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8cd41186
编写于
1月 06, 2022
作者:
L
logic42
浏览文件
操作
浏览文件
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电子邮件补丁
差异文件
add sensor Geomagnetic testcases
Signed-off-by:
N
logic42
<
wanglong108@huawei.com
>
上级
bad2dfc6
变更
2
显示空白变更内容
内联
并排
Showing
2 changed file
with
1389 addition
and
3 deletion
+1389
-3
sensors/sensor_standard/src/main/js/default/test/List.test.js
...ors/sensor_standard/src/main/js/default/test/List.test.js
+1
-3
sensors/sensor_standard/src/main/js/default/test/SensorGeomagneticTest.test.js
...rd/src/main/js/default/test/SensorGeomagneticTest.test.js
+1388
-0
未找到文件。
sensors/sensor_standard/src/main/js/default/test/List.test.js
浏览文件 @
8cd41186
...
...
@@ -14,6 +14,4 @@
*/
require
(
'
./SensorOnOffTest.test.js
'
)
require
(
'
./SensorGeomagneticTest.test.js
'
)
sensors/sensor_standard/src/main/js/default/test/SensorGeomagneticTest.test.js
0 → 100755
浏览文件 @
8cd41186
/*
* Copyright (C) 2021 Huawei Device Co., Ltd.
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import
sensor
from
'
@ohos.sensor
'
import
{
describe
,
beforeAll
,
beforeEach
,
afterEach
,
afterAll
,
it
,
expect
}
from
'
deccjsunit/index
'
describe
(
"
SensorJsTest
"
,
function
()
{
beforeAll
(
function
()
{
/*
* @tc.setup: setup invoked before all testcases
*/
console
.
info
(
'
beforeAll caled
'
)
})
afterAll
(
function
()
{
/*
* @tc.teardown: teardown invoked after all testcases
*/
console
.
info
(
'
afterAll caled
'
)
})
beforeEach
(
function
()
{
/*
* @tc.setup: setup invoked before each testcases
*/
console
.
info
(
'
beforeEach caled
'
)
})
afterEach
(
function
()
{
/*
* @tc.teardown: teardown invoked after each testcases
*/
console
.
info
(
'
afterEach caled
'
)
})
let
GEOMAGNETIC_COMPONENT_YEAR_RESULT
=
[
[
6570.3935546875
,
-
146.3289337158203
,
54606.0078125
,
-
1.2758207321166992
,
83.13726043701172
,
6572.02294921875
,
55000.0703125
],
[
6554.17041015625
,
-
87.19947052001953
,
54649.078125
,
-
0.7622424364089966
,
83.16046905517578
,
6554.75048828125
,
55040.7734375
],
[
6537.99169921875
,
-
28.231582641601562
,
54692.02734375
,
-
0.24740631878376007
,
83.18303680419922
,
6538.052734375
,
55081.4296875
],
[
6521.81201171875
,
30.73670768737793
,
54734.97265625
,
0.2700277864933014
,
83.20502471923828
,
6521.88427734375
,
55122.15625
],
[
6505.6328125
,
89.70511627197266
,
54777.90625
,
0.7899921536445618
,
83.22642517089844
,
6506.2509765625
,
55162.9453125
]]
let
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
=
[
[
6570.3935546875
,
-
146.3289337158203
,
54606.0078125
,
-
1.2758207321166992
,
83.13726043701172
,
6572.02294921875
,
55000.0703125
],
[
39624.28125
,
109.8766098022461
,
-
10932.4638671875
,
0.15887857973575592
,
-
15.424291610717773
,
39624.43359375
,
41104.921875
],
[
37636.72265625
,
104.90892791748047
,
-
10474.810546875
,
0.15970633924007416
,
-
15.552550315856934
,
37636.8671875
,
39067.3203125
],
[
5940.583984375
,
15772.0927734375
,
-
52480.7578125
,
69.36103820800781
,
-
72.19599914550781
,
16853.765625
,
55120.58984375
],
[
5744.87255859375
,
14799.48046875
,
-
49969.40234375
,
68.78474426269531
,
-
72.37483215332031
,
15875.3955078125
,
52430.61328125
]]
let
GEOMAGNETIC_COORDINATES
=
[[
80
,
0
,
0
],
[
0
,
120
,
0
],
[
0
,
120
,
100000
],
[
-
80
,
240
,
0
],
[
-
80
,
240
,
100000
]]
let
timeMillis
=
[
1580486400000
,
1612108800000
,
1643644800000
,
1675180800000
,
1706716800000
]
/**
* @tc.number: Geomagentic_Sensor_Test0010
* @tc.name: SensorGeomagenticTest001
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0010
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0010----------------------------------
"
);
let
promiseArray
=
[]
for
(
let
i
=
0
;
i
<
timeMillis
.
