/** * @author mrdoob / http://mrdoob.com/ * @author alteredq / http://alteredqualia.com/ */ THREE.GeometryUtils = { // Merge two geometries or geometry and geometry from object (using object's transform) merge: function ( geometry1, geometry2, materialIndexOffset ) { console.warn( 'THREE.GeometryUtils: .merge() has been moved to Geometry. Use geometry.merge( geometry2, matrix, materialIndexOffset ) instead.' ); var matrix; if ( geometry2 instanceof THREE.Mesh ) { geometry2.matrixAutoUpdate && geometry2.updateMatrix(); matrix = geometry2.matrix; geometry2 = geometry2.geometry; } geometry1.merge( geometry2, matrix, materialIndexOffset ); }, // Get random point in triangle (via barycentric coordinates) // (uniform distribution) // http://www.cgafaq.info/wiki/Random_Point_In_Triangle randomPointInTriangle: function () { var vector = new THREE.Vector3(); return function ( vectorA, vectorB, vectorC ) { var point = new THREE.Vector3(); var a = Math.random(); var b = Math.random(); if ( ( a + b ) > 1 ) { a = 1 - a; b = 1 - b; } var c = 1 - a - b; point.copy( vectorA ); point.multiplyScalar( a ); vector.copy( vectorB ); vector.multiplyScalar( b ); point.add( vector ); vector.copy( vectorC ); vector.multiplyScalar( c ); point.add( vector ); return point; }; }(), // Get random point in face (triangle) // (uniform distribution) randomPointInFace: function ( face, geometry ) { var vA, vB, vC; vA = geometry.vertices[ face.a ]; vB = geometry.vertices[ face.b ]; vC = geometry.vertices[ face.c ]; return THREE.GeometryUtils.randomPointInTriangle( vA, vB, vC ); }, // Get uniformly distributed random points in mesh // - create array with cumulative sums of face areas // - pick random number from 0 to total area // - find corresponding place in area array by binary search // - get random point in face randomPointsInGeometry: function ( geometry, n ) { var face, i, faces = geometry.faces, vertices = geometry.vertices, il = faces.length, totalArea = 0, cumulativeAreas = [], vA, vB, vC; // precompute face areas for ( i = 0; i < il; i ++ ) { face = faces[ i ]; vA = vertices[ face.a ]; vB = vertices[ face.b ]; vC = vertices[ face.c ]; face._area = THREE.GeometryUtils.triangleArea( vA, vB, vC ); totalArea += face._area; cumulativeAreas[ i ] = totalArea; } // binary search cumulative areas array function binarySearchIndices( value ) { function binarySearch( start, end ) { // return closest larger index // if exact number is not found if ( end < start ) return start; var mid = start + Math.floor( ( end - start ) / 2 ); if ( cumulativeAreas[ mid ] > value ) { return binarySearch( start, mid - 1 ); } else if ( cumulativeAreas[ mid ] < value ) { return binarySearch( mid + 1, end ); } else { return mid; } } var result = binarySearch( 0, cumulativeAreas.length - 1 ); return result; } // pick random face weighted by face area var r, index, result = []; var stats = {}; for ( i = 0; i < n; i ++ ) { r = Math.random() * totalArea; index = binarySearchIndices( r ); result[ i ] = THREE.GeometryUtils.randomPointInFace( faces[ index ], geometry ); if ( ! stats[ index ] ) { stats[ index ] = 1; } else { stats[ index ] += 1; } } return result; }, randomPointsInBufferGeometry: function ( geometry, n ) { var i, vertices = geometry.attributes.position.array, totalArea = 0, cumulativeAreas = [], vA, vB, vC; // precompute face areas vA = new THREE.Vector3(); vB = new THREE.Vector3(); vC = new THREE.Vector3(); // geometry._areas = []; var il = vertices.length / 9; for ( i = 0; i < il; i ++ ) { vA.set( vertices[ i * 9 + 0 ], vertices[ i * 9 + 1 ], vertices[ i * 9 + 2 ] ); vB.set( vertices[ i * 9 + 3 ], vertices[ i * 9 + 4 ], vertices[ i * 9 + 5 ] ); vC.set( vertices[ i * 9 + 6 ], vertices[ i * 9 + 7 ], vertices[ i * 9 + 8 ] ); area = THREE.GeometryUtils.triangleArea( vA, vB, vC ); totalArea += area; cumulativeAreas.push( totalArea ); } // binary search cumulative areas array function binarySearchIndices( value ) { function binarySearch( start, end ) { // return closest larger index // if exact number is not found if ( end < start ) return start; var mid = start + Math.floor( ( end - start ) / 2 ); if ( cumulativeAreas[ mid ] > value ) { return binarySearch( start, mid - 1 ); } else if ( cumulativeAreas[ mid ] < value ) { return binarySearch( mid + 1, end ); } else { return mid; } } var result = binarySearch( 0, cumulativeAreas.length - 1 ); return result; } // pick random face weighted by face area var r, index, result = []; for ( i = 0; i < n; i ++ ) { r = Math.random() * totalArea; index = binarySearchIndices( r ); // result[ i ] = THREE.GeometryUtils.randomPointInFace( faces[ index ], geometry, true ); vA.set( vertices[ index * 9 + 0 ], vertices[ index * 9 + 1 ], vertices[ index * 9 + 2 ] ); vB.set( vertices[ index * 9 + 3 ], vertices[ index * 9 + 4 ], vertices[ index * 9 + 5 ] ); vC.set( vertices[ index * 9 + 6 ], vertices[ index * 9 + 7 ], vertices[ index * 9 + 8 ] ); result[ i ] = THREE.GeometryUtils.randomPointInTriangle( vA, vB, vC ); } return result; }, // Get triangle area (half of parallelogram) // http://mathworld.wolfram.com/TriangleArea.html triangleArea: function () { var vector1 = new THREE.Vector3(); var vector2 = new THREE.Vector3(); return function ( vectorA, vectorB, vectorC ) { vector1.subVectors( vectorB, vectorA ); vector2.subVectors( vectorC, vectorA ); vector1.cross( vector2 ); return 0.5 * vector1.length(); }; }(), center: function ( geometry ) { console.warn( 'THREE.GeometryUtils: .center() has been moved to Geometry. Use geometry.center() instead.' ); return geometry.center(); } };