Beispiel #1
0
    def setUp(self):
        """Start the application set some data and ensure the application
        is in the state we want it."""

        # start the application
        from pywinauto.application import Application
        app = Application()
        app.start_(os.path.join(controlspy_folder, "Tab.exe"))

        self.texts = [
            "Pluto", "Neptune", "Uranus", "Saturn", "Jupiter", "Mars", "Earth",
            "Venus", "Mercury", "Sun"
        ]

        self.rects = [
            RECT(2, 2, 63, 21),
            RECT(63, 2, 141, 21),
            RECT(141, 2, 212, 21),
            RECT(212, 2, 280, 21),
            RECT(280, 2, 348, 21),
            RECT(2, 21, 68, 40),
            RECT(68, 21, 135, 40),
            RECT(135, 21, 207, 40),
            RECT(207, 21, 287, 40),
            RECT(287, 21, 348, 40),
        ]

        self.app = app
        self.dlg = app.MicrosoftControlSpy
        self.ctrl = app.MicrosoftControlSpy.TabControl.WrapperObject()
Beispiel #2
0
    def setUp(self):
        """Start the application set some data and ensure the application
        is in the state we want it."""
        self.screen_w = win32api.GetSystemMetrics(0)

        # start the application
        from pywinauto.application import Application
        app = Application()
        app.start_(os.path.join(mfc_samples_folder, "CmnCtrl1.exe"))

        self.texts = [
            u"CTreeCtrl", u"CAnimateCtrl", u"CToolBarCtrl", 
            u"CDateTimeCtrl", u"CMonthCalCtrl"]

        self.rects = [
            RECT(2,   2, 58,  20), 
            RECT(58,  2, 130, 20), 
            RECT(130, 2, 201, 20), 
            RECT(201, 2, 281, 20), 
            RECT(281, 2, 360, 20)
        ]

        self.app = app
        self.dlg = app.CommonControlsSample
        self.ctrl = app.CommonControlsSample.TabControl.WrapperObject() 
def MenuItemAsControl(menuItem):
    "Make a menu item look like a control for tests"

    itemAsCtrl = ControlProps()

    itemAsCtrl["Texts"] = [
        menuItem['Text'],
    ]
    itemAsCtrl["ControlID"] = menuItem['ID']
    itemAsCtrl["Type"] = menuItem['Type']
    itemAsCtrl["State"] = menuItem['State']

    itemAsCtrl["Class"] = "MenuItem"
    itemAsCtrl["FriendlyClassName"] = "MenuItem"

    # as most of these don't matter - just set them up with default stuff
    itemAsCtrl["Rectangle"] = RECT(0, 0, 999, 999)
    itemAsCtrl["Fonts"] = [
        LOGFONTW(),
    ]
    itemAsCtrl["ClientRects"] = [
        RECT(0, 0, 999, 999),
    ]
    itemAsCtrl["ContextHelpID"] = 0
    itemAsCtrl["UserData"] = 0
    itemAsCtrl["Style"] = 0
    itemAsCtrl["ExStyle"] = 0
    itemAsCtrl["IsVisible"] = 1

    return itemAsCtrl
Beispiel #4
0
    def setUp(self):
        """Start the application set some data and ensure the application
        is in the state we want it."""

        # start the application
        from pywinauto.application import Application
        app = Application()
        app.start_(controlspy_folder + "Tab.exe")

        self.texts = [
            "Pluto", "Neptune", "Uranus", "Saturn", "Jupiter", "Mars", "Earth",
            "Venus", "Mercury", "Sun"
        ]

        self.rects = [
            RECT(2, 2, 80, 21),
            RECT(80, 2, 174, 21),
            RECT(174, 2, 261, 21),
            RECT(2, 21, 91, 40),
            RECT(91, 21, 180, 40),
            RECT(180, 21, 261, 40),
            RECT(2, 40, 64, 59),
            RECT(64, 40, 131, 59),
            RECT(131, 40, 206, 59),
            RECT(206, 40, 261, 59),
        ]

        self.app = app
        self.dlg = app.MicrosoftControlSpy
        self.ctrl = app.MicrosoftControlSpy.TabControl.WrapperObject()
Beispiel #5
0
    def setUp(self):
        """Start the application set some data and ensure the application
        is in the state we want it."""
        self.app1 = Application.start("notepad.exe")
        self.app2 = Application.start("notepad.exe")

