CN111831382B - Data entry method, device, equipment and medium for engineering cost software - Google Patents

Abstract

The application discloses a data entry method, a device, equipment and a computer readable storage medium of engineering cost software, wherein the method comprises the following steps: dragging the project quantity list to be input into the project cost software according to the dragging instruction, and taking each insert in the project quantity list to be input as a current insert; determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relationship established in advance, and establishing an insert matching relationship table; determining data fields matched with all column names of the current insert in the matched functional modules based on the binding relationship, establishing a matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result; and inputting the rule data structure into the engineering cost software according to the insert matching relation table and the column matching relation table. According to the technical scheme, automatic entry of the engineering quantity list to be entered can be achieved, so that the data entry efficiency is improved, and the data entry accuracy is improved through matching.

Description

Data entry method, device, equipment and medium for engineering cost software

Technical Field

The present application relates to the field of engineering cost technologies, and in particular, to a data entry method, apparatus, device and computer readable storage medium for engineering cost software.

Background

The engineering cost software is tool software for calculating the total engineering cost according to the details of the engineering quantity list, and the engineering quantity list provides the basic contents, entity quantity, quality requirement and other information of the proposed engineering. Currently, in the field of domestic engineering cost, Microsoft Office Excel (Excel for short) software is generally adopted for carrying the data of the engineering volume list. The state or each province industry governing department has clear requirements on the format of the engineering quantity list table, and specifically, the format of the engineering quantity list table needs to contain main contents: table name, project name, serial number, project code, list name, measurement unit, and project amount. At the time of construction costs, these lists need to be entered into the construction cost software.

The data input mode of the existing engineering cost software is as follows: one is to manually compare the details of the engineering quantity list in the Excel and input the data into engineering-caused software one by one, and the other is to open an Excel-form engineering quantity list file in the engineering cost software, then an operator establishes a matching relation between the data in each insert of the Excel and the data fields of each functional module in the engineering cost software, and finally, the introduction of the engineering quantity list data in the Excel is manually completed. However, the data size included in the engineering quantity list is relatively large, and the imported data needs to be manually organized into the data line relationship and adjusted in the data type (for example, hierarchical structure adjustment, engineering quantity list data line type setting, and the like), so that the data entry efficiency is reduced, and errors caused by manual operations easily occur.

In summary, how to improve the efficiency and accuracy of data entry of software caused by engineering is a technical problem to be solved urgently by those skilled in the art.

Disclosure of Invention

In view of the above, an object of the present application is to provide a data entry method, device, apparatus and computer readable storage medium for engineering cost software, which are used to improve the data entry efficiency and accuracy of the engineering cost software.

In order to achieve the above purpose, the present application provides the following technical solutions:

a data entry method of engineering cost software comprises the following steps:

dragging the to-be-input engineering quantity list into engineering cost software according to the received dragging instruction, and respectively taking each insert in the to-be-input engineering quantity list as a current insert;

determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relation established in advance, and establishing an insert matching relation table; the binding relationship is obtained by binding a functional module and a data field of the engineering cost software with a field name in a standard engineering quantity list;

determining data fields matched with all column names of the current insert page in matched functional modules based on the binding relationship, establishing a column matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result;

and inputting the rule data structure into the engineering cost software according to the insert matching relation table and the column matching relation table.

Preferably, after generating the rule data structure according to the line matching result, the method further includes:

checking the rule data structure;

accordingly, entering the rule data structure into the engineering cost software includes:

and inputting the data which passes the verification in the rule data structure into the engineering cost software.

Preferably, the checking the rule data structure includes:

matching and checking the insert of the project amount list to be input and the matched functional module in the project cost software;

comparing the effective data volume of each insert in the project volume list to be recorded with the data volume pre-recorded by the matched functional module in the project cost software to determine whether the effective data volume is consistent with the data volume pre-recorded by the matched functional module in the project cost software;

checking the data content contained in each insert in the project amount list to be recorded and the data content pre-recorded by the functional module matched with the project cost software;

and checking the regularity of the rule data structure.

Preferably, when determining the functional module in the engineering cost software, which is matched with the name of the current insert page according to the pre-established binding relationship, the method further comprises the following steps:

if the function module matched with the insert name of the current insert cannot be determined according to the binding relationship, the function module matched with the insert name of the current insert in the engineering cost software set by a user is received, the matching relationship between the insert and the function module is formed, and the matching relationship between the insert and the function module is recorded in the insert matching relationship table and the binding relationship.

Preferably, when determining the data fields in the matched functional modules, which are matched with the column names of the current insert page, according to the binding relationship, the method further includes:

and if the data field matched with the column name of the current insert cannot be determined according to the binding relationship, receiving the data field which is set by the user and matched with the column name of the data field which is not matched, forming the matching relationship between the column and the data field of the functional module, and recording the matching relationship between the column and the data field of the functional module in the column matching relationship table and the binding relationship.

