CN105068790A - Arbitrary time data recording method and system - Google Patents

Abstract

The present invention relates to an arbitrary time data recording method and system. The recording method includes the following steps : obtaining an onset time, a failure time and recording participation information corresponding to each time unit, wherein the time unit includes year, month, day, hour, minute, second and week; generating a time mask according to the recording participation information; obtaining adhesion information of each time unit, and generating an onset time parameter and a failure time parameter corresponding to each time unit according to the adhesion information, the onset time and the failure time; writing and storing the onset time parameter and failure time parameter corresponding to each time unit, and the time mask to a time recording document. The method of the present invention records time data by a fixed time format to realize the standard and unification of statement, setting and operation of the arbitrary time data in all kinds of different service environments, so that the system resource occupancy rate is decreased, and the system operation efficiency is improved.

Description

The recording method of random time segment data and system

Technical field

The present invention relates to data processing technique, particularly relate to a kind of recording method and system of random time segment data.

Background technology

In the middle of routine work and life, the concept of various associated time section can be run into, generally have following several:

(1) continuous time section: as from Dec 15,17: 56 18 o'clock on the 13rd 56 minutes to 2013 Dec in 2013.

(2) repetition time section: as 7 o'clock to 19 o'clock of every day; Or monthly 1 day to 10.

(3) repetition time section is limited: if the annual January from 2000 to 2014 is to March; Or 8 of per week one to Friday: 30 to 22: 30.

In the digital information epoch, these can time period of sake of clarity by word or figure, if want to store from the angle of data, goes back the time format that neither one is unified so far.

Now, the time period storage means of usual employing uses a certain time format to store to the time period of each mode, and along with service condition becomes increasingly complex, for storage time, the time format of section also gets more and more, calculate and also become increasingly complex, some producers adopt limited several time format sections storage time for this reason, then by increasing memory capacity and adapting to real changeable requirement by exhaustive mode.A such as digital mobile terminal, when carrying out quarter-bell setting or daily record reminds, needs to arrange three data storage areas, with the setting of the corresponding three kinds of time formats of difference.And on the equipment that some needs more complicated timi requirement, then need more region to carry out time quantum data corresponding to Storage and Processing.But the drawback that these above operations and processing mode are brought be system resource take the reduction with operational efficiency in a large number.

Summary of the invention

Based on this, for solving problems of the prior art, the invention provides a kind of recording method and system of random time segment data, to reduce the occupancy of system resource, improving running efficiency of system.

For achieving the above object, following technical scheme is adopted in the embodiment of the present invention:

A recording method for random time segment data, comprises the steps:

Obtain onset time corresponding to each time quantum, out-of-service time and record participation information, described time quantum comprise the time, the moon, day, time, minute, second, week;

According to described record participation information rise time mask;

Obtain the adhesion information of each time quantum, and generate onset time parameter and out-of-service time parameter corresponding to each time quantum according to described adhesion information, described onset time and described out-of-service time;

Onset time parameter corresponding for each time quantum, out-of-service time parameter and time mask write time segment record document are stored.

And a kind of register system of random time segment data, comprising:

Acquisition module, for the adhesion information obtaining onset time corresponding to each time quantum, out-of-service time, record participate in information and each time quantum, described time quantum comprise the time, the moon, day, time, minute, second, week;

Computing module, for according to described record participation information rise time mask, and generates onset time parameter and out-of-service time parameter corresponding to each time quantum according to described adhesion information, described onset time and described out-of-service time;

Memory module, for storing onset time parameter corresponding for each time quantum, out-of-service time parameter and time mask write time segment record document.

The present invention is by regular time segment data format record time period data, the record of random time segment data is realized under all kinds of different environment for use, realize the time period arrange, the standard of computing and unification, and then reduce system resource occupancy, improve running efficiency of system.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of the recording method of a kind of random time segment data in the embodiment of the present invention;

Fig. 2 be in the embodiment of the present invention a kind of onset time parameter and the schematic flow sheet of computing method of out-of-service time parameter;

Fig. 3 is a kind of time period data layout schematic diagram in the embodiment of the present invention;

Fig. 4 is that in the embodiment of the present invention, explaining of time period data layout expresses intention;

Fig. 5 is the schematic diagram of time period data in application scenarios one of the present invention;

Fig. 6 is the schematic diagram of time period data in application scenarios two of the present invention;

Fig. 7 is the schematic diagram of time period data in application scenarios three of the present invention;

Fig. 8 is the schematic diagram of time period data in application scenarios four of the present invention;

Fig. 9 is the schematic diagram of time period data in application scenarios five of the present invention;

Figure 10 is the structural representation of the register system of a kind of random time segment data in the embodiment of the present invention.

