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tslib */ "../../node_modules/tslib/tslib.es6.js"); /* harmony import */ var _glTFLoader__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(/*! ./glTFLoader */ "./glTF/1.0/glTFLoader.ts"); /* harmony import */ var _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(/*! ./glTFLoaderUtils */ "./glTF/1.0/glTFLoaderUtils.ts"); /* harmony import */ var _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(/*! ./glTFLoaderInterfaces */ "./glTF/1.0/glTFLoaderInterfaces.ts"); var BinaryExtensionBufferName = "binary_glTF"; /** @hidden */ var GLTFBinaryExtension = /** @class */ (function (_super) { tslib__WEBPACK_IMPORTED_MODULE_0__["__extends"](GLTFBinaryExtension, _super); function GLTFBinaryExtension() { return _super.call(this, "KHR_binary_glTF") || this; } GLTFBinaryExtension.prototype.loadRuntimeAsync = function (scene, data, rootUrl, onSuccess, onError) { var extensionsUsed = data.json.extensionsUsed; if (!extensionsUsed || extensionsUsed.indexOf(this.name) === -1 || !data.bin) { return false; } this._bin = data.bin; onSuccess(_glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoaderBase"].CreateRuntime(data.json, scene, rootUrl)); return true; }; GLTFBinaryExtension.prototype.loadBufferAsync = function (gltfRuntime, id, onSuccess, onError) { if (gltfRuntime.extensionsUsed.indexOf(this.name) === -1) { return false; } if (id !== BinaryExtensionBufferName) { return false; } onSuccess(this._bin); return true; }; GLTFBinaryExtension.prototype.loadTextureBufferAsync = function (gltfRuntime, id, onSuccess, onError) { var texture = gltfRuntime.textures[id]; var source = gltfRuntime.images[texture.source]; if (!source.extensions || !(this.name in source.extensions)) { return false; } var sourceExt = source.extensions[this.name]; var bufferView = gltfRuntime.bufferViews[sourceExt.bufferView]; var buffer = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetBufferFromBufferView(gltfRuntime, bufferView, 0, bufferView.byteLength, _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_3__["EComponentType"].UNSIGNED_BYTE); onSuccess(buffer); return true; }; GLTFBinaryExtension.prototype.loadShaderStringAsync = function (gltfRuntime, id, onSuccess, onError) { var shader = gltfRuntime.shaders[id]; if (!shader.extensions || !(this.name in shader.extensions)) { return false; } var binaryExtensionShader = shader.extensions[this.name]; var bufferView = gltfRuntime.bufferViews[binaryExtensionShader.bufferView]; var shaderBytes = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetBufferFromBufferView(gltfRuntime, bufferView, 0, bufferView.byteLength, _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_3__["EComponentType"].UNSIGNED_BYTE); setTimeout(function () { var shaderString = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].DecodeBufferToText(shaderBytes); onSuccess(shaderString); }); return true; }; return GLTFBinaryExtension; }(_glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoaderExtension"])); _glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoader"].RegisterExtension(new GLTFBinaryExtension()); /***/ }), /***/ "./glTF/1.0/glTFLoader.ts": /*!********************************!*\ !*** ./glTF/1.0/glTFLoader.ts ***! \********************************/ /*! exports provided: GLTFLoaderBase, GLTFLoader, GLTFLoaderExtension */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderBase", function() { return GLTFLoaderBase; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFLoader", function() { return GLTFLoader; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderExtension", function() { return GLTFLoaderExtension; }); /* harmony import */ var _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(/*! ./glTFLoaderInterfaces */ "./glTF/1.0/glTFLoaderInterfaces.ts"); /* harmony import */ var babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(/*! babylonjs/Maths/math */ "babylonjs/Misc/observable"); /* harmony import */ var babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1___default = /*#__PURE__*/__webpack_require__.n(babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__); /* harmony import */ var _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(/*! ./glTFLoaderUtils */ "./glTF/1.0/glTFLoaderUtils.ts"); /* harmony import */ var _glTFFileLoader__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(/*! ../glTFFileLoader */ "./glTF/glTFFileLoader.ts"); /** * Tokenizer. Used for shaders compatibility * Automatically map world, view, projection, worldViewProjection, attributes and so on */ var ETokenType; (function (ETokenType) { ETokenType[ETokenType["IDENTIFIER"] = 1] = "IDENTIFIER"; ETokenType[ETokenType["UNKNOWN"] = 2] = "UNKNOWN"; ETokenType[ETokenType["END_OF_INPUT"] = 3] = "END_OF_INPUT"; })(ETokenType || (ETokenType = {})); var Tokenizer = /** @class */ (function () { function Tokenizer(toParse) { this._pos = 0; this.currentToken = ETokenType.UNKNOWN; this.currentIdentifier = ""; this.currentString = ""; this.isLetterOrDigitPattern = /^[a-zA-Z0-9]+$/; this._toParse = toParse; this._maxPos = toParse.length; } Tokenizer.prototype.getNextToken = function () { if (this.isEnd()) { return ETokenType.END_OF_INPUT; } this.currentString = this.read(); this.currentToken = ETokenType.UNKNOWN; if (this.currentString === "_" || this.isLetterOrDigitPattern.test(this.currentString)) { this.currentToken = ETokenType.IDENTIFIER; this.currentIdentifier = this.currentString; while (!this.isEnd() && (this.isLetterOrDigitPattern.test(this.currentString = this.peek()) || this.currentString === "_")) { this.currentIdentifier += this.currentString; this.forward(); } } return this.currentToken; }; Tokenizer.prototype.peek = function () { return this._toParse[this._pos]; }; Tokenizer.prototype.read = function () { return this._toParse[this._pos++]; }; Tokenizer.prototype.forward = function () { this._pos++; }; Tokenizer.prototype.isEnd = function () { return this._pos >= this._maxPos; }; return Tokenizer; }()); /** * Values */ var glTFTransforms = ["MODEL", "VIEW", "PROJECTION", "MODELVIEW", "MODELVIEWPROJECTION", "JOINTMATRIX"]; var babylonTransforms = ["world", "view", "projection", "worldView", "worldViewProjection", "mBones"]; var glTFAnimationPaths = ["translation", "rotation", "scale"]; var babylonAnimationPaths = ["position", "rotationQuaternion", "scaling"]; /** * Parse */ var parseBuffers = function (parsedBuffers, gltfRuntime) { for (var buf in parsedBuffers) { var parsedBuffer = parsedBuffers[buf]; gltfRuntime.buffers[buf] = parsedBuffer; gltfRuntime.buffersCount++; } }; var parseShaders = function (parsedShaders, gltfRuntime) { for (var sha in parsedShaders) { var parsedShader = parsedShaders[sha]; gltfRuntime.shaders[sha] = parsedShader; gltfRuntime.shaderscount++; } }; var parseObject = function (parsedObjects, runtimeProperty, gltfRuntime) { for (var object in parsedObjects) { var parsedObject = parsedObjects[object]; gltfRuntime[runtimeProperty][object] = parsedObject; } }; /** * Utils */ var normalizeUVs = function (buffer) { if (!buffer) { return; } for (var i = 0; i < buffer.length / 2; i++) { buffer[i * 2 + 1] = 1.0 - buffer[i * 2 + 1]; } }; var getAttribute = function (attributeParameter) { if (attributeParameter.semantic === "NORMAL") { return "normal"; } else if (attributeParameter.semantic === "POSITION") { return "position"; } else if (attributeParameter.semantic === "JOINT") { return "matricesIndices"; } else if (attributeParameter.semantic === "WEIGHT") { return "matricesWeights"; } else if (attributeParameter.semantic === "COLOR") { return "color"; } else if (attributeParameter.semantic && attributeParameter.semantic.indexOf("TEXCOORD_") !== -1) { var channel = Number(attributeParameter.semantic.split("_")[1]); return "uv" + (channel === 0 ? "" : channel + 1); } return null; }; /** * Loads and creates animations */ var loadAnimations = function (gltfRuntime) { for (var anim in gltfRuntime.animations) { var animation = gltfRuntime.animations[anim]; if (!animation.channels || !animation.samplers) { continue; } var lastAnimation = null; for (var i = 0; i < animation.channels.length; i++) { // Get parameters and load buffers var channel = animation.channels[i]; var sampler = animation.samplers[channel.sampler]; if (!sampler) { continue; } var inputData = null; var outputData = null; if (animation.parameters) { inputData = animation.parameters[sampler.input]; outputData = animation.parameters[sampler.output]; } else { inputData = sampler.input; outputData = sampler.output; } var bufferInput = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetBufferFromAccessor(gltfRuntime, gltfRuntime.accessors[inputData]); var bufferOutput = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetBufferFromAccessor(gltfRuntime, gltfRuntime.accessors[outputData]); var targetID = channel.target.id; var targetNode = gltfRuntime.scene.getNodeByID(targetID); if (targetNode === null) { targetNode = gltfRuntime.scene.getNodeByName(targetID); } if (targetNode === null) { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Warn("Creating animation named " + anim + ". But cannot find node named " + targetID + " to attach to"); continue; } var isBone = targetNode instanceof babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Bone"]; // Get target path (position, rotation or scaling) var targetPath = channel.target.path; var targetPathIndex = glTFAnimationPaths.indexOf(targetPath); if (targetPathIndex !== -1) { targetPath = babylonAnimationPaths[targetPathIndex]; } // Determine animation type var animationType = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Animation"].ANIMATIONTYPE_MATRIX; if (!isBone) { if (targetPath === "rotationQuaternion") { animationType = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Animation"].ANIMATIONTYPE_QUATERNION; targetNode.rotationQuaternion = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Quaternion"](); } else { animationType = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Animation"].ANIMATIONTYPE_VECTOR3; } } // Create animation and key frames var babylonAnimation = null; var keys = []; var arrayOffset = 0; var modifyKey = false; if (isBone && lastAnimation && lastAnimation.getKeys().length === bufferInput.length) { babylonAnimation = lastAnimation; modifyKey = true; } if (!modifyKey) { babylonAnimation = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Animation"](anim, isBone ? "_matrix" : targetPath, 1, animationType, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Animation"].ANIMATIONLOOPMODE_CYCLE); } // For each frame for (var j = 0; j < bufferInput.length; j++) { var value = null; if (targetPath === "rotationQuaternion") { // VEC4 value = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Quaternion"].FromArray([bufferOutput[arrayOffset], bufferOutput[arrayOffset + 1], bufferOutput[arrayOffset + 2], bufferOutput[arrayOffset + 3]]); arrayOffset += 4; } else { // Position and scaling are VEC3 value = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].FromArray([bufferOutput[arrayOffset], bufferOutput[arrayOffset + 1], bufferOutput[arrayOffset + 2]]); arrayOffset += 3; } if (isBone) { var bone = targetNode; var translation = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(); var rotationQuaternion = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Quaternion"](); var scaling = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(); // Warning on decompose var mat = bone.getBaseMatrix(); if (modifyKey && lastAnimation) { mat = lastAnimation.getKeys()[j].value; } mat.decompose(scaling, rotationQuaternion, translation); if (targetPath === "position") { translation = value; } else if (targetPath === "rotationQuaternion") { rotationQuaternion = value; } else { scaling = value; } value = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Matrix"].Compose(scaling, rotationQuaternion, translation); } if (!modifyKey) { keys.push({ frame: bufferInput[j], value: value }); } else if (lastAnimation) { lastAnimation.getKeys()[j].value = value; } } // Finish if (!modifyKey && babylonAnimation) { babylonAnimation.setKeys(keys); targetNode.animations.push(babylonAnimation); } lastAnimation = babylonAnimation; gltfRuntime.scene.stopAnimation(targetNode); gltfRuntime.scene.beginAnimation(targetNode, 0, bufferInput[bufferInput.length - 1], true, 1.0); } } }; /** * Returns the bones transformation matrix */ var configureBoneTransformation = function (node) { var mat = null; if (node.translation || node.rotation || node.scale) { var scale = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].FromArray(node.scale || [1, 1, 1]); var rotation = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Quaternion"].FromArray(node.rotation || [0, 0, 0, 1]); var position = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].FromArray(node.translation || [0, 0, 0]); mat = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Matrix"].Compose(scale, rotation, position); } else { mat = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Matrix"].FromArray(node.matrix); } return mat; }; /** * Returns the parent bone */ var getParentBone = function (gltfRuntime, skins, jointName, newSkeleton) { // Try to find for (var i = 0; i < newSkeleton.bones.length; i++) { if (newSkeleton.bones[i].name === jointName) { return newSkeleton.bones[i]; } } // Not found, search in gltf nodes var nodes = gltfRuntime.nodes; for (var nde in nodes) { var node = nodes[nde]; if (!node.jointName) { continue; } var children = node.children; for (var i = 0; i < children.length; i++) { var child = gltfRuntime.nodes[children[i]]; if (!child.jointName) { continue; } if (child.jointName === jointName) { var mat = configureBoneTransformation(node); var bone = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Bone"](node.name || "", newSkeleton, getParentBone(gltfRuntime, skins, node.jointName, newSkeleton), mat); bone.id = nde; return bone; } } } return null; }; /** * Returns the appropriate root node */ var getNodeToRoot = function (nodesToRoot, id) { for (var i = 0; i < nodesToRoot.length; i++) { var nodeToRoot = nodesToRoot[i]; for (var j = 0; j < nodeToRoot.node.children.length; j++) { var child = nodeToRoot.node.children[j]; if (child === id) { return nodeToRoot.bone; } } } return null; }; /** * Returns the node with the joint name */ var getJointNode = function (gltfRuntime, jointName) { var nodes = gltfRuntime.nodes; var node = nodes[jointName]; if (node) { return { node: node, id: jointName }; } for (var nde in nodes) { node = nodes[nde]; if (node.jointName === jointName) { return { node: node, id: nde }; } } return null; }; /** * Checks if a nodes is in joints */ var nodeIsInJoints = function (skins, id) { for (var i = 0; i < skins.jointNames.length; i++) { if (skins.jointNames[i] === id) { return true; } } return false; }; /** * Fills the nodes to root for bones and builds hierarchy */ var