added time axis autoscale
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parent
8caa058b42
commit
18c2085fd9
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@ -9,7 +9,7 @@ runcharts:
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- label: BING
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- label: BING
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script: curl -o /dev/null -s -w '%{time_total}' https://www.bing.com/
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script: curl -o /dev/null -s -w '%{time_total}' https://www.bing.com/
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refresh-rate-ms: 200
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refresh-rate-ms: 200
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decimal-places: 1
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decimal-places: 3
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alert:
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alert:
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value:
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value:
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more-than: 0.231
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more-than: 0.231
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@ -20,6 +20,7 @@ type RunChartConfig struct {
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Position Position `yaml:"position"`
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Position Position `yaml:"position"`
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Size Size `yaml:"size"`
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Size Size `yaml:"size"`
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RefreshRateMs int `yaml:"refresh-rate-ms"`
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RefreshRateMs int `yaml:"refresh-rate-ms"`
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Precision int `yaml:"decimal-places"`
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}
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}
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func Load(location string) *Config {
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func Load(location string) *Config {
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@ -6,6 +6,7 @@ import (
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const (
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const (
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defaultRefreshRateMs = 300
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defaultRefreshRateMs = 300
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defaultPrecision = 1
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defaultTheme = console.ThemeDark
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defaultTheme = console.ThemeDark
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)
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)
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@ -19,6 +20,9 @@ func (self *Config) setDefaultValues() {
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if chart.RefreshRateMs == 0 {
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if chart.RefreshRateMs == 0 {
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chart.RefreshRateMs = defaultRefreshRateMs
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chart.RefreshRateMs = defaultRefreshRateMs
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}
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}
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if chart.Precision == 0 {
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chart.Precision = defaultPrecision
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}
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self.RunCharts[i] = chart
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self.RunCharts[i] = chart
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}
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}
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}
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}
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2
main.go
2
main.go
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@ -21,7 +21,7 @@ func main() {
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for _, chartConfig := range cfg.RunCharts {
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for _, chartConfig := range cfg.RunCharts {
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chart := widgets.NewRunChart(chartConfig.Title)
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chart := widgets.NewRunChart(chartConfig.Title, chartConfig.Precision, chartConfig.RefreshRateMs)
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layout.AddComponent(chart, chartConfig.Position, chartConfig.Size, widgets.TypeRunChart)
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layout.AddComponent(chart, chartConfig.Position, chartConfig.Size, widgets.TypeRunChart)
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for _, item := range chartConfig.Items {
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for _, item := range chartConfig.Items {
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@ -15,13 +15,16 @@ import (
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)
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)
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const (
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const (
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chartHistoryReserve = 10
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xAxisLegendWidth = 20
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xAxisLabelsHeight = 1
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xAxisLabelsHeight = 1
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xAxisLabelsWidth = 8
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xAxisLabelsWidth = 8
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xAxisLabelsGap = 2
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xAxisLabelsGap = 2
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xAxisGridWidth = xAxisLabelsGap + xAxisLabelsWidth
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yAxisLabelsHeight = 1
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yAxisLabelsHeight = 1
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yAxisLabelsGap = 1
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yAxisLabelsGap = 1
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xAxisLegendWidth = 20
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chartHistoryReserve = 5
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)
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)
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type RunChart struct {
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type RunChart struct {
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@ -29,6 +32,7 @@ type RunChart struct {
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lines []TimeLine
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lines []TimeLine
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grid ChartGrid
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grid ChartGrid
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precision int
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precision int
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timescale time.Duration
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selection *time.Time
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selection *time.Time
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mutex *sync.Mutex
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mutex *sync.Mutex
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}
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}
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@ -47,7 +51,6 @@ type TimeLine struct {
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type ChartGrid struct {
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type ChartGrid struct {
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linesCount int
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linesCount int
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paddingDuration time.Duration
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paddingWidth int
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paddingWidth int
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maxTimeWidth int
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maxTimeWidth int
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minTimeWidth int
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minTimeWidth int
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@ -65,30 +68,29 @@ type ValueExtremum struct {
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min float64
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min float64
