+ # just bytes not structures
+ sr_compile.string_data = bytearray()
+ sr_compile.pack_data = bytearray()
+
+ # variable
+ sr_compile.entity_data = {}
+ sr_compile.entity_info = {}
+
+ print( F"[SR] assign entity ID's" )
+ sr_compile.entities = {}
+ sr_compile.entity_ids = {}
+
+ # begin
+ # -------------------------------------------------------
+
+ sr_compile_string( "null" )
+
+ mesh_count = 0
+ for obj in collection.all_objects: #{
+ if obj.type == 'MESH':#{
+ mesh_count += 1
+ #}
+
+ ent_type = obj_ent_type( obj )
+ if ent_type == 'none': continue
+
+ if ent_type not in sr_compile.entities: sr_compile.entities[ent_type] = []
+ sr_compile.entity_ids[obj.name] = len( sr_compile.entities[ent_type] )
+ sr_compile.entities[ent_type] += [obj]
+ #}
+
+ print( F"[SR] Compiling geometry" )
+ i=0
+ for obj in collection.all_objects:#{
+ if obj.type == 'MESH':#{
+ i+=1
+
+ ent_type = obj_ent_type( obj )
+
+ # entity ignore mesh list
+ #
+ if ent_type == 'ent_traffic': continue
+ if ent_type == 'ent_font': continue
+ if ent_type == 'ent_font_variant': continue
+ if ent_type == 'ent_menuitem': continue
+ if ent_type == 'ent_challenge': continue
+
+ #TODO: This is messy.
+ if ent_type == 'ent_gate':#{
+ obj_data = obj.SR_data.ent_gate[0]
+ if obj_data.custom: continue
+ #}
+ #--------------------------
+
+ print( F'[SR] {i: 3}/{mesh_count} {obj.name:<40}', end='\r' )
+ sr_compile_mesh( obj )
+ #}
+ #}
+
+ audio_clip_count = 0
+
+ for ent_type, arr in sr_compile.entities.items():#{
+ print(F"[SR] Compiling {len(arr)} {ent_type}{'s' if len(arr)>1 else ''}")
+
+ for i in range(len(arr)):#{
+ obj = arr[i]
+
+ print( F"[SR] {i+1: 3}/{len(arr)} {obj.name:<40} ",end='\r' )
+
+ if ent_type == 'mdl_armature': sr_compile_armature(obj)
+ elif ent_type == 'ent_light': #{
+ light = ent_light()
+ compile_obj_transform( obj, light.transform )
+ light.daytime = obj.data.SR_data.daytime
+ if obj.data.type == 'POINT':#{
+ light.type = 0
+ #}
+ elif obj.data.type == 'SPOT':#{
+ light.type = 1
+ light.angle = obj.data.spot_size*0.5
+ #}
+ light.range = obj.data.cutoff_distance
+ light.colour[0] = obj.data.color[0]
+ light.colour[1] = obj.data.color[1]
+ light.colour[2] = obj.data.color[2]
+ light.colour[3] = obj.data.energy
+ sr_ent_push( light )
+ #}
+ elif ent_type == 'ent_camera': #{
+ cam = ent_camera()
+ compile_obj_transform( obj, cam.transform )
+ cam.fov = obj.data.angle * 45.0
+ sr_ent_push(cam)
+ #}
+ elif ent_type == 'ent_gate': #{
+ gate = ent_gate()
+ obj_data = obj.SR_data.ent_gate[0]
+ mesh_data = obj.data.SR_data.ent_gate[0]
+
+ flags = 0x0000
+
+ if obj_data.tipo == 'default':#{
+ if obj_data.target:#{
+ gate.target = sr_compile.entity_ids[obj_data.target.name]
+ flags |= 0x0001
+ #}
+ #}
+ elif obj_data.tipo == 'nonlocal':#{
+ gate.target = 0
