Esempio n. 1
0
def dump_tree(root_node):

    for pre, _, node in RenderTree(root_node, style=AsciiStyle()):
        print("%s%s" % (pre,
                        (str(node.name.id) + "-" + str(node.name.status))))

    pass
Esempio n. 2
0
def print_tree(tree):
    for pre, fill, node in RenderTree(tree, style=AsciiStyle()):
        print("{0}{1} [{2}]".format(pre, node.label, node.module))
        if node.params != '':
            kwargs = split_params(node.params)
            for k,v in kwargs.items():
                print("{0}{1}: {2}".format(fill, k, v))
            print("{0}".format(fill))
Esempio n. 3
0
def highlight_node(name, node, color='red'):
    for pre, fill, node in RenderTree(node, style=AsciiStyle()):
        if name in node.name:
            start = node.name.find(name)
            end = start + len(name)
            print pre + node.name[:start] + bcolors.RED + node.name[start:end] + bcolors.ENDC + node.name[end:]
        else:
            print("%s%s" % (pre, node.name))
Esempio n. 4
0
 def __init__(self, train_data, train_target):
     """put the data in the model"""
     self._train_data = train_data
     self._train_target = train_target
     self._target_feature = train_target.to_frame().columns[0]
     classes = []
     self._tree = self._make_ID3_tree(self._train_data, self._train_target,
                                      None, "root")
     print RenderTree(self._tree, style=AsciiStyle())
Esempio n. 5
0
def startt():
    start.destroy()
    print("SON OF MANARCHY")
    print("type 'help' for help\n")
    print(RenderTree(wake_up, style=AsciiStyle()).by_attr())
    user.node = suspicious.name
    #    print(wake_up.statement)
    #   print(all_items, all_characters)

    prompt_command()
Esempio n. 6
0
def pretty_ast(ast: Node) -> str:
    """Create a nice string representation of an AST.

    Parameters
    ----------
    ast: Node
        Tree to be pretty printed.

    Returns
    -------
    pretty_tree: str
        Prettified tree ready to print.

    """
    try:
        ast.full_name
        return RenderTree(ast, style=AsciiStyle()).by_attr('full_name')
    except AttributeError:
        return RenderTree(ast, style=AsciiStyle()).by_attr('name')
Esempio n. 7
0
 def tree(self, sents, lang='en', engine='stanza'):
     """
     $ python -m sagas.nlu.anal tree 'Nosotros estamos en la escuela.' es stanza
     :param sents:
     :param lang:
     :param engine:
     :return:
     """
     tree_root = build_anal_tree(sents, lang, engine)
     print(
         RenderTree(tree_root, style=AsciiStyle()).by_attr(
             lambda n:
             f"{n.dependency_relation}: {n.text} ({n.upos.lower()})"))
Esempio n. 8
0
    def print_tree_tab_structure(self, notes=""):
        """A debugging function for logging state of the tree tabs"""
        with open("qutebrowser_treetab.log", 'a') as f:

            f.write("%s" % notes)

            cur_tab = self.tabBar()._current_tab()

            for pre, _, node in RenderTree(self.tree_root, style=AsciiStyle()):
                name = node.name.tab_id if node.name else 'ROOT'
                curr = '*' if cur_tab and cur_tab.node == node else ''

                f.write("%s%s%s\n" % (pre, name, curr))

            f.write("\n")
Esempio n. 9
0
def render_tree(tree_root, max_depth, tree_ascii=False):
    style = AsciiStyle() if tree_ascii else ContStyle()
    output = []
    for child in tree_root.children:
        lines = []
        for fill, _, node in RenderTree(child, style=style):
            if max_depth and node.depth > max_depth:
                continue
            lines.append(u"{}{} ({}{})".format(
                fill,
                node.pip_string,
                node.version,
                ", cyclic" if hasattr(node, "cyclic") else "",
            ))
        output += lines
    return "\n".join(output)
Esempio n. 10
0
def print_bookmark_tree(root: Node):
    '''
    Print a nested bookmark tree from a root tree `Node`, folders first
    bookmark with urls second.
    '''

    for pre, _, node in RenderTree(root, style=AsciiStyle()):
        if node.node_type == Folder:
            required = ('folder_name', )
            args = [getattr(node, key) for key in required]
            args[0] = f'[F] {node.id}\t{args[0]}'

        elif node.node_type == Bookmark:
            required = ('title', 'url')
            args = [getattr(node, key) for key in required]
            args[0] = f'[B] {node.id}\t{args[0]}'

        print(f'{pre}{" ".join(args)}')
Esempio n. 11
0
def main(logger_, cache_dir, start_month, output_dir, refresh=True):
    global logger
    logger = logger_

    ensure_directory(cache_dir)