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}
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}
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func NewRunChart(title string) *RunChart {
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func NewRunChart(title string, precision int, refreshRateMs int) *RunChart {
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block := *NewBlock()
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block := *NewBlock()
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block.Title = title
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block.Title = title
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return &RunChart{
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return &RunChart{
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Block: block,
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Block: block,
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lines: []TimeLine{},
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lines: []TimeLine{},
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mutex: &sync.Mutex{},
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mutex: &sync.Mutex{},
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precision: 2, // TODO move to config
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precision: precision,
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timescale: calculateTimescale(refreshRateMs),
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}
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}
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}
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}
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func (self *RunChart) newChartGrid() ChartGrid {
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func (self *RunChart) newChartGrid() ChartGrid {
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linesCount := (self.Inner.Max.X - self.Inner.Min.X - self.grid.minTimeWidth) / (xAxisLabelsGap + xAxisLabelsWidth)
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linesCount := (self.Inner.Max.X - self.Inner.Min.X - self.grid.minTimeWidth) / xAxisGridWidth
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paddingDuration := time.Duration(time.Second) // TODO support others and/or adjust automatically depending on refresh rate
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return ChartGrid{
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return ChartGrid{
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linesCount: linesCount,
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linesCount: linesCount,
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paddingDuration: paddingDuration,
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paddingWidth: xAxisGridWidth,
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paddingWidth: xAxisLabelsGap + xAxisLabelsWidth,
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maxTimeWidth: self.Inner.Max.X,
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maxTimeWidth: self.Inner.Max.X,
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minTimeWidth: self.getMaxValueLength(),
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minTimeWidth: self.getMaxValueLength(),
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timeExtremum: GetTimeExtremum(linesCount, paddingDuration),
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timeExtremum: getTimeExtremum(linesCount, self.timescale),
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valueExtremum: GetChartValueExtremum(self.lines),
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valueExtremum: getChartValueExtremum(self.lines),
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}
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}
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}
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}
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@ -159,8 +161,8 @@ func (self *RunChart) SelectPoint(x int, y int) {
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return
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return
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}
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}
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timeDeltaToPaddingRelation := (self.grid.maxTimeWidth - x) / self.grid.paddingWidth
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timeDeltaToPaddingRelation := (self.grid.maxTimeWidth - x) / xAxisGridWidth
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timeDeltaWithGridMaxTime := timeDeltaToPaddingRelation * int(self.grid.paddingDuration.Nanoseconds())
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timeDeltaWithGridMaxTime := timeDeltaToPaddingRelation * int(self.timescale.Nanoseconds())
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selection := self.grid.timeExtremum.max.Add(-time.Duration(timeDeltaWithGridMaxTime) * time.Nanosecond)
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selection := self.grid.timeExtremum.max.Add(-time.Duration(timeDeltaWithGridMaxTime) * time.Nanosecond)
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self.selection = &selection
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self.selection = &selection
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@ -200,7 +202,7 @@ func (self *RunChart) getSelectedTimePoints() []TimePoint {
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func (self *RunChart) trimOutOfRangeValues() {
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func (self *RunChart) trimOutOfRangeValues() {
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historyReserve := self.grid.paddingDuration * time.Duration(self.grid.linesCount) * chartHistoryReserve
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historyReserve := self.timescale * time.Duration(self.grid.linesCount) * chartHistoryReserve
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minRangeTime := self.grid.timeExtremum.min.Add(-historyReserve)
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minRangeTime := self.grid.timeExtremum.min.Add(-historyReserve)
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for i, item := range self.lines {
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for i, item := range self.lines {
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@ -232,8 +234,8 @@ func (self *RunChart) renderItems(buffer *Buffer, drawArea image.Rectangle) {
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for _, timePoint := range line.points {
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for _, timePoint := range line.points {
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timeDeltaWithGridMaxTime := self.grid.timeExtremum.max.Sub(timePoint.time).Nanoseconds()
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timeDeltaWithGridMaxTime := self.grid.timeExtremum.max.Sub(timePoint.time).Nanoseconds()
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timeDeltaToPaddingRelation := float64(timeDeltaWithGridMaxTime) / float64(self.grid.paddingDuration.Nanoseconds())
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timeDeltaToPaddingRelation := float64(timeDeltaWithGridMaxTime) / float64(self.timescale.Nanoseconds())
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x := self.grid.maxTimeWidth - (int(float64(self.grid.paddingWidth) * timeDeltaToPaddingRelation))
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x := self.grid.maxTimeWidth - (int(float64(xAxisGridWidth) * timeDeltaToPaddingRelation))
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var y int
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var y int
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if self.grid.valueExtremum.max-self.grid.valueExtremum.min == 0 {
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if self.grid.valueExtremum.max-self.grid.valueExtremum.min == 0 {
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@ -299,7 +301,7 @@ func (self *RunChart) renderAxes(buffer *Buffer) {
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for x := 1; x <= self.grid.linesCount; x++ {
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for x := 1; x <= self.grid.linesCount; x++ {
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buffer.SetCell(
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buffer.SetCell(
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NewCell(VERTICAL_DASH, NewStyle(console.ColorDarkGrey)),
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NewCell(VERTICAL_DASH, NewStyle(console.ColorDarkGrey)),
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image.Pt(self.grid.maxTimeWidth-x*self.grid.paddingWidth, y+self.Inner.Min.Y+1),
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image.Pt(self.grid.maxTimeWidth-x*xAxisGridWidth, y+self.Inner.Min.Y+1),
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)
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)
