CN117851148B - Multi-mode testing method, device and equipment for handle equipment and storage medium - Google Patents

Abstract

The invention provides a multi-mode testing method, a device, equipment and a storage medium of a handle equipment, wherein the method comprises the following steps: corresponding test flows are carried out according to different target test types, if the test flow is a first test mode, a first operation for any control element on the handle equipment is responded, a preset first lighting display effect is displayed and canceled according to whether the corresponding test control element in the display page is displayed or not, a detection result of the corresponding control element is recorded, and a first detection report is generated; and if the test mode is the second test mode, responding to a second operation of any control element on the handle equipment, and generating a second detection report according to the number of the elements of the operated control element and the number of the test controls displaying the second lighting display effect in the display page. The method integrates a plurality of test modes, improves the test flexibility and universality of the handle equipment, automatically records the detection result of the corresponding control element, generates a detection report, reduces manual operation and improves the test efficiency.

Description

Multi-mode testing method, device and equipment for handle equipment and storage medium

Technical Field

The present invention relates to the field of hardware testing, and in particular, to a method, an apparatus, a device, and a storage medium for testing a handle device in multiple modes.

Background

With the rapid development of the electronic game industry, gamepads are being an important interface for players to interact with games, whose performance and reliability are critical to the game experience. The existing test method often needs manual intervention, such as manual recording of test results, which not only reduces the test efficiency, but also increases the error possibility of the test results.

Disclosure of Invention

The invention mainly aims to solve the technical problem of low efficiency of the existing handle test scheme.

A first aspect of the present invention provides a method of multi-mode testing of a handle device, the handle device including a plurality of control elements thereon, the method comprising:

Responding to connection establishment of the handle equipment and preset display equipment, and displaying a preset handle test setting page on a display page of the display equipment, wherein the handle test setting page at least comprises a test mode selection window, and test mode selection buttons corresponding to all test models are provided in the test mode selection window;

Responding to clicking operation of any test mode selection button in the test mode selection window, and identifying a test mode corresponding to the test mode selection button corresponding to the clicking operation as a target test mode;

Displaying a preset handle test page on the display page, wherein the handle test page is provided with a plurality of test controls, and each test control has a corresponding control element on the handle equipment;

If the target test mode is a first test mode, responding to a first operation of any control element on the handle equipment, recording a detection result of the corresponding control element according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control element in the display page, and generating a first detection report of the first test mode according to the detection results of all the control elements;

And if the target test mode is a second test mode, responding to a second operation of any control element on the handle equipment, and generating a second detection report of the second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page.

Optionally, in a first implementation manner of the first aspect of the present invention, the control element includes a physical key, the test control includes a key control, and the first operation is a pressing operation;

Responding to a first operation for any control element on the handle device, according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, recording detection results of the corresponding control element, and generating a first detection report of a first test mode according to the detection results of all the control elements, wherein the first detection report comprises the following steps:

responding to the pressing operation of any entity key on the handle equipment, and detecting whether a preset first lighting display effect is displayed on a corresponding key control in the display page;

if the first lighting display effect is displayed on the corresponding key control, responding to the end of the pressing operation, and detecting whether the first lighting display effect is canceled in the display page;

if the first lighting display effect is cancelled in the display page, the detection result of the corresponding entity key is that the detection is passed;

If the first lighting display effect is not displayed on the corresponding key control or the first lighting display effect is not canceled in the display page, the detection result of the corresponding entity key is that the detection is failed;

And generating a first detection report of the first test mode according to the detection results of all the entity keys.

Optionally, in a second implementation manner of the first aspect of the present invention, the second operation is a pressing operation;

The responding to the second operation of any control element on the handle equipment, generating a second detection report of a second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page, wherein the second detection report comprises the following steps:

Responding to the pressing operation of any entity key on the handle equipment, and detecting whether a key control which does not display the second lighting display effect exists on the display page;

If the detection passing page does not exist, displaying a corresponding detection passing page on the display page;

If yes, judging whether the number of the elements of the pressed entity keys is the same as the number of the controls of the key controls for displaying the second lighting display effect in the display page;

If the physical buttons are different, comparing the pressed physical buttons with the button controls displaying the second lighting display effect in the display page according to the preset mapping relation to obtain a comparison result;

And generating a second detection report of the second test mode according to the comparison result.

Optionally, in a third implementation manner of the first aspect of the present invention, the control element further includes a rocker controller, the first operation is a sliding operation, and the test control further includes a rocker display area, where the rocker display area includes a plurality of lighting sub-areas;

Responding to a first operation for any control element on the handle device, according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, recording a detection result of the corresponding control element, and generating a first detection report of a first test mode according to the detection results of all the control elements, wherein the first detection report further comprises:

detecting whether a sliding track corresponding to the sliding operation is displayed in the rocker display area or not in response to the sliding operation of any rocker controller on the handle device;

If yes, judging whether the sliding track passes through the corresponding lighting sub-area according to whether the lighting sub-area on the corresponding rocker display area in the display page displays and cancels a preset first lighting display effect;

If the sliding track does not pass through the corresponding lighting sub-area, recording the detection result of the corresponding rocker controller as that the detection is failed;

and generating a first detection report of the first test mode according to the detection results of all the control elements.

Optionally, in a fourth implementation manner of the first aspect of the present invention, the second operation is a sliding operation;

The responding to the second operation of any control element on the handle equipment, generating a second detection report of a second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page, wherein the second detection report comprises the following steps:

Detecting whether a lighting sub-area which does not display the second lighting display effect exists on the rocker display area or not in response to a sliding operation of any one of the rocker controllers on the handle device;

If the detection passing page does not exist, displaying a corresponding detection passing page on the display page;

If yes, judging whether the number of the sliding elements and the number of the controls of the lighting subareas for displaying the second lighting display effect in the rocker display area are preset proportional values or not;

if the detection result is a preset proportion value, recording that the detection result of the corresponding rocker controller is that the detection is failed;

and generating a second detection report of a second test mode according to the detection results of all the control elements.

