WO2017219893A1 - Digital information inputting processing method and device - Google Patents

Abstract

A digital information inputting processing method and device. The method comprises: receiving an input sequence, the input sequence comprising multiple input objects (S101), each input object comprising a digit and a counting unit; and generating an output sequence according to the input objects and input order information (S102). By means of the method, the input efficiency and the input accuracy of digits can be improved, and because the operation process is simple and convenient, costs for giving inputting-relate trainings to input personnel can also be reduced.

Description

Digital information input processing method and device

The present application claims the priority of the Chinese Patent Application Serial No. No. No. No. No. No. No. No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No No

Technical field

The present application relates to the field of computer technology, and in particular, to a digital information input processing method and apparatus.

Background technique

With the development of society, there are more and more occasions requiring the input of numbers (especially multi-digit numbers, such as thousands or more digits), such as some auction occasions. Take the O2O (Online To Offline) auction system as an example. During the auction process, the operator is required to input the offline bid price into the corresponding system to synchronize the offline bid price to the online, so that the online buyer can Performing operations such as markup based on the synchronized bid price. At present, the operator usually uses an ordinary keyboard to convert the auctioneer's asking price into a corresponding number and then input it. For example, the auctioneer asks for a price of 34,000. The operator needs to input "3", "4" and "0" in turn. “0” “0”; the auctioneer calls the price of 12,000. The operator needs to input “1”, “2”, “0”, “0” and “0” in turn after the conversion. The auctioneer calls for 1.35 million, and the operator needs to convert it himself. Enter "1", "3", "5", "0", "0", "0", "0", and so on.

The above operation methods mainly have the following problems: On the one hand, in the auction process, the offline quotation tends to be faster, and the operator needs a self-conversion process after hearing the bid price, especially if the price is a large number. The time required for the self-conversion process is relatively long. There is often a problem that the operator can't keep up with the quotation rhythm and the input efficiency is low. On the other hand, an auction often lasts for several hours. Under the operator, the operator is very prone to fatigue. The more the error rate is entered, the higher the error rate is. In addition, in order to allow the operator to adapt to the quotation rhythm, ensure the input efficiency and accuracy, etc., it may take several days to auction the video according to the previous auction. Train operators, so it also involves training costs and other issues.

In short, how to improve the digital input efficiency and accuracy of digital input occasions becomes a technical problem that needs to be solved by those skilled in the art.

Summary of the invention

The present application provides a digital information input processing method and device, a data object resource information processing method and device, a digital information input processing method and device for a third-party application, and a user interface, There is no need for the operator to think about conversions in the process, which can improve the efficiency and accuracy of digital input.

This application provides the following solutions:

A digital information input processing method includes:

Receiving an input sequence, the input sequence includes a plurality of input objects, the input object including a number and a counting unit;

An output sequence is generated based on the input object and input order information.

The input object included in the input sequence is determined according to a reading method of the output sequence.

A user interface includes a virtual keyboard interface and a result display bar, the virtual keyboard interface including a digital input option and a counting unit input option for receiving an input sequence, the input sequence including at least one input An object, the input object comprising a number and a counting unit; the result display column for displaying an output sequence, the output sequence being generated according to each input object and input order information in the input sequence.

A data object resource information processing method includes:

The client receives current resource information input for the specified data object, the input information includes an input sequence, and the input sequence includes a plurality of input objects, the input object including a number and a counting unit;

Generating an output sequence according to the input object and input order information;

The output sequence is provided to a server such that the server publishes current resource information for the specified data object online.

A method of digital information input processing for a third-party application, including:

Receiving an input sequence in an input environment of a third party application, the input sequence including a plurality of input objects, the input object including a number and a counting unit;

Generating an output sequence according to the input object and input order information;

The output sequence is provided to the third party application for on-screen display of the output sequence at the third party application.

A digital information input processing device includes:

a first input sequence receiving unit, configured to receive an input sequence, where the input sequence includes a plurality of input objects, where the input object includes a number and a counting unit;

And a first output sequence generating unit configured to generate an output sequence according to the input object and the input sequence information.

A data object resource information processing device is applied to a client, and the device includes:

a second input sequence receiving unit, configured to receive current resource information input for a specified data object, where the input information includes an input sequence, the input sequence includes a plurality of input objects, the input object includes a number and a counting unit ;

a second output sequence generating unit, configured to generate an output sequence according to the input object and the input sequence information;

And a first output sequence providing unit, configured to provide the output sequence to a server, so that the server publishes current resource information of the specified data object online.

A device for digital information input processing of a third-party application, comprising:

a third input sequence receiving unit, configured to receive an input sequence in an input environment of a third-party application, where the input sequence includes a plurality of input objects, the input object including a number and a counting unit;

a third output sequence generating unit, configured to generate an output sequence according to the input object and the input sequence information;

And a second output sequence providing unit, configured to provide the output sequence to the third-party application to perform on-screen display of the output sequence in the third-party application. According to a specific embodiment provided by the present application, the present application discloses the following technical effects:

In the embodiment of the present application, an input queue including a plurality of input objects input by a user may be received first, wherein the input object may include a number and a counting unit, and then may be input according to the received number, the counting unit, and the input order of the number and the counting unit. Information, generating an output queue consisting of numbers. In this way, when the user wants to input a certain number of digits (especially thousands or more digits), it is not necessary to convert and then input as in the existing scheme, but can directly read according to the number. Corresponding to the input number and counting unit, the digital input efficiency and the correct input rate can be improved. In addition, since the operation process is simple and convenient, the cost of training the input operation for the input personnel can be saved.

Of course, implementing any of the products of the present application does not necessarily require all of the advantages described above to be achieved at the same time.

DRAWINGS

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings to be used in the embodiments will be briefly described below. Obviously, the drawings in the following description are only some of the present application. For the embodiments, those skilled in the art can obtain other drawings according to the drawings without any creative work.

1 is a block diagram of a digital information input processing system provided by an embodiment of the present application;

2 is a schematic flowchart of a digital information input processing method provided by an embodiment of the present application;

3 is a schematic diagram of a virtual keyboard interface in a digital information input processing method provided by an embodiment of the present application;

4 is a schematic flowchart of generating an output sequence in a digital information input processing method provided by an embodiment of the present application;

FIG. 5 is a schematic flowchart of a data object resource information processing method according to an embodiment of the present application;

6 is a schematic flowchart of a method for performing digital information input processing on a third-party application according to an embodiment of the present application;

FIG. 7 is a schematic diagram of a digital information input processing apparatus according to an embodiment of the present application; FIG.

FIG. 8 is a schematic diagram of a data object resource information processing apparatus according to an embodiment of the present application; FIG.

