0 sizes and the overall heap sizes. - assert(min_heap_byte_size() > _min_gen0_size, + assert(_min_heap_byte_size > _min_gen0_size, "gen0 has an unexpected minimum size"); - set_min_gen1_size(min_heap_byte_size() - min_gen0_size()); - set_min_gen1_size( - MAX2((uintx)align_size_down(_min_gen1_size, min_alignment()), - min_alignment())); - set_initial_gen1_size(initial_heap_byte_size() - initial_gen0_size()); - set_initial_gen1_size( - MAX2((uintx)align_size_down(_initial_gen1_size, min_alignment()), - min_alignment())); - + _min_gen1_size = _min_heap_byte_size - _min_gen0_size; + _min_gen1_size = + MAX2((uintx)align_size_down(_min_gen1_size, _min_alignment), _min_alignment); + _initial_gen1_size = _initial_heap_byte_size - _initial_gen0_size; + _initial_gen1_size = + MAX2((uintx)align_size_down(_initial_gen1_size, _min_alignment), _min_alignment); } else { // It's been explicitly set on the command line. Use the // OldSize and then determine the consequences. - set_min_gen1_size(OldSize); - set_initial_gen1_size(OldSize); + _min_gen1_size = OldSize; + _initial_gen1_size = OldSize; // If the user has explicitly set an OldSize that is inconsistent // with other command line flags, issue a warning. // The generation minimums and the overall heap mimimum should // be within one heap alignment. - if ((_min_gen1_size + _min_gen0_size + min_alignment()) < - min_heap_byte_size()) { + if ((_min_gen1_size + _min_gen0_size + _min_alignment) < _min_heap_byte_size) { warning("Inconsistency between minimum heap size and minimum " - "generation sizes: using minimum heap = " SIZE_FORMAT, - min_heap_byte_size()); + "generation sizes: using minimum heap = " SIZE_FORMAT, + _min_heap_byte_size); } if ((OldSize > _max_gen1_size)) { warning("Inconsistency between maximum heap size and maximum " - "generation sizes: using maximum heap = " SIZE_FORMAT - " -XX:OldSize flag is being ignored", - max_heap_byte_size()); + "generation sizes: using maximum heap = " SIZE_FORMAT + " -XX:OldSize flag is being ignored", + _max_heap_byte_size); } // If there is an inconsistency between the OldSize and the minimum and/or // initial size of gen0, since OldSize was explicitly set, OldSize wins. if (adjust_gen0_sizes(&_min_gen0_size, &_min_gen1_size, - min_heap_byte_size(), OldSize)) { + _min_heap_byte_size, OldSize)) { if (PrintGCDetails && Verbose) { gclog_or_tty->print_cr("2: Minimum gen0 " SIZE_FORMAT " Initial gen0 " SIZE_FORMAT " Maximum gen0 " SIZE_FORMAT, - min_gen0_size(), initial_gen0_size(), max_gen0_size()); + _min_gen0_size, _initial_gen0_size, _max_gen0_size); } } // Initial size if (adjust_gen0_sizes(&_initial_gen0_size, &_initial_gen1_size, - initial_heap_byte_size(), OldSize)) { + _initial_heap_byte_size, OldSize)) { if (PrintGCDetails && Verbose) { gclog_or_tty->print_cr("3: Minimum gen0 " SIZE_FORMAT " Initial gen0 " SIZE_FORMAT " Maximum gen0 " SIZE_FORMAT, - min_gen0_size(), initial_gen0_size(), max_gen0_size()); + _min_gen0_size, _initial_gen0_size, _max_gen0_size); } } } // Enforce the maximum gen1 size. - set_min_gen1_size(MIN2(_min_gen1_size, _max_gen1_size)); + _min_gen1_size = MIN2(_min_gen1_size, _max_gen1_size); // Check that min gen1 <= initial gen1 <= max gen1 - set_initial_gen1_size(MAX2(_initial_gen1_size, _min_gen1_size)); - set_initial_gen1_size(MIN2(_initial_gen1_size, _max_gen1_size)); + _initial_gen1_size = MAX2(_initial_gen1_size, _min_gen1_size); + _initial_gen1_size = MIN2(_initial_gen1_size, _max_gen1_size); if (PrintGCDetails && Verbose) { gclog_or_tty->print_cr("Minimum gen1 " SIZE_FORMAT " Initial gen1 " SIZE_FORMAT " Maximum gen1 " SIZE_FORMAT, - min_gen1_size(), initial_gen1_size(), max_gen1_size()); + _min_gen1_size, _initial_gen1_size, _max_gen1_size); } }
--- a/src/share/vm/memory/collectorPolicy.hpp Thu Oct 03 17:16:23 2013 +0200 +++ b/src/share/vm/memory/collectorPolicy.hpp Thu Oct 03 21:36:29 2013 +0200 @@ -101,17 +101,12 @@ // Return maximum heap alignment that may be imposed by the policy static size_t compute_max_alignment(); - void set_min_alignment(size_t align) { _min_alignment = align; } size_t min_alignment() { return _min_alignment; } - void set_max_alignment(size_t align) { _max_alignment = align; } size_t max_alignment() { return _max_alignment; } size_t initial_heap_byte_size() { return _initial_heap_byte_size; } - void set_initial_heap_byte_size(size_t v) { _initial_heap_byte_size = v; } size_t max_heap_byte_size() { return _max_heap_byte_size; } - void set_max_heap_byte_size(size_t v) { _max_heap_byte_size = v; } size_t min_heap_byte_size() { return _min_heap_byte_size; } - void set_min_heap_byte_size(size_t v) { _min_heap_byte_size = v; } enum Name { CollectorPolicyKind, @@ -248,12 +243,9 @@ public: // Accessors - size_t min_gen0_size() { return _min_gen0_size; } - void set_min_gen0_size(size_t v) { _min_gen0_size = v; } + size_t min_gen0_size() { return _min_gen0_size; } size_t initial_gen0_size() { return _initial_gen0_size; } - void set_initial_gen0_size(size_t v) { _initial_gen0_size = v; } - size_t max_gen0_size() { return _max_gen0_size; } - void set_max_gen0_size(size_t v) { _max_gen0_size = v; } + size_t max_gen0_size() { return _max_gen0_size; } virtual int number_of_generations() = 0; @@ -302,12 +294,9 @@ public: // Accessors - size_t min_gen1_size() { return _min_gen1_size; } - void set_min_gen1_size(size_t v) { _min_gen1_size = v; } + size_t min_gen1_size() { return _min_gen1_size; } size_t initial_gen1_size() { return _initial_gen1_size; } - void set_initial_gen1_size(size_t v) { _initial_gen1_size = v; } - size_t max_gen1_size() { return _max_gen1_size; } - void set_max_gen1_size(size_t v) { _max_gen1_size = v; } + size_t max_gen1_size() { return _max_gen1_size; } // Inherited methods TwoGenerationCollectorPolicy* as_two_generation_policy() { return this; }