180 lines
5.5 KiB
C++
180 lines
5.5 KiB
C++
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// Copyright (c) 2012 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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#include "base/metrics/sparse_histogram.h"
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#include "base/metrics/sample_map.h"
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#include "base/metrics/statistics_recorder.h"
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#include "base/pickle.h"
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#include "base/strings/stringprintf.h"
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#include "base/synchronization/lock.h"
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using std::map;
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using std::string;
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namespace base {
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typedef HistogramBase::Count Count;
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typedef HistogramBase::Sample Sample;
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// static
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HistogramBase* SparseHistogram::FactoryGet(const string& name, int32 flags) {
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HistogramBase* histogram = StatisticsRecorder::FindHistogram(name);
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if (!histogram) {
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// To avoid racy destruction at shutdown, the following will be leaked.
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HistogramBase* tentative_histogram = new SparseHistogram(name);
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tentative_histogram->SetFlags(flags);
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histogram =
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StatisticsRecorder::RegisterOrDeleteDuplicate(tentative_histogram);
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}
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DCHECK_EQ(SPARSE_HISTOGRAM, histogram->GetHistogramType());
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return histogram;
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}
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SparseHistogram::~SparseHistogram() {}
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HistogramType SparseHistogram::GetHistogramType() const {
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return SPARSE_HISTOGRAM;
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}
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bool SparseHistogram::HasConstructionArguments(
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Sample expected_minimum,
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Sample expected_maximum,
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size_t expected_bucket_count) const {
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// SparseHistogram never has min/max/bucket_count limit.
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return false;
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}
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void SparseHistogram::Add(Sample value) {
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base::AutoLock auto_lock(lock_);
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samples_.Accumulate(value, 1);
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}
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scoped_ptr<HistogramSamples> SparseHistogram::SnapshotSamples() const {
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scoped_ptr<SampleMap> snapshot(new SampleMap());
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base::AutoLock auto_lock(lock_);
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snapshot->Add(samples_);
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return snapshot.PassAs<HistogramSamples>();
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}
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void SparseHistogram::AddSamples(const HistogramSamples& samples) {
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base::AutoLock auto_lock(lock_);
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samples_.Add(samples);
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}
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bool SparseHistogram::AddSamplesFromPickle(PickleIterator* iter) {
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base::AutoLock auto_lock(lock_);
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return samples_.AddFromPickle(iter);
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}
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void SparseHistogram::WriteHTMLGraph(string* output) const {
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output->append("<PRE>");
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WriteAsciiImpl(true, "<br>", output);
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output->append("</PRE>");
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}
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void SparseHistogram::WriteAscii(string* output) const {
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WriteAsciiImpl(true, "\n", output);
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}
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bool SparseHistogram::SerializeInfoImpl(Pickle* pickle) const {
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return pickle->WriteString(histogram_name()) && pickle->WriteInt(flags());
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}
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SparseHistogram::SparseHistogram(const string& name)
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: HistogramBase(name) {}
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HistogramBase* SparseHistogram::DeserializeInfoImpl(PickleIterator* iter) {
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string histogram_name;
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int flags;
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if (!iter->ReadString(&histogram_name) || !iter->ReadInt(&flags)) {
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DLOG(ERROR) << "Pickle error decoding Histogram: " << histogram_name;
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return NULL;
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}
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DCHECK(flags & HistogramBase::kIPCSerializationSourceFlag);
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flags &= ~HistogramBase::kIPCSerializationSourceFlag;
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return SparseHistogram::FactoryGet(histogram_name, flags);
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}
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void SparseHistogram::GetParameters(DictionaryValue* params) const {
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// TODO(kaiwang): Implement. (See HistogramBase::WriteJSON.)
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}
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void SparseHistogram::GetCountAndBucketData(Count* count,
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int64* sum,
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ListValue* buckets) const {
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// TODO(kaiwang): Implement. (See HistogramBase::WriteJSON.)
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}
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void SparseHistogram::WriteAsciiImpl(bool graph_it,
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const std::string& newline,
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std::string* output) const {
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// Get a local copy of the data so we are consistent.
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scoped_ptr<HistogramSamples> snapshot = SnapshotSamples();
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Count total_count = snapshot->TotalCount();
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double scaled_total_count = total_count / 100.0;
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WriteAsciiHeader(total_count, output);
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output->append(newline);
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// Determine how wide the largest bucket range is (how many digits to print),
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// so that we'll be able to right-align starts for the graphical bars.
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// Determine which bucket has the largest sample count so that we can
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// normalize the graphical bar-width relative to that sample count.
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Count largest_count = 0;
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Sample largest_sample = 0;
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scoped_ptr<SampleCountIterator> it = snapshot->Iterator();
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while (!it->Done())
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{
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Sample min;
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Sample max;
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Count count;
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it->Get(&min, &max, &count);
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if (min > largest_sample)
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largest_sample = min;
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if (count > largest_count)
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largest_count = count;
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it->Next();
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}
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size_t print_width = GetSimpleAsciiBucketRange(largest_sample).size() + 1;
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// iterate over each item and display them
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it = snapshot->Iterator();
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while (!it->Done())
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{
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Sample min;
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Sample max;
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Count count;
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it->Get(&min, &max, &count);
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// value is min, so display it
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string range = GetSimpleAsciiBucketRange(min);
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output->append(range);
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for (size_t j = 0; range.size() + j < print_width + 1; ++j)
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output->push_back(' ');
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if (graph_it)
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WriteAsciiBucketGraph(count, largest_count, output);
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WriteAsciiBucketValue(count, scaled_total_count, output);
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output->append(newline);
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it->Next();
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}
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}
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void SparseHistogram::WriteAsciiHeader(const Count total_count,
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std::string* output) const {
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StringAppendF(output,
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"Histogram: %s recorded %d samples",
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histogram_name().c_str(),
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total_count);
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if (flags() & ~kHexRangePrintingFlag)
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StringAppendF(output, " (flags = 0x%x)", flags() & ~kHexRangePrintingFlag);
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}
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} // namespace base
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