CN109274888B - Photographing method, storage medium and mobile terminal - Google Patents

Abstract

The invention discloses a photographing method, a storage medium and a mobile terminal, wherein the method comprises the following steps: acquiring the area of each object to be photographed in a photographing interface of the mobile terminal; arranging the objects to be photographed on the screen of the mobile terminal according to the area; monitoring the screen of the mobile terminal in real time, and acquiring an object to be photographed corresponding to the coordinate of a click instruction when the screen of the mobile terminal receives the click instruction; and taking the object to be photographed corresponding to the coordinate of the clicking instruction as a focusing object, and photographing all the objects to be photographed in the photographing interface of the mobile terminal. The user selects the desired object from the virtually arranged objects to be photographed, so that the user can conveniently select the objects, and the user experience is improved.

Description

Photographing method, storage medium and mobile terminal

Technical Field

The invention relates to the technical field of mobile terminal photographing, in particular to a photographing method, a storage medium and a mobile terminal.

Background

When the intelligent mobile terminal and the tablet are used for photographing, a plurality of objects exist in the same photographing plane, and a user needs to select the object to be photographed. Since the plurality of objects are randomly distributed in the photographing plane, the difficulty of selection by the user is increased, and the photographing operation by the user is inconvenient.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

In view of the foregoing disadvantages of the prior art, an object of the present invention is to provide a photographing method, a storage medium, and a mobile terminal, which aim to solve the problem that the selection of a photographed object is inconvenient when the mobile terminal performs photographing in the prior art.

The technical scheme of the invention is as follows:

a method of taking a photograph comprising the steps of:

acquiring the area of each object to be photographed in a photographing interface of the mobile terminal;

arranging the objects to be photographed on the screen of the mobile terminal according to the area;

monitoring the screen of the mobile terminal in real time, and acquiring an object to be photographed corresponding to the coordinate of a click instruction when the screen of the mobile terminal receives the click instruction;

and taking the object to be photographed corresponding to the coordinate of the clicking instruction as a focusing object, and photographing all the objects to be photographed in the photographing interface of the mobile terminal.

The method for photographing, wherein the step of obtaining the area of each object to be photographed in the photographing interface of the mobile terminal specifically comprises:

in the longitudinal direction of a mobile terminal photographing interface, acquiring size data of an object to be photographed at intervals of preset displacement, and forming a longitudinal size data group by using a plurality of size data acquired each time;

in the transverse direction of a mobile terminal photographing interface, acquiring size data of an object to be photographed at intervals of preset displacement, and forming a transverse size data set by a plurality of size data acquired each time;

and the mobile terminal calculates the area of the corresponding object to be photographed according to the transverse size data group and the longitudinal size data group.

The photographing method, wherein the mobile terminal calculates the area of the corresponding object to be photographed according to the transverse size data set and the longitudinal size data set, and specifically includes:

sequencing a plurality of longitudinal size data acquired each time to obtain the maximum longitudinal size data acquired each time;

sequencing a plurality of pieces of transverse size data acquired each time to obtain the maximum transverse size data acquired each time;

and calculating the area of the corresponding object to be photographed according to the maximum longitudinal size data and the maximum transverse size data.

The photographing method comprises the following steps of arranging the objects to be photographed on the screen of the mobile terminal according to the area, wherein the arrangement mode comprises the following steps:

arranging the objects to be photographed in sequence from one end of a screen of the mobile terminal to the other end according to the area of the objects to be photographed; or selecting any one mode of displaying the largest area of the objects to be photographed in the middle of the screen of the mobile terminal according to the areas of the objects to be photographed, and arranging the rest objects to be photographed around the objects to be photographed in sequence according to the sizes of the areas.

The method for photographing, wherein the predetermined displacement is 0.1 um.

The photographing method is characterized in that each object to be photographed is in the same photographing plane.

A storage medium having stored therein a plurality of instructions adapted to be loaded and executed by a processor:

acquiring the area of each object to be photographed in a photographing interface of the mobile terminal;

arranging the objects to be photographed on the screen of the mobile terminal according to the area;

monitoring the screen of the mobile terminal in real time, and acquiring an object to be photographed corresponding to the coordinate of a click instruction when the screen of the mobile terminal receives the click instruction;

and taking the object to be photographed corresponding to the coordinate of the clicking instruction as a focusing object, and photographing all the objects to be photographed in the photographing interface of the mobile terminal.