Preferably, matching rows based on the column matching relationship table includes:

identifying and deleting empty data rows to be input into the engineering quantity list based on the column matching relation table;

setting the row type of the effective data row in the engineering quantity list to be input according to the contents of different columns in the engineering quantity list to be input; wherein the row type includes a manifest and a section.

Preferably, the generating of the rule data structure according to the line matching result includes:

determining the hierarchical structure of the effective data rows with the line types of the branches according to the serial numbers of the effective data rows with the line types of the branches so as to form a depth list of a hierarchical marking tree for the branch data;

and determining the effective data row with the row type of the list corresponding to the effective data row with the row type of the subsection according to the to-be-recorded engineering quantity list, and determining the insertion position of the effective data row with the row type of the subsection corresponding to the effective data row with the row type of the subsection as the insertion position of the effective data row of the list according to the depth list so as to form the rule data structure.

A data entry device for construction cost software, comprising:

the dragging module is used for dragging the to-be-input engineering quantity list to engineering cost software according to the received dragging instruction, and respectively taking each insert in the to-be-input engineering quantity list as a current insert;

the first determining module is used for determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relation established in advance and establishing an insert matching relation table; the binding relationship is obtained by binding a functional module and a data field of the engineering cost software with a field name in a standard engineering quantity list;

the second determining module is used for determining data fields matched with all column names of the current insert page in the matched functional modules based on the binding relationship, establishing a column matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result;

and the entry module is used for entering the rule data structure into the engineering cost software based on the insert matching relation table and the column matching relation table.

A data entry device for construction cost software, comprising:

a memory for storing a computer program;

a processor for implementing the steps of the data entry method of the engineering cost software as claimed in any one of the preceding claims when said computer program is executed.

A computer readable storage medium having stored thereon a computer program which, when executed by a processor, carries out the steps of the data entry method of construction cost software according to any one of the preceding claims.

The application provides a data entry method, a device, equipment and a computer readable storage medium of engineering cost software, wherein the method comprises the following steps: dragging the project quantity list to be input into the project cost software according to the received dragging instruction, and respectively taking each insert in the project quantity list to be input as a current insert; determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relation established in advance, and establishing an insert matching relation table; the binding relationship is obtained by binding a functional module and a data field of the engineering cost software with a field name in a standard engineering quantity list; determining data fields matched with all column names of the current insert page in the matched functional modules based on the binding relationship, establishing a matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result; and inputting the rule data structure into the engineering cost software according to the insert matching relation table and the column matching relation table.

According to the technical scheme disclosed by the application, after a dragging instruction is received, a to-be-recorded project amount list is dragged into the project cost software, the function module corresponding to each insert page of the to-be-recorded project amount list in the project cost software and the data field matched with the column name of the corresponding insert page in the matched function module are determined based on the binding relation obtained by binding the function module and the data field of the project cost software with the field name in the standard project amount list in advance, the insert page matching relation table and the column matching relation table are correspondingly established, the rows are matched based on the column matching relation table, a rule data structure is generated, and finally the generated rule data structure is introduced into the project cost software according to the insert page matching relation table and the column matching relation table to realize the automatic recording of the to-be-recorded project amount list, so that the data recording efficiency of the project cost software is improved, and the data to be recorded in the project amount list can be accurately recorded into the project cost software through automatic matching and the generated matching relation table.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts.

FIG. 1 is a flow chart of a data entry method for engineering cost software according to an embodiment of the present disclosure;

FIG. 2 is a display diagram of a to-be-entered work load list provided by an embodiment of the present application;

fig. 3 is a diagram showing an action of dragging a to-be-entered work volume list to the project cost software according to the embodiment of the present application;

fig. 4 is a flowchart for matching a current insert page in a to-be-entered work amount list according to the embodiment of the present application;

fig. 5 is a flowchart for matching columns in a current insert page in a to-be-entered engineering quantity list according to the embodiment of the present application;

fig. 6 is a display diagram of a constructional engineering function module in three function modules after an engineering quantity list to be entered is entered into engineering cost software according to the embodiment of the present application;

fig. 7 is a display diagram of a measure item function module after a to-be-entered engineering quantity list is entered into engineering cost software according to the embodiment of the present application;

FIG. 8 is a schematic structural diagram of a data entry device of engineering cost software according to an embodiment of the present application;

fig. 9 is a schematic structural diagram of a data entry device of engineering cost software according to an embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Referring to fig. 1, which shows a flowchart of a data entry method for engineering cost software provided in an embodiment of the present application, the data entry method for engineering cost software provided in an embodiment of the present application may include:

s11: dragging the project quantity list to be input into the project cost software according to the received dragging instruction, and respectively taking each insert in the project quantity list to be input as a current insert.

