CN114047859A - Data processing system and method thereof - Google Patents

Abstract

The present disclosure relates to a data processing system and a method thereof. The system comprises: at least two data presentation components, each data presentation component presents one or more levels of data by an identifier, and the identifier of each level of data is attached with an attribute field comprising an inherent attribute field and at least one editable attribute field; a locking component for locking the presented first identifier by specifying the first identifier so that the attribute information contained in the inherent attribute field of the locked first identifier can move along with the first identifier; the activation component activates the attribute field of the second identifier corresponding to the inherent attribute field of the locked first identifier so as to enable the attribute field to be in an editable state when the locked and moved first identifier and the second identifier which does not belong to the same type of data presentation component with the first identifier meet; and a modification component for acquiring the inherent attribute field of the first identifier which is locked and moved, and filling or replacing the attribute information of the editable attribute field of the second identifier which is activated by using the attribute information of the inherent attribute field of the first identifier.

Description

Data processing system and method thereof

Technical Field

The present disclosure relates to a data processing system and method, and more particularly, to a system and method for processing data with multiple closely related degrees.

Background

With the further development of the internet, various scenes in real life have become increasingly networked. Various application software increasingly electronize users' daily lives. People feel a lot of inconvenience in using the application software. For example, sometimes, in order to apply the information of one application software to another software, repeated switching is needed, and the overall switching process is very cumbersome. Sometimes, the information of two or more applications needs to be combined, for this reason, the user usually needs to use another application software to specially combine the information of the two application software, which results in increasing application programs in the electronic product of the user, thereby causing inconvenience for the user to use the information of the application software and locate the software from a plurality of application software.

It is therefore desirable to have available a data processing system or method that can process heterogeneous data that are closely related to each other, so that the inconvenience of using heterogeneous application data in different places is eliminated.

Disclosure of Invention

To solve the above technical problem, the present disclosure provides a data processing system, including: at least two data presentation components, each data presentation component presents one or more levels of data through identification, the identification of each level of data is attached with an attribute field comprising an inherent attribute field and at least one editable attribute field, the inherent attribute field comprises data content expressed by the identification of the level of data and data content expressed by the identification of the superior level of data to which the inherent attribute field belongs, and the editable attribute field can be edited when the identification to which the editable attribute field belongs is activated; a locking component for locking the first identifier by specifying the presented first identifier so that the attribute information contained in the inherent attribute field of the locked first identifier moves along with the first identifier; the activation component activates the attribute field of the second identifier corresponding to the inherent attribute field of the locked first identifier so as to enable the attribute field to be in an editable state when the locked and moved first identifier and the second identifier which does not belong to the same type of data presentation component with the first identifier meet; and a modification component for acquiring the inherent attribute field of the first identifier which is locked and moved, and filling or replacing the attribute information of the editable attribute field of the second identifier which is activated by using the attribute information of the inherent attribute field of the first identifier.

The data processing system according to the present disclosure, further comprising: and the synchronization instruction component sends a data synchronization instruction to the modification component after the modification component fills or replaces the attribute field of the activated second identifier, so that the modification component fills or replaces the attribute field of the locked and moved first identifier, which corresponds to the intrinsic attribute field of the activated second identifier, by using the intrinsic attribute field of the activated second identifier.

The data processing system according to the present disclosure, further comprising: the collection component is used for creating an editable data item which associates the inherent attribute field of the first identification with the inherent attribute field of the second identification after the modification component completes the modification of the attribute field; or based on user text or voice input, and based on the input text or voice content at least containing two inherent attribute information, an editable data item which associates the inherent attribute field of the first identification and the inherent attribute field of the second identification is created.

The data processing system according to the present disclosure, wherein the activation component activates the intersected attribute field to be in an editable state when the locked and moved first identifier intersects any attribute field corresponding to the type of the inherent attribute field of the first identifier in the data item created by the assembly component, the modification component acquires the locked and moved inherent attribute field of the first identifier and fills or replaces the intersected attribute field with the inherent attribute field of the first identifier to form the new data item, and the synchronization instruction component sends a data synchronization instruction to the modification component after the modification component fills or replaces the intersected attribute field, so that the modification component modifies the corresponding editable attribute field in the identifier to which the attribute field of the new data item belongs based on the new data item.

The data processing system of the present disclosure wherein the at least two data presenting components comprise a time presenting component and a map presenting component, wherein the identifiers presented by the time presenting component comprise a year identifier, a month identifier, a day identifier, a time identifier, and a division identifier, and the identifiers presented by the map presenting component are place letter character identifiers.

The data processing system according to the present disclosure, wherein the time identifiers presented by the time presentation component are hourly numeric characters and are arranged in a dispersed manner along the longitude line scales on both sides of the map presented by the map presentation component, and the day identifiers presented by the time presentation component are monthly date numeric characters and are arranged in a dispersed manner along the latitude line scales on the upper and lower edges of the map presented by the map presentation component.

The data processing system of the present disclosure wherein the activation component activates the locked first identified attribute field other than the intrinsic attribute field to be in a user-visible edit state for a user to enter attribute information in the editable attribute field.

The data processing system according to the present disclosure, further comprising: and the identification attribution component acquires the attribute information input by the user in the visible attribute field and attributing the input attribute information as the inherent attribute field to the nearest third identification, so that the synchronization instruction component sends a data synchronization instruction to the modification component, and the modification component fills or replaces the inherent attribute field of the third identification with the attribute field of the first identification corresponding to the inherent attribute field of the third identification.

The data processing system according to the present disclosure, further comprising: and the combined recommendation component is used for recommending the data contents of the plurality of editable attribute fields in a certain distance to the user based on the historical preference data of the user when the same editable attribute field of the first identifier contains a pair of data contents with a certain distance from each other, matching and recommending the data contents of the inherent attribute fields which are in the same class as the inherent attribute field of the first identifier for each recommended data content, and forming recommended data items which are acquired by the aggregation component and presented in a recommended presentation mode so that the user can select one or more recommended data items.

