CN111352572B

CN111352572B - Resource processing method, mobile terminal and computer-readable storage medium

Info

Publication number: CN111352572B
Application number: CN202010446366.7A
Authority: CN
Inventors: 尚国强
Original assignee: Shenzhen Microphone Holdings Co Ltd
Current assignee: Shenzhen Microphone Holdings Co Ltd
Priority date: 2020-05-25
Filing date: 2020-05-25
Publication date: 2020-08-25
Anticipated expiration: 2040-05-25
Also published as: CN111352572A

Abstract

The application discloses a resource processing method, which comprises receiving region selection operation of resource information on at least two interfaces; comparing the operation tracks of the region selection operation of each interface on at least two interfaces; and processing the resource information in the coverage area of the operation track according to the comparison result and/or the selection operation sequence of the area selection operation, wherein the processed resource information is the resource information in the selected state. According to the method and the device, the resource information on two different interfaces can be quickly selected, and after the resource information is selected, the selected resource information can be quickly processed, so that a large amount of operation time is saved. The selected resource information can be processed differently according to different operation tracks of the user, diversified processing modes are provided, and only simple track operation is needed, so that the processing efficiency is further improved, and the processing time is saved.

Description

Resource processing method, mobile terminal and computer-readable storage medium

Technical Field

The present application relates to the field of communications technologies, and in particular, to a resource processing method, a mobile terminal, and a computer-readable storage medium.

Background

At present, electronic devices such as mobile phones, tablet computers, and notebook computers generally store various resource information, such as documents, pictures, music, videos, and application software. At present, when the resource information needs to be used or viewed, the resource information is a single operation, that is, only one type of resource information can be operated at a time, for example, one picture is selected by one operation, or one music is selected by one operation. The operation mode of single operation only aiming at one resource information wastes time and has low efficiency.

Disclosure of Invention

The present application aims to provide a resource processing method, a mobile terminal, and a computer-readable storage medium, so as to solve the above problems, and provide a user to sequentially operate and quickly select a plurality of resource information, and quickly process the plurality of resource information after selection, thereby increasing operation convenience and saving operation time.

The resource processing method provided by the first aspect of the application comprises the steps of receiving area selection operation of resource information on at least two interfaces; comparing the operation tracks of the region selection operation of each interface on the at least two interfaces; and processing the resource information positioned in the coverage area of the operation track according to the comparison result and/or the selection operation sequence of the area selection operation, wherein the processed resource information is the resource information in the selected state.

The resource processing method as described above, wherein processing the resource information located in the coverage area of the operation trajectory according to the comparison result includes: deleting the resource information in the coverage area of the operation track under the condition that the operation track is in mirror symmetry; under the condition that the operation tracks are the same, merging the resource information in the coverage area of the operation tracks to generate at least one new resource information; and under the condition that the operation tracks are combined into a preset graph, processing the resource information in the coverage area of the operation tracks according to a first preset processing rule corresponding to the preset graph.

The resource processing method described above, wherein, when the operation tracks are combined into a preset graph, processing the resource information located in the coverage area of the operation tracks according to a first preset processing rule corresponding to the preset graph includes: hiding part of resource information in a coverage area of the operation tracks under the condition that the operation tracks are combined into a first set graph; under the condition that the operation tracks are combined into a second set graph, deleting part of resource information in a coverage area of the operation tracks; and under the condition that the operation tracks are combined into a third set graph, deleting and/or combining the resource information in the coverage area of the operation tracks according to a second preset processing rule.

The method for processing the resource information according to the selection operation sequence of the region selection operation includes: deleting and/or merging the resource information ranked from the first bit to the Nth bit in the selection operation sequence of the region selection operation according to a second preset processing rule; deleting and/or merging the resource information from the (N + 1) th bit to the last bit according to a second preset processing rule; n is an integer greater than 2.

The method for processing the resource information, wherein the processing the resource information according to the comparison result and the selection operation sequence of the region selection operation includes: under the condition that the operation tracks are combined into a preset graph, processing the resource information in the coverage area of the operation tracks according to a first preset processing rule corresponding to the preset graph; deleting and/or merging the resource information ranked from the first bit to the Nth bit in the selection operation sequence of the region selection operation of the processed resource information according to a second preset processing rule; deleting and/or merging the resource information from the (N + 1) th bit to the last bit according to a second preset processing rule; n is an integer greater than 2.

The method for processing resources as described above, wherein the deleting and/or merging according to the second preset processing rule includes: and merging and/or deleting the resource information positioned in the coverage area according to a second preset processing rule set by the resource attribute of the resource information.

The resource handling method as described above, wherein the at least two interfaces comprise at least two program interfaces.

The resource processing method as described above, wherein the resource information includes a file and/or application software; the resource attribute comprises at least one of the type of the resource, the content of the resource, the byte size of the resource, the label of the resource, the generation time or modification time of the resource, the storage position of the resource and the sharing record of the resource.

The resource processing method as described above, wherein the label of the resource includes at least one of resource naming and resource remark information, and the label of the resource is used to mark whether the resource information is favorite.

The method for processing resources as described above, wherein the merging and/or deleting the resource information located in the coverage area according to the second preset processing rule set according to the resource attribute of the resource information includes: under the condition that the resource information comprises application software, deleting the application software according to the content, the generation time or the modification time or the label of the application software in the coverage area; under the condition that the resource information comprises a file, combining and/or deleting the file according to the attribute of the file in the coverage interval; and under the condition that the resource information comprises files and application software, deleting and/or merging the files according to the attributes of the files in the coverage area, and merging the processed files into the application software.

The method for processing resources as described above, wherein, in a case that the resource information includes application software, deleting the application software according to content, generation time, or modification time, or a tag of the application software in the coverage area includes: and when the coincidence degree of the contents of the plurality of application software is greater than or equal to the preset coincidence degree, keeping the application software with the latest version or the latest service time in the plurality of application software, and deleting the rest of the application software which is coincided with the application software.

The resource processing method described above, wherein the merging and/or deleting the file according to the attribute of the file in the coverage area includes: merging the files positioned in the coverage area according to at least one of the type, the storage position, the sharing record, the label and the byte size of the files in the coverage area; and deleting the files positioned in the coverage area according to at least one of the content, the label, the generation time or the modification time of the files in the coverage area.

According to the resource processing method provided by the first aspect of the application, the resource information on two different interfaces can be quickly selected, and after the resource information is selected, the selected resource information can be quickly processed, so that a large amount of operation time is saved.

In addition, the resource processing method provided by the first aspect of the present application may further perform different processing on the selected resource information according to different operation tracks of the user, so as to provide diversified processing manners, and only need to perform simple track operation, thereby further improving the processing efficiency and saving the processing time.

Further, the resource processing method provided by the first aspect of the present application may also perform processing such as deleting and/or merging on various resource information quickly according to the resource attributes of the resource information, and the processing method is flexible and diverse in selection, and can meet the needs of more users and save the time of various processing needs.

A second aspect of the present application provides a resource processing method, including: receiving a region selection operation for resource information, wherein the resource information is distributed on at least two program interfaces; selecting at least two resource information in the coverage area of the area selection operation; processing the resource information according to a second preset processing rule to generate at least one new resource information; the new resource information is different from any one of the at least two resource information; and the second preset processing rule is set according to the resource attribute of the resource information.

The resource processing method as described above, wherein the resource attribute of the resource information includes: the types of the resources comprise text files, picture files, audio files and video files; the processing the resource information according to the second preset processing rule to generate at least one new resource information includes: under the condition that the types of the at least two pieces of resource information are different, combining the at least two pieces of resource information to generate at least one piece of new resource information; under the condition that the types of the at least two pieces of resource information are the same, acquiring difference information of each piece of resource information in the at least two pieces of resource information, and combining the difference information to generate at least one new piece of resource information; and under the condition that the types of the at least two pieces of resource information are partially the same, merging the resource information with the same type, and merging the merged resource information with the resource information with different types to generate at least one piece of new resource information.

The resource processing method as described above, wherein the resource information includes at least two of text, picture, audio and video, and the new resource information includes a video blog VLOG generated by superimposing the text, picture, audio and video.

The method for processing resources as described above, wherein the obtaining difference information of each resource information in the at least two resource information when the types of the at least two resource information are the same, and combining the difference information to generate at least one new resource information includes: and applying the picture processing parameter of one picture to the other picture according to a third preset processing rule under the condition that the at least two pieces of resource information are at least two pictures so as to generate a new picture.

The resource processing method as described above, wherein, when the at least two pieces of resource information are at least two pictures, applying the picture processing parameter of one picture to another picture according to a third preset processing rule to generate a new picture includes: under the condition that the at least two pieces of resource information are at least two pictures, after the shooting interval of the at least two pictures is judged to be smaller than a set threshold value, the picture parameter of one picture is applied to the other picture to generate a new picture; when the at least two pieces of resource information are at least two pictures, judging that the shooting interval of the at least two pictures is smaller than a set threshold value; combining the optimal resources of each picture in the at least two pictures to form a new picture.

The method for processing resources as described above, wherein the receiving a region selection operation for resource information, where the resource information is distributed on at least two program interfaces, includes: and after receiving a first region selection operation on the resource information on the first program interface, receiving a second region selection operation on the resource information on the second program interface within a set time interval.

The method for processing resources as described above, wherein the receiving a region selection operation for resource information, where the resource information is distributed on at least two program interfaces, includes: after receiving a first region selection operation on the resource information on the first program interface, receiving a second region selection operation on the resource information on the second program interface, wherein the first region selection operation and the second region selection operation are performed according to a set action.

The resource processing method provided by the second aspect of the present application can quickly select resource information on two different program interfaces, and then quickly process the selected resource information. The time for selection and processing is saved.

