CN110377894B - Drill-down-drill-up display control method, system, device and storage medium - Google Patents

Abstract

The application belongs to the field of engineering progress planning, and particularly relates to a drill-down-drill-up planning method, a system, a device and a storage medium for a double-code network diagram. At present, multi-level display of a double-code network plan in a workshop in the market is expressed in a partition mode, and cannot enter a specific branch to carry out focusing establishment. The application allows a user to enter the interior of a work item by selecting and drilling down, only displays all the sub-works of the work item in a double-code network diagram, adopts a double-line father-son structure for displaying the sub-works of a father-son structure, and the displaying mode is that the line part of the arrow line of the father work is double-line, and all the sub-works are parallel below the father work; and checking or compiling the sub-work displayed after the drill-down, and jumping out through the drill-down and displaying the updated highest-level double-code network diagram comprising all the planned contents. The planning efficiency is greatly improved, the planning difficulty is reduced for operators, and the operation is flexible and simple.

Description

Drill-down-drill-up display control method, system, device and storage medium

Technical Field

The application belongs to the field of engineering progress planning, and particularly relates to a drill-down-drill-up display control method, a system, a device and a storage medium for a double-code network diagram, which are used for the progress planning of the double-code network diagram in the construction engineering industry.

Background

At present, multi-level display of a double-code network plan in a workshop is expressed in a partition mode, but a father-son structure displayed in a double-line mode is not realized, and the father-son structure cannot enter a specific branch to carry out focusing establishment.

When the multi-level double-code network diagram is displayed in a partition mode, a serious disadvantage is that the multi-level partition cannot be added or deleted according to requirements in the compiling process, and the logical relationship and layout of the whole network diagram are required to be readjusted when the multi-level double-code network diagram is added or deleted, so that a compiler is forced to want to clearly know the hierarchical structure in advance, and the practical operation is not facilitated. And the attention of the personnel can not be concentrated in the project planning process, different responsible persons can not be appointed according to different work contents in the construction stage, and the work can not be better distributed.

In addition, in the planning stage, if a rough-fine planning thought is adopted, the refined task items can only be discharged under the rough-granularity task in the form at present, and then the subordinate task which is degraded into the rough-granularity task is selected, so that the thought of a constructor is restrained. Or the partitions are compiled firstly, then tasks are refined in the partitions, the linkage check of the multi-level plan cannot be realized, and the plan cannot be checked in a layered manner.

Disclosure of Invention

The application aims to solve the problems, and provides a drill-down-drill-up display control method, a drill-down-drill-up display control system, a drill-down-drill-up display control device and a drill-down-drill-up display control storage medium for a double-code network diagram, which can focus on a sub-item plan of a certain sub-section and perform operations such as checking and programming in the sub-item plan, thereby solving the problems of long time consumption, low efficiency and inflexible operation in the current programming.

In the application, "drill down" refers to: for the selected work item, jumping to the sub-work of the selected work item in the double-code network diagram, and only displaying all the sub-works in the double-code network diagram, so that focusing and refining of the selected work item are facilitated; the term "drill-up" in the present application means: and in the double-code network diagram obtained by 'drill-down', after the inspection or programming of the sub-work is completed, returning to the highest-level double-code network diagram to inspect the updated global view.

The application relates to a drill-down-drill-up display control method of a double-code network diagram, which comprises the following steps:

s1, entering the focused work item through a drill-down interface in a double-code network diagram of the project progress;

s2, only displaying all the child works of the work item in the double-code network diagram, and displaying the child works of the parent-child structure by adopting a double-line parent-child structure, wherein the line part of the arrow line of the parent work is double-line, and all the child works are parallel below the parent work;

s3, after checking or compiling the sub-work, jumping out through the drilling interface;

and S4, displaying the updated highest-level double-code network diagram comprising all the planned contents.

Further, the work items that want to enter are selected step by stepping down, i.e. stepping down into the hierarchy of interest.

Further, drill down directly to the work item that is desired to be entered.

Further, the work items focused on a certain level or a certain part after being drilled down.

Further, the region where the double-line father-son structure is located is provided with a ground color, so that all the son works are surrounded and separated from other work areas.

Further, the compiling includes adding, modifying or deleting sub-jobs.

Further, for child jobs of non-parent-child structure, upgrade to parent jobs through compilation.

Further, the two-line parent-child structure and the partition parent-child structure are switchable upon display.

Further, the modification of any work item after the drill-down is finally embodied in the highest-level double-code network diagram of all the planned contents.

