作者:kfateh
项目:retirement_calculator-g
// Plots the historgram using plotinum
func Histogram(r RetCalc) {
//eb := all_paths.End_balances()
eb := make([]float64, len(r.All_paths), len(r.All_paths))
incs := r.RunIncomes()
for i := range incs {
eb[i] = incs[i]
}
v := make(plotter.Values, len(eb))
for i := range v {
v[i] = eb[i]
}
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Histogram"
h, err := plotter.NewHist(v, 100)
if err != nil {
panic(err)
}
//h.Normalize(1)
p.Add(h)
if err := p.Save(4, 4, "hist.png"); err != nil {
panic(err)
}
fmt.Println(h)
}
作者:jen
项目:plotinu
// Example_quartPlots draws vertical quartile plots.
func Example_quartPlots() *plot.Plot {
rand.Seed(int64(0))
n := 100
uniform := make(plotter.Values, n)
normal := make(plotter.Values, n)
expon := make(plotter.Values, n)
for i := 0; i < n; i++ {
uniform[i] = rand.Float64()
normal[i] = rand.NormFloat64()
expon[i] = rand.ExpFloat64()
}
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Quartile Plot"
p.Y.Label.Text = "plotter.Values"
p.Add(must(plotter.NewQuartPlot(0, uniform)).(*plotter.QuartPlot),
must(plotter.NewQuartPlot(1, normal)).(*plotter.QuartPlot),
must(plotter.NewQuartPlot(2, expon)).(*plotter.QuartPlot))
// Set the X axis of the plot to nominal with
// the given names for x=0, x=1 and x=2.
p.NominalX("Uniform\nDistribution", "Normal\nDistribution",
"Exponential\nDistribution")
return p
}
作者:hrautil
项目:go.op
func plotData(name string, us, ys, ts, fs []float64) {
p, err := plot.New()
if err != nil {
fmt.Printf("Cannot create new plot: %s\n", err)
return
}
p.Title.Text = "Least-square fit of convex function"
p.X.Min = -0.1
p.X.Max = 2.3
p.Y.Min = -1.1
p.Y.Max = 7.2
p.Add(plotter.NewGrid())
pts := plotter.NewScatter(dataset(us, ys))
pts.GlyphStyle.Color = color.RGBA{R: 255, A: 255}
fit := plotter.NewLine(dataset(ts, fs))
fit.LineStyle.Width = vg.Points(1)
fit.LineStyle.Color = color.RGBA{B: 255, A: 255}
p.Add(pts)
p.Add(fit)
if err := p.Save(4, 4, name); err != nil {
fmt.Printf("Save to '%s' failed: %s\n", name, err)
}
}
作者:nictuk
项目:latenc
// Plot saves an image of the latency histogram to filePath. The extension of filePath defines
// the format to be used - png, svg, etc.
func Plot(h *latency.Histogram, description, filePath string) error {
count := len(h.Buckets)
xys := make(plotter.XYs, count)
for bucket, freq := range h.Buckets {
xys[bucket].X = float64(bucket)
xys[bucket].Y = float64(freq)
}
p, err := plot.New()
if err != nil {
return fmt.Errorf("error generating plot: %v", err)
}
p.Title.Text = description
p.X.Label.Text = fmt.Sprintf("Latency (%v resolution)", h.Resolution)
p.Y.Label.Text = "Frequency"
hh, err := plotter.NewHistogram(xys, count)
if err != nil {
return fmt.Errorf("error generating histogram: %v", err)
}
p.Add(hh)
// Save the plot to a file. Units in inches (one inch == 72 points).
fmt.Fprintf(os.Stderr, "Saving latency histogram to %v\n", filePath)
return p.Save(8, 6, filePath)
}
作者:vvil
项目:go_test_exampl
func test1() {
rand.Seed(int64(0))
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Plotutil example"
p.X.Label.Text = "X"
p.Y.Label.Text = "Y"
err = plotutil.AddLinePoints(p,
"First", randomPoints(15),
"Second", randomPoints(15),
"Third", randomPoints(15))
if err != nil {
panic(err)
}
// Save the plot to a PNG file.
