CN113268193A - Note page moving method, electronic equipment and computer storage medium - Google Patents

Abstract

The invention discloses a method for moving a note page, electronic equipment and a computer storage medium. The method comprises the following steps: responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved; acquiring a target note page according to the original position identification; responding to the detected destination position selection operation, and acquiring a destination position identifier of a target note page; and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification. According to the scheme, the automatic movement of the note pages can be realized only by selecting the note pages to be moved and the target positions of the note pages to be moved by the user, so that the diversified processing requirements of the user on the note pages are met, and the user experience is improved; and the operation of the user is simple and convenient, and the method is suitable for large-scale application and implementation.

Description

Note page moving method, electronic equipment and computer storage medium

Technical Field

The invention relates to the technical field of electronic books, in particular to a note page moving method, electronic equipment and a computer storage medium.

Background

With the continuous development of science and technology and society, people are more and more favored to read electronic books through electronic equipment. In order to enhance the use experience of the user of the electronic book, many electronic devices are provided with a handwriting function, and the user can write notes in the screen of the electronic device through an electromagnetic pen and the like.

Electronic devices typically save notes written by a user on a page basis and store note pages corresponding to the same electronic book in a notebook. However, the inventor finds that the following defects exist in the prior art in the implementation process: at present, a user can only delete a generated note page or modify the content in the generated note page, so that the prior art cannot meet the diversified processing requirements of the user on the note page.

Disclosure of Invention

In view of the above, the present invention has been made to provide a method of moving a note sheet, an electronic device, and a computer storage medium that overcome or at least partially solve the above problems.

According to an aspect of the present invention, there is provided a method of moving a note sheet, including:

responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved; acquiring the target note page according to the original position identification; responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page; and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification.

According to another aspect of the present invention, there is provided an electronic apparatus including: the screen, the processor, the memory, the communication interface and the communication bus are used for completing mutual communication;

the memory is configured to store at least one executable instruction that causes the processor to: responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved; acquiring the target note page according to the original position identification; responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page; and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification.

According to still another aspect of the present invention, there is provided a computer storage medium having at least one executable instruction stored therein, the executable instruction causing a processor to perform operations corresponding to the method for moving a note page as described above.

According to the moving method of the note pages, the electronic equipment and the computer storage medium disclosed by the invention, firstly, the original position identification of the target note page to be moved is obtained in response to the detected note page selection operation; acquiring a target note page according to the original position identification; further responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page; and finally, inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification. According to the scheme, the automatic movement of the note pages can be realized only by selecting the note pages to be moved and the target positions of the note pages to be moved by the user, so that the diversified processing requirements of the user on the note pages are met, and the user experience is improved; and the operation of the user is simple and convenient, and the method is suitable for large-scale application and implementation.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a flowchart illustrating a method for moving a note page according to an embodiment of the present invention;

fig. 2 is a flowchart illustrating a method for moving a note page according to a second embodiment of the present invention;

fig. 3 is a flowchart illustrating a method for moving a note page according to a third embodiment of the present invention;

fig. 4 is a flowchart illustrating a method for moving a note page according to a fourth embodiment of the present invention;

fig. 5 shows a schematic structural diagram of an electronic device according to a sixth embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present invention will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the invention are shown in the drawings, it should be understood that the invention can be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art.

Example one

Fig. 1 shows a flowchart of a method for moving a note page according to an embodiment of the present invention. The method for moving the note page provided by the embodiment can be applied to electronic equipment with a handwriting function. As shown in fig. 1, the method includes:

step S110, in response to the detected selection operation of the note page, acquiring an original position identifier of the target note page to be moved.

In an actual implementation process, after a user inputs a handwritten note in an electronic device, the electronic device stores the input handwritten note by pages, so as to generate a corresponding note page. The generated note pages are integrated according to corresponding integration rules to generate a notebook, for example, all note pages for the same electronic book are integrated into one notebook. Each notebook thus contains at least one note page, and each note page in the notebook is assigned a corresponding page number that identifies the order of the note pages in the notebook.

Each note page is provided with a unique actual position identification, and the current position of the note page can be determined according to the actual position identification. The position identifier may be composed of a notebook identifier of a notebook to which the note page belongs and a page number identifier of the note page in the notebook. For example, the location identifier of the note page X may be "notebook a + page number P", where the note page X belongs to the notebook a and the page number of the note page X in the notebook a is P.

In order to meet the diversified processing requirements of the user on the note pages, the embodiment provides the note page moving function for the user, and the user can automatically move the note pages through the note page moving function. Specifically, in order to improve the flexibility of user operation and meet the personalized requirements of the user, the user can select a note page to be moved through note page selection operation. And when the note page selection operation is detected, taking the note page selected by the user as a target note page, and acquiring the actual position identifier of the current target note page, wherein the current actual position identifier of the target note page is the original position identifier of the target note page and is also the position identifier of the target note page before the current movement operation is executed.

And step S120, acquiring a target note page according to the original position identifier.

In this embodiment, the relevant configuration information of the note page is stored in association with the actual location identifier, so that the note page having a mapping relationship with the original location identifier can be accurately obtained through the original location identifier obtained in step S110, that is, the target note page is obtained. Further, the execution sequence of step S120 is not limited in this embodiment, and step S120 may be executed before step S130, may be executed after step S130, and may also be executed concurrently with step S130.

Step S130, responding to the detected destination position selection operation, and acquiring the destination position identification of the target note page.

The user can specify the moved position of the target note page, which is the target position of the target note page, through the target position selection operation. In the step, the position mark of the target note page selected by the user is used as the target position mark of the target note page, so that the user can independently select the position of the note page to be moved after the note page is moved, and the personalized requirements of the user are further met.

The target position mark is different from the original position mark, so that the target note page is moved. In addition, the destination position mark and the original position mark can correspond to the same notebook mark, so that the movement of the note pages in the same notebook is realized; still alternatively, the destination location identifier and the home location identifier may correspond to different notebook identifiers, thereby enabling movement of the note pages between different notebooks.

And step S140, inserting the target note page into the position corresponding to the target position identifier, and deleting the target note page corresponding to the original position identifier.

And the position corresponding to the target position mark is the target position, the target note page is inserted into the target position, and the target note page in the original position is deleted, so that the target note page is moved from the original position to the target position.

