8199282: Remove ValueObj class for allocation subclassing for gc code
Reviewed-by: stefank, kbarrett
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#ifndef SHARE_VM_GC_G1_G1YOUNGGENSIZER_HPP
#define SHARE_VM_GC_G1_G1YOUNGGENSIZER_HPP
#include "utilities/globalDefinitions.hpp"
// There are three command line options related to the young gen size:
// NewSize, MaxNewSize and NewRatio (There is also -Xmn, but that is
// just a short form for NewSize==MaxNewSize). G1 will use its internal
// heuristics to calculate the actual young gen size, so these options
// basically only limit the range within which G1 can pick a young gen
// size. Also, these are general options taking byte sizes. G1 will
// internally work with a number of regions instead. So, some rounding
// will occur.
//
// If nothing related to the the young gen size is set on the command
// line we should allow the young gen to be between G1NewSizePercent
// and G1MaxNewSizePercent of the heap size. This means that every time
// the heap size changes, the limits for the young gen size will be
// recalculated.
//
// If only -XX:NewSize is set we should use the specified value as the
// minimum size for young gen. Still using G1MaxNewSizePercent of the
// heap as maximum.
//
// If only -XX:MaxNewSize is set we should use the specified value as the
// maximum size for young gen. Still using G1NewSizePercent of the heap
// as minimum.
//
// If -XX:NewSize and -XX:MaxNewSize are both specified we use these values.
// No updates when the heap size changes. There is a special case when
// NewSize==MaxNewSize. This is interpreted as "fixed" and will use a
// different heuristic for calculating the collection set when we do mixed
// collection.
//
// If only -XX:NewRatio is set we should use the specified ratio of the heap
// as both min and max. This will be interpreted as "fixed" just like the
// NewSize==MaxNewSize case above. But we will update the min and max
// every time the heap size changes.
//
// NewSize and MaxNewSize override NewRatio. So, NewRatio is ignored if it is
// combined with either NewSize or MaxNewSize. (A warning message is printed.)
class G1YoungGenSizer {
private:
enum SizerKind {
SizerDefaults,
SizerNewSizeOnly,
SizerMaxNewSizeOnly,
SizerMaxAndNewSize,
SizerNewRatio
};
SizerKind _sizer_kind;
uint _min_desired_young_length;
uint _max_desired_young_length;
// False when using a fixed young generation size due to command-line options,
// true otherwise.
bool _adaptive_size;
uint calculate_default_min_length(uint new_number_of_heap_regions);
uint calculate_default_max_length(uint new_number_of_heap_regions);
// Update the given values for minimum and maximum young gen length in regions
// given the number of heap regions depending on the kind of sizing algorithm.
void recalculate_min_max_young_length(uint number_of_heap_regions, uint* min_young_length, uint* max_young_length);
public:
G1YoungGenSizer();
// Calculate the maximum length of the young gen given the number of regions
// depending on the sizing algorithm.
void adjust_max_new_size(uint number_of_heap_regions);
void heap_size_changed(uint new_number_of_heap_regions);
uint min_desired_young_length() const {
return _min_desired_young_length;
}
uint max_desired_young_length() const {
return _max_desired_young_length;
}
bool adaptive_young_list_length() const {
return _adaptive_size;
}
};
#endif // SHARE_VM_GC_G1_G1YOUNGGENSIZER_HPP