Detailed Description
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. The present application may be embodied in many other forms than those herein described, and those skilled in the art will readily appreciate that the present application may be similarly embodied without departing from the spirit or essential characteristics thereof, and therefore the present application is not limited to the specific embodiments disclosed below.
The terminology used in the one or more embodiments of the application is for the purpose of describing particular embodiments only and is not intended to be limiting of the one or more embodiments of the application. As used in one or more embodiments of the application and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used in one or more embodiments of the present application refers to and encompasses any or all possible combinations of one or more of the associated listed items.
It should be understood that, although the terms first, second, etc. may be used in one or more embodiments of the application to describe various information, these information should not be limited by these terms. These terms are only used to distinguish one type of information from another. For example, a first may also be referred to as a second, and similarly, a second may also be referred to as a first, without departing from the scope of one or more embodiments of the application.
In the present application, a target display method is provided. The present application also relates to a target display device, a computing device, and a computer-readable storage medium, which are described in detail in the following embodiments.
Fig. 1 shows a flowchart of a target exhibition method according to an embodiment of the present application, which specifically includes the following steps:
s101, obtaining model parameters of a target object and model parameters of a hanging piece hung on the target object.
In a specific application, the timing of obtaining the model parameters of the target object and the model parameters of the pendant hung on the target object may be various. For example, the target object and the hanging piece hung on the target object are displayed; or the target object is displayed, and the hanging piece on the target object is hung, namely to be displayed; or, the target object and the hanging piece hung on the target object are to be displayed.
The mode of obtaining any model parameter may be: directly searching model parameters corresponding to the identification of the target object and model parameters corresponding to the identification of the hanging piece hung on the target object in the local storage; or, a model parameter request carrying the two identifiers may be sent to the server, and model parameters corresponding to the two identifiers respectively returned by the server may be received.
S102, determining the reference model parameters of the hanging piece under the condition that the hanging piece and the target object do not meet the preset adaptation conditions according to the model parameters of the target object and the model parameters of the hanging piece.
In particular applications, the model parameters may be various, such as position coordinates, angle data, and dimensions, among others. And the hanging piece and the target object do not meet the preset adaptation condition, which indicates that the hanging piece is hung on the target object and the mold penetration occurs. Also, the step S102 may be plural in particular, corresponding to different model parameters. For ease of understanding and rational layout, step S102 will be described in detail later in the form of alternative embodiments.
And S103, adjusting model parameters of the hanging piece according to the reference model parameters, and displaying the target object and the hanging piece according to the model parameters of the target object and the adjusted model parameters of the hanging piece.
In a specific application, the model parameters of the pendant may be adjusted according to the reference model parameters. For example, the model parameters of the pendant may be directly replaced with the reference model parameters; or, a difference value between the model parameter of the pendant and the reference model parameter can be calculated, the model parameter of the pendant is adjusted according to the calculated difference value, and the adjusted model parameter of the pendant is finely adjusted according to a preset floating value.
And according to the model parameters of the target object and the adjusted model parameters of the pendant, the display target object and the pendant can be various. For example, if the target object is displayed, the hanger may be displayed on the target object according to the model parameter of the target object and the adjusted model parameter of the hanger; or if both the target object and the pendant are displayed, the target object can be displayed again according to the model parameters of the target object and the adjusted model parameters of the pendant, and the pendant can be displayed on the target object which is displayed again; or if neither the target object nor the pendant is displayed, the target object may be displayed according to the model parameters of the target object and the adjusted model parameters of the pendant, and the pendant may be displayed on the displayed target object. For example, as shown in an exemplary diagram of a scene of mold penetration in the target display method according to an embodiment of the present application shown in fig. 2 (a), a mold penetration problem exists in the hanging member 202 before adjustment on the target object 201. In contrast, in the target display method according to an embodiment of the present application as shown in fig. 2 (b), after the hanger through the die is adjusted, the model parameters of the hanger 202 before adjustment in fig. 2 (a) are adjusted according to the steps of the above embodiment, and the hanger 203 after adjustment hung on the target object 201 is displayed according to the adjusted model parameters, so that the problem of die penetration is avoided.