In an optional implementation manner, to further implement accurate management of the note page and improve user experience, after the target note page is inserted into the position corresponding to the destination position identifier, the actual position identifier of the target note page is updated according to the destination position identifier, specifically, the destination position identifier is used as the current actual position identifier of the target note page. For example, if the original position of the target note page is marked as "notebook a + page number P" and the destination position is marked as "notebook B + page number Q", the actual position mark of the target note page is changed to "notebook B + page number Q" after the target note page is inserted into the position corresponding to the destination position mark.

In yet another alternative embodiment, after the target note page is inserted into the position corresponding to the destination position identifier and the target note page corresponding to the original position identifier is deleted, the actual position identifiers of other note pages in the notebook corresponding to the target note page are updated.

Specifically, a first candidate note page and a second candidate note page associated with the target note page are first identified. The notebook identifier in the actual position identifier of the first candidate note page is consistent with the notebook identifier in the original position identifier of the target note page, namely the first candidate note page is the note page in the notebook where the target note page is located before moving; the notebook identifier in the actual position identifier of the second candidate note page is consistent with the notebook identifier in the destination position identifier of the target note page, that is, the second candidate note page is a note page in the notebook where the target note page is located after moving.

Furthermore, in the embodiment, not all the first candidate note pages and the second candidate note pages are subjected to page number adjustment, but the candidate note pages needing to be adjusted are identified from the first candidate note pages and the second candidate note pages, so that the overall data processing amount is reduced, and the computing resources are saved. Specifically, a first note page to be adjusted is screened out from a first candidate note page, wherein a page number identifier in an actual position identifier of the first note page to be adjusted is larger than a page number identifier in an original position identifier of a target note page, namely the first note page to be adjusted is a note page in which a page number in a notebook where the target note page is located before movement is located behind the target note page; and screening a second note page to be adjusted from the second candidate note pages, wherein the page number identifier in the actual position identifier of the second note page to be adjusted is larger than the page number identifier in the destination position identifier of the target note page, namely the second note page to be adjusted is the note page with the page number in the notebook where the target note page is located after the target note page after being moved.

And updating the page number identifiers in the current actual position identifiers of the first note page to be adjusted and the second note page to be adjusted. Specifically, the page number identifier in the actual position identifier of the first note page to be adjusted is reduced, and the page number identifier in the actual position identifier of the second note page to be adjusted is increased.

Therefore, according to the embodiment, the automatic movement of the note pages can be realized only by selecting the note pages to be moved and the target positions of the note pages to be moved by the user, so that the diversified processing requirements of the user on the note pages are met, and the user experience is improved; and the operation of the user is simple and convenient, and the method is suitable for large-scale application and implementation.

Example two

Fig. 2 is a flowchart illustrating a method for moving a note page according to a second embodiment of the present invention. The method for moving the note pages provided by the embodiment is further optimized for the first embodiment. Specifically, the present embodiment uses a processing procedure of a note page as an example to explain in detail the implementation procedure of the note page moving method provided by the present invention. As shown in fig. 2, the method includes:

step S210, in response to the detected first note page selection operation, acquiring an actual position identifier of the current note page, and determining the actual position identifier of the current note page as an original position identifier of the target note page.

The first note page selecting operation is an operation of selecting a current note page as a target note page to be moved, and the specific form of the first note page selecting operation is not limited in this embodiment. For example, a selection control of a current note page may be presented in a page on which the note page is displayed, and after a user triggers an operation for the selection control through a click operation, a voice control operation, or the like, the present embodiment takes the note page (i.e., the current note page) displayed in the current page as a target note page, and obtains a current actual position identifier of the current note page as an original position identifier of the target note page.

In step S220, in response to the detected destination location selection operation, the destination location identifier of the target note page is acquired.

In an alternative embodiment, after the user selects the target note page, the destination position selection operation may be performed in other note pages while browsing the other note pages. The present embodiment obtains the actual position identifier of the current note page in response to the detected destination position selection operation, and determines the actual position identifier of the current note page as the destination position identifier of the target note page. By adopting the mode, the user can quickly select the target position, so that the moving efficiency of the note page is improved, the user operation can be simplified, and the user experience is improved.

Further optionally, after the detected destination position selection operation, it is determined whether the current page is a page on which a note page is displayed, and if so, the actual position identifier of the current note page is obtained. Further judging whether the actual position identification of the current note page is the same as the original position identification of the target note page or not, and if not, determining the actual position identification of the current note page as the target position identification of the target note page; if the position of the target note page is the same as the position of the target note page, the detected target position selection operation is not responded, so that the target note page is prevented from being inserted into the original position by a user, and system resources are saved.

In yet another alternative embodiment, after the user selects the target note page, the user may further perform a destination location selection operation, and in this embodiment, in response to the detected destination location selection operation, a destination location input entry is presented, and a location identifier input through the destination location input entry is acquired, and the input location identifier is taken as the destination location identifier of the target note page. By adopting the mode, the user can accurately determine the target position, the error movement of the note page is avoided, and the movement precision of the note page is improved.

Further optionally, in order to facilitate the user to accurately input the destination location, the destination location input entry specifically includes a notebook information input sub-entry and a page number information input sub-entry. The notebook information input sub-entry is used for inputting a notebook identifier corresponding to the target position, and the page number information input sub-entry is used for inputting a page number identifier corresponding to the target position. Therefore, the destination position identification of the target note page is obtained through the combination of the notebook identification input by the notebook information input sub-entry and the page identification input by the page number information input sub-entry. If the situation that the user inputs the page number identification only at the page number information input sub-entry is detected, the target position identification of the target note page is obtained according to the notebook identification in the original position identification of the target note page and the page number identification combination input at the page number information input sub-entry.

Further optionally, a plurality of location identifiers input through the destination location input entry are obtained, and each input location identifier is respectively used as the destination location identifier of the target note page. That is, the user can select multiple destination location identifiers for one target note page, so as to insert the same target note page into multiple destination locations. In the actual implementation process, every time a user completes the input of a group of notebook information input sub-entries and page number information input sub-entries, the information input by the group of notebook information input sub-entries and page number information input sub-entries is combined into a destination location identifier.