When the to-be-entered engineering quantity list needs to be entered into the engineering cost software, a dragging instruction can be sent by a user, wherein the dragging instruction sent by the user comprises a dragging track of the to-be-entered engineering quantity list (the dragging track is specifically a track formed by dragging the to-be-entered engineering quantity list from the current position where the to-be-entered engineering quantity list is located to the target position of the engineering cost software). It should be noted that the to-be-entered engineering quantity list may be in an Excel form, and refer to fig. 2 specifically, which shows a display diagram of the to-be-entered engineering quantity list provided in the embodiment of the present application, and is described by taking a certain hydraulic engineering quantity list in zhejiang as an example, the to-be-entered engineering quantity list includes inserts such as a construction engineering classification itemized engineering quantity list pricing table, an electromechanical device and installation engineering classification itemized engineering quantity list pricing table, a metal structure device and installation engineering classification itemized engineering quantity list pricing table, a measure item list pricing table, other item list pricing tables, and the like, and rows and columns in each insert include relatively many data.

After receiving the dragging instruction, dragging the to-be-entered engineering quantity list to the engineering cost software according to the dragging instruction, and then reading data (specifically including each insert in the to-be-entered engineering quantity list and all row and column data in each insert) in the to-be-entered engineering quantity list to a memory of the engineering cost software based on the Office Open XML file format standard, specifically referring to fig. 3, which shows an action display diagram provided in the embodiment of the present application for dragging the to-be-entered engineering quantity list to the engineering cost software, it should be noted that fig. 3 illustrates that a certain hydraulic engineering quantity list is taken as an example of the to-be-entered engineering quantity list. After the project amount list to be input is dragged to the project cost software, each insert in the project amount list to be input can be extracted respectively, and each insert is used as a current insert for subsequent operation.

S12: determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relation established in advance, and establishing an insert matching relation table; the binding relationship is obtained by binding the functional module and the data field of the engineering cost software with the field name in the standard engineering quantity list.

Before the project amount list to be entered is entered into the project cost software, the field names in the standard project amount list (i.e. the project amount list corresponding to the industry standard issued by the state or each provincial industry governing department) can be extracted in advance according to the industry standard issued by the state or each provincial industry governing department, wherein the field names can specifically comprise table names, project names (i.e. the insert names of each insert), serial numbers, project codes, project names, metering units, project quantities and the like, and can be respectively used as standard character strings to form a standard character string library, wherein each field name can correspond to a plurality of standard character strings (for example, for the field name of the project amount classified itemized project amount list price list of the building project classified itemized project amount list, the field name can be a standard character string of the project amount list price list of the building engineering classified itemized project amount list, The standard character string of the project quantity list of the construction project classification project, the standard character string of the construction project, the standard character string of the building and the like), and the function module and the data field (specifically, the name of the function module and the name of the data field) in the construction cost software can be bound with the standard character string in the standard character string library in advance to obtain the binding relationship. According to the specifications of national or provincial industry governing departments, various functional modules can be preset in the engineering cost software, and by taking the engineering cost software for water conservancy as an example, a plurality of functional modules such as building engineering, electromechanical equipment and installation engineering, metal structure equipment and installation engineering, measure projects and other projects are preset in the engineering cost software.

Specifically, reference may be made to fig. 4, which shows a flowchart for matching a current insert page to be entered into a work volume list provided in the embodiment of the present application. After determining the current interleaf to be entered into the engineering quantity list, the name of the current interleaf can be extracted, then, the matching of the current insert and the functional module in the engineering cost software can be carried out by utilizing a preset character string matching algorithm based on the binding relationship established in advance, so as to determine the functional module matched with the name of the current insert in the engineering cost software and establish an insert matching relation table, wherein, the insert matching relation table can comprise the position of the current insert, the position of the functional module matched with the current insert, the name of the current insert and the name of the functional module matched with the current insert, so as to form a corresponding relation table of the insert in the project amount list to be recorded and the functional module in the project cost software, so that the functional module of the engineering cost software to which the current insert is to be recorded can be determined subsequently according to the insert matching relation table.

It should be noted that the preset string matching algorithm mentioned above may be specifically a BM (Boyer-Moore) string matching algorithm, and certainly, other types of string matching algorithms may also be used for matching, which is not limited in this application.

S13: and determining data fields matched with all column names of the current insert page in the matched functional modules based on the binding relationship, establishing a column matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result.

