CN106817469B - Terminal software testing method and system for simulating manual operation - Google Patents

Abstract

The invention provides a terminal software testing method and a system for simulating manual operation, wherein the terminal software testing method comprises the following steps: a screen touch step: controlling the touch probe to touch the designated position of the screen, and photographing: controlling a camera to take a picture and displaying the picture in a picture display area of the test software, and judging a result: and judging whether the test is successful or not according to a judgment success mark set by the test item, if so, executing the step of judging the rest test items, and otherwise, saving the failure picture and finishing. The invention has the beneficial effects that: in the invention, the same machine type only needs to edit the test script once, and different machine types can be realized by replacing different test scripts, so that the universality is higher; the test system can carry out pressure test on the mobile phone for 24 hours, the test process is not influenced by the external environment, and the test efficiency is improved.

Description

Terminal software testing method and system for simulating manual operation

Technical Field

The invention relates to the technical field of software testing, in particular to a terminal software testing method and system for simulating manual operation.

Background

Terminal device software, such as mobile phone software, needs to be tested after successful development, and there are two types of current tests:

1. at present, after the software version of the mobile phone is internally released, a special software testing group is required to be reached firstly to test the software, generally 8-12 persons in the testing group are used for decomposing and testing the software functions of each module, and each person needs to test about 5-8 mobile phones for repeated tests.

2. And developing an automatic test program of the mobile phone, and installing the test program on the mobile phone for testing when the test is needed.

The main defects of the current test are:

1. the manpower cost is bigger for manual testing. The manual testing efficiency is slow, the tester is greatly influenced by the outside, and the actual testing effect cannot be guaranteed.

2. The automatic test program mode needs to invest in special developers, has long development period and cannot simulate the operation of people.

Disclosure of Invention

The invention provides a terminal software testing method for simulating manual operation, which comprises the following steps:

a loading step: loading a test script;

the execution steps are as follows: executing the test item;

a mechanical arm control step: controlling the manipulator to move to a touch position set by the test item;

a screen touch step: controlling the touch probe to touch the designated position of the screen;

a movement control step: controlling the mechanical arm to move to a set photographing position;

a photographing step: controlling a camera to take a picture and displaying the picture in a picture display area of the test software;

and a result judgment step: judging whether the test is successful or not according to a judgment success mark set by the test item, if so, executing the judgment step of the residual test item, and otherwise, saving the failure picture and ending;

and judging the remaining test items: and judging whether the test script has the rest test items which are not executed, if so, returning to the execution step, and if not, ending the test.

As a further improvement of the present invention, in the step of judging the remaining test items, it is judged whether the test script has remaining test items that are not executed, if yes, the step of executing is returned, otherwise, it is judged whether the test script performs a loop test, if the loop test is to be performed, the step of executing is returned, otherwise, the test is ended.

As a further improvement of the present invention, in the result judgment step, according to a judgment success flag set by the test item, whether the test is successful or not is judged, if so, the remaining test item judgment step is executed, otherwise, the failure picture is saved and whether the test script performs the loop test or not is judged, if the loop test is to be performed, the execution step is returned, otherwise, the test is ended.

As a further improvement of the present invention, the terminal software testing method further includes a step of editing the test script, and the step of editing the test script includes the following steps that are sequentially executed:

newly building a test script: popping up a dialog box, inputting a script name, and clicking for determination;

setting a touch height: manually moving the manipulator to a certain distance away from the screen to enable the touch probe to be 4-6 mm away from the screen;

saving the touch height: recording the height of the manipulator when the touch screen needs to be clicked each time;

setting a photographing position: moving the manipulator to a position where the camera is opposite to the center of the terminal screen and is 9-11 CM away from the screen;

continuously acquiring images: displaying the shot terminal picture in the image display area, and adjusting a lens to make the image clear;

saving the photographing position: recording the position of the manipulator when taking a picture each time;

stopping collecting the image: stopping shooting by the camera;

newly establishing a test item: popping up a dialog box, inputting the name of the test item, and clicking for determination;

setting a touch position: manually moving the manipulator to a position where a hand needs to click when the touch probe is aligned and tested;

saving the touch position: recording a test position, and enabling the terminal to enter a related test interface;

returning to the photographing position: the mechanical arm automatically returns to the set photographing position;

single-time image acquisition: after the image is collected, displaying the image in an image display area;

intercepting a success mark: popping up a selection frame, and intercepting the mark pattern which can be successfully judged on the image;

and (4) saving the test items: recording the test items to the test script;

and judging whether the test item editing is finished, if so, saving the test script, and otherwise, returning to the newly-built test item.

