Detailed Description
Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention. On the contrary, the embodiments of the invention include all changes, modifications and equivalents coming within the spirit and terms of the claims appended hereto.
Fig. 1 is a schematic flowchart of a music presentation method according to an embodiment of the present invention, where the method includes:
s11: a layout of a grid to be displayed on a screen is determined and the grid is generated according to the layout.
Wherein, the screen may refer to a screen of the mobile device or an interface of a browser to generate a grid adapted to a screen size. A mobile device such as a mobile phone or a tablet computer, etc.
The layout of the grid may be determined according to preset configuration information, for example, the preset grid layout is a layout of 3 × 4, that is, there are 3 rows of grids, each row including 4 grids. Alternatively, the layout of the grid is determined according to a user selection, for example, a layout of 3 x 3 is selected by the user, etc.
It is understood that the grid may also be referred to as a nine-square grid, and of course, the nine-square grid does not limit the number of the grids to be 9, and the number of the grids is determined according to the layout of the grid.
After determining the layout of the grid, the grid can be generated according to the size of the screen and the layout of the grid, for example, after determining the layout of the grid, the number of each row and each column of the grid is determined, but due to the difference in the size of the screen of the mobile device or the interface of the browser used by the user, the size of each grid can be adjusted to adapt to the size of the screen. Wherein the size of the screen can be known using front-end technology.
S12: acquiring music to be played according to a preset period;
wherein the acquired music to be played is to be presented in grids, each grid presenting a piece of music. Accordingly, corresponding music can be acquired for each grid.
The preset period corresponding to each grid may be the same or different, and therefore, corresponding to different grids, the same or different preset periods may be used to obtain corresponding music.
For example, if a first grid is to play a first music and a second grid is to play a second music, the preset period of the first grid is a first period and the preset period of the second grid is a second period, the first music is obtained by the first period for subsequent presentation in the first grid, and the second music is obtained by the second period for subsequent presentation in the second grid.
In addition, the types of music obtained by different grids may be the same or different, for example, the first music is a rock type, the second music is a songbird, and the types of music corresponding to different grids may also be determined by the system configuration or by the user selection.
S13: and presenting the music in the grid, so that the music presented in the grid is updated according to a preset period.
And presenting the music acquired according to the preset period and the corresponding type of the different grids in the corresponding grids, for example, presenting the first music in the first grid and presenting the second music in the second grid, wherein the first music is acquired according to the preset period and the music type of the first grid, and the second music is acquired according to the preset period and the music type of the second grid.
Further, when there are at least two pieces of acquired music, the acquired music may be randomly presented in the corresponding grid. For example, the music obtained corresponding to the first grid and the second grid are first music and second music, and then the first music and the second music may be randomly presented in the first grid and the second grid, respectively, for example, the first music may be presented in the first grid and the second music may be presented in the second grid; alternatively, the first music may be presented in the second grid and the second music may be presented in the first grid.
In the embodiment, the presented music is changed according to the preset period, more music can be presented to the user, and the music is automatically updated and changed and is not changed after being triggered manually, so that the user does not need to participate manually, and the user experience can be improved.
Fig. 2 is a schematic flow chart of a music presentation method according to another embodiment of the present invention, the method including:
s21: a layout of a grid to be displayed on a screen is determined and the grid is generated according to the layout.
Wherein, the screen may refer to a screen of the mobile device or an interface of a browser to generate a grid adapted to a screen size. A mobile device such as a mobile phone or a tablet computer, etc.
The layout of the grid may be determined according to preset configuration information, for example, the preset grid layout is a layout of 3 × 4, that is, there are 3 rows of grids, each row including 4 grids. Alternatively, the layout of the grid is determined according to a user selection, for example, a layout of 3 x 3 is selected by the user, etc.
It is understood that the grid may also be referred to as a nine-square grid, and of course, the nine-square grid does not limit the number of the grids to be 9, and the number of the grids is determined according to the layout of the grid.
After determining the layout of the grid, the grid can be generated according to the size of the screen and the layout of the grid, for example, after determining the layout of the grid, the number of each row and each column of the grid is determined, but due to the difference in the size of the screen of the mobile device or the interface of the browser used by the user, the size of each grid can be adjusted to adapt to the size of the screen. Wherein the size of the screen can be known using front-end technology.
