import * as PIXI from 'pixi.js'; import * as TWEEDLE from 'tweedle.js'; import * as Utils from './utils' import star from '/public/img/map/star.png' export default class Player { constructor(dom, dark, didClickSprite) { // not dynamic this.darkModel = dark; this.didClickSprite = didClickSprite; // init this.app = generatePixiApp(dark); dom.appendChild(this.app.view); globalThis.__PIXI_APP__ = this.app; this.mapContainer = generatePixiContainer('mapContainer'); this.app.stage.addChild(this.mapContainer); // this.activateMapEvent(null); this.activateMapScale(); this.activateMapPan(); this.showCoordinates(); this.getStartedTicker(); } activateMapEvent = (leftEvent, rightEvent) => { if (this.mapEvent) { this.mapContainer.parent.off('mousedown'); this.mapEvent = null; if (this.selectedSprites && this.selectedSprites.length > 0) { this.selectedSprites.forEach(child => { Utils.unMarkSprite(child); }) } } this.mapEvent = (event) => { if (leftEvent && event.button === 0) { switch (leftEvent) { case Utils.MapEvent.SELECTION_BOX: this.mapSelect(event); break default: break } } if (rightEvent && event.button === 2) { switch (rightEvent) { default: break } } } this.mapContainer.parent.on('mousedown', this.mapEvent) } mapSelect = (event) => { let isSelecting = false; if (!this.selectionBox) { this.selectionBox = new PIXI.Graphics(); this.app.stage.addChild(this.selectionBox); } // select start pos const startPoint = new PIXI.Point(); this.app.renderer.events.mapPositionToPoint(startPoint, event.clientX, event.clientY); let selectionStart = { x: startPoint.x, y: startPoint.y }; isSelecting = true; const handleMouseMove = (event) => { if (isSelecting && !this.didClickSprite) { // select end pos const endPoint = new PIXI.Point(); this.app.renderer.events.mapPositionToPoint(endPoint, event.clientX, event.clientY); const selectionEnd = { x: endPoint.x, y: endPoint.y } const width = Math.abs(selectionEnd.x - selectionStart.x); const height = Math.abs(selectionEnd.y - selectionStart.y); this.selectionBox.clear(); this.selectionBox.lineStyle(2, 0xCCCCCC, 1); this.selectionBox.beginFill(0xCCCCCC, 0.2); this.selectionBox.drawRect(Math.min(selectionStart.x, selectionEnd.x), Math.min(selectionStart.y, selectionEnd.y), width, height); this.selectionBox.endFill(); } } this.mapContainer.parent.on('mousemove', handleMouseMove); this.mapContainer.parent.on('mouseup', (event) => { if (isSelecting) { // sprite show style which be selected if (this.selectedSprites && this.selectedSprites.length > 0) { this.selectedSprites.forEach(child => { Utils.unMarkSprite(child); }) } this.selectedSprites = []; this.mapContainer.children.forEach(child => { if (Utils.isSpriteInSelectionBox(child, this.selectionBox)) { this.selectedSprites.push(child); Utils.markSprite(child); } }) isSelecting = false; this.selectionBox.clear(); // sprites batch move Utils.spriteListBeMovable(this.selectedSprites, this.scale, () => { this.activateMapEvent(Utils.MapEvent.SELECTION_BOX); }); } this.mapContainer.parent.off('mousemove', handleMouseMove); }); } activateMapPan = () => { const mapPanHandle = (event) => { if (event.button === 2) { this.pan = true; let previousPosition = { x: event.clientX, y: event.clientY }; const mouseMoveHandler = (event) => { if (this.pan) { const dx = event.clientX - previousPosition.x; const dy = event.clientY - previousPosition.y; this.mapContainer.position.x += dx; this.mapContainer.position.y += dy; previousPosition = { x: event.clientX, y: event.clientY }; } }; this.app.view.addEventListener('mousemove', mouseMoveHandler); this.app.view.addEventListener('mouseup', () => { this.app.view.removeEventListener('mousemove', mouseMoveHandler); this.pan = false; }); } } this.app.view.addEventListener('mousedown', mapPanHandle); } activateMapScale = () => { this.scale = 1; this.app.view.addEventListener('wheel', (event) => { event.preventDefault(); if (this.scale !