The data processing system according to the present disclosure, further comprising: and the conflict reminding component monitors whether the filled or replaced attribute information or the input new attribute information is completely the same as the existing attribute information in the editable attribute field when the modification component modifies the existing attribute information in the editable attribute field of the second identifier or the user inputs the attribute information into the editable attribute field of the first identifier, and sends a conflict reminding to the user when the filled or replaced attribute information or the input new attribute information is the same as the existing attribute information in the editable attribute field or when the filled or replaced attribute information or the input new attribute information is not compatible with the existing attribute information in the editable attribute field.

According to another aspect of the present disclosure, there is also provided a data processing method, including: presenting multi-level data by using an identifier through a data presentation component, wherein the identifier of each level of data is attached with an attribute field comprising an inherent attribute field and at least one editable attribute field, the inherent attribute field comprises data content expressed by the identifier of the level of data and data content expressed by the identifier of superior data to which the inherent attribute field belongs, and the editable attribute field can be edited when the identifier to which the editable attribute field belongs is activated; locking, via the locking component, the first identity by specifying the presented first identity such that the attribute information contained in the intrinsic attribute field of the locked first identity follows its movement; when the locked and moved first identification and a second identification which does not belong to the same type of data presentation component with the first identification are intersected, activating a property field of the second identification, which corresponds to the inherent property field of the locked first identification, by an activation component so as to enable the property field to be in an editable state; and acquiring the inherent attribute field of the locked and moved first identification through the modification component, and filling or replacing the attribute information of the editable attribute field of the activated second identification by using the attribute information of the inherent attribute field of the first identification.

The data processing method according to the present disclosure, further comprising: after the modification component fills or replaces the activated attribute field of the second identifier, sending a data synchronization instruction to the modification component through the synchronization instruction component; and populating or replacing the attribute field of the locked and moved first identifier corresponding to the intrinsic attribute field of the activated second identifier with the intrinsic attribute field of the activated second identifier by the modification component.

The data processing method according to the present disclosure, further comprising: after the modification component completes the modification of the property fields, an editable data item is created by the assembly component that associates the first identified intrinsic property fields with the second identified intrinsic property fields.

The data processing system according to the present disclosure, further comprising: when the locked and moved first identification is intersected with any attribute field, corresponding to the type of the inherent attribute field of the first identification, in the data item created by the aggregation component, the intersected attribute field is activated to be in an editable state through the activation component; acquiring the locked and moved inherent attribute field of the first identification through the modification component, and filling or replacing the intersected attribute field with the inherent attribute field of the first identification to form a new data item; after the modification component fills or replaces the intersected attribute fields, sending a data synchronization instruction to the modification component through the synchronization instruction component; and modifying, by the modification component, the corresponding editable attribute field in the identification to which the attribute field of the new data item belongs based on the new data item.

The data processing method according to the present disclosure, wherein the at least two data presentation components comprise a time presentation component and a map presentation component, wherein the identifier presented by the time presentation component comprises a year identifier, a month identifier, a day identifier, a time identifier and a division identifier, and the identifier presented by the map presentation component is a place letter character identifier.

The data processing system method according to the present disclosure, wherein the at least two data presentation components comprise a time presentation component and a map presentation component, wherein the identifier presented by the time presentation component comprises a year identifier, a month identifier, a day identifier, a time identifier, and a point identifier, and the identifier presented by the map presentation component is a place literal character identifier.

The data processing method according to the present disclosure, wherein the time marks presented by the time presentation component are hour numeric characters and are dispersedly arranged along the longitude line scales on both sides of the map presented by the map presentation component, and the day marks presented by the time presentation component are date numeric characters of each month and are dispersedly arranged along the latitude line scales on the upper and lower edges of the map presented by the map presentation component.

The data processing method according to the present disclosure, further comprising: the locked first identified attribute fields other than the intrinsic attribute fields are activated by the activation component to be in a user-visible editing state for a user to enter attribute information in the editable attribute fields.

The data processing method according to the present disclosure, further comprising: acquiring attribute information input by a user in a visible attribute field through an identifier attribution component, and attributing the input attribute information to a nearest third identifier as an inherent attribute field; sending a data synchronization instruction to the modification component through the synchronization instruction component; and an attribute field of the first identifier corresponding to the intrinsic attribute field of the third identifier is populated or replaced by the modification component with the intrinsic attribute field of the third identifier.

The data processing method according to the present disclosure, further comprising: when the same editable attribute field of the first identifier contains a pair of data contents with a certain distance from each other, recommending the data contents of a plurality of editable attribute fields in the distance to the user by combining the recommending component based on the historical preference data of the user, and matching and recommending the data contents of the inherent attribute field of the same kind as the inherent attribute field of the first identifier for each recommended data content to form a recommended data item; and acquiring the recommended data items through the collection component and presenting the recommended data items in a recommendation presenting mode so that the user can select one or more recommended data items in the recommended data items.

The data processing method according to the present disclosure, further comprising: when the modification component modifies the existing attribute information in the editable attribute field of the second identifier or the user inputs the attribute information into the editable attribute field of the first identifier, the conflict reminding component monitors whether the filled or replaced attribute information or the input new attribute information is completely the same as the existing attribute information in the editable attribute field, and sends conflict reminding to the user under the condition that the filled or replaced attribute information or the input new attribute information is the same as the existing attribute information in the editable attribute field or under the condition that the filled or replaced attribute information or the input new attribute information is incompatible with the editable attribute information of the first identifier.

The data processing system of the present disclosure has been described above by way of example. According to the data processing system and the method thereof, the data presentation component with the editable attribute field is combined in the data processing system, and the attribute information inherent to the two types of identifiers deployed in the data processing system can be associated by clicking and dragging and the like to form the associated data item, so that the data processing system is simple, convenient, easy and intuitive, and the problem that a user edits and modifies the data back and forth among different application programs is solved. Furthermore, the system also comprises a recommendation component, which can give historical information to the user to plan and recommend the data items on the basis of the data items already planned by the user, so that the energy of planning by the user is saved.

