def make_window(self, document): window_width = 800 window_height = 600 #create a Window object and associate it with our document #so when the window is closed the doc can ask the user if #he wants to save app_window = Window(size=(window_width, window_height), document=document) #make a view for the window app_view = LineView(model=document, extent=(window_width, window_height), printable=False, cursor=self.line_cursor) #place the view in the window, make it resizeable app_window.place(app_view, left=0, top=0, right=0, bottom=0, sticky='nsew') #display the window when we are done initializing app_window.show()
def make_window(self, document): win = Window(size = (400, 400), document = document) view = AppView(model = document, extent = (1000, 1000), scrolling = 'hv', #menu_width = 50 #cursor = self.app_cursor ) win.place(view, left = 0, top = 0, right = 0, bottom = 0, sticky = 'nsew') win.show()
def test(): view = GearsView(size=(300, 300)) win = Window(title="Gears") win.place(view, sticky="nsew") view.become_target() win.shrink_wrap() win.show() application().run()
def make_window(self, document): win = Window(size=(400, 400), document=document) view = BlobView(model=document, extent=(1000, 1000), scrolling='hv', cursor=self.blob_cursor) win.place(view, left=0, top=0, right=0, bottom=0, sticky='nsew') win.show()
def test(): view = GearsView(size = (300, 300)) win = Window(title = "Gears") win.place(view, sticky = "nsew") view.become_target() win.shrink_wrap() win.show() application().run()
def test(): win = Window(title="Frame") frm = Frame() frm.place_column([Label("This is"), Label("A frame")], left=0, top=0) frm.shrink_wrap() win.place(frm, left=30, top=30) win.shrink_wrap(padding=(30, 30)) win.show()
def main(): global cb1, cb2, rg win = Window(title="Place Me By Your Side", width=720, height=500) view1 = TestDrawing(width=320, height=200) cb1 = CheckBox(title="Check Me!", action=checked_it) cb2 = CheckBox(title="Check Me Too!", action=checked_it) rbs = [] for i in range(1, 4): rb = RadioButton(title="Hoopy Option %d" % i, value=i) rbs.append(rb) rg = RadioGroup(rbs, action=option_chosen) pb = Button(title="Push Me!", action=pushed_it) view2 = TestScrollableDrawing(width=300, height=300) label = Label(text="Flavour:") entry = TextField(width=200) win.place(view1, left=10, top=10, border=1) win.place_row([cb1, cb2], left=10, top=(view1, 20), spacing=20) win.place_column(rbs, left=view1 + 20, top=10) win.place(pb, right=-20, bottom=-10, anchor='rb') win.place(view2, left=rbs[0] + 20, top=10, right=-20, bottom=pb - 10, scrolling='hv', anchor='ltrb', border=1) win.place(label, left=10, top=(cb1, 20)) win.place( entry, left=10, top=(label, 10), #border = 1 ) entry.become_target() win.show() import GUI GUI.run()
def test(): win = Window(title = "Frame") frm = Frame() frm.place_column([ Label("This is"), Label("A frame")], left = 0, top = 0) frm.shrink_wrap() win.place(frm, left = 30, top = 30) win.shrink_wrap(padding = (30, 30)) win.show()
def test(): cursor = StdCursors.finger win = Window(title = "Cursor", width = 500, height = 400) view1 = TestDrawing(position = (20, 20), size = (100, 70), cursor = cursor) view2 = TestScrollableView(position = (140, 20), size = (200, 200), scrolling = 'hv') view2.cursor = cursor win.add(view1) win.place(view2, sticky = 'nsew') win.shrink_wrap((20, 20)) win.show()
def test(): cursor = StdCursors.finger win = Window(title="Cursor", width=500, height=400) view1 = TestDrawing(position=(20, 20), size=(100, 70), cursor=cursor) view2 = TestScrollableView(position=(140, 20), size=(200, 200), scrolling='hv') view2.cursor = cursor win.add(view1) win.place(view2, sticky='nsew') win.shrink_wrap((20, 20)) win.show()
def make_view(db, options): pf = GLConfig(double_buffer=db) pf.alpha = "a" in options pf.depth_buffer = "d" in options pf.stencil_buffer = "s" in options pf.aux_buffers = "x" in options pf.accum_buffer = "A" in options view = TriangleView(pf, size=(200, 200)) win = Window(title="%s Buffered GLView" % ["Single", "Double"][db], size=(240, 240)) win.place(view, left=20, top=20, sticky="nsew") view.become_target() win.show()
def test(): file = "grail_masked.tiff" # file = "spam_masked.tiff" image = Image(os.path.join(sys.path[0], file)) cursor = Cursor(image) win = Window(title="Image Cursor", width=500, height=400) view1 = TestDrawing(position=(20, 20), size=(100, 70), cursor=cursor) view2 = TestScrollableView(position=(140, 20), size=(200, 200), scrolling="hv") view2.cursor = cursor win.add(view1) win.place(view2, sticky="nsew") win.shrink_wrap((20, 20)) win.show()