Optionally, in a fifth implementation manner of the first aspect of the present invention, the detecting, in response to a pressing operation on any one of the physical buttons on the handle device, whether a preset first lighting display effect is displayed on a corresponding button control in the display page includes:

responding to the pressing operation of any entity key on the handle equipment, and judging whether the pressing operation is the first pressing operation of all entity keys or not;

If yes, shooting the handle equipment and the display equipment through preset shooting equipment to obtain shooting videos comprising the handle equipment and the display equipment, and taking a first frame image of the shooting videos as a target image;

if not, carrying out frame extraction from the shooting video shot by the shooting equipment to obtain a frame image at the same moment as the pressing operation as a target image;

performing target recognition on a first image part containing handle equipment in the target image to obtain a recognition result, and determining an entity key corresponding to the pressing operation according to the recognition result;

Taking the entity key corresponding to the pressing operation as a target entity key, and identifying a second image part from the target image according to a preset mapping relation, wherein the second image part comprises a key control corresponding to the target entity key;

and detecting whether a button control corresponding to the target entity button displays a preset first lighting display effect or not.

Optionally, in a sixth implementation manner of the first aspect of the present invention, the performing object recognition on the first image portion including the handle device in the object image, and obtaining a recognition result includes:

Inputting a first image part containing handle equipment in the target image into a preset image recognition model, wherein the image recognition model comprises an input layer, a feature extraction layer, a classification layer and an output layer;

Performing sliding window operation on the first image part according to a preset step length and a preset scale through the input layer to obtain a plurality of candidate windows;

Extracting features of the candidate windows through the feature extraction layer to obtain feature graphs corresponding to the candidate windows;

Calculating target scores of the corresponding candidate windows according to the feature graphs through the classification layer respectively;

and taking the candidate window with the highest target score as a target window through the output layer, taking the position of the target window in the first image part as a target position, and outputting the target window and the target position as recognition results.

A second aspect of the present invention provides a multi-mode test apparatus for a handle device, the handle device including a plurality of control elements thereon, the multi-mode test apparatus for a handle device comprising:

The test starting module is used for responding to connection establishment of the handle equipment and preset display equipment, and displaying a preset handle test setting page on a display page of the display equipment, wherein the handle test setting page at least comprises a test mode selection window, and test mode selection buttons corresponding to all test models are provided in the test mode selection window;

the mode selection module is used for responding to clicking operation of any test mode selection button in the test mode selection window and identifying a test mode corresponding to the test mode selection button corresponding to the clicking operation as a target test mode;

The page display module is used for displaying a preset handle test page on the display page, wherein the handle test page is provided with a plurality of test controls, and each test control has a corresponding control element on the handle equipment;

The first test module is used for responding to a first operation of any control element on the handle equipment if the target test mode is a first test mode, recording a detection result of the corresponding control element according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, and generating a first detection report of the first test mode according to the detection results of all the control elements;

And the second test module is used for responding to a second operation of any control element on the handle equipment if the target test mode is a second test mode, and generating a second detection report of the second test mode according to the number of the elements of the operated control element and the number of the controls of the test control for displaying a second lighting display effect in the display page.

A third aspect of the present invention provides a multi-mode test apparatus for a handle device, comprising: a memory and at least one processor, the memory having instructions stored therein, the memory and the at least one processor being interconnected by a line; the at least one processor invokes the instructions in the memory to cause the multi-mode test device of the handle device to perform the steps of the multi-mode test method of the handle device described above.

A fourth aspect of the present invention provides a computer readable storage medium having instructions stored therein which, when run on a computer, cause the computer to perform the steps of the multi-mode test method of a handle device as described above.

According to the multi-mode testing method, the multi-mode testing device, the multi-mode testing equipment and the multi-mode testing storage medium of the handle equipment, through corresponding testing procedures according to different target testing types, if the testing procedures are the first testing modes, the first operation of any control element on the handle equipment is responded, whether a preset first lighting display effect is displayed and canceled on a corresponding testing control element in a display page is judged, the detection results of the corresponding control element are recorded, and a first detection report is generated; and if the test mode is the second test mode, responding to a second operation of any control element on the handle equipment, and generating a second detection report according to the number of the elements of the operated control element and the number of the test controls displaying the second lighting display effect in the display page. The method integrates a plurality of test modes, improves the test flexibility and universality of the handle equipment, automatically records the detection result of the corresponding control element, generates a detection report, reduces manual operation and improves the test efficiency.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

In order to make the above objects, features and advantages of the present invention more comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

FIG. 1 is a schematic diagram of one embodiment of a method for multi-mode testing of a handle device in accordance with an embodiment of the present invention;

FIG. 2 is a schematic diagram of one embodiment of a multi-mode test apparatus for a handle device in an embodiment of the present invention;

FIG. 3 is a schematic diagram of one embodiment of a multi-mode test device for a handle device in accordance with an embodiment of the present invention;

FIG. 4 is a schematic diagram of an interactive area according to an embodiment of the present invention;

fig. 5 is a schematic diagram of another display interaction area according to an embodiment of the present invention.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The terms "comprising" and "having" and any variations thereof, as used in the embodiments of the present invention, are intended to cover non-exclusive inclusion. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those listed but may optionally include other steps or elements not listed or inherent to such process, method, article, or apparatus.