    mbox_paths = mboxes_download(cache_dir, start_month, refresh)
    root, lookup, releases = mboxes_process(mbox_paths)
    discussions = discussions_find(root, lookup, releases)
    discussions = discussions_reduce(discussions)
    export = discussions_export(lookup, releases, discussions)

    ensure_directory(output_dir)
    with open(path.join(output_dir, 'mail.yaml'), 'w') as outfile:
        yaml.safe_dump(export, outfile)

    if logger.isEnabledFor(logging.DEBUG):
        from anytree import RenderTree, AsciiStyle
        print(RenderTree(root, style=AsciiStyle()).by_attr())

    discussion_print(export)
Esempio n. 12
0
    def draw(self, translate=False):
        """
        >>> from sagas.nlu.anal import build_anal_tree, Doc, AnalNode
        >>> f=build_anal_tree('Η σαλάτα μου έχει τομάτα.', 'el', 'stanza')
        >>> f.draw(True)
        :param translate:
        :return:
        """
        def additional(n):
            addons = [str(n.index), n.lemma]
            if n.upos == 'VERB':
                if n.personal_pronoun_repr:
                    addons.append(n.personal_pronoun_repr)
            if n.dependency_relation != 'punct':
                if translate:
                    from sagas.nlu.translator import get_contrast
                    addons.append(get_contrast(n.text, n.lang))
            return '; '.join(addons)

        print(
            RenderTree(self, style=AsciiStyle()).by_attr(
                lambda n: f"{n.dependency_relation}: {n.text} "
                f"({additional(n)}, {n.upos.lower()})"))
Esempio n. 13
0
def create_tree(lines_str):
    lines = lines_str.split("\n")
    previous_sign_index = 0
    parent_node = Node(lines[0])
    reference_node = parent_node
    for i in range(1, len(lines)):
        line = lines[i]
        level = 0
        if sign1 in line:
            sign1_index = line.index(sign1) + 3
            level = (sign1_index - previous_sign_index) / eachLevelDistance
            previous_sign_index = sign1_index
            line = line[sign1_index:len(line)]
        elif sign2 in line:
            sign2_index = line.index(sign2) + 3
            level = (sign2_index - previous_sign_index) / eachLevelDistance
            previous_sign_index = sign2_index
            line = line[sign2_index:len(line)]

        reference_node = add_to_tree(reference_node, line, level)

    logging.debug("----DependencyTree-----\n" + RenderTree(parent_node, style=AsciiStyle()).by_attr())
    return parent_node
Esempio n. 14
0
def digest_verb(sents, lang, engine='stanza'):
    f = build_anal_tree(sents, lang, engine)
    words = findall_by_attr(f, name='upos', value='VERB')
    if words:
        print(sents, len(words))
        rs = []
        for w in words:
            rs.append(proc_verb_subs(w))

        def proc_text(t):
            if lang in ('ko'):
                return get_contrast(t, lang)
            return t

        succ = any(rs)
        cl = 'blue' if succ else 'white'
        tc.emp(
            cl,
            RenderTree(f, style=AsciiStyle()).by_attr(
                lambda n:
                f"{n.dependency_relation}: {proc_text(n.text)} {n.upos}"))
        return succ
    return False
Esempio n. 15
0
def main():
    print()
    aux = argv[1].split(".")
    if aux[-1] != "tpp":
        raise IOError("Not a .tpp file!")
    data = open(argv[1])

    source_file = data.read()
    parser.parse(source_file)

    try:
        if root and root.children != ():
            print("\n-------------OK--------------")
            print("Generating Syntax Tree Graph...")
            DotExporter(root).to_picture(argv[1] + ".ast.png")
            UniqueDotExporter(root).to_picture(argv[1] + ".unique.ast.png")
            DotExporter(root).to_dotfile(argv[1] + ".ast.dot")
            UniqueDotExporter(root).to_dotfile(argv[1] + ".unique.ast.dot")
            print(RenderTree(root, style=AsciiStyle()).by_attr())
            print("Graph was generated.\nOutput file: " + argv[1] + ".ast.png")

            DotExporter(
                root,
                graph="graph",
                nodenamefunc=MyNode.nodenamefunc,
                nodeattrfunc=lambda node: "label=%s" % (node.type),
                edgeattrfunc=MyNode.edgeattrfunc,
                edgetypefunc=MyNode.edgetypefunc,
            ).to_picture(argv[1] + ".ast2.png")

            DotExporter(root, nodenamefunc=lambda node: node.label).to_picture(
                argv[1] + ".ast3.png"
            )

    except NameError:
        print("Não foi possível gerar a árvore sintática.")
    print("\n\n")
Esempio n. 16
0
def main():
    groupObj = PairingGroup('SS512')
    cpabe = IDABE.IDABE(groupObj)
    gpfile = "global.param"
    cpabe.setupGP(gpfile)
    ta_conf = cpabe.read_attr_dict("TAs.config")
    print("TA configurations: ", ta_conf)
    TAset = ta_conf['TAs']
    ta_msk_filenames = ta_conf['TAmsk']
    ta_pk_filenames = ta_conf['TApubs']