In order to improve the input efficiency of the destination position identifier, when a user wants to move a target notebook page to the same page number in a plurality of notebooks, the user can input a plurality of notebook identifiers in batch through the notebook information input sub-entry and input a single page number identifier through the page number information input sub-entry. In this case, the embodiment obtains a plurality of notebook identifiers input through the notebook information input sub-entry, respectively determines total page numbers corresponding to the notebook identifiers in the plurality of notebook identifiers, then screens out a minimum total page number from the total page numbers at the determined position, after a user inputs a single page number identifier through the page number information input sub-entry, judges whether the single page number identifier input through the page number information input sub-entry is larger than the minimum total page number, and if not, respectively combines each notebook identifier in the plurality of notebook identifiers with the single page number identifier to generate each destination position identifier of the target notebook page; if so, displaying corresponding prompt information so that the user can check whether the input page number identification is accurate.

Accordingly, when the user wants to move the target notebook page to a plurality of page numbers in the same notebook, the user can input a single notebook identifier through the notebook information input sub-entry and input a plurality of page number identifiers in batch through the page number information input sub-entry. In this case, the present embodiment obtains a single notebook id input through the notebook information input sub-portal, and combines the single notebook id with each page id input through the page information input sub-portal in batch to generate each destination location id of the target notebook page.

Step S230, acquiring a target note page according to the original location identifier, inserting the target note page into a location corresponding to the destination location identifier, and deleting the target note page corresponding to the original location identifier.

In an alternative embodiment, each notebook may be configured with a corresponding notebook configuration file set, and the notebook configuration file set includes a notebook index of the notebook, and the notebook index records the actual location identifiers of all notebook pages in the notebook. The notebook configuration file set also contains configuration files of all notebook pages contained in the notebook. Inserting the target note page into the position corresponding to the destination position identifier, and deleting the target note page corresponding to the original position identifier, specifically, updating the note page index in the notebook corresponding to the original position identifier (for example, deleting the actual position identifier of the target note page from the note page index in the notebook) and updating the note page index in the notebook corresponding to the destination position identifier (for example, adding the actual position identifier of the target note page to the note page index in the notebook), and cutting the configuration file of the target note page from the notebook configuration file set of the notebook corresponding to the original position identifier to the notebook configuration file set of the notebook corresponding to the destination position identifier.

Further optionally, to avoid adverse effects of the configuration file on the handwriting function of the user during the moving process. In the embodiment, in the process of inserting the target note page into the position corresponding to the target position identifier and deleting the target note page corresponding to the original position identifier, the note page index in the notebook corresponding to the original position identifier and the note page index in the notebook corresponding to the target position identifier can be updated first, so that the target note page can be displayed at the position corresponding to the target position identifier after being moved, and the look-up function of a user is not influenced. And judging whether the current system is in a busy state such as note drawing, and if not, cutting the configuration file of the target note page from the notebook configuration file set of the notebook corresponding to the original position identification to the notebook configuration file set of the notebook corresponding to the target position identification. Therefore, the configuration file is prevented from being transferred when the mobile terminal is in a busy state such as note drawing, and the note drawing efficiency is further guaranteed.

Therefore, in the embodiment, the current note page can be quickly determined as the target note page through the first note page selection operation, so that the selection efficiency of the target note page is improved; in addition, the actual position of the current note page can be used as the target position through the target position selection operation, so that the user operation is further simplified, and the selection efficiency of the target note page is improved; in addition, the embodiment can also provide the user for inputting the destination position information through the destination position input entrance, thereby ensuring the accuracy of the movement of the note pages.

EXAMPLE III

Fig. 3 shows a flowchart of a method for moving a note page according to a third embodiment of the present invention. The method for moving the note pages provided by the embodiment is further optimized by the first embodiment, and particularly provides a batch moving method for a plurality of target note pages. As shown in fig. 3, the method includes:

step S310, in response to the detected second note page selection operation, identifying a notebook identifier corresponding to the current page, and displaying thumbnails of a plurality of note pages corresponding to the notebook identifier.

And the second note page selection operation is a batch selection operation supporting the target note pages. For example, a batch selection control may be provided in the page, and the batch selection mode of the target note page is entered after the user clicks on the batch selection control.

Specifically, after the detected second note page selection operation, a note page identifier corresponding to the currently displayed page is determined, then a plurality of note page identifiers having a mapping relation with the note page identifier are obtained, and a thumbnail matched with the note page identifier is displayed for any note page identifier. And the thumbnail matched with the note page identifier shows the related information of the note page corresponding to the note page identifier.

In step S320, in response to the detected selection operation for the thumbnail, a target thumbnail selected by the user is identified.

Through the displayed thumbnail, the user can intuitively know the general view of the note page, so that the thumbnail can be selected through selection operation such as clicking. The thumbnail selected by the user is the target thumbnail. In the batch selection mode of the target note pages, a user can select a plurality of thumbnails, so that a plurality of target thumbnails are identified. Further, in the batch selection mode of the target note pages, the user may still select only a single thumbnail so that the identified target thumbnail is one.

Step S330, aiming at any target thumbnail, taking the actual position mark of the note page corresponding to the target thumbnail as the original position mark of the target note page.

When a plurality of target thumbnails are provided, for each target thumbnail, a note page corresponding to the target thumbnail is determined, and the note pages corresponding to each target thumbnail are the target note pages. And then, taking the actual position identification of the note page as the original position identification of one target note page, thereby finally obtaining the original position identifications of a plurality of target note pages.

Step S340, in response to the detected destination location selection operation, obtains the destination location identifier of the target note page.

In an alternative embodiment, the user may select a uniform destination location identifier for a plurality of target note pages, that is, the destination location identifiers corresponding to the plurality of target note pages are the same. In this case, the unified destination location identification of the plurality of target note pages is acquired in response to the detected destination location selection operation.

In yet another alternative embodiment, the user may specify a corresponding destination location identifier for each of the plurality of target notepages. For example, a thumbnail of a target note page for which a destination location identifier is not currently determined may be displayed near the destination location input entry, and after the destination location identifier is input through the destination location input entry, the user determines the input destination location identifier as the destination location identifier of the target note page corresponding to the displayed thumbnail. Displaying a thumbnail of a next target note page without target position identification until target position identifications of all target note pages are obtained; or responding to the detected target position selection operation, displaying the thumbnail of the target note page of which the target position identification is not determined currently, identifying the thumbnail selected by the user, and determining the actual position identification of the current note page as the target position identification of the target note page corresponding to the thumbnail selected by the user.

And step S350, acquiring the target note page according to the original position identifier, inserting the target note page to a position corresponding to the destination position identifier, and deleting the target note page corresponding to the original position identifier.

