CN117055789B

CN117055789B - Instrument display content adjusting system and method

Info

Publication number: CN117055789B
Application number: CN202311314052.1A
Authority: CN
Inventors: 肖梦霞; 袁正平; 王继东
Original assignee: Nantong Futong Instrument Co ltd
Current assignee: Nantong Futong Instrument Co ltd
Priority date: 2023-10-11
Filing date: 2023-10-11
Publication date: 2023-12-19
Anticipated expiration: 2043-10-11
Also published as: CN117055789A

Abstract

The application discloses an instrument display content adjusting system and method, which relate to the field of computers and comprise the steps of obtaining display information of a display screen; when the display screen fails, determining a failure area according to the display information; reading data to be regulated of a corresponding area based on the fault area and judging the type of the data to be regulated; judging the coverage areas of the text type data and the digital type data based on the fault area, and if the display data type is the text type and the coverage area of the fault area is less than half of the single text area in the data to be regulated, not debugging and correcting the data to be debugged; if the coverage area of the fault area is larger than half of a single text area in the data to be regulated, debugging and correcting the position information of the data to be debugged corresponding to the fault area; and if the display data type is the digital type, carrying out integrity adjustment on the position information of the data to be adjusted. The method has the effect of reducing the influence of the instrument faults on the use of the instrument.

Description

Instrument display content adjusting system and method

Technical Field

The application relates to the field of computers, in particular to a system and a method for adjusting display content of an instrument.

Background

Instruments are often used for automatic control, signal alarming, information transmission, data processing and the like, and production of products is controlled through the instruments, and debugging procedures of the instruments are most important to ensure that the produced products can meet design requirements. Touch display screens are one of instruments and meters and dominate in the current automatic production.

In most of the existing instrument and meter use factories, when a touch display screen fails, the touch display screen can be sent to a professional debugging mechanism at the first time, and debugging and maintenance are carried out on the display screen through professional equipment and professionals. However, in the emergency state of the construction period, the display screen with the micro display fault is disassembled, inspected, installed and debugged again, so that the construction period is influenced, and loss is caused, so that the fault debugging is required to be carried out on the display screen with the fault, the influence of the fault on the use of the display screen instrument is reduced, and the improvement exists.

Disclosure of Invention

In order to reduce the influence of instrument faults on the use of instruments, the application provides an instrument display content adjusting system and method.

In a first aspect, the present application provides a method for adjusting display content of an instrument, which adopts the following technical scheme:

An instrument display content adjusting method comprises the following steps:

acquiring display information of a display screen; the display information comprises position information and state information of all LED polar tubes forming a display screen;

when the display screen fails, determining a failure area according to the display information;

reading data to be regulated of a corresponding area based on the fault area and judging the type of the data to be regulated; the data to be regulated comprises text type data and digital type data; the fault area comprises the position of the fault area in the display screen and the coverage area of the fault area;

judging the coverage areas of the text type data and the digital type data based on the fault area, and if the display data type is the text type and the coverage area of the fault area is less than half of the single text area in the data to be regulated, not debugging and correcting the data to be debugged; the single character area is an area required by one character in display; the data to be regulated is display data covered by a fault area;

if the coverage area of the fault area is larger than half of a single text area in the data to be regulated, debugging and correcting the position information of the data to be regulated corresponding to the fault area, so that the covered area is smaller than half of the single text area;

And if the display data type is the digital type, the integrity adjustment is carried out on the position information of the data to be adjusted, so that the covered digital type data can be completely and normally displayed.

Preferably, text editing information is acquired; the text editing information comprises font size, line spacing of text typesetting and word spacing;

performing data packaging processing on the single text according to the text editing information to obtain a single text block; the single text block comprises an address data set of an LED polar tube for single text display and length and width data for single text display;

dividing a single text block in data to be regulated in a horizontal-vertical equal ratio mode to obtain four areas with the same size of 2 multiplied by 2, and outputting a division area;

determining a covering position of a single text block according to the single text block and the fault area, and dividing the covering position according to the dividing areas to determine the covered area of each dividing area;

calculating the sum of the covered areas of the two adjacent divided areas, screening the sum of the areas to screen out two adjacent divided areas with the smallest sum of the areas, and recording the two adjacent divided areas as area combination data;

reading and comparing the shielded areas corresponding to the two adjacent divided areas based on the area combination data, and selecting the shielded area with larger shielded area as the to-be-calculated divided area;

According to the to-be-calculated dividing area and the dividing area, carrying out area formula operation on the side length data of the dividing area and the to-be-calculated dividing area to obtain minimum displacement data;

judging the adjustment direction of the data to be adjusted according to the position relation of two adjacent divided areas in the area combination data and the relevance of the position relation and the adjustment direction; the relevance is that the position relation is perpendicular to the adjusting direction;

and carrying out displacement adjustment on the data to be adjusted based on the minimum displacement data and the adjustment direction of the data to be adjusted.

