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using Tk
using Images
using ImageView
using Color
type FractalCanvas
c::Canvas
f::FractalExplorer.Fractal
image::Array{HSV{Float64}, 2}
function FractalCanvas(c::Canvas, make_c::Function, step::Function)
winsize = tuple(get_size(c)...)
f = FractalExplorer.Fractal{Float64}(winsize, make_c, step)
image = [ HSV(0, 0, 0) for y=1:winsize[1], x=1:winsize[2] ]
fc = new(c, f, image)
redraw(fc)
c.draw = function(x)
props = Dict()
img2 = ImageView.ImageSlice2d(fc.image, props)
imgc = ImageView.ImageCanvas(ImageView.cairo_format(fc.image), props)
imgc.c = fc.c
ImageView.allocate_surface!(imgc, winsize[2], winsize[1])
ImageView.rerender(imgc, img2)
ImageView.resize(imgc, img2)
end
return fc
end
end
mandelbrot(fc::FractalCanvas) = mandelbrot(fc.c)
function mandelbrot(canvas::Canvas = createwindow())
return fractal(canvas, z -> z, (z, c) -> z.^2 + c)
end
julia(fc::FractalCanvas, c = 0) = julia(fc.c, c)
function julia(canvas::Canvas = createwindow(), c::Union(Number, Array{Number, 2}) = 0)
return fractal(canvas, z -> c, (z, c) -> z.^2 + c)
end
fractal(make_c, step) = fractal(createwindow(), make_c, step)
fractal(fc::FractalCanvas, make_c, step) = fractal(fc.c, make_c, step)
function fractal(canvas::Canvas, make_c::Function, step::Function)
fc = FractalCanvas(canvas, make_c, step)
i = 0
while true
FractalExplorer.step(fc.f)
new_pixels = (abs(fc.f.z) .> 2) & (fc.image .== HSV(0, 0, 0))
fc.image[new_pixels] = HSV(i * 4, 1, 1)
i = i + 1
redraw(fc)
if length(find(new_pixels)) <= 1
break
end
end
if (!isinteractive())
cv = Condition()
win = Tk.toplevel(fc.c)
bind(win, "<Destroy>", e->notify(cv))
wait(cv)
end
return fc
end
function createwindow(winsize::(Integer, Integer) = (640, 480))
win = Toplevel("FractalExplorer", winsize[1], winsize[2], false)
frame = Frame(win)
pack(frame, expand=true, fill="both")
canvas = Canvas(frame, winsize[1], winsize[2])
pack(canvas, expand=true, fill="both")
set_visible(win, true)
# XXX this is needed because not calling view before get_size causes things
# to fail for some reason? it shouldn't be necessary otherwise
view(canvas, [ HSV(0, 0, 0) for y=1:winsize[2], x=1:winsize[1] ], interactive=false)
return canvas
end
function redraw(fc::FractalCanvas)
return view(fc.c, fc.image, interactive=false)
end
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