if err := p.Save(4, 4, "points.png"); err != nil {
panic(err)
}
}
作者:vvil
项目:go_test_exampl
func test_point() {
rand.Seed(int64(0))
points_data := randomPoint(200)
points_data2 := randomPoint(50)
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Points"
p.X.Label.Text = "X"
p.Y.Label.Text = "Y"
bs, _ := plotter.NewBubbles(points_data, vg.Points(5), vg.Points(5))
bs2, _ := plotter.NewBubbles(points_data2, vg.Points(5), vg.Points(5))
bs.Color = color.RGBA{R: 255, G: 0, B: 0, A: 255}
bs2.Color = color.RGBA{R: 0, G: 255, B: 0, A: 255}
p.Add(bs)
p.Add(bs2)
if err := p.Save(10, 10, "points.png"); err != nil {
panic(err)
}
}
作者:hrautil
项目:go.op
func plotData(name string, xs, ys []float64) {
p, err := plot.New()
if err != nil {
fmt.Printf("Cannot create new plot: %s\n", err)
return
}
p.Title.Text = "Chernoff lower bound"
p.X.Label.Text = "Sigma"
p.X.Min = 0.2
p.X.Max = 0.5
p.Y.Label.Text = "Probability of correct detection"
p.Y.Min = 0.9
p.Y.Max = 1.0
p.Add(plotter.NewGrid())
l := plotter.NewLine(dataset(xs, ys))
l.LineStyle.Width = vg.Points(1)
//l.LineStyle.Dashes = []vg.Length(vg.Points(5), vg.Points(5))
l.LineStyle.Color = color.RGBA{B: 255, A: 255}
p.Add(l)
if err := p.Save(4, 4, name); err != nil {
fmt.Printf("Save to '%s' failed: %s\n", name, err)
}
}
作者:jackieli
项目:go-plotinu
// Example_boxPlots draws vertical boxplots.
func Example_boxPlots() *plot.Plot {
rand.Seed(int64(0))
n := 100
uniform := make(plotter.Values, n)
normal := make(plotter.Values, n)
expon := make(plotter.Values, n)
for i := 0; i < n; i++ {
uniform[i] = rand.Float64()
normal[i] = rand.NormFloat64()
expon[i] = rand.ExpFloat64()
}
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Box Plot"
p.Y.Label.Text = "plotter.Values"
// Make boxes for our data and add them to the plot.
p.Add(plotter.NewBoxPlot(vg.Points(20), 0, uniform),
plotter.NewBoxPlot(vg.Points(20), 1, normal),
plotter.NewBoxPlot(vg.Points(20), 2, expon))
// Set the X axis of the plot to nominal with
// the given names for x=0, x=1 and x=2.
p.NominalX("Uniform\nDistribution", "Normal\nDistribution",
"Exponential\nDistribution")
return p
}
作者:pingle
项目:bandit-
// draw is a generic plotter of labelled lines.
func draw(lines graph, title, xLabel, yLabel string) error {
p, err := plot.New()
if err != nil {
return fmt.Errorf(err.Error())
}
p.Title.Text = title
p.X.Label.Text = xLabel
p.Y.Label.Text = yLabel
i := 0
for legend, data := range lines {
i = i + 1
l, err := plotter.NewLine(xys(data))
if err != nil {
return fmt.Errorf(err.Error())
}
p.Add(l)
p.Legend.Add(legend, l)
l.LineStyle.Color = getColor(i)
}
if err != nil {
return fmt.Errorf(err.Error())
}
name := strings.Replace(strings.ToLower(title), " ", "-", -1)
filename := fmt.Sprintf("strategy-%s.svg", name)
if err := p.Save(8, 8, filename); err != nil {
return fmt.Errorf(err.Error())
}
return nil
}
作者:jen
项目:plotinu
func Example_groupedHorizontalQuartPlots() *plot.Plot {
rand.Seed(int64(0))
n := 100
uniform := make(plotter.Values, n)
normal := make(plotter.Values, n)
expon := make(plotter.Values, n)
for i := 0; i < n; i++ {
uniform[i] = rand.Float64()
normal[i] = rand.NormFloat64()
expon[i] = rand.ExpFloat64()
}
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Box Plot"
p.Y.Label.Text = "plotter.Values"
w := vg.Points(10)
for x := 0.0; x < 3.0; x++ {
b0 := must(plotter.MakeHorizQuartPlot(x, uniform)).(plotter.HorizQuartPlot)
b0.Offset = -w
b1 := must(plotter.MakeHorizQuartPlot(x, normal)).(plotter.HorizQuartPlot)
b2 := must(plotter.MakeHorizQuartPlot(x, expon)).(plotter.HorizQuartPlot)
b2.Offset = w
p.Add(b0, b1, b2)
}
p.Add(plotter.NewGlyphBoxes())
p.NominalY("Group 0", "Group 1", "Group 2")
return p
}
作者:jen
项目:plotinu
// Draw the plotinum logo.