        self.app1.UntitledNotepad.MoveWindow(RECT(0, 0, 200, 200))
        self.app2.UntitledNotepad.MoveWindow(RECT(0, 200, 200, 400))
Beispiel #6
0
 def test_RECT_hash(self):
     """Test RECT is hashable"""
     r0 = RECT(0)
     r1 = RECT(1)
     d = {"r0": r0, "r1": r1}
     self.assertEqual(r0, d["r0"])
     self.assertEqual(r1, d["r1"])
     self.assertNotEqual(r0, r1)
Beispiel #7
0
    def setUp(self):
        """Set some data and ensure the application is in the state we want"""
        Timings.fast()
        EmptyClipboard()
        self.app1 = Application().start("notepad.exe")
        self.app2 = Application().start("notepad.exe")

        self.app1.UntitledNotepad.MoveWindow(RECT(0, 0, 200, 200))
        self.app2.UntitledNotepad.MoveWindow(RECT(0, 200, 200, 400))
def MissalignmentTest(windows):
    "Run the test on the windows passed in"
    refAlignments = {}

    #find the controls alligned along each axis
    for win in windows:
        if not win.ref:
            continue


        for side in ("top", "left", "right", "bottom"):
            sideValue = getattr(win.ref.Rectangle(), side)

            # make sure that the side dictionary has been created
            sideAlignments = refAlignments.setdefault(side, {})

            # make sure that the array of controls for this
            # alignment line has been created and add the current window
            sideAlignments.setdefault(sideValue, []).append(win)

    bugs = []
    for side in refAlignments:
        for alignment in refAlignments[side]:
            controls = refAlignments[side][alignment]
            sides = [getattr(ctrl.Rectangle(), side) for ctrl in controls]
            sides = set(sides)

            if len(sides) > 1:

                overAllRect = RECT()
                overAllRect.left = min(
                    [ctrl.Rectangle().left for ctrl in controls])
                overAllRect.top = min(
                    [ctrl.Rectangle().top for ctrl in controls])
                overAllRect.right = max(
                    [ctrl.Rectangle().right for ctrl in controls])
                overAllRect.bottom = max(
                    [ctrl.Rectangle().bottom for ctrl in controls])


                bugs.append((
                    controls,
                    {
                        "AlignmentType": side.upper(),
                        "AlignmentRect": overAllRect
                    },
                    testname,
                    0)
                )

    return bugs
    def setUp(self):
        """Start the application set some data and ensure the application
        is in the state we want it."""

        # start the application
        from pywinauto.application import Application
        app = Application()
        app.start_(os.path.join(mfc_samples_folder, "RowList.exe"), timeout=20)

        self.texts = [
            u'Color', u'Red', u'Green', u'Blue', u'Hue', u'Sat', u'Lum',
            u'Type'
        ]
        self.item_rects = [
            RECT(0, 0, 150, 19),
            RECT(150, 0, 200, 19),
            RECT(200, 0, 250, 19),
            RECT(250, 0, 300, 19),
            RECT(300, 0, 400, 19),
            RECT(400, 0, 450, 19),
            RECT(450, 0, 500, 19),
            RECT(500, 0, 650, 19)
        ]

        self.app = app
        self.dlg = app.RowListSampleApplication  #top_window_()
        self.ctrl = app.RowListSampleApplication.Header.WrapperObject()
Beispiel #10
0
    def get_rect(self):
        """
        Get rectangle of app or desktop resolution

        Returns:
            RECT(left, top, right, bottom)

        """
        if self.handle:
            left, top, right, bottom = win32gui.GetWindowRect(self.handle)
            return RECT(left, top, right, bottom)
        else:
            desktop = win32gui.GetDesktopWindow()
            left, top, right, bottom = win32gui.GetWindowRect(desktop)
            return RECT(left, top, right, bottom)
Beispiel #11
0
    def CaptureToImage(self):
        # img = navwin.CaptureAsImage(rect=RECT(200, 36, 250, 53))
        left = 225
        top = 944
        width = 1227
        height = 122
        item_count = 13
        item_width = float(width) / item_count
        result = list()
        for num in range(item_count):
            rect = RECT(
                self.rectMaster.left + self.setting.frame[3] +
                self.left_margin + int((left + (item_width * num)) * self.per),
                self.rectMaster.top + self.setting.frame[0] + self.top_margin +
                int(top * self.per), self.rectMaster.left +
                self.setting.frame[3] + self.left_margin + int(
                    (left + (item_width * num)) * self.per) +
                int(item_width * self.per),
                self.rectMaster.top + self.setting.frame[0] + self.top_margin +
                int(top * self.per) + int(height * self.per))

            img = self.navwin.CaptureAsImage(rect=rect)
            # img.save(str(num) + ".png")
            result.append(img)

        return result
Beispiel #12
0
def readRects():
    rects = []
    try:
        f = open("C:\Automation\TandE Rect Locations.txt", "r")
        for _ in range(4):
            rect = f.readline().split()
            rects.append(
                RECT(int(rect[0]), int(rect[1]), int(rect[2]), int(rect[3])))
        f.close()
    except:
        rects = ([
            RECT(15, 358, 178, 371),
            RECT(2090, 146, 2219, 168),
            RECT(2089, 233, 2191, 255),
            RECT(755, 356, 842, 374)
        ])
    return rects
Beispiel #13
0
    def setUp(self):
        """Start the application set some data and ensure the application
        is in the state we want it."""

