CN112767040A

CN112767040A - Method and device for generating project pricing file, computer equipment and storage medium

Info

Publication number: CN112767040A
Application number: CN202110104546.1A
Authority: CN
Inventors: 娄东杰
Original assignee: Glodon Co Ltd
Current assignee: Glodon Co Ltd
Priority date: 2021-01-26
Filing date: 2021-01-26
Publication date: 2021-05-07

Abstract

The invention discloses a method for generating an engineering pricing file, which can solve the technical problems that the unified difference adjustment time is too long and influences the system operation performance and the difference adjustment function is triggered manually in the prior art, so that the risk of missing difference adjustment exists. Specifically, the method comprises the following steps: receiving a new establishment instruction for establishing a project pricing file, establishing the project pricing file and determining a first difference adjustment file associated with the new establishment instruction, wherein the new establishment instruction comprises a first project attribute; receiving an editing instruction for editing the project pricing file, and determining an edited object pointed by the editing instruction; when the fact that the editing instruction meets the preset condition is monitored, determining a first difference adjustment parameter of the edited object from the first difference adjustment file according to the first engineering attribute; and adjusting the difference of the edited object according to the first difference adjusting parameter to generate a difference-adjusted project pricing file. The invention also discloses a device for generating the project pricing file, a computer device and a computer readable storage medium.

Description

Method and device for generating project pricing file, computer equipment and storage medium

Technical Field

The invention relates to the technical field of computers, in particular to a method and a device for generating an engineering pricing file, computer equipment and a computer readable storage medium.

Background

In construction engineering, the estimation of construction cost is often carried out by means of pricing software. The prices of the work and material machines (manual, material and mechanical) built in the pricing software are generally the measured prices of the previous period, but the measured prices only represent values of a certain period and do not meet the price conditions of the actual compiling stage, so that a user needs to adjust the prices of the work and material machines according to the difference adjustment file in the actual compiling process. Most of the current schemes for adjusting difference are that pricing documents are compiled according to rated prices, the difference adjusting function is executed after the pricing documents are compiled, price adjustment is uniformly performed on a material machine, and difference adjustment according to documents is achieved.

However, in the research process, the inventor finds that in the prior art, the pricing file is compiled by using the quota price, and then the price of the material handling machine of the pricing file is uniformly adjusted by using the difference adjusting file, when the engineering scale is large, the difference adjusting time is too long and the running performance of the system is seriously influenced, for example, the computer resource is exhausted and crashed or difference adjusting software is jammed due to too much consumption of the computer resource; in addition, in the prior art, the difference adjustment function is triggered manually by a user, if the user readjusts the pricing file after adjusting the difference, the difference adjustment function must be triggered manually again to ensure the standardization of the prices of the material machines in the pricing file, and once the user forgets to trigger the difference adjustment function again, errors occur in the pricing result.

Aiming at the technical problems that the unified difference adjusting time is too long and affects the system operation performance and the difference adjusting function is triggered manually in the prior art, the problem of missing difference adjusting risk is solved.

Disclosure of Invention

The invention aims to provide a method and a device for generating a project pricing file, computer equipment and a computer readable storage medium, which can solve the technical problems that the unified difference adjustment time is too long and affects the system running performance and the risk of missing difference adjustment exists when the difference adjustment function is triggered manually in the prior art.

One aspect of the present invention provides a method for generating a project pricing file, the method comprising: receiving a new establishment instruction for establishing a new project pricing file, establishing the new project pricing file and determining a first difference adjustment file associated with the new establishment instruction, wherein the new establishment instruction comprises a first project attribute; receiving an editing instruction for editing the project pricing file, and determining an edited object pointed by the editing instruction; when the fact that the editing instruction meets preset conditions is monitored, determining a first difference adjustment parameter of the edited object from the first difference adjustment file according to the first engineering attribute; and adjusting the difference of the edited object according to the first difference adjusting parameter to generate an adjusted project pricing file.

Optionally, before the step of receiving a new command for creating a project pricing file, creating the project pricing file and determining a first discrepancy file associated with the new command, the method further comprises: determining a difference adjustment file identifier and the first project attribute of the first difference adjustment file; and generating the new command according to the difference adjustment file identification and the first project attribute.

Optionally, the step of determining the first tuning difference file associated with the new instruction includes: acquiring the difference adjustment file identification carried in the new command; and determining the first difference adjustment file pointed by the difference adjustment file identification from a difference adjustment file library.

Optionally, after the step of determining the first tuning difference file pointed to by the tuning difference file identifier from the tuning difference file library, the method further comprises: determining a target storage location for storing the project pricing file; and downloading the first difference adjustment file from the difference adjustment file library to the target storage position.

Optionally, the step of receiving an editing instruction for editing the project pricing file, and determining an edited object pointed by the editing instruction includes at least one of: receiving a newly-added editing instruction for editing the project pricing file, newly adding an object in the project pricing file according to the newly-added editing instruction, and determining the newly-added object as the edited object; receiving a deletion editing instruction for editing the project pricing file, deleting an object in the project pricing file according to the deletion editing instruction, and determining the deleted object as the edited object; receiving a replacement editing instruction for editing the project pricing file, replacing an object in the project pricing file according to the replacement editing instruction, and determining the replaced object as the edited object; and receiving a mobile editing instruction for editing the project pricing file, moving an object in the project pricing file according to the mobile editing instruction, and determining the moved object as the edited object.

Optionally, the step of determining a first tuning difference parameter of the edited object from the first tuning difference file according to the first engineering attribute includes: determining, from the first discrepancy file, discrepancy information associated with the first project attribute; determining the first tuning difference quantity of the edited object from the tuning difference information.

Optionally, after the step of receiving an editing instruction for editing the project pricing file and determining an edited object pointed by the editing instruction, the method further includes: determining a target quota parameter corresponding to the edited object from a quota library; adding the target quota parameter as a price parameter of the edited object into the project pricing file; the step of adjusting the difference of the edited object according to the first difference adjustment parameter to generate the adjusted project pricing file comprises the following steps: re-determining the price parameter of the edited object according to the target quota parameter and the first difference adjustment parameter; comparing whether the target quota parameter is consistent with the re-determined price parameter; and if the target quota parameter is inconsistent with the target quota parameter, replacing the target quota parameter with the re-determined price parameter in the engineering pricing file to generate the adjusted engineering pricing file.