Additional advantages, objects, and features of the disclosure will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

FIG. 1 is a schematic diagram of a data processing system according to the present disclosure.

FIG. 2 is a schematic diagram illustrating a data modification process performed by a modification component of the data processing system according to the present disclosure.

FIG. 3 is a schematic diagram illustrating one example of a data processing system according to the present disclosure.

FIG. 4 is a schematic diagram illustrating one example of a sink component of data processing system 100 according to the present disclosure.

Detailed Description

The present invention will be described in further detail with reference to the following examples and the accompanying drawings so that those skilled in the art can practice the invention with reference to the description.

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure.

The terminology used in the present disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. As used in this disclosure, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

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, e.g., a first data presentation component may also be referred to as a second data presentation component, and vice versa. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

For a better understanding of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings.

Illustrated in FIG. 1 is a schematic diagram of a data processing system 100 according to the present disclosure. As shown in fig. 1, data processing system 100 includes: at least two data presentation components 110, a locking component 120, an activation component 130, and a modification component 140. As shown in FIG. 1, two data presentation components 100 are shown as a first data presentation component 110-1 and a second data presentation component 110-2, respectively. For simplicity of description, the data presentation component 110 will be referred to collectively without describing the two together. As shown in FIG. 1, each data rendering component 110 renders one or more levels of data by identification. The identifiers of each data presentation component 110 are respectively a primary identifier 11, a secondary identifier 11-1, a secondary identifier 11-2 …, and so on, according to the data hierarchy to be presented. For example, if the data presentation component 110 is a time presentation component, then typically the first level identifier is a year identifier, the second level identifier is a month identifier, and thereafter in turn is a day identifier, a time identifier, a minute identifier, and a second identifier to give another example, if the data presentation component 100 is a map presentation component, then typically the first level identifier is a province level identifier, the second level identifier is a city level identifier, and thereafter in turn is a county level identifier, a block identifier, and a building identifier. Higher level identifiers or lower level identifiers may be set as desired by the user, or only the corresponding identifiers of two or three of the data levels may be presented as desired by the user.

Each identifier is usually presented by using a conventional identifier expressing the represented data content, for example, if the time is presented, at nine am, the character "9" is directly used as the identifier of the data content at the time, but the specific data content thereof includes the contents of the year, month and day, for example: 11/9/2021. To this end, the present disclosure provides one intrinsic property field for each identifier, i.e. a field that identifies the data content to be directly expressed in the data presentation component to which it belongs. In addition, each identification is accompanied by at least one editable property field, typically an intrinsic property field of the identification of another data presentation component in the data processing system according to the present disclosure, for example a property field of a geographical location if the other data presentation component is a map presentation component. Thus, the intrinsic property field belonging to the identity of one data presentation component is the editable property field in the property field belonging to the identity of another data presentation component. Each identified intrinsic property field contains the data content of the intrinsic property field that may be identified at a level above it. For example, if "9" is the time stamp at nine am and the date and time stamp at the upper level thereof is "15", the data content "9 at 11 months and 15 days in 2021" of the inherent attribute field of the time stamp "9" of the hour contains the data content "11 months and 15 days in 2021" of the inherent attribute field of the date and time stamp "15". The editable property field may be edited when the identity to which it belongs is activated. Such activation may be, for example, activated when selected, by selecting it in a conventional manner such as with a pointer or mouse, and right clicking after mouse selection, an "edit" option is displayed in the drop down menu so that the editable property field can be selected for editing. The inherent attribute field can be assigned by the user under the condition that the user is directly activated by the pointer, so that the attribute information of the inherent attribute field can be edited. Alternatively, the inherent general information of the specific identifier may be acquired through the network, and the inherent attribute may be updated based on the inherent general information.

Returning to FIG. 1, the locking component 120 of the disclosed data processing system 100 may lock the identifier (e.g., the first identifier) by specifying the presented identifier so that the attribute information contained in the intrinsic attribute field of the locked identifier follows its movement. Each identifier has a fixed arrangement position in the data presentation component to which it belongs, but it can be locked and moved following the movement of the mouse, for example, upon clicking of the pointer of the mouse. When the mouse is released after clicking, the identifier can automatically return to the initial fixed position of the data presentation component to which the identifier belongs. In the process that the mark moves along with the pointer of the mouse, the first mark can move along with the attribute information of the data content contained in the attribute field. Upon intersection of the locked and moved first identifier with a second identifier of the first identifier not belonging to the same type of data presentation component, the activation component 130 activates the property field of the second identifier corresponding to the inherent property field of the locked first identifier to be in an editable state as the locked first identifier moves. The activation component 130 may trigger the activation mechanism of the second identifier by detecting a meeting between the first identifier and the second identifier. When the second indicator is activated, its indicator icon may be highlighted as highlighted, enlarged or colored. The modification component 140 directly knows the locking operation when the locking component 120 locks or moves the first identifier and obtains the intrinsic attribute information in the intrinsic attribute field of the locked and moved first identifier, and when the activation component 130 activates the second identifier operation, the modification component 140 obtains the object identifier to be modified or the attribute field to be modified, and fills or replaces the attribute information of the attribute field of the activated second identifier with the obtained attribute information of the intrinsic attribute field of the first identifier when the locking component 120 performs the release operation. If the first identifier does not intersect any second identifier when the releasing operation is performed by the locking component 120, or if the activating component 130 does not activate any second identifier other than the locked first identifier, no modifying operation is performed. The first identifier locked by the locking assembly 120 after performing the releasing operation is returned to its original position. Alternatively, when the first identifier is locked and moved, the locking component 120 moves only a copy of the first identifier, and the first identifier still exists in the original location of the first identifier, such that when the locking component 120 releases the locked copy of the first identifier, the copy automatically disappears.