func Example_logo() *plot.Plot {
p, err := plot.New()
if err != nil {
panic(err)
}
plotter.DefaultLineStyle.Width = vg.Points(1)
plotter.DefaultGlyphStyle.Radius = vg.Points(3)
p.Y.Tick.Marker = plot.ConstantTicks([]plot.Tick{
{0, "0"}, {0.25, ""}, {0.5, "0.5"}, {0.75, ""}, {1, "1"},
})
p.X.Tick.Marker = plot.ConstantTicks([]plot.Tick{
{0, "0"}, {0.25, ""}, {0.5, "0.5"}, {0.75, ""}, {1, "1"},
})
pts := plotter.XYs{{0, 0}, {0, 1}, {0.5, 1}, {0.5, 0.6}, {0, 0.6}}
line := must(plotter.NewLine(pts)).(*plotter.Line)
scatter := must(plotter.NewScatter(pts)).(*plotter.Scatter)
p.Add(line, scatter)
pts = plotter.XYs{{1, 0}, {0.75, 0}, {0.75, 0.75}}
line = must(plotter.NewLine(pts)).(*plotter.Line)
scatter = must(plotter.NewScatter(pts)).(*plotter.Scatter)
p.Add(line, scatter)
pts = plotter.XYs{{0.5, 0.5}, {1, 0.5}}
line = must(plotter.NewLine(pts)).(*plotter.Line)
scatter = must(plotter.NewScatter(pts)).(*plotter.Scatter)
p.Add(line, scatter)
return p
}
作者:jen
项目:plotinu
// Example_errBars draws points and error bars.
func Example_errBars() *plot.Plot {
type errPoints struct {
plotter.XYs
plotter.YErrors
plotter.XErrors
}
rand.Seed(int64(0))
n := 15
data := errPoints{
XYs: randomPoints(n),
YErrors: plotter.YErrors(randomError(n)),
XErrors: plotter.XErrors(randomError(n)),
}
p, err := plot.New()
if err != nil {
panic(err)
}
scatter := must(plotter.NewScatter(data)).(*plotter.Scatter)
scatter.Shape = plot.CrossGlyph{}
xerrs, err := plotter.NewXErrorBars(data)
if err != nil {
panic(err)
}
yerrs, err := plotter.NewYErrorBars(data)
if err != nil {
panic(err)
}
p.Add(scatter, xerrs, yerrs)
p.Add(plotter.NewGlyphBoxes())
return p
}
作者:jen
项目:plotinu
// An example of making a histogram.
func Example_histogram() *plot.Plot {
rand.Seed(int64(0))
n := 10000
vals := make(plotter.Values, n)
for i := 0; i < n; i++ {
vals[i] = rand.NormFloat64()
}
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Histogram"
h, err := plotter.NewHist(vals, 16)
if err != nil {
panic(err)
}
h.Normalize(1)
p.Add(h)
// The normal distribution function
norm := plotter.NewFunction(stdNorm)
norm.Color = color.RGBA{R: 255, A: 255}
norm.Width = vg.Points(2)
p.Add(norm)
return p
}
作者:jackieli
项目:go-plotinu
func main() {
// Get some random data.
n, m := 5, 10
pts := make([]plotter.XYer, n)
for i := range pts {
xys := make(plotter.XYs, m)
pts[i] = xys
center := float64(i)
for j := range xys {
xys[j].X = center + (rand.Float64() - 0.5)
xys[j].Y = center + (rand.Float64() - 0.5)
}
}
plt, err := plot.New()
if err != nil {
panic(err)
}
mean95 := plotutil.NewErrorPoints(plotutil.MeanAndConf95, pts...)
medMinMax := plotutil.NewErrorPoints(plotutil.MedianAndMinMax, pts...)
plotutil.AddLinePoints(plt,
"mean and 95% confidence", mean95,
"median and minimum and maximum", medMinMax)
plotutil.AddErrorBars(plt, mean95, medMinMax)
plotutil.AddScatters(plt, pts[0], pts[1], pts[2], pts[3], pts[4])
plt.Save(4, 4, "errpoints.png")
}
作者:swoo
项目:go.icc
// createLine creates a line graph from provided x,y data and title
func createLine(xdat, ydat [][]float64, ylab []string, title string) {
p, err := plot.New()
if err != nil {
panic(err)
}
p.Add(plotter.NewGrid())
p.Title.Text = title
p.Legend.Top = true
p.Legend.XOffs = -10.0
p.Legend.YOffs = -10.0
var scatdata xyer
var s *plotter.Line
for i, _ := range ydat {
scatdata = xyer{xdat[i], ydat[i]}
s = plotter.NewLine(scatdata)
s.LineStyle.Width = 2
s.LineStyle.Color = cols[i]
p.Add(s)
p.Legend.Add(ylab[i], s)
}
p.X.Max = 2.5
p.Y.Max = 3.5
p.X.Label.Text = "Time / ps"
p.Y.Label.Text = "Probability density"
if err := p.Save(5, 5, "out/"+title+".png"); err != nil {
panic(err)
}
}
作者:raf
项目:go-sparklin
func plotLine(xy plotter.XYs) (image.Image, error) {
p, err := plot.New()
if err != nil {
return nil, err
}
p.HideAxes()
p.BackgroundColor = &color.RGBA{0, 0, 0, 255}
//s, err := NewSparkLines(xy)
s, err := plotter.NewLine(xy)
if err != nil {
return nil, err
}
s.Color = &color.RGBA{0, 255, 0, 128}
p.Add(s)
// Draw the plot to an in-memory image.
