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335 lines
16 KiB
C++
335 lines
16 KiB
C++
// Copyright 2014 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#ifndef BASE_METRICS_HISTOGRAM_MACROS_H_
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#define BASE_METRICS_HISTOGRAM_MACROS_H_
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#include "base/metrics/histogram.h"
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#include "base/metrics/histogram_macros_internal.h"
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#include "base/metrics/histogram_macros_local.h"
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#include "base/time/time.h"
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// Macros for efficient use of histograms.
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//
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// For best practices on deciding when to emit to a histogram and what form
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// the histogram should take, see
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// https://chromium.googlesource.com/chromium/src.git/+/HEAD/tools/metrics/histograms/README.md
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// TODO(rkaplow): Link to proper documentation on metric creation once we have
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// it in a good state.
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// All of these macros must be called with |name| as a runtime constant - it
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// doesn't have to literally be a constant, but it must be the same string on
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// all calls from a particular call site. If this rule is violated, it is
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// possible the data will be written to the wrong histogram.
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//------------------------------------------------------------------------------
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// Enumeration histograms.
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// These macros create histograms for enumerated data. Ideally, the data should
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// be of the form of "event occurs, log the result". We recommended not putting
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// related but not directly connected data as enums within the same histogram.
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// You should be defining an associated Enum, and the input sample should be
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// an element of the Enum.
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// All of these macros must be called with |name| as a runtime constant.
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// Sample usage:
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// // These values are persisted to logs. Entries should not be renumbered and
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// // numeric values should never be reused.
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// enum class MyEnum {
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// FIRST_VALUE = 0,
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// SECOND_VALUE = 1,
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// ...
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// FINAL_VALUE = N,
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// COUNT
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// };
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// UMA_HISTOGRAM_ENUMERATION("My.Enumeration",
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// MyEnum::SOME_VALUE, MyEnum::COUNT);
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//
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// Note: The value in |sample| must be strictly less than |enum_size|.
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#define UMA_HISTOGRAM_ENUMERATION(name, sample, enum_size) \
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INTERNAL_HISTOGRAM_ENUMERATION_WITH_FLAG( \
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name, sample, enum_size, base::HistogramBase::kUmaTargetedHistogramFlag)
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// Histogram for boolean values.
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// Sample usage:
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// UMA_HISTOGRAM_BOOLEAN("Histogram.Boolean", bool);
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#define UMA_HISTOGRAM_BOOLEAN(name, sample) \
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STATIC_HISTOGRAM_POINTER_BLOCK(name, AddBoolean(sample), \
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base::BooleanHistogram::FactoryGet(name, \
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base::HistogramBase::kUmaTargetedHistogramFlag))
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//------------------------------------------------------------------------------
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// Linear histograms.
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// All of these macros must be called with |name| as a runtime constant.
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// Used for capturing integer data with a linear bucketing scheme. This can be
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// used when you want the exact value of some small numeric count, with a max of
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// 100 or less. If you need to capture a range of greater than 100, we recommend
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// the use of the COUNT histograms below.
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// Sample usage:
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// UMA_HISTOGRAM_EXACT_LINEAR("Histogram.Linear", count, 10);
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#define UMA_HISTOGRAM_EXACT_LINEAR(name, sample, value_max) \
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INTERNAL_HISTOGRAM_EXACT_LINEAR_WITH_FLAG( \
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name, sample, value_max, base::HistogramBase::kUmaTargetedHistogramFlag)
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// Used for capturing basic percentages. This will be 100 buckets of size 1.
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// Sample usage:
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// UMA_HISTOGRAM_PERCENTAGE("Histogram.Percent", percent_as_int);
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#define UMA_HISTOGRAM_PERCENTAGE(name, percent_as_int) \
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UMA_HISTOGRAM_EXACT_LINEAR(name, percent_as_int, 101)
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//------------------------------------------------------------------------------
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// Count histograms. These are used for collecting numeric data. Note that we
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// have macros for more specialized use cases below (memory, time, percentages).
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// The number suffixes here refer to the max size of the sample, i.e. COUNT_1000
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// will be able to collect samples of counts up to 1000. The default number of
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// buckets in all default macros is 50. We recommend erring on the side of too
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// large a range versus too short a range.
