var EShaderMode = (i=>(i[i.default = 0] = "default", i[i.video = 1] = "video", i[i.videoAndPano = 2] = "videoAndPano", i))(EShaderMode || {}); class XMaterialComponent { constructor(e, t) { E(this, "scene"); E(this, "engine"); E(this, "yuvInfo"); E(this, "shaderMode"); E(this, "_panoInfo"); E(this, "_dynamic_size"); E(this, "_dynamic_babylonpose"); E(this, "_dynamic_textures"); E(this, "_dynamic_shaders"); E(this, "_scenemanager"); E(this, "_videoTexture"); E(this, "_videoElement"); E(this, "_lowModelShader"); E(this, "_defaultShader"); E(this, "_inputYUV420", !0); E(this, "_inputPanoYUV420", !0); E(this, "_videoRawYUVTexArray"); E(this, "_isUpdateYUV", !0); E(this, "initMaterial", async()=>new Promise((e,t)=>{ this._initDefaultShader(), this.shaderMode == 2 ? this.initDynamicData(this._panoInfo.dynamicRange, this._panoInfo.width, this._panoInfo.height).then(()=>{ this._initPureVideoShader(), this._prepareRender(this.yuvInfo) } ) : this.shaderMode == 1 ? (this._initPureVideoShader(), this._prepareRender(this.yuvInfo)) : this.shaderMode == 0, e(!0) } )); E(this, "_initPureVideoContent", e=>{ this._inputYUV420 ? this._videoRawYUVTexArray.getVideoYUVTex(0) != null && (this._lowModelShader.setTexture("texture_video", this._videoRawYUVTexArray.getVideoYUVTex(0)), this._lowModelShader.setFloat("isYUV", 1), Texture.WhenAllReady([this._videoRawYUVTexArray.getVideoYUVTex(0)], ()=>{ this._changePureVideoLowModelShaderCanvasSize(e) } )) : (this._videoElement = e.videoElement, this._videoTexture || (this._videoTexture = new VideoTexture("InterVideoTexture",this._videoElement,this.scene,!0,!1)), Texture.WhenAllReady([this._videoTexture], ()=>{ this._changePureVideoLowModelShaderCanvasSize({ width: this._videoElement.height, height: this._videoElement.width, fov: e.fov }) } ), this._lowModelShader.setTexture("texture_video", this._videoTexture), this._lowModelShader.setFloat("isYUV", 0)) } ); E(this, "_changePureVideoLowModelShaderCanvasSize", e=>{ var a; const t = e.fov || 50 , r = e.width || 720 , n = e.height || 1280 , o = r / (2 * Math.tan(Math.PI * t / 360)); (a = this._lowModelShader) == null || a.setVector3("focal_width_height", new Vector3(o,r,n)) } ); E(this, "updateRawYUVData", (e,t,r,n=-1)=>{ var o, a; if (n == -1 && (n = this.yuvInfo.fov), this._isUpdateYUV == !0) { const s = { width: t, height: r, fov: n } , l = this._videoRawYUVTexArray.findId(t, r) , u = this._videoRawYUVTexArray.getCurrentVideoTexId(); (u < 0 || l != u || n != this.yuvInfo.fov) && (this.yuvInfo.width = t, this.yuvInfo.height = r, this.yuvInfo.fov = n, this._videoRawYUVTexArray.setCurrentVideoTexId(l), this._changeVideoRes(l), this._changePureVideoLowModelShaderCanvasSize(s), this._scenemanager.cameraComponent.cameraFovChange(s), this._scenemanager.yuvInfo = s), (o = this._videoRawYUVTexArray.getVideoYUVTex(l)) == null || o.update(e), (a = this._videoRawYUVTexArray.getVideoYUVTex(l)) == null || a.updateSamplingMode(Texture.BILINEAR_SAMPLINGMODE) } } ); E(this, "_changeVideoRes", e=>{ this._lowModelShader.setTexture("texture_video", this._videoRawYUVTexArray.getVideoYUVTex(e)) } ); E(this, "initDynamicData", (e,t,r)=>new Promise((n,o)=>{ this.setDynamicSize(e).then(a=>{ if (a) { for (let s = 0; s < e; ++s) (l=>{ this.initDynamicTexture(l, t, r), this.initDynamicShaders(l).then(()=>{ this._updatePanoShaderInput(l) } ) } )(s); n(!0) } else o(new XMaterialError(`[Engine] DynamicRoomSize (${e}) is too small`)) } ) } ).catch(n=>log$v.error(`[Engine] ${n}`))); E(this, "_initDefaultShader", ()=>{ this._defaultShader == null && (this._defaultShader = new GridMaterial("GridShader",this.scene), this._defaultShader.gridRatio = 50, this._defaultShader.lineColor = new Color3(0,0,.5), this._defaultShader.majorUnitFrequency = 1, this._defaultShader.mainColor = new Color3(.6,.6,.6), this._defaultShader.backFaceCulling = !1) } ); E(this, "_initPureVideoShader", ()=>{ if (this._lowModelShader == null) { const e = new ShaderMaterial("PureVideoShader",this.scene,{ vertexSource: pureVideoVertex, fragmentSource: pureVideoFragment },{ attributes: ["uv", "position", "world0", "world1", "world2", "world3"], uniforms: ["view", "projection", "worldViewProjection", "world"], defines: ["#define SHADOWFULLFLOAT"] }); e.setTexture("shadowSampler", null), e.setMatrix("lightSpaceMatrix", null), e.setFloat("haveShadowLight", 0), e.setTexture("texture_video", null), e.setFloat("isYUV", this._inputYUV420 ? 