# https://github.com/Evizero/UnicodePlots.jl immutable UnicodePlotsPackage <: PlottingPackage end export unicodeplots! unicodeplots!() = plotter!(:unicodeplots) # ------------------------------- supportedArgs(::UnicodePlotsPackage) = setdiff(ARGS, [:reg, :heatmap_c, :fillto, :pos]) supportedAxes(::UnicodePlotsPackage) = [:auto, :left] supportedTypes(::UnicodePlotsPackage) = setdiff(ALL_TYPES, [:stepinverted]) supportedStyles(::UnicodePlotsPackage) = [:auto, :solid] supportedMarkers(::UnicodePlotsPackage) = [:none, :auto, :ellipse] function expandLimits!(lims, x) e1, e2 = extrema(x) lims[1] = min(lims[1], e1) lims[2] = max(lims[2], e2) nothing end # do all the magic here... build it all at once, since we need to know about all the series at the very beginning function rebuildUnicodePlot!(plt::Plot) # figure out the plotting area xlim = [xmin, xmax] and ylim = [ymin, ymax] sargs = plt.seriesargs xlim = [Inf, -Inf] ylim = [Inf, -Inf] for d in sargs expandLimits!(xlim, d[:x]) expandLimits!(ylim, d[:y]) end x = Float64[xlim[1]] y = Float64[ylim[1]] # create a plot window with xlim/ylim set, but the X/Y vectors are outside the bounds iargs = plt.initargs width, height = iargs[:size] o = UnicodePlots.createPlotWindow(x, y; width = width, height = height, title = iargs[:title], # labels = iargs[:legend], xlim = xlim, ylim = ylim) # set the axis labels UnicodePlots.xlabel!(o, iargs[:xlabel]) UnicodePlots.ylabel!(o, iargs[:ylabel]) # now use the ! functions to add to the plot for d in sargs addUnicodeSeries!(o, d, iargs[:legend]) end # save the object plt.o = o end # add a single series function addUnicodeSeries!(o, d::Dict, addlegend::Bool) # get the function, or special handling for step/bar/hist lt = d[:linetype] stepstyle = :post if lt == :line func = UnicodePlots.lineplot! elseif lt == :scatter || d[:marker] != :none func = UnicodePlots.scatterplot! elseif lt == :step func = UnicodePlots.stairs! elseif lt == :stepinverted func = UnicodePlots.stairs! stepstyle = :pre else error("Linestyle $lt not supported by UnicodePlots") end # get the series data and label x, y = [collect(float(d[s])) for s in (:x, :y)] label = addlegend ? d[:label] : "" # if we happen to pass in allowed color symbols, great... otherwise let UnicodePlots decide color = d[:color] in UnicodePlots.autoColors ? d[:color] : :auto # add the series func(o, x, y; color = color, name = label, style = stepstyle) end # ------------------------------- function plot(pkg::UnicodePlotsPackage; kw...) plt = Plot(nothing, pkg, 0, Dict(kw), Dict[]) # do we want to give a new default size? if !haskey(plt.initargs, :size) || plt.initargs[:size] == PLOT_DEFAULTS[:size] plt.initargs[:size] = (60,20) end plt end function plot!(::UnicodePlotsPackage, plt::Plot; kw...) d = Dict(kw) if d[:linetype] in (:sticks, :bar) d = barHack(; d...) elseif d[:linetype] == :hist d = barHack(; histogramHack(; d...)...) end push!(plt.seriesargs, d) plt end function Base.display(::UnicodePlotsPackage, plt::Plot) rebuildUnicodePlot!(plt) show(plt.o) end # ------------------------------- function savepng(::UnicodePlotsPackage, plt::PlottingObject, fn::String, args...) # make some whitespace and show the plot println("\n\n\n\n\n\n") display(plt) @osx_only begin # BEGIN HACK # wait while the plot gets drawn sleep(0.5) # use osx screen capture when my terminal is maximized and cursor starts at the bottom (I know, right?) # TODO: compute size of plot to adjust these numbers (or maybe implement something good??) run(`screencapture -R50,600,700,420 $fn`) # # some other attempts: # run(`screencapture -w $fn`) # using PyCall # @pyimport pyscreenshot as pss # END HACK (phew) return end error("Can only savepng on osx with UnicodePlots (though even then I wouldn't do it)") end # ------------------------------- # we don't do very much for subplots... just stack them vertically function buildSubplotObject!(::UnicodePlotsPackage, subplt::Subplot) nothing end function Base.display(::UnicodePlotsPackage, subplt::Subplot) for plt in subplt.plts display(UnicodePlotsPackage(), plt) end end