When a plurality of target note pages correspond to different target position identifications, inserting each target note page into a position corresponding to the corresponding target position identification; when the plurality of target note pages correspond to the uniform destination location identifier, the plurality of target note pages may be collectively inserted into a location corresponding to the uniform destination location identifier, and the current actual location identifiers of the plurality of target note pages are updated according to the uniform destination location identifier, so that the current actual location identifiers of the plurality of target note pages are continuous.

Therefore, in the embodiment, the user can select the plurality of target note pages by displaying the thumbnails of the plurality of note pages corresponding to the notebook identifier, so that batch movement of the plurality of target note pages is realized, and the movement efficiency of the note pages is further improved.

Example four

Fig. 4 shows a flowchart of a method for moving a note page according to a fourth embodiment of the present invention. The method for moving the note pages provided by the embodiment is further optimized for the first embodiment.

As shown in fig. 4, the method includes:

step S410, in response to the detected selection operation of the note page, obtaining an original position identifier of the target note page to be moved, and obtaining the target note page according to the original position identifier.

Step S420, performing image-text ratio identification on the target note page to obtain an image-text type of the target note page.

Wherein, the image-text type comprises: graph-based and word-based. In the process of identifying the image-text proportion of the target note page, if the display area ratio of the image in the target note page is greater than a preset threshold value, determining that the image-text type of the target note page is the image-based type; and if the display area ratio of the image in the target note page is less than or equal to a preset threshold value, determining that the image-text type of the target note page is a character-based type.

And step S430, determining candidate notebooks matched with the image-text types of the target notepages.

And if the image-text type of the target note page is the main type of the image, taking the notebook type of the drawing notebook as a candidate notebook. And the image proportion in the notebook is larger than the preset proportion. And if the image-text type of the target note page is the character-based type, taking the character-based notebook as a candidate notebook. And the image proportion in the text notebook is less than or equal to the preset proportion.

Optionally, in order to further improve the matching degree between the candidate notebook and the user intention, after determining that the image-text type of the target note page is the character-based type, performing topic identification on the target note page to obtain topic keywords of the target note page. In this embodiment, a specific topic identification manner is not limited, and for example, a manner such as an LDA topic model, a TextRank algorithm, and/or a TF-IDF model may be adopted to perform topic identification on the target note page to obtain at least one topic keyword of the target note page. After the theme key words of the target note pages are obtained, the electronic books matched with the theme key words are searched. For example, an electronic book whose name or tag matches the topic keyword may be looked up. And then taking the notebook corresponding to the electronic book matched with the theme keyword as a candidate notebook.

In addition, as an alternative embodiment of the present invention, the user usually selects the background template of the note page provided by the system to write the note. Wherein, the note page background template may include: a field-type grid background template for practising calligraphy, a staff background template for recording music scores, a horizontal line template and the like. In this embodiment, the steps S420 to S430 may also be: and performing background identification on the target note page to acquire the background type of the target note page, and further determining a candidate notebook matched with the background type of the target note page. For example, if the target note page is a staff background template, a notebook with the same staff background template may be used as the candidate notebook.

Step S440, displaying the relevant information of the candidate notebook, so that the user can execute the destination position selection operation based on the relevant information of the candidate notebook.

The related information of the candidate notebook may specifically include a thumbnail of the candidate notebook, a notebook identifier, and the like. The user may select the destination location based on the presented information about the candidate notebook.

Step S450, responding to the detected destination position selection operation, acquiring a destination position identifier of the target note page, inserting the target note page to a position corresponding to the destination position identifier, and deleting the target note page corresponding to the original position identifier.

If the user selects a candidate notebook through the notebook selection operation, page number information of the candidate notebook is further displayed for the user to further select a page number identifier, and then the selected notebook identifier of the candidate notebook and the selected page number identifier are combined to form a target position identifier of a target notebook page.

Therefore, the type of the target note page is determined by identifying the target note page, so that the notebook matched with the type of the target note page is recommended for the user, the user can conveniently execute the destination position selection operation based on the recommended notebook, and the note page moving efficiency is improved.

EXAMPLE five

An embodiment five of the present invention provides a non-volatile computer storage medium, where the computer storage medium stores at least one executable instruction, and the computer executable instruction may execute the method in any of the above method embodiments.

The executable instructions may be specifically configured to cause the processor to: responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved; acquiring the target note page according to the original position identification; responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page; and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification.

In an alternative embodiment, the executable instructions cause the processor to: after the target note page is inserted into the position corresponding to the target position identification, updating the actual position identification of the target note page according to the target position identification.

In an alternative embodiment, the executable instructions cause the processor to: the position identification comprises a notebook identification and a page number identification;

identifying a first candidate note page and a second candidate note page associated with the target note page after the target note page is inserted to a position corresponding to the target position identifier and the target note page corresponding to the original position identifier is deleted; the notebook identifier in the actual position identifier of the first candidate note page is consistent with the notebook identifier in the original position identifier of the target note page; a notebook identifier in the actual position identifier of the second candidate note page is consistent with a notebook identifier in the destination position identifier of the target note page;

screening out a first note page to be adjusted from the first candidate note page and screening out a second note page to be adjusted from the second candidate note page; the page number identification in the actual position identification of the first note page to be adjusted is larger than the page number identification in the original position identification of the target note page; the page number identifier in the actual position identifier of the second notebook to be adjusted is larger than the page number identifier in the target position identifier of the target notebook;

and updating the page number identifiers in the actual position identifiers of the first note page to be adjusted and the second note page to be adjusted.

In an alternative embodiment, the executable instructions cause the processor to: and responding to the detected selection operation of the first note page, acquiring the actual position identifier of the current note page, and determining the actual position identifier of the current note page as the original position identifier of the target note page.

In an alternative embodiment, the executable instructions cause the processor to: responding to the detected target position selection operation, acquiring an actual position identifier of the current note page, and determining the actual position identifier of the current note page as the target position identifier of the target note page; or, responding to the detected destination position selection operation, presenting a destination position input entry, acquiring a position identifier input through the destination position input entry, and taking the input position identifier as the destination position identifier of the target note page.

In an alternative embodiment, the executable instructions cause the processor to: the destination position input entry comprises a notebook information input sub-entry and a page number information input sub-entry; acquiring a plurality of notebook identifiers input through a notebook information input sub-entry; respectively determining a total page number corresponding to each notebook identifier in the plurality of notebook identifiers; screening out the minimum total page number from the total page numbers; judging whether a single page number identification input through a page number information input sub-entry is larger than the minimum total page number or not; and if not, respectively combining each notebook identifier in the plurality of notebook identifiers with the single page number identifier to generate each destination position identifier of the target notebook page.