Taking the example of the user selecting the layout of the grids, initially, the system may display a default grid layout on the screen, as shown in fig. 3, initially displaying a layout of 9 grids in total of 3 × 3, and then the user may click on the "nine-grid-number-of-squares-selection" item to select a corresponding grid layout, for example, the user selects a layout of 3 × 4, may display 12 grids, and the user selects a layout of 4 × 4, and may display 16 grids.
S22: the type of music to be played is determined.
Wherein the type of music to be played may be pre-configured or selected by the user.
Taking the user's selection of a music genre as an example, referring to fig. 3, the user can select the genre of music to be played through the "music genre selection" item. For example, the music genre of 80 post, japanese korean and emotion is selected so that the music of 80 post, japanese korean and emotion is subsequently acquired and presented. It is to be understood that the user may select one or at least two of the types of music provided. Further, it is also possible to set different grids with different music genres, wherein, for example, after setting the music genre of the first row to 80, the music of the second row to japanese korean, etc. Alternatively, after the music genre set in the first grid in the first row is 80, the music genre set in the second grid in the first row is japanese korean, etc.
Further, the music genre may refer to an objective genre, for example, 80 th, japanese korean, etc.; or, the music type may also refer to a type corresponding to the subjective feeling of the user, for example, a sweet and inspirational type, for example, the user selects the sweet type, and the server may finally select which songs to play according to the user historical behavior data, for example, when the user has searched for a sweet type song, push the songs that the user has selected to the user, or recommend songs similar to the user historical behavior data, and the like.
S21 and S22 have no timing limitation relationship.
S23: the back-end music data providing engine transmits the music data to the music data pool.
Wherein, the music data pool may be located at the back end, and the music data providing engine may provide a preset number of different types of music to the music data pool according to a set period, for example, provide a type a music D1 to the music data pool every T time, provide B type music D2 to the music data pool, and so on. By putting different types of music into the music data pool, the front end can acquire music from the music data pool to improve the acquisition speed.
S23 has no timing constraint relationship with S21-S22.
S24: and acquiring music to be played from the music data pool according to the preset period and the determined music type.
The front end, for example, the mobile device, may obtain music from a music data pool in the back end.
The preset period may be the same period for all grids, for example, every 10 seconds, music of a certain music type is acquired from the music data pool. Or,
the preset period may also be different periods of different grids, for example, music of a music genre corresponding to the grid of the first row is obtained from the music data pool every 10 seconds, and music of a music genre corresponding to the grid of the second row is obtained from the music data pool every 20 seconds.
Further, the preset period may also be selected by the user, for example, a "period selection" item is provided on the basis of fig. 3, so as to obtain the music of the corresponding grid according to the period selected by the user.
Further, the system may also obtain the statistical information to change a preset period according to the statistical information, for example, analyze a user habit, and automatically change a period of obtaining music according to the user habit, that is, the preset period may be changed, for example, the system may learn the user habit according to user browsing information recorded by the cookie or a condition that the user clicks a web page selected in the log, and the like, for example, learn that the user prefers rock music, and then the system may automatically reduce the obtaining period of the rock music to obtain more rock music.
S25: the acquired music is presented in a grid.
For example, if there are 9 grids, the user selects 80 pieces of music and the types of japanese and korean music, and the preset period of each grid is 10 seconds, 9 pieces of music of 80 pieces and/or types of japanese and korean music may be acquired from the music data pool every 10 seconds, and then the 9 pieces of music may be randomly presented in the grids. Or, when the preset period of the first row of the grids is 10 seconds, the preset music genre of the first row of the grids is 80, and the preset period of the second row of the grids is 20 seconds, the preset music genre of the second row of the grids is japanese korean, and each row includes 3 grids, then 3 80 pieces of music from the music data pool may be randomly presented in the grids of the first row every 10 seconds, and 3 pieces of japanese korean music from the music data pool may be randomly presented in the grids of the second row every 20 seconds.
Further, the acquired music may include lyrics of the music, and the corresponding lyrics may be presented when the music is played. For example, referring to FIG. 3, after clicking on music in the first row, the second grid, the music is played and the lyrics of the music are displayed in the grid.
S26: when either grid is triggered, the triggered grid is flipped so that the triggered grid flips from one side to the other.
Wherein each grid may be provided in the form of a card, the card having a flip feature. Different information is recorded on the two sides of the card, for example, referring to fig. 4, when a grid of the card in fig. 3 is clicked, the detailed information of the music shown in fig. 4 can be displayed.