        # start the application
        from pywinauto.application import Application
        app = Application()
        app.start_(os.path.join(controlspy_folder, "Header.exe"))

        self.texts = [u'Distance', u'Diameter', u'Mass']
        self.item_rects = [
            RECT(0, 0, 90, 21),
            RECT(90, 0, 180, 21),
            RECT(180, 0, 260, 21)]
        self.app = app
        self.dlg = app.MicrosoftControlSpy
        self.ctrl = app.MicrosoftControlSpy.Header.WrapperObject()
Beispiel #14
0
    def setUp(self):
        """Start the application set some data and ensure the application
        is in the state we want it."""

        # start the application
        from pywinauto.application import Application
        app = Application()
        app.start_(os.path.join(controlspy_folder, "Status bar.exe"))

        self.texts = ["Long text", "", "Status Bar"]
        self.part_rects = [
            RECT(0, 2, 65, 22),
            RECT(67, 2, 90, 22),
            RECT(92, 2, 261, 22)]
        self.app = app
        self.dlg = app.MicrosoftControlSpy
        self.ctrl = app.MicrosoftControlSpy.StatusBar.WrapperObject()
Beispiel #15
0
def _GetMinimumRect(text, font, usableRect, drawFlags):
    """Return the minimum rectangle that the text will fit into

    Uses font, usableRect and drawFlags information to find how
    how to do it accurately
    """

    # try to create the font
    # create a Display DC (compatible to the screen)
    txtDC = win32functions.CreateDC(u"DISPLAY", None, None, None)

    hFontGUI = win32functions.CreateFontIndirect(ctypes.byref(font))

    #    # Maybe we could not get the font or we got the system font
    #    if not hFontGUI:
    #
    #        # So just get the default system font
    #        hFontGUI = win32functions.GetStockObject(win32defines.DEFAULT_GUI_FONT)
    #
    #        # if we still don't have a font!
    #        # ----- ie, we're on an antiquated OS, like NT 3.51
    #        if not hFontGUI:
    #
    #            # ----- On Asian platforms, ANSI font won't show.
    #            if win32functions.GetSystemMetrics(win32defines.SM_DBCSENABLED):
    #                # ----- was...(SYSTEM_FONT)
    #                hFontGUI = win32functions.GetStockObject(
    #                    win32defines.SYSTEM_FONT)
    #            else:
    #                # ----- was...(SYSTEM_FONT)
    #                hFontGUI = win32functions.GetStockObject(
    #                    win32defines.ANSI_VAR_FONT)

    # put our font into the Device Context
    win32functions.SelectObject(txtDC, hFontGUI)

    modifiedRect = RECT(usableRect)
    # Now write the text to our DC with our font to get the
    # rectangle that the text needs to fit in
    win32functions.DrawText(
        txtDC,  # The DC
        unicode(text),  # The Title of the control
        -1,  # -1 because sTitle is NULL terminated
        ctypes.byref(modifiedRect),  # The Rectangle to be calculated to
        #truncCtrlData.drawTextFormat |
        win32defines.DT_CALCRECT | drawFlags)

    #elif modifiedRect.right == usableRect.right and \
    #	modifiedRect.bottom == usableRect.bottom:
    #	print "Oh so you thought you were perfect!!!"

    # Delete the font we created
    win32functions.DeleteObject(hFontGUI)

    # delete the Display context that we created
    win32functions.DeleteDC(txtDC)

    return modifiedRect
Beispiel #16
0
    def get_rect(self):
        """
        Get rectangle

        Returns:
            win32structures.RECT

        """
        if self.app and self._top_window:
            return self._top_window.rectangle()
        else:
            return RECT(right=GetSystemMetrics(0), bottom=GetSystemMetrics(1))
Beispiel #17
0
 def __init__(self, path, obj_tree_path, msr_tree_path):
     self.path = path
     self.obj_tree_path = obj_tree_path
     self.msr_tree_path = msr_tree_path
     self.screen_rect = RECT(0, 0, win32api.GetSystemMetrics(0),
                             win32api.GetSystemMetrics(1))
     self.delay_win_active = .5
     self.app = None
     self.ids = None
     self.params_index = None
     self.do_common_MainWindow = True
     self.do_common_MainWindow_MainMenu = True
    def testRowCount(self):
        self.assertEquals(1, self.ctrl.RowCount())

        dlgClientRect = self.ctrl.Parent().Rectangle(
        )  # use the parent as a reference
        prev_rect = self.ctrl.Rectangle() - dlgClientRect

