'use strict' DOTGRID.Tool = function () { this.index = 0 this.settings = { size: { width: 300, height: 300 } } this.layers = [[], [], []] this.styles = [ { thickness: 10, strokeLinecap: 'round', strokeLinejoin: 'round', color: '#f00', fill: 'none', mirror_style: 0 }, { thickness: 10, strokeLinecap: 'round', strokeLinejoin: 'round', color: '#0f0', fill: 'none', mirror_style: 0 }, { thickness: 10, strokeLinecap: 'round', strokeLinejoin: 'round', color: '#00f', fill: 'none', mirror_style: 0 } ] this.vertices = [] this.reqs = { line: 2, arc_c: 2, arc_r: 2, arc_c_full: 2, arc_r_full: 2, bezier: 3, close: 0 } this.start = function () { this.styles[0].color = DOTGRID.theme.active.f_high this.styles[1].color = DOTGRID.theme.active.f_med this.styles[2].color = DOTGRID.theme.active.f_low } this.reset = function () { this.styles[0].mirror_style = 0 this.styles[1].mirror_style = 0 this.styles[2].mirror_style = 0 this.styles[0].fill = 'none' this.styles[1].fill = 'none' this.styles[2].fill = 'none' this.layers = [[], [], []] this.vertices = [] this.index = 0 } this.clear = function () { this.vertices = [] DOTGRID.guide.update() DOTGRID.interface.update(true) } this.undo = function () { this.layers = DOTGRID.history.prev() DOTGRID.guide.update() DOTGRID.interface.update(true) } this.redo = function () { this.layers = DOTGRID.history.next() DOTGRID.guide.update() DOTGRID.interface.update(true) } this.length = function () { return this.layers[0].length + this.layers[1].length + this.layers[2].length } // I/O this.export = function (target = { settings: this.settings, layers: this.layers, styles: this.styles }) { return JSON.stringify(copy(target), null, 2) } this.import = function (layer) { this.layers[this.index] = this.layers[this.index].concat(layer) DOTGRID.history.push(this.layers) this.clear() DOTGRID.guide.update() DOTGRID.interface.update(true) } this.replace = function (dot) { if (!dot.layers || dot.layers.length != 3) { console.warn('Incompatible version'); return } if (dot.settings.width && dot.settings.height) { dot.settings.size = { width: dot.settings.width, height: dot.settings.height } } if (this.settings && (this.settings.size.width != dot.settings.size.width || this.settings.size.height != dot.settings.size.height)) { DOTGRID.set_size({ width: dot.settings.size.width, height: dot.settings.size.height }) } this.layers = dot.layers this.styles = dot.styles this.settings = dot.settings this.clear() DOTGRID.guide.update() DOTGRID.interface.update(true) DOTGRID.history.push(this.layers) } // EDIT this.remove_segment = function () { if (this.vertices.length > 0) { this.clear(); return } this.layer().pop() this.clear() DOTGRID.guide.update() DOTGRID.interface.update(true) } this.remove_segments_at = function (pos) { for (const segment_id in this.layer()) { let segment = this.layer()[segment_id] for (const vertex_id in segment.vertices) { let vertex = segment.vertices[vertex_id] if (Math.abs(pos.x) == Math.abs(vertex.x) && Math.abs(pos.y) == Math.abs(vertex.y)) { segment.vertices.splice(vertex_id, 1) } } if (segment.vertices.length < 2) { this.layers[this.index].splice(segment_id, 1) } } this.clear() DOTGRID.guide.update() DOTGRID.interface.update(true) } this.select_segment_at = function (pos, source = this.layer()) { let target_segment = null for (const segment_id in source) { let segment = source[segment_id] for (const vertex_id in segment.vertices) { let vertex = segment.vertices[vertex_id] if (vertex.x == Math.abs(pos.x) && vertex.y == Math.abs(pos.y)) { return segment } } } return null } this.add_vertex = function (pos) { pos = { x: Math.abs(pos.x), y: Math.abs(pos.y) } this.vertices.push(pos) DOTGRID.interface.update(true) } this.vertex_at = function (pos) { for (const segment_id in this.layer()) { let segment = this.layer()[segment_id] for (const vertex_id in segment.vertices) { let vertex = segment.vertices[vertex_id] if (vertex.x == Math.abs(pos.x) && vertex.y == Math.abs(pos.y)) { return vertex } } } return null } this.add_segment = function (type, vertices) { let append_target = this.can_append({ type: type, vertices: vertices }) if (append_target) { this.layer()[append_target].vertices = this.layer()[append_target].vertices.concat(vertices) } else { this.layer().push({ type: type, vertices: vertices }) } } this.cast = function (type) { if (!this.layer()) { this.layers[this.index] = [] } if (!this.can_cast(type)) { console.warn('Cannot cast'); return } this.add_segment(type, this.vertices.slice()) DOTGRID.history.push(this.layers) this.clear() DOTGRID.guide.update() DOTGRID.interface.update(true) console.log(`Casted ${type} -> ${this.layer().length} elements`) } this.i = { linecap: 0, linejoin: 0, thickness: 5 } this.toggle = function (type, mod = 1) { if (type == 'linecap') { let a = ['butt', 'square', 'round'] this.i.linecap += mod this.style().strokeLinecap = a[this.i.linecap % a.length] } else if (type == 'linejoin') { let a = ['miter', 'round', 'bevel'] this.i.linejoin += mod this.style().strokeLinejoin = a[this.i.linejoin % a.length] } else if (type == 'fill') { this.style().fill = this.style().fill == 'none' ? this.style().color : 'none' } else if (type == 'thickness') { this.style().thickness = clamp(this.style().thickness + mod, 1, 100) } else if (type == 'mirror') { this.style().mirror_style = this.style().mirror_style > 2 ? 