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233 lines
7.7 KiB
233 lines
7.7 KiB
#pragma once
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#include <stdint.h>
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#include <assert.h>
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#include "lock.h"
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#include "perf_window_t.h"
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#include "runtime.h"
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#include "worker_thread.h"
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#include "memlogging.h"
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#include "panic.h"
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/**
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* Initializes perf window
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* @param self
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*/
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static inline void
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perf_window_initialize(struct perf_window *self, char* module_name)
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{
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assert(self != NULL);
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LOCK_INIT(&self->lock);
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strncpy(self->name, module_name, 32);
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self->count = 0;
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memset(&self->by_duration, 0, sizeof(struct execution_node) * PERF_WINDOW_BUFFER_SIZE);
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memset(&self->by_termination, 0, sizeof(uint16_t) * PERF_WINDOW_BUFFER_SIZE);
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#ifdef GET_AVER_TIME
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memset(&self->by_duration_for_mdl, 0, sizeof(uint64_t) * PERF_WINDOW_BUFFER_SIZE);
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#endif
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}
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/**
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* Swaps two execution nodes in the by_duration array, including updating the indices in the by_termination circular
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* buffer
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* @param self
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* @param first_by_duration_idx
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* @param second_by_duration_idx
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*/
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static inline void
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perf_window_swap(struct perf_window *self, uint16_t first_by_duration_idx, uint16_t second_by_duration_idx)
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{
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assert(LOCK_IS_LOCKED(&self->lock));
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assert(self != NULL);
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assert(first_by_duration_idx >= 0 && first_by_duration_idx < PERF_WINDOW_BUFFER_SIZE);
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assert(second_by_duration_idx >= 0 && second_by_duration_idx < PERF_WINDOW_BUFFER_SIZE);
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uint16_t first_by_termination_idx = self->by_duration[first_by_duration_idx].by_termination_idx;
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uint16_t second_by_termination_idx = self->by_duration[second_by_duration_idx].by_termination_idx;
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/* The execution node's by_termination_idx points to a by_termination cell equal to its own by_duration index */
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assert(self->by_termination[first_by_termination_idx] == first_by_duration_idx);
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assert(self->by_termination[second_by_termination_idx] == second_by_duration_idx);
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uint64_t first_execution_time = self->by_duration[first_by_duration_idx].execution_time;
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uint64_t second_execution_time = self->by_duration[second_by_duration_idx].execution_time;
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/* Swap Indices in Buffer*/
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self->by_termination[first_by_termination_idx] = second_by_duration_idx;
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self->by_termination[second_by_termination_idx] = first_by_duration_idx;
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/* Swap by_termination_idx */
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struct execution_node tmp_node = self->by_duration[first_by_duration_idx];
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self->by_duration[first_by_duration_idx] = self->by_duration[second_by_duration_idx];
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self->by_duration[second_by_duration_idx] = tmp_node;
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/* The circular by_termination indices should always point to the same execution times across all swaps */
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assert(self->by_duration[self->by_termination[first_by_termination_idx]].execution_time
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== first_execution_time);
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assert(self->by_duration[self->by_termination[second_by_termination_idx]].execution_time
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== second_execution_time);
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}
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/**
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* Adds a new value to the perf window
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* Not intended to be called directly!
