-import bpy, math, gpu
+import bpy, blf, math, gpu, os
import cProfile
from ctypes import *
from mathutils import *
from gpu_extras.batch import batch_for_shader
+from bpy_extras import mesh_utils
+from bpy_extras import view3d_utils
bl_info = {
- "name":"Carve exporter",
+ "name":"Skaterift .mdl exporter",
"author": "Harry Godden (hgn)",
- "version": (0,1),
+ "version": (0,2),
"blender":(3,1,0),
"location":"Export",
- "descriptin":"",
+ "description":"",
"warning":"",
"wiki_url":"",
"category":"Import/Export",
}
-class mdl_vert(Structure):
- _pack_ = 1
+sr_entity_list = [
+ ('none', 'None', '', 0 ),
+ ('ent_gate', 'Gate', '', 1 ),
+ ('ent_spawn', 'Spawn Point', '', 2 ),
+ ('ent_route_node', 'Routing Path', '', 3 ),
+ ('ent_route', 'Skate Course', '', 4 ),
+ ('ent_water', 'Water Surface', '', 5 ),
+ ('ent_volume', 'Volume/Trigger', '', 6 ),
+ ('ent_audio', 'Audio', '', 7 ),
+ ('ent_marker', 'Marker', '', 8 ),
+ ('ent_font', 'Font', '', 9 ),
+ ('ent_font_variant', 'Font:Variant', '', 10 ),
+ ('ent_traffic', 'Traffic Model', '', 11 ),
+ ('ent_skateshop', 'Skate Shop', '', 12 ),
+ ('ent_camera', 'Camera', '', 13 ),
+ ('ent_swspreview', 'Workshop Preview', '', 14 ),
+ ('ent_menuitem', 'Menu Item', '', 15 ),
+ ('ent_worldinfo', 'World Info', '', 16 ),
+ ('ent_ccmd', 'CCmd', '', 17 ),
+ ('ent_challenge', 'Challenge', '', 18 ),
+ ('ent_unlock', 'Unlockable', '', 19 ),
+ ('ent_relay', 'Relay', '', 20 )
+]
+
+MDL_VERSION_NR = 102
+SR_TRIGGERABLE = [ 'ent_audio', 'ent_ccmd', 'ent_gate', 'ent_unlock', \
+ 'ent_relay', 'ent_skateshop', 'ent_challenge' ]
+
+def get_entity_enum_id( alias ):
+#{
+ for et in sr_entity_list:#{
+ if et[0] == alias:#{
+ return et[3]
+ #}
+ #}
+
+ return 0
+#}
+
+class mdl_vert(Structure): # 48 bytes. Quite large. Could compress
+#{ # the normals and uvs to i16s. Not an
+ _pack_ = 1 # real issue, yet.
_fields_ = [("co",c_float*3),
("norm",c_float*3),
("uv",c_float*2),
("colour",c_uint8*4),
("weights",c_uint16*4),
("groups",c_uint8*4)]
+#}
+
+class mdl_transform(Structure):
+#{
+ _fields_ = [("co",c_float*3),
+ ( "s",c_float*3),
+ ( "q",c_float*4)]
+#}
class mdl_submesh(Structure):
- _pack_ = 1
+#{
_fields_ = [("indice_start",c_uint32),
("indice_count",c_uint32),
("vertex_start",c_uint32),
("vertex_count",c_uint32),
("bbx",(c_float*3)*2),
- ("material_id",c_uint32)] # index into the material array
+ ("material_id",c_uint16), # index into the material array
+ ("flags",c_uint16)]
+#}
class mdl_material(Structure):
- _pack_ = 1
- _fields_ = [("pstr_name",c_uint32)]
+#{
+ _fields_ = [("pstr_name",c_uint32),
+ ("shader",c_uint32),
+ ("flags",c_uint32),
+ ("surface_prop",c_uint32),
+ ("colour",c_float*4),
+ ("colour1",c_float*4),
+ ("tex_diffuse",c_uint32),
+ ("tex_none0",c_uint32),
+ ("tex_none1",c_uint32)]
+#}
+
+class mdl_bone(Structure):
+#{
+ _fields_ = [("co",c_float*3),("end",c_float*3),
+ ("parent",c_uint32),
+ ("collider",c_uint32),
+ ("ik_target",c_uint32),
+ ("ik_pole",c_uint32),
+ ("flags",c_uint32),
+ ("pstr_name",c_uint32),
+ ("hitbox",(c_float*3)*2),
+ ("conevx",c_float*3),("conevy",c_float*3),("coneva",c_float*3),
+ ("conet",c_float)]
+#}
+
+class mdl_armature(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("bone_start",c_uint32),
+ ("bone_count",c_uint32),
+ ("anim_start",c_uint32),
+ ("anim_count",c_uint32)]
+#}
-class mdl_node(Structure):
- _pack_ = 1
- _fields_ = [("co",c_float*3),
- ( "q",c_float*4),
- ( "s",c_float*3),
+class mdl_animation(Structure):
+#{
+ _fields_ = [("pstr_name",c_uint32),
+ ("length",c_uint32),
+ ("rate",c_float),
+ ("keyframe_start",c_uint32)]
+#}
+
+class mdl_mesh(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
("submesh_start",c_uint32),
("submesh_count",c_uint32),
- ("classtype",c_uint32),
- ("offset",c_uint32),
- ("parent",c_uint32),
- ("pstr_name",c_uint32)]
+ ("pstr_name",c_uint32),
+ ("entity_id",c_uint32),
+ ("armature_id",c_uint32)]
+#}
+
+class mdl_file(Structure):
+#{
+ _fields_ = [("path",c_uint32),
+ ("pack_offset",c_uint32),
+ ("pack_size",c_uint32)]
+#}
+
+class mdl_texture(Structure):
+#{
+ _fields_ = [("file",mdl_file),
+ ("glname",c_uint32)]
+#}
+
+class mdl_array(Structure):
+#{
+ _fields_ = [("file_offset",c_uint32),
+ ("item_count",c_uint32),
+ ("item_size",c_uint32),
+ ("name",c_byte*16)]
+#}
class mdl_header(Structure):
- _pack_ = 1
- _fields_ = [("identifier",c_uint32),
- ("version",c_uint32),
- ("file_length",c_uint32),
- ("vertex_count",c_uint32),
- ("vertex_offset",c_uint32),
-
- ("indice_count",c_uint32),
- ("indice_offset",c_uint32),
+#{
+ _fields_ = [("version",c_uint32),
+ ("arrays",mdl_array)]
+#}
+
+class ent_spawn(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("pstr_name",c_uint32)]
+#}
+
+class ent_light(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("daytime",c_uint32),
+ ("type",c_uint32),
+ ("colour",c_float*4),
+ ("angle",c_float),
+ ("range",c_float),
+ ("inverse_world",(c_float*3)*4), # Runtime
+ ("angle_sin_cos",(c_float*2))] # Runtime
+#}
+
+class version_refcount_union(Union):
+#{
+ _fields_ = [("timing_version",c_uint32),
+ ("ref_count",c_uint8)]
+#}
+
+class ent_gate(Structure):
+#{
+ _fields_ = [("flags",c_uint32),
+ ("target", c_uint32),
+ ("key",c_uint32),
+ ("dimensions", c_float*3),
+ ("co", (c_float*3)*2),
+ ("q", (c_float*4)*2),
+ ("to_world",(c_float*3)*4),
+ ("transport",(c_float*3)*4),
+ ("_anonymous_union",version_refcount_union),
+ ("timing_time",c_double),
+ ("routes",c_uint16*4),
+ ("route_count",c_uint8),
+ ("submesh_start",c_uint32), # v102+
+ ("submesh_count",c_uint32), # v102+ (can be 0)
+ ]
+ sr_functions = { 0: 'unlock' }
+#}
+class ent_route_node(Structure):
+#{
+ _fields_ = [("co",c_float*3),
+ ("ref_count",c_uint8),
+ ("ref_total",c_uint8)]
+#}
+
+class ent_path_index(Structure):
+#{
+ _fields_ = [("index",c_uint16)]
+#}
+
+class vg_audio_clip(Structure):
+#{
+ _fields_ = [("path",c_uint64),
+ ("flags",c_uint32),
+ ("size",c_uint32),
+ ("data",c_uint64)]
+#}
+
+class union_file_audio_clip(Union):
+#{
+ _fields_ = [("file",mdl_file),
+ ("reserved",vg_audio_clip)]
+#}
+
+class ent_audio_clip(Structure):
+#{
+ _fields_ = [("_anon",union_file_audio_clip),
+ ("probability",c_float)]
+#}
+
+class ent_checkpoint(Structure):
+#{
+ _fields_ = [("gate_index",c_uint16),
+ ("path_start",c_uint16),
+ ("path_count",c_uint16)]
+#}
+
+class ent_route(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("pstr_name",c_uint32),
+ ("checkpoints_start",c_uint16),
+ ("checkpoints_count",c_uint16),
+ ("colour",c_float*4),
+ ("active",c_uint32), #runtime
+ ("factive",c_float),
+ ("board_transform",(c_float*3)*4),
+ ("sm",mdl_submesh),
+ ("latest_pass",c_double)]
+#}
+
+class ent_water(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("max_dist",c_float),
+ ("reserved0",c_uint32),
+ ("reserved1",c_uint32)]
+#}
+
+class volume_trigger(Structure):
+#{
+ _fields_ = [("event",c_uint32),
+ ("blank",c_uint32)]
+#}
+
+class volume_particles(Structure):
+#{
+ _fields_ = [("blank",c_uint32),
+ ("blank2",c_uint32)]
+#}
+
+class volume_union(Union):
+#{
+ _fields_ = [("trigger",volume_trigger),
+ ("particles",volume_particles)]
+#}
+
+class ent_volume(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("to_world",(c_float*3)*4),
+ ("to_local",(c_float*3)*4),
+ ("type",c_uint32),
+ ("target",c_uint32),
+ ("_anon",volume_union)]
+#}
+
+class ent_audio(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("flags",c_uint32),
+ ("clip_start",c_uint32),
+ ("clip_count",c_uint32),
+ ("volume",c_float),
+ ("crossfade",c_float),
+ ("channel_behaviour",c_uint32),
+ ("group",c_uint32),
+ ("probability_curve",c_uint32),
+ ("max_channels",c_uint32)]
+#}
+
+class ent_marker(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("name",c_uint32)]
+#}
+
+class ent_glyph(Structure):
+#{
+ _fields_ = [("size",c_float*2),
+ ("indice_start",c_uint32),
+ ("indice_count",c_uint32)]
+#}
+
+class ent_font_variant(Structure):
+#{
+ _fields_ = [("name",c_uint32),
+ ("material_id",c_uint32)]
+#}
+
+class ent_font(Structure):
+#{
+ _fields_ = [("alias",c_uint32),
+ ("variant_start",c_uint32),
+ ("variant_count",c_uint32),
+ ("glyph_start",c_uint32),
+ ("glyph_count",c_uint32),
+ ("glyph_utf32_base",c_uint32)]
+#}
+
+class ent_traffic(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("submesh_start",c_uint32),
("submesh_count",c_uint32),
- ("submesh_offset",c_uint32),
-
- ("material_count",c_uint32),
- ("material_offset",c_uint32),
-
+ ("start_node",c_uint32),
("node_count",c_uint32),
- ("node_offset",c_uint32),
-
- ("anim_count",c_uint32),
- ("anim_offset",c_uint32),
-
- ("strings_offset",c_uint32),
- ("entdata_offset",c_uint32),
- ("animdata_offset",c_uint32)
- ]
-
-class mdl_animation(Structure):
- _pack_ = 1
+ ("speed",c_float),
+ ("t",c_float),
+ ("index",c_uint32)]
+#}
+
+# Skateshop
+# ---------------------------------------------------------------
+class ent_skateshop_characters(Structure):
+#{
+ _fields_ = [("id_display",c_uint32),
+ ("id_info",c_uint32)]
+#}
+class ent_skateshop_boards(Structure):
+#{
+ _fields_ = [("id_display",c_uint32),
+ ("id_info",c_uint32),
+ ("id_rack",c_uint32)]
+#}
+class ent_skateshop_worlds(Structure):
+#{
+ _fields_ = [("id_display",c_uint32),
+ ("id_info",c_uint32)]
+#}
+class ent_skateshop_anon_union(Union):
+#{
+ _fields_ = [("boards",ent_skateshop_boards),
+ ("character",ent_skateshop_characters),
+ ("worlds",ent_skateshop_worlds)]
+#}
+class ent_skateshop(Structure):
+#{
+ _fields_ = [("transform",mdl_transform), ("type",c_uint32),
+ ("id_camera",c_uint32),
+ ("_anonymous_union",ent_skateshop_anon_union)]
+#}
+
+class ent_swspreview(Structure):
+#{
+ _fields_ = [("id_camera",c_uint32),
+ ("id_display",c_uint32),
+ ("id_display1",c_uint32)]
+#}
+
+# Menu
+# -----------------------------------------------------------------
+class ent_menuitem_slider(Structure):
+#{
+ _fields_ = [("id_min",c_uint32),
+ ("id_max",c_uint32),
+ ("id_handle",c_uint32),
+ ("pstr_data",c_uint32)]
+#}
+class ent_menuitem_button(Structure):
+#{
+ _fields_ = [("pstr",c_uint32)]
+#}
+class ent_menuitem_checkmark(Structure):
+#{
+ _fields_ = [("id_check",c_uint32),
+ ("pstr_data",c_uint32),
+ ("offset",c_float*3)]
+#}
+class ent_menuitem_page(Structure):
+#{
_fields_ = [("pstr_name",c_uint32),
- ("length",c_uint32),
- ("rate",c_float),
- ("offset",c_uint32)]
+ ("id_entrypoint",c_uint32),
+ ("id_viewpoint",c_uint32)]
+#}
+class ent_menuitem_anon_union(Union):
+#{
+ _fields_ = [("slider",ent_menuitem_slider),
+ ("button",ent_menuitem_button),
+ ("checkmark",ent_menuitem_checkmark),
+ ("page",ent_menuitem_page)]
+#}
+class ent_menuitem(Structure):
+#{
+ _fields_ = [("type",c_uint32), ("groups",c_uint32),
+ ("id_links",c_uint32*4),
+ ("factive",c_float), ("fvisible",c_float),
+ #-- TODO: Refactor this into a simple mesh structure
+ ("transform",mdl_transform),
+ ("submesh_start",c_uint32),("submesh_count",c_uint32),
+ ("_u64",c_uint64),
+ #-- end
+ ("_anonymous_union", ent_menuitem_anon_union)]
+#}
+
+class ent_camera(Structure):
+#{
+ _fields_ = [("transform",mdl_transform),
+ ("fov",c_float)]
+#}
+
+class ent_worldinfo(Structure):
+#{
+ _fields_ = [("pstr_name",c_uint32),
+ ("pstr_author",c_uint32), # unused
+ ("pstr_desc",c_uint32), # unused
+ ("timezone",c_float)]
+#}
+
+class ent_ccmd(Structure):
+#{
+ _fields_ = [("pstr_command",c_uint32)]
+#}
+
+class ent_challenge(Structure):#{
+ _fields_ = [("transform",mdl_transform),
+ ("submesh_start",c_uint32), ("submesh_count",c_uint32),
+ ("id_next",c_uint32),
+ ("filter",c_uint32),
+ ("id_win",c_uint32),
+ ("win_event",c_uint32),
+ ("time_limit",c_float)]
+
+ sr_functions = { 0: 'trigger',
+ 1: 'start_challenge' }
+#}
+
+class ent_unlock(Structure):#{
+ _fields_ = [("pstr_alias",c_uint32),
+ ("target",c_uint32),
+ ("target_event",c_uint32),
+ ("status",c_uint32)]
+ sr_functions = { 0: 'unlock' }
+#}
+
+class ent_relay(Structure):#{
+ _fields_ = [("targets",(c_uint32*2)*4),
+ ("targets_events",c_uint32*4)]
+ sr_functions = { 0: 'trigger' }
+#}
+
+def obj_ent_type( obj ):
+#{
+ if obj.type == 'ARMATURE': return 'mdl_armature'
+ elif obj.type == 'LIGHT': return 'ent_light'
+ elif obj.type == 'CAMERA': return 'ent_camera'
+ else: return obj.SR_data.ent_type
+#}
+
+def sr_filter_ent_type( obj, ent_types ):
+#{
+ if obj == bpy.context.active_object: return False
+
+ for c0 in obj.users_collection:#{
+ for c1 in bpy.context.active_object.users_collection:#{
+ if c0 == c1:#{
+ return obj_ent_type( obj ) in ent_types
+ #}
+ #}
+ #}
+
+ return False
+#}
+
+def v4_dot( a, b ):#{
+ return a[0]*b[0] + a[1]*b[1] + a[2]*b[2] + a[3]*b[3]
+#}
+
+def q_identity( q ):#{
+ q[0] = 0.0
+ q[1] = 0.0
+ q[2] = 0.0
+ q[3] = 1.0
+#}
+
+def q_normalize( q ):#{
+ l2 = v4_dot(q,q)
+ if( l2 < 0.00001 ):#{
+ q_identity( q )
+ #}
+ else:#{
+ s = 1.0/math.sqrt(l2)
+ q[0] *= s
+ q[1] *= s
+ q[2] *= s
+ q[3] *= s
+ #}
+#}
+
+def compile_obj_transform( obj, transform ):
+#{
+ co = obj.matrix_world @ Vector((0,0,0))
+
+ # This was changed from matrix_local on 09.05.23
+ q = obj.matrix_world.to_quaternion()
+ s = obj.scale
+ q_normalize( q )
+
+ # Setup transform
+ #
+ transform.co[0] = co[0]
+ transform.co[1] = co[2]
+ transform.co[2] = -co[1]
+ transform.q[0] = q[1]
+ transform.q[1] = q[3]
+ transform.q[2] = -q[2]
+ transform.q[3] = q[0]
+ transform.s[0] = s[0]
+ transform.s[1] = s[2]
+ transform.s[2] = s[1]
+#}
+
+def int_align_to( v, align ):
+#{
+ while(v%align)!=0: v += 1
+ return v
+#}
+
+def bytearray_align_to( buffer, align, w=b'\xaa' ):
+#{
+ while (len(buffer) % align) != 0: buffer.extend(w)
+ return buffer
+#}
+
+def bytearray_print_hex( s, w=16 ):
+#{
+ for r in range((len(s)+(w-1))//w):#{
+ i0=(r+0)*w
+ i1=min((r+1)*w,len(s))
+ print( F'{r*w:06x}| \x1B[31m', end='')
+ print( F"{' '.join('{:02x}'.format(x) for x in s[i0:i1]):<48}",end='' )
+ print( "\x1B[0m", end='')
+ print( ''.join(chr(x) if (x>=33 and x<=126) else '.' for x in s[i0:i1] ) )
+ #}
+#}
+
+def sr_compile_string( s ):
+#{
+ if s in sr_compile.string_cache: return sr_compile.string_cache[s]
+
+ index = len( sr_compile.string_data )
+ sr_compile.string_cache[s] = index
+ sr_compile.string_data.extend( c_uint32(hash_djb2(s)) )
+ sr_compile.string_data.extend( s.encode('utf-8') )
+ sr_compile.string_data.extend( b'\0' )
+
+ bytearray_align_to( sr_compile.string_data, 4 )
+ return index
+#}
+
+def material_tex_image(v):
+#{
+ return {
+ "Image Texture":
+ {
+ "image": F"{v}"
+ }
+ }
+#}
+
+cxr_graph_mapping = \
+{
+ # Default shader setup
+ "Principled BSDF":
+ {
+ "Base Color":
+ {
+ "Image Texture":
+ {
+ "image": "tex_diffuse"
+ },
+ "Mix":
+ {
+ "A": material_tex_image("tex_diffuse"),
+ "B": material_tex_image("tex_decal")
+ },
+ },
+ "Normal":
+ {
+ "Normal Map":
+ {
+ "Color": material_tex_image("tex_normal")
+ }
+ }
+ },
+ "Emission":
+ {
+ "Color": material_tex_image("tex_diffuse")
+ }
+}
-class mdl_keyframe(Structure):
- _pack_ = 1
- _fields_ = [("co",c_float*3),
- ("q",c_float*4),
- ("s",c_float*3)]
+# https://harrygodden.com/git/?p=convexer.git;a=blob;f=__init__.py;#l1164
+#
+def material_info(mat):
+#{
+ info = {}
-# Entity types
-# ==========================================
+ # Using the cxr_graph_mapping as a reference, go through the shader
+ # graph and gather all $props from it.
+ #
+ def _graph_read( node_def, node=None, depth=0 ):#{
+ nonlocal mat
+ nonlocal info
+
+ # Find rootnodes
+ #
+ if node == None:#{
+ _graph_read.extracted = []
+
+ for node_idname in node_def:#{
+ for n in mat.node_tree.nodes:#{
+ if n.name == node_idname:#{
+ node_def = node_def[node_idname]
+ node = n
+ break
+ #}
+ #}
+ #}
+ #}
+
+ for link in node_def:#{
+ link_def = node_def[link]
+
+ if isinstance( link_def, dict ):#{
+ node_link = None
+ for x in node.inputs:#{
+ if isinstance( x, bpy.types.NodeSocketColor ):#{
+ if link == x.name:#{
+ node_link = x
+ break
+ #}
+ #}
+ #}
+
+ if node_link and node_link.is_linked:#{
+ # look for definitions for the connected node type
+ #
+ from_node = node_link.links[0].from_node
+
+ node_name = from_node.name.split('.')[0]
+ if node_name in link_def:#{
+ from_node_def = link_def[ node_name ]
+
+ _graph_read( from_node_def, from_node, depth+1 )
+ #}
+ #}
+ else:#{
+ if "default" in link_def:#{
+ prop = link_def['default']
+ info[prop] = node_link.default_value
+ #}
+ #}
+ #}
+ else:#{
+ prop = link_def
+ info[prop] = getattr( node, link )
+ #}
+ #}
+ #}
+
+ _graph_read( cxr_graph_mapping )
+ return info
+#}
+
+def vg_str_bin( s ):
+#{
+ decoded = bytearray()
+ for i in range(len(s)//2):#{
+ c = (ord(s[i*2+0])-0x41)
+ c |= (ord(s[i*2+1])-0x41)<<4
+ decoded.extend(bytearray(c_uint8(c))) #??