Further, the other side of the card shown in fig. 4 may include a return button 41 and a play button 42, and when the return button 41 is clicked, the card returns to the side before flipping, and when the play button 42 is clicked, the corresponding music is played.
In the embodiment, the presented music is changed according to the preset period, more music can be presented to the user, and the music is automatically updated and changed and is not changed after being triggered manually, so that the user does not need to participate manually, and the user experience can be improved. The embodiment presents music in a grid mode, can provide a wider music data presentation outlet, and intuitively provide more needed music for a user, for example, the music presentation mode provided by the embodiment can be 20-40 times of the music provided by the conventional mode, and can provide more music for the user and provide more choices for the user. The card type layout is adopted in the embodiment, and the user experience can be improved.
Fig. 5 is a schematic structural diagram of a music presentation apparatus according to another embodiment of the present invention, and the apparatus 50 includes a determining module 51, an obtaining module 52, and a presenting module 53.
The determination module 51 is used to determine the layout of the grid to be displayed on the screen and to generate the grid according to the layout.
In an embodiment, the determining module 51 is specifically configured to determine the layout of the grid according to preset configuration information or according to a selection of a user; and generating the grid according to the layout of the grid and the size of the screen.
Wherein, the screen may refer to a screen of the mobile device or an interface of a browser to generate a grid adapted to a screen size. A mobile device such as a mobile phone or a tablet computer, etc.
The layout of the grid may be determined according to preset configuration information, for example, the preset grid layout is a layout of 3 × 4, that is, there are 3 rows of grids, each row including 4 grids. Alternatively, the layout of the grid is determined according to a user selection, for example, a layout of 3 x 3 is selected by the user, etc.
It is understood that the grid may also be referred to as a nine-square grid, and of course, the nine-square grid does not limit the number of the grids to be 9, and the number of the grids is determined according to the layout of the grid.
After determining the layout of the grid, the grid can be generated according to the size of the screen and the layout of the grid, for example, after determining the layout of the grid, the number of each row and each column of the grid is determined, but due to the difference in the size of the screen of the mobile device or the interface of the browser used by the user, the size of each grid can be adjusted to adapt to the size of the screen. Wherein the size of the screen can be known using front-end technology.
The obtaining module 52 is configured to obtain music to be played according to a preset period.
In an embodiment, each grid includes a piece of music, and the obtaining module 52 is specifically configured to obtain the music corresponding to each grid according to a preset period of each grid, where the preset periods of different grids are the same or different.
Wherein the acquired music to be played is to be presented in grids, each grid presenting a piece of music. Accordingly, corresponding music can be acquired for each grid.
The preset period corresponding to each grid may be the same or different, and therefore, corresponding to different grids, the same or different preset periods may be used to obtain corresponding music.
For example, if a first grid is to play a first music and a second grid is to play a second music, the preset period of the first grid is a first period and the preset period of the second grid is a second period, the first music is obtained by the first period for subsequent presentation in the first grid, and the second music is obtained by the second period for subsequent presentation in the second grid.
In another embodiment, the obtaining module 52 is further specifically configured to determine a music type corresponding to the grid, and obtain the music corresponding to the grid according to the music type corresponding to the grid.
In another embodiment, the obtaining module 52 is further specifically configured to determine the music types corresponding to the grids according to preset configuration information or selection information of a user, where the music types corresponding to different grids are the same or different.
In addition, the types of music obtained by different grids may be the same or different, for example, the first music is a rock type, the second music is a songbird, and the types of music corresponding to different grids may also be determined by the system configuration or by the user selection.
The presenting module 53 is configured to present the music in the grid, so that the music presented in the grid is updated according to a preset period.
In one embodiment, when a plurality of music of the same type are obtained, the presenting module 53 is specifically configured to;
and randomly presenting the plurality of pieces of music in grids of corresponding types.
And presenting the music acquired according to the preset period and the corresponding type of the different grids in the corresponding grids, for example, presenting the first music in the first grid and presenting the second music in the second grid, wherein the first music is acquired according to the preset period and the music type of the first grid, and the second music is acquired according to the preset period and the music type of the second grid.
Further, when there are at least two pieces of acquired music, the acquired music may be randomly presented in the corresponding grid. For example, the music obtained corresponding to the first grid and the second grid are first music and second music, and then the first music and the second music may be randomly presented in the first grid and the second grid, respectively, for example, the first music may be presented in the first grid and the second music may be presented in the second grid; alternatively, the first music may be presented in the second grid and the second music may be presented in the first grid.
