CN111177305A - Method, system, device and storage medium for time segment selection - Google Patents

Abstract

The invention discloses a method, a system, a device and a storage medium for selecting time segments, wherein the method comprises the following steps: creating a time period selection area, wherein the time period selection area comprises a plurality of time lattices, and each time lattice is provided with an index; selecting time grids in batches, and displaying the time grids selected in batches in a preset display mode; summarizing and displaying time periods corresponding to the batch selected time grids; and setting the time period corresponding to the time grid selected in the batch to be continuously displayed within a period. The method and the device display the batch selected time lattices in a preset display mode, and summarize and display the time periods corresponding to the batch selected time lattices, and have the characteristics of simple operation, intuition and clarity; the time period of the time grid selected in batches is continuously displayed within a period, repeated selection operation on the time period selection area is not needed for many times, and the method has the characteristics of convenience and high efficiency. The invention can be widely applied to the technical field of data processing.

Description

Method, system, device and storage medium for time segment selection

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to a method, a system, an apparatus, and a storage medium for time segment selection.

Background

The conventional time period selector selects a time period by determining two time points, and when the time period selector selects a single time period, the operation is simple, but when a plurality of time periods are selected, the two time points corresponding to the time periods need to be selected for many times, so that the operation is complicated, and the user is not aware of the time points and can easily select wrong time points, so that the finally selected time period is wrong. In addition, the existing time period selector can only display a plurality of selected time periods once, and when the same time period needs to be used again, the user needs to select the time period again, which is not complicated.

Disclosure of Invention

To solve the above technical problems, the present invention aims to: a method, system, apparatus, and storage medium for time segment selection are provided.

The technical scheme adopted by the invention on one hand is as follows:

a method of time segment selection comprising the steps of:

creating a time period selection area, wherein the time period selection area comprises a plurality of time lattices, and each time lattice is provided with an index;

selecting time grids in batches, and displaying the time grids selected in batches in a preset display mode;

summarizing and displaying time periods corresponding to the batch selected time grids;

and setting the time period corresponding to the time grid selected in the batch to be continuously displayed within a period.

The technical scheme adopted by the other aspect of the invention is as follows:

a time segment selection system comprising:

the time grid module is used for creating a time interval selection area, the time interval selection area comprises a plurality of time grids, and each time grid is provided with an index;

the batch selection module is used for selecting time lattices in batches and displaying the time lattices selected in batches in a preset display mode;

the summarizing display module is used for summarizing and displaying the time periods corresponding to the batch selected time grids;

and the continuous display module is used for setting the time period corresponding to the batch selected time grid to be continuously displayed within a period.

The technical scheme adopted by the other aspect of the invention is as follows:

a time segment selection apparatus comprising:

at least one processor;

at least one memory for storing at least one program;

when executed by at least one processor, cause the at least one processor to implement the method for time segment selection.

The technical scheme adopted by the other aspect of the invention is as follows:

a storage medium having stored therein executable instructions, which when executed by a processor, perform the method of time segment selection.

The invention has the beneficial effects that: according to the time section selection method, the time lattices in the time section selection area are selected in batches, the time lattices selected in batches are displayed in a preset display mode, and the time sections corresponding to the time lattices selected in batches are displayed below the time section selection area in a gathering mode, so that the time section selection method has the characteristics of simplicity in operation, intuition and clarity, and is easy for a user to manage time; and the time period corresponding to the time lattices selected in batches is continuously displayed within a period, so that repeated selection operation on the time period selection area is not needed for many times, and the method has the characteristics of convenience and high efficiency.

Drawings

FIG. 1 is a flow chart of method steps for time segment selection in accordance with an embodiment of the present invention;

FIG. 2 is a schematic view of an operation interface according to an embodiment of the present invention;

FIG. 3 is a block diagram of a time segment selection system in accordance with an embodiment of the present invention;

fig. 4 is a block diagram of a time slice selection apparatus according to an embodiment of the present invention.