Referring to fig. 5, a flowchart for matching columns in a current insert page in a to-be-entered engineering quantity list is shown according to the embodiment of the present application. After determining the functional module matched with the current insert page in the engineering cost software, reading a header row in the current insert page and reading the column names of all columns in the current insert page, wherein the header is a first row in a table format to be input into an engineering quantity list or a row containing a serial number, an item code, a list, an item name, a metering unit and a project number main technical clause code appearing for the first time, matching all the column names in the current insert page with data fields in the matched functional module by using a preset character string matching algorithm based on a pre-established binding relationship, specifically, taking each column in the current insert page as a current column respectively, matching in the current insert page by using the preset character string matching algorithm based on the pre-established binding relationship to determine the data fields matched with the column name of the current column and establishing a column matching relationship table, the column matching relation table comprises column names of all columns of the current insert and data fields matched with the column names of all the columns, so that a corresponding relation list between all the columns of the insert in the engineering quantity list to be recorded and the data fields in the functional modules is formed, and the columns of the current insert can be conveniently and sequentially determined to be recorded in which columns of the functional modules according to the column matching relation table.

After the matching of each column name in the current insert is completed and the column matching relationship table is established, each row in the current insert can be matched based on the column matching relationship table, and a rule data structure with a hierarchical structure can be generated according to the row matching result, so that the rule data structure can be directly input into engineering cost software subsequently.

S14: and inputting the rule data structure into the engineering cost software according to the insert matching relation table and the column matching relation table.

After the step S13 is executed, the position to be entered in each insert and each column in the to-be-entered engineering quantity list can be determined according to the insert matching relationship table and the column matching relationship table, and the generated rule data structure can be entered into the engineering cost software, so as to implement automatic entry of the to-be-entered engineering quantity list. Specifically, reference may be made to fig. 6 and fig. 7, where fig. 6 shows a display diagram of a constructional engineering function module in three function modules after an engineering quantity list to be entered is entered into engineering cost software according to an embodiment of the present application, and fig. 7 shows a display diagram of a measure project function module after the engineering quantity list to be entered is entered into engineering cost software according to an embodiment of the present application, where the function module shown in fig. 6 is a constructional engineering, an electromechanical device and an installation project, a metal structure device and an installation project, and a data format of the constructional engineering function module is currently displayed.

Compared with the prior art that the project amount list is manually input into the project cost software, the project amount list input method has the advantages that data in the project amount list to be input can be automatically input into the project cost software through dragging of the project amount list to be input, automatic matching of inserts, automatic matching of columns, automatic matching of rows, generation of a rule data structure and input of the rule data structure, automatic batch input of the project amount list to be input can be achieved, and data input efficiency is improved.

According to the technical scheme disclosed by the application, after a dragging instruction is received, a to-be-recorded project amount list is dragged into the project cost software, the function module corresponding to each insert page of the to-be-recorded project amount list in the project cost software and the data field matched with the column name of the corresponding insert page in the matched function module are determined based on the binding relation obtained by binding the function module and the data field of the project cost software with the field name in the standard project amount list in advance, the insert page matching relation table and the column matching relation table are correspondingly established, the rows are matched based on the column matching relation table, a rule data structure is generated, and finally the generated rule data structure is introduced into the project cost software according to the insert page matching relation table and the column matching relation table to realize the automatic recording of the to-be-recorded project amount list, so that the data recording efficiency of the project cost software is improved, and the data to be recorded in the project amount list can be accurately recorded into the project cost software through automatic matching and the generated matching relation table.

The data entry method for the engineering cost software provided by the embodiment of the application, after generating the rule data structure according to the row matching result, may further include:

checking the rule data structure;

accordingly, entering the rule data structure into the engineering cost software may include:

and inputting the data which passes the verification in the rule data structure into the engineering cost software.

After generating the rule data structure according to the row matching result, the generated rule data structure may be checked, and data that passes the check in the rule data structure may be determined. And then, when the rule data are recorded, only the data which pass the inspection in the rule data structure can be recorded into the engineering cost software, so that the data which do not pass the inspection (namely error data) are prevented from being recorded into the engineering cost software, and the accuracy of data recording is improved.

The data entry method for the engineering cost software provided by the embodiment of the application checks the rule data structure, and can include the following steps:

matching and checking the insert to be input into the project amount list and the matched functional module in the project cost software;

comparing the effective data volume of each insert in the project volume list to be recorded with the data volume pre-recorded by the matched functional module in the project cost software to determine whether the effective data volume is consistent with the data volume pre-recorded by the matched functional module in the project cost software;

the data content contained in each insert page in the project amount list to be recorded is checked with the data content pre-recorded by the functional module matched with the project cost software;

the regularity of the rule data structure is checked.