As a further improvement of the present invention,

setting a touch height: manually moving the manipulator to a certain distance away from the screen to enable the touch probe to be 5mm away from the screen;

setting a photographing position: the manipulator is moved to a position where the camera faces the center of the terminal screen, and is spaced 10CM from the screen.

The invention also provides a terminal software testing system for simulating manual operation, which comprises:

loading a module: for loading a test script;

an execution module: for executing test items;

the manipulator control module: the manipulator is controlled to move to a touch position set by the test item;

a touch screen module: the touch probe is used for controlling the touch probe to touch a designated position of the screen;

a mobile control module: the mechanical arm is used for controlling the mechanical arm to move to a set photographing position;

a photographing module: the image display area is used for controlling the camera to take a picture and displaying the image on the test software;

and a result judgment module: the judging module is used for judging whether the test is successful or not according to the judgment success mark set by the test item, if so, executing the residual test item judging module, and otherwise, storing the failure picture and ending;

a residual test item judgment module: and the test module is used for judging whether the test script has the residual test items which are not executed, if so, returning to the execution module, and if not, finishing the test.

As a further improvement of the present invention, in the remaining test item determining module, it is determined whether the test script has remaining test items that are not executed, if yes, the execution module is returned, otherwise, it is determined whether the test script performs a loop test, if the loop test is to be performed, the execution module is returned, otherwise, the test is ended.

As a further improvement of the present invention, in the result judgment module, according to a judgment success flag set by the test item, whether the test is successful or not is judged, if so, the remaining test item judgment module is executed, otherwise, the failure picture is saved and whether the test script performs the loop test or not is judged, if the loop test is to be performed, the test is returned to the execution module, otherwise, the test is ended.

As a further improvement of the invention, the terminal software testing system further comprises an editing testing script module, wherein the editing testing script module comprises the following modules which are executed in sequence:

newly building a test script module: the method is used for popping up a dialog box, inputting a script name and clicking for determination;

setting a touch height module: the manipulator is used for manually moving a certain distance away from the screen, so that the touch probe is 4-6 mm away from the screen;

save touch height module: the height of the manipulator is recorded when the touch screen needs to be clicked each time;

setting a photographing position module: the manipulator is used for moving to a position where the camera is opposite to the center of the terminal screen and is 9-11 CM away from the screen;

a continuous image acquisition module: the terminal image display device is used for displaying a shot terminal image in the image display area and adjusting a lens to enable the image to be clear;

the storage photographing position module: the manipulator is used for recording the position of the manipulator when the picture is taken each time;

stopping the image acquisition module: stopping shooting by the camera;

newly-built test item module: the method is used for popping up a dialog box, inputting the name of a test item and clicking for determination;

setting a touch position module: the manipulator is used for manually moving to a position where a hand needs to click when the touch probe is tested for alignment;

a save touch location module: the terminal is used for recording the test position and enabling the terminal to enter a related test interface;

returning to the photographing position module: the mechanical arm automatically returns to the set photographing position;

a single-acquisition image module: the image acquisition device is used for acquiring an image and displaying the image in an image display area;

intercepting a successful mark module: the selection box is used for popping up, and the mark pattern which can be successfully judged on the image is intercepted;

a save test item module: recording the test items to the test script;

and judging whether the test item editing is finished, if so, saving the test script, and otherwise, returning to the newly-built test item module.