+ gate.key = sr_compile_string(obj_data.key)
+ flags |= 0x0002
+ #}
+
+ if obj_data.flip: flags |= 0x0004
+ if obj_data.custom:#{
+ flags |= 0x0008
+ gate.submesh_start, gate.submesh_count, _ = \
+ sr_compile_mesh_internal( obj )
+ #}
+ if obj_data.locked: flags |= 0x0010
+ gate.flags = flags
+
+ gate.dimensions[0] = mesh_data.dimensions[0]
+ gate.dimensions[1] = mesh_data.dimensions[1]
+ gate.dimensions[2] = mesh_data.dimensions[2]
+
+ q = [obj.matrix_local.to_quaternion(), (0,0,0,1)]
+ co = [obj.matrix_world @ Vector((0,0,0)), (0,0,0)]
+
+ if obj_data.target:#{
+ q[1] = obj_data.target.matrix_local.to_quaternion()
+ co[1]= obj_data.target.matrix_world @ Vector((0,0,0))
+ #}
+
+ # Setup transform
+ #
+ for x in range(2):#{
+ gate.co[x][0] = co[x][0]
+ gate.co[x][1] = co[x][2]
+ gate.co[x][2] = -co[x][1]
+ gate.q[x][0] = q[x][1]
+ gate.q[x][1] = q[x][3]
+ gate.q[x][2] = -q[x][2]
+ gate.q[x][3] = q[x][0]
+ #}
+
+ sr_ent_push( gate )
+ #}
+ elif ent_type == 'ent_spawn': #{
+ spawn = ent_spawn()
+ compile_obj_transform( obj, spawn.transform )
+ obj_data = obj.SR_data.ent_spawn[0]
+ spawn.pstr_name = sr_compile_string( obj_data.alias )
+ sr_ent_push( spawn )
+ #}
+ elif ent_type == 'ent_water':#{
+ water = ent_water()
+ compile_obj_transform( obj, water.transform )
+ water.max_dist = 0.0
+ sr_ent_push( water )
+ #}
+ elif ent_type == 'ent_audio':#{
+ obj_data = obj.SR_data.ent_audio[0]
+ audio = ent_audio()
+ compile_obj_transform( obj, audio.transform )
+ audio.clip_start = audio_clip_count
+ audio.clip_count = len(obj_data.files)
+ audio_clip_count += audio.clip_count
+ audio.max_channels = obj_data.max_channels
+ audio.volume = obj_data.volume
+
+ # TODO flags:
+ # - allow/disable doppler
+ # - channel group tags with random colours
+ # - transition properties
+
+ if obj_data.flag_loop: audio.flags |= 0x1
+ if obj_data.flag_nodoppler: audio.flags |= 0x2
+ if obj_data.flag_3d: audio.flags |= 0x4
+ if obj_data.flag_auto: audio.flags |= 0x8
+ if obj_data.formato == '0': audio.flags |= 0x000
+ elif obj_data.formato == '1': audio.flags |= 0x400
+ elif obj_data.formato == '2': audio.flags |= 0x1000
+
+ audio.channel_behaviour = int(obj_data.channel_behaviour)
+ if audio.channel_behaviour >= 1:#{
+ audio.group = obj_data.group
+ #}
+ if audio.channel_behaviour == 2:#{
+ audio.crossfade = obj_data.transition_duration
+ #}
+ audio.probability_curve = int(obj_data.probability_curve)
+
+ for ci in range(audio.clip_count):#{
+ entry = obj_data.files[ci]
+ clip = ent_audio_clip()
+ clip.probability = entry.probability
+ if obj_data.formato == '2':#{
+ sr_pack_file( clip._anon.file, '', vg_str_bin(entry.path) )
+ #}
+ else:#{
+ clip._anon.file.path = sr_compile_string( entry.path )
+ clip._anon.file.pack_offset = 0
+ clip._anon.file.pack_size = 0
+ #}
