1 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
2 // Use of this source code is governed by a BSD-style license that can be
3 // found in the LICENSE file.
5 #include "base/test/trace_event_analyzer.h"
11 #include "base/json/json_reader.h"
12 #include "base/memory/scoped_ptr.h"
13 #include "base/values.h"
15 namespace trace_analyzer
{
19 TraceEvent::TraceEvent()
23 phase(TRACE_EVENT_PHASE_BEGIN
),
27 TraceEvent::~TraceEvent() {
30 bool TraceEvent::SetFromJSON(const base::Value
* event_value
) {
31 if (event_value
->GetType() != base::Value::TYPE_DICTIONARY
) {
32 LOG(ERROR
) << "Value must be TYPE_DICTIONARY";
35 const base::DictionaryValue
* dictionary
=
36 static_cast<const base::DictionaryValue
*>(event_value
);
38 std::string phase_str
;
39 const base::DictionaryValue
* args
= NULL
;
41 if (!dictionary
->GetString("ph", &phase_str
)) {
42 LOG(ERROR
) << "ph is missing from TraceEvent JSON";
46 phase
= *phase_str
.data();
48 bool may_have_duration
= (phase
== TRACE_EVENT_PHASE_COMPLETE
);
49 bool require_origin
= (phase
!= TRACE_EVENT_PHASE_METADATA
);
50 bool require_id
= (phase
== TRACE_EVENT_PHASE_ASYNC_BEGIN
||
51 phase
== TRACE_EVENT_PHASE_ASYNC_STEP_INTO
||
52 phase
== TRACE_EVENT_PHASE_ASYNC_STEP_PAST
||
53 phase
== TRACE_EVENT_PHASE_ASYNC_END
);
55 if (require_origin
&& !dictionary
->GetInteger("pid", &thread
.process_id
)) {
56 LOG(ERROR
) << "pid is missing from TraceEvent JSON";
59 if (require_origin
&& !dictionary
->GetInteger("tid", &thread
.thread_id
)) {
60 LOG(ERROR
) << "tid is missing from TraceEvent JSON";
63 if (require_origin
&& !dictionary
->GetDouble("ts", ×tamp
)) {
64 LOG(ERROR
) << "ts is missing from TraceEvent JSON";
67 if (may_have_duration
) {
68 dictionary
->GetDouble("dur", &duration
);
70 if (!dictionary
->GetString("cat", &category
)) {
71 LOG(ERROR
) << "cat is missing from TraceEvent JSON";
74 if (!dictionary
->GetString("name", &name
)) {
75 LOG(ERROR
) << "name is missing from TraceEvent JSON";
78 if (!dictionary
->GetDictionary("args", &args
)) {
79 LOG(ERROR
) << "args is missing from TraceEvent JSON";
82 if (require_id
&& !dictionary
->GetString("id", &id
)) {
83 LOG(ERROR
) << "id is missing from ASYNC_BEGIN/ASYNC_END TraceEvent JSON";
87 // For each argument, copy the type and create a trace_analyzer::TraceValue.
88 for (base::DictionaryValue::Iterator
it(*args
); !it
.IsAtEnd();
93 double double_num
= 0.0;
94 if (it
.value().GetAsString(&str
)) {
95 arg_strings
[it
.key()] = str
;
96 } else if (it
.value().GetAsInteger(&int_num
)) {
97 arg_numbers
[it
.key()] = static_cast<double>(int_num
);
98 } else if (it
.value().GetAsBoolean(&boolean
)) {
99 arg_numbers
[it
.key()] = static_cast<double>(boolean
? 1 : 0);
100 } else if (it
.value().GetAsDouble(&double_num
)) {
101 arg_numbers
[it
.key()] = double_num
;
103 LOG(WARNING
) << "Value type of argument is not supported: " <<
104 static_cast<int>(it
.value().GetType());
105 continue; // Skip non-supported arguments.