As a further improvement of the present invention, a touch height module is provided: the manipulator is used for manually moving the manipulator to a certain distance away from the screen, so that the touch probe is 5mm away from the screen; setting a photographing position module: for moving the manipulator to a position where the camera faces the center of the terminal screen, at a distance of 10CM from the screen.

The invention has the beneficial effects that: in the invention, the same machine type only needs to edit the test script once, and different machine types can be realized by replacing different test scripts, so that the universality is higher; the test system can carry out pressure test on the mobile phone for 24 hours, the test process is not influenced by the external environment, and the test efficiency is improved.

Drawings

FIG. 1 is a flow chart of test script execution of the present invention.

FIG. 2 is a flow chart of the execution of one embodiment of the test script of the present invention.

FIG. 3 is a flow diagram of test script editing of the present invention.

FIG. 4 is a diagram of a test software control interface of the present invention.

Detailed Description

The hardware facility of the invention comprises:

fixing a bottom plate: fixing the manipulator and the mobile phone fixing clamp on a fixing bottom plate;

4-axis robot: fixed on the bottom plate, the tail end of the manipulator can be X, Y, Z moved to a designated position through computer control;

an industrial camera: connecting to a computer, taking a picture of a screen of the mobile phone after the manipulator moves to a designated position, processing the picture by background software, judging the current state of the mobile phone, and then performing the next operation;

a touch probe: the touch probe is controlled by the cylinder and connected to the small air pump, and the small air pump is controlled by the manipulator platform. And simulating a human hand, and operating the screen by touching the probe after the manipulator moves to the designated position.

Cell-phone mounting fixture: the mobile phone to be tested is fixed on the clamp.

As shown in fig. 1, the invention discloses a terminal software testing method for simulating manual operation, which comprises the following steps:

a loading step: loading a test script;

the execution steps are as follows: executing the test item;

a mechanical arm control step: controlling the manipulator to move to a touch position set by the test item;

a screen touch step: controlling the touch probe to touch the designated position of the screen;

a movement control step: controlling the mechanical arm to move to a set photographing position;

a photographing step: controlling a camera to take a picture and displaying the picture in a picture display area of the test software;

and a result judgment step: judging whether the test is successful or not according to a judgment success mark set by the test item, if so, executing the judgment step of the residual test item, and otherwise, saving the failure picture and ending;

and judging the remaining test items: and judging whether the test script has the rest test items which are not executed, if so, returning to the execution step, and if not, ending the test.

As shown in fig. 2, in the step of determining the remaining test items, it is determined whether the test script has remaining test items that are not executed, if yes, the step of executing is returned, otherwise, it is determined whether the test script performs a loop test, if a loop test is to be performed, the step of executing is returned, otherwise, the test is ended.

In the result judging step, whether the test is successful or not is judged according to a judgment success mark set by the test item, if so, the remaining test item judging step is executed, otherwise, the failure picture is stored and whether the test script carries out the cycle test or not is judged, if the cycle test is required, the executing step is returned, and if not, the test is ended.

The terminal in the invention can be a smart phone or a tablet computer.

As shown in fig. 3, the terminal software testing method further includes a step of editing the test script, where the step of editing the test script includes the following steps that are sequentially executed:

1. newly building a test script: and popping up a dialog box, inputting a script name, and clicking to determine.

2. Setting a touch height: the arm is manually moved a distance from the screen so that the touch probe is approximately 4 to 6mm from the screen.

3. Saving the touch height: and after clicking, recording the height of the manipulator when the touch screen needs to be clicked every time.

4. Setting a photographing position: the manipulator is moved to a position where the camera is opposite to the center of the screen of the mobile phone, and the distance between the camera and the screen is about 9 CM to 11 CM.

5. Continuously acquiring images: and displaying the shot mobile phone picture in the image display area, and adjusting the lens to make the image clear.

6. Saving the photographing position: after clicking, the position of the manipulator at each photo taking is recorded.

7. Stopping collecting the image: the camera stops shooting.

8. Newly establishing a test item: and popping up a dialog box, inputting the name of the test item, and clicking to determine.