In the scheme provided by the application, the pendant and the target object do not meet the preset adaptation condition, which indicates that the pendant is hung on the target object and the die penetration occurs. On the basis, according to the reference model parameters, the model parameters of the hanging parts are adjusted, namely, the model parameters according to which the hanging parts are hung in the target objects are adaptively adjusted according to different target objects, so that the displayed hanging parts are ensured to be matched with the model parameters of the corresponding target objects. Therefore, the problem of mold penetration caused by the fact that all target objects display hanging pieces according to fixed model parameters can be reduced.
In an alternative embodiment, the reference model parameters of the pendant may include dimension data of the pendant;
correspondingly, the determining the reference model parameters of the pendant may include the following steps:
obtaining a size adjustment proportion corresponding to the hanging piece;
and determining the reference model parameters of the hanging piece based on the corresponding size adjustment proportion of the hanging piece and the size data of the hanging piece.
In a specific application, different pendants hung on the same target object can have different size adjustment ratios, and the same pendants hung on different target objects can have different size adjustment ratios. Accordingly, obtaining the resizing ratio of the pendant may include: and searching a corresponding relation among the pre-established object identification, the pendant identification and the size adjustment proportion according to the identification of the target object and the identification of the pendant, and obtaining the size adjustment proportion corresponding to the pendant hung on the target object. Based on the size adjustment proportion, determining the reference model parameters of the pendant specifically may include: and calculating the product of the size adjustment proportion and the size data of the pendant to obtain the reference model parameters of the pendant. The dimension data of the pendant may include a length, a width, and a height of the pendant. After obtaining the reference model parameters, the model parameters of the pendant may be adjusted in the manner provided in step S103 in the embodiment of fig. 1.
According to the embodiment, the reference model parameters of the hanging piece are determined according to the size adjustment proportion corresponding to the hanging piece, so that the mold penetrating caused by the fact that the size of the hanging piece is not matched with a target object can be reduced.
In another optional embodiment, the model parameters of the pendant may include a hanging position of the pendant on the target object;
correspondingly, the determining the reference model parameter of the pendant specifically may include the following steps:
and determining the reference model parameters of the hanging piece according to the hanging position.
In a specific application, the hanging position is used for indicating which part of the target object the hanging piece is hung on, and the hanging position can be specifically a name or a mark of the hanging position. For example, the target object is a game character, and the hanging position may be "head" or the identification "ID1" of the head; the target object is a head portrait frame, and the hanging position can be 'the outer edge of the head portrait frame' or the identification 'ID 2' of the outer edge of the head portrait frame.
And whether the model parameters of the pendant are matched with the model parameters of the target object is influenced by the hanging position of the pendant on the target object. Therefore, the present embodiment determines the reference model parameter of the pendant adapted to the model parameter of the target object according to the above-mentioned hanging position, so as to cope with the situation that the model parameter of the pendant and the hanging position are not adapted to cause mold penetration.
Moreover, the specific manner of determining the reference model parameters of the pendant according to the hanging position may be various, and the following description will be made in the form of alternative embodiments.
In an optional implementation manner, the determining the reference model parameter of the pendant according to the hanging position specifically may include the following steps:
determining attribute information of the target object according to the model parameters of the target object;
searching a reference model parameter corresponding to the attribute information and the hanging position of the target object from a pre-established corresponding relation table, wherein the corresponding relation table records the corresponding relation among the attribute information of the target object, the hanging position of the hanging piece on the target object and the reference model parameter of the hanging piece.
In a specific application, the attribute information of the target object is used to indicate the uniqueness of the target object, which may be the identification or the name of the target object. For example, the target object is a game character, and the attribute information of the target object may be a character name, or a character identification. And, determining the attribute information of the target object according to the model parameters of the target object may include: and directly reading attribute information in the model parameters of the target object, or searching attribute information corresponding to the parameter identification in the model parameters of the target object from the corresponding relation between the preset parameter identification and the attribute information of the target.