Optionally, the step of replacing the target quota parameter with the re-determined price parameter in the engineering pricing file to generate the adjusted engineering pricing file includes: receiving an attribute adjusting instruction, and determining a second difference adjustment file associated with the attribute adjusting instruction, wherein the attribute adjusting instruction comprises a second project attribute; determining all first objects which are adjusted in difference in the project pricing file by the current moment and current price parameters of the first objects; determining a second difference adjustment parameter of each first object from the second difference adjustment file according to the second engineering attribute; determining all second objects needing to be subjected to difference adjustment from all the first objects according to the current price parameters and the second difference adjustment parameters of all the first objects; re-determining the price parameter of each second object according to the current price parameter and the second difference adjustment parameter of each second object; and replacing the current price parameter of each second object in the engineering pricing file with the re-determined price parameter of the second object to generate the adjusted engineering pricing file.

Optionally, the step of receiving an attribute adjustment instruction, and determining a second variation file associated with the attribute adjustment instruction includes: receiving an attribute adjusting instruction, and judging whether a difference adjustment file identifier carried in the attribute adjusting instruction is consistent with a difference adjustment file identifier carried in the new establishing instruction; determining the first difference file at the target storage location as the second difference file if consistent; and in case of inconsistency, determining the second difference adjustment file pointed by the difference adjustment file identification in the attribute adjusting instruction from the difference adjustment file library.

Optionally, the step of replacing the current price parameter of each second object in the engineering pricing file with the re-determined price parameter of the second object to generate the adjusted engineering pricing file includes: determining all third objects associated with each second object from the engineering pricing file after replacing the current price parameters of all second objects in the engineering pricing file with the corresponding re-determined price parameters of the second objects; and adjusting the difference of each third object according to the re-determined price parameter of each second object to generate the adjusted project pricing file.

Another aspect of the present invention provides an apparatus for generating a project pricing file, the apparatus comprising: the system comprises a first receiving module, a second receiving module and a third receiving module, wherein the first receiving module is used for receiving a new establishing instruction for establishing a project pricing file, establishing the project pricing file and determining a first difference adjustment file associated with the new establishing instruction, and the new establishing instruction comprises a first project attribute; the second receiving module is used for receiving an editing instruction for editing the project pricing file and determining an edited object pointed by the editing instruction; the first determining module is used for determining a first difference adjustment parameter of the edited object from the first difference adjustment file according to the first engineering attribute when the fact that the editing instruction meets the preset condition is monitored; and the difference adjusting module is used for adjusting the difference of the edited object according to the first difference adjusting parameter so as to generate a difference adjusted project pricing file.

Yet another aspect of the present invention provides a computer apparatus, comprising: the system comprises a memory, a processor and a computer program stored on the memory and capable of running on the processor, wherein the processor executes the computer program to realize the project pricing file generation method of any embodiment.

Yet another aspect of the present invention provides a computer-readable storage medium, on which a computer program is stored, which, when executed by a processor, implements the method for generating a project pricing file according to any of the above embodiments.

The invention provides a method for generating a project pricing file, which is characterized in that a first difference adjusting file which is depended by the difference adjustment is determined according to a new establishing instruction when the project pricing file is newly established, in the process of editing the newly established project pricing file, once the editing instruction is monitored to be in accordance with a preset condition, the difference adjustment function is automatically triggered, a first difference adjusting parameter of an edited object is determined from the first difference adjusting file by utilizing a first project attribute contained in the new establishing instruction, and then the difference adjustment is automatically performed on the edited object according to the first difference adjusting parameter. The difference adjusting process is distributed to the project pricing file editing process, automatic difference adjustment is synchronously completed while the project pricing files are edited, and finally the project pricing files which are simultaneously edited and adjusted are generated, so that the defects that the unified difference adjusting time is too long and the system operation performance is influenced due to the fact that the project pricing files are generated and adjusted again in the prior art are overcome, the defect that the difference adjusting risk is omitted due to the fact that a monitor is arranged to adjust difference in real time and automatically in the prior art is overcome, and the technical effect of rapid and automatic difference adjustment is achieved.

Drawings

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

FIG. 1 is a flow chart of a method for generating a project pricing file according to an embodiment of the invention;

fig. 2 is a schematic monitoring diagram of a work machine change monitor module according to an embodiment of the present invention;

FIG. 3 is a flowchart of a method for generating a project pricing file according to a second embodiment of the invention;

FIG. 4 is a flowchart illustrating a real-time and batch differencing method according to a third embodiment of the present invention;

FIG. 5 is a schematic diagram of pricing software and its basic data provided by the third embodiment of the invention;

fig. 6 shows a schematic diagram of a difference adjustment module provided in the third embodiment of the present invention;

FIG. 7 is a flowchart illustrating a process of a parameter selection module according to a third embodiment of the present invention;

FIG. 8 is a flowchart illustrating a processing of the difference adjustment file parsing engine module according to a third embodiment of the present invention;

fig. 9 is a flowchart illustrating a processing of a real-time difference adjustment service module according to a third embodiment of the present invention;

FIG. 10 is a flowchart illustrating a process of the difference adjustment file maintenance module according to a third embodiment of the present invention;

FIG. 11 is a flowchart illustrating a process of the bulk ranging service module according to a third embodiment of the present invention;

fig. 12 is a block diagram of a device for generating a project pricing file according to a fourth embodiment of the invention;

fig. 13 is a block diagram of a computer device suitable for implementing the method for generating a project pricing file according to the fifth embodiment of the invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. 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 invention.

It should be noted that, in this document, 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 an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

Example one

The difference adjustment scheme in the prior art is as follows: and (3) newly building an engineering pricing file in pricing software, finishing the compiling work of the engineering pricing file according to the quota, then inputting difference adjustment attribute information in the pricing software, and adjusting the difference of the compiled engineering pricing file according to the difference adjustment attribute information. The inventor researches and discovers that the scheme of generating project pricing file readjustment difference in the prior art has the defects of overlong difference adjusting time, influence on system running performance and missing difference adjusting risk due to the fact that a difference adjusting function is triggered manually. Aiming at the defects, the attributes (including the identification of the difference adjustment file and the project attributes) of the difference adjustment file are determined before the project pricing file is newly built, then a new building instruction is generated according to the attributes of the difference adjustment file, the project pricing file is further newly built according to the new building instruction, the first difference adjustment file which depends on the difference adjustment is determined, the automatic difference adjustment is synchronously completed while the project pricing file is edited, and finally the project pricing file which is simultaneously edited and subjected to the difference adjustment is generated. According to the invention, the first difference adjustment file for difference adjustment is determined in advance, when the fact that the editing instruction meets the preset condition is monitored, difference adjustment is carried out on the edited object, the difference adjustment process is distributed to the editing process of the project pricing file, the defects that the uniform difference adjustment time is too long and the system operation performance is influenced in the prior art are avoided, the difference adjustment is carried out in real time and automatically by arranging the monitor, the defect that the risk of missing difference adjustment exists when the difference adjustment function is manually triggered in the prior art is solved, and the technical effect of rapid and automatic difference adjustment is realized. Specifically, fig. 1 shows a flowchart of a method for generating a project pricing file according to a first embodiment of the present invention, and as shown in fig. 1, the method for generating a project pricing file may include steps S11 to S14, where:

step S11, receiving a new creation instruction for creating a new project pricing file, creating the new project pricing file, and determining a first discrepancy file associated with the new creation instruction, where the new creation instruction includes a first project attribute.