The application relates to a drill-down-drill-up display control system of a double-code network diagram, which comprises a drill-down module, a drill-up module and a display control module,

the drill-down module provides a drill-down interface, and enters the focused work item through the drill-down interface in a double-code network diagram of the project progress;

the upper drilling module provides an upper drilling interface, and the upper drilling module jumps out through upper drilling after checking or compiling the sub-work;

the display control module displays a control result, only displays all the sub-works of the work item in a double-code network diagram after drilling, and adopts a double-line father-son structure for the sub-works of the father-son structure, wherein the line part of the arrow line of the father work is double-line, and all the sub-works are parallel below the father work; and displaying the updated highest-level double-code network diagram comprising all the planned contents after drilling.

Further, the work items that want to enter are selected step by stepping down, i.e. stepping down into the hierarchy of interest.

Further, drill down directly to the work item that is desired to be entered.

Further, the work items focused on a certain level or a certain part after being drilled down.

Further, the region where the double-line father-son structure is located is provided with a ground color, so that all the son works are surrounded and separated from other work areas.

Further, the compiling includes adding, modifying or deleting sub-jobs.

Further, for child jobs of non-parent-child structure, upgrade to parent jobs through compilation.

Further, the two-line parent-child structure and the partition parent-child structure are switchable upon display.

Further, the modification of any work item after the drill-down is finally embodied in the highest-level double-code network diagram of all the planned contents.

The drill-down and drill-up display control device of the double-code network diagram comprises a display unit, an operation unit and a storage unit, wherein the operation unit executes a program in the storage unit, the storage unit stores a program for executing the drill-down and drill-up programming method of the double-code network diagram, and the display unit displays a control result.

The storage medium of the present application stores therein computer usable program code for executing the drill-down-drill-up programming method of the above-described double-code network map.

The application relates to a drill-down-drill-up compiling system of a double-code network diagram, which comprises a display device, an operation module, a storage module, a bus and an operation device, and is used for executing the drill-down-drill-up compiling method of the double-code network diagram.

The storage medium of the present application stores therein computer usable program code for executing the drill-down-drill-up programming method of the above-described double-code network map.

The application can flexibly plan according to specific conditions, plan from thick to fine, link with multi-level plan, update after drilling, change the work item originally comprising a thick granularity into the father work comprising a series of son works.

The beneficial effects are that: the user is helped to more quickly construct a plan with high reliability and correct use without redesigning the hierarchical structure of the plan, and the design and practice are really combined to guide the actual construction.

The application provides a 'drill-down-drill-up' function in the double-code network diagram, can drill down the father work of the partition or double-line father-son structure into the inside of the double-code network diagram, is beneficial to a constructor to focus on a sub-item plan of a certain subsection in the double-code network diagram to check, compile and the like, greatly improves the planning efficiency, reduces the planning difficulty for operators, and has flexible and simple operation.

Drawings

FIG. 1 is a two-code network diagram including a partition and a two-line parent-child structure;

FIG. 2 is a network diagram of a double code after the drill-down of a portion of the work item of FIG. 1;

FIG. 3 is a network diagram of the dual code after the drill down of a portion of the work item of FIG. 2;

FIG. 4 is a network diagram of the dual code after the drill of FIG. 3;

FIG. 5 is a network diagram of a double code obtained after a sub-job is compiled and drilled;

FIG. 6 is a flow chart of a drill-down-drill-up display control method according to the present application.

Detailed Description

In order to more clearly illustrate the embodiments of the present application or the prior art solutions, the technical solutions in the examples of the present application will be clearly and completely described below with reference to the drawings in the examples of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments.

Based on the embodiments of the present application, all other embodiments obtained by those of ordinary skill in the art without creatively proposing a two-wire parent-child structure and making a drill-down-drill-up linkage on the basis thereof are all within the scope of the present application.

The application is herein described in detail by means of the following examples on the basis of fig. 6.

Two forms of parent-child structure are shown in FIG. 1 as a double-code network diagram: (1) partitioning the parent-child structure; (2) double-line father-son structure, and the father work of two forms can be switched.

Wherein the work items of the first hierarchy have a work item 0 and a work item 1, and the work item 0 is a single work without upper and lower hierarchy. Work item 1 contains sub-works of the second hierarchy—work item 1.1 and work item 1.2. Wherein the work item 1.1 comprises a third level of sub-work, namely a work item 1.1.1 and a work item 1.1.2; work item 1.2 contains a third level of sub-work—work item 1.2.1 and work item 1.2.2. The previous level is the parent work corresponding to the next level, and correspondingly, the next level is the child work corresponding to the previous level, and the second level is the child work of the first level and the parent work of the third level.

Work item 1.1 and work items 1.1.1 and 1.2 of the next level are displayed in a double-line parent-child structure, and work item 1.2.1 and work items 1.2.2 of the next level are displayed in a partition mode. In the double-line father-son structure, the line part of the father work arrow line is double-line, all the son works are parallel under the father work, and all the son works are surrounded by the ground color and are separated from other work areas; in the parent-child structure in the form of partitions, the parent work is shown on the left side as a partition, and the network map is divided into different areas by dividing lines and ground colors, wherein all the child works of the parent work are contained.

