/* -*- c++ -*- */ #ifndef LOGHISTOGRAMSAMPLER_H #define LOGHISTOGRAMSAMPLER_H #include #include #include #include "Operation.h" #define _POW 1.1 class LogHistogramSampler { public: std::vector bins; double sum; LogHistogramSampler() = delete; LogHistogramSampler(int _bins) : sum(0.0) { assert(_bins > 0); bins.resize(_bins + 1, 0); } void sample(const Operation &op) { sample(op.time()); } void sample(double s) { assert(s >= 0); size_t bin = log(s)/log(_POW); sum += s; // I("%f", sum); if ((int64_t) bin < 0) { bin = 0; } else if (bin >= bins.size()) { bin = bins.size() - 1; } bins[bin]++; } double average() { // I("%f %d", sum, total()); return sum / total(); } double minimum() { for (size_t i = 0; i < bins.size(); i++) if (bins[i] > 0) return pow(_POW, (double) i + 0.5); } double get_nth(double nth) { uint64_t count = total(); uint64_t n = 0; double target = count * nth/100; for (size_t i = 0; i < bins.size(); i++) { n += bins[i]; if (n > target) { // The nth is inside bins[i]. double left = target - (n - bins[i]); return pow(_POW, (double) i) + left / bins[i] * (pow(_POW, (double) (i+1)) - pow(_POW, (double) i)); } } return pow(_POW, bins.size()); } uint64_t total() { uint64_t sum = 0.0; for (auto i: bins) sum += i; return sum; } void accumulate(const LogHistogramSampler &h) { assert(bins.size() == h.bins.size()); for (size_t i = 0; i < bins.size(); i++) bins[i] += h.bins[i]; sum += h.sum; } }; #endif // LOGHISTOGRAMSAMPLER_H