+ sr_ent_push( clip )
+ #}
+ sr_ent_push( audio )
+ #}
+ elif ent_type == 'ent_volume':#{
+ obj_data = obj.SR_data.ent_volume[0]
+ volume = ent_volume()
+ volume.type = int(obj_data.subtype)
+ compile_obj_transform( obj, volume.transform )
+
+ if obj_data.target:#{
+ volume.target = sr_entity_id( obj_data.target )
+ volume._anon.trigger.event = obj_data.target_event
+ #}
+
+ sr_ent_push(volume)
+ #}
+ elif ent_type == 'ent_marker':#{
+ marker = ent_marker()
+ marker.name = sr_compile_string( obj.SR_data.ent_marker[0].alias )
+ compile_obj_transform( obj, marker.transform )
+ sr_ent_push(marker)
+ #}
+ elif ent_type == 'ent_skateshop':#{
+ skateshop = ent_skateshop()
+ obj_data = obj.SR_data.ent_skateshop[0]
+ skateshop.type = int(obj_data.tipo)
+ if skateshop.type == 0:#{
+ boardshop = skateshop._anonymous_union.boards
+ boardshop.id_display = sr_entity_id( obj_data.mark_display )
+ boardshop.id_info = sr_entity_id( obj_data.mark_info )
+ boardshop.id_rack = sr_entity_id( obj_data.mark_rack )
+ #}
+ elif skateshop.type == 1:#{
+ charshop = skateshop._anonymous_union.character
+ charshop.id_display = sr_entity_id( obj_data.mark_display )
+ charshop.id_info = sr_entity_id( obj_data.mark_info )
+ #}
+ elif skateshop.type == 2:#{
+ worldshop = skateshop._anonymous_union.worlds
+ worldshop.id_display = sr_entity_id( obj_data.mark_display )
+ worldshop.id_info = sr_entity_id( obj_data.mark_info )
+ #}
+ skateshop.id_camera = sr_entity_id( obj_data.cam )
+ compile_obj_transform( obj, skateshop.transform )
+ sr_ent_push(skateshop)
+ #}
+ elif ent_type == 'ent_swspreview':#{
+ workshop_preview = ent_swspreview()
+ obj_data = obj.SR_data.ent_swspreview[0]
+ workshop_preview.id_display = sr_entity_id( obj_data.mark_display )
+ workshop_preview.id_display1 = sr_entity_id( obj_data.mark_display1)
+ workshop_preview.id_camera = sr_entity_id( obj_data.cam )
+ sr_ent_push( workshop_preview )
+ #}
+ elif ent_type == 'ent_worldinfo':#{
+ worldinfo = ent_worldinfo()
+ obj_data = obj.SR_data.ent_worldinfo[0]
+ worldinfo.pstr_name = sr_compile_string( obj_data.name )
+ worldinfo.pstr_author = sr_compile_string( obj_data.author )
+ worldinfo.pstr_desc = sr_compile_string( obj_data.desc )
+ worldinfo.timezone = obj_data.timezone
+ sr_ent_push( worldinfo )
+ #}
+ elif ent_type == 'ent_ccmd':#{
+ ccmd = ent_ccmd()
+ obj_data = obj.SR_data.ent_ccmd[0]
+ ccmd.pstr_command = sr_compile_string( obj_data.command )
+ sr_ent_push( ccmd )
+ #}
+ elif ent_type == 'ent_challenge':#{
+ challenge = ent_challenge()
+ obj_data = obj.SR_data.ent_challenge[0]
+ challenge.id_next = sr_entity_id( obj_data.proxima )
+ challenge.id_win = sr_entity_id( obj_data.target )
+ challenge.win_event = obj_data.target_event
+ challenge.filter = int(obj_data.filtrar)
+ challenge.filter2 = 0
