dyna3/engine-proto/ConstructionViewer.jl
2024-06-26 13:15:54 -07:00

139 lines
3.3 KiB
Julia

module Viewer
using Blink
using Colors
export ConstructionViewer, display!, opentools!, closetools!
# === Blink utilities ===
append_to_head!(w, type, content) = @js w begin
@var element = document.createElement($type)
element.appendChild(document.createTextNode($content))
document.head.appendChild(element)
end
style!(w, stylesheet) = append_to_head!(w, "style", stylesheet)
script!(w, code) = append_to_head!(w, "script", code)
# === construction viewer ===
mutable struct ConstructionViewer
win::Window
function ConstructionViewer()
# create window and open developer console
win = Window(Blink.Dict(:width => 620, :height => 620))
# set stylesheet
style!(win, """
body {
background-color: #c8c0d0;
}
/* maximum dimensions are needed to keep Ganja canvas from blowing up */
canvas {
min-width: 600px;
max-width: 600px;
min-height: 600px;
max-height: 600px;
margin-top: 10px;
margin-left: 10px;
border-radius: 10px;
}
""")
# load Ganja.js
loadjs!(win, "https://unpkg.com/ganja.js")
# create global functions and variables
script!(win, """
// create algebra
var CGA3 = Algebra(4, 1);
// initialize element list and palette
var elements = [];
var palette = [];
// declare handles for the visualization and its options
var graph;
var graphOpt;
// create scene function
function scene() {
commands = [];
for (let n = 0; n < elements.length; ++n) {
commands.push(palette[n], elements[n]);
}
return commands;
}
""")
# create view
@js win begin
graphOpt = Dict(
:conformal => true,
:gl => true,
:grid => true,
:devicePixelRatio => window.devicePixelRatio
)
graph = CGA3.graph(scene, graphOpt)
document.body.replaceChildren(graph)
end
new(win)
end
end
function display!(viewer::ConstructionViewer, elements::Matrix)
# load elements
elements_full = [
[0; elt; fill(0, 26)]
for elt in eachcol(elements)
]
@js viewer.win elements = $elements_full.map((elt) -> @new CGA3(elt))
# generate palette. this is Gadfly's `default_discrete_colors` palette,
# available under the MIT license
palette = distinguishable_colors(
length(elements_full),
[LCHab(70, 60, 240)],
transform = c -> deuteranopic(c, 0.5),
lchoices = Float64[65, 70, 75, 80],
cchoices = Float64[0, 50, 60, 70],
hchoices = range(0, stop=330, length=24)
)
palette_packed = [RGB24(c).color for c in palette]
@js viewer.win palette = $palette_packed
# update view
@js viewer.win requestAnimationFrame(graph.update.bind(graph, scene));
end
function opentools!(viewer::ConstructionViewer)
size(viewer.win, 1240, 620)
opentools(viewer.win)
end
function closetools!(viewer::ConstructionViewer)
closetools(viewer.win)
size(viewer.win, 620, 620)
end
end
# ~~~ sandbox setup ~~~
# in the default view, e4 + e5 is the point at infinity
elements = sqrt(0.5) * BigFloat[
1 1 -1 -1 0;
1 -1 1 -1 0;
1 -1 -1 1 0;
0 0 0 0 -sqrt(6);
1 1 1 1 2
]
# show construction
viewer = Viewer.ConstructionViewer()
Viewer.display!(viewer, elements)