########################################################################### # # Copyright (c) 2019-2021 Diality Inc. - All Rights Reserved. # # THIS CODE MAY NOT BE COPIED OR REPRODUCED IN ANY FORM, IN PART OR IN # WHOLE, WITHOUT THE EXPLICIT PERMISSION OF THE COPYRIGHT OWNER. # # @file utils.py # # @author (last) Joseph varghese # @date (last) 15-Jan-2022 # ############################################################################ import names import sys import test import squish from configuration import config from dialin.ui import utils from builtins import int as pyInt from datetime import datetime def check_if_object_is_within_the_container(obj=None, container=None): """ check if an object is inside a container @param obj - (obj) child UI object @param container - (obj) container UI object @return boolean true/false """ container = squish.findObject(container) containerPos = container.mapToGlobal(QPoint(0, 0)) container_x, container_y = pyInt(containerPos.x), pyInt(containerPos.y) container_width, container_height = pyInt(container.width), pyInt(container.height) obj = squish.findObject(obj) objPos = obj.mapToGlobal(QPoint(0, 0)) obj_x, obj_y = pyInt(objPos.x), pyInt(objPos.y) obj_width, obj_height = pyInt(obj.width), pyInt(obj.height) if obj_x >= container_x and obj_y >= container_y: if (obj_x + obj_width) <= (container_x + container_width) and (obj_y + obj_height) <= (container_y + container_height): return True return False def scroll_to_zone(zone=None, screen_object=None): """ scroll to the numeric if object is hidden @param zone - UI object @param screen_object - UI object (UI Home screen = waveforms + numerics) @return boolean true/false """ counter = 0 while counter <= 100: try: counter += 1 squish.findObject(zone) squish.snooze(0.5) if check_if_object_is_within_the_container(obj=zone, container=screen_object): return True else: raise RuntimeError except RuntimeError: ScreenObj = squish.waitForObject(screen_object) screenHeight = pyInt(ScreenObj.height) screenWidth = pyInt(ScreenObj.width) squish.mouseWheel(ScreenObj, screenWidth-1000, screenHeight-10, 0, -50, Qt.NoModifier) raise LookupError("zone object is not in view to the user after " + \ "trying 100 times") def get_current_date_and_time(date_format='%Y/%b/%d - %H:%M'): date = datetime.now() return str(date.strftime(date_format)) def enter_keypad_value(entry): """ Method to enter user desired value using keypad @param entry: (str) User expected value """ test.startSection("Entering {}".format(entry)) for value in entry: value = pyInt(value) key_val = squish.waitForObject(keypad_input(value)) squish.mouseClick(key_val) utils.waitForGUI(1) test.endSection() def erase_entered_value(input_field): """ Method to erase the entered value @param input_field - (obj) object of input field """ test.startSection("Erasing value") input_field= squish.waitForObject(input_field) entered_value = str(input_field.text) for value in range(len(entered_value)+1): utils.waitForGUI(1) squish.mouseClick(squish.waitForObjectExists(names.o_back_space_key)) test.compare(str(input_field.text), "", "Input field should be empty") test.endSection() def vitals_reading_obj(reading): names.o_vitals_reading["text"] = reading return names.o_vitals_reading def keypad_input(key_value): names.o_keypad_input["text"] = key_value return names.o_keypad_input def vitals_interval_obj(interval): names.o_time_interval_obj["text"] = interval return names.o_time_interval_obj def msg(string): """ Added ### at the right side of the string to make sure that it is a message. @param string: (str) the string to add trailing ### to @return pad_str: (str) padded string """ padded_str = "###"+string return padded_str def set_arterial_ranges_min_val(art_low): """ Method to set the Arterial range maximum value to user expected value @param art_low - (int) user expected value """ test.startSection("Set Arterial range minimum value to {}".format(art_low)) arterial_min = squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Artery) arterial_min = pyInt(arterial_min.minimum) arterial_max = squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Artery) arterial_max = pyInt(arterial_max.maximum) low_handler_parent = object.parent(squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Artery)) low_handler_children = object.children(low_handler_parent) low_handler = low_handler_children[-2] width = pyInt(low_handler.width) - 8 height = pyInt(low_handler.height)- 10 if arterial_min == art_low: test.passes("Arterial range minimum is already set to {}".format(art_low)) elif arterial_min < art_low: while arterial_min != art_low: squish.mouseDrag(low_handler, width, height, 1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) arterial_min += 10 # arterial blood pressure low limit should be lower than the high limit by at least 30mmHg if arterial_min == arterial_max - config.BUFFER_LOW_AND_HIGH_LIMITS: squish.mouseDrag(low_handler, width, height, 1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) test.log("Arterial range minimum value cannot be moved beyond {}".format(arterial_min)) break else: continue elif arterial_min > art_low: while arterial_min != art_low: squish.mouseDrag(low_handler, width, height, -1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) arterial_min -= 10 # arterial blood pressure low limit should be lower than the high limit by at least 30mmHg if arterial_min == arterial_max - config.BUFFER_LOW_AND_HIGH_LIMITS: squish.mouseDrag(low_handler, width, height, -1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) test.log("Arterial range minimum value cannot be moved beyond {}".format(arterial_min)) break else: continue # arterial blood pressure low limit should be lower than the high limit by atleast 30mmHg if arterial_min == arterial_max - config.BUFFER_LOW_AND_HIGH_LIMITS: test.compare(low_handler_parent.minValue, arterial_min, "Arterial range minimum value cannot be moved beyond {}".format(arterial_min)) else: test.compare(arterial_min, art_low, "Actual Arterial range minimum value: {} is equal to Expected value: {}".format(arterial_min, art_low)) test.endSection() def set_arterial_ranges_max_val(art_high): """ Method to set the Arterial range maximum value to user expected value @param art_high - (int) user expected value """ test.startSection("Set Arterial range maximum value to {}".format(art_high)) arterial_max = squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Artery) arterial_max = pyInt(arterial_max.maximum) arterial_min = squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Artery) arterial_min = pyInt(arterial_min.minimum) high_handler_parent = object.parent(squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Artery)) high_handler_children = object.children(high_handler_parent) high_handler = high_handler_children[-1] width = pyInt(high_handler.width) - 20 height = pyInt(high_handler.height) - 25 if arterial_max == art_high: test.passes("Arterial range maximum is already set to {}".format(art_high)) elif arterial_max < art_high: while arterial_max != art_high: squish.mouseDrag(high_handler, -1, height, width, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) arterial_max += 10 # arterial blood pressure low limit should be lower than the high limit by at least 30mmHg if arterial_max == arterial_min + config.BUFFER_LOW_AND_HIGH_LIMITS: squish.mouseDrag(high_handler, width, height, 1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) test.log("Arterial range maximum value cannot be moved beyond {}".format(arterial_max)) break else: continue elif arterial_max > art_high: while arterial_max != art_high: squish.mouseDrag(high_handler, width, height, -1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) arterial_max -= 10 # arterial blood pressure low limit should be lower than the high limit by at least 30mmHg if arterial_max == arterial_min + config.BUFFER_LOW_AND_HIGH_LIMITS: squish.mouseDrag(high_handler, width, height, -1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) test.log("Arterial range maximum value cannot be moved beyond {}".format(arterial_max)) break else: continue # arterial blood pressure low limit should be lower than the high limit by at least 30mmHg if arterial_max == arterial_min + config.BUFFER_LOW_AND_HIGH_LIMITS: test.compare(high_handler_parent.maxValue, arterial_max, "Arterial range maximum value cannot be moved beyond {}".format(arterial_max)) else: test.compare(arterial_max, art_high, "Actual Arterial range maximum value: {} is equal to Expected value: {}".format(arterial_max, art_high)) test.endSection() def set_venous_ranges_max_val(ven_high): """ Method to set the Venous range maximum value to user expected value @param ven_high - (int) user expected value """ test.startSection("Set Venous range maximum value to {}".format(ven_high)) ven_max = squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Venous) ven_max = pyInt(ven_max.maximum) ven_min = squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Venous) ven_min = pyInt(ven_min.minimum) high_handler_parent = object.parent(squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Venous)) high_handler_children = object.children(high_handler_parent) high_handler = high_handler_children[-1] width = pyInt(high_handler.width) - 15 height = pyInt(high_handler.height) - 10 if ven_max == ven_high: test.passes("Venous range maximum is already set to {}".format(ven_high)) elif ven_max < ven_high: while ven_max != ven_high: squish.mouseDrag(high_handler, width, height, 1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) ven_max += 10 # venous blood pressure low limit should be lower than the high limit by at least 30mmHg if ven_max == ven_min + config.BUFFER_LOW_AND_HIGH_LIMITS: squish.mouseDrag(high_handler, width, height, 1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) test.log("Venous range maximum value cannot be moved beyond {}".format(ven_max)) break else: continue elif ven_max > ven_high: while ven_max != ven_high: squish.mouseDrag(high_handler, width, height, -1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) ven_max -= 10 # venous blood pressure low limit should be lower than the high limit by at least 30mmHg if ven_max == ven_min + config.BUFFER_LOW_AND_HIGH_LIMITS: squish.mouseDrag(high_handler, width, height, -1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) test.log("Venous range maximum value cannot be moved beyond {}".format(ven_max)) break else: continue # venous blood pressure low limit should be lower than the high limit by at least 30mmHg if ven_max == ven_min + config.BUFFER_LOW_AND_HIGH_LIMITS: test.compare(high_handler_parent.maxValue, ven_max, "Venous range maximum value cannot be moved beyond {}".format(ven_max)) else: test.compare(ven_max, ven_high, "Actual Venous range maximum value: {} is equal to Expected value: {}".format(ven_max, ven_high)) test.endSection() #Methods for create custom treatment def set_venous_ranges_min_val(ven_low): """ Method to set the Venous range maximum value to user expected value @param ven_low - (int) user expected value """ test.startSection("set Venous range minimum value to {}".format(ven_low)) ven_min = squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Venous) ven_min = pyInt(ven_min.minimum) ven_max = squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Venous) ven_max = pyInt(ven_max.maximum) low_handler_parent = object.parent(squish.waitForObjectExists(names.o_PreTreatmentCreate_rangeRect_RangeRect_Venous)) low_handler_children = object.children(low_handler_parent) low_handler = low_handler_children[-2] width = pyInt(low_handler.width) - 15 height = pyInt(low_handler.height) - 10 if ven_min == ven_low: test.passes("Venous range minimum is already set to {}".format(ven_low)) elif ven_min < ven_low: while ven_min != ven_low: squish.mouseDrag(low_handler, width, height, 1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) ven_min += 10 if ven_min == ven_max - config.BUFFER_LOW_AND_HIGH_LIMITS: # venous blood pressure low limit should be lower than the high limit by at least 30mmHg squish.mouseDrag(low_handler, width, height, 1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) test.log("Venous range minimum value cannot be moved beyond {}".format(ven_min)) break else: continue elif ven_min > ven_low: while ven_min != ven_low: squish.mouseDrag(low_handler, width, height, -1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) ven_min -= 10 # venous blood pressure low limit should be lower than the high limit by at least 30mmHg if ven_min == ven_max - config.BUFFER_LOW_AND_HIGH_LIMITS: squish.mouseDrag(low_handler, width, height, -1, 0, squish.Qt.NoModifier, squish.Qt.LeftButton) test.log("Venous range minimum value cannot be moved beyond {}".format(ven_min)) break else: continue # venous blood pressure low limit should be lower than the high limit by at least 30mmHg if ven_min == ven_max - config.BUFFER_LOW_AND_HIGH_LIMITS: test.compare(low_handler_parent.minValue, ven_min, "Venous range minimum value cannot be moved beyond {}".format(ven_min)) else: test.compare(ven_min, ven_low, "Actual Venous range minimum value: {} is equal to Expected value: {}".format(ven_min, ven_low)) test.endSection()