CN121300886A - Display methods, devices, equipment, and storage media for wearable device development functions - Google Patents

Abstract

The application provides a display method and device for development functions of wearable equipment, debugging equipment and a computer readable storage medium. The method comprises the steps of displaying a debugging interface comprising a first display area and a second display area, loading a selected target function module to the second display area in response to selection operation of the function module in the first display area, displaying the target function module on the debugging interface according to adjusted block parameters of the target function module when adjustment operation of the target function module is detected, generating a block update instruction according to a standardized interface set and the adjusted block parameters, and sending the block update instruction to the intelligent wearable device so as to control the intelligent wearable device to synchronously display the target function module according to the adjusted block parameters. The application can reduce the problem of delay of the display of the preview interface of the wearable device caused by insufficient processing speed of the MCU, so that the preview interface and the debugging interface of the intelligent wearable device can synchronously display the developed interface functions.

Description

Display method, device, equipment and storage medium for development function of wearable equipment

Technical Field

The application relates to the technical field of interface development, in particular to a display method and device for development functions of wearable equipment, debugging equipment and a computer readable storage medium.

Background

In recent years, intelligent wearing equipment (such as AR glasses) is popular among masses, and various contents such as pictures, documents and the like can be displayed through the intelligent wearing equipment. In order to meet the light-weight design requirement of the smart wearable device, the smart wearable device generally adopts a low-power-consumption and small-volume micro-control unit (Microcontroller Unit, MCU). However, the inventor finds that the MCU is a low-cost chip with simple control task in the actual research and development process, the computing capability is limited, and high-resolution graphics cannot be rendered quickly, however, after element parameters of interface functions are adjusted in real time in the development process (such as when a user self-defines an interface, if the size and the position of an image are adjusted dynamically), pixel coordinates are required to be recalculated and rendered in real time, and at the moment, the display delay of a preview interface of the wearable device can be caused due to insufficient processing speed of the MCU, the synchronous display interface functions of the intelligent wearable device and the development and debugging interface cannot be met, and the experience of what you see is what you get in the development process is destroyed.

Disclosure of Invention

The application provides a display method, a device, debugging equipment and a computer readable storage medium for a development function of a wearable device, which can reduce the problem of delay in display of a preview interface of the wearable device caused by insufficient processing speed of an MCU, so that the preview interface and the debugging interface of the intelligent wearable device can synchronously display the developed interface function, and the experience of 'what you see is what you get' of the development process is realized.

In a first aspect, the present application provides a display method for a development function of a wearable device, applied to a debugging device, the method comprising:

displaying a debugging interface of the intelligent wearable device, wherein the debugging interface comprises a first display area for displaying the functional module and a second display area for adjusting the function construction effect;

responding to a selection operation of a function module in the first display area, and loading a target function module selected by the selection operation into the second display area;

When the adjustment operation of the target function module aiming at the second display area is detected, displaying the target function module on the debugging interface according to the adjusted block parameters of the target function module;

generating a block update instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted block parameters, and sending the intelligent wearable equipment to control the intelligent wearable equipment to synchronously display the target functional module according to the adjusted block parameters.

In a second aspect, the present application provides a display device for a wearable device development function, the display device for a wearable device development function including:

The first display unit is used for displaying a debugging interface of the intelligent wearable device, and the debugging interface comprises a first display area for displaying the functional module and a second display area for adjusting the function construction effect;

a loading unit, configured to respond to a selection operation for a function module in the first display area, and load a target function module selected by the selection operation into the second display area;

The second display unit is used for displaying the target function module on the debugging interface according to the adjusted block parameters of the target function module when the adjustment operation of the target function module aiming at the second display area is detected;

And the synchronization unit is used for generating a block update instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted block parameters and sending the intelligent wearing equipment so as to control the intelligent wearing equipment to synchronously display the target functional module according to the adjusted block parameters.

In a third aspect, the present application further provides a debugging device, where the debugging device includes a processor and a memory, where the memory stores a computer program, and the processor executes the display method of any of the wearable device development functions provided by the present application when calling the computer program in the memory.

In a fourth aspect, the present application further provides a computer readable storage medium having stored thereon a computer program, the computer program being loaded by a processor to perform the display method of the wearable device development function.

In the application, the debugging interface comprising the first display area and the second display area is displayed, the first display area can display the function module, the second display area can adjust the function construction effect, the target function module of the second display area can be utilized to adjust the target function module, the adjusted block parameters of the target function module and the standardized interface of the target function module can be utilized to generate the block update instruction of the target function module to be sent to the intelligent wearing equipment, so that the preview interface of the intelligent wearing equipment and the debugging interface of the debugging equipment can display the development effect of the target function module in the development according to the same block parameters, the preview interface of the intelligent wearing equipment and the debugging interface of the debugging equipment can generate the block update instruction by directly utilizing the standardized interface set of the target function module and the adjusted block parameters, the debugging equipment can execute the calculation work with high load in advance (such as recalculating the block pixel coordinates of the target function module according to the adjusted block parameters), the intelligent wearing equipment can complete the rendering process of the adjusted target function module by directly executing the block update instruction, the intelligent wearing equipment can avoid the problem that the real-time processing of the image update instruction is delayed due to the fact that the preview interface of the intelligent wearing equipment is not required to execute the corresponding block update instruction, the method and the device can reduce the problem of delay in display of the preview interface of the wearable device caused by insufficient processing speed of the MCU, so that the preview interface and the debugging interface of the intelligent wearable device can synchronously display the developed interface functions, and the experience of 'what you see is what you get' in the development process is realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic block diagram of a debugging device according to an embodiment of the present application;

Fig. 2 is a schematic flow chart of a method for displaying a development function of a wearable device according to an embodiment of the present application;

FIG. 3 is a schematic illustration of a debug interface provided in an embodiment of the present application;

FIG. 4 is a schematic diagram illustrating a loading function module in a second display area according to an embodiment of the present application;

FIG. 5 is a schematic diagram illustrating loading of a plurality of functional modules in a second display area according to an embodiment of the present application;

FIG. 6 is a schematic diagram illustrating an adjustment operation of a target function module according to an embodiment of the present application;

fig. 7 is a schematic structural diagram of an embodiment of a display device for a wearable device development function according to an embodiment of the present application.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to fall within the scope of the application.

