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main.py
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main.py
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#!/usr/bin/python
# -*- coding: utf-8 -*-
"""
main
~~~~
.. todo:: module level docstring should contain description
:copyright: Copyright (c) 2011-2012 by the liblarch team, see AUTHORS.
:license: LGPLv3 or later, see LICENSE for details.
"""
import os
import uuid
import sys
import re
import logging
import threading
from time import sleep, time
from random import randint, choice, shuffle
from gi.repository import GObject, Gtk
from liblarch import Tree
from liblarch import TreeNode
from liblarch_gtk import TreeView
# Constants
LOAD_MANY_TASKS_COUNT = 1000
ADD_MANY_TASKS_TO_EXISTING_TASKS = True
SLEEP_BETWEEN_TASKS = 0
# Useful for experimenting with the tree
BACKUP_OPERATIONS = False
def random_task_title_on_id(t_id):
try:
return 'Task %5d' % int(t_id)
except ValueError:
return 'Task %5s' % t_id
# Generate title in different ways
random_task_title = random_task_title_on_id
MAX_FILE_ID = 0
def save_backup(fun):
def _save_backup(*args, **kwargs):
global MAX_FILE_ID
self = args[0]
file_name = "operation_%03d.bak" % MAX_FILE_ID
while os.path.exists(file_name):
MAX_FILE_ID += 1
file_name = "operation_%03d.bak" % MAX_FILE_ID
stdout = sys.stdout
stderr = sys.stderr
output = open(file_name, "w", 0)
sys.stdout = output
sys.stderr = output
print("Tree before operation")
self.print_tree()
print
print("Operation '{0}':".format(fun.__name__))
res = fun(*args, **kwargs)
print("Tree after operation")
self.print_tree()
sys.stdout = stdout
sys.stderr = stderr
output.close()
# Print the log
output = open(file_name, "r")
print(output.read())
output.close()
return res
if BACKUP_OPERATIONS:
return _save_backup
else:
return fun
MAX_ID = 0
def random_id():
global MAX_ID
MAX_ID += 1
return str(MAX_ID)
class TaskNode(TreeNode):
def __init__(self, tid, label,viewtree):
TreeNode.__init__(self, tid)
self.label = label
self.tid = tid
self.vt = viewtree
def get_label(self):
return "{0} ({1} children)".format(
self.label,
self.vt.node_n_children(self.tid,recursive=True)
)
class Backend(threading.Thread):
def __init__(self, backend_id, finish_event, delay, tree):
super(Backend, self).__init__()
self.backend_id = backend_id
self.delay = delay
self.tree = tree
self.finish_event = finish_event
def run(self):
counter = 0
parent_id = None
while not self.finish_event.wait(self.delay):
task_id = self.backend_id + "_" + str(counter)
title = task_id
self.tree.add_node(TaskNode(task_id, title), parent_id,self.view_tree)
parent_id = task_id
# Delete some tasks
for i in range(randint(3,10)):
delete_id = str(choice([1,3,5]))+"sec_"+str(randint(0, 2*counter))
print("{0} deleting {1}".format(self.backend_id, delete_id))
self.tree.del_node(delete_id)
counter += 1
print("{0} --- finish".format(self.backend_id))
class LiblarchDemo(object):
"""
Shows a simple GUI demo of liblarch usage
with several functions for adding tasks.
