package widgets import ( "fmt" "github.com/sqshq/vcmd/data" "github.com/sqshq/vcmd/settings" "image" "log" "math" "strconv" "sync" "time" . "github.com/sqshq/termui" ) const ( xAxisLabelsHeight = 1 xAxisLabelsWidth = 8 xAxisLabelsGap = 2 yAxisLabelsWidth = 5 yAxisLabelsGap = 1 ) type RunChart struct { Block lines []TimeLine grid ChartGrid mutex *sync.Mutex } type TimePoint struct { Value float64 Time time.Time } type TimeLine struct { points []TimePoint item data.Item } type ChartGrid struct { linesCount int paddingDuration time.Duration paddingWidth int maxTimeWidth int valueExtremum ValueExtremum timeExtremum TimeExtremum } type TimeExtremum struct { max time.Time min time.Time } type ValueExtremum struct { max float64 min float64 } func NewRunChart(title string) *RunChart { block := *NewBlock() block.Title = title return &RunChart{ Block: block, lines: []TimeLine{}, mutex: &sync.Mutex{}, } } func (self *RunChart) newChartGrid() ChartGrid { linesCount := (self.Inner.Max.X - self.Inner.Min.X) / (xAxisLabelsGap + xAxisLabelsWidth) paddingDuration := time.Duration(time.Second) // TODO support others and/or adjust automatically depending on refresh rate return ChartGrid{ linesCount: linesCount, paddingDuration: paddingDuration, paddingWidth: xAxisLabelsGap + xAxisLabelsWidth, maxTimeWidth: self.Inner.Max.X - xAxisLabelsWidth/2 - xAxisLabelsGap, timeExtremum: GetTimeExtremum(linesCount, paddingDuration), valueExtremum: GetValueExtremum(self.lines), } } func (self *RunChart) Draw(buf *Buffer) { self.mutex.Lock() self.Block.Draw(buf) self.grid = self.newChartGrid() self.plotAxes(buf) drawArea := image.Rect( self.Inner.Min.X+yAxisLabelsWidth+1, self.Inner.Min.Y, self.Inner.Max.X, self.Inner.Max.Y-xAxisLabelsHeight-1, ) self.renderItems(buf, drawArea) self.mutex.Unlock() } func (self *RunChart) ConsumeValue(item data.Item, value string) { float, err := strconv.ParseFloat(value, 64) if err != nil { log.Fatalf("Expected float number, but got %v", value) // TODO visual notification } timePoint := TimePoint{Value: float, Time: time.Now()} self.mutex.Lock() itemExists := false for i, line := range self.lines { if line.item.Label == item.Label { line.points = append(line.points, timePoint) self.lines[i] = line itemExists = true } } if !itemExists { item := &TimeLine{ points: []TimePoint{timePoint}, item: item, } self.lines = append(self.lines, *item) } self.trimOutOfRangeValues() self.mutex.Unlock() } func (self *RunChart) ConsumeError(item data.Item, err error) { // TODO visual notification } func (self *RunChart) trimOutOfRangeValues() { for i, item := range self.lines { lastOutOfRangeValueIndex := -1 for j, timePoint := range item.points { if !self.isTimePointInRange(timePoint) { lastOutOfRangeValueIndex = j } } if lastOutOfRangeValueIndex > 0 { item.points = append(item.points[:0], item.points[lastOutOfRangeValueIndex+1:]...) self.lines[i] = item } } } func (self *RunChart) renderItems(buf *Buffer, drawArea image.Rectangle) { canvas := NewCanvas() canvas.Rectangle = drawArea for _, line := range self.lines { xToPoint := make(map[int]image.Point) pointsOrder := make([]int, 0) for _, point := range line.points { if !self.isTimePointInRange(point) { continue } timeDeltaWithGridMaxTime := self.grid.timeExtremum.max.Sub(point.Time) deltaToPaddingRelation := float64(timeDeltaWithGridMaxTime.Nanoseconds()) / float64(self.grid.paddingDuration.Nanoseconds()) x := self.grid.maxTimeWidth - (int(float64(self.grid.paddingWidth) * deltaToPaddingRelation)) valuePerYDot := (self.grid.valueExtremum.max - self.grid.valueExtremum.min) / float64(drawArea.Dy()-1) y := int(float64(point.Value-self.grid.valueExtremum.min) / valuePerYDot) if _, exists := xToPoint[x]; exists { continue } xToPoint[x] = image.Pt(x, drawArea.Max.Y-y-1) pointsOrder = append(pointsOrder, x) } for i, x := range pointsOrder { currentPoint := xToPoint[x] var previousPoint image.Point if i == 0 { previousPoint = currentPoint } else { previousPoint = xToPoint[pointsOrder[i-1]] } //buf.SetCell( // NewCell(self.DotRune, NewStyle(SelectColor(self.LineColors, 0))), // currentPoint, //) canvas.Line( braillePoint(previousPoint), braillePoint(currentPoint), line.item.Color, ) } } canvas.Draw(buf) } func (self *RunChart) isTimePointInRange(point TimePoint) bool { return point.Time.After(self.grid.timeExtremum.min.Add(self.grid.paddingDuration)) } func (self *RunChart) plotAxes(buf *Buffer) { // draw origin cell buf.SetCell( NewCell(BOTTOM_LEFT, NewStyle(ColorWhite)), image.Pt(self.Inner.Min.X+yAxisLabelsWidth, self.Inner.Max.Y-xAxisLabelsHeight-1), ) // draw x axis line for i := yAxisLabelsWidth + 1; i < self.Inner.Dx(); i++ { buf.SetCell( NewCell(HORIZONTAL_DASH, NewStyle(ColorWhite)), image.Pt(i+self.Inner.Min.X, self.Inner.Max.Y-xAxisLabelsHeight-1), ) } // draw grid for y := 0; y < self.Inner.Dy()-xAxisLabelsHeight-1; y = y + 2 { for x := 0; x < self.grid.linesCount; x++ { buf.SetCell( NewCell(VERTICAL_DASH, NewStyle(settings.ColorDarkGrey)), image.Pt(self.grid.maxTimeWidth-x*self.grid.paddingWidth, y+self.Inner.Min.Y+1), ) } } // draw y axis line for i := 0; i < self.Inner.Dy()-xAxisLabelsHeight-1; i++ { buf.SetCell( NewCell(VERTICAL_DASH, NewStyle(ColorWhite)), image.Pt(self.Inner.Min.X+yAxisLabelsWidth, i+self.Inner.Min.Y), ) } // draw x axis time labels for i := 0; i < self.grid.linesCount; i++ { labelTime := self.grid.timeExtremum.max.Add(time.Duration(-i) * time.Second) buf.SetString( labelTime.Format("15:04:05"), NewStyle(ColorWhite), image.Pt(self.grid.maxTimeWidth-xAxisLabelsWidth/2-i*(self.grid.paddingWidth), self.Inner.Max.Y-1), ) } // draw y axis labels verticalScale := self.grid.valueExtremum.max - self.grid.valueExtremum.min/float64(self.Inner.Dy()-xAxisLabelsHeight-1) for i := 1; i*(yAxisLabelsGap+1) <= self.Inner.Dy()-1; i++ { buf.SetString( fmt.Sprintf("%.3f", float64(i)*self.grid.valueExtremum.min*verticalScale*(yAxisLabelsGap+1)), NewStyle(ColorWhite), image.Pt(self.Inner.Min.X, self.Inner.Max.Y-(i*(yAxisLabelsGap+1))-2), ) } } func GetValueExtremum(items []TimeLine) ValueExtremum { if len(items) == 0 { return ValueExtremum{0, 0} } var max, min = -math.MaxFloat64, math.MaxFloat64 for _, item := range items { for _, point := range item.points { if point.Value > max { max = point.Value } if point.Value < min { min = point.Value } } } return ValueExtremum{max: max, min: min} } func GetTimeExtremum(linesCount int, paddingDuration time.Duration) TimeExtremum { maxTime := time.Now() return TimeExtremum{ max: maxTime, min: maxTime.Add(-time.Duration(paddingDuration.Nanoseconds() * int64(linesCount))), } }