CN107656664B - Interface element display control method and device - Google Patents

Abstract

The application discloses an interface element display control method and device, wherein the method comprises the following steps: the method comprises the steps of obtaining a current display state set of an interface, wherein the display state set comprises at least one display state, further judging whether the current display state set of the interface meets the requirement of the display condition on the display state of the interface according to a preset display condition of an element to be displayed, if so, displaying the element to be displayed on the interface, otherwise, controlling to hide the element to be displayed. The display condition of the element to be displayed is preset, namely the requirement for the display state of the interface when the element to be displayed is met, and then after the current display state set of the interface is determined, whether the display condition of the element to be displayed is met is judged, whether the element to be displayed is determined according to the judgment, and the control of displaying or hiding the element to be displayed, which is convenient and fast, is realized.

Description

Interface element display control method and device

Technical Field

The present application relates to the field of interface display technologies, and in particular, to a method and an apparatus for controlling interface element display.

Background

The application communicates information to the user through the interface. The interface may have a variety of different display states, and the interface may have a combination of display states at the same time. Taking the navigation interface as an example, the display states of the interface under different road conditions can be various, and if the interface has an enlarged intersection, an unmagnified intersection, a day mode, a night mode and the like, the interface can have various display states at the same time.

The interface is generally composed of a plurality of elements, and as the display state of the interface changes, the display or hidden state of the elements also changes. For example, an icon element can be displayed only when the interface display status includes an enlarged intersection, otherwise, the icon element is hidden. With the increase of the number of elements included in the interface, how to control the display and the hiding of each element becomes a problem to be solved by those skilled in the art.

Disclosure of Invention

In view of this, the present application provides a method and an apparatus for controlling display of interface elements, so as to achieve the purpose of controlling display or hiding of each element.

In order to achieve the above object, the following solutions are proposed:

an interface element display control method includes:

acquiring a current display state set of an interface, wherein the display state set comprises at least one display state;

judging whether the current display state set of the interface meets the requirement of the display condition on the display state of the interface or not according to the preset display condition of the element to be displayed;

if so, displaying the element to be displayed on the interface, otherwise, controlling to hide the element to be displayed.

An interface element display control apparatus comprising:

the display state set acquiring unit is used for acquiring a current display state set of an interface, and the display state set comprises at least one display state;

the display condition judging unit is used for judging whether the current display state set of the interface meets the requirement of the display condition on the display state of the interface or not according to the preset display condition of the element to be displayed;

and the display control unit is used for displaying the element to be displayed on the interface when the display condition judging unit judges that the element to be displayed is the element to be displayed, and otherwise, controlling to hide the element to be displayed.

It can be seen from the foregoing technical solutions that, in the interface element display control method provided in the embodiment of the present application, a current display state set of an interface is obtained, where the display state set includes at least one display state, and further according to a preset display condition of an element to be displayed, it is determined whether the current display state set of the interface meets a requirement of the display condition on the display state of the interface, if yes, the element to be displayed is displayed on the interface, and otherwise, the element to be displayed is controlled to be hidden. The display condition of the element to be displayed is preset, namely the requirement for the display state of the interface when the element to be displayed is met, and then after the current display state set of the interface is determined, whether the display condition of the element to be displayed is met is judged, whether the element to be displayed is determined according to the judgment, and the control of displaying or hiding the element to be displayed, which is convenient and fast, is realized.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

Fig. 1 is a flowchart of an interface element display control method disclosed in an embodiment of the present application;

FIG. 2 is a flowchart of another interface element display control method disclosed in an embodiment of the present application;

fig. 3 is a flowchart of a method for determining whether a set of identifiers of a current display state of an interface includes a set of identifiers of a display state of an interface when an element to be displayed is displayed according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an interface element display control apparatus according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, fig. 1 is a flowchart of an interface element display control method disclosed in an embodiment of the present application.

As shown in fig. 1, the method includes:

s100, acquiring a current display state set of an interface;

wherein the set of display states includes at least one display state. The display states can be predefined, and the display state of the page at a certain moment can be one or more.

Taking the navigation application interface as an example, the display state may include: enlarged intersections, non-enlarged intersections, highway signs, non-highway signs, day mode, night mode, full view mode, non-full view mode, and the like. The determined current set of display states of the interface may include a plurality of display states.