112 double TraceEvent::GetAbsTimeToOtherEvent() const {
113 return fabs(other_event
->timestamp
- timestamp
);
116 bool TraceEvent::GetArgAsString(const std::string
& name
,
117 std::string
* arg
) const {
118 std::map
<std::string
, std::string
>::const_iterator i
= arg_strings
.find(name
);
119 if (i
!= arg_strings
.end()) {
126 bool TraceEvent::GetArgAsNumber(const std::string
& name
,
128 std::map
<std::string
, double>::const_iterator i
= arg_numbers
.find(name
);
129 if (i
!= arg_numbers
.end()) {
136 bool TraceEvent::HasStringArg(const std::string
& name
) const {
137 return (arg_strings
.find(name
) != arg_strings
.end());
140 bool TraceEvent::HasNumberArg(const std::string
& name
) const {
141 return (arg_numbers
.find(name
) != arg_numbers
.end());
144 std::string
TraceEvent::GetKnownArgAsString(const std::string
& name
) const {
145 std::string arg_string
;
146 bool result
= GetArgAsString(name
, &arg_string
);
151 double TraceEvent::GetKnownArgAsDouble(const std::string
& name
) const {
152 double arg_double
= 0;
153 bool result
= GetArgAsNumber(name
, &arg_double
);
158 int TraceEvent::GetKnownArgAsInt(const std::string
& name
) const {
159 double arg_double
= 0;
160 bool result
= GetArgAsNumber(name
, &arg_double
);
162 return static_cast<int>(arg_double
);
165 bool TraceEvent::GetKnownArgAsBool(const std::string
& name
) const {
166 double arg_double
= 0;
167 bool result
= GetArgAsNumber(name
, &arg_double
);
169 return (arg_double
!= 0.0);
174 QueryNode::QueryNode(const Query
& query
) : query_(query
) {
177 QueryNode::~QueryNode() {
182 Query::Query(TraceEventMember member
)
183 : type_(QUERY_EVENT_MEMBER
),
184 operator_(OP_INVALID
),
190 Query::Query(TraceEventMember member
, const std::string
& arg_name
)
191 : type_(QUERY_EVENT_MEMBER
),
192 operator_(OP_INVALID
),
199 Query::Query(const Query
& query
)
200 : type_(query
.type_
),
201 operator_(query
.operator_
),
203 right_(query
.right_
),
204 member_(query
.member_
),
205 number_(query
.number_
),
206 string_(query
.string_
),
207 is_pattern_(query
.is_pattern_
) {
213 Query
Query::String(const std::string
& str
) {
217 Query
Query::Double(double num
) {
221 Query
Query::Int(int32 num
) {
222 return Query(static_cast<double>(num
));
225 Query
Query::Uint(uint32 num
) {
226 return Query(static_cast<double>(num
));
229 Query
Query::Bool(bool boolean
) {
230 return Query(boolean
? 1.0 : 0.0);
233 Query
Query::Phase(char phase
) {
234 return Query(static_cast<double>(phase
));
237 Query
Query::Pattern(const std::string
& pattern
) {
238 Query
query(pattern
);
239 query
.is_pattern_
= true;
243 bool Query::Evaluate(const TraceEvent
& event
) const {
244 // First check for values that can convert to bool.
246 // double is true if != 0:
247 double bool_value
= 0.0;
248 bool is_bool
= GetAsDouble(event
, &bool_value
);
250 return (bool_value
!= 0.0);
252 // string is true if it is non-empty:
253 std::string str_value
;
254 bool is_str
= GetAsString(event
, &str_value
);
256 return !str_value
.empty();
258 DCHECK_EQ(QUERY_BOOLEAN_OPERATOR
, type_
)
259 << "Invalid query: missing boolean expression";
261 DCHECK(right_
.get() || is_unary_operator());
263 if (is_comparison_operator()) {
264 DCHECK(left().is_value() && right().is_value())
265 << "Invalid query: comparison operator used between event member and "
267 bool compare_result
= false;
268 if (CompareAsDouble(event
, &compare_result
))
269 return compare_result
;
270 if (CompareAsString(event
, &compare_result
))
271 return compare_result
;
274 // It's a logical operator.
