x/gen: implement all generator functions
This commit is contained in:
parent
ec11cc49d3
commit
2f6aea9c3b
270
x/gen.py
270
x/gen.py
@ -18,15 +18,38 @@ def obj_value(obj):
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def obj_type(obj):
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return type(obj_value(obj))
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visitors = None
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def visit(func, obj):
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global visitors
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yield from visitors[obj_type(obj)](func, obj)
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def visit_none(func, obj):
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return
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yield # empty generator
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def visit_objects(func, obj):
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print("vo", func)
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yield func(obj)
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yield from func(obj)
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for o in obj_value(obj).objects:
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yield func(o)
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yield from visit(func, o)
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def visit_self(func, obj):
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print("vs", func)
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yield func(obj)
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yield from func(obj)
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tagged = {
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templates.Header,
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templates.Material,
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templates.TextureFilename,
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templates.Frame,
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templates.FrameTransformMatrix,
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templates.Mesh,
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templates.MeshMaterialList,
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templates.MeshNormals,
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templates.MeshTextureCoords,
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templates.AnimationKey,
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templates.AnimationOptions,
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templates.Animation,
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templates.AnimationSet,
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}
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visitors = {
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templates.ColorRGBA : visit_self,
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@ -35,7 +58,7 @@ visitors = {
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templates.Vector : visit_self,
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templates.MeshFace : visit_self,
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templates.Coords2D : visit_self,
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templates.Reference : visit_self,
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templates.Reference : visit_none,
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templates.FloatKeys : visit_self,
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templates.TimedFloatKeys : visit_self,
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@ -80,75 +103,209 @@ type_map = {
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templates.AnimationSet : "animation_set",
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}
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type_counter = Counter()
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def name_gen(obj):
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global type_counter
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assert type(obj) is not tuple
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i = type_counter[type(obj)]
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type_counter[type(obj)] += 1
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return i
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name_map = {}
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obj_map = {}
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def add_name_map(obj):
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if type(obj) is not tuple:
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return
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name, obj = obj
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assert name not in name_map, name
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name_map[name] = obj
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name_map[id(obj)] = name.decode("utf-8")
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obj_map[name] = obj
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yield None
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def type_declaration(obj):
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type_counter = Counter()
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obj_names = {}
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def name_gen(obj):
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global type_counter
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global obj_names
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assert type(obj) is not tuple
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if id(obj) in name_map:
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return name_map[id(obj)]
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elif id(obj) in obj_names:
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return obj_names[id(obj)]
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else:
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i = type_counter[obj_type(obj)]
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type_counter[obj_type(obj)] += 1
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obj_names[id(obj)] = i
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return i
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def get_obj_name(obj):
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type_name = type_map[obj_type(obj)]
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if type(obj) is tuple:
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name, _ = obj
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string_name = name.decode('utf-8')
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else:
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string_name = name_gen(obj)
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return f"const {type_name} {type_name}_{string_name}"
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return f"{type_name}_{string_name}"
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def generate_predeclaration(obj):
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if type(obj) is not tuple:
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return
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def type_declaration(obj):
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type_name = type_map[obj_type(obj)]
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string_name = get_obj_name(obj)
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return f"const {type_name} {string_name}"
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yield f"{type_declaration(obj)};"
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def generate_header(obj):
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yield f"{type_declaration(obj)} {{"
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def generate_vec3(name, name2, vertices):
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yield f"vec3 {name}_{name2}[] = {{"
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for v in vertices:
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coordinates = f"{v.x}, {v.y}, {v.z}"
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yield f"{{{coordinates}}},"
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yield "};"
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def generate_definition(obj):
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if obj_type(obj) is templates.Header:
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yield from generate_header(obj)
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elif obj_type(obj) is templates.Material:
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yield from generate_material(obj)
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elif obj_type(obj) is templates.TextureFilename:
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yield from generate_texture_filename(obj)
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elif obj_type(obj) is templates.Frame:
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yield from generate_frame(obj)
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elif obj_type(obj) is templates.FrameTransformMatrix:
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yield from generate_frame_transform_matrix(obj)
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elif obj_type(obj) is templates.Mesh:
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yield from generate_mesh(obj)
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elif obj_type(obj) is templates.MeshMaterialList:
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yield from generate_mesh_material_list(obj)
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elif obj_type(obj) is templates.MeshNormals:
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yield from generate_mesh_normals(obj)