Embodiment

Below in conjunction with preferred embodiment, content of the present invention is further described.

Specifically as shown in Figure 1, the present embodiment provides a kind of recording method of random time segment data, comprises the steps:

S10 obtains onset time corresponding to each time quantum, out-of-service time and record participation information, described time quantum comprise the time, the moon, day, time, minute, second, week;

S20 is according to described record participation information rise time mask;

S30 obtains the adhesion information of each time quantum, and generates onset time parameter and out-of-service time parameter corresponding to each time quantum according to described adhesion information, described onset time and described out-of-service time;

S40 is by onset time parameter corresponding for each time quantum, out-of-service time parameter and time mask write time segment record document and store.

The time quantum that time period data relate to is divided into " time " by the present embodiment, " moon ", " day ", " time ", " divide ", " second ", " week ", then the onset time that each time quantum is corresponding is obtained, out-of-service time and record participation information, wherein recording parameters information is used for judging whether each time quantum participates in record, available Y/N (or Yes/No) represents, such as, 21 30 points of these time periods when assigning to 22 days 11 November in 2014 during 12 days 8 October in 2014, the onset time that then time quantum " time " is corresponding is 2014, out-of-service time is 2014, record participation information is Y, the onset time that time quantum " moon " is corresponding is 10, and the out-of-service time is 11, and record participation information is Y, the onset time that time quantum " day " is corresponding is 12, and the out-of-service time is 22, and record participation information is Y, time quantum " time " corresponding onset time is 8, the out-of-service time is 11, and record participation information is Y, time quantum " divides " corresponding onset time to be 21, and the out-of-service time is 30, and record participation information is Y, and time quantum " week " does not participate in record in the above-mentioned time period, therefore record participation information is N.

After obtaining the recording parameters information of input, information rise time mask can being participated in by the record corresponding according to each time quantum, whether participating in time period data record for controlling corresponding time quantum.Time mask can represent by two hexadecimal code values, such as, when the record participation information of certain time quantum is Y, then and rise time mask ff; When the record participation information of certain time quantum is N, then rise time mask 00.

Then obtain the adhesion information between each time quantum, and generate onset time parameter and out-of-service time parameter corresponding to each time quantum according to adhesion information, onset time and out-of-service time.Wherein, associate feature between adhesion information response time quantum, such as, time quantum is according to the time, month, day, time, point, second, the order arrangement in week, (represent that it associates with a upper time quantum) when certain time quantum adhesion, then the adhesion information of this time quantum is " YES ", and when certain time quantum adhesion (it does not associate with a upper time quantum), the adhesion information of this time quantum is " NO ", and the time quantum " cycle " of the time quantum " time " and end that are in head end is independent on concept of time, therefore can be " YES " by adhesion information default.Illustrate with example given above, 21 30 points of these time periods when assigning to 22 days 11 November in 2014 during 12 days 8 October in 2014, wherein each time quantum is all adhesions, and adhesion information is " YES ".But in the time period that some is comparatively complicated, part-time unit may adhesion.Such as following time period statement: from January 17,11 days to 2023 October in 1984, weekly 1 to week 5 every day 6 time 30 points 00 second to 22 time 30 points of time periods of 10 seconds.In this time period, time quantum " time " and adhesion (time quantum " and time " with " day " onrelevant), therefore time quantum " time " adhesion information be " NO ".

After the adhesion information obtaining each time quantum, adhesion information and onset time and out-of-service time are combined, the onset time parameter and out-of-service time parameter that each time quantum is corresponding can be obtained.And then onset time parameter corresponding for each time quantum, out-of-service time parameter and time mask write time segment record document are stored, the record of deadline segment data.

In a better embodiment, time quantum " time " comprises time quantum " time is high-order " and time quantum " time low level ", is convenient to the numerical value of unified each time quantum.If the onset time that such as time quantum " time " is corresponding is " 2014 ", then time quantum onset time corresponding to " time is high-order " is " 20 ", and the onset time of " time low level " correspondence is " 14 ".

Preferably, onset time and out-of-service time are decimal coded value, are convenient to user's input.What adopt in example above is all decimal coded values.