Preferably, the data to be adjusted is read to obtain corresponding covered text content, and the covered text content is structurally judged to judge the text structure of the covered text content; the character structure comprises a left-right structure and an up-down structure;

when judging the adjustment direction of the data to be adjusted, judging the priority of the position relation of two adjacent divided areas and the character structure of the covered character content in the data to be adjusted; the priority is judged to be higher than the position priority of the adjacent two divided areas;

and when the adjustment direction obtained by judging according to the position relation of the two adjacent divided areas conflicts with the text structure of the covered text content, the two adjacent divided areas are selected again, and the two selected divided areas are two adjacent areas with the second smallest area sum until the adjustment direction obtained by judging according to the position relation of the two adjacent divided areas accords with the text structure of the covered text content.

Preferably, when the adjustment directions judged by the position relation of the two adjacent divided areas are in conflict with the text structure of the single text block, the minimum displacement data is set as the displacement required by the complete display of the single text block;

according to the text editing information, the number of single text blocks in front of the data to be adjusted is obtained to obtain a text block set, and the word spacing of the text block set is counted to obtain maximum displaceable data;

comparing the minimum displacement data with the maximum displaceable data, and if the minimum displacement data is smaller than the maximum displaceable data, adjusting the word spacing of the text;

and if the minimum displacement data is larger than the maximum displacement data, scaling the data to be adjusted.

Preferably, according to the character block set and a preset scaling formula, sequentially scaling the character blocks in the character block set in equal proportion;

the scaling formula comprises a scaling formula and a scaling result formula, wherein the scaling formula is L=a1 (1-An)/1-A, the scaling result formula is an=a1-An-1, L is the adjustable total length, A is the scaling to be adjusted, a1 is the length of a single text block in An initial state, n is the number of the single text blocks before data to be adjusted, and An is the length of the next single text block; the scaling formula is used for calculating the scaling rate, and the scaling result is used for calculating the scaling result of each text block.

And acquiring initial position information of the text block set in the initial state of the text block set, and typesetting the scaled text block set again according to the initial position information.

Preferably, after the scaling processing, if there is a situation that other display data related to the data to be adjusted is covered by the fault area, judging a newly covered display data type;

if the newly covered display data is digital type data, judging the line spacing between the scaled character block set and the next line character block, and if the line spacing is larger than the font size of the digital type data, placing the shaded digital type data in the line spacing;

if the newly covered display data is text type data, dividing the text block set into two parts averagely to obtain a sub text block set, wherein the sub text block set comprises a first sub text block set and a second sub text block set, and the arrangement priority of the first sub text block set is higher than that of the second sub text block set;

scaling the first sub-text block set to obtain the length data of the last text block, and outputting the first scaled text data;

the first scaled text data is used as the length data of a single text block in the initial state of the second sub-text block set, and scaling processing opposite to the first sub-text block set is performed.

Preferably, if the coverage area of the fault area is larger than the area required by the single text in the horizontal direction and/or the vertical direction, acquiring surrounding display data of the data to be regulated, and extracting keywords from the data to be regulated and the surrounding display data; if the text content of the data to be regulated is consistent with that of the surrounding display data, not debugging;

if the text content of the data to be regulated is inconsistent with that of the surrounding display data, the extracted keywords are compared, and if the keywords are the same, the data to be debugged and the surrounding display data are structurally compared; the structural comparison is to perform semantic interpretation on the data to be adjusted and surrounding display data, and if the semantic interpretation results are the same, the structural comparison results are consistent;

if the structural comparison results are consistent, the text content in the data to be adjusted is simplified according to the surrounding display data, so that the data to be adjusted is normally displayed.

Preferably, when the displacement adjustment is performed, the text blocks in the same adjustment direction are grouped according to the adjustment direction to obtain a text block group, the text block group is integrally adjusted according to the displacement data, and after one adjustment, the text blocks in the next text block group are subjected to position readjustment until all the text blocks in the text block group are adjusted.

In a second aspect, the present application provides an instrument display content adjustment system, which adopts the following technical scheme:

an instrument display content adjustment system, comprising: the data storage module is used for storing the display content of the display screen;

the state detection module is used for detecting the position information and the state of the LED pole tube in the display screen and outputting detection signals;

the state judging module is configured to be in signal connection with the state detecting module and the data storage module and is used for receiving and analyzing the detection signals to judge the working state of the LED pole tube, if the LED pole tube fails, correspondingly reading the display content of the display screen according to the position information of the failed LED pole tube, and outputting failure area data and data to be regulated; the method comprises the steps of,

the data processing module is configured to be in signal connection with the state judging module and is used for receiving the fault area data and the data to be regulated, judging the display type of the data to be regulated so as to obtain a display type result, comparing and judging the display type result with the fault area to judge the coverage range of the fault area to the display type result, and carrying out fault debugging on the data to be regulated according to the coverage range.