In addition, the processing rule is set according to the resource attribute of the resource information, so that the resource information can have a plurality of different processing modes according to the resource attribute, and the plurality of different processing modes can meet the requirements of various users, and are simple and convenient to use and high in processing efficiency.

Further, the resource processing method provided by the second aspect of the present application combines the difference information of the pictures, so as to improve the quality of the pictures.

Furthermore, a mode for preventing misoperation is set for the two program interfaces, so that the trouble of the user caused by misoperation can be avoided.

A third aspect of the present application provides a resource processing method, including receiving a key operation; receiving region selection operation of resource information, wherein the resource information is distributed on at least two program interfaces; changing the selection state of the resource information in the coverage area of the area selection operation; and displaying the resource information in the selected state in the area selection operation coverage area on a terminal interface.

The resource processing method as described above, wherein the receiving a key operation; receiving a region selection operation for resource information, comprising: and receiving a second area selection operation of the resource information on the second program interface within a set time interval after receiving a first area selection operation of the resource information on the first program interface while or after receiving the key operation, and displaying the resource information in the selection operation coverage area on the terminal interface according to the selection operation sequence.

The resource processing method as described above, further comprising an action of ending the change of the selection state by recognizing a preset action; the preset action is at least two times of knocking operation and/or stopping for a preset time length selection operation.

The resource processing method as described above, wherein the area selection operation includes any one of a touch operation and a blank operation on an area where the resource information is located, and the key includes a virtual key or a physical key.

The resource processing method described above, wherein the terminal interface includes a main control interface, a negative one-screen interface, and a program interface, and the step of displaying the resource information in the selection operation coverage area on the terminal interface includes: and displaying the resource information in the coverage area of the area selection operation in a blank area of the main control interface, the negative one-screen interface or the program interface.

The resource processing method as described above, before displaying the resource information in the selection operation coverage area on the terminal interface, further includes: and identifying the type of the resource information, and determining the display position of the resource information according to the type of the resource information.

The resource processing method as described above, wherein the identifying the type of the resource information, and determining the display position of the resource information according to the type of the resource information includes: when the types of the resource information are text files, displaying the resource information on a file management program interface; when the type of the resource information is a picture or a video file, displaying the resource information on a gallery program interface; and when the type of the resource information is an audio file, displaying the resource information on a program interface of the recorder.

The resource processing method provided by the third aspect of the present application sets a key operation, and can avoid the problem of misoperation by using a combination of the key operation and the touch operation, for example: under the condition that a user does not need to select a plurality of resource information, in the operation process, the user touches the area where the plurality of resource information are located on the interface by mistake, so that the wrong selection is caused. The key operation is added, so that the misoperation can be avoided, and the accuracy of quick selection is improved.

In addition, after the area selection operation can be rapidly performed on the resource information on two different program interfaces, the selection state can be rapidly changed, and then the resource information in the selected state is rapidly displayed.

Further, the resource processing method provided by the third aspect of the present application limits the operation interval time of two different program interfaces, increases the processing efficiency, and facilitates identification. And the selected resource information of different types is also set and displayed on a conventional corresponding interface so as to improve the use convenience of the user.

A fourth aspect of the present application provides a mobile terminal, comprising a memory and a processor, wherein the memory is configured to store at least one program instruction, and the processor is configured to implement the resource processing method according to any one of the first to third aspects by loading and executing the at least one program instruction.

A fifth aspect of the present application provides a computer-readable storage medium for storing instructions that, when executed, cause a method of any of the first to third aspects of the present application to be implemented.

Drawings

In order to more clearly illustrate the technical solution of the present application, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a flow chart of a resource processing method according to a first embodiment of the present application;

FIG. 2 is a schematic diagram of an operation trace of a resource processing method according to a first embodiment of the present application;

FIG. 3 is a schematic diagram of another operation trace of the resource processing method according to the first embodiment of the present application;

FIG. 4 is a schematic diagram of another operation track of the resource processing method according to the first embodiment of the present application;

FIG. 5 is a flowchart of a resource processing method according to a second embodiment of the present application;

FIG. 6 is a flowchart of a resource processing method according to a third embodiment of the present application;

FIG. 7 is a schematic diagram illustrating an initial open state of two program interfaces of a resource processing method according to a third embodiment of the present application;

fig. 8 is a schematic state diagram illustrating a first region selection operation performed by two program interfaces of a resource processing method according to a third embodiment of the present application;

FIG. 9 is a diagram illustrating a state of a resource information state change completion in two program interfaces according to a resource processing method provided in a third embodiment of the present application;

fig. 10 is a schematic diagram of a terminal interface of a resource processing method according to a third embodiment of the present application showing a state of selected resource information;

fig. 11 is a schematic structural diagram of a mobile terminal provided in an embodiment of the present application;

fig. 12 is a schematic structural diagram of a computer-readable storage medium provided in 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.

First embodiment

Referring to fig. 1, an embodiment of the present application provides a resource processing method, including the following steps:

step S10: a region selection operation for resource information on at least two interfaces is received. The resource information may include files and/or application software.

Specifically, the type of the file may include at least one of text, picture, video, and audio. The text may include text documents in TXT, PDF, DOC, DOCX, XLS, and other formats, for example: short messages in mobile phones, etc. The pictures may include PNG, BMP, JPEG, and other formats, such as: photos taken in the cell phone, etc. Video may include formats such as ASF, AVI, MOV, and MPEG, for example: videos shot by the user using a mobile phone, and the like. The audio may include MID, MP3, WAV, and WMA formats, such as: recording by the user using a mobile phone, and the like. The application software may include game software, entertainment software (chat software, video viewing software, music playing software, news browsing software), browser software, bank software, map software, shopping software, and the like.

In addition, the interface may be a terminal interface, for example, a terminal interface of a terminal device such as a mobile phone or a computer. The terminal interface can be a main control interface, a negative one-screen interface and a program interface. The at least two interfaces may be two main control interfaces of the dual-screen mobile phone, or a main control interface and a program interface of the mobile phone, and the like, without limitation. Therefore, the applicability is strong, and the resource information on the two interfaces can be quickly selected.

Taking the operation on two interfaces as an example, the two interfaces are respectively a first interface and a second interface, wherein the first interface is subjected to a first area selection operation. And performing a second region selection operation on the second interface. More specifically, the first interface and the second interface may be an album interface of WeChat and an album interface of QQ, respectively. The description of the album interface of WeChat and the album interface of QQ is the same as the second embodiment, and is not repeated.

The specific implementation of the region selection operation can be performed in either of the following two ways: one is to perform operations on the interface, and to perform touch operations or air-space operations on the interface. The other method is to combine the key operation with the touch operation or the air-space operation for the interface.

Specifically, the touch operation may include a slide operation, a click operation, and the like. The sliding operation may be a user sliding on the touch interface using a single, two, or three fingers, etc. Alternatively, the user slides on the touch interface using a stylus operation. It will be appreciated that the sliding operation described above may be a continuous linear sliding or a continuous curvilinear sliding. The sliding operation mode is used for quick selection, the operation is convenient and quick, and the operation time is saved. The clicking operation is to click and select the resource information to be operated one by one.

The blanking operation may include waving a palm in front of the interface and confirming the coverage area according to a range covered by waving the palm.

The above-mentioned key operation and the touch operation or the air-separating operation performed on the interface are combined, wherein the key operation and the touch operation or the air-separating operation may be performed simultaneously or sequentially. The key operation includes pressing any one of a volume increasing key, a volume decreasing key and a power key, or pressing the volume increasing key and the power key simultaneously, or pressing the volume decreasing key and the power key simultaneously, where the key may be a physical key with an entity or a virtual key on an interface, and is not limited herein. For example: the user presses the power key first and then slides the finger across the touch interface. Alternatively, the user first slides on the touch interface using a finger and then presses the volume down key. Alternatively, the user slides on the touch interface using an external input device such as a touch pen while pressing the volume up key without releasing it. Or after the user presses the volume reduction key and the power key simultaneously, the clicking operation is carried out on the touch interface. Or the user can shake the user's hand in front of the interface after pressing the power key. It will be appreciated that the sliding operation described above may be a continuous linear sliding or a continuous curvilinear sliding.

By using the combination of the key operation and the touch operation, the problem of misoperation can be avoided, for example: under the condition that a user does not need to select a plurality of resource information, in the operation process, the user touches the area where the plurality of resource information are located on the interface by mistake, so that the wrong selection is caused. The key operation is added, so that the misoperation can be avoided, and the accuracy of quick selection is improved.

Alternatively, it should be understood by those skilled in the art that the resource information list may be an ordered resource information list, that is, the resource information in the resource information list is arranged in a certain order, for example, in a horizontal or vertical manner. The resource information list may also be a resource information list arranged in a non-sequential manner, that is, the distribution of each resource information in the resource information list is disordered, and there is no certain order rule. Whether the resource information is arranged orderly or disorderly, the sliding operation can be adopted, or the region selection operation is carried out in a mode of combining the key operation and the sliding operation. Therefore, the relevant resource information in the resource information list can be selected or cancelled according to the actual needs of the user. It can be seen that in this embodiment, the method and the device can be applied to not only the resource information list arranged in order, but also the resource information list arranged in no order, and have a wide application range, thereby greatly increasing the convenience of use for users.

Step S20: and comparing the operation tracks of the region selection operation on each interface of the at least two interfaces. The operation trajectory refers to a trace of sliding on the touch screen by a finger or a stylus, or a trajectory of waving a palm in front of the screen during a blank operation.