FIG. 9 is a schematic diagram of an apparatus for performing digital information input processing on a third-party application according to an embodiment of the present application.

detailed description

The technical solutions in the embodiments of the present application are clearly and completely described in the following with reference to the drawings in the embodiments of the present application. It is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments obtained by those of ordinary skill in the art based on the embodiments of the present application are within the scope of the present disclosure.

In order to improve the efficiency and accuracy of the digital input, as shown in FIG. 1 , the embodiment of the present application provides a digital information input processing system 10 , which can be applied to applications requiring digital input, and is particularly applicable to thousands of bits, More than 10,000 large-value digital input auction occasions. In a specific implementation, the digital information input processing system 10 may first receive an input queue of a plurality of input objects input by a user, where the input object may include a number and a counting unit, and then according to the received number, the counting unit, and the number The input sequence information of the counting unit generates an output queue composed of pure numbers, that is, the system 10 belongs to a digital input method application, and can input an input input queue composed of numbers and counting units to generate a corresponding An output queue consisting of numbers, so that when the user wants to input a certain number (especially a thousand digits, a large number of digits or more), it is not necessary to input and convert as in the existing scheme, but The input number and the counting unit can be directly input according to the digital reading method, thereby simplifying the input effect, improving the digital input efficiency and the correct input rate, and further, the operation process is simple and convenient, and the input personnel can be saved. The cost of training related to input operations.

The specific implementation is described in detail below.

Embodiment 1

Referring to FIG. 2, the first embodiment provides a digital information input processing method, including the following steps:

S101. Receive an input sequence, where the input sequence includes multiple input objects, and the input object

Includes numbers as well as counting units.

In this embodiment, the counting unit may include a decimal integer counting unit, such as thousands, 10,000, 100,000, etc., and may also include a decimal unit, such as a decimal point. The input sequence may be, for example, "3 thousand", "410,000", "7.8 million", and the like.

In the specific implementation, the input sequence can be received in a variety of ways.

One of the ways may be to provide a virtual keyboard interface, where the virtual keyboard interface includes a digital input option and a counting unit input option, and the counting unit input option may be at least two inputs including an adjacent relationship in a counting unit. An option to receive an input sequence through the virtual keyboard interface.

For example, as shown in FIG. 3, the virtual keyboard interface 30 provided in this embodiment may include a digital input option 31 and a counting unit input option 32, 33, which can receive input through the digital input option 31 and the counting unit input options 32, 33. sequence.

For example, if you want to input "80,000", you can receive the digital input option corresponding to "8" in the virtual keyboard interface 30 and the counting unit input option corresponding to "10,000" to receive by the digital input option and the counting unit input option. Enter the sequence "80,000".

In addition, if the digital information input processing method provided in the embodiment of the present application is applied to a specific application, other input options may be provided in the virtual keyboard in combination with the function of the application itself. For example, if applied to the "Auction" application mentioned in the background art, the "Bid" operation option can also be provided in the virtual keyboard. For example, as shown in FIG. 3, a bidding operation option 37 is provided in the virtual keyboard interface 30 for displaying the output sequence displayed in the display column 34 by pressing the "bid" operation option upon completion of the input sequence input. The number is provided as a price to the relevant bidding system, such as providing the number in the output sequence as the bid price to the line of the O2O auction system, etc., in order to synchronize the bid price to the system line.

This method can be suitable for use on a smart terminal device with a touch screen, which is more convenient for the user to operate, so as to improve input efficiency.

Another manner of receiving the input sequence may be: pre-establishing a mapping relationship between a character corresponding to a preset button in the physical keyboard and a counting unit, and receiving at least one number and at least one of the presets through the physical keyboard. The character corresponding to the button may then convert the character corresponding to the preset button into a counting unit according to the mapping relationship, and form the input sequence with the received number.

In a specific implementation, the physical keyboard may be a numeric keyboard part (commonly referred to as “keypad”) in the “QWERTY standard physical keyboard”, for example, a pre-established relationship between the character corresponding to the arithmetic symbol button and the counting unit in the physical keyboard. The mapping relationship, such as the character corresponding to the "+" (plus sign) button, is mapped to the counting unit "10,000", the character corresponding to the "-" (minus) button is mapped to the counting unit "thousand", etc., of course, according to the actual If necessary, the mapping relationship between the characters corresponding to any button on the physical keyboard and the counting unit can be established.

The mapping relationship may be pre-stored in the database in the form of a table, and the specific storage form may be as described in Table 1 below:

Table 1

Serial number	The character corresponding to the preset button		Counting unit
1	"+"	Ten thousand
2	"-"	thousand
......	......	......

For example, if you want to enter "80,000", you can receive "8" and "+" through the physical keyboard by triggering the numeric button and "+" button corresponding to "8" in the physical keyboard, and then according to Table 1. The mapping relationship converts the character corresponding to the "+" button to the counting unit "10,000", so that "8" and "10,000" are combined into the input sequence "80,000".

Of course, the virtual key can also be provided while receiving the input sequence through the physical keyboard.

A disk interface that simulates a state in which the digital input option or the counting unit input option is operated in the virtual keyboard interface during the determination of the input sequence.

For example, when the input queue is received by the physical keyboard as "80,000", when the digital key corresponding to "8" in the physical keyboard is triggered, the digital operation option corresponding to "8" in the virtual keyboard interface can be operated. The state is simulated, for example, the animation effect of the digital operation option corresponding to "8" is pressed. Next, when the "+" button in the physical keyboard is triggered, the character corresponding to the "+" button can be converted into the counting unit "10,000" according to the mapping relationship, and "10,000" can be in the virtual keyboard interface. The corresponding counting unit operation option is simulated by the state of the operation, for example, the animation effect of the counting unit operation option corresponding to "10,000" can be simulated.

In this way, it can be used on a terminal device without a touch screen, and can be more conveniently used by a user who is accustomed to using a physical keyboard to ensure the convenience of operation, thereby ensuring input efficiency.

Of course, in other implementations, there may be other input sequence receiving modes, for example, receiving voice input, converting the received voice signal into the input sequence, and the like, which are not detailed herein.

S102. Generate an output sequence according to the input object and the input sequence information.

That is to say, the output sequence can be generated according to the input number, the counting unit, and the input sequence information of the number and the counting unit. In the specific implementation, the output sequence includes numbers, or may include a decimal point, but does not include an integer counting unit. .

For example, the input sequence "3 thousand" can generate an output sequence "3000", and the input sequence "410,000" can generate an output sequence "41000", that is, an input object included in the input sequence can be based on the output sequence The reading method determines that, in the process of inputting numbers, there is no need to convert the process (for example, converting "3 thousand" to "3000", converting "410,000" to "41000"), but directly following the number The reading method inputs the corresponding number and counting unit, which can save conversion time and avoid conversion errors, so as to improve the input efficiency and accuracy of the digital.

