spacedeck-open/public/javascripts/vector-render.js
mntmn ebac854da8
Port Backend to SQLite/Sequelize (removes MongoDB), Support Electron (#14)
* The MongoDB/Mongoose data storage is removed in favor of Sequelize. This abstracts over SQLite or RDBMs like PostgreSQL and MSSQL. The default is SQLite, which significantly simplifies deployments in end-user environments.

* As Spacedeck now has no more mandatory server dependencies, we can wrap it in Electron and ship it as a desktop application.

* Removes docker-compose.yml

* First version of import UI
2018-04-12 16:40:58 +00:00

308 lines
8.6 KiB
JavaScript

function vec2_add(a,b) {
return {dx:a.dx+b.dx, dy:a.dy+b.dy};
}
function vec2_sub(a,b) {
return {dx:a.dx-b.dx, dy:a.dy-b.dy};
}
function vec2_mul(a,f) {
return {dx:a.dx*f, dy:a.dy*f};
}
function vec2_magn(v) {
return Math.sqrt(v.dx*v.dx + v.dy*v.dy);
}
function vec2_unit(v) {
var m = vec2_magn(v);
if (m == 0) return {dx:0, dy:0};
return {dx:v.dx/m, dy:v.dy/m};
}
function vec2_angle(v) {
if (v.dx==0) return Math.atan2(v.dx+0.01, v.dy);
return Math.atan2(v.dx, v.dy);
}
function render_vector_drawing(a, padding) {
var shape = a.shape || "";
var path = [];
var p = a.control_points[0];
if (!p) return "";
path.push("M" + (p.dx + padding) + "," + (p.dy + padding) + " ");
if (shape.match("arrow")) {
var cps = a.control_points[0];
var cpe = a.control_points[1];
var cpm = a.control_points[2];
if (!cpm) cpm = cpe;
var markerId = a._id;
var origin = cps;
var end = cpe;
var vec = vec2_sub(end, origin);
var length = vec2_magn(vec);
var middleVec = vec2_mul(vec2_unit(vec),length / 2);
var middlePoint = vec2_add(origin, middleVec);
var ortho = vec2_sub(cpm, middlePoint);
var scaledMiddlePoint = vec2_add(vec2_mul(ortho,2), middlePoint);
var d = "M" + (cps.dx + padding) + "," + (cps.dy + padding) + " Q" + (scaledMiddlePoint.dx + padding) + "," + (scaledMiddlePoint.dy + padding) + " " + (cpe.dx + padding) + "," + (cpe.dy + padding);
var tip = "<defs><marker id='ae" + markerId + "' refX=\"0.1\" refY=\"3\" markerWidth=\"3\" markerHeight=\"6\" orient=\"auto\">";
tip += "<path d=\"M-3,0 V6 L3,3 Z\" fill=\""+a.stroke_color+"\" stroke-width=\"0\"/></marker></defs>";
var svg = tip + "<path d='" + d + "' style='stroke-width:" + a.stroke + ";' marker-end='url(#ae" + markerId + ")'/>";
return svg;
}
else if (false /*shape.match("scribble")*/) {
var idx = 0;
while (idx < a.control_points.length - 1) {
var prevP = a.control_points[idx];
if (a.control_points.length > idx + 1) {
var p = a.control_points[idx + 1];
} else {
var p = prevP;
}
if (a.control_points.length > idx + 2) {
var nextP = a.control_points[idx + 2];
} else {
var nextP = p;
}
var dpy = (p.dy - prevP.dy);
var dpx = (p.dx - prevP.dx);
var dny = (nextP.dy - p.dy);
var dnx = (nextP.dx - p.dx);
var distToNext = Math.sqrt(dny * dny + dnx * dnx);
var distToPrev = Math.sqrt(dpy * dpy + dpx * dpx);
var r = Math.sqrt((distToNext + distToPrev) / 2) * 2;
var prevAngle = Math.atan2(dpy, dpx);
var nextAngle = Math.atan2(dny, dnx);
var bisectAngle = (prevAngle + nextAngle) / 2;
var tangentAngle = bisectAngle;
var cp1x = p.dx + Math.cos(tangentAngle) * -r;
var cp1y = p.dy + Math.sin(tangentAngle) * -r;
var cp2x = p.dx + Math.cos(tangentAngle) * r;
var cp2y = p.dy + Math.sin(tangentAngle) * r;
var dcp1x = cp1x - nextP.dx;
var dcp1y = cp1y - nextP.dy;
var dcp2x = cp2x - nextP.dx;
var dcp2y = cp2y - nextP.dy;
var distToCp1 = Math.sqrt(dcp1x * dcp1x + dcp1y * dcp1y) / r;
var distToCp2 = Math.sqrt(dcp2x * dcp2x + dcp2y * dcp2y) / r;
if (distToCp1 > distToCp2) {
var curve = "S" + (cp1x + padding) + "," + (cp1y + padding) + " " + (p.dx + padding) + "," + (p.dy + padding);
}
else {
var curve = "S" + (cp2x + padding) + "," + (cp2y + padding) + " " + (p.dx + padding) + "," + (p.dy + padding);
}
path.push(curve);
idx += 1;
}
} else {
for (var idx=0; idx<a.control_points.length; idx++) {
var p = a.control_points[idx];
var command = (idx==0) ? 'M' : 'L';
path.push(command+(p.dx+padding)+','+(p.dy+padding));
}
}
return "<path d='"+path.join(' ')+"'>";
}
function render_vector_star(edges,xradius,yradius,offset) {
edges *= 2;
var points = [];
var degrees = 360 / edges;
for (var i=0; i < edges; i++) {
var a = i * degrees - 90;
var xr = xradius;
var yr = yradius;
if (i%2) {
