implemented pinpoint mode (based on this, scroll feature may be considered later)
This commit is contained in:
parent
ddec6de927
commit
f5ccf6c464
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@ -8,7 +8,7 @@ runcharts:
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script: curl -o /dev/null -s -w '%{time_total}' https://search.yahoo.com/
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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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refresh-rate-ms: 200
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refresh-rate-ms: 500
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decimal-places: 3
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alert:
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value:
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@ -25,7 +25,7 @@ runcharts:
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x: 0
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y: 0
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size:
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x: 15
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x: 30
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y: 15
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- title: SEARCH ENGINE RESPONSE TIME 2 (sec)
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items:
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@ -60,7 +60,7 @@ runcharts:
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script: mongo --quiet --host=localhost blog --eval "db.getCollection('post').find({}).size()"
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position:
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x: 15
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y: 0
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y: 15
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size:
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x: 15
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y: 15
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@ -0,0 +1,5 @@
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package console
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const (
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SymbolSelection rune = '▲'
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)
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@ -31,13 +31,12 @@ func (self *Handler) HandleEvents() {
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case EventResize:
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payload := e.Payload.(ui.Resize)
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self.Layout.ChangeDimensions(payload.Width, payload.Height)
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case EventMouseClick:
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//payload := e.Payload.(ui.Mouse)
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case "a":
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self.Layout.GetComponent(0).DisableSelection()
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case EventKeyboardLeft:
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// here we are going to move selection (special type of layout item)
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//layout.GetItem("").Move(-1, 0)
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self.Layout.GetComponent(0).MoveSelection(-1)
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case EventKeyboardRight:
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//layout.GetItem(0).Move(1, 0)
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self.Layout.GetComponent(0).MoveSelection(+1)
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case EventKeyboardDown:
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//layout.GetItem(0).Move(0, 1)
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case EventKeyboardUp:
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@ -42,6 +42,11 @@ func (self *Layout) GetComponents(Type ComponentType) []Drawable {
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return components
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}
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// temp function until ui item selection is implemented
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func (self *Layout) GetComponent(i int) *RunChart {
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return self.components[i].Drawable.(*RunChart)
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}
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func (self *Layout) ChangeDimensions(width, height int) {
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self.SetRect(0, 0, width, height)
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}
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@ -20,49 +20,56 @@ const (
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xAxisLabelsWidth = 8
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xAxisLabelsGap = 2
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xAxisGridWidth = xAxisLabelsGap + xAxisLabelsWidth
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yAxisLabelsHeight = 1
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yAxisLabelsGap = 1
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)
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chartHistoryReserve = 5
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type ScrollMode int
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const (
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Auto ScrollMode = 0
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Manual ScrollMode = 1
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)
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type RunChart struct {
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ui.Block
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lines []timeLine
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grid chartGrid
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precision int
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lines []TimeLine
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grid ChartGrid
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timescale time.Duration
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mutex *sync.Mutex
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scrollMode ScrollMode
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selection time.Time
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precision int
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}
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type chartGrid struct {
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valueExtrema valueExtrema
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timeRange timeRange
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type ChartGrid struct {
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timeRange TimeRange
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timePerPoint time.Duration
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valueExtrema ValueExtrema
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linesCount int
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paddingWidth int
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maxTimeWidth int
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minTimeWidth int
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}
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type timePoint struct {
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type TimePoint struct {
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value float64
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time time.Time
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timeCoordinate int
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coordinate int
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}
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type timeLine struct {
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points []timePoint
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type TimeLine struct {
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points []TimePoint
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color ui.Color
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label string
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selection int
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}
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type timeRange struct {
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type TimeRange struct {
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max time.Time
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min time.Time
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}
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type valueExtrema struct {
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type ValueExtrema struct {
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max float64
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min float64
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}
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@ -72,34 +79,35 @@ func NewRunChart(title string, precision int, refreshRateMs int) *RunChart {
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block.Title = title
