Exemplo n.º 1
0
def build_namespace_tree(pagesdir: str, exclude_templates: bool = True) -> Namespace:
    """
    Walk the pagesdir and build a tree representing the structures of the wiki.
    The nodes are Namepspace objects, which contain a list of pages.
    Returns the root node of the tree, i.e. the root namespace.
    """
    r = Resolver('name')
    rootns = Namespace(name='pages', parent=None)

    for root, dirs, files in os.walk(pagesdir):
        relpath = os.path.relpath(root, pagesdir)

        if relpath == '.':
            basens = rootns
            relpath = ''
        else:
            basens = r.get(rootns, relpath)

        for directory in dirs:
            Namespace(name=directory, parent=basens)

        basens.pages = []
        for file in files:
            page_name = os.path.splitext(file)[0]
            page_file_path = os.path.join(relpath, file)
            if exclude_templates and is_template(page_name):
                print("{} is template".format(page_name))
            else:
                basens.pages.append((page_name, page_file_path))

    return rootns
Exemplo n.º 2
0
 def __init__(self, base, name):
     d = cs.index[name]
     self.d = d
     self.res = Resolver('name')
     self.base = base
     self.class_dict = {}
     self.k = {}
     self.root = thing(base)
     self.build()
Exemplo n.º 3
0
    def __init__(self, base, name, prefix="cache", export="model"):
        self.name = name
        self.d = cs.index.copy()
        self.res = Resolver("name")
        self.base = base
        self.class_dict = {}
        self.k = {}
        self.export_path = export
        self.export_prefix = prefix
        self.root = thing(base)
        self.build_tree(name, self.root)
        self.build_tree("showcase", self.root)
        self.build_other()

        self.alter_build(name)
        self.store = db.Store(prefix=prefix)
Exemplo n.º 4
0
 def __init__(self, filename, nlu: NLUHandler, resp: ResponseHandler):
     super().__init__(filename)
     self.filename = filename
     self.tree = BaseNode(BaseItem(name="root"))
     self.nlu = nlu
     self.resp = resp
     self.resolver = Resolver("name")
Exemplo n.º 5
0
def validatePath(ctx, param, prompted_path):

    if prompted_path is None:
        return None

    hierarchy = prompted_path.split("/")

    topnode = ctx.obj.rc.topnode

    r = Resolver('name')
    try:
        node = r.get(topnode, prompted_path)
    except Exception as ex:
        raise click.BadParameter(
            f"Couldn't find {prompted_path} in the tree") from ex

    return hierarchy
Exemplo n.º 6
0
class Directory:
    def __init__(self, base, name, prefix="cache", export="model"):
        self.name = name
        self.d = cs.index.copy()
        self.res = Resolver("name")
        self.base = base
        self.class_dict = {}
        self.k = {}
        self.export_path = export
        self.export_prefix = prefix
        self.root = thing(base)
        self.build_tree(name, self.root)
        self.build_tree("showcase", self.root)
        self.build_other()

        self.alter_build(name)
        self.store = db.Store(prefix=prefix)

    def alter_build(self, name):
        reg = cs.index.copy()
        s = reg[name]
        keys = s.keys()
        for i in keys:
            sub = s[i].copy()
            print(i, sub)

    def build_other(self):
        p = thing("lib", parent=self.root)
        k = list(self.d.keys())
        for i in k:
            self.build_tree(i, p)

    def build_tree(self, name, root):
        print(name, root)
        if name not in self.d:
            return
        p = thing(name, parent=root)
        tr = self.d.pop(name)
        for j in tr:
            b = thing(j, parent=p)
            for k in tr[j]:
                cn = type(k()).__module__ + "." + k.__name__
                t = thing(k.__name__,
                          parent=b,
                          c=k,
                          classname=cn,
                          doc=k.__doc__)
                self.class_dict[cn] = t
                self.k[p.get_path() + "/" + j + "/" + k.__name__] = t

    def get_path(self, path):
        r = self.res.get(self.root, path)
        return r

    def get_name(self, name):
        n = findall_by_attr(self.root, name)
        return n[0]

    def exists(self, key):
        if "/" + key in self.k:
            return True
        return False

    def prefix(self, key):
        v = self.res.get(self.root, "/" + key)
        data = {}
        if v.parent != None:
            data["parent"] = v.parent.get_path()
        l = []
        for i in v.children:
            if i.loaded == False:
                self.store.fetch(i)
            l.append(i.dir())
        data["list"] = l
        data["leaf"] = False
        data["name"] = v.name
        data["path"] = v.get_path()
        return data