"""
def _build_tree_view(self):
self.tree = Tree()
self.tree.add_filter("even",self.even_filter)
self.tree.add_filter("odd",self.odd_filter)
self.tree.add_filter("flat",self.flat_filter,{"flat": True})
self.tree.add_filter("leaf",self.leaf_filter)
self.view_tree = self.tree.get_viewtree()
self.mod_counter = 0
self.view_tree.register_cllbck('node-added-inview',self._update_title)
self.view_tree.register_cllbck('node-modified-inview',self._modified_count)
self.view_tree.register_cllbck('node-deleted-inview',self._update_title)
desc = {}
col_name = 'label'
col = {}
col['title'] = "Title"
col['value'] = [str, self.task_label_column]
col['expandable'] = True
col['resizable'] = True
col['sorting'] = 'label'
col['order'] = 0
desc[col_name] = col
tree_view = TreeView(self.view_tree, desc)
# Polish TreeView
def on_row_activate(sender,a,b):
print(
"Selected nodes are: {0!s}".format(
tree_view.get_selected_nodes()
)
)
tree_view.set_dnd_name('liblarch-demo/liblarch_widget')
tree_view.set_multiple_selection(True)
tree_view.set_property("enable-tree-lines", True)
tree_view.connect('row-activated', on_row_activate)
return tree_view
def even_filter(self,node):
if node.get_id().isdigit():
return int(node.get_id())%2 == 0
else:
return False
def odd_filter(self, node):
return not self.even_filter(node)
def flat_filter(self, node, parameters=None):
return True
def leaf_filter(self, node):
return not node.has_child()
def _modified_count(self, nid, path):
# print("Node {0} has been modified".format(nid))
self.mod_counter += 1
def _update_title(self,sender,nid):
count = self.view_tree.get_n_nodes()
if count == LOAD_MANY_TASKS_COUNT and self.start_time > 0:
stop_time = time() - self.start_time
print(
"Time to load {0} tasks: {1}".format(
LOAD_MANY_TASKS_COUNT,stop_time
)
)
# if count > 0:
mean = self.mod_counter * 1.0 / count
print(
"{0} modified signals were received ({1} per task)".format(
self.mod_counter, mean
)
)
self.window.set_title('Liblarch demo: %s nodes' %count)
def __init__(self):
self.window = Gtk.Window()
self.window.set_size_request(640, 480)
self.window.set_position(Gtk.WindowPosition.CENTER)
self.window.set_border_width(10)
self.window.set_title('Liblarch demo')
self.window.connect('destroy', self.finish)
self.liblarch_widget = self._build_tree_view()
scrolled_window = Gtk.ScrolledWindow()
scrolled_window.add_with_viewport(self.liblarch_widget)
self.start_time = 0
# Buttons
action_panel = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
action_panel.set_spacing(5)
button_desc = [
('_Add a Task', self.add_task),
('_Delete a Task', self.delete_task),
('_Print Tree', self.print_tree),
('_Print FT', self.print_ft),
('_Load many Tasks', self.many_tasks),
('_Quit', self.finish)
]
for name, callback in button_desc:
button = Gtk.Button(name, use_underline=True)
button.connect('clicked', callback)
action_panel.pack_start(button, expand=True, fill=True, padding=0)
filter_panel= Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
filter_panel.set_spacing(5)
for name in self.tree.list_filters():
button = Gtk.ToggleButton("%s filter"%name)
button.connect('toggled',self.apply_filter,name)
filter_panel.pack_start(button, expand=True, fill=True, padding=0)
# Use cases
usecases_vbox = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
usecase_box = None
usecase_order = 0
usecase_order_max = 3
button_desc = [
('_Tree high 3', self.tree_high_3),
('Tree high 3 backwards', self.tree_high_3_backwards),
('Load from file', self.load_from_file),
('Delete DFXBCAE', self.delete_magic),
('Delete backwards', self.delete_backwards),
('Delete randomly', self.delete_random),
('Change task', self.change_task),
('_Backend use case', self.backends),
]
for name, callback in button_desc:
if usecase_order <= 0:
if usecase_box is not None:
usecases_vbox.pack_start(
usecase_box,
expand=False,
fill=True,
padding=0
)
usecase_box = Gtk.Box(orientation=Gtk.Orientation.HORIZONTAL)
usecase_box.set_spacing(5)
button = Gtk.Button(name, use_underline=True)
button.connect('clicked', callback)