def test(): def bing(): say("Bing!") #fld._win_dump_flags() win = Window(title = "Shrink Wrap", resizable = 0) but = Button("Bing!", action = bing) cbx = CheckBox("Spam") fld = TextField(width = 100) win.place(but, left = 20, top = 20) win.place(cbx, left = but + 20, top = 20) win.place(fld, left = 20, top = but + 20) win.shrink_wrap() win.show() application().run()
def make_view(db, options): pf = GLConfig(double_buffer = db) pf.alpha = "a" in options pf.depth_buffer = "d" in options pf.stencil_buffer = "s" in options pf.aux_buffers = "x" in options pf.accum_buffer = "A" in options view = TriangleView(pf, size = (200, 200)) win = Window( title = "%s Buffered GLView" % ["Single", "Double"][db], size = (240, 240)) win.place(view, left = 20, top = 20, sticky = "nsew") view.become_target() win.show()
def test(): file = "grail_masked.tiff" #file = "spam_masked.tiff" image = Image(os.path.join(sys.path[0], file)) cursor = Cursor(image) win = Window(title = "Image Cursor", width = 500, height = 400) view1 = TestDrawing(position = (20, 20), size = (100, 70), cursor = cursor) view2 = TestScrollableView(position = (140, 20), size = (200, 200), scrolling = 'hv') view2.cursor = cursor win.add(view1) win.place(view2, sticky = 'nsew') win.shrink_wrap((20, 20)) win.show()
def make_window(self, document): self.tabview = view = TabView() win = Window(size=(600, 400), document=document) self.view1 = Button(title='Item 1', action=self.item1Action) view.add_item(self.view1, title='asdfe') self.view2 = Button(title='Item 2', action=self.item2Action) view.add_item(self.view2, title="Two") win.place(view, left=0, top=0, right=0, bottom=0, sticky='nsew') win.show()
def test(): def select(): i = group.value name = cursor_names[i] say("Selecting cursor no. %d (%s)" % (i, name)) cursor = getattr(StdCursors, name) say("...", cursor) view.cursor = cursor win = Window(title = "Std Cursors") view = TestArea(size = (100, 100)) win.place(view, left = 20, top = 20) group = RadioGroup(action = select) for i, name in enumerate(cursor_names): group.add_item(RadioButton(title = name, value = i)) win.place_column(group, left = view + 20, top = 20, spacing = 0) win.shrink_wrap((20, 20)) win.show() application().run()
def make_window(self, document): window_width = 800 window_height = 600 #create a Window object and associate it with our document #so when the window is closed the doc can ask the user if #he wants to save app_window = Window(size = (window_width, window_height), document = document) #make a view for the window app_view = LineView(model = document, extent = (window_width, window_height), printable = False, cursor = self.line_cursor) #place the view in the window, make it resizeable app_window.place(app_view, left = 0, top = 0, right = 0, bottom = 0, sticky = 'nsew') #display the window when we are done initializing app_window.show()
def open_soldier_chooser(self, blob, defender, x, y): win = Window(size=(220, 100), style='nonmodal_dialog') button = Button('Attack') text_field = TextField() button.style = 'normal' slider = Slider('h') def set_textfield(): text_field.set_text(str(int(slider.get_value()))) def start_conquering(): winner = war(blob, defender, int(slider.get_value())) looser = blob if winner != blob else defender soldiers_left = int(slider.get_value() - (slider.max_value+1 - blob.get_soldiers())) conquer_territory(winner, looser, soldiers_left) self.model.set_blob_position(blob, x, y) print "Winner is: " + winner.territory.get_owner() + "!" win.destroy() if blob.get_soldiers() - 1 != 1: slider.max_value = blob.get_soldiers() - 1 slider.min_value = 1 slider.ticks = blob.get_soldiers() - 1 slider.discrete = True slider.action = set_textfield button.action = start_conquering win.place(slider, left=0, top=10, right=220, bottom=50) win.place(button, left=15, top=50, right=55, bottom=90) win.place(text_field, left=170, top=50, right=210, bottom=70) win.show() else: winner = war(blob, defender, 1) looser = blob if winner != blob else defender soldiers_left = int(slider.get_value()) - (int(slider.max_value) - blob.get_soldiers()) conquer_territory(winner, looser, soldiers_left) self.model.set_blob_position(blob, x, y) print "Winner is: " + winner.territory.get_owner() + "!"