Detailed Description

The conception, the specific structure and the technical effects of the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the schemes and the effects of the present invention.

As shown in fig. 1, an embodiment of the present invention provides a method for selecting a time segment, including the following steps:

s101, creating a time interval selection area, wherein the time interval selection area comprises a plurality of time lattices, and each time lattice is provided with an index;

specifically, as shown in fig. 2, the time interval selection area is a matrix diagram with M rows and N columns, in this embodiment, M is 7, N is 48, 7 rows are seven days from monday to sunday, N columns are N time intervals per day, and the duration of each time interval is equal to

The hours. In actual use, the values of M and N can be determined according to the use habits of users. The period selection region includes M × N (7 × 48) time cells, each time cell representing a certain time period of a certain day.

And creating an index for each time grid, wherein the indexes correspond to the time grids one by one. And an index is created for the time grid, so that the time grid is convenient to manage. The numerical type of the index is a character string type, the index value corresponding to the first time grid of the time period selection area is 0, the index value corresponding to the second time grid is 1 … …, and the like, and the index value corresponding to the last time grid is 335.

S102, selecting time lattices in batches, and displaying the time lattices selected in batches in a preset display mode;

specifically, when the traditional time selector selects the time period, two time points of the time period need to be selected, the time grid required can be randomly selected in the time period selection area, and the selected time grid can be displayed in a preset display mode, wherein the preset display mode can be a preset display mode such as a pattern, a striking color and the like, and the display mode can be used for distinguishing the selected time grid from unselected time grids. In this embodiment, the selected time slots are set as the eye-catching colors, the unselected time slots are white, the eye-catching colors may be red, yellow, blue, and the like, and any color that can be distinguished from white may be the eye-catching color. As shown in fig. 2, in the present embodiment, the selected time grid is displayed in blue, and the unselected time grid is displayed in white.

S103, summarizing and displaying time periods corresponding to the batch selected time grids;

specifically, as shown in fig. 2, in addition to displaying the selected time grid in a preset manner, the time periods corresponding to the batch-selected time grids are also displayed below the time period selection area in a summary manner, so that the user can intuitively and clearly know which time periods are selected in each day, and the user can conveniently and reasonably arrange the time of the user.

And S104, setting a time period corresponding to the batch selected time grid to be continuously displayed within a period.

Specifically, the time periods corresponding to the batch selected time grids are continuously displayed within a period, so that the selected time periods can be repeatedly used within a certain period, and the trouble of repeatedly selecting the time periods is avoided.

Further as a preferred embodiment, the method further comprises the following steps:

and S105, displaying a time period corresponding to any time grid.

Specifically, any time grid corresponds to a time period, and the time period corresponding to any time grid is displayed, so that a user can conveniently judge whether to select the time grid. As shown in FIG. 2, the time grid of the twelfth column of the fifth row of the time period selection area corresponds to the time period of "Friday 05.30 ~ 06.00", and the user is facilitated to make a decision whether to select the time grid by displaying the corresponding time period on the upper side of the time grid.

Further preferably, the step of displaying the time period S105 corresponding to any time grid includes the steps of:

s1051, determining the week coordinate and the time coordinate of any time grid according to the index;

and S1052, obtaining a time period display corresponding to any time grid according to the week coordinate and the time coordinate.

Specifically, a week array is created, and the array format of the week array is: [ "Monday", "Tuesday" … … Sunday "]; creating a time text array, wherein the array format of the time text array is as follows: [ "00.00", "00.30" … … "24.00" ]. The numerical type of the index is a character string type, and when the index value is used for calculating the week coordinate and the time coordinate of the time grid, the index type needs to be converted from the character string type to the numerical type. Taking the time period of 'friday 05.30-06.00' as an example, the index value of the time grid is 203, obtaining a remainder of 11 by complementing the index value N (in this embodiment, N is 48), wherein 11 is the time coordinate x corresponding to the current time grid, the quotient obtained by dividing the index value by N is 4, 4 is the week coordinate y of the current time grid, determining the numerical value of the x-th array element in the time text array and the numerical value of the y-th array element in the week array according to the obtained time coordinate x and the week coordinate y, wherein the numerical values are '05.30' and 'Friday', and simultaneously obtaining the numerical value of the (x +1) -th array element in the time text array, namely 06.00, splicing 05.30 and 06.00 to obtain 05.30-06.00, and displaying 05.30-06.00 and friday above the time grid together as shown in figure 2.

