CN112329118A - Method, device, terminal and storage medium for extracting maximum value in structure calculation graph - Google Patents

Abstract

The application relates to a method, a device, a terminal and a storage medium for extracting a maximum value in a structure calculation graph, wherein the method comprises the following steps: extracting a schematic diagram of each layer; allocating rectangular boxes with the same size to each diagram; adjusting the positions of the rectangular boxes and the schematic diagrams; respectively identifying the extracted sketch in each rectangular box, and simultaneously generating a graph and a digital database according to the position of the identified rectangular box and the number in the sketch in the rectangular box; comparing the numbers at the same position according to the graph and the digital database to obtain the maximum number at each position corresponding to the rectangular square frame; outputting a final graph according to the identified sketch and the rectangular square; and correspondingly marking the maximum number on the corresponding position of the final graph. The application has the technical effects that: the staff can know the data maximum value of the data information required by each position quickly according to the mark of the final graph, so that the labor is saved, and the accuracy of the comparison result is improved.

Description

Method, device, terminal and storage medium for extracting maximum value in structure calculation graph

Technical Field

The present application relates to the technical field of architectural structure design and computation, and in particular, to a method, an apparatus, a terminal, and a storage medium for extracting a maximum value in a structure computation graph.

Background

In the process of building structure design, because data information such as steel bar area, stirrup area, longitudinal bar area, waist bar area and wall column concrete axial compression ratio in the standard layer structure calculation diagram can all be different at each layer, when the designer merges the data of multilayer, need through comparing each layer data of every department in order to obtain the maximum value as the design basis.

Conventionally, in the comparison process, the structural calculation diagrams of each layer need to be compared manually, but the comparison process is time-consuming and labor-consuming due to the huge data amount, and the comparison result accuracy is low.

Disclosure of Invention

In order to solve the problems that the comparison process of the data of the structure calculation graph is time-consuming and labor-consuming and the comparison result is low in accuracy, the method, the device, the terminal and the storage medium for extracting the maximum value in the structure calculation graph are provided.

In a first aspect, the present application provides a method for extracting a maximum value in a structure computation graph, which adopts the following technical scheme: the method comprises the following steps:

extracting a diagram of each layer, wherein the diagram comprises figures and numbers;

allocating rectangular boxes of the same size to each of the diagrams;

adjusting the positions of the rectangular boxes and the diagram, limiting the diagram within the rectangular boxes, and keeping the relative positions of the rectangular boxes and the diagram inside the rectangular boxes consistent;

respectively identifying the extracted sketch in each rectangular box, identifying the position of the rectangular box and the number in the sketch in the rectangular box, and simultaneously generating a graph and a digital database according to the identified position of the rectangular box and the number in the sketch in the rectangular box;

extracting all numbers at the same position in the rectangular frames according to a graph and digital database, and comparing the numbers at the same position to obtain the maximum number at each position corresponding to the rectangular frames;

outputting a final graph according to the identified sketch and the rectangular square;

and correspondingly marking the maximum number at the corresponding position of the final graph.

Through the technical scheme, the maximum number of the numbers at the same position in the diagram can be quickly extracted through the comparison and identification mode, and the maximum number of the compared numbers is marked at the position corresponding to the final graph, so that a worker can quickly know the maximum data value of the data information required by each position according to the marking of the final graph, the labor is saved, and the accuracy of the comparison result is improved.

Preferably, the adjusting the positions of the rectangular boxes and the sketch so that each rectangular box is consistent with the relative position of the internal sketch thereof comprises:

selecting reference points in the graphs in the simplified diagrams respectively, wherein the relative position of each reference point and each number in the corresponding simplified diagram is kept consistent;

and adjusting the positions of the corresponding rectangular frames according to the positions of the reference points, so that the distance between the reference point inside any one rectangular frame and the four corners of the corresponding rectangular frame is consistent with the distance between the reference point inside all other rectangular frames and the four corners of the corresponding rectangular frame.

Through the technical scheme, when the position of the rectangular frame is adjusted, the reference point can be used as the reference point for adjustment, and the reference frame is quickly adjusted to a proper position, so that the efficiency of adjusting the reference frame is improved.

