CN107608736B - Method for dynamically presenting object frame, storage medium and intelligent terminal - Google Patents

Abstract

The invention discloses a method for dynamically presenting an object frame, a storage medium and an intelligent terminal, wherein the method comprises the following steps: the method comprises the steps that a dynamic simulation interface is arranged on an intelligent terminal in advance, when light penetrates through an object and reaches the dynamic simulation interface, the light on the dynamic simulation interface is subjected to partition processing to obtain the light of a wire frame area of an object frame, and the object frame is dynamically presented according to the light of the wire frame area. The method and the device realize the independent acquisition of the frame shape of the object, namely, the frame of the object can be presented on the dynamic simulation interface of the intelligent terminal, so that the enthusiasm of man-machine interaction is promoted, and great convenience is brought to users.

Description

Method for dynamically presenting object frame, storage medium and intelligent terminal

Technical Field

The invention relates to the field of object frame display, in particular to a method for dynamically presenting an object frame, a storage medium and an intelligent terminal.

Background

With the rapid development of science and technology, intelligent terminal products such as mobile phones and the like have become indispensable tools in people's lives. The existing intelligent terminal can acquire the overall picture shape of an object in a photographing mode, but cannot acquire the frame shape of the object independently, namely, the object frame cannot be dynamically presented on a display screen of the intelligent terminal, so that great inconvenience is brought to a user.

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 method, a storage medium, and an intelligent terminal for dynamically presenting an object frame, which are used to solve the problem that the existing intelligent terminal cannot separately obtain the shape of the object frame, which is inconvenient for a user.

The technical scheme of the invention is as follows:

a method of dynamically rendering a frame of an object, comprising the steps of:

a dynamic simulation interface is arranged on the intelligent terminal in advance;

and when the light rays reach the dynamic simulation interface through the object, the light rays on the dynamic simulation interface are subjected to partition processing to obtain the light rays of the wire frame area of the object frame, and the object frame is dynamically presented according to the light rays of the wire frame area.

In the method for dynamically presenting an object frame, when light passes through an object and reaches the dynamic simulation interface, the step of performing partition processing on the light on the dynamic simulation interface to obtain a wire-frame area light of the object frame, and dynamically presenting the object frame according to the wire-frame area light includes:

when the light reaches the dynamic simulation interface through an object, the light on the dynamic simulation interface is divided into dark light area light, wire frame area light and bright light area light according to the brightness of the light.

The method for dynamically presenting an object frame, wherein, in the step, when the light passes through an object and reaches the dynamic simulation interface, the light on the dynamic simulation interface is divided into dark area light, wire frame area light and bright area light according to the brightness of the light, and the method specifically comprises the following steps:

a light dynamic sensor is preset on the intelligent terminal;

the light dynamic sensor senses the brightness of the light in the dark light area and outputs corresponding dark light area electric signal data D11, D12, D13, … and D1 n;

the light dynamic sensor senses the brightness of the light in the wire frame area and outputs corresponding wire frame area electric signal data D21, D22, D23, … and D2 n;

the light dynamic sensor senses the brightness of the light in the bright light region and outputs corresponding bright light region electric signal data D31, D32, D33, … and D3n, wherein D11< D21< D31, D12< D22< D32, D13< D23< D33, …, D1n < D2n < D3 n.

The method for dynamically presenting the object frame further comprises the following steps:

arranging the dark-light region electrical signal data, the wire-frame region electrical signal data, and the bright-light region electrical signal data in combination as [ D11D 21D 31], [ D12D 22D 32], [ D13D 23D 33], …, [ D1n D2n D3n ];

and storing the arranged electric signal data into a dynamic memory of the intelligent terminal.

The method for dynamically presenting the object frame further comprises the following steps:

when an instruction for presenting the object frame is received, calling the arranged electric signal data in the dynamic memory, and outputting corresponding wire frame region electric signal data combinations D21, D22, D23, … and D2 n;

and D21, D22, D23, … and D2n are combined according to the electric signal data of the wire frame region, and the object frame of the object on the dynamic simulation interface of the intelligent terminal is mapped.

The method for dynamically presenting the object frame comprises the following steps that the intelligent terminal is a smart phone, a tablet personal computer or a smart television.

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

a dynamic simulation interface is arranged on the intelligent terminal in advance;

and when the light rays reach the dynamic simulation interface through the object, the light rays on the dynamic simulation interface are subjected to partition processing to obtain the light rays of the wire frame area of the object frame, and the object frame is dynamically presented according to the light rays of the wire frame area.