The flow diagrams depicted in the figures are merely illustrative and not necessarily all of the elements and operations/steps are included or performed in the order described. For example, some operations/steps may be further divided, combined, or partially combined, so that the order of actual execution may be changed according to actual situations.

In describing embodiments of the present application, it should be understood that the terms "first," "second," and "second" are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or number of features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more of the described features. In the description of the embodiments of the present application, the meaning of "plurality" is two or more, unless explicitly defined otherwise.

The following description is presented to enable any person skilled in the art to make and use the application. In the following description, details are set forth for purposes of explanation. It will be apparent to one of ordinary skill in the art that the present application may be practiced without these specific details. In other instances, well-known processes have not been described in detail in order to avoid unnecessarily obscuring the description of the embodiments of the application. Thus, the present application is not intended to be limited to the embodiments shown, but is to be accorded the widest scope consistent with the principles and features disclosed herein.

The embodiment of the application provides a display method and device for development functions of wearable equipment, debugging equipment and a computer readable storage medium. The display device of the wearable device development function can be integrated in the debugging device. Wherein, debugging equipment can be cell-phone, computer, intelligent wearing equipment etc. intelligent wearing equipment can be intelligent glasses, intelligent helmet etc. intelligent glasses can be AR glasses, VR glasses, MR glasses, XR glasses etc. intelligent helmet can be AR helmet etc..

MCU is a low-cost chip with simple control tasks, and has significant differences between hardware characteristics and computing performance required by image drawing, such as mismatch of MCU computing capability main frequency is usually lower than 100MHz, floating point computing unit is lacked, image drawing needs high-frequency processing (such as real-time rendering and coordinate computing) and depends on floating point computing (such as scaling and rotation), mismatch of MCU memory (RAM) is usually only tens of KB to several MB and memory (Flash) is only several MB to tens of MB, and cache image data (such as picture pixel information), multi-layer data and dynamic interface configuration parameters and needs larger memory, and mismatch of interface rate such as MCU interface rate is low, data transmission is slow, image drawing needs fast loading of picture/text data and real-time synchronous interface adjustment such as drag size. Therefore, the performance short board of the MCU is not matched with the core requirement of the graphic processor, so that the difficulty of image drawing and interface development of the intelligent wearable device is high.

The execution subject of the display method of the wearable device development function provided by the embodiment of the application can be the display device of the wearable device development function provided by the embodiment of the application or the debugging device of the display device integrated with the wearable device development function, wherein the display device of the wearable device development function can be realized in a hardware or software mode.

Some embodiments of the application are described in detail below with reference to the accompanying drawings. The following embodiments and features of the embodiments may be combined with each other without conflict.

Fig. 1 is a schematic block diagram of a debugging device according to an embodiment of the present application.

As shown in FIG. 1, debug apparatus 100 includes a processor 101 and a memory 102, processor 101 and memory 102 being connected by a bus 103, such as an I2C (Inter-INTEGRATED CIRCUIT) bus.

In particular, processor 101 is configured to provide computing and control capabilities that support the operation of the overall commissioning device 100. The Processor 101 may be a central processing unit (Central Processing Unit, CPU), the Processor 101 may also be other general purpose processors, digital signal processors (DIGITAL SIGNAL Processor, DSP), application SPECIFIC INTEGRATED Circuit (ASIC), field-Programmable gate array (Field-Programmable GATE ARRAY, FPGA) or other Programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like. Wherein the general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

Specifically, the Memory 102 may be a Flash chip, a Read-Only Memory (ROM) disk, an optical disk, a U-disk, a removable hard disk, or the like.

It will be appreciated by those skilled in the art that the structure shown in fig. 1 is merely a block diagram of a portion of the structure associated with an embodiment of the present application and is not limiting of the debugging device to which an embodiment of the present application is applied, and that a particular debugging device may include more or fewer components than shown in the drawings, or may combine certain components, or have a different arrangement of components.

The processor 101 is configured to run a computer program stored in the memory 102, and implement any one of the display methods of the wearable device development functions provided by the embodiments of the present application when the computer program is executed. For example, the processor 101 is configured to run a computer program stored in the memory 102, and when the computer program is executed, the following steps may be implemented:

The intelligent wearable device comprises a first display area for displaying function modules and a second display area for adjusting function construction effects, a target function module selected by the selection operation is loaded to the second display area in response to the selection operation of the function modules in the first display area, when the adjustment operation of the target function module in the second display area is detected, the target function module is displayed on the debugging interface according to the adjusted block parameters of the target function module, a block update instruction of the target function module is generated according to a standardized interface set of the target function module and the adjusted block parameters, and the intelligent wearable device is sent to control the intelligent wearable device to synchronously display the target function module according to the adjusted block parameters.

It should be noted that, for convenience and brevity of description, specific working processes of the debugging device described above may refer to corresponding processes in the following display method embodiments of the wearable device development function, and are not described herein again.

Hereinafter, taking the debugging device shown in fig. 1 as an execution body of the display method of the development function of the wearable device as an example, the display method of the development function of the wearable device provided by the embodiment of the present application will be described in detail, and for simplicity and convenience of description, the execution body will be omitted in the subsequent method embodiments.