+ #}
+ return decoded
+#}
+
+def sr_pack_file( file, path, data ):
+#{
+ file.path = sr_compile_string( path )
+ file.pack_offset = len( sr_compile.pack_data )
+ file.pack_size = len( data )
+
+ sr_compile.pack_data.extend( data )
+ bytearray_align_to( sr_compile.pack_data, 16 )
+#}
+
+def sr_compile_texture( img ):
+#{
+ if img == None:
+ return 0
+
+ name = os.path.splitext( img.name )[0]
+
+ if name in sr_compile.texture_cache:
+ return sr_compile.texture_cache[name]
+
+ texture_index = (len(sr_compile.texture_data)//sizeof(mdl_texture)) +1
+
+ tex = mdl_texture()
+ tex.glname = 0
+
+ if sr_compile.pack_textures:#{
+ filedata = qoi_encode( img )
+ sr_pack_file( tex.file, name, filedata )
+ #}
+
+ sr_compile.texture_cache[name] = texture_index
+ sr_compile.texture_data.extend( bytearray(tex) )
+ return texture_index
+#}
+
+def sr_compile_material( mat ):
+#{
+ if mat == None:
+ return 0
+ if mat.name in sr_compile.material_cache:
+ return sr_compile.material_cache[mat.name]
+
+ index = (len(sr_compile.material_data)//sizeof(mdl_material))+1
+ sr_compile.material_cache[mat.name] = index
+
+ m = mdl_material()
+ m.pstr_name = sr_compile_string( mat.name )
+
+ flags = 0x00
+ if mat.SR_data.collision:#{
+ flags |= 0x2 # collision flag
+ if (mat.SR_data.shader != 'invisible') and \
+ (mat.SR_data.shader != 'boundary'):#{
+ if mat.SR_data.skate_surface: flags |= 0x1
+ if mat.SR_data.grow_grass: flags |= 0x4
+ if mat.SR_data.grind_surface: flags |= 0x8
+ if mat.SR_data.preview_visibile: flags |= 0x40
+ #}
+ if mat.SR_data.shader == 'invisible': flags |= 0x10
+ if mat.SR_data.shader == 'boundary': flags |= (0x10|0x20)
+ #}
+
+ m.flags = flags
+
+ m.surface_prop = int(mat.SR_data.surface_prop)
+
+ if mat.SR_data.shader == 'standard': m.shader = 0
+ if mat.SR_data.shader == 'standard_cutout': m.shader = 1
+ if mat.SR_data.shader == 'terrain_blend':#{
+ m.shader = 2
+
+ m.colour[0] = pow( mat.SR_data.sand_colour[0], 1.0/2.2 )
+ m.colour[1] = pow( mat.SR_data.sand_colour[1], 1.0/2.2 )
+ m.colour[2] = pow( mat.SR_data.sand_colour[2], 1.0/2.2 )
+ m.colour[3] = 1.0
+
+ m.colour1[0] = mat.SR_data.blend_offset[0]
+ m.colour1[1] = mat.SR_data.blend_offset[1]
+ #}
+
+ if mat.SR_data.shader == 'vertex_blend':#{
+ m.shader = 3
+
+ m.colour1[0] = mat.SR_data.blend_offset[0]
+ m.colour1[1] = mat.SR_data.blend_offset[1]
+ #}
+
+ if mat.SR_data.shader == 'water':#{
+ m.shader = 4
+
+ m.colour[0] = pow( mat.SR_data.shore_colour[0], 1.0/2.2 )
+ m.colour[1] = pow( mat.SR_data.shore_colour[1], 1.0/2.2 )
+ m.colour[2] = pow( mat.SR_data.shore_colour[2], 1.0/2.2 )
+ m.colour[3] = 1.0
+ m.colour1[0] = pow( mat.SR_data.ocean_colour[0], 1.0/2.2 )
+ m.colour1[1] = pow( mat.SR_data.ocean_colour[1], 1.0/2.2 )
+ m.colour1[2] = pow( mat.SR_data.ocean_colour[2], 1.0/2.2 )
+ m.colour1[3] = 1.0
+ #}
+
+ if mat.SR_data.shader == 'invisible':#{
+ m.shader = 5
+ #}
+
+ if mat.SR_data.shader == 'boundary':#{
+ m.shader = 6
+ #}
+
+ if mat.SR_data.shader == 'fxglow':#{
+ m.shader = 7
+ #}
+
+ inf = material_info( mat )
+
+ if mat.SR_data.shader == 'standard' or \
+ mat.SR_data.shader == 'standard_cutout' or \
+ mat.SR_data.shader == 'terrain_blend' or \
+ mat.SR_data.shader == 'vertex_blend' or \
+ mat.SR_data.shader == 'fxglow': #{
+ if 'tex_diffuse' in inf:
+ m.tex_diffuse = sr_compile_texture(inf['tex_diffuse'])
+ #}
+
+ sr_compile.material_data.extend( bytearray(m) )
+ return index
+#}
+
+def sr_armature_bones( armature ):
+#{
+ def _recurse_bone( b ):
+ #{
+ yield b
+ for c in b.children: yield from _recurse_bone( c )
+ #}
+
+ for b in armature.data.bones:
+ if not b.parent:
+ yield from _recurse_bone( b )
+#}
+
+def sr_entity_id( obj ):#{
+ if not obj: return 0
+
+ tipo = get_entity_enum_id( obj_ent_type(obj) )
+ index = sr_compile.entity_ids[ obj.name ]
+
+ return (tipo&0xffff)<<16 | (index&0xffff)
+#}
+
+# Returns submesh_start,count and armature_id
+def sr_compile_mesh_internal( obj ):
+#{
+ can_use_cache = True
+ armature = None
+
+ submesh_start = 0
+ submesh_count = 0
+ armature_id = 0
+
+ for mod in obj.modifiers:#{
+ if mod.type == 'DATA_TRANSFER' or mod.type == 'SHRINKWRAP' or \
+ mod.type == 'BOOLEAN' or mod.type == 'CURVE' or \
+ mod.type == 'ARRAY':
+ #{
+ can_use_cache = False
+ #}
+
+ if mod.type == 'ARMATURE': #{
+ armature = mod.object
+ rig_weight_groups = \
+ ['0 [ROOT]']+[_.name for _ in sr_armature_bones(mod.object)]
+ armature_id = sr_compile.entity_ids[armature.name]
+
+ POSE_OR_REST_CACHE = armature.data.pose_position
+ armature.data.pose_position = 'REST'
+ #}
+ #}
+
+ # Check the cache first
+ #
+ if can_use_cache and (obj.data.name in sr_compile.mesh_cache):#{
+ ref = sr_compile.mesh_cache[obj.data.name]
+ submesh_start = ref[0]
+ submesh_count = ref[1]
+ return (submesh_start,submesh_count,armature_id)
+ #}
+
+ # Compile a whole new mesh
+ #
+ submesh_start = len(sr_compile.submesh_data)//sizeof(mdl_submesh)
+ submesh_count = 0
-class classtype_gate(Structure):
- _pack_ = 1
- _fields_ = [("target",c_uint32),
- ("dims",c_float*3)]
+ dgraph = bpy.context.evaluated_depsgraph_get()
+ data = obj.evaluated_get(dgraph).data
+ data.calc_loop_triangles()
+ data.calc_normals_split()
+
+ # Mesh is split into submeshes based on their material
+ #
+ mat_list = data.materials if len(data.materials) > 0 else [None]
+ for material_id, mat in enumerate(mat_list): #{
+ mref = {}
+
+ sm = mdl_submesh()
+ sm.indice_start = len(sr_compile.indice_data)//sizeof(c_uint32)
+ sm.vertex_start = len(sr_compile.vertex_data)//sizeof(mdl_vert)
+ sm.vertex_count = 0
+ sm.indice_count = 0
+ sm.material_id = sr_compile_material( mat )
+
+ INF=99999999.99999999
+ for i in range(3):#{
+ sm.bbx[0][i] = INF
+ sm.bbx[1][i] = -INF
+ #}
+
+ # Keep a reference to very very very similar vertices
+ # i have no idea how to speed it up.
+ #
+ vertex_reference = {}
-class classtype_block(Structure):
- _pack_ = 1
- _fields_ = [("bbx",(c_float*3)*2)]
+ # Write the vertex / indice data
+ #
+ for tri_index, tri in enumerate(data.loop_triangles):#{
+ if tri.material_index != material_id: continue
-class classtype_spawn(Structure):
- _pack_ = 1
- _fields_ = [("temp",c_uint32)]
+ for j in range(3):#{
+ vert = data.vertices[tri.vertices[j]]
+ li = tri.loops[j]
+ vi = data.loops[li].vertex_index
+
+ # Gather vertex information
+ #
+ co = vert.co
+ norm = data.loops[li].normal
+ uv = (0,0)
+ colour = (255,255,255,255)
+ groups = [0,0,0,0]
+ weights = [0,0,0,0]
+
+ # Uvs
+ #
+ if data.uv_layers:
+ uv = data.uv_layers.active.data[li].uv
+
+ # Vertex Colours
+ #
+ if data.vertex_colors:#{
+ colour = data.vertex_colors.active.data[li].color
+ colour = (int(colour[0]*255.0),\
+ int(colour[1]*255.0),\
+ int(colour[2]*255.0),\
+ int(colour[3]*255.0))
+ #}
+
+ # Weight groups: truncates to the 3 with the most influence. The
+ # fourth bone ID is never used by the shader so it
+ # is always 0
+ #
+ if armature:#{
+ src_groups = [_ for _ in data.vertices[vi].groups \
+ if obj.vertex_groups[_.group].name in \
+ rig_weight_groups ]
+
+ weight_groups = sorted( src_groups, key = \
+ lambda a: a.weight, reverse=True )
+ tot = 0.0
+ for ml in range(3):#{
+ if len(weight_groups) > ml:#{
+ g = weight_groups[ml]
+ name = obj.vertex_groups[g.group].name
+ weight = g.weight
+ weights[ml] = weight
+ groups[ml] = rig_weight_groups.index(name)
+ tot += weight
+ #}
+ #}
+
+ if len(weight_groups) > 0:#{
+ inv_norm = (1.0/tot) * 65535.0
+ for ml in range(3):#{
+ weights[ml] = int( weights[ml] * inv_norm )
+ weights[ml] = min( weights[ml], 65535 )
+ weights[ml] = max( weights[ml], 0 )
+ #}
+ #}
+ #}
+ else:#{
+ li1 = tri.loops[(j+1)%3]
+ vi1 = data.loops[li1].vertex_index
+ e0 = data.edges[ data.loops[li].edge_index ]
+
+ if e0.use_freestyle_mark and \
+ ((e0.vertices[0] == vi and e0.vertices[1] == vi1) or \
+ (e0.vertices[0] == vi1 and e0.vertices[1] == vi)):
+ #{
+ weights[0] = 1
+ #}
+ #}
+
+ TOLERENCE = float(10**4)
+ key = (int(co[0]*TOLERENCE+0.5),
+ int(co[1]*TOLERENCE+0.5),
+ int(co[2]*TOLERENCE+0.5),
+ int(norm[0]*TOLERENCE+0.5),
+ int(norm[1]*TOLERENCE+0.5),
+ int(norm[2]*TOLERENCE+0.5),
+ int(uv[0]*TOLERENCE+0.5),
+ int(uv[1]*TOLERENCE+0.5),
+ colour[0], # these guys are already quantized
+ colour[1], # .
+ colour[2], # .
+ colour[3], # .
+ weights[0], # v
+ weights[1],
+ weights[2],
+ weights[3],
+ groups[0],
+ groups[1],
+ groups[2],
+ groups[3])
+
+ if key in vertex_reference:
+ index = vertex_reference[key]
+ else:#{
+ index = bytearray(c_uint32(sm.vertex_count))
+ sm.vertex_count+=1
+
+ vertex_reference[key] = index
+ v = mdl_vert()
+ v.co[0] = co[0]
+ v.co[1] = co[2]
+ v.co[2] = -co[1]
+ v.norm[0] = norm[0]
+ v.norm[1] = norm[2]
+ v.norm[2] = -norm[1]
+ v.uv[0] = uv[0]
+ v.uv[1] = uv[1]
+ v.colour[0] = colour[0]
+ v.colour[1] = colour[1]
+ v.colour[2] = colour[2]
+ v.colour[3] = colour[3]
+ v.weights[0] = weights[0]
+ v.weights[1] = weights[1]
+ v.weights[2] = weights[2]
+ v.weights[3] = weights[3]
+ v.groups[0] = groups[0]
+ v.groups[1] = groups[1]
+ v.groups[2] = groups[2]
+ v.groups[3] = groups[3]
+
+ for i in range(3):#{
+ sm.bbx[0][i] = min( sm.bbx[0][i], v.co[i] )
+ sm.bbx[1][i] = max( sm.bbx[1][i], v.co[i] )
+ #}
-class classtype_water(Structure):
- _pack_ = 1
- _fields_ = [("temp",c_uint32)]
+ sr_compile.vertex_data.extend(bytearray(v))
+ #}
+
+ sm.indice_count += 1
+ sr_compile.indice_data.extend( index )
+ #}
+ #}
+
+ # Make sure bounding box isn't -inf -> inf if no vertices
+ #
+ if sm.vertex_count == 0:
+ for j in range(2):
+ for i in range(3):
+ sm.bbx[j][i] = 0
-class classtype_car_path(Structure):
- _pack_ = 1
- _fields_ = [("target",c_uint32),
- ("target1",c_uint32)]
+ # Add submesh to encoder
+ #
+ sr_compile.submesh_data.extend( bytearray(sm) )
+ submesh_count += 1
+ #}
+
+ if armature:#{
+ armature.data.pose_position = POSE_OR_REST_CACHE
+ #}
+
+ # Save a reference to this mesh since we want to reuse the submesh indices
+ # later.
+ sr_compile.mesh_cache[obj.data.name]=(submesh_start,submesh_count)
+ return (submesh_start,submesh_count,armature_id)
+#}
+
+def sr_compile_mesh( obj ):
+#{
+ node=mdl_mesh()
+ compile_obj_transform(obj, node.transform)
+ node.pstr_name = sr_compile_string(obj.name)
+ ent_type = obj_ent_type( obj )
+
+ node.entity_id = 0
+
+ if ent_type != 'none':#{
+ ent_id_lwr = sr_compile.entity_ids[obj.name]
+ ent_id_upr = get_entity_enum_id( obj_ent_type(obj) )
+ node.entity_id = (ent_id_upr << 16) | ent_id_lwr
+ #}
+
+ node.submesh_start, node.submesh_count, node.armature_id = \
+ sr_compile_mesh_internal( obj )
-class classtype_instance(Structure):
- _pack_ = 1
- _fields_ = [("pstr_file",c_uint32)]
+ sr_compile.mesh_data.extend(bytearray(node))
+#}
-class classtype_capsule(Structure):
- _pack_ = 1
- _fields_ = [("height",c_float),
- ("radius",c_float)]
+def sr_compile_fonts( collection ):
+#{
+ print( F"[SR] Compiling fonts" )
-class classtype_route_node(Structure):
- _pack_ = 1
- _fields_ = [("target",c_uint32),
- ("target1",c_uint32)]
+ glyph_count = 0
+ variant_count = 0
-class classtype_route(Structure):
- _pack_ = 1
- _fields_ = [("id_start",c_uint32),
- ("colour",c_float*3)]
+ for obj in collection.all_objects:#{
+ if obj_ent_type(obj) != 'ent_font': continue
-class classtype_skin(Structure):
- _pack_ = 1
- _fields_ = [("skeleton",c_uint32)]
+ data = obj.SR_data.ent_font[0]
-class classtype_skeleton(Structure):
- _pack_ = 1
- _fields_ = [("channels",c_uint32),
- ("ik_count",c_uint32),
- ("collider_count",c_uint32),
- ("anim_start",c_uint32),
- ("anim_count",c_uint32)]
+ font=ent_font()
+ font.alias = sr_compile_string( data.alias )
+ font.variant_start = variant_count
+ font.variant_count = 0
+ font.glyph_start = glyph_count
-class classtype_bone(Structure):
- _pack_ = 1
- _fields_ = [("deform",c_uint32),
- ("ik_target",c_uint32),
- ("ik_pole",c_uint32),
- ("collider",c_uint32),
- ("use_limits",c_uint32),
- ("angle_limits",(c_float*3)*2),
- ("hitbox",(c_float*3)*2)]
+ glyph_base = data.glyphs[0].utf32
+ glyph_range = data.glyphs[-1].utf32+1 - glyph_base
-# Exporter
-# ==============================================================================
+ font.glyph_utf32_base = glyph_base
+ font.glyph_count = glyph_range
-def write_model(collection_name):
- print( F"Model graph | Create mode '{collection_name}'" )
+ for i in range(len(data.variants)):#{
+ data_var = data.variants[i]
+ if not data_var.mesh: continue
- header = mdl_header()
- header.identifier = 0xABCD0000
- header.version = 0
- header.vertex_count = 0
- header.indice_count = 0
- header.submesh_count = 0
- header.node_count = 0
- header.material_count = 0
- header.file_length = 0
-
- mesh_cache = {}
- string_cache = {}
- material_cache = {}
+ mesh = data_var.mesh.data
- strings_buffer = b''
-
- material_buffer = []
- submesh_buffer = []
- vertex_buffer = []
- indice_buffer = []
- node_buffer = []
- entdata_buffer = []
- entdata_length = 0
-
- anim_buffer = []
- animdata_length = 0
- animdata_buffer = []
-
- def emplace_string( s ):
- nonlocal string_cache, strings_buffer
-
- if s in string_cache:
- return string_cache[s]
-
- string_cache[s] = len( strings_buffer )
- strings_buffer += (s+'\0').encode('utf-8')
- return string_cache[s]
+ variant = ent_font_variant()
+ variant.name = sr_compile_string( data_var.tipo )
- def emplace_material( mat ):
- nonlocal material_cache, material_buffer
+ # fonts (variants) only support one material each
+ mat = None
+ if len(mesh.materials) != 0:
+ mat = mesh.materials[0]
+ variant.material_id = sr_compile_material( mat )
- if mat == None:
- return 0
+ font.variant_count += 1
- if mat.name in material_cache:
- return material_cache[mat.name]
+ islands = mesh_utils.mesh_linked_triangles(mesh)
+ centroids = [Vector((0,0)) for _ in range(len(islands))]
- material_cache[mat.name] = header.material_count
- dest = mdl_material()
- dest.pstr_name = emplace_string( mat.name )
- material_buffer += [dest]
+ for j in range(len(islands)):#{
+ for tri in islands[j]:#{
+ centroids[j].x += tri.center[0]
+ centroids[j].y += tri.center[2]
+ #}
- header.material_count += 1
- return material_cache[mat.name]
+ centroids[j] /= len(islands[j])
+ #}
- # Create root or empty node and materials
- # this is to designate id 0 as 'NULL'
- #
- none_material = c_uint32(69)
- none_material.name = ""
- emplace_material( none_material )
-
- root = mdl_node()
- root.co[0] = 0
- root.co[1] = 0
- root.co[2] = 0
- root.q[0] = 0
- root.q[1] = 0
- root.q[2] = 0
- root.q[3] = 1
- root.s[0] = 1
- root.s[1] = 1
- root.s[2] = 1
- root.pstr_name = emplace_string('')
- root.submesh_start = 0
- root.submesh_count = 0
- root.offset = 0
- root.classtype = 0
- node_buffer += [root]
-
- # Do exporting
- #
- print( " assigning ids" )
- collection = bpy.data.collections[collection_name]
+ for j in range(glyph_range):#{
+ data_glyph = data.glyphs[j]
+ glyph = ent_glyph()
+ glyph.indice_start = len(sr_compile.indice_data)//sizeof(c_uint32)
+ glyph.indice_count = 0
+ glyph.size[0] = data_glyph.bounds[2]
+ glyph.size[1] = data_glyph.bounds[3]
- # Scene graph
- # ==========================================
-
- header.node_count = 0
- def _uid():
- nonlocal header
- uid = header.node_count
- header.node_count += 1
- return uid
-
- print( " creating scene graph" )
- graph = {}
- graph["obj"] = None
- graph["depth"] = 0
- graph["children"] = []
- graph["uid"] = _uid()
- graph["parent"] = None
-
- graph_lookup = {} # object can lookup its graph def here
-
- for obj in collection.all_objects:
- if not obj.parent:
-
- def _extend( p, n, d ):
- uid = _uid()
- tree = {}
- tree["uid"] = uid
- tree["children"] = []
- tree["depth"] = d
- tree["obj"] = n
- tree["parent"] = p
- n.cv_data.uid = uid
-
- if n.type == 'ARMATURE':
- tree["bones"] = [None] # None is the root transform
- tree["ik_count"] = 0
- tree["collider_count"] = 0
-
- def _extendb( p, n, d ):
- nonlocal tree
-
- btree = {}
- btree["bone"] = n
- btree["uid"] = _uid()
- btree["children"] = []
- btree["depth"] = d
- btree["parent"] = p
- tree["bones"] += [n.name]
-
- for c in n.children:
- _extendb( btree, c, d+1 )
-
- for c in tree['obj'].pose.bones[n.name].constraints:
- if c.type == 'IK':
- btree["target"] = c.subtarget
- btree["pole"] = c.pole_subtarget
- tree["ik_count"] += 1
-
- if n.cv_data.collider:
- tree['collider_count'] += 1
-
- btree['deform'] = n.use_deform
- p['children'] += [btree]
-
- for b in n.data.bones:
- if not b.parent:
- _extendb( tree, b, d+1 )
-
- for obj1 in n.children:
- _extend( tree, obj1, d+1 )
-
- p["children"] += [tree]
- graph_lookup[n] = tree
-
- _extend( graph, obj, 1 )
-
-
- def _graph_iter(p):
- for c in p['children']:
- yield c
- yield from _graph_iter(c)
-
- it = _graph_iter(graph)
-
- root.parent = 0xffffffff
-
- # Compile
- # ==============================================
- it = _graph_iter(graph)
- print( " compiling data" )
- for node_def in it:
- if 'obj' in node_def:
- obj = node_def['obj']
- objt = obj.type
- objco = obj.location
- elif 'bone' in node_def:
- obj = node_def['bone']
- objt = 'BONE'
- objco = obj.head_local
-
- depth = node_def['depth']
- uid = node_def['uid']
-
- node = mdl_node()
- node.co[0] = objco[0]
- node.co[1] = objco[2]
- node.co[2] = -objco[1]
-
- # Convert rotation quat to our space type
- quat = obj.matrix_local.to_quaternion()
- node.q[0] = quat[1]
- node.q[1] = quat[3]
- node.q[2] = -quat[2]
- node.q[3] = quat[0]
-
- if objt == 'BONE':
- node.s[0] = obj.tail_local[0] - node.co[0]
- node.s[1] = obj.tail_local[2] - node.co[1]
- node.s[2] = -obj.tail_local[1] - node.co[2]
- else:
- node.s[0] = obj.scale[0]
- node.s[1] = obj.scale[2]
- node.s[2] = obj.scale[1]
-
- node.pstr_name = emplace_string( obj.name )
-
- if node_def["parent"]:
- node.parent = node_def["parent"]["uid"]
-
- if objt == 'BONE':
- classtype = 'k_classtype_bone'
- elif objt == 'ARMATURE':
- classtype = 'k_classtype_skeleton'
- else:
- classtype = obj.cv_data.classtype
-
- # Process type: MESH
- # =================================================================
- #
+ vertex_reference = {}
- # Dont use the cache if we have modifiers that affect the normals
+ for k in range(len(islands)):#{
+ if centroids[k].x < data_glyph.bounds[0] or \
+ centroids[k].x > data_glyph.bounds[0]+data_glyph.bounds[2] or\
+ centroids[k].y < data_glyph.bounds[1] or \
+ centroids[k].y > data_glyph.bounds[1]+data_glyph.bounds[3]:
+ #{
+ continue
+ #}
+