getNodesToRoot = function (gltfRuntime, newSkeleton, skins, nodesToRoot) { // Creates nodes for root for (var nde in gltfRuntime.nodes) { var node = gltfRuntime.nodes[nde]; var id = nde; if (!node.jointName || nodeIsInJoints(skins, node.jointName)) { continue; } // Create node to root bone var mat = configureBoneTransformation(node); var bone = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Bone"](node.name || "", newSkeleton, null, mat); bone.id = id; nodesToRoot.push({ bone: bone, node: node, id: id }); } // Parenting for (var i = 0; i < nodesToRoot.length; i++) { var nodeToRoot = nodesToRoot[i]; var children = nodeToRoot.node.children; for (var j = 0; j < children.length; j++) { var child = null; for (var k = 0; k < nodesToRoot.length; k++) { if (nodesToRoot[k].id === children[j]) { child = nodesToRoot[k]; break; } } if (child) { child.bone._parent = nodeToRoot.bone; nodeToRoot.bone.children.push(child.bone); } } } }; /** * Imports a skeleton */ var importSkeleton = function (gltfRuntime, skins, mesh, newSkeleton, id) { if (!newSkeleton) { newSkeleton = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Skeleton"](skins.name || "", "", gltfRuntime.scene); } if (!skins.babylonSkeleton) { return newSkeleton; } // Find the root bones var nodesToRoot = []; var nodesToRootToAdd = []; getNodesToRoot(gltfRuntime, newSkeleton, skins, nodesToRoot); newSkeleton.bones = []; // Joints for (var i = 0; i < skins.jointNames.length; i++) { var jointNode = getJointNode(gltfRuntime, skins.jointNames[i]); if (!jointNode) { continue; } var node = jointNode.node; if (!node) { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Warn("Joint named " + skins.jointNames[i] + " does not exist"); continue; } var id = jointNode.id; // Optimize, if the bone already exists... var existingBone = gltfRuntime.scene.getBoneByID(id); if (existingBone) { newSkeleton.bones.push(existingBone); continue; } // Search for parent bone var foundBone = false; var parentBone = null; for (var j = 0; j < i; j++) { var jointNode_1 = getJointNode(gltfRuntime, skins.jointNames[j]); if (!jointNode_1) { continue; } var joint = jointNode_1.node; if (!joint) { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Warn("Joint named " + skins.jointNames[j] + " does not exist when looking for parent"); continue; } var children = joint.children; if (!children) { continue; } foundBone = false; for (var k = 0; k < children.length; k++) { if (children[k] === id) { parentBone = getParentBone(gltfRuntime, skins, skins.jointNames[j], newSkeleton); foundBone = true; break; } } if (foundBone) { break; } } // Create bone var mat = configureBoneTransformation(node); if (!parentBone && nodesToRoot.length > 0) { parentBone = getNodeToRoot(nodesToRoot, id); if (parentBone) { if (nodesToRootToAdd.indexOf(parentBone) === -1) { nodesToRootToAdd.push(parentBone); } } } var bone = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Bone"](node.jointName || "", newSkeleton, parentBone, mat); bone.id = id; } // Polish var bones = newSkeleton.bones; newSkeleton.bones = []; for (var i = 0; i < skins.jointNames.length; i++) { var jointNode = getJointNode(gltfRuntime, skins.jointNames[i]); if (!jointNode) { continue; } for (var j = 0; j < bones.length; j++) { if (bones[j].id === jointNode.id) { newSkeleton.bones.push(bones[j]); break; } } } newSkeleton.prepare(); // Finish for (var i = 0; i < nodesToRootToAdd.length; i++) { newSkeleton.bones.push(nodesToRootToAdd[i]); } return newSkeleton; }; /** * Imports a mesh and its geometries */ var importMesh = function (gltfRuntime, node, meshes, id, newMesh) { if (!newMesh) { newMesh = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Mesh"](node.name || "", gltfRuntime.scene); newMesh.id = id; } if (!node.babylonNode) { return newMesh; } var subMaterials = []; var vertexData = null; var verticesStarts = new Array(); var verticesCounts = new Array(); var indexStarts = new Array(); var indexCounts = new Array(); for (var meshIndex = 0; meshIndex < meshes.length; meshIndex++) { var meshID = meshes[meshIndex]; var mesh = gltfRuntime.meshes[meshID]; if (!mesh) { continue; } // Positions, normals and UVs for (var i = 0; i < mesh.primitives.length; i++) { // Temporary vertex data var tempVertexData = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["VertexData"](); var primitive = mesh.primitives[i]; if (primitive.mode !== 4) { // continue; } var attributes = primitive.attributes; var accessor = null; var buffer = null; // Set positions, normal and uvs for (var semantic in attributes) { // Link accessor and buffer view accessor = gltfRuntime.accessors[attributes[semantic]]; buffer = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetBufferFromAccessor(gltfRuntime, accessor); if (semantic === "NORMAL") { tempVertexData.normals = new Float32Array(buffer.length); tempVertexData.normals.set(buffer); } else if (semantic === "POSITION") { if (_glTFFileLoader__WEBPACK_IMPORTED_MODULE_3__["GLTFFileLoader"].HomogeneousCoordinates) { tempVertexData.positions = new Float32Array(buffer.length - buffer.length / 4); for (var j = 0; j < buffer.length; j += 4) { tempVertexData.positions[j] = buffer[j]; tempVertexData.positions[j + 1] = buffer[j + 1]; tempVertexData.positions[j + 2] = buffer[j + 2]; } } else { tempVertexData.positions = new Float32Array(buffer.length); tempVertexData.positions.set(buffer); } verticesCounts.push(tempVertexData.positions.length); } else if (semantic.indexOf("TEXCOORD_") !== -1) { var channel = Number(semantic.split("_")[1]); var uvKind = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["VertexBuffer"].UVKind + (channel === 0 ? "" : (channel + 1)); var uvs = new Float32Array(buffer.length); uvs.set(buffer); normalizeUVs(uvs); tempVertexData.set(uvs, uvKind); } else if (semantic === "JOINT") { tempVertexData.matricesIndices = new Float32Array(buffer.length); tempVertexData.matricesIndices.set(buffer); } else if (semantic === "WEIGHT") { tempVertexData.matricesWeights = new Float32Array(buffer.length); tempVertexData.matricesWeights.set(buffer); } else if (semantic === "COLOR") { tempVertexData.colors = new Float32Array(buffer.length); tempVertexData.colors.set(buffer); } } // Indices accessor = gltfRuntime.accessors[primitive.indices]; if (accessor) { buffer = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetBufferFromAccessor(gltfRuntime, accessor); tempVertexData.indices = new Int32Array(buffer.length); tempVertexData.indices.set(buffer); indexCounts.push(tempVertexData.indices.length); } else { // Set indices on the fly var indices = []; for (var j = 0; j < tempVertexData.positions.length / 3; j++) { indices.push(j); } tempVertexData.indices = new Int32Array(indices); indexCounts.push(tempVertexData.indices.length); } if (!vertexData) { vertexData = tempVertexData; } else { vertexData.merge(tempVertexData); } // Sub material var material_1 = gltfRuntime.scene.getMaterialByID(primitive.material); subMaterials.push(material_1 === null ? _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetDefaultMaterial(gltfRuntime.scene) : material_1); // Update vertices start and index start verticesStarts.push(verticesStarts.length === 0 ? 0 : verticesStarts[verticesStarts.length - 1] + verticesCounts[verticesCounts.length - 2]); indexStarts.push(indexStarts.length === 0 ? 0 : indexStarts[indexStarts.length - 1] + indexCounts[indexCounts.length - 2]); } } var material; if (subMaterials.length > 1) { material = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["MultiMaterial"]("multimat" + id, gltfRuntime.scene); material.subMaterials = subMaterials; } else { material = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["StandardMaterial"]("multimat" + id, gltfRuntime.scene); } if (subMaterials.length === 1) { material = subMaterials[0]; } if (!newMesh.material) { newMesh.material = material; } // Apply geometry new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Geometry"](id, gltfRuntime.scene, vertexData, false, newMesh); newMesh.computeWorldMatrix(true); // Apply submeshes newMesh.subMeshes = []; var index = 0; for (var meshIndex = 0; meshIndex < meshes.length; meshIndex++) { var meshID = meshes[meshIndex]; var mesh = gltfRuntime.meshes[meshID]; if (!mesh) { continue; } for (var i = 0; i < mesh.primitives.length; i++) { if (mesh.primitives[i].mode !== 4) { //continue; } babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["SubMesh"].AddToMesh(index, verticesStarts[index], verticesCounts[index], indexStarts[index], indexCounts[index], newMesh, newMesh, true); index++; } } // Finish return newMesh; }; /** * Configure node transformation from position, rotation and scaling */ var configureNode = function (newNode, position, rotation, scaling) { if (newNode.position) { newNode.position = position; } if (newNode.rotationQuaternion || newNode.rotation) { newNode.rotationQuaternion = rotation; } if (newNode.scaling) { newNode.scaling = scaling; } }; /** * Configures node from transformation matrix */ var configureNodeFromMatrix = function (newNode, node, parent) { if (node.matrix) { var position = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"](0, 0, 0); var rotation = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Quaternion"](); var scaling = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"](0, 0, 0); var mat = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Matrix"].FromArray(node.matrix); mat.decompose(scaling, rotation, position); configureNode(newNode, position, rotation, scaling); } else if (node.translation && node.rotation && node.scale) { configureNode(newNode, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].FromArray(node.translation), babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Quaternion"].FromArray(node.rotation), babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].FromArray(node.scale)); } newNode.computeWorldMatrix(true); }; /** * Imports a node */ var importNode = function (gltfRuntime, node, id, parent) { var lastNode = null; if (gltfRuntime.importOnlyMeshes && (node.skin || node.meshes)) { if (gltfRuntime.importMeshesNames && gltfRuntime.importMeshesNames.length > 0 && gltfRuntime.importMeshesNames.indexOf(node.name || "") === -1) { return null; } } // Meshes if (node.skin) { if (node.meshes) { var skin = gltfRuntime.skins[node.skin]; var newMesh = importMesh(gltfRuntime, node, node.meshes, id, node.babylonNode); newMesh.skeleton = gltfRuntime.scene.getLastSkeletonByID(node.skin); if (newMesh.skeleton === null) { newMesh.skeleton = importSkeleton(gltfRuntime, skin, newMesh, skin.babylonSkeleton, node.skin); if (!skin.babylonSkeleton) { skin.babylonSkeleton = newMesh.skeleton; } } lastNode = newMesh; } } else if (node.meshes) { /** * Improve meshes property */ var newMesh = importMesh(gltfRuntime, node, node.mesh ? [node.mesh] : node.meshes, id, node.babylonNode); lastNode = newMesh; } // Lights else if (node.light && !node.babylonNode && !gltfRuntime.importOnlyMeshes) { var light = gltfRuntime.lights[node.light]; if (light) { if (light.type === "ambient") { var ambienLight = light[light.type]; var hemiLight = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["HemisphericLight"](node.light, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(), gltfRuntime.scene); hemiLight.name = node.name || ""; if (ambienLight.color) { hemiLight.diffuse = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Color3"].FromArray(ambienLight.color); } lastNode = hemiLight; } else if (light.type === "directional") { var directionalLight = light[light.type]; var dirLight = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["DirectionalLight"](node.light, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(), gltfRuntime.scene); dirLight.name = node.name || ""; if (directionalLight.color) { dirLight.diffuse = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Color3"].FromArray(directionalLight.color); } lastNode = dirLight; } else if (light.type === "point") { var pointLight = light[light.type]; var ptLight = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["PointLight"](node.light, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(), gltfRuntime.scene); ptLight.name = node.name || ""; if (pointLight.color) { ptLight.diffuse = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Color3"].FromArray(pointLight.color); } lastNode = ptLight; } else if (light.type === "spot") { var spotLight = light[light.type]; var spLight = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["SpotLight"](node.light, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(), babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(), 0, 0, gltfRuntime.scene); spLight.name = node.name || ""; if (spotLight.color) { spLight.diffuse = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Color3"].FromArray(spotLight.color); } if (spotLight.fallOfAngle) { spLight.angle = spotLight.fallOfAngle; } if (spotLight.fallOffExponent) { spLight.exponent = spotLight.fallOffExponent; } lastNode = spLight; } } } // Cameras else if (node.camera && !node.babylonNode && !gltfRuntime.importOnlyMeshes) { var camera = gltfRuntime.cameras[node.camera]; if (camera) { if (camera.type === "orthographic") { var orthoCamera = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["FreeCamera"](node.camera, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(), gltfRuntime.scene, false); orthoCamera.name = node.name || ""; orthoCamera.mode = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Camera"].ORTHOGRAPHIC_CAMERA; orthoCamera.attachControl(gltfRuntime.scene.getEngine().getRenderingCanvas()); lastNode = orthoCamera; } else if (camera.type === "perspective") { var perspectiveCamera = camera[camera.type]; var persCamera = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["FreeCamera"](node.camera, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].Zero(), gltfRuntime.scene, false); persCamera.name = node.name || ""; persCamera.attachControl(gltfRuntime.scene.getEngine().getRenderingCanvas()); if (!perspectiveCamera.aspectRatio) { perspectiveCamera.aspectRatio = gltfRuntime.scene.getEngine().getRenderWidth() / gltfRuntime.scene.getEngine().getRenderHeight(); } if (perspectiveCamera.znear && perspectiveCamera.zfar) { persCamera.maxZ = perspectiveCamera.zfar; persCamera.minZ = perspectiveCamera.znear; } lastNode = persCamera; } } } // Empty node if (!node.jointName) { if (node.babylonNode) { return node.babylonNode; } else if (lastNode === null) { var dummy = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Mesh"](node.name || "", gltfRuntime.scene); node.babylonNode = dummy; lastNode = dummy; } } if (lastNode !