Referring to fig. 2, fig. 2 is a flowchart illustrating a method for displaying a development function of a wearable device according to an embodiment of the present application. The display method of the development function of the wearable device comprises the following steps 201-203, wherein:

201. And displaying a debugging interface of the intelligent wearable device, wherein the debugging interface comprises a first display area for displaying the functional module and a second display area for adjusting the function construction effect.

Wherein, intelligent wearing equipment can be intelligent glasses, intelligent helmet etc. and intelligent glasses can be AR glasses, VR glasses, MR glasses, XR glasses etc. and intelligent helmet can be AR helmet etc..

The function module is used for defining the block size (such as 30mm×40 mm) of one function block displayed on the display interface, the display content (such as "lyrics"), and the binding function (such as "prompter"), and the function module can comprise a text function module, a picture function module and a video function module.

For example, a debug interface may be displayed on a debug device that is matched with the smart wearable device, as shown in fig. 3, where the debug interface may include a first display area and a second display area, where the first display area is used to display a functional module, such as the first display area may display a text-type functional module (shown by "text-slice display" in fig. 3) and a picture-type functional module (shown by "picture display" in fig. 3); when the user selects a function module in the first display area, for example, when the user clicks a text function module in the first display area, the function module (for example, the text function module) selected by the selection operation is loaded to the second display area to be displayed, and the function module is synchronously displayed on a preview interface of the intelligent wearable device. The second display area is used for adjusting the function construction effect of the function module, for example, after the text function module is loaded to the second display area for display, a user can adjust the block size (for example, the block size is adjusted from 30mm×40mm to 20mm×20 mm) of the text function module, the display content (for example, the text is adjusted from "blank" to manually input "play music"), and the binding function (for example, the text is adjusted from "prompter" to "blank") in the second display area. Besides the content of the second display area can be displayed by the debugging device, the content of the second display area can be synchronously displayed in the APP matched with the intelligent wearable device (such as the APP integrated in the intelligent wearable device and the APP connected with the intelligent wearable device).

202. And responding to a selection operation for the function modules in the first display area, and loading the target function module selected by the selection operation into the second display area.

Step 202 may specifically include, in response to a selection operation for a function module in the first display area, obtaining an initial block parameter of a target function module selected by the selection operation, where the initial block parameter includes initial size information, initial position information, initial content information, and initial binding function information of the target function module, and loading the target function module to the second display area according to the initial block parameter. For example, as shown in fig. 4, the first display area includes text function modules and picture function modules, each function module has preset corresponding initial block parameters, and after the user clicks to select a text function module in the first display area, the debugging device loads the text function module selected by the selection operation in the second display area according to the initial block parameters of the text function module (for example, the initial size information is "100×100px", the initial position information is "located at the upper left corner of the interface", the initial content information is "null", and the initial binding function information is "null").

Further, the method further comprises the steps of generating a block initialization instruction of the target function module from the standardized interface set of the target function module and the initial block parameter, and sending the block initialization instruction to the intelligent wearable device, wherein the block initialization instruction is used for controlling the intelligent wearable device to synchronously display the function page corresponding to the second display area according to the initial block parameter, so that the intelligent wearable device synchronously displays the function page corresponding to the second display area according to the initial block parameter, and at the moment, the display parameter of the target function module in the function page corresponding to the second display area is the initial block parameter. For example, for a target function module, first, the debugging device acquires an initializing interface related to the target function module from a standardized interface set of the target function module (for example, the initializing interface is predefined that an initializing instruction for loading the target function module must include parameters such as a module type, a unique identifier, a size position, etc.), generates a block initializing instruction of the target function module in combination with the initial block parameters, for example, when a user clicks to select a picture type function module in a first display area, the debugging device acquires an initializing interface related to the picture type function module from the standardized interface set of the picture type function module (for example, the initializing interface is predefined that the initializing instruction for loading the picture type function module must include parameters such as a module type, a unique identifier, a size position, etc.), and generates a block initializing instruction of the picture type function module in combination with the initial block parameters, for example, the block initializing instruction may be as shown in the following pseudo code 1.

Pseudo code 1:

{

"Module_type": image ",// Module type: image class

"Module_id": "img_001",// unique identification for subsequent operation location

"Action": create ",// operation type: create Module

"params": {

"Width": 100,// initial width (px)

"Height": 100,// initial height (px)

"Position": { "x": 50, "y": 50},// initial coordinates (the top left corner of the AR device screen is the origin)

"Image_source": "// initial no content, leave blank

}

}

Then, after the intelligent wearing equipment receives the block initialization instruction of the target functional module, the intelligent wearing equipment executes the block initialization instruction, so that the target functional module is created on a preview interface of the intelligent wearing equipment, and the target functional module displayed by the debugging equipment is synchronized to the intelligent wearing equipment for display. For example, after the smart wearable device receives the initialization instruction, the underlying system (light-weight rendering engine of the adaptive MCU) creates a "virtual canvas" of the target function module in the memory (for example, reserving a memory space of 100×100 px) according to the initial block parameter, and draws a blank frame (for prompting the position of the target function module) on the corresponding coordinates of the screen of the smart wearable device, for example, (50, 50).

As shown in fig. 5, the user may select a plurality of function modules in the first display area and add the function modules to the second display area, so that a plurality of function modules may be loaded in the second display area, for example, the user may select one text function module and one picture function module in the first display area, and then one text function module and one picture function module will be loaded in the second display area.

203. And when the adjustment operation of the target function module of the second display area is detected, displaying the target function module on the debugging interface according to the adjusted block parameters of the target function module.