+ for l in range(len(islands[k])):#{
+ tri = islands[k][l]
+ for m in range(3):#{
+ vert = mesh.vertices[tri.vertices[m]]
+ li = tri.loops[m]
+ vi = mesh.loops[li].vertex_index
+
+ # Gather vertex information
+ #
+ co = [vert.co[_] for _ in range(3)]
+ co[0] -= data_glyph.bounds[0]
+ co[2] -= data_glyph.bounds[1]
+ norm = mesh.loops[li].normal
+ uv = (0,0)
+ if mesh.uv_layers: uv = mesh.uv_layers.active.data[li].uv
+
+ TOLERENCE = float(10**4)
+ key = (int(co[0]*TOLERENCE+0.5),
+ int(co[1]*TOLERENCE+0.5),
+ int(co[2]*TOLERENCE+0.5),
+ int(norm[0]*TOLERENCE+0.5),
+ int(norm[1]*TOLERENCE+0.5),
+ int(norm[2]*TOLERENCE+0.5),
+ int(uv[0]*TOLERENCE+0.5),
+ int(uv[1]*TOLERENCE+0.5))
+
+ if key in vertex_reference:
+ index = vertex_reference[key]
+ else:#{
+ vindex = len(sr_compile.vertex_data)//sizeof(mdl_vert)
+ index = bytearray(c_uint32(vindex))
+ vertex_reference[key] = index
+ v = mdl_vert()
+ v.co[0] = co[0]
+ v.co[1] = co[2]
+ v.co[2] = -co[1]
+ v.norm[0] = norm[0]
+ v.norm[1] = norm[2]
+ v.norm[2] = -norm[1]
+ v.uv[0] = uv[0]
+ v.uv[1] = uv[1]
+
+ sr_compile.vertex_data.extend(bytearray(v))
+ #}
+
+ glyph.indice_count += 1
+ sr_compile.indice_data.extend( index )
+ #}
+ #}
+ #}
+ sr_ent_push( glyph )
+ #}
+ sr_ent_push( variant )
+ #}
+ sr_ent_push( font )
+ #}
+#}
+
+def sr_compile_menus( collection ):
+#{
+ print( "[SR1] Compiling menus" )
+ groups = []
+
+ for obj in collection.all_objects:#{
+ if obj_ent_type(obj) != 'ent_menuitem': continue
+ obj_data = obj.SR_data.ent_menuitem[0]
+
+ bitmask = 0x00000000
+
+ for col in obj.users_collection:#{
+ name = col.name
+ if name not in groups: groups.append( name )
+ bitmask |= (0x1 << groups.index(name))
+ #}
+
+ item = ent_menuitem()
+ item.type = int( obj_data.tipo )
+ item.groups = bitmask
+
+ compile_obj_transform( obj, item.transform )
+ if obj.type == 'MESH':#{
+ item.submesh_start, item.submesh_count, _ = \
+ sr_compile_mesh_internal( obj )
+ #}
+
+ if item.type == 1 or item.type == 2:#{
+ item_button = item._anonymous_union.button
+ item_button.pstr = sr_compile_string( obj_data.string )
+ #}
+ elif item.type == 3:#{
+ item_checkmark = item._anonymous_union.checkmark
+ item_checkmark.pstr_data = sr_compile_string( obj_data.string )
+ item_checkmark.id_check = sr_entity_id( obj_data.checkmark )
+ delta = obj_data.checkmark.location - obj.location
+ item_checkmark.offset[0] = delta[0]
+ item_checkmark.offset[1] = delta[2]
+ item_checkmark.offset[2] = -delta[1]
+ #}
+ elif item.type == 4:#{
+ item_slider = item._anonymous_union.slider
+ item_slider.id_min = sr_entity_id( obj_data.slider_minloc )
+ item_slider.id_max = sr_entity_id( obj_data.slider_maxloc )
+ item_slider.id_handle = sr_entity_id( obj_data.slider_handle )
+ item_slider.pstr_data = sr_compile_string( obj_data.string )
+ #}
+ elif item.type == 5:#{
+ item_page = item._anonymous_union.page
+ item_page.pstr_name = sr_compile_string( obj_data.string )
+ item_page.id_entrypoint = sr_entity_id( obj_data.newloc )
+ item_page.id_viewpoint = sr_entity_id( obj_data.camera )
+ #}
+
+ if obj_data.link0:
+ item.id_links[0] = sr_entity_id( obj_data.link0 )
+ if obj_data.link1:
+ item.id_links[1] = sr_entity_id( obj_data.link1 )
+ if item.type != 4:#{
+ if obj_data.link2:
+ item.id_links[2] = sr_entity_id( obj_data.link2 )
+ if obj_data.link3:
+ item.id_links[3] = sr_entity_id( obj_data.link3 )
+ #}
+
+ sr_ent_push( item )
+ #}
+#}
+
+def sr_compile_armature( obj ):
+#{
+ node = mdl_armature()
+ node.bone_start = len(sr_compile.bone_data)//sizeof(mdl_bone)
+ node.bone_count = 0
+ node.anim_start = len(sr_compile.anim_data)//sizeof(mdl_animation)
+ node.anim_count = 0
+
+ bones = [_ for _ in sr_armature_bones(obj)]
+ bones_names = [None]+[_.name for _ in bones]
+
+ for b in bones:#{
+ bone = mdl_bone()
+ if b.use_deform: bone.flags = 0x1
+ if b.parent: bone.parent = bones_names.index(b.parent.name)
+
+ bone.collider = int(b.SR_data.collider)
+
+ if bone.collider>0:#{
+ bone.hitbox[0][0] = b.SR_data.collider_min[0]
+ bone.hitbox[0][1] = b.SR_data.collider_min[2]
+ bone.hitbox[0][2] = -b.SR_data.collider_max[1]
+ bone.hitbox[1][0] = b.SR_data.collider_max[0]
+ bone.hitbox[1][1] = b.SR_data.collider_max[2]
+ bone.hitbox[1][2] = -b.SR_data.collider_min[1]
+ #}
+
+ if b.SR_data.cone_constraint:#{
+ bone.flags |= 0x4
+ bone.conevx[0] = b.SR_data.conevx[0]
+ bone.conevx[1] = b.SR_data.conevx[2]
+ bone.conevx[2] = -b.SR_data.conevx[1]
+ bone.conevy[0] = b.SR_data.conevy[0]
+ bone.conevy[1] = b.SR_data.conevy[2]
+ bone.conevy[2] = -b.SR_data.conevy[1]
+ bone.coneva[0] = b.SR_data.coneva[0]
+ bone.coneva[1] = b.SR_data.coneva[2]
+ bone.coneva[2] = -b.SR_data.coneva[1]
+ bone.conet = b.SR_data.conet
+ #}
+
+ bone.co[0] = b.head_local[0]
+ bone.co[1] = b.head_local[2]
+ bone.co[2] = -b.head_local[1]
+ bone.end[0] = b.tail_local[0] - bone.co[0]
+ bone.end[1] = b.tail_local[2] - bone.co[1]
+ bone.end[2] = -b.tail_local[1] - bone.co[2]
+ bone.pstr_name = sr_compile_string( b.name )
+
+ for c in obj.pose.bones[b.name].constraints:#{
+ if c.type == 'IK':#{
+ bone.flags |= 0x2
+ bone.ik_target = bones_names.index(c.subtarget)
+ bone.ik_pole = bones_names.index(c.pole_subtarget)
+ #}
+ #}
+
+ node.bone_count += 1
+ sr_compile.bone_data.extend(bytearray(bone))
+ #}
+
+ # Compile anims
+ #
+ if obj.animation_data and sr_compile.pack_animations: #{
+ # So we can restore later
#
- compile_mesh = False
- if objt == 'MESH':
- armature_def = None
- compile_mesh = True
- can_use_cache = True
-
- for mod in obj.modifiers:
- if mod.type == 'DATA_TRANSFER' or mod.type == 'SHRINKWRAP' or \
- mod.type == 'BOOLEAN' or mod.type == 'CURVE' or \
- mod.type == 'ARRAY':
- can_use_cache = False
-
- if mod.type == 'ARMATURE':
- classtype = 'k_classtype_skin'
- armature_def = graph_lookup[mod.object]
- POSE_OR_REST_CACHE = armature_def['obj'].data.pose_position
-
- armature_def['obj'].data.pose_position = 'REST'
-
- if can_use_cache and obj.data.name in mesh_cache:
- ref = mesh_cache[obj.data.name]
- node.submesh_start = ref.submesh_start
- node.submesh_count = ref.submesh_count
- compile_mesh = False
-
- if compile_mesh:
- node.submesh_start = header.submesh_count
- node.submesh_count = 0
-
- default_mat = c_uint32(69)
- default_mat.name = ""
-
- dgraph = bpy.context.evaluated_depsgraph_get()
- data = obj.evaluated_get(dgraph).data
- data.calc_loop_triangles()
- data.calc_normals_split()
-
- mat_list = data.materials if len(data.materials) > 0 else [default_mat]
- for material_id, mat in enumerate(mat_list):
- mref = {}
-
- sm = mdl_submesh()
- sm.indice_start = header.indice_count
- sm.vertex_start = header.vertex_count
- sm.vertex_count = 0
- sm.indice_count = 0
- sm.material_id = emplace_material( mat )
-
- for i in range(3):
- sm.bbx[0][i] = 999999
- sm.bbx[1][i] = -999999
-
- boffa = {}
-
- # Write the vertex / indice data
+ previous_frame = bpy.context.scene.frame_current
+ previous_action = obj.animation_data.action
+ POSE_OR_REST_CACHE = obj.data.pose_position
+ obj.data.pose_position = 'POSE'
+
+ for NLALayer in obj.animation_data.nla_tracks:#{
+ for NLAStrip in NLALayer.strips:#{
+ # set active
#
- for tri_index, tri in enumerate(data.loop_triangles):
- if tri.material_index != material_id:
- continue
+ for a in bpy.data.actions:#{
+ if a.name == NLAStrip.name:#{
+ obj.animation_data.action = a
+ break
+ #}
+ #}
+
+ # Clip to NLA settings
+ #
+ anim_start = int(NLAStrip.action_frame_start)
+ anim_end = int(NLAStrip.action_frame_end)
- for j in range(3):
- vert = data.vertices[tri.vertices[j]]
- li = tri.loops[j]
- vi = data.loops[li].vertex_index
-
- co = vert.co
- norm = data.loops[li].normal
- uv = (0,0)
- colour = (255,255,255,255)
- groups = [0,0,0,0]
- weights = [0,0,0,0]
-
- if data.uv_layers:
- uv = data.uv_layers.active.data[li].uv
-
- if data.vertex_colors:
- colour = data.vertex_colors.active.data[li].color
- colour = (int(colour[0]*255.0),\
- int(colour[1]*255.0),\
- int(colour[2]*255.0),\
- int(colour[3]*255.0))
+ # Export strips
+ #
+ anim = mdl_animation()
+ anim.pstr_name = sr_compile_string( NLAStrip.action.name )
+ anim.rate = 30.0
+ anim.keyframe_start = len(sr_compile.keyframe_data)//\
+ sizeof(mdl_transform)
+ anim.length = anim_end-anim_start
+
+ i = 0
+ # Export the keyframes
+ for frame in range(anim_start,anim_end):#{
+ bpy.context.scene.frame_set(frame)
+
+ for rb in bones:#{
+ pb = obj.pose.bones[rb.name]
- # WEight groups
- #
- if armature_def:
- src_groups = [_ for _ in data.vertices[vi].groups \
- if obj.vertex_groups[_.group].name in \
- armature_def['bones']]
-
- weight_groups = sorted( src_groups, key = \
- lambda a: a.weight, reverse=True )
- tot = 0.0
- for ml in range(3):
- if len(weight_groups) > ml:
- g = weight_groups[ml]
- name = obj.vertex_groups[g.group].name
- weight = g.weight
-
- weights[ml] = weight
- groups[ml] = armature_def['bones'].index(name)
- tot += weight
+ # relative bone matrix
+ if rb.parent is not None:#{
+ offset_mtx = rb.parent.matrix_local
+ offset_mtx = offset_mtx.inverted_safe() @ \
+ rb.matrix_local
+
+ inv_parent = pb.parent.matrix @ offset_mtx
+ inv_parent.invert_safe()
+ fpm = inv_parent @ pb.matrix
+ #}
+ else:#{
+ bone_mtx = rb.matrix.to_4x4()
+ local_inv = rb.matrix_local.inverted_safe()
+ fpm = bone_mtx @ local_inv @ pb.matrix
+ #}
+
+ loc, rot, sca = fpm.decompose()
- if len(weight_groups) > 0:
- inv_norm = (1.0/tot) * 65535.0
- for ml in range(3):
- weights[ml] = int( weights[ml] * inv_norm )
- weights[ml] = min( weights[ml], 65535 )
- weights[ml] = max( weights[ml], 0 )
-
- TOLERENCE = 4
- m = float(10**TOLERENCE)
-
- key = (int(co[0]*m+0.5),\
- int(co[1]*m+0.5),\
- int(co[2]*m+0.5),\
- int(norm[0]*m+0.5),\
- int(norm[1]*m+0.5),\
- int(norm[2]*m+0.5),\
- int(uv[0]*m+0.5),\
- int(uv[1]*m+0.5),\
- colour[0],\
- colour[1],\
- colour[2],\
- colour[3],\
- weights[0],\
- weights[1],\
- weights[2],\
- weights[3],\
- groups[0],\
- groups[1],\
- groups[2],\
- groups[3])
-
- if key in boffa:
- indice_buffer += [boffa[key]]
- else:
- index = c_uint32(sm.vertex_count)
- sm.vertex_count += 1
-
- boffa[key] = index
- indice_buffer += [index]
-
- v = mdl_vert()
- v.co[0] = co[0]
- v.co[1] = co[2]
- v.co[2] = -co[1]
- v.norm[0] = norm[0]
- v.norm[1] = norm[2]
- v.norm[2] = -norm[1]
- v.uv[0] = uv[0]
- v.uv[1] = uv[1]
- v.colour[0] = colour[0]
- v.colour[1] = colour[1]
- v.colour[2] = colour[2]
- v.colour[3] = colour[3]
- v.weights[0] = weights[0]
- v.weights[1] = weights[1]
- v.weights[2] = weights[2]
- v.weights[3] = weights[3]
- v.groups[0] = groups[0]
- v.groups[1] = groups[1]
- v.groups[2] = groups[2]
- v.groups[3] = groups[3]
-
- vertex_buffer += [v]
-
- for i in range(3):
- sm.bbx[0][i] = min( sm.bbx[0][i], v.co[i] )
- sm.bbx[1][i] = max( sm.bbx[1][i], v.co[i] )
-
- sm.indice_count += 1
-
- if sm.vertex_count == 0:
- for j in range(2):
- for i in range(3):
- sm.bbx[j][i] = 0
-
- submesh_buffer += [sm]
- node.submesh_count += 1
- header.submesh_count += 1
- header.vertex_count += sm.vertex_count
- header.indice_count += sm.indice_count
-
- mesh_cache[obj.data.name] = node
-
- # Process entity data
- # ==================================================================
- node.offset = entdata_length
-
- if classtype != 'k_classtype_none':
- disptype = classtype
- else:
- disptype = objt
-
- s000 = F" [{uid: 3}/{header.node_count-1}]" + " |"*(depth-1)
- s001 = F" L {obj.name}"
- s002 = s000+s001
- s003 = F"{disptype}"
- s004 = F"{node.parent: 3}"
- s005 = ""
-
- if classtype == 'k_classtype_skin':
- armature_def['obj'].data.pose_position = POSE_OR_REST_CACHE
- s005 = F" [armature -> {armature_def['obj'].cv_data.uid}]"
-
- scmp = F"{s002:<32} {s003:<22} {s004} {s005}"
- print( scmp )
-
- if classtype == 'k_classtype_INSTANCE' or \
- classtype == 'k_classtype_BONE' or \
- classtype == 'k_classtype_SKELETON' or \
- classtype == 'k_classtype_SKIN':
- print( "ERROR: user classtype cannot be _INSTANCE or _BONE" )
- node.classtype = 0
- node.offset = 0
-
- elif classtype == 'k_classtype_skin':
- node.classtype = 12
-
- armature = armature_def['obj']
- entdata_length += sizeof( classtype_skin )
-
- skin = classtype_skin()
- skin.skeleton = armature.cv_data.uid
- entdata_buffer += [skin]
-
- elif classtype == 'k_classtype_skeleton':
- node.classtype = 11
- entdata_length += sizeof( classtype_skeleton )
- skeleton = classtype_skeleton()
-
- armature_def = graph_lookup[obj]
- armature = obj
- bones = armature_def['bones']
- skeleton.channels = len(bones)
- skeleton.ik_count = armature_def["ik_count"]
- skeleton.collider_count = armature_def["collider_count"]
-
- if armature.animation_data:
- previous_frame = bpy.context.scene.frame_current
- previous_action = armature.animation_data.action
-
- skeleton.anim_start = len(anim_buffer)
- skeleton.anim_count = 0
-
- for NLALayer in obj.animation_data.nla_tracks:
- for NLAStrip in NLALayer.strips:
- # Use action
- for a in bpy.data.actions:
- if a.name == NLAStrip.name:
- armature.animation_data.action = a
- break
-
- anim_start = int(NLAStrip.action_frame_start)
- anim_end = int(NLAStrip.action_frame_end)
-
- # export strips
- anim = mdl_animation()
- anim.pstr_name = emplace_string( NLAStrip.action.name )
- anim.rate = 30.0
- anim.offset = animdata_length
- anim.length = anim_end-anim_start
+ # rotation
+ lc_m = pb.matrix_channel.to_3x3()
+ if pb.parent is not None:#{
+ smtx = pb.parent.matrix_channel.to_3x3()
+ lc_m = smtx.inverted() @ lc_m
+ #}
+ rq = lc_m.to_quaternion()
+ q_normalize( rq )
+
+ kf = mdl_transform()
+ kf.co[0] = loc[0]
+ kf.co[1] = loc[2]
+ kf.co[2] = -loc[1]
+ kf.q[0] = rq[1]
+ kf.q[1] = rq[3]
+ kf.q[2] = -rq[2]
+ kf.q[3] = rq[0]
+ kf.s[0] = sca[0]
+ kf.s[1] = sca[1]
+ kf.s[2] = sca[2]
+ sr_compile.keyframe_data.extend(bytearray(kf))
- # Export the fucking keyframes
- for frame in range(anim_start,anim_end):
- bpy.context.scene.frame_set(frame)
-
- for bone_name in bones:
- for pb in armature.pose.bones:
- if pb.name == bone_name:
- rb = armature.data.bones[ bone_name ]
-
- # relative bone matrix
- if rb.parent is not None:
- offset_mtx = rb.parent.matrix_local
- offset_mtx = offset_mtx.inverted_safe() @ \
- rb.matrix_local
-
- inv_parent = pb.parent.matrix @ offset_mtx
- inv_parent.invert_safe()
- fpm = inv_parent @ pb.matrix
- else:
- bone_mtx = rb.matrix.to_4x4()
- local_inv = rb.matrix_local.inverted_safe()
- fpm = bone_mtx @ local_inv @ pb.matrix
-
- loc, rot, sca = fpm.decompose()
-
- # local position
- final_pos = Vector(( loc[0], loc[2], -loc[1] ))
-
- # rotation
- lc_m = pb.matrix_channel.to_3x3()
- if pb.parent is not None:
- smtx = pb.parent.matrix_channel.to_3x3()
- lc_m = smtx.inverted() @ lc_m
- rq = lc_m.to_quaternion()
-
- kf = mdl_keyframe()
- kf.co[0] = final_pos[0]
- kf.co[1] = final_pos[1]
- kf.co[2] = final_pos[2]
-
- kf.q[0] = rq[1]
- kf.q[1] = rq[3]
- kf.q[2] = -rq[2]
- kf.q[3] = rq[0]
-
- # scale
- kf.s[0] = sca[0]
- kf.s[1] = sca[2]
- kf.s[2] = sca[1]
-
- animdata_buffer += [kf]
- animdata_length += sizeof(mdl_keyframe)
- break
-
- anim_buffer += [anim]
- skeleton.anim_count += 1
-
- s000 = F" [{uid: 3}/{header.node_count-1}]" + " |"*(depth-1)
- print( F"{s000} | *anim: {NLAStrip.action.name}" )
+ i+=1
+ #}
+ #}
+
+ # Add to animation buffer
+ #
+ sr_compile.anim_data.extend(bytearray(anim))
+ node.anim_count += 1
+
+ # Report progress
+ #
+ print( F"[SR] | anim( {NLAStrip.action.name} )" )
+ #}
+ #}
+
+ # Restore context to how it was before
+ #
+ bpy.context.scene.frame_set( previous_frame )
+ obj.animation_data.action = previous_action
+ obj.data.pose_position = POSE_OR_REST_CACHE
+ #}
+
+ sr_compile.armature_data.extend(bytearray(node))
+#}
+
+def sr_ent_push( struct ):
+#{
+ clase = type(struct).__name__
+
+ if clase not in sr_compile.entity_data:#{
+ sr_compile.entity_data[ clase ] = bytearray()
+ sr_compile.entity_info[ clase ] = { 'size': sizeof(struct) }
+ #}
+
+ index = len(sr_compile.entity_data[ clase ])//sizeof(struct)
+ sr_compile.entity_data[ clase ].extend( bytearray(struct) )
+ return index
+#}
+
+def sr_array_title( arr, name, count, size, offset ):
+#{
+ for i in range(len(name)):#{
+ arr.name[i] = ord(name[i])
+ #}
+ arr.file_offset = offset
+ arr.item_count = count
+ arr.item_size = size
+#}
+
+def hash_djb2(s):
+#{
+ picadillo = 5381
+ for x in s:#{
+ picadillo = (((picadillo << 5) + picadillo) + ord(x)) & 0xFFFFFFFF
+ #}
+ return picadillo
+#}
+
+def sr_compile( collection ):
+#{
+ print( F"[SR] compiler begin ({collection.name}.mdl)" )
+
+ #settings
+ sr_compile.pack_textures = collection.SR_data.pack_textures
+ sr_compile.pack_animations = collection.SR_data.animations
+
+ # caches
+ sr_compile.string_cache = {}
+ sr_compile.mesh_cache = {}
+ sr_compile.material_cache = {}
+ sr_compile.texture_cache = {}
+
+ # compiled data
+ sr_compile.mesh_data = bytearray()
+ sr_compile.submesh_data = bytearray()
+ sr_compile.vertex_data = bytearray()
+ sr_compile.indice_data = bytearray()
+ sr_compile.bone_data = bytearray()
+ sr_compile.material_data = bytearray()
+ sr_compile.armature_data = bytearray()
+ sr_compile.anim_data = bytearray()
+ sr_compile.keyframe_data = bytearray()
+ sr_compile.texture_data = bytearray()
+
+ # 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
- bpy.context.scene.frame_set( previous_frame )
- armature.animation_data.action = previous_action
+ gate.dimensions[0] = mesh_data.dimensions[0]
+ gate.dimensions[1] = mesh_data.dimensions[1]
+ gate.dimensions[2] = mesh_data.dimensions[2]
- entdata_buffer += [skeleton]
+ q = [obj.matrix_local.to_quaternion(), (0,0,0,1)]
+ co = [obj.matrix_world @ Vector((0,0,0)), (0,0,0)]
- elif classtype == 'k_classtype_bone':
- node.classtype = 10
- entdata_length += sizeof( classtype_bone )
+ 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 = 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 )
+ #}
+ #}
+ #}
+
+ 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 )
- bone = classtype_bone()
- bone.deform = node_def['deform']
+ # find best subsection
- if 'target' in node_def:
- bone.ik_target = armature_def['bones'].index( node_def['target'] )
- bone.ik_pole = armature_def['bones'].index( node_def['pole'] )
- else:
- bone.ik_target = 0
- bone.ik_pole = 0
-
- bone.collider = 1 if obj.cv_data.collider else 0
- if obj.cv_data.collider:
- bone.hitbox[0][0] = obj.cv_data.v0[0]
- bone.hitbox[0][1] = obj.cv_data.v0[2]
- bone.hitbox[0][2] = -obj.cv_data.v1[1]