        # squeeze the tab control to force two rows
        new_rect = RECT(prev_rect)
        new_rect.right = int(new_rect.width() / 2)

        self.ctrl.MoveWindow(
            new_rect.left,
            new_rect.top,
            new_rect.width(),
            new_rect.height(),
        )
        time.sleep(0.1)

        # verify two tab rows
        self.assertEquals(2, self.ctrl.RowCount())

        # restore back the original size of the control
        self.ctrl.MoveWindow(prev_rect)
        self.assertEquals(1, self.ctrl.RowCount())
Beispiel #19
0
    def fromDict(d: dict) -> 'Token':
        """
		Creates a token from a dictionary.

		:param d: The dictionary that represents the Component.
		:type d: dict
		:return: The Token object that was constructed from the dictionary
		:rtype: Token
		"""

        if d is None:
            return None

        t = Token.__new__(Token)

        if d['pic']:
            d["pic"] = Image.fromarray(np.uint8(np.asarray(d["picture"])))

        if d['rectangle']:
            r = RECT()
            r.left = d['rectangle'][0]
            r.top = d['rectangle'][1]
            r.right = d['rectangle'][0] + d['rectangle'][2]
            r.bottom = d['rectangle'][1] + d['rectangle'][3]
            d['rectangle'] = r

        t.__dict__ = d
        return t
    def testRowCount(self):
        self.assertEquals(1, self.ctrl.RowCount())

        dlgClientRect = self.ctrl.Parent().Rectangle() # use the parent as a reference
        prev_rect = self.ctrl.Rectangle() - dlgClientRect

        # squeeze the tab control to force two rows
        new_rect = RECT(prev_rect)
        new_rect.right = int(new_rect.width() / 2) 

        self.ctrl.MoveWindow(
            new_rect.left,
            new_rect.top,
            new_rect.width(),
            new_rect.height(),
            )
        time.sleep(0.1)

        # verify two tab rows
        self.assertEquals(2, self.ctrl.RowCount())

        # restore back the original size of the control
        self.ctrl.MoveWindow(prev_rect)
        self.assertEquals(1, self.ctrl.RowCount())
 def test_RECT_eq(self):
     r0 = RECT(1, 2, 3, 4)
     self.assertEqual(r0, RECT(1, 2, 3, 4))
     self.assertEqual(r0, [1, 2, 3, 4])
     self.assertNotEqual(r0, RECT(1, 2, 3, 5))
     self.assertNotEqual(r0, [1, 2, 3, 5])
     self.assertNotEqual(r0, [1, 2, 3])
     self.assertNotEqual(r0, [1, 2, 3, 4, 5])
     r0.bottom = 5
     self.assertEqual(r0, RECT(1, 2, 3, 5))
     self.assertEqual(r0, (1, 2, 3, 5))
def MissalignmentTest(windows):
    "Run the test on the windows passed in"
    refAlignments = {}

    #find the controls alligned along each axis
    for win in windows:
        if not win.ref:
            continue


        for side in ("top", "left", "right", "bottom"):
            sideValue = getattr(win.ref.Rectangle(), side)

            # make sure that the side dictionary has been created
            sideAlignments = refAlignments.setdefault(side, {})

            # make sure that the array of controls for this
            # alignment line has been created and add the current window
            sideAlignments.setdefault(sideValue, []).append(win)

    bugs = []
    for side in refAlignments:
        for alignment in refAlignments[side]:
            controls = refAlignments[side][alignment]
            sides = [getattr(ctrl.Rectangle(), side) for ctrl in controls]
            sides = set(sides)

            if len(sides) > 1:

                overAllRect = RECT()
                overAllRect.left = min(
                    [ctrl.Rectangle().left for ctrl in controls])
                overAllRect.top = min(
                    [ctrl.Rectangle().top for ctrl in controls])
                overAllRect.right = max(
                    [ctrl.Rectangle().right for ctrl in controls])
                overAllRect.bottom = max(
                    [ctrl.Rectangle().bottom for ctrl in controls])


                bugs.append((
                    controls,
                    {
                        "AlignmentType": side.upper(),
                        "AlignmentRect": overAllRect
                    },
                    testname,
                    0)
                )

    return bugs
Beispiel #23
0
 def testItemRectangles(self):
     "Test getting item rectangles"
     