The present embodiment may predetermine the attributes of the difference files (e.g., the first difference files) that need to be used before creating the project pricing file. The attribute of the difference adjustment file may include a difference adjustment file identifier and an engineering attribute, where the difference adjustment file identifier is used to uniquely associate with a difference adjustment file, and for example, the difference adjustment file identifier may be a file term number (for example, the difference adjustment file at phase 1 of 2020); the project attributes (e.g., the first project attribute and the second project attribute in this embodiment) are attributes of a project to which the project pricing file belongs, and are used to determine which part of the content in the corresponding difference file (the first project attribute corresponds to the first difference file, and the second project attribute corresponds to the second difference file) is used for difference adjustment. If the project pricing file is used for evaluating the house building, the first project attribute is the attribute of the house building; and if the project pricing file is used for evaluating the power project, the first project attribute is the attribute of the power project. Optionally, for power engineering, the engineering attributes may include: the method comprises the following steps of project location (such as Beijing, Shanghai or Shenzhen and the like), region classification (such as a first-level city, a second-level city or a third-level city and the like), project property (such as new construction, reconstruction project or extension project and the like), number of local stage (such as 100 generators required by the 1-stage project, 200 generators required by the 2-stage project or 246 generators required by the 3-stage project and the like), capacity grade (such as 1000 megawatts or 2000 megawatts and the like), voltage grade (such as high-voltage transmission or low-voltage transmission and the like) and floor type (such as plains, mountains or hills and the like).

Alternatively, the embodiment is applied to pricing software, before the project pricing file is newly created, the pricing software provides an interface, in response to an operation of selecting parameters through the interface, the selected parameters are determined as attributes of a difference file (such as a first difference file) to be used, and further in response to an operation of saving the parameters, a new creation instruction containing the attributes of the difference file is generated. Specifically, before step S11, the method further includes step a1 and step a2, wherein:

step A1, determining the tuning difference file identification and the first project attribute of the first tuning difference file;

step A2, generating the new command according to the tuning difference file identification and the first project attribute.

Optionally, the pricing software includes a discrepancy file library, and the engineer processes a plurality of discrepancy files issued by the rating station into a format usable by the pricing software and then stores the processed discrepancy files in the discrepancy file library. After a new command is received, a difference adjustment file identifier carried in the new command is analyzed, and a difference adjustment file is uniquely determined from a difference adjustment file library through the difference adjustment file identifier and is recorded as a first difference adjustment file. Specifically, the step of determining the first difference file associated with the new instruction in step S11 includes step S111 and step S112, in which:

step S111, acquiring the difference adjustment file identification carried in the new command;

step S112, determining the first difference adjustment file pointed by the difference adjustment file identifier from the difference adjustment file library.

Optionally, in order to avoid that the first discrepancy file needs to be traversed and screened again from the discrepancy file library subsequently, the embodiment may download the first discrepancy file to the target storage location where the project pricing file is located, so that the first discrepancy file may be quickly located when the project pricing file depends on the first discrepancy file for discrepancy adjustment. Specifically, after step S112, the method further includes step B1 and step B2, wherein:

step B1, determining a target storage location for storing the project pricing file;

and step B2, downloading the first difference adjustment file from the difference adjustment file library to the target storage position.

The target storage location may be a storage location of a local disk or a local server, or may be a storage location of a cloud, for example, the target storage location is a local engineering folder, and when an engineer needs to use the engineering pricing file, the engineering folder containing the engineering pricing file and the first difference adjusting file may be sent to the opposite device, so that when the engineering pricing file needs to be modified or checked, the first difference adjusting file may be quickly located, and a defect that the first difference adjusting file is determined and downloaded from the difference adjusting file library again is avoided.

Step S12, receiving an editing instruction for editing the project pricing file, and determining an edited object to which the editing instruction points.

The edited objects mainly include material machines (i.e., workers, materials, and machines), such as elementary workers, bricks, laminated plates, or steel bars. When the editing instruction is a new editing instruction, the edited object is a new object; when the editing instruction is a deleting editing instruction, the edited object is a deleted object; when the editing instruction is a replacement editing instruction, the edited object is a replaced object; when the editing instruction is a movement editing instruction, the edited object is a moving object. Specifically, step S12 may include at least one of:

receiving a newly-added editing instruction for editing the project pricing file, newly adding an object in the project pricing file according to the newly-added editing instruction, and determining the newly-added object as the edited object;

receiving a deletion editing instruction for editing the project pricing file, deleting an object in the project pricing file according to the deletion editing instruction, and determining the deleted object as the edited object;

receiving a replacement editing instruction for editing the project pricing file, replacing an object in the project pricing file according to the replacement editing instruction, and determining the replaced object as the edited object;

and receiving a mobile editing instruction for editing the project pricing file, moving an object in the project pricing file according to the mobile editing instruction, and determining the moved object as the edited object.

For example, if a primary worker is newly added to the project pricing file, the primary worker is an edited object; deleting a high-level worker in the project pricing file, wherein the high-level worker is an edited object; replacing a primary worker with a middle worker in the project pricing file, wherein the middle worker is an edited object; and moving the steel bars from the foundation to the laminated slab in the project pricing file, wherein the steel bars are edited objects.

Optionally, after step S12, the method further comprises step C1 and step C2, wherein:

step C1, determining the target quota parameter corresponding to the edited object from the quota library;

and step C2, adding the target quota parameter as the price parameter of the edited object into the project pricing file.

The pricing software comprises a quota base, the quota base comprises a quota book, a target quota parameter of an edited object is determined from the quota book, the target quota parameter is a price parameter (such as a price value) of the edited object, such as 100 yuan per day of a primary worker, and then the target quota parameter is displayed at a position corresponding to the edited object in the project pricing file.