== null) { if (node.matrix && lastNode instanceof babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Mesh"]) { configureNodeFromMatrix(lastNode, node, parent); } else { var translation = node.translation || [0, 0, 0]; var rotation = node.rotation || [0, 0, 0, 1]; var scale = node.scale || [1, 1, 1]; configureNode(lastNode, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].FromArray(translation), babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Quaternion"].FromArray(rotation), babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].FromArray(scale)); } lastNode.updateCache(true); node.babylonNode = lastNode; } return lastNode; }; /** * Traverses nodes and creates them */ var traverseNodes = function (gltfRuntime, id, parent, meshIncluded) { if (meshIncluded === void 0) { meshIncluded = false; } var node = gltfRuntime.nodes[id]; var newNode = null; if (gltfRuntime.importOnlyMeshes && !meshIncluded && gltfRuntime.importMeshesNames) { if (gltfRuntime.importMeshesNames.indexOf(node.name || "") !== -1 || gltfRuntime.importMeshesNames.length === 0) { meshIncluded = true; } else { meshIncluded = false; } } else { meshIncluded = true; } if (!node.jointName && meshIncluded) { newNode = importNode(gltfRuntime, node, id, parent); if (newNode !== null) { newNode.id = id; newNode.parent = parent; } } if (node.children) { for (var i = 0; i < node.children.length; i++) { traverseNodes(gltfRuntime, node.children[i], newNode, meshIncluded); } } }; /** * do stuff after buffers, shaders are loaded (e.g. hook up materials, load animations, etc.) */ var postLoad = function (gltfRuntime) { // Nodes var currentScene = gltfRuntime.currentScene; if (currentScene) { for (var i = 0; i < currentScene.nodes.length; i++) { traverseNodes(gltfRuntime, currentScene.nodes[i], null); } } else { for (var thing in gltfRuntime.scenes) { currentScene = gltfRuntime.scenes[thing]; for (var i = 0; i < currentScene.nodes.length; i++) { traverseNodes(gltfRuntime, currentScene.nodes[i], null); } } } // Set animations loadAnimations(gltfRuntime); for (var i = 0; i < gltfRuntime.scene.skeletons.length; i++) { var skeleton = gltfRuntime.scene.skeletons[i]; gltfRuntime.scene.beginAnimation(skeleton, 0, Number.MAX_VALUE, true, 1.0); } }; /** * onBind shaderrs callback to set uniforms and matrices */ var onBindShaderMaterial = function (mesh, gltfRuntime, unTreatedUniforms, shaderMaterial, technique, material, onSuccess) { var materialValues = material.values || technique.parameters; for (var unif in unTreatedUniforms) { var uniform = unTreatedUniforms[unif]; var type = uniform.type; if (type === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_MAT2 || type === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_MAT3 || type === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_MAT4) { if (uniform.semantic && !uniform.source && !uniform.node) { _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].SetMatrix(gltfRuntime.scene, mesh, uniform, unif, shaderMaterial.getEffect()); } else if (uniform.semantic && (uniform.source || uniform.node)) { var source = gltfRuntime.scene.getNodeByName(uniform.source || uniform.node || ""); if (source === null) { source = gltfRuntime.scene.getNodeByID(uniform.source || uniform.node || ""); } if (source === null) { continue; } _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].SetMatrix(gltfRuntime.scene, source, uniform, unif, shaderMaterial.getEffect()); } } else { var value = materialValues[technique.uniforms[unif]]; if (!value) { continue; } if (type === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].SAMPLER_2D) { var texture = gltfRuntime.textures[material.values ? value : uniform.value].babylonTexture; if (texture === null || texture === undefined) { continue; } shaderMaterial.getEffect().setTexture(unif, texture); } else { _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].SetUniform((shaderMaterial.getEffect()), unif, value, type); } } } onSuccess(shaderMaterial); }; /** * Prepare uniforms to send the only one time * Loads the appropriate textures */ var prepareShaderMaterialUniforms = function (gltfRuntime, shaderMaterial, technique, material, unTreatedUniforms) { var materialValues = material.values || technique.parameters; var techniqueUniforms = technique.uniforms; /** * Prepare values here (not matrices) */ for (var unif in unTreatedUniforms) { var uniform = unTreatedUniforms[unif]; var type = uniform.type; var value = materialValues[techniqueUniforms[unif]]; if (value === undefined) { // In case the value is the same for all materials value = uniform.value; } if (!value) { continue; } var onLoadTexture = function (uniformName) { return function (texture) { if (uniform.value && uniformName) { // Static uniform shaderMaterial.setTexture(uniformName, texture); delete unTreatedUniforms[uniformName]; } }; }; // Texture (sampler2D) if (type === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].SAMPLER_2D) { GLTFLoaderExtension.LoadTextureAsync(gltfRuntime, material.values ? value : uniform.value, onLoadTexture(unif), function () { return onLoadTexture(null); }); } // Others else { if (uniform.value && _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].SetUniform(shaderMaterial, unif, material.values ? value : uniform.value, type)) { // Static uniform delete unTreatedUniforms[unif]; } } } }; /** * Shader compilation failed */ var onShaderCompileError = function (program, shaderMaterial, onError) { return function (effect, error) { shaderMaterial.dispose(true); onError("Cannot compile program named " + program.name + ". Error: " + error + ". Default material will be applied"); }; }; /** * Shader compilation success */ var onShaderCompileSuccess = function (gltfRuntime, shaderMaterial, technique, material, unTreatedUniforms, onSuccess) { return function (_) { prepareShaderMaterialUniforms(gltfRuntime, shaderMaterial, technique, material, unTreatedUniforms); shaderMaterial.onBind = function (mesh) { onBindShaderMaterial(mesh, gltfRuntime, unTreatedUniforms, shaderMaterial, technique, material, onSuccess); }; }; }; /** * Returns the appropriate uniform if already handled by babylon */ var parseShaderUniforms = function (tokenizer, technique, unTreatedUniforms) { for (var unif in technique.uniforms) { var uniform = technique.uniforms[unif]; var uniformParameter = technique.parameters[uniform]; if (tokenizer.currentIdentifier === unif) { if (uniformParameter.semantic && !uniformParameter.source && !uniformParameter.node) { var transformIndex = glTFTransforms.indexOf(uniformParameter.semantic); if (transformIndex !== -1) { delete unTreatedUniforms[unif]; return babylonTransforms[transformIndex]; } } } } return tokenizer.currentIdentifier; }; /** * All shaders loaded. Create materials one by one */ var importMaterials = function (gltfRuntime) { // Create materials for (var mat in gltfRuntime.materials) { GLTFLoaderExtension.LoadMaterialAsync(gltfRuntime, mat, function (material) { }, function () { }); } }; /** * Implementation of the base glTF spec * @hidden */ var GLTFLoaderBase = /** @class */ (function () { function GLTFLoaderBase() { } GLTFLoaderBase.CreateRuntime = function (parsedData, scene, rootUrl) { var gltfRuntime = { extensions: {}, accessors: {}, buffers: {}, bufferViews: {}, meshes: {}, lights: {}, cameras: {}, nodes: {}, images: {}, textures: {}, shaders: {}, programs: {}, samplers: {}, techniques: {}, materials: {}, animations: {}, skins: {}, extensionsUsed: [], scenes: {}, buffersCount: 0, shaderscount: 0, scene: scene, rootUrl: rootUrl, loadedBufferCount: 0, loadedBufferViews: {}, loadedShaderCount: 0, importOnlyMeshes: false, dummyNodes: [] }; // Parse if (parsedData.extensions) { parseObject(parsedData.extensions, "extensions", gltfRuntime); } if (parsedData.extensionsUsed) { parseObject(parsedData.extensionsUsed, "extensionsUsed", gltfRuntime); } if (parsedData.buffers) { parseBuffers(parsedData.buffers, gltfRuntime); } if (parsedData.bufferViews) { parseObject(parsedData.bufferViews, "bufferViews", gltfRuntime); } if (parsedData.accessors) { parseObject(parsedData.accessors, "accessors", gltfRuntime); } if (parsedData.meshes) { parseObject(parsedData.meshes, "meshes", gltfRuntime); } if (parsedData.lights) { parseObject(parsedData.lights, "lights", gltfRuntime); } if (parsedData.cameras) { parseObject(parsedData.cameras, "cameras", gltfRuntime); } if (parsedData.nodes) { parseObject(parsedData.nodes, "nodes", gltfRuntime); } if (parsedData.images) { parseObject(parsedData.images, "images", gltfRuntime); } if (parsedData.textures) { parseObject(parsedData.textures, "textures", gltfRuntime); } if (parsedData.shaders) { parseShaders(parsedData.shaders, gltfRuntime); } if (parsedData.programs) { parseObject(parsedData.programs, "programs", gltfRuntime); } if (parsedData.samplers) { parseObject(parsedData.samplers, "samplers", gltfRuntime); } if (parsedData.techniques) { parseObject(parsedData.techniques, "techniques", gltfRuntime); } if (parsedData.materials) { parseObject(parsedData.materials, "materials", gltfRuntime); } if (parsedData.animations) { parseObject(parsedData.animations, "animations", gltfRuntime); } if (parsedData.skins) { parseObject(parsedData.skins, "skins", gltfRuntime); } if (parsedData.scenes) { gltfRuntime.scenes = parsedData.scenes; } if (parsedData.scene && parsedData.scenes) { gltfRuntime.currentScene = parsedData.scenes[parsedData.scene]; } return gltfRuntime; }; GLTFLoaderBase.LoadBufferAsync = function (gltfRuntime, id, onSuccess, onError, onProgress) { var buffer = gltfRuntime.buffers[id]; if (babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].IsBase64(buffer.uri)) { setTimeout(function () { return onSuccess(new Uint8Array(babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].DecodeBase64(buffer.uri))); }); } else { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].LoadFile(gltfRuntime.rootUrl + buffer.uri, function (data) { return onSuccess(new Uint8Array(data)); }, onProgress, undefined, true, function (request) { if (request) { onError(request.status + " " + request.statusText); } }); } }; GLTFLoaderBase.LoadTextureBufferAsync = function (gltfRuntime, id, onSuccess, onError) { var texture = gltfRuntime.textures[id]; if (!texture || !texture.source) { onError(""); return; } if (texture.babylonTexture) { onSuccess(null); return; } var source = gltfRuntime.images[texture.source]; if (babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].IsBase64(source.uri)) { setTimeout(function () { return onSuccess(new Uint8Array(babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].DecodeBase64(source.uri))); }); } else { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].LoadFile(gltfRuntime.rootUrl + source.uri, function (data) { return onSuccess(new Uint8Array(data)); }, undefined, undefined, true, function (request) { if (request) { onError(request.status + " " + request.statusText); } }); } }; GLTFLoaderBase.CreateTextureAsync = function (gltfRuntime, id, buffer, onSuccess, onError) { var texture = gltfRuntime.textures[id]; if (texture.babylonTexture) { onSuccess(texture.babylonTexture); return; } var sampler = gltfRuntime.samplers[texture.sampler]; var createMipMaps = (sampler.minFilter === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].NEAREST_MIPMAP_NEAREST) || (sampler.minFilter === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].NEAREST_MIPMAP_LINEAR) || (sampler.minFilter === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].LINEAR_MIPMAP_NEAREST) || (sampler.minFilter === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].LINEAR_MIPMAP_LINEAR); var samplingMode = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"].BILINEAR_SAMPLINGMODE; var blob = buffer == null ? new Blob() : new Blob([buffer]); var blobURL = URL.createObjectURL(blob); var revokeBlobURL = function () { return URL.revokeObjectURL(blobURL); }; var newTexture = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"](blobURL, gltfRuntime.scene, !createMipMaps, true, samplingMode, revokeBlobURL, revokeBlobURL); if (sampler.wrapS !== undefined) { newTexture.wrapU = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetWrapMode(sampler.wrapS); } if (sampler.wrapT !== undefined) { newTexture.wrapV = _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_2__["GLTFUtils"].GetWrapMode(sampler.wrapT); } newTexture.name = id; texture.babylonTexture = newTexture; onSuccess(newTexture); }; GLTFLoaderBase.LoadShaderStringAsync = function (gltfRuntime, id, onSuccess, onError) { var shader = gltfRuntime.shaders[id]; if (babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].IsBase64(shader.uri)) { var shaderString = atob(shader.uri.split(",")[1]); if (onSuccess) { onSuccess(shaderString); } } else { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].LoadFile(gltfRuntime.rootUrl + shader.uri, onSuccess, undefined, undefined, false, function (request) { if (request && onError) { onError(request.status + " " + request.statusText); } }); } }; GLTFLoaderBase.LoadMaterialAsync = function (gltfRuntime, id, onSuccess, onError) { var material = gltfRuntime.materials[id]; if (!material.technique) { if (onError) { onError("No technique found."); } return; } var technique = gltfRuntime.techniques[material.technique]; if (!technique) { var defaultMaterial = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["StandardMaterial"](id, gltfRuntime.scene); defaultMaterial.diffuseColor = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Color3"](0.5, 0.5, 0.5); defaultMaterial.sideOrientation = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Material"].CounterClockWiseSideOrientation; onSuccess(defaultMaterial); return; } var program = gltfRuntime.programs[technique.program]; var states = technique.states; var vertexShader = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Effect"].ShadersStore[program.vertexShader + "VertexShader"]; var pixelShader = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Effect"].ShadersStore[program.fragmentShader + "PixelShader"]; var newVertexShader = ""; var newPixelShader = ""; var vertexTokenizer = new Tokenizer(vertexShader); var pixelTokenizer = new Tokenizer(pixelShader); var unTreatedUniforms = {}; var uniforms = []; var attributes = []; var samplers = []; // Fill uniform, sampler2D and attributes for (var unif in technique.uniforms) { var uniform = technique.uniforms[unif]; var uniformParameter = technique.parameters[uniform]; unTreatedUniforms[unif] = uniformParameter; if (uniformParameter.semantic && !uniformParameter.node && !uniformParameter.source) { var transformIndex = glTFTransforms.indexOf(uniformParameter.semantic); if (transformIndex !== -1) { uniforms.push(babylonTransforms[transformIndex]); delete unTreatedUniforms[unif]; } else { uniforms.push(unif); } } else if (uniformParameter.type === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].SAMPLER_2D) { samplers.push(unif); } else { uniforms.push(unif); } } for (var attr in technique.attributes) { var attribute = technique.attributes[attr]; var attributeParameter = technique.parameters[attribute]; if (attributeParameter.semantic) { var name_1 = getAttribute(attributeParameter); if (name_1) { attributes.push(name_1); } } } // Configure vertex shader while (!vertexTokenizer.isEnd() && vertexTokenizer.getNextToken()) { var tokenType = vertexTokenizer.currentToken; if (tokenType !