Taking the operation on two interfaces as an example, the two interfaces are respectively a first interface and a second interface, wherein the first interface is subjected to a first area selection operation, and the first area selection operation corresponds to a first operation track. And performing second area selection operation on the second interface, wherein the second area selection operation corresponds to a second operation track. And comparing whether the first operation track and the second operation track are in mirror symmetry or are identical or are combined into a preset graph.

Generally, after the area selection operation is performed, the resource information in the coverage area of the operation trajectory of the area selection operation becomes the selected state. For other cases, the following will be explained.

Referring to fig. 2 to 4, fig. 2 to 4 show a first interface 10 and a second interface 20, wherein each interface has eight files, i.e. files 1 to 8, which may be texts, videos, audios or pictures. The files in fig. 2 and 4 are ordered, and the files in fig. 3 are unordered.

Wherein the first operation track 11 of the first interface 10 and the second operation track 21 of the second interface 20 are mirror images in fig. 2. The first operation trajectory 11 and the second operation trajectory 21 in fig. 3 are the same, and the first operation trajectory 11 and the second operation trajectory 21 in fig. 4 constitute a circle.

Step S30: and processing the resource information positioned in the coverage area of the operation track according to the comparison result and/or the selection operation sequence of the area selection operation, wherein the processed resource information is the resource information in the selected state. How to determine the selection state of the resource information in the coverage area is further described below.

The step includes selecting operation sequence according to the comparison result and the region selection operation, and simultaneously selecting operation sequence according to the comparison result and the region selection operation. The following description is one by one:

the first method comprises the following steps: and processing the resource information in the coverage area of the operation track according to the comparison result. The comparison result may specifically include that the first operation trajectory and the second operation trajectory are mirror symmetric, or are the same, or are combined into a preset graph.

Specifically, in a device such as a terminal using the resource processing method, a processing manner of the resource information may be stored, and the processing manner of the resource information and the comparison result may be in one-to-one correspondence. For example: and selecting two operation tracks for operation aiming at two areas of the two interfaces, and deleting the resource information in the operation track coverage area if the two operation tracks are mirror-symmetrical. If the resource information is the same, the resource information in the operation track coverage area is combined, and then a new resource information is generated. And if the combination is the preset graph, processing the resource information in the coverage area of the operation track according to a first preset processing rule corresponding to the preset graph.

The terminal and other devices may store the corresponding processing methods listed in the following table:

comparison results	Treatment method
		Mirror symmetry	Deleting
Are identical to each other	Merging
		Combined into a preset pattern	Processing according to a first preset processing rule

Then, when the comparison result is: the first operation track and the second operation track are mirror images. The resource information within the coverage of the first operational trajectory is deleted and the resource information within the coverage of the second operational trajectory is deleted. According to this rule, files 3 and 6 are deleted in the first interface 10 in fig. 2, and files 1, 4, and 7 are deleted in the second interface 20.

The comparison result is: the first operational trajectory and the second operational trajectory are the same. The resource information in the coverage area of the first operation track and the resource information in the coverage area of the second operation track are all merged together to generate a new resource information. The merging policy is the same as the following merging of the resource attributes according to the resource information in the second preset processing rule, and specifically refer to the following "the merging policy is first described in detail below" and "the following details are used to merge the processed files into the application software", which are not described again. According to this rule, file 4 in the first interface 10, file 4, file 1, and file 2 in the second interface 20 in fig. 3 are merged.

The comparison result is: and combining the patterns into a preset pattern. The preset pattern may include a circle, a square, a triangle, and the like. The terminal and other devices using the resource processing method can store the preset graph and the corresponding first preset processing rule, and then process the resource information according to the first preset processing rule corresponding to the preset graph as long as the comparison result is that the preset graph is combined. For example, the correspondence processing methods listed in the following table are stored in advance:

presetting a pattern	First preset processing rule
		Circular shape	Hiding resource information within a coverage area of a first operation trajectory
Square shape	Deleting resource information in the coverage area of the second operation track
		Triangle shape	According to a second preset processing rule, deleting and/or combining the resource information in the coverage areas in the first operation track and the second operation track

When the preset graph in the table is a triangle, the corresponding second preset processing rule is described in detail later. According to this rule, files 3 and 6 in the first interface 10 in fig. 4 are hidden.

It is emphasized that if there are two cases of the first operation trajectory and the second operation trajectory being symmetrical and combined into the preset pattern at the same time, for example: the first operation track and the second operation track are both semicircles, are in mirror symmetry, and are combined into a preset graph circle. Also for example, the first operation trace 11 and the second operation trace 21 in fig. 2 are both mirror images and form a square. At this time, the priority of mirror symmetry is higher than that of the combination of preset patterns. Considering that there may be a first operation trajectory and a second operation trajectory, and there may be multiple cases in the comparison result, the priority may be set: the mirror symmetry has the highest priority, and the preset graph combined by the mirror symmetry has the lowest priority. Thereby avoiding collisions that may occur in the processing.

And the second method comprises the following steps: and processing the resource information positioned in the coverage area of the operation track according to the selection operation sequence of the area selection operation. Specifically, the following manner may be adopted: deleting and/or merging the resource information ranked from the first bit to the Nth bit in the selection operation sequence of the region selection operation according to a second preset processing rule; deleting and/or merging the resource information from the (N + 1) th bit to the last bit according to a second preset processing rule; n is an integer greater than 2.

It is assumed that there are 6 resource information in the coverage area of the first operation track, and there are 3 resource information in the coverage area of the second operation track, that is, there are 9 resource information covered on the first interface and the second interface in total. At this time, the six resource information sequentially ranked in the first to sixth order may be deleted and/or merged, and the resource information sequentially ranked in the seventh to ninth order may be deleted and/or merged.

It will be understood by those skilled in the art that the resource information ranked in the first through sixth may be a slide operation all over the first interface, for example, the customer first interface, and once overlaid on the first through sixth resource information. It is also possible that three of them are located on the first interface and the other three are located on the second interface, and if the selection is performed by clicking, the selection is performed on the first interface, then the selection is performed on the second interface, and then the selection is performed back to the first interface.

In this step, a second preset processing rule is adopted, which is described in detail later.

This second processing mode can be according to the order of selection to handle resource information, and its flexibility ratio is higher, once only can batch processing a plurality of resource information.

And the third is that: the processing the resource information according to the comparison result and the selection operation sequence of the region selection operation comprises:

under the condition that the operation tracks are combined into a preset graph, processing resource information located in a coverage area of the operation tracks according to a first preset processing rule corresponding to the preset graph; deleting and/or merging the resource information ranked from the first bit to the Nth bit in the selection operation sequence of the region selection operation of the processed resource information according to a second preset processing rule; deleting and/or merging the resource information from the (N + 1) th bit to the last bit according to a second preset processing rule; n is an integer greater than 2.

For example, the terminal may store in advance the correspondence processing methods listed in the following table:

presetting a pattern	First preset processing rule
		Circular shape	Hiding resource information within a coverage area of a first operation trajectory
Square shape	Deleting resource information in the coverage area of the second operation track

After the first operation track and the second operation track are combined into a circle, the resource information in the coverage area of the first operation track is hidden, and then the resource information in the coverage area of the second operation track is processed according to the selection sequence during the area selection operation.

In the third processing mode, first processing is performed according to the comparison result, and then secondary processing is performed according to the arrangement sequence. The processing efficiency can be effectively improved.

How the deletion and/or the combination is performed according to the second preset processing rule mentioned above is explained below.

Specifically, the deleting and/or merging according to the second preset processing rule includes: and merging and/or deleting the resource information positioned in the coverage area according to a second preset processing rule set by the resource attribute of the resource information.

The resource attribute comprises at least one of the type of the resource, the content of the resource, the byte size of the resource, the label of the resource, the generation time or modification time of the resource, the storage position of the resource and the sharing record of the resource. The label of the resource can comprise one of resource naming and resource remark information, and the label of the resource is used for marking whether the resource is favored or not. For example, a name of a certain photo may be named "like", and "like" may be added to an icon of a certain video as remark information. The combination or deletion is carried out according to the resource attributes, and the resource attributes are more diversified, so that the selection diversity during the operation of the user is improved, the requirements of different users can be met, and the product competitiveness is improved.

Since the resource information includes two types of files and application software, the resource information in the coverage area may include three cases, the first type includes only the application software, the second type includes only the files, and the third type includes both the application software and the files. In the following, how the merging and/or deletion is performed in the three cases is described in detail.

First for the case of only including application software:

in the case where only the application software is included, the application software may be deleted according to the content of the application software. For example, within the selected coverage area on the interface, there are three pieces of drawing software, 2003 version, 2005 version, and 2007 version, and there are also a browser software and B browser software, and also a music software and B music software. Wherein, the drawing software of 2003 edition, 2005 edition and 2007 edition are highly overlapped, and the overlapping degree is more than 95%. And A, B the browser software belongs to the same type of software, A, B the music software belongs to the same type of software, and the function overlapping degree of the software in the same type is more than 95%. In addition, among them, drawing software, a music software, and B browser software of 2003 version are recently used software. Then deletion may be performed according to certain preset rules, such as retaining the software that has been used recently, and deleting the remaining software, i.e., retaining the drawing software, the a music software, and the B browser software of the 2003 version. The 2005 version drawing software, the 2007 version drawing software, the a browser software, and the B music software were deleted.

Therefore, the user can quickly delete the repeated software without single selection to delete one by one, and the time of the user is saved.

