"use strict"; Object.defineProperty(exports, "__esModule", { value: true }); exports.SZoneItem = void 0; const lib_1 = require("@persagy-web/draw/lib"); const __1 = require("../.."); const lib_2 = require("@persagy-web/graph/lib"); class SZoneItem extends lib_2.SGraphItem { constructor(parent, data) { super(parent); this.pointArr = []; this.minX = Number.MAX_SAFE_INTEGER; this.maxX = Number.MIN_SAFE_INTEGER; this.minY = Number.MAX_SAFE_INTEGER; this.maxY = Number.MIN_SAFE_INTEGER; this.pathList = []; this.selectColor = __1.ItemColor.selectColor; this.unselectColor = __1.ItemColor.zoneUnselectColor; this._highLightFlag = false; this._transparency = 20; this._isInfected = false; this.infectedColor = __1.ItemColor.zoneInfectedColor; this.infectedBorder = __1.ItemColor.zoneInfectedBorder; this.data = data; this.zOrder = __1.ItemOrder.zoneOrder; this.highLightFlag = data.HighLightFlag || false; this.transparency = data.Transparency || 20; this.isInfected = data.Infected || false; if (this.data.OutLine.length && this.data.OutLine[0] && this.data.OutLine[0].length) { let tempArr = this.data.OutLine; this.minX = tempArr[0][0][0].X; this.maxX = this.minX; this.minY = -tempArr[0][0][0].Y; this.maxY = this.minY; this.pointArr = tempArr.map((t) => { let sPath = new lib_1.SPath2D(); let tempArr = t.map((it) => { let array = it.map((item) => { let x = item.X, y = -item.Y; if (x < this.minX) { this.minX = x; } if (y < this.minY) { this.minY = y; } if (x > this.maxX) { this.maxX = x; } if (y > this.maxY) { this.maxY = y; } return new lib_1.SPoint(x, y); }); sPath.polygon(array); return array; }); this.pathList.push(sPath); return tempArr; }); } } get highLightFlag() { return this._highLightFlag; } set highLightFlag(value) { this._highLightFlag = value; this.update(); } get transparency() { return this._transparency; } set transparency(value) { this._transparency = value; this.update(); } get isInfected() { return this._isInfected; } set isInfected(value) { this._isInfected = value; this.update(); } boundingRect() { return new lib_1.SRect(this.minX, this.minY, this.maxX - this.minX, this.maxY - this.minY); } onMouseDown(event) { if (this.selectable) { this.selected = !this.selected; this.clickPoint = new lib_1.SPoint(event.x, event.y); } this.$emit("click", event); return true; } onMouseUp(event) { return false; } contains(x, y) { for (let j = 0; j < this.pointArr.length; j++) { let arr = this.pointArr[j]; if (arr.length < 1 || !lib_1.SPolygonUtil.pointIn(x, y, arr[0])) { continue; } if (arr.length == 1) { return true; } let flag = false; for (let i = 1; i < arr.length; i++) { if (lib_1.SPolygonUtil.pointIn(x, y, arr[i])) { flag = true; break; } } if (flag) { continue; } return true; } return false; } onDraw(painter, rect) { painter.pen.color = lib_1.SColor.Transparent; if (!this.selectable) { painter.brush.color = this.unselectColor; } else { if (this.selected) { painter.brush.color = this.selectColor; } else if (this.highLightFlag) { painter.brush.color = new lib_1.SColor(this.data.Color); } else if (this.isInfected) { painter.brush.color = this.infectedColor; } else { painter.brush.color = new lib_1.SColor(`${this.data.Color}${__1.Transparency[this.transparency]}`); } } painter.pen.lineWidth = painter.toPx(1); this.pathList.forEach((t) => { painter.drawPath(t); }); painter.brush.color = lib_1.SColor.Black; painter.font.size = painter.toPx(10); if (this.clickPoint) { painter.drawText(this.data.RoomLocalName, this.clickPoint.x, this.clickPoint.y); } } } exports.SZoneItem = SZoneItem;