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* @param self
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* @param value
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*/
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static inline void
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perf_window_add(struct perf_window *self, uint64_t value)
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{
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assert(self != NULL);
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if (unlikely(!LOCK_IS_LOCKED(&self->lock))) panic("lock not held when calling perf_window_add\n");
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/* A successful invocation should run for a non-zero amount of time */
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assert(value > 0);
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/* If count is 0, then fill entire array with initial execution times */
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if (self->count == 0) {
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for (int i = 0; i < PERF_WINDOW_BUFFER_SIZE; i++) {
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self->by_termination[i] = i;
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self->by_duration[i] = (struct execution_node){ .execution_time = value,
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.by_termination_idx = i };
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#ifdef GET_AVER_TIME
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self->by_duration_for_mdl[i] = value;
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#endif
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}
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self->count = PERF_WINDOW_BUFFER_SIZE;
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goto done;
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}
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/* Otherwise, replace the oldest value, and then sort */
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#ifdef GET_AVER_TIME
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self->by_duration_for_mdl[self->count % PERF_WINDOW_BUFFER_SIZE] = value;
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#endif
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uint16_t idx_of_oldest = self->by_termination[self->count % PERF_WINDOW_BUFFER_SIZE];
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bool check_up = value > self->by_duration[idx_of_oldest].execution_time;
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self->by_duration[idx_of_oldest].execution_time = value;
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if (check_up) {
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for (uint16_t i = idx_of_oldest;
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i + 1 < PERF_WINDOW_BUFFER_SIZE
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&& self->by_duration[i + 1].execution_time < self->by_duration[i].execution_time;
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i++) {
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perf_window_swap(self, i, i + 1);
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}
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} else {
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for (int i = idx_of_oldest;
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i - 1 >= 0 && self->by_duration[i - 1].execution_time > self->by_duration[i].execution_time; i--) {
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perf_window_swap(self, i, i - 1);
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}
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}
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/* The idx that we replaces should still point to the same value */
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assert(self->by_duration[self->by_termination[self->count % PERF_WINDOW_BUFFER_SIZE]].execution_time == value);
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/* The by_duration array should be ordered by execution time */
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#ifndef NDEBUG
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for (int i = 1; i < PERF_WINDOW_BUFFER_SIZE; i++) {
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assert(self->by_duration[i - 1].execution_time <= self->by_duration[i].execution_time);
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}
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#endif
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self->count++;
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done:
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return;
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}
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/**
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* Returns pXX execution time
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* @param self
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* @param percentile represented by int between 50 and 99
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* @param precomputed_index memoized index for quick lookup when by_duration is full
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* @returns execution time
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*/
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static inline uint64_t
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perf_window_get_percentile(struct perf_window *self, int percentile, int precomputed_index)
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{
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assert(self != NULL);
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//assert(percentile >= 50 && percentile <= 99);
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int size = self->count;
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//assert(size > 0);
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if (size == 0) {
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return 0;
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}
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if (likely(size >= PERF_WINDOW_BUFFER_SIZE)) return self->by_duration[precomputed_index].execution_time;
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return self->by_duration[size * percentile / 100].execution_time;
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}
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#ifdef GET_AVER_TIME
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static inline uint64_t
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perf_window_get_average(struct perf_window *self)
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{
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assert(self != NULL);
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int size = self->count;
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if (size == 0) {
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return 0;
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} else if (size < PERF_WINDOW_BUFFER_SIZE) {
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uint64_t average = 0;
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for (size_t i = 0; i < size; i++)
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{
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average += self->by_duration_for_mdl[i];
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}
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average = average / size;
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return average;
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} else{
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uint64_t average = 0;
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for (size_t i = 0; i < PERF_WINDOW_BUFFER_SIZE; i++) {
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average += self->by_duration_for_mdl[i];
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}
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average /= PERF_WINDOW_BUFFER_SIZE;
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return average;
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}
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}
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#endif
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/**
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* Returns the total count of executions
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* @returns total count
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*/
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static inline uint64_t
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perf_window_get_count(struct perf_window *self)
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{
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assert(self != NULL);
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return self->count;
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}
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/**
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* Print the items in the perf window
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*/
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static inline void
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perf_window_print(struct perf_window *self)
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{
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assert(self != NULL);
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if (self->count % PERF_WINDOW_BUFFER_SIZE != 0) { return; }
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/* Not need to hold lock because this operation won't add/delete the array */
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float min = self->by_duration[0].execution_time/1000.0;
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float max = self->by_duration[PERF_WINDOW_BUFFER_SIZE-1].execution_time/1000.0;
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uint64_t sum = 0;
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float fifty_p = self->by_duration[PERF_WINDOW_BUFFER_SIZE * 50 / 100].execution_time/1000.0;
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float seventy_p = self->by_duration[PERF_WINDOW_BUFFER_SIZE * 70 / 100].execution_time/1000.0;
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float eighty_p = self->by_duration[PERF_WINDOW_BUFFER_SIZE * 80 / 100].execution_time/1000.0;
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float nighty_p = self->by_duration[PERF_WINDOW_BUFFER_SIZE * 90 / 100].execution_time/1000.0;
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float nighty_night_p = self->by_duration[PERF_WINDOW_BUFFER_SIZE * 99 / 100].execution_time/1000.0;
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/*mem_log("module %s perf window:\n", self->name);
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for (int i = 0; i < PERF_WINDOW_BUFFER_SIZE; i++) {
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sum += self->by_duration[i].execution_time;
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mem_log("%f,", self->by_duration[i].execution_time/1000.0);
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}
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mem_log("\n");
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*/
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float avg = (sum/(float)PERF_WINDOW_BUFFER_SIZE)/1000.0;
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mem_log("min:%f,max:%f,fifty_p:%f,seventy_p:%f,eighty_p:%f,nighty_p:%f,nighty_night_p:%f,avg:%f\n", min,max,fifty_p,seventy_p,eighty_p,nighty_p,nighty_night_p, avg);
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}
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