Index: shared/scripts/configuration/config.py =================================================================== diff -u -r8fa2ad80ba80d1c413af323af4c48500383c52b5 -r1f14a93d8f8abd91c6e860c0958e243375faab06 --- shared/scripts/configuration/config.py (.../config.py) (revision 8fa2ad80ba80d1c413af323af4c48500383c52b5) +++ shared/scripts/configuration/config.py (.../config.py) (revision 1f14a93d8f8abd91c6e860c0958e243375faab06) @@ -6,9 +6,9 @@ # 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 +# @file config.py # -# @author (last) Joseph varghese +# @author (last) LTTS # @date (last) 18-Jan-2022 # ############################################################################ @@ -19,26 +19,50 @@ AUT_NAME = "denaliSquish" COMMON_PATH = os.environ['HOME']+"/Projects" - -COLOR_CODES = {"Aqua": "#81ffff", "Blue": "#017dea", "Blue 2": "#1090d5", "Green": "#29fd2d", "Grey": "#d3d3d3", - "Lavender": "#db98f5", "Light Blue": "#acd7f1", "Light Teal": "#29f1da","Lime": "#b7fc36", - "Magenta":"#fd28fd", "Orange": "#f2721c", "Peach":"#f1979a", "Red": "#c53b33", "Rose":"#fc178d", - "Slate blue":"#7f7ffa", "Violet": "#6435c9", "White": "#ffffff", "Yellow": "#fcfc4d"} - -#standby mode -GOODMORNING_START_TIME_SEC = 0 -GOODEVENING_START_TIME_SEC = 43200 - -BLOOD_PRIMING_TEXT = "Blood Priming" -SALINE_UNIT = "mL" -#BLOOD_PRIMING_DEFAULT_VALUE = "0 mL" - #instructions_imagelocation INSTRUCTION_CONF_LOCATION = "/home/denali/Projects/application/resources/settings/Instructions/Instructions.conf" IMAGE_LOCATION = "file:///home/denali/Projects/application/resources/settings/Instructions/" EXPECTED_IMAGE_LOCATION = "/home/denali/Projects/application/resources/settings/Instructions/" +SERVICE_CONF_LOCATION = os.environ['HOME']+"/Projects/application/resources/settings/Service.conf" +TREATMENT_LOG_LOCATION = '/home/denali/Desktop/sd-card/treatment/*.log' +ACCEPTED = True +REJECTED = False +ENABLED = True +DISABLED = False +CURRENT_COLOR = '#000000' +COMPLETE_COLOR = '#4290ec' +ENABLED_COLOR = '#fcfcfc' +INCOMPLETE_COLOR = '#607a91' +OUT_OF_RANGE_COLOR = "#c53b33" + +#main treatment screen +IN_RANGE_COLOR = "#fcfcfc" +SYSTOLIC_LOWER_LIMIT = 60 +SYSTOLIC_UPPER_LIMIT = 250 +DIASTOLIC_LOWER_LIMIT = 40 +DIASTOLIC_UPPER_LIMIT = 200 +HEART_RATE_LOWER_LIMIT = 40 +HEART_RATE_UPPER_LIMIT = 180 + +KEYBOARD_SWITCH = ["ABC", "&123"] + +HEPARIN_TYPE = "UFH 1,000 IU/mL" +ACID_CONCENTRATE = ["Fres. Naturalyte", "08-1251-1", "08-2251-0", "08-3251-9"] +BICARBONATE_CONCENTRATE = "Fres. Centrisol" +DIALYZER_TYPE = ["BB Diacap Pro 13H", "BB Diacap Pro 16H", "BB Diacap Pro 19H", "F Optiflux F160NRe", "F Optiflux F180NRe"] + +COLOR_CODES = {"Aqua": "#81ffff", "Blue": "#017dea", "Blue 2": "#1090d5", "Green": "#29fd2d", "Grey": "#d3d3d3", + "Lavender": "#db98f5", "Light Blue": "#acd7f1", "Light Teal": "#29f1da","Lime": "#b7fc36", + "Magenta":"#fd28fd", "Orange": "#f2721c", "Peach":"#f1979a", "Red": "#c53b33", "Rose":"#fc178d", + "Slate blue":"#7f7ffa", "Violet": "#6435c9", "White": "#ffffff", "Yellow": "#fcfc4d"} + +TREATMENT_UNHIGHLIGHTED_COLOR = "#000000" +TREATMENT_HIGHLIGHTED_COLOR = "#135088" +OPERATIONAL_PARAMETERS = {"Heparin Type": HEPARIN_TYPE, "Acid Concentrate": "Fres. Naturalyte", + "Bicarbonate Concentrate": BICARBONATE_CONCENTRATE, "Dialyzer Type": "BB Diacap Pro 16H"} + #create custom treatment HIGHER_VALUE_OF_BLOOD_FLOW_RATE = 500 LOWER_VALUE_OF_BLOOD_FLOW_RATE = 100 @@ -54,13 +78,131 @@ VENOUS_VALUE_570 = 570 POSITIVE_BUFFER = 10 NEGATIVE_BUFFER = -10 + +NUM_OF_ALARM_PRIORITIES = 4 # Total number of alarm priorities +ACCEPTED = True +REJECTED = False -#Time_Duration -CREATE_TREATMENT_PARAMETERS = ["Blood Flow Rate", "Dialysate Flow Rate", "Duration","Heparin Dispensing Rate", - "Heparin Bolus Volume","Heparin Stop Time", "Saline Bolus","Dialysate Temperature","Blood Pressure Measurement Interval", - "Rinseback Flow Rate"] -TREATMENT_PAUSED_TEXT = "Treatment Paused" + +NUM_OF_REQUEST_REJECT_REASONS = 43 +NUM_OF_MSG_ID = 289 + + +ALARM_ID_NO_ALARM = 0 +ALARM_ID_OUT_OF_RANGE = 290 + +# alarm colors +ALARMS_COLORS_HEADER = { + "ALARM_PRIORITY_NONE" : "#438feb", + "ALARM_PRIORITY_LOW" : "#db8f00", + "ALARM_PRIORITY_MEDIUM" : "#db8f00", + "ALARM_PRIORITY_HIGH" : "#831913" +} + +ALARMS_COLORS_BODY = { + "ALARM_PRIORITY_NONE" : "#254670", + "ALARM_PRIORITY_LOW" : "#f5a623", + "ALARM_PRIORITY_MEDIUM" : "#f5a623", + "ALARM_PRIORITY_HIGH" : "#c53b33" +} + +ALARM_MUTE_FLAG = 0B0000001000000000 +ALARM_UNMUTE_FLAG = 0B0000000000000000 + +ALARM_BUTTONS_OK = 0B0000000010111000 + +ALARM_BUTTONS_RESUME = 0B0000000000110000 +ALARM_BUTTONS_RESUME_RINSEBACK = 0B0000000000100000 +ALARM_BUTTONS_RESUME_END = 0B0000000000010000 + +ALARM_BUTTONS_RINSEBACK = 0B0000000000101000 +ALARM_BUTTONS_RINSEBACK_RESUME = ALARM_BUTTONS_RESUME_RINSEBACK +ALARM_BUTTONS_RINSEBACK_END = 0B0000000000001000 + +ALARM_BUTTONS_END = 0B0000000000011000 +ALARM_BUTTONS_END_RESUME = ALARM_BUTTONS_RESUME_END +ALARM_BUTTONS_END_RINSEBACK = ALARM_BUTTONS_RINSEBACK_END + +ALARM_BUTTONS_RESUME_RINSEBACK_END = 0B0000000000000000 +ALARM_BUTTONS_RINSEBACK_RESUME_END = ALARM_BUTTONS_RESUME_RINSEBACK_END +ALARM_BUTTONS_END_RESUME_RINSEBACK = ALARM_BUTTONS_RESUME_RINSEBACK_END + +#standby mode & ultrafiltration +SALINE_BOLUS_CUMULATIVE = 300 +UF_MINIMUM_VALUE = 0 +UF_MAXIMUM_VALUE = 600 + + +#standby mode +GOODMORNING_START_TIME_SEC = 0 +GOODEVENING_START_TIME_SEC = 43200 + +#main treatment pressure +ACCEPTED = True +REJECTED = False + +#pressure +PRESSURE_STEPS = 10 +ARTERIAL_PRESSURE_MINIMUM = -400 +ARTERIAL_PRESSURE_MAXIMUM = +600 +ARTERIAL_PRESSURE_LOW_MIN = -300 +ARTERIAL_PRESSURE_LOW_DEF = -300 +ARTERIAL_PRESSURE_LOW_MAX = +200 +ARTERIAL_PRESSURE_HIGH_MIN = -300 +ARTERIAL_PRESSURE_HIGH_DEF = +100 +ARTERIAL_PRESSURE_HIGH_MAX = +200 + +VENOUS_PRESSURE_MINIMUM = -100 +VENOUS_PRESSURE_MAXIMUM = +700 +VENOUS_PRESSURE_LOW_MIN = -100 +VENOUS_PRESSURE_LOW_DEF = -100 +VENOUS_PRESSURE_LOW_MAX = +600 +VENOUS_PRESSURE_HIGH_MIN = +100 +VENOUS_PRESSURE_HIGH_DEF = +400 +VENOUS_PRESSURE_HIGH_MAX = +600 + +#main_treatment_flows +BLOOD_FLOW_MINIMUM_VALUE = 100 +BLOOD_FLOW_BUFFER = 25 +FLOW_SLIDER_WIDTH_BUFFER = 37 +BLOOD_FLOW_MAXIMUM_VALUE = 500 +DIALYSATE_FLOW_MINIMUM_VALUE = 0 +DIALYSATE_FLOW_MAXIMUM_VALUE = 0 # Seems to be bug. need change +DIALYSATE_FLOW_BUFFER = 50 +DIALYSATE_FLOW_SLIDER_WIDTH_BUFFER = 60 + + + +#main treatment screen +OUT_OF_RANGE_COLOR = "#c53b33" +IN_RANGE_COLOR = "#fcfcfc" +SYSTOLIC_LOWER_LIMIT = 60 +SYSTOLIC_UPPER_LIMIT = 250 +DIASTOLIC_LOWER_LIMIT = 40 +DIASTOLIC_UPPER_LIMIT = 200 +HEART_RATE_LOWER_LIMIT = 40 +HEART_RATE_UPPER_LIMIT = 180 +BLOOD_PRIMING_RANGE = 300 +BLOOD_PRIMING_TARGET_MAXIMUM = 300 + +#tst_pretreatment_screens +NUM_OF_PRETREATMENT_BULLETS = len(PRE_TREATMENT_SCREENS) +SALINE_BOLUS_CUMULATIVE = 300 + +#patient id +KEYBOARD_SWITCH = ["ABC", "&123"] +PATIENT_ID_COMBINATION = { + "qwerty" : "qwerty", + "sampleid" : "sampleid", + "abcdefghijklmnop" : "abcdefghijklmnop", + "patientid" : "patientid", + "username" : "username", + "sA@MpLE#123" : "sAMpLE123", + "A@BH&321" : "ABH321", + "5432@qwerty" : "5432qwerty" +} + #dictionary consist of custom treatment values CREATE_CUSTOM_TREATMENT = { "Blood Flow Rate": 250, @@ -79,7 +221,6 @@ "Rinseback Rate" : 100, "Venous Pressure Limit High" : 590, "Venous Pressure Limit Low": 560 - } #dictionary consist of slider values of treatment parameters @@ -112,7 +253,176 @@ "rinseback_flow_rate" : [50, 25, 187], } -BLOOD_PRIMING_UNIT = "mL" -BLOOD_PRIMING_VALUE_0 = "0" -BLOOD_PRIMING_DEFAULT_VALUE = BLOOD_PRIMING_VALUE_0 + " " + BLOOD_PRIMING_UNIT +#ultrafilteration volume based on flow parameters. Python list contains Rotational speed, Motor speed, +# MC speed, MC current and PWM. +TREATMENT_ULTRAFILTRATION_FLOW_PARAMETERS = { + 0 : [100, 0, 0, 0, 0, 0, 0], + 1 : [220, 1.45, 1.45, 1.45, 1.45, 1.45, 1.45], + } + +#dictionary contains uf maximum and minimum value's to set. +TREATMENT_ULTRAFILTRATION_TESTING_OPTION = { + 0 : {"uf_maximum" : 600, "uf_minimum" : 0}, + 1 : {"uf_maximum" : 480, "uf_minimum" : 250}, + } + +#tst_pretreatment_screens +NUM_OF_PRETREATMENT_BULLETS = len(PRE_TREATMENT_SCREENS) + +#dictionary contains saline cumulative and saline delivered value +#key : saline cumulative value. +#value: saline delivered value +SALINE_BOLUS_VALUES = { + 0 : 0, + 1.0 : 1.0, + 125.56 : 100.56, + 165.87 : 145.87, + 220.65 : 220.65, + 325.25 : 300.25, + 400.86 : 380.86, + 500.00 : 500.25, + 634.76 : 634.76, + 823.65 : 800.65, + 999.99 : 999.99, + 1000 : 1000 +} + +# pretreatment_patient_connection +SYSTOLIC_PRESSSURE_120 = 120 +SYSTOLIC_PRESSSURE_113 = 113 +SYSTOLIC_PRESSSURE_150 = 150 +SYSTOLIC_PRESSSURE_175 = 175 +SYSTOLIC_PRESSSURE_200 = 200 +SYSTOLIC_PRESSSURE_200 = 200 +SYSTOLIC_PRESSSURE_251 = 251 +SYSTOLIC_PRESSSURE_59 = 59 +SYSTOLIC_PRESSSURE_15 = 15 +DIASTOLIC_PRESSSURE_25 = 25 +DIASTOLIC_PRESSSURE_39 = 39 +DIASTOLIC_PRESSSURE_74 = 74 +DIASTOLIC_PRESSSURE_80 = 80 +DIASTOLIC_PRESSSURE_85 = 85 +DIASTOLIC_PRESSSURE_60 = 60 +DIASTOLIC_PRESSSURE_150 = 150 +DIASTOLIC_PRESSSURE_200 = 200 +DIASTOLIC_PRESSSURE_201 = 201 +HEART_RATE_VAL_39 = 39 +HEART_RATE_VAL_60 = 60 +HEART_RATE_VAL_70 = 70 +HEART_RATE_VAL_85 = 85 +HEART_RATE_VAL_100 = 100 +HEART_RATE_VAL_101 = 101 +HEART_RATE_VAL_110 = 110 +HEART_RATE_VAL_181 = 181 +HEART_RATE_VAL_200 = 200 +UF_MINIMUM_SLIDER_WIDTH = -2 +UF_MAXIMUM_SLIDER_WIDTH = 638.00 +UF_VALID_RANGE = 700 +TRAINING_INDICATOR_SCREEN = 4 +ULTRAFILTRATION_VOLUME_COMBINATION_FROM_ULTRAFILTRATION_SETUP_SCREEN = { + "OPTION_1" : {"uf_maximum" : 800, "uf_minimum" : 0}, + "OPTION_2" : {"uf_maximum" : 500, "uf_minimum" : 0}, + "OPTION_3" : {"uf_maximum" : 550, "uf_minimum" : 0}, + "OPTION_4" : {"uf_maximum" : 300, "uf_minimum" : 0}, + "OPTION_5" : {"uf_maximum" : 280, "uf_minimum" : 0}, + "OPTION_6" : {"uf_maximum" : 765, "uf_minimum" : 0}, + "OPTION_7" : {"uf_maximum" : 680, "uf_minimum" : 0}, + "OPTION_8" : {"uf_maximum" : 1500, "uf_minimum" : 0}, + "OPTION_9" : {"uf_maximum" : 390, "uf_minimum" : 0}, + "OPTION_10" : {"uf_maximum" : 800, "uf_minimum" : 0}, + "OPTION_11" : {"uf_maximum" : 1000, "uf_minimum" : 0}, + "OPTION_12" : {"uf_maximum" : 1250, "uf_minimum" : 0}, + } + +#tst_pretreatment_screens color palettes +CURRENT_COLOR = '#000000' +COMPLETE_COLOR= '#4290ec' +ENABLED_COLOR = '#fcfcfc' +INCOMPLETE_COLOR = '#607a91' + + +#pre-treatment_priming +NOT_VISIBLE = False +VISIBLE = True +FOCUS = True +NOT_IN_FOCUS = False +TIME_OUT_DURATION_300 = 300 +TIME_OUT_DURATION_200 = 200 +TIME_OUT_DURATION_100 = 100 +COUNT_DOWN_TIME_100 = 100 +MINIMUM_COUNTDOWN_TIME = 0 +ENABLED = True +DISABLED = False +CONSUMABLE_SELF_TEST_BICARB_PUMP_CHECK_STATE = 3 + + +#pre-treatment_priming +NOT_VISIBLE = False +VISIBLE = True +FOCUS = True +NOT_IN_FOCUS = False + +#Filter Flush + +MAXIMUM_COUNTDOWN_TIME = 300 +MINIMUM_COUNTDOWN_TIME = 0 +TIME_OUT_DURATION_300 = 300 +TIME_OUT_DURATION_200 = 200 +TIME_OUT_DURATION_100 = 100 +COUNT_DOWN_TIME_100 = 100 +MINIMUM_COUNTDOWN_TIME = 0 +CONSUMABLE_SELF_TEST_BICARB_PUMP_CHECK_STATE = 3 + +VALID = True +INVALID = False + +#post treatment review +ACID_CONCENTRATE_POST = ["Fres. Naturalyte", "08-1251-1", "08-2251-0", "08-3251-9", "08-3251-9"] +BRIGHTNESS_MIN_VAL = 20 +BRIGHTNESS_MAX_VAL = 100 +VOLUME_MIN_VAL = 20 +VOLUME_MAX_VAL = 100 + +#dictionary consist of review parameters values of post treatment +POST_TREATMENT_REVIEW_PARAMETER_RANGE = { + "Patient ID": ["abcd", "xyz"], + "Heparin Stop": [0, 101], + "Device ID": [1234, 1234], + "Heparin Delivered Volume": [10.1, 10.5], + "Blood Flow Rate": [100, 125], + "Treatment Start DateTime": [1654519251, 1623382321], + "Dialysate Flow