Step S110, judging whether the current display state set of the interface meets the requirement of the display condition on the display state of the interface according to the preset display condition of the element to be displayed; if yes, go to step S120, otherwise go to step S130;

the display condition of the element to be displayed comprises the requirement on the display state of the interface. For example, it is specified that the elements to be displayed can only be displayed if the display state of the interface includes which specified display states.

The number of the elements to be displayed can be multiple, and each element to be displayed has a corresponding display condition. In this step, whether the current display state set of the interface meets the display condition of each element to be displayed can be sequentially judged. For the elements to be displayed satisfying the display condition, the following step S120 may be performed to perform the display. For the element to be displayed that does not satisfy the display condition, the following step S130 may be performed to hide it.

Step S120, displaying the element to be displayed on the interface;

and S130, controlling to hide the element to be displayed.

And for the hidden elements to be displayed, the elements are not displayed on the current interface.

The interface element display control method provided by the embodiment of the application obtains a current display state set of an interface, the display state set comprises at least one display state, whether the current display state set of the interface meets the requirement of the display state of the interface according to the preset display condition of an element to be displayed is further judged, if the current display state set of the interface meets the requirement of the display condition, the element to be displayed is displayed on the interface, and if not, the element to be displayed is controlled to be hidden. The display condition of the element to be displayed is preset, namely the requirement for the display state of the interface when the element to be displayed is met, and then after the current display state set of the interface is determined, whether the display condition of the element to be displayed is met is judged, whether the element to be displayed is determined according to the judgment, and the control of displaying or hiding the element to be displayed, which is convenient and fast, is realized.

Referring to fig. 2, fig. 2 is a flowchart of another interface element display control method disclosed in the embodiment of the present application.

As shown in fig. 2, the method includes:

s200, acquiring a current display state set of an interface;

wherein the set of display states includes at least one display state. The display states can be predefined, and the display state of the page at a certain moment can be one or more.

Step S210, acquiring a specified display state set of a preset element to be displayed;

specifically, a set of prescribed display states corresponding to each element to be displayed is preset, and the set of prescribed display states includes a display state of an interface when the element to be displayed is displayed.

For example, the prescribed set of display states for element B1 to be displayed includes: states a1, a2, and A3 are shown. That is, only when the display state of the interface includes a1, a2, and A3, the display condition of B1 is satisfied, and the element to be displayed B1 can be displayed.

For each element to be displayed, a corresponding set of prescribed display states can be set.

Step S220, judging whether the current display state set of the interface contains a specified display state set; if yes, go to step S230, otherwise go to step S240;

specifically, the process of determining whether the current display state set of the interface includes the specified display state set corresponding to the element to be displayed may also be regarded as determining whether the specified display state set corresponding to the element to be displayed belongs to the subset of the current display state set of the interface. That is, if each display state in the specified display state set corresponding to the element to be displayed exists in the current display state set of the interface, the element to be displayed is determined to satisfy the display condition, and the following step S230 may be performed for displaying, otherwise, the element to be displayed is determined not to satisfy the display condition, and the following step S240 may be performed for hiding.

Step S230, displaying the element to be displayed on the interface;

and step S240, controlling to hide the element to be displayed.

Specifically, for hidden elements to be displayed, the elements are not displayed on the current interface.

In this embodiment, a specific implementation manner of determining whether the current display state set of the interface meets the display condition according to the display condition of the element to be displayed is introduced, that is, a predetermined display state set corresponding to the element to be displayed is preset, where the set includes the display state of the interface when the element to be displayed is displayed, and then the current display state set of the interface is compared with the predetermined display state set to determine whether the display condition of the element to be displayed is met.

Alternatively, for the display state, it may be represented by a unique and non-repeating identification. Still illustrated in the display state of the navigation interface:

the display state may include: the system comprises an enlarged intersection, a non-enlarged intersection, a highway sign, a non-highway sign, a day mode, a night mode, a full-view mode and a non-full-view mode. The present application can preset an enlarged intersection represented by a1, a non-enlarged intersection represented by a2, a highway level user A3, and a non-highway level represented by a4 … ….

Of course, the above description merely illustrates the identification as a combination of letters and numbers, and the application is not strictly limited to the specific form of the identification.