The storage medium having stored therein a plurality of instructions adapted to be loaded by a processor and to continue to perform:

in the longitudinal direction of a mobile terminal photographing interface, acquiring size data of an object to be photographed at intervals of preset displacement, and forming a longitudinal size data group by using a plurality of size data acquired each time;

in the transverse direction of a mobile terminal photographing interface, acquiring size data of an object to be photographed at intervals of preset displacement, and forming a transverse size data set by a plurality of size data acquired each time;

and the mobile terminal calculates the area of the corresponding object to be photographed according to the transverse size data group and the longitudinal size data group.

The storage medium having stored therein a plurality of instructions adapted to be loaded by a processor and to continue to perform:

sequencing a plurality of longitudinal size data acquired each time to obtain the maximum longitudinal size data acquired each time;

sequencing a plurality of pieces of transverse size data acquired each time to obtain the maximum transverse size data acquired each time;

and calculating the area of the corresponding object to be photographed according to the maximum longitudinal size data and the maximum transverse size data.

A mobile terminal comprising a processor adapted to implement instructions; and a memory adapted to store a plurality of instructions adapted to be loaded by the processor and to perform the method of taking a picture of any of the preceding claims.

Has the advantages that: according to the photographing method provided by the invention, the area of the corresponding object to be photographed is calculated by acquiring the size data of the object to be photographed in the same photographing interface, and then the virtual arrangement is carried out on the object to be photographed according to the size sequence of the area, so that a user selects a desired object from the objects to be photographed which are virtually arranged, the selection of the user is facilitated, and the user experience is improved.

Drawings

FIG. 1 is a flowchart illustrating a method for taking a picture according to a preferred embodiment of the present invention.

Fig. 2 is a block diagram of a mobile terminal according to a preferred embodiment of the invention.

Detailed Description

The present invention provides a method for taking a picture, which is further described in detail below in order to make the objects, technical solutions and effects of the present invention clearer and clearer. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 1 is a flowchart illustrating a preferred embodiment of a photographing method according to the present invention, as shown in fig. 1, the photographing method includes the steps of:

s10, acquiring the area of each object to be photographed in the mobile terminal photographing interface;

s20, arranging the objects to be photographed on the screen of the mobile terminal according to the area;

s30, monitoring the screen of the mobile terminal in real time, and acquiring an object to be photographed corresponding to the coordinates of a click instruction when the screen of the mobile terminal receives the click instruction;

and S40, taking the object to be photographed corresponding to the coordinates of the click instruction as a focusing object, and photographing all the objects to be photographed in the mobile terminal photographing interface.

When the existing intelligent mobile terminal takes a picture, when a plurality of objects (objects) exist in the same picture taking interface, a user needs to select the objects, and in order to select a desired picture taking object, various adjustments need to be performed on the intelligent terminal, so that the operation burden of the user is increased, and the picture taking experience of the user is also reduced.

In order to solve the problems, the size data of each object to be photographed in the same photographing plane is obtained, the area of the corresponding object to be photographed is calculated according to the size data, the objects to be photographed are further sorted according to the calculated area size, and the objects to be photographed are selected from the objects which are arranged in sequence, so that the selection of a user is facilitated.

Specifically, after the intelligent mobile terminal enters a photographing interface, size data of an object to be photographed in the same photographing plane is acquired, for example, data of the object to be photographed in the transverse direction and the longitudinal direction are acquired through an acquisition and measurement unit arranged in the intelligent mobile terminal, the acquired data are calculated and processed to output displacement of the object to be photographed in the transverse direction and/or the longitudinal direction, a corresponding area is calculated according to the acquired displacement of the object to be photographed in the transverse direction and/or the longitudinal direction, the object to be photographed is virtually arranged according to the size of the area, and a user selects the object to be photographed from the arranged objects.

As a specific embodiment of the present invention, when acquiring the size data of the object to be photographed, the mobile terminal collects the size data of the object to be photographed once at intervals of a predetermined displacement in the longitudinal direction of the photographing interface, and a longitudinal size data group is formed by a plurality of size data collected each time. For example, when the collecting and measuring unit longitudinally collects the data of the object to be photographed, the collecting and measuring unit sends a collecting and measuring signal 1 to a central processing unit of the mobile terminal, soThe acquisition measurement signal 1 requests a central processing unit to control the photographic object acquisition measurement unit to acquire a plurality of groups of data, the central processing unit calls an acquisition control instruction 1, the acquisition control instruction 1 controls the photographic object acquisition measurement unit to acquire data for 1 time at intervals of △ S (0.1 um), and the photographic object displacement calculation unit calculates and outputs a plurality of groups of longitudinal displacements Sl according to the plurality of groups of acquired data_(n)And n is a positive integer, and the interval displacement △ S of the acquisition and measurement unit is 0.1um, so that missing detection can be effectively avoided.

Further, sets of longitudinal displacements S l are output for the calculations_(n)Comparing and sorting the displacement signals and outputting the maximum longitudinal displacement Sl_(max)Comparison ordering is a conventional ordering technique and is not required here.