In the case of only including the application software, the application software located in the coverage area may be deleted according to the generation time or modification time of the application software. Specifically, when the modification time or the establishment time of the application software is greater than a set time period, the application software is deleted. For example, including a bank software and a insurance company software in the coverage area, wherein the setup time or modification time of the a insurance company software has exceeded six months, the a insurance company software may be deleted. Generally, when a user needs to use the application software, the user temporarily downloads a lot of application software which can be used only once or a few times, and after the function is provided, the user can delete the application software which is not used for a long time only by performing area selection operation without checking whether each application software needs to be used continuously.

In the case of only including the application software, the application software may be deleted according to the tag of the application software. Specifically, in the case where the application software has no tag, the application software is deleted, and in the case where the application software has a tag, the application software is retained. For example, if a bank software and a insurance company software are included in the coverage area, wherein the a insurance company software has no label and the a bank software has a label, the a insurance company software can be deleted and the a bank software can be retained. The label is used for marking whether the application software is liked or not, the bank software A belongs to the software which is used by a user and is more accustomed, the label is set by the user, and the label is not deleted, so that the deletion can be carried out according to the preference of the user, the application software liked by the user is reserved, the time is saved, the mistaken deletion is avoided, and the use experience of the user is not influenced.

In the case of only including the application software, the deletion operation may be performed simultaneously according to the tag and the modification time or the setup time of the application software. Specifically, if the setup time or modification time of the application software in the coverage area exceeds the set time period but the application software has a tag, the application software is not deleted. Namely, only the application software which has the set-up time or the modification time exceeding the set time period and has no label is deleted. For example, including a bank software and a insurance company software in the coverage area, wherein the a insurance company software is not tagged but has a setup time of less than six months; bank a software has a tag, but its last build time has been over six months, then both the insurance company a software and the bank a software may need to be retained. That is, in this manner, the tag marks the user's preference, which is higher in priority than the setup time or the modification time.

Therefore, software can be deleted quickly by the method, a large amount of space can be made available for users to use, and the running speed of the equipment is increased. Meanwhile, the time of the user is saved, and the time waste caused by the fact that the user needs to delete the application software one by one is avoided.

And under the condition that only files are included, combining and/or deleting the files according to the attributes of the files in the coverage interval. Specifically, the files located in the coverage area are merged according to at least one of the type, the storage location, the sharing record, the tag and the byte size of the files in the coverage area; and deleting the files positioned in the coverage area according to at least one of the content, the label, the generation time or the modification time of the files in the coverage area.

The merged strategy is first detailed below:

the first method comprises the following steps: merging according to the type of file within the coverage interval. Specifically, if the types of the files are judged to be the same, the files with the same types are combined into a new file with the same type; combining the files into a new file of the same type or different types under the condition that the types of the files are different; the types include at least text, pictures, video and audio as already mentioned above. For example: and the coverage area comprises the A photo, the B photo and the C photo, and the A photo, the B photo and the C photo are combined into a photo collection. The coverage area comprises a photo A, a photo B and an audio A, the photo A and the photo B are firstly combined into a photo collection, then the photo collection and the audio A are combined into a video, the audio in the video is a music background, and the photo collection is shown as a movie. The coverage area includes a text, a photo, B photo and a audio, and after the a photo and the B photo are combined into a photo collection, the text, the photo collection and the audio are combined into a video, for example: text may be an explanation of the story of the photo album and audio is a broadcast reading of the story of the photo album, i.e. a video blog (VLOG). Of course, the text may be any text, and the audio may be a song, etc. And by merging according to the types, new resource information, namely various file collections can be quickly generated, and the time for merging one by a user is saved.

And the second method comprises the following steps: and merging the files positioned in the coverage area according to the type and the storage position of the files. Specifically, when the files are distributed in a plurality of storage positions and the types of the files are the same, merging the files of the same type in the same storage position into a new file; and combining the files located at the same storage position into new files of the same type or different types under the condition that the files are distributed at a plurality of storage positions and the types are different.

That is, files within the coverage area may be distributed among two or more storage locations, such as a audio, B audio, and C audio stored on the desktop of the a interface, and D audio, E audio, and F audio stored on the desktop of the B interface, which exist within the coverage area, the a audio, B audio, and C audio are combined into one audio aggregate, and the D audio, E audio, and F audio are combined into one audio aggregate. For another example, if a photo, B photo and a audio stored in the a folder on the desktop of the a interface, and a text, C photo, D photo and B audio stored in the B folder of the D disk in the a interface exist in the overlay area, the a photo and the B photo are merged into a photo collection, and then the photo collection and the a audio are merged into a video, where the audio in the video is a music background and the photo collection is a movie display. And after the C picture and the D picture are combined into a photo collection, the A text, the photo collection and the B audio are combined into a video. Therefore, the files with different storage positions can be respectively combined, so that a user can simultaneously process the files stored in a plurality of different positions.

In another alternative, in the case that the files are distributed in a plurality of storage positions and the types are the same, combining the files of the same type located in different storage positions into a new file; and combining the files located at different storage positions into new files of the same type or different types under the condition that the files are distributed at a plurality of storage positions and the types are different.

I.e. files of the same type located in different storage locations can be merged. Specifically, for example, the a audio, the B audio, and the C audio stored on the desktop of the a interface, and the D audio, the E audio, and the F audio stored on the desktop of the B interface exist within the coverage area, the a audio, the B audio, the C audio, the D audio, the E audio, and the F audio are combined into one audio set. For another example, if the a photo, the B photo, and the a audio stored in the a folder on the desktop of the a interface, and the a text, the C photo, the D photo, and the B audio stored in the B folder of the D disk in the a interface exist in the overlay area, the a photo, the B photo, the C photo, and the D photo are merged into one photo album, and the a audio and the B audio are merged into one audio album, which is then merged into one video. Therefore, the user can combine the files with different storage positions together according to the types, and the processing speed is higher.

The files with different storage positions may need to be combined together, or the files in the same storage position may only need to be combined.

And the third is that: and merging the files positioned in the coverage area according to the type and the sharing record of the files in the coverage area. Specifically, under the condition that the types of the files are the same, merging the files with sharing records into a new file of the same type, and merging the files without sharing records into a new file of the same type; and under the condition that the types of the files are different, combining the files with the sharing records into new files of the same type or different types, and combining the files without the sharing records into new files of the same type or different types.

For example: within the overlay interval, a photo, B photo, C photo, a audio, B audio, C audio, a video, B video, a text, and B text are included. The A photo is shared with other friend users of the user for many times, and the A text is shared with the user's own mailbox. Then the A photo and the A text are merged into a new text, with the A photo as an illustration in the text. The rest of the photos B and the photos C are combined into a photo collection, the audio A, the audio B and the audio C are combined into an audio collection, the video A and the video B are combined into a video collection, and then the photo collection, the audio collection and the video collection are combined into a new video.

The file has the sharing record, so that the file is possibly valuable or meaningful, and after the file with the sharing record is combined, the file with the sharing record can be shared at one time, so that the efficiency is improved, and the time of a user is saved.

And fourthly: and merging the files positioned in the coverage area according to the type and the byte size of the files in the coverage area. Specifically, under the condition that the types of the files are the same, combining the files with the byte sizes smaller than a first set threshold value into a new file of the same type; under the condition that the types of the files are different, combining the files with the byte size smaller than a first set threshold value into new files of the same type or different types; the byte size of the new file is smaller than a second set threshold, and the second set threshold is larger than the first set threshold.

For example: and the coverage area comprises A text, B text and C text, wherein the A text and the B text are less than 2 million, the C text is more than 2 million, the A text and the B text are combined into a text collection, and the C text is not combined. It will be understood by those skilled in the art that if the text collection into which the a text and the B text are combined is too large, e.g., greater than 5M, the text collection can be divided into two text collections. That is, when the text collection formed by combining the a text and the B text is greater than a certain set threshold, the text collection is divided into a first text collection and a second text collection, that is, the a text and the B text can be combined into the first text collection and the second text collection.

For example: the coverage area comprises A text, B text, C text, A video, B video and C video, wherein the A text, the B text, the A video and the B video are all less than 2 million, and the C text and the C video are all more than 2 million. The a text and the B text are merged into a text collection, the a video and the B video are merged into a video collection, and then the text collection and the video collection are merged into a new video. And the C text and C video are merged into a new video. It can be understood by those skilled in the art that the new video formed by merging the text set and the video set is too large, for example, larger than 8M, and the new video can be divided into two videos, that is, in the case that the new video formed by merging the text set and the video set is larger than a certain set threshold, the new video is divided into a first video and a second video, that is, the text set and the video set can be merged into the first video and the second video.

Because the size of the file is limited when sending the mail or transmitting the file online, in order to avoid the inconvenience of sending or transmitting the file due to the overlarge file, the file can be combined according to the size of bytes according to the rule, so that the user can further send the mail or perform operations such as online transmission and the like.

And a fifth mode: and merging the files positioned in the coverage area according to the type and the label of the files in the coverage area. Specifically, under the condition that the types of the files are the same, merging the files with the tags into a new file of the same type, and merging the files without the tags into a new file of the same type; and under the condition that the types of the files are different, combining the files with the labels into new files of the same type or different types, and combining the files without the labels into new files of the same type or different types.

For example, the coverage area includes a text a, a text B and a text C, wherein an icon of the text C is provided with a happy label, the text a and the text B are combined into a text collection, and the text C is not combined.

For example, including a audio, B audio, a video, B video, and a photo within the coverage area. Wherein the names of the A audio and the A photo contain the words of 'like', the A audio and the A photo are combined into a video collection, and the rest of the B audio, the A video and the B video are combined into a video collection.

The files which are liked by the user can be quickly merged according to the tags, the files which are liked by the user are not merged, the favorite files of the user can be quickly distinguished, and all the files which are liked by the user can be seen in a set when a subsequent user uses, listens or watches the files, so that time waste caused by one-by-one searching is avoided.