9. Setting a touch position: and manually moving the mechanical arm to a position where a hand needs to click when the touch probe is aligned to the test.

10. Saving the touch position: recording the test position, and making the mobile phone enter a related test interface.

11. Returning to the photographing position: after clicking, the mechanical arm automatically returns to the set photographing position.

12. Single-time image acquisition: and after the image is collected, displaying the image in an image display area.

13. Intercepting a success mark: and popping up a selection frame, and intercepting the mark pattern which can be successfully judged on the image.

14. And (4) saving the test items: the test items are recorded to the test script.

15. And (4) storing the test script: the test script is saved and the script is closed.

As a preferred embodiment of the present invention, the touch height is set: manually moving the manipulator to a certain distance away from the screen to enable the touch probe to be 5mm away from the screen; setting a photographing position: the manipulator is moved to a position where the camera faces the center of the terminal screen, and is spaced 10CM from the screen.

The invention also discloses a terminal software testing system for simulating manual operation, which comprises:

loading a module: for loading a test script;

an execution module: for executing test items;

the manipulator control module: the manipulator is controlled to move to a touch position set by the test item;

a touch screen module: the touch probe is used for controlling the touch probe to touch a designated position of the screen;

a mobile control module: the mechanical arm is used for controlling the mechanical arm to move to a set photographing position;

a photographing module: the image display area is used for controlling the camera to take a picture and displaying the image on the test software;

and a result judgment module: the judging module is used for judging whether the test is successful or not according to the judgment success mark set by the test item, if so, executing the residual test item judging module, and otherwise, storing the failure picture and ending;

a residual test item judgment module: and the test module is used for judging whether the test script has the residual test items which are not executed, if so, returning to the execution module, and if not, finishing the test.

And in the residual test item judging module, judging whether the test script has residual test items which are not executed, if so, returning to the executing module, otherwise, judging whether the test script performs the cycle test, if so, returning to the executing module, and otherwise, finishing the test.

In the result judging module, whether the test is successful or not is judged according to a judgment success mark set by the test item, if so, the residual test item judging module is executed, otherwise, the failure picture is stored and whether the test script carries out the cycle test or not is judged, if the cycle test is required, the test is returned to the executing module, and if not, the test is ended.

The terminal software testing system also comprises an editing testing script module, wherein the editing testing script module comprises the following modules which are executed in sequence:

newly building a test script module: the method is used for popping up a dialog box, inputting a script name and clicking for determination;

setting a touch height module: the manipulator is used for manually moving a certain distance away from the screen, so that the touch probe is 4-6 mm away from the screen;

save touch height module: the height of the manipulator is recorded when the touch screen needs to be clicked each time;

setting a photographing position module: the manipulator is used for moving to a position where the camera is opposite to the center of the terminal screen and is 9-11 CM away from the screen;

a continuous image acquisition module: the terminal image display device is used for displaying a shot terminal image in the image display area and adjusting a lens to enable the image to be clear;

the storage photographing position module: the manipulator is used for recording the position of the manipulator when the picture is taken each time;

stopping the image acquisition module: stopping shooting by the camera;

newly-built test item module: the method is used for popping up a dialog box, inputting the name of a test item and clicking for determination;

setting a touch position module: the manipulator is used for manually moving to a position where a hand needs to click when the touch probe is tested for alignment;

a save touch location module: the terminal is used for recording the test position and enabling the terminal to enter a related test interface;

returning to the photographing position module: the mechanical arm automatically returns to the set photographing position;

a single-acquisition image module: the image acquisition device is used for acquiring an image and displaying the image in an image display area;

intercepting a successful mark module: the selection box is used for popping up, and the mark pattern which can be successfully judged on the image is intercepted;

a save test item module: recording the test items to the test script;

and judging whether the test item editing is finished, if so, saving the test script, and otherwise, returning to the newly-built test item module.