== this.mapContainer.scale.x) { this.scale = this.mapContainer.scale.x; } const delta = Math.sign(event.deltaY); const mousePosition = new PIXI.Point(); this.app.renderer.plugins.interaction.mapPositionToPoint(mousePosition, event.clientX, event.clientY); const diffPositionX = mousePosition.x - this.mapContainer.x; const diffPositionY = mousePosition.y - this.mapContainer.y; const newScale = this.scale * (delta === 1 ? 0.9 : 1.1); const scaleFactor = newScale / this.scale; this.mapContainer.x = mousePosition.x - diffPositionX * scaleFactor; this.mapContainer.y = mousePosition.y - diffPositionY * scaleFactor; this.scale = newScale; this.mapContainer.scale.set(this.scale); this.mapContainer.children.forEach(child => { // child.scale.set(1 / this.scale); // 防止图标变小 }); }); } showCoordinates = () => { const coordinatesText = new PIXI.Text('{ x: 0, y: 0 }', { fill: 0x000000, fontSize: 13, fontFamily: 'MicrosoftYaHei', fontWeight: 'bold', }); coordinatesText.name = 'xyStr' coordinatesText.position.set(10, 10); this.app.stage.addChild(coordinatesText); const mouseMoveInfoTextHandler = (event) => { const mouseX = (event.clientX - this.mapContainer.position.x) / this.scale; const mouseY = (event.clientY - this.mapContainer.position.y) / this.scale; coordinatesText.text = `{ x: ${mouseX.toFixed(2)}, y: ${mouseY.toFixed(2)} }`; }; this.app.view.addEventListener('mousemove', mouseMoveInfoTextHandler); } showGridlines = () => { this.hideGridlines(); if (!this.gridLineContainer) { this.gridLineContainer = generatePixiContainer('gridLineContainer'); this.app.stage.addChild(this.gridLineContainer); } const inte = 30; const lineDefaultAlpha = .1;; const lineDefaultColor = 0x000000; for (let i = 0; i < this.app.view.width / inte; i++) { const graphics = new PIXI.Graphics(); graphics.lineStyle(1, lineDefaultColor, lineDefaultAlpha); graphics.beginFill(lineDefaultColor); graphics.moveTo(i * inte, 0); graphics.lineTo(i * inte, this.app.view.height); graphics.endFill(); this.gridLineContainer.addChild(graphics); } for (let i = 0; i < this.app.view.height / inte; i++) { const graphics = new PIXI.Graphics(); graphics.lineStyle(1, lineDefaultColor, lineDefaultAlpha); graphics.beginFill(lineDefaultColor); graphics.moveTo(0, i * inte); graphics.lineTo(this.app.view.width, i * inte); graphics.endFill(); this.gridLineContainer.addChild(graphics); } } hideGridlines = () => { if (this.gridLineContainer) { this.app.stage.removeChild(this.gridLineContainer); this.gridLineContainer = null; } } showStarryBackground = () => { if (!this.starryContainer) { this.starryContainer = generatePixiContainer('starryContainer'); this.app.stage.addChild(this.starryContainer); } const starTexture = PIXI.Texture.from(star); const starAmount = 300; let cameraZ = 0; const fov = 20; const baseSpeed = 0.025; let speed = 0; let warpSpeed = 1; const starStretch = 5; const starBaseSize = 0.05; const stars = []; for (let i = 0; i < starAmount; i++) { const star = { sprite: new PIXI.Sprite(starTexture), z: 0, x: 0, y: 0, }; star.sprite.anchor.x = 0.5; star.sprite.anchor.y = 0.7; star.sprite.tint = 0x8395a7; // filter randomizeStar(star, true); this.starryContainer.addChild(star.sprite); stars.push(star); } this.starryInterval = setInterval(() => { warpSpeed = warpSpeed > 0 ? 