Preferably, when the schematic diagram in each rectangular box is identified, the identified information further includes: identifying a graph in the simplified diagram, identifying a relative position relationship between the graph and a rectangular box in the simplified diagram, and identifying a relative position relationship between a number and a rectangular box in the simplified diagram.

Through the technical scheme, the accuracy of diagram identification is improved by identifying each information element in the standard diagram and the relative position of each information element relative to the rectangular square frame, and meanwhile, the identified related information is conveniently processed at the later stage.

Preferably, the outputting a final graph according to the identified simplified graph includes:

stacking all the identified rectangular frames at the same position;

and stacking the identified graphics in the diagram in the respective rectangular boxes according to the relative position relationship between the identified graphics in the diagram and the corresponding rectangular boxes to form a final graphics and outputting the final graphics.

Through the technical scheme, the final graph is a superposition set of the graphs in all the diagrams, so that the final graph has the characteristics of all the diagrams, and later-period workers can rapidly extract the maximum data value of each piece of position data information.

Preferably, the correspondingly labeling the maximum value in the corresponding position number at the corresponding position of the final graph includes: and correspondingly marking the maximum number obtained by comparison in the final graph according to the identified relative position relationship between the number and the rectangular square box in the diagram.

By the technical scheme, when the maximum value in the number is marked, the marked position of the number can be quickly determined by taking the rectangular square frame as a reference standard, so that the marking efficiency of the maximum value of the number is improved.

Preferably, the step of identifying the schematic diagrams in the rectangular boxes is performed simultaneously;

and establishing a progress bar, wherein the coverage progress of the progress bar is consistent with the progress of the step of respectively identifying the sketch in each rectangular box.

Through the technical scheme, the staff can know the recognition progress of the diagram in real time according to the indication of the progress bar, the possibility that the staff is difficult to distinguish the current recognition state or the dead halt state when recognizing a large amount of data is reduced, and the staff can accurately recognize the current recognition state conveniently.

Preferably, the coverage progress of the progress bar is synchronously displayed in a percentage mode.

Through the technical scheme, the display of the progress bar is more visual in the percentage display mode, so that the staff can more visually and accurately know the specific progress of the current identification.

In a second aspect, the present application provides an apparatus for extracting a maximum value in a structure computation graph, which adopts the following technical solution: the device comprises:

the data extraction module is used for extracting the sketch of each layer, and the sketch comprises graphs and numbers;

the drawing frame distribution module is used for distributing rectangular boxes with the same size for each sketch;

the drawing frame adjusting module is used for adjusting the positions of the rectangular boxes and the diagram, limiting the diagram in the rectangular boxes, and enabling each rectangular box to keep consistent with the relative position of the diagram inside the rectangular box;

the data identification module is used for respectively identifying the extracted sketch in each rectangular box, identifying the position of the rectangular box and the number in the sketch in the rectangular box, and simultaneously generating a graph and a digital database according to the identified position of the rectangular box and the number in the sketch in the rectangular box;

the data processing module is used for extracting all the numbers at the same position in the rectangular frame according to the graph and digital database, and comparing the numbers at the same position to obtain the maximum number at each position corresponding to the rectangular frame;

the data output module is used for outputting a final graph according to the identified diagram;

and the data marking module is used for correspondingly marking the maximum number on the corresponding position of the final graph.

Through the technical scheme, the device can rapidly extract the maximum number in the numbers at the same position in the diagram, and then, the maximum number in the compared numbers is marked at the corresponding position of the final graph, so that a worker can rapidly know the maximum data value of the data information required by each position according to the marking of the final graph, manpower is saved, and the accuracy of the comparison result is improved.

In a third aspect, the present application provides an intelligent terminal, including a memory and a processor, where the memory stores a computer program that can be loaded by the processor and execute any one of the methods for calculating the maximum value in the graph by using the extraction structure.

Through the technical scheme, the processor in the intelligent terminal can realize the method for extracting the maximum value in the structure calculation graph according to the related computer program stored in the memory, so that workers can quickly acquire the maximum value of data information required by each position, manpower is saved, and the accuracy of comparison results is improved.

In a fourth aspect, the present application provides a computer-readable storage medium storing a computer program that can be loaded by a processor and execute any of the methods for calculating a maximum value in a graph by extracting a structure described above.