Preferably, the text analysis unit is in signal connection with the state judgment module, and is used for receiving the data to be regulated and carrying out structural analysis on text content in the data to be regulated so as to obtain a text structural analysis result;

the data analysis unit is in signal connection with the state judgment module and is used for receiving the fault area data and the data to be regulated, judging the covered range of the fault area to single characters in the display content of the data to be regulated according to the fault area data, and obtaining the regulation direction and displacement data of the data to be regulated based on the covered range analysis;

the debugging priority judging unit is in signal connection with the text analysis unit and the data analysis unit and is used for receiving the text structure analysis result and the adjustment direction, comparing the priority of the text structure analysis result with the priority of the adjustment direction, outputting an executable signal if the adjustment direction is consistent with the priority of the text structure analysis result, and outputting a re-debugging signal to the data analysis unit for re-analysis if the adjustment direction is in conflict with the priority of the text structure analysis result;

The execution unit is in signal connection with the debugging priority judging unit and the data analyzing unit and is used for receiving the executable signal, the adjusting direction and the displacement data and adjusting the data to be adjusted according to the adjusting direction and the displacement data.

In summary, the present application includes at least one of the following beneficial technical effects:

judging the states of all the LED polar tubes contained in the display screen to determine whether the display screen has faults, fault positions and corresponding fault ranges of the faults, outputting fault areas, reading data to be regulated at the corresponding positions through the fault positions, judging the types of the data to be regulated, judging the coverage area of the data to be regulated by the fault areas if the data are text type data, not regulating if the data are less than half of a single text block area in the data to be regulated, otherwise, debugging and correcting the data to ensure that the coverage area is less than half of the single text area, and debugging the complete display if the data are digital type data; the incomplete Chinese characters can be accurately judged by utilizing subjective consciousness of people when the Chinese characters are used, so that the adjustment quantity required during adjustment is reduced, and further, the change of the typesetting of the characters is reduced, and the influence on a user is reduced;

By dividing a single text block, calculating the coverage direction and coverage area of a covered part, judging the combination of the minimum area sum and the corresponding divided area by calculating the sizes of the two adjacent coverage areas, comparing the two combined areas of the minimum area sum, selecting the maximum area data as the area to be calculated, calculating the area according to the side length data of the divided area to obtain the minimum displacement data, and judging the specific adjustment direction according to the position relationship between the two areas in the area combination data and the association between the combination adjustment direction and the position relationship. By acquiring single data, specific adjustment direction and minimum displacement data are judged, so that the data processing speed is increased, and the data redundancy is reduced;

comprehensively utilizing character structure characteristics of Chinese characters, combining the character structure with an adjusting direction, judging the character adjusting direction by judging the priority of the character structure and the adjusting direction, reducing the possibility of the condition that the adjusted character cannot be well distinguished because of the structural characteristics, judging the character adjusting direction again until no conflict occurs when the character structure and the adjusting direction are in conflict, and changing the size of the character by scaling the display contents of the data to be adjusted and the front of the data to be adjusted when all the adjusting directions are in conflict due to the particularity of the character structure, so that the data to be adjusted can be completely displayed, and meanwhile, scaling the character in a gradual scaling mode, so that the change of the character size is gradually reduced, and the visual impact to a user is reduced.

Drawings

FIG. 1 is a flow chart of steps of the method for debugging an instrument and meter according to the present embodiment;

FIG. 2 is a flowchart of the substeps of S500 in the method for debugging the instrument and meter according to the present embodiment;

FIG. 3 is a flowchart showing steps of debugging and correcting by combining character structure characteristics in the method for debugging instruments and meters according to the present embodiment;

FIG. 4 is a flowchart showing steps of the method for debugging the instrument and meter according to the present embodiment, wherein the steps are performed on new overlay display data after the scaling process;

FIG. 5 is a flowchart mainly showing steps of the method for debugging an instrument in the case that the coverage area exceeds a text block;

fig. 6 is a block diagram of a module mainly embodying the instrument debugging system of the present embodiment.

Reference numerals: 1. a data storage module; 2. a state detection module; 3. a state judgment module; 4. a data processing module; 41. a data analysis unit; 42. a character analysis unit; 43. a debug priority judging unit; 44. and an execution unit.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses an instrument display content adjusting system and method.

Examples: as shown in fig. 1, the method for adjusting display content of an instrument of the present invention includes:

S100, obtaining display information of a display screen; the display information comprises position information and state information of all LED polar tubes forming the display screen;

s200, when the display screen fails, determining a failure area according to display information; according to the reading of the display information, the working state of the LED pole tube in the display screen is determined, whether the LED pole tube fails or not is determined according to the working state information, and the failure area of the display screen failure is judged according to the position information of the failed LED pole tube.

S300, reading data to be regulated of a corresponding area based on a fault area, judging the type of the data to be regulated, and displaying data including text type data and digital type data; the fault area comprises the position of the fault area in the display screen and the coverage area of the fault area; and acquiring corresponding text contents covered by the faults, namely display data, according to the position information of the fault area, classifying the display data to determine the covered text contents, wherein different text contents correspond to different adjustment modes.