Further, referring to FIG. 6, the second display area includes a content display sub-area and a binding function display sub-area of the target function module, and the adjustment operation of the target function module of the second display area may be received by displaying a definition adjustment page of the target function module in response to a touch operation on the content display sub-area in the second display area, where the definition adjustment page includes at least one of a size adjustment control, a content adjustment control, and a binding function adjustment control of the target function module, and receiving an adjustment operation on the target function module through an adjustment control in the definition adjustment page, where the size adjustment control in the definition adjustment page of the touch operation target function space triggers the size adjustment operation, the content adjustment control in the definition adjustment page of the touch operation target function space triggers the content adjustment operation, and the binding function adjustment control in the definition adjustment page of the touch operation target function space triggers the binding function adjustment operation. For example, as shown in fig. 6, when the user clicks the text function module in the second display area on the left side of fig. 6, the user jumps to the definition adjustment page on the right side of fig. 6, where the definition adjustment page includes a size adjustment control (refer to a rectangular box at the text display on the right side of fig. 6), a content adjustment control (refer to "display content: empty" on the right side of fig. 6), and a binding function adjustment control (refer to "binding function: prompter" on the right side of fig. 6), where dragging changes the size of a rectangular box at the text display on the right side of fig. 6 changes the display size of the text function module, and where "display content: empty" input text changes the display content of the text function module, and where "binding function: prompter" changes the binding function of the text function module. Therefore, the display size, the display content and the binding function of the target functional module can be quickly changed by displaying the definition adjusting page containing at least one of the size adjusting control, the content adjusting control and the binding function adjusting control, and the intelligent wearing equipment is synchronously changed by synchronously changing parameters, so that the intelligent wearing equipment synchronously displays the content of the second display area, a developer can more intuitively check the development effect of the target functional module, and the problem that a large amount of time is required to be spent for carrying out image drawing work in the development process of the intelligent wearing equipment due to insufficient MCU performance is avoided.

The implementation in step 203 is various and illustratively includes:

(1) The adjustment operation includes a size adjustment operation. At this time, the adjusted block parameters include adjusted size information, and step 203 may specifically include the following steps 2031a to 2032a:

2031A, determining adjusted size information of the target function module according to the defined adjustment size of the second display area and the size adjustment operation when the size adjustment operation of the target function module for the second display area is detected.

The size interval of the second display area is matched with the screen size interval of the intelligent wearable device, which means that the width x height of the second display area is the same as the screen width x height of the intelligent wearable device, or the aspect ratio of the second display area is the same as the aspect ratio of the intelligent wearable device, for example, the size interval of the second display area is the same as the screen size interval of the intelligent wearable device, such as the width x height is 121.76mm x 68.49mm. The size of the second display area is limited and adjusted to ensure that the target functional module can be adjusted within the screen limiting range of the intelligent wearable device, so that the problem that the MCU data processing amount is large due to the fact that the target functional module exceeds the screen limiting range of the intelligent wearable device is avoided, the MCU rendering data processing amount is reduced to a certain extent, and the synchronous instantaneity of the preview display of the target functional module currently being developed is improved. On one hand, the size of the functional module directly determines the data amount and the operation amount to be processed, the larger the size of the functional module is, the more pixel points of the module content to be displayed are, and the size is adjusted according to the limitation of the second display area, so that a user can adjust the length and width of the functional module (in the maximum/minimum range defined by the device, the MCU processing capability is prevented from being exceeded, the size information after adjustment is in the MCU processing capability range of the intelligent wearing device, the problem that the size of the functional module is excessively exceeded by the MCU rendering capability is avoided, and the development process of the functional module of the debugging interface can be synchronously previewed and displayed on the intelligent wearing device.

The size adjustment operation refers to an operation of adjusting the block size of the target functional module.

For example, taking a picture function module as an example when the target function module is a picture function module, a user can manually adjust the block size (such as the length and width dimensions) of the picture function module in the second display area, for example, the picture function module can be scaled in a dragging manner, so that the block size of the picture function module is changed, and the block size of the picture function module is adjusted to a proper state.

For another example, taking a text function module as an example when the text function module is a target function module, a user may manually adjust the block size (e.g., the length and width dimensions) of the text function module in the second display area, e.g., the text function module may be scaled by a drag manner, so that the block size of the text function module is changed, and the block size of the text function module is adjusted to a suitable state.

2032A, displaying the target function module on the debugging interface according to the adjusted size information.

Therefore, the display size of the target functional module can be quickly changed through the size adjustment operation of the target functional module, the target functional module is displayed on the debugging interface, and the parameters are synchronously changed for the intelligent wearable device, so that the intelligent wearable device synchronously displays the content of the second display area, a developer can intuitively and quickly check the development effect of the target functional module, and the problem that a large amount of time is required to be spent for image drawing in the development process of the intelligent wearable device due to insufficient MCU performance is avoided.

(2) The adjustment operation includes a content adjustment operation. At this time, the adjusted block parameters include adjusted content information, and step 203 may specifically include the following steps 2031b to 2032b:

2031B, when detecting a content adjustment operation for a target function module of the second display area, determining adjusted content information of the target function module according to the content adjustment operation.

The content adjusting operation refers to an operation of adjusting the display content of the target function module.

For example, taking the target function module as the picture function module as an example, after clicking the picture function module in the second display area, the user displays "change picture display content", clicks "change picture display content" and selects a picture from the local or cloud, and then takes the picture newly selected from the local or cloud as the adjusted content information of the picture function module.

For another example, taking the text function module as the target function module, the user clicks the text function module in the second display area to display "change text display content", clicks "change text display content" and inputs text "please enjoy the text" as the adjusted content information of the text function module.

2032B, displaying the target function module on the debug interface according to the adjusted content information.

Therefore, the display content of the target functional module can be quickly changed through the content adjusting operation of the target functional module and displayed on the debugging interface, and the parameters are synchronously changed for the intelligent wearable device, so that the intelligent wearable device synchronously displays the content of the second display area, a developer can intuitively and quickly check the development effect of the target functional module, and the problem that a large amount of time is required to be spent for image drawing in the development process of the intelligent wearable device due to insufficient MCU performance is avoided.

