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212 lines
8.4 KiB
212 lines
8.4 KiB
2 years ago
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// Copyright 2015 Google LLC
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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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syntax = "proto3";
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package google.api;
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import "google/protobuf/any.proto";
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import "google/protobuf/timestamp.proto";
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option go_package = "google.golang.org/genproto/googleapis/api/distribution;distribution";
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option java_multiple_files = true;
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option java_outer_classname = "DistributionProto";
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option java_package = "com.google.api";
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option objc_class_prefix = "GAPI";
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// `Distribution` contains summary statistics for a population of values. It
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// optionally contains a histogram representing the distribution of those values
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// across a set of buckets.
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//
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// The summary statistics are the count, mean, sum of the squared deviation from
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// the mean, the minimum, and the maximum of the set of population of values.
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// The histogram is based on a sequence of buckets and gives a count of values
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// that fall into each bucket. The boundaries of the buckets are given either
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// explicitly or by formulas for buckets of fixed or exponentially increasing
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// widths.
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//
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// Although it is not forbidden, it is generally a bad idea to include
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// non-finite values (infinities or NaNs) in the population of values, as this
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// will render the `mean` and `sum_of_squared_deviation` fields meaningless.
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message Distribution {
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// The range of the population values.
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message Range {
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// The minimum of the population values.
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double min = 1;
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// The maximum of the population values.
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double max = 2;
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}
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// `BucketOptions` describes the bucket boundaries used to create a histogram
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// for the distribution. The buckets can be in a linear sequence, an
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// exponential sequence, or each bucket can be specified explicitly.
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// `BucketOptions` does not include the number of values in each bucket.
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//
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// A bucket has an inclusive lower bound and exclusive upper bound for the
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// values that are counted for that bucket. The upper bound of a bucket must
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// be strictly greater than the lower bound. The sequence of N buckets for a
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// distribution consists of an underflow bucket (number 0), zero or more
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// finite buckets (number 1 through N - 2) and an overflow bucket (number N -
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// 1). The buckets are contiguous: the lower bound of bucket i (i > 0) is the
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// same as the upper bound of bucket i - 1. The buckets span the whole range
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// of finite values: lower bound of the underflow bucket is -infinity and the
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// upper bound of the overflow bucket is +infinity. The finite buckets are
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// so-called because both bounds are finite.
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message BucketOptions {
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// Specifies a linear sequence of buckets that all have the same width
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// (except overflow and underflow). Each bucket represents a constant
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// absolute uncertainty on the specific value in the bucket.
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//
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// There are `num_finite_buckets + 2` (= N) buckets. Bucket `i` has the
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// following boundaries:
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//
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// Upper bound (0 <= i < N-1): offset + (width * i).
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// Lower bound (1 <= i < N): offset + (width * (i - 1)).
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message Linear {
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// Must be greater than 0.
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int32 num_finite_buckets = 1;
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// Must be greater than 0.
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double width = 2;
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// Lower bound of the first bucket.
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double offset = 3;
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}
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// Specifies an exponential sequence of buckets that have a width that is
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// proportional to the value of the lower bound. Each bucket represents a
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// constant relative uncertainty on a specific value in the bucket.
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//
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// There are `num_finite_buckets + 2` (= N) buckets. Bucket `i` has the
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// following boundaries:
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//
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// Upper bound (0 <= i < N-1): scale * (growth_factor ^ i).
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// Lower bound (1 <= i < N): scale * (growth_factor ^ (i - 1)).
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message Exponential {
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// Must be greater than 0.
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int32 num_finite_buckets = 1;
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// Must be greater than 1.
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double growth_factor = 2;
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// Must be greater than 0.
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double scale = 3;
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}
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// Specifies a set of buckets with arbitrary widths.
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//
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// There are `size(bounds) + 1` (= N) buckets. Bucket `i` has the following
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// boundaries:
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//
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// Upper bound (0 <= i < N-1): bounds[i]
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// Lower bound (1 <= i < N); bounds[i - 1]
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//
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// The `bounds` field must contain at least one element. If `bounds` has
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// only one element, then there are no finite buckets, and that single
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// element is the common boundary of the overflow and underflow buckets.
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message Explicit {
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// The values must be monotonically increasing.
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repeated double bounds = 1;
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}
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// Exactly one of these three fields must be set.
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oneof options {
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// The linear bucket.
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Linear linear_buckets = 1;
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// The exponential buckets.
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Exponential exponential_buckets = 2;
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// The explicit buckets.
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Explicit explicit_buckets = 3;
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}
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}
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// Exemplars are example points that may be used to annotate aggregated
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// distribution values. They are metadata that gives information about a
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// particular value added to a Distribution bucket, such as a trace ID that
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// was active when a value was added. They may contain further information,
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// such as a example values and timestamps, origin, etc.
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message Exemplar {
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// Value of the exemplar point. This value determines to which bucket the
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// exemplar belongs.
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double value = 1;
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// The observation (sampling) time of the above value.
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google.protobuf.Timestamp timestamp = 2;
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// Contextual information about the example value. Examples are:
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//
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// Trace: type.googleapis.com/google.monitoring.v3.SpanContext
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//
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// Literal string: type.googleapis.com/google.protobuf.StringValue
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//
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// Labels dropped during aggregation:
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// type.googleapis.com/google.monitoring.v3.DroppedLabels
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//
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// There may be only a single attachment of any given message type in a
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// single exemplar, and this is enforced by the system.
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repeated google.protobuf.Any attachments = 3;
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}
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// The number of values in the population. Must be non-negative. This value
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// must equal the sum of the values in `bucket_counts` if a histogram is
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// provided.
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int64 count = 1;
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// The arithmetic mean of the values in the population. If `count` is zero
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// then this field must be zero.
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double mean = 2;
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// The sum of squared deviations from the mean of the values in the
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// population. For values x_i this is:
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//
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// Sum[i=1..n]((x_i - mean)^2)
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//
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// Knuth, "The Art of Computer Programming", Vol. 2, page 232, 3rd edition
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// describes Welford's method for accumulating this sum in one pass.
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//
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// If `count` is zero then this field must be zero.
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double sum_of_squared_deviation = 3;
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// If specified, contains the range of the population values. The field
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// must not be present if the `count` is zero.
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Range range = 4;
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// Defines the histogram bucket boundaries. If the distribution does not
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// contain a histogram, then omit this field.
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BucketOptions bucket_options = 6;
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// The number of values in each bucket of the histogram, as described in
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// `bucket_options`. If the distribution does not have a histogram, then omit
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// this field. If there is a histogram, then the sum of the values in
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// `bucket_counts` must equal the value in the `count` field of the
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// distribution.
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//
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// If present, `bucket_counts` should contain N values, where N is the number
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// of buckets specified in `bucket_options`. If you supply fewer than N
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// values, the remaining values are assumed to be 0.
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//
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// The order of the values in `bucket_counts` follows the bucket numbering
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// schemes described for the three bucket types. The first value must be the
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// count for the underflow bucket (number 0). The next N-2 values are the
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// counts for the finite buckets (number 1 through N-2). The N'th value in
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// `bucket_counts` is the count for the overflow bucket (number N-1).
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repeated int64 bucket_counts = 7;
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// Must be in increasing order of `value` field.
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repeated Exemplar exemplars = 10;
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}
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