Setting a touch height module: the manipulator is used for manually moving the manipulator to a certain distance away from the screen, so that the touch probe is 5mm away from the screen;

setting a photographing position module: for moving the manipulator to a position where the camera faces the center of the terminal screen, at a distance of 10CM from the screen.

The manipulator is connected with the PC through a serial port or a USB port, and the PC sends related instructions to the manipulator control platform to enable the manipulator to complete the function of moving and touching the probe to operate the screen. The industrial camera is connected with a computer through a network port or a special image acquisition card to complete the functions of photographing and image transmission.

Before testing, an operator edits a test script through a software platform provided by a developer according to the software testing requirement. And after the test script is edited, running test software to perform automatic test. When the test process fails, the state displayed on the screen of the mobile phone when the test process fails can be recorded through the camera.

And the plurality of devices can directly copy the test script to other computer type.

In the invention, the following technical advantages are provided:

1. each test case of the mobile phone only needs to edit one test script, the test script is fast and simple to edit, no special personnel is needed to operate, and common test personnel can complete work fast. The existing manual testing mode is replaced, and the labor cost is reduced.

2. The same model can be edited by only one test script, and different models can be realized by replacing different test scripts, so that the universality is higher.

3. The test system can carry out pressure test on the mobile phone for 24 hours, the test process is not influenced by the external environment, and the test efficiency is improved.

The foregoing is a more detailed description of the invention in connection with specific preferred embodiments and it is not intended that the invention be limited to these specific details. For those skilled in the art to which the invention pertains, several simple deductions or substitutions can be made without departing from the spirit of the invention, and all shall be considered as belonging to the protection scope of the invention.

Claims (8)

1. A terminal software testing method for simulating manual operation is characterized by comprising the following steps:

a loading step: loading a test script;

the execution steps are as follows: executing the test item;

a mechanical arm control step: controlling the manipulator to move to a touch position set by the test item;

a screen touch step: controlling the touch probe to touch the designated position of the screen;

a movement control step: controlling the mechanical arm to move to a set photographing position;

a photographing step: controlling a camera to take a picture and displaying the picture in a picture display area of the test software;

and a result judgment step: judging whether the test is successful or not according to a judgment success mark set by the test item, if so, executing the judgment step of the residual test item, and otherwise, saving the failure picture and ending;

and judging the remaining test items: judging whether the test script has residual test items which are not executed, if so, returning to the execution step, otherwise, ending the test;

the terminal software testing method also comprises a testing script editing step, wherein the testing script editing step comprises the following steps of:

newly building a test script: popping up a dialog box, inputting a script name, and clicking for determination;

setting a touch height: manually moving the manipulator to a certain distance away from the screen to enable the touch probe to be 4-6 mm away from the screen;

saving the touch height: recording the height of the manipulator when the touch screen needs to be clicked each time;

setting a photographing position: moving the manipulator to a position where the camera is opposite to the center of the terminal screen and is 9-11 CM away from the screen;

continuously acquiring images: displaying the shot terminal picture in the image display area, and adjusting a lens to make the image clear;

saving the photographing position: recording the position of the manipulator when taking a picture each time;

stopping collecting the image: stopping shooting by the camera;

newly establishing a test item: popping up a dialog box, inputting the name of the test item, and clicking for determination;

setting a touch position: manually moving the manipulator to a position where a hand needs to click when the touch probe is aligned and tested;

saving the touch position: recording a test position, and enabling the terminal to enter a related test interface;

returning to the photographing position: the mechanical arm automatically returns to the set photographing position;

single-time image acquisition: after the image is collected, displaying the image in an image display area;

intercepting a success mark: popping up a selection frame, and intercepting the mark pattern which can be successfully judged on the image;

and (4) saving the test items: recording the test items to the test script;

and judging whether the test item editing is finished, if so, saving the test script, and otherwise, returning to the newly-built test item.

2. The method for testing terminal software according to claim 1, wherein in the step of judging the remaining test items, it is judged whether the test script has remaining test items that are not executed, if yes, the step of executing is returned, otherwise, it is judged whether the test script performs the loop test, if the loop test is to be performed, the step of executing is returned, otherwise, the test is ended.