S400, judging the coverage areas of the text type data and the digital type data based on the fault area, and if the display data type is the text type and the coverage area of the fault area is less than half of the single text area in the data to be regulated, not debugging and correcting the data to be debugged; the single character area is an area required by a character when the character is displayed; the data to be regulated is display data covered by the fault area; if the text is of a text type, when the display fault of the language text occurs, the specific text content can still be accurately judged when a small part of the text is covered due to the use characteristics of the language text and the recognition degree of people on the text, and the modification and the debugging are not needed under the condition. Exemplary, e.g., the case of half of the display corresponding to "data" is The text content can be judged rapidly and accurately.

S500, if the coverage area of the fault area is larger than half of the single text area in the data to be regulated, debugging and correcting the position information of the data to be regulated corresponding to the fault area, so that the area of the single text area in the data to be regulated, covered by the fault area, is smaller than half of the area required by the single text; when the covered area of the text is larger than half of the text, people cannot effectively judge the specific text content of the covered text, so that adjustment is needed, and the minimum result of adjustment is that the people can judge the text content of the covered text through subjective consciousness, namely, the covered area is smaller than half of the required area of the single text.

And S600, if the display data type is a digital type, the integrity adjustment is carried out on the position information of the data to be adjusted, so that the covered digital type data can be completely and normally displayed. Wherein the number types include Arabic numerals 1, 2 and 3, english letters A, a, special symbols and the like. Such symbols, due to their uniqueness and specificity and importance in instrumentation applications, are not readily determinable by human subjective awareness and require an integrity display.

Referring to fig. 2, in step S500, the position information is subjected to debug correction, including the steps of:

s501, acquiring text editing information; the text editing information comprises font size, line spacing of text typesetting and word spacing; and determining a series of data related to text editing in the text editing information based on the text display effect built in the instrument display screen, wherein the font size can judge the area size required by displaying the characters in the display screen, further judge the length and width information of the characters, and the like.

S502, carrying out data packaging processing on the single text according to the text editing information to obtain a single text block; the single text block comprises an address data set of an LED polar tube for single text display and length and width data for single text display; through reading the address data of the LED polar tube, the specific display position of a single character on the display screen can be clarified, and meanwhile, the length and width data of the corresponding character can be judged according to the font size in the text editing signal.

S503, carrying out horizontal and vertical equal proportion division on a single text block in the data to be regulated to obtain four areas with the same size of 2 multiplied by 2, and outputting the divided areas; the single character block is divided into four blocks by the perpendicular bisectors and the horizontal lines, so that the side length and the area of each block of area are equal. Illustratively, four regions are divided into A, B, C, D, with AB being horizontally adjacent, with AC being vertically adjacent, with CD being horizontally adjacent in the first instance, and with AB being horizontally adjacent, with AC being vertically adjacent, with AB being horizontally adjacent in the second row.

S504, determining the covering position of the single text block according to the single text block and the fault area, and dividing the covering position according to the dividing areas to determine the covered area of each dividing area; and carrying out separate statistics on the shielded areas of the single text block to correspondingly obtain the shielded areas of each area.

S505, calculating the sum of the covered areas of the two adjacent divided areas, and screening the sum of the areas to screen out two adjacent divided areas with the smallest sum of the areas, and recording the two adjacent divided areas as area combination data; the sum of the areas AB, AC, CD, BD is calculated respectively, and the sum of the areas AB, AC, CD, BD is compared to determine that the minimum sum of the areas AB is the smallest, for example, the sum of the areas AB is the smallest, which indicates that the shielding range of the fault area to AB is the smallest, and the smaller the shielding range is, the smaller the distance between the shielding area and the middle line is, for example, the smaller the shielding range is, the part of the AB is shielded, the complete shielding of the CD area is, which indicates that the lower half part of the text is completely shielded, and the shielding of the AB is performed beyond the horizontal dividing line, so that only the shielded part of the AB is required to be removed below the horizontal dividing line, namely, the shielding range of the fault area to the AB area is moved below the horizontal dividing line by adjusting the position data of a single text block.

S506, reading and comparing the shielded areas corresponding to the two adjacent segmentation areas based on the area combination data, and selecting the shielded area with larger area as the segmentation area to be calculated; when the blocked areas exist in two adjacent divided areas, the method indicates that one side of at least one divided area is completely blocked and one side of the other divided area is partially blocked.

S507, carrying out area formula operation on the side length data of the dividing area and the dividing area to be calculated according to the dividing area to be calculated and the dividing area to obtain minimum displacement data; and converting the completely-shielded divided area according to the side length data of the divided area to obtain a shielding height of which one side is completely shielded, wherein the shielding height is the distance from the shielding area to the middle branching line.