The correspondence table may be established in various ways. For example, the model parameters of the hanging member at the hanging position of the target object can be manually adjusted to meet the adaptation condition according to different target objects, so as to obtain the reference model parameters, and the attribute information, the hanging member setting position and the reference model parameters of the target object are recorded, so that the corresponding relation table is obtained. Or, for example, according to the attribute information of the target object and the corresponding hanging position, determining the model parameters of the corresponding part of the hanging position on the target object and the azimuth relation parameters of the hanging part and the part; and calculating the reference model parameters of the hanging parts according to the model parameters and the azimuth relation parameters of the parts, and recording the attribute information of the target objects, the hanging parts setting positions and the reference model parameters to obtain the corresponding relation table. The specific manner of calculating the reference model parameters in the second exemplary description is the same as the other manner of determining the reference model parameters of the pendant according to the hanging position, and for convenience of understanding and reasonable layout, the following description will be made in detail in another alternative embodiment regarding determining the reference model parameters of the pendant according to the hanging position.
According to the method and the device, the reference model parameters of the hanging piece can be obtained by searching the pre-established corresponding relation table, multiple times of calculation are not needed, the determining efficiency of the reference model parameters can be improved, and therefore the efficiency of target display is improved.
In another optional implementation manner, the determining the reference model parameter of the pendant according to the hanging position specifically may include the following steps:
determining attribute information of the target object according to the model parameters of the target object;
determining model parameters of corresponding parts of the hanging positions on the target object and azimuth relation parameters of the hanging parts and the parts according to the attribute information and the hanging positions of the target object;
and calculating the reference model parameters of the pendant according to the model parameters and the azimuth relation parameters of the part.
In the alternative embodiment, the reference model parameters of the pendant are determined through real-time calculation, and a corresponding relation table about the reference model parameters does not need to be established in advance. Therefore, for the situation of adding the target object and the pendant, the version update of the application program or the corresponding relation table about the reference model parameter is not needed, the maintenance convenience is improved, and the transmission resource occupation caused by the version update is reduced.
In a specific application, a specific manner of determining attribute information of the target object according to the model parameter of the target object is the same as the manner of determining attribute information of the target object in the above-mentioned alternative embodiment of determining the reference model parameter by searching the corresponding relation table, and is not described herein. The hanging position corresponding portion refers to a portion of the target object belonging to the hanging position, for example, a head, a wrist, a waist, a back, a neck, and the like of the game character. The azimuth relation parameter is used for indicating the azimuth relation between the pendant and the corresponding part when the pendant is hung on the corresponding part.
And, according to the attribute information and the hanging position of the target object, determining the model parameters of the corresponding part of the hanging position on the target object and the azimuth relation parameters of the hanging piece and the part can comprise: searching model parameters corresponding to the attribute information and the hanging position of the target object from locally stored model parameters of the target object; and searching azimuth relation parameters corresponding to the attribute information and the hanging position of the target object from a pre-established parameter corresponding table. The parameter correspondence table records the attribute information of the target object, the hanging position and the correspondence relation of the azimuth relation parameters of the hanging piece and the part.
The following describes, in detail, a specific manner of calculating the reference model parameters of the pendant according to the model parameters and the azimuth relation parameters of the location in the form of an alternative embodiment.
In an optional embodiment, the azimuth relation parameter includes a first distance threshold, a first angle offset threshold, and a first dimension ratio between the pendant and the part; the model parameters of the part comprise position coordinates, angle data and size data of the part;
correspondingly, the calculating the reference model parameters of the pendant according to the model parameters and the azimuth relation parameters of the part specifically comprises the following steps:
determining coordinates, which are equal to a first distance threshold, from the position coordinates of the part as position coordinates in the reference model parameters of the pendant;
determining a difference value between the angle data of the part and the first angle deviation threshold value as angle data in the reference model parameters;
the product of the size data of the region and the first size ratio is determined as the size data in the reference model parameters.
In a specific application, the distance from the position coordinates of the part is equal to the coordinates of the first distance threshold value. For example, for a two-dimensional space, the determined position coordinates may include two that are bilaterally symmetrical, and for a three-dimensional space, the determined position coordinates may include two that are bilaterally symmetrical, and two that are vertically symmetrical. In this regard, the position coordinate in the reference model parameter closest to the position coordinate of the pendant may be selected therefrom, or any one of them may be selected as the position coordinate in the reference model parameter of the pendant, and the suitability in the spatial orientation is subsequently ensured by the angle data in the reference model parameter.