Since the output sequence of the conversion is composed of pure numbers, each of the numbers actually constitutes a multi-digit number. In practical applications, multiple digits converted into one can be input as input to other applications or other modules. Alternatively, a display bar may be provided in the current application interface. For example, as shown in FIG. 3, a display bar 34 may be provided in the virtual keyboard interface 30 to input the output sequence into the display bar 34 for display, so as to facilitate the user to understand in time. Output the contents of the sequence for confirmation, adjustment, etc.

In addition, the counting unit information corresponding to the output object of the preset position in the output sequence may be provided in the display column. In this embodiment, for example, the highest unit counting unit information in the output sequence may be provided. As shown in FIG. 3, the highest unit count unit information 35 (ie, 10,000) in the output sequence (such as "80000") can be provided in the display column 34 to facilitate the user to know the highest bit in the output sequence in time, without further Verify the correctness of the output sequence by manually checking the number of bits.

In an actual application, a delete operation option may also be provided in the application interface. For example, as shown in FIG. 3, a delete operation option 36 may be provided in the display field 34 for overall deletion of the output sequence displayed in the display field 34. It is no longer necessary to delete the numbers in the output sequence one by one by using the "backspace" button in the physical keyboard, thereby saving the user's operation time and improving the operation efficiency.

The technical solutions provided by the embodiments of the present application are introduced as a whole, and the specific implementation of how to convert the input sequence into an output sequence is introduced below.

In the specific implementation, since the input objects included in the input sequence can usually have multiple combinations, for example, assuming that A and B are numbers and the integer count unit is 10,000, then:

The first possible way is "A" + "10,000" (for example, the input sequence is "80,000", of course, here A may be a single digit or a multi-digit number, in addition, the "+" here Not for addition, but for isolating different input objects);

The second possible way is "A" + "10,000" + "0" + "B" (for example, "80,000");

The third possible way is "A" + "." + "B" + "10,000" (for example, "8.7 million");

The fourth possible way is "A" + "10,000" + "B" (for example, "23,000").

In addition, the same multi-digit number, due to different reading methods, the corresponding input sequence may also be different. For example, for the five digits of "87000", the input sequence may be "80,000" or "8.7 million". ",and many more.

To this end, in the embodiment of the present application, the features of the input sequence can be abstracted, and corresponding processing manners are provided for various features. Specifically, an optional implementation manner is that, when the input object is input, a new output sequence is dynamically generated every time a new input object is received, that is, the output sequence is dynamic. Generated.

Specifically, the corresponding processing manners may be provided and stored according to the current input object and the type features of the historical input objects in the current input sequence, wherein the type features include numbers or counting units, and the counting unit may include integers. Count units as well as the decimal point. That is to say, after receiving an input object, it can first determine whether the input object is a number or a counting unit, and then combine the specific type characteristics of the historical input object to determine a corresponding processing manner, and then, can determine the current The output sequence.

In order to facilitate understanding, the following describes the corresponding processing manner and the output sequence determining manner in various cases in combination with the specific examples in the specific application.

In the specific implementation, if the current input object is a number and is the first digit of the input sequence, or the current input object and the previous input object are numbers, or the last input object is a counting unit, the current input is zero, or, on An input object is a number, the current input object is a decimal point, or the last input object is a decimal point, and the current input object is a number, the processing manner includes:

The current input object is added to the temporary queue to determine an output sequence based on the number of N digits of all input objects in the temporary queue, where N is a positive integer. It is called a "temporary queue" because the N-bits of the input objects added to the temporary queue may participate in subsequent multiplication or addition operations to determine the final output sequence.

Wherein, in the first case, that is, the current input object is a number and is the first digit of the input sequence, it is proved that the input object is just started to receive the input sequence, and the received input object can be added to the “temporary queue”. However, at this time, since the input object related to the counting unit has not been received, the temporary queue can also be directly output as an output sequence. That is, assuming that the current input object is the number "1" and is the first bit of the input sequence, the current output sequence is "1".

For the second case, that is, the current input object and the previous input object are all numbers, this may happen in the following two scenarios: (1) After receiving the input object, before receiving the integer count unit , may receive multiple numbers in succession. For example, if you need to input "230,000", you can join the temporary queue according to the first case mentioned above when receiving "2"; when receiving "3" Since the last input object is also a number, it can also be added to the temporary queue. At this time, the temporary queue has a two-digit number "23". In addition, since the input object related to the counting unit has not been received, the current temporary queue may be directly output as an output sequence, that is, the output sequence is "23". (2) After an integer count unit has been input, there may be cases where multiple numbers are continuously input. For example, suppose the sequence to be output is "80020", since the sequence is usually read as "80,000 and 20" Therefore, each input object in the input sequence may be "8", "10,000", "0", "2", "0", in this case, for the second case, "2" and the second "0" belong to the second case. That is, the current input object and the previous input object are all numbers, and in this case, the current input object can also be added to the temporary queue.

For the third case, that is, the last input object is a counting unit, and the current input is zero, which corresponds to the first "0" in the (2) scenario in the second case described above, that is, When the first "0" in the above example is received, since the previous input object is an integer count unit, the "0" is also added to the temporary queue.

For the fourth and fifth cases, that is, the last input object is a number, the current input object is a decimal point, or the last input object is a decimal point, and the current input object is a number, which usually occurs in the following scenes. : The user needs to output "87000", but the input sequence is "8" "." "7" "10,000". For this case, before receiving "10,000", the received number and the decimal point are added to the temporary first. In the queue. Among them, after receiving "7", the record in the temporary queue is "8.7".

The various adaptations of the temporary queue are described above. However, the embodiment of the present application needs to determine the current output sequence after receiving an input object. Therefore, the current input object satisfies the condition. The next step is added to the temporary queue, which is only part of the operation performed after receiving a current input object. The other part of the operation is to determine the current output sequence based on the contents recorded in the temporary queue.

Among them, in the process of determining the current output sequence, the specific determination manners are different for various situations, and are respectively introduced below.

In the first case, if the current input object is a number or a decimal point, and there is no integer meter in the history input sequence For a number of units, the processing method includes:

The temporary queue is determined as the current output sequence.

Wherein, there is no integer counting unit in the history input sequence, which may include a number or a decimal point in the historical input sequence, for example, when the current input object is the number “1” and is the first digit of the input sequence, or the current input The object is "3" and the previous input object is "2", and there is no integer counting unit such as "10,000" in the input sequence, or the previous input object is "4", the current input object is a decimal point, etc. , can belong to the case where there is no integer count unit in the history input sequence. In these cases, the temporary queues "1", "23", "4." can be determined as the current output sequence.