S508, judging the adjustment direction of the data to be adjusted according to the position relation of two adjacent divided areas in the area combination data and the relevance of the position relation and the adjustment direction; the relevance is that the position relation is perpendicular to the adjusting direction; for example, if AB is a selected divided area, since AB is horizontally adjacent and located in the first row, the positional relationship is an upper horizontal relationship, and the adjustment direction corresponding to the upper horizontal relationship is an upper vertical direction.

S509, based on the minimum displacement data and the adjustment direction of the data to be adjusted, performing displacement adjustment on the data to be adjusted.

In this embodiment, the size and position of a single text block are determined by reading text editing data, then the single text is divided in the horizontal and vertical directions to obtain four areas with equal size, the side length data of the divided areas are determined according to the size of the single text block, and the blocked areas in the single text block are divided according to the divided areas to determine the area size of the blocked portion of each divided area. And counting the sum of areas of two adjacent divided areas, comparing the counted results to screen out two adjacent divided areas with the smallest sum of areas, namely area combination data, comparing the shielded areas of the two screened adjacent divided areas, selecting the shielded areas with large shielded areas as the area to be calculated, calculating to obtain minimum displacement data according to the area to be calculated and the side length data of the divided areas, judging to obtain specific moving directions according to the position relation of the two adjacent divided areas and the association of the adjusting directions, and finally debugging and correcting the data to be adjusted according to the minimum displacement data and the moving directions. Through dividing a single text block, the minimum displacement data of the data to be adjusted is obtained through more convenient calculation, meanwhile, the moving direction during the debugging is further judged according to the position relation of two adjacent dividing areas selected during the calculation of the minimum displacement data, the calculation of the debugging data is greatly quickened, and the debugging efficiency is improved.

Referring to fig. 3, in step S500, the position information is subjected to debug correction, and the method further includes the following steps: s511, reading the data to be adjusted to obtain corresponding covered text content, and performing structural judgment on the covered text content to judge the text structure of the covered text content; the text structure comprises a left-right structure and an up-down structure; because the adjustment data volume proposed in this embodiment is to judge and read the blocked characters with subjective consciousness, but because of the specificity of the Chinese character structure, when the blocked area collides with the structure of the characters, even if only half of the characters are blocked, the characters are still difficult to identify, and the exemplary half of the characters are "moon", and the Chinese characters containing the moon are fat, fat and the like, so that the Chinese characters need to be judged first when adjustment is performed.

S512, when judging the adjustment direction of the data to be adjusted, judging the priority of the position relation of two adjacent divided areas and the character structure of the covered character content in the data to be adjusted; the priority is judged to be higher than the position priority of the adjacent two divided areas; when the text structure of the text content in the data to be adjusted is consistent with the debug direction determined in step S508, it is determined that there is a conflict, and exemplary text structures of the text content in the data to be adjusted are left and right structures, and the debug direction determined in step S508 is also horizontal movement, so that there is a conflict between the two.

And S513, when the adjustment direction obtained by judging according to the position relation of the two adjacent divided areas conflicts with the text structure covering the text content, the two adjacent divided areas are selected again, and the sum of the two selected divided areas is the two adjacent areas with the second smallest area until the adjustment direction obtained by judging according to the position relation of the two adjacent divided areas accords with the text structure covering the text content.

In this embodiment, when the data to be adjusted is subjected to debugging displacement, due to the specificity of the structure of the Chinese character, the structure of the adjusted character is firstly determined to obtain the character structure of the content of the Chinese character in the data to be adjusted, then the character structure is subjected to conflict judgment with the adjusting direction determined in step S508, and if the conflict exists, the adjusting direction is reselected. By judging the text content in the data to be debugged according to the structural characteristics of the Chinese characters, the accuracy of the debugging effect is improved, and the debugging effect is enhanced.

Referring to fig. 3, in step S500, the position information is subjected to debug correction, and the method further includes the following steps:

s521 when passing through two adjacent divided regionsWhen the adjustment directions judged by the position relation are in conflict with the character structure of the single character block, setting the minimum displacement data as the displacement required by the complete display of the single character block; when special characters appear, the adjustment directions of the characters conflict with the character structures, and the Chinese character structures can appear on the left side and the right side of the field, and the Chinese character structures can appear up and down In the case, people cannot accurately judge specific contents through subjective consciousness, so that the characters need to be displayed completely.

S522, acquiring the number of single text blocks in front of the data to be regulated according to the text editing information to obtain a text block set, and counting the word spacing of the text block set to obtain maximum displaceable data; the number of character blocks before the data to be adjusted is calculated, the character spacing is arranged between every two character blocks, and the maximum displaceable data which can be obtained through the character spacing is judged and obtained through calculating the adjustable number of the character spacing.