Step S13, when it is monitored that the editing instruction meets a preset condition, determining a first difference adjustment parameter of the edited object from the first difference adjustment file according to the first project attribute.

In this embodiment, a monitor may be preset, and when the monitor monitors that the pricing software edits the project pricing file through a preset position according to the editing instruction, the difference adjustment function is triggered to determine a first difference adjustment parameter, where the first difference adjustment parameter may be a specific price value (e.g., 100 yuan), or may be a price coefficient (e.g., 5% increase, 12% decrease, etc.).

For example, as shown in fig. 2, listeners are provided at a plurality of locations, and all the provided listeners are mounted under the GDL real time gapservcie service, and are managed by the service. Specifically, a monitor is arranged at a real-time difference adjustment entrance of a worker and a machine, and the newly added operation of the worker and the machine can be realized through the entrance; a monitor is arranged at an entrance for inserting materials such as the subdirectory, the resources, copying and pasting the subdirectory, the resources and the like and mechanically adjusting difference in real time, and the inserting function can be realized through the entrance; a monitor is arranged at the real-time specific difference adjustment logic responsible for manpower, materials and machinery, and the execution logic of the newly added entry and the execution logic of the inserted entry are the same, so that a monitor is arranged at the part for extracting the universality of one layer; a monitor is arranged at a difference adjustment inlet for the type change of the work and material machine, the type of the work and material machine can be adjusted through the inlet, and the monitor needs to be arranged at the position because the price change can cause the price change; a monitor is arranged at a partial change real-time difference adjustment entrance of a partial lifting stage and the like, if the partial lifting stage can be adjusted, because some contents are similar, for example, a flat field and a hollow engineering are very similar, the partial lifting stage has a parent-child relationship, and if the hollow engineering is hung below the flat field, the hollow engineering is upgraded to be level with the flat field; a monitor is arranged at a real-time difference adjustment entrance of newly added subsections such as an import subsection, an excel subsection, a copy and paste subsection and the like, and the entrance is also related to the newly added subsection and only has a new internal difference. Besides the monitor, two locks are also set, one lock is used for avoiding the difference adjustment from triggering the difference adjustment and forbidding the copying of the structure and the assignment operation, for example, the manual price is adjusted from 100 to 110 in the difference adjustment process, but in the adjustment process, a new operation is executed, if the lock is not set, the new monitoring is triggered, and in order to avoid the circular monitoring, the lock is set; another lock, which does not require a difference, is specific to something, and locks something by this lock, which disables the difference. In addition, the adjustment process also relates to the processing of conversion information, namely, the adjustment information is recorded in the adjustment process so as to ensure that price information is not disordered when the conversion function is executed; code logic is also provided to avoid dead loops when adjusting the sequence of the scaled information.

Optionally, the step of determining the first variation quantity of the edited object from the first variation file according to the first project attribute in step S13 may include step S131 and step S132, where:

step S131, determining the adjustment information associated with the first project attribute from the first adjustment file;

step S132, determining the first tuning difference parameter of the edited object from the tuning difference information.

The first engineering attribute is used to determine which part of the content in the first difference adjustment file is used for difference adjustment, the range used by difference adjustment can be defined as difference adjustment information determined in step S131 according to the first engineering attribute, and then a first difference adjustment parameter is determined from the difference adjustment information.

For example, a primary worker is newly built, the first difference adjustment file comprises the price values of the worker and the material machines required by project 1, wherein the project location is in Beijing, the project property is the new project, the project number in the current period is 1, the project needs 100 generators, the capacity grade is 1000 megawatts, and the occupation type is plain; the method also comprises the price values of the material machines required by project 2 with the project location in Shanghai, the project property of new project, the project number of the current stage of 1 project being 100 generators, the capacity grade of 1000 megawatts and the floor occupation type of plain. The content of the project 1 is determined as the adjustment information through the first project attribute, and then the first adjustment parameter of the primary project is determined to be 5% of the rise from the adjustment information.

And step S14, adjusting the difference of the edited object according to the first difference adjustment parameter to generate a difference-adjusted project pricing file.

The project pricing file generated finally in the embodiment is edited and adjusted synchronously.

Alternatively, step S14 may include steps S141 to S143, in which:

step S141, re-determining the price parameter of the edited object according to the target quota parameter and the first difference adjustment parameter;

step S142, comparing whether the target quota parameter is consistent with the re-determined price parameter;

and S143, if the target quota parameter is inconsistent with the target quota parameter, replacing the target quota parameter with the re-determined price parameter in the engineering pricing file to generate the adjusted engineering pricing file.

If the first difference adjustment parameter is a price value, comparing whether the target quota parameter is consistent with the first difference adjustment parameter, and if so, determining the target quota parameter as the final price of the edited object; and if the target quota parameter is inconsistent with the target quota parameter, replacing the target quota parameter with the redetermined price parameter. If the first difference adjustment parameter is a price coefficient, recalculating the price parameter according to the target quota parameter and the price coefficient, if the target quota parameter is 100 yuan and the price coefficient is 5% rising, determining the redetermined price parameter as 100 x (100% + 5%) to 105 yuan, comparing whether the target quota parameter is consistent with the redetermined price parameter, and if so, determining the target quota parameter as the final price of the edited object; and if the target quota parameter is inconsistent with the target quota parameter, replacing the target quota parameter with the redetermined price parameter.

The invention provides a method for generating a project pricing file, which is characterized in that a first difference adjusting file which is depended by the difference adjustment is determined according to a new establishing instruction when the project pricing file is newly established, in the process of editing the newly established project pricing file, once the editing instruction is monitored to be in accordance with a preset condition, the difference adjustment function is automatically triggered, a first difference adjusting parameter of an edited object is determined from the first difference adjusting file by utilizing a first project attribute contained in the new establishing instruction, and then the difference adjustment is automatically performed on the edited object according to the first difference adjusting parameter. The difference adjusting process is distributed to the project pricing file editing process, automatic difference adjustment is synchronously completed while the project pricing files are edited, and finally the project pricing files which are simultaneously edited and adjusted are generated, so that the defects that in the prior art, the unified difference adjusting time is too long and the system operation performance is influenced due to the fact that the valuation files are generated firstly and then adjusted are overcome, the defect that in the prior art, the risk of missing difference adjustment is caused due to the fact that difference adjustment is triggered manually is overcome by setting a monitor in real time and automatically, and the technical effect of rapid and automatic difference adjustment is achieved.