In the second case, if the current input object is an integer count unit and the last input object is a number, the current output sequence can be determined by taking the N-bit number from the temporary queue and counting the unit according to the integer. The corresponding mathematical algorithm converts the N digits to generate a current output sequence and clears the temporary queue.

The mathematical conversion algorithm corresponding to the integer counting unit may be a number corresponding to the integer counting unit. For example, the mathematical conversion algorithm corresponding to “10,000” may be “×10000”, and the mathematical conversion algorithm corresponding to “thousand” may be “ ×1000", and so on.

For example, if the current input object is 10,000 and the last input object is a number, the N-digit number can be taken out from the temporary queue (for example, "1" or "23" or "8.7" in the foregoing example), and The corresponding mathematical algorithm (ie, multiplied by 10000) converts the N digits (ie, 1×10000 or 23×10000 or 8.7×10000) to generate a current output sequence (ie, 10000 or 230,000 or 87000). In addition, in order to ensure the validity of the algorithm, in this case, after determining the current output sequence, the temporary queue ("1" or "23" or "8.7") can also be emptied, so if the input is completed After 10,000, you need to enter a number such as "020", and then rejoin the temporary queue from "0".

In the third case, if the current input object is a number and is zero, and the previous input object is an integer count unit, the previous output sequence is determined as the current output sequence.

For example, if the current input object is “0” and the previous input object is “10,000”, such as “100,000” and “230,000” above, the previous output sequence 10000, 230000, etc. can be determined as the current output. sequence. This situation proves that the user may want to input "80,000 020", etc., but has not received the following "20", so the previous output sequence can be determined as the current output sequence.

In the fourth case, if the current input object is a non-zero number, there is an integer count unit in the history input sequence, and the next input object of the integer count unit is zero, then the current output sequence can be determined by: The N-bit number is taken out from the temporary queue, and an output sequence obtained when the integer count unit is received is added to the N-digit number to obtain a current output sequence.

For example, if the current input object is "2" and there is "100,000" in its historical input sequence, you can first add "2" to the temporary queue, and then take the N-digit number from the temporary queue (for example) "02"), add 10000 plus 2 to get the current output sequence 10002. If another number "0" is received after receiving "2", the fourth case is still met, so it is also possible to first add "0" to the temporary queue and then take the current queue from the temporary queue. The N-digit number (020), plus 10000 plus 20, gives the current output sequence 10020.

In a specific implementation, there is a case where the current input object is a non-zero number, and the last input object is an integer count unit, and the processing manner includes:

Determining a lower-order integer counting unit of the integer counting unit in the last input object; converting the current input object according to the mathematical conversion algorithm corresponding to the lower-level integer counting unit; and outputting the previous output sequence and the current input The conversion result of the object is added to determine the current output sequence.

If the current input object is 5 and the previous input object is 10,000, then the lower one-order integer counting unit (ie, "thousands") can be determined. According to the mathematical conversion algorithm corresponding to "thousands" (multiplied by 1000), the current input is The object is converted (5×1000=5000), and the previous output sequence (such as the above 10000) is added to the conversion result of the current input object (7000) (10000+7000=17000) to determine that the current output sequence is 17000.

The above describes how to determine the current output sequence in various situations. In order to better understand the embodiment of the present application, the following is a flowchart of an implementation manner in the specific implementation of FIG. Detailed description of how the output queue is generated).

Example 1: Assume that the input sequence is "80,000"

When the current input object is "8", the current input object is not an integer count unit but a number, and the previous input object is empty, that is, the current input object is located at the first position of the input sequence, then "8" can be added to the temporary In the queue, the temporary queue is determined to be the output queue (ie, "8") because there is no integer count unit in the history input sequence.

When the current input object is "10,000", the current input object is an integer count unit, and the previous input object is not an integer count unit but a number, then "8" is taken out from the temporary queue, and corresponding to "10,000" The mathematical conversion algorithm performs conversion (ie, 8×10000), generates an output sequence “80000”, and clears the temporary queue, thereby ending the processing flow.

Example 2: Assume that the input sequence is "7 thousand 6"

When the current input object is "7", the current input object is a number, and the previous input object is empty, that is, the current input object is located at the first position of the input sequence, then "7" can be added to the temporary queue due to the history input sequence. does not exist The integer count unit determines the temporary queue as the output queue (that is, "7").

When the current input object is "thousands", the current input object is an integer count unit, and the previous input object is not an integer count unit but a number, then "7" is taken out of the temporary queue, and corresponding to "thousands" The mathematical conversion algorithm performs scaling (ie, 7×1000), generates an output sequence “7000”, and clears the temporary queue.

When the current input object is "6", the current input object is a number, and the previous input object is an integer count unit ("thousands"), then the lower one-order integer count unit of thousands (ie, "hundred") can be determined, according to " The mathematical conversion algorithm corresponding to Hundred" (multiplied by 100), the current input object is converted (6 × 100 = 600), and the previous output sequence (7000) is added to the conversion result (600) of the current input object. (7000+600=7600) to determine the current output sequence is 7600, which ends the process.

Example 3: Assume that the input sequence is "80,000 and 23"

When the current input object is "8", the current input object is a number, and the previous input object is empty, that is, the current input object is located at the first position of the input sequence, then "8" can be added to the temporary queue due to the history input sequence. If there is no integer count unit, the temporary queue is determined to be the output queue (ie "8").

When the current input object is "10,000", the current input object is an integer count unit, and the previous input object is a number, then "8" is taken out from the temporary queue, and converted according to the mathematical conversion algorithm corresponding to "10,000" (ie, 8 × 10000), the output sequence "80000" is generated, and the temporary queue is emptied.

When the current input object is "0", the current input object is "0" and the previous input object is an integer count unit (ie, "10,000"), then the input object "0" is added to the temporary queue, and can be An output sequence 80000 is determined as the current output sequence.

When the current input object is "2", the current input object is a number and the previous input object is a number (ie "0"), then "2" is added to the temporary queue, there is "10,000" in the history input sequence and " When the next input object of 10,000 is "0", "02" is taken out from the temporary queue, and the output sequence 80000 and 2 obtained when "ten" is received is added to obtain the current output sequence 8002.

When the current input object is "3", the current input object is a number and the previous input object is a number (ie "2"), then "3" is added to the temporary queue, then the temporary queue is "023", in the history If there is "10,000" in the input sequence and the next input object of "10,000" is "0", then "23" is taken from the temporary queue, and the output sequence obtained when the above integer counting unit (ie, "10,000") is received is received. The 80000 and 23 are added to obtain the current output sequence 80023, and the processing flow can be ended.