For the sake of understanding the present embodiment, a method for testing a handle device in multiple modes according to an embodiment of the present invention is described in detail, wherein the handle device includes a plurality of control elements. As shown in fig. 1, the method for multi-mode testing of the handle device comprises the steps of:

101. Responding to connection establishment of the handle equipment and the preset display equipment, displaying a preset handle test setting page on a display page of the display equipment, wherein the handle test setting page at least comprises a test mode selection window, and test mode selection buttons corresponding to all test models are provided in the test mode selection window;

In one embodiment of the present invention, the connection may be made by bluetooth or USB connection in response to the connection establishment of the handle device with the preset display device. For bluetooth connection, the handle device and the display device need to support bluetooth functions. First, the handle device needs to enable bluetooth in its settings and enter pairing mode. Then, in the setting of the display device, the bluetooth function is turned on and available bluetooth devices are searched for. The handle device is selected for pairing, and if a pairing code is required to be input, the pairing code is input according to the code provided by the instruction book of the handle device. After pairing is completed, a bluetooth connection between the handle device and the display device is established. For the USB connection mode, the handle device and the display device need to have corresponding USB interfaces. And connecting the USB port of the handle device with the USB port of the display device, and automatically identifying and establishing USB connection by the system.

Specifically, the implementation principle of The USB handle connected to The android phone is based On The following key steps and principles, and first, the android phone must support The USB OTG (On-The-Go) function. USB OTG allows a device to act as a master or slave on a USB interface, enabling a cell phone to connect to other USB peripherals, such as a handle. The USB handle is connected to a USB OTG interface of the mobile phone through a USB cable. In this way, the handset can identify and communicate with the handle. The android system will detect the connected USB handle and attempt to identify it. The system will find the driver compatible with the handle and load the corresponding driver to support the handle's function. The application may obtain input events for the handle through an API (e.g., android Input API) provided by the android operating system. After the connection is made, the developer may write application code to respond to the input operation of the handle and perform corresponding functions or game control.

Specifically, after displaying a preset handle test setting page on a display page of the display device, the handle test setting page may include the following handle connection states: displaying the connection state of the current handle device and the display device, such as connection success or connection failure; handle calibration: the handle calibration function is provided, and a user can calibrate the handle according to the requirement so as to ensure the sensitivity and the accuracy of the handle; key mapping: allowing a user to customize key mapping on the handle to accommodate different game or application requirements; vibration test: providing a test of the vibration function of the handle, and enabling a user to check whether the vibration effect of the handle is normal or not through vibration of different intensities; touch panel test: if the handle device has a touch pad function, a touch pad test function can be provided, and a user can test the sensitivity and response performance of the touch pad; and (3) rocker sensitivity adjustment: allowing the user to adjust the sensitivity of the handle rocker to meet personal operating habits; handle firmware update: if the handle device supports firmware updating, a handle firmware updating function can be provided, and a user can update the firmware version of the handle device through the function, wherein in order to select a corresponding test mode, the test page at least comprises a handle test setting page at least comprising a test mode selection window, test mode selection buttons corresponding to all test modes are provided in the test mode selection window, and the test mode is selected by clicking different test mode selection buttons.

102. Responding to clicking operation of any test mode selection button in the test mode selection window, and identifying a test mode corresponding to the test mode selection button corresponding to the clicking operation as a target test mode;

In one embodiment of the present invention, in response to a clicking operation for any one of the test mode selection buttons in the test mode selection window, the system recognizes a test mode represented by the test mode selection button corresponding to the clicking operation as a target test mode. Once the user clicks a test mode selection button in the test mode selection window, the system captures the click event and proceeds accordingly. The system will determine which test mode the user selects based on the identity of the button or other unique identifier. By matching with a preset test mode list, the system can quickly identify the target test mode selected by the user. Each test mode selection button is associated with a specific test mode, and the system performs subsequent operations by taking the selected test mode as a target test mode according to the selection of a user. This may include loading corresponding settings, adjusting the sensitivity of the handle, or triggering specific functions, etc., to meet the needs of the user in this test mode.

103. Displaying a preset handle test page on the display page, wherein the handle test page is provided with a plurality of test controls, and each test control has a corresponding control element on the handle equipment;

In one embodiment of the present invention, as shown in fig. 4, the handle test page includes a plurality of test controls, where the test controls include physical buttons and a rocker control, note that when the handle test page is a preset page, since different handles may include different expansion buttons, some are mode buttons, and some are back buttons. Such as: m bond, M1, M2, M3, M4, M5, M6, and the like. The back key is placed on the back of the handle, and the back key provides the mapping function. E.g., the a key may be mapped to the M1 key. But often the back keys are not mapped at the time of shipment. I.e. pressing the back key will not react, in which case it becomes difficult to test the back key. The method comprises the steps of mapping by using a command pair, performing testing after setting, and when a testing control corresponding to an expansion key is not included on a handle testing page, adding the corresponding expansion key in the handle testing setting page, or automatically identifying the equipment type of the handle equipment when the display equipment is connected with the handle, and automatically setting all corresponding entity keys including the expansion key according to the equipment type.

104. If the target test mode is a first test mode, responding to a first operation of any control element on the handle equipment, according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in a display page, recording a detection result of the corresponding control element, and generating a first detection report of the first test mode according to the detection results of all the control elements;

In one embodiment of the present invention, the control element comprises a physical button, the test control comprises a button control, and the first operation is a pressing operation; responding to a first operation for any control element on the handle device, according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, recording detection results of the corresponding control element, and generating a first detection report of a first test mode according to the detection results of all the control elements, wherein the first detection report comprises the following steps: responding to the pressing operation of any entity key on the handle equipment, and detecting whether a preset first lighting display effect is displayed on a corresponding key control in the display page; if the first lighting display effect is displayed on the corresponding key control, responding to the end of the pressing operation, and detecting whether the first lighting display effect is canceled in the display page; if the first lighting display effect is cancelled in the display page, the detection result of the corresponding entity key is that the detection is passed; if the first lighting display effect is not displayed on the corresponding key control or the first lighting display effect is not canceled in the display page, the detection result of the corresponding entity key is that the detection is failed; and generating a first detection report of the first test mode according to the detection results of all the entity keys.