    # org tree structure
    root = Node("org1")
    org2 = Node("org2", parent=root)
    org3 = Node("org3", parent=root)
    org4 = Node("org4", parent=root)
    org5 = Node("org5", parent=org2)
    org6 = Node("org6", parent=org2)
    print("Organization Tree Structure\n")
    print(Fore.BLUE + RenderTree(root, style=AsciiStyle()).by_attr())
    print(Style.RESET_ALL)

    # each TA first generate their own public key and msk key
    for ta in TAset:
        cpabe.ta_setup_tree(ta_pk_filenames[ta], ta_msk_filenames[ta], root)

    # this simulates how multiple TAs generate the fe
    for i in range(1, len(TAset)):
        ta_first = "ta" + str(i)
        ta_second = "ta" + str(i + 1)
        cpabe.federated_setup1(ta_pk_filenames[ta_first],
                               ta_pk_filenames[ta_second],
                               ta_msk_filenames[ta_second], root)

    command = "cp {} {}".format(ta_pk_filenames[TAset[-1]], "pk.param")
    print("command is ", command)
    os.system(command)
Esempio n. 17
0
 def print_tree(self):
     """Prints table as it is stored in tree. Relevant for rowspan/colspan only"""
     if self.table_tree:
         for pre, _, node in RenderTree(self.table_tree, style=AsciiStyle()):
             print(pre, node.name, node.position, node.obj)
Esempio n. 18
0
    while True:
        if current_node.is_root and len(current_node.children) > 0:
            current_node = current_node.children[0]
        else:
            if current_node.is_leaf:
                return current_node
            elif len(current_node.children) > 0:
                current_node = current_node.children[0]


if __name__ == '__main__':


    l = [0, 1, 2, 99.0, 118.0, 200.315, 75, 64, 22]
    print(find_max_cpu_util(l))



    # Example of a Binary Search Tree
    root = Node(99.0)

    root_rc = Node(99.5, parent=root)
    root_lc = Node(1, parent=root)

    rrc_rc = Node(100, parent=root_rc)
    rrc_rc_rc = Node(101, parent=rrc_rc)

    print(RenderTree(root, style=AsciiStyle()).by_attr())

    print(find_max_cpu_util_tree(root))
Esempio n. 19
0
 def __repr__(self):
     return str(RenderTree(self.root, style=AsciiStyle()))
Esempio n. 20
0
        orbiterNode = find_by_attr(ERRANDS, orbiter)
        if orbiterNode is not None:
            orbiterNode.parent = centerNode
        else:
            orbiterNode = Node(orbiter, parent=centerNode)

    return COM


def verifymap(orbitmap):
    """Verifies an orbitmap, returns the checksum
    >>> verifymap(readmap("COM)B\\nB)C\\nC)D\\nD)E\\nE)F\\nB)G\\nG)H\\nD)I\\nE)J\\nJ)K\\nK)L"))
    42
    """
    count = 0
    orbiters = findall(orbitmap, filter_=lambda node: node.name != "COM")
    for orbiter in orbiters:
        count += orbiter.depth

    return count


if __name__ == "__main__":
    with open("data") as data:
        orbitmap = data.readlines()
    orbitmap = readmap(orbitmap)
    print(RenderTree(orbitmap, style=AsciiStyle()).by_attr())
    checksum = verifymap(orbitmap)
    print("Checksum is: %d" % checksum)
Esempio n. 21
0
def render_beautify_tree(tree, ofd):
    tree = beautify_tree(tree)
    for pre, _, node in RenderTree(tree, style=AsciiStyle()):
        print_writeofd("%s%s" % (pre, node.name), ofd)
Esempio n. 22
0
 def ascii_art(self):
     print(RenderTree(self.root, style=AsciiStyle()))
Esempio n. 23
0
def renderTreeToFile(filename, tree):
    f = open(filename + "_out.txt", "w")
    for pre, _, node in RenderTree(tree, style=AsciiStyle()):
        f.write("%s%s\r" % (pre, node.name))
Esempio n. 24
0
 def render_tree(self):
     """Print tree structure."""
     print(RenderTree(self.root, style=AsciiStyle()).by_attr())
     return self
Esempio n. 25
0

def prune_taxtree():
    for node in PreOrderIter(taxtree,
                             filter_=lambda n: rankmap.get(n.name) == 'genus'
                             and len(n.children) > 0):
        node.children = []