    def build_part(self, params):
        key = params.pop("classname", None)
        if key in self.class_dict:
            fixes = {}
            for i in params:
                try:
                    fixes[i] = float(params[i])
                except:
                    pass
            item = self.class_dict[key]
            item.params.update(fixes)
            item.rendered = False
            self.export(item)
            self.store.upsert(item)

    def export(self, t):
        folder_name = self.export_prefix + "/" + self.export_path + "/" + t.name
        try:
            os.removedirs(folder_name)
        except:
            pass
        try:
            os.makedirs(folder_name)
        except:
            pass
        # create the object
        o = t.c(**t.params)
        gltf_path = folder_name + "/out.gltf"
        r = o.exporter("gltf")
        # build the gltf
        v = r(gltf_path)
        view = [r.scene_min, r.scene_max]
        t.view = views.placed(view)
        t.gltf_path = "/" + self.export_prefix + "/" + self.export_path + "/" + t.name

    def set_image(self, imgname):
        name = imgname.split(".")[0]
        t = self.get_name(name)
        if t is not None:
            path = os.sep + self.export_prefix + os.sep + "img" + os.sep
            t.image_path = path + imgname
            t.pending = False
            t.rendered = True
            self.store.upsert(t)

    def fetch(self, t):
        self.store.fetch(t)
        # due to multiple export paths (for dumping)
        # this is set by itself
        t.gltf_path = "/" + self.export_prefix + "/" + self.export_path + "/" + t.name

    def params(self, key):
        if self.exists(key) == False:
            print(str(key) + "keyfail")
            print(self.k.keys())
        t = self.k["/" + key]
        d = {}
        if t.loaded == False:
            self.fetch(t)
        if t.built == False:
            inst = t.c()
            pi = inst.params().items()
            for i in pi:
                # only grab the floats for now
                if isinstance(i[1], float):
                    d[i[0]] = i[1]
                if isinstance(i[1], int):
                    d[i[0]] = i[1]
            t.params = d
            self.export(t)
            t.built = True
            t.rendered = False
            self.store.upsert(t)
        info = t.info()
        return info

    def get_zipped(self, t):
        r = self.export_prefix + os.sep + self.export_path + os.sep + t.name + os.sep
        export_folder = self.export_prefix + os.sep + "zip"
        zip_file = export_folder + os.sep + t.name + ".zip"
        f = os.listdir(r)
        try:
            os.makedirs(export_folder)
        except:
            pass
        z = zipfile.ZipFile(zip_file, "w")
        for i in f:
            z.write(r + i, t.name + os.sep + i)
        z.close()
        return zip_file

    def treeiter(self, key):
        nodes = []
        item = self.get_path(key)
        for node in PreOrderIter(item):
            if node.loaded == False:
                self.fetch(node)
            nodes.append(node)
        return nodes

    def rerender(self):
        j = self.treeiter('export')
        for i in j:
            if i.is_leaf:
                i.rendered = False

    def stats(self):
        j = self.treeiter('export')
        counter = 0
        build_counter = 0
        render_count = 0
        for i in j:
            if i.is_leaf:
                counter = counter + 1
                if i.built:
                    build_counter = build_counter + 1
                if i.rendered:
                    render_count = render_count + 1
        return {
            "total": counter,
            "built": build_counter,
            "rendered": render_count
        }
Exemplo n.º 7
0
            except ValueError:
                link = match
                src = ''
            links.append((link, src))
        return links

    def getmedia(self):
        return re_embeddedmedia.findall(self.src)


# Build tree

# In[84]:


r = Resolver('name')

rootns = Namespace(name='pages', parent=None)
for root, dirs, files in os.walk(pagesdir):
    relpath = os.path.relpath(root, pagesdir)

    if relpath == '.':
        basens = rootns
    else:
        basens = r.get(rootns, relpath)

    for directory in dirs:
        ns = Namespace(name=directory, parent=basens)

    basens.pages = []
    for file in files:
Exemplo n.º 8
0
    def _init_trees(self, height, limit):
        if self.methods is None:
            self._init_methods(limit)
        if not self.methods:
            return

        root = Node('root')
        r = Resolver(pathattr='name')

        def find_node(path):
            """查找节点

            Args:
                root (TYPE): Description
                path (TYPE): Description