S523, comparing the minimum displacement data with the maximum displaceable data, and if the minimum displacement data is smaller than the maximum displaceable data, adjusting the word spacing of the text; and determining whether the text content in the data to be regulated can be completely placed in the regulated word spacing by judging the size relation of the text size in the data to be regulated by the maximum displaceable data. When the data to be adjusted is displaced, the character blocks in the same adjusting direction are grouped through the adjusting direction to obtain a character block group, the character block group is integrally adjusted according to the displacement data, the next character block in the character block group is subjected to the same integral position adjustment until all the character blocks in the character block group are adjusted in place, displacement amount recalculation of the character blocks to be displaced after displacement is performed each time is reduced through grouping movement, and the calculation speed is accelerated.

And S524, if the minimum displacement data is larger than the maximum displaceable data, scaling the data to be adjusted. If the judgment result is that the text content cannot be completely put in, the text content is scaled in a scaling mode. The scaling processing is to sequentially scale the text blocks in the text block set in equal proportion according to the text block set and a preset scaling formula;

the scaling formula comprises a scaling formula and a scaling result formula, wherein the scaling formula is L=a1 (1-An)/1-A, the scaling result formula is an=a1×an-1, L is the adjustable total length, A is the scaling to be adjusted, a1 is the length of a single text block in An initial state, n is the number of the single text blocks before data to be adjusted, and An is the length of the next single text block; in the scaling formula, L, a and n are known data, scaling A is obtained through formula calculation, and scaling results of each text block in the text block set are obtained through calculation by substituting the obtained scaling A into a scaling result formula.

And acquiring initial position information of the text block set in the initial state of the text block set, and typesetting the scaled text block set again according to the initial position information. So that the text layout of the layout presents a top-aligned or centered alignment. And then gradually scaling each text block in equal proportion, so that the typesetting change effect is relaxed, the visual impact on a user is reduced, and the adjusted display effect is improved.

Referring to fig. 4, in step S524, the scaling process is performed on the adjustment data, including the steps of:

s5241, after scaling processing, judging the type of the newly covered display data if other display data related to the data to be adjusted are covered by the fault area; that is, after the adjustment is performed through the above steps, the text content located after the text content of the data to be adjusted is blocked due to the movement of the previous text content after the original text content of the data to be adjusted is displayed normally, so that the newly covered text content needs to be judged.

S5242, judging the line spacing between the scaled text block set and the next line text block if the newly covered display data is digital type data, and placing the newly covered digital type data in the line spacing if the line spacing is larger than the font size of the digital type data; if the digital data is digital data, the digital data is required to be displayed completely due to the specificity and importance of the digital data, whether the digital data can be placed in the line space for display is judged according to the font size of the digital data, if so, the digital data is placed, and if not, the scaling of the text content in the data to be debugged is readjusted. And typesetting is performed after the text content in the data to be regulated is scaled, and if the typesetting mode is top alignment or middle alignment, the line spacing between the position close to the fault area and the next line of text is increased, so that the digital type data can be placed in the line spacing.

S5243, if the newly covered display data is text type data, dividing the text block set into two parts averagely to obtain a sub text block set, wherein the sub text block set comprises a first sub text block set and a second sub text block set, and the arrangement priority of the first sub text block set is higher than that of the second sub text block set; if the newly covered display data is text type data, the text block set is divided into two parts, so that the process of changing the typeset text from large to small to large is smoother when the scaling processing is carried out, and the visual impact is reduced.

S5244, scaling the first sub-text block set to obtain the length data of the last text block, and outputting the first scaled text data; for example, when the first sub-text block set is reduced, the text blocks of the first sub-text block set are arranged in the order from large to small, and the last text block is the smallest text block.

S5245, the first scaled text data is used as the length data of the single text block in the initial state of the second sub-text block set, and the scaling process is performed in reverse to the first sub-text block set. If the character block set is changed from big to small and then from small to big, the data of the last character block of the first sub-character block set is required to be used as the data of the first character block of the second sub-character block set in the initial state, and the second sub-character block set is amplified, so that the display effect of the last character block of the second sub-character block set and the display effect of the new coverage are in a subjective consciousness recognition state, namely, the covered area is lower than half of the area required by the character blocks.

In this embodiment, by dividing the text blocks included in the text block set into two parts on average, scaling the first sub-text block set to make the text blocks in the first sub-text block set present a gentle transition form, reducing visual impact, and simultaneously taking the data information of the last text block in the first sub-text block set as the data information of the initial text block in the second sub-text block set, scaling the data of the text blocks included in the first sub-text block set inversely to the first sub-text block set, or inversely reading the data of the text blocks included in the first sub-text block set, and sequentially matching the data of the text blocks with the text blocks in the second sub-text block set, the changing trend of the text block set can be a process from large to small to large, so that the area of the newly covered text type data in the fault area is reduced, i.e. the last text block in the text block set is displaced in the scaling process, but the displacement amount is small, or newly enlarged the newly covered text type data is reduced, so that the covered area of the newly covered text type data is reduced.