Through the technical scheme, the method for extracting the maximum value in the structure calculation graph can be stored in the readable storage medium, so that a computer program of the method for extracting the maximum value in the structure calculation graph, which is stored in the readable storage medium, can be executed by the processor, and the effects of saving manpower and improving the accuracy of comparison results are achieved.

Drawings

Fig. 1 is a flowchart of a method for extracting a maximum value in a structure calculation graph according to an embodiment of the present application.

Fig. 2 is a flow chart of sub-steps of step 30 in an embodiment of the present application.

Fig. 3 is a flow chart of sub-steps of step 70 in an embodiment of the present application.

Fig. 4 is a block diagram illustrating a structure of a maximum value extracting device in a structure calculation diagram according to an embodiment of the present application.

Reference numerals: 101. a data extraction module; 102. a frame distribution module; 103. a frame adjustment module; 104. a data identification module; 105. a data processing module; 106. a progress feedback module; 107. a data output module; 108. and a data labeling module.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses a method for extracting a maximum value in a structure calculation graph.

As shown in fig. 1, the method comprises the steps of:

and step 10, extracting each layer diagram.

Wherein the diagrams include figures and numbers.

Each diagram is assigned rectangular boxes of the same size, step 20.

Specifically, any of the diagrams may be placed entirely within the corresponding rectangular box.

And step 30, adjusting the relative positions of the rectangular boxes and the sketch.

Specifically, the relative positions of the rectangular blocks and the schematic diagram are adjusted until the relative positions of each rectangular block and its internal schematic diagram are consistent.

As shown in fig. 2, wherein step 30 comprises the following two substeps:

step 301, determining a reference point in each graph in each diagram, wherein the relative position between each reference point and each number in the corresponding diagram is kept consistent.

And step 302, taking the position of the reference point as a reference point, and respectively adjusting the positions of the rectangular frames to ensure that the distance between the reference point inside any rectangular frame and the four corners of the corresponding rectangular frame is consistent with the distance between the reference point inside all other rectangular frames and the four corners of the corresponding rectangular frame.

Specifically, the reference point may be a common point in the graphs in the respective layer diagrams, for example, an end point at the lower left corner or the lower right corner of the intersection point of the wall and the pillar in the respective layer diagrams. By means of determining the datum points firstly, the rectangular square can be used for quickly adjusting the position of the rectangular square by referring to the datum points, and therefore efficiency of adjusting the relative positions of the rectangular square and the schematic diagram is improved.

Step 40, the sketch within each rectangular box is identified and a graphical and digital database is generated.

Specifically, the diagram can be displayed through drawing software such as CAD, PROE and the like for drawing a two-dimensional building drawing, and the essence of identifying the diagram information is to extract and identify data information of the diagram in the drawing software; the identified content includes: the positions of the rectangular boxes, the relative position relationship between the graph in the diagram and the rectangular boxes, the relative position relationship between the numbers in the diagram and the rectangular boxes, the graph in the diagram and the numbers in the diagram; the generated graphics and digital database is a collection of the above identified content.

And 50, extracting the numbers at the same positions in all the rectangular frames in the graph and digital database, and comparing the numbers at the same positions one by one to obtain the maximum value of the numbers at each position corresponding to the rectangular frames.

Specifically, the relative position between the rectangular box and the number refers to: the exact position determined by taking the distance between the number and the four sides of the rectangular box as a standard;

according to the identified positions of the rectangular frames and the relative position relation between each number and the corresponding rectangular frame, which numbers are positioned at the same position can be quickly determined; comparing the numbers at the same position with a single numerical value to respectively obtain the maximum number at each position; if a position has only one number, the number is taken as the maximum number of the position.

Step 60, a progress bar is established.

Specifically, the progress bar starts to operate at the same time as the step 40 is started; the recognition progress of the progress bar is consistent with the completion progress of the step 40, and the coverage progress of the progress bar is synchronously displayed in a percentage mode; when the step 40 is finished, the progress synchronization of the progress bar is covered to a hundred percent completion state; therefore, the user can visually judge the running state of the current system according to the indication of the progress bar, so that when the system is in a dead halt state or a stuck state, the user can timely find and quickly check and solve the problem. Meanwhile, the progress bar may also be set to be consistent with steps 40 and 50, the progress bar starts to run while step 40 starts, and the progress bar completely covers when step 50 ends, so that the progress bar can uniformly indicate the progress of steps 40 and 50.