In a kind of embodiment, time mask, onset time parameter, out-of-service time parameter all can adopt hexadecimal code value, be convenient to data and store and mutual.

Describe above and adhesion information and onset time and out-of-service time are combined, obtain the onset time parameter and out-of-service time parameter that each time quantum is corresponding, a kind of concrete associated methods is provided below, as shown in Figure 2, according to adhesion information, onset time and out-of-service time generate each time quantum corresponding onset time parameter and the process of out-of-service time parameter comprise the steps:

S31, according to current time unit corresponding onset time, out-of-service time, generates corresponding onset time parameter, out-of-service time parameter; Described onset time parameter and out-of-service time parameter be two hexadecimal code values, the first hexadecimal code value and last position hexadecimal code value form by tetrad word;

S32 judges its whether adhesion according to the adhesion information of current time unit, if not, then enters S33;

The first binary word in tetrad word corresponding for the first hexadecimal code value is put 1 by S33, then renewal onset time parameter and out-of-service time parameter.

Concrete, calculate each time quantum corresponding onset time parameter and out-of-service time parameter time, first metric onset time user inputted and out-of-service time are converted into hexadecimal code value (the corresponding tetrad word of each hexadecimal code value), onset time parameter and out-of-service time parameter be two hexadecimal code values, such as, user to time quantum " time " onset time of inputting is 08, out-of-service time is 13, then corresponding onset time parameter is 08 (the corresponding binary word 0000 of high-order hexadecimal code value, the corresponding binary word 1000 of low level hexadecimal code value), out-of-service time parameter is 13 (the corresponding binary words 0001 of high-order hexadecimal code value, the corresponding binary word 0011 of low level hexadecimal code value).Then current time unit whether adhesion is judged according to the adhesion information of user's input, if, then using this hexadecimal code value namely as net result, if not, then the first binary word in tetrad word corresponding for high-order hexadecimal code value is put 1, such as, binary word corresponding for the high-order hexadecimal code value of onset time parameter 08 is updated to 1000, low level hexadecimal code value remains unchanged, onset time parameter be updated to 88.

In order to clearer elaboration said method, be described for a kind of concrete time period data layout below.

As shown in Figure 3, in the present embodiment, represent that the data field of time period is made up of three row fields.In Fig. 3, " 0x " is hexadecimal code value after representing this symbol, and " " represents actual parameter.The vertical packet sequencing of three row fields is: onset time parameter, out-of-service time parameter, time mask.Every field is formed by 8 bytes, and each byte represents a time quantum, is respectively from the time quantum of the horizontal sequence of 0 ~ 7 byte: a time high position, time low level, the moon, day, time, minute, second, week.

As shown in Figure 4, form each byte of field, 8 binary words of every byte are defined as 2 16 and enter encoded radio, and in figure, " 0000 " represents corresponding 1 the hexadecimal code value of every 4 binary words.User is to the time quantum representated by each byte, namely " time high-order ", " time low level ", " moon ", " day ", " time ", " dividing ", " second ", " week ", onset time and the out-of-service time of input are decimal coded value, be made up of " ten " position and two, " individual " position numerical value, a high position 16 for byte is entered encoded radio and is corresponded to " ten " figure place numerical value, and low level 16 enters coding and corresponds to " individual " figure place numerical value.

In the time quantum of 0,1,7 bytes, its onset time and " ten " figure place numerical value represented by the out-of-service time all identical with the actual time numerical value that will state with " individual " figure place numerical value, corresponding onset time parameter is also identical with the actual time numerical value that will state with out-of-service time parameter.These three time quantums do not have blocking characteristics, wherein time quantum " time is high-order " (0 byte), " time low level " (1 byte) two time quantums form nature and close conjuncted, time quantum " week " (7 byte) has independent association body of one's own, and wherein the expression parameter on Sunday can be " 07 ".

In " moon ", " day ", " time ", " divide ", in " second " these five time quantums, its onset time parameter and represented " individual " figure place numerical value (i.e. low level hexadecimal code value) of out-of-service time parameter identical with the actual time numerical value that will state, " ten " figure place numerical value corresponding 16 enter (i.e. high-order hexadecimal code value) in encoded radio, the highest code bit (in Fig. 4 No. * expression) in the tetrad word of its correspondence is in order to react the adhesion information of this time quantum, word value " 0 " represents adhesion, word value " 1 " represents adhesion, " ten " bit value that the word value of this code bit and the actual of other 3 code bits will be stated is added, obtain " ten " figure place numerical value of compound, namely the renewal of high-order hexadecimal code value is achieved, and then realize onset time parameter and the renewal of out-of-service time parameter.