In an alternative embodiment, the executable instructions cause the processor to: responding to the detected second note page selection operation, identifying a notebook identifier corresponding to the current page, and displaying thumbnails of a plurality of note pages corresponding to the notebook identifier; in response to a detected selection operation for a thumbnail, identifying a target thumbnail selected by a user; and aiming at any target thumbnail, taking the actual position identification of the note page corresponding to the target thumbnail as the original position identification of the target note page.

In an alternative embodiment, the executable instructions cause the processor to: if the number of the target note pages is multiple; responding to the detected destination position selection operation, and acquiring uniform destination position identifiers of a plurality of target note pages; collectively inserting the target note pages into the positions corresponding to the unified target position marks; and updating the actual position identifications of the plurality of target note pages according to the unified target position identification, and enabling the actual position identifications of the plurality of target note pages to be continuous.

In an alternative embodiment, the executable instructions cause the processor to: before the target position mark of the target note page is obtained in response to the detected target position selection operation, performing image-text proportion recognition on the target note page to obtain an image-text type of the target note page; wherein the image-text type comprises: using a graph as a main type and using a word as a main type; determining a candidate notebook matched with the image-text type of the target note page; and displaying the relevant information of the candidate notebook so that a user can execute destination position selection operation based on the relevant information of the candidate notebook.

In an alternative embodiment, the executable instructions cause the processor to: if the image-text type of the target note page is a character-based type; performing theme identification on the target note page to acquire theme keywords of the target note page; searching an electronic book matched with the theme key words; and taking the notebook corresponding to the electronic book matched with the theme keyword as a candidate notebook.

In an alternative embodiment, the executable instructions cause the processor to: before the target position identification of the target note page is acquired in response to the detected target position selection operation, performing background recognition on the target note page to acquire a background type of the target note page; determining a candidate notebook matching the background type of the target note page; and displaying the relevant information of the candidate notebook so that a user can execute destination position selection operation based on the relevant information of the candidate notebook.

Therefore, according to the embodiment, the user can automatically move the note page only by selecting the note page to be moved and the target position of the note page to be moved, so that the diversified processing requirements of the user on the note page are met, and the user experience is improved; and the operation of the user is simple and convenient, and the method is suitable for large-scale application and implementation.

EXAMPLE six

Fig. 5 shows a schematic structural diagram of an electronic device according to a fifth embodiment of the present invention. As shown in fig. 5, the electronic device 500 may include: a screen 501 (which may be an ink screen), a processor (processor)502, a memory (memory)503, a communication Interface (Communications Interface)504, and a communication bus 505. The electronic device may further include an electromagnetic board (not shown in the figure) for detecting a handwriting operation instruction generated on the screen 501. If the electronic device is a color reader, the electronic device 500 may further include a color filter (not shown).

Wherein: the screen 501, processor 502, memory 503 and communication interface 504 communicate with each other via a communication bus 505. A communication interface 504 for communicating with network elements of other devices, such as clients or other servers. The processor 502 is configured to execute the program 506, and may specifically execute the relevant steps in the above embodiment of the method for moving a note page. In particular, the program 506 may include program code that includes computer operating instructions. The processor 502 may be a central processing unit CPU, or an Application Specific Integrated Circuit (ASIC), or one or more Integrated circuits configured to implement an embodiment of the invention. The electronic device comprises one or more processors, which can be the same type of processor, such as one or more CPUs; or may be different types of processors such as one or more CPUs and one or more ASICs. The memory 503 stores a program 506. The memory 503 may comprise high-speed RAM memory, and may also include non-volatile memory (non-volatile memory), such as at least one disk memory.

The program 506 may specifically be configured to cause the processor 502 to perform the following operations: responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved; acquiring the target note page according to the original position identification; responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page; and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: after the target note page is inserted into the position corresponding to the target position identification, updating the actual position identification of the target note page according to the target position identification.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: the position identification comprises a notebook identification and a page number identification; identifying a first candidate note page and a second candidate note page associated with the target note page after the target note page is inserted to a position corresponding to the target position identifier and the target note page corresponding to the original position identifier is deleted; the notebook identifier in the actual position identifier of the first candidate note page is consistent with the notebook identifier in the original position identifier of the target note page; a notebook identifier in the actual position identifier of the second candidate note page is consistent with a notebook identifier in the destination position identifier of the target note page;

screening out a first note page to be adjusted from the first candidate note page and screening out a second note page to be adjusted from the second candidate note page; the page number identification in the actual position identification of the first note page to be adjusted is larger than the page number identification in the original position identification of the target note page; the page number identifier in the actual position identifier of the second notebook to be adjusted is larger than the page number identifier in the target position identifier of the target notebook;

and updating the page number identifiers in the actual position identifiers of the first note page to be adjusted and the second note page to be adjusted.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: and responding to the detected selection operation of the first note page, acquiring the actual position identifier of the current note page, and determining the actual position identifier of the current note page as the original position identifier of the target note page.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: responding to the detected target position selection operation, acquiring an actual position identifier of the current note page, and determining the actual position identifier of the current note page as the target position identifier of the target note page; or, responding to the detected destination position selection operation, presenting a destination position input entry, acquiring a position identifier input through the destination position input entry, and taking the input position identifier as the destination position identifier of the target note page.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: the destination position input entry comprises a notebook information input sub-entry and a page number information input sub-entry; acquiring a plurality of notebook identifiers input through a notebook information input sub-entry; respectively determining a total page number corresponding to each notebook identifier in the plurality of notebook identifiers; screening out the minimum total page number from the total page numbers; judging whether a single page number identification input through a page number information input sub-entry is larger than the minimum total page number or not; and if not, respectively combining each notebook identifier in the plurality of notebook identifiers with the single page number identifier to generate each destination position identifier of the target notebook page.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: responding to the detected second note page selection operation, identifying a notebook identifier corresponding to the current page, and displaying thumbnails of a plurality of note pages corresponding to the notebook identifier; in response to a detected selection operation for a thumbnail, identifying a target thumbnail selected by a user; and aiming at any target thumbnail, taking the actual position identification of the note page corresponding to the target thumbnail as the original position identification of the target note page.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: if the number of the target note pages is multiple; responding to the detected destination position selection operation, and acquiring uniform destination position identifiers of a plurality of target note pages; collectively inserting the target note pages into the positions corresponding to the unified target position marks; and updating the actual position identifications of the plurality of target note pages according to the unified target position identification, and enabling the actual position identifications of the plurality of target note pages to be continuous.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: before the target position mark of the target note page is obtained in response to the detected target position selection operation, performing image-text proportion recognition on the target note page to obtain an image-text type of the target note page; wherein the image-text type comprises: using a graph as a main type and using a word as a main type; determining a candidate notebook matched with the image-text type of the target note page; and displaying the relevant information of the candidate notebook so that a user can execute destination position selection operation based on the relevant information of the candidate notebook.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: if the image-text type of the target note page is a character-based type; performing theme identification on the target note page to acquire theme keywords of the target note page; searching an electronic book matched with the theme key words; and taking the notebook corresponding to the electronic book matched with the theme keyword as a candidate notebook.