+ challenge.time_limit = obj_data.time_limit
+
+ compile_obj_transform( obj, challenge.transform )
+ challenge.submesh_start, challenge.submesh_count, _ = \
+ sr_compile_mesh_internal( obj )
+
+ sr_ent_push( challenge )
+ #}
+ elif ent_type == 'ent_unlock':#{
+ unlock = ent_unlock()
+ obj_data = obj.SR_data.ent_unlock[0]
+ unlock.pstr_alias = sr_compile_string( obj_data.alias )
+ unlock.target = sr_entity_id( obj_data.target )
+ unlock.target_event = obj_data.target_event
+ unlock.status = 0
+ sr_ent_push( unlock )
+ #}
+ elif ent_type == 'ent_relay':#{
+ relay = ent_relay()
+ obj_data = obj.SR_data.ent_relay[0]
+ relay.targets[0][0] = sr_entity_id( obj_data.target0 )
+ relay.targets[1][0] = sr_entity_id( obj_data.target1 )
+ relay.targets[2][0] = sr_entity_id( obj_data.target2 )
+ relay.targets[3][0] = sr_entity_id( obj_data.target3 )
+ relay.targets[0][1] = obj_data.target0_event
+ relay.targets[1][1] = obj_data.target1_event
+ relay.targets[2][1] = obj_data.target2_event
+ relay.targets[3][1] = obj_data.target3_event
+ sr_ent_push( relay )
+ #}
+ elif ent_type == 'ent_cubemap':#{
+ cubemap = ent_cubemap()
+ co = obj.matrix_world @ Vector((0,0,0))
+ cubemap.co[0] = co[0]
+ cubemap.co[1] = co[2]
+ cubemap.co[2] = -co[1]
+ cubemap.resolution = 0
+ cubemap.live = 60
+ sr_ent_push( cubemap )
+ #}
+ #}
+ #}
+
+ sr_compile_menus( collection )
+ sr_compile_fonts( collection )
+
+ def _children( col ):#{
+ yield col
+ for c in col.children:#{
+ yield from _children(c)
+ #}
+ #}
+
+ checkpoint_count = 0
+ pathindice_count = 0
+ routenode_count = 0
+
+ for col in _children(collection):#{
+ print( F"Adding routes for subcollection: {col.name}" )
+ route_gates = []
+ route_curves = []
+ routes = []
+ traffics = []
+
+ for obj in col.objects:#{
+ if obj.type == 'ARMATURE': pass
+ else:#{
+ ent_type = obj_ent_type( obj )
+
+ if ent_type == 'ent_gate':
+ route_gates += [obj]
+ elif ent_type == 'ent_route_node':#{
+ if obj.type == 'CURVE':#{
+ route_curves += [obj]
+ #}
+ #}
+ elif ent_type == 'ent_route':
+ routes += [obj]
+ elif ent_type == 'ent_traffic':
+ traffics += [obj]
+ #}
+ #}
+
+ dij = create_node_graph( route_curves, route_gates )
+
+ for obj in routes:#{
+ obj_data = obj.SR_data.ent_route[0]
+ route = ent_route()
+ route.pstr_name = sr_compile_string( obj_data.alias )
+ route.checkpoints_start = checkpoint_count
+ route.checkpoints_count = 0
+
+ for ci in range(3):
+ route.colour[ci] = obj_data.colour[ci]
+ route.colour[3] = 1.0
+
+ compile_obj_transform( obj, route.transform )
+ checkpoints = obj_data.gates
+
+ for i in range(len(checkpoints)):#{
+ gi = checkpoints[i].target
+ gj = checkpoints[(i+1)%len(checkpoints)].target
+ gate = gi
+
+ if gi:#{
+ dest = gi.SR_data.ent_gate[0].target
+ gi = dest
+ #}
+
+ if gi==gj: continue # error?