Example two

The second embodiment of the present invention provides a method for generating a project pricing file, where the method provides an attribute adjustment entry for a difference adjustment file, and the entry can implement an attribute adjustment function of the difference adjustment file, so that the difference adjustment file is re-determined according to the adjusted attribute, and the difference adjustment is performed on an object whose difference has been adjusted according to an old difference adjustment file (a first difference adjustment file) in a unified manner according to a newly determined difference adjustment file (a second difference adjustment file). The method for generating the project pricing file provided by the second embodiment is consistent with a part of the steps of the first embodiment, and corresponding technical features and technical effects are not described in detail in the second embodiment. Specifically, fig. 3 shows a flowchart of a method for generating a project pricing file according to a second embodiment of the present invention, and as shown in fig. 3, the method for generating a project pricing file may include steps S31 to S310, where:

step S31, receiving a new creation instruction for creating a new project pricing file, creating the new project pricing file, and determining a first discrepancy file associated with the new creation instruction, where the new creation instruction includes a first project attribute.

Step S32, receiving an editing instruction for editing the project pricing file, and determining an edited object to which the editing instruction points.

Step S33, when it is monitored that the editing instruction meets a preset condition, determining a first difference adjustment parameter of the edited object from the first difference adjustment file according to the first project attribute.

And step S34, adjusting the difference of the edited object according to the first difference adjustment parameter to generate a difference-adjusted project pricing file.

Step S35, receiving an attribute adjustment instruction, and determining a second adjustment file associated with the attribute adjustment instruction, where the attribute adjustment instruction includes a second project attribute.

Although the attributes of the difference files have been previously determined in the new project pricing file, there is a possibility that an error is selected or adjustment is required when the project pricing file is created, so the present embodiment can readjust the attributes of the difference files.

Optionally, for the attribute of the readjusted difference adjustment file, if only the engineering attribute is adjusted, the first difference adjustment file may still be used as the difference adjustment basis; if only the tuning difference file identifier is adjusted or both the tuning difference file identifier and the engineering attribute are adjusted, a tuning difference file needs to be determined again. Specifically, step S35 includes steps S351 to S353, in which:

step S351, receiving an attribute adjusting instruction, and judging whether the difference adjustment file identification carried in the attribute adjusting instruction is consistent with the difference adjustment file identification carried in the new establishing instruction;

step S352, in the case of coincidence, determining the first difference adjustment file at the target storage location as the second difference adjustment file;

step S353, in a case of inconsistency, determining the second difference adjustment file pointed by the difference adjustment file identifier in the attribute adjustment instruction from the difference adjustment file library.

When the difference adjustment file identifier carried in the attribute adjustment instruction is consistent with the difference adjustment file identifier carried in the new instruction, the second difference adjustment file is the first difference adjustment file, and the difference adjustment file can be acquired from the target storage location, so that the defect that time is wasted when the file is downloaded from the difference adjustment file library again is avoided; and when the difference adjustment file identifications are not consistent, downloading a corresponding difference adjustment file from the difference adjustment file library again to serve as a second difference adjustment file.

Step S36, determining all the first objects and the current price parameters of each first object that have been adjusted in the project pricing file by the current time.

Since the difference adjustment file has been replaced, the difference adjustment of the objects that have been subjected to difference adjustment according to the old difference adjustment file (first difference adjustment file) needs to be performed again by using the new difference adjustment file (second difference adjustment file), and at this time, the current price parameters of all the first objects and each first object that have been subjected to difference adjustment by using the first difference adjustment file are determined, where the current price parameters of the first objects are the price parameters of the first objects currently stored in the project pricing file, and the price parameters are determined according to the first difference adjustment file and the target quota.

Step S37, determining a second variation parameter of each first object from the second variation file according to the second engineering attribute.

Specifically, the adjustment information associated with the second project attribute may be determined from a second adjustment file; the second difference adjustment parameters of each first object are determined from the difference adjustment information, and the specific determination method is similar to the method for determining the first difference adjustment parameters of the edited object from the first difference adjustment file according to the first engineering attribute in the embodiment, and details are not repeated here.

Step S38, determining all second objects to be adjusted from all the first objects according to the current price parameter and the second adjustment parameter of each first object.

Specifically, it may be determined whether the first object needs to be adjusted according to the current price parameter of each first object and the second adjustment parameter of the first object, and if so, the first object is determined as the second object. When the second difference adjustment parameter is a price value, comparing whether the current price parameter of the first object is consistent with the second difference adjustment parameter, if so, adjusting the difference, and if not, adjusting the difference; and when the second difference adjusting parameter is the price coefficient, judging whether the second difference adjusting parameter is 0, if so, adjusting difference, and if not, adjusting difference.

Step S39, re-determining the price parameter of each second object according to the current price parameter and the second difference adjustment parameter of each second object.

In particular, the price parameter of each second object may be recalculated based on the current price parameter of the second object and the second discrepancy parameter of the second object. And if the second difference adjustment parameter is the price value, taking the second difference adjustment parameter as the price parameter determined again by the second object. And if the second difference adjustment parameter is the price coefficient, recalculating the price parameter of the second object by the current price parameter of the second object and the second difference adjustment parameter.

Step S310, replacing the current price parameter of each second object in the engineering pricing file with the re-determined price parameter of the second object to generate the adjusted engineering pricing file.

And replacing the currently stored current price parameter of each second object with the price parameter newly determined by the second object in the project pricing file.

Optionally, step S310 includes step S3101 and step S3102, where:

step S3101, after replacing the current price parameters of all the second objects in the project pricing file with the corresponding re-determined price parameters of the second objects, determining all third objects associated with each of the second objects from the project pricing file;

step S3102, adjusting the difference of each third object according to the re-determined price parameter of each second object to generate the adjusted project pricing file.

After the batch adjustment, a third object affected by each second object involved in the batch adjustment is determined, the third object being, for example: the rating price, the listing price, the part item price, and the like, and the price parameter of each third object is recalculated based on the price parameter newly determined for each second object. In the prior art, each pair of objects is subjected to adjustment once, and other objects related to the object are calculated once, but repeated calculation parts may be involved in multiple calculation processes, so that unnecessary resource waste is caused.