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return &RunChart{
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Block: block,
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lines: []timeLine{},
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lines: []TimeLine{},
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timescale: calculateTimescale(refreshRateMs),
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mutex: &sync.Mutex{},
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precision: precision,
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timescale: calculateTimescale(refreshRateMs),
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scrollMode: Auto,
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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) / xAxisGridWidth
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timeRange := getTimeRange(linesCount, self.timescale)
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timeRange := self.getTimeRange(linesCount)
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return chartGrid{
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return ChartGrid{
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timeRange: timeRange,
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timePerPoint: self.timescale / time.Duration(xAxisGridWidth),
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valueExtrema: getValueExtrema(self.lines, timeRange),
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linesCount: linesCount,
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paddingWidth: xAxisGridWidth,
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maxTimeWidth: self.Inner.Max.X,
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minTimeWidth: self.getMaxValueLength(),
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}
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}
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func (self *RunChart) newTimePoint(value float64) timePoint {
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func (self *RunChart) newTimePoint(value float64) TimePoint {
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now := time.Now()
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return timePoint{
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return TimePoint{
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value: value,
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time: now,
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timeCoordinate: self.calculateTimeCoordinate(now),
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coordinate: self.calculateTimeCoordinate(now),
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}
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}
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@ -139,8 +147,8 @@ func (self *RunChart) ConsumeSample(sample data.Sample) {
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}
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if lineIndex == -1 {
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line := &timeLine{
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points: []timePoint{},
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line := &TimeLine{
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points: []TimePoint{},
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color: sample.Color,
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label: sample.Label,
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}
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@ -166,18 +174,26 @@ func (self *RunChart) renderLines(buffer *ui.Buffer, drawArea image.Rectangle) {
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return
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}
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selectionCoordinate := self.calculateTimeCoordinate(self.selection)
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selectionPoints := make(map[int]image.Point)
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probe := self.lines[0].points[0]
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delta := ui.AbsInt(self.calculateTimeCoordinate(probe.time) - probe.timeCoordinate)
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delta := ui.AbsInt(self.calculateTimeCoordinate(probe.time) - probe.coordinate)
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for _, line := range self.lines {
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for i, line := range self.lines { // TODO start from right side, break on out of range
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xToPoint := make(map[int]image.Point)
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pointsOrder := make([]int, 0)
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xPoint := make(map[int]image.Point)
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xOrder := make([]int, 0)
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for i, timePoint := range line.points {
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if line.selection != 0 {
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line.selection -= delta
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self.lines[i].selection = line.selection
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}
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timePoint.timeCoordinate = timePoint.timeCoordinate - delta
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line.points[i] = timePoint
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for j, timePoint := range line.points {
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timePoint.coordinate -= delta
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line.points[j] = timePoint
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var y int
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if self.grid.valueExtrema.max == self.grid.valueExtrema.min {
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@ -187,9 +203,9 @@ func (self *RunChart) renderLines(buffer *ui.Buffer, drawArea image.Rectangle) {
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y = int(float64(timePoint.value-self.grid.valueExtrema.min) / valuePerY)
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}
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point := image.Pt(timePoint.timeCoordinate, drawArea.Max.Y-y-1)
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point := image.Pt(timePoint.coordinate, drawArea.Max.Y-y-1)
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if _, exists := xToPoint[point.X]; exists {
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if _, exists := xPoint[point.X]; exists {
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continue
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}
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@ -197,19 +213,29 @@ func (self *RunChart) renderLines(buffer *ui.Buffer, drawArea image.Rectangle) {
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continue
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}
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xToPoint[point.X] = point
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pointsOrder = append(pointsOrder, point.X)
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if line.selection == 0 {
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if len(line.points) > j+1 && ui.AbsInt(timePoint.coordinate-selectionCoordinate) > ui.AbsInt(line.points[j+1].coordinate-selectionCoordinate) {
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selectionPoints[i] = point
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}
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} else {
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if timePoint.coordinate == line.selection {
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selectionPoints[i] = point
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}
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}
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for i, x := range pointsOrder {
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xPoint[point.X] = point
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xOrder = append(xOrder, point.X)
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}
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currentPoint := xToPoint[x]
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for i, x := range xOrder {
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currentPoint := xPoint[x]
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var previousPoint image.Point
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if i == 0 {
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previousPoint = currentPoint
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} else {
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previousPoint = xToPoint[pointsOrder[i-1]]
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previousPoint = xPoint[xOrder[i-1]]
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}
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canvas.Line(
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}
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canvas.Draw(buffer)
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if self.scrollMode == Manual {
