[[Category RSC]] This page refers to .ob3, a custom format for 3D models created by Jagex. It is used by the RuneScape Classic engine since client version #74. For the earlier version of the format see [[OB2|OB2]].
public class OB3Model { private static final int num_seq = 0xbc614e; // 12345678 public int vertex_count; public int vertices_x[]; public int vertices_y[]; public int vertices_z[]; public int face_count; public int face_vertex_count[]; public int face_vertices[][]; public int face_fill_back[]; public int face_fill_front[]; public int face_gouraud[]; public OB3Model(byte data[], int offset) { int vertex_count = get_uint16(data, offset); offset += 2; int face_count = get_uint16(data, offset); offset += 2; vertices_x = new int[vertex_count]; vertices_y = new int[vertex_count]; vertices_z = new int[vertex_count]; face_vertex_count = new int[face_count]; face_vertices = new int[face_count][]; face_fill_back = new int[face_count]; face_fill_front = new int[face_count]; face_gouraud = new int[face_count]; for (int v = 0; v < vertex_count; v++) { vertices_x[v] = get_int16b(data, offset); offset += 2; } for (int v = 0; v < vertex_count; v++) { vertices_y[v] = get_int16b(data, offset); offset += 2; } for (int v = 0; v < vertex_count; v++) { vertices_z[v] = get_int16b(data, offset); offset += 2; } this.vertex_count = vertex_count; for (int f = 0; f < face_count; f++) face_vertex_count[f] = get_ubyte(data[offset++]); for (int f = 0; f < face_count; f++) { face_fill_back[f] = get_int16b(data, offset); offset += 2; if (face_fill_back[f] == 32767) face_fill_back[f] = num_seq; } for (int f = 0; f < face_count; f++) { face_fill_front[f] = get_int16b(data, offset); offset += 2; if (face_fill_front[f] == 32767) face_fill_front[f] = num_seq; } for (int f = 0; f < face_count; f++) { int i = get_ubyte(data[offset++]); if (i == 0) face_gouraud[f] = 0; else face_gouraud[f] = num_seq; } for (int f = 0; f < face_count; f++) { face_vertices[f] = new int[face_vertex_count[f]]; for (int fv = 0; fv < face_vertex_count[f]; fv++) { if (vertex_count < 256) { face_vertices[f][fv] = get_ubyte(data[offset++]); } else { face_vertices[f][fv] = get_uint16(data, offset); offset += 2; } } } this.face_count = face_count; } private static int get_ubyte(byte b) { return (b & 0xff); } private static int get_uint16(byte b[], int start) { return (get_ubyte(b[start]) << 8) + get_ubyte(b[start + 1]); } private static int get_int16b(byte b[], int start) { int i = get_ubyte(b[start]) * 256 + get_ubyte(b[start + 1]); if (i > 32767) i -= 0x10000; return i; } }== '''Faces''' == A '''negative''' face_fill_back or face_fill_front value indicates a '''solid colour''', whereas a '''positive''' value indicates a '''texture'''. The texture is defined by its offset in the client's texture array. When converting to/from [http://en.wikipedia.org/wiki/Wavefront_.obj_file Wavefront OBJ] format, remember that the OB3 face vertices are one less than the OBJ face vertices.
public static int decode_colour(int i) { i = -(i + 1); int r = i >> 10 & 0x1f; int g = i >> 5 & 0x1f; int b = i & 0x1f; return (r << 19) + (g << 11) + (b << 3); }
public static int encode_colour(int r, int g, int b) { return -1 - (r / 8) * 1024 - (g / 8) * 32 - b / 8; }