- bone.hitbox[1][0] = obj.cv_data.v1[0]
- bone.hitbox[1][1] = obj.cv_data.v1[2]
- bone.hitbox[1][2] = -obj.cv_data.v0[1]
- else:
- bone.hitbox[0][0] = 0.0
- bone.hitbox[0][1] = 0.0
- bone.hitbox[0][2] = 0.0
- bone.hitbox[1][0] = 0.0
- bone.hitbox[1][1] = 0.0
- bone.hitbox[1][2] = 0.0
-
- if obj.cv_data.con0:
- bone.use_limits = 1
- bone.angle_limits[0][0] = obj.cv_data.mins[0]
- bone.angle_limits[0][1] = obj.cv_data.mins[2]
- bone.angle_limits[0][2] = -obj.cv_data.maxs[1]
- bone.angle_limits[1][0] = obj.cv_data.maxs[0]
- bone.angle_limits[1][1] = obj.cv_data.maxs[2]
- bone.angle_limits[1][2] = -obj.cv_data.mins[1]
- else:
- bone.use_limits = 0
- bone.angle_limits[0][0] = 0.0
- bone.angle_limits[0][1] = 0.0
- bone.angle_limits[0][2] = 0.0
- bone.angle_limits[1][0] = 0.0
- bone.angle_limits[1][1] = 0.0
- bone.angle_limits[1][2] = 0.0
-
- bone.deform = node_def['deform']
- entdata_buffer += [bone]
-
- elif classtype == 'k_classtype_gate':
- node.classtype = 1
- entdata_length += sizeof( classtype_gate )
-
- gate = classtype_gate()
- gate.target = 0
- if obj.cv_data.target != None:
- gate.target = obj.cv_data.target.cv_data.uid
-
- if obj.type == 'MESH':
- gate.dims[0] = obj.data.cv_data.v0[0]
- gate.dims[1] = obj.data.cv_data.v0[1]
- gate.dims[2] = obj.data.cv_data.v0[2]
- else:
- gate.dims[0] = obj.cv_data.v0[0]
- gate.dims[1] = obj.cv_data.v0[1]
- gate.dims[2] = obj.cv_data.v0[2]
-
- entdata_buffer += [gate]
-
- elif classtype == 'k_classtype_block':
- node.classtype = 2
- entdata_length += sizeof( classtype_block )
-
- source = obj.data.cv_data
-
- block = classtype_block()
- block.bbx[0][0] = source.v0[0]
- block.bbx[0][1] = source.v0[2]
- block.bbx[0][2] = -source.v1[1]
-
- block.bbx[1][0] = source.v1[0]
- block.bbx[1][1] = source.v1[2]
- block.bbx[1][2] = -source.v0[1]
- entdata_buffer += [block]
-
- elif classtype == 'k_classtype_spawn':
- node.classtype = 3
-
- elif classtype == 'k_classtype_water':
- node.classtype = 4
-
- elif classtype == 'k_classtype_car_path':
- node.classtype = 5
- entdata_length += sizeof( classtype_car_path )
-
- pn = classtype_car_path()
- pn.target = 0
- pn.target1 = 0
-
- if obj.cv_data.target != None:
- pn.target = obj.cv_data.target.cv_data.uid
- if obj.cv_data.target1 != None:
- pn.target1 = obj.cv_data.target1.cv_data.uid
-
- entdata_buffer += [pn]
-
- elif obj.is_instancer:
- target = obj.instance_collection
-
- node.classtype = 6
- entdata_length += sizeof( classtype_instance )
-
- inst = classtype_instance()
- inst.pstr_file = emplace_string( F"models/{target.name}.mdl" )
- entdata_buffer += [inst]
-
- elif classtype == 'k_classtype_capsule':
- node.classtype = 7
-
- elif classtype == 'k_classtype_route_node':
- node.classtype = 8
- entdata_length += sizeof( classtype_route_node )
-
- rn = classtype_route_node()
- if obj.cv_data.target != None:
- rn.target = obj.cv_data.target.cv_data.uid
- if obj.cv_data.target1 != None:
- rn.target1 = obj.cv_data.target1.cv_data.uid
-
- entdata_buffer += [rn]
-
- elif classtype == 'k_classtype_route':
- node.classtype = 9
- entdata_length += sizeof( classtype_route )
- r = classtype_route()
- r.colour[0] = obj.cv_data.colour[0]
- r.colour[1] = obj.cv_data.colour[1]
- r.colour[2] = obj.cv_data.colour[2]
-
- if obj.cv_data.target != None:
- r.id_start = obj.cv_data.target.cv_data.uid
-
- entdata_buffer += [r]
+ 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 ) )
+ #}
- # classtype == 'k_classtype_none':
- else:
- node.classtype = 0
- node.offset = 0
+ fp.close()
- node_buffer += [node]
+ print( '[SR] done' )
+#}
- # Write data arrays
- #
- header.anim_count = len(anim_buffer)
+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
+#}
- print( "Writing data" )
- fpos = sizeof(header)
+class SR_MIRROR_BONE_X(bpy.types.Operator):
+#{
+ bl_idname="skaterift.mirror_bone"
+ bl_label="Mirror bone attributes - SkateRift"
- print( F"Nodes: {header.node_count}" )
- header.node_offset = fpos
- fpos += sizeof(mdl_node)*header.node_count
+ def execute(_,context):
+ #{
+ active_object = context.active_object
+ bones = active_object.data.bones
+ a = bones.active
+ b = sr_get_mirror_bone( bones )
- print( F"Submeshes: {header.submesh_count}" )
- header.submesh_offset = fpos
- fpos += sizeof(mdl_submesh)*header.submesh_count
+ if not b: return {'FINISHED'}
- print( F"Materials: {header.material_count}" )
- header.material_offset = fpos
- fpos += sizeof(mdl_material)*header.material_count
+ b.SR_data.collider = a.SR_data.collider
- print( F"Animation count: {header.anim_count}" )
- header.anim_offset = fpos
- fpos += sizeof(mdl_animation)*header.anim_count
+ def _v3copyflipy( a, b ):#{
+ b[0] = a[0]
+ b[1] = -a[1]
+ b[2] = a[2]
+ #}
- print( F"Entdata length: {entdata_length}" )
- header.entdata_offset = fpos
- fpos += entdata_length
-
- print( F"Vertex count: {header.vertex_count}" )
- header.vertex_offset = fpos
- fpos += sizeof(mdl_vert)*header.vertex_count
+ _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]
- print( F"Indice count: {header.indice_count}" )
- header.indice_offset = fpos
- fpos += sizeof(c_uint32)*header.indice_count
+ b.SR_data.cone_constraint = a.SR_data.cone_constraint
- print( F"Keyframe count: {animdata_length}" )
- header.animdata_offset = fpos
- fpos += animdata_length
-
- print( F"Strings length: {len(strings_buffer)}" )
- header.strings_offset = fpos
- fpos += len(strings_buffer)
+ _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 )
- header.file_length = fpos
+ b.SR_data.conet = a.SR_data.conet
- path = F"/home/harry/Documents/carve/models_src/{collection_name}.mdl"
- fp = open( path, "wb" )
-
- fp.write( bytearray( header ) )
-
- for node in node_buffer:
- fp.write( bytearray(node) )
- for sm in submesh_buffer:
- fp.write( bytearray(sm) )
- for mat in material_buffer:
- fp.write( bytearray(mat) )
- for a in anim_buffer:
- fp.write( bytearray(a) )
- for ed in entdata_buffer:
- fp.write( bytearray(ed) )
- for v in vertex_buffer:
- fp.write( bytearray(v) )
- for i in indice_buffer:
- fp.write( bytearray(i) )
- for kf in animdata_buffer:
- fp.write( bytearray(kf) )
-
- fp.write( strings_buffer )
- fp.close()
-
- print( F"Completed {collection_name}.mdl" )
+ # redraw
+ ob = bpy.context.scene.objects[0]
+ ob.hide_render = ob.hide_render
+ return {'FINISHED'}
+ #}
+#}
-# Clicky clicky GUI
-# ------------------------------------------------------------------------------
+class SR_COMPILE(bpy.types.Operator):
+#{
+ bl_idname="skaterift.compile_all"
+ bl_label="Compile All"
-cv_view_draw_handler = None
-cv_view_shader = gpu.shader.from_builtin('3D_SMOOTH_COLOR')
+ def execute(_,context):
+ #{
+ view_layer = bpy.context.view_layer
+ for col in view_layer.layer_collection.children["export"].children:
+ if not col.hide_viewport or bpy.context.scene.SR_data.use_hidden:
+ sr_compile( bpy.data.collections[col.name] )
-def cv_draw():
- global cv_view_shader
- cv_view_shader.bind()
- gpu.state.depth_mask_set(False)
- gpu.state.line_width_set(2.0)
- gpu.state.face_culling_set('BACK')
- gpu.state.depth_test_set('LESS')
- gpu.state.blend_set('NONE')
+ return {'FINISHED'}
+ #}
+#}
- verts = []
- colours = []
-
- #def drawbezier(p0,h0,p1,h1,c0,c1):
- # nonlocal verts, colours
-
- # verts += [p0]
- # verts += [h0]
- # colours += [(0.5,0.5,0.5,1.0),(0.5,0.5,0.5,1)]
- # verts += [p1]
- # verts += [h1]
- # colours += [(1.0,1.0,1,1),(1,1,1,1)]
- #
- # last = p0
- # for i in range(10):
- # t = (i+1)/10
- # a0 = 1-t
-
- # tt = t*t
- # ttt = tt*t
- # p=ttt*p1+(3*tt-3*ttt)*h1+(3*ttt-6*tt+3*t)*h0+(3*tt-ttt-3*t+1)*p0
- # verts += [(last[0],last[1],last[2])]
- # verts += [(p[0],p[1],p[2])]
- # colours += [c0*a0+c1*(1-a0),c0*a0+c1*(1-a0)]
- # last = p
-
- course_count = 0
-
- def drawbhandle(obj, direction, colour):
- nonlocal verts, colours
- p0 = obj.location
- h0 = obj.matrix_world @ Vector((0,direction,0))
- verts += [p0]
- verts += [h0]
- colours += [colour,colour]
-
- def drawbezier(p0,h0,p1,h1,c0,c1):
- nonlocal verts, colours
-
- last = p0
- for i in range(10):
- t = (i+1)/10
- a0 = 1-t
-
- tt = t*t
- ttt = tt*t
- p=ttt*p1+(3*tt-3*ttt)*h1+(3*ttt-6*tt+3*t)*h0+(3*tt-ttt-3*t+1)*p0
- verts += [(last[0],last[1],last[2])]
- verts += [(p[0],p[1],p[2])]
- colours += [c0*a0+c1*(1-a0),c0*a0+c1*(1-a0)]
- last = p
-
- def drawsbpath(o0,o1,c0,c1,s0,s1):
- nonlocal course_count
-
- offs = ((course_count % 2)*2-1) * course_count * 0.02
-
- p0 = o0.matrix_world @ Vector((offs, 0,0))
- h0 = o0.matrix_world @ Vector((offs, s0,0))
- p1 = o1.matrix_world @ Vector((offs, 0,0))
- h1 = o1.matrix_world @ Vector((offs,-s1,0))
- drawbezier(p0,h0,p1,h1,c0,c1)
-
- def drawbpath(o0,o1,c0,c1):
- drawsbpath(o0,o1,c0,c1,1.0,1.0)
-
- def drawbline(p0,p1,c0,c1):
- nonlocal verts, colours
- verts += [p0,p1]
- colours += [c0,c1]
-
- for obj in bpy.context.collection.objects:
- if obj.type == 'ARMATURE':
- for bone in obj.data.bones:
- if bone.cv_data.collider and obj.data.pose_position == 'REST':
- c = bone.head_local
- a = bone.cv_data.v0
- b = bone.cv_data.v1
-
- vs = [None]*8
- vs[0]=obj.matrix_world@Vector((c[0]+a[0],c[1]+a[1],c[2]+a[2]))
- vs[1]=obj.matrix_world@Vector((c[0]+a[0],c[1]+b[1],c[2]+a[2]))
- vs[2]=obj.matrix_world@Vector((c[0]+b[0],c[1]+b[1],c[2]+a[2]))
- vs[3]=obj.matrix_world@Vector((c[0]+b[0],c[1]+a[1],c[2]+a[2]))
- vs[4]=obj.matrix_world@Vector((c[0]+a[0],c[1]+a[1],c[2]+b[2]))
- vs[5]=obj.matrix_world@Vector((c[0]+a[0],c[1]+b[1],c[2]+b[2]))
- vs[6]=obj.matrix_world@Vector((c[0]+b[0],c[1]+b[1],c[2]+b[2]))
- vs[7]=obj.matrix_world@Vector((c[0]+b[0],c[1]+a[1],c[2]+b[2]))
+class SR_COMPILE_THIS(bpy.types.Operator):
+#{
+ bl_idname="skaterift.compile_this"
+ bl_label="Compile This collection"
- indices = [(0,1),(1,2),(2,3),(3,0),(4,5),(5,6),(6,7),(7,4),\
- (0,4),(1,5),(2,6),(3,7)]
+ def execute(_,context):
+ #{
+ col = bpy.context.collection
+ sr_compile( col )
- for l in indices:
- v0 = vs[l[0]]
- v1 = vs[l[1]]
- verts += [(v0[0],v0[1],v0[2])]
- verts += [(v1[0],v1[1],v1[2])]
- colours += [(0.5,0.5,0.5,0.5),(0.5,0.5,0.5,0.5)]
+ return {'FINISHED'}
+ #}
+#}
- center=obj.matrix_world@c
-
- def _angle_lim( major, minor, amin, amax, colour ):
- nonlocal verts, colours
- f = 0.05
- ay = major*f
- ax = minor*f
-
- for x in range(16):
- t0 = x/16
- t1 = (x+1)/16
- a0 = amin*(1.0-t0)+amax*t0
- a1 = amin*(1.0-t1)+amax*t1
-
- p0 = c + major*f*math.cos(a0) + minor*f*math.sin(a0)
- p1 = c + major*f*math.cos(a1) + minor*f*math.sin(a1)
-
- p0=obj.matrix_world @ p0
- p1=obj.matrix_world @ p1
- verts += [p0,p1]
- colours += [colour,colour]
-
- if x == 0:
- verts += [p0,c]
- colours += [colour,colour]
- if x == 15:
- verts += [p1,c]
- colours += [colour,colour]
-
- verts += [c+major*1.2*f,c+major*f*0.8]
- colours += [colour,colour]
-
- if bone.cv_data.con0:
- _angle_lim( Vector((0,1,0)),Vector((0,0,1)), \
- bone.cv_data.mins[0], bone.cv_data.maxs[0], \
- (1,0,0,1))
- _angle_lim( Vector((0,0,1)),Vector((1,0,0)), \
- bone.cv_data.mins[1], bone.cv_data.maxs[1], \
- (0,1,0,1))
- _angle_lim( Vector((1,0,0)),Vector((0,1,0)), \
- bone.cv_data.mins[2], bone.cv_data.maxs[2], \
- (0,0,1,1))
-
+class SR_INTERFACE(bpy.types.Panel):
+#{
+ bl_idname = "VIEW3D_PT_skate_rift"
+ bl_label = "Skate Rift"
+ bl_space_type = 'VIEW_3D'
+ bl_region_type = 'UI'
+ bl_category = "Skate Rift"
- if obj.cv_data.classtype == 'k_classtype_gate':
- if obj.type == 'MESH':
- dims = obj.data.cv_data.v0
- else:
- dims = obj.cv_data.v0
+ def draw(_, context):
+ #{
+ # Compiler section
+
+ row = _.layout.row()
+ row.scale_y = 1.75
+ row.prop( context.scene.SR_data, 'panel', expand=True )
+
+ if context.scene.SR_data.panel == 'SETTINGS': #{
+ _.layout.prop( context.scene.SR_data, 'gizmos' )
+ #}
+ elif context.scene.SR_data.panel == 'EXPORT': #{
+ _.layout.prop( context.scene.SR_data, "export_dir" )
+ col = bpy.context.collection
+
+ found_in_export = False
+ export_count = 0
+ view_layer = bpy.context.view_layer
+ for c1 in view_layer.layer_collection.children["export"].children: #{
+ if not c1.hide_viewport or bpy.context.scene.SR_data.use_hidden:
+ export_count += 1
+
+ if c1.name == col.name: #{
+ found_in_export = True
+ #}
+ #}
+
+ box = _.layout.box()
+ row = box.row()
+ row.alignment = 'CENTER'
+ row.scale_y = 1.5
+
+ if found_in_export: #{
+ row.label( text=col.name + ".mdl" )
+ box.prop( col.SR_data, "pack_textures" )
+ box.prop( col.SR_data, "animations" )
+ box.operator( "skaterift.compile_this" )
+ #}
+ else: #{
+ row.enabled=False
+ row.label( text=col.name )
+
+ row = box.row()
+ row.enabled=False
+ row.alignment = 'CENTER'
+ row.scale_y = 1.5
+ row.label( text="This collection is not in the export group" )
+ #}
+
+ box = _.layout.box()
+ row = box.row()
+
+ split = row.split( factor=0.3, align=True )
+ split.prop( context.scene.SR_data, "use_hidden", text="hidden" )
+
+ row1 = split.row()
+ if export_count == 0:
+ row1.enabled=False
+ row1.operator( "skaterift.compile_all", \
+ text=F"Compile all ({export_count} collections)" )
+ #}
+ elif context.scene.SR_data.panel == 'ENTITY': #{
+ active_object = context.active_object
+ if not active_object: return
+
+ amount = max( 0, len(context.selected_objects)-1 )
+
+ row = _.layout.row()
+ row.operator( 'skaterift.copy_entity_data', \
+ text=F'Copy entity data to {amount} other objects' )
+ if amount == 0: row.enabled=False
+
+ box = _.layout.box()
+ row = box.row()
+ row.alignment = 'CENTER'
+ row.label( text=active_object.name )
+ row.scale_y = 1.5
+
+ def _draw_prop_collection( source, data ): #{
+ nonlocal box
+ row = box.row()
+ row.alignment = 'CENTER'
+ row.enabled = False
+ row.scale_y = 1.5
+ row.label( text=F'{source}' )
+
+ if hasattr(type(data[0]),'sr_inspector'):#{
+ type(data[0]).sr_inspector( box, data )
+ #}
+ else:#{
+ for a in data[0].__annotations__:
+ box.prop( data[0], a )
+ #}
+ #}
+
+ if active_object.type == 'ARMATURE': #{
+ if active_object.mode == 'POSE': #{
+ bones = active_object.data.bones
+ mb = sr_get_mirror_bone( bones )
+ if mb:#{
+ box.operator( "skaterift.mirror_bone", \
+ text=F'Mirror attributes to {mb.name}' )
+ #}
+
+ _draw_prop_collection( \
+ F'bpy.types.Bone["{bones.active.name}"].SR_data',\
+ [bones.active.SR_data ] )
+ #}
+ else: #{
+ row = box.row()
+ row.alignment='CENTER'
+ row.scale_y=2.0
+ row.enabled=False
+ row.label( text="Enter pose mode to modify bone properties" )
+ #}
+ #}
+ elif active_object.type == 'LIGHT': #{
+ _draw_prop_collection( \
+ F'bpy.types.Light["{active_object.data.name}"].SR_data', \
+ [active_object.data.SR_data] )
+ #}
+ elif active_object.type in ['EMPTY','CURVE','MESH']:#{
+ box.prop( active_object.SR_data, "ent_type" )
+ ent_type = active_object.SR_data.ent_type
+
+ col = getattr( active_object.SR_data, ent_type, None )
+ if col != None and len(col)!=0:
+ _draw_prop_collection( \
+ F'bpy.types.Object["{active_object.name}"].SR_data.{ent_type}[0]', \
+ col )
+
+ if active_object.type == 'MESH':#{
+ col = getattr( active_object.data.SR_data, ent_type, None )
+ if col != None and len(col)!=0:
+ _draw_prop_collection( \
+ F'bpy.types.Mesh["{active_object.data.name}"].SR_data.{ent_type}[0]', \
+ col )
+ #}
+ #}
+ #}
+ #}
+#}
+
+class SR_MATERIAL_PANEL(bpy.types.Panel):
+#{
+ bl_label="Skate Rift material"
+ bl_idname="MATERIAL_PT_sr_material"
+ bl_space_type='PROPERTIES'
+ bl_region_type='WINDOW'
+ bl_context="material"
+
+ def draw(_,context):
+ #{
+ active_object = bpy.context.active_object
+ if active_object == None: return
+ active_mat = active_object.active_material
+ if active_mat == None: return
+
+ info = material_info( active_mat )
+
+ if 'tex_diffuse' in info:#{
+ _.layout.label( icon='INFO', \
+ text=F"{info['tex_diffuse'].name} will be compiled" )
+ #}
+
+ _.layout.prop( active_mat.SR_data, "shader" )
+ _.layout.prop( active_mat.SR_data, "surface_prop" )
+ _.layout.prop( active_mat.SR_data, "collision" )
+
+ if active_mat.SR_data.collision:#{
+ box = _.layout.box()
+ row = box.row()
+
+ if (active_mat.SR_data.shader != 'invisible') and \
+ (active_mat.SR_data.shader != 'boundary'):#{
+ row.prop( active_mat.SR_data, "skate_surface" )
+ row.prop( active_mat.SR_data, "grind_surface" )
+ row.prop( active_mat.SR_data, "grow_grass" )
+ row.prop( active_mat.SR_data, "preview_visibile" )
+ #}
+ #}
+
+ if active_mat.SR_data.shader == "terrain_blend":#{
+ box = _.layout.box()
+ box.prop( active_mat.SR_data, "blend_offset" )
+ box.prop( active_mat.SR_data, "sand_colour" )
+ #}
+ elif active_mat.SR_data.shader == "vertex_blend":#{
+ box = _.layout.box()
+ box.label( icon='INFO', text="Uses vertex colours, the R channel" )
+ box.prop( active_mat.SR_data, "blend_offset" )
+ #}
+ elif active_mat.SR_data.shader == "water":#{
+ box = _.layout.box()
+ box.label( icon='INFO', text="Depth scale of 16 meters" )
+ box.prop( active_mat.SR_data, "shore_colour" )
+ box.prop( active_mat.SR_data, "ocean_colour" )
+ #}
+ #}
+#}
+
+def sr_get_type_enum( scene, context ):
+#{
+ items = [('none','None',"")]
+ mesh_entities=['ent_gate','ent_water']
+ point_entities=['ent_spawn','ent_route_node','ent_route']
+
+ for e in point_entities: items += [(e,e,'')]
+
+ if context.scene.SR_data.panel == 'ENTITY': #{
+ if context.active_object.type == 'MESH': #{
+ for e in mesh_entities: items += [(e,e,'')]
+ #}
+ #}
+ else: #{
+ for e in mesh_entities: items += [(e,e,'')]
+ #}
+
+ return items
+#}
+
+def sr_on_type_change( _, context ):
+#{
+ obj = context.active_object
+ ent_type = obj.SR_data.ent_type
+ if ent_type == 'none': return
+ if obj.type == 'MESH':#{
+ col = getattr( obj.data.SR_data, ent_type, None )
+ if col != None and len(col)==0: col.add()
+ #}
+
+ col = getattr( obj.SR_data, ent_type, None )
+ if col != None and len(col)==0: col.add()
+#}
+
+class SR_OBJECT_ENT_SPAWN(bpy.types.PropertyGroup):
+#{
+ alias: bpy.props.StringProperty( name='alias' )
+#}
+
+class SR_OBJECT_ENT_GATE(bpy.types.PropertyGroup):
+#{
+ target: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="destination", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_gate']))
+
+ key: bpy.props.StringProperty()
+ tipo: bpy.props.EnumProperty(items=(('default', 'Default', ""),
+ ('nonlocal', 'Non-Local', "")))
+
+ flip: bpy.props.BoolProperty( name="Flip exit", default=False )
+ custom: bpy.props.BoolProperty( name="Mesh is surface", default=False )
+ locked: bpy.props.BoolProperty( name="Start Locked", default=False )
+
+ @staticmethod
