CN113568767B - Data writing file verification method suitable for intelligent power utilization terminal - Google Patents

Abstract

The invention relates to a data writing file verification method suitable for an intelligent power utilization terminal, which comprises the following steps of S1, calculating whether a storage position P in a file corresponding to the data writing terminal to be written is in an address range of the file which can be written, if not, executing S2, and if so, executing S3; s2, exiting judgment, and generating an alarm; s3, executing subsequent write operation judgment. The method improves the stability of the terminal system.

Description

Data writing file verification method suitable for intelligent power utilization terminal

Technical Field

The invention relates to the field of intelligent power utilization terminals, in particular to a data writing file verification method suitable for an intelligent power utilization terminal.

Background

Along with the wide application of intelligent power utilization terminals, the requirements of people on the stability of the terminals are higher and higher, and meanwhile, the requirements on the problem searching capability of the terminals and the error correction capability of the terminals are higher and higher.

However, the current file writing operation cannot be found in time when errors occur after the file is written into the terminal, and the problem is found after a long time due to the fact that the terminal lacks a self-checking mechanism, so that the working efficiency of the terminal is affected.

Disclosure of Invention

In view of the above problems, the present invention aims to ensure the correctness of the file writing operation by judging the file, so as to improve the stability and the working efficiency of the terminal.

In order to achieve the above purpose, the technical scheme of the invention is as follows: a data writing file verification method suitable for an intelligent power utilization terminal is characterized in that: the method may include the steps of,

S1, calculating whether a storage position P in a file corresponding to a data writing terminal to be written is in an address range of the file which can be written, if not, executing S2, and if so, executing S3;

s2, exiting judgment, and generating an alarm;

S3, executing subsequent write operation judgment.

Further, the subsequent judgment of the writing operation in S3 specifically includes,

S31, judging whether the last position of the storage position P exists, if so, executing S32, and if not, executing S33;

s32, comparing the size between the data stored in the last position and the data to be written, and performing corresponding operation;

And S33, if not, directly comparing the size of the data to be written with the file, and performing subsequent operation.

Further, the performing the corresponding operation in step S32 specifically includes performing step S2 when it is determined that the size L1 of the data stored in the previous location is different from the size L of the data to be written.

Further, the performing the corresponding operation in step S32 specifically further includes correctly writing the data to be written into the file when it is determined that the size L1 of the data stored in the previous location is equal to the size L of the data to be written.

Further, the performing the subsequent operation in step S33 specifically includes skipping to execute S2 when the size L of the data to be written exceeds the size L0 of the file.

Further, the performing the subsequent operation in step S33 specifically further includes, when the size L of the data to be written is not greater than the size L0 of the file, continuing to perform the judgment between the data to be written and the data size fixed by the program.

Further, the step of continuing to perform the judgment between the data to be written and the data size fixed by the program includes correctly writing the data to be written into the file when the data size L to be written is consistent with the data size fixed by the program.

Further, the step of continuing to perform the judgment between the data to be written and the data size fixed by the program further includes performing step S2 when the size L of the data to be written is inconsistent with the data size fixed by the program.

Further, the method further comprises, before step S1,

And S01, judging whether the file exists or not, if not, creating the file according to the size specified by the program, executing S1, and otherwise, directly executing S1.

Further, the method further comprises the step that after the data to be written is correctly written into the file, the terminal checks whether the file is correct every day, and when the file is correct, the terminal does not operate, otherwise, the step S2 is performed in a jumping mode.

Compared with the prior art, the invention has the advantages that:

By judging whether the position where the data is to be written accords with the normal address range of the file, the size between the data and the file and the like before the data is written into the file, an error problem detection mechanism can be preposed, and the problem is prevented in advance by automatic verification of the terminal, so that the problems of unstable terminal system and low working efficiency caused by the problem of re-exposure after the data is written are prevented, and the overall performance of the terminal is improved.

Drawings

FIG. 1 is a flow chart of a method of verifying a data write file for an intelligent power terminal according to the method of the present application.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

The data write file verification method for an intelligent power consumption terminal of the present application as shown in fig. 1, the method comprising,

S1, calculating whether a storage position P in a file corresponding to a data writing terminal to be written is in an address range of the file which can be written, if not, executing S2, and if so, executing S3;

s2, exiting judgment, and generating an alarm;

S3, executing subsequent write operation judgment.

By judging whether the corresponding storage position, namely the index, in the file to be written with the data is in the correct range, the first layer detection protection of the data writing file operation is realized, the problem that the data is exposed after being written is effectively prevented, the unstable terminal system and the low working efficiency are caused, and the self-checking function and the overall performance of the system are improved.

It should be mentioned that the storage location P is calculated from the current time of the terminal, which is a common technical knowledge for a person skilled in the art, and is not developed in detail here.

