/** * @author sunag / http://www.sunag.com.br/ */ THREE.Math3Node = function( a, b, c, method ) { THREE.TempNode.call( this ); this.a = a; this.b = b; this.c = c; this.method = method || THREE.Math3Node.MIX; }; THREE.Math3Node.MIX = 'mix'; THREE.Math3Node.REFRACT = 'refract'; THREE.Math3Node.SMOOTHSTEP = 'smoothstep'; THREE.Math3Node.FACEFORWARD = 'faceforward'; THREE.Math3Node.prototype = Object.create( THREE.TempNode.prototype ); THREE.Math3Node.prototype.constructor = THREE.Math3Node; THREE.Math3Node.prototype.getType = function( builder ) { var a = builder.getFormatLength( this.a.getType( builder ) ); var b = builder.getFormatLength( this.b.getType( builder ) ); var c = builder.getFormatLength( this.c.getType( builder ) ); if ( a > b && a > c ) return this.a.getType( builder ); else if ( b > c ) return this.b.getType( builder ); return this.c.getType( builder ); }; THREE.Math3Node.prototype.generate = function( builder, output ) { var material = builder.material; var type = this.getType( builder ); var a, b, c, al = builder.getFormatLength( this.a.getType( builder ) ), bl = builder.getFormatLength( this.b.getType( builder ) ), cl = builder.getFormatLength( this.c.getType( builder ) ); // optimzer switch ( this.method ) { case THREE.Math3Node.REFRACT: a = this.a.build( builder, type ); b = this.b.build( builder, type ); c = this.c.build( builder, 'fv1' ); break; case THREE.Math3Node.MIX: a = this.a.build( builder, type ); b = this.b.build( builder, type ); c = this.c.build( builder, cl == 1 ? 'fv1' : type ); break; default: a = this.a.build( builder, type ); b = this.b.build( builder, type ); c = this.c.build( builder, type ); break; } return builder.format( this.method + '(' + a + ',' + b + ',' + c + ')', type, output ); };