According to the optional embodiment, parameters of multiple dimensions in the reference model parameters are respectively determined through position coordinates, angle data and size data of the part: the position coordinates, the angle data and the size data can be used for adjusting the model parameters of the hanging piece in multiple dimensions according to the reference model parameters, so that the accuracy of adjustment is improved, and the success rate of solving the die penetration problem is improved.
In an alternative embodiment, the model parameters of the target object include: position coordinates, angle data, and size data of the target object; model parameters of the pendant include: the hanging position of the hanging piece on the target object, the position coordinate of the hanging piece, angle data and size data;
correspondingly, determining whether the pendant and the target object meet the preset adaptation condition according to the model parameters of the target object and the model parameters of the pendant may include at least one of the following steps:
calculating the distance between the position coordinates of the target object and the position coordinates of the hanging piece, and determining whether the distance reaches a second distance threshold value or not;
calculating the offset between the angle data of the target object and the angle data of the pendant, and determining whether the offset reaches a second angle offset threshold;
And calculating a ratio value between the size data of the target object and the size data of the pendant, and determining whether the ratio value reaches a second size ratio.
In a specific application, the distance between the position coordinates of the target object and the position coordinates of the pendant can be calculated by using a distance formula between two points. The offset between the angle data of the target object and the angle data of the pendant may be a difference between the angle data of the target object and the angle data of the pendant. The ratio value between the size data of the target object and the size data of the pendant, i.e., the ratio between the size data of the target object and the size data of the pendant.
In this optional embodiment, by determining whether the difference value of the model parameter between the pendant and the target object meets at least one of the second distance threshold, the second angle offset threshold, and the second dimension ratio, it is ensured that the adjustment is performed as long as one of the position coordinate, the angle data, and the dimension data is not met, thereby further reducing the occurrence of the mold threading problem.
In an optional implementation manner, after determining the reference model parameters of the pendant, the target display method provided by the embodiment of the application may further include the following steps:
Recording reference model parameters of the hanging piece;
when a new target object is acquired, acquiring model parameters of the new target object;
calculating the model similarity between the newly added target object and the target object according to the model parameters of the newly added target object and the model parameters of the target object;
and if the model similarity is greater than a preset similarity threshold, determining the reference model parameter as the reference model parameter corresponding to the newly added target object.
In a specific application, calculating the model similarity between the newly added target object and the target object according to the model parameters of the newly added target object and the model parameters of the target object may include: and calculating the similarity of Euclidean distance or cosine similarity between the model parameters of the newly added target object and the model parameters of the target object, and taking the similarity as the model similarity. And the model similarity is larger than a preset similarity threshold value, which indicates that the newly added target object is similar to the target object. Accordingly, the reference model parameter can be determined as the reference model parameter corresponding to the newly added target object.
According to the method and the device, the multiplexing of the reference model parameters of the target objects is achieved through the similarity among the target objects, the process of determining the reference model parameters of the new target is reduced, the display efficiency of the target can be improved, and the display cost is reduced.
In an optional embodiment, a plurality of hanging pieces are hung on the target object;
correspondingly, after determining whether the pendant and the target object meet the preset adaptation condition according to the model parameters of the target object and the model parameters of the pendant, the target display method provided by the embodiment of the application further comprises the following steps:
counting the number of pendants which do not meet the adaptation conditions;
correspondingly, the determining the reference model parameters of the pendant includes:
according to the number of the pendants which do not meet the adaptation conditions, establishing a corresponding number of parallel threads;
and calling the plurality of parallel threads to respectively determine the reference model parameters of the plurality of pendants.
The parallel threads refer to a plurality of threads running in parallel, and each thread specifically executes the step of determining the reference model parameters of the pendant according to the hanging position.
According to the embodiment, parallel adjustment of a plurality of pendants can be realized through the parallel threads with the number corresponding to the number of the pendants which do not meet the adaptation condition, and the adjustment of one pendant is not needed to be finished and the other pendant is not needed to be adjusted. Therefore, the batch adjustment of a plurality of pendants needing to be adjusted is realized, and the efficiency of target display can be improved.