Specifically, the first mode is mainly used for testing by testers, and only provides the testers for key testing and handle information checking. The key test in the test mode is not marked, only has a response of pressing, the color can be restored to the original state after being lifted, and when a user presses any entity key on the handle equipment, the system can detect the corresponding key control in the display page to determine whether the preset first lighting display effect is displayed. If the corresponding key control has displayed the first lighting effect, it is indicated that the entity key is not problematic for the pressing function, and further, after the pressing operation is canceled, it is further required to determine the specific condition of the display state of the key, and whether to cancel the display effect is detected in order to ensure that the key control can be normally restored to the default state after the pressing operation is finished. When a physical key on the handle device is pressed, the key control may display a lighting effect to provide visual feedback that the key was pressed. However, after releasing the key, the key control should cancel the display of this lighting effect in time so that the user can accurately judge the state of the key. If the key control fails to cancel the display effect in time, the display page still displays the lighted state of the key even if the user has released the key, which may cause confusion or misleading to the user. Therefore, detecting whether to cancel the display effect is to ensure the correct response of the key control and provide accurate user feedback. By detecting whether to cancel the display effect, the system can determine whether the key control is working normally and whether the display page is synchronous with the operation of the user. This ensures the reliability and user experience of the handle device and provides consistent interface feedback. Based on the detection results of all entity keys, the system will generate a first detection report of the first test mode. This report will contain the detection of each key, as well as possible problems or anomalies. In this way, the tester can clearly understand the status of each physical key for subsequent maintenance or adjustment.

Further, the responding to the pressing operation of any entity key on the handle device, and detecting whether the preset first lighting display effect is displayed on the corresponding key control in the display page includes: responding to the pressing operation of any entity key on the handle equipment, and judging whether the pressing operation is the first pressing operation of all entity keys or not; if yes, shooting the handle equipment and the display equipment through preset shooting equipment to obtain shooting videos comprising the handle equipment and the display equipment, and taking a first frame image of the shooting videos as a target image; if not, carrying out frame extraction from the shooting video shot by the shooting equipment to obtain a frame image at the same moment as the pressing operation as a target image; performing target recognition on a first image part containing handle equipment in the target image to obtain a recognition result, and determining an entity key corresponding to the pressing operation according to the recognition result; taking the entity key corresponding to the pressing operation as a target entity key, and identifying a second image part from the target image according to a preset mapping relation, wherein the second image part comprises a key control corresponding to the target entity key; and detecting whether a button control corresponding to the target entity button displays a preset first lighting display effect or not.

Specifically, the photographing apparatus may be any apparatus having a photographing function, such as a mobile phone, a video camera, and the like. When photographing a photographed video including a handle device and a display device using a photographing device, the photographing device may be placed between the handle device and the display device or fixed at a specific position so as to capture pictures of the handle device and the display device. When the pressing operation is the first pressing operation for all the physical keys, the first frame image of the shot video may be taken as the target image because the first frame image is the start image, essentially the frame image corresponding to the pressing operation, and when the target image is obtained, the target recognition needs to be performed on the first image portion including the handle device therein. Target recognition may use computer vision techniques such as Convolutional Neural Networks (CNNs), support Vector Machines (SVMs), and the like. Generally, the target image needs to be preprocessed, including operations of clipping, scaling, noise removal and the like, and then the processed image is input into a trained target recognition model for recognition. After determining that the target image contains the first image part of the handle device, determining that the entity key corresponding to the pressing operation is needed according to the identification result. After the result of target identification is obtained, the entity key corresponding to the pressing operation can be determined according to the mapping relation. After determining that the entity button corresponding to the pressing operation is pressed, the button control corresponding to the entity button needs to be identified in the target image. This may be by finding the key control corresponding to the physical key according to the mapping relationship. The mapping relation is defined in advance, and the entity buttons are in one-to-one correspondence with button controls on the display equipment. According to the position information and the mapping relation of the entity keys, the positions of the corresponding key controls on the display screen can be determined.

Further, the performing object recognition on the first image portion including the handle device in the object image, and obtaining a recognition result includes: inputting a first image part containing handle equipment in the target image into a preset image recognition model, wherein the image recognition model comprises an input layer, a feature extraction layer, a classification layer and an output layer; performing sliding window operation on the first image part according to a preset step length and a preset scale through the input layer to obtain a plurality of candidate windows; extracting features of the candidate windows through the feature extraction layer to obtain feature graphs corresponding to the candidate windows; calculating target scores of the corresponding candidate windows according to the feature graphs through the classification layer respectively; and taking the candidate window with the highest target score as a target window through the output layer, taking the position of the target window in the first image part as a target position, and outputting the target window and the target position as recognition results.

Specifically, the input layer accepts a first image portion of the target image that includes the handle device as input data. And performing sliding window operation on the input image according to the preset step length and the preset scale to obtain a plurality of candidate windows. For example, if the position of the handle device portion in the input image is known, then that position may be directly taken as a candidate window. And the feature extraction layer performs feature extraction on each candidate window to obtain a corresponding feature map. These feature maps may capture texture, shape, etc. feature information within the candidate window. For example, a Convolutional Neural Network (CNN) may be used to extract features of candidate windows, resulting in a feature map representing the content of the window. And the classification layer calculates the target score of the corresponding candidate window according to each feature map. This step may be performed by inputting the feature map into a classifier to obtain a probability or score that each candidate window belongs to the target class. For example, in an image recognition task, a softmax classifier may be used to classify feature images to obtain the probability that a candidate window belongs to a target class. The output layer takes the candidate window with the highest target score as a target window, takes the position of the target window in the input image as a target position, and outputs the target window and the target position as recognition results. For example, a candidate window having the highest score may be selected as the target window, and its position in the input image may be recorded as the target position.