+ def sr_inspector( layout, data ):
+ #{
+ box = layout.box()
+ box.prop( data[0], 'tipo', text="subtype" )
+
+ if data[0].tipo == 'default': box.prop( data[0], 'target' )
+ elif data[0].tipo == 'nonlocal': box.prop( data[0], 'key' )
+
+ flags = box.box()
+ flags.prop( data[0], 'flip' )
+ flags.prop( data[0], 'custom' )
+ flags.prop( data[0], 'locked' )
+ #}
+#}
+
+class SR_MESH_ENT_GATE(bpy.types.PropertyGroup):
+#{
+ dimensions: bpy.props.FloatVectorProperty(name="dimensions",size=3)
+#}
+
+class SR_OBJECT_ENT_ROUTE_ENTRY(bpy.types.PropertyGroup):
+#{
+ target: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name='target', \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_gate']))
+#}
+
+class SR_UL_ROUTE_NODE_LIST(bpy.types.UIList):
+#{
+ bl_idname = 'SR_UL_ROUTE_NODE_LIST'
+
+ def draw_item(_,context,layout,data,item,icon,active_data,active_propname):
+ #{
+ layout.prop( item, 'target', text='', emboss=False )
+ #}
+#}
+
+def internal_listdel_execute(self,context,ent_name,collection_name):
+#{
+ active_object = context.active_object
+ data = getattr(active_object.SR_data,ent_name)[0]
+ lista = getattr(data,collection_name)
+ index = getattr(data,F'{collection_name}_index')
+
+ lista.remove(index)
+
+ setattr(data,F'{collection_name}_index', min(max(0,index-1), len(lista)-1))
+ return{'FINISHED'}
+#}
+
+def internal_listadd_execute(self,context,ent_name,collection_name):
+#{
+ active_object = context.active_object
+ getattr(getattr(active_object.SR_data,ent_name)[0],collection_name).add()
+ return{'FINISHED'}
+#}
+
+def copy_propgroup( de, to ):
+#{
+ for a in de.__annotations__:#{
+ if isinstance(getattr(de,a), bpy.types.bpy_prop_collection):#{
+ ca = getattr(de,a)
+ cb = getattr(to,a)
+
+ while len(cb) != len(ca):#{
+ if len(cb) < len(ca): cb.add()
+ else: cb.remove(0)
+ #}
+ for i in range(len(ca)):#{
+ copy_propgroup(ca[i],cb[i])
+ #}
+ #}
+ else:#{
+ setattr(to,a,getattr(de,a))
+ #}
+ #}
+#}
+
+class SR_OT_COPY_ENTITY_DATA(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.copy_entity_data"
+ bl_label = "Copy entity data"
+
+ def execute(self, context):#{
+ data = context.active_object.SR_data
+ new_type = data.ent_type
+ print( F"Copy entity data from: {context.active_object.name}" )
+
+ for obj in context.selected_objects:#{
+ if obj != context.active_object:#{
+ print( F" To: {obj.name}" )
+
+ obj.SR_data.ent_type = new_type
+
+ if active_object.type == 'MESH':#{
+ col = getattr( obj.data.SR_data, new_type, None )
+ if col != None and len(col)==0: col.add()
+ mdata = context.active_object.data.SR_data
+ copy_propgroup( getattr(mdata,new_type)[0], col[0] )
+ #}
+
+ col = getattr( obj.SR_data, new_type, None )
+ if col != None and len(col)==0: col.add()
+ copy_propgroup( getattr(data,new_type)[0], col[0] )
+ #}
+ #}
+ return{'FINISHED'}
+ #}
+#}
+
+class SR_OT_ROUTE_LIST_NEW_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.new_entry"
+ bl_label = "Add gate"
+
+ def execute(self, context):#{
+ return internal_listadd_execute(self,context,'ent_route','gates')
+ #}
+#}
+
+class SR_OT_ROUTE_LIST_DEL_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.del_entry"
+ bl_label = "Remove gate"
+
+ @classmethod
+ def poll(cls, context):#{
+ active_object = context.active_object
+ if obj_ent_type(active_object) == 'ent_route':#{
+ return active_object.SR_data.ent_route[0].gates
+ #}
+ else: return False
+ #}
+
+ def execute(self, context):#{
+ return internal_listdel_execute(self,context,'ent_route','gates')
+ #}
+#}
+
+class SR_OT_AUDIO_LIST_NEW_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.al_new_entry"
+ bl_label = "Add file"
+
+ def execute(self, context):#{
+ return internal_listadd_execute(self,context,'ent_audio','files')
+ #}
+#}
+
+class SR_OT_AUDIO_LIST_DEL_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.al_del_entry"
+ bl_label = "Remove file"
+
+ @classmethod
+ def poll(cls, context):#{
+ active_object = context.active_object
+ if obj_ent_type(active_object) == 'ent_audio':#{
+ return active_object.SR_data.ent_audio[0].files
+ #}
+ else: return False
+ #}
+
+ def execute(self, context):#{
+ return internal_listdel_execute(self,context,'ent_audio','files')
+ return{'FINISHED'}
+ #}
+#}
+
+class SR_OT_GLYPH_LIST_NEW_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.gl_new_entry"
+ bl_label = "Add glyph"
+
+ def execute(self, context):#{
+ active_object = context.active_object
- vs = [None]*9
- c = Vector((0,0,dims[2]))
+ font = active_object.SR_data.ent_font[0]
+ font.glyphs.add()
- vs[0] = obj.matrix_world @ Vector((-dims[0],0.0,-dims[1]+dims[2]))
- vs[1] = obj.matrix_world @ Vector((-dims[0],0.0, dims[1]+dims[2]))
- vs[2] = obj.matrix_world @ Vector(( dims[0],0.0, dims[1]+dims[2]))
- vs[3] = obj.matrix_world @ Vector(( dims[0],0.0,-dims[1]+dims[2]))
- vs[4] = obj.matrix_world @ (c+Vector((-1,0,-2)))
- vs[5] = obj.matrix_world @ (c+Vector((-1,0, 2)))
- vs[6] = obj.matrix_world @ (c+Vector(( 1,0, 2)))
- vs[7] = obj.matrix_world @ (c+Vector((-1,0, 0)))
- vs[8] = obj.matrix_world @ (c+Vector(( 1,0, 0)))
+ if len(font.glyphs) > 1:#{
+ prev = font.glyphs[-2]
+ cur = font.glyphs[-1]
- indices = [(0,1),(1,2),(2,3),(3,0),(4,5),(5,6),(7,8)]
+ cur.bounds = prev.bounds
+ cur.utf32 = prev.utf32+1
+ #}
- for l in indices:
- v0 = vs[l[0]]
- v1 = vs[l[1]]
- verts += [(v0[0],v0[1],v0[2])]
- verts += [(v1[0],v1[1],v1[2])]
- colours += [(1,1,0,1),(1,1,0,1)]
+ return{'FINISHED'}
+ #}
+#}
- sw = (0.4,0.4,0.4,0.2)
- if obj.cv_data.target != None:
- drawbline( obj.location, obj.cv_data.target.location, sw,sw )
+class SR_OT_GLYPH_LIST_DEL_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.gl_del_entry"
+ bl_label = "Remove Glyph"
- elif obj.cv_data.classtype == 'k_classtype_route_node':
- sw = Vector((0.4,0.4,0.4,0.2))
- sw2 = Vector((1.5,0.2,0.2,0.0))
- if obj.cv_data.target != None:
- drawbpath( obj, obj.cv_data.target, sw, sw )
- if obj.cv_data.target1 != None:
- drawbpath( obj, obj.cv_data.target1, sw, sw )
+ @classmethod
+ def poll(cls, context):#{
+ active_object = context.active_object
+ if obj_ent_type(active_object) == 'ent_font':#{
+ return active_object.SR_data.ent_font[0].glyphs
+ #}
+ else: return False
+ #}
+
+ def execute(self, context):#{
+ return internal_listdel_execute(self,context,'ent_font','glyphs')
+ #}
+#}
+
+class SR_OT_GLYPH_LIST_MOVE_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.gl_move_item"
+ bl_label = "aa"
+ direction: bpy.props.EnumProperty(items=(('UP', 'Up', ""),
+ ('DOWN', 'Down', ""),))
+
+ @classmethod
+ def poll(cls, context):#{
+ active_object = context.active_object
+ if obj_ent_type(active_object) == 'ent_font':#{
+ return active_object.SR_data.ent_font[0].glyphs
+ #}
+ else: return False
+ #}
- drawbhandle( obj, 1.0, (0.8,0.8,0.8,1.0) )
- drawbhandle( obj, -1.0, (0.4,0.4,0.4,1.0) )
+ def execute(_, context):#{
+ active_object = context.active_object
+ data = active_object.SR_data.ent_font[0]
- p1 = obj.location+ \
- obj.matrix_world.to_quaternion() @ Vector((0,0,-6+1.5))
- drawbline( obj.location, p1, sw,sw2 )
+ index = data.glyphs_index
+ neighbor = index + (-1 if _.direction == 'UP' else 1)
+ data.glyphs.move( neighbor, index )
+ list_length = len(data.glyphs) - 1
+ new_index = index + (-1 if _.direction == 'UP' else 1)
- elif obj.cv_data.classtype == 'k_classtype_block':
- a = obj.data.cv_data.v0
- b = obj.data.cv_data.v1
-
- vs = [None]*8
- vs[0] = obj.matrix_world @ Vector((a[0], a[1], a[2]))
- vs[1] = obj.matrix_world @ Vector((a[0], b[1], a[2]))
- vs[2] = obj.matrix_world @ Vector((b[0], b[1], a[2]))
- vs[3] = obj.matrix_world @ Vector((b[0], a[1], a[2]))
- vs[4] = obj.matrix_world @ Vector((a[0], a[1], b[2]))
- vs[5] = obj.matrix_world @ Vector((a[0], b[1], b[2]))
- vs[6] = obj.matrix_world @ Vector((b[0], b[1], b[2]))
- vs[7] = obj.matrix_world @ Vector((b[0], a[1], b[2]))
+ data.glyphs_index = max(0, min(new_index, list_length))
- indices = [(0,1),(1,2),(2,3),(3,0),(4,5),(5,6),(6,7),(7,4),\
- (0,4),(1,5),(2,6),(3,7)]
+ return{'FINISHED'}
+ #}
+#}
- for l in indices:
- v0 = vs[l[0]]
- v1 = vs[l[1]]
- verts += [(v0[0],v0[1],v0[2])]
- verts += [(v1[0],v1[1],v1[2])]
- colours += [(1,1,0,1),(1,1,0,1)]
-
- elif obj.cv_data.classtype == 'k_classtype_capsule':
- h = obj.data.cv_data.v0[0]
- r = obj.data.cv_data.v0[1]
-
- vs = [None]*10
- vs[0] = obj.matrix_world @ Vector((0.0,0.0, h*0.5 ))
- vs[1] = obj.matrix_world @ Vector((0.0,0.0,-h*0.5 ))
- vs[2] = obj.matrix_world @ Vector(( r,0.0, h*0.5-r))
- vs[3] = obj.matrix_world @ Vector(( -r,0.0, h*0.5-r))
- vs[4] = obj.matrix_world @ Vector(( r,0.0,-h*0.5+r))
- vs[5] = obj.matrix_world @ Vector(( -r,0.0,-h*0.5+r))
- vs[6] = obj.matrix_world @ Vector((0.0, r , h*0.5-r))
- vs[7] = obj.matrix_world @ Vector((0.0,-r , h*0.5-r))
- vs[8] = obj.matrix_world @ Vector((0.0, r ,-h*0.5+r))
- vs[9] = obj.matrix_world @ Vector((0.0,-r ,-h*0.5+r))
-
- indices = [(0,1),(2,3),(4,5),(6,7),(8,9)]
-
- for l in indices:
- v0 = vs[l[0]]
- v1 = vs[l[1]]
- verts += [(v0[0],v0[1],v0[2])]
- verts += [(v1[0],v1[1],v1[2])]
- colours += [(0.5,1,0,1),(0.5,1,0,1)]
-
- elif obj.cv_data.classtype == 'k_classtype_spawn':
- vs = [None]*4
- vs[0] = obj.matrix_world @ Vector((0,0,0))
- vs[1] = obj.matrix_world @ Vector((0,2,0))
- vs[2] = obj.matrix_world @ Vector((0.5,1,0))
- vs[3] = obj.matrix_world @ Vector((-0.5,1,0))
- indices = [(0,1),(1,2),(1,3)]
- for l in indices:
- v0 = vs[l[0]]
- v1 = vs[l[1]]
- verts += [(v0[0],v0[1],v0[2])]
- verts += [(v1[0],v1[1],v1[2])]
- colours += [(0,1,1,1),(0,1,1,1)]
+class SR_OT_FONT_VARIANT_LIST_NEW_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.fv_new_entry"
+ bl_label = "Add variant"
+
+ def execute(self, context):#{
+ return internal_listadd_execute(self,context,'ent_font','variants')
+ #}
+#}
+
+class SR_OT_FONT_VARIANT_LIST_DEL_ITEM(bpy.types.Operator):
+#{
+ bl_idname = "skaterift.fv_del_entry"
+ bl_label = "Remove variant"
+
+ @classmethod
+ def poll(cls, context):#{
+ active_object = context.active_object
+ if obj_ent_type(active_object) == 'ent_font':#{
+ return active_object.SR_data.ent_font[0].variants
+ #}
+ else: return False
+ #}
+
+ def execute(self, context):#{
+ return internal_listdel_execute(self,context,'ent_font','variants')
+ #}
+#}
+
+class SR_OBJECT_ENT_AUDIO_FILE_ENTRY(bpy.types.PropertyGroup):
+#{
+ path: bpy.props.StringProperty( name="Path" )
+ probability: bpy.props.FloatProperty( name="Probability",default=100.0 )
+#}
+
+class SR_UL_AUDIO_LIST(bpy.types.UIList):
+#{
+ bl_idname = 'SR_UL_AUDIO_LIST'
+
+ def draw_item(_,context,layout,data,item,icon,active_data,active_propname):
+ #{
+ split = layout.split(factor=0.7)
+ c = split.column()
+ c.prop( item, 'path', text='', emboss=False )
+ c = split.column()
+ c.prop( item, 'probability', text='%', emboss=True )
+ #}
+#}
+
+class SR_UL_FONT_VARIANT_LIST(bpy.types.UIList):
+#{
+ bl_idname = 'SR_UL_FONT_VARIANT_LIST'
+
+ def draw_item(_,context,layout,data,item,icon,active_data,active_propname):
+ #{
+ layout.prop( item, 'mesh', emboss=False )
+ layout.prop( item, 'tipo' )
+ #}
+#}
+
+class SR_UL_FONT_GLYPH_LIST(bpy.types.UIList):
+#{
+ bl_idname = 'SR_UL_FONT_GLYPH_LIST'
+
+ def draw_item(_,context,layout,data,item,icon,active_data,active_propname):
+ #{
+ s0 = layout.split(factor=0.3)
+ c = s0.column()
+ s1 = c.split(factor=0.3)
+ c = s1.column()
+ row = c.row()
+ lbl = chr(item.utf32) if item.utf32 >= 32 and item.utf32 <= 126 else \
+ f'x{item.utf32:x}'
+ row.label(text=lbl)
+ c = s1.column()
+ c.prop( item, 'utf32', text='', emboss=True )
+ c = s0.column()
+ row = c.row()
+ row.prop( item, 'bounds', text='', emboss=False )
+ #}
+#}
+
+class SR_OBJECT_ENT_ROUTE(bpy.types.PropertyGroup):
+#{
+ gates: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_ROUTE_ENTRY)
+ gates_index: bpy.props.IntProperty()
+
+ colour: bpy.props.FloatVectorProperty( \
+ name="Colour",\
+ subtype='COLOR',\
+ min=0.0,max=1.0,\
+ default=Vector((0.79,0.63,0.48)),\
+ description="Route colour"\
+ )
+
+ alias: bpy.props.StringProperty(\
+ name="Alias",\
+ default="Untitled Course")
+
+ @staticmethod
+ def sr_inspector( layout, data ):
+ #{
+ layout.prop( data[0], 'alias' )
+ layout.prop( data[0], 'colour' )
+
+ layout.label( text='Checkpoints' )
+ layout.template_list('SR_UL_ROUTE_NODE_LIST', 'Checkpoints', \
+ data[0], 'gates', data[0], 'gates_index', rows=5)
+
+ row = layout.row()
+ row.operator( 'skaterift.new_entry', text='Add' )
+ row.operator( 'skaterift.del_entry', text='Remove' )
+ #}
+#}
+
+class SR_OBJECT_ENT_VOLUME(bpy.types.PropertyGroup):#{
+ subtype: bpy.props.EnumProperty(
+ name="Subtype",
+ items=[('0','Trigger',''),
+ ('1','Particles (0.1s)','')]
+ )
+
+ target: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Target", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,\
+ ['ent_audio','ent_skateshop','ent_ccmd',\
+ 'ent_challenge']))
+ target_event: bpy.props.IntProperty( name="Event/Method" )
+
+ @staticmethod
+ def inspect_target( layout, data, propname ):#{
+ box = layout.box()
+ box.prop( data[0], propname )
+
+ row = box.row()
+ row.prop( data[0], propname + '_event')
+
+ target = getattr( data[0], propname )
+ if target:#{
+ tipo = target.SR_data.ent_type
+ cls = globals()[ tipo ]
+
+ table = getattr( cls, 'sr_functions', None )
+ if table:#{
+ index = getattr( data[0], propname+'_event')
+ if index in table:
+ row.label( text=table[index] )
+ else:
+ row.label( text="undefined function" )
+ #}
+ #}
+ else:#{
+ row.label( text="..." )
+ row.enabled=False
+ #}
+ #}
+
+ @staticmethod
+ def sr_inspector( layout, data ):#{
+ layout.prop( data[0], 'subtype' )
+ SR_OBJECT_ENT_VOLUME.inspect_target( layout, data, 'target' )
+ #}
+#}
+
+class SR_OBJECT_ENT_AUDIO(bpy.types.PropertyGroup):
+#{
+ files: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_AUDIO_FILE_ENTRY)
+ files_index: bpy.props.IntProperty()
+
+ flag_3d: bpy.props.BoolProperty( name="3D audio",default=True )
+ flag_loop: bpy.props.BoolProperty( name="Loop",default=False )
+ flag_auto: bpy.props.BoolProperty( name="Play at start",default=False )
+ flag_nodoppler: bpy.props.BoolProperty( name="No Doppler",default=False )
+
+ group: bpy.props.IntProperty( name="Group ID", default=0 )
+ formato: bpy.props.EnumProperty(
+ name="Format",
+ items=[('0','Uncompressed Mono',''),
+ ('1','Compressed Vorbis',''),
+ ('2','[vg] Bird Synthesis','')]
+ )
+ probability_curve: bpy.props.EnumProperty(
+ name="Probability Curve",
+ items=[('0','Constant',''),
+ ('1','Wildlife Daytime',''),
+ ('2','Wildlife Nighttime','')])
+ channel_behaviour: bpy.props.EnumProperty(
+ name="Channel Behaviour",
+ items=[('0','Unlimited',''),
+ ('1','Discard if group full', ''),
+ ('2','Crossfade if group full','')])
+
+ transition_duration: bpy.props.FloatProperty(name="Transition Time",\
+ default=0.2)
+
+ max_channels: bpy.props.IntProperty( name="Max Channels", default=1 )
+ volume: bpy.props.FloatProperty( name="Volume",default=1.0 )
+
+ @staticmethod
+ def sr_inspector( layout, data ):
+ #{
+ layout.prop( data[0], 'formato' )
+ layout.prop( data[0], 'volume' )
+
+ box = layout.box()
+ box.label( text='Channels' )
+ split = box.split(factor=0.3)
+ c = split.column()
+ c.prop( data[0], 'max_channels' )
+ c = split.column()
+ c.prop( data[0], 'channel_behaviour', text='Behaviour' )
+ if data[0].channel_behaviour >= '1':
+ box.prop( data[0], 'group' )
+ if data[0].channel_behaviour == '2':
+ box.prop( data[0], 'transition_duration' )
+
+ box = layout.box()
+ box.label( text='Flags' )
+ box.prop( data[0], 'flag_3d' )
+ if data[0].flag_3d: box.prop( data[0], 'flag_nodoppler' )
+
+ box.prop( data[0], 'flag_loop' )
+ box.prop( data[0], 'flag_auto' )
+
+ layout.prop( data[0], 'probability_curve' )
+
+ split = layout.split(factor=0.7)
+ c = split.column()
+ c.label( text='Filepath' )
+ c = split.column()
+ c.label( text='Chance' )
+ layout.template_list('SR_UL_AUDIO_LIST', 'Files', \
+ data[0], 'files', data[0], 'files_index', rows=5)
+
+ row = layout.row()
+ row.operator( 'skaterift.al_new_entry', text='Add' )
+ row.operator( 'skaterift.al_del_entry', text='Remove' )
+ #}
+#}
+
+class SR_OBJECT_ENT_MARKER(bpy.types.PropertyGroup):
+#{
+ alias: bpy.props.StringProperty()
+#}
+
+class SR_OBJECT_ENT_GLYPH(bpy.types.PropertyGroup):
+#{
+ mini: bpy.props.FloatVectorProperty(size=2)
+ maxi: bpy.props.FloatVectorProperty(size=2)
+ utf32: bpy.props.IntProperty()
+#}
+
+class SR_OBJECT_ENT_GLYPH_ENTRY(bpy.types.PropertyGroup):
+#{
+ bounds: bpy.props.FloatVectorProperty(size=4,subtype='NONE')
+ utf32: bpy.props.IntProperty()
+#}
+
+class SR_OBJECT_ENT_FONT_VARIANT(bpy.types.PropertyGroup):
+#{
+ mesh: bpy.props.PointerProperty(type=bpy.types.Object)
+ tipo: bpy.props.StringProperty()
+#}
+
+class SR_OBJECT_ENT_FONT(bpy.types.PropertyGroup):
+#{
+ variants: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_FONT_VARIANT)
+ glyphs: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_GLYPH_ENTRY)
+ alias: bpy.props.StringProperty()
+
+ glyphs_index: bpy.props.IntProperty()
+ variants_index: bpy.props.IntProperty()
+
+ @staticmethod
+ def sr_inspector( layout, data ):
+ #{
+ layout.prop( data[0], 'alias' )
+
+ layout.label( text='Variants' )
+ layout.template_list('SR_UL_FONT_VARIANT_LIST', 'Variants', \
+ data[0], 'variants', data[0], 'variants_index',\
+ rows=5 )
+ row = layout.row()
+ row.operator( 'skaterift.fv_new_entry', text='Add' )
+ row.operator( 'skaterift.fv_del_entry', text='Remove' )
+
+ layout.label( text='ASCII Glyphs' )
+ layout.template_list('SR_UL_FONT_GLYPH_LIST', 'Glyphs', \
+ data[0], 'glyphs', data[0], 'glyphs_index', rows=5)
+
+ row = layout.row()
+ row.operator( 'skaterift.gl_new_entry', text='Add' )
+ row.operator( 'skaterift.gl_del_entry', text='Remove' )
+ row.operator( 'skaterift.gl_move_item', text='^' ).direction='UP'
+ row.operator( 'skaterift.gl_move_item', text='v' ).direction='DOWN'
+ #}
+#}
+
+class SR_OBJECT_ENT_TRAFFIC(bpy.types.PropertyGroup):
+#{
+ speed: bpy.props.FloatProperty(default=1.0)
+#}
+
+class SR_OBJECT_ENT_SKATESHOP(bpy.types.PropertyGroup):
+#{
+ tipo: bpy.props.EnumProperty( name='Type',
+ items=[('0','boards',''),
+ ('1','character',''),
+ ('2','world','')] )
+ mark_rack: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Board Rack", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_marker']))
