5 def export_to_file(self, context, out_fn, *, selected_only=False, visible_only=True, collection=True, skip_existing=True):
6 from .util import Progress
7 progress = Progress(context)
9 from .scene import create_scene_from_current
10 scene = create_scene_from_current(context, selected_only=selected_only, visible_only=visible_only)
13 self.export_scene_resources(context, scene, resources, progress)
14 scene_res = self.export_scene(scene, resources)
15 progress.set_progress(1.0)
17 path, base = os.path.split(out_fn)
18 base, ext = os.path.splitext(base)
23 existing = lambda r: not os.path.exists(os.path.join(path, r.name))
24 scene_res.write_collection(out_fn, filter=existing)
26 scene_res.write_to_file(out_fn)
27 for r in scene_res.collect_references():
28 r.write_to_file(os.path.join(path, r.name))
30 def export_scene_resources(self, context, scene, resources, progress):
31 from .export import DataExporter
32 data_exporter = DataExporter()
34 data_exporter.export_resources(context, scene.prototypes, resources, None, progress)
36 def export_scene(self, scene, resources):
37 from .datafile import Resource, Statement, Token
38 scene_res = Resource(scene.name+".scene", "scene")
40 scene_res.statements.append(Statement("type", Token("simple")))
42 for i in scene.instances:
43 obj_res = resources[i.prototype+".object"]
44 st = scene_res.create_reference_statement("object", obj_res, i.name)
46 ss = Statement("transform")
48 loc = i.matrix_world.to_translation()
49 ss.sub.append(Statement("position", *tuple(loc)))
51 quat = i.matrix_world.to_quaternion()
52 if i.rotation_mode in ('XYZ', 'XZY', 'YXZ', 'YZX', 'ZXY', 'ZYX'):
53 angles = [a*180/math.pi for a in quat.to_euler()]
54 ss.sub.append(Statement("euler", *angles));
56 ss.sub.append(Statement("rotation", quat.angle*180/math.pi, *tuple(quat.axis)))
58 scale = i.matrix_world.to_scale()
59 ss.sub.append(Statement("scale", *tuple(scale)))
62 scene_res.statements.append(st)
66 def export_sequence_resources(self, scene, resources):
67 from .datafile import Resource, Statement, Token
69 if scene.background_set:
70 wrapper_name = scene.name+".wrapper.scene"
71 if wrapper_name not in resources:
72 wrapper_res = Resource(wrapper_name, "scene")
73 wrapper_res.statements.append(Statement("type", Token("ordered")))
74 for s in scene.get_chain():
75 wrapper_res.statements.append(wrapper_res.create_reference_statement("scene", resources[s.name+".scene"]))
77 resources[wrapper_name] = wrapper_res
85 from .util import make_unique
86 lights = make_unique(lights)
88 from .export_light import LightExporter
89 light_exporter = LightExporter()
91 light_name = l.name+".light"
92 if light_name not in resources:
93 resources[light_name] = light_exporter.export_light(l)
95 lighting_name = scene.name+".lightn"
96 if lighting_name not in resources:
97 lighting_res = Resource(lighting_name, "lighting")
98 lighting_res.statements.append(Statement("ambient", *tuple(scene.ambient_light)))
100 lighting_res.statements.append(lighting_res.create_reference_statement("light", resources[l.name+".light"]))
102 resources[lighting_name] = lighting_res
104 def export_sequence(self, scene, resources):
105 from .datafile import Resource, Statement, Token
106 seq_res = Resource(scene.name+".seq", "sequence")
109 seq_res.statements.append(Statement("hdr", True))
112 if scene.background_set:
113 content = resources[scene.name+".wrapper.scene"]
115 ss = Statement("clear")
116 ss.sub.append(Statement("color", 0.0, 0.0, 0.0, 0.0))
117 ss.sub.append(Statement("depth", 1.0))
118 seq_res.statements.append(ss)
120 ss = Statement("step", "", "content")
121 ss.sub.append(Statement("depth_test", Token("LEQUAL")))
122 ss.sub.append(seq_res.create_reference_statement("lighting", resources[scene.name+".lightn"]))
123 ss.sub.append(seq_res.create_reference_statement("scene", content))
124 seq_res.statements.append(ss)
127 ss = Statement("ambient_occlusion")
128 ss.sub.append(Statement("occlusion_radius", scene.ao_distance))
129 ss.sub.append(Statement("samples", scene.ao_samples))
130 seq_res.statements.append(ss)
133 seq_res.statements.append(Statement("bloom"))
134 ss = Statement("colorcurve")
135 ss.sub.append(Statement("exposure_adjust", scene.exposure))
136 ss.sub.append(Statement("srgb"))
137 seq_res.statements.append(ss)
139 # Add a colorcurve with linear response to convert into sRGB color space
140 ss = Statement("colorcurve")
141 ss.sub.append(Statement("brightness_response", 1.0))
142 ss.sub.append(Statement("srgb"))
143 seq_res.statements.append(ss)