Work item 1.1, which is the parent work, may cancel the two-wire parent-child structure and be displayed in a partitioned parent-child structure. Work item 1.2, which is a parent work, may cancel the partition parent-child structure and be displayed in a double-line parent-child structure.

The drill-down operation may be performed for a single parent job (regardless of form or hierarchy). Each time a drill-down enters a lower level, the work item to be entered can be selected step by step, i.e. the drill-down is performed step by step into the desired level, or the drill-down can be performed directly to the work item to be entered. So that only work items of a certain level or a certain part, such as a certain sub item of a certain sub section, are focused at a time to help the user focus to the maximum extent.

The result of the drill-down of work item 1 in fig. 1 is shown in fig. 2: only all child jobs under work item 1, which is a parent job, are shown in the double-code network diagram, and work item 1 itself and work item 0 at the same level are not shown. The work item 1.1 is displayed by adopting a double-line father-son structure, and the work item 1.2 is displayed by adopting a partition father-son structure. In the second hierarchical interface shown in fig. 2, operations such as adding, modifying, deleting and the like can be performed on each level of child work visible to the work item 1, and focusing refinement can be performed on the work item 1 as a parent work. The selection of the work item 1.1 to be refined can also be continued, clicking down to drill down into the third level, as shown in fig. 3.

No matter what level is currently located, the system can directly return to the highest level through the drill-up as long as the system is in the drill-down state, and a double-code network diagram comprising all planned contents can be checked. Fig. 3 will go back to the highest level of the construction plan, i.e. the state of fig. 1, directly after the drill-up.

All the father works are automatic work period calculation, namely the work period change caused by the operation of the son works is synchronously reflected to the father works, the highest layer is affected step by step, and the work period of the father works is equal to the key line time or the longest path time of the son works.

As shown in fig. 4, after work item 1.1.1 is added as a sub-work of work item 1.1, work item 1.1.3 (taking 16 days) at which time the critical line (or longest path) is changed (from work item 1.1.1→work item 1.1.2 to work item 1.1.1→work item 1.1.3). As can be seen by comparing with FIG. 1, work item 1.1, which is a parent work, has a construction period ranging from 31 days to 37 days, which is the sum of the construction periods of work items 1.1.1 (21 days) and 1.1.3 (16 days). The change in work item 1.1 in turn affects the work item of its parent work 1 from 58 days to 64 days, which is the sum of work item 1.1 (37 days) and work item 1.2 (27 days) work periods, as shown in the lower region of fig. 5 after work item 1.1 has been drilled.

The drill down may also be performed for a single work item. After the drill-down, the child work can be added, i.e. the single work is upgraded to the parent work. As shown in the upper area of FIG. 5, work item 0 has become a parent work including work items 0.1 and 0.2, and the construction period has also changed from the previous 16 days to 33 days after the drill-up, as shown in the upper area of FIG. 5, after the drill-up, by clicking down after selecting work item 0, and adding a child work in the drill-down view.

Drill-down focus from parent to child may instead be entered using a form of table screening one of the branches, but with the aid of a table. The method of screening and focusing in the form needs to select various works which want to be focused and displayed in the screening widget, so that the method is inconvenient, and the drill-down operation is more convenient after the work items are selected in the network diagram.

The idea of programming from coarse to fine can fill in fine granularity work items under coarse granularity work items in a form, and then the fine granularity work items are subjected to degradation treatment, so that the operation of drilling down and then drilling up can be replaced. But this operation also needs to be done by means of a form and violates the compiler's thinking of thick to thin: instead of compiling coarse-granularity work items, selecting one of the fine-granularity work items to be compiled, after compiling coarse-granularity work items, finding out a place to insert the fine-granularity work items, and then selecting all fine-granularity work items and degrading the fine-granularity work items. The adoption of the form of drilling-out and drilling-down accords with the programming thought of a programming person from thick to thin: after the planning of the high-level coarse granularity is completed, drilling down to enter a certain work, planning of the low-level fine granularity is completed, and a complete plan of multi-level plan linkage is directly formed after drilling up.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

The same and similar parts of the embodiments of the present disclosure will be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for system embodiments, since they are substantially similar to method embodiments, the description is relatively simple, as relevant to see a section of the description of method embodiments.

For convenience of description, the above devices are described as being functionally divided into various units, respectively. Of course, the functions of each element may be implemented in the same piece or pieces of software and/or hardware when implementing the present application.

It will be appreciated by those skilled in the art that embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The foregoing is merely exemplary of the present application and is not intended to limit the present application. Various modifications and variations of the present application will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the application are to be included in the scope of the claims of the present application.