In an alternative embodiment, the program 506 may be specifically configured to cause the processor 502 to perform the following operations: before the target position identification of the target note page is acquired in response to the detected target position selection operation, performing background recognition on the target note page to acquire a background type of the target note page; determining a candidate notebook matching the background type of the target note page; and displaying the relevant information of the candidate notebook so that a user can execute destination position selection operation based on the relevant information of the candidate notebook.

Therefore, according to the embodiment, the note pages can be automatically moved only by selecting the note pages to be moved and the target positions of the note pages to be moved, so that the diversified processing requirements of users on the note pages are met, and the user experience is improved; and the operation of the user is simple and convenient, and the method is suitable for large-scale application and implementation.

The algorithms or displays presented herein are not inherently related to any particular computer, virtual system, or other apparatus. Various general purpose systems may also be used with the teachings herein. The required structure for constructing such a system will be apparent from the description above. In addition, embodiments of the present invention are not directed to any particular programming language. It is appreciated that a variety of programming languages may be used to implement the teachings of the present invention as described herein, and any descriptions of specific languages are provided above to disclose the best mode of the invention.

In the description provided herein, numerous specific details are set forth. It is understood, however, that embodiments of the invention may be practiced without these specific details. In some instances, well-known methods, structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

Similarly, it should be appreciated that in the foregoing description of exemplary embodiments of the invention, various features of the embodiments of the invention are sometimes grouped together in a single embodiment, figure, or description thereof for the purpose of streamlining the invention and aiding in the understanding of one or more of the various inventive aspects. However, the disclosed method should not be interpreted as reflecting an intention that: that the invention as claimed requires more features than are expressly recited in each claim. Rather, as the following claims reflect, inventive aspects lie in less than all features of a single foregoing disclosed embodiment. Thus, the claims following the detailed description are hereby expressly incorporated into this detailed description, with each claim standing on its own as a separate embodiment of this invention.

Those skilled in the art will appreciate that the modules in the device in an embodiment may be adaptively changed and disposed in one or more devices different from the embodiment. The modules or units or components of the embodiments may be combined into one module or unit or component, and furthermore they may be divided into a plurality of sub-modules or sub-units or sub-components. All of the features disclosed in this specification (including any accompanying claims, abstract and drawings), and all of the processes or elements of any method or apparatus so disclosed, may be combined in any combination, except combinations where at least some of such features and/or processes or elements are mutually exclusive. Each feature disclosed in this specification (including any accompanying claims, abstract and drawings) may be replaced by alternative features serving the same, equivalent or similar purpose, unless expressly stated otherwise.

Furthermore, those skilled in the art will appreciate that while some embodiments herein include some features included in other embodiments, rather than other features, combinations of features of different embodiments are meant to be within the scope of the invention and form different embodiments. For example, in the following claims, any of the claimed embodiments may be used in any combination.

The various component embodiments of the invention may be implemented in hardware, or in software modules running on one or more processors, or in a combination thereof. Those skilled in the art will appreciate that a microprocessor or Digital Signal Processor (DSP) may be used in practice to implement some or all of the functionality of some or all of the components according to embodiments of the present invention. The present invention may also be embodied as apparatus or device programs (e.g., computer programs and computer program products) for performing a portion or all of the methods described herein. Such programs implementing the present invention may be stored on computer-readable media or may be in the form of one or more signals. Such a signal may be downloaded from an internet website or provided on a carrier signal or in any other form.

It should be noted that the above-mentioned embodiments illustrate rather than limit the invention, and that those skilled in the art will be able to design alternative embodiments without departing from the scope of the appended claims. In the claims, any reference signs placed between parentheses shall not be construed as limiting the claim. The word "comprising" does not exclude the presence of elements or steps not listed in a claim. The word "a" or "an" preceding an element does not exclude the presence of a plurality of such elements. The invention may be implemented by means of hardware comprising several distinct elements, and by means of a suitably programmed computer. In the unit claims enumerating several means, several of these means may be embodied by one and the same item of hardware. The usage of the words first, second and third, etcetera do not indicate any ordering. These words may be interpreted as names. The steps in the above embodiments should not be construed as limiting the order of execution unless specified otherwise.

The invention discloses: A1. a method for moving a note page comprises the following steps:

responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved;

acquiring the target note page according to the original position identification;

responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page;

and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification.

A2. The method of A1, wherein after the inserting the target note page to the location corresponding to the destination location identification, the method further comprises:

and updating the actual position identifier of the target note page according to the target position identifier.

A3. The method according to A2, wherein the location identifier comprises a notebook identifier and a page number identifier;

after the inserting the target note page into the position corresponding to the destination position identifier and deleting the target note page corresponding to the original position identifier, the method further comprises:

identifying a first candidate note page and a second candidate note page associated with the target note page; the notebook identifier in the actual position identifier of the first candidate note page is consistent with the notebook identifier in the original position identifier of the target note page; a notebook identifier in the actual position identifier of the second candidate note page is consistent with a notebook identifier in the destination position identifier of the target note page;

screening out a first note page to be adjusted from the first candidate note page and screening out a second note page to be adjusted from the second candidate note page; the page number identification in the actual position identification of the first note page to be adjusted is larger than the page number identification in the original position identification of the target note page; the page number identifier in the actual position identifier of the second notebook to be adjusted is larger than the page number identifier in the target position identifier of the target notebook;

and updating the page number identifiers in the actual position identifiers of the first note page to be adjusted and the second note page to be adjusted.

A4. The method of any of A1-A3, wherein the obtaining an identification of an original location of a target note page to be moved in response to a detected note page selection operation further comprises:

and responding to the detected selection operation of the first note page, acquiring the actual position identifier of the current note page, and determining the actual position identifier of the current note page as the original position identifier of the target note page.

