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/****************************************************************************
**
** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of QtUiTest.
**
** $QT_BEGIN_LICENSE:LGPL$
** No Commercial Usage
** This file contains pre-release code and may not be distributed.
** You may use this file in accordance with the terms and conditions
** contained in the Technology Preview License Agreement accompanying
** this package.
**
** GNU Lesser General Public License Usage
** Alternatively, this file may be used under the terms of the GNU Lesser
** General Public License version 2.1 as published by the Free Software
** Foundation and appearing in the file LICENSE.LGPL included in the
** packaging of this file. Please review the following information to
** ensure the GNU Lesser General Public License version 2.1 requirements
** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
**
** In addition, as a special exception, Nokia gives you certain additional
** rights. These rights are described in the Nokia Qt LGPL Exception
** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
**
** If you have questions regarding the use of this file, please contact
** Nokia at qt-info@nokia.com.
**
**
**
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
//TESTED_COMPONENT=src/sensors
testcase = {
Generic_Rotation : function()
{
prompt(twiki('*Verify Generic Rotation values*
| *Step* | *Verification* |
| Launch *Sensor Explorer* application | |
| Select Generic Rotation from the sensors list | |
| In *Sensor Properties* click *Start* | |
| Position device flat on its back with screen showing upwards | Verify that values for x, y and z gravitate around zero* |
| Rotate device on x axis toward user | Verify that x axis value increases from 0 all the way to 90 when held straight up |
| Keep rotating device past vertical position | Verify that x axis value decrees from 90 down towards to 0 when held upside down (screen towards ground) |
| Return device flat on its back with screen showing upwards | Verify that value for x has returned to zero** |
| Rotate device on y axis to right side | Verify that y axis value increases from 0 all the way to 90 when held straight up |
| Keep rotating device past vertical position | Verify that y axis value keeps increasing from 90 towards 180 |
| Rotate device on y axis until upside down - screen towards ground | Verify that y axis value gravitates around and switches between 180/-180 |
| Keep rotating device on y axis past inverted horizontal | Verify that y axis value rises from -180 towards 0 |
| In this test, z values will always be 0 | |
Notes:
* * Small variations in value due to sensor sensitivity and large precision employed
* ** On some Maemo5 devices, due to camera housing, device is not flat when resting on hard surface, so small variation will be present
'));
},
Sym_Rotation : function()
{
prompt(twiki('*Verify Sym Rotation values*
| *Step* | *Verification* |
| Launch *Sensor Explorer* application | |
| Select Sym Rotation from the sensors list | |
| In *Sensor Properties* click *Start* | |
| Position device flat on its back with screen showing upwards | Verify that values for x, y and z gravitate around zero* |
| Rotate device on x axis toward user | Verify that x axis value increases from 0 all the way to 90 when held straight up |
| Keep rotating device past vertical position | Verify that x axis value decrees from 90 down towards to 0 when held upside down (screen towards ground) |
| Return device flat on its back with screen showing upwards | Verify that value for x has returned to zero** |
| Rotate device on y axis to right side | Verify that y axis value increases from 0 all the way to 90 when held straight up |
| Keep rotating device past vertical position | Verify that y axis value keeps increasing from 90 towards 180 |
| Rotate device on y axis until upside down - screen towards ground | Verify that y axis value gravitates around and switches between 180/-180 |
| Keep rotating device on y axis past inverted horizontal | Verify that y axis value rises from -180 towards 0 |
| In this test, z values will always be 0 | |
Notes:
* * Small variations in value due to sensor sensitivity and large precision employed
* ** On some Maemo5 devices, due to camera housing, device is not flat when resting on hard surface, so small variation will be present
'));
},
Sym_Proximity_values: function()
{
prompt(twiki('*Verify Sym Proximity values*
*Note: On Maemo5 devices, Proximity is a bool value
| *Step* | *Verification* |
| Launch *Sensor Explorer* application | |
| Select Proximity from the sensors list | |
| In *Sensor Properties* click *Start* | Verify that the reading for Close is False |
|With an open palm of the hand, approach the device where the proximity sensor is located | Verify that the value of Index 0 changes to True once close enough to the device |
| Move hand away from device | Verify that the value of Close changes to False once again one far enough from device |
'));
},
Sym_Accelerometer: function()
{
prompt(twiki('*Verify Sym Accelerometer*
| *Step* | *Verification* |
| Launch *Sensor Explorer* application | |
| Select Accelerometer from the sensors list | |
| Position device flat on a suffice | |
| In *Sensor Properties* click *Start* | Verify that the reading for x and y values are gravitating around zero and that z is around 9.8 |