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// These macros default to exponential histograms - i.e. the lengths of the
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// bucket ranges exponentially increase as the sample range increases.
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// These should *not* be used if you are interested in exact counts, i.e. a
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// bucket range of 1. In these cases, you should use the ENUMERATION macros
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// defined later. These should also not be used to capture the number of some
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// event, i.e. "button X was clicked N times". In this cases, an enum should be
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// used, ideally with an appropriate baseline enum entry included.
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// All of these macros must be called with |name| as a runtime constant.
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// Sample usage:
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// UMA_HISTOGRAM_COUNTS_1M("My.Histogram", sample);
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#define UMA_HISTOGRAM_COUNTS_100(name, sample) UMA_HISTOGRAM_CUSTOM_COUNTS( \
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name, sample, 1, 100, 50)
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#define UMA_HISTOGRAM_COUNTS_1000(name, sample) UMA_HISTOGRAM_CUSTOM_COUNTS( \
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name, sample, 1, 1000, 50)
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#define UMA_HISTOGRAM_COUNTS_10000(name, sample) UMA_HISTOGRAM_CUSTOM_COUNTS( \
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name, sample, 1, 10000, 50)
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#define UMA_HISTOGRAM_COUNTS_100000(name, sample) UMA_HISTOGRAM_CUSTOM_COUNTS( \
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name, sample, 1, 100000, 50)
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#define UMA_HISTOGRAM_COUNTS_1M(name, sample) UMA_HISTOGRAM_CUSTOM_COUNTS( \
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name, sample, 1, 1000000, 50)
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#define UMA_HISTOGRAM_COUNTS_10M(name, sample) UMA_HISTOGRAM_CUSTOM_COUNTS( \
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name, sample, 1, 10000000, 50)
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// This can be used when the default ranges are not sufficient. This macro lets
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// the metric developer customize the min and max of the sampled range, as well
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// as the number of buckets recorded.
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// Any data outside the range here will be put in underflow and overflow
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// buckets. Min values should be >=1 as emitted 0s will still go into the
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// underflow bucket.
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// Sample usage:
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// UMA_HISTOGRAM_CUSTOM_COUNTS("My.Histogram", 1, 100000000, 100);
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#define UMA_HISTOGRAM_CUSTOM_COUNTS(name, sample, min, max, bucket_count) \
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INTERNAL_HISTOGRAM_CUSTOM_COUNTS_WITH_FLAG( \
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name, sample, min, max, bucket_count, \
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base::HistogramBase::kUmaTargetedHistogramFlag)
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//------------------------------------------------------------------------------
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// Timing histograms. These are used for collecting timing data (generally
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// latencies).
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// These macros create exponentially sized histograms (lengths of the bucket
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// ranges exponentially increase as the sample range increases). The input
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// sample is a base::TimeDelta. The output data is measured in ms granularity.
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// All of these macros must be called with |name| as a runtime constant.
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// Sample usage:
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// UMA_HISTOGRAM_TIMES("My.Timing.Histogram", time_delta);
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// Short timings - up to 10 seconds.
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#define UMA_HISTOGRAM_TIMES(name, sample) UMA_HISTOGRAM_CUSTOM_TIMES( \
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name, sample, base::TimeDelta::FromMilliseconds(1), \
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base::TimeDelta::FromSeconds(10), 50)
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// Medium timings - up to 3 minutes. Note this starts at 10ms (no good reason,
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// but not worth changing).
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#define UMA_HISTOGRAM_MEDIUM_TIMES(name, sample) UMA_HISTOGRAM_CUSTOM_TIMES( \
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name, sample, base::TimeDelta::FromMilliseconds(10), \
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base::TimeDelta::FromMinutes(3), 50)
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// Long timings - up to an hour.
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#define UMA_HISTOGRAM_LONG_TIMES(name, sample) UMA_HISTOGRAM_CUSTOM_TIMES( \
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name, sample, base::TimeDelta::FromMilliseconds(1), \
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base::TimeDelta::FromHours(1), 50)
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// Long timings with higher granularity - up to an hour with 100 buckets.