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

when the light reaches the dynamic simulation interface through an object, dividing the light on the dynamic simulation interface into dark light area light, wire frame area light and bright light area light according to the brightness of the light;

a light dynamic sensor is preset on the intelligent terminal;

the light dynamic sensor senses the brightness of the light in the dark light area and outputs corresponding dark light area electric signal data D11, D12, D13, … and D1 n;

the light dynamic sensor senses the brightness of the light in the wire frame area and outputs corresponding wire frame area electric signal data D21, D22, D23, … and D2 n;

the light dynamic sensor senses the brightness of the light in the bright light region and outputs corresponding bright light region electric signal data D31, D32, D33, … and D3n, wherein D11< D21< D31, D12< D22< D32, D13< D23< D33, …, D1n < D2n < D3 n.

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

arranging the dark-light region electrical signal data, the wire-frame region electrical signal data, and the bright-light region electrical signal data in combination as [ D11D 21D 31], [ D12D 22D 32], [ D13D 23D 33], …, [ D1n D2n D3n ];

storing the arranged electric signal data into a dynamic memory of the intelligent terminal;

when an instruction for presenting the object frame is received, calling the arranged electric signal data in the dynamic memory, and outputting corresponding wire frame region electric signal data combinations D21, D22, D23, … and D2 n;

and D21, D22, D23, … and D2n are combined according to the electric signal data of the wire frame region, and the object frame of the object on the dynamic simulation interface of the intelligent terminal is mapped.

An intelligent terminal, comprising a processor, adapted to implement instructions; and a storage device adapted to store a plurality of instructions adapted to be loaded by a processor and to perform the method of dynamically rendering an object frame as described in any of the above.

Has the advantages that: the invention provides a method for dynamically presenting an object frame, which is characterized in that a dynamic simulation interface is arranged on an intelligent terminal in advance, when light rays penetrate through an object and reach the dynamic simulation interface, the light rays on the dynamic simulation interface are subjected to partition processing to obtain the light rays of a wire frame area of the object frame, and the object frame is dynamically presented according to the light rays of the wire frame area. The method and the device realize the independent acquisition of the frame shape of the object, namely, the frame of the object can be presented on the dynamic simulation interface of the intelligent terminal, so that the enthusiasm of man-machine interaction is promoted, and great convenience is brought to users.

Drawings

FIG. 1 is a flowchart illustrating a method for dynamically representing an object frame according to a preferred embodiment of the present invention.

Fig. 2 is a block diagram of a preferred embodiment of an intelligent terminal according to the present invention.

Detailed Description

The invention provides a method for dynamically presenting an object frame, a storage medium and an intelligent terminal, and the invention is further described in detail below in order to make the purpose, technical scheme and effect of the 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 method for dynamically representing an object frame according to a preferred embodiment of the present invention, as shown in the figure, the method includes the following steps:

s10, setting a dynamic simulation interface on the intelligent terminal in advance;

and S20, when the light rays penetrate through the object and reach the dynamic simulation interface, the light rays on the dynamic simulation interface are subjected to partition processing to obtain the light rays of the wire frame area of the object frame, and the object frame is dynamically presented according to the light rays of the wire frame area.

Particularly, the existing intelligent terminal can only acquire the whole picture shape of an object by photographing and cannot acquire the frame shape of the object independently, that is, the intelligent terminal cannot present the frame shape of the object independently, which brings inconvenience to users and reduces the enthusiasm of human-computer interaction.

In order to solve the above problems, the present invention provides a method for dynamically presenting an object frame, which includes detecting an incident state of a light ray passing through an object, performing a partition processing on the light ray incident on a dynamic simulation interface to obtain a wire-frame region light ray of the object frame, and dynamically presenting the object frame according to the wire-frame region light ray. The method and the device realize the independent acquisition of the frame shape of the object, namely, the frame of the object can be presented on the dynamic simulation interface of the intelligent terminal, so that the enthusiasm of man-machine interaction is promoted, and great convenience is brought to users.

Further, in step S20, when the light ray reaches the dynamic simulation interface through the object, the light ray on the dynamic simulation interface is divided into a dark area light ray, a wire frame area light ray and a bright area light ray according to the brightness of the light ray. Specifically, the positions of the dim-area light, the wire-frame-area light, and the bright-area light vary due to the difference in size, shape, and angle of the light-intake object.

Furthermore, a dynamic light sensor is preset on the intelligent terminal, and senses the brightness of the light in the dim light area and outputs corresponding dim light area electric signal data D11, D12, D13, … and D1 n; the light dynamic sensor senses the brightness of the light in the wire frame area and outputs corresponding wire frame area electric signal data D21, D22, D23, … and D2 n; the light dynamic sensor senses the brightness of the light in the bright light region and outputs corresponding bright light region electric signal data D31, D32, D33, … and D3n, wherein D11< D21< D31, D12< D22< D32, D13< D23< D33, …, D1n < D2n < D3 n.