Further, the control element further comprises a rocker controller, the first operation is a sliding operation, the test control further comprises a rocker display area, and the rocker display area comprises a plurality of lighting sub-areas; responding to a first operation for any control element on the handle device, according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, recording a detection result of the corresponding control element, and generating a first detection report of a first test mode according to the detection results of all the control elements, wherein the first detection report further comprises: detecting whether a sliding track corresponding to the sliding operation is displayed in the rocker display area or not in response to the sliding operation of any rocker controller on the handle device; if yes, judging whether the sliding track passes through the corresponding lighting sub-area according to whether the lighting sub-area on the corresponding rocker display area in the display page displays and cancels a preset first lighting display effect; if the sliding track does not pass through the corresponding lighting sub-area, recording the detection result of the corresponding rocker controller as that the detection is failed; and generating a first detection report of the first test mode according to the detection results of all the control elements.

Specifically, as shown in fig. 4, the test control further includes a rocker display area, the rocker display area includes a plurality of lighting sub-areas, when the user pushes the rocker controller in the first test mode, the rocker controller slides, so as to realize sliding operation on the rocker controller, when the rocker controller slides, under normal conditions, a corresponding sliding track is displayed in the rocker display area, in this case, the system firstly obtains an initial position of the rocker controller, that is, a position before sliding, when the user starts sliding the rocker controller, the system detects a position change of the rocker controller in real time, and according to the position change of the rocker controller, the system converts the position change into corresponding coordinate values for subsequent processing and display, during the sliding process, the system continuously updates and records the current position of the rocker controller, so as to form a continuous position sequence, and according to the continuous position sequence, the system can generate the corresponding sliding track. In the test process, when the sliding track passes through the corresponding lighting subareas, the corresponding lighting subareas are lighted, when the sliding track leaves the lighting subareas, the lighting display effect of the lighting subareas is cancelled, in the test process, a tester can control the rocker controller to slide at each position according to the test requirement, under the normal condition, the rocker controller can pass through each lighting subarea, and then under the condition that the rocker controller fails, the sliding track cannot pass through the lighting subareas according to the control of the tester, for example, the circuit connection of the rocker controller can have problems, such as poor contact, circuit short circuit and the like. These problems may result in poor or interfering signal transmission such that the sliding track does not properly pass through the corresponding lit sub-area, or software driving or firmware of the rocker controller may be problematic, resulting in inaccurate matching of the sliding track to the lit sub-area. The method is characterized in that the method comprises the steps of determining whether a sliding track is detected, and if so, determining that the sliding track is detected to light a corresponding lighting subarea, wherein the sliding track is detected to light the corresponding lighting subarea, and generating a first detection report according to detection results of different control elements after the detection of the rocker controller and the entity keys is completed.

Specifically, it should be noted that, at the handle test interface, various information may be provided, for example, information including electric quantity detection in the middle and upper part of the handle test interface, most of wireless handles are provided with batteries, and when leaving the factory, it is also required to check whether electric quantity and charging are normal, and a "Battery level" is provided on the handle test interface: 100% ", indicates that the current power is one hundred percent, and when the charging test is performed, the information displayed at the position is" Battery level: in charging ", in addition, PID and VID are important identifiers of handles, and many authorized handles have specific authentication requirements. Therefore, the PID and VID of the handle must also be checked when leaving the factory, and the words of VID/PID:3537/1023 are also included above the handle test interface, wherein VID refers to the vendor ID, which is a 16-bit value used for identifying the manufacturer of the USB device. While PID refers to a product ID, also a 16-bit value, that identifies a particular USB device where VID/PID is 3537/1023, indicating that the manufacturer of the USB device is manufactured by the manufacturer with VID 3537 and the product ID of the device is 1023. Each USB device has its unique VID/PID identifier, which can help the operating system and software identify and communicate with the device. In addition, "FW Version:1.02", representing a firmware version, the firmware of the handle is an important implementation of the functional logic inside the handle. Handle firmware upgrades are an important means of improving the handle experience. And the firmware of the handle when leaving the factory is also an important part of the quality control of the handle. If the delivered firmware is incorrect, the handle can be abnormal in function, and user public praise is affected.

105. If the target test mode is the second test mode, responding to a second operation of any control element on the handle equipment, and generating a second detection report of the second test mode according to the number of the elements of the operated control element and the number of the controls of the test control for displaying the second lighting display effect in the display page.

In one embodiment of the present invention, the second operation is a pressing operation; the responding to the second operation of any control element on the handle equipment, generating a second detection report of a second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page, wherein the second detection report comprises the following steps: responding to the pressing operation of any entity key on the handle equipment, and detecting whether a key control which does not display the second lighting display effect exists on the display page; if the detection passing page does not exist, displaying a corresponding detection passing page on the display page; if yes, judging whether the number of the elements of the pressed entity keys is the same as the number of the controls of the key controls for displaying the second lighting display effect in the display page; if the physical buttons are different, comparing the pressed physical buttons with the button controls displaying the second lighting display effect in the display page according to the preset mapping relation to obtain a comparison result; and generating a second detection report of the second test mode according to the comparison result.