Further as a preferred embodiment, the step of selecting the time grid in batch and displaying the time grid selected in batch S102 in a preset display manner includes the following steps:

s1021, determining a starting time grid and an ending time grid;

s1022, determining a first week coordinate and a first time coordinate of the start time grid and a second week coordinate and a second time coordinate of the end time grid;

s1023, determining a selection area according to the start time grid and the end time grid;

s1024, determining indexes of all time grids in the selection area according to the first week coordinate, the first time coordinate, the second week coordinate and the second time coordinate;

s1025, creating a display array, and binding the display array with the time period selection area;

s1026, assigning values to the display array according to indexes of all time grids in the selection area;

s1027, obtaining a time lattice corresponding to the array element with the array element value as a preset value, and displaying the obtained time lattice by adopting a preset display mode, wherein the array element is an element for displaying the array.

Specifically, when the time grid is selected in batch, a selection area is usually determined according to two time grids, the selection area is usually a rectangular area, the time grid at the upper left corner of the rectangular area is a start time grid, and the time grid at the lower right corner of the rectangular area is an end time grid.

The day coordinate (first day coordinate Y) of the start time grid is obtained in accordance with the method of step S105₁) And a time coordinate (first time coordinate X)₁) And the week coordinate of the end time grid (second week coordinate Y)₂) And a time coordinate (second time coordinate X)₂). According to a first time coordinate X₁First week coordinate Y₁And the second week coordinate Y₂And time coordinate X₂In ensuring X₁≤X₁And Y is₁≤Y₂In the case of (2), the rectangular region is calculated by double-loopAll time grids correspond to the index value. The double-cycle calculation means that the first time coordinate X is used₁And a second time coordinate X₂As an outer-layer loop judgment condition, with the first week coordinate Y1 and the second week coordinate Y2 as inner-layer loop judgment conditions, an index value formula whose main body is a calculation time grid is executed, that is: z is the index value of the time grid located in the selection area, X and Y are the time coordinate and week coordinate of the time grid located in the selection area, and X is X + Y48₁≤X≤X₂，Y₁≤Y≤Y₂。

The index values of all time grids in the rectangular area are calculated by using double circulation, and then a display array is created, wherein the array length of the display array is the size of the number of the time grids in the time period selection area, namely the array length is 336. The display array may be bound together with the slot selection region using the bi-directional binding method of vue, and the principle of the bi-directional binding implementation of vue may be described as: when the data changes, the corresponding view is updated; when the view is updated, the data will also change. In this embodiment, if the value of the array element in the display array corresponding to the index is 0, the value of the array element is assigned to 1, and if the value of the array element is 1, the value of the array element is assigned to 0. And if the preset value is set to 1, displaying the time grid corresponding to the array element with the value of 1 in a preset mode. It should be noted that the values of the array elements in the display array are not limited to 0 and 1, and may be selected as the values of the array elements by using-a and a or using a and b instead of 0 and 1. The preset values will also vary depending on the choice of values of the elements of the array.

Because the display array and the time period selection area are bound, when the value of the array element in the display array is judged to be the preset value, the time lattice corresponding to the array element with the value of the array element as the preset value can be obtained, and the time lattice corresponding to the array element is displayed in a preset display mode.