length
;
i
++
)
{
promiseArray
.
push
(
new
Promise
((
resolve
,
reject
)
=>
{
let
j
=
i
sensor
.
getGeomagneticField
({
'
latitude
'
:
80
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
j
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest0010 failed
'
);
expect
(
false
).
assertTrue
();
setTimeout
((
err
)
=>
{
reject
(
err
)
},
500
)
}
else
{
console
.
info
(
'
SensorGeomagenticTest0010 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
j
][
0
])
expect
(
data
.
y
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
j
][
1
])
expect
(
data
.
z
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
j
][
2
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
j
][
3
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
j
][
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
j
][
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
j
][
6
])
setTimeout
(()
=>
{
resolve
()
},
500
)
}
})
}))
}
Promise
.
all
(
promiseArray
).
then
(
done
)
})
/**
* @tc.number: Geomagentic_Sensor_Test0020
* @tc.name: SensorGeomagenticTest002
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0020
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0020----------------------------------
"
);
let
promiseArray
=
[]
for
(
let
i
=
0
;
i
<
GEOMAGNETIC_COORDINATES
.
length
;
i
++
)
{
promiseArray
.
push
(
new
Promise
((
resolve
,
reject
)
=>
{
let
j
=
i
sensor
.
getGeomagneticField
({
'
latitude
'
:
GEOMAGNETIC_COORDINATES
[
j
][
0
],
'
longitude
'
:
GEOMAGNETIC_COORDINATES
[
j
][
1
],
'
altitude
'
:
GEOMAGNETIC_COORDINATES
[
j
][
2
]
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest002 failed
'
);
expect
(
false
).
assertTrue
();
setTimeout
((
err
)
=>
{
reject
(
err
)
},
500
)
}
else
{
console
.
info
(
'
SensorGeomagenticTest002 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
j
][
0
])
expect
(
data
.
y
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
j
][
1
])
expect
(
data
.
z
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
j
][
2
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
j
][
3
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
j
][
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
j
][
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
j
][
6
])
setTimeout
(()
=>
{
resolve
()
},
500
)
}
})
}))
}
Promise
.
all
(
promiseArray
).
then
(
done
)
})
/**
* @tc.number: Geomagentic_Sensor_Test0030
* @tc.name: SensorGeomagenticTest003
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0030
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0030----------------------------------
"
);
let
geomagneticComponent
=
[
27779.234375
,
-
6214.9794921875
,
-
14924.6611328125
,
-
27.667943954467773
,
-
12.610970497131348
,
28465.9765625
,
32141.2109375
]
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
Number
.
MAX_VALUE
,
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest003 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest003 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0040
* @tc.name: SensorGeomagenticTest004
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0040
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0040----------------------------------
"
);
let
geomagneticComponent
=
[
27779.234375
,
-
6214.9794921875
,
-
14924.6611328125
,
-
27.667943954467773
,
-
12.610970497131348
,
28465.9765625
,
32141.2109375
]
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
Number
.
MIN_VALUE
,
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest004 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest004 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0050
* @tc.name: SensorGeomagenticTest005
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0050
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0050----------------------------------
"
);
let
geomagneticComponent
=
[
1824.141845703125
,
116.58167266845703
,
56727.7734375
,
88.15447235107422
,
3.6568238735198975
,
1827.8634033203125
,
56757.21484375
]
sensor
.
getGeomagneticField
({
'
latitude
'
:
Number
.
MAX_VALUE
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest005 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest005 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0060
* @tc.name: SensorGeomagenticTest006
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0060
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0060----------------------------------
"
);
let
geomagneticComponent
=
[
1824.141845703125
,
116.58167266845703
,
56727.7734375
,
88.15447235107422
,
3.6568238735198975
,
1827.8634033203125
,
56757.21484375
]
sensor
.
getGeomagneticField
({
'
latitude
'
:
Number
.