1 : 0), e.setFloat("fireworkLight", 0), e.setVector3("fireworkLightPosition", new Vector3(0,0,0)), e.setVector3("focal_width_height", new Vector3(772.022491,720,1280)), e.backFaceCulling = !1, this._lowModelShader = e } } ); E(this, "setDynamicSize", e=>new Promise((t,r)=>{ e >= 1 && e <= 100 ? (this._dynamic_size = e, t(!0)) : (this._dynamic_size = 1, t(!1)) } )); E(this, "_isInDynamicRange", e=>e < this._dynamic_size && e >= 0); E(this, "initDynamicTexture", (e,t,r)=>{ this._isInDynamicRange(e) && (this._dynamic_textures[e] != null && (this._dynamic_textures[e].dispose(), this._dynamic_textures[e] = null), this._dynamic_textures[e] = new RawTexture(null,t,r * 1.5,Engine.TEXTUREFORMAT_LUMINANCE,this.scene,!1,!0,Texture.NEAREST_SAMPLINGMODE,Engine.TEXTURETYPE_UNSIGNED_BYTE), this._dynamic_textures[e].name = "Pano_Dynamic_" + e + "_" + Date.now()) } ); E(this, "initDynamicShaders", e=>(log$v.info("[Engine] Material init dynamic shader."), new Promise((t,r)=>{ this._dynamic_shaders[e] != null && this._dynamic_shaders[e].dispose(); const n = new ShaderMaterial("Pano_Shader_" + e,this.scene,{ vertexSource: panoVertex, fragmentSource: panoFragment },{ attributes: ["uv", "position", "world0", "world1", "world2", "world3"], uniforms: ["view", "projection", "worldViewProjection", "world"], defines: ["#define SHADOWFULLFLOAT"] }); n.setTexture("texture_pano", null), n.setVector3("centre_pose", new Vector3(0,0,0)), n.setFloat("isYUV", this._inputPanoYUV420 ? 1 : 0), n.setTexture("shadowSampler", null), n.setMatrix("lightSpaceMatrix", null), n.setFloat("haveShadowLight", 0), n.setFloat("fireworkLight", 0), n.setVector3("fireworkLightPosition", new Vector3(0,0,0)), n.backFaceCulling = !1, this._dynamic_shaders[e] = n, t(!0) } ))); this._scenemanager = e, this.scene = e.Scene, this.engine = this.scene.getEngine(), this.shaderMode = 1, this._dynamic_textures = [], this._dynamic_shaders = [], this._dynamic_babylonpose = [], this._videoRawYUVTexArray = new XVideoRawYUV(this.scene,t.videoResOriArray), this.shaderMode = t.shaderMode, t.yuvInfo != null && (this.yuvInfo = t.yuvInfo), t.panoInfo != null && this.setPanoInfo(t.panoInfo) } stopYUVUpdate() { this._isUpdateYUV = !1 } allowYUVUpdate() { this._isUpdateYUV = !0 } setPanoInfo(e) { this._panoInfo = e } _prepareRender(e) { e && (this._initPureVideoContent(e), this._updatePureVideoShaderInput()) } getPureVideoShader() { return this._lowModelShader } getDefaultShader() { return this._defaultShader } updatePanoPartYUV(e, t, r) { const n = t.subarray(0, r.width * r.height) , o = t.subarray(r.width * r.height, r.width * r.height * 1.25) , a = t.subarray(r.width * r.height * 1.25) , s = this._panoInfo.width , l = this._panoInfo.height; if (this._dynamic_textures[e] != null) { const u = this._dynamic_textures[e].getInternalTexture(); if (u != null && u != null) { const c = this.engine._getTextureTarget(u); this.engine._bindTextureDirectly(c, u, !0), this.engine.updateTextureData(u, n, r.startX, l * 1.5 - r.startY - r.height, r.width, r.height), this.engine.updateTextureData(u, o, r.startX * .5, (l - r.startY - r.height) * .5, r.width * .5 - 1, r.height * .5 - 1), this.engine.updateTextureData(u, a, r.startX * .5 + s * .5, (l - r.startY - r.height) * .5, r.width * .5, r.height * .5), this.engine._bindTextureDirectly(c, null) } } } changePanoImg(e, t) { if (log$v.info(`[Engine] changePanoImg, id=${e}, pose=${t.pose.position.x},${t.pose.position.y},${t.pose.position.z}`), !this._isInDynamicRange(e)) return log$v.error(`[Engine] ${e} is bigger than dynamic size set in