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for lineIndex, point := range selectionPoints {
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buffer.SetCell(ui.NewCell(console.SymbolSelection, ui.NewStyle(self.lines[lineIndex].color)), point)
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if self.lines[lineIndex].selection == 0 {
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self.lines[lineIndex].selection = point.X
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}
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}
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}
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}
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func (self *RunChart) renderAxes(buffer *ui.Buffer) {
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@ -282,7 +317,7 @@ func (self *RunChart) renderAxes(buffer *ui.Buffer) {
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buffer.SetString(
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formatValue(self.grid.valueExtrema.max, self.precision),
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ui.NewStyle(ui.ColorWhite),
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image.Pt(self.Inner.Min.X, self.Inner.Dy()/2))
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image.Pt(self.Inner.Min.X, self.Inner.Min.Y+self.Inner.Dy()/2))
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}
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}
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@ -327,7 +362,7 @@ func (self *RunChart) trimOutOfRangeValues() {
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func (self *RunChart) calculateTimeCoordinate(t time.Time) int {
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timeDeltaWithGridMaxTime := self.grid.timeRange.max.Sub(t).Nanoseconds()
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timeDeltaToPaddingRelation := float64(timeDeltaWithGridMaxTime) / float64(self.timescale.Nanoseconds())
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return self.grid.maxTimeWidth - (int(float64(xAxisGridWidth) * timeDeltaToPaddingRelation))
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return self.grid.maxTimeWidth - int(math.Ceil(float64(xAxisGridWidth)*timeDeltaToPaddingRelation))
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}
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func (self *RunChart) getMaxValueLength() int {
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@ -346,15 +381,47 @@ func (self *RunChart) getMaxValueLength() int {
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return maxValueLength
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}
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func (self *RunChart) MoveSelection(shift int) {
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if self.scrollMode == Auto {
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self.scrollMode = Manual
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self.selection = getMidRangeTime(self.grid.timeRange)
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return
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} else {
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self.selection = self.selection.Add(self.grid.timePerPoint * time.Duration(shift))
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if self.selection.After(self.grid.timeRange.max) {
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self.selection = self.grid.timeRange.max
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} else if self.selection.Before(self.grid.timeRange.min) {
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self.selection = self.grid.timeRange.min
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}
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}
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for i := range self.lines {
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self.lines[i].selection = 0
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}
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}
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func (self *RunChart) DisableSelection() {
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if self.scrollMode == Manual {
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self.scrollMode = Auto
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return
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}
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}
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func getMidRangeTime(r TimeRange) time.Time {
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delta := r.max.Sub(r.min)
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return r.max.Add(-delta / 2)
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}
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func formatValue(value float64, precision int) string {
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format := "%." + strconv.Itoa(precision) + "f"
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return fmt.Sprintf(format, value)
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}
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func getValueExtrema(items []timeLine, timeRange timeRange) valueExtrema {
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func getValueExtrema(items []TimeLine, timeRange TimeRange) ValueExtrema {
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if len(items) == 0 {
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return valueExtrema{0, 0}
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return ValueExtrema{0, 0}
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}
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var max, min = -math.MaxFloat64, math.MaxFloat64
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@ -370,17 +437,17 @@ func getValueExtrema(items []timeLine, timeRange timeRange) valueExtrema {
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}
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}
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return valueExtrema{max: max, min: min}
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return ValueExtrema{max: max, min: min}
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}
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func (r *timeRange) isInRange(time time.Time) bool {
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func (r *TimeRange) isInRange(time time.Time) bool {
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return time.After(r.min) && time.Before(r.max)
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}
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func getLineValueExtremum(points []timePoint) valueExtrema {
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func getLineValueExtremum(points []TimePoint) ValueExtrema {
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if len(points) == 0 {
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return valueExtrema{0, 0}
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return ValueExtrema{0, 0}
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}
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var max, min = -math.MaxFloat64, math.MaxFloat64
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@ -394,17 +461,25 @@ func getLineValueExtremum(points []timePoint) valueExtrema {
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}
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}
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return valueExtrema{max: max, min: min}
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return ValueExtrema{max: max, min: min}
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}
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func getTimeRange(linesCount int, scale time.Duration) timeRange {
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maxTime := time.Now()
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return timeRange{
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max: maxTime,
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min: maxTime.Add(-time.Duration(scale.Nanoseconds() * int64(linesCount))),
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func (self *RunChart) getTimeRange(linesCount int) TimeRange {
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if self.scrollMode == Manual {
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return self.grid.timeRange
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}
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width := time.Duration(self.timescale.Nanoseconds() * int64(linesCount))
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max := time.Now()
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return TimeRange{
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max: max,
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min: max.Add(-width),
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}
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}
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// time duration between grid lines
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func calculateTimescale(refreshRateMs int) time.Duration {
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multiplier := refreshRateMs * xAxisGridWidth / 2
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