Preferably, the intelligent terminal is further provided with a dynamic memory, the invention arranges the dim light region electrical signal data, the wire frame region electrical signal data and the bright light region electrical signal data in combination as [ D11D 21D 31], [ D12D 22D 32], [ D13D 23D 33], …, [ D1n D2n D3n ], and then stores the arranged electrical signal data in the dynamic memory of the intelligent terminal.

Furthermore, in the invention, when the intelligent terminal receives an instruction of presenting the object frame, the electric signal data arranged in the dynamic memory is called, and corresponding wire frame area electric signal data combinations D21, D22, D23, … and D2n are output;

and D21, D22, D23, … and D2n are combined according to the electric signal data of the wire frame region, and the object frame of the object on the dynamic simulation interface of the intelligent terminal is mapped.

Illustratively, when the intelligent terminal receives an instruction for presenting the object frame, the central processing unit calls a corresponding electrical signal data reading instructor, specifically:

when the electric signal data reading commander 1 is called, reading an electric signal data combination [ D11D 21D 31] from a dynamic memory according to the reading command 1, further judging the sizes of D11, D21 and D31 in the electric signal data combination, and selecting and outputting the second-largest electric signal data D21 in the three data;

when the electric signal data reading commander 2 is called, reading an electric signal data combination [ [ D12D 22D 32] from a dynamic memory according to the reading command 2, further judging the sizes of D12, D22 and D32 in the electric signal data combination, and selecting and outputting the second-largest electric signal data D22 in the three data;

when the electric signal data reading commander 3 is called, reading an electric signal data combination [ [ D13D 23D 33] from a dynamic memory according to the reading command 3, further judging the sizes of D13, D23 and D33 in the electric signal data combination, and selecting and outputting the second-largest electric signal data D23 in the three data;

when an electric signal data reading commander n is called, reading an electric signal data combination [ [ D1n D2n D3n ] from a dynamic memory according to the reading command n, further judging the sizes of D1n, D2n and D3n in the electric signal data combination, and selecting and outputting the second-largest electric signal data D2n in the three data;

and arranging the electric signal data D21, D22, D23, … and D2n into a wire frame region electric signal data combination, and mapping the object on an object frame of the intelligent terminal dynamic simulation interface according to the wire frame region electric signal data combination.

Preferably, in the present invention, the intelligent terminal is a smart phone, a tablet computer, or a smart television.

Based on the foregoing method, the present invention further provides a storage medium, wherein a plurality of instructions are stored, the instructions being adapted to be loaded and executed by a processor to:

a dynamic simulation interface is arranged on the intelligent terminal in advance;

and when the light rays reach the dynamic simulation interface through the object, the light rays on the dynamic simulation interface are subjected to partition processing to obtain the light rays of the wire frame area of the object frame, and the object frame is dynamically presented according to the light rays of the wire frame area.

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

when the light reaches the dynamic simulation interface through an object, dividing the light on the dynamic simulation interface into dark light area light, wire frame area light and bright light area light according to the brightness of the light;

a light dynamic sensor is preset on the intelligent terminal;

the light dynamic sensor senses the brightness of the light in the dark light area and outputs corresponding dark light area electric signal data D11, D12, D13, … and D1 n;

the light dynamic sensor senses the brightness of the light in the wire frame area and outputs corresponding wire frame area electric signal data D21, D22, D23, … and D2 n;

the light dynamic sensor senses the brightness of the light in the bright light region and outputs corresponding bright light region electric signal data D31, D32, D33, … and D3n, wherein D11< D21< D31, D12< D22< D32, D13< D23< D33, …, D1n < D2n < D3 n.

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

arranging the dark-light region electrical signal data, the wire-frame region electrical signal data, and the bright-light region electrical signal data in combination as [ D11D 21D 31], [ D12D 22D 32], [ D13D 23D 33], …, [ D1n D2n D3n ];

storing the arranged electric signal data into a dynamic memory of the intelligent terminal;

when an instruction for presenting the object frame is received, calling the arranged electric signal data in the dynamic memory, and outputting corresponding wire frame region electric signal data combinations D21, D22, D23, … and D2 n;

and D21, D22, D23, … and D2n are combined according to the electric signal data of the wire frame region, and the object frame of the object on the dynamic simulation interface of the intelligent terminal is mapped.

Still further, the present invention provides an intelligent terminal, wherein, as shown in fig. 2, the intelligent 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 dynamically rendering an object frame as described in any of the 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 Smart Media 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, the present invention provides a method for dynamically presenting an object frame, in which a dynamic simulation interface is preset on an intelligent terminal, when light passes through an object and reaches the dynamic simulation interface, the light on the dynamic simulation interface is subjected to a partition processing to obtain a wire-frame area light of the object frame, and the object frame is dynamically presented according to the wire-frame area light. The method and the device realize the independent acquisition of the frame shape of the object, namely, the frame of the object can be presented on the dynamic simulation interface of the intelligent terminal, so that the enthusiasm of man-machine interaction is promoted, and great convenience is brought to users.

