7127697: G1: remove dead code after recent concurrent mark changes
Summary: Removed lots of dead code after some recent conc mark changes.
Reviewed-by: brutisso, johnc
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#ifndef SHARE_VM_UTILITIES_NUMBERSEQ_HPP
#define SHARE_VM_UTILITIES_NUMBERSEQ_HPP
/**
** This file contains a few classes that represent number sequence,
** x1, x2, x3, ..., xN, and can calculate their avg, max, and sd.
**
** Here's a quick description of the classes:
**
** AbsSeq: abstract superclass
** NumberSeq: the sequence is assumed to be very long and the
** maximum, avg, sd, davg, and dsd are calculated over all its elements
** TruncatedSeq: this class keeps track of the last L elements
** of the sequence and calculates avg, max, and sd only over them
**/
#define DEFAULT_ALPHA_VALUE 0.7
class AbsSeq {
private:
void init(double alpha);
protected:
int _num; // the number of elements in the sequence
double _sum; // the sum of the elements in the sequence
double _sum_of_squares; // the sum of squares of the elements in the sequence
double _davg; // decaying average
double _dvariance; // decaying variance
double _alpha; // factor for the decaying average / variance
// This is what we divide with to get the average. In a standard
// number sequence, this should just be the number of elements in it.
virtual double total() const { return (double) _num; };
public:
AbsSeq(double alpha = DEFAULT_ALPHA_VALUE);
virtual void add(double val); // adds a new element to the sequence
void add(unsigned val) { add((double) val); }
virtual double maximum() const = 0; // maximum element in the sequence
virtual double last() const = 0; // last element added in the sequence
// the number of elements in the sequence
int num() const { return _num; }
// the sum of the elements in the sequence
double sum() const { return _sum; }
double avg() const; // the average of the sequence
double variance() const; // the variance of the sequence
double sd() const; // the standard deviation of the sequence
double davg() const; // decaying average
double dvariance() const; // decaying variance
double dsd() const; // decaying "standard deviation"
// Debugging/Printing
virtual void dump();
virtual void dump_on(outputStream* s);
};
class NumberSeq: public AbsSeq {
private:
bool check_nums(NumberSeq* total, int n, NumberSeq** parts);
protected:
double _last;
double _maximum; // keep track of maximum value
public:
NumberSeq(double alpha = DEFAULT_ALPHA_VALUE);
NumberSeq(NumberSeq* total, int n_parts, NumberSeq** parts);
virtual void add(double val);
virtual double maximum() const { return _maximum; }
virtual double last() const { return _last; }
// Debugging/Printing
virtual void dump_on(outputStream* s);
};
class TruncatedSeq: public AbsSeq {
private:
enum PrivateConstants {
DefaultSeqLength = 10
};
void init();
protected:
double *_sequence; // buffers the last L elements in the sequence
int _length; // this is L
int _next; // oldest slot in the array, i.e. next to be overwritten
public:
// accepts a value for L
TruncatedSeq(int length = DefaultSeqLength,
double alpha = DEFAULT_ALPHA_VALUE);
~TruncatedSeq();
virtual void add(double val);
virtual double maximum() const;
virtual double last() const; // the last value added to the sequence
double oldest() const; // the oldest valid value in the sequence
double predict_next() const; // prediction based on linear regression
// Debugging/Printing
virtual void dump_on(outputStream* s);
};
#endif // SHARE_VM_UTILITIES_NUMBERSEQ_HPP