Specifically, the second test mode is a cargo test mode, and is used for testing all entity buttons and rocker controllers on the handle device when the user receives the cargo of the handle device, as shown in fig. 5, in normal conditions, pressing an entity button can generate a lighting display effect at a corresponding test control, for example, a specific brightness can be adopted, or the test control is filled, and it is noted that the second lighting display effect cannot be canceled after the pressing operation or the activity operation of the user is finished, so that unified detection is convenient, and when any entity button on the handle device is pressed, the system detects a display page to determine whether a button control which does not display the second lighting effect exists. If no such key control exists on the display page, the system displays a corresponding passing detection page on the display page, indicating that all keys have normally displayed the second lighting effect. However, if there are key controls that have not yet displayed the second lighting effect, the system will further compare whether the number of physical keys that have been pressed and the number of key controls in the display page that display the second lighting effect are the same. If the number of the pressed entity buttons is different from the number of the button controls displaying the second lighting effect in the display page, the system compares the pressed entity buttons with the button controls displaying the second lighting effect in the display page one by one according to a preset mapping relation. By comparison, the system can obtain which entity buttons correspond to which button controls in the display page, so that a comparison result is generated. Finally, the system generates a second detection report of a second test mode according to the comparison result. The report will detail the status of each key, including the correspondence between the entity key that has been pressed and the key control in the display page that displays the second lighting effect. Such a report may help the user to understand the status of the handle device to ensure proper display and functional functioning of the key controls.

Further, the second operation is a sliding operation; the responding to the second operation of any control element on the handle equipment, generating a second detection report of a second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page, wherein the second detection report comprises the following steps: detecting whether a lighting sub-area which does not display the second lighting display effect exists on the rocker display area or not in response to a sliding operation of any one of the rocker controllers on the handle device; if the detection passing page does not exist, displaying a corresponding detection passing page on the display page; if yes, judging whether the number of the sliding elements and the number of the controls of the lighting subareas for displaying the second lighting display effect in the rocker display area are preset proportional values or not; if the detection result is a preset proportion value, recording that the detection result of the corresponding rocker controller is that the detection is failed; and generating a second detection report of a second test mode according to the detection results of all the control elements.

Specifically, when any one of the rocker controllers on the handle device performs a sliding operation, the system detects whether a lighting sub-area that does not display the second lighting effect exists on the rocker display area. If such unlit sub-areas do not exist on the rocker display area, the system will present a corresponding pass detection page on the display page to indicate that all lit sub-areas have normally displayed the second lit effect. However, if there is a lit sub-area that has not yet displayed the second lit effect, the system will further compare whether the ratio value between the number of elements that have slid and the number of controls in the rocker display area that display the lit sub-area of the second lit effect is a preset ratio value. If the ratio value between the number of the sliding elements and the number of the controls of the lighting subarea displaying the second lighting effect is consistent with the preset ratio value, the system records the detection result of the corresponding rocker controller as that the detection is failed. This means that the rocker control has a lighting sub-area which does not normally show the second lighting effect. Finally, the system generates a second detection report of a second test mode according to the detection results of all the control elements. The report will specify the status of each control element, including the correspondence between the slid element and the lit sub-areas of the rocker display area that display the second lighting effect. Such a report may help the user to understand the status of the rocker control, ensuring proper display and functional functioning of the lit sub-areas.

In this embodiment, by performing corresponding test flows according to different target test types, if the test flow is the first test mode, responding to a first operation for any control element on the handle device, and recording a detection result of the corresponding control element according to whether a preset first lighting display effect is displayed and canceled on the corresponding test control in the display page, so as to generate a first detection report; and if the test mode is the second test mode, responding to a second operation of any control element on the handle equipment, and generating a second detection report according to the number of the elements of the operated control element and the number of the test controls displaying the second lighting display effect in the display page. The method integrates a plurality of test modes, improves the test flexibility and universality of the handle equipment, automatically records the detection result of the corresponding control element, generates a detection report, reduces manual operation and improves the test efficiency.

The method for testing the handle device in the embodiment of the present invention is described above, and the device for testing the handle device in the embodiment of the present invention is described below, referring to fig. 2, where an embodiment of the device for testing the handle device in the embodiment of the present invention includes:

The test starting module 201 is configured to display a preset handle test setting page on a display page of the display device in response to connection establishment between the handle device and the preset display device, where the handle test setting page includes at least one test mode selection window, and test mode selection buttons corresponding to each test model are provided in the test mode selection window;

A mode selection module 202, configured to identify, as a target test mode, a test mode corresponding to a test mode selection button corresponding to a click operation in response to the click operation for any test mode selection button in the test mode selection window;

The page display module 203 is configured to display a preset handle test page on the display page, where the handle test page is provided with a plurality of test controls, and each test control has a corresponding control element on the handle device;

The first test module 204 is configured to, if the target test mode is a first test mode, respond to a first operation for any control element on the handle device, record a detection result of the corresponding control element according to whether a preset first lighting effect is displayed and canceled on a corresponding test control in the display page, and generate a first detection report of the first test mode according to the detection results of all control elements;

And the second test module 205 is configured to, if the target test mode is a second test mode, generate a second detection report of the second test mode according to the number of elements of the operated control element and the number of controls of the test control that displays the second lighting display effect in the display page in response to a second operation for any control element on the handle device.

In the embodiment of the invention, the multi-mode testing device of the handle equipment runs the multi-mode testing method of the handle equipment, and the multi-mode testing device of the handle equipment records the detection result of the corresponding control element and generates a first detection report according to whether the corresponding test control in the display page displays and cancels the preset first lighting effect or not and according to whether the corresponding test control is in response to the first operation of any control element on the handle equipment if the first test mode is the first test mode; and if the test mode is the second test mode, responding to a second operation of any control element on the handle equipment, and generating a second detection report according to the number of the elements of the operated control element and the number of the test controls displaying the second lighting display effect in the display page. The method integrates a plurality of test modes, improves the test flexibility and universality of the handle equipment, automatically records the detection result of the corresponding control element, generates a detection report, reduces manual operation and improves the test efficiency.

The multi-mode testing apparatus for a middle handle device in the embodiment of the present invention is described in detail above in fig. 2 from the point of view of a modularized functional entity, and the multi-mode testing apparatus for a handle device in the embodiment of the present invention is described in detail below from the point of view of hardware processing.