Rate": [100, 150], + "Treatment End DateTime": [1654519251, 1623382321], + "Treatment Duration": [70, 75], + "Water Sample Test Result": [0, 1], + "Actual Treatment Duration": [62, 126], + "Dialysate Volume Used": [4.0, 6.0], + "Acid ConcentrateType": [0, 1], + "Prescribed UF Volume": [0.3, 0.5], + "Bicarbonate Concentrate Type": [0, 0], + "Target UF Volume": [10.1, 10.5], + "Potassium Concentration": [60, 75], + "Actual UF Volume": [0.3, 0.5], + "Calcium Concentration": [3, 56], + "Prescribed UF Rate": [0.1, 0.55], + "Bicarbonate Concentration": [14, 50], + "Target UF Rate": [0.2, 0.56], + "Sodium Concentration": [4, 6], + "Actual UF Rate": [0.5, 0.6], + "Dialysate Temperature": [35.0, 35.5], + "Saline Bolus Volume": [300, 250], + "Dialyzer Type": [0, 1], + "Average Blood Flow": [54.3, 67.3], + "Heparin Type": [0, 0], + "Average Dialysate Flow": [0.6, 0.5], + "Average Dialysate Temp": [35.0, 35.5], + "Heparin Bolus Volume": [0.0, 0.1], + "Average Arterial Pressure": [0.0, 11.56], + "Heparin Dispense Rate": [0.0, 0.1], + "Average Venous Pressure": [20.0, 101.45], +} + +NUM_OF_REQUEST_REJECT_REASONS = 43 + + Index: shared/scripts/configuration/utility.py =================================================================== diff -u -r8fa2ad80ba80d1c413af323af4c48500383c52b5 -r1f14a93d8f8abd91c6e860c0958e243375faab06 --- shared/scripts/configuration/utility.py (.../utility.py) (revision 8fa2ad80ba80d1c413af323af4c48500383c52b5) +++ shared/scripts/configuration/utility.py (.../utility.py) (revision 1f14a93d8f8abd91c6e860c0958e243375faab06) @@ -6,76 +6,82 @@ # WHOLE, WITHOUT THE EXPLICIT PERMISSION OF THE COPYRIGHT OWNER. # # @file utils.py +# @author (last) LTTS +# @date (last) 15-Jan-2022 # -# @author (last) Joseph varghese -# @date (last) 16-Jun-2022 -# ############################################################################ -import object +import builtins +import csv +import glob +import math import names +import object +import os import sys import squish import time import test - -from dialin.ui.hd_simulator import HDSimulator +from builtins import format from builtins import int as pyInt +from builtins import str as pyStr from configuration import config from dialin.ui import utils -from datetime import datetime +from dialin.utils import * from dialin.common.msg_ids import MsgIds +from dialin.ui.hd_simulator import HDSimulator +from dialin.protocols import DenaliMessage, DenaliCanMessenger, DenaliChannels +from datetime import datetime +LOG_LOCATION = "/home/denali/Desktop/sd-card/log/*.log" +def color_verification(exp_val = "Red", act_val = "#c53b33"): + test.compare(config.COLOR_CODES[color_name],(act_val.color[name])) + -hd_simulator = HDSimulator() +def get_text_object(screen_obj, txt): + """ + To obtain a text object based on text provided + @param screen_obj: provides the container on which the txt must be present + @returns a real name object + """ + names.o_text_object["container"] = screen_obj + names.o_text_object["text"] = txt + return names.o_text_object -LOG_LOCATION = "/home/denali/Desktop/sd-card/log/*.log" - -def start_application(app_name): + +def get_bullet_object(screen_obj, num): """ - Function to start application and verify application status [running] - If application does not start or running status is false, test stops - Argument: - @param app_name : (str) - Name of the application - @param app_executable : (str) - Actual application - @return: handle for the application if the application is in running state, - or error (exist the application) - """ - counter = 0 - while True: - try: - counter += 1 - test.log("Starting {}".format(app_name)) - squish.startApplication(app_name) - if counter == 1: - test.log("Application launched at the "+str(counter)+" st try.") - elif counter == 2: - test.log("Application launched at the "+str(counter)+" nd try.") - elif counter == 3: - test.log("Application launched at the "+str(counter)+" rd try.") - else: - test.log("Application launched at the "+str(counter)+" th try.") - break - except RuntimeError: - if counter == 1: - test.log("Application failed to launch after "+str(counter)+" try - Please refer logs") - elif counter == 20: - test.log("Exiting after "+str(counter)+ " tries..") - sys.exit(1) - else: - test.log("Application failed to launch after "+str(counter)+ " tries - Please refer logs") - except: - logErrorDetails("Failed to start the application") - sys.exit(1) + To obtain a bullet object based on occurrence provided. + @param screen_obj: provides the container on which the bullet must be present + @param num: provides the occurrence value + @returns a real name object + """ + names.o_bullet_object["container"] = screen_obj + names.o_bullet_object["occurrence"] = num + 1 + return names.o_bullet_object - + +def get_indicators(screen_obj, txt): + """ + Verifying the busy indicators for BiCarb Pump Check and Acid Pump Check. + indicator object of expected text + @param step - (str) expected text + @return indicators - (obj) list of busy and check indicator + """ + parent_obj = object.parent(squish.waitForObjectExists(get_text_object(screen_obj,txt))) + children_obj = object.children(parent_obj) + indicator_parent = children_obj[2] + indicators = object.children(indicator_parent) + return indicators + + def check_if_object_is_within_the_container(obj=None, container=None): """ check if an object is inside a container @param obj - child UI object @param container - container UI object - @return boolean true/false + @return boolean True/False """ container = squish.findObject(container) containerPos = container.mapToGlobal(squish.QPoint(0, 0)) @@ -92,15 +98,150 @@ return True return False + +def scroll_to_value_on_pop_up(value=None, container=None): + """ + scroll to the to the value if object is hidden + @param value - (obj) value