Example 4: Assume that the input sequence is "9.7 million"

When the current input object is "9", the current input object is a number, and the previous input object is empty, that is, the current input pair is If the image is in the first position of the input sequence, "9" can be added to the temporary queue. Since there is no integer count unit in the history input sequence, the temporary queue is determined as the output sequence (ie "9").

When the current input object is a decimal point (ie, "."), the current input object is a decimal point and the previous input object is a number, then a decimal point (".") is added to the temporary queue, which is "9." Since the integer count unit does not exist in the history input sequence, the temporary queue is determined as the output sequence (ie, "9.").

When the current input object is "7", the current input object is a number and the previous input object is a decimal point, then "7" can be added to the temporary queue. The temporary queue is "9.7", because there is no integer count in the duration input sequence. Unit, the temporary queue can be determined as the output sequence (ie "9.7").

When the current input object is "10,000", the current input object is an integer count unit and the previous input object is a number, then "9.7" is taken out from the temporary queue, and converted according to the mathematical conversion algorithm corresponding to "10,000" (ie, 9.7) ×10000), the output sequence "97000" is generated, and the temporary queue is cleared, and the processing flow can be ended.

In the implementation manner described above, the current output sequence is dynamically determined after each input object is received. In addition, in actual applications, after the complete input sequence is received, the output sequence may be performed. The conversion operation, at this time, can also provide an input option for the end of the user representative, after the user enters the input sequence is completed, through this option to end its input operation. In this case, it is possible to provide conversion mode information corresponding to various types of input sequences in advance.

For example, for the input mode of "A" + "10,000", the corresponding conversion mode can be: "A" + "10,000" = A × 10000, that is, if the input is "80,000", the output sequence is "80000".

For the input mode of "A" + "10,000" + "0" + "B", the corresponding conversion mode can be: "A" + "10,000" + "0" + "B" = A × 10000 + B, That is, if the input is "80,000", the output sequence is 8 x 10000 + 2 = 8002.

For the input mode of “A”+“.”+“B”+“10,000”, the corresponding conversion method can be: “A”+“.”+“B”+“万”=AB×10000, ie If the input is "7.8 million", the output sequence is 7.8×10000=78000.

For the input mode of "A" + "10,000" + "B", the corresponding conversion mode can be: "A" + "10,000" + "B" = A × 10000 + B × 1000, that is, if input It is "70,800", and the output sequence is 7×10000+8×1000=78000.

In addition, for other counting units such as "thousands", various possible input sequence expression forms may be provided in the above manner, and corresponding input sequence conversion methods may be provided and saved. In this way, after receiving the complete input sequence, the corresponding conversion mode can be selected and converted according to the characteristics of the input sequence.

Of course, in practical applications, both A and B in the above various situations may be multi-digit. In summary, the case of receiving a complete input sequence and then converting may be implemented by: after receiving the complete input sequence, converting the input sequence according to the characteristics of each input object included in the input sequence For the output sequence.

Specifically, if there is no other input object after the integer count unit in the input sequence, the N-digit (possibly an integer or a decimal) continuously input in the integer count unit is converted into a conversion method corresponding to the integer count unit. A first calculation result is obtained, and the first calculation result is determined as an output sequence.

If the input unit in the input sequence includes other input objects, and then judge whether the number adjacent to the integer count unit is 0, if yes, the M digits composed of 0 and subsequent other digits, and the first calculation result And adding, obtaining a second calculation result, and determining the second calculation result as an output sequence, where M is a positive integer.

If the input object after the integer count unit is a non-zero number, the non-zero number is converted, that is, the mathematical conversion corresponding to the non-zero number corresponding to the lower-order integer count unit of the received integer count unit The method performs a conversion operation to obtain a third calculation result, and adds the first calculation result to the third calculation result to obtain a fourth calculation result, and determines the fourth calculation result as an output sequence.

Embodiment 2

The above embodiment introduces a pair of digital information input processing implementations, which can be applied to a variety of specific applications. Moreover, the application may be in various ways. For example, in one mode, the input processing method may be solidified into an application, so that when a digital related input is required in the application, the application may be The processing method is the default method, for example, directly providing the virtual keyboard described above, and the like. Or, in another way, this digital input processing method can exist as a separate application, that is, the function provided by the application is to process the digital input process to simplify the input and shorten the input path. To improve efficiency and reduce the probability of error, for example, it can be called "digital input method" and so on. In this case, the user can install the application into his terminal device, and when there is a need to input digital information in other third-party applications, he can switch to the "digital input method" by himself, so that Input is performed in the manner provided in the first embodiment, which converts the input sequence into a purely digital output sequence and outputs it to a third party application.

The first method described above is first introduced, that is, it can be solidified into an application, for example, an O2O (online to offline) product that can realize online and offline "auction" synchronization, usually provides two Kind of client, The first client provides the operator in the offline auction site. When the auctioneer calls out the current price of a lot, the operator needs to synchronize the price shouted by the auctioneer to the online line, so that each user on the line can see. The second client may be a user who provides online participation in the auction. After entering the online auction venue of a certain lot, the second client may receive the current highest bid input by the offline operator, and if the user needs to bid, the user may Enter the price of the bid through the second client. In this way, the digital information input processing method in the embodiment of the present application can be added to the first user client and the second user client.

Specifically, referring to FIG. 5, the second embodiment provides a data object resource information processing method. Referring to FIG. 5, the method may specifically include:

S501: The client receives current resource information input for a specified data object, where the input information includes an input sequence, where the input sequence includes a plurality of input objects, where the input object includes a number and a counting unit;

The designated data object may include a business object (for example, a commodity object or service, etc.) participating in online and offline synchronous auction, and the resource quantity information includes bid information of the offline bidder on the business object. At this time, the client includes a first user client, and the first user client is configured to record bid information of the offline bidder to the business object.

Alternatively, the resource quantity information may also include bid information of the online bidder to the business object. At this time, the client includes a second user client, and the second user client is configured to receive the server-provided Bidding/other online bidders' bidding information, as well as entering current online bidder bid information.

It should be noted that the data object and other forms of the resource quantity information are not limited in the embodiment of the present application.

S502: Generate an output sequence according to the input object and input sequence information.

S503: The output sequence is provided to a server, so that the server publishes current resource information of the specified data object online.

For details on how to convert the input sequence into an output sequence, refer to the introduction in the foregoing first embodiment, and details are not described herein again.

Embodiment 3

In the third embodiment, the manner of "the digital input processing method exists as a separate application" is introduced.

Specifically, referring to FIG. 6, the third embodiment provides a method for performing digital information input processing on a third-party application, including:

S601: Receive an input sequence in an input environment of a third-party application, where the input sequence includes a plurality of input objects, where the input object includes a number and a counting unit;

It should be noted that the execution body of each step in this embodiment may be a separate application having a digital information input processing function, and the third-party application is another application having a digital information input requirement. The former is called "digital input method". After the user installs the "digital input method" on his terminal device, the third-party application in the terminal device can use the "digital input method" to input digital information.