+ if not gi or not gj: continue
+
+ checkpoint = ent_checkpoint()
+ checkpoint.gate_index = sr_compile.entity_ids[gate.name]
+ checkpoint.path_start = pathindice_count
+ checkpoint.path_count = 0
+
+ path = solve_graph( dij, gi.name, gj.name )
+
+ if path:#{
+ for pi in range(len(path)):#{
+ pathindice = ent_path_index()
+ pathindice.index = routenode_count + path[pi]
+ sr_ent_push( pathindice )
+
+ checkpoint.path_count += 1
+ pathindice_count += 1
+ #}
+ #}
+
+ sr_ent_push( checkpoint )
+ route.checkpoints_count += 1
+ checkpoint_count += 1
+ #}
+
+ sr_ent_push( route )
+ #}
+
+ for obj in traffics:#{
+ traffic = ent_traffic()
+ compile_obj_transform( obj, traffic.transform )
+ traffic.submesh_start, traffic.submesh_count, _ = \
+ sr_compile_mesh_internal( obj )
+
+ # find best subsection
+
+ graph_keys = list(dij.graph)
+ min_dist = 100.0
+ best_point = 0
+
+ for j in range(len(dij.points)):#{
+ point = dij.points[j]
+ dist = (point-obj.location).magnitude
+
+ if dist < min_dist:#{
+ min_dist = dist
+ best_point = j
+ #}
+ #}
+
+ # scan to each edge
+ best_begin = best_point
+ best_end = best_point
+
+ while True:#{
+ map0 = dij.subsections[best_begin]
+ if map0[1] == -1: break
+ best_begin = map0[1]
+ #}
+ while True:#{
+ map1 = dij.subsections[best_end]
+ if map1[2] == -1: break
+ best_end = map1[2]
+ #}
+
+ traffic.start_node = routenode_count + best_begin
+ traffic.node_count = best_end - best_begin
+ traffic.index = best_point - best_begin
+ traffic.speed = obj.SR_data.ent_traffic[0].speed
+ traffic.t = 0.0
+
+ sr_ent_push(traffic)
+ #}
+
+ for point in dij.points:#{
+ rn = ent_route_node()
+ rn.co[0] = point[0]
+ rn.co[1] = point[2]
+ rn.co[2] = -point[1]
+ sr_ent_push( rn )
+ #}
+
+ routenode_count += len(dij.points)
+ #}
+
+ print( F"[SR] Writing file" )
+
+ file_array_instructions = {}
+ file_offset = 0
+
+ def _write_array( name, item_size, data ):#{
+ nonlocal file_array_instructions, file_offset
+
+ count = len(data)//item_size
+ file_array_instructions[name] = {'count':count, 'size':item_size,\
+ 'data':data, 'offset': file_offset}
+ file_offset += len(data)
+ file_offset = int_align_to( file_offset, 8 )
+ #}
+
+ _write_array( 'strings', 1, sr_compile.string_data )
+ _write_array( 'mdl_mesh', sizeof(mdl_mesh), sr_compile.mesh_data )
+ _write_array( 'mdl_submesh', sizeof(mdl_submesh), sr_compile.submesh_data )
+ _write_array( 'mdl_material', sizeof(mdl_material), sr_compile.material_data)
+ _write_array( 'mdl_texture', sizeof(mdl_texture), sr_compile.texture_data)
+ _write_array( 'mdl_armature', sizeof(mdl_armature), sr_compile.armature_data)
+ _write_array( 'mdl_bone', sizeof(mdl_bone), sr_compile.bone_data )
+
+ for name, buffer in sr_compile.entity_data.items():#{
+ _write_array( name, sr_compile.entity_info[name]['size'], buffer )
+ #}
+
+ _write_array( 'mdl_animation', sizeof(mdl_animation), sr_compile.anim_data)
+ _write_array( 'mdl_keyframe', sizeof(mdl_transform),sr_compile.keyframe_data)
+ _write_array( 'mdl_vert', sizeof(mdl_vert), sr_compile.vertex_data )
+ _write_array( 'mdl_indice', sizeof(c_uint32), sr_compile.indice_data )
+ _write_array( 'pack', 1, sr_compile.pack_data )
+
+ header_size = int_align_to( sizeof(mdl_header), 8 )
+ index_size = int_align_to( sizeof(mdl_array)*len(file_array_instructions),8 )