And step 70, outputting a final graph according to the identified sketch and the rectangular box.

As shown in fig. 3, wherein step 70 comprises the following two substeps:

in step 701, all the identified rectangular boxes are stacked at the same position.

Specifically, all rectangular boxes are still displayed as one rectangular box after being stacked on each other at the same position.

At step 702, the identified graphics in the diagram are stacked in respective rectangular boxes.

Specifically, each graph can be restored to the initial position in the corresponding rectangular box according to the relative position relationship between the rectangular box and the graph in the diagram, so that the graph in the final graph is the superposition of all the graphs, and the graph in the final graph contains all the graphs in each diagram.

And 80, marking the final graph.

Specifically, the maximum number of the numbers at each position in the rectangular box obtained after comparison may be correspondingly marked in the rectangular box in the final graph according to the relative position relationship between the identified number in the diagram and the rectangular box; or according to the relative position relationship between the identified numbers in the diagram and the graph, correspondingly marking the maximum number in the numbers at each position in the rectangular box obtained after comparison in the rectangular box in the final graph; at the moment, the rectangular frame of the final graph comprises all graphs in each simplified diagram and the maximum number at the corresponding position of all numbers in each simplified diagram, and the maximum value in the numbers in the final graph is just marked at the corresponding position in the simplified diagram information, so that a worker can quickly obtain the maximum value of data information required by each position according to the mark in the simplified diagram information in the final graph, the labor is saved, and the accuracy of a comparison result is improved; the 50 structure calculation diagrams can be compared within one minute and the final graph is output.

The implementation principle of the embodiment of the application is as follows: when the maximum data value of the required data information needs to be counted, the graphs and the numbers in different diagrams in drawing software can be identified in batches, and then the numbers at the same position are compared to quickly obtain the maximum numbers at different positions in the numbers; and then, the recognized graphs are mutually overlapped, and the maximum number in the compared numbers is marked to the corresponding position in the overlapped graph, so that a worker can quickly obtain the maximum data value of the data information required by each position according to the maximum number marked in the overlapped graph, the labor is saved, and the accuracy of the comparison result is improved.

The embodiment of the application also discloses a device for extracting the maximum value in the structure calculation graph.

As shown in fig. 4, the apparatus includes the following modules:

the data extraction module 101 is used for extracting the sketch of each layer, wherein the sketch comprises figures and numbers;

a frame allocation module 102, configured to allocate rectangular frames with the same size for each diagram;

the drawing frame adjusting module 103 is used for adjusting the positions of the rectangular boxes and the drawing, limiting the drawing in the rectangular boxes and keeping the relative positions of the rectangular boxes and the drawing inside the rectangular boxes consistent;

the data identification module 104 is used for respectively identifying the extracted sketch in each rectangular box and generating a graph and a digital database according to the position of the identified rectangular box and the number in the sketch in the rectangular box;

the data processing module 105 is used for extracting the numbers at the same positions in all the rectangular frames in the graph and digital database, and comparing the numbers at the same positions to obtain the maximum value of the numbers at each position corresponding to the rectangular frames;

the progress feedback module 106 is used for establishing a progress bar, and the coverage progress of the progress bar is synchronously displayed in a percentage form;

a data output module 107 for outputting a final graph according to the identified schematic diagram;

and a data labeling module 108 for labeling the maximum number corresponding to the final figure at the corresponding position.

The embodiment of the application also discloses an intelligent terminal.

Specifically, the intelligent terminal comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and executes the maximum value method in the extraction structure calculation chart.

The embodiment of the application also discloses a computer readable storage medium.