EXAMPLE III

The third embodiment provides an actual application scenario of the difference adjustment, which includes the synchronous editing and difference adjustment generation project pricing file described in the first embodiment and the midway difference adjustment file described in the second embodiment, and the batch difference adjustment is performed. Specifically, as shown in fig. 4, in response to an engineer clicking a new cost book (i.e., engineering pricing file) button in the pricing software, an interface is provided, parameters selected by the engineer through the interface are received, attributes of the discrepancy file are obtained, and in the process of editing the engineering pricing file, a plurality of selection buttons are provided, including: the system comprises a monitor, a real-time difference adjusting function, a data processing system and a data processing system, wherein the monitor monitors that editing execution meets preset conditions and triggers the real-time difference adjusting function; the attribute of the difference adjustment file can be modified in the project pricing file, and batch difference adjustment is carried out according to the modified attribute.

As shown in fig. 5, a discrepancy file is newly added to the basic database on which the pricing software depends, an engineer processes the discrepancy file issued by the rating station into a format that can be used by the pricing software, stores the discrepancy file in a rating library (also referred to as a discrepancy file library in this embodiment), and after determining the first discrepancy file, may load the discrepancy file from the basic database. And the pricing software is additionally provided with a difference adjusting module which is used for executing difference adjustment according to the difference adjusting file.

The difference adjustment module may be composed of several modules in fig. 6, where the difference adjustment file is a basis of difference adjustment, and the project file is a project pricing file. The difference adjustment file analysis engine module is used for determining difference adjustment parameters according to the attributes of the difference adjustment files and the edited object; the work and material machine change monitor module is used for monitoring whether the work and material machine is changed in an engineering pricing file or not, namely monitoring whether an editing instruction meets a preset condition or not, and automatically triggering an upper real-time difference adjustment service module if the editing instruction meets the preset condition; the real-time difference adjustment server module is used for adjusting difference of an edited object in real time; the difference adjustment file maintenance module is used for modifying the attribute of the difference adjustment file; and the batch difference adjusting service module is used for carrying out batch difference adjustment on the project pricing files after the attributes of the difference adjusting files are modified.

Specifically, for the parameter selection module, as shown in fig. 7, an engineer performs a button for clicking a pricing file of a new engineer, a pricing software parameter is initialized, and an interface is presented, and the engineer clicks a save button after selecting an attribute of a tuning difference file on the interface, so as to provide a basis for subsequent viewing and modification, where the save attribute can trigger an operation of generating a new instruction. After the attribute is saved, the difference adjustment file can be loaded, and the difference adjustment file is the basis of the difference adjustment of the project pricing file, so the difference adjustment file is also required to be saved. As shown in fig. 8, for the difference adjustment file parsing engine module, by parsing out the difference adjustment file identifier carried by the new instruction, a first difference adjustment file associated with the difference adjustment file identifier may be matched from the difference adjustment file library, and then the first difference adjustment file is loaded and stored in the target storage location. And for the work and material machine change monitor module, when the fact that the editing instruction meets the preset condition is monitored, a real-time difference adjusting function is triggered, namely, the real-time difference adjusting service module is started. For the real-time difference adjustment service module, as shown in fig. 9, after receiving a work machine change notification sent by the work machine change monitor module, the real-time difference adjustment service module reads a first difference adjustment file from a target storage location, determines a first difference adjustment parameter of the changed work machine according to a first project attribute and the changed work machine, and performs difference adjustment according to the first difference adjustment parameter.

Although the attribute of the difference adjustment file is determined when the project pricing file is newly created, there is a possibility that the attribute of the difference adjustment file needs to be adjusted during selection, so that a difference adjustment file maintenance module needs to be provided, as shown in fig. 10, a project information interface can be provided, the attribute of the previously determined difference adjustment file is displayed, an engineer readjusts the attribute on the interface and saves and generates an attribute adjustment instruction, the batch difference adjustment service module receives the attribute adjustment instruction, acquires a second difference adjustment file pointed by the difference adjustment file identifier in the attribute adjustment instruction, then parses the second difference adjustment file and performs batch difference adjustment, as shown in fig. 11 specifically, after the project information interface modifies the attribute, re-determines a second difference adjustment file, if the second difference adjustment file is not the already saved first difference adjustment file, downloads the second difference adjustment file from the difference adjustment file library and saves the second difference adjustment file in a target storage location, all second objects are then differenced.

Example four

The fourth embodiment of the present invention further provides a device for generating a project pricing file, where the device for generating a project pricing file corresponds to the method for generating a project pricing file provided in the first embodiment, and corresponding technical features and technical effects are not described in detail in this embodiment, and reference may be made to the first embodiment for relevant points. Specifically, fig. 12 shows a block diagram of a device for generating a project pricing file according to the fourth embodiment of the invention. As shown in fig. 12, the generating apparatus 1200 of the project pricing file includes a first receiving module 1201, a second receiving module 1202, a first determining module 1203, and a discrepancy adjusting module 1204, wherein:

a first receiving module 1201, configured to receive a new creation instruction for creating a new project pricing file, create the new project pricing file, and determine a first difference adjustment file associated with the new creation instruction, where the new creation instruction includes a first project attribute;

a second receiving module 1202, configured to receive an editing instruction for editing the project pricing file, and determine an edited object to which the editing instruction points;

a first determining module 1203, configured to determine, when it is monitored that the editing instruction meets a preset condition, a first difference adjustment parameter of the edited object from the first difference adjustment file according to the first engineering attribute;

and a difference adjusting module 1204, configured to perform difference adjustment on the edited object according to the first difference adjusting parameter, so as to generate a difference-adjusted project pricing file.

Optionally, the apparatus further comprises: a second determining module, configured to determine a difference adjustment file identifier and a first project attribute of a first difference adjustment file before the step of receiving a new creation instruction for creating a new project pricing file, creating the new project pricing file, and determining the first difference adjustment file associated with the new creation instruction; and the generating module is used for generating the new command according to the difference adjustment file identifier and the first project attribute.

Optionally, the first determining module, when performing the step of determining the first difference adjustment file associated with the new instruction, is further configured to: acquiring the difference adjustment file identification carried in the new command; and determining the first difference adjustment file pointed by the difference adjustment file identification from a difference adjustment file library.

Optionally, the apparatus further comprises: a third determining module, configured to determine, after the step of determining the first difference adjustment file pointed by the difference adjustment file identifier from the difference adjustment file library, a target storage location for storing the project pricing file; and the downloading module is used for downloading the first difference adjustment file from the difference adjustment file library to the target storage position.