object + @param container - (obj) Container of the value + @return boolean true and false + """ + counter = 0 + while counter <= 100: + try: + counter += 1 + squish.findObject(value) + squish.snooze(0.5) + if check_if_object_is_within_the_container(obj=value, container=container): + return True + else: + raise RuntimeError + except RuntimeError: + ScreenObj = squish.waitForObject(container) + screenHeight = pyInt(ScreenObj.height) + screenWidth = pyInt(ScreenObj.width) + squish.mouseWheel(ScreenObj, screenWidth//2, screenHeight//2, 0, -50, squish.Qt.NoModifier) + raise LookupError("value object is not in view to the user after trying 100 times") + +def pressure_pop_up_text_obj(text): + names.o_pop_up_pressure_text_obj["text"] = text + return names.o_pop_up_pressure_text_obj + return names.o_bullet_object + + +def verify_bullet_navigation(num, num_of_instructions, screen_obj): + """ + Method to verify status of bullets based + on number of instruction screen + @param num - (int) number of indicator + @param num_of_instructions- (int) count the number of instructions + @param object - screen_obj - (str) Screen object + """ + test.startSection("instruction bullet verification for screens") + for instruction in range(1, num_of_instructions): + bullet_children = object.children(squish.waitForObjectExists(get_bullet_object(screen_obj,(0 + instruction) - 1))) + bullet_circle_color = bullet_children[0].color.name + bullet_border_color = bullet_children[0].border.color.name + if instruction <= num: + test.compare(bullet_circle_color, config.COMPLETE_COLOR) + test.compare(bullet_border_color,config.COMPLETE_COLOR) + test.log(str(instruction) + " Complete bullet") + else: + test.compare(bullet_circle_color, config.CURRENT_COLOR) + test.compare(bullet_border_color,config.INCOMPLETE_COLOR) + test.log(str(instruction) + " Incomplete bullet") + test.endSection() + +def convert_seconds_into_min_and_sec(seconds, time_format="%M:%S"): + """ + Method to convert seconds into minute format. + @param seconds - time in seconds. + @param time_format (str) - time format. + @return (int) - minute time + """ + seconds = int(seconds) + min_and_sec = time.strftime(time_format, time.gmtime(seconds)) + return min_and_sec + + +def verify_missing_object(object_to_check): + """ + Method to verify the given object is invisible or is not present on the screen + @param object_to_check: the object whose invisibility must be verified + """ + try: + squish.testSettings.objectNotFoundDebugging = False + squish.waitForObject(object_to_check,3000) + test.fail("Given object should not be present initially") + except LookupError as _: + test.passes("object is not present as expected") + squish.testSettings.objectNotFoundDebugging = True + +def pressure_pop_up_text_obj(text): + names.o_pop_up_pressure_text_obj["text"] = text + return names.o_pop_up_pressure_text_obj + +def pressure_text_obj(text): + names.o_pressure_text_obj["text"] = text + return names.o_pressure_text_obj + +def get_current_date_and_time(date_format='%Y/%b/%d - %H:%M'): + date = datetime.now() + return str(date.strftime(date_format)) + +def vitals_reading_obj(reading): + names.o_vitals_reading["text"] = reading + return names.o_vitals_reading + + +def get_current_date_and_time(date_format='%Y/%b/%d - %H:%M'): -def scroll_to_zone(zone=None, screen_object=None): + date = datetime.now() + return str(date.strftime(date_format)) + +def enter_keypad_value(entry): """ - 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 + Method to enter user desired + value using keypad + @param entry: (int) User expected value """ + test.startSection("Entering {}".format(entry)) + entry = pyStr(entry) + for value in entry: + squish.mouseClick(squish.waitForObject(keypad_input(value))) + 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(0.1) + 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 scroll_to_zone(zone=None, screen_object=None, direction = None): + """ + scroll to the to the value if object is hidden + @param value - (obj) value object + @param container - (obj) Container of the value + @return boolean true and false + """ counter = 0 while counter <= 100: try: @@ -112,25 +253,65 @@ else: raise RuntimeError except RuntimeError: - ScreenObj = squish.waitForObject(screen_object) + ScreenObj = squish.findObject(screen_object) screenHeight = pyInt(ScreenObj.height) screenWidth = pyInt(ScreenObj.width) - squish.mouseWheel(ScreenObj, screenWidth-1000, - screenHeight-10, 0, -50, squish.Qt.NoModifier) - + if direction is None: + squish.mouseWheel(ScreenObj, (screenWidth-100), 107, 0, -(screenHeight-460), squish.Qt.NoModifier) + else: + squish.mouseWheel(ScreenObj, (screenWidth-100), -(screenHeight-700), 0, 200, squish.Qt.NoModifier) + raise LookupError("zone object is not in view to the user after trying 100 times") - -def navigate_to_pretreatment_screen(mode): - """ - Method to navigate to sub mode under pre-treatment screen - @param mode - (int) pre treatment state - """ - hd_simulator.cmd_set_hd_operation_mode_data(5,0) - - hd_simulator.cmd_send_pre_treatment_state_data(sub_mode=mode, water_sample_state=0,consumables_self_test_state=0, - no_cartridge_self_test_state=0,installation_state=0, dry_self_test_state=0, - prime_state=0,recirculate_state=0, patient_connection_state=0) - + +def get_alarm_id_obj(id): + names.o_alarm_id["text"] = id + return names.o_alarm_id + +def get_alarm_msg_obj(msg): + names.o_alarm_message["text"] = msg + return names.o_alarm_message + +def rejection_msg(text): + names.o_rejection_msg["text"] = text + return names.o_rejection_msg + +def verify_page_step_indicator(screen_obj, treatment_step, treatment_screens): + """ + Method to verify the Page Step indicators [the object on top of the screen which indicates the steps passed, current, remained] + @param