NaN
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest006 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest006 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0070
* @tc.name: SensorGeomagenticTest007
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0070
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0070----------------------------------
"
);
let
geomagneticComponent
=
[
14425.57421875
,
-
17156.767578125
,
-
52023.21484375
,
-
66.69005584716797
,
-
49.94255447387695
,
22415.4375
,
56646.859375
]
sensor
.
getGeomagneticField
({
'
latitude
'
:
Number
.
NEGATIVE_INFINITY
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest007 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest007 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0080
* @tc.name: SensorGeomagenticTest008
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0080
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0080----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
MAX_VALUE
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest008 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest008 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
();
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0090
* @tc.name: SensorGeomagenticTest009
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0090
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0090----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NaN
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest009 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest009 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0100
* @tc.name: SensorGeomagenticTest010
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0100
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0100----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NEGATIVE_INFINITY
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest010 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest010 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0110
* @tc.name: SensorGeomagenticTest011
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0110
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0110----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
MAX_VALUE
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest011 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest011 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0120
* @tc.name: SensorGeomagenticTest012
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0120
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0120----------------------------------
"
);
let
geomagneticComponent
=
[
27536.40234375
,
-
2248.586669921875
,
-
16022.4306640625
,
-
30.110872268676758
,
-
4.66834020614624
,
27628.05859375
,
31937.875
]
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
MIN_VALUE
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest012 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest012 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0130
* @tc.name: SensorGeomagenticTest013
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0130
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0130----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NaN
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest013 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest013 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0140
* @tc.name: SensorGeomagenticTest014
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0140
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0140----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NEGATIVE_INFINITY
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest014 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest014 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0150
* @tc.name: SensorGeomagenticTest015
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0150
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0150----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NaN
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest015 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest015 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0160
* @tc.name: SensorGeomagenticTest016
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0160
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0160----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NEGATIVE_INFINITY
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest016 once success
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest016 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0170
* @tc.name: SensorGeomagenticTest017
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0170
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0170----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
MAX_VALUE
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest017 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest017 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0180
* @tc.name: SensorGeomagenticTest018
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0180
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0180----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NaN
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest018 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest018 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0190
* @tc.name: SensorGeomagenticTest019
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0190
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0190----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NEGATIVE_INFINITY
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest019 failed
'
);
expect
(
false
).
assertfalse
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest019 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0200
* @tc.name: SensorGeomagenticTest020
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0200
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0200----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
MAX_VALUE
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest020 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest020 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
();
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0210
* @tc.name: SensorGeomagenticTest021
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0210
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0210----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NaN
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest021 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest021 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0220
* @tc.name: SensorGeomagenticTest022
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0220
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0220----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NEGATIVE_INFINITY
,
'
altitude
'
:
0
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest022 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest022 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0230
* @tc.name: SensorGeomagenticTest023
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0230
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0230----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
MAX_VALUE
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest023 failed
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest023 success x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0240
* @tc.name: SensorGeomagenticTest024
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0240
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0240----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NaN
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest024 once success
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest024 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0250
* @tc.name: SensorGeomagenticTest025
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
'
Geomagentic_Sensor_Test0250
'
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0250----------------------------------
"
);
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NEGATIVE_INFINITY
},
timeMillis
[
0
],
(
error
,
data
)
=>
{
if
(
error
)
{
console
.
info
(
'
SensorGeomagenticTest025 once success
'
);
expect
(
false
).
assertTrue
();
}
else
{
console
.
info
(
'
SensorGeomagenticTest025 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
()
}
setTimeout
(()
=>
{
done
()
},
500
)
})
})
/**
* @tc.number: Geomagentic_Sensor_Test0260
* @tc.name: SensorGeomagenticTest026
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
"
Geomagentic_Sensor_Test0260
"
,
0
,
async
function
(
done
)
{
console
.
info
(
"
---------------------------Geomagentic_Sensor_Test0260----------------------------------
"
);
for
(
var
i
=
0
;
i
<
timeMillis
.
length
;
i
++
)
{
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
80
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
i
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest026 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
);
expect
(
data
.
x
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
0
])
expect
(
data
.
y
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
1
])
expect
(
data
.
z
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
2
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
3
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
})
}
done
()
})
/**
* @tc.number: Geomagentic_Sensor_Test0270
* @tc.name: SensorGeomagenticTest027
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
"
Geomagentic_Sensor_Test0270
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0270---------------------------
'
);
let
geomagneticComponent
=
[
27779.234375
,
-
6214.9794921875
,
-
14924.6611328125
,
-
27.667943954467773
,
-
12.610970497131348
,
28465.9765625
,
32141.2109375
]
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
Number
.