Referring to fig. 5, in step S500, if the coverage area of the fault area is greater than half of the single text area in the data to be adjusted, the position information of the data to be debugged corresponding to the fault area is debugged and corrected, so that the area of the single text area in the data to be adjusted covered by the fault area is less than half of the area required by the single text, including the following steps:

S531, if the coverage area of the fault area is larger than the area required by the single text in the horizontal direction and/or the vertical direction, acquiring surrounding display data of the data to be regulated, and extracting keywords from the data to be regulated and the surrounding display data; illustratively, the original text: the x-axis data for AAA is: 1234, the occluded result is: the x-axis data for XXX are: 1234. the extraction of the keywords is AAA and x-axis data, and the keywords of surrounding display data are also extracted. Where XXX is an occluded part.

S532, if the data to be regulated is consistent with the text content of the surrounding display data, not debugging; the display data of the same block area is exemplified by: original text:

the x-axis data for AAA is: 1234; the y-axis data for AAA is: 1234;

the x-axis data for the BBB are: 1234; the y-axis data for the BBB are: 1234;

the result after shielding is:

the x-axis data for XXX are: 1234; the y-axis data for AAA is: 1234;

the x-axis data for the BBB are: 1234; the y-axis data for the BBB are: 1234;

and if the result obtained by analysis is that the blocked part XXX can be judged to be AAA, debugging is not performed.

S533, if the text contents of the data to be regulated and the surrounding display data are inconsistent, comparing the extracted keywords, and if the keywords are identical, structurally comparing the data to be regulated and the surrounding display data; the structural comparison is to perform semantic interpretation on the data to be adjusted and surrounding display data, and if the semantic interpretation results are the same, the structural comparison results are consistent; illustratively, the result after occlusion is:

The x-axis data for AAA is: 1234; XXX for AAA is: 1234; wherein XXX is occluded.

The x-axis data for the BBB are: 1234; the y-axis data for the BBB are: 1234;

the corresponding extracted keywords are as follows: AAA, x-axis data; AAA, y-axis data; BBB, x-axis data; BBB, y-axis data; comparing the keywords with x-axis data and y-axis data corresponding to AAA (authentication, authorization and accounting); the BBB is provided with x-axis data and y-axis data corresponding to each other, namely, if the keyword types are judged to be the same, the structural characteristics of the keywords are further determined.

And S534, if the structural comparison results are consistent, simplifying the text content in the data to be regulated according to the surrounding display data, so that the data to be regulated is normally displayed. Illustratively, the N data structured as NNN at the time of data display is: NNN, so when x-axis data is blocked, it is determined that the up-down text display structure is consistent, and then the following is performed: the x-axis data for AAA is: 1234; y-axis data XXX is: 1234. the influence of instrument faults on the use of the instrument is reduced. Wherein NNN is a structural feature and XXX is a blocked portion.

Based on the description of the embodiment of the instrument debugging method, the embodiment of the invention also discloses an instrument display content adjusting system:

As shown in fig. 6, an instrument display content adjustment system includes: a data storage module 1, a state detection module 2, a state judgment module 3 and a data processing module 4.

The data storage module 1 is used for receiving and storing the content to be displayed of the display screen.

The state detection module 2 is used for monitoring the position information and the state information of all the LED polar tubes contained in the display screen and outputting corresponding detection signals.

The state judging module 3 is in signal connection with the data storage module 1 and the state detecting module 2, and is used for receiving the detection signal, analyzing the detection signal to judge the working state of the LED pole tube, reading the position information of the LED pole tube with faults, reading the display content of the area through the read position information, and outputting the fault area data and the data to be regulated.

The data processing module 4 includes a data analysis unit 41, a text analysis unit 42, a debug priority judgment unit 43, and an execution unit 44.

The data analysis unit 41 is in signal connection with the state judgment module 3, and is configured to receive the fault area data and the data to be regulated, judge the coverage of a single text in the data to be regulated according to the fault area data, obtain a coverage result, and analyze and calculate according to the coverage result to obtain the regulation direction and displacement data of the data to be regulated.

The text analysis unit 42 is in signal connection with the state judgment module 3, and is configured to receive the data to be adjusted and perform text structure analysis on text content of the data content to be adjusted, so as to obtain a text structure analysis result.

The debug priority judging unit 43 is in signal connection with the data analyzing unit 41 and the text analyzing unit 42, and is configured to receive the adjustment direction and the text structure analysis result, perform priority comparison to determine whether the adjustment direction and the text structure analysis result have conflict, output an executable signal to the executing unit 44 if the priority result is consistent, adjust the data to be adjusted, and output a debug signal to the data analyzing unit 41 for re-analysis and re-judgment if the priority result is inconsistent.