The above lists five merging strategies, and the following lists strategies for deleting files in the coverage area.

The first method comprises the following steps: and deleting the files positioned in the coverage interval according to the content of the files in the coverage interval. Specifically, when the coincidence degree of the contents of the plurality of files is greater than or equal to a preset coincidence degree, the file with the best quality or the modification time being the latest among the plurality of files is reserved, and the rest of the files which coincide with the file are deleted.

Specifically, if the coverage area includes a photo a, a photo B, and a photo C, where the photo a and the photo B are two photos that are successively and continuously taken by the user at the same position, the similarity is extremely high, the content coincidence degree is greater than 95%, and the photo a is clear, while the photo B is fuzzy. Then, according to the quality optimization principle, the pictures A and C are retained, and the picture B is deleted. If the coverage area comprises an A text and a B text, wherein the A text is a first edition of a paper written earlier by a user, and the B text is a second edition of the paper modified by the user on the basis of the A text. Then the text a may be deleted and the text B may be retained according to the modified time recency rule.

The files with higher overlap ratio are deleted quickly, a large amount of space can be saved, time for a user to check the files deleted one by one is saved, and product competitiveness is improved.

And the second method comprises the following steps: and deleting the files positioned in the coverage area according to the generation time or the modification time of the files in the coverage area. Specifically, the resource information is deleted when the modification time or the establishment time of the resource information is greater than a set time period and no label is present. For example, including a text and a video in the coverage area, where the set-up time or modification time for the a text has exceeded six months, the a text may be deleted. By using the method, the user can delete the files which are not used or modified for a long time quickly and conveniently at one time, the waste of too many useless files accumulated due to overlong time and the waste of space are avoided, and meanwhile, the time for searching and deleting one by the user is saved.

And the third is that: and deleting the file according to the label of the file in the coverage area. Specifically, in the case where the file has a tag, the file is not deleted. And if the file has no label, deleting the file. For example, a audio and a photo in the coverage area, where a photo has a tag and a audio has no tag, then the a audio is deleted and the a photo is retained. The label is used for marking whether the file is liked or not, the picture A belongs to a user's favorite picture, the user sets the label for the picture A, and the picture A is not deleted, so that the picture A can be deleted according to the user's favorite picture, the user's favorite file is reserved, time is saved, mistaken deletion is avoided, and the user experience is not influenced.

And fourthly: and deleting the files positioned in the coverage area according to the labels of the files in the coverage area and the generation time or the modification time. Specifically, the file is deleted when the modification time or the establishment time of the file is greater than a set time period and no tag is present. For example, if the a text and the a video are included in the coverage area, wherein the set-up time or modification time of the a text and the a video both exceed six months, but the name of the a text contains a "like" word, the a text is retained and the a video is deleted. That is, in this manner, the tag marks the user's preference, which is higher in priority than the setup time or the modification time. The method can avoid deleting the favorite files of the user by mistake, and improve the experience of the product.

Under the condition that the coverage interval simultaneously comprises the file and the application software, deleting and/or merging the file according to the attribute of the file in the coverage interval, and merging the processed file into the application software. And deleting and/or merging the files according to the attributes of the files in the coverage interval, wherein the merging and/or deleting operation mode is the same as the mode of only including the files in the coverage interval, and the details are not repeated herein.

The following details incorporate the processed files into the application software:

specifically, in the case where the new file includes a picture file, the picture file is used as a use background or a registration avatar of the application software. That is, if a photo a and a chat software are included in the coverage area, the photo a is used as the avatar of the chat software. If the coverage area comprises the photo A, the photo B, chat software A and a browser A, merging the photo A and the photo B into a photo collection, taking the photo collection as an avatar of the chat software A, and taking the photo collection as a user avatar of the browser A; or the photo collection can be used as a background picture of chat software A and a background image when a browser A browses contents such as web pages. Therefore, the head portrait of the user in the application software or the background head portrait of the application software can be quickly set or replaced according to the preference of the user, the operation is very convenient, and the time is saved.

And in the case that the new file comprises an audio file or a video file, taking the audio file or the video file as the use background of the application software. That is, after the audio included in the coverage area is combined into the audio aggregate, if the chat software is included, the audio aggregate becomes the background music of the chat software. The video file is similar and not described in detail. Therefore, background music or background video in the application software can be set or replaced quickly according to the preference of the user, and the operation time of the user is saved.

And in the case that the new file comprises a text file, taking the text file as a registered user name of the application software. When many users register accounts of different application software, the user names are set to be the same, and then the users can save the common user names into a text file. And then when the region selection operation is carried out, the text file and the application software needing to be registered are simultaneously selected in the coverage area, so that the rapid registration can be carried out. Of course, the user may also set the password in the text file and register at the same time to further increase the registration speed.

It should be emphasized that the deleting and/or merging operations may be functions provided in a device such as a mobile phone, a computer, or a tablet, or may be implemented by third-party software. That is, in the case where the file and the application software are included in the coverage area, where the application software includes the file processing software, the file is deleted or merged by using the file processing software, and the processed file is merged into the application software. The file processing software has a function of deleting or merging files as described above.

It can be understood that new resource information formed by merging or deleting the picture set, the audio set, the video set, and the like can be regarded as new resource information.

The merging and/or deleting operations can be performed in a manual selection operation mode or an automatic default operation mode. Specifically, the manual selection operation mode is as follows: after the resource attribute of the resource information in the coverage area is identified, outputting an operation frame; and after receiving the operation of the output operation frame, merging and/or deleting the resource information positioned in the coverage area. And a manual selection mode is adopted, so that the flexibility is higher.

The automatic default operation mode is as follows: and setting a default processing mode for the resource information according to the resource attribute of the resource information. That is, rules for merging and deleting are set in the background, so long as the user performs area selection operation, merging and deleting are directly performed after the coverage area is detected, and finally, the processing result is directly displayed. And a default operation mode is adopted, so that the operation is quick.

The following describes a specific implementation of the default processing mode in detail, and at any time, a user may set a page, the set page includes a resource information processing option, and after the user selects the resource information processing option, the user sets a page to display: deleting, merging and merging after deleting. If the user selects to delete, deleting according to the following deletion principle: the display has three options, one, two or three, according to content contact ratio, according to modification time or use time or establishment time and according to the label. If all three are selected, the priority according to label deletion is greater than according to content contact ratio and according to modification time or use time or establishment time. That is, as long as there is a tag, only a reservation is required regardless of content overlap ratio and modification time. If no label exists, the content is deleted according to the content contact ratio and the modification time.

If the user selects to merge, merging is performed according to the following merging principle: five options according to type, storage location, sharing record, tag, and byte size are displayed. Which are mandatory options, i.e. options that have to be selected, depending on the type, and cannot be cancelled. The storage position can be a single option, or can be selected with other sharing records, tags and byte sizes at the same time, but the sharing records, the tags and the byte sizes can only be selected one. If the user selects the storage position, setting a page to display: and the two options are combined together at different storage positions, and the user selects the options according to the requirement.

For example, the user has selected a storage location and shared a record, and a common merge at different storage locations has been selected among the storage location options. Then assume that there are a photo, B photo, C photo, D photo, E photo, and F photo in the coverage area, where a photo, B photo, C photo are located in the same storage location, D photo, E photo, and F photo are located in the same storage location, and a photo and F photo have a shared record. The a photograph and the F photograph are merged into a photo collection, and the B photograph, the C photograph, the D photograph, and the E photograph are merged into a photo collection.

For example, the user has selected a storage location and shared a record, and the storage location option has selected a merge located at the same storage location. Then assume that the coverage area has a photo, B photo, C photo, D photo, E photo, F photo, G photo, and H photo, wherein a photo, B photo, C photo, and D photo are located in the same storage location, E photo, F photo, G photo, and H photo are located in the same storage location, and a photo, B photo, E photo, and F photo have a shared record. The photos A and B are combined into a photo collection, the photos E and F are combined into a photo collection, the photos C and D are combined into a photo collection, and the photos G and H are combined into a photo collection.

The user selects the storage position and the label at the same time, selects the merging principle of the storage position and the size of the byte at the same time, and selects the storage position and shares the record at the same time, which is the same as the merging principle of the storage position and the record, and is not repeated.

And if the user selects the merging option after deletion, deleting the merging option according to the deletion principle, and merging the merged merging option according to the merging principle.

The manual selection operation mode is to display a selection frame after the user selects the coverage area, and the displayed options are the same as those displayed in the setting process of the automatic default operation mode. Sequentially displaying: merging, deleting and merging options after deleting.

Selecting merge then displays the merged selectable items: the storage location, the sharing record, the tag and the byte size are selected, wherein the storage location can be selected simultaneously with any one of the other three, but only one of the sharing record, the tag and the byte size can be selected.

Select delete then display delete option: the user can select one, two or three of them according to the content contact ratio, according to the modification time or the use time or the establishment time and according to the label. If all three are selected, the priority according to label deletion is greater than according to content contact ratio and according to modification time or use time or establishment time. That is, as long as there is a tag, only a reservation is required regardless of content overlap ratio and modification time. If no label exists, the content is deleted according to the content contact ratio and the modification time.

And if the merging is selected after deletion, displaying options of merging and deletion: the merging options comprise four options of storage positions, sharing records, labels and byte sizes, the deletion options comprise three options of deletion options according to content contact ratio, modification time or use time or establishment time and labels, the selection principle of the deletion options is the same as that of independent deletion, and the selection principle of the merging options is the same as that of independent merging.