MAX_VALUE
).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest027 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/**
* @tc.number: Geomagentic_Sensor_Test0280
* @tc.name: SensorGeomagenticTest028
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
"
Geomagentic_Sensor_Test0280
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0280---------------------------
'
);
let
geomagneticComponent
=
[
27779.234375
,
-
6214.9794921875
,
-
14924.6611328125
,
-
27.667943954467773
,
-
12.610970497131348
,
28465.9765625
,
32141.2109375
]
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
Number
.
MIN_VALUE
).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest028 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
});
done
()
})
/**
* @tc.number: Geomagentic_Sensor_Test0290
* @tc.name: SensorGeomagenticTest029
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
"
Geomagentic_Sensor_Test0290
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0290---------------------------
'
);
let
geomagneticComponent
=
[
1824.141845703125
,
116.58167266845703
,
56727.7734375
,
88.15447235107422
,
3.6568238735198975
,
1827.8634033203125
,
56757.21484375
]
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
Number
.
MAX_VALUE
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest029 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/**
* @tc.number: Geomagentic_Sensor_Test0300
* @tc.name: SensorGeomagenticTest030
* @tc.desc: Verification results of the incorrect parameters of the test interface.
*/
it
(
"
Geomagentic_Sensor_Test0300
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0300---------------------------
'
);
let
geomagneticComponent
=
[
1824.141845703125
,
116.58167266845703
,
56727.7734375
,
88.15447235107422
,
3.6568238735198975
,
1827.8634033203125
,
56757.21484375
]
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
Number
.
NaN
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest030 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/**
* @tc.number: Geomagentic_Sensor_Test0310
* @tc.name: SensorGeomagenticTest031
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0310
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0310---------------------------
'
);
let
geomagneticComponent
=
[
14425.57421875
,
-
17156.767578125
,
-
52023.21484375
,
-
66.69005584716797
,
-
49.94255447387695
,
22415.4375
,
56646.859375
]
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
Number
.
NEGATIVE_INFINITY
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest031 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0320
* @tc.name: SensorGeomagenticTest032
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0320
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0320---------------------------
'
);
let
geomagneticComponent
=
[
NaN
,
NaN
,
NaN
]
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
MAX_VALUE
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest032 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0330
* @tc.name: SensorGeomagenticTest033
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0330
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0330---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NaN
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest033 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0340
* @tc.name: SensorGeomagenticTest034
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0340
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0340---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NEGATIVE_INFINITY
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest034 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0350
* @tc.name: SensorGeomagenticTest035
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0350
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0350---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
MAX_VALUE
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest035 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0360
* @tc.name: SensorGeomagenticTest036
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0360
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0360---------------------------
'
);
let
geomagneticComponent
=
[
27536.40234375
,
-
2248.586669921875
,
-
16022.4306640625
,
-
30.110872268676758
,
-
4.66834020614624
,
27628.05859375
,
31937.875
]
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
MIN_VALUE
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest036 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
geomagneticComponent
[
0
])
expect
(
data
.
y
).
assertEqual
(
geomagneticComponent
[
1
])
expect
(
data
.
z
).
assertEqual
(
geomagneticComponent
[
2
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
geomagneticComponent
[
3
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
geomagneticComponent
[
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
geomagneticComponent
[
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
geomagneticComponent
[
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0370
* @tc.name: SensorGeomagenticTest037
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0370
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0370---------------------------start
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NaN
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest037 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0380
* @tc.name: SensorGeomagenticTest038
* @tc.desc:verify app info is not null
* @tc.type: FUNC
* @tc.require: Issue Number
*/
it
(
"
Geomagentic_Sensor_Test0380
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0380---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NEGATIVE_INFINITY
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest038 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
x
)
&&
Number
.
isNaN
(
data
.
y
)
&&
Number
.
isNaN
(
data
.
z
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0390
* @tc.name: SensorGeomagenticTest039
* @tc.desc:verify app info is not null
*/
it
(
'
Geomagentic_Sensor_Test0390
'
,
0
,
async
function
(
done
)
{
for
(
var
i
=
0
;
i
<
timeMillis
.