FIG. 2 is a schematic diagram illustrating a data modification process performed by a modification component of the data processing system according to the present disclosure. As shown in FIG. 2, the first identifier 210 and the second identifier 220 do not belong to the same category of data presentation components. For example, the first identifier 210 belongs to a first data presentation component 110-1 and the second identifier 220 belongs to a second data presentation component 110-2. Thus, the attribute fields of the first identifier 210 include an intrinsic attribute field 1 and editable attribute fields 1-2 and 1-3, while the attribute fields of the second identifier 220 include an intrinsic attribute field 2 and editable attribute fields 2-1 and 2-3, wherein the editable attribute field 1-2 is an attribute field corresponding to the intrinsic attribute field 2 and is only marked as editable because it is disposed in the attribute field of the first identifier 210, and the editable attribute field 2-1 is an attribute field corresponding to the intrinsic attribute field 1 and is only marked as editable because it is disposed in the attribute field of the second identifier 220. Although only three attribute fields are shown here for each identity, the attribute fields may be only two, or more, e.g., 4, 5, etc. In general, the number of the attribute fields is the same as or more than the number of the data presentation components included in the data processing system, so that the user can add the content required by the user in the identified attribute information according to the needs of the user, for example, add some memos. In the event that an editable property field does not belong to any data rendering component included in the data processing system, the property field cannot be modified by the modification component 140, but only by the user at his or her initiative.

As shown in FIG. 2, when the first identifier 210 is locked and moved within range of the second data presentation component and meets the second identifier 220, the modification component 140 populates the editable property field 2-1 of the second identifier 220 with the property information of the intrinsic property field 1 of the first identifier 210 when the locked first identifier 210 is released by the locking component 120. When existing attribute information exists in the editable attribute field 2-1 of the second identifier 220, if the existing attribute information is aged (for example, expired), the existing attribute information is replaced and modified, so that the storage space can be saved. Alternatively, the editable attribute field 2-1 of the second identifier 220 may contain a plurality of pieces of attribute information, for example, a plurality of different first identifiers may be merged with the second identifier and released, so that the attribute information of different inherent attribute fields 1 of different first identifiers is filled in the editable attribute field 2-1 of the second identifier 220, thereby forming a plurality of pieces of attribute information.

Likewise, when the second identifier 220 is locked and moved within range of the first data presentation component and meets the first identifier 210, the modification component 140 populates the editable property field 1-2 of the first identifier 210 with the property information of the intrinsic property field 2 of the second identifier 220 when the locked second identifier 220 is released by the locking component 120. When existing attribute information exists in the editable attribute field 1-2 of the first identifier 210, the existing attribute information may be replaced and modified if the existing attribute information is aged (e.g., expired). Alternatively, the editable attribute field 1-2 of the first identifier 210 may contain a plurality of pieces of attribute information, for example, a plurality of different second identifiers may be merged with the first identifier and released, so that the attribute information of the different inherent attribute field 2 of the different second identifiers is filled in the editable attribute field 1-2 of the first identifier 210, thereby forming a plurality of pieces of attribute information.

Referring back to FIG. 1, the disclosed data processing system 100 also includes a synchronization instruction component 150. Its synchronization instruction component 150 sends a data synchronization instruction to the modification component 140 after the modification component 140 fills in or replaces the attribute field of the activated second identifier, so as to instruct the modification component 140 to fill in or replace the attribute field of the locked and moved first identifier corresponding to the intrinsic attribute field of the activated second identifier with the intrinsic attribute field of the activated second identifier. Specifically, referring to fig. 2, the modification component 140 acquires the attribute information of the intrinsic attribute field 2 of the second identifier 220 while the first identifier 210 and the second identifier 220 are intersected, and directly returns the attribute information of the intrinsic attribute field 2 to the editable attribute field 1-2 of the first identifier after receiving the data synchronization instruction, so as to fill or modify the editable attribute field 1-2 of the first identifier, thereby synchronizing the data of the attribute field of the first identifier and the attribute field of the second identifier, i.e. enabling the first identifier and the second identifier to form an associated data item in their respective attribute fields through their respective intrinsic attributes. The user can associate data items either in the first data presentation component or the second data presentation component or between the two.

When the locking component 120 locks the first identifier against movement or moves but does not intersect any other second identifier, the first identifier is activated by the activation component 130 such that its editable property fields, e.g., editable property fields 1-2 or 1-3, are visible to the user. At this time, the user can select one of the editable attribute fields 1-2 or 1-3 by selecting the editing mode to input the attribute information. Specifically, for example, a pointer or a mouse is used for selection in a conventional manner, and a right click after mouse selection causes an "edit" option to be displayed in the display pull-down menu, so that the editable property field can be selected for editing. The field attributes will now show the way the edits are made. If the field is a field belonging to a time presentation component, a conventional time format is displayed so that the user enters the correct time data format, if the attribute information of the component is presented for a nutritional formula, a conventional nutritional formula data format is displayed, and if the attribute information of the component is presented for a map, a conventional geographical data format is displayed. Therefore, when the user carries out the autonomous input, the format error can not occur.