def make_window(self, document): win = Window(size = (500, 500), document = document) view = BlobView(model = document, extent = (200, 200), scrolling = 'hv',cursor = self.blob_cursor) win.place(view, left = 0, top = 0, right = 0, bottom = 0, sticky = 'nsew') win.show()
if button == Mouse.Right: self.xxmin, self.xxmax = self.gwidget.zoomout( self.xxmin, self.xxmax, self._xmin, self._xmax) self.yymin, self.yymax = self.gwidget.zoomout( self.yymin, self.yymax, self._ymin, self._ymax) else: self.xxmin, self.xxmax, self.yymin, self.yymax = self._xmin, self._xmax, self._ymin, self._ymax self.gwidget.zoom(self.xxmin, self.xxmax, self.yymin, self.yymax) self.gwidget.make_data_list() self.gwidget.updateGL() self.px, self.py = None, None ############################################################################## view = GLGraphWidget(size=(300, 300)) win = Window(title="Gears") win.place(view, sticky="nsew") view.become_target() win.shrink_wrap() win.show() application().run() # app=QApplication(sys.argv) # g = glGraph() # app.setMainWidget(g.win) # g.win.show() # app.exec_loop()
def make_window(self): win = Window(size=(400, 400)) tex = CodeEditor() win.place(tex, left=0, top=0, right=0, bottom=0, sticky="nesw") win.show()
dlog.place(Label(text = "Surprise!!!"), left = 20, top = 20) field = TextField() dlog.place(field, left = 20, top = 60, right = -20) field.become_target() dlog.default_button = DefaultButton() dlog.cancel_button = CancelButton() dlog.place(dlog.default_button, right = -20, bottom = -20) dlog.place(dlog.cancel_button, left = 20, bottom = -20) dlog.center() result = dlog.present() say("Result =", result) dlog.destroy() win = Window(title = "Modal Dialogs", size = (200, 60)) dialog_button = Button(title = "Give Me A Dialog", action = modal_dialog) win.place(dialog_button, left = 20, top = 20) win.show() instructions = """ Clicking the "Give Me A Dialog" button should pop up a modal dialog centered on the screen, containing a label, a text field, an OK button and a Cancel button. While the dialog is up: * Interaction with the main window should be prevented. * Edit menu commands should be enabled as appropriate for the text field; other menu commands should be disabled. Clicking the OK button or pressing Return or Enter should dismiss the dialog and report "Result = True".
field = TextField() dlog.place(field, left=20, top=60, right=-20) field.become_target() dlog.default_button = DefaultButton() dlog.cancel_button = CancelButton() dlog.place(dlog.default_button, right=-20, bottom=-20) dlog.place(dlog.cancel_button, left=20, bottom=-20) dlog.center() result = dlog.present() say("Result =", result) dlog.destroy() win = Window(title="Modal Dialogs", size=(200, 60)) dialog_button = Button(title="Give Me A Dialog", action=modal_dialog) win.place(dialog_button, left=20, top=20) win.show() instructions = """ Clicking the "Give Me A Dialog" button should pop up a modal dialog centered on the screen, containing a label, a text field, an OK button and a Cancel button. While the dialog is up: * Interaction with the main window should be prevented. * Edit menu commands should be enabled as appropriate for the text field; other menu commands should be disabled. Clicking the OK button or pressing Return or Enter should dismiss the dialog and report "Result = True".