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#define UMA_HISTOGRAM_LONG_TIMES_100(name, sample) UMA_HISTOGRAM_CUSTOM_TIMES( \
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name, sample, base::TimeDelta::FromMilliseconds(1), \
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base::TimeDelta::FromHours(1), 100)
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// This can be used when the default ranges are not sufficient. This macro lets
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// the metric developer customize the min and max of the sampled range, as well
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// as the number of buckets recorded.
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// Sample usage:
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// UMA_HISTOGRAM_CUSTOM_TIMES("Very.Long.Timing.Histogram", time_delta,
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// base::TimeDelta::FromSeconds(1), base::TimeDelta::FromDays(1), 100);
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#define UMA_HISTOGRAM_CUSTOM_TIMES(name, sample, min, max, bucket_count) \
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STATIC_HISTOGRAM_POINTER_BLOCK(name, AddTime(sample), \
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base::Histogram::FactoryTimeGet(name, min, max, bucket_count, \
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base::HistogramBase::kUmaTargetedHistogramFlag))
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// Scoped class which logs its time on this earth as a UMA statistic. This is
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// recommended for when you want a histogram which measures the time it takes
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// for a method to execute. This measures up to 10 seconds. It uses
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// UMA_HISTOGRAM_TIMES under the hood.
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// Sample usage:
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// void Function() {
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// SCOPED_UMA_HISTOGRAM_TIMER("Component.FunctionTime");
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// ...
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// }
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#define SCOPED_UMA_HISTOGRAM_TIMER(name) \
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INTERNAL_SCOPED_UMA_HISTOGRAM_TIMER_EXPANDER(name, false, __COUNTER__)
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// Similar scoped histogram timer, but this uses UMA_HISTOGRAM_LONG_TIMES_100,
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// which measures up to an hour, and uses 100 buckets. This is more expensive
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// to store, so only use if this often takes >10 seconds.
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#define SCOPED_UMA_HISTOGRAM_LONG_TIMER(name) \
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INTERNAL_SCOPED_UMA_HISTOGRAM_TIMER_EXPANDER(name, true, __COUNTER__)
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//------------------------------------------------------------------------------
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// Memory histograms.
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// These macros create exponentially sized histograms (lengths of the bucket
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// ranges exponentially increase as the sample range increases). The input
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// sample must be a number measured in kilobytes.
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// All of these macros must be called with |name| as a runtime constant.
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// Sample usage:
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// UMA_HISTOGRAM_MEMORY_KB("My.Memory.Histogram", memory_in_kb);
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// Used to measure common KB-granularity memory stats. Range is up to 500000KB -
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// approximately 500M.
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#define UMA_HISTOGRAM_MEMORY_KB(name, sample) \
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UMA_HISTOGRAM_CUSTOM_COUNTS(name, sample, 1000, 500000, 50)
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// Used to measure common MB-granularity memory stats. Range is up to ~64G.
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#define UMA_HISTOGRAM_MEMORY_LARGE_MB(name, sample) \
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UMA_HISTOGRAM_CUSTOM_COUNTS(name, sample, 1, 64000, 100)
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//------------------------------------------------------------------------------
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// Stability-specific histograms.
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// Histograms logged in as stability histograms will be included in the initial
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// stability log. See comments by declaration of
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// MetricsService::PrepareInitialStabilityLog().
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// All of these macros must be called with |name| as a runtime constant.
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// For details on usage, see the documentation on the non-stability equivalents.
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#define UMA_STABILITY_HISTOGRAM_COUNTS_100(name, sample) \
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UMA_STABILITY_HISTOGRAM_CUSTOM_COUNTS(name, sample, 1, 100, 50)
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#define UMA_STABILITY_HISTOGRAM_CUSTOM_COUNTS(name, sample, min, max, \
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bucket_count) \
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INTERNAL_HISTOGRAM_CUSTOM_COUNTS_WITH_FLAG( \
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name, sample, min, max, bucket_count, \
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base::HistogramBase::kUmaStabilityHistogramFlag)
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#define UMA_STABILITY_HISTOGRAM_ENUMERATION(name, sample, enum_max) \
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INTERNAL_HISTOGRAM_ENUMERATION_WITH_FLAG( \
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name, sample, enum_max, \
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base::HistogramBase::kUmaStabilityHistogramFlag)
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//------------------------------------------------------------------------------
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// Sparse histograms.