0 : this.style().mirror_style + 1 } else { console.warn('Unknown', type) } DOTGRID.interface.update(true) DOTGRID.guide.update() } this.misc = function (type) { DOTGRID.picker.start() } this.source = function (type) { if (type == 'grid') { DOTGRID.guide.toggle() } if (type == 'screen') { app.toggle_fullscreen() } if (type == 'open') { DOTGRID.open() } if (type == 'save') { DOTGRID.save() } if (type == 'render') { DOTGRID.render() } if (type == 'export') { DOTGRID.export() } } this.can_append = function (content) { for (const id in this.layer()) { let stroke = this.layer()[id] if (stroke.type != content.type) { continue } if (!stroke.vertices) { continue } if (!stroke.vertices[stroke.vertices.length - 1]) { continue } if (stroke.vertices[stroke.vertices.length - 1].x != content.vertices[0].x) { continue } if (stroke.vertices[stroke.vertices.length - 1].y != content.vertices[0].y) { continue } return id } return false } this.can_cast = function (type) { if (!type) { return false } // Cannot cast close twice if (type == 'close') { let prev = this.layer()[this.layer().length - 1] if (!prev || prev.type == 'close') { return false } } if (type == 'bezier') { if (this.vertices.length != 3 && this.vertices.length != 5 && this.vertices.length != 7 && this.vertices.length != 9) { return false } } return this.vertices.length >= this.reqs[type] } this.paths = function () { let l1 = new Generator(DOTGRID.tool.layers[0], DOTGRID.tool.styles[0]).toString({ x: -10, y: -10 }, 1) let l2 = new Generator(DOTGRID.tool.layers[1], DOTGRID.tool.styles[1]).toString({ x: -10, y: -10 }, 1) let l3 = new Generator(DOTGRID.tool.layers[2], DOTGRID.tool.styles[2]).toString({ x: -10, y: -10 }, 1) return [l1, l2, l3] } this.path = function () { return new Generator(DOTGRID.tool.layer(), DOTGRID.tool.style()).toString({ x: -10, y: -10 }, 1) } this.translate = function (a, b) { for (const segment_id in this.layer()) { let segment = this.layer()[segment_id] for (const vertex_id in segment.vertices) { let vertex = segment.vertices[vertex_id] if (vertex.x == Math.abs(a.x) && vertex.y == Math.abs(a.y)) { segment.vertices[vertex_id] = { x: Math.abs(b.x), y: Math.abs(b.y) } } } } DOTGRID.history.push(this.layers) this.clear() DOTGRID.guide.update() } this.translate_multi = function (a, b) { const offset = { x: a.x - b.x, y: a.y - b.y } const segment = this.select_segment_at(a) if (!segment) { return } for (const vertex_id in segment.vertices) { let vertex = segment.vertices[vertex_id] segment.vertices[vertex_id] = { x: vertex.x - offset.x, y: vertex.y - offset.y } } DOTGRID.history.push(this.layers) this.clear() DOTGRID.guide.update() } this.translate_layer = function (a, b) { console.log(a, b) const offset = { x: a.x - b.x, y: a.y - b.y } for (const segment_id in this.layer()) { let segment = this.layer()[segment_id] for (const vertex_id in segment.vertices) { let vertex = segment.vertices[vertex_id] segment.vertices[vertex_id] = { x: vertex.x - offset.x, y: vertex.y - offset.y } } } DOTGRID.history.push(this.layers) this.clear() DOTGRID.guide.update() } this.translate_copy = function (a, b) { const offset = { x: a.x - b.x, y: a.y - b.y } const segment = this.select_segment_at(a, copy(this.layer())) if (!segment) { return } for (const vertex_id in segment.vertices) { let vertex = segment.vertices[vertex_id] segment.vertices[vertex_id] = { x: vertex.x - offset.x, y: vertex.y - offset.y } } this.layer().push(segment) DOTGRID.history.push(this.layers) this.clear() DOTGRID.guide.update() } // Style this.style = function () { if (!this.styles[this.index]) { this.styles[this.index] = [] } return this.styles[this.index] } // Layers this.layer = function () { if (!this.layers[this.index]) { this.layers[this.index] = [] } return this.layers[this.index] } this.select_layer = function (id) { this.index = clamp(id, 0, 2) this.clear() DOTGRID.guide.update() DOTGRID.interface.update(true) console.log(`layer:${this.index}`) } this.select_next_layer = function () { this.index = this.index >= 2 ? 0 : this.index++ this.select_layer(this.index) } this.select_prev_layer = function () { this.index = this.index >= 0 ? 2 : this.index-- this.select_layer(this.index) } function copy (data) { return data ? JSON.parse(JSON.stringify(data)) : [] } function clamp (v, min, max) { return v < min ? min : v > max ? max : v } }