+ mark_display: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Selected Board Display", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_marker']))
+ mark_info: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Selected Board Info", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_marker']))
+ cam: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Viewpoint", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_camera']))
+#}
+
+class SR_OBJECT_ENT_WORKSHOP_PREVIEW(bpy.types.PropertyGroup):
+#{
+ mark_display: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Board Display", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_marker']))
+ mark_display1: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Board Display (other side)", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_marker']))
+ cam: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Viewpoint", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_camera']))
+#}
+
+class SR_OBJECT_ENT_MENU_ITEM(bpy.types.PropertyGroup):
+#{
+ link0: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Link 0", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_menuitem']))
+ link1: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Link 1", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_menuitem']))
+ link2: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Link 2", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_menuitem']))
+ link3: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Link 3", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_menuitem']))
+
+ newloc: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="New location", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_menuitem']))
+ camera: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Camera", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_camera']))
+
+ slider_minloc: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Slider min", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_marker']))
+ slider_maxloc: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Slider max", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_marker']))
+ slider_handle: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Slider handle", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_menuitem']))
+
+ checkmark: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Checked", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_menuitem']))
+
+ string: bpy.props.StringProperty( name="String" )
+ tipo: bpy.props.EnumProperty( name='Type',
+ items=[('0','visual',''),
+ ('1','event button',''),
+ ('2','page button',''),
+ ('3','toggle', ''),
+ ('4','slider',''),
+ ('5','page','')])
+
+ @staticmethod
+ def sr_inspector( layout, data ):
+ #{
+ data = data[0]
+ box = layout.box()
+ box.prop( data, 'tipo' )
+
+ if data.tipo == '0':#{
+ return
+ #}
+ elif data.tipo == '1':#{
+ box.prop( data, 'string', text='Event' )
+ #}
+ elif data.tipo == '2':#{
+ box.prop( data, 'string', text='Page' )
+ box.prop( data, 'newloc' )
+ #}
+ elif data.tipo == '3':#{
+ box.prop( data, 'string', text='Data (i32)' )
+ box.prop( data, 'checkmark' )
+ #}
+ elif data.tipo == '4':#{
+ box.prop( data, 'string', text='Data (f32)' )
+ box.prop( data, 'slider_minloc' )
+ box.prop( data, 'slider_maxloc' )
+ box.prop( data, 'slider_handle' )
+ box = box.box()
+ box.label( text="Links" )
+ box.prop( data, 'link0', text='v0' )
+ box.prop( data, 'link1', text='v1' )
+ return
+ #}
+ elif data.tipo == '5':#{
+ box.prop( data, 'string', text='Page Name' )
+ box.prop( data, 'newloc', text='Entry Point' )
+ box.prop( data, 'camera', text='Viewpoint' )
+ return
+ #}
- elif obj.cv_data.classtype == 'k_classtype_route':
- vs = [None]*2
- vs[0] = obj.location
- vs[1] = obj.cv_data.target.location
- indices = [(0,1)]
- for l in indices:
- v0 = vs[l[0]]
- v1 = vs[l[1]]
- verts += [(v0[0],v0[1],v0[2])]
- verts += [(v1[0],v1[1],v1[2])]
- colours += [(0,1,1,1),(0,1,1,1)]
-
- stack = [None]*64
- stack_i = [0]*64
- stack[0] = obj.cv_data.target
- si = 1
- loop_complete = False
-
- while si > 0:
- if stack_i[si-1] == 2:
- si -= 1
- continue
-
- if si == 0: # Loop failed to complete
- break
-
- node = stack[si-1]
-
- targets = [None,None]
- targets[0] = node.cv_data.target
+ box = box.box()
+ box.label( text="Links" )
+ box.prop( data, 'link0' )
+ box.prop( data, 'link1' )
+ box.prop( data, 'link2' )
+ box.prop( data, 'link3' )
+ #}
+#}
+
+class SR_OBJECT_ENT_WORLD_INFO(bpy.types.PropertyGroup):
+#{
+ name: bpy.props.StringProperty(name="Name")
+ desc: bpy.props.StringProperty(name="Description")
+ author: bpy.props.StringProperty(name="Author")
+ timezone: bpy.props.FloatProperty(name="Timezone(hrs) (UTC0 +hrs)")
+#}
+
+class SR_OBJECT_ENT_CCMD(bpy.types.PropertyGroup):
+#{
+ command: bpy.props.StringProperty(name="Command Line")
+#}
+
+class SR_OBJECT_ENT_CHALLENGE(bpy.types.PropertyGroup):#{
+ proxima: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Next", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,['ent_challenge']))
+ target: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Win", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,SR_TRIGGERABLE))
+ target_event: bpy.props.IntProperty( name="Event/Method" )
+ time_limit: bpy.props.FloatProperty( name="Time Limit", default=1.0 )
+
+ @staticmethod
+ def sr_inspector( layout, data ):#{
+ layout.prop( data[0], 'proxima' )
+ layout.prop( data[0], 'time_limit' )
+ SR_OBJECT_ENT_VOLUME.inspect_target( layout, data, 'target' )
+ #}
+#}
+
+class SR_OBJECT_ENT_UNLOCK(bpy.types.PropertyGroup):#{
+ alias: bpy.props.StringProperty( name="Alias" )
+ target: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Target", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,SR_TRIGGERABLE))
+ target_event: bpy.props.IntProperty( name="Event/Method" )
+
+ @staticmethod
+ def sr_inspector( layout, data ):#{
+ layout.prop( data[0], 'alias' )
+ SR_OBJECT_ENT_VOLUME.inspect_target( layout, data, 'target' )
+ #}
+#}
+
+class SR_OBJECT_ENT_RELAY(bpy.types.PropertyGroup):#{
+ target0: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Target 0", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,SR_TRIGGERABLE))
+ target1: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Target 1", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,SR_TRIGGERABLE))
+ target2: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Target 2", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,SR_TRIGGERABLE))
+ target3: bpy.props.PointerProperty( \
+ type=bpy.types.Object, name="Target 3", \
+ poll=lambda self,obj: sr_filter_ent_type(obj,SR_TRIGGERABLE))
+
+ target0_event: bpy.props.IntProperty( name="Event" )
+ target1_event: bpy.props.IntProperty( name="Event" )
+ target2_event: bpy.props.IntProperty( name="Event" )
+ target3_event: bpy.props.IntProperty( name="Event" )
+
+ @staticmethod
+ def sr_inspector( layout, data ):#{
+ SR_OBJECT_ENT_VOLUME.inspect_target( layout, data, 'target0' )
+ SR_OBJECT_ENT_VOLUME.inspect_target( layout, data, 'target1' )
+ SR_OBJECT_ENT_VOLUME.inspect_target( layout, data, 'target2' )
+ SR_OBJECT_ENT_VOLUME.inspect_target( layout, data, 'target3' )
+ #}
+#}
+
+class SR_OBJECT_PROPERTIES(bpy.types.PropertyGroup):
+#{
+ ent_gate: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_GATE)
+ ent_spawn: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_SPAWN)
+ ent_route: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_ROUTE)
+ ent_volume: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_VOLUME)
+ ent_audio: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_AUDIO)
+ ent_marker: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_MARKER)
+ ent_glyph: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_GLYPH)
+ ent_font: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_FONT)
+ ent_traffic: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_TRAFFIC)
+ ent_skateshop: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_SKATESHOP)
+ ent_swspreview: \
+ bpy.props.CollectionProperty(type=SR_OBJECT_ENT_WORKSHOP_PREVIEW)
+ ent_menuitem: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_MENU_ITEM)
+ ent_worldinfo: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_WORLD_INFO)
+ ent_ccmd: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_CCMD)
+ ent_challenge: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_CHALLENGE)
+ ent_unlock: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_UNLOCK)
+ ent_relay: bpy.props.CollectionProperty(type=SR_OBJECT_ENT_RELAY)
+
+ ent_type: bpy.props.EnumProperty(
+ name="Type",
+ items=sr_entity_list,
+ update=sr_on_type_change
+ )
+#}
+
+class SR_MESH_PROPERTIES(bpy.types.PropertyGroup):
+#{
+ ent_gate: bpy.props.CollectionProperty(type=SR_MESH_ENT_GATE)
+#}
+
+class SR_LIGHT_PROPERTIES(bpy.types.PropertyGroup):
+#{
+ daytime: bpy.props.BoolProperty( name='Daytime' )
+#}
+
+class SR_BONE_PROPERTIES(bpy.types.PropertyGroup):
+#{
+ collider: bpy.props.EnumProperty( name='Collider Type',
+ items=[('0','none',''),
+ ('1','box',''),
+ ('2','capsule','')])
+
+ collider_min: bpy.props.FloatVectorProperty( name='Collider Min', size=3 )
+ collider_max: bpy.props.FloatVectorProperty( name='Collider Max', size=3 )
+
+ cone_constraint: bpy.props.BoolProperty( name='Cone constraint' )
+
+ conevx: bpy.props.FloatVectorProperty( name='vx' )
+ conevy: bpy.props.FloatVectorProperty( name='vy' )
+ coneva: bpy.props.FloatVectorProperty( name='va' )
+ conet: bpy.props.FloatProperty( name='t' )
+
+ @staticmethod
+ def sr_inspector( layout, data ):
+ #{
+ data = data[0]
+ box = layout.box()
+ box.prop( data, 'collider' )
+
+ if int(data.collider)>0:#{
+ row = box.row()
+ row.prop( data, 'collider_min' )
+ row = box.row()
+ row.prop( data, 'collider_max' )
+ #}
+
+ box = layout.box()
+ box.prop( data, 'cone_constraint' )
+ if data.cone_constraint:#{
+ row = box.row()
+ row.prop( data, 'conevx' )
+ row = box.row()
+ row.prop( data, 'conevy' )
+ row = box.row()
+ row.prop( data, 'coneva' )
+ box.prop( data, 'conet' )
+ #}
+ #}
+#}
+
+class SR_MATERIAL_PROPERTIES(bpy.types.PropertyGroup):
+#{
+ shader: bpy.props.EnumProperty(
+ name="Format",
+ items = [
+ ('standard',"standard",''),
+ ('standard_cutout', "standard_cutout", ''),
+ ('terrain_blend', "terrain_blend", ''),
+ ('vertex_blend', "vertex_blend", ''),
+ ('water',"water",''),
+ ('invisible','Invisible',''),
+ ('boundary','Boundary',''),
+ ('fxglow','FX Glow',''),
+ ])
- if node.cv_data.classtype == 'k_classtype_route_node':
- targets[1] = node.cv_data.target1
-
- nextnode = targets[stack_i[si-1]]
- stack_i[si-1] += 1
+ surface_prop: bpy.props.EnumProperty(
+ name="Surface Property",
+ items = [
+ ('0','concrete',''),
+ ('1','wood',''),
+ ('2','grass',''),
+ ('3','tiles',''),
+ ('4','metal','')
+ ])
+
+ collision: bpy.props.BoolProperty( \
+ name="Collisions Enabled",\
+ default=True,\
+ description = "Can the player collide with this material?"\
+ )
+ skate_surface: bpy.props.BoolProperty( \
+ name="Skate Target", \
+ default=True,\
+ description = "Should the game try to target this surface?" \
+ )
+ grind_surface: bpy.props.BoolProperty( \
+ name="Grindable", \
+ default=True,\
+ description = "Can you grind on this surface?" \
+ )
+ grow_grass: bpy.props.BoolProperty( \
+ name="Grow Grass", \
+ default=False,\
+ description = "Spawn grass sprites on this surface?" \
+ )
+ preview_visibile: bpy.props.BoolProperty( \
+ name="Preview visibile", \
+ default=True,\
+ description = "Show this material in preview models?" \
+ )
+ blend_offset: bpy.props.FloatVectorProperty( \
+ name="Blend Offset", \
+ size=2, \
+ default=Vector((0.5,0.0)),\
+ description="When surface is more than 45 degrees, add this vector " +\
+ "to the UVs" \
+ )
+ sand_colour: bpy.props.FloatVectorProperty( \
+ name="Sand Colour",\
+ subtype='COLOR',\
+ min=0.0,max=1.0,\
+ default=Vector((0.79,0.63,0.48)),\
+ description="Blend to this colour near the 0 coordinate on UP axis"\
+ )
+ shore_colour: bpy.props.FloatVectorProperty( \
+ name="Shore Colour",\
+ subtype='COLOR',\
+ min=0.0,max=1.0,\
+ default=Vector((0.03,0.32,0.61)),\
+ description="Water colour at the shoreline"\
+ )
+ ocean_colour: bpy.props.FloatVectorProperty( \
+ name="Ocean Colour",\
+ subtype='COLOR',\
+ min=0.0,max=1.0,\
+ default=Vector((0.0,0.006,0.03)),\
+ description="Water colour in the deep bits"\
+ )
+#}
+
+# ---------------------------------------------------------------------------- #
+# #
+# GUI section #
+# #
+# ---------------------------------------------------------------------------- #
- if nextnode != None: # branch
- if nextnode == stack[0]: # Loop completed
- loop_complete = True
- break
+cv_view_draw_handler = None
+cv_view_pixel_handler = None
+cv_view_shader = gpu.shader.from_builtin('3D_SMOOTH_COLOR')
+cv_view_verts = []
+cv_view_colours = []
+cv_view_course_i = 0
+
+# Draw axis alligned sphere at position with radius
+#
+def cv_draw_sphere( pos, radius, colour ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ ly = pos + Vector((0,0,radius))
+ lx = pos + Vector((0,radius,0))
+ lz = pos + Vector((0,0,radius))
+
+ pi = 3.14159265358979323846264
+
+ for i in range(16):#{
+ t = ((i+1.0) * 1.0/16.0) * pi * 2.0
+ s = math.sin(t)
+ c = math.cos(t)
+
+ py = pos + Vector((s*radius,0.0,c*radius))
+ px = pos + Vector((s*radius,c*radius,0.0))
+ pz = pos + Vector((0.0,s*radius,c*radius))
+
+ cv_view_verts += [ px, lx ]
+ cv_view_verts += [ py, ly ]
+ cv_view_verts += [ pz, lz ]
+
+ cv_view_colours += [ colour, colour, colour, colour, colour, colour ]
+
+ ly = py
+ lx = px
+ lz = pz
+ #}
+ cv_draw_lines()
+#}
+
+# Draw axis alligned sphere at position with radius
+#
+def cv_draw_halfsphere( pos, tx, ty, tz, radius, colour ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ ly = pos + tz*radius
+ lx = pos + ty*radius
+ lz = pos + tz*radius
+
+ pi = 3.14159265358979323846264
- valid=True
- for sj in range(si):
- if stack[sj] == nextnode: # invalidated path
- valid=False
- break
+ for i in range(16):#{
+ t = ((i+1.0) * 1.0/16.0) * pi
+ s = math.sin(t)
+ c = math.cos(t)
- if valid:
- stack_i[si] = 0
- stack[si] = nextnode
- si += 1
- continue
+ s1 = math.sin(t*2.0)
+ c1 = math.cos(t*2.0)
- if loop_complete:
- cc = Vector((obj.cv_data.colour[0],\
- obj.cv_data.colour[1],\
- obj.cv_data.colour[2],\
- 1.0))
+ py = pos + s*tx*radius + c *tz*radius
+ px = pos + s*tx*radius + c *ty*radius
+ pz = pos + s1*ty*radius + c1*tz*radius
- for sj in range(si):
- sk = (sj+1)%si
+ cv_view_verts += [ px, lx ]
+ cv_view_verts += [ py, ly ]
+ cv_view_verts += [ pz, lz ]
- if stack[sj].cv_data.classtype == 'k_classtype_gate' and \
- stack[sk].cv_data.classtype == 'k_classtype_gate':
- dist = (stack[sj].location-stack[sk].location).magnitude
- drawsbpath( stack[sj], stack[sk], cc*0.4, cc, dist, dist )
+ cv_view_colours += [ colour, colour, colour, colour, colour, colour ]
- else:
- drawbpath( stack[sj], stack[sk], cc, cc )
+ ly = py
+ lx = px
+ lz = pz
+ #}
+ cv_draw_lines()
+#}
- course_count += 1
+# Draw transformed -1 -> 1 cube
+#
+def cv_draw_ucube( transform, colour, s=Vector((1,1,1)), o=Vector((0,0,0)) ):
+#{
+ global cv_view_verts, cv_view_colours
- elif obj.cv_data.classtype == 'k_classtype_car_path':
- v0 = obj.matrix_world.to_quaternion() @ Vector((0,1,0))
- c0 = Vector((v0.x*0.5+0.5, v0.y*0.5+0.5, 0.0, 1.0))
- drawbhandle( obj, 1.0, (0.9,0.9,0.9,1.0) )
+ a = o + -1.0 * s
+ b = o + 1.0 * s
+
+ vs = [None]*8
+ vs[0] = transform @ Vector((a[0], a[1], a[2]))
+ vs[1] = transform @ Vector((a[0], b[1], a[2]))
+ vs[2] = transform @ Vector((b[0], b[1], a[2]))
+ vs[3] = transform @ Vector((b[0], a[1], a[2]))
+ vs[4] = transform @ Vector((a[0], a[1], b[2]))
+ vs[5] = transform @ Vector((a[0], b[1], b[2]))
+ vs[6] = transform @ Vector((b[0], b[1], b[2]))
+ vs[7] = transform @ Vector((b[0], a[1], b[2]))
+
+ indices = [(0,1),(1,2),(2,3),(3,0),(4,5),(5,6),(6,7),(7,4),\
+ (0,4),(1,5),(2,6),(3,7)]
+
+ for l in indices:#{
+ v0 = vs[l[0]]
+ v1 = vs[l[1]]
+ cv_view_verts += [(v0[0],v0[1],v0[2])]
+ cv_view_verts += [(v1[0],v1[1],v1[2])]
+ cv_view_colours += [colour, colour]
+ #}
+ cv_draw_lines()
+#}
+
+# Draw line with colour
+#
+def cv_draw_line( p0, p1, colour ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ cv_view_verts += [p0,p1]
+ cv_view_colours += [colour, colour]
+ cv_draw_lines()
+#}
+
+# Draw line with colour(s)
+#
+def cv_draw_line2( p0, p1, c0, c1 ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ cv_view_verts += [p0,p1]
+ cv_view_colours += [c0,c1]
+ cv_draw_lines()
+#}
+
+#
+#
+def cv_tangent_basis( n, tx, ty ):
+#{
+ if abs( n[0] ) >= 0.57735027:#{
+ tx[0] = n[1]
+ tx[1] = -n[0]
+ tx[2] = 0.0
+ #}
+ else:#{
+ tx[0] = 0.0
+ tx[1] = n[2]
+ tx[2] = -n[1]
+ #}
+
+ tx.normalize()
+ _ty = n.cross( tx )
+
+ ty[0] = _ty[0]
+ ty[1] = _ty[1]
+ ty[2] = _ty[2]
+#}
+
+# Draw coloured arrow
+#
+def cv_draw_arrow( p0, p1, c0, size=0.25 ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ n = p1-p0
+ midpt = p0 + n*0.5
+ n.normalize()
+
+ tx = Vector((1,0,0))
+ ty = Vector((1,0,0))
+ cv_tangent_basis( n, tx, ty )
+
+ cv_view_verts += [p0,p1, midpt+(tx-n)*size,midpt, midpt+(-tx-n)*size,midpt ]
+ cv_view_colours += [c0,c0,c0,c0,c0,c0]
+ #cv_draw_lines()
+#}
+
+def cv_draw_line_dotted( p0, p1, c0, dots=10 ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ for i in range(dots):#{
+ t0 = i/dots
+ t1 = (i+0.25)/dots
+
+ p2 = p0*(1.0-t0)+p1*t0
+ p3 = p0*(1.0-t1)+p1*t1
+
+ cv_view_verts += [p2,p3]
+ cv_view_colours += [c0,c0]
+ #}
+ #cv_draw_lines()
+#}
+
+# Drawhandles of a bezier control point
+#
+def cv_draw_bhandle( obj, direction, colour ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ p0 = obj.location
+ h0 = obj.matrix_world @ Vector((0,direction,0))
+
+ cv_view_verts += [p0]
+ cv_view_verts += [h0]
+ cv_view_colours += [colour,colour]
+ cv_draw_lines()
+#}
+
+# Draw a bezier curve (at fixed resolution 10)
+#
+def cv_draw_bezier( p0,h0,p1,h1,c0,c1 ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ last = p0
+ for i in range(10):#{
+ t = (i+1)/10
+ a0 = 1-t
+
+ tt = t*t
+ ttt = tt*t
+ p=ttt*p1+(3*tt-3*ttt)*h1+(3*ttt-6*tt+3*t)*h0+(3*tt-ttt-3*t+1)*p0
+
+ cv_view_verts += [(last[0],last[1],last[2])]
+ cv_view_verts += [(p[0],p[1],p[2])]
+ cv_view_colours += [c0*a0+c1*(1-a0),c0*a0+c1*(1-a0)]
+
+ last = p
+ #}
+ cv_draw_lines()
+#}
+
+# I think this one extends the handles of the bezier otwards......