+
+ folder = bpy.path.abspath(bpy.context.scene.SR_data.export_dir)
+ path = F"{folder}{collection.name}.mdl"
+ print( path )
+
+ os.makedirs(os.path.dirname(path),exist_ok=True)
+ fp = open( path, "wb" )
+ header = mdl_header()
+ header.version = MDL_VERSION_NR
+ sr_array_title( header.arrays, \
+ 'index', len(file_array_instructions), \
+ sizeof(mdl_array), header_size )
+
+ fp.write( bytearray_align_to( bytearray(header), 8 ) )
+
+ print( F'[SR] {"name":>16}| count | offset' )
+ index = bytearray()
+ for name,info in file_array_instructions.items():#{
+ arr = mdl_array()
+ offset = info['offset'] + header_size + index_size
+ sr_array_title( arr, name, info['count'], info['size'], offset )
+ index.extend( bytearray(arr) )
+
+ print( F'[SR] {name:>16}| {info["count"]: 8} '+\
+ F' 0x{info["offset"]:02x}' )
+ #}
+ fp.write( bytearray_align_to( index, 8 ) )
+ #bytearray_print_hex( index )
+
+ for name,info in file_array_instructions.items():#{
+ fp.write( bytearray_align_to( info['data'], 8 ) )
+ #}
+
+ fp.close()
+
+ print( '[SR] done' )
+#}
+
+class SR_SCENE_SETTINGS(bpy.types.PropertyGroup):
+#{
+ use_hidden: bpy.props.BoolProperty( name="use hidden", default=False )
+ export_dir: bpy.props.StringProperty( name="Export Dir", subtype='DIR_PATH' )
+ gizmos: bpy.props.BoolProperty( name="Draw Gizmos", default=True )
+
+ panel: bpy.props.EnumProperty(
+ name='Panel',
+ description='',
+ items=[
+ ('EXPORT', 'Export', '', 'MOD_BUILD',0),
+ ('ENTITY', 'Entity', '', 'MONKEY',1),
+ ('SETTINGS', 'Settings', 'Settings', 'PREFERENCES',2),
+ ],
+ )
+#}
+
+class SR_COLLECTION_SETTINGS(bpy.types.PropertyGroup):
+#{
+ pack_textures: bpy.props.BoolProperty( name="Pack Textures", default=False )
+ animations: bpy.props.BoolProperty( name="Export animation", default=True)
+#}
+
+def sr_get_mirror_bone( bones ):
+#{
+ side = bones.active.name[-1:]
+ other_name = bones.active.name[:-1]
+ if side == 'L': other_name += 'R'
+ elif side == 'R': other_name += 'L'
+ else: return None
+
+ for b in bones:#{
+ if b.name == other_name:
+ return b
+ #}
+
+ return None
+#}
+
+class SR_MIRROR_BONE_X(bpy.types.Operator):
+#{
+ bl_idname="skaterift.mirror_bone"
+ bl_label="Mirror bone attributes - SkateRift"
+
+ def execute(_,context):
+ #{
+ active_object = context.active_object
+ bones = active_object.data.bones
+ a = bones.active
+ b = sr_get_mirror_bone( bones )
+
+ if not b: return {'FINISHED'}
+
+ b.SR_data.collider = a.SR_data.collider
+
+ def _v3copyflipy( a, b ):#{
+ b[0] = a[0]
+ b[1] = -a[1]
+ b[2] = a[2]
+ #}
+
+ _v3copyflipy( a.SR_data.collider_min, b.SR_data.collider_min )
+ _v3copyflipy( a.SR_data.collider_max, b.SR_data.collider_max )
+ b.SR_data.collider_min[1] = -a.SR_data.collider_max[1]
+ b.SR_data.collider_max[1] = -a.SR_data.collider_min[1]
+
+ b.SR_data.cone_constraint = a.SR_data.cone_constraint
+
+ _v3copyflipy( a.SR_data.conevx, b.SR_data.conevy )
+ _v3copyflipy( a.SR_data.conevy, b.SR_data.conevx )
+ _v3copyflipy( a.SR_data.coneva, b.SR_data.coneva )
+
+ b.SR_data.conet = a.SR_data.conet
+
+ # redraw
+ ob = bpy.context.scene.objects[0]
+ ob.hide_render = ob.hide_render
+ return {'FINISHED'}
+ #}
+#}
+
+class SR_COMPILE(bpy.types.Operator):
+#{
+ bl_idname="skaterift.compile_all"
+ bl_label="Compile All"