添加关照、全局等高线、修改图层问题

dist/electron/static/sdk/three/jsm/nodes/materials/MeshPhysicalNodeMaterial.js

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+import { addNodeMaterial } from './NodeMaterial.js';
+import { transformedClearcoatNormalView } from '../accessors/NormalNode.js';
+import { clearcoat, clearcoatRoughness, sheen, sheenRoughness, iridescence, iridescenceIOR, iridescenceThickness, specularColor, specularF90, diffuseColor, metalness, roughness, anisotropy, alphaT, anisotropyT, anisotropyB, ior, transmission, thickness, attenuationDistance, attenuationColor } from '../core/PropertyNode.js';
+import { materialClearcoat, materialClearcoatRoughness, materialClearcoatNormal, materialSheen, materialSheenRoughness, materialIridescence, materialIridescenceIOR, materialIridescenceThickness, materialSpecularIntensity, materialSpecularColor, materialAnisotropy, materialIOR, materialTransmission, materialThickness, materialAttenuationDistance, materialAttenuationColor } from '../accessors/MaterialNode.js';
+import { float, vec2, vec3, If } from '../shadernode/ShaderNode.js';
+import { TBNViewMatrix } from '../accessors/AccessorsUtils.js';
+import PhysicalLightingModel from '../functions/PhysicalLightingModel.js';
+import MeshStandardNodeMaterial from './MeshStandardNodeMaterial.js';
+import { mix, pow2, min } from '../math/MathNode.js';
+import { MeshPhysicalMaterial } from 'three';
+
+const defaultValues = new MeshPhysicalMaterial();
+
+class MeshPhysicalNodeMaterial extends MeshStandardNodeMaterial {
+
+	constructor( parameters ) {
+
+		super();
+
+		this.isMeshPhysicalNodeMaterial = true;
+
+		this.clearcoatNode = null;
+		this.clearcoatRoughnessNode = null;
+		this.clearcoatNormalNode = null;
+
+		this.sheenNode = null;
+		this.sheenRoughnessNode = null;
+
+		this.iridescenceNode = null;
+		this.iridescenceIORNode = null;
+		this.iridescenceThicknessNode = null;
+
+		this.specularIntensityNode = null;
+		this.specularColorNode = null;
+
+		this.iorNode = null;
+		this.transmissionNode = null;
+		this.thicknessNode = null;
+		this.attenuationDistanceNode = null;
+		this.attenuationColorNode = null;
+
+		this.anisotropyNode = null;
+
+		this.setDefaultValues( defaultValues );
+
+		this.setValues( parameters );
+
+	}
+
+	get useClearcoat() {
+
+		return this.clearcoat > 0 || this.clearcoatNode !== null;
+
+	}
+
+	get useIridescence() {
+
+		return this.iridescence > 0 || this.iridescenceNode !== null;
+
+	}
+
+	get useSheen() {
+
+		return this.sheen > 0 || this.sheenNode !== null;
+
+	}
+
+	get useAnisotropy() {
+
+		return this.anisotropy > 0 || this.anisotropyNode !== null;
+
+	}
+
+	get useTransmission() {
+
+		return this.transmission > 0 || this.transmissionNode !== null;
+
+	}
+
+	setupSpecular() {
+
+		const iorNode = this.iorNode ? float( this.iorNode ) : materialIOR;
+
+		ior.assign( iorNode );
+		specularColor.assign( mix( min( pow2( ior.sub( 1.0 ).div( ior.add( 1.0 ) ) ).mul( materialSpecularColor ), vec3( 1.0 ) ).mul( materialSpecularIntensity ), diffuseColor.rgb, metalness ) );
+		specularF90.assign( mix( materialSpecularIntensity, 1.0, metalness ) );
+
+	}
+
+	setupLightingModel( /*builder*/ ) {
+
+		return new PhysicalLightingModel( this.useClearcoat, this.useSheen, this.useIridescence, this.useAnisotropy, this.useTransmission );
+
+	}
+
+	setupVariants( builder ) {
+
+		super.setupVariants( builder );
+
+		// CLEARCOAT
+
+		if ( this.useClearcoat ) {
+
+			const clearcoatNode = this.clearcoatNode ? float( this.clearcoatNode ) : materialClearcoat;
+			const clearcoatRoughnessNode = this.clearcoatRoughnessNode ? float( this.clearcoatRoughnessNode ) : materialClearcoatRoughness;
+
+			clearcoat.assign( clearcoatNode );
+			clearcoatRoughness.assign( clearcoatRoughnessNode );
+
+		}
+
+		// SHEEN
+