3. The method for testing terminal software according to claim 1, wherein in the result judgment step, whether the test is successful or not is judged according to a judgment success flag set by the test item, if so, the remaining test item judgment step is executed, otherwise, the failure picture is saved and whether the test script performs the loop test or not is judged, if the loop test is to be performed, the execution step is returned, otherwise, the test is ended.

4. The terminal software testing method according to claim 1,

setting a touch height: manually moving the manipulator to a certain distance away from the screen to enable the touch probe to be 5mm away from the screen;

setting a photographing position: the manipulator is moved to a position where the camera faces the center of the terminal screen, and is spaced 10CM from the screen.

5. A terminal software testing system for simulating manual operation is characterized by comprising:

loading a module: for loading a test script;

an execution module: for executing test items;

the manipulator control module: the manipulator is controlled to move to a touch position set by the test item;

a touch screen module: the touch probe is used for controlling the touch probe to touch a designated position of the screen;

a mobile control module: the mechanical arm is used for controlling the mechanical arm to move to a set photographing position;

a photographing module: the image display area is used for controlling the camera to take a picture and displaying the image on the test software;

and a result judgment module: the judging module is used for judging whether the test is successful or not according to the judgment success mark set by the test item, if so, executing the residual test item judging module, and otherwise, storing the failure picture and ending;

a residual test item judgment module: the test script is used for judging whether the test script has the residual test items which are not executed, if so, returning to the execution module, and if not, finishing the test;

the terminal software testing system also comprises an editing testing script module, wherein the editing testing script module comprises the following modules which are executed in sequence:

newly building a test script module: the method is used for popping up a dialog box, inputting a script name and clicking for determination;

setting a touch height module: the manipulator is used for manually moving a certain distance away from the screen, so that the touch probe is 4-6 mm away from the screen;

save touch height module: the height of the manipulator is recorded when the touch screen needs to be clicked each time;

setting a photographing position module: the manipulator is used for moving to a position where the camera is opposite to the center of the terminal screen and is 9-11 CM away from the screen;

a continuous image acquisition module: the terminal image display device is used for displaying a shot terminal image in the image display area and adjusting a lens to enable the image to be clear;

the storage photographing position module: the manipulator is used for recording the position of the manipulator when the picture is taken each time;

stopping the image acquisition module: stopping shooting by the camera;

newly-built test item module: the method is used for popping up a dialog box, inputting the name of a test item and clicking for determination;

setting a touch position module: the manipulator is used for manually moving to a position where a hand needs to click when the touch probe is tested for alignment;

a save touch location module: the terminal is used for recording the test position and enabling the terminal to enter a related test interface;

returning to the photographing position module: the mechanical arm automatically returns to the set photographing position;

a single-acquisition image module: the image acquisition device is used for acquiring an image and displaying the image in an image display area;

intercepting a successful mark module: the selection box is used for popping up, and the mark pattern which can be successfully judged on the image is intercepted;

a save test item module: recording the test items to the test script;

and judging whether the test item editing is finished, if so, saving the test script, and otherwise, returning to the newly-built test item module.

6. The system according to claim 5, wherein in the remaining test item determining module, it is determined whether the test script has remaining test items that are not executed, if yes, the execution module is returned, otherwise, it is determined whether the test script performs the loop test, if the loop test is to be performed, the execution module is returned, otherwise, the test is ended.

7. The system according to claim 5, wherein in the result determination module, according to a determination success flag set in the test item, it is determined whether the test is successful, if so, the remaining test item determination module is executed, otherwise, the failure picture is saved and it is determined whether the test script performs the loop test, if the loop test is to be performed, the execution module is returned, otherwise, the test is ended.

8. The terminal software testing system according to claim 5,

setting a touch height module: the manipulator is used for manually moving the manipulator to a certain distance away from the screen, so that the touch probe is 5mm away from the screen;

setting a photographing position module: for moving the manipulator to a position where the camera faces the center of the terminal screen, at a distance of 10CM from the screen.

Images