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// Sparse histograms are well suited for recording counts of exact sample values
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// that are sparsely distributed over a large range.
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//
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// UMA_HISTOGRAM_SPARSE_SLOWLY is good for sparsely distributed and/or
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// infrequently recorded values since the implementation is slower
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// and takes more memory. For sparse data, sparse histograms have the advantage
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// of using less memory client-side, because they allocate buckets on demand
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// rather than preallocating. However, server-side, we still need to load all
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// buckets, across all users, at once.
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// Thus, please avoid exploding such histograms, i.e. uploading many many
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// distinct values to the server (across all users). Concretely, keep the number
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// of distinct values <= 100 at best, definitely <= 1000. If you have no
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// guarantees on the range of your data, use capping, e.g.:
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// UMA_HISTOGRAM_SPARSE_SLOWLY("MyHistogram",
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// std::max(0, std::min(200, value)));
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//
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// For instance, Sqlite.Version.* are sparse because for any given database,
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// there's going to be exactly one version logged.
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// The |sample| can be a negative or non-negative number.
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#define UMA_HISTOGRAM_SPARSE_SLOWLY(name, sample) \
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INTERNAL_HISTOGRAM_SPARSE_SLOWLY(name, sample)
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//------------------------------------------------------------------------------
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// Histogram instantiation helpers.
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// Support a collection of histograms, perhaps one for each entry in an
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// enumeration. This macro manages a block of pointers, adding to a specific
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// one by its index.
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//
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// A typical instantiation looks something like this:
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// STATIC_HISTOGRAM_POINTER_GROUP(
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// GetHistogramNameForIndex(histogram_index),
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// histogram_index, MAXIMUM_HISTOGRAM_INDEX, Add(some_delta),
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// base::Histogram::FactoryGet(
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// GetHistogramNameForIndex(histogram_index),
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// MINIMUM_SAMPLE, MAXIMUM_SAMPLE, BUCKET_COUNT,
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// base::HistogramBase::kUmaTargetedHistogramFlag));
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//
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// Though it seems inefficient to generate the name twice, the first
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// instance will be used only for DCHECK builds and the second will
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// execute only during the first access to the given index, after which
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// the pointer is cached and the name never needed again.
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#define STATIC_HISTOGRAM_POINTER_GROUP(constant_histogram_name, index, \
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constant_maximum, \
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histogram_add_method_invocation, \
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histogram_factory_get_invocation) \
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do { \
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static base::subtle::AtomicWord atomic_histograms[constant_maximum]; \
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DCHECK_LE(0, index); \
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DCHECK_LT(index, constant_maximum); \
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HISTOGRAM_POINTER_USE(&atomic_histograms[index], constant_histogram_name, \
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histogram_add_method_invocation, \
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histogram_factory_get_invocation); \
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} while (0)
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//------------------------------------------------------------------------------
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// Deprecated histogram macros. Not recommended for current use.
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// Legacy name for UMA_HISTOGRAM_COUNTS_1M. Suggest using explicit naming
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// and not using this macro going forward.
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#define UMA_HISTOGRAM_COUNTS(name, sample) UMA_HISTOGRAM_CUSTOM_COUNTS( \
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name, sample, 1, 1000000, 50)
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// MB-granularity memory metric. This has a short max (1G).
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#define UMA_HISTOGRAM_MEMORY_MB(name, sample) \
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UMA_HISTOGRAM_CUSTOM_COUNTS(name, sample, 1, 1000, 50)
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// For an enum with customized range. In general, sparse histograms should be
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// used instead.
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// Samples should be one of the std::vector<int> list provided via
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// |custom_ranges|. See comments above CustomRanges::FactoryGet about the
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// requirement of |custom_ranges|. You can use the helper function
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// CustomHistogram::ArrayToCustomRanges to transform a C-style array of valid
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// sample values to a std::vector<int>.
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#define UMA_HISTOGRAM_CUSTOM_ENUMERATION(name, sample, custom_ranges) \
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STATIC_HISTOGRAM_POINTER_BLOCK(name, Add(sample), \
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base::CustomHistogram::FactoryGet(name, custom_ranges, \
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base::HistogramBase::kUmaTargetedHistogramFlag))
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#endif // BASE_METRICS_HISTOGRAM_MACROS_H_
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