In the specific implementation, after the “digital input method” is installed and added to the system settings, after the input box of the third-party application is clicked, the input interface can be accessed, and the input interface has the input method switching. The operation option allows the user to switch the input method. If it is switched to the "digital input method" in the embodiment of the present application, the "digital input method" program receives the call of the current third-party application, and at this time, it can enter the step and subsequent steps.

In the above manner, the third party application may be input and controlled when the user actively switches the input method. Alternatively, in another implementation manner, the “digital input method” program in the embodiment of the present application may also determine an input environment in a third-party application, and if it finds that the input environment satisfies the preset condition, it automatically triggers the entry. This step and subsequent steps are performed. For example, the context input information of the current third-party application can be judged. If it is determined that the number is currently required to be input, and the number of digits may be relatively large, the user can automatically enter the current third-party application. That is, the user does not need to perform the manual switching input method. When it needs to input a number, it can automatically enter the input state of the "digital input method" in the embodiment of the present application, including displaying the number and counting. Unit input options for the virtual keyboard interface, and more.

S602: Generate an output sequence according to the input object and input sequence information.

S603: The output sequence is provided to the third-party application, so that the output sequence is displayed on the screen in the third-party application.

For details on how to convert the input sequence into an output sequence, refer to the introduction in the foregoing first embodiment, and details are not described herein again.

Embodiment 4

In the fourth embodiment, a user interface is provided. The user interface may include a virtual keyboard interface and a result display bar. The virtual keyboard interface includes a digital input option and a counting unit input option for receiving an input sequence. The input sequence includes at least one input object, the input object includes a number and a counting unit; the result display column is used to display an output sequence, and the output sequence is based on each input object in the input sequence Input order information is generated.

In a specific implementation, in the process in which the input object is input, each time an input object is received, the currently generated output sequence may be dynamically displayed in the display bar.

For details on how to convert the input sequence into an output sequence, refer to the introduction in the foregoing first embodiment, and details are not described herein again.

Corresponding to the digital information input processing method provided in the first embodiment, the embodiment of the present application further provides a digital information input processing device. Referring to FIG. 7, the device may specifically include:

The first input sequence receiving unit 71 is configured to receive an input sequence, where the input sequence includes a plurality of input objects, where the input objects include numbers and counting units.

The input object included in the input sequence is determined according to a reading method of the output sequence.

The first output sequence generating unit 72 is configured to generate an output sequence according to the input object and the input sequence information.

In an implementation, the first input sequence receiving unit 71 may be specifically configured to:

Providing a virtual keyboard interface including a digital input option and a counting unit input option, wherein the counting unit input option includes at least two input options having an adjacent relationship in a counting unit;

An input sequence is received through the virtual keyboard interface.

In another implementation manner, a mapping relationship between a character corresponding to a preset button in the physical keyboard and a counting unit may be established in advance;

Based on this, the first input sequence receiving unit 71 can be specifically configured to:

Receiving, by the physical keyboard, at least one number and at least one character corresponding to the preset button;

According to the mapping relationship, characters corresponding to the preset button are converted into counting units, and the received sequence is combined with the received numbers.

In addition, the device may further include:

And a simulation unit configured to simulate, in the virtual keyboard interface, a state in which the digital input option or the counting unit input option is operated during the determining of the input sequence.

In an actual application, the device may further include:

And a display unit, configured to input the output sequence into a display column in the interface for display.

Further, the device may further include:

The counting unit information providing unit is configured to provide, in the display column, counting unit information corresponding to an output object of the preset position in the output sequence.

Optionally, the device may further include:

A delete operation option providing unit is provided for providing a delete operation option for overall deleting the output sequence displayed in the display column.

In this embodiment, the first output sequence generating unit 72 may be specifically configured to:

In the process in which the input object is input, an output sequence is dynamically generated each time an input object is received.

In a specific implementation, the corresponding processing manner may be provided in advance according to the current input object and the type feature of the historical input object in the current input sequence; the type feature includes a number or a counting unit;

Based on this, the first output sequence generating unit 72 may be specifically configured to:

After receiving the current input object, determining the target processing mode according to the current input object and the type characteristics of the historical input object in the current input sequence;

The output sequence is generated according to the target processing manner.

In one case, if the current input object is a number and is the first digit of the input sequence, or the current input object and the previous input object are numbers, or the previous input object is a counting unit, the current input is zero, or, An input object is a number, the current input object is a decimal point, or the last input object is a decimal point, the current input object is a number, and the counting unit includes an integer counting unit and a decimal point, and the processing manner includes:

Adding the current input object to a temporary queue to determine the output sequence according to an N number of digits combined by all input objects in the temporary queue;

Where N is a positive integer.

Further, if the current input object is a non-integer count unit, and the integer count unit does not exist in the history input sequence, the determining the output sequence includes:

The temporary queue is determined as the current output sequence.

Further, if the current input object is an integer counting unit and the last input object is a number, the determining the output sequence includes:

And extracting the N-bit number from the temporary queue, and converting the N-digit number according to a mathematical conversion algorithm corresponding to the integer counting unit, generating a current output sequence, and clearing the temporary queue.

Further, if the current input object is zero and the previous input object is an integer count unit, the previous output sequence is determined as the current output sequence.

Further, if the current input object is a non-zero number, an integer count unit exists in the history input sequence, and the next input object of the integer count unit is zero, the processing manner includes:

Extracting the N-bit number from the temporary queue, and outputting the sequence obtained when the integer count unit is received, Adding to the N number of bits gives the current output sequence.

In another case, if the current input object is a non-zero number and the last input object is an integer count unit, the processing manner includes:

Determining a lower-order integer counting unit of the integer counting unit in the previous input object;

Converting the current input object according to the mathematical conversion algorithm corresponding to the lower-order integer counting unit;

The previous output sequence is summed with the conversion result of the current input object to determine the current output sequence.

In another implementation, the first output sequence generating unit 72 is further configured to:

After receiving the complete input sequence, the input sequence is converted to an output sequence according to the characteristics of each input object contained in the input sequence.

In the specific implementation, if there is no other input object after the integer counting unit in the input sequence, the mathematical conversion algorithm corresponding to the N digits before the integer counting unit and the integer counting unit is converted to obtain the first calculation result; wherein, N a positive integer, the N number of bits including an integer or a decimal;

The first calculation result is determined as an output sequence.