277 return left().Evaluate(event
) && right().Evaluate(event
);
279 return left().Evaluate(event
) || right().Evaluate(event
);
281 return !left().Evaluate(event
);
288 bool Query::CompareAsDouble(const TraceEvent
& event
, bool* result
) const {
290 if (!left().GetAsDouble(event
, &lhs
) || !right().GetAsDouble(event
, &rhs
))
294 *result
= (lhs
== rhs
);
297 *result
= (lhs
!= rhs
);
300 *result
= (lhs
< rhs
);
303 *result
= (lhs
<= rhs
);
306 *result
= (lhs
> rhs
);
309 *result
= (lhs
>= rhs
);
317 bool Query::CompareAsString(const TraceEvent
& event
, bool* result
) const {
318 std::string lhs
, rhs
;
319 if (!left().GetAsString(event
, &lhs
) || !right().GetAsString(event
, &rhs
))
323 if (right().is_pattern_
)
324 *result
= MatchPattern(lhs
, rhs
);
325 else if (left().is_pattern_
)
326 *result
= MatchPattern(rhs
, lhs
);
328 *result
= (lhs
== rhs
);
331 if (right().is_pattern_
)
332 *result
= !MatchPattern(lhs
, rhs
);
333 else if (left().is_pattern_
)
334 *result
= !MatchPattern(rhs
, lhs
);
336 *result
= (lhs
!= rhs
);
339 *result
= (lhs
< rhs
);
342 *result
= (lhs
<= rhs
);
345 *result
= (lhs
> rhs
);
348 *result
= (lhs
>= rhs
);
356 bool Query::EvaluateArithmeticOperator(const TraceEvent
& event
,
358 DCHECK_EQ(QUERY_ARITHMETIC_OPERATOR
, type_
);
360 DCHECK(right_
.get() || is_unary_operator());
362 double lhs
= 0, rhs
= 0;
363 if (!left().GetAsDouble(event
, &lhs
))
365 if (!is_unary_operator() && !right().GetAsDouble(event
, &rhs
))
382 *num
= static_cast<double>(static_cast<int64
>(lhs
) %
383 static_cast<int64
>(rhs
));
394 bool Query::GetAsDouble(const TraceEvent
& event
, double* num
) const {
396 case QUERY_ARITHMETIC_OPERATOR
:
397 return EvaluateArithmeticOperator(event
, num
);
398 case QUERY_EVENT_MEMBER
:
399 return GetMemberValueAsDouble(event
, num
);
408 bool Query::GetAsString(const TraceEvent
& event
, std::string
* str
) const {
410 case QUERY_EVENT_MEMBER
:
411 return GetMemberValueAsString(event
, str
);
420 bool Query::GetMemberValueAsDouble(const TraceEvent
& event
,
422 DCHECK_EQ(QUERY_EVENT_MEMBER
, type_
);
424 // This could be a request for a member of |event| or a member of |event|'s
425 // associated event. Store the target event in the_event:
426 const TraceEvent
* the_event
= (member_
< OTHER_PID
) ?
427 &event
: event
.other_event
;
429 // Request for member of associated event, but there is no associated event.
436 *num
= static_cast<double>(the_event
->thread
.process_id
);
440 *num
= static_cast<double>(the_event
->thread
.thread_id
);
444 *num
= the_event
->timestamp
;
447 if (!the_event
->has_other_event())
449 *num
= the_event
->GetAbsTimeToOtherEvent();
451 case EVENT_COMPLETE_DURATION
:
452 if (the_event
->phase
!= TRACE_EVENT_PHASE_COMPLETE
)
454 *num
= the_event
->duration
;
458 *num
= static_cast<double>(the_event
->phase
);
460 case EVENT_HAS_STRING_ARG
:
461 case OTHER_HAS_STRING_ARG
:
462 *num
= (the_event
->HasStringArg(string_
) ? 1.0 : 0.0);
464 case EVENT_HAS_NUMBER_ARG
:
465 case OTHER_HAS_NUMBER_ARG
:
466 *num
= (the_event
->HasNumberArg(string_
) ? 1.0 : 0.0);
470 // Search for the argument name and return its value if found.