In an alternative embodiment, the model parameters of the target object include size data of the target object;
correspondingly, after the target object and the hanger are displayed according to the model parameters of the target object and the adjusted model parameters of the hanger, the target display method provided by the embodiment of the application further comprises the following steps:
receiving an adjustment instruction for adjusting the size data of the target object, wherein the adjustment instruction carries an adjustment proportion;
and adjusting the size data of the hanging piece based on the adjustment proportion.
For example, the size data of any object may be the length, width and height of the object, and adjusting the size data of the pendant based on the adjustment ratio may include multiplying the length, width and height of the pendant by the adjustment ratio, respectively, to obtain the adjusted size data of the pendant. The adjustment instruction may be an adjustment instruction input by a user, for example, an instruction triggered when the user adjusts the size of the target object through a touch screen, an instruction to input an adjustment ratio in a user size adjustment box and submit the generated instruction, or the like.
According to the method and the device, the size of the hanging piece is adjusted based on the adjustment proportion of the size data of the target object, so that the mold penetration caused by the size misadaptation can be prevented. And model parameters such as angle and position coordinates of the hanging piece are not required to be changed, which is equivalent to the adjustment of the equal-proportion size of the target object and the hanging piece, and the target display efficiency is improved.
In order to facilitate understanding and rational layout, the following description of some embodiments of the application will be given in the form of an exemplary illustration.
As illustrated by way of example in fig. 3. The process of the target display method provided by the other embodiment of the application can comprise the following steps:
s301, obtaining model parameters of a target object and model parameters of a hanging piece hung on the target object, wherein the model parameters of the target object comprise: the position coordinates, the angle data and the size data of the target object, and the model parameters of the hanging piece comprise: the hanging position of the hanging piece on the target object, the position coordinate of the hanging piece, angle data and size data.
S302, calculating the distance between the position coordinates of the target object and the position coordinates of the pendant, determining whether the distance reaches a second distance threshold, calculating the offset between the angle data of the target object and the angle data of the pendant, calculating the ratio value between the size data of the target object and the size data of the pendant, and determining the attribute information of the target object according to the model parameters of the target object under the conditions that the offset does not reach the second angle offset threshold and the ratio value does not reach the second size ratio.
S303, searching reference model parameters corresponding to the attribute information and the hanging position of the target object from a pre-established corresponding relation table; the corresponding relation table records the attribute information of the target object, the hanging position of the hanging piece on the target object and the corresponding relation between the reference model parameters of the hanging piece.
S304, adjusting model parameters of the hanging piece according to the reference model parameters, and displaying the target object and the hanging piece according to the model parameters of the target object and the adjusted model parameters of the hanging piece.
The steps in this embodiment are the same as the corresponding steps in the embodiment of fig. 1 and the partial alternative embodiment of fig. 1, and are not described herein again, and detailed descriptions of the embodiment of fig. 1 and the alternative embodiment of fig. 1 are provided herein.
Corresponding to the method embodiment, the present application further provides an embodiment of the target display device, and fig. 4 shows a schematic structural diagram of the target display device according to an embodiment of the present application. As shown in fig. 4, the apparatus includes:
a model parameter obtaining module 401 configured to obtain model parameters of a target object and model parameters of a pendant hung on the target object;
a reference parameter determining module 402, configured to determine a reference model parameter of the pendant if it is determined that the pendant and the target object do not meet a preset adaptation condition according to the model parameter of the target object and the model parameter of the pendant;
The target display module 403 is configured to adjust the model parameters of the pendant according to the reference model parameters, and display the target object and the pendant according to the model parameters of the target object and the adjusted model parameters of the pendant.
In the scheme provided by the application, the pendant and the target object do not meet the preset adaptation condition, which indicates that the pendant is hung on the target object and the die penetration occurs. On the basis, according to the reference model parameters, the model parameters of the hanging parts are adjusted, namely, the model parameters according to which the hanging parts are hung in the target objects are adaptively adjusted according to different target objects, so that the displayed hanging parts are ensured to be matched with the model parameters of the corresponding target objects. Therefore, the problem of mold penetration caused by the fact that all target objects display hanging pieces according to fixed model parameters can be reduced.