def make_window(self, document): win = Window(size = (400, 400), document = document) view = BlobView(model = document, extent = (1000, 1000), scrolling = 'hv') win.place(view, left = 0, top = 0, right = 0, bottom = 0, sticky = 'nsew') win.show()
def make_window(self, document): win = Window(size=(700, 500), document=document) panel = Frame(width=170) def crop_action(): if view.selection is None: view.setselection(shrink_rect(view.viewrect, 0.8)) return croprect = view.pdfcoord(view.selection) #print 'view: %s, crop: %s' % (view.selection, croprect) view.model.crop(view.pagenum, croprect) view.selection = None view.set_status(selection=None) hide(view.crop_button) crop_button = Button(title='Crop', visible=True, action=crop_action) status = Label(text='\n\n\n\n') view = PDFView(pagenum=0, model=document, scrolling='hv', status=status, cursor=crosshair, crop_button=crop_button) #view = PDFView(... extent=(1000, 1000), cursor = self.blob_cursor) def page_changer(delta): def change(): np = win.document.numpages view.pagenum += delta if view.pagenum <= 0: view.pagenum = 0 prevpage.enabled = False else: prevpage.enabled = True if view.pagenum >= np - 1: view.pagenum = np - 1 nextpage.enabled = False else: nextpage.enabled = True page.text = '%s / %s' % (view.pagenum+1, np) view.invalidate() return change prevpage = Button(title='<', action=page_changer(-1)) nextpage = Button(title='>', action=page_changer(+1)) page = Label(just='center', anchor='b') page_changer(0)() panel.place(prevpage, top=5, left=5, sticky='w') panel.place(nextpage, top=5, right=-5, sticky='e') panel.place(page, bottom=prevpage.bottom, left=prevpage, right=nextpage, sticky='ew') panel.place(status, left=5, top=prevpage+5, right=0, sticky='ew') panel.place(crop_button, left=5, top=status, right=-5, sticky='ew') win.place(panel, left=0, top=0, bottom=0, sticky='nsw') win.place(view, left=panel, top=0, right=0, bottom=0, sticky='nsew') win.shrink_wrap() win.show()
class Tool(Application): def __init__(self): Application.__init__(self, title = "Log Analysis Tool") print >>sys.stderr, "app init'd" self.window = Window(size = (1200, 750), title = "Log Analysis Tool") print >>sys.stderr, "made window" # Create db cursor db = get_conn(dbname = 'reduced_log') self.cur = db.cursor() print >>sys.stderr, "made db cursor" self.current_table_suffix = None # Load the dummy image for now self.image = GraphView(size = (640, 460), position = (10, 10)) self.graph_panel = Frame() self.graph_panel.add(self.image) print >>sys.stderr, "loaded dummy image" # Declare other image lists self.full_ = None self.peruser_alltime_ = None self.peruser_divided_total_ = None self.peruser_divided_ = None # Create the display selection radio self.display_select_radiogroup = RadioGroup(action = self.change_images) height, startx = 495, 20 sp = 10 r1 = RadioButton("All users", group = self.display_select_radiogroup, value = 'all_users') r2 = RadioButton("Per user, query type", group = self.display_select_radiogroup, value = 'peruser_querytype') r3 = RadioButton("Per user, time", group = self.display_select_radiogroup, value = 'peruser_time') r4 = RadioButton("Per user, query type and time", group = self.display_select_radiogroup, value = 'peruser_querytype_time') self.graph_panel.place(r1, top = self.image + 10, left = sp) self.graph_panel.place(r2, top = self.image + 10, left = r1 + sp) self.graph_panel.place(r3, top = self.image + 10, left = r2 + sp) self.graph_panel.place(r4, top = self.image + 10, left = r3 + sp) self.window.place(self.graph_panel, top=0, left=0) self.display_select_radiogroup.value = 'all_users' # Create the top queries textbox self.topqueries = TopqueryPanel(size = (500, 460), extent = (500, 1000)) self.topqueries.panels = [[TopqueryLabel("This is a placeholder until you select a filter", ["This is where", "the values", "will go"])]] self.window.place(self.topqueries, top=10, left=680) topqueries_next_button = Button("Next", action = self.topqueries.next) topqueries_prev_button = Button("Prev", action = self.topqueries.prev) self.window.place(topqueries_next_button, left = 930, top = top - 50) self.window.place(topqueries_prev_button, left = 830, top = top - 50) print >>sys.stderr, "made top queries text box" # Declare the filter and last updated filter pointers self.fil = None self.last_used_fil = None # # ************************* # FILTER PANEL # ************************* # # **CREATE DATE PANEL** field_width = 140 self.date_panel = Frame() self.begin_date_field = TextField(size = (field_width, 30), position = (0, 5), text = DEFAULT_BEGIN_DATE_TEXT) self.end_date_field = TextField(size = (field_width, 30), position = (0, 35), text = DEFAULT_END_DATE_TEXT) self.date_panel.size = (field_width, 0) # Time division radios self.time_division_radiogroup = RadioGroup() left, right = 5, 70 row1, rowspace = 95, 25 group_by_label = Label("Group by:", position = (5, 70)) hour = RadioButton("Hour", position = (left, row1), group = self.time_division_radiogroup, value = 'hour') day = RadioButton("Day", position = (right, row1), group = self.time_division_radiogroup, value = 'day') week = RadioButton('Week', position = (left, row1 + rowspace), group = self.time_division_radiogroup, value = 'week', enabled = False) #TODO: implement 'week' in the gnuplot function month = RadioButton("Month", position = (right, row1 + rowspace), group = self.time_division_radiogroup, value = 'month') year = RadioButton("Year", position = (left, row1 + 2*rowspace), group = self.time_division_radiogroup, value = 'year') self.time_division_radiogroup.value = 'day' self.last_grouped_by = None # Add all to date panel self.date_panel.add([self.begin_date_field, self.end_date_field]) self.date_panel.add([group_by_label, hour, day, week, month, year]) self.window.place(self.date_panel, top=top, left=10) print >>sys.stderr, "made date panel" # **CREATE QUERY TYPE FILTER CHECKBOXES** x_pos = 0 y_pos = 0 y_spacing = 20 self.query_type_checkboxes = {} for qtype in querytypes: # underscores don't display properly, need an extra space after self.query_type_checkboxes[qtype] = CheckBox(qtype.replace('_', '_ '), position = (x_pos, y_pos), value = True) y_pos += y_spacing # Add the query type checkboxes and buttons to a Frame self.query_type_panel = Frame() maxw = 0 for cbox in self.query_type_checkboxes.values(): self.query_type_panel.add(cbox) maxw = max(cbox.size[0], maxw) self.query_type_panel.size = (maxw, 0) # Create all/none/invert buttons for query types buttonsize = (55, 25) self.query_type_panel.add(Button("All", action = (self.select_all, 'query_type'), size = buttonsize, position = (20, y_pos))) y_pos += 25 self.query_type_panel.add(Button("None", action = (self.deselect_all, 'query_type'), size = buttonsize, position = (20, y_pos))) y_pos += 25 self.query_type_panel.add(Button("Invert", action = (self.invert_all, 'query_type'), size = buttonsize, position = (20, y_pos))) # Add query_type_panel to the window self.window.place(self.query_type_panel, top = top, left=self.date_panel + horiz_sp) print >>sys.stderr, "made query type cboxes" # **CREATE USER AND SERVER CHECKBOX LISTS** self.user_panel = None self.server_panel = None self.create_checkbox_lists(initial=True) self.cur.execute("SELECT user, userid FROM users") self.userids = dict(self.cur.fetchall()) self.cur.execute("SELECT server, serverid FROM servers") self.serverids = dict(self.cur.fetchall()) print >>sys.stderr, "made user, server cboxes" # **CREATE QUERY SEARCH STRING PANEL** num_search_strings = 5 spacing = 30 field_width = 250 self.search_string_panel = Frame() self.search_string_panel.size = (field_width, 0) self.search_string_fields = [TextField(size = (field_width, 30), position = (0, spacing * i), text = "Query Search String {0}".format(i + 1)) for i in range(num_search_strings)] self.search_string_panel.add(self.search_string_fields) self.any_all_radiogroup = RadioGroup() any_string_radio = RadioButton("Any", position = (40, 10 + spacing * \ num_search_strings), group = self.any_all_radiogroup, value = 'any') all_strings_radio = RadioButton("All", position = (130, 10 + spacing * \ num_search_strings), group = self.any_all_radiogroup, value = 'all') no_string_radio = RadioButton("None", position = (40, 30 + spacing * \ num_search_strings), group = self.any_all_radiogroup, value = 'none') not_all_string_radio = RadioButton("Not All", position = (130, 30 + spacing * \ num_search_strings), group = self.any_all_radiogroup, value = 'not all') self.any_all_radiogroup.value = 'any' self.search_string_panel.add(any_string_radio) self.search_string_panel.add(all_strings_radio) self.search_string_panel.add(no_string_radio) self.search_string_panel.add(not_all_string_radio) self.window.place(self.search_string_panel, top = top, left = self.server_panel + 10) print >>sys.stderr, "made search string panel" # SELECT ALL/NONE, INVERT USERS # TODO: create user, server panels? atm only the cboxes are in # a ScrollableView buttonsize = (55, 25) invertbuttonsize = (60, 25) userstart = 295 serverstart = 565 self.window.place(Button("All", action = (self.select_all, 'user'), size = buttonsize), top = top + 155, left = userstart) self.window.place(Button("None", action = (self.deselect_all, 'user'), size = buttonsize), top = top + 155, left = userstart + 55 + 5) self.window.place(Button("Invert", action = (self.invert_all, 'user'), size = invertbuttonsize), top = top + 155, left = userstart + 55 + 5 + 55 + 5) # user search string textbox # TODO: the action is always one keystroke behind the text field. # This is a PyGUI 'bug',but it may only happen on windows (not sure # how the X server works). # See http://mail.python.org/pipermail/pygui/2010-November/000102.html