            Returns:
                TYPE: Description
            """
            try:
                return r.glob(root, path)[0]
            except Exception:
                return None

        def to_nodes(mtd):
            """把一个方法,转化成节点

            Args:
                root (TYPE): 根节点
                mtd (TYPE): Description

            Returns:
                TYPE: Node
            """
            current = root
            node_path = '/root'
            for item in mtd.split('/'):
                node_path = node_path + '/' + item
                tnode = find_node(node_path)
                if tnode:
                    current = tnode
                else:
                    current = Node(item, parent=current)

        count = 0
        # TODO  节点插入的顺序,决定了树的遍历顺序,及其计算结果
        # 假设2个结构一样,但是,因为名字顺序不一样,导致插入顺序不一致
        # 有可能导致一样的结构不一样的结果。
        for mtd in self.methods:
            count += 1
            to_nodes(mtd)

        def serialize_node(root_node):
            snum = ''
            for pre, _, node in RenderTree(root_node):
                snum = snum + str(node.height)
            return snum

        self.trees = {}
        for pre, _, node in RenderTree(root):
            if node.height > height:
                key = hash.hash(serialize_node(node), 'md5')
                if key in self.trees:
                    self.trees[key].append(node)
                else:
                    self.trees[key] = [node]
Exemplo n.º 9
0
class directory():
    def __init__(self, base, name):
        d = cs.index[name]
        self.d = d
        self.res = Resolver('name')
        self.base = base
        self.class_dict = {}
        self.k = {}
        self.root = thing(base)
        self.build()

    def build(self):
        for i in cs.index.keys():
            p = thing(i, parent=self.root)
            for j in cs.index[i]:
                b = thing(j, parent=p)
                for k in cs.index[i][j]:
                    cn = type(k()).__module__ + '.' + k.__name__
                    t = thing(k.__name__, parent=b, c=k, classname=cn)
                    self.class_dict[cn] = t
                    self.k[self.base + '/' + i + '/' + j + '/' +
                           k.__name__] = t

    def children(self, path):
        r = self.res.get(self.root, path)
        print r

    def exists(self, key):
        if key in self.k:
            return True
        return False

    def prefix(self, key):
        v = self.res.get(self.root, '/' + key)
        return v.dir()

    def build_part(self, params):
        key = params.pop('classname', None)
        if key in self.class_dict:
            fixes = {}
            for i in params:
                try:
                    fixes[i] = float(params[i])
                except:
                    pass
            item = self.class_dict[key]
            o = item.c(**fixes)
            display(o)

    def params(self, key):
        if self.exists(key) == False:
            abort(404)
        t = self.k[key]
        if t.built == False:
            t.inst = t.c()
            display(t.inst)
            t.built = True
        d = {}
        pi = t.inst.params().items()
        for i in pi:
            # only grab the floats for now
            if isinstance(i[1], float):
                d[i] = i[1]
            if isinstance(i[1], int):
                d[i] = i[1]
        info = t.info()
        info['params'] = d
        #if isinstance(t.inst,cqparts.Assembly):
        #    info['tree'] = t.inst.tree_str()
        return info
Exemplo n.º 10
0
class directory():
    def __init__(self, base, name):
        d = cs.index[name]
        self.name = name
        self.d = d
        self.res = Resolver('name')
        self.base = base
        self.class_dict = {}
        self.k = {}
        self.root = thing(base)
        self.build()

    def build(self):
        p = thing(self.name, parent=self.root)
        for j in self.d:
            b = thing(j, parent=p)
            for k in self.d[j]:
                cn = type(k()).__module__ + '.' + k.__name__
                t = thing(k.__name__,
                          parent=b,
                          c=k,
                          classname=cn,
                          doc=k.__doc__)
                self.class_dict[cn] = t
                self.k[self.base + '/' + self.name + '/' + j + '/' +
                       k.__name__] = t

    def children(self, path):
        r = self.res.get(self.root, path)
        print r

    def exists(self, key):
        if key in self.k:
            return True
        return False

    def prefix(self, key):
        v = self.res.get(self.root, '/' + key)
        return v.dir()

    def build_part(self, params):
        key = params.pop('classname', None)
        if key in self.class_dict:
            fixes = {}
            for i in params:
                try:
                    fixes[i] = float(params[i])
                except:
                    pass
            item = self.class_dict[key]
            item.params.update(fixes)
            self.export(item)

    def export(self, t):
        try:
            os.removedirs('static/cache/' + t.name)
        except:
            pass
        try:
            os.makedirs('static/cache/' + t.name)
        except:
            pass
        o = t.c(**t.params)
        app.logger.error("%s", o)
        o.exporter('gltf')('static/cache/' + t.name + '/out.gltf')
        app.logger.error("export finished")

    def params(self, key):
        if self.exists(key) == False:
            abort(404)
        t = self.k[key]
        d = {}
        if t.built == False:
            inst = t.c()
            pi = inst.params().items()
            for i in pi:
                # only grab the floats for now
                if isinstance(i[1], float):
                    d[i[0]] = i[1]
                if isinstance(i[1], int):
                    d[i[0]] = i[1]
            t.params = d
            self.export(t)
            t.built = True
        info = t.info()
        return info