Further, if there are other input objects after the integer counting unit in the input sequence, it is determined whether the adjacent input object after the integer counting unit is the number 0;

If yes, the mathematical conversion algorithm corresponding to the consecutively input N digits of the integer counting unit and the integer counting unit is converted to obtain a first calculation result, and the M digits composed of 0 and subsequent other digits are the first The calculation results are added to obtain a second calculation result; wherein M is a positive integer;

The second calculation result is determined as an output sequence.

Further, if the input object adjacent to the integer counting unit is a non-zero number, determining a lower-order integer counting unit of the integer counting unit;

And converting the non-zero number according to the mathematical conversion algorithm corresponding to the lower-order integer counting unit, to obtain a third calculation result;

Adding the first calculation result to the third calculation result to obtain a fourth calculation result;

The fourth calculation result is determined as an output sequence.

Corresponding to the data object resource information processing method provided in the second embodiment, the embodiment of the present application further provides a data object resource information processing device. Referring to FIG. 8, the device is applied to the client, and may include:

a second input sequence receiving unit 81, configured to receive current resource information input for a specified data object, where the input information includes an input sequence, where the input sequence includes a plurality of input objects, and the input object includes a number Word and counting unit;

The second output sequence generating unit 82 generates an output sequence according to the input object and the input sequence information;

The first output sequence providing unit 83 provides the output sequence to the server such that the server publishes current resource information of the specified data object online.

In a specific implementation, the specified data object may include a business object participating in online and offline synchronous auction, the resource information includes offline bid information for the business object, and the client includes a first user client. The first user client is configured to enter bid information received by the offline for the business object.

In a specific implementation, the resource quantity information further includes bid information of the online user to the service object, the client includes a second user client, and the second user client is configured to receive an offline provided by the server/ Bidding information for other online users, as well as bid information for current online users.

Corresponding to the digital information input processing method for the third-party application provided by the third embodiment, the embodiment of the present application further provides a digital information input processing device for the third-party application. Referring to FIG. 9, the device may include:

a third input sequence receiving unit 91, configured to receive an input sequence in an input environment of a third-party application, where the input sequence includes a plurality of input objects, where the input object includes a number and a counting unit;

The third output sequence generating unit 92 is configured to generate an output sequence according to the input object and the input sequence information;

The second output sequence providing unit 93 is configured to provide the output sequence to the third-party application for displaying the output sequence on the third-party application.

In an implementation, the device may include:

The triggering unit is configured to trigger execution of the foregoing steps when receiving the calling instruction of the third-party application.

In another implementation, the device may further include:

a determining unit, configured to determine an input environment of the third-party application;

The triggering unit is configured to trigger execution of each step when the input environment satisfies a preset condition.

Through the embodiment of the present application, an input queue including a plurality of input objects input by a user may be received first, wherein the input object may include at least one number and at least one counting unit, and then according to the received number, the counting unit, and the number and the counting unit. The input sequence information generates an output queue composed of numbers, so that when the user wants to input a certain number (especially a thousand digits, a million digits or more), it is not necessary to convert the first one in the existing scheme. Input, but can directly input the number and the counting unit according to the reading of the number, thereby increasing the input of the number The efficiency and the correct rate of input, in addition, because the operation process is simple and convenient, it can also save the cost of training the input operation of the input personnel.

It will be apparent to those skilled in the art from the above description of the embodiments that the present application can be implemented by means of software plus a necessary general hardware platform. Based on such understanding, the technical solution of the present application may be embodied in the form of a software product in essence or in the form of a software product, which may be stored in a storage medium such as a ROM/RAM or a disk. , an optical disk, etc., includes instructions for causing a computer device (which may be a personal computer, server, or network device, etc.) to perform the methods described in various embodiments of the present application or portions of the embodiments.

The various embodiments in the specification are described in a progressive manner, and the same or similar parts between the various embodiments may be referred to each other, and each embodiment focuses on the differences from the other embodiments. In particular, for a system or system embodiment, since it is substantially similar to the method embodiment, the description is relatively simple, and the relevant parts can be referred to the description of the method embodiment. The system and system embodiments described above are merely illustrative, wherein the units described as separate components may or may not be physically separate, and the components displayed as units may or may not be physical units, ie It can be located in one place or it can be distributed to multiple network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the embodiment. Those of ordinary skill in the art can understand and implement without any creative effort.

The digital information input processing method and device, the data object resource information processing method and device provided by the present application, the method and device for digital information input processing of a third party application, and a user interface are described in detail herein. The principles and implementations of the present application are described by using specific examples. The description of the above embodiments is only for helping to understand the method and core ideas of the present application. Meanwhile, for those skilled in the art, according to the idea of the present application There will be changes in the specific implementation and application scope. In summary, the content of this specification should not be construed as limiting the application.

Claims (32)

1. A digital information input processing method, comprising:

   Receiving an input sequence, the input sequence includes a plurality of input objects, the input object including a number and a counting unit;

   An output sequence is generated based on the input object and input order information.
2. The method of claim 1 wherein the input objects included in the input sequence are determined based on a read of the output sequence.
3. The method of claim 1 wherein

   The receiving input sequence includes:

   Providing a virtual keyboard interface, the virtual keyboard interface includes a digital input option and a counting unit input option;

   An input sequence is received through the virtual keyboard interface.
4. The method of claim 3 wherein said counting unit input option comprises at least two input options having an adjacency relationship in a counting unit.
5. The method of claim 1 further comprising:

   Pre-establishing a mapping relationship between a character corresponding to a preset button in the physical keyboard and a counting unit;

   The receiving input sequence includes:

   Receiving, by the physical keyboard, at least one number and at least one character corresponding to the preset button;

   According to the mapping relationship, characters corresponding to the preset button are converted into counting units, and the received sequence is combined with the received numbers.
6. The method of claim 5, further comprising:

   Providing a virtual keyboard interface, the virtual keyboard interface includes a digital input option and a counting unit input option;

   In the process of determining the input sequence, a state in which the digital input option or the counting unit input option is operated is simulated in the virtual keyboard interface.
7. The method of claim 1 further comprising:

   The output sequence is input to a display bar in the interface for display.
8. The method of claim 7 further comprising:

   Count unit information corresponding to an output object of a preset position in the output sequence is provided in the display column.
9. The method of claim 7 further comprising:

   A delete operation option is provided for overall deletion of the output sequence displayed in the display bar.
10. The method according to any one of claims 1 to 9, wherein the generating an output sequence comprises:

    In the process in which the input object is input, an output sequence is dynamically generated each time an input object is received.
11. The method of claim 10, further comprising:

    Providing respective corresponding processing manners according to the current input object and the type characteristics of the historical input objects in the current input sequence; the type features include numbers or counting units;

    The dynamically generating output sequence includes:

    After receiving the current input object, determining the target processing mode according to the current input object and the type characteristics of the historical input object in the current input sequence;