     yellow_rect = self.ctrl.GetItemRect('Yellow')
     gold_rect = RECT(13, 0, 61, 53)
     self.assertEquals(yellow_rect.left, gold_rect.left)
     self.assertEquals(yellow_rect.top, gold_rect.top)
     self.assertEquals(yellow_rect.right, gold_rect.right)
     if yellow_rect.bottom < 53 or yellow_rect.bottom > 55:
         self.assertEquals(yellow_rect.bottom, gold_rect.bottom)
     
     self.ctrl.GetItem('Green').Click(where='text')
     self.assertEquals(self.ctrl.GetItem('Green').IsSelected(), True)
     
     self.ctrl.GetItem('Magenta').Click(where='icon')
     self.assertEquals(self.ctrl.GetItem('Magenta').IsSelected(), True)
     self.assertEquals(self.ctrl.GetItem('Green').IsSelected(), False)
     
     self.ctrl.GetItem('Green').Click(where='all')
     self.assertEquals(self.ctrl.GetItem('Green').IsSelected(), True)
     self.assertEquals(self.ctrl.GetItem('Magenta').IsSelected(), False)
Beispiel #24
0
 def take_screenshot(self, coords=None):
     self.window.set_focus()
     rect = self.window_rect if coords is None else RECT(*coords)
     img = self.window.capture_as_image(rect)
     return img
Beispiel #25
0
def setupDM(container):
    rects = readRects()
    app = Application(backend="win32").connect(
        path=r"C:\DM54_W16\DM54_W16.exe")

    #     top_windows = []
    #     EnumWindows(windowEnumerationHandler, top_windows)
    #     for i in top_windows:
    #         if 'Dispatch-Mate' in i[1]:
    #             SetWindowPos(i[0], None, 0, 0, 1920, 1080, SWP_SHOWWINDOW)
    #             SetForegroundWindow(i[0])

    winChildren = ""

    dialogs = app.windows()

    click(50, 365)
    fore = win32gui.GetForegroundWindow()
    DMFore = "Dispatch-Mate" in win32gui.GetWindowText(fore)
    while not DMFore:
        top = Tk()
        L1 = Label(
            top,
            text="Please maximize DispatchMate and the PB in the left monitor")
        L1.grid(row=0, column=0)

        def callbackDM():
            top.destroy()

        MyButton4 = Button(top, text="OK", width=10, command=callbackDM)
        MyButton4.grid(row=1, column=0)

        popUp(top, w=350, h=50, widget=MyButton4)

        click(50, 350)
        fore = win32gui.GetForegroundWindow()
        DMFore = "Dispatch-Mate" in win32gui.GetWindowText(fore)
#
#     moveTo(2000, 550)
#     def windowEnumerationHandler(hwnd, top_windows):
#         top_windows.append((hwnd, win32gui.GetWindowText(hwnd)))
#
# #     results = []
#     top_windows = []
#     win32gui.EnumWindows(windowEnumerationHandler, top_windows)
#     for i in top_windows:
#         if "Dispatch-Mate" in i[1].lower():
# #             win32gui.ShowWindow(i[0],5)
#             win32gui.SetForegroundWindow(i[0])
#             break

    for x in dialogs:
        if handleprops.classname(x) == "WinDevObject":
            winChildren = handleprops.children(x)
            topWindow = x
            break

#     description = ""
#     weight = ""
#     pieces = ""
#     terminal = ""
#     containerNumber = ""
#     bond = ""
#     PB = ""
#     sleep(5)
#     topWindowWrap = app.window(handle=topWindow)
#     topWindowWrap.MoveWindow(0,0,1920,1080)
#     topWindowWrap.Maximize()