Specifically, the rule data structure may be checked as follows:

1) matching and checking the insertion page in the project amount list to be input and the matched functional module in the project cost software

Specifically, whether the matching between the insert to be entered into the engineering quantity list and the function module is successful or not can be verified according to the matching results of the step S12 and the step S13;

2) the effective data quantity in each insert in the list of the project quantity to be input is compared with the data quantity pre-input by the functional module matched with the project cost software to determine whether the effective data quantity is consistent with the data quantity pre-input by the functional module matched with the project cost software

Specifically, the non-empty recorded data volume in the list insert of the engineering volume to be recorded is extracted and taken as the effective data volume, and the effective data volume is compared with the data volume (which can be determined from the regular structure data) pre-recorded by the matched functional module in the engineering cost software to determine whether the effective data volume and the data volume are the same;

3) the data content contained in each insert page in the project amount list to be recorded is checked with the data content pre-recorded by the functional module matched with the project cost software

Specifically, the data content of the rows and columns in the engineering quantity list to be entered and the data content pre-entered in the corresponding rows and columns in the function module matched with the engineering cost software can be checked and compared to determine whether the data content is consistent;

4) checking the regularity of the generated rule data structure

Specifically, the regularity of the generated rule data structure may be checked according to the specification requirements of the national or each provincial industry governing department and the engineering cost industry habits to determine whether the regularity of the generated rule data structure meets the requirements or the industry habits.

The integrity and the accuracy of the rule data structure are checked through the four aspects, so that the entry of error data is avoided.

The data entry method for engineering cost software provided in the embodiment of the present application, when determining the functional module in the engineering cost software, which is matched with the name of the current insert page, according to the pre-established binding relationship, may further include:

and if the function module matched with the insert name of the current insert cannot be determined according to the binding relationship, receiving the function module matched with the insert name of the current insert in the engineering cost software set by the user, forming the matching relationship between the insert and the function module, and recording the matching relationship between the insert and the function module in the insert matching relationship table and the binding relationship.

In the application, when the function module matched with the insert name of the current insert in the engineering cost software is determined according to the binding relationship established in advance, if the function module matched with the insert name of the current insert cannot be determined according to the binding relationship, namely if the current insert cannot be successfully matched with the function module in the engineering cost software, the user can carry out human intervention and carry out self-learning according to the result of the human intervention so as to continuously improve the automatic matching capability of the engineering quantity list. Specifically, when the matching is not successful, a prompt can be sent, after the prompt is received, a user can set a function module matched with the name of the current insert in the engineering cost software according to experience and the like, after the function module matched with the name of the current insert set by the user is received, the name of the current insert and the function module matched with the name of the current insert can be recorded, the matching relation between the insert and the function module is formed, and meanwhile, the matching relation between the insert and the function module can be recorded in the established insert matching relation table and the binding relation, so that data entry can be carried out according to the insert matching relation table, the automatic matching capability of the engineering quantity list can be improved according to the binding relation, and manual intervention can be reduced as much as possible.

The data entry method for engineering cost software provided by the embodiment of the application, when determining the data fields matched with the column names of the current insert page in the matched functional modules according to the binding relationship, may further include:

and if the data field matched with the column name of the current insert cannot be determined according to the binding relationship, receiving the data field which is set by the user and is matched with the column name of the data field which is not matched, forming the matching relationship between the column and the data field of the functional module, and recording the matching relationship between the column and the data field of the functional module in a column matching relationship table and the binding relationship.

In the application, when the data fields matched with the column names of the current insert page in the matched functional modules are determined according to the binding relationship, if the data fields matched with the column names of the current insert page cannot be determined according to the binding relationship, namely if the phenomenon that the column names of the current insert page are unsuccessfully matched with the data fields in the matched functional modules exists, the user can perform human intervention, and self-learning can be performed according to the result of the human intervention, so that the automatic matching capability of the engineering quantity list can be continuously improved. Specifically, if the phenomenon of unsuccessful column matching occurs, that is, when there is no data field matching the column name of the current insert page in the matched function module, a prompt may be issued, after receiving the prompt, the user may set the data field matching the column name of the data field not matching the column name of the matched function module according to experience, and after receiving the data field matching the column name of the data field not matching the column name set by the user, a matching relationship between the column and the data field of the function module (where the data field refers to the data field matching the column name of the data field not matching the column name set by the user) may be formed, and the matching relationship between the column and the data field of the function module may be recorded in the column matching relationship table and the binding relationship, so as to perform data entry according to the column matching relationship table, and the automatic matching capability of the project amount list is convenient to improve according to the binding relationship, so that the manual intervention is reduced as much as possible.

The data entry method for the engineering cost software provided by the embodiment of the application is used for matching rows based on the column matching relationship table, and comprises the following steps:

identifying and deleting empty data rows to be input into the engineering quantity list based on the column matching relation table;

setting the row type of the effective data row in the engineering quantity list to be input according to the contents of different columns in the engineering quantity list to be input; where the row type may include a manifest and a section.