Further as a preferred embodiment, the step of collectively displaying the time periods S103 corresponding to the time grids selected in the batch includes the steps of:

s1031, splitting the assigned display array into a plurality of display sub-arrays;

s1032, judging each display sub-array, and determining a plurality of array elements of which the values of the array elements in the display sub-array are continuously preset values;

s1033, determining a start array element and an end array element in the array elements, and determining a start index and an end index according to the start array element and the end array element;

s1034, determining an initial time point and an end time point in the time text array according to the start index and the end index, and splicing the initial time point and the end time point to obtain a splicing time period;

and S1035, displaying the week and the splicing time period corresponding to the display sub-array below the time period selection area.

Specifically, the display array is divided into a plurality of display sub-arrays, the number of the display sub-arrays is determined by M, in this embodiment, M is 7, that is, it corresponds to monday to sunday. And judging each display subarray to obtain a plurality of array elements of which the values are continuously preset values, and determining a start array element and an end array element in the plurality of array elements, wherein the start array element and the end array element refer to the array elements with the minimum subscript and the maximum subscript of the array elements in the plurality of array elements. And determining the starting array element and the ending array element, correspondingly determining a starting index and an ending index, determining a starting time point and an ending time point in the time text array according to the starting index and the ending index, and splicing the starting time point and the ending time point to obtain a splicing time period. And judging the remaining array elements in the display sub-array according to the same method, and finally displaying all the spliced time periods and the corresponding weeks together below the time period selection area.

Further as a preferred embodiment, the step of setting a time period corresponding to the batch-selected time grid to continuously display S104 within a period of time specifically includes:

s1041, determining a starting date and an ending date;

and S1042, when the current date is detected to be between the starting date and the ending date, summarizing and displaying the time period corresponding to the batch selected time grid, otherwise, stopping summarizing and displaying the time period corresponding to the batch selected time grid.

Specifically, the start date and the end date are determined, and the display duration of the time period corresponding to the time grid for displaying the batch selection in a summary manner may be determined. When the current date is judged to be between the start date and the end date, the step S103 is executed to continuously display the time period corresponding to the time grid selected in the batch in a summary manner within the period determined by the start date and the end date; when the current date is detected not to be within the period, the time period corresponding to the time grid for summarizing and displaying the batch selection is not displayed.

To further enhance the understanding of the present invention, taking time management of advertisement placement as an example, it is specified in which time periods advertisements can be placed and in which time periods advertisements are prohibited to be placed, a start date and an end date of advertisement placement are generally determined, and advertisement placement is performed according to the selected time periods automatically in a loop during the time period between the start date and the end date. It should be noted that the foregoing examples are only for the purpose of enhancing understanding of the present invention, and the present invention can be widely applied to the technical field of data processing, and is not limited to the foregoing examples.

As shown in fig. 3, an embodiment of the present invention further provides a time slice selecting system, including:

a time grid module 201, configured to create a time interval selection area, where the time interval selection area includes a plurality of time grids, and each time grid has an index;

the batch selection module 202 is used for selecting time grids in batches and setting the time grids selected in batches to be eye-catching colors;

a summarizing and displaying module 303, configured to summarize and display a time period corresponding to the batch-selected time grid;

and a continuous display module 204, configured to set a time period corresponding to the batch selected time grid to be continuously displayed within a period.

Further as a preferred embodiment, the system further includes a time period display module 205, where the time period display module is configured to display a time period corresponding to any time grid.

The contents in the above method embodiments are all applicable to the present system embodiment, the functions specifically implemented by the present system embodiment are the same as those in the above method embodiment, and the beneficial effects achieved by the present system embodiment are also the same as those achieved by the above method embodiment.

As shown in fig. 4, an embodiment of the present invention further provides a time segment selecting apparatus, including:

at least one processor 301;

at least one memory 302 for storing at least one program;

when executed by at least one processor 301, causes the at least one processor 301 to implement a method of time segment selection as described.

The contents in the above method embodiments are all applicable to the present apparatus embodiment, the functions specifically implemented by the present apparatus embodiment are the same as those in the above method embodiments, and the advantageous effects achieved by the present apparatus embodiment are also the same as those achieved by the above method embodiments.