Compared with the existing construction project informatization management method and system, the project management efficiency is improved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims

1. An instrument display content adjusting method, characterized by comprising the following steps:

The position information is subjected to debugging and correction, and specifically comprises the following steps:

acquiring text editing information; the text editing information comprises font size, line spacing of text typesetting and word spacing;

based on the minimum displacement data and the adjustment direction of the data to be adjusted, carrying out displacement adjustment on the data to be adjusted;

2. The method for adjusting display content of an instrument according to claim 1, wherein: the position information is subjected to debugging correction, and the method further comprises the following steps:

reading data to be regulated to obtain corresponding covered text contents, and performing structural judgment on the covered text contents to judge the text structure of the covered text contents; the character structure comprises a left-right structure and an up-down structure;

3. The method for adjusting display content of an instrument according to claim 2, wherein: the position information is subjected to debugging correction, and the method further comprises the following steps:

when the adjusting directions judged by the position relation of the two adjacent divided areas are in conflict with the character structure of the single character block, setting the minimum displacement data as the displacement required by the complete display of the single character block;

4. A method for adjusting display content of an instrument according to claim 3, wherein: the scaling process includes:

sequentially scaling the text blocks in the text block set in equal proportion according to the text block set and a preset scaling formula;

the scaling formula comprises a scaling formula and a scaling result formula, wherein the scaling formula is L=a1 (1-An)/1-A, the scaling result formula is an=a1-An-1, L is the adjustable total length, A is the scaling to be adjusted, a1 is the length of a single text block in An initial state, n is the number of the single text blocks before data to be adjusted, and An is the length of the next single text block; the scaling formula is used for calculating the scaling of the text blocks, and the scaling result formula is used for calculating the scaling result of each text block;

5. The method for adjusting display content of an instrument according to claim 4, wherein: further comprises:

After the scaling processing is carried out, if other display data related to the data to be adjusted are covered by the fault area, judging the type of the newly covered display data;

6. The method for adjusting display content of an instrument according to claim 1, wherein: and if the coverage area of the fault area is larger than half of a single text area in the data to be regulated, debugging and correcting the position information of the data to be debugged corresponding to the fault area, so that the covered area is smaller than half of the single text area, wherein the method specifically comprises the following steps:

If the coverage area of the fault area is larger than the area required by the single text in the horizontal direction and/or the vertical direction, acquiring surrounding display data of the data to be regulated, and extracting keywords from the data to be regulated and the surrounding display data;

if the text content of the data to be regulated is consistent with that of the surrounding display data, not debugging;

7. The method for adjusting display content of an instrument according to claim 1, wherein: when the displacement adjustment is carried out, the character blocks in the same adjustment direction are grouped according to the adjustment direction, so that a character block group is obtained, the character block group is integrally adjusted according to displacement data, and after one-time adjustment, the position of the character block in the next character block group is readjusted until all the character blocks in the character block group are adjusted.

8. An instrument display content adjustment system, applied to the method of any one of claims 1 to 7, comprising:

the data storage module (1) is used for storing the display content of the display screen;

the state detection module (2) is used for detecting the position information and the state of the LED pole tube in the display screen and outputting detection signals;

the state judging module (3) is configured to be in signal connection with the state detecting module (2) and the data storage module (1) and is used for receiving and analyzing the detection signals to judge the working state of the LED pole tube, if the LED pole tube fails, correspondingly reading the display content of the display screen according to the position information of the failed LED pole tube, and outputting failure area data and data to be regulated; the method comprises the steps of,

the data processing module (4) is configured to be in signal connection with the state judging module (3) and is used for receiving the fault area data and the data to be regulated, judging the display type of the data to be regulated so as to obtain a display type result, comparing and judging the display type result with the fault area to judge the coverage range of the fault area to the display type result, and carrying out fault debugging on the data to be regulated according to the coverage range.

9. The instrument display content adjustment system according to claim 8, wherein: the data processing module (4) comprises a text analysis unit (42), a data analysis unit (41), a debugging priority judging unit (43) and an executing unit (44);

the text analysis unit (42) is in signal connection with the state judgment module (3) and is used for receiving the data to be regulated and carrying out structural analysis on text content in the data to be regulated so as to obtain a text structural analysis result;

the data analysis unit (41) is in signal connection with the state judgment module (3) and is used for receiving the fault area data and the data to be regulated, judging the covered range of the fault area to single characters in the display content of the data to be regulated according to the fault area data, and obtaining the regulating direction and displacement data of the data to be regulated based on the covered range analysis;

the debugging priority judging unit (43) is in signal connection with the text analysis unit (42) and the data analysis unit (41) and is used for receiving the text structure analysis result and the adjustment direction, comparing the text structure analysis result with the adjustment direction in priority, outputting an executable signal if the adjustment direction is consistent with the priority result of the text structure analysis result, and outputting a re-debugging signal to the data analysis unit (41) for re-analysis if the adjustment direction is in conflict with the priority result of the text structure analysis result;

The execution unit (44) is in signal connection with the debugging priority judging unit (43) and the data analyzing unit (41) and is used for receiving the executable signal, the adjusting direction and the displacement data and adjusting the data to be adjusted according to the adjusting direction and the displacement data.