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1 // Copyright 2012 The Chromium Authors. All rights reserved. | 1 // Copyright 2012 The Chromium Authors. All rights reserved. |
2 // Use of this source code is governed by a BSD-style license that can be | 2 // Use of this source code is governed by a BSD-style license that can be |
3 // found in the LICENSE file. | 3 // found in the LICENSE file. |
4 | 4 |
5 #ifndef CC_FRAME_RATE_COUNTER_H_ | 5 #ifndef CC_FRAME_RATE_COUNTER_H_ |
6 #define CC_FRAME_RATE_COUNTER_H_ | 6 #define CC_FRAME_RATE_COUNTER_H_ |
7 | 7 |
8 #include "base/basictypes.h" | 8 #include "base/basictypes.h" |
9 #include "base/memory/scoped_ptr.h" | 9 #include "base/memory/scoped_ptr.h" |
10 #include "base/time.h" | 10 #include "base/time.h" |
11 | 11 |
12 namespace cc { | 12 namespace cc { |
13 | 13 |
14 // This class maintains a history of timestamps, and provides functionality to | 14 // This class maintains a history of timestamps, and provides functionality to |
15 // intelligently compute average frames per second (and standard deviation). | 15 // intelligently compute average frames per second (and standard deviation). |
16 class FrameRateCounter { | 16 class FrameRateCounter { |
17 public: | 17 public: |
18 static scoped_ptr<FrameRateCounter> create(); | 18 static scoped_ptr<FrameRateCounter> create(bool hasImplThread); |
19 | 19 |
20 void markBeginningOfFrame(base::TimeTicks timestamp); | 20 void markBeginningOfFrame(base::TimeTicks timestamp); |
21 void markEndOfFrame(); | 21 void markEndOfFrame(); |
22 int currentFrameNumber() const { return m_currentFrameNumber; } | 22 int currentFrameNumber() const { return m_currentFrameNumber; } |
23 void getAverageFPSAndStandardDeviation(double& averageFPS, double& standardD
eviation) const; | 23 void getAverageFPSAndStandardDeviation(double& averageFPS, double& standardD
eviation) const; |
24 int timeStampHistorySize() const { return kTimeStampHistorySize; } | 24 int timeStampHistorySize() const { return kTimeStampHistorySize; } |
25 | 25 |
26 // n = 0 returns the oldest frame retained in the history, | 26 // n = 0 returns the oldest frame retained in the history, |
27 // while n = timeStampHistorySize() - 1 returns the timestamp most recent fr
ame. | 27 // while n = timeStampHistorySize() - 1 returns the timestamp most recent fr
ame. |
28 // FIXME: Returns most recent timestamp for n = 0 when called between markBe
ginningOfFrame and markEndOfFrame calls. | 28 // FIXME: Returns most recent timestamp for n = 0 when called between markBe
ginningOfFrame and markEndOfFrame calls. |
29 base::TimeTicks timeStampOfRecentFrame(int n) const; | 29 base::TimeTicks timeStampOfRecentFrame(int n) const; |
30 | 30 |
31 // This is a heuristic that can be used to ignore frames in a reasonable way
. Returns | 31 // This is a heuristic that can be used to ignore frames in a reasonable way
. Returns |
32 // true if the given frame interval is too fast or too slow, based on consta
nt thresholds. | 32 // true if the given frame interval is too fast or too slow, based on consta
nt thresholds. |
33 bool isBadFrameInterval(base::TimeDelta intervalBetweenConsecutiveFrames) co
nst; | 33 bool isBadFrameInterval(base::TimeDelta intervalBetweenConsecutiveFrames) co
nst; |
34 | 34 |
35 int droppedFrameCount() const { return m_droppedFrameCount; } | 35 int droppedFrameCount() const { return m_droppedFrameCount; } |
36 | 36 |
37 private: | 37 private: |
38 FrameRateCounter(); | 38 explicit FrameRateCounter(bool hasImplThread); |
39 | 39 |
40 base::TimeDelta frameInterval(int frameNumber) const; | 40 base::TimeDelta frameInterval(int frameNumber) const; |
41 int frameIndex(int frameNumber) const; | 41 int frameIndex(int frameNumber) const; |
42 bool isBadFrame(int frameNumber) const; | 42 bool isBadFrame(int frameNumber) const; |
43 | 43 |
44 // Two thresholds (measured in seconds) that describe what is considered to
be a "no-op frame" that should not be counted. | 44 // Two thresholds (measured in seconds) that describe what is considered to
be a "no-op frame" that should not be counted. |
45 // - if the frame is too fast, then given our compositor implementation, the
frame probably was a no-op and did not draw. | 45 // - if the frame is too fast, then given our compositor implementation, the
frame probably was a no-op and did not draw. |
46 // - if the frame is too slow, then there is probably not animating content,
so we should not pollute the average. | 46 // - if the frame is too slow, then there is probably not animating content,
so we should not pollute the average. |
47 static const double kFrameTooFast; | 47 static const double kFrameTooFast; |
48 static const double kFrameTooSlow; | 48 static const double kFrameTooSlow; |
49 | 49 |
50 // If a frame takes longer than this threshold (measured in seconds) then we | 50 // If a frame takes longer than this threshold (measured in seconds) then we |
51 // (naively) assume that it missed a screen refresh; that is, we dropped a f
rame. | 51 // (naively) assume that it missed a screen refresh; that is, we dropped a f
rame. |
52 // FIXME: Determine this threshold based on monitor refresh rate, crbug.com/
138642. | 52 // FIXME: Determine this threshold based on monitor refresh rate, crbug.com/
138642. |
53 static const double kDroppedFrameTime; | 53 static const double kDroppedFrameTime; |
54 | 54 |
55 static const int kTimeStampHistorySize = 170; | 55 static const int kTimeStampHistorySize = 170; |
56 | 56 |
| 57 bool m_hasImplThread; |
| 58 |
57 int m_currentFrameNumber; | 59 int m_currentFrameNumber; |
58 base::TimeTicks m_timeStampHistory[kTimeStampHistorySize]; | 60 base::TimeTicks m_timeStampHistory[kTimeStampHistorySize]; |
59 | 61 |
60 int m_droppedFrameCount; | 62 int m_droppedFrameCount; |
61 | 63 |
62 DISALLOW_COPY_AND_ASSIGN(FrameRateCounter); | 64 DISALLOW_COPY_AND_ASSIGN(FrameRateCounter); |
63 }; | 65 }; |
64 | 66 |
65 } // namespace cc | 67 } // namespace cc |
66 | 68 |
67 #endif // CC_FRAME_RATE_COUNTER_H_ | 69 #endif // CC_FRAME_RATE_COUNTER_H_ |
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