In another embodiment, the number of the grids is at least one, each grid includes two sides, each side is used for describing different information of the music to be played, and the apparatus 50 further includes a flipping module 54, as shown in fig. 6.
The flipping module 54 is used to flip the triggered grid when any one of the grids is triggered, so that the triggered grid flips from one side to the other.
Wherein each grid may be provided in the form of a card, the card having a flip feature. Different information is recorded on the two sides of the card, for example, referring to fig. 4, when a grid of the card in fig. 3 is clicked, the detailed information of the music shown in fig. 4 can be displayed.
Further, the other side of the card shown in fig. 4 may include a return button 41 and a play button 42, and when the return button 41 is clicked, the card returns to the side before flipping, and when the play button 42 is clicked, the corresponding music is played.
Further, referring to fig. 6, the apparatus 50 may further include a modification module 55, where the modification module 55 is configured to modify the preset period according to a user selection or statistical information.
The preset period may also be selected by the user, for example, a "period selection" item is provided on the basis of fig. 3, so as to obtain music of the corresponding grid according to the period selected by the user. Or,
the system may also obtain the statistical information, so as to change a preset period according to the statistical information, for example, analyze a user habit, and automatically change a period for obtaining music according to the user habit, that is, the preset period may be changed, for example, the system may learn the user habit according to user browsing information recorded by a cookie or a situation of a web page selected in a user click log, and the like, for example, learn that the user prefers rock music, and then the system may automatically reduce the obtaining period of the rock music, so as to obtain more rock music.
In the embodiment, the presented music is changed according to the preset period, more music can be presented to the user, and the music is automatically updated and changed and is not changed after being triggered manually, so that the user does not need to participate manually, and the user experience can be improved. The embodiment presents music in a grid mode, can provide a wider music data presentation outlet, and intuitively provide more needed music for a user, for example, the music presentation mode provided by the embodiment can be 20-40 times of the music provided by the conventional mode, and can provide more music for the user and provide more choices for the user. The card type layout is adopted in the embodiment, and the user experience can be improved.
The embodiment of the invention also provides mobile equipment which comprises a shell, a processor, a memory, a circuit board and a power circuit, wherein the circuit board is arranged in the space enclosed by the shell, and the processor and the memory are arranged on the circuit board; the power supply circuit is used for supplying power to each circuit or device of the mobile equipment; the memory is used for storing executable program codes; the processor runs a program corresponding to the executable program code by reading the executable program code stored in the memory for performing the steps of:
s11': a layout of a grid to be displayed on a screen is determined and the grid is generated according to the layout.
Wherein, the screen may refer to a screen of the mobile device or an interface of a browser to generate a grid adapted to a screen size. A mobile device such as a mobile phone or a tablet computer, etc.
The layout of the grid may be determined according to preset configuration information, for example, the preset grid layout is a layout of 3 × 4, that is, there are 3 rows of grids, each row including 4 grids. Alternatively, the layout of the grid is determined according to a user selection, for example, a layout of 3 x 3 is selected by the user, etc.
It is understood that the grid may also be referred to as a nine-square grid, and of course, the nine-square grid does not limit the number of the grids to be 9, and the number of the grids is determined according to the layout of the grid.
After determining the layout of the grid, the grid can be generated according to the size of the screen and the layout of the grid, for example, after determining the layout of the grid, the number of each row and each column of the grid is determined, but due to the difference in the size of the screen of the mobile device or the interface of the browser used by the user, the size of each grid can be adjusted to adapt to the size of the screen. Wherein the size of the screen can be known using front-end technology.
S12': acquiring music to be played according to a preset period;
wherein the acquired music to be played is to be presented in grids, each grid presenting a piece of music. Accordingly, corresponding music can be acquired for each grid.
The preset period corresponding to each grid may be the same or different, and therefore, corresponding to different grids, the same or different preset periods may be used to obtain corresponding music.
For example, if a first grid is to play a first music and a second grid is to play a second music, the preset period of the first grid is a first period and the preset period of the second grid is a second period, the first music is obtained by the first period for subsequent presentation in the first grid, and the second music is obtained by the second period for subsequent presentation in the second grid.
In addition, the types of music obtained by different grids may be the same or different, for example, the first music is a rock type, the second music is a songbird, and the types of music corresponding to different grids may also be determined by the system configuration or by the user selection.
S13': and presenting the music in the grid, so that the music presented in the grid is updated according to a preset period.