+#
+def cv_draw_sbpath( o0,o1,c0,c1,s0,s1 ):
+#{
+ global cv_view_course_i
+
+ offs = ((cv_view_course_i % 2)*2-1) * cv_view_course_i * 0.02
- if obj.cv_data.target != None:
- v1 = obj.cv_data.target.matrix_world.to_quaternion()@Vector((0,1,0))
- c1 = Vector((v1.x*0.5+0.5, v1.y*0.5+0.5, 0.0, 1.0))
+ p0 = o0.matrix_world @ Vector((offs, 0,0))
+ h0 = o0.matrix_world @ Vector((offs, s0,0))
+ p1 = o1.matrix_world @ Vector((offs, 0,0))
+ h1 = o1.matrix_world @ Vector((offs,-s1,0))
- drawbhandle( obj.cv_data.target, -1.0, (0.5,0.5,0.5,1.0) )
- drawbpath( obj, obj.cv_data.target, c0, c1 )
+ cv_draw_bezier( p0,h0,p1,h1,c0,c1 )
+ cv_draw_lines()
+#}
- if obj.cv_data.target1 != None:
- v1 = obj.cv_data.target1.matrix_world.to_quaternion()@Vector((0,1,0))
- c1 = Vector((v1.x*0.5+0.5, v1.y*0.5+0.5, 0.0, 1.0))
+# Flush the lines buffers. This is called often because god help you if you want
+# to do fixed, fast buffers in this catastrophic programming language.
+#
+def cv_draw_lines():
+#{
+ global cv_view_shader, cv_view_verts, cv_view_colours
- drawbhandle( obj.cv_data.target1, -1.0, (0.5,0.5,0.5,1.0) )
- drawbpath( obj, obj.cv_data.target1, c0, c1 )
+ if len(cv_view_verts) < 2:
+ return
lines = batch_for_shader(\
cv_view_shader, 'LINES', \
- { "pos":verts, "color":colours })
-
- lines.draw( cv_view_shader )
-
-def cv_poll_target(scene, obj):
- if obj == bpy.context.active_object:
- return False
- if obj.cv_data.classtype == 'k_classtype_none':
- return False
- return True
-
-class CV_MESH_SETTINGS(bpy.types.PropertyGroup):
- v0: bpy.props.FloatVectorProperty(name="v0",size=3)
- v1: bpy.props.FloatVectorProperty(name="v1",size=3)
- v2: bpy.props.FloatVectorProperty(name="v2",size=3)
- v3: bpy.props.FloatVectorProperty(name="v3",size=3)
-
-class CV_OBJ_SETTINGS(bpy.types.PropertyGroup):
- uid: bpy.props.IntProperty( name="" )
-
- target: bpy.props.PointerProperty( type=bpy.types.Object, name="target", \
- poll=cv_poll_target )
- target1: bpy.props.PointerProperty( type=bpy.types.Object, name="target1", \
- poll=cv_poll_target )
-
- colour: bpy.props.FloatVectorProperty(name="colour",subtype='COLOR',\
- min=0.0,max=1.0)
+ { "pos":cv_view_verts, "color":cv_view_colours })
+
+ if bpy.context.scene.SR_data.gizmos:
+ lines.draw( cv_view_shader )
+
+ cv_view_verts = []
+ cv_view_colours = []
+#}
+
+# I dont remember what this does exactly
+#
+def cv_draw_bpath( o0,o1,c0,c1 ):
+#{
+ cv_draw_sbpath( o0,o1,c0,c1,1.0,1.0 )
+#}
+
+# Semi circle to show the limit. and some lines
+#
+def draw_limit( obj, center, major, minor, amin, amax, colour ):
+#{
+ global cv_view_verts, cv_view_colours
+ f = 0.05
+ ay = major*f
+ ax = minor*f
+
+ for x in range(16):#{
+ t0 = x/16
+ t1 = (x+1)/16
+ a0 = amin*(1.0-t0)+amax*t0
+ a1 = amin*(1.0-t1)+amax*t1
+
+ p0 = center + major*f*math.cos(a0) + minor*f*math.sin(a0)
+ p1 = center + major*f*math.cos(a1) + minor*f*math.sin(a1)
+
+ p0=obj.matrix_world @ p0
+ p1=obj.matrix_world @ p1
+ cv_view_verts += [p0,p1]
+ cv_view_colours += [colour,colour]
+
+ if x == 0:#{
+ cv_view_verts += [p0,center]
+ cv_view_colours += [colour,colour]
+ #}
+ if x == 15:#{
+ cv_view_verts += [p1,center]
+ cv_view_colours += [colour,colour]
+ #}
+ #}
+
+ cv_view_verts += [center+major*1.2*f,center+major*f*0.8]
+ cv_view_colours += [colour,colour]
+
+ cv_draw_lines()
+#}
+
+# Cone and twist limit
+#
+def draw_cone_twist( center, vx, vy, va ):
+#{
+ global cv_view_verts, cv_view_colours
+ axis = vy.cross( vx )
+ axis.normalize()
+
+ size = 0.12
+
+ cv_view_verts += [center, center+va*size]
+ cv_view_colours += [ (1,1,1), (1,1,1) ]
+
+ for x in range(32):#{
+ t0 = (x/32) * math.tau
+ t1 = ((x+1)/32) * math.tau
+
+ c0 = math.cos(t0)
+ s0 = math.sin(t0)
+ c1 = math.cos(t1)
+ s1 = math.sin(t1)
+
+ p0 = center + (axis + vx*c0 + vy*s0).normalized() * size
+ p1 = center + (axis + vx*c1 + vy*s1).normalized() * size
+
+ col0 = ( abs(c0), abs(s0), 0.0 )
+ col1 = ( abs(c1), abs(s1), 0.0 )
+
+ cv_view_verts += [center, p0, p0, p1]
+ cv_view_colours += [ (0,0,0), col0, col0, col1 ]
+ #}
+
+ cv_draw_lines()
+#}
+
+# Draws constraints and stuff for the skeleton. This isnt documented and wont be
+#
+def draw_skeleton_helpers( obj ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ if obj.data.pose_position != 'REST':#{
+ return
+ #}
+
+ for bone in obj.data.bones:#{
+ c = bone.head_local
+ a = Vector((bone.SR_data.collider_min[0],
+ bone.SR_data.collider_min[1],
+ bone.SR_data.collider_min[2]))
+ b = Vector((bone.SR_data.collider_max[0],
+ bone.SR_data.collider_max[1],
+ bone.SR_data.collider_max[2]))
+
+ if bone.SR_data.collider == '1':#{
+ vs = [None]*8
+ vs[0]=obj.matrix_world@Vector((c[0]+a[0],c[1]+a[1],c[2]+a[2]))
+ vs[1]=obj.matrix_world@Vector((c[0]+a[0],c[1]+b[1],c[2]+a[2]))
+ vs[2]=obj.matrix_world@Vector((c[0]+b[0],c[1]+b[1],c[2]+a[2]))
+ vs[3]=obj.matrix_world@Vector((c[0]+b[0],c[1]+a[1],c[2]+a[2]))
+ vs[4]=obj.matrix_world@Vector((c[0]+a[0],c[1]+a[1],c[2]+b[2]))
+ vs[5]=obj.matrix_world@Vector((c[0]+a[0],c[1]+b[1],c[2]+b[2]))
+ vs[6]=obj.matrix_world@Vector((c[0]+b[0],c[1]+b[1],c[2]+b[2]))
+ vs[7]=obj.matrix_world@Vector((c[0]+b[0],c[1]+a[1],c[2]+b[2]))
- classtype: bpy.props.EnumProperty(
- name="Format",
- items = [
- ('k_classtype_none', "k_classtype_none", "", 0),
- ('k_classtype_gate', "k_classtype_gate", "", 1),
- ('k_classtype_block', "k_classtype_block", "", 2),
- ('k_classtype_spawn', "k_classtype_spawn", "", 3),
- ('k_classtype_water', "k_classtype_water", "", 4),
- ('k_classtype_car_path', "k_classtype_car_path", "", 5),
- ('k_classtype_INSTANCE', "","", 6 ),
- ('k_classtype_capsule', "k_classtype_capsule", "", 7 ),
- ('k_classtype_route_node', "k_classtype_route_node", "", 8 ),
- ('k_classtype_route', "k_classtype_route", "", 9 ),
- ('k_classtype_bone',"k_classtype_bone","",10),
- ('k_classtype_SKELETON', "","", 11 ),
- ('k_classtype_SKIN',"","",12)
- ])
+ indices = [(0,1),(1,2),(2,3),(3,0),(4,5),(5,6),(6,7),(7,4),\
+ (0,4),(1,5),(2,6),(3,7)]
-class CV_BONE_SETTINGS(bpy.types.PropertyGroup):
- collider: bpy.props.BoolProperty(name="Collider",default=False)
- v0: bpy.props.FloatVectorProperty(name="v0",size=3)
- v1: bpy.props.FloatVectorProperty(name="v1",size=3)
+ for l in indices:#{
+ v0 = vs[l[0]]
+ v1 = vs[l[1]]
- con0: bpy.props.BoolProperty(name="Constriant 0",default=False)
- mins: bpy.props.FloatVectorProperty(name="mins",size=3)
- maxs: bpy.props.FloatVectorProperty(name="maxs",size=3)
+ cv_view_verts += [(v0[0],v0[1],v0[2])]
+ cv_view_verts += [(v1[0],v1[1],v1[2])]
+ cv_view_colours += [(0.5,0.5,0.5),(0.5,0.5,0.5)]
+ #}
+ #}
+ elif bone.SR_data.collider == '2':#{
+ v0 = b-a
+ major_axis = 0
+ largest = -1.0
+
+ for i in range(3):#{
+ if abs(v0[i]) > largest:#{
+ largest = abs(v0[i])
+ major_axis = i
+ #}
+ #}
+
+ v1 = Vector((0,0,0))
+ v1[major_axis] = 1.0
+
+ tx = Vector((0,0,0))
+ ty = Vector((0,0,0))
+
+ cv_tangent_basis( v1, tx, ty )
+ r = (abs(tx.dot( v0 )) + abs(ty.dot( v0 ))) * 0.25
+ l = v0[ major_axis ] - r*2
+
+ p0 = obj.matrix_world@Vector( c + (a+b)*0.5 + v1*l*-0.5 )
+ p1 = obj.matrix_world@Vector( c + (a+b)*0.5 + v1*l* 0.5 )
+
+ colour = [0.2,0.2,0.2]
+ colour[major_axis] = 0.5
+
+ cv_draw_halfsphere( p0, -v1, ty, tx, r, colour )
+ cv_draw_halfsphere( p1, v1, ty, tx, r, colour )
+ cv_draw_line( p0+tx* r, p1+tx* r, colour )
+ cv_draw_line( p0+tx*-r, p1+tx*-r, colour )
+ cv_draw_line( p0+ty* r, p1+ty* r, colour )
+ cv_draw_line( p0+ty*-r, p1+ty*-r, colour )
+ #}
+ else:#{
+ continue
+ #}
+
+ center = obj.matrix_world @ c
+ if bone.SR_data.cone_constraint:#{
+ vx = Vector([bone.SR_data.conevx[_] for _ in range(3)])
+ vy = Vector([bone.SR_data.conevy[_] for _ in range(3)])
+ va = Vector([bone.SR_data.coneva[_] for _ in range(3)])
+ draw_cone_twist( center, vx, vy, va )
+ #}
+ #}
+#}
+
+def cv_ent_gate( obj ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ if obj.type != 'MESH': return
+
+ mesh_data = obj.data.SR_data.ent_gate[0]
+ data = obj.SR_data.ent_gate[0]
+ dims = mesh_data.dimensions
+
+ vs = [None]*9
+ c = Vector((0,0,dims[2]))
+
+ vs[0] = obj.matrix_world @ Vector((-dims[0],0.0,-dims[1]+dims[2]))
+ vs[1] = obj.matrix_world @ Vector((-dims[0],0.0, dims[1]+dims[2]))
+ vs[2] = obj.matrix_world @ Vector(( dims[0],0.0, dims[1]+dims[2]))
+ vs[3] = obj.matrix_world @ Vector(( dims[0],0.0,-dims[1]+dims[2]))
+ vs[4] = obj.matrix_world @ (c+Vector((-1,0,-2)))
+ vs[5] = obj.matrix_world @ (c+Vector((-1,0, 2)))
+ vs[6] = obj.matrix_world @ (c+Vector(( 1,0, 2)))
+ vs[7] = obj.matrix_world @ (c+Vector((-1,0, 0)))
+ vs[8] = obj.matrix_world @ (c+Vector(( 1,0, 0)))
+
+ indices = [(0,1),(1,2),(2,3),(3,0),(4,5),(5,6),(7,8)]
+
+ r3d = bpy.context.area.spaces.active.region_3d
+
+ p0 = r3d.view_matrix.inverted().translation
+ v0 = (obj.matrix_world@Vector((0,0,0))) - p0
+ v1 = obj.matrix_world.to_3x3() @ Vector((0,1,0))
+
+ if v0.dot(v1) > 0.0: cc = (0,1,0)
+ else: cc = (1,0,0)
+
+ for l in indices:#{
+ v0 = vs[l[0]]
+ v1 = vs[l[1]]
+ cv_view_verts += [(v0[0],v0[1],v0[2])]
+ cv_view_verts += [(v1[0],v1[1],v1[2])]
+ cv_view_colours += [cc,cc]
+ #}
+
+ sw = (0.4,0.4,0.4)
+ if data.target != None:
+ cv_draw_arrow( obj.location, data.target.location, sw )
+#}
+
+def cv_ent_volume( obj ):
+#{
+ global cv_view_verts, cv_view_colours
+
+ data = obj.SR_data.ent_volume[0]
+
+ if data.subtype == '0':#{
+ cv_draw_ucube( obj.matrix_world, (0,1,0) )
+
+ if data.target:#{
+ cv_draw_arrow( obj.location, data.target.location, (0,1,0) )
+ #}
+ #}
+ elif data.subtype == '1':#{
+ cv_draw_ucube( obj.matrix_world, (1,1,0) )
+
+ if data.target:#{
+ cv_draw_arrow( obj.location, data.target.location, (1,1,0) )
+ #}
+ #}
+#}
+
+def dijkstra( graph, start_node, target_node ):
+#{
+ unvisited = [_ for _ in graph]
+ shortest_path = {}
+ previous_nodes = {}
+
+ for n in unvisited:
+ shortest_path[n] = 9999999.999999
+ shortest_path[start_node] = 0
+
+ while unvisited:#{
+ current_min_node = None
+ for n in unvisited:#{
+ if current_min_node == None:
+ current_min_node = n
+ elif shortest_path[n] < shortest_path[current_min_node]:
+ current_min_node = n
+ #}
+
+ for branch in graph[current_min_node]:#{
+ tentative_value = shortest_path[current_min_node]
+ tentative_value += graph[current_min_node][branch]
+ if tentative_value < shortest_path[branch]:#{
+ shortest_path[branch] = tentative_value
+ previous_nodes[branch] = current_min_node
+ #}
+ #}
+
+ unvisited.remove(current_min_node)
+ #}
+
+ path = []
+ node = target_node
+ while node != start_node:#{
+ path.append(node)
+
+ if node not in previous_nodes: return None
+ node = previous_nodes[node]
+ #}
+
+ # Add the start node manually
+ path.append(start_node)
+ return path
+#}
+
+class dij_graph():
+#{
+ def __init__(_,points,graph,subsections):#{
+ _.points = points
+ _.graph = graph
+ _.subsections = subsections
+ #}
+#}
+
+def create_node_graph( curves, gates ):
+#{
+ # add endpoints of curves
+ graph = {}
+ route_points = []
+ subsections = []
+ point_count = 0
+ spline_count = 0
-class CV_BONE_PANEL(bpy.types.Panel):
- bl_label="Bone Config"
- bl_idname="SCENE_PT_cv_bone"
- bl_space_type='PROPERTIES'
- bl_region_type='WINDOW'
- bl_context='bone'
+ for c in range(len(curves)):#{
+ for s in range(len(curves[c].data.splines)):#{
+ spline = curves[c].data.splines[s]
+ l = len(spline.points)
+ if l < 2: continue
- def draw(_,context):
- active_object = context.active_object
- if active_object == None: return
+ dist = round(spline.calc_length(),2)
- bone = active_object.data.bones.active
- if bone == None: return
+ ia = point_count
+ ib = point_count+l-1
- _.layout.prop( bone.cv_data, "collider" )
- _.layout.prop( bone.cv_data, "v0" )
- _.layout.prop( bone.cv_data, "v1" )
+ graph[ia] = { ib: dist }
+ graph[ib] = { ia: dist }
+
+ for i in range(len(spline.points)):#{
+ wco = curves[c].matrix_world @ spline.points[i].co
+ route_points.append(Vector((wco[0],wco[1],wco[2]+0.5)))
+
+ previous = ia+i-1
+ proxima = ia+i+1
+
+ if i == 0: previous = -1
+ if i == len(spline.points)-1: proxima = -1
+
+ subsections.append((spline_count,previous,proxima))
+ point_count += 1
+ #}
+
+ spline_count += 1
+ #}
+ #}
+
+ # link endpoints
+ graph_keys = list(graph)
+ for i in range(len(graph_keys)-1):#{
+ for j in range(i+1, len(graph_keys)):#{
+ if i%2==0 and i+1==j: continue
+
+ ni = graph_keys[i]
+ nj = graph_keys[j]
+ pi = route_points[ni]
+ pj = route_points[nj]
+
+ dist = round((pj-pi).magnitude,2)
+
+ if dist < 10.0:#{
+ graph[ni][nj] = dist
+ graph[nj][ni] = dist
+ #}
+ #}
+ #}
+
+ # add and link gates( by name )
+ for gate in gates:#{
+ v1 = gate.matrix_world.to_3x3() @ Vector((0,1,0))
+ if gate.SR_data.ent_gate[0].target:
+ v1 = v1 * -1.0
+
+ graph[ gate.name ] = {}
+
+ for i in range(len(graph_keys)):#{
+ ni = graph_keys[i]
+ pi = route_points[ni]
+
+ v0 = pi-gate.location
+ if v0.dot(v1) < 0.0: continue
+
+ dist = round(v0.magnitude,2)
+
+ if dist < 10.0:#{
+ graph[ gate.name ][ ni ] = dist
+ graph[ ni ][ gate.name ] = dist
+ #}
+ #}
+ #}
+
+ return dij_graph(route_points,graph,subsections)
+#}
+
+def solve_graph( dij, start, end ):
+#{
+ path = dijkstra( dij.graph, end, start )
+ full = []
+
+ if path:#{
+ for sj in range(1,len(path)-2):#{
+ i0 = path[sj]
+ i1 = path[sj+1]
+ map0 = dij.subsections[i0]
+ map1 = dij.subsections[i1]
+
+ if map0[0] == map1[0]:#{
+ if map0[1] == -1: direction = 2
+ else: direction = 1
+ sent = 0
+
+ while True:#{
+ map0 = dij.subsections[i0]
+ i1 = map0[direction]
+ if i1 == -1: break
+
+ full.append( i0 )
+ sent += 1
+ i0 = i1
+ if sent > 50: break
+ #}
+ #}
+ else:#{
+ full.append( i0 )
+ #}
+ #}
+
+ full.append( path[-2] )
+ #}
+ return full
+#}
+
+def cv_draw_route( route, dij ):
+#{
+ pole = Vector((0.2,0.2,10))
+ hat = Vector((1,8,0.2))
+ cc = (route.SR_data.ent_route[0].colour[0],
+ route.SR_data.ent_route[0].colour[1],
+ route.SR_data.ent_route[0].colour[2])
+
+ cv_draw_ucube(route.matrix_world,cc,Vector((0.5,-7.5,6)),\
+ Vector((0,-6.5,5.5)))
+ cv_draw_ucube(route.matrix_world,cc,pole, Vector(( 0.5, 0.5,0)) )
+ cv_draw_ucube(route.matrix_world,cc,pole, Vector(( 0.5,-13.5,0)) )
+ cv_draw_ucube(route.matrix_world,cc,hat, Vector((-0.5,-6.5, 12)) )
+ cv_draw_ucube(route.matrix_world,cc,hat, Vector((-0.5,-6.5,-1)) )
+
+ checkpoints = route.SR_data.ent_route[0].gates
+
+ for i in range(len(checkpoints)):#{
+ gi = checkpoints[i].target
+ gj = checkpoints[(i+1)%len(checkpoints)].target
+
+ if gi:#{
+ dest = gi.SR_data.ent_gate[0].target
+ if dest:
+ cv_draw_line_dotted( gi.location, dest.location, cc )
+ gi = dest
+ #}
+
+ if gi==gj: continue # error?