Referring to FIG. 1, the disclosed data processing system 100 also includes an identification attribution component 160. The identity attribution component 160 obtains the attribute information entered by the user in the visible attribute fields and attributing the entered attribute information as an inherent attribute field to the nearest third identity, thereby causing the synchronization instruction component 150 to send a data synchronization instruction to the modification component such that the modification component 140 populates or replaces the inherent attribute field of the third identity with the attribute field of the first identity corresponding to the inherent attribute field of the third identity. Specifically, referring to FIG. 2, editable attribute fields 1-3 exist in the attribute fields of the first identifier 210, for example, the inherent attribute field belonging to the third identifier of the third data presentation component corresponds to an editable attribute field, and when the user is activated at the first identifier 210, the user may input attribute information in a predetermined format into the editable attribute fields 1-3. For example, if the third data presentation component is a time presentation component, the user can belong to the property information conforming to the time format in the editable property fields 1-3. When the input time information is the attribute information of the inherent attribute field of a certain time identifier, for example, 11/8/2021, the input attribute information is directly attributed to the third identifier "8", if 30 points are input at 11/8/2021, the input attribute information is also attributed to the third identifier "8", and the synchronization instruction component 150 sends a data synchronization instruction to the modification component 140 so that the modification component 140 fills or replaces the inherent attribute field of the third identifier with the attribute field of the first identifier corresponding to the inherent attribute field of the third identifier. Alternatively, if 30 minutes at 11/8/2021 is input, and the attribute attribution component 160, in the case that the attribute information cannot be attributed to any one of the existing identifiers, may amplify the third identifier to which the existing attribute information closest to the attribute information belongs at both ends, so as to display the next-level identifier of the third identifier, until the input attribute information is attributed to the corresponding next-level identifier or a lower-level identifier. Alternatively, the identifier attribution component 160 may also create an identifier corresponding to the attribute information directly in a third identifier attached to which existing attribute information closest to the attribute information belongs, and assign the attribute information to the created identifier as inherent attribute information of the created identifier.

Referring to FIG. 1, the disclosed data processing system 100 also includes an aggregation component 170. The assembly component 170 creates an editable data item associating the first identified intrinsic property field and the second identified intrinsic property field after the modification component 140 completes the modification of the property fields. For example, after the two identifiers of the first data presentation component 110-1 and the second data presentation component 110-2 are associated by the respective intrinsic property field interactive population, the aggregation component forms the two intrinsic property information associated with each other into one editable data item and forms all such editable data items into a visible list for presentation to the user. The user can also edit directly in the visible data item list to modify the attribute information in the selected editable data item. Once a user modifies a certain data item, the modified attribute information is attributed to a corresponding identifier by the identifier attribution component, so that a new association is established between the identifier to which the unmodified attribute information belongs and the identifier to which the newly modified attribute information belongs in the data item, and the data item becomes a new editable data item to form a new identifier association data item. At this time, the data synchronization component 150 also sends a modification instruction to the modification component 140 based on the user's modification of the data item, so that the modification component 140 will not be used for the data itemModifiedThe attribute information is filled into the editable attribute field corresponding to the identifier to which the modified attribute information belongs, and simultaneously, the attribute information which is the same as the unmodified attribute information in the data item in the identifier corresponding to the modified original attribute information in the data is deleted, so that the association relationship between the two identifiers which are associated with each other in the original data item is released. Optionally, the user may also perform text input and voice input in the input port of the aggregation component 170, and the aggregation component 170 creates a text or voice content based on the user text or voice input and based on the input text or voice content including at least two inherent attribute informationAn editable data item associating the inherent property field of the first identifier and the inherent property field of the second identifier. A conventional speech recognition plug-in may be included here for the recognition of speech content. Furthermore, the aggregation component 170 may also input text and voice at the input port to perform a data item search, obtain already formed data items, and recommend the data items for the user based on the input content by the combined recommendation component 180 to be described below in the case of no hit.

Referring to FIG. 1, the disclosed data processing system 100 also includes a portfolio recommendation component 180. The combined recommendation component 180 recommends, when the first identified editable attribute field contains a pair of data contents having a certain distance from each other, the data contents of a plurality of editable attribute fields within the distance to the user based on the history data or the user preference data, and matches, for each recommended data content, the recommended data content of the intrinsic attribute field in the same category as the intrinsic attribute field of the first identified editable attribute field, so as to form recommended data items, which are acquired by the aggregation component and presented in a recommendation presentation manner, so that the user can select one or more of the recommended data items. Referring to fig. 2, for example, if the second identifier 220 is a geographic identifier, and the user inputs attribute information or data content with a certain distance, such as 11/2021/11/15/2021/11/1, in an editable attribute field 2-1 representing a time attribute, if the geographic identifier is "beijing", for example, the combined recommendation component 180 recommends the geographic identifiers of next levels of multiple beijing and their inherent attribute information to the user based on the user history preference data, and associates the time identifiers within the distance range with the geographic identifiers in a random or optimized time sequence to form a recommended data item, and the aggregation component 170 presents the recommended data item to the user in a recommended manner. The user may select one or more of the recommended data items or directly modify the recommended data items, e.g. adjust the time or order, at his or her discretion. The combined recommendation component 180 may also perform recommendation planning based on existing data items, and present data items associated with the current location to the user for selection by the user, including geographic information without time constraints, transportation modes, time for various transportation modes, and the like. The recommended planning may be further based on specifying single geographic information and single time information, defaulting the current geographic information and time information as the first associated information, and planning based on this. The recommended plan can also recommend and associate two adjacent geographic scales firstly on the basis of inputting at least two geographic information successively without distinction, wherein the two adjacent geographic scales refer to two closest geographic scales of the geographic scales. The co-recommendation component 180 recommends data items for the user based on the search content for entry in the aggregation component.

The data processing system 100 according to the present disclosure also includes a conflict alert component 190. When the modification component 140 performs a modification operation on the existing attribute information in the editable attribute field of the second identifier 220 or the user inputs attribute information into the editable attribute field of the first identifier 210, the conflict alert component 190 monitors whether the filled or replaced attribute information or the input new attribute information is completely the same as the existing attribute information in the editable attribute field, and sends a conflict alert to the user if the filled or replaced attribute information or the input new attribute information is the same as the existing attribute information in the editable attribute field. For example, if the same time attribute information as the existing time attribute information is input into a time attribute field of a geographic identifier, it means that the user needs to do two things at the same time and the same place, which causes a conflict between schedule and time planning for the user, and thus the user needs to be reminded to avoid the conflict. The data processing system issues a conflict alert via the conflict alert component 190 so that the user can proceed with the re-planning. Optionally, the conflict alert component 190 also issues a conflict alert to the user in the event that there is incompatibility between the first identified inherent attribute information and its editable attribute information.