Based on the manner of representing the display state by the unique and non-repetitive mark, the step S220 of determining whether the current display state set of the interface includes the predetermined display state set may include:

and judging whether the display state set formed by the identifiers of the current display state of the interface comprises a specified display state set formed by the identifiers of the display state of the interface when the element to be displayed is displayed.

That is, the containment relationship between two sets of tokens is determined.

Still by way of example:

the display state set formed by the identifiers of the current display states of the interface is F1 ═ a1, a2, A3, a8 };

the predetermined display state set of the identifier components of the display state of the interface when the element B1 to be displayed is F2 ═ a1, a2, A3 }.

As can be seen from the set comparison, the set F1 includes the set F2, and thus it is determined that the element to be displayed B1 satisfies the display condition, and the element to be displayed B1 is displayed on the interface.

In an embodiment of the present application, a process of determining whether the display state set formed by the identifier of the current display state of the interface includes a specified display state set formed by the identifier of the display state of the interface when the element to be displayed is described, referring to fig. 3.

In the method of this embodiment, the identifier of the display state is preset to be an integer value, which may be in the format of binary value, decimal value, hexadecimal value, etc. That is, each display state corresponds to one integer value, and different display states correspond to different integer values.

As shown in fig. 3, the method may include:

s300, performing OR operation on each identifier in the display state set to obtain a first numerical value; performing OR operation on the identifiers in the specified display state set to obtain a second numerical value;

step S310, performing AND operation on the first numerical value and the second numerical value to obtain a third numerical value;

step S320, determining whether the third value is equal to the second value; if yes, go to step S330, otherwise go to step S340;

step S330, determining that the display state set comprises the specified display state set;

step S340, determining that the display state set does not include the predetermined display state set.

To facilitate understanding of the above implementation, the following is illustrated:

in this embodiment, the description will be given by taking the binary value format as an example of the display status flag.

Assume that the total display states of the interface are 8, i.e., display states 1 to 8, respectively. The current display states of the interface comprise a display state 1, a display state 2, a display state 3 and a display state 8.

The prescribed display state set of the to-be-displayed element B1 includes: display state 1, display state 3, and display state 8.

The preset marks of each display state are as follows:

display state 1 ═ 00000001;

display state 2 — 00000010;

display state 3 ═ 00000100;

display state 4-00001000;

state 5 ═ 00010000 is shown;

display state 6 ═ 00100000;

display state 7 ═ 01000000;

state 8 is shown 10000000.

Next, respectively calculating or operation of the identifiers of the current display states (display state 1, display state 2, display state 3, and display state 8) of the interface to obtain a first numerical value:

the first value is: 00000001or00000010or 00000100or 10000000 ═ 10000111

And (3) calculating the OR operation of the identifiers of the display states (display state 1, display state 3 and display state 8) of the interface when the element B1 to be displayed is displayed, and obtaining a second numerical value:

the second value is: 00000001or 00000100or 10000000 ═ 10000101

And the first numerical value and the second numerical value are subjected to an AND operation to obtain a third numerical value:

the third value is: 10000111and10000101 ═ 10000101

That is, the third value is equal to the second value

Therefore, the display state set composed of the current display state identifier of the interface can be determined, and the display state set comprises the specified display state set composed of the display state identifiers of the interface when the element B1 to be displayed is displayed.

As can be seen from the above, it is easier and more convenient for a computer to calculate the set inclusion relationship by using the structured numerical values.

It can be seen from the above binary values that, as the number of the elements to be displayed increases, the number of bytes occupied by the binary value storage is also very large, and in order to reduce the occupation of the storage space, the display state identifier can be set to be in a hexadecimal numerical format. It will be appreciated that the byte occupied by hexadecimal value storage will be significantly reduced compared to binary value storage.

Based on this, in the step S300, the process of performing or operation on each identifier in the display state set to obtain the first numerical value may specifically include:

converting the identifier of each hexadecimal numerical format in the display state set into a binary value;

and performing OR operation on the converted binary numerical values to obtain first numerical values.

Similarly, in the step S300, the process of performing an or operation on each identifier in the set of display states to obtain the second numerical value may specifically include:

converting the identifier of each hexadecimal numerical format in the specified display state set into a binary numerical value;

and performing OR operation on the converted binary numerical values to obtain second numerical values.