471 std::map
<std::string
, double>::const_iterator num_i
=
472 the_event
->arg_numbers
.find(string_
);
473 if (num_i
== the_event
->arg_numbers
.end())
475 *num
= num_i
->second
;
478 case EVENT_HAS_OTHER
:
479 // return 1.0 (true) if the other event exists
480 *num
= event
.other_event
? 1.0 : 0.0;
487 bool Query::GetMemberValueAsString(const TraceEvent
& event
,
488 std::string
* str
) const {
489 DCHECK_EQ(QUERY_EVENT_MEMBER
, type_
);
491 // This could be a request for a member of |event| or a member of |event|'s
492 // associated event. Store the target event in the_event:
493 const TraceEvent
* the_event
= (member_
< OTHER_PID
) ?
494 &event
: event
.other_event
;
496 // Request for member of associated event, but there is no associated event.
503 *str
= the_event
->category
;
507 *str
= the_event
->name
;
511 *str
= the_event
->id
;
515 // Search for the argument name and return its value if found.
516 std::map
<std::string
, std::string
>::const_iterator str_i
=
517 the_event
->arg_strings
.find(string_
);
518 if (str_i
== the_event
->arg_strings
.end())
520 *str
= str_i
->second
;
528 Query::Query(const std::string
& str
)
529 : type_(QUERY_STRING
),
530 operator_(OP_INVALID
),
531 member_(EVENT_INVALID
),
537 Query::Query(double num
)
538 : type_(QUERY_NUMBER
),
539 operator_(OP_INVALID
),
540 member_(EVENT_INVALID
),
544 const Query
& Query::left() const {
545 return left_
->query();
548 const Query
& Query::right() const {
549 return right_
->query();
552 Query
Query::operator==(const Query
& rhs
) const {
553 return Query(*this, rhs
, OP_EQ
);
556 Query
Query::operator!=(const Query
& rhs
) const {
557 return Query(*this, rhs
, OP_NE
);
560 Query
Query::operator<(const Query
& rhs
) const {
561 return Query(*this, rhs
, OP_LT
);
564 Query
Query::operator<=(const Query
& rhs
) const {
565 return Query(*this, rhs
, OP_LE
);
568 Query
Query::operator>(const Query
& rhs
) const {
569 return Query(*this, rhs
, OP_GT
);
572 Query
Query::operator>=(const Query
& rhs
) const {
573 return Query(*this, rhs
, OP_GE
);
576 Query
Query::operator&&(const Query
& rhs
) const {
577 return Query(*this, rhs
, OP_AND
);
580 Query
Query::operator||(const Query
& rhs
) const {
581 return Query(*this, rhs
, OP_OR
);
584 Query
Query::operator!() const {
585 return Query(*this, OP_NOT
);
588 Query
Query::operator+(const Query
& rhs
) const {
589 return Query(*this, rhs
, OP_ADD
);
592 Query
Query::operator-(const Query
& rhs
) const {
593 return Query(*this, rhs
, OP_SUB
);
596 Query
Query::operator*(const Query
& rhs
) const {
597 return Query(*this, rhs
, OP_MUL
);
600 Query
Query::operator/(const Query
& rhs
) const {
601 return Query(*this, rhs
, OP_DIV
);
604 Query
Query::operator%(const Query
& rhs
) const {
605 return Query(*this, rhs
, OP_MOD
);
608 Query
Query::operator-() const {
609 return Query(*this, OP_NEGATE
);
613 Query::Query(const Query
& left
, const Query
& right
, Operator binary_op
)
614 : operator_(binary_op
),
615 left_(new QueryNode(left
)),
616 right_(new QueryNode(right
)),
617 member_(EVENT_INVALID
),
619 type_
= (binary_op
< OP_ADD
?
