'use strict' function Generator (layer, style) { this.layer = layer this.style = style function operate (layer, offset, scale, mirror = 0, angle = 0) { const l = copy(layer) for (const k1 in l) { const seg = l[k1] for (const k2 in seg.vertices) { if (mirror == 1 || mirror == 3) { seg.vertices[k2].x = (DOTGRID.tool.settings.size.width) - seg.vertices[k2].x + 15 } if (mirror == 2 || mirror == 3) { seg.vertices[k2].y = (DOTGRID.tool.settings.size.height) - seg.vertices[k2].y + 15 } // Offset seg.vertices[k2].x += offset.x seg.vertices[k2].y += offset.y // Rotate const center = { x: (DOTGRID.tool.settings.size.width / 2) + offset.x + (7.5), y: (DOTGRID.tool.settings.size.height / 2) + offset.y + 30 } seg.vertices[k2] = rotatePoint(seg.vertices[k2], center, angle) // Scale seg.vertices[k2].x *= scale seg.vertices[k2].y *= scale } } return l } this.render = function (prev, segment, mirror = 0) { const type = segment.type const vertices = segment.vertices let html = '' let skip = 0 for (const id in vertices) { if (skip > 0) { skip -= 1; continue } let vertex = vertices[id] let next = vertices[parseInt(id) + 1] let afterNext = vertices[parseInt(id) + 2] if (id == 0 && !prev || id == 0 && prev && (prev.x != vertex.x || prev.y != vertex.y)) { html += `M${vertex.x},${vertex.y} ` } if (type == 'line') { html += this._line(vertex) } else if (type == 'arc_c') { let clock = mirror > 0 && mirror < 3 ? '0,0' : '0,1' html += this._arc(vertex, next, clock) } else if (type == 'arc_r') { let clock = mirror > 0 && mirror < 3 ? '0,1' : '0,0' html += this._arc(vertex, next, clock) } else if (type == 'arc_c_full') { let clock = mirror > 0 ? '1,0' : '1,1' html += this._arc(vertex, next, clock) } else if (type == 'arc_r_full') { let clock = mirror > 0 ? '1,1' : '1,0' html += this._arc(vertex, next, clock) } else if (type == 'bezier') { html += this._bezier(next, afterNext) skip = 1 } } if (segment.type == 'close') { html += 'Z ' } return html } this._line = function (a) { return `L${a.x},${a.y} ` } this._arc = function (a, b, c) { if (!a || !b || !c) { return '' } const offset = { x: b.x - a.x, y: b.y - a.y } if (offset.x === 0 || offset.y === 0) { return this._line(b) } return `A${Math.abs(b.x - a.x)},${Math.abs(b.y - a.y)} 0 ${c} ${b.x},${b.y} ` } this._bezier = function (a, b) { if (!a || !b) { return '' } return `Q${a.x},${a.y} ${b.x},${b.y} ` } this.convert = function (layer, mirror, angle) { let s = '' let prev = null for (const id in layer) { const seg = layer[id] s += `${this.render(prev, seg, mirror)}` prev = seg.vertices ? seg.vertices[seg.vertices.length - 1] : null } return s } this.toString = function (offset = { x: 0, y: 0 }, scale = 1, mirror = this.style && this.style.mirror_style ? this.style.mirror_style : 0) { let s = this.convert(operate(this.layer, offset, scale)) if (mirror == 1 || mirror == 2 || mirror == 3) { s += this.convert(operate(this.layer, offset, scale, mirror), mirror) } return s } function copy (data) { return data ? JSON.parse(JSON.stringify(data)) : [] } function rotatePoint (point, origin, angle) { angle = angle * Math.PI / 180.0; return { x: (Math.cos(angle) * (point.x - origin.x) - Math.sin(angle) * (point.y - origin.y) + origin.x).toFixed(1), y: (Math.sin(angle) * (point.x - origin.x) + Math.cos(angle) * (point.y - origin.y) + origin.y).toFixed(1) } } }