The above example is still used for illustration:

the preset marks of each display state are as follows:

display state 1 ═ 0x 00000001; the conversion to binary value is: 00000001;

display state 2 ═ 0x 00000002; the conversion to binary value is: 00000010;

display state 3 ═ 0x 00000004; the conversion to binary value is: 00000100;

display state 4 ═ 0x 00000008; the conversion to binary value is: 00001000;

display state 5 ═ 0x 00000010; the conversion to binary value is: 00010000;

display state 6 ═ 0x 00000020; the conversion to binary value is: 00100000;

display state 7 ═ 0x 00000040; the conversion to binary value is: 01000000;

display state 8 ═ 0x 00000080; the conversion to binary value is: 10000000;

display state 9 ═ 0x 00000100; the conversion to binary value is: 010000000, respectively;

……

display state n ═ 0x 80000000; the conversion to binary value is: 100000000000 … 0000.

As is apparent from the above example, the number of bytes occupied by the marker expressed by hexadecimal numerical values is greatly reduced as compared to the binary numerical values when the display state increases.

The following describes the interface element display control apparatus provided in the embodiment of the present application, and the interface element display control apparatus described below and the interface element display control method described above may be referred to in correspondence with each other.

Referring to fig. 4, fig. 4 is a schematic structural diagram of an interface element display control apparatus disclosed in the embodiment of the present application.

As shown in fig. 4, the apparatus includes:

a display state set obtaining unit 41, configured to obtain a current display state set of an interface, where the display state set includes at least one display state;

the display condition judging unit 42 is configured to judge whether the current display state set of the interface meets the requirement of the display condition on the display state of the interface according to a preset display condition of an element to be displayed;

and the display control unit 43 is configured to display the element to be displayed on the interface when the display condition determination unit determines that the element to be displayed is the display target element, and otherwise, control to hide the element to be displayed.

The interface element display control device provided by the embodiment of the application acquires a current display state set of an interface, the display state set comprises at least one display state, whether the current display state set of the interface meets the requirement of the display state of the interface is further judged according to a preset display condition of an element to be displayed, if the current display state set of the interface meets the requirement of the display state of the interface, the element to be displayed is displayed on the interface, and if not, the element to be displayed is controlled to be hidden. The display condition of the element to be displayed is preset, namely the requirement for the display state of the interface when the element to be displayed is met, and then after the current display state set of the interface is determined, whether the display condition of the element to be displayed is met is judged, whether the element to be displayed is determined according to the judgment, and the control of displaying or hiding the element to be displayed, which is convenient and fast, is realized.

Optionally, the display condition determining unit may include:

the display control device comprises a specified display state set acquisition unit, a display control unit and a display control unit, wherein the specified display state set acquisition unit is used for acquiring a specified display state set of a preset element to be displayed, and the specified display state set comprises the display state of an interface when the element to be displayed is displayed;

the set containing relation judging unit is used for judging whether the current display state set of the interface contains a specified display state set or not; if yes, determining that the display condition is met, and if not, determining that the display condition is not met.

Alternatively, the display state may be represented by a unique and non-repeating identifier.

Based on this, the set inclusion relation determination unit may include:

and the identifier containing relation judging unit is used for judging whether the display state set formed by the identifiers of the current display state of the interface comprises a specified display state set formed by the identifiers of the display state of the interface when the element to be displayed is displayed.

Alternatively, the indication of the display state may be an integer value, and the integer value may be a binary value, a hexadecimal value, or the like.

Based on this, the identifier inclusion relationship determination unit may include:

the first identifier containing relation judging subunit is used for performing OR operation on each identifier in the display state set to obtain a first numerical value; performing OR operation on each identifier in the specified display state set to obtain a second numerical value;

the second identifier containing relation judging subunit is used for performing and operation on the first numerical value and the second numerical value to obtain a third numerical value;

a third identifier inclusion relation determining subunit, configured to determine whether the third value is equal to the second value; if yes, determining that the display state set comprises the specified display state set; if not, determining that the display state set does not contain the specified display state set.

As can be seen from the above, it is easier and more convenient for a computer to calculate the set inclusion relationship by using the structured numerical values.