if (edges==20) {
xr/=1.5;
yr/=1.5;
} else {
xr/=2.8;
yr/=2.8;
}
}
var x = offset + xradius + xr * Math.cos(a * Math.PI / 180);
var y = offset + yradius + yr * Math.sin(a * Math.PI / 180);
points.push(x+","+y);
}
return "<polygon points='"+points.join(" ")+"'/>";
}
function transform_vector_template(cmds, xr, yr, offset) {
var cmd_str = "";
for (var i = 0; i<cmds.length; i+=2) {
var vals = cmds[i+1];
for (var j = 0; j<vals.length; j+=2) {
vals[j]*=(2*xr/100.0);
vals[j+1]*=(2*yr/100.0);
}
cmd_str+=cmds[i]+cmds[i+1].join(',')+" ";
}
return cmd_str;
}
function render_vector_heart(xr, yr, offset) {
var cmds = ['M',[50.141,98.5],
'c',[0,0,-49,-38.334,-49,-67.982],
'C',[1.141,15.333,14.356,1,30.659,1],
'c',[7.437,0,14.244,2.791,19.435,7.33],
'l',[0,0],
'C',[55.296,3.742,62.141,1,69.622,1],
'c',[16.303,0,29.519,14.166,29.519,29.518],
'C',[99.141,60.334,50.141,98.5,50.141,98.5],
'z',[]];
svg ="<path d='"+ transform_vector_template(cmds, xr, yr, offset) +"'/>";
return svg;
}
function render_vector_cloud(xr, yr, offset) {
var cmds = ['M',[17.544,99.729],
'c',[0,0,-17.544,6.929,-17.544,-36.699],
'c',[0,-18.698,19.298,-28.047,19.298,-9.35],
'c',[0,0,-3.508,-54.46,26.316,-53.672],
'C',[71.93,0.704,68.421,34.983,68.421,34.983],
'S',[100,25.634,100,72.379],
'c',[0,28.047,-21.053,27.351,-21.053,27.351],
'z',[]];
svg ="<path d='"+ transform_vector_template(cmds, xr, yr, offset) +"'/>";
return svg;
}
function render_vector_ellipse(xr, yr, offset) {
svg = "<ellipse cx="+(xr+offset)+" cy="+(yr+offset)+" rx="+xr+" ry="+yr+">";
return svg;
}
function render_vector_speechbubble(xr, yr, offset) {
var cmds = ['M',[100,50],
'c',[0,9.5,-2.7,18,-7.4,26],
'C',[90,80,100,100,100,100],
's',[-23.194,-6.417,-28,-4.162],
'c',[-6.375,3,-13.5,4.7,-21,4.7],
'C',[23,100,0.5,77,0.5,50],
'C',[0.5,23,23,0.5,50,0.5],
'C',[77,0.5,100,23,100,50],
'z',[]];
svg ="<path d='"+ transform_vector_template(cmds, xr, yr, offset) +"'/>";
return svg;
}
function render_vector_ngon(edges,xradius,yradius,offset) {
var points = [];
var degrees = 360 / edges;
for (var i=0; i < edges; i++) {
var a = i * degrees - 90;
var x = offset + xradius + xradius * Math.cos(a * Math.PI / 180);
var y = offset + yradius + yradius * Math.sin(a * Math.PI / 180);
points.push(x+","+y);
}
return "<polygon points='"+points.join(" ")+"'/>";
}
function render_vector_rect(xradius,yradius,offset) {
return "<rect x='0' y='0' width='"+xradius*2+"' height='"+xradius*2+"'/>";
}
function render_vector_shape(a) {
var stroke = parseInt(a.stroke) + 4;
var offset = stroke / 2;
var xr = (a.w-stroke) / 2;
var yr = (a.h-stroke) / 2;
var shape_renderers = {
ellipse: function() { return render_vector_ellipse(xr, yr, offset); },
pentagon: function() { return render_vector_ngon(5, xr, yr, offset); },
hexagon: function() { return render_vector_ngon(6, xr, yr, offset); },
octagon: function() { return render_vector_ngon(8, xr, yr, offset); },
diamond: function() { return render_vector_ngon(4, xr, yr, offset); },
square: function() { return "" },
triangle: function() { return render_vector_ngon(3, xr, yr, offset); },
star: function() { return render_vector_star(5, xr, yr, offset); },
burst: function() { return render_vector_star(10, xr, yr, offset); },
speechbubble: function() { return render_vector_speechbubble(xr, yr, offset); },
heart: function() { return render_vector_heart(xr, yr, offset); },
cloud: function() { return render_vector_cloud(xr, yr, offset); },
}
var render_func = shape_renderers[a.shape];
if (!render_func) return "";
return render_func();
}
function simplify_scribble_points(control_points) {
var filtered_points = [];
var thresh = 2;
var idx=0;
for (var i=0; i<control_points.length; i++) {
var cp = control_points[i];
var next = control_points[i+1];
if (i>0) {
var prev = control_points[i-1];
}
if (next && prev) {
dprev = vec2_sub(cp, prev);
dnext = vec2_sub(next, cp);
aprev = vec2_angle(dprev);
anext = vec2_angle(dnext);
delta = Math.abs(Math.abs(aprev)-Math.abs(anext));
delta2 = vec2_magn(vec2_sub(cp,prev));
if (delta2>thresh && delta>0.1) {
filtered_points.push(cp);
}
}
else {
filtered_points.push(cp);
}
}
return filtered_points;
}
if (typeof(window) == 'undefined') {
exports.render_vector_shape = render_vector_shape;
exports.render_vector_drawing = render_vector_drawing;
}