Specifically, the subsequent judgment of the writing operation in S3 specifically includes,

S31, judging whether the last position of the storage position P exists, if so, executing S32, and if not, executing S33;

s32, comparing the size between the data stored in the last position and the data to be written, and performing corresponding operation;

and S33, if not, directly comparing the size of the data to be written with that of the file, and performing subsequent operation.

Judging whether the last position of the storage position P exists or not, comparing and judging the size between the data stored in the last position and the data to be written, and setting a second layer data problem self-checking guarantee mechanism, so that the data writing accuracy is further improved.

The corresponding operation in step S32 specifically includes, when it is determined that the size L1 of the data stored in the previous position is not equal to the size L of the data to be written, exiting the determination, and generating an alarm; and when the size L1 of the data stored in the last position is equal to the size L of the data to be written, the data to be written is correctly written into the file.

The step S33 of performing the subsequent operation specifically includes exiting the judgment when the size L of the data to be written exceeds the size L0 of the file, generating an alarm, and otherwise, continuing to perform the judgment between the data to be written and the data size fixed by the program.

That is, when the size L of the data to be written is consistent with the data size fixed by the program, the data to be written is correctly written into the file, and when the size L of the data to be written is inconsistent with the data size fixed by the program, the judgment is exited, and an alarm is generated. Therefore, through layer-by-layer detection, the correctness of the data writing file is ensured, and the stability and the working efficiency of the terminal system are improved.

In order to further ensure the stability of the system function, the method further comprises the steps that after the data to be written are correctly written into the file, the terminal also checks whether the file is correct every day, and when the file is detected to be correct, the operation is not performed, otherwise, the judgment is exited, and an alarm is generated.

Meanwhile, the application also comprises, before step S1,

And S01, judging whether the file exists or not, if not, creating the file according to the size specified by the program, and executing S1, otherwise, directly executing S1, thereby realizing the automatic detection and calculation function of the terminal through a layer-by-layer detection mechanism, being efficient and direct, having an identification mechanism for misoperation of the data and being capable of automatic calibration, and enabling the system to be more stable.

While embodiments of the invention have been shown and described, it will be understood by those skilled in the art that: many changes, modifications, substitutions and variations may be made to the embodiments without departing from the spirit and principles of the invention, the scope of which is defined by the claims and their equivalents.

Claims (7)

1. A data writing file verification method suitable for an intelligent power utilization terminal is characterized in that: the method may include the steps of,

S1, calculating whether a storage position P in a file corresponding to a data writing terminal to be written is in an address range of the file which can be written, if not, executing S2, and if so, executing S3;

s2, exiting judgment, and generating an alarm;

s3, executing subsequent write operation judgment;

the subsequent judgment of the writing operation in S3 specifically includes,

S31, judging whether the last position of the storage position P exists, if so, executing S32, and if not, executing S33;

s32, comparing the size between the data stored in the last position and the data to be written, and performing corresponding operation;

The performing the corresponding operation in step S32 specifically further includes, when it is determined that the size L1 of the data stored in the previous position is equal to the size L of the data to be written, correctly writing the data to be written into the file;

S33, if not, directly comparing the size of the data to be written with the file, and performing subsequent operation;

The performing the subsequent operation in step S33 specifically further includes, when the size L of the data to be written is not greater than the size L0 of the file, continuing to perform the judgment between the data to be written and the data size fixed by the program.

2. The data write file verification method applicable to an intelligent power consumption terminal according to claim 1, wherein:

The performing the corresponding operation in step S32 specifically includes performing step S2 when it is determined that the size L1 of the data stored in the previous location is not equal to the size L of the data to be written.

3. The data write file verification method applicable to an intelligent power consumption terminal according to claim 1, wherein:

the performing the subsequent operation in step S33 specifically includes performing step S2 when the size L of the data to be written exceeds the size L0 of the file.

4. The data write file verification method applicable to an intelligent power consumption terminal according to claim 1, wherein:

the step of continuing to execute the judgment between the data to be written and the data size fixed by the program comprises the step of correctly writing the data to be written into the file when the data size L to be written is consistent with the data size fixed by the program.

5. The data write file verification method applicable to an intelligent power consumption terminal according to claim 1, wherein:

The step of continuing to execute the judgment between the data to be written and the data size fixed by the program further comprises the step of jumping to execute S2 when the size L of the data to be written is inconsistent with the data size fixed by the program.

6. The data write file verification method applicable to an intelligent power consumption terminal according to claim 1, wherein: the method further comprises prior to step S1,

And S01, judging whether the file exists or not, if not, creating the file according to the size specified by the program, executing S1, and otherwise, directly executing S1.

7. The data write file verification method applicable to the intelligent power utilization terminal according to claim 4, wherein:

The method further comprises the steps that after the data to be written are written into the file correctly, the terminal checks whether the file is correct every day, and when the file is correct, the terminal does not operate, and otherwise, the step S2 is executed in a jumping mode.