X-Git-Url: http://git.tdb.fi/?a=blobdiff_plain;f=blender%2Fio_mspgl%2Fexport_scene.py;h=0ba4ad76945c734c3d6be7a3ce25f911c98c054c;hb=1c189b2a4a6c91fe4baaa2bd6760f5fc4d7558d2;hp=9b36c48ff43faadb0f7ef6da596f37e7806dfd47;hpb=d5c26741ed3952dd54c8a7f43ad42ba79bf2d977;p=libs%2Fgl.git diff --git a/blender/io_mspgl/export_scene.py b/blender/io_mspgl/export_scene.py index 9b36c48f..0ba4ad76 100644 --- a/blender/io_mspgl/export_scene.py +++ b/blender/io_mspgl/export_scene.py @@ -3,12 +3,23 @@ import os class SceneExporter: def __init__(self): + self.selected_only = False + self.visible_collections = True self.resource_collection = True + self.skip_existing = True self.show_progress = True def export_to_file(self, context, out_fn): - objs = [o for o in context.selected_objects if o.type=="MESH" and not o.lod_for_parent] + if self.selected_only: + objs = context.selected_objects + else: + objs = context.scene.objects + if self.visible_collections: + collections = [c.collection for c in context.view_layer.layer_collection.children if not (c.hide_viewport or c.collection.hide_viewport)] + objs = [o for o in objs if any((o.name in c.all_objects) for c in collections)] + objs = [o for o in objs if o.type=="MESH" and not o.lod_for_parent] objs = [o for o in objs if (not o.compound or o.parent not in objs)] + objs.sort(key=lambda x:x.name) path, base = os.path.split(out_fn) base, ext = os.path.splitext(base) @@ -19,38 +30,48 @@ class SceneExporter: object_prototypes = {} unique_objects = [] export_names = {} + used_names = set() for o in objs: if o.name in object_prototypes: continue clones = [o] - if not any(s.link=="OBJECT" for s in o.material_slots): - for u in objs: - if u is o: - continue - if u.data.name!=o.data.name: - continue - if u.technique!=o.technique: - continue - if any(s.link=="OBJECT" for s in u.material_slots): - continue - - clones.append(u) + for u in objs: + if u is o: + continue + if u.data.name!=o.data.name: + continue + if any(m1.name!=m2.name for m1, m2 in zip(o.material_slots, u.material_slots)): + continue + + clones.append(u) prefix = o.name for c in clones: - for i in range(min(len(c.name), len(prefix))): - if c.name[i]!=prefix[i]: - prefix = prefix[:i] - break + while not c.name.startswith(prefix): + pos = max(prefix.rfind(' '), prefix.rfind('.')) + if pos<0: + break; + prefix = prefix[:pos] if prefix: - export_names[o.name+".object"] = prefix.strip(" .")+".object" + export_names[o.name+".object"] = prefix.strip(" .") + else: + used_names.add(o.name) unique_objects.append(o) for c in clones: object_prototypes[c.name] = o + for n, e in export_names.items(): + if e in used_names: + number = 1 + while "{}_{}".format(e, number) in used_names: + number += 1 + e += "_{}".format(number) + export_names[n] = e+".object" + used_names.add(e) + from .util import Progress progress = Progress(self.show_progress and context) @@ -63,66 +84,60 @@ class SceneExporter: scene_res = self.export_scene(context, objs, progress, prototypes=object_prototypes, resources=resources) refs = scene_res.collect_references() - from .datafile import Statement if self.resource_collection: - keywords = { ".mat": "material", - ".mesh": "mesh", - ".object": "object", - ".tech": "technique", - ".tex2d": "texture2d" } - with open(os.path.join(path, base+"_resources.mdc"), "w") as res_out: - for r in refs: - st = Statement(keywords[os.path.splitext(r.name)[1]], r.name) - st.sub = r.statements - st.write_to_file(res_out) + filter = None + if self.skip_existing: + filter = lambda r: not os.path.exists(os.path.join(path, r.name)) + scene_res.write_collection(os.path.join(path, base+"_resources.mdc"), exclude_self=True, filter=filter) else: res_dir = os.path.join(path, base+"_resources") if not os.path.exists(res_dir): os.makedirs(res_dir) for r in refs: - with open(os.path.join(res_dir, r.name), "w") as res_out: - for s in r.statements: - s.write_to_file(res_out) + r.write_to_file(os.path.join(res_dir, r.name)) - with open(out_fn, "w") as out_file: - for s in scene_res.statements: - s.write_to_file(out_file) + scene_res.write_to_file(out_fn) def export_scene_resources(self, context, objs, resources, progress): from .export_object import ObjectExporter object_export = ObjectExporter() object_export.single_file = False - material_maps = {} + material_atlases = {} for i, o in enumerate(objs): progress.push_task_slice(o.name, i, len(objs)) - object_export.export_object_resources(context, o, resources, progress, material_maps=material_maps) + object_export.export_object_resources(context, o, resources, progress, material_atlases=material_atlases) obj_name = o.name+".object" resources[obj_name] = object_export.export_object(context, o, progress, resources=resources) progress.pop_task() def export_scene(self, context, objs, progress, *, prototypes, resources): - from .datafile import Resource, Statement - scene_res = Resource("scene.scene") + from .datafile import Resource, Statement, Token + scene_res = Resource("scene.scene", "scene") + + scene_res.statements.append(Statement("type", Token(context.scene.scene_type.lower()))) for o in objs: obj_res = resources[prototypes[o.name].name+".object"] st = scene_res.create_reference_statement("object", obj_res, o.name) - # XXX Parent relationships screw up the location and rotation - st.sub.append(Statement("position", o.location[0], o.location[1], o.location[2])) - if o.rotation_mode=="AXIS_ANGLE": - angle = o.rotation_axis_angle[0] - axis = o.rotation_axis_angle[1:] + + ss = Statement("transform") + + loc = o.matrix_world.to_translation() + ss.sub.append(Statement("position", *tuple(loc))) + + quat = o.matrix_world.to_quaternion() + if o.rotation_mode in ('XYZ', 'XZY', 'YXZ', 'YZX', 'ZXY', 'ZYX'): + angles = [a*180/math.pi for a in quat.to_euler()] + ss.sub.append(Statement("euler", *angles)); else: - if o.rotation_mode=="QUATERNION": - q = o.rotation_quaternion - else: - q = o.rotation_euler.to_quaternion() - angle = q.angle - axis = q.axis - st.sub.append(Statement("rotation", angle*180/math.pi, axis[0], axis[1], axis[2])) - st.sub.append(Statement("scale", o.scale[0], o.scale[1], o.scale[2])) + ss.sub.append(Statement("rotation", quat.angle*180/math.pi, *tuple(quat.axis))) + + scale = o.matrix_world.to_scale() + ss.sub.append(Statement("scale", *tuple(scale))) + + st.sub.append(ss) scene_res.statements.append(st) progress.set_progress(1.0)