In addition, before processing the resource information located in the coverage area of the operation track according to the comparison result and/or the selection operation sequence of the area selection operation, the method may further include:

and changing the selection state of all the resource information into all-selected or all-unselected state when the selection state of all the resource information is partially selected in the coverage area of the operation track. And changing the selection states of all the resource information into unselected states under the condition that the selection states of all the resource information are selected in the coverage area of the operation track. And changing the selection states of all the resource information into selected states when the selection states of all the resource information are unselected in the coverage area of the operation track.

This arrangement is particularly suitable for use in sliding operation. Due to the fact that the resource information may not be in an ideal selected state in the coverage area of the operation track, the resource information state can be quickly changed into the ideal state by a user. Therefore, the resource information needing to be processed in the coverage area can be quickly changed into the selected state. The user can quickly change the state of the required resource information by only operating once under the condition that the user needs to select a part of resource information in the resource information list, and each resource information does not need to be operated independently, so that a large amount of operation time is saved, and the use convenience is obviously improved.

By using the resource processing method in the embodiment, the resource information existing on the two interfaces can be rapidly selected and rapidly processed at the same time, so that the efficiency of processing the resource information is greatly improved, and the resource processing method is very convenient to use. And the processing process is flexible and controllable.

Second embodiment

Referring to fig. 5, the present application further provides a resource processing method, including:

step S10: receiving a region selection operation on resource information, wherein the resource information is distributed on at least two program interfaces. The area selection operation may be a touch operation or an idle operation, etc. Take the photo album interface with WeChat and QQ as examples. The specific opening mode of the album interface in the WeChat is that the WeChat icon, i, is clicked in sequence. The specific opening mode is that the QQ icon-dynamic-friend dynamic-photo album is clicked in sequence. The resource information on the two program interfaces can be processed simultaneously, the convenience is very high, and the user experience is obviously improved.

Specifically, an example is given in which a first region selection operation is performed on the album interface of the WeChat first, and then a second region selection operation is performed on the album interface of the QQ.

In one embodiment, to avoid erroneous operation and to ensure processing efficiency, the interval time between the first region selecting operation and the second region selecting operation may be set, for example, if the interval time is less than or equal to 10 seconds. Therefore, the problem that the user only needs to browse one album interface first and then another album interface to cause misoperation when the user does not need to process the two interfaces at the same time can be avoided, and meanwhile, the operation efficiency can also be improved.

The first region selection operation and the second region selection operation may be the same as those in the first embodiment, and are not described again.

In another specific embodiment, to avoid the misoperation, the first and second region selection operations may be performed according to a set action, for example, after an album interface of the WeChat is opened, the picture to be processed may be searched by flipping up and down, and to avoid selecting the picture not needed in the flipping up and down process, the target picture may be clicked twice or slid twice. That is, the setting action may be an action distinguished from the up-down flipping action, such as clicking twice in succession, sliding twice, and the like.

In this step, the specific implementation of the region selection operation refers to the first embodiment, and is not described again.

Step S20: and selecting at least two pieces of resource information in the coverage area of the area selection operation.

When at least two pieces of resource information are selected, the selection state of the resource information is in an uncertain state, possibly in a fully selected state, possibly in a partially selected state, and possibly in a fully unselected state in the coverage area of the area selection operation. Therefore, between step S10 and step S20, step S11 may be provided: and changing the selection state of all the resource information into all-selected or all-unselected state when the selection state of all the resource information is partially selected in the coverage area of the operation track. And changing the selection states of all the resource information into unselected states under the condition that the selection states of all the resource information are selected in the coverage area of the operation track. And changing the selection states of all the resource information into selected states when the selection states of all the resource information are unselected in the coverage area of the operation track.

The step S11 is beneficial to quickly change the selection status of all resource information in the coverage area to unselected status, and then the user can more quickly select at least two resource information.

After the user performs the area selection operation, the resource information in the coverage area of the operation trajectory may not be in the ideal selection state, and at this time, the following manner may be set so that the user may quickly bring the resource information in the coverage area into the ideal selection state. The selection may be performed by clicking or sliding.

Step S30: processing the resource information according to the second preset processing rule to generate at least one new resource information; the new resource information is different from any one of the at least two resource information; and the second preset processing rule is set according to the resource attribute of the resource information. In this step, the resource information may be deleted and/or merged according to a second preset processing rule to generate new resource information.

In a second embodiment, the resource attributes of the resource information include: types of resources, including text files, picture files, audio files, and video files. Then said processing said resource information according to said second preset processing rule to generate at least one new resource information comprises:

and under the condition that the types of the at least two pieces of resource information are different, combining the at least two pieces of resource information to generate at least one piece of new resource information. For example, synthesizing pictures, text and audio into a video blog VLOG. For details, reference may be made to the description of "in the first embodiment, in the case where the types of the files are different, the files are merged into a new file of the same type or different types". And will not be described in detail.

And under the condition that the types of the at least two pieces of resource information are the same, acquiring difference information of each piece of resource information in the at least two pieces of resource information, and combining the difference information to generate at least one new piece of resource information.

The method specifically comprises the following steps: and under the condition that the at least two pieces of resource information are at least two pictures, after the shooting interval of the at least two pictures is judged to be smaller than the set threshold value, applying the picture parameter of one picture to the other picture to generate a new picture. When the at least two pieces of resource information are at least two pictures, judging that the shooting interval of the at least two pictures is smaller than a set threshold value; combining the optimal resources of each picture in the at least two pictures to form a new picture. The set threshold may be 1 second, 2 seconds, or the like. Mainly refers to pictures continuously shot in the same scene when shooting.

For example: when the two pieces of resource information are two pictures, the image parameter of one picture can be applied to the other picture, and then a new picture is generated. The picture processing parameters comprise picture parameters and optimal resources, the picture parameters comprise exposure parameters, blurring parameters, beauty parameters and the like, and the optimal resources refer to: picture characteristics; specific examples thereof include: in multi-person photography, multiple photographs are taken in succession, with some persons closing their eyes in the first photograph, but in the second photograph in an open eye condition. At this time, the eye part of the person in the second picture is the picture feature. Another example is: in the first picture, a person lowers his head, and in the second picture, the person raises his head, and the head part of the person is the picture characteristic. I.e., the optimal resource is to photograph a dynamic object, in conventional recognition, the state that it should be, e.g., the person should be in an open eye or raised head state.

And under the condition that the types of the at least two pieces of resource information are partially the same, merging the resource information with the same type, and merging the merged resource information with the resource information with different types to generate at least one piece of new resource information. When merging the resource information of the same type, taking pictures as an example, merging may be performed as a picture collection, or merging the difference information into a new picture. The new picture or collection of pictures is then combined with other audio etc. to a video blog VLOG.

In the second embodiment, the resource information on two different program interfaces can be quickly selected and quickly processed, so that the selection speed and the processing speed are improved, and the processing mode is more flexible.

Especially aiming at pictures, audio, video, texts and the like which are frequently used by users, a collection can be synthesized, and aiming at the pictures, the best action states of objects in the continuously shot similar pictures, especially shot objects which can act, can be synthesized together, so that the picture quality is improved, and the processing time is saved.

Third embodiment

Referring to fig. 6, the present embodiment provides a resource processing method, including:

step S10; and receiving key operation. The key operation includes pressing any one of a volume increasing key, a volume decreasing key and a power key, or pressing the volume increasing key and the power key simultaneously, or pressing the volume decreasing key and the power key simultaneously, and the key may be a physical key with an entity or a virtual key on an interface, without limitation.

Step S20: receiving a region selection operation on resource information, wherein the resource information is distributed on at least two program interfaces. This step is the same as S10 in the second embodiment, and is not described again.

Step S30: changing a selection state of resource information located within a coverage area of the second operation. Specifically, the following three cases are included:

and when the selection state of the resource information in the coverage area is partially selected, changing the selection state of all the resource information in the coverage area to be fully selected or not selected. And changing the selection state of all the resource information into unselected state under the condition that the selection state of all the resource information in the coverage area is selected. And changing the selection state of all the resource information into selected state under the condition that the selection state of all the resource information in the coverage area is unselected.

Because the initial state of the resource information in the coverage area is uncertain, the selection states of all the resource information in the coverage area can be changed at one time by adopting the mode, which is favorable for quickly selecting the state of the resource information needing to be processed, especially the state of the selected part of the resource information.

Alternatively, the key operation and the region selection operation may be performed simultaneously or sequentially. Or after receiving the key operation, the area selection operation is performed. For example: the user presses the power key first and then slides the finger across the touch interface. Alternatively, the user slides on the touch interface using an external input device such as a touch pen while pressing the volume up key without releasing it. Or after the user presses the volume reduction key and the power key simultaneously, the clicking operation is carried out on the touch interface. Or the user can shake the user's hand in front of the interface after pressing the power key. It will be appreciated that the sliding operation described above may be a continuous linear sliding or a continuous curvilinear sliding.

After the selection of the resource information is complete, a preset action may be received for identifying that the selection has been completed. That is, the user selects some resource information in the range of the area selection operation after changing the state of the resource information from all unselected states to selected states, or from partial selected states to all unselected states, or in any other way to all unselected states. If the screen is stopped for a preset time or continuously tapped, the selection state is changed completely. At this point the next step can be performed. The predetermined time may be 5 seconds.

Step S40: and displaying the resource information in the selected state in the area selection operation coverage area on a terminal interface. The terminal interface comprises a main control interface, a negative one-screen interface and a program interface. Therefore, in the area selection operation coverage area, the resource information in the selected state can be displayed in a blank area of the main control interface, the negative one-screen interface or the program interface. Therefore, various resource information on the program interface can be selected quickly, and the resource information is displayed on the terminal interface, so that the use convenience is improved.