Wherein, each time quantum time mask in order to control this time quantum onset time parameter and out-of-service time parameter whether participate in the record of time period data.Time mask participates in information according to the record that user inputs and generates, in a kind of embodiment, when certain time quantum does not participate in record, corresponding time mask is 00, if this time quantum participates in the record of time period data, then corresponding time mask is ff.

After obtaining each time quantum corresponding onset time parameter, out-of-service time parameter and time mask, write time segment record document also stores, and realizes the record of time period data.

Introduce the application scenarios of the recording method of several above-mentioned random time segment data below again.In following scene, all can adopt above-mentioned method segment data writing time, to realize the functions such as timing, charge, Systematical control.

Scene one

As shown in Figure 5, certain parking lot charge system, when parking marched into the arena by vehicle, timing starts, charge system is by real-time time parameter assignment in onset time corresponding to each time quantum, and in park time, charge system once refreshes out-of-service time corresponding to each time quantum with real-time time parameter value by per minute, when vehicle appears on the scene, timing stops.Charge system collects Parking Fee by effective timing time section, and simultaneously this of segment data also can carry out recording and stores as charge record document by charge system continuous time.

Scene two

As shown in Figure 6, this is the application of a verification document.The set time section of every day is arranged to the fees policy of peak hours/period by certain parking lot charge system, and all parkings meeting this time period are all by this fees policy charging.If use multiple time period data can be divided into multiple time period fees policy by one day.

Scene three

As shown in Figure 7, this is also the application of a verification document.One, certain community gateway gate control system is configured to such repetition time section operation interval, and gate control system then decommissions outside the time period of setting by the time period running of setting every day.

Scene four

As shown in Figure 8, the application of a verification document is still.Similar to scene three, but this is the repetition time section operation interval that certain unit gateway gate control system is arranged, owing to adding this qualifications of MONDAY to FRIDAY, therefore gate control system Saturday, Sun. two nonworkdays do not operate.

Scene five

As shown in Figure 9, this is the application of a complicated verification document, represents and transfers certain supervisory system in the appointed day, the video photographed in the fixed time section of MONDAY to FRIDAY.As shown in Figure 9, time quantum " time " (4 byte) onset time parameter and out-of-service time parameter in, high-order hexadecimal code value is more than or equal to 8, also just illustrate that the high-word value in the corresponding tetrad word of high-order hexadecimal code value is " 1 ", represent this time quantum adhesion.Therefore 4, its left side time quantum forms the statement assembly of association, becomes a qualifications, represents from January 17,11 days to 2015 October in 2014, and the participation of time quantum " week ", become another qualifications, represent MONDAY to FRIDAY.Therefore, by " time ", " dividing ", " second " form the repetition time section of statement assembly of association: when 6 30 points 00 second to 22 time 30 points 10 seconds, just can come into force under the prerequisite that simultaneously must meet at above-mentioned two qualificationss, namely carry out the computing of logical "and", represent transfer supervisory system from January 17,11 days to 2015 October in 2014 during this period of time in, in MONDAY to FRIDAY every day 6 time 30 points 00 second to 22 time 30 points of 10 seconds these concrete time periods in the video that photographs.

As can be seen here, the recording method of time period data provided by the invention, can realize by one regular time segment data format record time period data, the record of random time segment data is realized under all kinds of different environment for use or use scenes, for time statement, arrange and computing, achieve the unification of time period data, therefore system resource occupancy can be reduced, improving running efficiency of system, is used widely in the field that can relate to time period data in daily record prompting, parking timing and charging, gate control system etc.

Accordingly, the present invention also provides a kind of register system of random time segment data, as shown in Figure 10, comprising:

Acquisition module 1, for the adhesion information obtaining onset time corresponding to each time quantum, out-of-service time, record participate in information and each time quantum, described time quantum comprise the time, the moon, day, time, minute, second, week;

Computing module 2, for according to described record participation information rise time mask, and generates onset time parameter and out-of-service time parameter corresponding to each time quantum according to described adhesion information, described onset time and described out-of-service time;

Memory module 3, for storing onset time parameter corresponding for each time quantum, out-of-service time parameter and time mask write time segment record document.

In a kind of embodiment, time quantum " time " comprises " time high-order " and " time low level ".