+		if ( this.useSheen ) {
+
+			const sheenNode = this.sheenNode ? vec3( this.sheenNode ) : materialSheen;
+			const sheenRoughnessNode = this.sheenRoughnessNode ? float( this.sheenRoughnessNode ) : materialSheenRoughness;
+
+			sheen.assign( sheenNode );
+			sheenRoughness.assign( sheenRoughnessNode );
+
+		}
+
+		// IRIDESCENCE
+
+		if ( this.useIridescence ) {
+
+			const iridescenceNode = this.iridescenceNode ? float( this.iridescenceNode ) : materialIridescence;
+			const iridescenceIORNode = this.iridescenceIORNode ? float( this.iridescenceIORNode ) : materialIridescenceIOR;
+			const iridescenceThicknessNode = this.iridescenceThicknessNode ? float( this.iridescenceThicknessNode ) : materialIridescenceThickness;
+
+			iridescence.assign( iridescenceNode );
+			iridescenceIOR.assign( iridescenceIORNode );
+			iridescenceThickness.assign( iridescenceThicknessNode );
+
+		}
+
+		// ANISOTROPY
+
+		if ( this.useAnisotropy ) {
+
+			const anisotropyV = ( this.anisotropyNode ? vec2( this.anisotropyNode ) : materialAnisotropy ).toVar();
+
+			anisotropy.assign( anisotropyV.length() );
+
+			If( anisotropy.equal( 0.0 ), () => {
+
+				anisotropyV.assign( vec2( 1.0, 0.0 ) );
+
+			} ).else( () => {
+
+				anisotropyV.divAssign( anisotropy );
+				anisotropy.assign( anisotropy.saturate() );
+
+			} );
+
+			// Roughness along the anisotropy bitangent is the material roughness, while the tangent roughness increases with anisotropy.
+			alphaT.assign( anisotropy.pow2().mix( roughness.pow2(), 1.0 ) );
+
+			anisotropyT.assign( TBNViewMatrix[ 0 ].mul( anisotropyV.x ).add( TBNViewMatrix[ 1 ].mul( anisotropyV.y ) ) );
+			anisotropyB.assign( TBNViewMatrix[ 1 ].mul( anisotropyV.x ).sub( TBNViewMatrix[ 0 ].mul( anisotropyV.y ) ) );
+
+		}
+
+		// TRANSMISSION
+
+		if ( this.useTransmission ) {
+
+			const transmissionNode = this.transmissionNode ? float( this.transmissionNode ) : materialTransmission;
+			const thicknessNode = this.thicknessNode ? float( this.thicknessNode ) : materialThickness;
+			const attenuationDistanceNode = this.attenuationDistanceNode ? float( this.attenuationDistanceNode ) : materialAttenuationDistance;
+			const attenuationColorNode = this.attenuationColorNode ? vec3( this.attenuationColorNode ) : materialAttenuationColor;
+
+			transmission.assign( transmissionNode );
+			thickness.assign( thicknessNode );
+			attenuationDistance.assign( attenuationDistanceNode );
+			attenuationColor.assign( attenuationColorNode );
+
+		}
+
+	}
+
+	setupNormal( builder ) {
+
+		super.setupNormal( builder );
+
+		// CLEARCOAT NORMAL
+
+		const clearcoatNormalNode = this.clearcoatNormalNode ? vec3( this.clearcoatNormalNode ) : materialClearcoatNormal;
+
+		transformedClearcoatNormalView.assign( clearcoatNormalNode );
+
+	}
+
+	copy( source ) {
+
+		this.clearcoatNode = source.clearcoatNode;
+		this.clearcoatRoughnessNode = source.clearcoatRoughnessNode;
+		this.clearcoatNormalNode = source.clearcoatNormalNode;
+
+		this.sheenNode = source.sheenNode;
+		this.sheenRoughnessNode = source.sheenRoughnessNode;
+
+		this.iridescenceNode = source.iridescenceNode;
+		this.iridescenceIORNode = source.iridescenceIORNode;
+		this.iridescenceThicknessNode = source.iridescenceThicknessNode;
+
+		this.specularIntensityNode = source.specularIntensityNode;
+		this.specularColorNode = source.specularColorNode;
+
+		this.transmissionNode = source.transmissionNode;
+		this.thicknessNode = source.thicknessNode;
+		this.attenuationDistanceNode = source.attenuationDistanceNode;
+		this.attenuationColorNode = source.attenuationColorNode;
+
+		this.anisotropyNode = source.anisotropyNode;
+
+		return super.copy( source );
+
+	}
+
+}
+
+export default MeshPhysicalNodeMaterial;
+
+addNodeMaterial( 'MeshPhysicalNodeMaterial', MeshPhysicalNodeMaterial );