When a row is matched based on the column matching relationship table, a null data row (such as rows 1-4 in fig. 2) to be entered into the engineering quantity list may be identified and deleted based on the column matching relationship table to leave a valid data row. Then, the row type of the effective data row in the engineering quantity list to be entered can be set according to the contents of different columns in the engineering quantity list to be entered, specifically: according to the standard of the national or each provincial industry governing department, if the content listed as code, name, unit and engineering quantity is not empty, the row type of the effective data row is a list (corresponding to clear in fig. 6 and 7); if the column is empty for the code, unit, and amount of work, the row type of the valid data row is a subsection (corresponding to the "section" in fig. 6 and 7).

By matching the rows, a rule data structure corresponding to the requirements of the engineering cost software can be conveniently generated, so that the to-be-entered engineering quantity list can be conveniently and successfully entered into the engineering cost software.

The data entry method for engineering cost software provided by the embodiment of the application generates a rule data structure according to a row matching result, and may include:

determining the hierarchical structure of the effective data rows with the line types of the branches according to the serial numbers of the effective data rows with the line types of the branches to form a depth list of a hierarchical marking tree for the branch data;

and determining the effective data row with the row type of the list corresponding to the effective data row with the row type of the subsection according to the engineering quantity list to be input, and determining the insertion position of the effective data row with the row type of the list corresponding to the effective data row with the row type of the subsection according to the depth list so as to form a regular data structure.

When the rule data structure is generated according to the line matching result, the sequence number of the valid data line with the line type of the part can be obtained first, and the hierarchical structure of the valid data line with the line type of the part can be adjusted according to the sequence number of the valid data line with the line type of the part.

Specifically, the hierarchical structure of the effective data rows with the row type of division may be determined according to the sequence number analysis of the effective data rows with the row type of division to form a depth list of the number of hierarchical marks for division data, specifically, as shown in fig. 6, a depth list of three layers formed according to the sequence numbers of the effective data rows with the row type of division, where the sequence number corresponding to the first layer is 1, the sequence number corresponding to the second layer is 1.1, 1.2, 1.3, the sequence number corresponding to the third layer is 1.1.1, 1.3.1, and the sequence number corresponding to the second layer is 1.1, 1.2, 1.3 and 1.1 in the second layer form a hierarchical structure;

then, the effective data rows with the row type as the list corresponding to the effective data rows with the row type as the subsection can be determined according to the engineering quantity list to be input (the effective data rows with the row type as the list are specifically tiled below the effective data rows with the corresponding row type as the subsection in the engineering quantity list to be input), and the insertion positions of the effective data rows with the row type as the list corresponding to the effective data rows with the row type as the subsection can be determined according to the depth list, so that a regular data structure is formed. Specifically, in the example of the valid data row with the row type of the partial row with the sequence number of 1.1.1, the sequence numbers of the valid data rows with the corresponding row types of the partial list are 1.1.1.1, 1.1.1.2, 1.1.1.3, 1.1.1.4, 1.1.1.5 and 1.1.1.6, in this case, the insertion positions of the valid data rows with the corresponding row types of the partial row with the sequence number of 1.1.1 (i.e. the sequence numbers of 1.1.1.1, 1.1.1.2, 1.1.1.3, 1.1.1.4, 1.1.1.5 and 1.1.1.1.6) can be determined according to the positions of the valid data rows with the row type of the partial row with the sequence number of 1.1.1.1.1, 1.1.2, 1.1.3, 1.1.4, 1.1.1.5 and 1.1.1.6 in the depth list.

An embodiment of the present application further provides a data entry device for engineering cost software, see fig. 8, which shows a schematic structural diagram of the data entry device for engineering cost software provided in an embodiment of the present application, and the data entry device may include:

the dragging module 81 is used for dragging the project amount list to be input into the project cost software according to the received dragging instruction, and respectively taking each insert in the project amount list to be input as a current insert;

a first determining module 82, configured to determine, based on a binding relationship established in advance, a functional module in the engineering cost software that matches an insert name of a current insert, and establish an insert matching relationship table; the binding relationship is obtained by binding a functional module and a data field of the engineering cost software with a field name in a standard engineering quantity list;

the second determining module 83 is configured to determine, based on the binding relationship, data fields in the matched functional modules, which are matched with the column names of the current insert, establish a column matching relationship table, match rows based on the column matching relationship table, and generate a rule data structure according to a row matching result;

and the recording module 84 is used for recording the rule data structure into the engineering cost software based on the insert matching relation table and the column matching relation table.

The data entry device of engineering cost software that this application embodiment provided can also include:

the verification module is used for verifying the rule data structure after the rule data structure is generated according to the row matching result;

accordingly, the logging module 84 may include:

and the recording unit is used for recording the data which passes the verification in the rule data structure into the engineering cost software.

