package barchart import ( "fmt" ui "github.com/gizak/termui/v3" rw "github.com/mattn/go-runewidth" "github.com/sqshq/sampler/component" "github.com/sqshq/sampler/component/util" "github.com/sqshq/sampler/config" "github.com/sqshq/sampler/console" "github.com/sqshq/sampler/data" "image" "math" ) const ( barIndent int = 1 ) type BarChart struct { *ui.Block *data.Consumer alert *data.Alert bars []Bar scale int maxValue float64 count int64 palette console.Palette } type Bar struct { label string color ui.Color value float64 delta float64 } func NewBarChart(c config.BarChartConfig, palette console.Palette) *BarChart { chart := BarChart{ Block: component.NewBlock(c.Title, true, palette), Consumer: data.NewConsumer(), bars: []Bar{}, scale: *c.Scale, maxValue: -math.MaxFloat64, palette: palette, } for _, i := range c.Items { chart.AddBar(*i.Label, *i.Color) } go func() { for { select { case sample := <-chart.SampleChannel: chart.consumeSample(sample) case alert := <-chart.AlertChannel: chart.alert = alert } } }() return &chart } func (b *BarChart) consumeSample(sample *data.Sample) { b.count++ float, err := util.ParseFloat(sample.Value) if err != nil { b.AlertChannel <- &data.Alert{ Title: "FAILED TO PARSE A NUMBER", Text: err.Error(), Color: sample.Color, } return } index := -1 for i, bar := range b.bars { if bar.label == sample.Label { index = i } } bar := b.bars[index] bar.delta = float - bar.value bar.value = float b.bars[index] = bar if float > b.maxValue { b.maxValue = float } // normalize bars height once in a while if b.count%500 == 0 { b.reselectMaxValue() } } func (b *BarChart) AddBar(label string, color ui.Color) { b.bars = append(b.bars, Bar{label: label, color: color, value: 0}) } func (b *BarChart) reselectMaxValue() { maxValue := -math.MaxFloat64 for _, bar := range b.bars { if bar.value > maxValue { maxValue = bar.value } } b.maxValue = maxValue } func (b *BarChart) Draw(buffer *ui.Buffer) { b.Block.Draw(buffer) barWidth := int(math.Floor(float64(b.Inner.Dx()-len(b.bars)*barIndent) / float64(len(b.bars)))) barXCoordinate := b.Inner.Min.X + barIndent labelStyle := ui.NewStyle(b.palette.BaseColor) for _, bar := range b.bars { // draw bar height := int((bar.value / b.maxValue) * float64(b.Inner.Dy()-1)) if height <= 1 { height = 2 } maxYCoordinate := b.Inner.Max.Y - height for x := barXCoordinate; x < ui.MinInt(barXCoordinate+barWidth, b.Inner.Max.X-barIndent); x++ { for y := b.Inner.Max.Y - 2; y >= maxYCoordinate; y-- { c := ui.NewCell(console.SymbolHorizontalBar, ui.NewStyle(bar.color)) buffer.SetCell(c, image.Pt(x, y)) } } // draw label labelXCoordinate := barXCoordinate + int(float64(barWidth)/2) - int(float64(rw.StringWidth(bar.label))/2) buffer.SetString( bar.label, labelStyle, image.Pt(labelXCoordinate, b.Inner.Max.Y-1)) // draw value & delta value := util.FormatValue(bar.value, b.scale) if bar.delta != 0 { value = fmt.Sprintf("%s / %s", value, util.FormatValueWithSign(bar.delta, b.scale)) } valueXCoordinate := barXCoordinate + int(float64(barWidth)/2) - int(float64(rw.StringWidth(value))/2) buffer.SetString( value, labelStyle, image.Pt(valueXCoordinate, maxYCoordinate-1)) barXCoordinate += barWidth + barIndent } component.RenderAlert(b.alert, b.Rectangle, buffer) }