620 QUERY_BOOLEAN_OPERATOR
: QUERY_ARITHMETIC_OPERATOR
);
623 Query::Query(const Query
& left
, Operator unary_op
)
624 : operator_(unary_op
),
625 left_(new QueryNode(left
)),
626 member_(EVENT_INVALID
),
628 type_
= (unary_op
< OP_ADD
?
629 QUERY_BOOLEAN_OPERATOR
: QUERY_ARITHMETIC_OPERATOR
);
634 // Search |events| for |query| and add matches to |output|.
635 size_t FindMatchingEvents(const std::vector
<TraceEvent
>& events
,
637 TraceEventVector
* output
,
638 bool ignore_metadata_events
) {
639 for (size_t i
= 0; i
< events
.size(); ++i
) {
640 if (ignore_metadata_events
&& events
[i
].phase
== TRACE_EVENT_PHASE_METADATA
)
642 if (query
.Evaluate(events
[i
]))
643 output
->push_back(&events
[i
]);
645 return output
->size();
648 bool ParseEventsFromJson(const std::string
& json
,
649 std::vector
<TraceEvent
>* output
) {
650 scoped_ptr
<base::Value
> root
;
651 root
.reset(base::JSONReader::Read(json
));
653 base::ListValue
* root_list
= NULL
;
654 if (!root
.get() || !root
->GetAsList(&root_list
))
657 for (size_t i
= 0; i
< root_list
->GetSize(); ++i
) {
658 base::Value
* item
= NULL
;
659 if (root_list
->Get(i
, &item
)) {
661 if (event
.SetFromJSON(item
))
662 output
->push_back(event
);
675 TraceAnalyzer::TraceAnalyzer()
676 : ignore_metadata_events_(false),
677 allow_assocation_changes_(true) {}
679 TraceAnalyzer::~TraceAnalyzer() {
683 TraceAnalyzer
* TraceAnalyzer::Create(const std::string
& json_events
) {
684 scoped_ptr
<TraceAnalyzer
> analyzer(new TraceAnalyzer());
685 if (analyzer
->SetEvents(json_events
))
686 return analyzer
.release();
690 bool TraceAnalyzer::SetEvents(const std::string
& json_events
) {
692 if (!ParseEventsFromJson(json_events
, &raw_events_
))
694 std::stable_sort(raw_events_
.begin(), raw_events_
.end());
699 void TraceAnalyzer::AssociateBeginEndEvents() {
700 using trace_analyzer::Query
;
702 Query
begin(Query::EventPhaseIs(TRACE_EVENT_PHASE_BEGIN
));
703 Query
end(Query::EventPhaseIs(TRACE_EVENT_PHASE_END
));
704 Query
match(Query::EventName() == Query::OtherName() &&
705 Query::EventCategory() == Query::OtherCategory() &&
706 Query::EventTid() == Query::OtherTid() &&
707 Query::EventPid() == Query::OtherPid());
709 AssociateEvents(begin
, end
, match
);
712 void TraceAnalyzer::AssociateAsyncBeginEndEvents() {
713 using trace_analyzer::Query
;
716 Query::EventPhaseIs(TRACE_EVENT_PHASE_ASYNC_BEGIN
) ||
717 Query::EventPhaseIs(TRACE_EVENT_PHASE_ASYNC_STEP_INTO
) ||
718 Query::EventPhaseIs(TRACE_EVENT_PHASE_ASYNC_STEP_PAST
));
719 Query
end(Query::EventPhaseIs(TRACE_EVENT_PHASE_ASYNC_END
) ||
720 Query::EventPhaseIs(TRACE_EVENT_PHASE_ASYNC_STEP_INTO
) ||
721 Query::EventPhaseIs(TRACE_EVENT_PHASE_ASYNC_STEP_PAST
));
722 Query
match(Query::EventName() == Query::OtherName() &&
723 Query::EventCategory() == Query::OtherCategory() &&
724 Query::EventId() == Query::OtherId());
726 AssociateEvents(begin
, end
, match
);
729 void TraceAnalyzer::AssociateEvents(const Query
& first
,
731 const Query
& match
) {
732 DCHECK(allow_assocation_changes_
)
733 << "AssociateEvents not allowed after FindEvents";
735 // Search for matching begin/end event pairs. When a matching end is found,
736 // it is associated with the begin event.