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}
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}
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}
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}
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@ -314,11 +316,11 @@ func (self *RunChart) renderAxes(buffer *Buffer) {
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// draw x axis time labels
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// draw x axis time labels
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for i := 1; i <= self.grid.linesCount; i++ {
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for i := 1; i <= self.grid.linesCount; i++ {
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labelTime := self.grid.timeExtremum.max.Add(time.Duration(-i) * self.grid.paddingDuration)
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labelTime := self.grid.timeExtremum.max.Add(time.Duration(-i) * self.timescale)
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buffer.SetString(
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buffer.SetString(
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labelTime.Format("15:04:05"),
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labelTime.Format("15:04:05"),
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NewStyle(ColorWhite),
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NewStyle(ColorWhite),
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image.Pt(self.grid.maxTimeWidth-xAxisLabelsWidth/2-i*(self.grid.paddingWidth), self.Inner.Max.Y-1),
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image.Pt(self.grid.maxTimeWidth-xAxisLabelsWidth/2-i*(xAxisGridWidth), self.Inner.Max.Y-1),
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)
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)
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}
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}
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@ -380,7 +382,7 @@ func (self *RunChart) renderLegend(buffer *Buffer, rectangle image.Rectangle, se
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)
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)
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}
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}
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} else {
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} else {
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extremum := GetLineValueExtremum(line.points)
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extremum := getLineValueExtremum(line.points)
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buffer.SetString(
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buffer.SetString(
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fmt.Sprintf("cur %s", formatValue(line.points[len(line.points)-1].value, self.precision)),
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fmt.Sprintf("cur %s", formatValue(line.points[len(line.points)-1].value, self.precision)),
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@ -406,8 +408,8 @@ func (self *RunChart) renderSelection(buffer *Buffer, drawArea image.Rectangle,
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for _, timePoint := range selectedPoints {
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for _, timePoint := range selectedPoints {
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timeDeltaWithGridMaxTime := self.grid.timeExtremum.max.Sub(timePoint.time).Nanoseconds()
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timeDeltaWithGridMaxTime := self.grid.timeExtremum.max.Sub(timePoint.time).Nanoseconds()
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timeDeltaToPaddingRelation := float64(timeDeltaWithGridMaxTime) / float64(self.grid.paddingDuration.Nanoseconds())
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timeDeltaToPaddingRelation := float64(timeDeltaWithGridMaxTime) / float64(self.timescale.Nanoseconds())
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x := self.grid.maxTimeWidth - (int(float64(self.grid.paddingWidth) * timeDeltaToPaddingRelation))
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x := self.grid.maxTimeWidth - (int(float64(xAxisGridWidth) * timeDeltaToPaddingRelation))
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var y int
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var y int
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if self.grid.valueExtremum.max-self.grid.valueExtremum.min == 0 {
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if self.grid.valueExtremum.max-self.grid.valueExtremum.min == 0 {
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@ -446,7 +448,7 @@ func formatValue(value float64, precision int) string {
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return fmt.Sprintf(format, value)
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return fmt.Sprintf(format, value)
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}
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}
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func GetChartValueExtremum(items []TimeLine) ValueExtremum {
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func getChartValueExtremum(items []TimeLine) ValueExtremum {
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if len(items) == 0 {
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if len(items) == 0 {
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return ValueExtremum{0, 0}
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return ValueExtremum{0, 0}
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@ -468,7 +470,7 @@ func GetChartValueExtremum(items []TimeLine) ValueExtremum {
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return ValueExtremum{max: max, min: min}
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return ValueExtremum{max: max, min: min}
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}
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}
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func GetLineValueExtremum(points []TimePoint) ValueExtremum {
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func getLineValueExtremum(points []TimePoint) ValueExtremum {
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if len(points) == 0 {
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if len(points) == 0 {
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return ValueExtremum{0, 0}
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return ValueExtremum{0, 0}
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@ -488,10 +490,22 @@ func GetLineValueExtremum(points []TimePoint) ValueExtremum {
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return ValueExtremum{max: max, min: min}
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return ValueExtremum{max: max, min: min}
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}
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}
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func GetTimeExtremum(linesCount int, paddingDuration time.Duration) TimeExtremum {
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func getTimeExtremum(linesCount int, scale time.Duration) TimeExtremum {
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maxTime := time.Now()
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maxTime := time.Now()
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return TimeExtremum{
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return TimeExtremum{
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max: maxTime,
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max: maxTime,
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min: maxTime.Add(-time.Duration(paddingDuration.Nanoseconds() * int64(linesCount))),
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min: maxTime.Add(-time.Duration(scale.Nanoseconds() * int64(linesCount))),
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}
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}
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func calculateTimescale(refreshRateMs int) time.Duration {
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multiplier := refreshRateMs * xAxisGridWidth / 2
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timescale := time.Duration(time.Millisecond * time.Duration(multiplier)).Round(time.Second)
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if timescale.Seconds() == 0 {
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return time.Second
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} else {
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return timescale
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}
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}
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}
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}
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