Optionally, when the integer value is a hexadecimal value, the first identifier inclusion relation determining subunit may include:

a binary value conversion unit, configured to convert the identifier in each hexadecimal numerical format in the display state set into a binary value, and convert the identifier in each hexadecimal numerical format in the specified display state set into a binary value;

and the OR operation unit is used for carrying out OR operation on each binary number value after the identification conversion in the display state set to obtain a first numerical value and carrying out OR operation on each binary number value after the identification conversion in the specified display state set to obtain a second numerical value.

It can be understood that, with the increase of the elements to be displayed, the bytes occupied by the binary number value storage are also very large, and in order to reduce the occupation of the storage space, the one-to-one correspondence relationship between the display state and the hexadecimal number value can be preset in the application, and further the operation is performed by converting the hexadecimal number value into the binary system. It will be appreciated that the byte occupied by hexadecimal value storage will be significantly reduced compared to binary value storage.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (2)

1. An interface element display control method, comprising:

acquiring a current display state set of an interface, wherein the display state set comprises at least one display state;

judging whether the current display state set of the interface meets the requirement of the display condition on the display state of the interface or not according to the preset display condition of the element to be displayed;

if so, displaying the element to be displayed on the interface, otherwise, controlling to hide the element to be displayed;

the method for judging whether the current display state set of the interface meets the requirement of the display condition on the display state of the interface according to the preset display condition of the element to be displayed comprises the following steps:

acquiring a specified display state set of a preset element to be displayed, wherein the specified display state set comprises the display state of an interface when the element to be displayed is displayed;

judging whether the current display state set of the interface contains a specified display state set;

if yes, determining that the display condition is met, and if not, determining that the display condition is not met;

the display state is represented by a unique and non-repeating identifier; the judging whether the current display state set of the interface contains a specified display state set includes:

judging whether a display state set formed by the identifiers of the current display states of the interface contains a specified display state set formed by the identifiers of the display states of the interface when the elements to be displayed are displayed;

the mark of the display state is an integer numerical value; the judging whether the display state set formed by the identifier of the current display state of the interface contains a specified display state set formed by the identifier of the display state of the interface when the element to be displayed is displayed includes:

performing OR operation on each identifier in the display state set to obtain a first numerical value;

performing OR operation on each identifier in the specified display state set to obtain a second numerical value;

performing an and operation on the first numerical value and the second numerical value to obtain a third numerical value;

judging whether the third value is equal to the second value;

if yes, determining that the display state set comprises the specified display state set;

if not, determining that the display state set does not contain the specified display state set.

2. An interface element display control apparatus, comprising:

the display state set acquiring unit is used for acquiring a current display state set of an interface, and the display state set comprises at least one display state;

the display condition judging unit is used for judging whether the current display state set of the interface meets the requirement of the display condition on the display state of the interface or not according to the preset display condition of the element to be displayed;

the display control unit is used for displaying the element to be displayed on the interface when the display condition judging unit judges that the element to be displayed is the element to be displayed, and otherwise, controlling to hide the element to be displayed;

wherein the display condition judgment unit includes:

the display control device comprises a specified display state set acquisition unit, a display control unit and a display control unit, wherein the specified display state set acquisition unit is used for acquiring a specified display state set of a preset element to be displayed, and the specified display state set comprises the display state of an interface when the element to be displayed is displayed;

the set containing relation judging unit is used for judging whether the current display state set of the interface contains a specified display state set or not; if yes, determining that the display condition is met, and if not, determining that the display condition is not met;

the display state is represented by a unique and non-repeating identifier;

the set inclusion relation determination unit includes:

the identifier containing relation judging unit is used for judging whether a display state set formed by identifiers of the current display state of the interface contains a specified display state set formed by identifiers of the display state of the interface when the element to be displayed is displayed;

the mark of the display state is an integer numerical value;

the identifier inclusion relation determining unit includes:

the first identifier containing relation judging subunit is used for performing OR operation on each identifier in the display state set to obtain a first numerical value; performing OR operation on each identifier in the specified display state set to obtain a second numerical value;

the second identifier containing relation judging subunit is used for performing and operation on the first numerical value and the second numerical value to obtain a third numerical value;

a third identifier inclusion relation determining subunit, configured to determine whether the third value is equal to the second value; if yes, determining that the display state set comprises the specified display state set; if not, determining that the display state set does not contain the specified display state set.

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