self.user_search_string = ResponsiveTextField(emptyaction = None, action = (self.select_all_matching, 'user'), size = (180, 30), text = DEFAULT_USER_SEARCH_STRING) self.window.place(self.user_search_string, top = top + 155 + 25 + 5, left = userstart) # SELECT ALL/NONE, INVERT SERVERS self.window.place(Button("All", action = (self.select_all, 'server'), size = buttonsize), top = top + 155, left = serverstart) self.window.place(Button("None", action = (self.deselect_all, 'server'), size = buttonsize), top = top + 155, left = serverstart + 55 + 5) self.window.place(Button("Invert", action = (self.invert_all, 'server'), size = invertbuttonsize), top = top + 155, left = serverstart + 55 + 5 + 55 + 5) # server search string textbox self.server_search_string = ResponsiveTextField(emptyaction = None, action = (self.select_all_matching, 'server'), size = (180, 30), text = DEFAULT_SERVER_SEARCH_STRING) self.window.place(self.server_search_string, top = top + 155 + 25 + 5, left=serverstart) self.window.show() # **CREATE BUTTONS** self.negate = CheckBox("Negate Filter", position=(0, 0), value=False) self.refresh_button = Button("Refresh", position = (0, 25), action=self.refresh) self.update_button = Button("Update", position = (0, 60), action = self.update) # Add buttons to a panel self.button_panel = Frame() self.button_panel.add([self.negate, self.refresh_button, self.update_button]) self.window.place(self.button_panel, top = top, left=self.search_string_panel + horiz_sp) print >>sys.stderr, "made button panel" def create_checkbox_lists(self, initial=False): """ Removes the current user and server checkbox panels from the window, if they exist (if they don't, they will be None, from __init__()) creates new ones with data from the current table, then adds them to the window again. If @initial is True, only the last partition (month) of the 'unified' table will be used for counts, but all users and servers will still be shown @initial - if this is the first time the checkbox lists are being generated, it works a bit differently: the counts are taken from just the last partition of the unified table so that startup doesn't take forever. We then also need to grab the names of other users who didn't appear in this first partition """ # Remove current user and server checkbox panels from the window if self.user_panel: self.window.remove(self.user_panel) if self.server_panel: self.window.remove(self.server_panel) # Create user filter checkboxes if initial: print_and_execute("""SELECT PARTITION_NAME FROM INFORMATION_SCHEMA.PARTITIONS WHERE TABLE_SCHEMA = 'reduced_log' AND TABLE_NAME = 'unified'""", self.cur) # there will be each month, then the 'other' partition, so we want to # select from the 2nd to last partition last_partition = [x for x, in self.cur.fetchall()][-2] table_to_use = "unified PARTITION({0})".format(last_partition) else: table_to_use = self.current_table_name() print_and_execute("""SELECT userid, user, count FROM (SELECT userid, COUNT(*) AS count FROM {0} GROUP BY userid ) AS sth NATURAL JOIN users ORDER BY count DESC """.format(table_to_use), self.cur) userlist = [x for x in self.cur.fetchall()] x_pos = 0 y_pos = 0 y_spacing = 20 self.user_checkboxes = {} size_width = 220 extent_width = size_width for userid, user, count in userlist: self.user_checkboxes[user] = CheckBox("{0} ({1})".format(user.replace('_', '_ '), count), position = (x_pos, y_pos), value = True) extent_width = max(self.user_checkboxes[user].size[0], extent_width) y_pos += y_spacing # Get users that didn't appear in the last partition, if @initial if initial: self.cur.execute("SELECT user, userid FROM users") for user, userid in self.cur.fetchall(): if user in self.user_checkboxes: continue self.user_checkboxes[user] = CheckBox(user.replace('_', '_ ') + " (0)", position = (x_pos, y_pos), value = True) extent_width = max(self.user_checkboxes[user].size[0], extent_width) y_pos += y_spacing # Add the user checkboxes to a ScrollableView: self.user_panel = ScrollableView(size = (size_width, 150), extent = (extent_width, max(150, y_pos)), scrolling = 'v' if extent_width <= size_width else 'hv') for cbox in self.user_checkboxes.values(): self.user_panel.add(cbox) # Add the panel to the window self.window.place(self.user_panel, top = top, left = self.query_type_panel + horiz_sp) # Create server filter checkboxes print_and_execute("""SELECT serverid, server, count FROM (SELECT serverid, COUNT(*) AS count FROM {0} GROUP BY serverid ) as sth NATURAL JOIN servers ORDER BY count DESC """.format(table_to_use), self.cur) serverlist = [x for x in self.cur.fetchall()] x_pos = 0 y_pos = 0 y_spacing = 20 self.server_checkboxes = {} size_width = 300 extent_width = size_width for serverid, server, count in serverlist: self.server_checkboxes[server] = CheckBox("{0} ({1})".format(server, count), position = (x_pos, y_pos), value = True) extent_width = max(self.server_checkboxes[server].size[0], extent_width) y_pos += y_spacing if initial: self.cur.execute("SELECT server FROM servers") for server, in self.cur.fetchall(): if server in self.server_checkboxes: continue self.server_checkboxes[server] = CheckBox(server.replace('_', '_ ') + " (0)", position = (x_pos, y_pos), value = True) extent_width = max(self.server_checkboxes[server].size[0], extent_width) y_pos += y_spacing # Add the server checkboxes to a ScrollableView self.server_panel = ScrollableView(size = (size_width, 150), extent = (extent_width, max(150, y_pos)), scrolling = 'v' if extent_width <= size_width else 'hv') for cbox in self.server_checkboxes.values(): self.server_panel.add(cbox) # Add the server panel to the window self.window.place(self.server_panel, top = top, left=self.user_panel + 10) def get_new_filter(self): """ Set self.fil to a new Filter reflecting the current status of the GUI elements """ # Get the status of GUI elements # TODO: support for one date field but not the other # (should be done mostly in Filter class) if self.begin_date_field.text \ and self.begin_date_field.text != DEFAULT_BEGIN_DATE_TEXT \ and self.end_date_field.text \ and self.end_date_field.text != DEFAULT_END_DATE_TEXT: daterange = (datetime.strptime(self.begin_date_field.text, DATEFORMAT), datetime.strptime(self.end_date_field.text, DATEFORMAT)) else: daterange = None # User user = [self.userids[u] for u, cb in self.user_checkboxes.iteritems() \ if cb.value] if len(user) == len(self.user_checkboxes): #all users selected user = None # Server server = [self.serverids[s] for s, cb in self.server_checkboxes.iteritems() \ if cb.value] if len(server) == len(self.server_checkboxes): server = None # Search String List search_string = SearchStringList(self.any_all_radiogroup.value) search_string.extend([fld.text for fld in self.search_string_fields \ if fld.text and not fld.text.startswith('Query Search String ')]) # Query types query_type = [qtype for qtype, cb in self.query_type_checkboxes.iteritems() if cb.value] query_type = clean_list(query_type) if not query_type or len(query_type) == len(querytypes): #all types selected query_type = None # Create the filter object self.fil = Filter(daterange = daterange, user = user, server = server, search_string = search_string, query_type = query_type, negate = self.negate.value) def refresh(self): """ Regenerate the graphs/top query lists without changing the table that the tool pulls from """ # Get the status of GUI elements self.get_new_filter() # Don't repeat the query if self.filter hasn't changed since the last # update if self.fil != self.last_used_fil: self.create_new_temp_table() self.create_new_graphs_and_topqueries() elif self.last_grouped_by != self.time_division_radiogroup.value: self.create_new_graphs_and_topqueries() def create_new_temp_table(self): # Create a temp table lasttable = self.current_table_name() nexttable = self.next_table_name() # Create main table self.cur.execute("DROP TABLE IF EXISTS {0}".format(nexttable)) print_and_execute("CREATE TEMPORARY TABLE {0} AS {1}".format(nexttable, self.fil.sql(lasttable)), self.cur) print_and_execute("ALTER TABLE {0} ADD INDEX (userid)".format(nexttable), self.cur) print_and_execute("ALTER TABLE {0} ADD INDEX (serverid)".format(nexttable), self.cur) self.last_used_fil = self.fil def create_new_graphs_and_topqueries(self): prefix = config.get('plot_dir') or 'plots' current_dir = os.getcwd() # Get profiles of the created table nexttable = self.next_table_name() profiles = query_profile(nexttable, config.get("numtop") or 200, self.time_division_radiogroup.value, self.cur) peruser_divided, peruser_alltime, full_divided, full_alltime, full_topqueries, peruser_topqueries = profiles # Remove previous plotted data if os.path.exists(prefix): os.system("rm -r {0}".format(prefix)) os.mkdir(prefix) os.chdir(prefix) gnuplot(profiles, time_axis_label=self.time_division_radiogroup.value) # use a for loop so that gnuplot settings don't stick around between scripts os.system("for x in *.gnu; do gnuplot $x; done") # Load the new image lists self.full_ = [Image(file=x) for x in glob('full_*.png')] self.peruser_alltime_ = [Image(file=x) for x in \ glob('peruser_alltime_*.png')] self.peruser_divided_ = [Image(file=x) for x in \ glob('peruser_divided_*.png') if '_total_' not in x] self.peruser_divided_total_ = [Image(file=x) for x in \ glob('peruser_divided_total_*.png')] os.chdir(current_dir) # Set self.image.images = whatever's selected in the radio # (we got new lists) self.change_images() # Generate the new topquery panel text self.topqueries.new_profiles(full_topqueries, peruser_topqueries) self.last_grouped_by = self.time_division_radiogroup.value def update(self): """ Regenerate the graphs/top query lists, then change the table that the tool pulls from to the newly generated