treatment_step : indicates the Current treatment step + """ + + test.startSection("verification of page step indicators") + for page in range(len(treatment_screens)): + bullet_children = object.children(squish.waitForObjectExists(get_bullet_object(screen_obj, page))) + bullet_circle_color = bullet_children[0].color.name + bullet_border_color = bullet_children[0].border.color.name + step_title = squish.waitForObjectExists(get_text_object(screen_obj, treatment_screens[page])) + + #To verify the step indicators of the completed treatment screens + if page < treatment_step: + test.verify(squish.waitForObjectExists(get_bullet_object(screen_obj, page)).complete) + test.verify(not squish.waitForObjectExists(get_bullet_object(screen_obj, page)).current) + test.compare(bullet_circle_color, config.COMPLETE_COLOR) + test.compare(bullet_border_color,config.COMPLETE_COLOR) + test.compare(step_title.color.name,config.ENABLED_COLOR) + #To verify the step indicators of the current treatment screen + elif page == treatment_step: + test.verify(squish.waitForObjectExists(get_bullet_object(screen_obj, page)).current) + test.verify(not squish.waitForObjectExists(get_bullet_object(screen_obj, page)).complete) + test.compare(bullet_circle_color, config.CURRENT_COLOR) + test.compare(bullet_border_color, config.COMPLETE_COLOR) + test.compare(step_title.color.name, config.ENABLED_COLOR) + test.verify(step_title.font.bold) + #To verify the step indicators of the remaining treatment screens + else: + test.verify(not squish.waitForObjectExists(get_bullet_object(screen_obj, page)).current,) + test.verify(not squish.waitForObjectExists(get_bullet_object(screen_obj, page)).complete,) + test.compare(step_title.color.name, config.INCOMPLETE_COLOR) + test.compare(bullet_circle_color, config.CURRENT_COLOR) + test.compare(bullet_border_color, config.INCOMPLETE_COLOR) + test.endSection() + def set_arterial_ranges_min_val(art_low): """ Method to set the Arterial range maximum value to user expected value @@ -154,8 +335,7 @@ 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) + 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: @@ -166,8 +346,7 @@ 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) + 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: @@ -179,7 +358,6 @@ 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 @@ -203,33 +381,29 @@ 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) + 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) + 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) + 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)) + 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 @@ -249,26 +423,22 @@ 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) + 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) + 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) + 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) + 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: @@ -300,31 +470,595 @@ 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) + 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) + 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) + 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) + 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)) + 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() - \ No newline at end of file +def expected_heparin_value(val): + names.o_heparin_value["text"] = val + return names.o_heparin_value + +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 navigate_to_pretreatment_screen(mode): + """ + Method to navigate to sub mode under pre-treatment screen + @param mode - (int) pre treatment state + """ + hd_simulator.cmd_set_hd_operation_mode_data(HDOpModes.MODE_PRET.value,0) + hd_simulator.cmd_send_pre_treatment_state_data(sub_mode=mode, water_sample_state=0, + consumables_self_test_state=0, no_cartridge_self_test_state=0, + installation_state=0, dry_self_test_state=0, prime_state=0, + recirculate_state=0, patient_connection_state=0) + +def self_test_dry_check_list_text(text): + names.o_self_test_dry_check_list_text["text"] = text + return names.o_self_test_dry_check_list_text + +def get_time(screen_title): + """ + Method to return the current count down + in the application + @param screen_title - (str) current title of the screen + @return time_text - (str) count down in the application + """ + if screen_title == config.BEGIN_PRIME_TITLE or screen_title == config.PRIMING_TITLE: + parent_object = object.parent(squish.waitForObjectExists(self_test_dry_check_list_text(screen_title))) + elif screen_title == config.SYSTEM_SELF_TEST_TITLE: + parent_object = object.parent(squish.waitForObjectExists(names.o_system_self_test)) + else: + parent_object = object.parent(squish.waitForObjectExists(names.o_PreTreatmentBase_Filter_Flush_Text)) + time_parent_children = object.children(parent_object) + progress_circle_parent = time_parent_children[4] + progress_circle_parent = object.children(progress_circle_parent) + progress_circle_parent = progress_circle_parent[0] + progress_circle_parent = object.children(progress_circle_parent) + progress_circle_children = object.children(progress_circle_parent[0]) + time_text = progress_circle_children[1] + return time_text.time + +def verify_countdown(screen_title, time_out, hd_simulator, dg_simulator): + """ + Method to verify the count down + time in application + @param screen_title - (str) current title of the screen + @param time_out - (int) time out duration in secs + @Param hd_simulator - Instance of class HDSimulator + @Param dg_simulator - Instance of class DGSimulator + """ + test.startSection("Verify the count down time in application") + for count_down in range(config.COUNT_DOWN_TIME_100, config.MINIMUM_COUNTDOWN_TIME-1, -1): + if screen_title == config.BEGIN_PRIME_TITLE: + hd_simulator.cmd_send_pre_treatment_self_test_dry_progress_data(time_out, count_down) + elif screen_title == config.PRIMING_TITLE: + hd_simulator.cmd_send_pre_treatment_disposables_prime_progress_data(time_out, count_down) + elif screen_title == config.SYSTEM_SELF_TEST_TITLE: + hd_simulator.cmd_send_pre_treatment_self_test_no_cartridge_progress_data(time_out, count_down) + else: + dg_simulator.cmd_send_dg_pre_treatment_filter_flush_progress_data(time_out, count_down) + actual_time = get_time(screen_title) + expected_time = convert_seconds_into_min_and_sec(count_down) + test.compare(actual_time, expected_time, "Actual count down time: {} should be equal to expected count down time {}".format(actual_time, expected_time)) + verify_the_progress(count_down, screen_title, time_out) + test.endSection() + +def verify_the_progress(count_down, screen_title, time_out): + """ + Method to verify the current progress + @param count_down - (int) current count down time + @param screen_title - (str) current title of the screen + @param time_out - (int) time out duration in secs + """ + test.startSection("Verifying the current progress") + if screen_title == config.BEGIN_PRIME_TITLE or screen_title == config.PRIMING_TITLE: + current_progress = (squish.waitForObjectExists(names.o_self_test_dry_progress)).progressValue + elif screen_title == config.SYSTEM_SELF_TEST_TITLE: + current_progress = (squish.waitForObjectExists(names.o_system_self_test_progress)).progressValue + else: + current_progress = (squish.waitForObjectExists(names.o_filter_flush_progress)).progressValue + #Since progress value is equal maximum count down value - current count down value + expected_progress = time_out - count_down + test.compare(current_progress, expected_progress, "{} should be the current progress".format(expected_progress)) + test.endSection() + +def verify_page_step_indicator(screen_obj, treatment_step, treatment_screens): + """ + Method to verify the Page Step indicators [the object on top of the screen which indicates the steps passed, current, remained] + @param treatment_step : (int) indicates the Current treatment step + """ + test.startSection("verification of page step indicators") + for page in range(len(treatment_screens)): + bullet_children = object.children(squish.waitForObjectExists(get_bullet_object(screen_obj, page))) + bullet_circle_color = bullet_children[0].color.name + bullet_border_color = bullet_children[0].border.color.name + step_title = squish.waitForObjectExists(get_text_object(screen_obj, treatment_screens[page])) + #To verify the step indicators of the completed treatment screens + if page < treatment_step: + test.verify(squish.waitForObjectExists(get_bullet_object(screen_obj, page)).complete) + test.verify(not squish.waitForObjectExists(get_bullet_object(screen_obj, page)).current) + test.compare(bullet_circle_color, config.COMPLETE_COLOR) + test.compare(bullet_border_color, config.COMPLETE_COLOR) + test.compare(step_title.color.name, config.ENABLED_COLOR) + #To verify the step indicators of the current treatment screen + elif page == treatment_step: + test.verify(squish.waitForObjectExists(get_bullet_object(screen_obj, page)).current,) + test.verify(not squish.waitForObjectExists(get_bullet_object(screen_obj, page)).complete) + test.compare(bullet_circle_color, config.CURRENT_COLOR) + test.compare(bullet_border_color, config.COMPLETE_COLOR) + test.compare(step_title.color.name, config.ENABLED_COLOR) + test.verify(step_title.font.bold) + #To verify the step indicators of the remaining treatment screens + else: + test.verify(not squish.waitForObjectExists(get_bullet_object(screen_obj, page)).current,) + test.verify(not squish.waitForObjectExists(get_bullet_object(screen_obj, page)).complete,) + test.compare(step_title.color.name, config.INCOMPLETE_COLOR) + test.compare(bullet_circle_color, config.CURRENT_COLOR) + test.compare(bullet_border_color, config.INCOMPLETE_COLOR) + test.endSection() + +def verify_missing_object(object_to_check): + """ + Method to verify the given object is invisible or is not present on the screen + @param object_to_check: the object whose invisibility must be verified + """ + try: + squish.testSettings.objectNotFoundDebugging = False + squish.waitForObject(object_to_check,3000) + test.fail("Given object should not be present initially") + except LookupError as _: + test.passes("object is not present as expected") + + squish.testSettings.objectNotFoundDebugging = True + +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 get_text_object(screen_obj, txt): + """ + To obtain a text object based on text provided + @param screen_obj: provides the container on which the txt must be present + @returns a real name object + """ + names.o_text_object["container"] = screen_obj + names.o_text_object["text"] = txt + return names.o_text_object + +def verify_color_of_entry(entry, vital_parameter, input_field): + """ + Method to verify the color of entry + of systolic, diastolic and heart rate + @param entry: (int) user user entered value + @param vital_parameter - (str) parameter name under which user is entering value (sys/dia/heart rate) + @param input_field - (obj) object of input field + """ + test.startSection("Verify the color of {} value {}".format(vital_parameter, entry)) + input_field_color = input_field.color.name + entry = pyInt(entry) + if vital_parameter is config.SYSTOLIC_TEXT: + if (entry < config.SYSTOLIC_LOWER_LIMIT) or (entry > config.SYSTOLIC_UPPER_LIMIT): + test.compare(input_field_color, config.OUT_OF_RANGE_COLOR, "systolic value {} is out of range, systolic value should be in range of {} and {}".format(entry, config.SYSTOLIC_LOWER_LIMIT, config.SYSTOLIC_UPPER_LIMIT)) + elif (entry >= config.SYSTOLIC_LOWER_LIMIT) and (entry <= config.SYSTOLIC_UPPER_LIMIT): + test.compare(input_field_color, config.IN_RANGE_COLOR, "systolic value {} is in range of {} and {}".format(entry, config.SYSTOLIC_LOWER_LIMIT, config.SYSTOLIC_UPPER_LIMIT)) + elif vital_parameter is config.DIASTOLIC_TEXT: + if (entry < config.DIASTOLIC_LOWER_LIMIT) or (entry > config.DIASTOLIC_UPPER_LIMIT): + test.compare(input_field_color, config.OUT_OF_RANGE_COLOR, "diastolic value {} is out of range, diastolic value should be in range of {} and {}".format(entry, config.DIASTOLIC_LOWER_LIMIT, config.DIASTOLIC_UPPER_LIMIT)) + elif (entry >= config.DIASTOLIC_LOWER_LIMIT) and (entry <= config.DIASTOLIC_UPPER_LIMIT): + test.compare(input_field_color, config.IN_RANGE_COLOR, "diastolic value {} is in range of {} and {}".format(entry, config.DIASTOLIC_LOWER_LIMIT, config.DIASTOLIC_UPPER_LIMIT)) + elif vital_parameter is config.HEART_RATE_TITLE: + if (entry < config.HEART_RATE_LOWER_LIMIT) or (entry > config.HEART_RATE_UPPER_LIMIT): + test.compare(input_field_color, config.OUT_OF_RANGE_COLOR, "Heart Rate value {} is out of range, Heart Rate value should be in range of {} and {}".format(entry, config.HEART_RATE_LOWER_LIMIT, config.HEART_RATE_UPPER_LIMIT)) + elif (entry >= config.HEART_RATE_LOWER_LIMIT) and (entry <= config.HEART_RATE_UPPER_LIMIT): + test.compare(input_field_color, config.IN_RANGE_COLOR, "Heart Rate value {} is in range of {} and {}".format(entry, config.HEART_RATE_LOWER_LIMIT, config.HEART_RATE_UPPER_LIMIT)) + test.endSection() + +def keypad_input(key_value): + """ + Method to enter values using application UI keyboard + @param key_value: (str) User expected value + """ + if key_value is not None: + names.o_keypad_input["text"] = key_value + return names.o_keypad_input + else: + test.log("Invalid text for object.") + names.o_keypad_input["text"] = None + +def enter_keypad_value(entry): + """ + Method to enter user desired + value using keypad + @param entry: (str) User expected value + """ + test.startSection("Entering {}".format(entry)) + entry = pyStr(entry) #type casted into string format + for value in entry: + squish.mouseClick(squish.waitForObject(keypad_input(value))) + test.endSection() + +def is_float(num): + """ + This function checks the value is adaptable for float conversion. + @param num - (string) input value for conversion. + @return True/False- (bool) returns True if the value can type casted into float, else False + """ + try: + if '.' in num: + float(num) + return True + except ValueError: + return False + +def is_intiger(num): + """ + This function checks the value is adaptable for integer conversion. + @param num - (string) (string) input value for conversion. + @return True/False- (bool) returns True if the value can type casted into int, else False + """ + try: + if num.isdigit(): + return True + except ValueError: + return False + +def get_extracted_file(): + """ + This function is the handler for getting file from log folder. + This handler will go inside log folder and looks for newly added log based on current time. + if it satisfied that condition, it will return the exact path of newly created log. + Application log file is automatically created on '/home/denali/Desktop/sd-card/log/ {current_date}_denaliSquish.log' + @return latest_file - (string) returns latest file that append on log folder from sd-data + """ + try: + current_date = get_current_date_and_time(date_format = "%Y_%m_%d") + latest_file = '/home/denali/Desktop/sd-card/log/'+current_date+'_denaliSquish.log' + return latest_file + except: + return False + +def get_message_from_log(file_name, message_text): + + """ + This method intended to extract the message from application log. + For row[index], index represent column to be extracted. + @param file_name - (string) path of the latest log file created. + @param message_text - (string) message text to be extracted. + @return message - (list) API arguments displayed in log. + """ + message = [] + count = 0 + try: + with open(file_name, 'r') as csv_file: + try: + for row in reversed(list(csv.reader(csv_file))): + if row[0].isalpha(): + pass + else: + row_length = sum(1 for values in row) + if row_length >= 4: + if row[3]!= None and row[3] == message_text: + if count == 30: + test.fail("handler unable to find message text from log file.") + message_length = sum(1 for values in row) + for column in range(4, message_length, 1): + message.append(row[column]) + count +=1 + for value in range(len(message)): + float_status = is_float(message[value]) + int_status = is_intiger(message[value]) + if float_status is True: + message[value] = float(message[value]) + if int_status is True: + message[value] = int(message[value]) + test.log(str(message)) + return message + else: + pass + except: + test.fail("application log data is corrupted") + except: + test.fail("Log file is not created or log file is not created based on standard log naming format.") + +def get_ack_request_details(file_name, message_text): + """ + This method intended to extract acknowledgement request status, negative requested acknowledgement + and message id from application log. + For row[index], were index represent column to be extracted. + @param file_name - (string) path of the latest log file created. + @param message_text - (string) message text to be extracted from log. + @return row[3] - (string) acknowledgement request status. + @return row[4] - (string) Negative requested acknowledgement value (Sq). + @return message_id - (string) formatted message id from log. + """ + try: + message_id = " ID" + with open(file_name, 'r') as csv_file: + try: + for row in reversed(list(csv.reader(csv_file))): + if row[0].isalpha(): + pass + else: + row_length = sum(1 for values in row) + if row_length == 6 and row[3] != message_text: + if row[5].split(':')[0] == message_id: + extracted_message_id = pyInt(row[5].split(':')[1], 16) + formatted_message_id = format(extracted_message_id, '#0x') + # MSG_ID_HD_DEBUG_EVENT (0xFFF1) and MSG_ID_DG_DEBUG_EVENT (0xFFF2) hex values are reversed in log. + string_format_id = str(formatted_message_id) + first_two_char = string_format_id[2:4] + last_two_char = string_format_id[-2:] + if last_two_char != '00': + return row[3], row[4], ('0x'+last_two_char+first_two_char) + else: + return row[3], row[4], formatted_message_id.replace("00", "") + else: + pass + except: + test.fail("application log data is corrupted - unable to fetch data") + except: + test.fail("Log file is not created or log file is not created based on standard log naming format.") + +def get_bak_request_details(file_name, ack_bak_value): + """ + This method intended to extract the acknowledgement back status from application log. + For row[index], were index represent column to be extracted. + @param file_name - (string) path of the latest log file created. + @param ack_bak_value - (string) Positive back acknowledgement value (Sq). + @return row[3] - (string) acknowledgement back status. + """ + try: + with open(file_name, 'r') as csv_file: + try: + for row in reversed(list(csv.reader(csv_file))): + if row[0].isalpha(): + pass + else: + row_length = sum(1 for values in row) + if row_length >= 5: + if row[4] == ack_bak_value: + return row[3] + else: + pass + else: + pass + except: + test.fail("application log data is corrupted") + except: + test.fail("Log file is not created or log file is not created based on standard log naming format.") + +def get_current_log_details(message_ack = False, message_text = None): + """ + This function is capable to perform data analysis from application log folder. + logs are automatically created in path :"/home/denali/Desktop/sd-card/log/*.log". + In row[index], index represent column to be extracted. + @param message_ack - (bool) 'True' - if ack is satisfied in log / 'False' - if ack condition is not satisfied + @param message_text - (string) message text to be extracted from log. + @return content_record - (list) list contains extracted data (ack_req, ack_bak, message, message_id). + """ + content_record = [] + file_name = get_extracted_file() + if message_text != None: + message = get_message_from_log(file_name, message_text) + content_record.append(message) + if message_ack != False: + ack_req_status, ack_req_value, message_id = get_ack_request_details(file_name, message_text) + ack_bak_value = ack_req_value.replace(":-", ":") # getting negative requested ack from positive requested ack + content_record.append(ack_req_status) + content_record.append(message_id.lower()) + if message_ack != False and ack_bak_value != None: + ack_bak_status = get_bak_request_details(file_name, ack_bak_value) + content_record.append(ack_bak_status) + return content_record + +def vitals_interval_obj(interval): + names.o_time_interval_obj["text"] = interval + return names.o_time_interval_obj + +def get_extracted_error_file(): + """ + This function is the handler for getting error file from service folder. + Application log file is automatically created on '/home/denali/Desktop/sd-card/service/ {current_date}_denaliSquish.err ' + @return latest_file - (string) returns latest file that append on log folder from service + """ + try: + current_date = get_current_date_and_time(date_format = "%Y_%m_%d") + latest_file = '/home/denali/Desktop/sd-card/service/'+current_date+'_denaliSquish.err' + return latest_file + except: + return False + +def keyboard_input(key_value): + names.o_keyboard_object["text"] = key_value + return names.o_keyboard_object + +def enter_keyboard_numeric_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: + if value.isalpha(): + value = pyStr(value) + else: + value = pyInt(value) + key_val = squish.waitForObject(keyboard_input(value)) + squish.mouseClick(key_val) + utils.waitForGUI(0.1) + test.endSection() + + +def end_treatment_states_rejection_msg(text): + names.o_end_treatment_state_rejection_msg["text"] = text + return names.o_end_treatment_state_rejection_msg + +def verify_parameter_from_post_treatment_log(msg_text): + """ + To obtain the details of parameter from post treatment log file. + @param msg_text: parameter to be extracted. + @returns message value and message unit + """ + try: + log_location = str(get_extracted_file_from_post_treatment()) + with open(log_location, 'r') as csv_file: + try: + for row in csv_file: + reader = csv.reader(csv_file) + for row in reader: + row_length = sum(1 for values in row) + for row1 in row: + if row[0]!= None and row[0] == msg_text and row_length == 3: + return (row[1],row[2]) + else: + pass + except: + test.fail("Treatment log data is corrupted") + except: + test.fail("Log file is not created or log file is not created based on standard log naming format.") + +def get_extracted_file_from_post_treatment(): + """ + This function is the handler for getting file from log folder. + This handler will go inside log folder and looks for newly added log based on current time. + if it satisfied that condition, it will return the exact path of newly created log. + @return latest_file - (string) returns latest file that append on log folder from sd-data + """ + try: + list_of_files = glob.glob(config.TREATMENT_LOG_LOCATION) + latest_file = max(list_of_files, key=os.path.getctime) + return latest_file + except: + test.fail("log file is not created during application interaction") + return False + + +def rinseback_rejection_msg(text): + names.o_rinseback_rejection_msg["text"] = text + return names.o_rinseback_rejection_msg + squish.testSettings.objectNotFoundDebugging = True + + +def recirculate_rejection_msg(text): + names.o_recirculate_rejection_msg["text"] = text + return names.o_recirculate_rejection_msg + +