| Lift device on to its x axis | Verify that the value of x changes 0 to 9.8, and that z changes from 9.8 to 0 while y remains 0 |
| Lift device on to its y axis | Verify that the value of y changes to 9.8, x changes to 0, while z remains 0 |
'));
},
Sym_Ambient_Light: function()
{
prompt(twiki('*Verify Sym Ambient Light Sensor*
| *Step* | *Verification* |
| Launch *Sensor Explorer* application | |
| Select Ambient Light from the sensors list | |
| In *Sensor Properties* click *Start* | Verify that the reading for Light Level is Light |
| With the thumb of the left hand, cover the light sensor on the device* | Verify that the value of Index 0 changes from Light through Twilight to Dark |
| Move hand away from device | Verify that the value of Light Level changes from Dark through Twilight to Light |
| Take torch and point at face of device | Verify that the value of Light Level changes from Light to Bright |
| Move torch in on the light sensor | Verify that the value of Light Level changes from Bright to Sunny |
| Move torch away from device | Verify that the value of Light Level changes from Sunny back to Light |
Note:
* Hand held torch or other light source required for this test
* * Located at the top-left of the device
'));
},
Freefall_Detection : function()
{
prompt(twiki('*Verify Free Fall Detection*
| *Step* | *Verification* |
| Launch *Small Sensors* application | |
| From menu, select Free Fall | |
| Click on Setup free fall trigger | |
| Drop device from arbitrary hight * (within reason, preserving device integrity) | Verify that the value of Free fall time and Hight reflect the the actual test parameters |
Note:
* * With every intention of catching device before it hits the ground
'));
},
Small_Sensor_Orientation: function()
{
prompt(twiki('*Verify Sensor Orientation*
| *Step* | *Verification* |
| Launch *Small Sensors* application | |
| From menu, select *Orientation* | |
| Position device flat down on surface | Verify that device recognizes that it is *Face Up*, all sliders should be in middle position |
| Lift device on x axis to vertical | Verify that device recognizes that it is *Top Up*, x slider should be in right position and x = 90 |
| Return device to the starting position | Verify that device recognizes that it is *Face Up*, all sliders should return to the middle position and all values gravitate towards 0 |
| Lift device on y axis to vertical | Verify that device recognizes that it is *Left Up*, y slider should be in right position and y = 90 |
| Invert device on x axis to vertical | Verify that device recognizes that it is *Top Down*, x slider should be in left position and x = -90 |
| Invert device on y axis to vertical | Verify that device recognizes that it is *Right Up*, y slider should be in left position and y = -90 |
| Turn device upside down (face down) | Verify that device recognizes that it is *Face Down*, y slider should be changing from extreme right to extreme left, and y = -180/+ 180 |
| Return device to the starting position | Verify that device recognizes that it is *Face Up*, all sliders should be in middle position |
| z will not change during this test | |
'));
},
Small_Sensor_Acceleration : function()
{
prompt(twiki('*Verify Sensor Acceleration*
| *Step* | *Verification* |
| Launch *Small Sensors* application | |
| Position device flat on working surface | Verify the values displayed are close to: x=0, y=0, z=9.8 |
| Position device flat on its y axis | Verify the values displayed are close to: x=0, y=9.8, z=0 |
| Position device flat on its x axis | Verify the values displayed are close to: x=9.8, y=0, z=0 |
| Position device flat on its z axis | Verify the values displayed are close to: x=0, y=0, z=9.8 |
'));
}
Sym_Tap : function()
{
prompt(twiki('*Verify Sym Tap Sensor*
| *Step* | *Verification* |
| Launch *bluewheel* application | |
| select *Sensors* and click on *sensor explorer* ||
| select *sym.tap* as sensor type ||
| click on *start* button ||
| select *reading properties* tab ||
| double tap on the device | Verify the values displayed are changed |
'));
}
Sym_Orientation : function()
{
prompt(twiki('*Verify Sym Orientation Sensor*
| *Step* | *Verification* |
| Launch *bluewheel* application | |
| select *Sensors* and click on *sensor explorer* ||
| select *sym.orientation* as sensor type ||
| click on *start* button ||
| select *reading properties* tab ||
| slowly rotate the device | Verify the values displayed are changed accordingly |
'));
}
Sym_MagnetoMeter : function()
{
prompt(twiki('*Verify Sym Magneto Meter*
| *Step* | *Verification* |
| Launch *bluewheel* application | |
| select *Sensors* and click on *sensor explorer* ||
| select *sym.magnetometer* as sensor type ||
| click on *start* button ||
| select *reading properties* tab ||
| put the device closer to a iron or steel object | Verify the values displayed are changed accordingly |
'));
}
Sym_Compass : function()
{
prompt(twiki('*Verify Sym Compass Sensor*
| *Step* | *Verification* |
| Launch *bluewheel* application | |
| select *Sensors* and click on *sensor explorer* ||
| select *sym.compass* as sensor type ||
| click on *start* button ||
| select *reading properties* tab ||
| slowly turn the device around | Verify the values displayed are changed accordingly |
'));
}
}
|
