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@ -42,14 +42,20 @@ namespace
@@ -42,14 +42,20 @@ namespace
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MIN1_SEC = 60, |
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MIN5_SEC = 5 * 60, |
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MIN30_SEC = 30 * 60, |
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HOUR6_SEC = 6 * 60 * 60 |
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HOUR6_SEC = 6 * 60 * 60, |
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HOUR12_SEC = 12 * 60 * 60, |
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HOUR24_SEC = 24 * 60 * 60 |
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}; |
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const int MIN5_BUF_SIZE = 5 * 60; |
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const int MIN30_BUF_SIZE = 5 * 60; |
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const int HOUR6_BUF_SIZE = 5 * 60; |
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const int HOUR12_BUF_SIZE = 10 * 60; |
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const int HOUR24_BUF_SIZE = 10 * 60; |
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const int DIVIDER_30MIN = MIN30_SEC / MIN30_BUF_SIZE; |
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const int DIVIDER_6HOUR = HOUR6_SEC / HOUR6_BUF_SIZE; |
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const int DIVIDER_12HOUR = HOUR12_SEC / HOUR12_BUF_SIZE; |
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const int DIVIDER_24HOUR = HOUR24_SEC / HOUR24_BUF_SIZE; |
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// table of supposed nice steps for grid marks to get nice looking quarters of scale
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@ -120,9 +126,9 @@ SpeedPlotView::Averager::Averager(int divider, boost::circular_buffer<PointData>
@@ -120,9 +126,9 @@ SpeedPlotView::Averager::Averager(int divider, boost::circular_buffer<PointData>
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void SpeedPlotView::Averager::push(const PointData &pointData) |
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{ |
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// Accumulator overflow will be hit in worst case on longest used averaging span,
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// defined by divider value. Maximum divider is DIVIDER_6HOUR = 72
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// Using int32 for accumulator we get overflow when transfer speed reaches 2^31/72 ~~ 28.4 MBytes/s.
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// With quint64 this speed limit is 2^64/72 ~~ 228 PBytes/s.
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// defined by divider value. Maximum divider is DIVIDER_24HOUR = 144
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// Using int32 for accumulator we get overflow when transfer speed reaches 2^31/144 ~~ 14.2 MBytes/s.
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// With quint64 this speed limit is 2^64/144 ~~ 114 PBytes/s.
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// This speed is inaccessible to an ordinary user.
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m_accumulator.x += pointData.x; |
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for (int id = UP; id < NB_GRAPHS; ++id) |
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@ -149,8 +155,13 @@ SpeedPlotView::SpeedPlotView(QWidget *parent)
@@ -149,8 +155,13 @@ SpeedPlotView::SpeedPlotView(QWidget *parent)
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, m_data5Min(MIN5_BUF_SIZE) |
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, m_data30Min(MIN30_BUF_SIZE) |
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, m_data6Hour(HOUR6_BUF_SIZE) |
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, m_data12Hour(HOUR12_BUF_SIZE) |
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, m_data24Hour(HOUR24_BUF_SIZE) |
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, m_currentData(&m_data5Min) |
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, m_averager30Min(DIVIDER_30MIN, m_data30Min) |
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, m_averager6Hour(DIVIDER_6HOUR, m_data6Hour) |
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, m_averager12Hour(DIVIDER_12HOUR, m_data12Hour) |
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, m_averager24Hour(DIVIDER_24HOUR, m_data24Hour) |
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, m_period(MIN5) |
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, m_viewablePointsCount(MIN5_SEC) |
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{ |
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@ -196,24 +207,38 @@ void SpeedPlotView::pushPoint(const SpeedPlotView::PointData &point)
@@ -196,24 +207,38 @@ void SpeedPlotView::pushPoint(const SpeedPlotView::PointData &point)
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m_data5Min.push_back(point); |
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m_averager30Min.push(point); |
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m_averager6Hour.push(point); |
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m_averager12Hour.push(point); |
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m_averager24Hour.push(point); |
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} |
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void SpeedPlotView::setViewableLastPoints(TimePeriod period) |
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void SpeedPlotView::setPeriod(const TimePeriod period) |
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{ |
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m_period = period; |
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switch (period) { |
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case SpeedPlotView::MIN1: |
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m_viewablePointsCount = MIN1_SEC; |
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m_currentData = &m_data5Min; |
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break; |
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case SpeedPlotView::MIN5: |
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m_viewablePointsCount = MIN5_SEC; |
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m_currentData = &m_data5Min; |
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break; |
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case SpeedPlotView::MIN30: |
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m_viewablePointsCount = MIN30_BUF_SIZE; |
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m_currentData = &m_data30Min; |
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break; |
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case SpeedPlotView::HOUR6: |
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m_viewablePointsCount = HOUR6_BUF_SIZE; |
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m_currentData = &m_data6Hour; |
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break; |
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case SpeedPlotView::HOUR12: |
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m_viewablePointsCount = HOUR12_BUF_SIZE; |
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m_currentData = &m_data12Hour; |
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break; |
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case SpeedPlotView::HOUR24: |
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m_viewablePointsCount = HOUR24_BUF_SIZE; |
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m_currentData = &m_data24Hour; |
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break; |
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} |
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@ -225,22 +250,15 @@ void SpeedPlotView::replot()
@@ -225,22 +250,15 @@ void SpeedPlotView::replot()
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if ((m_period == MIN1) |
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|| (m_period == MIN5) |
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|| ((m_period == MIN30) && m_averager30Min.isReady()) |
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|| ((m_period == HOUR6) && m_averager6Hour.isReady()) ) |
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|| ((m_period == HOUR6) && m_averager6Hour.isReady()) |
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|| ((m_period == HOUR12) && m_averager12Hour.isReady()) |
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|| ((m_period == HOUR24) && m_averager24Hour.isReady()) ) |
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viewport()->update(); |
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} |
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boost::circular_buffer<SpeedPlotView::PointData> &SpeedPlotView::getCurrentData() |
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{ |
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switch (m_period) { |
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case SpeedPlotView::MIN1: |
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case SpeedPlotView::MIN5: |
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default: |
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return m_data5Min; |
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case SpeedPlotView::MIN30: |
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return m_data30Min; |
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case SpeedPlotView::HOUR6: |
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return m_data6Hour; |
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} |
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return *m_currentData; |
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} |
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quint64 SpeedPlotView::maxYValue() |
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