Fig. 3 is a schematic structural diagram of a multi-mode testing device of a handle device according to an embodiment of the present invention, where the multi-mode testing device 300 of the handle device may have a relatively large difference due to different configurations or performances, and may include one or more processors (central processing units, CPU) 310 (e.g., one or more processors) and a memory 320, and one or more storage mediums 330 (e.g., one or more mass storage devices) storing application programs 333 or data 332. Wherein memory 320 and storage medium 330 may be transitory or persistent storage. The program stored on the storage medium 330 may include one or more modules (not shown), each of which may include a series of instruction operations in the multi-mode test device 300 of the hand grip device. Still further, the processor 310 may be configured to communicate with the storage medium 330 and execute a series of instruction operations in the storage medium 330 on the multi-mode test device 300 of the handle device to implement the steps of the multi-mode test method of the handle device described above.

The multi-mode test device 300 of the handle device may also include one or more power supplies 340, one or more wired or wireless network interfaces 350, one or more input/output interfaces 360, and/or one or more operating systems 331, such as Windows Serve, mac OS X, unix, linux, freeBSD, and the like. It will be appreciated by those skilled in the art that the multi-mode test device structure of the handle device shown in fig. 3 is not limiting of the multi-mode test device of the handle device provided by the present invention, and may include more or fewer components than shown, or may combine certain components, or may be a different arrangement of components.

The present invention also provides a computer readable storage medium, which may be a non-volatile computer readable storage medium, and which may also be a volatile computer readable storage medium, the computer readable storage medium having instructions stored therein which, when executed on a computer, cause the computer to perform the steps of the multi-mode test method of the handle device.

It will be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process of the system or apparatus and unit described above may refer to the corresponding process in the foregoing method embodiment, which is not repeated herein.

The integrated units, if implemented in the form of software functional units and sold or used as stand-alone products, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied essentially or in part or all of the technical solution or in part in the form of a software product stored in a storage medium, including instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to perform all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a read-only memory (ROM), a random access memory (random access memory, RAM), a magnetic disk, or an optical disk, or other various media capable of storing program codes.

The above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. A method of multi-mode testing of a handle device, the handle device including a plurality of control elements thereon, the method comprising:

Responding to connection establishment of the handle equipment and preset display equipment, and displaying a preset handle test setting page on a display page of the display equipment, wherein the handle test setting page at least comprises a test mode selection window, and test mode selection buttons corresponding to all test models are provided in the test mode selection window;

Responding to clicking operation of any test mode selection button in the test mode selection window, and identifying a test mode corresponding to the test mode selection button corresponding to the clicking operation as a target test mode;

Displaying a preset handle test page on the display page, wherein the handle test page is provided with a plurality of test controls, and each test control has a corresponding control element on the handle equipment;

If the target test mode is a first test mode, responding to a first operation of any control element on the handle equipment, recording a detection result of the corresponding control element according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control element in the display page, and generating a first detection report of the first test mode according to the detection results of all the control elements, wherein the control element comprises an entity key, the test control element comprises a key control, and the first operation is a pressing operation;

Responding to a first operation for any control element on the handle device, according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, recording detection results of the corresponding control element, and generating a first detection report of a first test mode according to the detection results of all the control elements, wherein the first detection report comprises the following steps: responding to the pressing operation of any entity key on the handle equipment, and detecting whether a preset first lighting display effect is displayed on a corresponding key control in the display page; if the first lighting display effect is displayed on the corresponding key control, responding to the end of the pressing operation, and detecting whether the first lighting display effect is canceled in the display page; if the first lighting display effect is cancelled in the display page, the detection result of the corresponding entity key is that the detection is passed; if the first lighting display effect is not displayed on the corresponding key control or the first lighting display effect is not canceled in the display page, the detection result of the corresponding entity key is that the detection is failed; generating a first detection report of a first test mode according to the detection results of all entity keys;

if the target test mode is a second test mode, responding to a second operation of any control element on the handle equipment, and generating a second detection report of the second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page, wherein the second operation is a pressing operation;

The responding to the second operation of any control element on the handle equipment, generating a second detection report of a second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page, wherein the second detection report comprises the following steps: responding to the pressing operation of any entity key on the handle equipment, and detecting whether a key control which does not display the second lighting display effect exists on the display page; if the detection passing page does not exist, displaying a corresponding detection passing page on the display page; if yes, judging whether the number of the elements of the pressed entity keys is the same as the number of the controls of the key controls for displaying the second lighting display effect in the display page; if the physical buttons are different, comparing the pressed physical buttons with the button controls displaying the second lighting display effect in the display page according to the preset mapping relation to obtain a comparison result; and generating a second detection report of the second test mode according to the comparison result.

2. The method of multimodal testing of a handle apparatus of claim 1, wherein the control element further comprises a rocker control, the first operation being a sliding operation, the test control further comprising a rocker display area comprising a number of lit sub-areas;

Responding to a first operation for any control element on the handle device, according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, recording a detection result of the corresponding control element, and generating a first detection report of a first test mode according to the detection results of all the control elements, wherein the first detection report further comprises:

detecting whether a sliding track corresponding to the sliding operation is displayed in the rocker display area or not in response to the sliding operation of any rocker controller on the handle device;

If yes, judging whether the sliding track passes through the corresponding lighting sub-area according to whether the lighting sub-area on the corresponding rocker display area in the display page displays and cancels a preset first lighting display effect;

If the sliding track does not pass through the corresponding lighting sub-area, recording the detection result of the corresponding rocker controller as that the detection is failed;

and generating a first detection report of the first test mode according to the detection results of all the control elements.