Specifically, the computer-readable storage medium stores a computer program that can be loaded by a processor and executes the method for calculating the maximum value in the graph of the extracted structure as described above, and includes, for example: 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.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (10)

1. A method for extracting a maximum value in a structural computation graph, the method comprising:

extracting a diagram of each layer, wherein the diagram comprises figures and numbers;

allocating rectangular boxes of the same size to each of the diagrams;

adjusting the positions of the rectangular boxes and the diagram, limiting the diagram within the rectangular boxes, and keeping the relative positions of the rectangular boxes and the diagram inside the rectangular boxes consistent;

respectively identifying the extracted sketch in each rectangular box, identifying the position of the rectangular box and the number in the sketch in the rectangular box, and simultaneously generating a graph and a digital database according to the identified position of the rectangular box and the number in the sketch in the rectangular box;

extracting all numbers at the same position in the rectangular frames according to a graph and digital database, and comparing the numbers at the same position to obtain the maximum number at each position corresponding to the rectangular frames;

outputting a final graph according to the identified sketch and the rectangular square;

and correspondingly marking the maximum number at the corresponding position of the final graph.

2. The method of extracting a maximum value in a structure computation graph according to claim 1, wherein the adjusting positions of the rectangular blocks and the diagram so that each rectangular block is kept consistent with a relative position of its internal diagram comprises:

selecting reference points in the graphs in the simplified diagrams respectively, wherein the relative position of each reference point and each number in the corresponding simplified diagram is kept consistent;

and adjusting the positions of the corresponding rectangular frames according to the positions of the reference points, so that the distance between the reference point inside any one rectangular frame and the four corners of the corresponding rectangular frame is consistent with the distance between the reference point inside all other rectangular frames and the four corners of the corresponding rectangular frame.

3. The method of claim 1, wherein when identifying the schematic diagram in each rectangular box, the identified information further comprises: identifying a graph in the simplified diagram, identifying a relative position relationship between the graph and a rectangular box in the simplified diagram, and identifying a relative position relationship between a number and a rectangular box in the simplified diagram.

4. A method for extracting a maximum value in a structure computation graph according to claim 3, wherein outputting a final graph according to the identified diagram comprises:

stacking all the identified rectangular frames at the same position;

and stacking the identified graphics in the diagram in the respective rectangular boxes according to the relative position relationship between the identified graphics in the diagram and the corresponding rectangular boxes to form a final graphics and outputting the final graphics.

5. The method for extracting the maximum value in the structure computation graph according to claim 3, wherein the correspondingly labeling the maximum value in the corresponding position number on the corresponding position of the final graph comprises: and correspondingly marking the maximum number obtained by comparison in the final graph according to the identified relative position relationship between the number and the rectangular square box in the diagram.

6. The method of extracting a maximum value in a structure computation graph according to claim 1, wherein said step of separately identifying a diagram within each of said rectangular boxes is performed simultaneously;

and establishing a progress bar, wherein the coverage progress of the progress bar is consistent with the progress of the step of respectively identifying the sketch in each rectangular box.

7. The method for extracting the maximum value in the structural calculation map as claimed in claim 6, wherein the coverage progress of the progress bar is displayed synchronously in percentage.

8. An apparatus for extracting a maximum value in a structure computation graph, the apparatus comprising:

a data extraction module (101) for extracting a diagram of each layer, the diagram comprising figures and numbers;

a frame allocation module (102) for allocating rectangular frames of the same size to each of the diagrams;

a frame adjusting module (103) for adjusting the positions of the rectangular boxes and the diagram, limiting the diagram within the rectangular boxes, and keeping the relative positions of the rectangular boxes and the diagram inside the rectangular boxes consistent;

the data identification module (104) is used for respectively identifying the extracted sketch in each rectangular box and identifying the position of the rectangular box and the number in the sketch in the rectangular box, and meanwhile, generating a graph and a digital database according to the identified position of the rectangular box and the number in the sketch in the rectangular box;

the data processing module (105) is used for extracting the numbers which are positioned at the same positions in all the rectangular frames according to the graph and digital database, and comparing the numbers positioned at the same positions to obtain the maximum number at each position corresponding to the rectangular frames;

a data output module (107) for outputting a final graph according to the identified schematic diagram;

and the data marking module (108) is used for marking the maximum number corresponding to the corresponding position of the final graph.

9. An intelligent terminal, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any one of claims 1 to 7.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method of any one of claims 1 to 7.

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