In an alternative embodiment, the model parameters of the pendant include a hanging position of the pendant on the target object; the reference parameter determination module 402 is further configured to:
and determining the reference model parameters of the hanging piece according to the hanging position.
In an alternative embodiment, the reference parameter determination module 402 is further configured to:
Determining attribute information of the target object according to the model parameters of the target object;
searching a reference model parameter corresponding to the attribute information of the target object and the hanging position from a pre-established corresponding relation table, wherein the corresponding relation table records the corresponding relation among the attribute information of the target object, the hanging position of the hanging piece on the target object and the reference model parameter of the hanging piece.
In an alternative embodiment, the reference parameter determination module 402 is further configured to:
determining attribute information of the target object according to the model parameters of the target object;
determining model parameters of corresponding parts of the hanging position on the target object and azimuth relation parameters of the hanging parts and the parts according to the attribute information of the target object and the hanging position;
and calculating the reference model parameters of the pendant according to the model parameters of the part and the azimuth relation parameters.
In an alternative embodiment, the orientation relationship parameters include a first distance threshold, a first angular offset threshold, and a first size ratio between the pendant and the site; the model parameters of the part comprise position coordinates, angle data and size data of the part;
The reference parameter determination module 402 is further configured to:
determining coordinates, which are equal to the first distance threshold, from the position coordinates of the part as position coordinates in the reference model parameters of the pendant;
determining a difference between the angle data of the part and the first angle offset threshold as the angle data in the reference model parameters;
and determining the product of the size data of the part and the first size proportion as the size data in the reference model parameters.
In an alternative embodiment, the model parameters of the target object include: position coordinates, angle data and size data of the target object; model parameters of the pendant include: the hanging part is hung on the hanging position of the target object, the position coordinate of the hanging part, angle data and size data;
the reference parameter determination module 402 is further configured to perform at least one of the following steps:
calculating the distance between the position coordinates of the target object and the position coordinates of the hanging piece, and determining whether the distance reaches a second distance threshold;
calculating the offset between the angle data of the target object and the angle data of the pendant, and determining whether the offset reaches a second angle offset threshold;
And calculating a ratio value between the size data of the target object and the size data of the pendant, and determining whether the ratio value reaches a second size ratio.
In an alternative embodiment, the apparatus further comprises: a parameter multiplexing model configured to:
recording reference model parameters of the hanging piece;
when a new target object is acquired, acquiring model parameters of the new target object;
calculating the model similarity between the newly added target object and the target object according to the model parameters of the newly added target object and the model parameters of the target object;
and if the model similarity is greater than a preset similarity threshold, determining the reference model parameter as the reference model parameter corresponding to the newly added target object.
In an optional implementation manner, a plurality of pendants are hung on the target object; the reference parameter determination module 402 is further configured to:
counting the number of pendants which do not meet the adaptation conditions;
according to the number of the pendants which do not meet the adaptation conditions, establishing a corresponding number of parallel threads;
and calling the plurality of parallel threads to respectively determine the reference model parameters of the plurality of pendants.
In an alternative embodiment, the model parameters of the target object include size data of the target object; the apparatus further comprises: a resizing module configured to:
receiving an adjustment instruction for adjusting the size data of the target object, wherein the adjustment instruction carries an adjustment proportion;
and adjusting the size data of the hanging piece based on the adjustment proportion.
The above is a schematic solution of a target display device of the present embodiment. It should be noted that, the technical solution of the target display device and the technical solution of the target display method belong to the same concept, and details of the technical solution of the target display device, which are not described in detail, can be referred to the description of the technical solution of the target display method. Furthermore, the components in the apparatus embodiments should be understood as functional blocks that must be established to implement the steps of the program flow or the steps of the method, and the functional blocks are not actually functional partitions or separate limitations. The device claims defined by such a set of functional modules should be understood as a functional module architecture for implementing the solution primarily by means of the computer program described in the specification, and not as a physical device for implementing the solution primarily by means of hardware.
Fig. 5 illustrates a block diagram of a computing device 500, provided in accordance with an embodiment of the present application. The components of the computing device 500 include, but are not limited to, a memory 510 and a processor 520. Processor 520 is coupled to memory 510 via bus 530 and database 550 is used to hold data.