Claims (18)

1. The drill-down-drill-up display control method of the double-code network diagram is characterized by comprising the following steps of:

s1, entering the focused work item through a drill-down interface in a double-code network diagram of the project progress;

s2, only displaying all the child works of the work item in the double-code network diagram, and displaying the child works of the parent-child structure by adopting a double-line parent-child structure, wherein the line part of the arrow line of the parent work is double-line, and all the child works are parallel below the parent work;

s3, after checking or compiling the sub-work, jumping out through the drilling interface;

after S3, the method further includes:

synchronizing the construction period change caused by the operation of the child work to the father work, and calculating the construction period of the father work so as to enable the modification of any work item after the drill-down to be finally embodied in the highest-level double-code network diagram of all the planned contents;

and S4, displaying the updated highest-level double-code network diagram comprising all the planned contents.

2. The drill-down-drill-up display control method of the double-code network diagram according to claim 1, wherein the method comprises the following steps of: the work items that are desired to be entered are selected step by stepping down, i.e. stepping down into the hierarchy of interest.

3. The drill-down-drill-up display control method of the double-code network diagram according to claim 1, wherein the method comprises the following steps of: directly drill down to the work item that is desired to be accessed.

4. The drill-down-drill-up display control method of the double-code network diagram according to claim 1, wherein the method comprises the following steps of: after drilling down, focusing on a certain level or a certain part of work items.

5. The drill-down-drill-up display control method of the double-code network diagram according to claim 1, wherein the method comprises the following steps of: the region where the double-line father-son structure is located is provided with a ground color, so that all the son works are surrounded and separated from other work areas.

6. The drill-down-drill-up display control method of the double-code network diagram according to claim 1, wherein the method comprises the following steps of: the compilation includes adding, modifying or deleting sub-jobs.

7. The drill-down-drill-up display control method of the double-code network diagram according to claim 1, wherein the method comprises the following steps of: for the child work of the non-parent-child structure, the child work is updated to the parent work through programming.

8. The drill-down-drill-up display control method of the double-code network diagram according to claim 1, wherein the method comprises the following steps of: the double-line parent-child structure and the partition parent-child structure are switchable upon display.

9. A drill-down-drill-up display control system of a double-code network diagram is characterized in that: the system comprises a drill-down module, a drill-up module and a display control module,

the drill-down module provides a drill-down interface, and enters the focused work item through the drill-down interface in a double-code network diagram of the project progress;

the upper drilling module provides an upper drilling interface, and the upper drilling module jumps out through upper drilling after checking or compiling the sub-work;

the display control module displays a control result, only displays all the sub-works of the work item in a double-code network diagram after drilling, and adopts a double-line father-son structure for the sub-works of the father-son structure, wherein the line part of the arrow line of the father work is double-line, and all the sub-works are parallel below the father work; displaying the updated highest-level double-code network diagram comprising all the planned contents after drilling;

the display control module is further used for synchronizing the construction period change caused by the operation of the child work to the parent work and calculating the construction period of the parent work, so that the modification of any work item after the drilling is finished is finally embodied in the highest-level double-code network diagram of all the planned contents.

10. The drill-down-to-drill-up display control system of the two-code network map of claim 9, wherein: the work items that are desired to be entered are selected step by stepping down, i.e. stepping down into the hierarchy of interest.

11. The drill-down-to-drill-up display control system of the two-code network map of claim 9, wherein: directly drill down to the work item that is desired to be accessed.

12. The drill-down-to-drill-up display control system of the two-code network map of claim 9, wherein: after drilling down, focusing on a certain level or a certain part of work items.

13. The drill-down-to-drill-up display control system of the two-code network map of claim 9, wherein: the region where the double-line father-son structure is located is provided with a ground color, so that all the son works are surrounded and separated from other work areas.

14. The drill-down-to-drill-up display control system of the two-code network map of claim 9, wherein: the compilation includes adding, modifying or deleting sub-jobs.

15. The drill-down-to-drill-up display control system of the two-code network map of claim 9, wherein: for the child work of the non-parent-child structure, the child work is updated to the parent work through programming.

16. The drill-down-to-drill-up display control system of the two-code network map of claim 9, wherein: the double-line parent-child structure and the partition parent-child structure are switchable upon display.

17. The utility model provides a two code network diagrams's drill down-display control device that drills up which characterized in that: comprising a display unit, an operation unit, and a storage unit, the operation unit executing a program in the storage unit, the storage unit having stored therein a program for executing the method according to any one of claims 1 to 8, the display unit displaying a control result.

18. A storage medium, characterized by: computer usable program code for performing the drill-down-drill-up compilation method of a two-code network graph according to any of claims 1-8 is stored in a storage medium.