The data entry device of engineering cost software that this application embodiment provided, the check-up module can include:

the first inspection unit is used for performing matching inspection on the insert to be recorded into the engineering quantity list and the functional module matched with the insert in the engineering cost software;

the comparison unit is used for comparing the effective data volume of each insert in the project volume list to be recorded with the data volume pre-recorded by the matched functional module in the project cost software to determine whether the effective data volume is consistent with the data volume pre-recorded by the matched functional module in the project cost software;

the second inspection unit is used for inspecting the data content contained in each insert in the to-be-entered engineering quantity list and the data content pre-entered by the functional module matched with the engineering cost software;

and the third checking unit is used for checking the regularity of the rule data structure.

The data entry device of engineering cost software that this application embodiment provided can also include:

the first receiving module is used for receiving the functional module matched with the insert name of the current insert in the engineering cost software set by a user if the functional module matched with the insert name of the current insert cannot be determined according to the binding relationship when the functional module matched with the insert name of the current insert in the engineering cost software is determined according to the binding relationship established in advance, forming the matching relationship between the insert and the functional module, and recording the matching relationship between the insert and the functional module in the insert matching relationship table and the binding relationship.

The data entry device of engineering cost software that this application embodiment provided can also include:

and the second receiving module is used for receiving the data fields which are set by the user and are matched with the column names of the data fields which are not matched, forming the matching relation between the data fields of the columns and the function modules and recording the matching relation between the data fields of the columns and the function modules in the column matching relation table and the binding relation if the data fields which are matched with the column names of the current insert cannot be determined according to the binding relation when the data fields which are matched with the column names of the current insert in the matched function modules are determined according to the binding relation.

In the data entry device of engineering cost software provided in the embodiment of the present application, the second determining module 83 may include:

the deleting unit is used for identifying and deleting the empty data rows to be recorded in the engineering quantity list based on the column matching relation table;

the setting unit is used for setting the row type of the effective data row in the engineering quantity list to be input according to the contents of different columns in the engineering quantity list to be input; where the row type may include a manifest and a section.

In the data entry device of engineering cost software provided in the embodiment of the present application, the second determining module 83 may include:

a first determining unit, configured to determine a hierarchical structure of the valid data rows having the row type of the division according to the sequence number of the valid data rows having the row type of the division to form a depth list of a hierarchical tag tree for division data;

and the second determining unit is used for determining the effective data line with the line type as the list corresponding to the effective data line with the line type as the branch according to the engineering quantity list to be recorded, and determining the insertion position of the effective data line with the line type as the list corresponding to the effective data line with the line type as the branch according to the depth list so as to form a regular data structure.

An embodiment of the present application further provides a data entry device for engineering cost software, see fig. 9, which shows a schematic structural diagram of a data entry device for engineering cost software provided in an embodiment of the present application, and the data entry device may include:

a memory 91 for storing a computer program;

the processor 92, when executing the computer program stored in the memory 91, may implement the following steps:

dragging the project quantity list to be input into the project cost software according to the received dragging instruction, and respectively taking each insert in the project quantity list to be input as a current insert; determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relation established in advance, and establishing an insert matching relation table; the binding relationship is obtained by binding a functional module and a data field of the engineering cost software with a field name in a standard engineering quantity list; determining data fields matched with all column names of the current insert page in the matched functional modules based on the binding relationship, establishing a matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result; and inputting the rule data structure into the engineering cost software according to the insert matching relation table and the column matching relation table.

An embodiment of the present application further provides a computer-readable storage medium, in which a computer program is stored, and when the computer program is executed by a processor, the following steps may be implemented:

dragging the project quantity list to be input into the project cost software according to the received dragging instruction, and respectively taking each insert in the project quantity list to be input as a current insert; determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relation established in advance, and establishing an insert matching relation table; the binding relationship is obtained by binding a functional module and a data field of the engineering cost software with a field name in a standard engineering quantity list; determining data fields matched with all column names of the current insert page in the matched functional modules based on the binding relationship, establishing a matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result; and inputting the rule data structure into the engineering cost software according to the insert matching relation table and the column matching relation table.

The computer-readable storage medium may include: various media capable of storing program codes, such as a usb disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk, or an optical disk.