Computing device 500 also includes access device 540, access device 540 enabling computing device 500 to communicate via one or more networks 560. Examples of such networks include public switched telephone networks (PSTN, public Switched Telephone Network), local area networks (LAN, local Area Network), wide area networks (WAN, wide Area Network), personal area networks (PAN, personal Area Network), or combinations of communication networks such as the internet. The access device 540 may include one or more of any type of network interface, wired or wireless (e.g., network interface card (NIC, network Interface Controller)), such as an IEEE802.11 wireless local area network (WLAN, wireless Local Area Networks) wireless interface, a worldwide interoperability for microwave access (Wi-MAX, worldwide Interoperability for Microwave Access) interface, an ethernet interface, a universal serial bus (USB, universal Serial Bus) interface, a cellular network interface, a bluetooth interface, a near field communication (NFC, near Field Communication) interface, and so forth.
In one embodiment of the application, the above-described components of computing device 500, as well as other components not shown in FIG. 5, may also be connected to each other, such as by a bus. It should be understood that the block diagram of the computing device illustrated in FIG. 5 is for exemplary purposes only and is not intended to limit the scope of the present application. Those skilled in the art may add or replace other components as desired.
Computing device 500 may be any type of stationary or mobile computing device, including a mobile computer or mobile computing device (e.g., tablet, personal digital assistant, laptop, notebook, netbook, etc.), mobile phone (e.g., smart phone), wearable computing device (e.g., smart watch, smart glasses, etc.), or other type of mobile device, or a stationary computing device such as a desktop computer or PC. Computing device 500 may also be a mobile or stationary server.
Wherein the processor 520 is configured to execute computer-executable instructions of the target presentation method.
The foregoing is a schematic illustration of a computing device of this embodiment. It should be noted that, the technical solution of the computing device and the technical solution of the target display method belong to the same concept, and details of the technical solution of the computing device, which are not described in detail, can be referred to the description of the technical solution of the target display method.
An embodiment of the present application also provides a computer-readable storage medium storing computer instructions that, when executed by a processor, are used for a target presentation method.
The above is an exemplary version of a computer-readable storage medium of the present embodiment. It should be noted that, the technical solution of the storage medium and the technical solution of the target display method described above belong to the same concept, and details of the technical solution of the storage medium which are not described in detail can be referred to the description of the technical solution of the target display method described above.
The foregoing describes certain embodiments of the present application. Other embodiments are within the scope of the following claims. In some cases, the actions or steps recited in the claims can be performed in a different order than in the embodiments and still achieve desirable results. In addition, the processes depicted in the accompanying figures do not necessarily require the particular order shown, or sequential order, to achieve desirable results. In some embodiments, multitasking and parallel processing are also possible or may be advantageous.
The computer instructions include computer program code that may be in source code form, object code form, executable file or some intermediate form, etc. The computer readable medium may include: any entity or device capable of carrying the computer program code, a recording medium, a U disk, a removable hard disk, a magnetic disk, an optical disk, a computer Memory, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), an electrical carrier signal, a telecommunications signal, a software distribution medium, and so forth. It should be noted that the computer readable medium contains content that can be appropriately scaled according to the requirements of jurisdictions in which such content is subject to legislation and patent practice, such as in certain jurisdictions in which such content is subject to legislation and patent practice, the computer readable medium does not include electrical carrier signals and telecommunication signals.
It should be noted that, for the sake of simplicity of description, the foregoing method embodiments are all expressed as a series of combinations of actions, but it should be understood by those skilled in the art that the present application is not limited by the order of actions described, as some steps may be performed in other order or simultaneously in accordance with the present application. Further, those skilled in the art will appreciate that the embodiments described in the specification are all preferred embodiments, and that the acts and modules referred to are not necessarily all required for the present application.
In the foregoing embodiments, the descriptions of the embodiments are emphasized, and for parts of one embodiment that are not described in detail, reference may be made to the related descriptions of other embodiments.
The preferred embodiments of the application disclosed above are intended only to assist in the explanation of the application. Alternative embodiments are not intended to be exhaustive or to limit the application to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the application and the practical application, to thereby enable others skilled in the art to best understand and utilize the application. The application is limited only by the claims and the full scope and equivalents thereof.