Similarly, when the collecting and measuring unit transversely collects the data of the object to be photographed, the collecting and measuring unit sends a collecting and measuring signal 2 to a central processing unit of the mobile terminal, the collecting and measuring signal 2 requests the central processing unit to control the collecting and measuring unit of the object to be photographed to collect a plurality of groups of data, the central processing unit calls a collecting and controlling instruction 2, the collecting and controlling instruction 2 controls the collecting and measuring unit of the object to be photographed to collect 1-time data with interval displacement △ S being 0.1um, and the object to be photographed displacement calculating unit calculates and outputs a plurality of groups of transverse displacements S w according to the plurality of groups of collected data_(n)Wherein n is a positive integer.

Further, sets of lateral displacements S w are output for the calculations_(n)Comparing and sorting the signals and outputting the maximum transverse displacement Sw_(max)Comparison ordering is a conventional ordering technique and is not required here.

According to the above maximum lateral displacement Sw_(max)Maximum longitudinal displacement Sl_(max)Calculating the area S of the object to be photographed_(n)max。

For example, the photographing object acquisition and measurement unit of the mobile terminal sends an acquisition signal to the central processing unit of the mobile terminal to request the central processing unit to control the interval displacement of the photographing object acquisition and measurement unit to be 0.1um for acquiring 1 time of longitudinal size data, 1 time for acquiring 3 groups of data and the displacement of the photographing objectThe calculating unit calculates and outputs the longitudinal displacement Sl of the 3 groups of data₍₁₎、Sl₍₂₎、Sl₍₃₎Comparing the three longitudinal displacement data, and outputting the maximum longitudinal displacement acquired this time, for example, the maximum longitudinal displacement is Sl₍₃₎. Similarly, the maximum lateral displacement is obtained as Sw₍₂₎Then the maximum area of the object to be photographed collected this time is Sl₍₃₎*Sw₍₂₎。

And repeating the steps, carrying out acquisition for multiple times to obtain the maximum areas of a plurality of photographed objects, and arranging the objects to be photographed on the screen according to a certain sequence at the moment of photographing by the mobile terminal according to the obtained areas of the photographed objects.

Further, the arrangement in step S20 includes: arranging the objects to be photographed in sequence from one end of a screen of the mobile terminal to the other end according to the area of the objects to be photographed; or selecting any one mode of displaying the largest area of the objects to be photographed in the middle of the screen of the mobile terminal according to the areas of the objects to be photographed, and arranging the rest objects to be photographed around the objects to be photographed in sequence according to the sizes of the areas.

Specifically, when the objects to be photographed are arranged, the objects to be photographed may be sequentially arranged from one end of the screen of the mobile terminal according to the size of the area of the objects to be photographed, and the objects to be photographed may be displayed on the entire screen.

Preferably, the object to be photographed with the largest area may also be selected and displayed in the center of the screen of the mobile terminal, and the remaining objects to be photographed are uniformly arranged around the screen according to the size of the area. All the objects to be shot are displayed on the screen of the mobile terminal in a spherical shape, so that the selection of a user is facilitated.

Further, after the objects to be photographed are virtually arranged on the terminal screen, the mobile terminal screen is monitored in real time, that is, whether a user operates the screen is monitored, when the screen receives a clicking instruction of the user, coordinates of the clicking instruction on the screen are obtained, so that the objects to be photographed corresponding to the coordinates are obtained, the objects to be photographed corresponding to the coordinates of the clicking instruction are used as focusing objects, and photographing operation of all the objects to be photographed in the mobile terminal photographing interface is achieved. The coordinate of the click instruction on the screen and the focus of the object to be photographed are both obtained in the prior art, and no requirement is made here.

The storage medium stores a plurality of instructions, and the instructions are suitable for being loaded by a processor and specifically executing the photographing method.

The present invention also provides a mobile terminal, wherein, as shown in fig. 2, the mobile terminal comprises a processor 10 adapted to implement instructions; and a storage device 20 adapted to store a plurality of instructions adapted to be loaded by the processor 10 and to perform the method of taking a picture as described above.

In particular, the processor 10 may be, in some embodiments, a central processing unit, microprocessor or other data processing chip for executing program code or processing data stored in the memory device 20.

The storage device 20 may in some embodiments be an internal storage unit of the apparatus, such as a hard disk or a memory of the apparatus. The storage device 20 may also be an external memory of the apparatus in other embodiments, such as a plug-in hard disk, a removable memory Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), etc. provided on the apparatus.