A5. The method of any of A1-A4, wherein the obtaining a destination location identification of the target note page in response to the detected destination location selection operation further comprises:

responding to the detected target position selection operation, acquiring an actual position identifier of the current note page, and determining the actual position identifier of the current note page as the target position identifier of the target note page;

or, responding to the detected destination position selection operation, presenting a destination position input entry, acquiring a position identifier input through the destination position input entry, and taking the input position identifier as the destination position identifier of the target note page.

A6. The method according to a5, wherein the destination location input entry includes a notebook information input sub-entry and a page number information input sub-entry;

the obtaining the location identifier input through the destination location input entry, and taking the input location identifier as the destination location identifier of the target note page further includes:

acquiring a plurality of notebook identifiers input through a notebook information input sub-entry;

respectively determining a total page number corresponding to each notebook identifier in the plurality of notebook identifiers;

screening out the minimum total page number from the total page numbers;

judging whether a single page number identification input through a page number information input sub-entry is larger than the minimum total page number or not;

and if not, respectively combining each notebook identifier in the plurality of notebook identifiers with the single page number identifier to generate each destination position identifier of the target notebook page.

A7. The method of any of A1-A3, wherein the obtaining an identification of an original location of a target note page to be moved in response to a detected note page selection operation further comprises:

responding to the detected second note page selection operation, identifying a notebook identifier corresponding to the current page, and displaying thumbnails of a plurality of note pages corresponding to the notebook identifier;

in response to a detected selection operation for a thumbnail, identifying a target thumbnail selected by a user;

and aiming at any target thumbnail, taking the actual position identification of the note page corresponding to the target thumbnail as the original position identification of the target note page.

A8. The method of A7, wherein, if there are multiple target note pages;

then said obtaining a destination location identifier of the target note page in response to the detected destination location selection operation further comprises: responding to the detected destination position selection operation, and acquiring uniform destination position identifiers of a plurality of target note pages;

the inserting the target note page into the position corresponding to the destination position identifier further includes: collectively inserting the target note pages into the positions corresponding to the unified target position marks;

the method further comprises: and updating the actual position identifications of the plurality of target note pages according to the unified target position identification, and enabling the actual position identifications of the plurality of target note pages to be continuous.

A9. The method of any of A1-A8, wherein, prior to the obtaining of the destination location identification of the target note page in response to the detected destination location selection operation, the method further comprises:

carrying out image-text proportion identification on the target note page to obtain an image-text type of the target note page; wherein the image-text type comprises: using a graph as a main type and using a word as a main type;

determining a candidate notebook matched with the image-text type of the target note page;

and displaying the relevant information of the candidate notebook so that a user can execute destination position selection operation based on the relevant information of the candidate notebook.

A10. The method according to a9, wherein if the text type of the target note page is a character-based type;

the determining a candidate notebook that matches the teletext type of the target notebook further comprises:

performing theme identification on the target note page to acquire theme keywords of the target note page;

searching an electronic book matched with the theme key words;

and taking the notebook corresponding to the electronic book matched with the theme keyword as a candidate notebook.

A11. The method of any of A1-A8, wherein, prior to the obtaining of the destination location identification of the target note page in response to the detected destination location selection operation, the method further comprises:

performing background identification on the target note page to acquire a background type of the target note page;

determining a candidate notebook matching the background type of the target note page;

and displaying the relevant information of the candidate notebook so that a user can execute destination position selection operation based on the relevant information of the candidate notebook.

The invention also discloses: B12. an electronic device, comprising: the screen, the processor, the memory, the communication interface and the communication bus are used for completing mutual communication;

the memory is configured to store at least one executable instruction that causes the processor to: responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved; acquiring the target note page according to the original position identification; responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page; and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification.

B13. The electronic device of B12, wherein the executable instructions cause the processor to:

after the target note page is inserted into the position corresponding to the target position identification, updating the actual position identification of the target note page according to the target position identification.

B14. The electronic device of B13, wherein the executable instructions cause the processor to:

the position identification comprises a notebook identification and a page number identification;

identifying a first candidate note page and a second candidate note page associated with the target note page after the target note page is inserted to a position corresponding to the target position identifier and the target note page corresponding to the original position identifier is deleted; the notebook identifier in the actual position identifier of the first candidate note page is consistent with the notebook identifier in the original position identifier of the target note page; a notebook identifier in the actual position identifier of the second candidate note page is consistent with a notebook identifier in the destination position identifier of the target note page;

screening out a first note page to be adjusted from the first candidate note page and screening out a second note page to be adjusted from the second candidate note page; the page number identification in the actual position identification of the first note page to be adjusted is larger than the page number identification in the original position identification of the target note page; the page number identifier in the actual position identifier of the second notebook to be adjusted is larger than the page number identifier in the target position identifier of the target notebook;

and updating the page number identifiers in the actual position identifiers of the first note page to be adjusted and the second note page to be adjusted.

B15. The electronic device of any one of B12-B14, wherein the executable instructions cause the processor to:

and responding to the detected selection operation of the first note page, acquiring the actual position identifier of the current note page, and determining the actual position identifier of the current note page as the original position identifier of the target note page.

B16. The electronic device of any one of B12-B15, wherein the executable instructions cause the processor to:

responding to the detected target position selection operation, acquiring an actual position identifier of the current note page, and determining the actual position identifier of the current note page as the target position identifier of the target note page;

or, responding to the detected destination position selection operation, presenting a destination position input entry, acquiring a position identifier input through the destination position input entry, and taking the input position identifier as the destination position identifier of the target note page.

B17. The electronic device of B16, wherein the executable instructions cause the processor to:

the destination position input entry comprises a notebook information input sub-entry and a page number information input sub-entry; acquiring a plurality of notebook identifiers input through a notebook information input sub-entry; respectively determining a total page number corresponding to each notebook identifier in the plurality of notebook identifiers; screening out the minimum total page number from the total page numbers; judging whether a single page number identification input through a page number information input sub-entry is larger than the minimum total page number or not; and if not, respectively combining each notebook identifier in the plurality of notebook identifiers with the single page number identifier to generate each destination position identifier of the target notebook page.

B18. The electronic device of any one of B12-B14, wherein the executable instructions cause the processor to:

responding to the detected second note page selection operation, identifying a notebook identifier corresponding to the current page, and displaying thumbnails of a plurality of note pages corresponding to the notebook identifier; in response to a detected selection operation for a thumbnail, identifying a target thumbnail selected by a user; and aiming at any target thumbnail, taking the actual position identification of the note page corresponding to the target thumbnail as the original position identification of the target note page.