(3) The adjustment operation includes a binding function adjustment operation. At this time, the adjusted block parameters include adjusted post-binding function information, and step 203 may specifically include the following steps 2031c to 2032c:

2031C, when detecting a binding function adjustment operation for the target function module of the second display area, determining post-adjustment binding function information of the target function module according to the binding function adjustment operation.

The binding function adjusting operation refers to an operation of adjusting a binding function of the target function module.

For example, taking the target function module as the picture function module as an example, after clicking the picture function module in the second display area, the user displays a "change picture binding function", clicks the "change picture binding function", and selects a new binding function, such as a "screen capturing tool", from binding functions provided by the debug interface, and then uses the new binding function, such as the "screen capturing tool", as the adjusted binding function information of the picture function module.

For another example, taking the text function module as the target function module, the user displays the "change text binding function" after clicking the text function module in the second display area, clicks the "change text binding function" and selects a new binding function, such as a "prompter", from the binding functions provided by the debug interface, and then uses the new binding function, such as the "prompter", as the adjusted binding function information of the text function module.

2032C, displaying the target function module on the debugging interface according to the adjusted binding function information.

Therefore, the binding function of the target functional module can be quickly changed through the binding function adjusting operation of the target functional module, the binding function is displayed on the debugging interface, and parameters are synchronously changed for the intelligent wearable device, so that the intelligent wearable device synchronously displays the content of the second display area, a developer can intuitively and quickly check the development effect of the target functional module, and the problem that a large amount of time is required to be spent for image drawing in the development process of the intelligent wearable device due to insufficient MCU performance is avoided.

(4) The adjustment operation includes a size adjustment operation, a content adjustment operation, and a binding function adjustment operation at the same time. At this time, the adjusted block parameters include adjusted size information, adjusted content information, and adjusted binding function information, and step 203 may specifically include the following steps 2031d to 2034d:

2031D, determining the adjusted size information of the target function module according to the limited adjustment size of the second display area and the size adjustment operation when the size adjustment operation of the target function module for the second display area is detected.

The implementation of step 2031D is similar to that of step 2031A, and specific reference may be made to the above-related description, which is not repeated here.

2032D, when detecting a content adjustment operation for a target function module of the second display area, determining adjusted content information of the target function module according to the content adjustment operation.

The implementation of step 2032D is similar to that of step 2031B, and specific reference may be made to the above-related description, which is not repeated here.

2033D, when detecting the binding function adjustment operation of the target function module of the second display area, determining the adjusted binding function information of the target function module according to the binding function adjustment operation.

The implementation of step 2033D is similar to that of step 2031C, and specific reference may be made to the above-related description, which is not repeated here.

2034D, displaying the target function module on the debugging interface according to the adjusted size information, the adjusted content information and the adjusted binding function information.

The adjusting operation is a size adjusting operation, a content adjusting operation, and a binding function adjusting operation respectively, which are used for illustrating how to display the target function module on the debugging interface, it can be understood that the adjusting operation may also include at least two of the size adjusting operation, the content adjusting operation, and the binding function adjusting operation at the same time, when the second display area triggers at least two of the size adjusting operation, the content adjusting operation, and the binding function adjusting operation at the same time (such as performing the content adjusting operation and the binding function adjusting operation), on one hand, the target function module may be displayed on the debugging interface with respect to the adjusted content information and the adjusted binding function information, and on the other hand, a target adjusting instruction is generated with respect to the adjusted content information, the adjusted binding function information, and the standardized interface set of the target function module, where the target adjusting instruction is used for adjusting the block content and the block binding function of the target function module at the same time.

204. Generating a block update instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted block parameters, and sending the intelligent wearable equipment to control the intelligent wearable equipment to synchronously display the target functional module according to the adjusted block parameters.

The block updating instruction is used for controlling the intelligent wearable device to synchronously display the target functional module according to the adjusted block parameters.

Through the standardized interface set according to the target function module and the adjusted block parameters, the block update instruction of the target function module is generated and the intelligent wearing equipment is sent to control the intelligent wearing equipment to synchronously display the function page corresponding to the second display area according to the adjusted block parameters, so that the intelligent wearing equipment can synchronously display the target function module according to the adjusted block parameters, the intelligent wearing equipment synchronously displays the content of the second display area, a developer can intuitively check the development effect of the target function module, and the problem that a large amount of time is required to be spent for image drawing in the development process of the intelligent wearing equipment due to the insufficient MCU performance is avoided.

The implementation in step 204 is various and illustratively includes:

(1) The adjustment operation includes a size adjustment operation. At this time, the adjusted block parameters include adjusted size information, and step 204 may specifically include the following steps 2041a to 2042a:

2041A, according to the standardized interface set of the target functional module and the adjusted size information, generating a first adjustment instruction of the target functional module.

The adjusted size information is information for indicating the adjusted block size of the target function module.

The first adjusting instruction is an instruction for controlling the intelligent wearable device to display and update the target functional module according to the adjusted size information.

2042A, sending the first adjustment instruction to the intelligent wearable device, so as to control the intelligent wearable device to display the target function module according to the adjusted size information.

For example, taking the example that the target function module is a picture function module, the developer drags the edge of the picture function module in the debug interface to enlarge the block size from 100×100px to 150×150px (the maximum range of the defined adjustment size is not exceeded, for example, the maximum 200×200 px). The debugging equipment captures the dragging action (namely size adjustment operation) in real time, calculates the new block size (150 multiplied by 150 px) as the adjusted size information, acquires the size setting interface from the standardized interface set of the target functional module, combines the adjusted size information, generates a first adjustment instruction, and sends the first adjustment instruction to the intelligent wearing equipment, so that the intelligent wearing equipment can synchronize the display parameters (namely the adjusted size information) of the debugging interface of the debugging equipment to display the target functional module, thereby realizing synchronous display of the intelligent wearing equipment and the debugging interface and realizing the 'what you see is what you get' of the development process.