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 (8)

1. A method of dynamically rendering a frame of an object, comprising the steps of:

a dynamic simulation interface is arranged on the intelligent terminal in advance;

when light rays penetrate through an object and reach the dynamic simulation interface, the light rays on the dynamic simulation interface are subjected to partition processing to obtain the light rays of the wire frame area of the object frame, and the object frame is dynamically presented according to the light rays of the wire frame area;

when the light ray penetrates through the object and reaches the dynamic simulation interface, the step of performing partition processing on the light ray on the dynamic simulation interface to obtain a wire-frame area light ray of the object frame, and dynamically presenting the object frame according to the wire-frame area light ray specifically comprises the following steps:

when the light reaches the dynamic simulation interface through an object, dividing the light on the dynamic simulation interface into dark light area light, wire frame area light and bright light area light according to the brightness of the light;

a light dynamic sensor is preset on the intelligent terminal;

the light dynamic sensor senses the brightness of the light in the dark light area and outputs corresponding dark light area electric signal data D11, D12, D13, … and D1 n;

the light dynamic sensor senses the brightness of the light in the wire frame area and outputs corresponding wire frame area electric signal data D21, D22, D23, … and D2 n;

the light dynamic sensor senses the brightness of the light in the bright light region and outputs corresponding bright light region electric signal data D31, D32, D33, … and D3n, wherein D11< D21< D31, D12< D22< D32, D13< D23< D33, …, D1n < D2n < D3 n.

2. The method for dynamically representing an object frame according to claim 1, further comprising the steps of:

arranging the dark-light region electrical signal data, the wire-frame region electrical signal data, and the bright-light region electrical signal data in combination as [ D11D 21D 31], [ D12D 22D 32], [ D13D 23D 33], …, [ D1nD2n D3n ];

and storing the arranged electric signal data into a dynamic memory of the intelligent terminal.

3. The method for dynamically representing an object frame according to claim 2, further comprising the steps of:

when an instruction for presenting the object frame is received, calling the arranged electric signal data in the dynamic memory, and outputting corresponding wire frame region electric signal data combinations D21, D22, D23, … and D2 n;

and D21, D22, D23, … and D2n are combined according to the electric signal data of the wire frame region, and the object frame of the object on the dynamic simulation interface of the intelligent terminal is mapped.

4. The method for dynamically representing the object frame according to any one of claims 1 to 3, wherein the smart terminal is a smart phone, a tablet computer or a smart television.

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

a dynamic simulation interface is arranged on the intelligent terminal in advance;

and when the light rays reach the dynamic simulation interface through the object, the light rays on the dynamic simulation interface are subjected to partition processing to obtain the light rays of the wire frame area of the object frame, and the object frame is dynamically presented according to the light rays of the wire frame area.

6. The storage medium of claim 5, having stored thereon a plurality of instructions adapted to be loaded by a processor and to perform in particular:

when the light reaches the dynamic simulation interface through an object, dividing the light on the dynamic simulation interface into dark light area light, wire frame area light and bright light area light according to the brightness of the light;

a light dynamic sensor is preset on the intelligent terminal;

the light dynamic sensor senses the brightness of the light in the dark light area and outputs corresponding dark light area electric signal data D11, D12, D13, … and D1 n;

the light dynamic sensor senses the brightness of the light in the wire frame area and outputs corresponding wire frame area electric signal data D21, D22, D23, … and D2 n;

the light dynamic sensor senses the brightness of the light in the bright light region and outputs corresponding bright light region electric signal data D31, D32, D33, … and D3n, wherein D11< D21< D31, D12< D22< D32, D13< D23< D33, …, D1n < D2n < D3 n.

7. The storage medium of claim 6, having stored thereon a plurality of instructions adapted to be loaded by a processor and to perform in particular:

arranging the dark-light region electrical signal data, the wire-frame region electrical signal data, and the bright-light region electrical signal data in combination as [ D11D 21D 31], [ D12D 22D 32], [ D13D 23D 33], …, [ D1nD2n D3n ];

storing the arranged electric signal data into a dynamic memory of the intelligent terminal;

when an instruction for presenting the object frame is received, calling the arranged electric signal data in the dynamic memory, and outputting corresponding wire frame region electric signal data combinations D21, D22, D23, … and D2 n;

and D21, D22, D23, … and D2n are combined according to the electric signal data of the wire frame region, and the object frame of the object on the dynamic simulation interface of the intelligent terminal is mapped.

8. An intelligent terminal, comprising a processor adapted to implement instructions; and a storage device adapted to store a plurality of instructions adapted to be loaded by a processor and to perform the method of dynamically rendering an object frame according to any of the preceding claims 1-4.

Images