FIG. 3 is a schematic diagram illustrating one example of a data processing system according to the present disclosure. As shown in fig. 3, the at least two data presentation components are a time presentation component and a map presentation component, respectively. Fig. 3 is a schematic diagram of the two separated from each other on the left side, and a schematic diagram of the two combined and presented in the same interface on the right side. As shown in fig. 3, the presented identifiers of the time presentation component include a year identifier, a month identifier, a day identifier, a time identifier, and a point identifier, and the presented identifiers of the map presentation component are place letter character identifiers. The time marks presented by the time presentation component are hour digital characters and are dispersedly arranged along the longitude line scales on two sides of the map presented by the map presentation component, the day marks presented by the time presentation component are date digital characters of each month and are dispersedly arranged along the latitude line scales on the upper edge and the lower edge of the map presented by the map presentation component. Although the time presentation component and the map presentation component are presented in the same interface in a converged manner, scrolling the slide bars of the left and right hour numeric characters and the slide bars of the up and down date numeric characters in the time presentation component can only change the display positions of the characters as time marks, and does not bring any change to the map component. Similarly, when the user slides the map at the map presenting position of the map presenting component, the state presented by the time presenting component is not changed. When the user locks and drags the arbitrary time number identifier in the time presentation component by the mouse, if the arbitrary time number identifier intersects with a certain place identifier (for example, west 'an) in the map and is released, the time attribute field of the place identifier is filled or modified by the modification component 140 to the time attribute information contained in the inherent time attribute field of the time number identifier, and synchronously, the place attribute field of the dragged time character identifier is filled with the inherent place attribute information represented by the place, for example, "west' an".

Alternatively, for the same second identifier, for example, a west-ampere place identifier, the user may modify the time attribute information of the editable time attribute field of the place identifier to a time range by locking two first identifiers representing different time attribute information in succession and moving the first identifiers to the west-ampere place identifier for release. That is, any of the identified editable attribute fields may be in a scope attribute information format.

Alternatively, the hour marks on the left and right sides may be arranged along the meridian lines on the two sides of the map in a staggered manner, i.e., any one hour mark on the left side and any one hour mark on the right side are not on the same vertical meridian line of the display interface. Similarly, the date marks arranged on the latitude lines at the upper end and the lower end of the map are also arranged along the latitude lines at the two ends in a staggered mode, namely any date mark at the upper end and any date mark at the lower end are not on the same horizontal latitude line of the display interface. Thus, a data processing system according to the present disclosure may fixedly present a temporal presentation component. Thus, when sliding a certain geographic identifier, such as "xi ' an" in the map-presenting component, the identifier "xi ' an" that expresses "xi ' an is located at a position that is not located on the latitude line connecting any two time character identifiers on the left and right sides, nor located on the longitude line connecting any two time character identifiers on the upper and lower ends. Thus, optionally, the activation component 130 of the disclosed data processing system 100 momentarily activates the time stamp on a warp or weft thread where the indication "west 'an is expressed is locked and moved past either of the warp or weft threads where the time character indication is located, whereby when the indication" west' is released, the attribute information in its inherent geographic attribute field is populated by the modification component 140 into the editable geographic attribute field of the activated time indication. When the same geographical identifier "siean" is moved twice in succession to correspond to different time identifiers and released, the synchronization instruction component instructs the modification component 140 to fill the editable time attribute field of the geographical identifier "siean" with a time range information. Therefore, although the present disclosure refers to intersection activation by dragging the identifier, the intersection is not only an intersection on the image, but also an information-related intersection, and as mentioned above, an intersection state is also when the geographical identifier touches the latitude and longitude of the identifier at any time while moving in the map.

FIG. 4 is a schematic diagram illustrating one example of a sink component of data processing system 100 according to the present disclosure. As shown in FIG. 4, the data processing system 100 includes a time presentation component and a map presentation component, and data items formed by user planned times and places are automatically extracted and aggregated in a planning list via an aggregation component 170. The user can actively modify the attribute information of the attribute fields in each data item through the collection component 170, and the attribute information is associated with the identification corresponding to the attribute fields in the modified data item through the synchronization instruction component. As shown in fig. 4, the date marks arranged on the latitude lines at the upper end and the lower end of the map are completely the same, so that the corresponding same marks are arranged along the latitude lines at the two ends in a contraposition mode, that is, any one date mark at the upper end and one date mark at the lower end are on the same vertical latitude line of the display interface. And the 24 hours of a day are divided into two parts which are positioned on the left side and the right side of the map and are arranged along the meridian lines on the two sides of the map in a staggered mode, namely any hour mark on the left side and any hour mark on the right side are not on the same vertical meridian line of the display interface. Alternatively, 24 hours of a day can be located on the left side and the right side of the map, so that the hour marks arranged on the longitude lines on the two sides of the map are arranged along the longitude lines on the two ends in an aligned mode due to the fact that the hour marks are identical, namely any hour mark on the left side and an hour mark on the right side are identical on the same horizontal latitude line of the display interface. Each time bar may be presented in magnification. As shown in FIG. 4, under the identification of the property information populated and replaced with the place property field, the contents of the identified editable property field may be displayed in a slow flashing manner to alert the user when the user enables the data processing system of the present disclosure.

While the representative examples herein are illustrated with a time presentation component and a map presentation component, these may also include, for example, a nutritional catering presentation component, an entertainment map presentation component, a WeChat friend presentation component, a gourmet presentation component, a tourist attraction presentation component, and so forth. Therefore, the data processing system 100 of the present disclosure may be composed of several fixed presentation components, and may also be configured by providing a selection interface of the presentation components for freely selecting the presentation components to be inserted in a manner of presentation component insertion. When data processing the data processing component 100 of the present disclosure, a user can select a kind of a presentation component required by the user through an interface and freely combine the presentation components. As the user selects, the identity of each selected presentation component will be configured with the corresponding editable attribute fields based on the user's selection, and thus, the user may freely combine data processing system 100 with its own proprietary plurality of data presentation components.