0 : 1; }, 5000); this.starryTicker = (delta) => { speed += (warpSpeed - speed) / 20; cameraZ += delta * 10 * (speed + baseSpeed); for (let i = 0; i < starAmount; i++) { const star = stars[i]; if (star.z < cameraZ) randomizeStar(star); const z = star.z - cameraZ; star.sprite.x = star.x * (fov / z) * this.app.renderer.screen.width + this.app.renderer.screen.width / 2; star.sprite.y = star.y * (fov / z) * this.app.renderer.screen.width + this.app.renderer.screen.height / 2; const dxCenter = star.sprite.x - this.app.renderer.screen.width / 2; const dyCenter = star.sprite.y - this.app.renderer.screen.height / 2; const distanceCenter = Math.sqrt(dxCenter * dxCenter + dyCenter * dyCenter); const distanceScale = Math.max(0, (2000 - z) / 2000); star.sprite.scale.x = distanceScale * starBaseSize; star.sprite.scale.y = distanceScale * starBaseSize + distanceScale * speed * starStretch * distanceCenter / this.app.renderer.screen.width; star.sprite.rotation = Math.atan2(dyCenter, dxCenter) + Math.PI / 2; } } this.app.ticker.add(this.starryTicker); function randomizeStar(star, initial) { star.z = initial ? Math.random() * 2000 : cameraZ + Math.random() * 1000 + 2000; const deg = Math.random() * Math.PI * 2; const distance = Math.random() * 50 + 1; star.x = Math.cos(deg) * distance; star.y = Math.sin(deg) * distance; } } hideStarryBackground = () => { if (this.starryTicker) { this.app.ticker.remove(this.starryTicker); this.starryTicker = null; } if (this.starryInterval) { clearInterval(this.starryInterval); this.starryInterval = null; } if (this.starryContainer) { this.starryContainer.removeChildren(); this.app.stage.removeChild(this.starryContainer); this.starryContainer = null; } } adaptScreen = () => { if (!this.mapContainer || !this.app) { return; } this.mapContainer.scale.set(1); this.mapContainer.position.set(0, 0); if (this.mapContainer.children.length === 0) { return; } let minX, maxX, minY, maxY; for (let sprite of this.mapContainer.children) { if (sprite?.data?.uuid) { let bounds = sprite.getBounds(); minX = minX !== undefined ? Math.min(minX, bounds.x) : bounds.x; minY = minY !== undefined ? Math.min(minY, bounds.y) : bounds.y; maxX = maxX !== undefined ? Math.max(maxX, bounds.x + bounds.width) : bounds.x + bounds.width; maxY = maxY !== undefined ? Math.max(maxY, bounds.y + bounds.height) : bounds.y + bounds.height; } } this.scale = Math.min( this.app.renderer.width / (maxX - minX) * 0.8, this.app.renderer.height / (maxY - minY) * 0.8 ); let centerPoint = { x: (minX + maxX) / 2 * this.mapContainer.scale.x, y: (minY + maxY) / 2 * this.mapContainer.scale.y }; new TWEEDLE.Tween(this.mapContainer.scale).easing(TWEEDLE.Easing.Quadratic.Out) .to({ x: this.scale, y: this.scale }, 200).start(); new TWEEDLE.Tween(this.mapContainer.position).easing(TWEEDLE.Easing.Quadratic.Out) .to({ x: this.app.renderer.width / 2 - centerPoint.x * this.scale, y: this.app.renderer.height / 2 - centerPoint.y * this.scale }, 200).start(); } updateDidClickSprite = (value) => { this.didClickSprite = value; } getStartedTicker = () => { this.app.ticker.add((delta) => { TWEEDLE.Group.shared.update(); }); } } function generatePixiApp(dark) { const app = new PIXI.Application({ background: dark ? '#f1f2f6' : '#f1f2f6', antialias: true, }) app.stage.eventMode = 'static'; app.stage.hitArea = app.screen; app.view.addEventListener('contextmenu', (event) => { event.preventDefault(); }); return app; } function generatePixiContainer(name) { const mapContainer = new PIXI.Container(); mapContainer.name = name; mapContainer.data = {}; return mapContainer; }