== ETokenType.IDENTIFIER) { newVertexShader += vertexTokenizer.currentString; continue; } var foundAttribute = false; for (var attr in technique.attributes) { var attribute = technique.attributes[attr]; var attributeParameter = technique.parameters[attribute]; if (vertexTokenizer.currentIdentifier === attr && attributeParameter.semantic) { newVertexShader += getAttribute(attributeParameter); foundAttribute = true; break; } } if (foundAttribute) { continue; } newVertexShader += parseShaderUniforms(vertexTokenizer, technique, unTreatedUniforms); } // Configure pixel shader while (!pixelTokenizer.isEnd() && pixelTokenizer.getNextToken()) { var tokenType = pixelTokenizer.currentToken; if (tokenType !== ETokenType.IDENTIFIER) { newPixelShader += pixelTokenizer.currentString; continue; } newPixelShader += parseShaderUniforms(pixelTokenizer, technique, unTreatedUniforms); } // Create shader material var shaderPath = { vertex: program.vertexShader + id, fragment: program.fragmentShader + id }; var options = { attributes: attributes, uniforms: uniforms, samplers: samplers, needAlphaBlending: states && states.enable && states.enable.indexOf(3042) !== -1 }; babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Effect"].ShadersStore[program.vertexShader + id + "VertexShader"] = newVertexShader; babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Effect"].ShadersStore[program.fragmentShader + id + "PixelShader"] = newPixelShader; var shaderMaterial = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["ShaderMaterial"](id, gltfRuntime.scene, shaderPath, options); shaderMaterial.onError = onShaderCompileError(program, shaderMaterial, onError); shaderMaterial.onCompiled = onShaderCompileSuccess(gltfRuntime, shaderMaterial, technique, material, unTreatedUniforms, onSuccess); shaderMaterial.sideOrientation = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Material"].CounterClockWiseSideOrientation; if (states && states.functions) { var functions = states.functions; if (functions.cullFace && functions.cullFace[0] !== _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ECullingType"].BACK) { shaderMaterial.backFaceCulling = false; } var blendFunc = functions.blendFuncSeparate; if (blendFunc) { if (blendFunc[0] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].SRC_ALPHA && blendFunc[1] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE_MINUS_SRC_ALPHA && blendFunc[2] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE && blendFunc[3] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE) { shaderMaterial.alphaMode = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Engine"].ALPHA_COMBINE; } else if (blendFunc[0] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE && blendFunc[1] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE && blendFunc[2] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ZERO && blendFunc[3] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE) { shaderMaterial.alphaMode = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Engine"].ALPHA_ONEONE; } else if (blendFunc[0] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].SRC_ALPHA && blendFunc[1] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE && blendFunc[2] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ZERO && blendFunc[3] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE) { shaderMaterial.alphaMode = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Engine"].ALPHA_ADD; } else if (blendFunc[0] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ZERO && blendFunc[1] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE_MINUS_SRC_COLOR && blendFunc[2] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE && blendFunc[3] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE) { shaderMaterial.alphaMode = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Engine"].ALPHA_SUBTRACT; } else if (blendFunc[0] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].DST_COLOR && blendFunc[1] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ZERO && blendFunc[2] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE && blendFunc[3] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE) { shaderMaterial.alphaMode = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Engine"].ALPHA_MULTIPLY; } else if (blendFunc[0] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].SRC_ALPHA && blendFunc[1] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE_MINUS_SRC_COLOR && blendFunc[2] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE && blendFunc[3] === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EBlendingFunction"].ONE) { shaderMaterial.alphaMode = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Engine"].ALPHA_MAXIMIZED; } } } }; return GLTFLoaderBase; }()); /** * glTF V1 Loader * @hidden */ var GLTFLoader = /** @class */ (function () { function GLTFLoader() { this.state = null; } GLTFLoader.RegisterExtension = function (extension) { if (GLTFLoader.Extensions[extension.name]) { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Error("Tool with the same name \"" + extension.name + "\" already exists"); return; } GLTFLoader.Extensions[extension.name] = extension; }; GLTFLoader.prototype.dispose = function () { // do nothing }; GLTFLoader.prototype._importMeshAsync = function (meshesNames, scene, data, rootUrl, onSuccess, onProgress, onError) { var _this = this; scene.useRightHandedSystem = true; GLTFLoaderExtension.LoadRuntimeAsync(scene, data, rootUrl, function (gltfRuntime) { gltfRuntime.importOnlyMeshes = true; if (meshesNames === "") { gltfRuntime.importMeshesNames = []; } else if (typeof meshesNames === "string") { gltfRuntime.importMeshesNames = [meshesNames]; } else if (meshesNames && !(meshesNames instanceof Array)) { gltfRuntime.importMeshesNames = [meshesNames]; } else { gltfRuntime.importMeshesNames = []; babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Warn("Argument meshesNames must be of type string or string[]"); } // Create nodes _this._createNodes(gltfRuntime); var meshes = new Array(); var skeletons = new Array(); // Fill arrays of meshes and skeletons for (var nde in gltfRuntime.nodes) { var node = gltfRuntime.nodes[nde]; if (node.babylonNode instanceof babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["AbstractMesh"]) { meshes.push(node.babylonNode); } } for (var skl in gltfRuntime.skins) { var skin = gltfRuntime.skins[skl]; if (skin.babylonSkeleton instanceof babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Skeleton"]) { skeletons.push(skin.babylonSkeleton); } } // Load buffers, shaders, materials, etc. _this._loadBuffersAsync(gltfRuntime, function () { _this._loadShadersAsync(gltfRuntime, function () { importMaterials(gltfRuntime); postLoad(gltfRuntime); if (!_glTFFileLoader__WEBPACK_IMPORTED_MODULE_3__["GLTFFileLoader"].IncrementalLoading && onSuccess) { onSuccess(meshes, skeletons); } }); }, onProgress); if (_glTFFileLoader__WEBPACK_IMPORTED_MODULE_3__["GLTFFileLoader"].IncrementalLoading && onSuccess) { onSuccess(meshes, skeletons); } }, onError); return true; }; /** * Imports one or more meshes from a loaded gltf file and adds them to the scene * @param meshesNames a string or array of strings of the mesh names that should be loaded from the file * @param scene the scene the meshes should be added to * @param data gltf data containing information of the meshes in a loaded file * @param rootUrl root url to load from * @param onProgress event that fires when loading progress has occured * @returns a promise containg the loaded meshes, particles, skeletons and animations */ GLTFLoader.prototype.importMeshAsync = function (meshesNames, scene, data, rootUrl, onProgress) { var _this = this; return new Promise(function (resolve, reject) { _this._importMeshAsync(meshesNames, scene, data, rootUrl, function (meshes, skeletons) { resolve({ meshes: meshes, particleSystems: [], skeletons: skeletons, animationGroups: [] }); }, onProgress, function (message) { reject(new Error(message)); }); }); }; GLTFLoader.prototype._loadAsync = function (scene, data, rootUrl, onSuccess, onProgress, onError) { var _this = this; scene.useRightHandedSystem = true; GLTFLoaderExtension.LoadRuntimeAsync(scene, data, rootUrl, function (gltfRuntime) { // Load runtime extensios GLTFLoaderExtension.LoadRuntimeExtensionsAsync(gltfRuntime, function () { // Create nodes _this._createNodes(gltfRuntime); // Load buffers, shaders, materials, etc. _this._loadBuffersAsync(gltfRuntime, function () { _this._loadShadersAsync(gltfRuntime, function () { importMaterials(gltfRuntime); postLoad(gltfRuntime); if (!_glTFFileLoader__WEBPACK_IMPORTED_MODULE_3__["GLTFFileLoader"].IncrementalLoading) { onSuccess(); } }); }); if (_glTFFileLoader__WEBPACK_IMPORTED_MODULE_3__["GLTFFileLoader"].IncrementalLoading) { onSuccess(); } }, onError); }, onError); }; /** * Imports all objects from a loaded gltf file and adds them to the scene * @param scene the scene the objects should be added to * @param data gltf data containing information of the meshes in a loaded file * @param rootUrl root url to load from * @param onProgress event that fires when loading progress has occured * @returns a promise which completes when objects have been loaded to the scene */ GLTFLoader.prototype.loadAsync = function (scene, data, rootUrl, onProgress) { var _this = this; return new Promise(function (resolve, reject) { _this._loadAsync(scene, data, rootUrl, function () { resolve(); }, onProgress, function (message) { reject(new Error(message)); }); }); }; GLTFLoader.prototype._loadShadersAsync = function (gltfRuntime, onload) { var hasShaders = false; var processShader = function (sha, shader) { GLTFLoaderExtension.LoadShaderStringAsync(gltfRuntime, sha, function (shaderString) { if (shaderString instanceof ArrayBuffer) { return; } gltfRuntime.loadedShaderCount++; if (shaderString) { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Effect"].ShadersStore[sha + (shader.type === _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EShaderType"].VERTEX ? "VertexShader" : "PixelShader")] = shaderString; } if (gltfRuntime.loadedShaderCount === gltfRuntime.shaderscount) { onload(); } }, function () { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Error("Error when loading shader program named " + sha + " located at " + shader.uri); }); }; for (var sha in gltfRuntime.shaders) { hasShaders = true; var shader = gltfRuntime.shaders[sha]; if (shader) { processShader.bind(this, sha, shader)(); } else { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Error("No shader named: " + sha); } } if (!hasShaders) { onload(); } }; GLTFLoader.prototype._loadBuffersAsync = function (gltfRuntime, onLoad, onProgress) { var hasBuffers = false; var processBuffer = function (buf, buffer) { GLTFLoaderExtension.LoadBufferAsync(gltfRuntime, buf, function (bufferView) { gltfRuntime.loadedBufferCount++; if (bufferView) { if (bufferView.byteLength != gltfRuntime.buffers[buf].byteLength) { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Error("Buffer named " + buf + " is length " + bufferView.byteLength + ". Expected: " + buffer.byteLength); // Improve error message } gltfRuntime.loadedBufferViews[buf] = bufferView; } if (gltfRuntime.loadedBufferCount === gltfRuntime.buffersCount) { onLoad(); } }, function () { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Error("Error when loading buffer named " + buf + " located at " + buffer.uri); }); }; for (var buf in gltfRuntime.buffers) { hasBuffers = true; var buffer = gltfRuntime.buffers[buf]; if (buffer) { processBuffer.bind(this, buf, buffer)(); } else { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Tools"].Error("No buffer named: " + buf); } } if (!hasBuffers) { onLoad(); } }; GLTFLoader.prototype._createNodes = function (gltfRuntime) { var currentScene = gltfRuntime.currentScene; if (currentScene) { // Only one scene even if multiple scenes are defined for (var i = 0; i < currentScene.nodes.length; i++) { traverseNodes(gltfRuntime, currentScene.nodes[i], null); } } else { // Load all scenes for (var thing in gltfRuntime.scenes) { currentScene = gltfRuntime.scenes[thing]; for (var i = 0; i < currentScene.nodes.length; i++) { traverseNodes(gltfRuntime, currentScene.nodes[i], null); } } } }; GLTFLoader.Extensions = {}; return GLTFLoader; }()); /** @hidden */ var GLTFLoaderExtension = /** @class */ (function () { function GLTFLoaderExtension(name) { this._name = name; } Object.defineProperty(GLTFLoaderExtension.prototype, "name", { get: function () { return this._name; }, enumerable: true, configurable: true }); /** * Defines an override for loading the runtime * Return true to stop further extensions from loading the runtime */ GLTFLoaderExtension.prototype.loadRuntimeAsync = function (scene, data, rootUrl, onSuccess, onError) { return false; }; /** * Defines an onverride for creating gltf runtime * Return true to stop further extensions from creating the runtime */ GLTFLoaderExtension.prototype.loadRuntimeExtensionsAsync = function (gltfRuntime, onSuccess, onError) { return false; }; /** * Defines an override for loading buffers * Return true to stop further extensions from loading this buffer */ GLTFLoaderExtension.prototype.loadBufferAsync = function (gltfRuntime, id, onSuccess, onError, onProgress) { return false; }; /** * Defines an override for loading texture buffers * Return true to stop further extensions from loading this texture data */ GLTFLoaderExtension.prototype.loadTextureBufferAsync = function (gltfRuntime, id, onSuccess, onError) { return false; }; /** * Defines an override for creating textures * Return true to stop further extensions from loading this texture */ GLTFLoaderExtension.prototype.createTextureAsync = function (gltfRuntime, id, buffer, onSuccess, onError) { return false; }; /** * Defines an override for loading shader strings * Return true to stop further extensions from loading this shader data */ GLTFLoaderExtension.prototype.loadShaderStringAsync = function (gltfRuntime, id, onSuccess, onError) { return false; }; /** * Defines an override for loading materials * Return true to stop further extensions from loading this material */ GLTFLoaderExtension.prototype.loadMaterialAsync = function (gltfRuntime, id, onSuccess, onError) { return false; }; // --------- // Utilities // --------- GLTFLoaderExtension.LoadRuntimeAsync = function (scene, data, rootUrl, onSuccess, onError) { GLTFLoaderExtension.ApplyExtensions(function (loaderExtension) { return loaderExtension.loadRuntimeAsync(scene, data, rootUrl, onSuccess, onError); }, function () { setTimeout(function () { if (!onSuccess) { return; } onSuccess(GLTFLoaderBase.CreateRuntime(data.json, scene, rootUrl)); }); }); }; GLTFLoaderExtension.LoadRuntimeExtensionsAsync = function (gltfRuntime, onSuccess, onError) { GLTFLoaderExtension.ApplyExtensions(function (loaderExtension) { return loaderExtension.loadRuntimeExtensionsAsync(gltfRuntime, onSuccess, onError); }, function () { setTimeout(function () { onSuccess(); }); }); }; GLTFLoaderExtension.LoadBufferAsync = function (gltfRuntime, id, onSuccess, onError, onProgress) { GLTFLoaderExtension.ApplyExtensions(function (loaderExtension) { return loaderExtension.loadBufferAsync(gltfRuntime, id, onSuccess, onError, onProgress); }, function () { GLTFLoaderBase.LoadBufferAsync(gltfRuntime, id, onSuccess, onError, onProgress); }); }; GLTFLoaderExtension.LoadTextureAsync = function (gltfRuntime, id, onSuccess, onError) { GLTFLoaderExtension.LoadTextureBufferAsync(gltfRuntime, id, function (buffer) { if (buffer) { GLTFLoaderExtension.CreateTextureAsync(gltfRuntime, id, buffer, onSuccess, onError); } }, onError); }; GLTFLoaderExtension.LoadShaderStringAsync = function (gltfRuntime, id, onSuccess, onError) { GLTFLoaderExtension.ApplyExtensions(function (loaderExtension) { return loaderExtension.loadShaderStringAsync(gltfRuntime, id, onSuccess, onError); }, function () { GLTFLoaderBase.LoadShaderStringAsync(gltfRuntime, id, onSuccess, onError); }); }; GLTFLoaderExtension.LoadMaterialAsync = function (gltfRuntime, id, onSuccess, onError) { GLTFLoaderExtension.ApplyExtensions(function (loaderExtension) { return loaderExtension.loadMaterialAsync(gltfRuntime, id, onSuccess, onError); }, function () { GLTFLoaderBase.LoadMaterialAsync(gltfRuntime, id, onSuccess, onError); }); }; GLTFLoaderExtension.LoadTextureBufferAsync = function (gltfRuntime, id, onSuccess, onError) { GLTFLoaderExtension.ApplyExtensions(function (loaderExtension) { return loaderExtension.loadTextureBufferAsync(gltfRuntime, id, onSuccess, onError); }, function () { GLTFLoaderBase.LoadTextureBufferAsync(gltfRuntime, id, onSuccess, onError); }); }; GLTFLoaderExtension.CreateTextureAsync = function (gltfRuntime, id, buffer, onSuccess, onError) { GLTFLoaderExtension.ApplyExtensions(function (loaderExtension) { return loaderExtension.createTextureAsync(gltfRuntime, id, buffer, onSuccess, onError); }, function () { GLTFLoaderBase.CreateTextureAsync(gltfRuntime, id, buffer, onSuccess, onError); }); }; GLTFLoaderExtension.ApplyExtensions = function (func, defaultFunc) { for (var extensionName in GLTFLoader.Extensions) { var loaderExtension = GLTFLoader.Extensions[extensionName]; if (func(loaderExtension)) { return; } } defaultFunc(); }; return GLTFLoaderExtension; }()); _glTFFileLoader__WEBPACK_IMPORTED_MODULE_3__["GLTFFileLoader"]._CreateGLTF1Loader = function () { return new GLTFLoader(); }; /***/ }), /***/ "./glTF/1.0/glTFLoaderInterfaces.ts": /*!******************************************!*\ !*** ./glTF/1.0/glTFLoaderInterfaces.ts ***! \******************************************/ /*! exports provided: EComponentType, EShaderType, EParameterType, ETextureWrapMode, ETextureFilterType, ETextureFormat, ECullingType, EBlendingFunction */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "EComponentType", function() { return EComponentType; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "EShaderType", function() { return EShaderType; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "EParameterType", function() { return EParameterType; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "ETextureWrapMode", function() { return ETextureWrapMode; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "ETextureFilterType", function() { return ETextureFilterType; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "ETextureFormat", function() { return ETextureFormat; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "ECullingType", function() { return ECullingType; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "EBlendingFunction", function() { return EBlendingFunction; }); /** * Enums * @hidden */ var EComponentType; (function (EComponentType) { EComponentType[EComponentType["BYTE"] = 5120] = "BYTE"; EComponentType[EComponentType["UNSIGNED_BYTE"] = 5121] = "UNSIGNED_BYTE"; EComponentType[EComponentType["SHORT"] = 5122] = "SHORT"; EComponentType[EComponentType["UNSIGNED_SHORT"] = 5123] = "UNSIGNED_SHORT"; EComponentType[EComponentType["FLOAT"] = 5126] = "FLOAT"; })(EComponentType || (EComponentType = {})); /** @hidden */ var EShaderType; (function (EShaderType) { EShaderType[EShaderType["FRAGMENT"] = 35632] = "FRAGMENT"; EShaderType[EShaderType["VERTEX"] = 35633] = "VERTEX"; })(EShaderType || (EShaderType = {})); /** @hidden */ var EParameterType; (function (EParameterType) { EParameterType[EParameterType["BYTE"] = 5120] = "BYTE"; EParameterType[EParameterType["UNSIGNED_BYTE"] = 5121] = "UNSIGNED_BYTE"; EParameterType[EParameterType["SHORT"] = 5122] = "SHORT"; EParameterType[EParameterType["UNSIGNED_SHORT"] = 5123] = "UNSIGNED_SHORT"; EParameterType[EParameterType["INT"] = 5124] = "INT"; EParameterType[EParameterType["UNSIGNED_INT"] = 5125] = "UNSIGNED_INT"; EParameterType[EParameterType["FLOAT"] = 5126] = "FLOAT"; EParameterType[EParameterType["FLOAT_VEC2"] = 35664] = "FLOAT_VEC2"; EParameterType[EParameterType["FLOAT_VEC3"] = 35665] = "FLOAT_VEC3"; EParameterType[EParameterType["FLOAT_VEC4"] = 35666] = "FLOAT_VEC4"; EParameterType[EParameterType["INT_VEC2"] = 35667] = "INT_VEC2"; EParameterType[EParameterType["INT_VEC3"] = 35668] = "INT_VEC3"; EParameterType[EParameterType["INT_VEC4"] = 35669] = "INT_VEC4"; EParameterType[EParameterType["BOOL"] = 35670] = "BOOL"; EParameterType[EParameterType["BOOL_VEC2"] = 35671] = "BOOL_VEC2"; EParameterType[EParameterType["BOOL_VEC3"] = 35672] = "BOOL_VEC3"; EParameterType[EParameterType["BOOL_VEC4"] = 35673] = "BOOL_VEC4"; EParameterType[EParameterType["FLOAT_MAT2"] = 35674] = "FLOAT_MAT2"; EParameterType[EParameterType["FLOAT_MAT3"] = 35675] = "FLOAT_MAT3"; EParameterType[EParameterType["FLOAT_MAT4"] = 35676] = "FLOAT_MAT4"; EParameterType[EParameterType["SAMPLER_2D"] = 35678] = "SAMPLER_2D"; })(EParameterType || (EParameterType = {})); /** @hidden */ var ETextureWrapMode; (function (ETextureWrapMode) { ETextureWrapMode[ETextureWrapMode["CLAMP_TO_EDGE"] = 33071] = "CLAMP_TO_EDGE"; ETextureWrapMode[ETextureWrapMode["MIRRORED_REPEAT"] = 33648] = "MIRRORED_REPEAT"; ETextureWrapMode[ETextureWrapMode["REPEAT"] = 10497] = "REPEAT"; })(ETextureWrapMode || (ETextureWrapMode = {})); /** @hidden */ var ETextureFilterType; (function (ETextureFilterType) { ETextureFilterType[ETextureFilterType["NEAREST"] = 9728] = "NEAREST"; ETextureFilterType[ETextureFilterType["LINEAR"] = 9728] = "LINEAR"; ETextureFilterType[ETextureFilterType["NEAREST_MIPMAP_NEAREST"] = 9984] = "NEAREST_MIPMAP_NEAREST"; ETextureFilterType[ETextureFilterType["LINEAR_MIPMAP_NEAREST"] = 9985] = "LINEAR_MIPMAP_NEAREST"; ETextureFilterType[ETextureFilterType["NEAREST_MIPMAP_LINEAR"] = 9986] = "NEAREST_MIPMAP_LINEAR"; ETextureFilterType[ETextureFilterType["LINEAR_MIPMAP_LINEAR"] = 9987] = "LINEAR_MIPMAP_LINEAR"; })(ETextureFilterType || (ETextureFilterType = {})); /** @hidden */ var ETextureFormat; (function (ETextureFormat) { ETextureFormat[ETextureFormat["ALPHA"] = 6406] = "ALPHA"; ETextureFormat[ETextureFormat["RGB"] = 6407] = "RGB"; ETextureFormat[ETextureFormat["RGBA"] = 6408] = "RGBA"; ETextureFormat[ETextureFormat["LUMINANCE"] = 6409] = "LUMINANCE"; ETextureFormat[ETextureFormat["LUMINANCE_ALPHA"] = 6410] = "LUMINANCE_ALPHA"; })(ETextureFormat || (ETextureFormat = {})); /** @hidden */ var ECullingType; (function (ECullingType) { ECullingType[ECullingType["FRONT"] = 1028] = "FRONT"; ECullingType[ECullingType["BACK"] = 1029] = "BACK"; ECullingType[ECullingType["FRONT_AND_BACK"] = 1032] = "FRONT_AND_BACK"; })(ECullingType || (ECullingType = {})); /** @hidden */ var EBlendingFunction; (function (EBlendingFunction) { EBlendingFunction[EBlendingFunction["ZERO"] = 0] = "ZERO"; EBlendingFunction[EBlendingFunction["ONE"] = 1] = "ONE"; EBlendingFunction[EBlendingFunction["SRC_COLOR"] = 768] = "SRC_COLOR"; EBlendingFunction[EBlendingFunction["ONE_MINUS_SRC_COLOR"] = 769] = "ONE_MINUS_SRC_COLOR"; EBlendingFunction[EBlendingFunction["DST_COLOR"] = 774] = "DST_COLOR"; EBlendingFunction[EBlendingFunction["ONE_MINUS_DST_COLOR"] = 775] = "ONE_MINUS_DST_COLOR"; EBlendingFunction[EBlendingFunction["SRC_ALPHA"] = 770] = "SRC_ALPHA"; EBlendingFunction[EBlendingFunction["ONE_MINUS_SRC_ALPHA"] = 771] = "ONE_MINUS_SRC_ALPHA"; EBlendingFunction[EBlendingFunction["DST_ALPHA"] = 772] = "DST_ALPHA"; EBlendingFunction[EBlendingFunction["ONE_MINUS_DST_ALPHA"] = 773] = "ONE_MINUS_DST_ALPHA"; EBlendingFunction[EBlendingFunction["CONSTANT_COLOR"] = 32769] = "CONSTANT_COLOR"; EBlendingFunction[EBlendingFunction["ONE_MINUS_CONSTANT_COLOR"] = 32770] = "ONE_MINUS_CONSTANT_COLOR"; EBlendingFunction[EBlendingFunction["CONSTANT_ALPHA"] = 32771] = "CONSTANT_ALPHA"; EBlendingFunction[EBlendingFunction["ONE_MINUS_CONSTANT_ALPHA"] = 32772] = "ONE_MINUS_CONSTANT_ALPHA"; EBlendingFunction[EBlendingFunction["SRC_ALPHA_SATURATE"] = 776] = "SRC_ALPHA_SATURATE"; })(EBlendingFunction || (EBlendingFunction = {})); /***/ }), /***/ "./glTF/1.0/glTFLoaderUtils.ts": /*!*************************************!*\ !*** ./glTF/1.0/glTFLoaderUtils.ts ***! \*************************************/ /*! exports provided: GLTFUtils */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFUtils", function() { return GLTFUtils; }); /* harmony import */ var _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(/*! ./glTFLoaderInterfaces */ "./glTF/1.0/glTFLoaderInterfaces.ts"); /* harmony import */ var babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(/*! babylonjs/Maths/math */ "babylonjs/Misc/observable"); /* harmony import */ var babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1___default = /*#__PURE__*/__webpack_require__.n(babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__); /** * Utils functions for GLTF * @hidden */ var GLTFUtils = /** @class */ (function () { function GLTFUtils() { } /** * Sets the given "parameter" matrix * @param scene: the Scene object * @param source: the source node where to pick the matrix * @param parameter: the GLTF technique parameter * @param uniformName: the name of the shader's uniform * @param shaderMaterial: the shader material */ GLTFUtils.SetMatrix = function (scene, source, parameter, uniformName, shaderMaterial) { var mat = null; if (parameter.semantic === "MODEL") { mat = source.getWorldMatrix(); } else if (parameter.semantic === "PROJECTION") { mat = scene.getProjectionMatrix(); } else if (parameter.semantic === "VIEW") { mat = scene.getViewMatrix(); } else if (parameter.semantic === "MODELVIEWINVERSETRANSPOSE") { mat = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Matrix"].Transpose(source.getWorldMatrix().multiply(scene.getViewMatrix()).invert()); } else if (parameter.semantic === "MODELVIEW") { mat = source.getWorldMatrix().multiply(scene.getViewMatrix()); } else if (parameter.semantic === "MODELVIEWPROJECTION") { mat = source.getWorldMatrix().multiply(scene.getTransformMatrix()); } else if (parameter.semantic === "MODELINVERSE") { mat = source.getWorldMatrix().invert(); } else if (parameter.semantic === "VIEWINVERSE") { mat = scene.getViewMatrix().invert(); } else if (parameter.semantic === "PROJECTIONINVERSE") { mat = scene.getProjectionMatrix().invert(); } else if (parameter.semantic === "MODELVIEWINVERSE") { mat = source.getWorldMatrix().multiply(scene.getViewMatrix()).invert(); } else if (parameter.semantic === "MODELVIEWPROJECTIONINVERSE") { mat = source.getWorldMatrix().multiply(scene.getTransformMatrix()).invert(); } else if (parameter.semantic === "MODELINVERSETRANSPOSE") { mat = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Matrix"].Transpose(source.getWorldMatrix().invert()); } else { debugger; } if (mat) { switch (parameter.type) { case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_MAT2: shaderMaterial.setMatrix2x2(uniformName, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Matrix"].GetAsMatrix2x2(mat)); break; case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_MAT3: shaderMaterial.setMatrix3x3(uniformName, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Matrix"].GetAsMatrix3x3(mat)); break; case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_MAT4: shaderMaterial.setMatrix(uniformName, mat); break; default: break; } } }; /** * Sets the given "parameter" matrix * @param shaderMaterial: the shader material * @param uniform: the name of the shader's uniform * @param value: the value of the uniform * @param type: the uniform's type (EParameterType FLOAT, VEC2, VEC3 or VEC4) */ GLTFUtils.SetUniform = function (shaderMaterial, uniform, value, type) { switch (type) { case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT: shaderMaterial.setFloat(uniform, value); return true; case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_VEC2: shaderMaterial.setVector2(uniform, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector2"].FromArray(value)); return true; case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_VEC3: shaderMaterial.setVector3(uniform, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector3"].FromArray(value)); return true; case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EParameterType"].FLOAT_VEC4: shaderMaterial.setVector4(uniform, babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Vector4"].FromArray(value)); return true; default: return false; } }; /** * Returns the wrap mode of the texture * @param mode: the mode value */ GLTFUtils.GetWrapMode = function (mode) { switch (mode) { case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureWrapMode"].CLAMP_TO_EDGE: return babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"].CLAMP_ADDRESSMODE; case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureWrapMode"].MIRRORED_REPEAT: return babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"].MIRROR_ADDRESSMODE; case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureWrapMode"].REPEAT: return babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"].WRAP_ADDRESSMODE; default: return babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"].WRAP_ADDRESSMODE; } }; /** * Returns the byte stride giving an accessor * @param accessor: the GLTF accessor objet */ GLTFUtils.GetByteStrideFromType = function (accessor) { // Needs this function since "byteStride" isn't requiered in glTF format var type = accessor.type; switch (type) { case "VEC2": return 2; case "VEC3": return 3; case "VEC4": return 4; case "MAT2": return 4; case "MAT3": return 9; case "MAT4": return 16; default: return 1; } }; /** * Returns the texture filter mode giving a mode value * @param mode: the filter mode value */ GLTFUtils.GetTextureFilterMode = function (mode) { switch (mode) { case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].LINEAR: case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].LINEAR_MIPMAP_NEAREST: case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].LINEAR_MIPMAP_LINEAR: return babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"].TRILINEAR_SAMPLINGMODE; case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].NEAREST: case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["ETextureFilterType"].NEAREST_MIPMAP_NEAREST: return babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"].NEAREST_SAMPLINGMODE; default: return babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Texture"].BILINEAR_SAMPLINGMODE; } }; GLTFUtils.GetBufferFromBufferView = function (gltfRuntime, bufferView, byteOffset, byteLength, componentType) { var byteOffset = bufferView.byteOffset + byteOffset; var loadedBufferView = gltfRuntime.loadedBufferViews[bufferView.buffer]; if (byteOffset + byteLength > loadedBufferView.byteLength) { throw new Error("Buffer access is out of range"); } var buffer = loadedBufferView.buffer; byteOffset += loadedBufferView.byteOffset; switch (componentType) { case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EComponentType"].BYTE: return new Int8Array(buffer, byteOffset, byteLength); case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EComponentType"].UNSIGNED_BYTE: return new Uint8Array(buffer, byteOffset, byteLength); case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EComponentType"].SHORT: return new Int16Array(buffer, byteOffset, byteLength); case _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_0__["EComponentType"].UNSIGNED_SHORT: return new Uint16Array(buffer, byteOffset, byteLength); default: return new Float32Array(buffer, byteOffset, byteLength); } }; /** * Returns a buffer from its accessor * @param gltfRuntime: the GLTF runtime * @param accessor: the GLTF accessor */ GLTFUtils.GetBufferFromAccessor = function (gltfRuntime, accessor) { var bufferView = gltfRuntime.bufferViews[accessor.bufferView]; var byteLength = accessor.count * GLTFUtils.GetByteStrideFromType(accessor); return GLTFUtils.GetBufferFromBufferView(gltfRuntime, bufferView, accessor.byteOffset, byteLength, accessor.componentType); }; /** * Decodes a buffer view into a string * @param view: the buffer view */ GLTFUtils.DecodeBufferToText = function (view) { var result = ""; var length = view.byteLength; for (var i = 0; i < length; ++i) { result += String.fromCharCode(view[i]); } return result; }; /** * Returns the default material of gltf. Related to * https://github.com/KhronosGroup/glTF/tree/master/specification/1.0#appendix-a-default-material * @param scene: the Babylon.js scene */ GLTFUtils.GetDefaultMaterial = function (scene) { if (!GLTFUtils._DefaultMaterial) { babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Effect"].ShadersStore["GLTFDefaultMaterialVertexShader"] = [ "precision highp float;", "", "uniform mat4 worldView;", "uniform mat4 projection;", "", "attribute vec3 position;", "", "void main(void)", "{", " gl_Position = projection * worldView * vec4(position, 1.0);", "}" ].join("\n"); babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Effect"].ShadersStore["GLTFDefaultMaterialPixelShader"] = [ "precision highp float;", "", "uniform vec4 u_emission;", "", "void main(void)", "{", " gl_FragColor = u_emission;", "}" ].join("\n"); var shaderPath = { vertex: "GLTFDefaultMaterial", fragment: "GLTFDefaultMaterial" }; var options = { attributes: ["position"], uniforms: ["worldView", "projection", "u_emission"], samplers: new Array(), needAlphaBlending: false }; GLTFUtils._DefaultMaterial = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["ShaderMaterial"]("GLTFDefaultMaterial", scene, shaderPath, options); GLTFUtils._DefaultMaterial.setColor4("u_emission", new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_1__["Color4"](0.5, 0.5, 0.5, 1.0)); } return GLTFUtils._DefaultMaterial; }; // The GLTF default material GLTFUtils._DefaultMaterial = null; return GLTFUtils; }()); /***/ }), /***/ "./glTF/1.0/glTFMaterialsCommonExtension.ts": /*!**************************************************!*\ !*** ./glTF/1.0/glTFMaterialsCommonExtension.ts ***! \**************************************************/ /*! exports provided: GLTFMaterialsCommonExtension */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFMaterialsCommonExtension", function() { return GLTFMaterialsCommonExtension; }); /* harmony import */ var tslib__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(/*! tslib */ "../../node_modules/tslib/tslib.es6.js"); /* harmony import */ var _glTFLoader__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(/*! ./glTFLoader */ "./glTF/1.0/glTFLoader.ts"); /* harmony import */ var babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(/*! babylonjs/Maths/math */ "babylonjs/Misc/observable"); /* harmony import */ var babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2___default = /*#__PURE__*/__webpack_require__.n(babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__); /** @hidden */ var GLTFMaterialsCommonExtension = /** @class */ (function (_super) { tslib__WEBPACK_IMPORTED_MODULE_0__["__extends"](GLTFMaterialsCommonExtension, _super); function GLTFMaterialsCommonExtension() { return _super.call(this, "KHR_materials_common") || this; } GLTFMaterialsCommonExtension.prototype.loadRuntimeExtensionsAsync = function (gltfRuntime, onSuccess, onError) { if (!gltfRuntime.extensions) { return false; } var extension = gltfRuntime.extensions[this.name]; if (!extension) { return false; } // Create lights var lights = extension.lights; if (lights) { for (var thing in lights) { var light = lights[thing]; switch (light.type) { case "ambient": var ambientLight = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["HemisphericLight"](light.name, new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Vector3"](0, 1, 0), gltfRuntime.scene); var ambient = light.ambient; if (ambient) { ambientLight.diffuse = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Color3"].FromArray(ambient.color || [1, 1, 1]); } break; case "point": var pointLight = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["PointLight"](light.name, new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Vector3"](10, 10, 10), gltfRuntime.scene); var point = light.point; if (point) { pointLight.diffuse = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Color3"].FromArray(point.color || [1, 1, 1]); } break; case "directional": var dirLight = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["DirectionalLight"](light.name, new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Vector3"](0, -1, 0), gltfRuntime.scene); var directional = light.directional; if (directional) { dirLight.diffuse = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Color3"].FromArray(directional.color || [1, 1, 1]); } break; case "spot": var spot = light.spot; if (spot) { var spotLight = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["SpotLight"](light.name, new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Vector3"](0, 10, 0), new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Vector3"](0, -1, 0), spot.fallOffAngle || Math.PI, spot.fallOffExponent || 0.0, gltfRuntime.scene); spotLight.diffuse = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Color3"].FromArray(spot.color || [1, 1, 1]); } break; default: babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Tools"].Warn("GLTF Material Common extension: light type \"" + light.type + "\” not supported"); break; } } } return false; }; GLTFMaterialsCommonExtension.prototype.loadMaterialAsync = function (gltfRuntime, id, onSuccess, onError) { var material = gltfRuntime.materials[id]; if (!material || !material.extensions) { return false; } var extension = material.extensions[this.name]; if (!extension) { return false; } var standardMaterial = new babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["StandardMaterial"](id, gltfRuntime.scene); standardMaterial.sideOrientation = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Material"].CounterClockWiseSideOrientation; if (extension.technique === "CONSTANT") { standardMaterial.disableLighting = true; } standardMaterial.backFaceCulling = extension.doubleSided === undefined ? false : !extension.doubleSided; standardMaterial.alpha = extension.values.transparency === undefined ? 1.0 : extension.values.transparency; standardMaterial.specularPower = extension.values.shininess === undefined ? 0.0 : extension.values.shininess; // Ambient if (typeof extension.values.ambient === "string") { this._loadTexture(gltfRuntime, extension.values.ambient, standardMaterial, "ambientTexture", onError); } else { standardMaterial.ambientColor = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Color3"].FromArray(extension.values.ambient || [0, 0, 0]); } // Diffuse if (typeof extension.values.diffuse === "string") { this._loadTexture(gltfRuntime, extension.values.diffuse, standardMaterial, "diffuseTexture", onError); } else { standardMaterial.diffuseColor = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Color3"].FromArray(extension.values.diffuse || [0, 0, 0]); } // Emission if (typeof extension.values.emission === "string") { this._loadTexture(gltfRuntime, extension.values.emission, standardMaterial, "emissiveTexture", onError); } else { standardMaterial.emissiveColor = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Color3"].FromArray(extension.values.emission || [0, 0, 0]); } // Specular if (typeof extension.values.specular === "string") { this._loadTexture(gltfRuntime, extension.values.specular, standardMaterial, "specularTexture", onError); } else { standardMaterial.specularColor = babylonjs_Maths_math__WEBPACK_IMPORTED_MODULE_2__["Color3"].FromArray(extension.values.specular || [0, 0, 0]); } return true; }; GLTFMaterialsCommonExtension.prototype._loadTexture = function (gltfRuntime, id, material, propertyPath, onError) { // Create buffer from texture url _glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoaderBase"].LoadTextureBufferAsync(gltfRuntime, id, function (buffer) { // Create texture from buffer _glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoaderBase"].CreateTextureAsync(gltfRuntime, id, buffer, function (texture) { return material[propertyPath] = texture; }, onError); }, onError); }; return GLTFMaterialsCommonExtension; }(_glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoaderExtension"])); _glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoader"].RegisterExtension(new GLTFMaterialsCommonExtension()); /***/ }), /***/ "./glTF/1.0/index.ts": /*!***************************!*\ !*** ./glTF/1.0/index.ts ***! \***************************/ /*! exports provided: GLTFBinaryExtension, GLTFLoaderBase, GLTFLoader, GLTFLoaderExtension, EComponentType, EShaderType, EParameterType, ETextureWrapMode, ETextureFilterType, ETextureFormat, ECullingType, EBlendingFunction, GLTFUtils, GLTFMaterialsCommonExtension */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* harmony import */ var _glTFBinaryExtension__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(/*! ./glTFBinaryExtension */ "./glTF/1.0/glTFBinaryExtension.ts"); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFBinaryExtension", function() { return _glTFBinaryExtension__WEBPACK_IMPORTED_MODULE_0__["GLTFBinaryExtension"]; }); /* harmony import */ var _glTFLoader__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(/*! ./glTFLoader */ "./glTF/1.0/glTFLoader.ts"); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderBase", function() { return _glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoaderBase"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoader", function() { return _glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoader"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderExtension", function() { return _glTFLoader__WEBPACK_IMPORTED_MODULE_1__["GLTFLoaderExtension"]; }); /* harmony import */ var _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__ = __webpack_require__(/*! ./glTFLoaderInterfaces */ "./glTF/1.0/glTFLoaderInterfaces.ts"); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "EComponentType", function() { return _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__["EComponentType"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "EShaderType", function() { return _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__["EShaderType"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "EParameterType", function() { return _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__["EParameterType"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "ETextureWrapMode", function() { return _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__["ETextureWrapMode"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "ETextureFilterType", function() { return _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__["ETextureFilterType"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "ETextureFormat", function() { return _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__["ETextureFormat"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "ECullingType", function() { return _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__["ECullingType"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "EBlendingFunction", function() { return _glTFLoaderInterfaces__WEBPACK_IMPORTED_MODULE_2__["EBlendingFunction"]; }); /* harmony import */ var _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_3__ = __webpack_require__(/*! ./glTFLoaderUtils */ "./glTF/1.0/glTFLoaderUtils.ts"); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFUtils", function() { return _glTFLoaderUtils__WEBPACK_IMPORTED_MODULE_3__["GLTFUtils"]; }); /* harmony import */ var _glTFMaterialsCommonExtension__WEBPACK_IMPORTED_MODULE_4__ = __webpack_require__(/*! ./glTFMaterialsCommonExtension */ "./glTF/1.0/glTFMaterialsCommonExtension.ts"); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFMaterialsCommonExtension", function() { return _glTFMaterialsCommonExtension__WEBPACK_IMPORTED_MODULE_4__["GLTFMaterialsCommonExtension"]; }); /***/ }), /***/ "./glTF/glTFFileLoader.ts": /*!********************************!*\ !