Further, the storage device 20 may also include both an internal storage unit and an external storage device of the apparatus. The storage device 20 is used for storing application software installed in the apparatus and various data. The storage device 20 may also be used to temporarily store data that has been output or is to be output.

In summary, according to the photographing method provided by the invention, the area of the corresponding object to be photographed is calculated by obtaining the size data of the objects to be photographed in the same photographing interface, and then the objects to be photographed are virtually arranged according to the size sequence of the areas, so that a user selects a desired object from the virtually arranged objects to be photographed, thereby facilitating the selection of the user and improving the user experience.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. A method of taking a picture, comprising the steps of:

acquiring the area of each object to be photographed in a photographing interface of the mobile terminal;

arranging the objects to be photographed on the screen of the mobile terminal according to the area;

monitoring the screen of the mobile terminal in real time, and acquiring an object to be photographed corresponding to the coordinate of a click instruction when the screen of the mobile terminal receives the click instruction;

and taking the object to be photographed corresponding to the coordinate of the clicking instruction as a focusing object, and photographing all the objects to be photographed in the photographing interface of the mobile terminal.

2. The method for photographing according to claim 1, wherein the step of obtaining the area of each object to be photographed in the photographing interface of the mobile terminal specifically comprises:

in the longitudinal direction of a mobile terminal photographing interface, acquiring size data of an object to be photographed at intervals of preset displacement, and forming a longitudinal size data group by using a plurality of size data acquired each time;

in the transverse direction of a mobile terminal photographing interface, acquiring size data of an object to be photographed at intervals of preset displacement, and forming a transverse size data set by a plurality of size data acquired each time;

and the mobile terminal calculates the area of the corresponding object to be photographed according to the transverse size data group and the longitudinal size data group.

3. The method of claim 2, wherein the step of calculating the area of the corresponding object to be photographed by the mobile terminal according to the transverse size data set and the longitudinal size data set specifically comprises:

sequencing a plurality of longitudinal size data acquired each time to obtain the maximum longitudinal size data acquired each time;

sequencing a plurality of pieces of transverse size data acquired each time to obtain the maximum transverse size data acquired each time;

and calculating the area of the corresponding object to be photographed according to the maximum longitudinal size data and the maximum transverse size data.

4. The method for photographing according to claim 1, wherein the step arranges the objects to be photographed on the screen of the mobile terminal according to area sizes, wherein the arrangement mode comprises:

arranging the objects to be photographed in sequence from one end of a screen of the mobile terminal to the other end according to the area of the objects to be photographed; or selecting any one mode of displaying the largest area of the objects to be photographed in the middle of the screen of the mobile terminal according to the areas of the objects to be photographed, and arranging the rest objects to be photographed around the objects to be photographed in sequence according to the sizes of the areas.

5. The method of taking a picture of claim 2, wherein the predetermined displacement is 0.1 um.

6. The method for photographing according to claim 1, wherein each object to be photographed is in the same photographing plane.

7. A storage medium having stored thereon a plurality of instructions adapted to be loaded by a processor and executed to:

acquiring the area of each object to be photographed in a photographing interface of the mobile terminal;

arranging the objects to be photographed on the screen of the mobile terminal according to the area;

monitoring the screen of the mobile terminal in real time, and acquiring an object to be photographed corresponding to the coordinate of a click instruction when the screen of the mobile terminal receives the click instruction;

and taking the object to be photographed corresponding to the coordinate of the clicking instruction as a focusing object, and photographing all the objects to be photographed in the photographing interface of the mobile terminal.

8. The storage medium of claim 7, having stored thereon a plurality of instructions adapted to be loaded by a processor and to continue to perform:

acquiring size data of an object to be photographed at intervals of preset displacement in the longitudinal direction of a mobile terminal photographing interface, and forming a longitudinal size data group by using a plurality of size data acquired each time;

acquiring size data of an object to be photographed at intervals of preset displacement in the transverse direction of a mobile terminal photographing interface, and forming a transverse size data set by a plurality of size data acquired each time;

and the mobile terminal calculates the area of the corresponding object to be photographed according to the transverse size data group and the longitudinal size data group.

9. The storage medium of claim 8, having stored thereon a plurality of instructions adapted to be loaded by a processor and to continue to perform:

sequencing a plurality of longitudinal size data acquired each time to obtain the maximum longitudinal size data acquired each time;

sequencing a plurality of pieces of transverse size data acquired each time to obtain the maximum transverse size data acquired each time;

and calculating the area of the corresponding object to be photographed according to the maximum longitudinal size data and the maximum transverse size data.

10. A mobile terminal comprising a processor adapted to implement instructions; and a memory adapted to store a plurality of instructions adapted to be loaded by the processor and to perform the method of taking a picture of any of the preceding claims 1-6.

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