    The output sequence is generated according to the target processing manner.
12. The method according to claim 11, wherein said counting unit comprises an integer counting unit and a decimal point;

    If the current input object is a number and is the first digit of the input sequence, or the current input object and the previous input object are numbers, or the last input object is a counting unit, the current input is zero, or the last input object is a number. The current input object is a decimal point, or the last input object is a decimal point, and the current input object is a number, and the processing manner includes:

    Adding the current input object to a temporary queue to determine the output sequence according to an N number of digits combined by all input objects in the temporary queue;

    Where N is a positive integer.
13. The method of claim 12, further comprising:

    If the current input object is a non-integer count unit and there is no integer count unit in the history input sequence, then determining the output sequence includes:

    The temporary queue is determined as the current output sequence.
14. The method of claim 12, further comprising:

    If the current input object is an integer count unit and the last input object is a number, then determining the output sequence includes:

    And extracting the N-bit number from the temporary queue, and converting the N-digit number according to a mathematical conversion algorithm corresponding to the integer counting unit, generating a current output sequence, and clearing the temporary queue.
15. The method of claim 14, wherein the determining the output sequence further comprises:

    If the current input object is zero and the previous input object is an integer count unit, the previous output sequence is determined as Current output sequence.
16. The method of claim 15, wherein the determining the output sequence further comprises:

    If the current input object is a non-zero number, an integer count unit exists in the history input sequence, and the next input object of the integer count unit is zero, the processing manner includes:

    The N-bit number is taken out from the temporary queue, and an output sequence obtained when the integer count unit is received is added to the N-bit number to obtain a current output sequence.
17. The method of claim 11 wherein

    If the current input object is a non-zero number and the last input object is an integer count unit, the processing manner includes:

    Determining a lower-order integer counting unit of the integer counting unit in the previous input object;

    Converting the current input object according to the mathematical conversion algorithm corresponding to the lower-order integer counting unit;

    The previous output sequence is summed with the conversion result of the current input object to determine the current output sequence.
18. The method according to any one of claims 1 to 9, wherein the generating an output sequence comprises:

    After receiving the complete input sequence, the input sequence is converted to an output sequence according to the characteristics of each input object contained in the input sequence.
19. The method according to claim 18, wherein said converting said input sequence into an output sequence according to characteristics of respective input objects included in the input sequence comprises:

    If there is no other input object after the integer counting unit in the input sequence, the mathematical conversion algorithm corresponding to the N digits before the integer counting unit and the integer counting unit is converted to obtain the first calculation result; wherein N is a positive integer. The N digits include an integer or a decimal;

    The first calculation result is determined as an output sequence.
20. The method according to claim 18, wherein said converting said input sequence into an output sequence according to characteristics of respective input objects included in the input sequence comprises:

    If there are other input objects after the integer count unit in the input sequence, it is determined whether the adjacent input object after the integer count unit is the number 0;

    If yes, the mathematical conversion algorithm corresponding to the consecutively input N digits of the integer counting unit and the integer counting unit is converted to obtain a first calculation result, and the M digits composed of 0 and subsequent other digits are the first The calculation results are added to obtain a second calculation result; wherein M is a positive integer;

    The second calculation result is determined as an output sequence.
21. The method of claim 19, further comprising:

    If the adjacent input object after the integer count unit is a non-zero number, determining a lower-order integer count unit of the integer count unit;

    And converting the non-zero number according to the mathematical conversion algorithm corresponding to the lower-order integer counting unit, to obtain a third calculation result;

    Adding the first calculation result to the third calculation result to obtain a fourth calculation result;

    The fourth calculation result is determined as an output sequence.
22. A user interface, comprising: a virtual keyboard interface and a result display bar, wherein the virtual keyboard interface includes a digital input option and a counting unit input option for receiving an input sequence, wherein the input sequence is At least one input object is included, the input object including a number and a count unit; the result display column is for presenting an output sequence, the output sequence being generated according to each input object and input order information in the input sequence.
23. The user interface according to claim 22, wherein in the process of inputting the input object, each time an input object is received, the currently generated output sequence is dynamically displayed in the display bar.
24. A data object resource information processing method, comprising:

    The client receives current resource information input for the specified data object, the input information includes an input sequence, and the input sequence includes a plurality of input objects, the input object including a number and a counting unit;

    Generating an output sequence according to the input object and input order information;

    The output sequence is provided to a server such that the server publishes current resource information for the specified data object online.
25. The method according to claim 24, wherein said specified data object comprises a business object participating in an online and offline synchronous auction, said resource information comprising offline received bid information for said business object, said The client includes a first user client, and the first user client is configured to enter bid information received by the offline for the business object.
26. The method according to claim 24, wherein said specified data object comprises a business object participating in an online and offline synchronous auction, said resource quantity information comprising bid information of said online business user on said business object, said customer The terminal includes a second user client for receiving bid information of offline/other online users provided by the server, and entering bid information of the current online user.
27. A method for digital information input processing of a third-party application, comprising:

    Receiving an input sequence in an input environment of a third party application, the input sequence including a plurality of input objects, the input object including a number and a counting unit;

    Generating an output sequence according to the input object and input order information;

    The output sequence is provided to the third party application for on-screen display of the output sequence at the third party application.
28. The method of claim 27, wherein the method further comprises:

    If a call instruction of the third party application is received, the execution of each step is triggered.
29. The method of claim 27, wherein the method further comprises:

    Determining the input environment of the third-party application;

    If the input environment satisfies the preset conditions, the execution of each step is triggered.
30. A digital information input processing device, comprising:

    a first input sequence receiving unit, configured to receive an input sequence, where the input sequence includes a plurality of input objects, where the input object includes a number and a counting unit;

    And a first output sequence generating unit configured to generate an output sequence according to the input object and the input sequence information.
31. A data object resource information processing device is characterized in that, when applied to a client, the device includes:

    a second input sequence receiving unit, configured to receive current resource information input for a specified data object, where the input information includes an input sequence, the input sequence includes a plurality of input objects, the input object includes a number and a counting unit ;

    a second output sequence generating unit, generating an output sequence according to the input object and the input sequence information;

    And a first output sequence providing unit, configured to provide the output sequence to a server, so that the server publishes current resource information of the specified data object online.
32. An apparatus for performing digital information input processing on a third-party application, comprising:

    a third input sequence receiving unit, configured to receive an input sequence in an input environment of a third-party application, where the input sequence includes a plurality of input objects, the input object including a number and a counting unit;

    a third output sequence generating unit, configured to generate an output sequence according to the input object and the input sequence information;

    And a second output sequence providing unit, configured to provide the output sequence to the third-party application to perform on-screen display of the output sequence in the third-party application.

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