*** ./glTF/glTFFileLoader.ts ***! \********************************/ /*! exports provided: GLTFLoaderCoordinateSystemMode, GLTFLoaderAnimationStartMode, GLTFLoaderState, GLTFFileLoader */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderCoordinateSystemMode", function() { return GLTFLoaderCoordinateSystemMode; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderAnimationStartMode", function() { return GLTFLoaderAnimationStartMode; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderState", function() { return GLTFLoaderState; }); /* harmony export (binding) */ __webpack_require__.d(__webpack_exports__, "GLTFFileLoader", function() { return GLTFFileLoader; }); /* harmony import */ var babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(/*! babylonjs/Misc/observable */ "babylonjs/Misc/observable"); /* harmony import */ var babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0___default = /*#__PURE__*/__webpack_require__.n(babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__); /** * Mode that determines the coordinate system to use. */ var GLTFLoaderCoordinateSystemMode; (function (GLTFLoaderCoordinateSystemMode) { /** * Automatically convert the glTF right-handed data to the appropriate system based on the current coordinate system mode of the scene. */ GLTFLoaderCoordinateSystemMode[GLTFLoaderCoordinateSystemMode["AUTO"] = 0] = "AUTO"; /** * Sets the useRightHandedSystem flag on the scene. */ GLTFLoaderCoordinateSystemMode[GLTFLoaderCoordinateSystemMode["FORCE_RIGHT_HANDED"] = 1] = "FORCE_RIGHT_HANDED"; })(GLTFLoaderCoordinateSystemMode || (GLTFLoaderCoordinateSystemMode = {})); /** * Mode that determines what animations will start. */ var GLTFLoaderAnimationStartMode; (function (GLTFLoaderAnimationStartMode) { /** * No animation will start. */ GLTFLoaderAnimationStartMode[GLTFLoaderAnimationStartMode["NONE"] = 0] = "NONE"; /** * The first animation will start. */ GLTFLoaderAnimationStartMode[GLTFLoaderAnimationStartMode["FIRST"] = 1] = "FIRST"; /** * All animations will start. */ GLTFLoaderAnimationStartMode[GLTFLoaderAnimationStartMode["ALL"] = 2] = "ALL"; })(GLTFLoaderAnimationStartMode || (GLTFLoaderAnimationStartMode = {})); /** * Loader state. */ var GLTFLoaderState; (function (GLTFLoaderState) { /** * The asset is loading. */ GLTFLoaderState[GLTFLoaderState["LOADING"] = 0] = "LOADING"; /** * The asset is ready for rendering. */ GLTFLoaderState[GLTFLoaderState["READY"] = 1] = "READY"; /** * The asset is completely loaded. */ GLTFLoaderState[GLTFLoaderState["COMPLETE"] = 2] = "COMPLETE"; })(GLTFLoaderState || (GLTFLoaderState = {})); /** * File loader for loading glTF files into a scene. */ var GLTFFileLoader = /** @class */ (function () { function GLTFFileLoader() { // -------------- // Common options // -------------- /** * Raised when the asset has been parsed */ this.onParsedObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); // ---------- // V2 options // ---------- /** * The coordinate system mode. Defaults to AUTO. */ this.coordinateSystemMode = GLTFLoaderCoordinateSystemMode.AUTO; /** * The animation start mode. Defaults to FIRST. */ this.animationStartMode = GLTFLoaderAnimationStartMode.FIRST; /** * Defines if the loader should compile materials before raising the success callback. Defaults to false. */ this.compileMaterials = false; /** * Defines if the loader should also compile materials with clip planes. Defaults to false. */ this.useClipPlane = false; /** * Defines if the loader should compile shadow generators before raising the success callback. Defaults to false. */ this.compileShadowGenerators = false; /** * Defines if the Alpha blended materials are only applied as coverage. * If false, (default) The luminance of each pixel will reduce its opacity to simulate the behaviour of most physical materials. * If true, no extra effects are applied to transparent pixels. */ this.transparencyAsCoverage = false; /** * Function called before loading a url referenced by the asset. */ this.preprocessUrlAsync = function (url) { return Promise.resolve(url); }; /** * Observable raised when the loader creates a mesh after parsing the glTF properties of the mesh. */ this.onMeshLoadedObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); /** * Observable raised when the loader creates a texture after parsing the glTF properties of the texture. */ this.onTextureLoadedObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); /** * Observable raised when the loader creates a material after parsing the glTF properties of the material. */ this.onMaterialLoadedObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); /** * Observable raised when the loader creates a camera after parsing the glTF properties of the camera. */ this.onCameraLoadedObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); /** * Observable raised when the asset is completely loaded, immediately before the loader is disposed. * For assets with LODs, raised when all of the LODs are complete. * For assets without LODs, raised when the model is complete, immediately after the loader resolves the returned promise. */ this.onCompleteObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); /** * Observable raised when an error occurs. */ this.onErrorObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); /** * Observable raised after the loader is disposed. */ this.onDisposeObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); /** * Observable raised after a loader extension is created. * Set additional options for a loader extension in this event. */ this.onExtensionLoadedObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); /** * Defines if the loader should validate the asset. */ this.validate = false; /** * Observable raised after validation when validate is set to true. The event data is the result of the validation. */ this.onValidatedObservable = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Observable"](); this._loader = null; /** * Name of the loader ("gltf") */ this.name = "gltf"; /** * Supported file extensions of the loader (.gltf, .glb) */ this.extensions = { ".gltf": { isBinary: false }, ".glb": { isBinary: true } }; this._logIndentLevel = 0; this._loggingEnabled = false; /** @hidden */ this._log = this._logDisabled; this._capturePerformanceCounters = false; /** @hidden */ this._startPerformanceCounter = this._startPerformanceCounterDisabled; /** @hidden */ this._endPerformanceCounter = this._endPerformanceCounterDisabled; } Object.defineProperty(GLTFFileLoader.prototype, "onParsed", { /** * Raised when the asset has been parsed */ set: function (callback) { if (this._onParsedObserver) { this.onParsedObservable.remove(this._onParsedObserver); } this._onParsedObserver = this.onParsedObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onMeshLoaded", { /** * Callback raised when the loader creates a mesh after parsing the glTF properties of the mesh. */ set: function (callback) { if (this._onMeshLoadedObserver) { this.onMeshLoadedObservable.remove(this._onMeshLoadedObserver); } this._onMeshLoadedObserver = this.onMeshLoadedObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onTextureLoaded", { /** * Callback raised when the loader creates a texture after parsing the glTF properties of the texture. */ set: function (callback) { if (this._onTextureLoadedObserver) { this.onTextureLoadedObservable.remove(this._onTextureLoadedObserver); } this._onTextureLoadedObserver = this.onTextureLoadedObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onMaterialLoaded", { /** * Callback raised when the loader creates a material after parsing the glTF properties of the material. */ set: function (callback) { if (this._onMaterialLoadedObserver) { this.onMaterialLoadedObservable.remove(this._onMaterialLoadedObserver); } this._onMaterialLoadedObserver = this.onMaterialLoadedObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onCameraLoaded", { /** * Callback raised when the loader creates a camera after parsing the glTF properties of the camera. */ set: function (callback) { if (this._onCameraLoadedObserver) { this.onCameraLoadedObservable.remove(this._onCameraLoadedObserver); } this._onCameraLoadedObserver = this.onCameraLoadedObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onComplete", { /** * Callback raised when the asset is completely loaded, immediately before the loader is disposed. * For assets with LODs, raised when all of the LODs are complete. * For assets without LODs, raised when the model is complete, immediately after the loader resolves the returned promise. */ set: function (callback) { if (this._onCompleteObserver) { this.onCompleteObservable.remove(this._onCompleteObserver); } this._onCompleteObserver = this.onCompleteObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onError", { /** * Callback raised when an error occurs. */ set: function (callback) { if (this._onErrorObserver) { this.onErrorObservable.remove(this._onErrorObserver); } this._onErrorObserver = this.onErrorObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onDispose", { /** * Callback raised after the loader is disposed. */ set: function (callback) { if (this._onDisposeObserver) { this.onDisposeObservable.remove(this._onDisposeObserver); } this._onDisposeObserver = this.onDisposeObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onExtensionLoaded", { /** * Callback raised after a loader extension is created. */ set: function (callback) { if (this._onExtensionLoadedObserver) { this.onExtensionLoadedObservable.remove(this._onExtensionLoadedObserver); } this._onExtensionLoadedObserver = this.onExtensionLoadedObservable.add(callback); }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "loggingEnabled", { /** * Defines if the loader logging is enabled. */ get: function () { return this._loggingEnabled; }, set: function (value) { if (this._loggingEnabled === value) { return; } this._loggingEnabled = value; if (this._loggingEnabled) { this._log = this._logEnabled; } else { this._log = this._logDisabled; } }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "capturePerformanceCounters", { /** * Defines if the loader should capture performance counters. */ get: function () { return this._capturePerformanceCounters; }, set: function (value) { if (this._capturePerformanceCounters === value) { return; } this._capturePerformanceCounters = value; if (this._capturePerformanceCounters) { this._startPerformanceCounter = this._startPerformanceCounterEnabled; this._endPerformanceCounter = this._endPerformanceCounterEnabled; } else { this._startPerformanceCounter = this._startPerformanceCounterDisabled; this._endPerformanceCounter = this._endPerformanceCounterDisabled; } }, enumerable: true, configurable: true }); Object.defineProperty(GLTFFileLoader.prototype, "onValidated", { /** * Callback raised after a loader extension is created. */ set: function (callback) { if (this._onValidatedObserver) { this.onValidatedObservable.remove(this._onValidatedObserver); } this._onValidatedObserver = this.onValidatedObservable.add(callback); }, enumerable: true, configurable: true }); /** * Disposes the loader, releases resources during load, and cancels any outstanding requests. */ GLTFFileLoader.prototype.dispose = function () { if (this._loader) { this._loader.dispose(); this._loader = null; } this._clear(); this.onDisposeObservable.notifyObservers(undefined); this.onDisposeObservable.clear(); }; /** @hidden */ GLTFFileLoader.prototype._clear = function () { this.preprocessUrlAsync = function (url) { return Promise.resolve(url); }; this.onMeshLoadedObservable.clear(); this.onTextureLoadedObservable.clear(); this.onMaterialLoadedObservable.clear(); this.onCameraLoadedObservable.clear(); this.onCompleteObservable.clear(); this.onExtensionLoadedObservable.clear(); }; /** * Imports one or more meshes from the loaded glTF data and adds them to the scene * @param meshesNames a string or array of strings of the mesh names that should be loaded from the file * @param scene the scene the meshes should be added to * @param data the glTF data to load * @param rootUrl root url to load from * @param onProgress event that fires when loading progress has occured * @param fileName Defines the name of the file to load * @returns a promise containg the loaded meshes, particles, skeletons and animations */ GLTFFileLoader.prototype.importMeshAsync = function (meshesNames, scene, data, rootUrl, onProgress, fileName) { var _this = this; return this._parseAsync(scene, data, rootUrl, fileName).then(function (loaderData) { _this._log("Loading " + (fileName || "")); _this._loader = _this._getLoader(loaderData); return _this._loader.importMeshAsync(meshesNames, scene, loaderData, rootUrl, onProgress, fileName); }); }; /** * Imports all objects from the loaded glTF data and adds them to the scene * @param scene the scene the objects should be added to * @param data the glTF data to load * @param rootUrl root url to load from * @param onProgress event that fires when loading progress has occured * @param fileName Defines the name of the file to load * @returns a promise which completes when objects have been loaded to the scene */ GLTFFileLoader.prototype.loadAsync = function (scene, data, rootUrl, onProgress, fileName) { var _this = this; return this._parseAsync(scene, data, rootUrl, fileName).then(function (loaderData) { _this._log("Loading " + (fileName || "")); _this._loader = _this._getLoader(loaderData); return _this._loader.loadAsync(scene, loaderData, rootUrl, onProgress, fileName); }); }; /** * Load into an asset container. * @param scene The scene to load into * @param data The data to import * @param rootUrl The root url for scene and resources * @param onProgress The callback when the load progresses * @param fileName Defines the name of the file to load * @returns The loaded asset container */ GLTFFileLoader.prototype.loadAssetContainerAsync = function (scene, data, rootUrl, onProgress, fileName) { var _this = this; return this._parseAsync(scene, data, rootUrl, fileName).then(function (loaderData) { _this._log("Loading " + (fileName || "")); _this._loader = _this._getLoader(loaderData); // Get materials/textures when loading to add to container var materials = []; _this.onMaterialLoadedObservable.add(function (material) { materials.push(material); }); var textures = []; _this.onTextureLoadedObservable.add(function (texture) { textures.push(texture); }); return _this._loader.importMeshAsync(null, scene, loaderData, rootUrl, onProgress, fileName).then(function (result) { var container = new babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["AssetContainer"](scene); Array.prototype.push.apply(container.meshes, result.meshes); Array.prototype.push.apply(container.particleSystems, result.particleSystems); Array.prototype.push.apply(container.skeletons, result.skeletons); Array.prototype.push.apply(container.animationGroups, result.animationGroups); Array.prototype.push.apply(container.materials, materials); Array.prototype.push.apply(container.textures, textures); container.removeAllFromScene(); return container; }); }); }; /** * If the data string can be loaded directly. * @param data string contianing the file data * @returns if the data can be loaded directly */ GLTFFileLoader.prototype.canDirectLoad = function (data) { return ((data.indexOf("scene") !== -1) && (data.indexOf("node") !