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/*
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*
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* Copyright 2015 gRPC authors.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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*/
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#include <grpc/support/port_platform.h>
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#include "test/core/util/histogram.h"
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#include <math.h>
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#include <stddef.h>
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#include <string.h>
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#include <grpc/support/alloc.h>
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#include <grpc/support/log.h>
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#include "src/core/lib/gpr/useful.h"
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/* Histograms are stored with exponentially increasing bucket sizes.
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The first bucket is [0, m) where m = 1 + resolution
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Bucket n (n>=1) contains [m**n, m**(n+1))
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There are sufficient buckets to reach max_bucket_start */
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struct grpc_histogram {
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/* Sum of all values seen so far */
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double sum;
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/* Sum of squares of all values seen so far */
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double sum_of_squares;
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/* number of values seen so far */
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double count;
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/* m in the description */
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double multiplier;
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double one_on_log_multiplier;
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/* minimum value seen */
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double min_seen;
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/* maximum value seen */
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double max_seen;
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/* maximum representable value */
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double max_possible;
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/* number of buckets */
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size_t num_buckets;
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/* the buckets themselves */
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uint32_t* buckets;
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};
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/* determine a bucket index given a value - does no bounds checking */
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static size_t bucket_for_unchecked(grpc_histogram* h, double x) {
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return static_cast<size_t>(log(x) * h->one_on_log_multiplier);
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}
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/* bounds checked version of the above */
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static size_t bucket_for(grpc_histogram* h, double x) {
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size_t bucket =
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bucket_for_unchecked(h, grpc_core::Clamp(x, 1.0, h->max_possible));
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GPR_ASSERT(bucket < h->num_buckets);
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return bucket;
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}
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/* at what value does a bucket start? */
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static double bucket_start(grpc_histogram* h, double x) {
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return pow(h->multiplier, x);
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}
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grpc_histogram* grpc_histogram_create(double resolution,
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double max_bucket_start) {
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grpc_histogram* h =
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static_cast<grpc_histogram*>(gpr_malloc(sizeof(grpc_histogram)));
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GPR_ASSERT(resolution > 0.0);
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GPR_ASSERT(max_bucket_start > resolution);
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h->sum = 0.0;
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h->sum_of_squares = 0.0;
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h->multiplier = 1.0 + resolution;
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h->one_on_log_multiplier = 1.0 / log(1.0 + resolution);
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h->max_possible = max_bucket_start;
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h->count = 0.0;
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h->min_seen = max_bucket_start;
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h->max_seen = 0.0;
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h->num_buckets = bucket_for_unchecked(h, max_bucket_start) + 1;
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GPR_ASSERT(h->num_buckets > 1);
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GPR_ASSERT(h->num_buckets < 100000000);
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h->buckets =
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static_cast<uint32_t*>(gpr_zalloc(sizeof(uint32_t) * h->num_buckets));
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return h;
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}
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void grpc_histogram_destroy(grpc_histogram* h) {
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gpr_free(h->buckets);
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gpr_free(h);
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}
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void grpc_histogram_add(grpc_histogram* h, double x) {
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h->sum += x;
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h->sum_of_squares += x * x;
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h->count++;
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if (x < h->min_seen) {
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h->min_seen = x;
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}
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if (x > h->max_seen) {
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h->max_seen = x;
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}
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h->buckets[bucket_for(h, x)]++;
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}
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int grpc_histogram_merge(grpc_histogram* dst, const grpc_histogram* src) {
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if ((dst->num_buckets != src->num_buckets) ||
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(dst->multiplier != src->multiplier)) {
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/* Fail because these histograms don't match */
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return 0;
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}
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grpc_histogram_merge_contents(dst, src->buckets, src->num_buckets,
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src->min_seen, src->max_seen, src->sum,
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src->sum_of_squares, src->count);
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return 1;
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}
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void grpc_histogram_merge_contents(grpc_histogram* histogram,
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const uint32_t* data, size_t data_count,
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double min_seen, double max_seen, double sum,
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double sum_of_squares, double count) {
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size_t i;
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GPR_ASSERT(histogram->num_buckets == data_count);
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histogram->sum += sum;
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histogram->sum_of_squares += sum_of_squares;
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histogram->count += count;
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if (min_seen < histogram->min_seen) {
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histogram->min_seen = min_seen;
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}
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if (max_seen > histogram->max_seen) {
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histogram->max_seen = max_seen;
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}
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for (i = 0; i < histogram->num_buckets; i++) {
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histogram->buckets[i] += data[i];
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}
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}
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static double threshold_for_count_below(grpc_histogram* h, double count_below) {
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double count_so_far;
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double lower_bound;
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double upper_bound;
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size_t lower_idx;
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size_t upper_idx;
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if (h->count == 0) {
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return 0.0;
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}
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if (count_below <= 0) {
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return h->min_seen;
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}
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if (count_below >= h->count) {
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return h->max_seen;
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}
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/* find the lowest bucket that gets us above count_below */
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count_so_far = 0.0;
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for (lower_idx = 0; lower_idx < h->num_buckets; lower_idx++) {
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count_so_far += h->buckets[lower_idx];
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if (count_so_far >= count_below) {
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break;
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}
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}
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if (count_so_far == count_below) {
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/* this bucket hits the threshold exactly... we should be midway through
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any run of zero values following the bucket */
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for (upper_idx = lower_idx + 1; upper_idx < h->num_buckets; upper_idx++) {
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if (h->buckets[upper_idx]) {
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break;
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}
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}
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return (bucket_start(h, static_cast<double>(lower_idx)) +
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bucket_start(h, static_cast<double>(upper_idx))) /
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2.0;
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} else {
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/* treat values as uniform throughout the bucket, and find where this value
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should lie */
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lower_bound = bucket_start(h, static_cast<double>(lower_idx));
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upper_bound = bucket_start(h, static_cast<double>(lower_idx + 1));
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return grpc_core::Clamp(upper_bound - (upper_bound - lower_bound) *
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(count_so_far - count_below) /
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h->buckets[lower_idx],
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h->min_seen, h->max_seen);
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}
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}
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double grpc_histogram_percentile(grpc_histogram* h, double percentile) {
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return threshold_for_count_below(h, h->count * percentile / 100.0);
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}
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double grpc_histogram_mean(grpc_histogram* h) {
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GPR_ASSERT(h->count != 0);
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return h->sum / h->count;
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}
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double grpc_histogram_stddev(grpc_histogram* h) {
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return sqrt(grpc_histogram_variance(h));
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}
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double grpc_histogram_variance(grpc_histogram* h) {
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if (h->count == 0) return 0.0;
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return (h->sum_of_squares * h->count - h->sum * h->sum) /
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(h->count * h->count);
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}
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double grpc_histogram_maximum(grpc_histogram* h) { return h->max_seen; }
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double grpc_histogram_minimum(grpc_histogram* h) { return h->min_seen; }
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double grpc_histogram_count(grpc_histogram* h) { return h->count; }
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double grpc_histogram_sum(grpc_histogram* h) { return h->sum; }
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double grpc_histogram_sum_of_squares(grpc_histogram* h) {
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return h->sum_of_squares;
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}
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const uint32_t* grpc_histogram_get_contents(grpc_histogram* histogram,
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size_t* count) {
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*count = histogram->num_buckets;
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return histogram->buckets;
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}
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