For another example, taking the case that the target function module is a text function module, the developer drags the edge of the text function module in the debug interface to enlarge the block size from 100×100px to 150×150px (the maximum range of the defined adjustment size is not exceeded, such as maximum 200×200 px). The debugging equipment captures the dragging action (namely size adjustment operation) in real time, calculates the new block size (150 multiplied by 150 px) as the adjusted size information, acquires the size setting interface from the standardized interface set of the target functional module, combines the adjusted size information, generates a first adjustment instruction, and sends the first adjustment instruction to the intelligent wearing equipment, so that the intelligent wearing equipment can synchronize the display parameters (namely the adjusted size information) of the debugging interface of the debugging equipment to display the target functional module, thereby realizing synchronous display of the intelligent wearing equipment and the debugging interface and realizing the 'what you see is what you get' of the development process.

(2) The adjustment operation includes a content adjustment operation. At this time, the adjusted block parameters include adjusted content information, and step 204 may specifically include the following steps 2041b to 2042b:

2041B, generating a second adjustment instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted content information.

The adjusted content information is information for indicating the adjusted display content of the target function module.

The second adjusting instruction is an instruction for controlling the intelligent wearable device to display and update the target function module according to the adjusted content information.

2042B, sending the second adjustment instruction to the intelligent wearable device, so as to control the intelligent wearable device to display the target function module according to the adjusted content information.

For example, taking a picture-type function module as an example, a developer selects a 'device B failure icon' (a locally preset error_B.png format is a BMP format supported by an MCU, and the resolution is 200 multiplied by 200 px) from an 'image content library' of a debugging interface as adjusted content information, after the debugging device confirms that the image format/size is compatible (200 multiplied by 200px is greater than the current block size of the target function module by 150 multiplied by 150px, and automatically triggers 'equal-proportion scaling' preprocessing), the content setting interface is acquired from a standardized interface set of the target function module, and the adjusted content information is combined, so that a second adjusting instruction is generated and sent to the intelligent wearable device, and thus the intelligent wearable device can synchronously display the target function module by the display parameters (namely the adjusted content information) of the debugging interface of the debugging device, thereby realizing synchronous display of the intelligent wearable device and the debugging interface and the 'visible' of the development process.

(3) The adjustment operation includes a binding function adjustment operation. At this time, the adjusted block parameters include adjusted binding function information, and step 204 may specifically include the following steps 2041c to 2042c:

2041C, according to the standardized interface set of the target functional module and the adjusted binding functional information, generating a third adjusting instruction of the target functional module.

The post-adjustment binding function information is information for indicating the binding function of the target function module after adjustment.

The third adjustment instruction is an instruction for controlling the intelligent wearable device to display and update the target function module according to the adjusted binding function information.

2042C, sending the third adjusting instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the adjusted binding function information.

For example, taking the example that the target function module is a picture type function module, a developer selects a function (function_id=5) of "equipment B humidity monitoring" from a "function list" of the debug interface, and binds the picture type function module with the function. The specific synchronous display logic of the intelligent wearable device is as follows:

And then, acquiring binding function setting interface and binding function information after adjustment from a standardized interface set of the target function module, generating a third adjusting instruction and sending the third adjusting instruction to the intelligent wearing equipment, so that the intelligent wearing equipment can synchronously display the target function module by synchronizing display parameters (namely binding function information after adjustment) of the debugging interface of the debugging equipment, thereby realizing synchronous display of the intelligent wearing equipment and the debugging interface and realizing the 'what you see is what you get' of the development process.

(4) The adjustment operation includes a size adjustment operation, a content adjustment operation, and a binding function adjustment operation at the same time. At this time, the adjusted block parameters include adjusted size information, adjusted content information, and adjusted binding function information, and step 204 may specifically include the following steps 2041d to 2044d:

2041D, generating a fourth adjustment instruction of the target functional module according to the standardized interface set of the target functional module, the adjusted size information, the adjusted content information and the adjusted binding functional information.

The implementation of step 2041D is similar to the implementation of steps 2041A, 2041B, 2041C, and the description thereof is specifically referred to above, and is not repeated herein.

2042D, sending the fourth adjustment instruction to the intelligent wearable device, so as to control the intelligent wearable device to display the target function module according to the adjusted size information, the adjusted content information and the adjusted binding function information.

By displaying the debugging interface comprising the first display area and the second display area, the first display area can display the functional module, the second display area can adjust the functional construction effect, the target functional module of the second display area can be utilized to adjust the target functional module, the adjusted block parameters of the target functional module and the standardized interface of the target functional module can be utilized to generate the block update instruction of the target functional module to be sent to the intelligent wearable device, so that the preview interface of the intelligent wearable device and the debugging interface of the debugging device can display the development effect of the target functional module in accordance with the same block parameters, the preview interface of the intelligent wearable device and the debugging interface of the debugging device can generate the block update instruction by directly utilizing the standardized interface set of the target functional module and the adjusted block parameters, the debugging device can execute the calculation work with high load in advance (such as recalculating the block pixel coordinates of the target functional module according to the adjusted block parameters), the intelligent wearable device can complete the process of the adjusted target functional module without directly executing the block update instruction, the intelligent wearable device can calculate the pixel coordinates again and can delay the execution of the real-time rendering of the target functional module based on the corresponding block update instruction due to the fact that the real-time update instruction is not required to be executed by the MCU, the method and the device can reduce the problem of delay in display of the preview interface of the wearable device caused by insufficient processing speed of the MCU, so that the preview interface and the debugging interface of the intelligent wearable device can synchronously display the developed interface functions, and the experience of 'what you see is what you get' in the development process is realized. Therefore, the problem that the image drawing and interface development difficulty of the intelligent wearable device is high due to the fact that the performance short board of the MCU is not matched with the core requirement of the graphics processor can be solved.