Before displaying the resource information in the selection operation coverage area on the terminal interface, the method further comprises the following steps: and identifying the type of the resource information, and determining the display position of the resource information according to the type of the resource information. Specifically, when the types of the resource information are text files, the resource information is displayed on a file management program interface. And when the type of the resource information is a picture or a video file, displaying the resource information on a gallery program interface. And when the type of the resource information is an audio file, displaying the resource information on a program interface of the recorder. For example, text is displayed on the WPS application interface and pictures or videos are displayed on the photo album interface. The display position is fine, and different types of resource information are displayed on a conventional interface capable of displaying or editing the resource information, so that the subsequent tedious operation that a user needs to further process the resource information is saved. For example, the user may need to further edit the text document.

For example: as shown in fig. 7 and 8, the user first presses the volume up key, then opens the album boundary of the QQ, and 100 performs the first area selection operation, and 5 photos are in the coverage area of the first operation track 110 of the first area selection operation, and all photos are initially in the selected state. And opening the wechat album interface 200 to perform a second area selection operation, wherein 5 photos are initially in a partially selected state in the coverage area of the first operation track 120 of the first area selection operation.

Referring to fig. 8, after the first area selection operation and the second area selection operation are performed, all of the 5 photos and the 5 photos in the two coverage areas are in the unselected state from the initial selection state. As shown in fig. 9, at this time, the user selects 3 photos in the album interface 100 of the QQ and 2 photos in the album interface 200 of the wechat again by clicking or sliding operation. The screen is then tapped twice. Referring to fig. 10, a total of 5 photos of the 3 photos and 2 photos selected at this time are simultaneously displayed in a blank position of the main control interface 1000 and displayed in the form of a floating window 1100. The user can see the 5 photos clearly in the floating window 1100. The 5 photographs may be arranged longitudinally, transversely, or randomly, etc.

It is understood that, in fig. 7 to 9, the displayed candidate boxes may be displayed by pressing any photo in the album interface.

It can be understood that, before the selection operation is finished by tapping the screen twice, the operations on the two album interfaces can be performed sequentially or alternately without limitation.

Referring to fig. 11, the present application further provides a mobile terminal 100, including a memory 110 and a processor 120, where the memory 110 is configured to store at least one program instruction, and the processor 120 is configured to implement the resource processing method according to any embodiment of the present application by loading and executing the at least one program instruction.

Referring to fig. 12, the present application further provides a computer-readable storage medium 2000, where the computer-readable storage medium 2000 is used for storing instructions, and when the instructions are executed, the resource processing method according to any embodiment of the present application is implemented.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context. Also, as used herein, the singular forms "a", "an" and "the" are intended to include the plural forms as well, unless the context indicates otherwise. It will be further understood that the terms "comprises," "comprising," "includes" and/or "including," when used in this specification, specify the presence of stated features, steps, operations, elements, components, items, species, and/or groups, but do not preclude the presence, or addition of one or more other features, steps, operations, elements, components, species, and/or groups thereof. The terms "or" and/or "as used herein are to be construed as inclusive or meaning any one or any combination. Thus, "A, B or C" or "A, B and/or C" means "any of the following: a; b; c; a and B; a and C; b and C; A. b and C ". An exception to this definition will occur only when a combination of elements, functions, steps or operations are inherently mutually exclusive in some way.

It should be understood that, although the respective steps in the flowcharts in the above-described embodiments are sequentially shown as indicated by arrows, the steps are not necessarily performed sequentially as indicated by the arrows. The steps are not performed in the exact order shown and may be performed in other orders unless explicitly stated herein. Moreover, at least some of the steps in the figures may include multiple sub-steps or multiple stages that are not necessarily performed at the same time, but may be performed at different times, in different orders, and may be performed alternately or at least partially with respect to other steps or sub-steps of other steps. The foregoing detailed description of the embodiments of the present application has been presented to illustrate the principles and implementations of the present application, and the above description of the embodiments is only provided to help understand the method and the core concept of the present application; meanwhile, for a person skilled in the art, according to the idea of the present application, there may be variations in the specific embodiments and application scope, and in summary, the content of the present specification should not be construed as a limitation to the present application.

Claims

1. A method for processing resources, comprising:

receiving region selection operation of resource information on at least two interfaces;

comparing the operation tracks of the region selection operation of each interface on the at least two interfaces;

and processing the resource information positioned in the coverage area of the operation track according to the comparison result and/or the selection operation sequence of the area selection operation, wherein the processed resource information is the resource information in the selected state.

2. The resource processing method according to claim 1, wherein processing the resource information located in the coverage area of the operation trajectory according to the comparison result comprises:

deleting the resource information in the coverage area of the operation track under the condition that the operation track is in mirror symmetry;

under the condition that the operation tracks are the same, merging the resource information in the coverage area of the operation tracks to generate at least one new resource information;

and under the condition that the operation tracks are combined into a preset graph, processing the resource information in the coverage area of the operation tracks according to a first preset processing rule corresponding to the preset graph.

3. The resource processing method according to claim 2, wherein, when the operation tracks are combined into a preset graph, processing the resource information located in the coverage area of the operation tracks according to a first preset processing rule corresponding to the preset graph includes:

hiding part of resource information in a coverage area of the operation tracks under the condition that the operation tracks are combined into a first set graph;

under the condition that the operation tracks are combined into a second set graph, deleting part of resource information in a coverage area of the operation tracks;

and under the condition that the operation tracks are combined into a third set graph, deleting and/or combining the resource information in the coverage area of the operation tracks according to a second preset processing rule.

4. The method according to claim 1, wherein the processing the resource information according to the selection operation sequence of the region selection operation comprises:

deleting and/or merging the resource information ranked from the first bit to the Nth bit in the selection operation sequence of the region selection operation according to a second preset processing rule; deleting and/or merging the resource information from the (N + 1) th bit to the last bit according to a second preset processing rule; n is an integer greater than 2.

5. The method according to claim 1, wherein the processing the resource information according to the comparison result and the selection operation sequence of the region selection operation comprises:

under the condition that the operation tracks are combined into a preset graph, processing the resource information in the coverage area of the operation tracks according to a first preset processing rule corresponding to the preset graph; deleting and/or merging the resource information ranked from the first bit to the Nth bit in the selection operation sequence of the region selection operation of the processed resource information according to a second preset processing rule; deleting and/or merging the resource information from the (N + 1) th bit to the last bit according to a second preset processing rule; n is an integer greater than 2.

6. The resource processing method according to any one of claims 3 to 5, wherein the deleting and/or merging according to the second preset processing rule comprises: and merging and/or deleting the resource information positioned in the coverage area according to a second preset processing rule set by the resource attribute of the resource information.

7. The resource handling method of claim 1, wherein the at least two interfaces comprise at least two program interfaces.

8. The resource processing method according to claim 6, wherein the resource information includes a file and/or application software; the resource attribute comprises at least one of the type of the resource, the content of the resource, the byte size of the resource, the label of the resource, the generation time or modification time of the resource, the storage position of the resource and the sharing record of the resource.

9. The method according to claim 8, wherein the label of the resource includes at least one of resource naming and resource remark information, and the label of the resource is used for marking whether the resource information is favorite.

10. The method according to claim 8, wherein the merging and/or deleting the resource information located in the coverage area according to a second preset processing rule set according to the resource attribute of the resource information comprises:

under the condition that the resource information comprises application software, deleting the application software according to the content, the generation time or the modification time or the label of the application software in the coverage area;

under the condition that the resource information comprises a file, combining and/or deleting the file according to the attribute of the file in the coverage interval;

and under the condition that the resource information comprises files and application software, deleting and/or merging the files according to the attributes of the files in the coverage area, and merging the processed files into the application software.

11. The method according to claim 10, wherein, in a case where the resource information includes application software, deleting the application software according to content, generation time, or modification time or tag of the application software in the coverage area comprises:

and when the coincidence degree of the contents of the plurality of application software is greater than or equal to the preset coincidence degree, keeping the application software with the latest version or the latest service time in the plurality of application software, and deleting the rest of the application software which is coincided with the application software.

12. The resource processing method according to claim 10, wherein the merging and/or deleting the file according to the attribute of the file within the coverage area comprises:

merging the files positioned in the coverage area according to at least one of the type, the storage position, the sharing record, the label and the byte size of the files in the coverage area; and deleting the files positioned in the coverage area according to at least one of the content, the label, the generation time or the modification time of the files in the coverage area.

13. The resource processing method of claim 12, wherein merging the files located within the coverage area according to the type of the files within the coverage area comprises:

under the condition that the types of the files are the same, combining the files into a new file of the same type;

combining the files into a new file of the same type or different types under the condition that the types of the files are different; the type includes any one of a text file, a picture file, an audio file, and a video file.

14. The resource processing method of claim 12, wherein merging the files located in the coverage area according to the type and storage location of the files in the coverage area comprises: merging files of the same type located in the same storage position into a new file under the condition that the files are distributed in a plurality of storage positions and the types of the files are the same; under the condition that the files are distributed in a plurality of storage positions and the types are different, combining the files located in the same storage position into new files of the same type or different types;

or under the condition that the files are distributed in a plurality of storage positions and the types are the same, combining the files of the same type in different storage positions into a new file; and combining the files located at different storage positions into new files of the same type or different types under the condition that the files are distributed at a plurality of storage positions and the types are different.

15. The resource processing method according to claim 12, wherein merging the files located in the coverage area according to the type and the sharing record of the files in the coverage area comprises: under the condition that the types of the files are the same, combining the files with sharing records into a new file of the same type, and combining the files without sharing records into a new file of the same type;

and under the condition that the types of the files are different, combining the files with the sharing records into new files of the same type or different types, and combining the files without the sharing records into new files of the same type or different types.