The data processing system of the present disclosure has been described above by way of example. According to the data processing system and the method thereof, the data presentation component with the editable attribute field is combined in the data processing system, and the attribute information inherent to the two types of identifiers deployed in the data processing system can be associated by clicking and dragging and the like to form the associated data item, so that the data processing system is simple, convenient, easy and intuitive, and the problem that a user edits and modifies the data back and forth among different application programs is solved. Furthermore, the system also comprises a recommendation component, which can give historical information to the user to plan and recommend the data items on the basis of the data items already planned by the user, so that the energy of planning by the user is saved.

The basic principles of the present disclosure have been described in connection with specific embodiments, but it should be noted that it will be understood by those skilled in the art that all or any of the steps or components of the method and apparatus of the present disclosure may be implemented in any computing device (including processors, storage media, etc.) or network of computing devices, in hardware, firmware, software, or a combination thereof, which can be implemented by those skilled in the art using their basic programming skills after reading the description of the present disclosure.

Thus, the objects of the present disclosure may also be achieved by running a program or a set of programs on any computing device. The computing device may be a general purpose device as is well known. Thus, the object of the present disclosure can also be achieved merely by providing a program product containing program code for implementing the method or apparatus. That is, such a program product also constitutes the present disclosure, and a storage medium storing such a program product also constitutes the present disclosure. It is to be understood that the storage medium may be any known storage medium or any storage medium developed in the future.

It is also noted that in the apparatus and methods of the present disclosure, it is apparent that individual components or steps may be disassembled and/or re-assembled. These decompositions and/or recombinations are to be considered equivalents of the present disclosure. Also, the steps of executing the series of processes described above may naturally be executed chronologically in the order described, but need not necessarily be executed chronologically. Some steps may be performed in parallel or independently of each other.

The above detailed description should not be construed as limiting the scope of the disclosure. Those skilled in the art will appreciate that various modifications, combinations, sub-combinations, and substitutions can occur, depending on design requirements and other factors. Any modification, equivalent replacement, and improvement made within the spirit and principle of the present disclosure should be included in the scope of protection of the present disclosure.

Claims (20)

1. A data processing system comprising:

at least two data presentation components, each data presentation component presents one or more levels of data through identification, the identification of each level of data is attached with an attribute field comprising an inherent attribute field and at least one editable attribute field, the inherent attribute field comprises data content expressed by the identification of the level of data and data content expressed by the identification of the superior level of data to which the inherent attribute field belongs, and the editable attribute field can be edited when the identification to which the editable attribute field belongs is activated;

a locking component for locking the presented first identifier by specifying the first identifier so that the attribute information contained in the inherent attribute field of the locked first identifier can move along with the first identifier;

the activation component activates the attribute field of the second identifier corresponding to the inherent attribute field of the locked first identifier so as to enable the attribute field to be in an editable state when the locked and moved first identifier and the second identifier which does not belong to the same type of data presentation component with the first identifier meet; and

and the modification component acquires the inherent attribute field of the locked and moved first identification and fills or replaces the attribute information of the editable attribute field of the activated second identification with the attribute information of the inherent attribute field of the first identification.

2. The data processing system of claim 1, further comprising:

and the synchronization instruction component sends a data synchronization instruction to the modification component after the modification component fills or replaces the attribute field of the activated second identifier, so that the modification component fills or replaces the attribute field of the locked and moved first identifier, which corresponds to the intrinsic attribute field of the activated second identifier, by using the intrinsic attribute field of the activated second identifier.

3. The data processing system of claim 2, further comprising:

the collection component is used for creating an editable data item which associates the inherent attribute field of the first identification with the inherent attribute field of the second identification after the modification component completes the modification of the attribute field; or based on user text or voice input, and based on the input text or voice content at least containing two inherent attribute information, an editable data item which associates the inherent attribute field of the first identification and the inherent attribute field of the second identification is created.

4. The data processing system of claim 3, wherein the activation component activates the intersected property field to be in an editable state when the locked and moved first identification intersects any property field in the data items created by the assembly component that corresponds to the type of the intersected property field, the modification component obtains the locked and moved first identification inherent property field and populates or replaces the intersected property field with the first identification inherent property field to form a new data item, and the synchronization instruction component sends a data synchronization instruction to the modification component after the modification component populates or replaces the intersected property field, so that the modification component modifies the corresponding editable property field in the identification to which the property field of the new data item belongs based on the new data item.

5. The data processing system of claim 1, wherein the at least two data presentation components include a time presentation component and a map presentation component, wherein the identifiers presented by the time presentation component include a year identifier, a month identifier, a day identifier, a time identifier, and a point identifier, and the identifiers presented by the map presentation component are alphanumeric or graphical identifiers of a geography, a road, a region.

6. The data processing system of claim 5, wherein the time indicia presented by the time presentation component are alphanumeric characters distributed along a longitude scale on both sides of the map presented by the map presentation component, and the day indicia presented by the time presentation component are numeric characters on a date of each month distributed along a latitude scale on the top and bottom edges of the map presented by the map presentation component.

7. The data processing system of claim 1, wherein the activation component activates the locked first identified attribute field other than the intrinsic attribute field to be in a user-visible edit state for a user to enter attribute information in the editable attribute field.

8. The data processing system of claim 7, further comprising:

and the identification attribution component acquires the attribute information input by the user in the visible attribute field and attributing the input attribute information as the inherent attribute field to the nearest third identification, so that the synchronization instruction component sends a data synchronization instruction to the modification component, and the modification component fills or replaces the inherent attribute field of the third identification with the attribute field of the first identification corresponding to the inherent attribute field of the third identification.