And presenting the music acquired according to the preset period and the corresponding type of the different grids in the corresponding grids, for example, presenting the first music in the first grid and presenting the second music in the second grid, wherein the first music is acquired according to the preset period and the music type of the first grid, and the second music is acquired according to the preset period and the music type of the second grid.
Further, when there are at least two pieces of acquired music, the acquired music may be randomly presented in the corresponding grid. For example, the music obtained corresponding to the first grid and the second grid are first music and second music, and then the first music and the second music may be randomly presented in the first grid and the second grid, respectively, for example, the first music may be presented in the first grid and the second music may be presented in the second grid; alternatively, the first music may be presented in the second grid and the second music may be presented in the first grid.
In the embodiment, the presented music is changed according to the preset period, more music can be presented to the user, and the music is automatically updated and changed and is not changed after being triggered manually, so that the user does not need to participate manually, and the user experience can be improved.
In another embodiment, the processor runs a program corresponding to the executable program code by reading the executable program code stored in the memory for performing the steps of:
s21': a layout of a grid to be displayed on a screen is determined and the grid is generated according to the layout.
Wherein, the screen may refer to a screen of the mobile device or an interface of a browser to generate a grid adapted to a screen size. A mobile device such as a mobile phone or a tablet computer, etc.
The layout of the grid may be determined according to preset configuration information, for example, the preset grid layout is a layout of 3 × 4, that is, there are 3 rows of grids, each row including 4 grids. Alternatively, the layout of the grid is determined according to a user selection, for example, a layout of 3 x 3 is selected by the user, etc.
It is understood that the grid may also be referred to as a nine-square grid, and of course, the nine-square grid does not limit the number of the grids to be 9, and the number of the grids is determined according to the layout of the grid.
After determining the layout of the grid, the grid can be generated according to the size of the screen and the layout of the grid, for example, after determining the layout of the grid, the number of each row and each column of the grid is determined, but due to the difference in the size of the screen of the mobile device or the interface of the browser used by the user, the size of each grid can be adjusted to adapt to the size of the screen. Wherein the size of the screen can be known using front-end technology.
Taking the example of the user selecting the layout of the grids, initially, the system may display a default grid layout on the screen, as shown in fig. 3, initially displaying a layout of 9 grids in total of 3 × 3, and then the user may click on the "nine-grid-number-of-squares-selection" item to select a corresponding grid layout, for example, the user selects a layout of 3 × 4, may display 12 grids, and the user selects a layout of 4 × 4, and may display 16 grids.
S22': the type of music to be played is determined.
Wherein the type of music to be played may be pre-configured or selected by the user.
Taking the user's selection of a music genre as an example, referring to fig. 3, the user can select the genre of music to be played through the "music genre selection" item. For example, the music genre of 80 post, japanese korean and emotion is selected so that the music of 80 post, japanese korean and emotion is subsequently acquired and presented. It is to be understood that the user may select one or at least two of the types of music provided. Further, it is also possible to set different grids with different music genres, wherein, for example, after setting the music genre of the first row to 80, the music of the second row to japanese korean, etc. Alternatively, after the music genre set in the first grid in the first row is 80, the music genre set in the second grid in the first row is japanese korean, etc.
S21 'and S22' have no timing limitation relationship.
S23': the back-end music data providing engine transmits the music data to the music data pool.
Wherein, the music data pool may be located at the back end, and the music data providing engine may provide a preset number of different types of music to the music data pool according to a set period, for example, provide a type a music D1 to the music data pool every T time, provide B type music D2 to the music data pool, and so on. By putting different types of music into the music data pool, the front end can acquire music from the music data pool to improve the acquisition speed.
S23 ' has no timing limitation relation with S21 ' -S22 '.
S24': and acquiring music to be played from the music data pool according to the preset period and the determined music type.
The front end, for example, the mobile device, may obtain music from a music data pool in the back end.
The preset period may be the same period for all grids, for example, every 10 seconds, music of a certain music type is acquired from the music data pool. Or,
the preset period may also be different periods of different grids, for example, music of a music genre corresponding to the grid of the first row is obtained from the music data pool every 10 seconds, and music of a music genre corresponding to the grid of the second row is obtained from the music data pool every 20 seconds.
Further, the preset period may also be selected by the user, for example, a "period selection" item is provided on the basis of fig. 3, so as to obtain the music of the corresponding grid according to the period selected by the user.