+ if not gi or not gj: continue
+
+ path = solve_graph( dij, gi.name, gj.name )
+
+ if path:#{
+ cv_draw_arrow(gi.location,dij.points[path[0]],cc,1.5)
+ cv_draw_arrow(dij.points[path[len(path)-1]],gj.location,cc,1.5)
+ for j in range(len(path)-1):#{
+ i0 = path[j]
+ i1 = path[j+1]
+ o0 = dij.points[ i0 ]
+ o1 = dij.points[ i1 ]
+ cv_draw_arrow(o0,o1,cc,1.5)
+ #}
+ #}
+ else:#{
+ cv_draw_line_dotted( gi.location, gj.location, cc )
+ #}
+ #}
+#}
+
+def cv_draw():#{
+ global cv_view_shader
+ global cv_view_verts
+ global cv_view_colours
+ global cv_view_course_i
- _.layout.label( text="Angle Limits" )
- _.layout.prop( bone.cv_data, "con0" )
- _.layout.prop( bone.cv_data, "mins" )
- _.layout.prop( bone.cv_data, "maxs" )
+ cv_view_course_i = 0
+ cv_view_verts = []
+ cv_view_colours = []
-class CV_SCENE_SETTINGS(bpy.types.PropertyGroup):
- use_hidden: bpy.props.BoolProperty( name="use hidden", default=False )
+ cv_view_shader.bind()
+ gpu.state.depth_mask_set(False)
+ gpu.state.line_width_set(2.0)
+ gpu.state.face_culling_set('BACK')
+ gpu.state.depth_test_set('LESS')
+ gpu.state.blend_set('NONE')
-class CV_OBJ_PANEL(bpy.types.Panel):
- bl_label="Entity Config"
- bl_idname="SCENE_PT_cv_entity"
- bl_space_type='PROPERTIES'
- bl_region_type='WINDOW'
- bl_context="object"
+ route_gates = []
+ route_curves = []
+ routes = []
+
+ for obj in bpy.context.collection.objects:#{
+ if obj.type == 'ARMATURE':#{
+ if obj.data.pose_position == 'REST':
+ draw_skeleton_helpers( obj )
+ #}
+ else:#{
+ ent_type = obj_ent_type( obj )
+
+ if ent_type == 'ent_gate':#{
+ cv_ent_gate( obj )
+ 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_volume':#{
+ cv_ent_volume( obj )
+ #}
+ elif ent_type == 'ent_challenge':#{
+ data = obj.SR_data.ent_challenge[0]
+ if data.proxima:#{
+ cv_draw_arrow( obj.location, data.proxima.location, (0,0.2,1.0) )
+ #}
+ if data.target:
+ cv_draw_arrow( obj.location, data.target.location, (0,1.0,0.0) )
+ #}
+ elif ent_type == 'ent_relay':#{
+ data = obj.SR_data.ent_relay[0]
+ if data.target0:
+ cv_draw_arrow( obj.location, data.target0.location, (0,1,0) )
+ if data.target1:
+ cv_draw_arrow( obj.location, data.target1.location, (0,1,0) )
+ if data.target2:
+ cv_draw_arrow( obj.location, data.target2.location, (0,1,0) )
+ if data.target3:
+ cv_draw_arrow( obj.location, data.target3.location, (0,1,0) )
+ #}
+ elif ent_type == 'ent_unlock':#{
+ data = obj.SR_data.ent_unlock[0]
+ if data.target:
+ cv_draw_arrow( obj.location, data.target.location, (0,1.0,0.0) )
+ #}
+ elif ent_type == 'ent_audio':#{
+ if obj.SR_data.ent_audio[0].flag_3d:
+ cv_draw_sphere( obj.location, obj.scale[0], (1,1,0) )
+ #}
+ elif ent_type == 'ent_font':#{
+ data = obj.SR_data.ent_font[0]
+
+ for i in range(len(data.variants)):#{
+ sub = data.variants[i].mesh
+ if not sub: continue
+
+ for ch in data.glyphs:#{
+ mini = (ch.bounds[0],ch.bounds[1])
+ maxi = (ch.bounds[2]+mini[0],ch.bounds[3]+mini[1])
+ p0 = sub.matrix_world @ Vector((mini[0],0.0,mini[1]))
+ p1 = sub.matrix_world @ Vector((maxi[0],0.0,mini[1]))
+ p2 = sub.matrix_world @ Vector((maxi[0],0.0,maxi[1]))
+ p3 = sub.matrix_world @ Vector((mini[0],0.0,maxi[1]))
+
+ if i == data.variants_index: cc = (0.5,0.5,0.5)
+ else: cc = (0,0,0)
+
+ cv_view_verts += [p0,p1,p1,p2,p2,p3,p3,p0]
+ cv_view_colours += [cc,cc,cc,cc,cc,cc,cc,cc]
+ #}
+ #}
+ #}
+ elif ent_type == 'ent_skateshop':#{
+ data = obj.SR_data.ent_skateshop[0]
+ display = data.mark_display
+ info = data.mark_info
+
+ if data.tipo == '0':#{
+ cc = (0.0,0.9,0.6)
+ cc1 = (0.4,0.9,0.2)
+ cc2 = (0.9,0.6,0.1)
+
+ rack = data.mark_rack
+
+ rack_cu = Vector((3.15,2.0,0.1))*0.5
+ rack_co = Vector((0.0,0.0,0.0))
+ display_cu = Vector((0.3,1.2,0.1))*0.5
+ display_co = Vector((0.0,0.0,0.1))*0.5
+ info_cu = Vector((1.2,0.01,0.3))*0.5
+ info_co = Vector((0.0,0.0,0.0))*0.5
+ #}
+ elif data.tipo == '1':#{
+ rack = None
+ cc1 = (1.0,0.0,0.0)
+ cc2 = (1.0,0.5,0.0)
+ display_cu = Vector((0.4,0.4,2.0))*0.5
+ display_co = Vector((0.0,0.0,1.0))*0.5
+ info_cu = Vector((1.2,0.01,0.3))*0.5
+ info_co = Vector((0.0,0.0,0.0))*0.5
+ #}
+ elif data.tipo == '2':#{
+ rack = None
+ cc1 = (1.0,0.0,0.0)
+ cc2 = (1.0,0.5,0.0)
+ display_cu = Vector((1.0,1.0,0.5))*0.5
+ display_co = Vector((0.0,0.0,0.5))*0.5
+ info_cu = Vector((1.2,0.01,0.3))*0.5
+ info_co = Vector((0.0,0.0,0.0))*0.5
+ #}
+
+ if rack:
+ cv_draw_ucube( rack.matrix_world, cc, rack_cu, rack_co )
+ if display:
+ cv_draw_ucube( display.matrix_world, cc1, display_cu, display_co)
+ if info:
+ cv_draw_ucube( info.matrix_world, cc2, info_cu, info_co )
+ #}
+ elif ent_type == 'ent_swspreview':#{
+ cc1 = (0.4,0.9,0.2)
+ data = obj.SR_data.ent_swspreview[0]
+ display = data.mark_display
+ display1 = data.mark_display1
+ display_cu = Vector((0.3,1.2,0.1))*0.5
+ display_co = Vector((0.0,0.0,0.1))*0.5
+ if display:
+ cv_draw_ucube( display.matrix_world, cc1, display_cu, display_co)
+ if display1:
+ cv_draw_ucube(display1.matrix_world, cc1, display_cu, display_co)
+ #}
+ elif ent_type == 'ent_menuitem':#{
+ for i,col in enumerate(obj.users_collection):#{
+ colour32 = hash_djb2( col.name )
+ r = pow(((colour32 ) & 0xff) / 255.0, 2.2 )
+ g = pow(((colour32>>8 ) & 0xff) / 255.0, 2.2 )
+ b = pow(((colour32>>16) & 0xff) / 255.0, 2.2 )
+ cc = (r,g,b)
+ vs = [None for _ in range(8)]
+ scale = i*0.02
+ for j in range(8):#{
+ v0 = Vector([(obj.bound_box[j][z]+\
+ ((-1.0 if obj.bound_box[j][z]<0.0 else 1.0)*scale)) \
+ for z in range(3)])
+ vs[j] = obj.matrix_world @ v0
+ #}
+ indices = [(0,1),(1,2),(2,3),(3,0),(4,5),(5,6),(6,7),(7,4),\
+ (0,4),(1,5),(2,6),(3,7)]
+ for l in indices:#{
+ v0 = vs[l[0]]
+ v1 = vs[l[1]]
+ cv_view_verts += [(v0[0],v0[1],v0[2])]
+ cv_view_verts += [(v1[0],v1[1],v1[2])]
+ cv_view_colours += [cc,cc]
+ #}
+ #}
+ cv_draw_lines()
+ cc = (1.0,1.0,1.0)
+ data = obj.SR_data.ent_menuitem[0]
+ if data.tipo == '4':#{
+ if data.slider_minloc and data.slider_maxloc:#{
+ v0 = data.slider_minloc.location
+ v1 = data.slider_maxloc.location
+ cv_draw_line( v0, v1, cc )
+ #}
+ #}
+
+ colour32 = hash_djb2(obj.name)
+ r = ((colour32 ) & 0xff) / 255.0
+ g = ((colour32>>8 ) & 0xff) / 255.0
+ b = ((colour32>>16) & 0xff) / 255.0
+ cc = (r,g,b)
+ origin = obj.location + (Vector((r,g,b))*2.0-Vector((1.0,1.0,1.0)))\
+ * 0.04
+
+ size = 0.01
+
+ if data.tipo != '0':#{
+ if data.tipo == '4':#{
+ if data.link0:#{
+ cv_draw_arrow( origin, data.link0.location, cc, size )
+ #}
+ if data.link1:#{
+ cv_draw_arrow( origin, data.link1.location, cc, size )
+ #}
+ #}
+ else:#{
+ if data.link0:#{
+ cv_draw_arrow( origin, data.link0.location, cc, size )
+ #}
+ if data.link1:#{
+ cv_draw_arrow( origin, data.link1.location, cc, size )
+ #}
+ if data.link2:#{
+ cv_draw_arrow( origin, data.link2.location, cc, size )
+ #}
+ if data.link3:#{
+ cv_draw_arrow( origin, data.link3.location, cc, size )
+ #}
+ #}
+ #}
+ #}
+ #}
+ #}
+
+ dij = create_node_graph( route_curves, route_gates )
- def draw(_,context):
- active_object = bpy.context.active_object
- if active_object == None: return
- _.layout.prop( active_object.cv_data, "classtype" )
-
- if active_object.cv_data.classtype == 'k_classtype_gate':
- _.layout.prop( active_object.cv_data, "target" )
-
- mesh = active_object.data
- _.layout.label( text=F"(i) Data is stored in {mesh.name}" )
- _.layout.prop( mesh.cv_data, "v0" )
-
- elif active_object.cv_data.classtype == 'k_classtype_car_path' or \
- active_object.cv_data.classtype == 'k_classtype_route_node':
- _.layout.prop( active_object.cv_data, "target" )
- _.layout.prop( active_object.cv_data, "target1" )
-
- elif active_object.cv_data.classtype == 'k_classtype_route':
- _.layout.prop( active_object.cv_data, "target" )
- _.layout.prop( active_object.cv_data, "colour" )
-
- elif active_object.cv_data.classtype == 'k_classtype_block':
- mesh = active_object.data
-
- _.layout.label( text=F"(i) Data is stored in {mesh.name}" )
- _.layout.prop( mesh.cv_data, "v0" )
- _.layout.prop( mesh.cv_data, "v1" )
- _.layout.prop( mesh.cv_data, "v2" )
- _.layout.prop( mesh.cv_data, "v3" )
- elif active_object.cv_data.classtype == 'k_classtype_capsule':
- mesh = active_object.data
- _.layout.label( text=F"(i) Data is stored in {mesh.name}" )
- _.layout.prop( mesh.cv_data, "v0" )
-
-class CV_INTERFACE(bpy.types.Panel):
- bl_idname = "VIEW3D_PT_carve"
- bl_label = "Carve"
- bl_space_type = 'VIEW_3D'
- bl_region_type = 'UI'
- bl_category = "Carve"
-
- def draw(_, context):
- layout = _.layout
- layout.prop( context.scene.cv_data, "use_hidden")
- layout.operator( "carve.compile_all" )
-
-def test_compile():
- view_layer = bpy.context.view_layer
- for col in view_layer.layer_collection.children["export"].children:
- if not col.hide_viewport or bpy.context.scene.cv_data.use_hidden:
- write_model( col.name )
-
-class CV_COMPILE(bpy.types.Operator):
- bl_idname="carve.compile_all"
- bl_label="Compile All"
-
- def execute(_,context):
- test_compile()
- #cProfile.runctx("test_compile()",globals(),locals(),sort=1)
- #for col in bpy.data.collections["export"].children:
- # write_model( col.name )
-
- return {'FINISHED'}
-
-classes = [CV_OBJ_SETTINGS,CV_OBJ_PANEL,CV_COMPILE,CV_INTERFACE,\
- CV_MESH_SETTINGS, CV_SCENE_SETTINGS, CV_BONE_SETTINGS,\
- CV_BONE_PANEL]
+ #cv_draw_route_map( route_nodes )
+ for route in routes:#{
+ cv_draw_route( route, dij )
+ #}
+
+ cv_draw_lines()
+#}
+
+def pos3d_to_2d( pos ):#{
+ return view3d_utils.location_3d_to_region_2d( \
+ bpy.context.region, \
+ bpy.context.space_data.region_3d, pos )
+#}
+
+def cv_draw_pixel():#{
+ if not bpy.context.scene.SR_data.gizmos: return
+ blf.size(0,10)
+ blf.color(0, 1.0,1.0,1.0,0.9)
+ blf.enable(0,blf.SHADOW)
+ blf.shadow(0,3,0.0,0.0,0.0,1.0)
+ for obj in bpy.context.collection.objects:#{
+ ent_type = obj_ent_type( obj )
+
+ if ent_type != 'none':#{
+ co = pos3d_to_2d( obj.location )
+
+ if not co: continue
+ blf.position(0,co[0],co[1],0)
+ blf.draw(0,ent_type)
+ #}
+ #}
+#}
+
+classes = [ SR_INTERFACE, SR_MATERIAL_PANEL,\
+ SR_COLLECTION_SETTINGS, SR_SCENE_SETTINGS, \
+ SR_COMPILE, SR_COMPILE_THIS, SR_MIRROR_BONE_X,\
+ \
+ SR_OBJECT_ENT_GATE, SR_MESH_ENT_GATE, SR_OBJECT_ENT_SPAWN, \
+ SR_OBJECT_ENT_ROUTE_ENTRY, SR_UL_ROUTE_NODE_LIST, \
+ SR_OBJECT_ENT_ROUTE, SR_OT_ROUTE_LIST_NEW_ITEM,\
+ SR_OT_GLYPH_LIST_NEW_ITEM, SR_OT_GLYPH_LIST_DEL_ITEM,\
+ SR_OT_GLYPH_LIST_MOVE_ITEM,\
+ SR_OT_AUDIO_LIST_NEW_ITEM,SR_OT_AUDIO_LIST_DEL_ITEM,\
+ SR_OT_FONT_VARIANT_LIST_NEW_ITEM,SR_OT_FONT_VARIANT_LIST_DEL_ITEM,\
+ SR_OT_COPY_ENTITY_DATA, \
+ SR_OBJECT_ENT_VOLUME, \
+ SR_UL_AUDIO_LIST, SR_OBJECT_ENT_AUDIO_FILE_ENTRY,\
+ SR_OT_ROUTE_LIST_DEL_ITEM,\
+ SR_OBJECT_ENT_AUDIO,SR_OBJECT_ENT_MARKER,SR_OBJECT_ENT_GLYPH,\
+ SR_OBJECT_ENT_FONT_VARIANT,
+ SR_OBJECT_ENT_GLYPH_ENTRY,\
+ SR_UL_FONT_VARIANT_LIST,SR_UL_FONT_GLYPH_LIST,\
+ SR_OBJECT_ENT_FONT,SR_OBJECT_ENT_TRAFFIC,SR_OBJECT_ENT_SKATESHOP,\
+ SR_OBJECT_ENT_WORKSHOP_PREVIEW,SR_OBJECT_ENT_MENU_ITEM,\
+ SR_OBJECT_ENT_WORLD_INFO,SR_OBJECT_ENT_CCMD,\
+ SR_OBJECT_ENT_CHALLENGE,SR_OBJECT_ENT_UNLOCK,SR_OBJECT_ENT_RELAY,\
+ \
+ SR_OBJECT_PROPERTIES, SR_LIGHT_PROPERTIES, SR_BONE_PROPERTIES,
+ SR_MESH_PROPERTIES, SR_MATERIAL_PROPERTIES \
+ ]
def register():
- global cv_view_draw_handler
-
+#{
for c in classes:
bpy.utils.register_class(c)
- bpy.types.Object.cv_data = bpy.props.PointerProperty(type=CV_OBJ_SETTINGS)
- bpy.types.Mesh.cv_data = bpy.props.PointerProperty(type=CV_MESH_SETTINGS)
- bpy.types.Scene.cv_data = bpy.props.PointerProperty(type=CV_SCENE_SETTINGS)
- bpy.types.Bone.cv_data = bpy.props.PointerProperty(type=CV_BONE_SETTINGS)
-
+ bpy.types.Scene.SR_data = \
+ bpy.props.PointerProperty(type=SR_SCENE_SETTINGS)
+ bpy.types.Collection.SR_data = \
+ bpy.props.PointerProperty(type=SR_COLLECTION_SETTINGS)
+
+ bpy.types.Object.SR_data = \
+ bpy.props.PointerProperty(type=SR_OBJECT_PROPERTIES)
+ bpy.types.Light.SR_data = \
+ bpy.props.PointerProperty(type=SR_LIGHT_PROPERTIES)
+ bpy.types.Bone.SR_data = \
+ bpy.props.PointerProperty(type=SR_BONE_PROPERTIES)
+ bpy.types.Mesh.SR_data = \
+ bpy.props.PointerProperty(type=SR_MESH_PROPERTIES)
+ bpy.types.Material.SR_data = \
+ bpy.props.PointerProperty(type=SR_MATERIAL_PROPERTIES)
+
+ global cv_view_draw_handler, cv_view_pixel_handler
cv_view_draw_handler = bpy.types.SpaceView3D.draw_handler_add(\
cv_draw,(),'WINDOW','POST_VIEW')
+ cv_view_pixel_handler = bpy.types.SpaceView3D.draw_handler_add(\
+ cv_draw_pixel,(),'WINDOW','POST_PIXEL')
+#}
def unregister():
- global cv_view_draw_handler
-
+#{
for c in classes:
bpy.utils.unregister_class(c)
+ global cv_view_draw_handler, cv_view_pixel_handler
bpy.types.SpaceView3D.draw_handler_remove(cv_view_draw_handler,'WINDOW')
+ bpy.types.SpaceView3D.draw_handler_remove(cv_view_pixel_handler,'WINDOW')
+#}
+
+# ---------------------------------------------------------------------------- #
+# #
+# QOI encoder #
+# #
+# ---------------------------------------------------------------------------- #
+# #
+# Transliteration of: #
+# https://github.com/phoboslab/qoi/blob/master/qoi.h #
+# #
+# Copyright (c) 2021, Dominic Szablewski - https://phoboslab.org #
+# SPDX-License-Identifier: MIT #
+# QOI - The "Quite OK Image" format for fast, lossless image compression #
+# #
+# ---------------------------------------------------------------------------- #
+
+class qoi_rgba_t(Structure):
+#{
+ _pack_ = 1
+ _fields_ = [("r",c_uint8),
+ ("g",c_uint8),
+ ("b",c_uint8),
+ ("a",c_uint8)]
+#}
+
+QOI_OP_INDEX = 0x00 # 00xxxxxx
+QOI_OP_DIFF = 0x40 # 01xxxxxx
+QOI_OP_LUMA = 0x80 # 10xxxxxx
+QOI_OP_RUN = 0xc0 # 11xxxxxx
+QOI_OP_RGB = 0xfe # 11111110
+QOI_OP_RGBA = 0xff # 11111111
+
+QOI_MASK_2 = 0xc0 # 11000000
+
+def qoi_colour_hash( c ):
+#{
+ return c.r*3 + c.g*5 + c.b*7 + c.a*11
+#}
+
+def qoi_eq( a, b ):
+#{
+ return (a.r==b.r) and (a.g==b.g) and (a.b==b.b) and (a.a==b.a)
+#}
+
+def qoi_32bit( v ):
+#{
+ return bytearray([ (0xff000000 & v) >> 24, \
+ (0x00ff0000 & v) >> 16, \
+ (0x0000ff00 & v) >> 8, \
+ (0x000000ff & v) ])
+#}
+
+def qoi_encode( img ):
+#{
+ data = bytearray()
+
+ print(F"{' ':<30}",end='\r')
+ print(F"[QOI] Encoding {img.name}.qoi[{img.size[0]},{img.size[1]}]",end='\r')
+
+ index = [ qoi_rgba_t() for _ in range(64) ]
+
+ # Header
+ #
+ data.extend( bytearray(c_uint32(0x66696f71)) )
+ data.extend( qoi_32bit( img.size[0] ) )
+ data.extend( qoi_32bit( img.size[1] ) )
+ data.extend( bytearray(c_uint8(4)) )
+ data.extend( bytearray(c_uint8(0)) )
+
+ run = 0
+ px_prev = qoi_rgba_t()
+ px_prev.r = c_uint8(0)
+ px_prev.g = c_uint8(0)
+ px_prev.b = c_uint8(0)
+ px_prev.a = c_uint8(255)
+
+ px = qoi_rgba_t()
+ px.r = c_uint8(0)
+ px.g = c_uint8(0)
+ px.b = c_uint8(0)
+ px.a = c_uint8(255)
+
+ px_len = img.size[0] * img.size[1]
+ paxels = [ int(min(max(_,0),1)*255) for _ in img.pixels ]
+
+ for px_pos in range( px_len ): #{
+ idx = px_pos * img.channels
+ nc = img.channels-1
+
+ px.r = paxels[idx+min(0,nc)]
+ px.g = paxels[idx+min(1,nc)]
+ px.b = paxels[idx+min(2,nc)]
+ px.a = paxels[idx+min(3,nc)]
+
+ if qoi_eq( px, px_prev ): #{
+ run += 1
+
+ if (run == 62) or (px_pos == px_len-1): #{
+ data.extend( bytearray( c_uint8(QOI_OP_RUN | (run-1))) )
+ run = 0
+ #}
+ #}
+ else: #{
+ if run > 0: #{
+ data.extend( bytearray( c_uint8(QOI_OP_RUN | (run-1))) )
+ run = 0
+ #}
+
+ index_pos = qoi_colour_hash(px) % 64
+
+ if qoi_eq( index[index_pos], px ): #{
+ data.extend( bytearray( c_uint8(QOI_OP_INDEX | index_pos)) )
+ #}
+ else: #{
+ index[ index_pos ].r = px.r
+ index[ index_pos ].g = px.g
+ index[ index_pos ].b = px.b
+ index[ index_pos ].a = px.a
+
+ if px.a == px_prev.a: #{
+ vr = int(px.r) - int(px_prev.r)
+ vg = int(px.g) - int(px_prev.g)
+ vb = int(px.b) - int(px_prev.b)
+
+ vg_r = vr - vg
+ vg_b = vb - vg
+
+ if (vr > -3) and (vr < 2) and\
+ (vg > -3) and (vg < 2) and\
+ (vb > -3) and (vb < 2):
+ #{
+ op = QOI_OP_DIFF | (vr+2) << 4 | (vg+2) << 2 | (vb+2)
+ data.extend( bytearray( c_uint8(op) ))
+ #}
+ elif (vg_r > -9) and (vg_r < 8) and\
+ (vg > -33) and (vg < 32 ) and\
+ (vg_b > -9) and (vg_b < 8):
+ #{
+ op = QOI_OP_LUMA | (vg+32)
+ delta = (vg_r+8) << 4 | (vg_b + 8)
+ data.extend( bytearray( c_uint8(op) ) )
+ data.extend( bytearray( c_uint8(delta) ))
+ #}
+ else: #{
+ data.extend( bytearray( c_uint8(QOI_OP_RGB) ) )
+ data.extend( bytearray( c_uint8(px.r) ))
+ data.extend( bytearray( c_uint8(px.g) ))
+ data.extend( bytearray( c_uint8(px.b) ))
+ #}
+ #}
+ else: #{
+ data.extend( bytearray( c_uint8(QOI_OP_RGBA) ) )
+ data.extend( bytearray( c_uint8(px.r) ))
+ data.extend( bytearray( c_uint8(px.g) ))
+ data.extend( bytearray( c_uint8(px.b) ))
+ data.extend( bytearray( c_uint8(px.a) ))
+ #}
+ #}
+ #}
+
+ px_prev.r = px.r
+ px_prev.g = px.g
+ px_prev.b = px.b
+ px_prev.a = px.a
+ #}
+
+ # Padding
+ for i in range(7):
+ data.extend( bytearray( c_uint8(0) ))
+ data.extend( bytearray( c_uint8(1) ))
+ bytearray_align_to( data, 16, b'\x00' )
+
+ return data
+#}