    for x in winChildren:
        #         print(handleprops.text(x))
        #         if handleprops.classname(x)=="ListBox":
        # #             for y in handleprops.children(x):
        # #                 print(handleprops.text(x))
        #             topWindowWrap = app.window(handle=topWindow)
        #             boxWrap = topWindowWrap.child_window(handle=x).wrapper_object()
        #         if handleprops.text(x)=="Description":
        #             print("desc   " + str(handleprops.rectangle(x)))
        #         if "CUT - 7/13" in handleprops.text(x):
        #             print(handleprops.rectangle(x))
        #         if handleprops.classname(x)=="ComboBox":
        if handleprops.rectangle(x) == RECT(232, 917, 443, 939):
            topWindowWrap = app.window(handle=topWindow)
            boxWrap = topWindowWrap.child_window(handle=x).wrapper_object()
            #             print(boxWrap.texts())
            #             print(boxWrap.selected_index())
            #             print(len(boxWrap.children()))
            #             print(boxWrap.get_properties()['texts'])
            #             for y in boxWrap.texts():
            #                 if y !="":
            #                     print(boxWrap.ItemData(y))
            num = boxWrap.ItemData(boxWrap.texts()[1])
            if num < 6:
                container.size = "20"
            else:
                container.size = "40"
#             else:
#                 container.size = "getInput"
#             if boxWrap.texts()[1]==r"\x0c":
#                 container.size = '40'
#             elif boxWrap.texts()[1]==r"\n":
#                 container.size = '40'
#             elif boxWrap.texts()[1]==r"\x04":
#                 container.size = '20'
#             elif boxWrap.texts()[1]==r"\x03":
#                 container.size = '20'
#             elif boxWrap.texts()[1]==r"\x0b":
#                 container.size = '40'
# #             elif boxWrap.texts()[1]==r"\r":
# #                 container.size = '45'
#             elif boxWrap.texts()[1]==r"\x07":
#                 container.size = '40'
# #         elif handleprops.rectangle(x)==RECT(197, 342, 256, 360):
#         elif handleprops.rectangle(x)==RECT(2090, 146, 2219, 168):
#             weight = x
# #         elif handleprops.rectangle(x)==RECT(512, 342, 569, 360):
#         elif handleprops.rectangle(x)==RECT(2089, 233, 2191, 255):
#             pieces = x
#         elif handleprops.rectangle(x)==RECT(625, 342, 722, 360):
#             containerNumber = x
#         elif handleprops.rectangle(x)==RECT(14, 295, 73, 313):
#             terminal = x
#         elif handleprops.rectangle(x)==RECT(1645, 136, 1818, 171):
#             bond = x
#         elif handleprops.rectangle(x)==RECT(182, 991, 250, 1015):
#             PB = x
        elif handleprops.rectangle(x) == rects[0]:
            container.description = handleprops.text(x)
#         elif handleprops.rectangle(x)==RECT(197, 342, 256, 360):
        elif handleprops.rectangle(x) == rects[1]:
            container.weight = handleprops.text(x)
#         elif handleprops.rectangle(x)==RECT(512, 342, 569, 360):
        elif handleprops.rectangle(x) == rects[2]:
            container.pieces = handleprops.text(x)
        elif handleprops.rectangle(x) == rects[3]:
            container.containerNumber = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(282, 295, 341, 313):
            container.terminal = handleprops.text(x)
#         elif handleprops.rectangle(x)==RECT(1645, 136, 1818, 171):
#             container.bond = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(182, 991, 250, 1015):
            container.PB = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(554, 295, 613, 313):
            container.customer = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(14, 891, 231, 985):
            container.extraText = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(14, 128, 265, 146):
            container.shipper = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(14, 176, 265, 194):
            container.shipperAdd1 = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(14, 224, 265, 242):
            container.shipperCity = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(183, 248, 227, 266):
            if "CDA" in handleprops.text(x):
                container.shipperCountry = "CA"
            elif "USA" in handleprops.text(x):
                container.shipperCountry = "US"
            else:
                container.shipperCountry = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(14, 248, 54, 266):
            container.shipperStateProv = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(55, 248, 182, 266):
            container.shipperZipPost = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(282, 128, 533, 146):
            container.consignee = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(282, 176, 533, 194):
            container.consigneeAdd1 = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(282, 224, 533, 242):
            container.consigneeCity = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(452, 248, 496, 266):
            if "CDA" in handleprops.text(x):
                container.consigneeCountry = "CA"
            elif "USA" in handleprops.text(x):
                container.consigneeCountry = "US"
            else:
                container.consigneeCountry = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(282, 248, 323, 266):
            container.consigneeStateProv = handleprops.text(x)
        elif handleprops.rectangle(x) == RECT(324, 248, 451, 266):
            container.consigneeZipPost = handleprops.text(x)