9. The data processing system of claim 1, further comprising:

and the combined recommendation component is used for recommending the data contents of the plurality of editable attribute fields in a certain distance to the user based on the historical data when the same editable attribute field of the first identifier contains a pair of data contents with a certain distance from each other, matching and recommending the data contents of the intrinsic attribute fields in the same class as the intrinsic attribute field of the first identifier for each recommended data content, and forming the recommended data items which are acquired by the aggregation component and presented in a recommendation presentation mode so that the user can select one or more recommended data items in the recommended data items.

10. The data processing system of claim 1 or 7, further comprising:

and the conflict reminding component monitors whether the filled or replaced attribute information or the input new attribute information is completely the same as the existing attribute information in the editable attribute field when the modification component modifies the existing attribute information in the editable attribute field of the second identifier or the user inputs the attribute information into the editable attribute field of the first identifier, and sends a conflict reminding to the user when the filled or replaced attribute information or the input new attribute information is the same as the existing attribute information in the editable attribute field or when the filled or replaced attribute information or the input new attribute information is not compatible with the existing attribute information in the editable attribute field.

11. A method of data processing, comprising:

presenting multi-level data by adopting identifiers through at least two data presentation components, wherein the identifier of each level of data is attached with an attribute field comprising an inherent attribute field and at least one editable attribute field, the inherent attribute field comprises data content expressed by the identifier of the level of data and data content expressed by the identifier of superior data to which the inherent attribute field belongs, and the editable attribute field can be edited when the identifier to which the editable attribute field belongs is activated;

locking, via the locking component, the first identity by specifying the presented first identity such that the attribute information contained in the intrinsic attribute field of the locked first identity follows its movement;

when the locked and moved first identification and a second identification which does not belong to the same type of data presentation component with the first identification are intersected, activating a property field of the second identification, which corresponds to the inherent property field of the locked first identification, by an activation component so as to enable the property field to be in an editable state; and

the locked and moved inherent attribute field of the first identification is obtained through the modification component, and the attribute information of the editable attribute field of the activated second identification is filled or replaced by the attribute information of the inherent attribute field of the first identification.

12. The data processing method of claim 11, further comprising:

after the modification component fills or replaces the activated attribute field of the second identifier, sending a data synchronization instruction to the modification component through the synchronization instruction component; and

the property field of the locked and moved first identifier corresponding to the property field of the activated second identifier is filled or replaced by the modification component with the property field of the activated second identifier.

13. The data processing method of claim 12, further comprising:

after the modification component completes the modification of the attribute fields, creating, by the assembly component, an editable data item associating the first identified intrinsic attribute fields and the second identified intrinsic attribute fields; or after the user inputs words or voice, an editable data item which associates the inherent attribute field of the first identification and the inherent attribute field of the second identification is created through the collecting component based on the input words or voice content which at least comprises two inherent attribute information.

14. The data processing method of claim 13, further comprising:

when the locked and moved first identification is intersected with any attribute field, corresponding to the type of the inherent attribute field of the first identification, in the data item created by the aggregation component, the intersected attribute field is activated to be in an editable state through the activation component;

acquiring the locked and moved inherent attribute field of the first identification through the modification component, and filling or replacing the intersected attribute field with the inherent attribute field of the first identification to form a new data item;

after the modification component fills or replaces the intersected attribute fields, sending a data synchronization instruction to the modification component through the synchronization instruction component; and

modifying, by a modification component, a corresponding editable property field in the identification to which the property field of the new data item belongs based on the new data item.

15. The data processing method of claim 11, wherein the at least two data presentation components include a time presentation component and a map presentation component, wherein the identifiers presented by the time presentation component include a year identifier, a month identifier, a day identifier, a time identifier, and a point identifier, and the identifiers presented by the map presentation component are alphanumeric or graphical identifiers of a geography, a road, a region.

16. The data processing method of claim 15, wherein the time identifiers presented by the time presentation component are distributed along the longitude line scales on both sides of the map presented by the map presentation component, and the day identifiers presented by the time presentation component are date numeric characters on each month, and are distributed along the latitude line scales on the upper and lower edges of the map presented by the map presentation component.

17. The data processing method of claim 11, further comprising:

the locked first identified attribute fields other than the intrinsic attribute fields are activated by the activation component to be in a user-visible editing state for a user to enter attribute information in the editable attribute fields.

18. The data processing method of claim 17, further comprising:

acquiring attribute information input by a user in a visible attribute field through an identifier attribution component, and attributing the input attribute information to a nearest third identifier as an inherent attribute field;

sending a data synchronization instruction to the modification component through the synchronization instruction component; and

the property field of the first identifier corresponding to the intrinsic property field of the third identifier is filled or replaced by the modification component with the intrinsic property field of the third identifier.

19. The data processing method of claim 11, further comprising:

when the same editable attribute field of the first identifier contains a pair of data contents with a certain distance from each other, recommending the data contents of a plurality of editable attribute fields in the distance to the user by combining the recommending component based on the historical preference data of the user, and matching and recommending the data contents of the inherent attribute field of the same kind as the inherent attribute field of the first identifier for each recommended data content to form a recommended data item;

and acquiring the recommended data items through the collecting component and presenting the recommended data items in a recommendation presenting mode so that the user can select one or more recommended data items.

20. The data processing method of claim 11 or 17, further comprising:

when the modification component modifies the existing attribute information in the editable attribute field of the second identifier or the user inputs the attribute information into the editable attribute field of the first identifier, the conflict reminding component monitors whether the filled or replaced attribute information or the input new attribute information is completely the same as the existing attribute information in the editable attribute field, and sends conflict reminding to the user under the condition that the filled or replaced attribute information or the input new attribute information is the same as the existing attribute information in the editable attribute field or under the condition that the filled or replaced attribute information or the input new attribute information is incompatible with the editable attribute information of the first identifier.

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