usecase_box.pack_start(button, expand=True, fill=True, padding=0)
usecase_order = (usecase_order + 1) % usecase_order_max
usecases_vbox.pack_start(
usecase_box,
expand=False,
fill=True,
padding=0
)
# usecase_panel = Gtk.Expander('Use cases')
usecase_panel = Gtk.Expander()
usecase_panel.set_expanded(True)
usecase_panel.add(usecases_vbox)
# Show it
vbox = Gtk.Box(orientation=Gtk.Orientation.VERTICAL)
vbox.pack_start(action_panel, False, True, 10)
vbox.pack_start(filter_panel, False, True, 10)
vbox.pack_start(scrolled_window, expand=True, fill=True, padding=0)
vbox.pack_start(usecase_panel, False, True, 10)
self.window.add(vbox)
self.window.show_all()
self.should_finish = threading.Event()
def task_label_column(self, node):
newlabel = node.get_label()
return newlabel
def print_tree(self, widget=None):
print
print("{0} Tree {0}".format("=" * 20))
self.tree.get_main_view().print_tree()
print("=" * 46)
print
def print_ft(self, widget=None):
print
self.view_tree.print_tree()
print
@save_backup
def add_task(self, widget):
"""
Add a new task. If a task is selected,
the new task is added as its child
"""
selected = self.liblarch_widget.get_selected_nodes()
t_id = random_id()
t_title = random_task_title(t_id)
task = TaskNode(t_id, t_title,self.view_tree)
if len(selected) == 1:
# Adding a subchild
parent = selected[0]
self.tree.add_node(task, parent_id = parent)
print(
'Added sub-task "{0}" ({1}) for {2}'.format(
t_title, t_id, parent
)
)
else:
# Adding as a new child
self.tree.add_node(task)
for parent_id in selected:
task.add_parent(parent_id)
print('Added task "{0}" ({1})'.format(t_title, t_id))
def apply_filter(self,widget,param):
print("applying filter: {0}".format(param))
if param in self.view_tree.list_applied_filters():
self.view_tree.unapply_filter(param)
else:
self.view_tree.apply_filter(param)
@save_backup
def tree_high_3(self, widget):
"""
We add the leaf nodes before the root, in order to test
if it works fine even in this configuration
"""
print('Adding a tree of height 3')
selected = self.liblarch_widget.get_selected_nodes()
if len(selected) == 1:
parent = selected[0]
else:
parent = None
t_id = random_id()
t_title = random_task_title(t_id)
roottask = TaskNode(t_id, t_title,self.view_tree)
local_parent = t_id
for i in range(2):
t_id = random_id()
t_title = random_task_title(t_id)
task = TaskNode(t_id, t_title,self.view_tree)
self.tree.add_node(task, parent_id = local_parent)
# Task becomes a parent for new task
local_parent = t_id
self.tree.add_node(roottask, parent_id = parent)
@save_backup
def tree_high_3_backwards(self, widget):
print('Adding a tree of height 3 backwards')
selected = self.liblarch_widget.get_selected_nodes()
if len(selected) == 1:
parent = selected[0]
else:
parent = None
tasks = []
relationships = []
for i in range(3):
t_id = random_id()
t_title = random_task_title(t_id)
task = TaskNode(t_id, t_title,self.view_tree)
tasks.append((t_id, task))
if parent is not None:
relationships.append((parent, t_id))
parent = t_id
# Relationships can come in any order, e.g. reversed
relationships = reversed(relationships)
for t_id, task in tasks:
print("Adding task to tree: {0} {1}".format(t_id, task))
self.tree.add_node(task)
print("="*50)
for parent, child in relationships:
print("New relationship: {0} with {1}".format(parent, child))
parent_node = self.tree.get_node(parent)
parent_node.add_child(child)
print("="*50)
print
@save_backup
def delete_task(self, widget, order="normal"):
print("Deleting a task")
selected = self.liblarch_widget.get_selected_nodes()
print("Order: {0}".format(order))
if order == "normal":
ordered_nodes = selected
elif order == "backward":
ordered_nodes = reversed(selected)
elif order == "random":
ordered_nodes = selected
shuffle(ordered_nodes)
# Replace iterator for a list =>
# we want to see the order in logs and the performance is not important
ordered_nodes = [node for node in ordered_nodes]
elif order == 'magic-combination':
# testing a special case from examples/test_suite
ordered_nodes = ['D', 'F', 'X', 'B', 'C', 'A', 'E']
else:
Log.error('Unknown order, skipping...')
