def test_new_node(self): clean_dir("test/tmp/notebook_new_node") shutil.copytree("test/data/notebook-v6", "test/tmp/notebook_new_node") book = notebook.NoteBook() book.load("test/tmp/notebook_new_node") for n in book.index_all(): pass start = time.time() n = book.get_node_by_id("76363514-ac2c-4090-a348-58aa1721db68") print n for i in range(100): print i notebook.new_page(n, str(i)) t = time.time() - start print "seconds: ", t book.close()
def test_new_node(self): clean_dir("test/tmp/notebook_new_node") shutil.copytree("test/data/notebook-v6", "test/tmp/notebook_new_node") book = notebook.NoteBook() book.load("test/tmp/notebook_new_node") for n in book.index_all(): pass start = time.time() n = book.get_node_by_id("76363514-ac2c-4090-a348-58aa1721db68") print(n) for i in range(100): print(i) notebook.new_page(n, str(i)) t = time.time() - start print("seconds: ", t) book.close()
def test_notebook_move_deja_vu(self): """Move a unicode titled node.""" book = notebook.NoteBook() book.load(_notebook_file) deja = notebook.new_page(book, u'Déjà vu again') nodex = book.get_node_by_id(self._pagex_nodeid) deja.move(nodex) # clean up. deja.delete() book.close()
def setUpClass(cls): # Create a simple notebook to test against. clean_dir(_notebook_file) cls._notebook = book = notebook.NoteBook() book.create(_notebook_file) # create simple nodes page1 = notebook.new_page(book, 'Page 1') pagea = notebook.new_page(page1, 'Page A') write_content(pagea, 'hello world') pageb = notebook.new_page(page1, 'Page B') write_content(pageb, 'why hello, what is new?') pagec = notebook.new_page(page1, 'Page C') write_content(pagec, 'brand new world') pagex = notebook.new_page(pageb, 'Page X') cls._pagex_nodeid = pagex.get_attr('nodeid') notebook.new_page(book, 'Page 2') notebook.new_page(book, 'Page 3') book.close()
def new_node(self, kind, pos, parent=None): if parent is None: parent = self._notebook if pos == "sibling" and parent.get_parent() is not None: index = parent.get_attr("order") + 1 parent = parent.get_parent() else: index = None if kind == notebooklib.CONTENT_TYPE_DIR: node = parent.new_child(notebooklib.CONTENT_TYPE_DIR, notebooklib.DEFAULT_DIR_NAME, index) else: node = notebooklib.new_page( parent, title=notebooklib.DEFAULT_PAGE_NAME, index=index) return node
def new_node(self, kind, pos, parent=None): if parent is None: parent = self._notebook if pos == "sibling" and parent.get_parent() is not None: index = parent.get_attr("order") + 1 parent = parent.get_parent() else: index = None if kind == notebooklib.CONTENT_TYPE_DIR: node = parent.new_child(notebooklib.CONTENT_TYPE_DIR, notebooklib.DEFAULT_DIR_NAME, index) else: node = notebooklib.new_page(parent, title=notebooklib.DEFAULT_PAGE_NAME, index=index) return node
def test_create_unicode_node(self): """Create a node with a unicode title.""" book = notebook.NoteBook() book.load(_notebook_file) notebook.new_page(book, u'Déjà vu') book.close()
def make_notebook(node, children): for child in children: name = child[0] node2 = notebook.new_page(node, name) make_notebook(node2, child[1:])
def _test_notebook(self, conn, filename): # initialize a notebook book1 = notebook.NoteBook() book1.create(filename, conn) book1.set_attr("title", "root") # populate book for i in range(5): node = notebook.new_page(book1, "a%d" % i) for j in range(2): notebook.new_page(node, "b%d-%d" % (i, j)) expected = """\ root a0 b0-0 b0-1 a1 b1-0 b1-1 a2 b2-0 b2-1 a3 b3-0 b3-1 a4 b4-0 b4-1 Trash """ # assert structure is correct. out = StringIO() display_notebook(book1, out=out) self.assertEqual(out.getvalue(), expected) # edit book nodeid = book1.search_node_titles("a1")[0][0] node1 = book1.get_node_by_id(nodeid) nodeid = book1.search_node_titles("b3-0")[0][0] node2 = book1.get_node_by_id(nodeid) node1.move(node2) expected = """\ root a0 b0-0 b0-1 a2 b2-0 b2-1 a3 b3-0 a1 b1-0 b1-1 b3-1 a4 b4-0 b4-1 Trash """ # Assert new structure. out = StringIO() display_notebook(book1, out=out) self.assertEqual(out.getvalue(), expected) # Assert that file contents are provided. self.assertEqual(node1.open_file("page.html").read(), notebook.BLANK_NOTE)
def _test_notebook(self, conn, filename): # initialize a notebook book1 = notebook.NoteBook() book1.create(filename, conn) book1.set_attr("title", "root") # populate book for i in range(5): node = notebook.new_page(book1, "a%d" % i) for j in range(2): notebook.new_page(node, "b%d-%d" % (i, j)) expected = """\ root a0 b0-0 b0-1 a1 b1-0 b1-1 a2 b2-0 b2-1 a3 b3-0 b3-1 a4 b4-0 b4-1 Trash """ # assert structure is correct. out = StringIO() display_notebook(book1, out=out) self.assertEqual(out.getvalue(), expected) # edit book nodeid = book1.search_node_titles("a1")[0][0] node1 = book1.get_node_by_id(nodeid) nodeid = book1.search_node_titles("b3-0")[0][0] node2 = book1.get_node_by_id(nodeid) node1.move(node2) expected = """\ root a0 b0-0 b0-1 a2 b2-0 b2-1 a3 b3-0 a1 b1-0 b1-1 b3-1 a4 b4-0 b4-1 Trash """ # Assert new structure. out = StringIO() display_notebook(book1, out=out) self.assertEqual(out.getvalue(), expected) # Assert that file contents are provided. self.assertEqual( node1.open_file("page.html").read(), notebook.BLANK_NOTE)