3. The method of multimodal testing of a handle apparatus of claim 2, wherein the second operation is a sliding operation;

The responding to the second operation of any control element on the handle equipment, generating a second detection report of a second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page, wherein the second detection report comprises the following steps:

Detecting whether a lighting sub-area which does not display the second lighting display effect exists on the rocker display area or not in response to a sliding operation of any one of the rocker controllers on the handle device;

If the detection passing page does not exist, displaying a corresponding detection passing page on the display page;

If yes, judging whether the number of the sliding elements and the number of the controls of the lighting subareas for displaying the second lighting display effect in the rocker display area are preset proportional values or not;

if the detection result is a preset proportion value, recording that the detection result of the corresponding rocker controller is that the detection is failed;

and generating a second detection report of a second test mode according to the detection results of all the control elements.

4. A method for testing a handle device according to any one of claims 2-3, wherein, in response to a pressing operation on any one of the physical buttons on the handle device, detecting whether a preset first lighting display effect is displayed on a corresponding button control in the display page comprises:

responding to the pressing operation of any entity key on the handle equipment, and judging whether the pressing operation is the first pressing operation of all entity keys or not;

If yes, shooting the handle equipment and the display equipment through preset shooting equipment to obtain shooting videos comprising the handle equipment and the display equipment, and taking a first frame image of the shooting videos as a target image;

if not, carrying out frame extraction from the shooting video shot by the shooting equipment to obtain a frame image at the same moment as the pressing operation as a target image;

performing target recognition on a first image part containing handle equipment in the target image to obtain a recognition result, and determining an entity key corresponding to the pressing operation according to the recognition result;

Taking the entity key corresponding to the pressing operation as a target entity key, and identifying a second image part from the target image according to a preset mapping relation, wherein the second image part comprises a key control corresponding to the target entity key;

and detecting whether a button control corresponding to the target entity button displays a preset first lighting display effect or not.

5. The method for multi-mode testing of a handle device according to claim 4, wherein the performing object recognition on the first image portion including the handle device in the object image to obtain a recognition result includes:

Inputting a first image part containing handle equipment in the target image into a preset image recognition model, wherein the image recognition model comprises an input layer, a feature extraction layer, a classification layer and an output layer;

Performing sliding window operation on the first image part according to a preset step length and a preset scale through the input layer to obtain a plurality of candidate windows;

Extracting features of the candidate windows through the feature extraction layer to obtain feature graphs corresponding to the candidate windows;

Calculating target scores of the corresponding candidate windows according to the feature graphs through the classification layer respectively;

and taking the candidate window with the highest target score as a target window through the output layer, taking the position of the target window in the first image part as a target position, and outputting the target window and the target position as recognition results.

6. A multi-mode testing apparatus for a handle device, the handle device including a plurality of control elements thereon, the multi-mode testing apparatus comprising:

The test starting module is used for responding to connection establishment of the handle equipment and preset display equipment, and displaying a preset handle test setting page on a display page of the display equipment, wherein the handle test setting page at least comprises a test mode selection window, and test mode selection buttons corresponding to all test models are provided in the test mode selection window;

the mode selection module is used for responding to clicking operation of any test mode selection button in the test mode selection window and identifying a test mode corresponding to the test mode selection button corresponding to the clicking operation as a target test mode;

The page display module is used for displaying a preset handle test page on the display page, wherein the handle test page is provided with a plurality of test controls, and each test control has a corresponding control element on the handle equipment;

The first test module is used for responding to a first operation of any control element on the handle equipment if the target test mode is a first test mode, recording a detection result of the corresponding control element according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, and generating a first detection report of the first test mode according to the detection results of all the control elements, wherein the control element comprises a physical key, the test control comprises a key control, and the first operation is a pressing operation;

Responding to a first operation for any control element on the handle device, according to whether a preset first lighting display effect is displayed and canceled on a corresponding test control in the display page, recording detection results of the corresponding control element, and generating a first detection report of a first test mode according to the detection results of all the control elements, wherein the first detection report comprises the following steps: responding to the pressing operation of any entity key on the handle equipment, and detecting whether a preset first lighting display effect is displayed on a corresponding key control in the display page; if the first lighting display effect is displayed on the corresponding key control, responding to the end of the pressing operation, and detecting whether the first lighting display effect is canceled in the display page; if the first lighting display effect is cancelled in the display page, the detection result of the corresponding entity key is that the detection is passed; if the first lighting display effect is not displayed on the corresponding key control or the first lighting display effect is not canceled in the display page, the detection result of the corresponding entity key is that the detection is failed; generating a first detection report of a first test mode according to the detection results of all entity keys;

the second test module is used for responding to a second operation of any control element on the handle equipment if the target test mode is a second test mode, and generating a second detection report of the second test mode according to the number of the elements of the operated control element and the number of the controls of the test control for displaying a second lighting display effect in the display page, wherein the second operation is a pressing operation;

The responding to the second operation of any control element on the handle equipment, generating a second detection report of a second test mode according to the number of the elements of the operated control element and the number of the test controls displaying a second lighting display effect in the display page, wherein the second detection report comprises the following steps: responding to the pressing operation of any entity key on the handle equipment, and detecting whether a key control which does not display the second lighting display effect exists on the display page; if the detection passing page does not exist, displaying a corresponding detection passing page on the display page; if yes, judging whether the number of the elements of the pressed entity keys is the same as the number of the controls of the key controls for displaying the second lighting display effect in the display page; if the physical buttons are different, comparing the pressed physical buttons with the button controls displaying the second lighting display effect in the display page according to the preset mapping relation to obtain a comparison result; and generating a second detection report of the second test mode according to the comparison result.

7. A multi-mode test device for a handle device, the multi-mode test device for a handle device comprising: a memory and at least one processor, the memory having instructions stored therein;

the at least one processor invoking the instructions in the memory to cause the multi-mode test device of the handle device to perform the steps of the multi-mode test method of the handle device of any of claims 1-5.

8. A computer readable storage medium having instructions stored thereon, which when executed by a processor, implement the steps of the multi-mode test method of a handle device according to any of claims 1-5.