Optionally, the second receiving module is further configured to perform at least one of the following steps: receiving a newly-added editing instruction for editing the project pricing file, newly adding an object in the project pricing file according to the newly-added editing instruction, and determining the newly-added object as the edited object; receiving a deletion editing instruction for editing the project pricing file, deleting an object in the project pricing file according to the deletion editing instruction, and determining the deleted object as the edited object; receiving a replacement editing instruction for editing the project pricing file, replacing an object in the project pricing file according to the replacement editing instruction, and determining the replaced object as the edited object; and receiving a mobile editing instruction for editing the project pricing file, moving an object in the project pricing file according to the mobile editing instruction, and determining the moved object as the edited object.

Optionally, when the step of determining the first variation quantity of the edited object from the first variation file according to the first project attribute is executed, the first determining module is further configured to: determining, from the first discrepancy file, discrepancy information associated with the first project attribute; determining the first tuning difference quantity of the edited object from the tuning difference information.

Optionally, the apparatus further comprises: a fourth determining module, configured to determine, after the step of receiving an editing instruction for editing the project pricing file and determining an edited object pointed by the editing instruction, a target quota parameter corresponding to the edited object from a quota library; the adding module is used for adding the target quota parameter as a price parameter of the edited object into the project pricing file;

the difference adjustment module is further configured to: re-determining the price parameter of the edited object according to the target quota parameter and the first difference adjustment parameter; comparing whether the target quota parameter is consistent with the re-determined price parameter; and if the target quota parameter is inconsistent with the target quota parameter, replacing the target quota parameter with the re-determined price parameter in the engineering pricing file to generate the adjusted engineering pricing file.

Optionally, when the step of replacing the target quota parameter with the re-determined price parameter in the engineering pricing file to generate the adjusted engineering pricing file is executed by the difference adjusting module, the difference adjusting module is further configured to: receiving an attribute adjusting instruction, and determining a second difference adjustment file associated with the attribute adjusting instruction, wherein the attribute adjusting instruction comprises a second project attribute; determining all first objects which are adjusted in difference in the project pricing file by the current moment and current price parameters of the first objects; determining a second difference adjustment parameter of each first object from the second difference adjustment file according to the second engineering attribute; determining all second objects needing to be subjected to difference adjustment from all the first objects according to the current price parameters and the second difference adjustment parameters of all the first objects; re-determining the price parameter of each second object according to the current price parameter and the second difference adjustment parameter of each second object; and replacing the current price parameter of each second object in the engineering pricing file with the re-determined price parameter of the second object to generate the adjusted engineering pricing file.

Optionally, when the step of receiving the attribute adjustment instruction and determining the second difference adjustment file associated with the attribute adjustment instruction is executed by the difference adjustment module, the difference adjustment module is further configured to: receiving an attribute adjusting instruction, and judging whether a difference adjustment file identifier carried in the attribute adjusting instruction is consistent with a difference adjustment file identifier carried in the new establishing instruction; determining the first difference file at the target storage location as the second difference file if consistent; and in case of inconsistency, determining the second difference adjustment file pointed by the difference adjustment file identification in the attribute adjusting instruction from the difference adjustment file library.

Optionally, when the step of replacing the current price parameter of each second object in the engineering pricing file with the re-determined price parameter of the second object to generate the adjusted engineering pricing file is executed, the difference adjusting module is further configured to: determining all third objects associated with each second object from the engineering pricing file after replacing the current price parameters of all second objects in the engineering pricing file with the corresponding re-determined price parameters of the second objects; and adjusting the difference of each third object according to the re-determined price parameter of each second object to generate the adjusted project pricing file.

EXAMPLE five

Fig. 13 is a block diagram of a computer device suitable for implementing the method for generating a project pricing file according to the fifth embodiment of the invention. In this embodiment, the computer device 1300 may be a smart phone, a tablet computer, a notebook computer, a desktop computer, a rack server, a blade server, a tower server, or a rack server (including an independent server or a server cluster composed of a plurality of servers), and the like that execute programs. As shown in fig. 13, the computer device 1300 of the present embodiment includes at least, but is not limited to: a memory 1301, a processor 1302, a network interface 1303, which may be communicatively coupled to each other via a system bus. It is noted that FIG. 13 only shows computer device 1300 with components 1301 and 1303, but it is understood that not all of the shown components are required and that more or fewer components can be implemented instead.

In this embodiment, the memory 1303 includes at least one type of computer-readable storage medium, which includes a flash memory, a hard disk, a multimedia card, a card-type memory (e.g., SD or DX memory, etc.), a Random Access Memory (RAM), a Static Random Access Memory (SRAM), a Read Only Memory (ROM), an Electrically Erasable Programmable Read Only Memory (EEPROM), a Programmable Read Only Memory (PROM), a magnetic memory, a magnetic disk, an optical disk, and the like. In some embodiments, the memory 1301 may be an internal storage unit of the computer device 1300, such as a hard disk or a memory of the computer device 1300. In other embodiments, the memory 1301 may also be an external storage device to the computer device 1300, such as a plug-in hard disk, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), or the like, provided on the computer device 1300. Of course, the memory 1301 can also include both internal and external memory units to the computer device 1300. In the present embodiment, the memory 1301 is generally used to store an operating system installed in the computer device 1300 and various types of application software, such as program codes of a method for generating a project pricing file.

Processor 1302 may be a Central Processing Unit (CPU), controller, microcontroller, microprocessor, or other data Processing chip in some embodiments. The processor 1302 generally operates to control the overall operation of the computer device 1300. Such as performing control and processing related to data interaction or communication with computer device 1300. In this embodiment, the processor 1302 is configured to execute program codes of steps of a method for generating a project pricing file stored in the memory 1301.

In this embodiment, the method for generating the project pricing file stored in the memory 1301 can be further divided into one or more program modules and executed by one or more processors (in this embodiment, the processor 1302) to implement the present invention.

Network interface 1303 may include a wireless network interface or a wired network interface, and network interface 1303 is typically used to establish communication links between computer device 1300 and other computer devices. For example, the network interface 1303 is used to connect the computer device 1300 to an external terminal via a network, establish a data transmission channel and a communication link between the computer device 1300 and the external terminal, and the like. The network may be a wireless or wired network such as an Intranet (Intranet), the Internet (Internet), a Global System of Mobile communication (GSM), Wideband Code Division Multiple Access (WCDMA), a 4G network, a 5G network, Bluetooth (Bluetooth), or Wi-Fi.

EXAMPLE six

The present embodiment also provides a computer-readable storage medium including a flash memory, a hard disk, a multimedia card, a card-type memory (e.g., SD or DX memory, etc.), a Random Access Memory (RAM), a Static Random Access Memory (SRAM), a Read Only Memory (ROM), an Electrically Erasable Programmable Read Only Memory (EEPROM), a Programmable Read Only Memory (PROM), a magnetic memory, a magnetic disk, an optical disk, a server, an App application mall, etc., on which a computer program is stored, which when executed by a processor, implements the steps of the method for generating an engineering pricing file.