737 std::vector
<TraceEvent
*> begin_stack
;
738 for (size_t event_index
= 0; event_index
< raw_events_
.size();
741 TraceEvent
& this_event
= raw_events_
[event_index
];
743 if (second
.Evaluate(this_event
)) {
744 // Search stack for matching begin, starting from end.
745 for (int stack_index
= static_cast<int>(begin_stack
.size()) - 1;
746 stack_index
>= 0; --stack_index
) {
747 TraceEvent
& begin_event
= *begin_stack
[stack_index
];
749 // Temporarily set other to test against the match query.
750 const TraceEvent
* other_backup
= begin_event
.other_event
;
751 begin_event
.other_event
= &this_event
;
752 if (match
.Evaluate(begin_event
)) {
753 // Found a matching begin/end pair.
754 // Erase the matching begin event index from the stack.
755 begin_stack
.erase(begin_stack
.begin() + stack_index
);
759 // Not a match, restore original other and continue.
760 begin_event
.other_event
= other_backup
;
763 // Even if this_event is a |second| event that has matched an earlier
764 // |first| event, it can still also be a |first| event and be associated
765 // with a later |second| event.
766 if (first
.Evaluate(this_event
)) {
767 begin_stack
.push_back(&this_event
);
772 void TraceAnalyzer::MergeAssociatedEventArgs() {
773 for (size_t i
= 0; i
< raw_events_
.size(); ++i
) {
774 // Merge all associated events with the first event.
775 const TraceEvent
* other
= raw_events_
[i
].other_event
;
776 // Avoid looping by keeping set of encountered TraceEvents.
777 std::set
<const TraceEvent
*> encounters
;
778 encounters
.insert(&raw_events_
[i
]);
779 while (other
&& encounters
.find(other
) == encounters
.end()) {
780 encounters
.insert(other
);
781 raw_events_
[i
].arg_numbers
.insert(
782 other
->arg_numbers
.begin(),
783 other
->arg_numbers
.end());
784 raw_events_
[i
].arg_strings
.insert(
785 other
->arg_strings
.begin(),
786 other
->arg_strings
.end());
787 other
= other
->other_event
;
792 size_t TraceAnalyzer::FindEvents(const Query
& query
, TraceEventVector
* output
) {
793 allow_assocation_changes_
= false;
795 return FindMatchingEvents(
796 raw_events_
, query
, output
, ignore_metadata_events_
);
799 const TraceEvent
* TraceAnalyzer::FindFirstOf(const Query
& query
) {
800 TraceEventVector output
;
801 if (FindEvents(query
, &output
) > 0)
802 return output
.front();
806 const TraceEvent
* TraceAnalyzer::FindLastOf(const Query
& query
) {
807 TraceEventVector output
;
808 if (FindEvents(query
, &output
) > 0)
809 return output
.back();
813 const std::string
& TraceAnalyzer::GetThreadName(
814 const TraceEvent::ProcessThreadID
& thread
) {
815 // If thread is not found, just add and return empty string.
816 return thread_names_
[thread
];
819 void TraceAnalyzer::ParseMetadata() {
820 for (size_t i
= 0; i
< raw_events_
.size(); ++i
) {
821 TraceEvent
& this_event
= raw_events_
[i
];
822 // Check for thread name metadata.
823 if (this_event
.phase
!= TRACE_EVENT_PHASE_METADATA
||
824 this_event
.name
!= "thread_name")
826 std::map
<std::string
, std::string
>::const_iterator string_it
=
827 this_event
.arg_strings
.find("name");
828 if (string_it
!= this_event
.arg_strings
.end())
829 thread_names_
[this_event
.thread
] = string_it
->second
;
833 // TraceEventVector utility functions.