length
;
i
++
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0390---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
80
,
'
longitude
'
:
0
,
'
altitude
'
:
0
},
timeMillis
[
i
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest039 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
);
expect
(
data
.
x
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
0
])
expect
(
data
.
y
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
1
])
expect
(
data
.
z
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
2
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
3
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_YEAR_RESULT
[
i
][
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
}
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0400
* @tc.name: SensorGeomagenticTest040
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0400
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0400---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NaN
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest040 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0410
* @tc.name: SensorGeomagenticTest041
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0410
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0410---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NEGATIVE_INFINITY
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest041 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0420
* @tc.name: SensorGeomagenticTest042
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0420
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0420 max ---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
MAX_VALUE
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest042 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0430
* @tc.name: SensorGeomagenticTest043
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0430
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0430---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NaN
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest043 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0440
* @tc.name: SensorGeomagenticTest044
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0440
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0440---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NEGATIVE_INFINITY
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest044 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
)
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0450
* @tc.name: SensorGeomagenticTest045
* @tc.desc:verify app info is not null
*/
it
(
'
Geomagentic_Sensor_Test0450
'
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0450---------------------------
'
);
for
(
var
i
=
0
;
i
<
GEOMAGNETIC_COORDINATES
.
length
;
i
++
)
{
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
GEOMAGNETIC_COORDINATES
[
i
][
0
],
'
longitude
'
:
GEOMAGNETIC_COORDINATES
[
i
][
1
],
'
altitude
'
:
GEOMAGNETIC_COORDINATES
[
i
][
2
]
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest045 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
data
.
x
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
i
][
0
])
expect
(
data
.
y
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
i
][
1
])
expect
(
data
.
z
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
i
][
2
])
expect
(
data
.
deflectionAngle
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
i
][
3
])
expect
(
data
.
geomagneticDip
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
i
][
4
])
expect
(
data
.
levelIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
i
][
5
])
expect
(
data
.
totalIntensity
).
assertEqual
(
GEOMAGNETIC_COMPONENT_COORDINATES_RESULT
[
i
][
6
])
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
});
}
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0460
* @tc.name: SensorGeomagenticTest046
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0460
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0460---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
MAX_VALUE
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest046 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
();
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0470
* @tc.name: SensorGeomagenticTest047
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0470
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0470---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NaN
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest047 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0480
* @tc.name: SensorGeomagenticTest048
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0480
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0480---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
Number
.
NEGATIVE_INFINITY
,
'
altitude
'
:
0
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest048 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
deflectionAngle
)
&&
Number
.
isNaN
(
data
.
geomagneticDip
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0490
* @tc.name: SensorGeomagenticTest049
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0490
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0490---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
MAX_VALUE
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest049 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0500
* @tc.name: SensorGeomagenticTest050
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0500
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0500---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NaN
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest050 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
});
done
()
})
/*
* @tc.number: Geomagentic_Sensor_Test0510
* @tc.name: SensorGeomagenticTest051
* @tc.desc:verify app info is not null
*/
it
(
"
Geomagentic_Sensor_Test0510
"
,
0
,
async
function
(
done
)
{
console
.
info
(
'
----------------------Geomagentic_Sensor_Test0510---------------------------
'
);
await
sensor
.
getGeomagneticField
({
'
latitude
'
:
0
,
'
longitude
'
:
0
,
'
altitude
'
:
Number
.
NEGATIVE_INFINITY
},
timeMillis
[
0
]).
then
((
data
)
=>
{
console
.
info
(
'
SensorGeomagenticTest051 x:
'
+
data
.
x
+
'
,y:
'
+
data
.
y
+
'
,z:
'
+
data
.
z
+
'
,geomagneticDip:
'
+
data
.
geomagneticDip
+
'
,deflectionAngle:
'
+
data
.
deflectionAngle
+
'
,levelIntensity:
'
+
data
.
levelIntensity
+
'
,totalIntensity:
'
+
data
.
totalIntensity
)
expect
(
Number
.
isNaN
(
data
.
levelIntensity
)
&&
Number
.
isNaN
(
data
.
totalIntensity
)).
assertTrue
()
}).
catch
((
error
)
=>
{
console
.
info
(
"
promise::catch
"
,
error
);
});
done
()
})
})
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