#    for node in PreOrderIter(taxtree,
#            filter_=lambda n: len(n.children) == 0
#            and rankmap.get(n.name) != 'genus'):

fill_rankmap()
prune_taxtree()
t = RenderTree(taxtree, style=AsciiStyle()).by_attr()
hdl = open('taxtree.txt', 'w')
hdl.write(t + '\n')

print('Writing taxid db')
count = -1
m = {}
tfile = open('trainset_db_taxid.txt', 'w')
rankmap['Root'] = 'rootrank'
for node in PreOrderIter(taxtree):
    count = count + 1
    m[node.name] = count
    if count == 0:
        parentno = -1
    else:
        parentno = m.get(node.parent.name)
Esempio n. 26
0
# reference: https://stackoverflow.com/questions/2358045/how-can-i-implement-a-tree-in-python
# http://pydoc.net/anytree/2.4.3/anytree.node.nodemixin/

# reference: https://anytree.readthedocs.io/en/latest/

from anytree import Node, RenderTree, Walker
from anytree import Node, RenderTree, AsciiStyle

layer1 = Node(44)
layer2_1 = Node(6, parent=layer1)
layer2_2 = Node(9, parent=layer1)
layer3_1 = Node(34, parent=layer2_2)
layer3_2 = Node(5, parent=layer2_1)
layer3_3 = Node(4, parent=layer2_1)

print('\nShowing the entire tree:')
for pre, fill, node in RenderTree(layer1):
    print("%s%s" % (pre, node.name))
print('\n')

w = Walker()

print('\nWalking the tree, layers3_2, and layers3_3:')
print(w.walk(layer3_2, layer3_3))
print('\n')

print('Showing the tree AsciiStyle:')
print(RenderTree(layer1, style=AsciiStyle()))
print('\n')

# reference: https://anytree.readthedocs.io/en/latest/
Esempio n. 27
0
                beliefsTree.append(AxiomNode('belief'+str(nCandidate), beliefLeaf, parent = beliefsTree[nParents], axiom = candLeaf))
                    # retreiving the branch containing the explanation
                explanation = [i.name for i in list(beliefsTree[-1].path)] # for the path fram leaf to root
                break
            else:
                nCandidate += 1
                candNode = []
                beliefNode = []
                for candidate in candidatePair: 
                    candNode.append(candidate[1]) 
                    if candidate[0]:
                        beliefNode.append(candidate[0][0])
                beliefsTree.append(AxiomNode('belief'+str(nCandidate), beliefNode, parent = beliefsTree[nParents], axiom = candNode)) 
                extendedBeliefs.append(beliefNode)
        if stop:
            break
    beliefs = extendedBeliefs
 
    if not beliefs:
        stop = 1           
    nParents += 1
    
print (RenderTree(beliefsTree[0], style=AsciiStyle()).by_attr())
 
for beliefs in beliefsTree:  
    print beliefs.name+' : '
    print beliefs.belief 
    print beliefs.axiom
Esempio n. 28
0
def print_tree(structures_tree, root_node_idx=0):
    from anytree import RenderTree, AsciiStyle

    root_node = structures_tree[root_node_idx]
    print(RenderTree(root_node, style=AsciiStyle()))
Esempio n. 29
0
        else:
            error()
        check_point(FACTOR[1], followset=FACTOR[0], patron_follow=ID_NUM)
    return temp


# PROGRAMA PRINCIPAL
actualizar_token()
raiz = programa()

if not os.path.exists(directorio_sintactico):
    os.makedirs(directorio_sintactico)

with open(directorio_sintactico + os.path.sep + ARBOL_TXT,
          "w") as archivo_arbol:
    archivo_arbol.write(str(RenderTree(raiz, style=AsciiStyle())))

if os.name == 'posix':
    RenderTreeGraph(raiz, nodeattrfunc=lambda node: "shape = box").to_picture(
        directorio_sintactico + os.path.sep + ARBOL_PNG)
elif os.name == 'nt':
    RenderTreeGraph(raiz, nodeattrfunc=lambda node: "shape = box").to_dotfile(
        directorio_sintactico + os.path.sep + ARBOL_DOT)
    comando = "dot " + directorio_sintactico + os.path.sep + ARBOL_DOT + " -T png -o " + directorio_sintactico + os.path.sep + ARBOL_PNG
    startupinfo = subprocess.STARTUPINFO()
    startupinfo.dwFlags |= subprocess.STARTF_USESHOWWINDOW
    subprocess.call(comando, startupinfo=startupinfo)

with open(directorio_sintactico + os.path.sep + "errores_sintacticos.txt",
          "w") as archivo_errores_sintacticos:
    for error in errores:
Esempio n. 30
0
 def draw_tree(self, tree):
     for prefix, _, node in RenderTree(tree, style=AsciiStyle()):
         print("%s%s" % (prefix.replace('+', '`'), node.name))