Furthermore, a storage medium is provided in which processor-executable instructions are stored, which when executed by a processor are configured to perform the method of time segment selection.

The step numbers in the above method embodiments are set for convenience of illustration only, the order between the steps is not limited at all, and the execution order of each step in the embodiments can be adapted according to the understanding of those skilled in the art.

While the preferred embodiments of the present invention have been illustrated and described, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A method of time segment selection, comprising the steps of:

creating a time period selection area, wherein the time period selection area comprises a plurality of time lattices, and each time lattice is provided with an index;

selecting time grids in batches, and displaying the time grids selected in batches in a preset display mode;

summarizing and displaying time periods corresponding to the batch selected time grids;

and setting the time period corresponding to the time grid selected in the batch to be continuously displayed within a period.

2. The method of claim 1, further comprising the steps of:

and displaying the time period corresponding to any time grid.

3. The method of claim 2, wherein the step of displaying the time period corresponding to any time grid comprises the steps of:

determining the week coordinate and the time coordinate of any time grid according to the index;

and obtaining the time period display corresponding to any time grid according to the week coordinate and the time coordinate.

4. The method of claim 1, wherein the step of selecting time slots in batches and displaying the selected time slots in batches in a predetermined display mode comprises the steps of:

determining a start time grid and an end time grid;

determining a first week coordinate and a first time coordinate of a start time grid and a second week coordinate and a second time coordinate of an end time grid;

determining a selection area according to the start time grid and the end time grid;

determining indexes of all time grids positioned in the selection area according to the first week coordinate, the first time coordinate, the second week coordinate and the second time coordinate;

creating a display array, and binding the display array with the time period selection area;

assigning values to the display array according to the indexes of all the time grids in the selection area;

and acquiring a time lattice corresponding to the array element with the array element value as a preset value, and displaying the acquired time lattice in a preset display mode, wherein the array element is an element for displaying the array.

5. The method of claim 4, wherein the step of summarizing and displaying the time periods corresponding to the time grid selected in the batch comprises the steps of:

splitting the assigned display array into seven display sub-arrays;

judging each display sub-array, and determining a plurality of array elements of which the values of the array elements in the display sub-array are continuously preset values;

determining a start array element and an end array element in the plurality of array elements, and determining a start index and an end index according to the start array element and the end array element;

determining an initial time point and an end time point in the time text array according to the start index and the end index, and splicing the initial time point and the end time point to obtain a splicing time period;

and displaying the week and the splicing time period corresponding to the display sub-array below the time period selection area.

6. The method for selecting time segments according to claim 5, wherein the step of setting the time period corresponding to the time grid of the batch selection to be displayed continuously within a period of time comprises the steps of:

determining a start date and an end date;

and if the current date is detected to be between the starting date and the ending date, summarizing and displaying the time period corresponding to the batch selected time grids, otherwise, stopping summarizing and displaying the time period corresponding to the batch selected time grids.

7. A time segment selection system, comprising:

the time grid module is used for creating a time interval selection area, the time interval selection area comprises a plurality of time grids, and each time grid is provided with an index;

the batch selection module is used for selecting time lattices in batches and displaying the time lattices selected in batches in a preset display mode;

the summarizing display module is used for summarizing and displaying the time periods corresponding to the batch selected time grids;

and the continuous display module is used for setting the time period corresponding to the batch selected time grid to be continuously displayed within a period.

8. The system for time segment selection according to claim 7, further comprising a time segment display module,

the time period display module is used for displaying a time period corresponding to any time grid.

9. A time slice selection apparatus, comprising:

at least one processor;

at least one memory for storing at least one program;

when executed by at least one processor, cause the at least one processor to implement a method of time segment selection as claimed in any one of claims 1 to 6.

10. A storage medium having stored therein executable instructions, wherein the processor executable instructions, when executed by a processor, are for performing a method of time segment selection as claimed in any one of claims 1 to 6.

Images