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elif obj_type(obj) is templates.MeshTextureCoords:
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yield from generate_mesh_texture_coords(obj)
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elif obj_type(obj) is templates.AnimationKey:
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yield from generate_animation_key(obj)
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elif obj_type(obj) is templates.AnimationOptions:
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yield from generate_animation_options(obj)
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elif obj_type(obj) is templates.Animation:
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yield from generate_animation(obj)
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elif obj_type(obj) is templates.AnimationSet:
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yield from generate_animation_set(obj)
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else:
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assert False, (type(obj), obj)
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def generate_faces(name, faces):
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yield f"struct mesh_face {name}_faces[] = {{"
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for f in faces:
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assert f.nFaceVertexIndices == 3
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indices = f"{', '.join(map(str, f.faceVertexIndices))}"
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yield f"{{{indices}}},"
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yield "};"
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def visit(func, obj):
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yield from visitors[obj_type(obj)](func, obj)
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def generate_face_indices(name, face_indices):
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yield f"int {name}_face_indices[] = {{"
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for i in face_indices:
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yield f"{i},"
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yield "};"
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def generate_predeclaration(obj):
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name = get_obj_name(obj)
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if obj_type(obj) is templates.Mesh:
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yield from generate_vec3(name, "vertices", obj_value(obj).vertices)
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yield from generate_faces(name, obj_value(obj).faces)
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elif obj_type(obj) is templates.MeshMaterialList:
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yield from generate_face_indices(name, obj_value(obj).faceIndices)
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elif obj_type(obj) is templates.MeshNormals:
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yield from generate_vec3(name, "normals", obj_value(obj).normals)
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yield f"extern {type_declaration(obj)};"
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def generate_header(obj):
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yield f".major = {obj.major},"
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yield f".minor = {obj.minor},"
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yield f".flags = {obj.flags},"
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def generate_material(obj):
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face_color = f"{obj.faceColor.r}f, {obj.faceColor.g}f, {obj.faceColor.b}f, {obj.faceColor.a}f"
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specular_color = f"{obj.specularColor.r}f, {obj.specularColor.g}f, {obj.specularColor.b}f"
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emissive_color = f"{obj.emissiveColor.r}f, {obj.emissiveColor.g}f, {obj.emissiveColor.b}f"
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yield f".face_color = {{{face_color}}},"
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yield f".power = {obj.power}f,"
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yield f".specular_color = {{{specular_color}}},"
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yield f".emissive_color = {{{emissive_color}}},"
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def generate_texture_filename(obj):
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yield ""
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def generate_frame(obj):
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return
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yield # empty generator function
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def generate_frame_transform_matrix(obj):
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yield ".frame_matrix = {"
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m = obj.frameMatrix.v
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# transpose matrix from column-major to row-major
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yield f"{m[0]}, {m[4]}, {m[8]}, {m[12]},"
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yield f"{m[1]}, {m[5]}, {m[9]}, {m[13]},"
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yield f"{m[2]}, {m[6]}, {m[10]}, {m[14]},"
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yield f"{m[3]}, {m[7]}, {m[11]}, {m[15]},"
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yield "},"
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def generate_mesh(obj):
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name = get_obj_name(obj)
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yield f".n_vertices = {obj.nVertices},"
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yield f".vertices = {name}_vertices,"
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yield f".n_faces = {obj.nFaces},"
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yield f".faces = {name}_faces,"
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def generate_mesh_material_list(obj):
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name = get_obj_name(obj)
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yield f".n_materials = {obj.nMaterials},"
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yield f".n_face_indices = {obj.nFaceIndices},"
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yield f".face_indices = {name}_face_indices,"
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def generate_mesh_normals(obj):
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name = get_obj_name(obj)
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yield f".n_normals = {obj.nNormals},"
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yield f".normals = {name}_normals,"
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yield f".n_face_normals = {obj.nFaceNormals},"
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def generate_mesh_texture_coords(obj):
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yield f".n_texture_coords = {obj.nTextureCoords},"
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yield f".texture_coords = {{"
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for tc in obj.textureCoords:
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coordinates = f"{tc.u}, {tc.v}"
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yield f"{{{coordinates}}},"
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yield "},"
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def generate_animation_key(obj):
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yield f".key_type = {obj.keyType},"
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yield f".n_keys = {obj.nKeys},"
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yield ".keys = {"
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yield "// not implemented"
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yield "},"
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def generate_animation_options(obj):
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yield f".open_closed = {obj.openClosed},"
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yield f".position_quality = {obj.positionQuality},"
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def generate_animation(obj):
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return
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yield
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def generate_animation_set(obj):
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return
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yield
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def generate_definition(obj):
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yield f"{type_declaration(obj)} = {{"
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if obj_type(obj) in tagged:
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yield f".tag = tag::{type_map[obj_type(obj)]},"
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if obj_type(obj) is templates.Header:
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yield from generate_header(obj_value(obj))
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elif obj_type(obj) is templates.Material:
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yield from generate_material(obj_value(obj))
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elif obj_type(obj) is templates.TextureFilename:
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yield from generate_texture_filename(obj_value(obj))
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elif obj_type(obj) is templates.Frame:
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yield from generate_frame(obj_value(obj))
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elif obj_type(obj) is templates.FrameTransformMatrix:
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yield from generate_frame_transform_matrix(obj_value(obj))
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elif obj_type(obj) is templates.Mesh:
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yield from generate_mesh(obj_value(obj))
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elif obj_type(obj) is templates.MeshMaterialList:
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yield from generate_mesh_material_list(obj_value(obj))
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elif obj_type(obj) is templates.MeshNormals:
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yield from generate_mesh_normals(obj_value(obj))
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elif obj_type(obj) is templates.MeshTextureCoords:
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yield from generate_mesh_texture_coords(obj_value(obj))
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elif obj_type(obj) is templates.AnimationKey:
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yield from generate_animation_key(obj_value(obj))
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elif obj_type(obj) is templates.AnimationOptions:
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yield from generate_animation_options(obj_value(obj))
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elif obj_type(obj) is templates.Animation:
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yield from generate_animation(obj_value(obj))
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elif obj_type(obj) is templates.AnimationSet:
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yield from generate_animation_set(obj_value(obj))
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elif obj_type(obj) is templates.Reference:
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# do nothing
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pass
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else:
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assert False, (obj_type(obj), obj)
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if visitors[obj_type(obj)] is visit_objects:
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yield ""
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yield ".objects = {"
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for o in obj_value(obj).objects:
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if obj_type(o) == templates.Reference:
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reference_name = obj_value(o).name
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o = obj_map[reference_name]
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yield f"reinterpret_cast<const data_object *>(&{get_obj_name(o)}),"
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yield "}"
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yield "};"
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def visit_all(func, objects):
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for obj in objects:
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@ -165,6 +322,5 @@ objects = list(parse_all(TokenReader(buf)))
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_ = list(visit_all(add_name_map, objects))
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render, out = generate.renderer()
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for i in gen(objects):
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print("line", i)
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render(gen(objects))
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print(out.getvalue())
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@ -7,15 +7,16 @@ def should_autonewline(line):
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and (len(line.split()) < 2 or line.split()[1] != '=') # hacky; meh
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)
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def _render(out, lines):
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def _render(out, lines, level=0):
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indent = " "
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level = 0
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for l in lines:
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if l and (l[0] == "}" or l[0] == ")"):
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level -= 2
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assert level >= 0, out.getvalue()
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if len(l) == 0:
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if type(l) is tuple:
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line_fifo.append(l)
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elif len(l) == 0:
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out.write("\n")
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else:
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out.write(indent * level + l + "\n")
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28
x/x.hpp
28
x/x.hpp
@ -1,7 +1,7 @@
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/* primitives */
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struct mesh_face {
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int nfacevertexindices;
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int facevertexindices[];
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//int n_face_vertex_indices;
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int face_vertex_indices[3];
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};
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struct float_keys {
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@ -42,11 +42,11 @@ struct header {
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struct material {
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enum tag tag;
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vec4 facecolor;
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vec4 face_color;
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float power;
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vec3 specularcolor;
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vec3 emissivecolor;
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struct data_object * objects[];
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vec3 specular_color;
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vec3 emissive_color;
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const data_object * objects[];
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};
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struct texture_filename {
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@ -56,21 +56,21 @@ struct texture_filename {
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struct frame {
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enum tag tag;
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struct data_object * objects[];
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const data_object * objects[];
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};
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struct frame_transform_matrix {
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enum tag tag;
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mat4x4 framematrix;
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mat4x4 frame_matrix;
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};
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struct mesh {
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enum tag tag;
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int nvertices;
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int n_vertices;
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vec3 * vertices;
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int nfaces;
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int n_faces;
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struct mesh_face * faces;
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struct data_object * objects[];
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const data_object * objects[];
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};
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struct mesh_material_list {
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@ -78,7 +78,7 @@ struct mesh_material_list {
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int n_materials;
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int n_face_indices;
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int * face_indices;
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struct data_object * objects[];
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const data_object * objects[];
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};
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struct mesh_normals {
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@ -110,12 +110,12 @@ struct animation_options {
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struct animation {
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enum tag tag;
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struct data_object * objects[];
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const data_object * objects[];
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};
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struct animation_set {
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enum tag tag;
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struct data_object * objects[];
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const data_object * objects[];
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};
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struct data_object {
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