// _, rows, _ := terminal.GetSize(0)
charWidth := optCharWidth
charHeight := optCharHeight
//width := cols * charWidth
height := optRows * charHeight
img := image.NewRGBA(image.Rect(0, 0, 5+(len(xy)*charWidth), height))
canvas := vgimg.NewImage(img)
da := plot.MakeDrawArea(canvas)
p.Draw(da)
return img, nil
}
作者:jen
项目:plotinu
// Example_groupedBoxPlots draws vertical boxplots.
func Example_groupedBoxPlots() *plot.Plot {
rand.Seed(int64(0))
n := 100
uniform := make(plotter.Values, n)
normal := make(plotter.Values, n)
expon := make(plotter.Values, n)
for i := 0; i < n; i++ {
uniform[i] = rand.Float64()
normal[i] = rand.NormFloat64()
expon[i] = rand.ExpFloat64()
}
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Box Plot"
p.Y.Label.Text = "plotter.Values"
w := vg.Points(20)
for x := 0.0; x < 3.0; x++ {
b0 := must(plotter.NewBoxPlot(w, x, uniform)).(*plotter.BoxPlot)
b0.Offset = -w - vg.Points(3)
b1 := must(plotter.NewBoxPlot(w, x, normal)).(*plotter.BoxPlot)
b2 := must(plotter.NewBoxPlot(w, x, expon)).(*plotter.BoxPlot)
b2.Offset = w + vg.Points(3)
p.Add(b0, b1, b2)
}
// Set the X axis of the plot to nominal with
// the given names for x=0, x=1 and x=2.
p.NominalX("Group 0", "Group 1", "Group 2")
return p
}
作者:jen
项目:plotinu
// Example_functions draws some functions.
func Example_functions() *plot.Plot {
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Functions"
p.X.Label.Text = "X"
p.Y.Label.Text = "Y"
quad := plotter.NewFunction(func(x float64) float64 { return x * x })
quad.Color = color.RGBA{B: 255, A: 255}
exp := plotter.NewFunction(func(x float64) float64 { return math.Pow(2, x) })
exp.Dashes = []vg.Length{vg.Points(2), vg.Points(2)}
exp.Width = vg.Points(2)
exp.Color = color.RGBA{G: 255, A: 255}
sin := plotter.NewFunction(func(x float64) float64 { return 10*math.Sin(x) + 50 })
sin.Dashes = []vg.Length{vg.Points(4), vg.Points(5)}
sin.Width = vg.Points(4)
sin.Color = color.RGBA{R: 255, A: 255}
p.Add(quad, exp, sin)
p.Legend.Add("x^2", quad)
p.Legend.Add("2^x", exp)
p.Legend.Add("10*sin(x)+50", sin)
p.Legend.ThumbnailWidth = vg.Inches(0.5)
p.X.Min = 0
p.X.Max = 10
p.Y.Min = 0
p.Y.Max = 100
return p
}
作者:nimishzyng
项目:query_per
func main() {
var maxworker = *flag.Int("maxworkers", MAXWORKER, "Maxworker")
var queryNum = *flag.Int("qpr", QN, "query per worker")
flag.Parse()
fmt.Println(maxworker, queryNum)
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Query per second"
p.X.Label.Text = "query number"
p.Y.Label.Text = "query per second"
pts := make(plotter.XYs, queryNum)
for i := 10; i <= maxworker; i = i + 3 {
for j := 1; j <= queryNum; j++ {
val := mainLoop(i, j)
pts[j-1].X = float64(j)
pts[j-1].Y = val
}
err = plotutil.AddLinePointsColor(p, i, "Number of worker "+strconv.Itoa(i), pts)
if err != nil {
panic(err)
}
}
if err := p.Save(4, 4, "points.png"); err != nil {
panic(err)
}
}
作者:vivounicor
项目:eaburn
func histPlot() *plot.Plot {
// Draw some random values from the standard
// normal distribution.
rand.Seed(int64(0))
v := make(plotter.Values, 1000)
for i := range v {
v[i] = rand.NormFloat64()
}
// Make a plot and set its title.
p, err := plot.New()
if err != nil {
panic(err)
}
p.Title.Text = "Histogram"
// Create a histogram of our values drawn
// from the standard normal.
h, err := plotter.NewHist(v, 16)
if err != nil {
panic(err)
}
// Normalize the area under the histogram to
// sum to one.
h.Normalize(1)
p.Add(h)
// The normal distribution function
norm := plotter.NewFunction(stdNorm)
norm.Color = color.RGBA{R: 255, A: 255}
norm.Width = vg.Points(2)
p.Add(norm)
return p
}