B19. The electronic device of B18, wherein the executable instructions cause the processor to:

if the number of the target note pages is multiple; responding to the detected destination position selection operation, and acquiring uniform destination position identifiers of a plurality of target note pages; collectively inserting the target note pages into the positions corresponding to the unified target position marks; and updating the actual position identifications of the plurality of target note pages according to the unified target position identification, and enabling the actual position identifications of the plurality of target note pages to be continuous.

B20. The electronic device of any one of B12-B19, wherein the executable instructions cause the processor to: before the target position mark of the target note page is obtained in response to the detected target position selection operation, performing image-text proportion recognition on the target note page to obtain an image-text type of the target note page; wherein the image-text type comprises: using a graph as a main type and using a word as a main type; determining a candidate notebook matched with the image-text type of the target note page; and displaying the relevant information of the candidate notebook so that a user can execute destination position selection operation based on the relevant information of the candidate notebook.

B21. The electronic device of B20, wherein the executable instructions cause the processor to:

if the image-text type of the target note page is a character-based type; performing theme identification on the target note page to acquire theme keywords of the target note page; searching an electronic book matched with the theme key words; and taking the notebook corresponding to the electronic book matched with the theme keyword as a candidate notebook.

B22. The electronic device of any one of B12-B19, wherein the executable instructions cause the processor to:

before the target position identification of the target note page is acquired in response to the detected target position selection operation, performing background recognition on the target note page to acquire a background type of the target note page; determining a candidate notebook matching the background type of the target note page; and displaying the relevant information of the candidate notebook so that a user can execute destination position selection operation based on the relevant information of the candidate notebook.

The invention also discloses: C23. a computer storage medium having stored therein at least one executable instruction for causing a processor to perform operations corresponding to the method of moving a note page as described in any one of a1-a 11.

Claims (10)

1. A method for moving a note page comprises the following steps:

responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved;

acquiring the target note page according to the original position identification;

responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page;

and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification.

2. The method of claim 1, wherein after the inserting the target note page to the location corresponding to the destination location identification, the method further comprises:

and updating the actual position identifier of the target note page according to the target position identifier.

3. The method of claim 2, wherein the location identifier comprises a notebook identifier and a page number identifier;

after the inserting the target note page into the position corresponding to the destination position identifier and deleting the target note page corresponding to the original position identifier, the method further comprises:

identifying a first candidate note page and a second candidate note page associated with the target note page; the notebook identifier in the actual position identifier of the first candidate note page is consistent with the notebook identifier in the original position identifier of the target note page; a notebook identifier in the actual position identifier of the second candidate note page is consistent with a notebook identifier in the destination position identifier of the target note page;

screening out a first note page to be adjusted from the first candidate note page and screening out a second note page to be adjusted from the second candidate note page; the page number identification in the actual position identification of the first note page to be adjusted is larger than the page number identification in the original position identification of the target note page; the page number identifier in the actual position identifier of the second notebook to be adjusted is larger than the page number identifier in the target position identifier of the target notebook;

and updating the page number identifiers in the actual position identifiers of the first note page to be adjusted and the second note page to be adjusted.

4. The method of any of claims 1-3, wherein the obtaining an identification of a home position of a target note page to be moved in response to the detected note page selection operation further comprises:

and responding to the detected selection operation of the first note page, acquiring the actual position identifier of the current note page, and determining the actual position identifier of the current note page as the original position identifier of the target note page.

5. The method of any of claims 1-4, wherein the obtaining a destination location identification of the target note page in response to the detected destination location selection operation further comprises:

responding to the detected target position selection operation, acquiring an actual position identifier of the current note page, and determining the actual position identifier of the current note page as the target position identifier of the target note page;

or, responding to the detected destination position selection operation, presenting a destination position input entry, acquiring a position identifier input through the destination position input entry, and taking the input position identifier as the destination position identifier of the target note page.

6. The method of claim 5, wherein the destination location input entry includes a notebook information input sub-entry and a page number information input sub-entry;

the obtaining the location identifier input through the destination location input entry, and taking the input location identifier as the destination location identifier of the target note page further includes:

acquiring a plurality of notebook identifiers input through a notebook information input sub-entry;

respectively determining a total page number corresponding to each notebook identifier in the plurality of notebook identifiers;

screening out the minimum total page number from the total page numbers;

judging whether a single page number identification input through a page number information input sub-entry is larger than the minimum total page number or not;

and if not, respectively combining each notebook identifier in the plurality of notebook identifiers with the single page number identifier to generate each destination position identifier of the target notebook page.

7. The method of any of claims 1-3, wherein the obtaining an identification of a home position of a target note page to be moved in response to the detected note page selection operation further comprises:

responding to the detected second note page selection operation, identifying a notebook identifier corresponding to the current page, and displaying thumbnails of a plurality of note pages corresponding to the notebook identifier;

in response to a detected selection operation for a thumbnail, identifying a target thumbnail selected by a user;

and aiming at any target thumbnail, taking the actual position identification of the note page corresponding to the target thumbnail as the original position identification of the target note page.

8. The method of claim 7, wherein if there are multiple target note pages;

then said obtaining a destination location identifier of the target note page in response to the detected destination location selection operation further comprises: responding to the detected destination position selection operation, and acquiring uniform destination position identifiers of a plurality of target note pages;

the inserting the target note page into the position corresponding to the destination position identifier further includes: collectively inserting the target note pages into the positions corresponding to the unified target position marks;

the method further comprises: and updating the actual position identifications of the plurality of target note pages according to the unified target position identification, and enabling the actual position identifications of the plurality of target note pages to be continuous.

9. An electronic device, comprising: the screen, the processor, the memory, the communication interface and the communication bus are used for completing mutual communication;

the memory is configured to store at least one executable instruction that causes the processor to:

responding to the detected selection operation of the note pages, and acquiring the original position identification of the target note page to be moved;

acquiring the target note page according to the original position identification;

responding to the detected destination position selection operation, and acquiring a destination position identifier of the target note page;

and inserting the target note page into a position corresponding to the target position identification, and deleting the target note page corresponding to the original position identification.

10. A computer storage medium having stored therein at least one executable instruction for causing a processor to perform operations corresponding to the method of moving a note sheet according to any one of claims 1-8.

Images