In addition, in order to better implement the display method of the wearable device development function in the embodiment of the present application, on the basis of the display method of the wearable device development function, the embodiment of the present application further provides a display device of the wearable device development function, as shown in fig. 7, which is a schematic structural diagram of one embodiment of the display device of the wearable device development function provided in the embodiment of the present application, where the display device 700 of the wearable device development function includes:

a first display unit 701, configured to display a debug interface of the smart wearable device, where the debug interface includes a first display area for displaying a functional module and a second display area for adjusting a functional configuration effect;

A loading unit 702, configured to respond to a selection operation for a function module in the first display area, and load a target function module selected by the selection operation into the second display area;

A second display unit 703, configured to display, when an adjustment operation for a target function module in the second display area is detected, the target function module on the debug interface according to an adjusted block parameter of the target function module;

And the synchronization unit 704 is configured to generate a block update instruction of the target function module according to the standardized interface set of the target function module and the adjusted block parameter, and send the block update instruction to the intelligent wearable device, so as to control the intelligent wearable device to synchronously display the target function module according to the adjusted block parameter.

In some embodiments, the loading unit 702 is configured to:

Responding to a selection operation for a functional module in the first display area, and acquiring initial block parameters of a target functional module selected by the selection operation, wherein the initial block parameters comprise initial size information, initial position information, initial content information and initial binding function information of the target functional module;

And loading the target function module to the second display area according to the initial block parameters.

In some embodiments, the second display unit 703 is configured to:

generating a block initialization instruction of the target functional module from the standardized interface set of the target functional module and the initial block parameters;

and sending the block initialization instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the initial block parameters.

In some embodiments, the adjusting operation includes a size adjusting operation, the adjusted block parameter includes adjusted size information, and the second display unit 703 is configured to:

when the size adjustment operation of the target function module aiming at the second display area is detected, determining the adjusted size information of the target function module according to the limited adjustment size of the second display area and the size adjustment operation;

displaying the target function module on the debugging interface according to the adjusted size information;

in some embodiments, the synchronization unit 704 is configured to:

Generating a first adjusting instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted size information;

and sending the first adjusting instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the adjusted size information.

In some embodiments, the adjusting operation includes a content adjusting operation, the adjusted tile parameter includes adjusted content information, and the second display unit 703 is configured to:

When detecting a content adjustment operation for a target function module of the second display area, determining adjusted content information of the target function module according to the content adjustment operation;

displaying the target function module on the debugging interface according to the adjusted content information;

in some embodiments, the synchronization unit 704 is configured to:

generating a second adjusting instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted content information;

and sending the second adjusting instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the adjusted content information.

In some embodiments, the adjustment operation includes a binding function adjustment operation, the adjusted block parameter includes adjusted binding function information, and the second display unit 703 is configured to:

when the binding function adjusting operation of the target function module aiming at the second display area is detected, determining the adjusted binding function information of the target function module according to the binding function adjusting operation;

Displaying the target function module on the debugging interface according to the adjusted binding function information;

in some embodiments, the synchronization unit 704 is configured to:

Generating a third adjusting instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted binding function information;

And sending the third adjusting instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the adjusted binding function information.

In some embodiments, the size interval of the second display area matches a screen size interval of the smart wearable device, and the defining adjusts the size to the size interval of the second display area.

In some embodiments, the second display area includes a content display sub-area of the target function module, a binding function display sub-area, and the second display unit 703 is configured to:

Responding to touch operation of a content display subarea in the second display area, and displaying a definition adjustment page of the target function module, wherein the definition adjustment page comprises at least one of a size adjustment control, a content adjustment control and a binding function adjustment control of the target function module;

and receiving an adjustment operation aiming at the target functional module through the adjustment control in the definition adjustment page.

In the implementation, each unit may be implemented as an independent entity, or may be combined arbitrarily, and implemented as the same entity or a plurality of entities, and the implementation of each unit may refer to the foregoing embodiment of the display method of the development function of the wearable device, which is not described herein.

It will be appreciated by those of ordinary skill in the art that all or part of the steps in the method for displaying the functionality of the wearable device may be performed by instructions, or by controlling related hardware by instructions, which may be stored in a computer readable storage medium and loaded and executed by a processor.

To this end, an embodiment of the present application provides a computer readable storage medium in which a plurality of computer programs are stored, where the computer programs can be loaded by a processor to execute any of the display methods of the development functions of the wearable device provided by the embodiments of the present application.

The computer readable storage medium may include, among others, read Only Memory (ROM), random access Memory (RAM, random Access Memory), magnetic or optical disks, and the like.

In the embodiments of the display device, the computer readable storage medium and the debugging device for developing functions of the wearable device, the descriptions of the embodiments are focused, and the parts of a certain embodiment, which are not described in detail, can be referred to in the related descriptions of other embodiments. It may be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working process and the beneficial effects of the display device, the computer readable storage medium, the debugging device and the corresponding units of the development function of the wearable device described above may refer to the description of the display method of the development function of the wearable device in the above embodiment, which is not described herein in detail.

The foregoing describes the display method, apparatus, debugging device and computer readable storage medium for developing functions of a wearable device according to the embodiments of the present application in detail, and specific examples are applied to illustrate the principles and embodiments of the present application, and the foregoing examples are only for aiding in understanding the method and core concept of the present application, and meanwhile, for those skilled in the art, according to the concept of the present application, there are variations in the specific embodiments and application ranges, so that the disclosure should not be construed as limiting the application.