return
print(
"Tasks should be removed in this order: {0}".format(ordered_nodes)
)
for node_id in ordered_nodes:
self.tree.del_node(node_id)
print("Removed node {0}".format(node_id))
self.print_tree(None)
def delete_backwards(self, widget):
"""
Delete task backward
"""
self.delete_task(widget, order='backward')
def delete_random(self, widget):
"""
Delete tasks in random order
"""
self.delete_task(widget, order='random')
def delete_magic(self, widget):
self.delete_task(widget, order='magic-combination')
def change_task(self, widget):
view = self.tree.get_main_view()
for node_id in self.liblarch_widget.get_selected_nodes():
node = self.tree.get_node(node_id)
node.label = "Ahoj"
node.modified()
def backends(self, widget):
print("Backends....")
Backend('1sec', self.should_finish, 1, self.tree).start()
Backend('3sec', self.should_finish, 3, self.tree).start()
Backend('5sec', self.should_finish, 5, self.tree).start()
widget.set_sensitive(False)
def many_tasks(self, widget):
self.start_time = time()
def _many_tasks():
tasks_ids = []
prefix = randint(1, 1000)* 100000
for i in range(LOAD_MANY_TASKS_COUNT):
t_id = str(prefix + i)
t_title = t_id
task = TaskNode(t_id, t_title,self.view_tree)
# There is 25 % chance to adding as a sub_task
if tasks_ids != [] and randint(0, 100) < 90:
parent = choice(tasks_ids)
self.tree.add_node(task, parent_id = parent)
else:
self.tree.add_node(task)
tasks_ids.append(t_id)
# Sleep 0.01 second to create illusion of real tasks
sleep(SLEEP_BETWEEN_TASKS)
print("end of _many_tasks thread")
t = threading.Thread(target=_many_tasks)
t.start()
def load_from_file(self, widget):
dialog = Gtk.FileChooserDialog("Open..", self.window,
Gtk.FileChooserAction.OPEN,
(Gtk.STOCK_CANCEL, Gtk.ResponseType.CANCEL, Gtk.STOCK_OPEN, Gtk.ResponseType.OK))
dialog.set_default_response(Gtk.ResponseType.OK)
response = dialog.run()
if response == Gtk.ResponseType.OK:
file_name = dialog.get_filename()
else:
file_name = None
dialog.destroy()
if file_name is None:
return
log = open(file_name, 'r').read()
m = re.match(
'\s*Tree before operation\s+=+\s+Tree\s+=+\s+(.*?)=+',
log, re.UNICODE | re.DOTALL
)
if m:
treelines = m.group(1)
items = [
(len(line) - len(line.lstrip()), line.strip())
for line in treelines.splitlines()
]
# Filter "root" item and decrease level
items = [(level, name) for level, name in items[1:]]
# The "root" items should be at level 0, adjust level to that
min_level = min(level for level, name in items)
items = [(level-min_level, name) for level, name in items]
nodes = list(set([name for level, name in items]))
relationships = []
parent_level = { -1: None }
for level, name in items:
parent = parent_level[level - 1]
relationships.append((parent, name))
for key in list(parent_level.keys()):
if key > level:
del parent_level[key]
parent_level[level] = name
print("Nodes to add: {0}".format(nodes))
print(
"Relationships: {0}".format(
"\n".join(str(r) for r in relationships)
)
)
print
for node_id in nodes:
task = TaskNode(
node_id,
random_task_title(node_id),
self.view_tree
)
self.tree.add_node(task)
for parent, child in relationships:
parent_node = self.tree.get_node(parent)
parent_node.add_child(child)
else:
print("Not matched")
print("Log: {0}".format(log))
def finish(self, widget):
self.should_finish.set()
Gtk.main_quit()
def run(self):
Gtk.main()
if __name__ == "__main__":
GObject.threads_init()
app = LiblarchDemo()
app.run()
# vim: tabstop=4 expandtab shiftwidth=4 softtabstop=4