Further, the system may also obtain the statistical information to change a preset period according to the statistical information, for example, analyze a user habit, and automatically change a period of obtaining music according to the user habit, that is, the preset period may be changed, for example, the system may learn the user habit according to user browsing information recorded by the cookie or a condition that the user clicks a web page selected in the log, and the like, for example, learn that the user prefers rock music, and then the system may automatically reduce the obtaining period of the rock music to obtain more rock music.
S25': the acquired music is presented in a grid.
For example, if there are 9 grids, the user selects 80 pieces of music and the types of japanese and korean music, and the preset period of each grid is 10 seconds, 9 pieces of music of 80 pieces and/or types of japanese and korean music may be acquired from the music data pool every 10 seconds, and then the 9 pieces of music may be randomly presented in the grids. Or, when the preset period of the first row of the grids is 10 seconds, the preset music genre of the first row of the grids is 80, and the preset period of the second row of the grids is 20 seconds, the preset music genre of the second row of the grids is japanese korean, and each row includes 3 grids, then 3 80 pieces of music from the music data pool may be randomly presented in the grids of the first row every 10 seconds, and 3 pieces of japanese korean music from the music data pool may be randomly presented in the grids of the second row every 20 seconds.
Further, the acquired music may include lyrics of the music, and the corresponding lyrics may be presented when the music is played. For example, referring to FIG. 3, after clicking on music in the first row, the second grid, the music is played and the lyrics of the music are displayed in the grid.
S26': when either grid is triggered, the triggered grid is flipped so that the triggered grid flips from one side to the other.
Wherein each grid may be provided in the form of a card, the card having a flip feature. Different information is recorded on the two sides of the card, for example, referring to fig. 4, when a grid of the card in fig. 3 is clicked, the detailed information of the music shown in fig. 4 can be displayed.
Further, the other side of the card shown in fig. 4 may include a return button 41 and a play button 42, and when the return button 41 is clicked, the card returns to the side before flipping, and when the play button 42 is clicked, the corresponding music is played.
In the embodiment, the presented music is changed according to the preset period, more music can be presented to the user, and the music is automatically updated and changed and is not changed after being triggered manually, so that the user does not need to participate manually, and the user experience can be improved. The embodiment presents music in a grid mode, can provide a wider music data presentation outlet, and intuitively provide more needed music for a user, for example, the music presentation mode provided by the embodiment can be 20-40 times of the music provided by the conventional mode, and can provide more music for the user and provide more choices for the user. The card type layout is adopted in the embodiment, and the user experience can be improved.
It should be noted that the terms "first," "second," and the like in the description of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In addition, in the description of the present invention, "a plurality" means two or more unless otherwise specified.
Any process or method descriptions in flow charts or otherwise described herein may be understood as representing modules, segments, or portions of code which include one or more executable instructions for implementing specific logical functions or steps of the process, and alternate implementations are included within the scope of the preferred embodiment of the present invention in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved, as would be understood by those reasonably skilled in the art of the present invention.
It should be understood that portions of the present invention may be implemented in hardware, software, firmware, or a combination thereof. In the above embodiments, the various steps or methods may be implemented in software or firmware stored in memory and executed by a suitable instruction execution system. For example, if implemented in hardware, as in another embodiment, any one or combination of the following techniques, which are known in the art, may be used: a discrete logic circuit having a logic gate circuit for implementing a logic function on a data signal, an application specific integrated circuit having an appropriate combinational logic gate circuit, a Programmable Gate Array (PGA), a Field Programmable Gate Array (FPGA), or the like.
It will be understood by those skilled in the art that all or part of the steps carried by the method for implementing the above embodiments may be implemented by hardware related to instructions of a program, which may be stored in a computer readable storage medium, and when the program is executed, the program includes one or a combination of the steps of the method embodiments.
In addition, functional units in the embodiments of the present invention may be integrated into one processing module, or each unit may exist alone physically, or two or more units are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode. The integrated module, if implemented in the form of a software functional module and sold or used as a stand-alone product, may also be stored in a computer readable storage medium.
The storage medium mentioned above may be a read-only memory, a magnetic or optical disk, etc.
In the description herein, references to the description of the term "one embodiment," "some embodiments," "an example," "a specific example," or "some examples," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.
Although embodiments of the present invention have been shown and described above, it is understood that the above embodiments are exemplary and should not be construed as limiting the present invention, and that variations, modifications, substitutions and alterations can be made to the above embodiments by those of ordinary skill in the art within the scope of the present invention.