import { TempNode } from '../core/TempNode.js';
import { PositionNode } from './PositionNode.js';
import { NormalNode } from './NormalNode.js';

function ReflectNode( scope ) {

	TempNode.call( this, 'v3' );

	this.scope = scope || ReflectNode.CUBE;

}

ReflectNode.CUBE = 'cube';
ReflectNode.SPHERE = 'sphere';
ReflectNode.VECTOR = 'vector';

ReflectNode.prototype = Object.create( TempNode.prototype );
ReflectNode.prototype.constructor = ReflectNode;
ReflectNode.prototype.nodeType = "Reflect";

ReflectNode.prototype.getUnique = function ( builder ) {

	return ! builder.context.viewNormal;

};

ReflectNode.prototype.getType = function ( /* builder */ ) {

	switch ( this.scope ) {

		case ReflectNode.SPHERE:

			return 'v2';

	}

	return this.type;

};

ReflectNode.prototype.generate = function ( builder, output ) {

	var isUnique = this.getUnique( builder );

	if ( builder.isShader( 'fragment' ) ) {

		var result;

		switch ( this.scope ) {

			case ReflectNode.VECTOR:

				var viewNormalNode = new NormalNode( NormalNode.VIEW );
				var roughnessNode = builder.context.roughness;

				var viewNormal = viewNormalNode.build( builder, 'v3' );
				var viewPosition = new PositionNode( PositionNode.VIEW ).build( builder, 'v3' );
				var roughness = roughnessNode ? roughnessNode.build( builder, 'f' ) : undefined;

				var method = `reflect( -normalize( ${viewPosition} ), ${viewNormal} )`;

				if ( roughness ) {

					// Mixing the reflection with the normal is more accurate and keeps rough objects from gathering light from behind their tangent plane.
					method = `normalize( mix( ${method}, ${viewNormal}, ${roughness} * ${roughness} ) )`;

				}

				var code = `inverseTransformDirection( ${method}, viewMatrix )`;

				if ( isUnique ) {

					builder.addNodeCode( `vec3 reflectVec = ${code};` );

					result = 'reflectVec';

				} else {

					result = code;

				}

				break;

			case ReflectNode.CUBE:

				var reflectVec = new ReflectNode( ReflectNode.VECTOR ).build( builder, 'v3' );

				var code = 'vec3( -' + reflectVec + '.x, ' + reflectVec + '.yz )';

				if ( isUnique ) {

					builder.addNodeCode( `vec3 reflectCubeVec = ${code};` );

					result = 'reflectCubeVec';

				} else {

					result = code;

				}

				break;

			case ReflectNode.SPHERE:

				var reflectVec = new ReflectNode( ReflectNode.VECTOR ).build( builder, 'v3' );

				var code = 'normalize( ( viewMatrix * vec4( ' + reflectVec + ', 0.0 ) ).xyz + vec3( 0.0, 0.0, 1.0 ) ).xy * 0.5 + 0.5';

				if ( isUnique ) {

					builder.addNodeCode( `vec2 reflectSphereVec = ${code};` );

					result = 'reflectSphereVec';

				} else {

					result = code;

				}

				break;

		}

		return builder.format( result, this.getType( builder ), output );

	} else {

		console.warn( "THREE.ReflectNode is not compatible with " + builder.shader + " shader." );

		return builder.format( 'vec3( 0.0 )', this.type, output );

	}

};

ReflectNode.prototype.toJSON = function ( meta ) {

	var data = this.getJSONNode( meta );

	if ( ! data ) {

		data = this.createJSONNode( meta );

		data.scope = this.scope;

	}

	return data;

};

export { ReflectNode };