For a description of a relevant part in the data entry device, the equipment and the computer-readable storage medium of the engineering cost software provided in the embodiment of the present application, reference may be made to a detailed description of a corresponding part in the data entry method of the engineering cost software provided in the embodiment of the present application, and details are not repeated here.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Furthermore, 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 elements inherent in the list. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in the process, method, article, or apparatus that comprises the element. In addition, parts of the above technical solutions provided in the embodiments of the present application, which are consistent with the implementation principles of corresponding technical solutions in the prior art, are not described in detail so as to avoid redundant description.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A data entry method of engineering cost software is characterized by comprising the following steps:

dragging the to-be-input engineering quantity list into engineering cost software according to the received dragging instruction, and respectively taking each insert in the to-be-input engineering quantity list as a current insert; each insert page is a table used for recording different types of data in the to-be-input engineering quantity list;

determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relation established in advance, and establishing an insert matching relation table; the binding relationship is obtained by binding a functional module and a data field of the engineering cost software with a field name in a standard engineering quantity list;

determining data fields matched with all column names of the current insert page in matched functional modules based on the binding relationship, establishing a column matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result;

and inputting the rule data structure into the engineering cost software according to the insert matching relation table and the column matching relation table.

2. A data entry method for construction cost software according to claim 1, further comprising, after generating the rule data structure based on the row matching result:

checking the rule data structure;

accordingly, entering the rule data structure into the engineering cost software includes:

and inputting the data which passes the verification in the rule data structure into the engineering cost software.

3. A data entry method for construction cost software according to claim 2 wherein verifying said rule data structure comprises:

matching and checking the insert of the project amount list to be input and the matched functional module in the project cost software;

comparing the effective data volume of each insert in the project volume list to be recorded with the data volume pre-recorded by the matched functional module in the project cost software to determine whether the effective data volume is consistent with the data volume pre-recorded by the matched functional module in the project cost software;

checking the data content contained in each insert in the project amount list to be recorded and the data content pre-recorded by the functional module matched with the project cost software;

and checking the regularity of the rule data structure according to the standard requirement of an industry governing department and the engineering cost industry habit to determine whether the regularity meets the standard requirement and the engineering cost industry habit.

4. The data entry method of construction cost software according to claim 1, wherein when determining the functional module in the construction cost software that matches the name of the insert of the current insert according to the binding relationship established in advance, further comprising:

if the function module matched with the insert name of the current insert cannot be determined according to the binding relationship, the function module matched with the insert name of the current insert in the engineering cost software set by a user is received, the matching relationship between the insert and the function module is formed, and the matching relationship between the insert and the function module is recorded in the insert matching relationship table and the binding relationship.

5. The data entry method of construction cost software according to claim 1, wherein when determining the data fields in the matched functional module that match the column names of the current insert according to the binding relationship, further comprising:

and if the data field matched with the column name of the current insert cannot be determined according to the binding relationship, receiving the data field which is set by the user and matched with the column name of the data field which is not matched, forming the matching relationship between the column and the data field of the functional module, and recording the matching relationship between the column and the data field of the functional module in the column matching relationship table and the binding relationship.

6. A data entry method for construction cost software according to claim 1 wherein matching rows based on said column match relationship table comprises:

identifying and deleting empty data rows to be input into the engineering quantity list based on the column matching relation table;

setting the row type of the effective data row in the engineering quantity list to be input according to the contents of different columns in the engineering quantity list to be input; wherein the row type includes a manifest and a section.

7. A data entry method for construction cost software according to claim 6 wherein generating a rule data structure based on the row match results comprises:

determining the hierarchical structure of the effective data rows with the line types of branches according to the serial numbers of the effective data rows with the line types of branches to form a depth list of a hierarchical marking tree for branch data;

and determining the effective data row with the row type of the list corresponding to the effective data row with the row type of the subsection according to the to-be-recorded engineering quantity list, and determining the insertion position of the effective data row with the row type of the subsection corresponding to the effective data row with the row type of the subsection as the insertion position of the effective data row of the list according to the depth list so as to form the rule data structure.

8. A data entry device for engineering cost software, comprising:

the dragging module is used for dragging the to-be-input engineering quantity list to engineering cost software according to the received dragging instruction, and respectively taking each insert in the to-be-input engineering quantity list as a current insert; each insert is a table used for recording different types of data in the to-be-recorded engineering quantity list;

the first determining module is used for determining a functional module matched with the insert name of the current insert in the engineering cost software based on a binding relation established in advance and establishing an insert matching relation table; the binding relationship is obtained by binding a functional module and a data field of the engineering cost software with a field name in a standard engineering quantity list;

the second determining module is used for determining data fields matched with all column names of the current insert page in the matched functional modules based on the binding relationship, establishing a column matching relationship table, matching rows based on the column matching relationship table, and generating a rule data structure according to a row matching result;

and the entry module is used for entering the rule data structure into the engineering cost software based on the insert matching relation table and the column matching relation table.

9. A data entry device for construction cost software, comprising:

a memory for storing a computer program;

a processor for implementing the steps of the data entry method of the engineering cost software according to any one of claims 1 to 7 when executing the computer program.

10. A computer-readable storage medium, characterized in that a computer program is stored in the computer-readable storage medium, which computer program, when being executed by a processor, carries out the steps of the data entry method of the construction cost software according to any one of claims 1 to 7.

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