It will be apparent to those skilled in the art that the modules or steps of the embodiments of the invention described above may be implemented by a general purpose computing device, they may be centralized on a single computing device or distributed across a network of multiple computing devices, and alternatively, they may be implemented by program code executable by a computing device, such that they may be stored in a storage device and executed by a computing device, and in some cases, the steps shown or described may be performed in an order different than that described herein, or they may be separately fabricated into individual integrated circuit modules, or multiple ones of them may be fabricated into a single integrated circuit module. Thus, embodiments of the invention are not limited to any specific combination of hardware and software.

It should be noted that the numbers of the embodiments of the present invention are merely for description and do not represent the merits of the embodiments.

Through the above description of the embodiments, those skilled in the art will clearly understand that the method of the above embodiments can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware, but in many cases, the former is a better implementation manner.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A method for generating a project pricing file, the method comprising:

receiving a new establishment instruction for establishing a new project pricing file, establishing the new project pricing file and determining a first difference adjustment file associated with the new establishment instruction, wherein the new establishment instruction comprises a first project attribute;

receiving an editing instruction for editing the project pricing file, and determining an edited object pointed by the editing instruction;

when the fact that the editing instruction meets preset conditions is monitored, determining a first difference adjustment parameter of the edited object from the first difference adjustment file according to the first engineering attribute;

and adjusting the difference of the edited object according to the first difference adjusting parameter to generate an adjusted project pricing file.

2. The method of claim 1, wherein prior to the steps of receiving a new command to create a project pricing file, creating the project pricing file, and determining a first discrepancy file associated with the new command, the method further comprises:

determining a difference adjustment file identifier and the first project attribute of the first difference adjustment file;

and generating the new command according to the difference adjustment file identification and the first project attribute.

3. The method of claim 2, wherein the step of determining the first diff file associated with the new instruction comprises:

acquiring the difference adjustment file identification carried in the new command;

and determining the first difference adjustment file pointed by the difference adjustment file identification from a difference adjustment file library.

4. The method of claim 3, wherein after the step of determining the first tuning file to which the tuning file identification points from a tuning file library, the method further comprises:

determining a target storage location for storing the project pricing file;

and downloading the first difference adjustment file from the difference adjustment file library to the target storage position.

5. The method of claim 1, wherein the step of receiving an editing instruction for editing the project pricing file, and determining an edited object pointed to by the editing instruction comprises at least one of:

6. The method of claim 1, wherein the step of determining a first variation quantity of the edited object from the first variation file based on the first engineering property comprises:

determining, from the first discrepancy file, discrepancy information associated with the first project attribute;

determining the first tuning difference quantity of the edited object from the tuning difference information.

7. The method of claim 4,

after the step of receiving an editing instruction for editing the project pricing file and determining an edited object pointed by the editing instruction, the method further comprises: determining a target quota parameter corresponding to the edited object from a quota library; adding the target quota parameter as a price parameter of the edited object into the project pricing file;

the step of adjusting the difference of the edited object according to the first difference adjustment parameter to generate the adjusted project pricing file comprises the following steps: re-determining the price parameter of the edited object according to the target quota parameter and the first difference adjustment parameter; comparing whether the target quota parameter is consistent with the re-determined price parameter; and if the target quota parameter is inconsistent with the target quota parameter, replacing the target quota parameter with the re-determined price parameter in the engineering pricing file to generate the adjusted engineering pricing file.

8. The method of claim 7, wherein the step of replacing the target quota parameter with the re-determined price parameter in the project pricing document to generate a disproved project pricing document comprises:

receiving an attribute adjusting instruction, and determining a second difference adjustment file associated with the attribute adjusting instruction, wherein the attribute adjusting instruction comprises a second project attribute;

determining all first objects which are adjusted in difference in the project pricing file by the current moment and current price parameters of the first objects;

determining a second difference adjustment parameter of each first object from the second difference adjustment file according to the second engineering attribute;

determining all second objects needing to be subjected to difference adjustment from all the first objects according to the current price parameters and the second difference adjustment parameters of all the first objects;

re-determining the price parameter of each second object according to the current price parameter and the second difference adjustment parameter of each second object;

and replacing the current price parameter of each second object in the engineering pricing file with the re-determined price parameter of the second object to generate the adjusted engineering pricing file.

9. The method of claim 8, wherein the step of receiving a property adjustment instruction and determining a second variation file associated with the property adjustment instruction comprises:

receiving an attribute adjusting instruction, and judging whether a difference adjustment file identifier carried in the attribute adjusting instruction is consistent with a difference adjustment file identifier carried in the new establishing instruction;

determining the first difference file at the target storage location as the second difference file if consistent;

and in case of inconsistency, determining the second difference adjustment file pointed by the difference adjustment file identification in the attribute adjusting instruction from the difference adjustment file library.

10. The method of claim 8, wherein the step of replacing the current price parameter of each of the second objects in the engineering pricing document with the re-determined price parameter of the second object to generate the disputed engineering pricing document comprises:

determining all third objects associated with each second object from the engineering pricing file after replacing the current price parameters of all second objects in the engineering pricing file with the corresponding re-determined price parameters of the second objects;

and adjusting the difference of each third object according to the re-determined price parameter of each second object to generate the adjusted project pricing file.

11. An apparatus for generating a project pricing document, the apparatus comprising:

the system comprises a first receiving module, a second receiving module and a third receiving module, wherein the first receiving module is used for receiving a new establishing instruction for establishing a project pricing file, establishing the project pricing file and determining a first difference adjustment file associated with the new establishing instruction, and the new establishing instruction comprises a first project attribute;

the second receiving module is used for receiving an editing instruction for editing the project pricing file and determining an edited object pointed by the editing instruction;

the first determining module is used for determining a first difference adjustment parameter of the edited object from the first difference adjustment file according to the first engineering attribute when the fact that the editing instruction meets the preset condition is monitored;

and the difference adjusting module is used for adjusting the difference of the edited object according to the first difference adjusting parameter so as to generate a difference adjusted project pricing file.

12. A computer device, the computer device comprising: memory, processor and computer program stored on the memory and executable on the processor, characterized in that the processor implements the method of any of claims 1 to 10 when executing the computer program.

13. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the method of any one of claims 1 to 10.