PanoInfo`), Promise.reject(new XMaterialError(`[Engine] ${e} is bigger than dynamic size set in PanoInfo`)); const r = ue4Position2Xverse(t.pose.position); return r && (this._dynamic_babylonpose[e] = { position: r }), new Promise((n,o)=>{ try { typeof t.data == "string" ? (this.setPanoYUV420(!1), this._dynamic_textures[e].updateURL(t.data, null, ()=>{ this._dynamic_textures[e].updateSamplingMode(Texture.NEAREST_SAMPLINGMODE) } )) : (this.isPanoYUV420() == !1 && this.initDynamicTexture(e, this._panoInfo.width, this._panoInfo.height), this.setPanoYUV420(!0), this._dynamic_textures[e].update(t.data), this._dynamic_textures[e].updateSamplingMode(Texture.NEAREST_SAMPLINGMODE)), n(this) } catch (a) { o(new XMaterialError(`[Engine] ChangePanoImg Error! ${a}`)) } } ).then(n=>(t.fov != null && this._scenemanager.cameraComponent.changeCameraFov(t.fov * Math.PI / 180), this._dynamic_shaders[e].setFloat("isYUV", this._inputPanoYUV420 ? 1 : 0), this._dynamic_shaders[e].setTexture("texture_pano", this._dynamic_textures[e]), this._dynamic_shaders[e].setVector3("centre_pose", this._dynamic_babylonpose[e].position), !0)) } setYUV420(e) { this._inputYUV420 = e } isYUV420() { return this._inputYUV420 } setPanoYUV420(e) { this._inputPanoYUV420 = e } isPanoYUV420() { return this._inputPanoYUV420 } getDynamicShader(e) { return this._dynamic_shaders[e] } _updatePureVideoShaderInput() { var e, t, r, n, o, a, s, l, u, c; if (this.scene.getLightByName("AvatarLight") ? ((e = this._lowModelShader) == null || e.setFloat("haveShadowLight", 1), (n = this._lowModelShader) == null || n.setTexture("shadowSampler", (r = (t = this.scene.getLightByName("AvatarLight")) == null ? void 0 : t.getShadowGenerator()) == null ? void 0 : r.getShadowMapForRendering()), (s = this._lowModelShader) == null || s.setMatrix("lightSpaceMatrix", (a = (o = this.scene.getLightByName("AvatarLight")) == null ? void 0 : o.getShadowGenerator()) == null ? void 0 : a.getTransformMatrix())) : ((l = this._lowModelShader) == null || l.setTexture("shadowSampler", this._videoTexture), (u = this._lowModelShader) == null || u.setMatrix("lightSpaceMatrix", new Matrix), (c = this._lowModelShader) == null || c.setFloat("haveShadowLight", 0)), this.scene.getLightByName("fireworkLight")) this.scene.registerBeforeRender(()=>{ var h; this._lowModelShader.setFloat("fireworkLight", this.scene.getLightByName("fireworkLight").getScaledIntensity()), this._lowModelShader.setVector3("fireworkLightPosition", (h = this.scene.getLightByName("fireworkLight")) == null ? void 0 : h.position) } ); else { const h = new PointLight("fireworkLight",new Vector3(0,0,0),this.scene); h.intensity = 0 } } _updatePanoShaderInput(e) { var t, r, n, o, a, s, l, u, c, h; if (this._isInDynamicRange(e)) if (this.scene.getLightByName("AvatarLight") ? ((t = this._dynamic_shaders[e]) == null || t.setFloat("haveShadowLight", 1), (o = this._dynamic_shaders[e]) == null || o.setTexture("shadowSampler", (n = (r = this.scene.getLightByName("AvatarLight")) == null ? void 0 : r.getShadowGenerator()) == null ? void 0 : n.getShadowMapForRendering()), (l = this._dynamic_shaders[e]) == null || l.setMatrix("lightSpaceMatrix", (s = (a = this.scene.getLightByName("AvatarLight")) == null ? void 0 : a.getShadowGenerator()) == null ? void 0 : s.getTransformMatrix())) : ((u = this._dynamic_shaders[e]) == null || u.setTexture("shadowSampler", null), (c = this._dynamic_shaders[e]) == null || c.setMatrix("lightSpaceMatrix", new Matrix), (h = this._dynamic_shaders[e]) == null || h.setFloat("haveShadowLight", 0)), this.scene.getLightByName("fireworkLight")) this.scene.registerBeforeRender(()=>{ var f; this._dynamic_shaders[e].setFloat("fireworkLight", this.scene.getLightByName("fireworkLight").getScaledIntensity()), this._dynamic_shaders[e].setVector3("fireworkLightPosition", (f = this.scene.getLightByName("fireworkLight")) == null ? void 0 : f.position) } ); else { const f = new PointLight("fireworkLight",new Vector3(0,0,0),this.scene); f.intensity = 0 } } }