#         Pb 362000 is used for widths
#         if handleprops.text(x)=="MAEU 463991 2":
#             print("desc")
#             print(handleprops.rectangle(x))
#         elif handleprops.text(x)=="7,660.00":
#             print("we")
#             print(handleprops.rectangle(x))
#         elif handleprops.text(x)=="6":
#             print("pi")
#             print(handleprops.rectangle(x))
#         elif handleprops.text(x)=="MAEU 411606 4":
#             print(handleprops.rectangle(x))
#     print(container.containerNumber)
#     exit()
    container.containerNumber = container.containerNumber.replace(' ', '')
    if (container.description == "" or container.weight == ""
            or container.pieces == "" or container.containerNumber == ""
            or container.terminal == "" or
            #         container.bond == "" or
            container.PB == ""):
        top = Tk()
        L0 = Label(
            top,
            text=
            "Some of the information is missing. Either fill it in below, or ensure \n that your Dispatch-mate is properly formatted and hit \"Try again\". \n To do so, go to PB362000 and double click on the line between \n the boxes that read \"Description\" and \"Weight\""
        )
        L0.grid(row=0, column=0, columnspan=2)
        L1 = Label(top, text="Description:")
        L1.grid(row=1, column=0, sticky=constants.E)
        E1 = Entry(top, bd=5)
        E1.grid(row=1, column=1)
        E1.insert(0, container.description)
        L2 = Label(top, text="Weight:")
        L2.grid(row=2, column=0, sticky=constants.E)
        E2 = Entry(top, bd=5)
        E2.grid(row=2, column=1)
        E2.insert(0, container.weight)
        L3 = Label(top, text="Piece Count:")
        L3.grid(row=3, column=0, sticky=constants.E)
        E3 = Entry(top, bd=5)
        E3.grid(row=3, column=1)
        E3.insert(0, container.pieces)
        L4 = Label(top, text="Container Number:")
        L4.grid(row=4, column=0, sticky=constants.E)
        E4 = Entry(top, bd=5)
        E4.grid(row=4, column=1)
        E4.insert(0, container.containerNumber)
        L5 = Label(top, text="Consignee:")
        L5.grid(row=5, column=0, sticky=constants.E)
        E5 = Entry(top, bd=5)
        E5.grid(row=5, column=1)
        E5.insert(0, container.terminal)
        #         L6 = Label(top, text="Bond #:")
        #         L6.grid(row=6, column=0, sticky=constants.E)
        #         E6 = Entry(top, bd = 5)
        #         E6.grid(row=6, column=1)
        #         E6.insert(0, container.bond)
        L7 = Label(top, text="PB #:")
        L7.grid(row=6, column=0, sticky=constants.E)
        E7 = Entry(top, bd=5)
        E7.grid(row=6, column=1)
        E7.insert(0, container.PB)

        def callbackGoAhead(container):
            container.description = E1.get()
            container.weight = E2.get()
            container.pieces = E3.get()
            container.containerNumber = E4.get()
            container.terminal = E5.get()
            #             container.bond = E6.get()
            container.PB = E7.get()
            top.destroy()

        def checkStuff():
            app = Application(backend="win32").connect(
                path=r"C:\DM54_W16\DM54_W16.exe")
            winChildren = ""

            dialogs = app.windows()
            for x in dialogs:
                if handleprops.classname(x) == "WinDevObject":
                    winChildren = handleprops.children(x)
                    topWindow = x
                    break
            for x in winChildren:
                if handleprops.text(x) == E1.get():
                    rects[0] = handleprops.rectangle(x)
                if handleprops.text(x).replace(",", "") == E2.get():
                    rects[1] = handleprops.rectangle(x)
                if handleprops.text(x) == E3.get():
                    rects[2] = handleprops.rectangle(x)
                if handleprops.text(x) == E4.get():
                    rects[3] = handleprops.rectangle(x)
            writeRects(rects)


#             top.lift()
#             top.attributes('-topmost',True)
#             top.after_idle(top.attributes,'-topmost',False)
#             widget = E1
#             moveTo(widget.winfo_rootx()+widget.winfo_width()/2, widget.winfo_rooty()+5+widget.winfo_height()/2)

        def callbackDetect():
            top.after_idle(checkStuff)

        def callbackTryAgain(container):
            top.destroy()
            setupDM(container)

        MyButton4 = Button(top,
                           text="Use these values",
                           width=17,
                           command=lambda: callbackGoAhead(container))
        MyButton4.grid(row=8, column=1)

        MyButton5 = Button(top,
                           text="Try again",
                           width=10,
                           command=lambda: callbackTryAgain(container))
        MyButton5.grid(row=8, column=0)

        MyButton5 = Button(
            top,
            text=
            "Set box locations: \n (copy description, weight, piece and cont# \n into the boxes above then hit this button)",
            width=10,
            command=callbackDetect)
        MyButton5.grid(row=9,
                       column=0,
                       columnspan=2,
                       sticky=constants.W + constants.E)

        popUp(top, w=380, h=340, widget=E1)
 def test_RECT_repr(self):
     """Test RECT repr"""
     r0 = RECT(0)
     self.assertEqual(r0.__repr__(), "<RECT L0, T0, R0, B0>")
 def test_RECT_hash(self):
     """Test RECT is not hashable"""
     self.assertRaises(TypeError, hash, RECT())
Beispiel #28
0
def MissalignmentTest(windows):
    "Run the test on the windows passed in"
    refAlignments = {}

    #find the controls alligned along each axis
    for win in windows:
        if not win.ref:
            continue

        for side in ("top", "left", "right", "bottom"):
            sideValue = getattr(win.ref.Rectangle(), side)