16. The resource processing method of claim 12, wherein merging the files located in the coverage area according to the type and byte size of the files in the coverage area comprises: under the condition that the types of the files are the same, combining the files with the byte sizes smaller than a first set threshold value into a new file of the same type;

under the condition that the types of the files are different, combining the files with the byte size smaller than a first set threshold value into new files of the same type or different types; the byte size of the new file is smaller than a second set threshold, and the second set threshold is larger than the first set threshold.

17. The resource processing method of claim 12, wherein merging the files located in the coverage area according to the type and the label of the files in the coverage area comprises: under the condition that the types of the files are the same, combining the files with the labels into a new file of the same type, and combining the files without the labels into a new file of the same type;

and under the condition that the types of the files are different, combining the files with the labels into new files of the same type or different types, and combining the files without the labels into new files of the same type or different types.

18. The resource processing method of claim 12, wherein deleting the files located in the coverage area according to the content of the files in the coverage area comprises: and under the condition that the coincidence degree of the contents of the files is greater than or equal to the preset coincidence degree, keeping the file with the best quality or the latest modification time in the files, and deleting the rest of the files coincident with the file.

19. The resource processing method of claim 12, wherein deleting the files located in the coverage area according to the tags of the files in the coverage area and the generation time or the modification time comprises: and deleting the resource information under the condition that the modification time or the establishment time of the resource information is greater than a set time period and no label exists.

20. The resource processing method of claim 10, wherein the merging the processed file into the application software comprises:

if the file comprises a picture file, using the picture file as a use background or a registration head portrait of the application software;

in the case that the file comprises an audio file or a video file, taking the audio file or the video file as a use background of the application software;

and in the case that the file comprises a text file, taking the text file as a registered user name of the application software.

21. The resource processing method according to claim 10, wherein, when the resource information includes a file and application software, deleting and/or merging the file according to an attribute of the file in the coverage area, and merging the processed file into the application software includes: under the condition that the resource information comprises files and application software, if the application software comprises file processing software, deleting and/or merging the files by using the file processing software according to the file attributes in the coverage area, and merging the processed files into the application software.

22. The method according to claim 6, wherein the merging and/or deleting the resource information located in the coverage area according to a second preset processing rule set according to the resource attribute of the resource information comprises:

setting a second preset processing rule according to the resource attribute of the resource information by manually selecting an operation mode or automatically defaulting the operation mode; and merging and/or deleting the resource information positioned in the coverage interval.

23. The method according to claim 22, wherein the setting of the second preset processing rule according to the resource attribute of the resource information in the coverage area is performed by manually selecting an operation mode according to the resource attribute of the resource information; merging and/or deleting the resource information located in the coverage area comprises:

after the resource attribute of the resource information in the coverage area is identified, outputting an operation frame; and receiving the operation of the output operation frame, forming a second preset processing rule according to the resource attribute of the resource information, and merging and/or deleting the resource information positioned in the coverage area.

24. The method according to claim 22, wherein the setting, by an automatic default operation mode, a second preset processing rule according to the resource attribute of the resource information in the coverage area, and the merging and/or deleting the resource information in the coverage area comprises:

setting a default processing mode for the resource information according to the resource attribute of the resource information;

and merging and/or deleting the resource information positioned in the coverage interval according to the default processing mode.

25. The resource processing method according to claim 2, wherein before processing the resource information located between the coverage areas of the operation tracks according to the comparison result and/or the selection operation sequence of the area selection operation, the method further comprises:

when the selection states of all the resource information are partially selected in the coverage area of the operation track, changing the selection states of all the resource information into all selected states or all unselected states;

changing the selection states of all the resource information into unselected states under the condition that the selection states of all the resource information are selected in the coverage area of the operation track;

and changing the selection states of all the resource information into selected states when the selection states of all the resource information are unselected in the coverage area of the operation track.

26. The method according to claim 1, wherein the receiving a region selection operation for resource information on at least two interfaces comprises: and receiving touch operation or space operation of the resource information on the two interfaces.

27. The method of claim 1, wherein the receiving the region selection operation for the resource information comprises: and receiving key operation and receiving touch operation or air separation operation on resource information on at least two interfaces.

28. A method for processing resources, comprising:

receiving a region selection operation for resource information, wherein the resource information is distributed on at least two program interfaces;

selecting at least two resource information in the coverage area of the area selection operation;

processing the resource information according to a second preset processing rule to generate at least one new resource information; the new resource information is different from any one of the at least two resource information; and the second preset processing rule is set according to the resource attribute of the resource information.

29. The resource processing method of claim 28, wherein the resource attribute of the resource information comprises: the types of the resources comprise text files, picture files, audio files and video files;

the processing the resource information according to the second preset processing rule to generate at least one new resource information includes:

under the condition that the types of the at least two pieces of resource information are different, combining the at least two pieces of resource information to generate at least one piece of new resource information;

under the condition that the types of the at least two pieces of resource information are the same, acquiring difference information of each piece of resource information in the at least two pieces of resource information, and combining the difference information to generate at least one new piece of resource information;

and under the condition that the types of the at least two pieces of resource information are partially the same, merging the resource information with the same type, and merging the merged resource information with the resource information with different types to generate at least one piece of new resource information.

30. The method of claim 29, wherein the resource information includes at least two of text, picture, audio and video, and the new resource information includes a video blog VLOG generated by superimposing the text, picture, audio and video.

31. The method of claim 29, wherein in a case that the types of the at least two pieces of resource information are the same, acquiring difference information of each piece of resource information in the at least two pieces of resource information, and combining the difference information to generate at least one new piece of resource information comprises:

and applying the picture processing parameter of one picture to the other picture according to a third preset processing rule under the condition that the at least two pieces of resource information are at least two pictures so as to generate a new picture.

32. The resource processing method according to claim 31, wherein, in a case that the at least two pieces of resource information are at least two pictures, applying the picture processing parameter of one picture to another picture according to a third preset processing rule to generate a new picture comprises:

under the condition that the at least two pieces of resource information are at least two pictures, after the shooting interval of the at least two pictures is judged to be smaller than a set threshold value, the picture parameter of one picture is applied to the other picture to generate a new picture;

when the at least two pieces of resource information are at least two pictures, judging that the shooting interval of the at least two pictures is smaller than a set threshold value; combining the optimal resources of each picture in the at least two pictures to form a new picture.

33. The method of any of claims 29 to 32, wherein receiving a region selection operation for resource information, wherein the resource information is distributed across at least two program interfaces, comprises:

and after receiving a first region selection operation on the resource information on the first program interface, receiving a second region selection operation on the resource information on the second program interface within a set time interval.

34. The method of any of claims 29 to 32, wherein receiving a region selection operation for resource information, wherein the resource information is distributed across at least two program interfaces, comprises:

after receiving a first region selection operation on the resource information on the first program interface, receiving a second region selection operation on the resource information on the second program interface, wherein the first region selection operation and the second region selection operation are performed according to a set action.

35. A method for processing resources, comprising:

receiving key operation;

receiving region selection operation of resource information, wherein the resource information is distributed on at least two program interfaces;

changing the selection state of the resource information in the coverage area of the area selection operation;

and displaying the resource information in the selected state in the area selection operation coverage area on a terminal interface.

36. The resource processing method according to claim 35, wherein the receiving of the key operation; receiving a region selection operation for resource information, comprising:

and receiving a second area selection operation of the resource information on the second program interface within a set time interval after receiving a first area selection operation of the resource information on the first program interface while or after receiving the key operation, and displaying the resource information in the selection operation coverage area on the terminal interface according to the selection operation sequence.

37. The resource handling method of claim 36, further comprising ending the act of altering the selection state by recognizing a preset action; the preset action is at least two times of knocking operation and/or stopping for a preset time length selection operation.

38. The resource processing method according to claim 35, wherein the region selection operation includes any one of a touch operation and a blank operation on a region where the resource information is located, and the key includes a virtual key or a physical key.

39. The resource processing method according to any one of claims 35 to 38, wherein the terminal interface includes a main control interface, a negative one-screen interface, and a program interface, and the step of displaying the resource information in the selected operation coverage area on the terminal interface includes: and displaying the resource information in the coverage area of the area selection operation in a blank area of the main control interface, the negative one-screen interface or the program interface.

40. The method for processing resources of claim 39, wherein before displaying the resource information in the operation-selection coverage area on the terminal interface, the method further comprises: and identifying the type of the resource information, and determining the display position of the resource information according to the type of the resource information.

41. The method of claim 40, wherein the identifying the type of the resource information and the determining the display position of the resource information according to the type of the resource information comprises:

when the types of the resource information are text files, displaying the resource information on a file management program interface;

when the type of the resource information is a picture or a video file, displaying the resource information on a gallery program interface;

and when the type of the resource information is an audio file, displaying the resource information on a program interface of the recorder.

42. The method according to any of claims 35 to 38, wherein changing the selection state of resource information located within the coverage area of the area selection operation comprises:

when the selection state of the resource information in the coverage area of the area selection operation is partial selection, changing the selection state of all the resource information in the coverage area into full selection or full non-selection;

under the condition that the selection state of the resource information positioned in the coverage area of the area selection operation is selected, changing the selection state of all the resource information into unselected state;

and changing the selection states of all the resource information into selected states when the selection states of the resource information in the coverage area of the area selection operation are not selected.

43. A mobile terminal, characterized in that it comprises a memory for storing at least one program instruction and a processor for implementing the resource handling method according to any of claims 1 to 42 by loading and executing the at least one program instruction.

44. A computer-readable storage medium storing instructions that, when executed, cause the method of any one of claims 1 to 42 to be implemented.