== -1)); }; /** * Instantiates a glTF file loader plugin. * @returns the created plugin */ GLTFFileLoader.prototype.createPlugin = function () { return new GLTFFileLoader(); }; Object.defineProperty(GLTFFileLoader.prototype, "loaderState", { /** * The loader state or null if the loader is not active. */ get: function () { return this._loader ? this._loader.state : null; }, enumerable: true, configurable: true }); /** * Returns a promise that resolves when the asset is completely loaded. * @returns a promise that resolves when the asset is completely loaded. */ GLTFFileLoader.prototype.whenCompleteAsync = function () { var _this = this; return new Promise(function (resolve, reject) { _this.onCompleteObservable.addOnce(function () { resolve(); }); _this.onErrorObservable.addOnce(function (reason) { reject(reason); }); }); }; GLTFFileLoader.prototype._parseAsync = function (scene, data, rootUrl, fileName) { var _this = this; return Promise.resolve().then(function () { var unpacked = (data instanceof ArrayBuffer) ? _this._unpackBinary(data) : { json: data, bin: null }; return _this._validateAsync(scene, unpacked.json, rootUrl, fileName).then(function () { _this._startPerformanceCounter("Parse JSON"); _this._log("JSON length: " + unpacked.json.length); var loaderData = { json: JSON.parse(unpacked.json), bin: unpacked.bin }; _this._endPerformanceCounter("Parse JSON"); _this.onParsedObservable.notifyObservers(loaderData); _this.onParsedObservable.clear(); return loaderData; }); }); }; GLTFFileLoader.prototype._validateAsync = function (scene, json, rootUrl, fileName) { var _this = this; if (!this.validate || typeof GLTFValidator === "undefined") { return Promise.resolve(); } this._startPerformanceCounter("Validate JSON"); var options = { externalResourceFunction: function (uri) { return _this.preprocessUrlAsync(rootUrl + uri) .then(function (url) { return scene._loadFileAsync(url, true, true); }) .then(function (data) { return new Uint8Array(data); }); } }; if (fileName && fileName.substr(0, 5) !== "data:") { options.uri = (rootUrl === "file:" ? fileName : "" + rootUrl + fileName); } return GLTFValidator.validateString(json, options).then(function (result) { _this._endPerformanceCounter("Validate JSON"); _this.onValidatedObservable.notifyObservers(result); _this.onValidatedObservable.clear(); }, function (reason) { _this._endPerformanceCounter("Validate JSON"); babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Tools"].Warn("Failed to validate: " + reason); _this.onValidatedObservable.clear(); }); }; GLTFFileLoader.prototype._getLoader = function (loaderData) { var asset = loaderData.json.asset || {}; this._log("Asset version: " + asset.version); asset.minVersion && this._log("Asset minimum version: " + asset.minVersion); asset.generator && this._log("Asset generator: " + asset.generator); var version = GLTFFileLoader._parseVersion(asset.version); if (!version) { throw new Error("Invalid version: " + asset.version); } if (asset.minVersion !== undefined) { var minVersion = GLTFFileLoader._parseVersion(asset.minVersion); if (!minVersion) { throw new Error("Invalid minimum version: " + asset.minVersion); } if (GLTFFileLoader._compareVersion(minVersion, { major: 2, minor: 0 }) > 0) { throw new Error("Incompatible minimum version: " + asset.minVersion); } } var createLoaders = { 1: GLTFFileLoader._CreateGLTF1Loader, 2: GLTFFileLoader._CreateGLTF2Loader }; var createLoader = createLoaders[version.major]; if (!createLoader) { throw new Error("Unsupported version: " + asset.version); } return createLoader(this); }; GLTFFileLoader.prototype._unpackBinary = function (data) { this._startPerformanceCounter("Unpack binary"); this._log("Binary length: " + data.byteLength); var Binary = { Magic: 0x46546C67 }; var binaryReader = new BinaryReader(data); var magic = binaryReader.readUint32(); if (magic !== Binary.Magic) { throw new Error("Unexpected magic: " + magic); } var version = binaryReader.readUint32(); if (this.loggingEnabled) { this._log("Binary version: " + version); } var unpacked; switch (version) { case 1: { unpacked = this._unpackBinaryV1(binaryReader); break; } case 2: { unpacked = this._unpackBinaryV2(binaryReader); break; } default: { throw new Error("Unsupported version: " + version); } } this._endPerformanceCounter("Unpack binary"); return unpacked; }; GLTFFileLoader.prototype._unpackBinaryV1 = function (binaryReader) { var ContentFormat = { JSON: 0 }; var length = binaryReader.readUint32(); if (length != binaryReader.getLength()) { throw new Error("Length in header does not match actual data length: " + length + " != " + binaryReader.getLength()); } var contentLength = binaryReader.readUint32(); var contentFormat = binaryReader.readUint32(); var content; switch (contentFormat) { case ContentFormat.JSON: { content = GLTFFileLoader._decodeBufferToText(binaryReader.readUint8Array(contentLength)); break; } default: { throw new Error("Unexpected content format: " + contentFormat); } } var bytesRemaining = binaryReader.getLength() - binaryReader.getPosition(); var body = binaryReader.readUint8Array(bytesRemaining); return { json: content, bin: body }; }; GLTFFileLoader.prototype._unpackBinaryV2 = function (binaryReader) { var ChunkFormat = { JSON: 0x4E4F534A, BIN: 0x004E4942 }; var length = binaryReader.readUint32(); if (length !== binaryReader.getLength()) { throw new Error("Length in header does not match actual data length: " + length + " != " + binaryReader.getLength()); } // JSON chunk var chunkLength = binaryReader.readUint32(); var chunkFormat = binaryReader.readUint32(); if (chunkFormat !== ChunkFormat.JSON) { throw new Error("First chunk format is not JSON"); } var json = GLTFFileLoader._decodeBufferToText(binaryReader.readUint8Array(chunkLength)); // Look for BIN chunk var bin = null; while (binaryReader.getPosition() < binaryReader.getLength()) { var chunkLength_1 = binaryReader.readUint32(); var chunkFormat_1 = binaryReader.readUint32(); switch (chunkFormat_1) { case ChunkFormat.JSON: { throw new Error("Unexpected JSON chunk"); } case ChunkFormat.BIN: { bin = binaryReader.readUint8Array(chunkLength_1); break; } default: { // ignore unrecognized chunkFormat binaryReader.skipBytes(chunkLength_1); break; } } } return { json: json, bin: bin }; }; GLTFFileLoader._parseVersion = function (version) { if (version === "1.0" || version === "1.0.1") { return { major: 1, minor: 0 }; } var match = (version + "").match(/^(\d+)\.(\d+)/); if (!match) { return null; } return { major: parseInt(match[1]), minor: parseInt(match[2]) }; }; GLTFFileLoader._compareVersion = function (a, b) { if (a.major > b.major) { return 1; } if (a.major < b.major) { return -1; } if (a.minor > b.minor) { return 1; } if (a.minor < b.minor) { return -1; } return 0; }; GLTFFileLoader._decodeBufferToText = function (buffer) { if (typeof TextDecoder !== "undefined") { return new TextDecoder().decode(buffer); } var result = ""; var length = buffer.byteLength; for (var i = 0; i < length; i++) { result += String.fromCharCode(buffer[i]); } return result; }; /** @hidden */ GLTFFileLoader.prototype._logOpen = function (message) { this._log(message); this._logIndentLevel++; }; /** @hidden */ GLTFFileLoader.prototype._logClose = function () { --this._logIndentLevel; }; GLTFFileLoader.prototype._logEnabled = function (message) { var spaces = GLTFFileLoader._logSpaces.substr(0, this._logIndentLevel * 2); babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Tools"].Log("" + spaces + message); }; GLTFFileLoader.prototype._logDisabled = function (message) { }; GLTFFileLoader.prototype._startPerformanceCounterEnabled = function (counterName) { babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Tools"].StartPerformanceCounter(counterName); }; GLTFFileLoader.prototype._startPerformanceCounterDisabled = function (counterName) { }; GLTFFileLoader.prototype._endPerformanceCounterEnabled = function (counterName) { babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["Tools"].EndPerformanceCounter(counterName); }; GLTFFileLoader.prototype._endPerformanceCounterDisabled = function (counterName) { }; // ---------- // V1 options // ---------- /** * Set this property to false to disable incremental loading which delays the loader from calling the success callback until after loading the meshes and shaders. * Textures always loads asynchronously. For example, the success callback can compute the bounding information of the loaded meshes when incremental loading is disabled. * Defaults to true. * @hidden */ GLTFFileLoader.IncrementalLoading = true; /** * Set this property to true in order to work with homogeneous coordinates, available with some converters and exporters. * Defaults to false. See https://en.wikipedia.org/wiki/Homogeneous_coordinates. * @hidden */ GLTFFileLoader.HomogeneousCoordinates = false; GLTFFileLoader._logSpaces = " "; return GLTFFileLoader; }()); var BinaryReader = /** @class */ (function () { function BinaryReader(arrayBuffer) { this._arrayBuffer = arrayBuffer; this._dataView = new DataView(arrayBuffer); this._byteOffset = 0; } BinaryReader.prototype.getPosition = function () { return this._byteOffset; }; BinaryReader.prototype.getLength = function () { return this._arrayBuffer.byteLength; }; BinaryReader.prototype.readUint32 = function () { var value = this._dataView.getUint32(this._byteOffset, true); this._byteOffset += 4; return value; }; BinaryReader.prototype.readUint8Array = function (length) { var value = new Uint8Array(this._arrayBuffer, this._byteOffset, length); this._byteOffset += length; return value; }; BinaryReader.prototype.skipBytes = function (length) { this._byteOffset += length; }; return BinaryReader; }()); if (babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["SceneLoader"]) { babylonjs_Misc_observable__WEBPACK_IMPORTED_MODULE_0__["SceneLoader"].RegisterPlugin(new GLTFFileLoader()); } /***/ }), /***/ "./legacy/legacy-glTF.ts": /*!*******************************!*\ !*** ./legacy/legacy-glTF.ts ***! \*******************************/ /*! exports provided: GLTFLoaderCoordinateSystemMode, GLTFLoaderAnimationStartMode, GLTFLoaderState, GLTFFileLoader */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* WEBPACK VAR INJECTION */(function(global) {/* harmony import */ var _glTF_glTFFileLoader__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(/*! ../glTF/glTFFileLoader */ "./glTF/glTFFileLoader.ts"); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderCoordinateSystemMode", function() { return _glTF_glTFFileLoader__WEBPACK_IMPORTED_MODULE_0__["GLTFLoaderCoordinateSystemMode"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderAnimationStartMode", function() { return _glTF_glTFFileLoader__WEBPACK_IMPORTED_MODULE_0__["GLTFLoaderAnimationStartMode"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderState", function() { return _glTF_glTFFileLoader__WEBPACK_IMPORTED_MODULE_0__["GLTFLoaderState"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFFileLoader", function() { return _glTF_glTFFileLoader__WEBPACK_IMPORTED_MODULE_0__["GLTFFileLoader"]; }); /** * This is the entry point for the UMD module. * The entry point for a future ESM package should be index.ts */ var globalObject = (typeof global !== 'undefined') ? global : ((typeof window !== 'undefined') ? window : undefined); if (typeof globalObject !== "undefined") { globalObject.BABYLON = globalObject.BABYLON || {}; for (var key in _glTF_glTFFileLoader__WEBPACK_IMPORTED_MODULE_0__) { globalObject.BABYLON[key] = _glTF_glTFFileLoader__WEBPACK_IMPORTED_MODULE_0__[key]; } } /* WEBPACK VAR INJECTION */}.call(this, __webpack_require__(/*! ./../../../node_modules/webpack/buildin/global.js */ "../../node_modules/webpack/buildin/global.js"))) /***/ }), /***/ "./legacy/legacy-glTF1.ts": /*!********************************!*\ !*** ./legacy/legacy-glTF1.ts ***! \********************************/ /*! exports provided: GLTF1 */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* WEBPACK VAR INJECTION */(function(global) {/* harmony import */ var _glTF_1_0__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(/*! ../glTF/1.0 */ "./glTF/1.0/index.ts"); /* harmony reexport (module object) */ __webpack_require__.d(__webpack_exports__, "GLTF1", function() { return _glTF_1_0__WEBPACK_IMPORTED_MODULE_0__; }); /** * This is the entry point for the UMD module. * The entry point for a future ESM package should be index.ts */ var globalObject = (typeof global !== 'undefined') ? global : ((typeof window !== 'undefined') ? window : undefined); if (typeof globalObject !== "undefined") { globalObject.BABYLON = globalObject.BABYLON || {}; globalObject.BABYLON.GLTF1 = globalObject.BABYLON.GLTF1 || {}; for (var key in _glTF_1_0__WEBPACK_IMPORTED_MODULE_0__) { globalObject.BABYLON.GLTF1[key] = _glTF_1_0__WEBPACK_IMPORTED_MODULE_0__[key]; } } /* WEBPACK VAR INJECTION */}.call(this, __webpack_require__(/*! ./../../../node_modules/webpack/buildin/global.js */ "../../node_modules/webpack/buildin/global.js"))) /***/ }), /***/ "./legacy/legacy-glTF1FileLoader.ts": /*!******************************************!*\ !*** ./legacy/legacy-glTF1FileLoader.ts ***! \******************************************/ /*! exports provided: GLTF1, GLTFLoaderCoordinateSystemMode, GLTFLoaderAnimationStartMode, GLTFLoaderState, GLTFFileLoader */ /***/ (function(module, __webpack_exports__, __webpack_require__) { "use strict"; __webpack_require__.r(__webpack_exports__); /* harmony import */ var _legacy_glTF__WEBPACK_IMPORTED_MODULE_0__ = __webpack_require__(/*! ./legacy-glTF */ "./legacy/legacy-glTF.ts"); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderCoordinateSystemMode", function() { return _legacy_glTF__WEBPACK_IMPORTED_MODULE_0__["GLTFLoaderCoordinateSystemMode"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderAnimationStartMode", function() { return _legacy_glTF__WEBPACK_IMPORTED_MODULE_0__["GLTFLoaderAnimationStartMode"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFLoaderState", function() { return _legacy_glTF__WEBPACK_IMPORTED_MODULE_0__["GLTFLoaderState"]; }); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTFFileLoader", function() { return _legacy_glTF__WEBPACK_IMPORTED_MODULE_0__["GLTFFileLoader"]; }); /* harmony import */ var _legacy_glTF1__WEBPACK_IMPORTED_MODULE_1__ = __webpack_require__(/*! ./legacy-glTF1 */ "./legacy/legacy-glTF1.ts"); /* harmony reexport (safe) */ __webpack_require__.d(__webpack_exports__, "GLTF1", function() { return _legacy_glTF1__WEBPACK_IMPORTED_MODULE_1__["GLTF1"]; }); /***/ }), /***/ "babylonjs/Misc/observable": /*!****************************************************************************************************!*\ !*** external {"root":"BABYLON","commonjs":"babylonjs","commonjs2":"babylonjs","amd":"babylonjs"} ***! \****************************************************************************************************/ /*! no static exports found */ /***/ (function(module, exports) { module.exports = __WEBPACK_EXTERNAL_MODULE_babylonjs_Misc_observable__; /***/ }) /******/ }); }); //# sourceMappingURL=babylon.glTF1FileLoader.js.map