            # make sure that the side dictionary has been created
            sideAlignments = refAlignments.setdefault(side, {})

            # make sure that the array of controls for this
            # alignment line has been created and add the current window
            sideAlignments.setdefault(sideValue, []).append(win)

    bugs = []
    for side in refAlignments:
        for alignment in refAlignments[side]:
            # get the controls that were alligned
            controls = refAlignments[side][alignment]

            # get the sides of the current controls
            sides = [getattr(ctrl.Rectangle(), side) for ctrl in controls]

            # if one or more of the controls have a differnt value for this
            # side
            if len(set(sides)) > 1:
                if side in ("top bottom"):
                    # find how far away from each other the controls are...
                    lefts = [c.ref.Rectangle().left for c in controls]
                    rights = [c.ref.Rectangle().right for c in controls]

                    nearest = []
                    for i, c1 in enumerate(controls):
                        for c2 in controls[i + 1:]:
                            dist = min(
                                abs(c1.Rectangle().right -
                                    c2.Rectangle().left),
                                abs(c1.Rectangle().left -
                                    c2.Rectangle().right))

                            if dist < 40 and getattr(c1.Rectangle(),
                                                     side) != getattr(
                                                         c2.Rectangle(), side):
                                buggy_controls.append((c1, c2))

            else:
                if side in ("left right"):
                    # find how far away from each other the controls are...
                    lefts = [c.ref.Rectangle().left for c in controls]
                    rights = [c.ref.Rectangle().right for c in controls]

                    for left in left:
                        for right in rights:
                            if min(abs(right - left), abs(left - right)) > 40:
                                continue

            sides = set(sides)

            if len(sides) > 1:

                overAllRect = RECT()
                overAllRect.left = min(
                    [ctrl.Rectangle().left for ctrl in controls])
                overAllRect.top = min(
                    [ctrl.Rectangle().top for ctrl in controls])
                overAllRect.right = max(
                    [ctrl.Rectangle().right for ctrl in controls])
                overAllRect.bottom = max(
                    [ctrl.Rectangle().bottom for ctrl in controls])

                bugs.append((controls, {
                    "AlignmentType": side.upper(),
                    "AlignmentRect": overAllRect
                }, testname, 0))

    return bugs
def MissalignmentTest(windows):
    "Run the test on the windows passed in"
    refAlignments = {}

    #find the controls alligned along each axis
    for win in windows:
        if not win.ref:
            continue


        for side in ("top", "left", "right", "bottom"):
            sideValue = getattr(win.ref.Rectangle(), side)

            # make sure that the side dictionary has been created
            sideAlignments = refAlignments.setdefault(side, {})

            # make sure that the array of controls for this
            # alignment line has been created and add the current window
            sideAlignments.setdefault(sideValue, []).append(win)

    bugs = []
    for side in refAlignments:
        for alignment in refAlignments[side]:
            # get the controls that were alligned
            controls = refAlignments[side][alignment]

            # get the sides of the current controls
            sides = [getattr(ctrl.Rectangle(), side) for ctrl in controls]

            # if one or more of the controls have a differnt value for this
            # side
            if len(set(sides)) > 1:
                if side in ("top bottom"):
                    # find how far away from each other the controls are...
                    lefts = [c.ref.Rectangle().left for c in controls]
                    rights = [c.ref.Rectangle().right for c in controls]

                    nearest = []
                    for i, c1 in enumerate(controls):
                        for c2 in controls[i+1:]:
                            dist = min (
                                abs(c1.Rectangle().right - c2.Rectangle().left),
                                abs(c1.Rectangle().left - c2.Rectangle().right))

                            if dist < 40 and getattr(c1.Rectangle(), side) != getattr(c2.Rectangle(), side):
                                buggy_controls.append((c1, c2))


            else:
                if side in ("left right"):
                    # find how far away from each other the controls are...
                    lefts = [c.ref.Rectangle().left for c in controls]
                    rights = [c.ref.Rectangle().right for c in controls]

                    for left in left:
                        for right in rights:
                            if min (abs(right - left), abs(left - right)) > 40:
                                continue




            sides = set(sides)

            if len(sides) > 1:

                overAllRect = RECT()
                overAllRect.left = min(
                    [ctrl.Rectangle().left for ctrl in controls])
                overAllRect.top = min(
                    [ctrl.Rectangle().top for ctrl in controls])
                overAllRect.right = max(
                    [ctrl.Rectangle().right for ctrl in controls])
                overAllRect.bottom = max(
                    [ctrl.Rectangle().bottom for ctrl in controls])


                bugs.append((
                    controls,
                    {
                        "AlignmentType": side.upper(),
                        "AlignmentRect": overAllRect
                    },
                    testname,
                    0)
                )

    return bugs
Beispiel #30
0
 def testGetButtonRect(self):
     self.assertEquals(self.ctrl.GetButtonRect(0), RECT(6, 0, 29, 22))