In a kind of embodiment, onset time and out-of-service time are decimal coded value, facilitate user input data.

Preferably, described time mask, onset time parameter, out-of-service time parameter is hexadecimal code value, is convenient to the storage of data with mutual.

Computing module 2 generate according to described adhesion information, described onset time and out-of-service time each time quantum corresponding onset time parameter and out-of-service time parameter time, according to onset time corresponding to current time unit, out-of-service time, generate corresponding onset time parameter, out-of-service time parameter; Described onset time parameter and out-of-service time parameter be two hexadecimal code values, the first hexadecimal code value and last position hexadecimal code value form by tetrad word; If current time unit and other times unit adhesion, then the first binary word in tetrad word corresponding for the first hexadecimal code value is put 1 by described computing module, then renewal onset time parameter and out-of-service time parameter.

The implementation method of above-mentioned its concrete function of modules, can refer to the method described in the recording method embodiment of above-mentioned random time segment data, repeats no more herein.

Each technical characteristic of the above embodiment can combine arbitrarily, for making description succinct, the all possible combination of each technical characteristic in above-described embodiment is not all described, but, as long as the combination of these technical characteristics does not exist contradiction, be all considered to be the scope that this instructions is recorded.

The above embodiment only have expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be construed as limiting the scope of the patent.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims (10)

1. a recording method for random time segment data, is characterized in that, comprises the steps:

Obtain onset time corresponding to each time quantum, out-of-service time and record participation information, described time quantum comprise the time, the moon, day, time, minute, second, week;

According to described record participation information rise time mask;

Obtain the adhesion information of each time quantum, and generate onset time parameter and out-of-service time parameter corresponding to each time quantum according to described adhesion information, described onset time and described out-of-service time;

Onset time parameter corresponding for each time quantum, out-of-service time parameter and time mask write time segment record document are stored.

2. the recording method of random time segment data according to claim 1, is characterized in that, the described time comprises a time high position and time low level.

3. the recording method of random time segment data according to claim 1, is characterized in that, described onset time and out-of-service time are decimal coded value.

4. the recording method of random time segment data according to claim 3, is characterized in that, described time mask, onset time parameter, out-of-service time parameter is hexadecimal code value.

5. the recording method of the random time segment data according to claim 3 or 4, it is characterized in that, according to described adhesion information, described onset time and out-of-service time generate each time quantum corresponding onset time parameter and the process of out-of-service time parameter comprise the steps:

According to current time unit corresponding onset time, out-of-service time, generate corresponding onset time parameter, out-of-service time parameter; Described onset time parameter and out-of-service time parameter be two hexadecimal code values, high-order hexadecimal code value and the equal corresponding tetrad word of low level hexadecimal code value;

If current time unit adhesion, then the high-order binary word in tetrad word corresponding for high-order hexadecimal code value is put 1, then renewal onset time parameter and out-of-service time parameter.

6. a register system for random time segment data, is characterized in that, comprising:

Acquisition module, for the adhesion information obtaining onset time corresponding to each time quantum, out-of-service time, record participate in information and each time quantum, described time quantum comprise the time, the moon, day, time, minute, second, week;

Computing module, for according to described record participation information rise time mask, and generates onset time parameter and out-of-service time parameter corresponding to each time quantum according to described adhesion information, described onset time and described out-of-service time;

Memory module, for storing onset time parameter corresponding for each time quantum, out-of-service time parameter and time mask write time segment record document.

7. the register system of random time segment data according to claim 6, is characterized in that, the described time comprises a time high position and time low level.

8. the register system of random time segment data according to claim 6, is characterized in that, described onset time and out-of-service time are decimal coded value.

9. the recording method of random time segment data according to claim 8, is characterized in that, described time mask, onset time parameter, out-of-service time parameter is hexadecimal code value.

10. the register system of random time segment data according to claim 8 or claim 9, it is characterized in that, described computing module generate according to described adhesion information, described onset time and out-of-service time each time quantum corresponding onset time parameter and out-of-service time parameter time, according to onset time corresponding to current time unit, out-of-service time, generate corresponding onset time parameter, out-of-service time parameter; Described onset time parameter and out-of-service time parameter be two hexadecimal code values, high-order hexadecimal code value and the equal corresponding tetrad word of low level hexadecimal code value; If current time unit adhesion, then the high-order binary word in tetrad word corresponding for high-order hexadecimal code value is put 1 by described computing module, then renewal onset time parameter and out-of-service time parameter.