Claims (10)

1. A display method of a wearable device development function, applied to a debugging device, the method comprising:

displaying a debugging interface of the intelligent wearable device, wherein the debugging interface comprises a first display area for displaying the functional module and a second display area for adjusting the function construction effect;

responding to a selection operation of a function module in the first display area, and loading a target function module selected by the selection operation into the second display area;

When the adjustment operation of the target function module aiming at the second display area is detected, displaying the target function module on the debugging interface according to the adjusted block parameters of the target function module;

generating a block update instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted block parameters, and sending the intelligent wearable equipment to control the intelligent wearable equipment to synchronously display the target functional module according to the adjusted block parameters.

2. The method for displaying a wearable device development function according to claim 1, wherein the loading, in response to a selection operation for a function module in the first display area, a target function module selected by the selection operation into the second display area includes:

Responding to a selection operation for a functional module in the first display area, and acquiring initial block parameters of a target functional module selected by the selection operation, wherein the initial block parameters comprise initial size information, initial position information, initial content information and initial binding function information of the target functional module;

loading the target function module to the second display area according to the initial block parameters;

the method further comprises the steps of:

generating a block initialization instruction of the target functional module from the standardized interface set of the target functional module and the initial block parameters;

and sending the block initialization instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the initial block parameters.

3. The display method of the wearable device development function according to claim 1, wherein the adjustment operation includes a size adjustment operation, and the adjusted block parameter includes adjusted size information;

When the adjustment operation of the target function module of the second display area is detected, displaying the target function module on the debug interface according to the adjusted block parameter of the target function module, including:

when the size adjustment operation of the target function module aiming at the second display area is detected, determining the adjusted size information of the target function module according to the limited adjustment size of the second display area and the size adjustment operation;

displaying the target function module on the debugging interface according to the adjusted size information;

The generating a block update instruction of the target function module according to the standardized interface set of the target function module and the adjusted block parameter and sending the intelligent wearable device to control the intelligent wearable device to synchronously display the target function module according to the adjusted block parameter comprises the following steps:

Generating a first adjusting instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted size information;

and sending the first adjusting instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the adjusted size information.

4. The method for displaying a wearable device development function according to claim 1, wherein the adjustment operation includes a content adjustment operation, and the adjusted tile parameter includes adjusted content information;

When the adjustment operation of the target function module of the second display area is detected, displaying the target function module on the debug interface according to the adjusted block parameter of the target function module, including:

When detecting a content adjustment operation for a target function module of the second display area, determining adjusted content information of the target function module according to the content adjustment operation;

displaying the target function module on the debugging interface according to the adjusted content information;

The generating a block update instruction of the target function module according to the standardized interface set of the target function module and the adjusted block parameter and sending the intelligent wearable device to control the intelligent wearable device to synchronously display the target function module according to the adjusted block parameter comprises the following steps:

generating a second adjusting instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted content information;

and sending the second adjusting instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the adjusted content information.

5. The method for displaying a development function of a wearable device according to claim 1, wherein the adjustment operation includes a binding function adjustment operation, and the adjusted block parameter includes adjusted binding function information;

When the adjustment operation of the target function module of the second display area is detected, displaying the target function module on the debug interface according to the adjusted block parameter of the target function module, including:

when the binding function adjusting operation of the target function module aiming at the second display area is detected, determining the adjusted binding function information of the target function module according to the binding function adjusting operation;

Displaying the target function module on the debugging interface according to the adjusted binding function information;

The generating a block update instruction of the target function module according to the standardized interface set of the target function module and the adjusted block parameter and sending the intelligent wearable device to control the intelligent wearable device to synchronously display the target function module according to the adjusted block parameter comprises the following steps:

Generating a third adjusting instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted binding function information;

And sending the third adjusting instruction to the intelligent wearable device so as to control the intelligent wearable device to display the target function module according to the adjusted binding function information.

6. The display method of the wearable device development function according to claim 3, wherein a size interval of the second display area is matched with a screen size interval of the smart wearable device, and the limiting adjustment size is the size interval of the second display area.

7. The display method of the wearable device development function according to claim 1, wherein the second display area includes a content display sub-area of the target function module, a binding function display sub-area;

the method further comprises the steps of:

Responding to touch operation of a content display subarea in the second display area, and displaying a definition adjustment page of the target function module, wherein the definition adjustment page comprises at least one of a size adjustment control, a content adjustment control and a binding function adjustment control of the target function module;

and receiving an adjustment operation aiming at the target functional module through the adjustment control in the definition adjustment page.

8. A display device of a wearable device development function, characterized in that the display device of a wearable device development function includes:

The first display unit is used for displaying a debugging interface of the intelligent wearable device, and the debugging interface comprises a first display area for displaying the functional module and a second display area for adjusting the function construction effect;

a loading unit, configured to respond to a selection operation for a function module in the first display area, and load a target function module selected by the selection operation into the second display area;

The second display unit is used for displaying the target function module on the debugging interface according to the adjusted block parameters of the target function module when the adjustment operation of the target function module aiming at the second display area is detected;

And the synchronization unit is used for generating a block update instruction of the target functional module according to the standardized interface set of the target functional module and the adjusted block parameters and sending the intelligent wearing equipment so as to control the intelligent wearing equipment to synchronously display the target functional module according to the adjusted block parameters.

9. A debugging device comprising a processor and a memory, wherein the memory stores a computer program, and the processor executes a display method of the wearable device development function according to any one of claims 1 to 7 when calling the computer program in the memory.

10. A computer-readable storage medium, characterized in that a computer program is stored thereon, which is loaded by a processor to perform the display method of the wearable device development function of any one of claims 1 to 7.