835 bool GetRateStats(const TraceEventVector
& events
,
837 const RateStatsOptions
* options
) {
839 // Need at least 3 events to calculate rate stats.
840 const size_t kMinEvents
= 3;
841 if (events
.size() < kMinEvents
) {
842 LOG(ERROR
) << "Not enough events: " << events
.size();
846 std::vector
<double> deltas
;
847 size_t num_deltas
= events
.size() - 1;
848 for (size_t i
= 0; i
< num_deltas
; ++i
) {
849 double delta
= events
.at(i
+ 1)->timestamp
- events
.at(i
)->timestamp
;
851 LOG(ERROR
) << "Events are out of order";
854 deltas
.push_back(delta
);
857 std::sort(deltas
.begin(), deltas
.end());
860 if (options
->trim_min
+ options
->trim_max
> events
.size() - kMinEvents
) {
861 LOG(ERROR
) << "Attempt to trim too many events";
864 deltas
.erase(deltas
.begin(), deltas
.begin() + options
->trim_min
);
865 deltas
.erase(deltas
.end() - options
->trim_max
, deltas
.end());
868 num_deltas
= deltas
.size();
869 double delta_sum
= 0.0;
870 for (size_t i
= 0; i
< num_deltas
; ++i
)
871 delta_sum
+= deltas
[i
];
873 stats
->min_us
= *std::min_element(deltas
.begin(), deltas
.end());
874 stats
->max_us
= *std::max_element(deltas
.begin(), deltas
.end());
875 stats
->mean_us
= delta_sum
/ static_cast<double>(num_deltas
);
877 double sum_mean_offsets_squared
= 0.0;
878 for (size_t i
= 0; i
< num_deltas
; ++i
) {
879 double offset
= fabs(deltas
[i
] - stats
->mean_us
);
880 sum_mean_offsets_squared
+= offset
* offset
;
882 stats
->standard_deviation_us
=
883 sqrt(sum_mean_offsets_squared
/ static_cast<double>(num_deltas
- 1));
888 bool FindFirstOf(const TraceEventVector
& events
,
891 size_t* return_index
) {
892 DCHECK(return_index
);
893 for (size_t i
= position
; i
< events
.size(); ++i
) {
894 if (query
.Evaluate(*events
[i
])) {
902 bool FindLastOf(const TraceEventVector
& events
,
905 size_t* return_index
) {
906 DCHECK(return_index
);
907 for (size_t i
= std::min(position
+ 1, events
.size()); i
!= 0; --i
) {
908 if (query
.Evaluate(*events
[i
- 1])) {
909 *return_index
= i
- 1;
916 bool FindClosest(const TraceEventVector
& events
,
919 size_t* return_closest
,
920 size_t* return_second_closest
) {
921 DCHECK(return_closest
);
922 if (events
.empty() || position
>= events
.size())
924 size_t closest
= events
.size();
925 size_t second_closest
= events
.size();
926 for (size_t i
= 0; i
< events
.size(); ++i
) {
927 if (!query
.Evaluate(*events
.at(i
)))
929 if (closest
== events
.size()) {
933 if (fabs(events
.at(i
)->timestamp
- events
.at(position
)->timestamp
) <
934 fabs(events
.at(closest
)->timestamp
- events
.at(position
)->timestamp
)) {
935 second_closest
= closest
;
937 } else if (second_closest
== events
.size()) {
942 if (closest
< events
.size() &&
943 (!return_second_closest
|| second_closest
< events
.size())) {
944 *return_closest
= closest
;
945 if (return_second_closest
)
946 *return_second_closest
= second_closest
;
953 size_t CountMatches(const TraceEventVector
& events
,
955 size_t begin_position
,
956 size_t end_position
) {
957 if (begin_position
>= events
.size())
959 end_position
= (end_position
< events
.size()) ? end_position
: events
.size();
961 for (size_t i
= begin_position
; i
< end_position
; ++i
) {
962 if (query
.Evaluate(*events
.at(i
)))
968 } // namespace trace_analyzer