table. Update the lists of checkboxes. """ self.refresh() if self.current_table_suffix: self.current_table_suffix += 1 else: self.current_table_suffix = 1 # update lists of checkboxes self.create_checkbox_lists() # reset status of GUI elements that weren't just recreated # self.begin_date_field.text = DEFAULT_BEGIN_DATE_TEXT # self.end_date_field.text = DEFAULT_END_DATE_TEXT # for cbox in self.query_type_checkboxes.values(): # cbox.value = True # for i, fld in enumerate(self.search_string_fields): # fld.text = "Query Search String {0}".format(i + 1) def change_images(self): string = self.display_select_radiogroup.value if string == 'all_users': self.image.images = self.full_ elif string == 'peruser_querytype': self.image.images = self.peruser_alltime_ elif string == 'peruser_time': self.image.images = self.peruser_divided_total_ elif string == 'peruser_querytype_time': self.image.images = self.peruser_divided_ else: print >>sys.stderr, "Unrecognized display_select_radiogroup value %s" % string if not self.image.images: print >>sys.stderr, "image list assigned to self.image.images is None, using dummy" self.image.images = GraphView.DUMMY_IMLIST self.image.im_num = 0 self.image.invalidate() def current_table_name(self): """ Return the name of the table we are currently pulling from """ if self.current_table_suffix: return "analysis_tool_temp" + str(self.current_table_suffix) return 'unified' def next_table_name(self): """ Return the name of the table we should insert into """ if self.current_table_suffix: return "analysis_tool_temp" + str(self.current_table_suffix + 1) else: return "analysis_tool_temp1" def select_all(self, what): """ Set the value property of all checkboxes in the list to True @what must be one of 'user' or 'server' """ if what == 'user': cboxes = self.user_checkboxes.values() elif what == 'server': cboxes = self.server_checkboxes.values() elif what == 'query_type': cboxes = self.query_type_checkboxes.values() else: print >>sys.stderr, "unrecognized thing to select all: %s" % what return for cbox in cboxes: cbox.value = True def deselect_all(self, what): """ Set the value property of all checkboxes in the list to False @what must be one of 'user' or 'server' """ if what == 'user': cboxes = self.user_checkboxes.values() elif what == 'server': cboxes = self.server_checkboxes.values() elif what == 'query_type': cboxes = self.query_type_checkboxes.values() else: print >>sys.stderr, "unrecognized thing to deselect all: %s" % what return for cbox in cboxes: cbox.value = False def invert_all(self, what): """ Set the value property of all checkboxes in the list to its inverse @what must be one of 'user' or 'server' """ if what == 'user': cboxes = self.user_checkboxes.values() elif what == 'server': cboxes = self.server_checkboxes.values() elif what == 'query_type': cboxes = self.query_type_checkboxes.values() else: print >>sys.stderr, "unrecognized thing to select all: %s" % what return for cbox in cboxes: cbox.value = not cbox.value def enable_all(self, what): """ Enable all elements in the list @what must be one of 'user' or 'server' and the relevant checkboxes will be enabled """ if what == 'user': elements = self.user_checkboxes.values() elif what == 'server': elements = self.server_checkboxes.values() elif what == 'query_type': elements = self.query_type_checkboxes.values() else: print >>sys.stderr, "unrecognized thing to enable all: %s" % what return for elem in elements: elem.enabled = True def disable_all(self, what): """ Disable all elements inthe list @what must be one of 'user' or 'server' and the relevant checkboxes will be disabled """ if what == 'user': elements = self.user_checkboxes.values() elif what == 'server': elements = self.server_checkboxes.values() elif what == 'query_type': elements = self.query_type_checkboxes.values() else: print >>sys.stderr, "unrecognized thing to disable all: %s" % what return for elem in elements: elem.enabled = False def select_all_matching(self, where): if where == 'user': elements = self.user_checkboxes search_string = self.user_search_string.text elif where == 'server': elements = self.server_checkboxes search_string = self.server_search_string.text else: print >>sys.stderr, "unrecognized thing select all matching: %s" % where return for text, cbox in elements.iteritems(): if search_string in text: cbox.value = True else: cbox.value = False def change_topquery_ptr(self, how_much): """ Changes the variable indicating which topquery view is to be selected And then updates self.topqueries.text """ self.topquery_ptr += how_much self.topqueries.text = self.topquery_texts[self.topquery_ptr % len(self.topquery_texts)] def open_app(self): # Everything done in __init__() pass
def make_window(self): win = Window(size=(400, 400)) tex = CodeEditor() win.place(tex, left=0, top=0, right=0, bottom=0, sticky='nesw') win.show()