CN112150050A - Method and device for sorting order commodities and storage medium thereof - Google Patents

Abstract

The invention discloses a sorting method, a sorting device and a storage medium for order commodities, wherein the method comprises the steps of receiving a plurality of pieces of order data corresponding to rated quantity orders; acquiring the inventory quantity of target commodities, wherein the target commodities are one to-be-sorted commodity appointed in the order data; calculating the difference between the total sorting quantity of the target commodities and the inventory quantity in the plurality of pieces of order data to obtain a commodity quantity difference, and circularly distributing the commodity quantity difference to the plurality of pieces of order data to obtain the actual sorting quantity of each piece of order data when the commodity quantity difference is larger than zero; and sorting the target commodities of the corresponding orders according to the actual sorting quantity of each piece of order data. Through the cyclic distribution of the quantity difference of the commodities, a plurality of orders in the rated quantity range are in a sorting stagnation state fairly, and the replenishment of a goods source is waited, so that the technical problem that the orders are missed in the sorting process is solved.

Description

A sorting method, device and storage medium for order commodities

technical field

The invention relates to the field of logistics, in particular to a sorting method, device and storage medium of order commodities.

Background technique

At present, in the commodity sorting link of logistics, multiple orders are first formed into a sorting task, and then the sorting task is assigned to the corresponding commodity warehouse for sorting. After each warehouse receives the sorting task, it will sort the goods from the warehouse according to the quantity and time sequence of the ordered goods of the sorting task, but when the sorting shows that the number of goods in the warehouse is insufficient, the sorting will be completed. Orders that have not been sorted will be delivered first, and orders that have not been sorted will be terminated and the sorting will continue after the goods are delivered to the warehouse. Finally, the orders that have not been sorted will be sorted and delivered to customers according to the customer information in the order.

In the above method, the order that has not been sorted will forget the subsequent sorting. The reason why the above method is adopted is that it took a long time for the warehouse to adjust the goods from the source or the manufacturer in the past, and the pursuit of order volume improves the user experience. Now with the continuous improvement of the logistics system, the time for adjusting the goods has been greatly reduced, but the situation of forgetting the subsequent sorting still exists.

Therefore, the inventor found that there are at least the following problems in the prior art. With the great reduction in the time for warehouses to arrange goods from the source of goods or manufacturers, the technical problem of forgetting to sort unsorted orders still occurs.

SUMMARY OF THE INVENTION

The present application provides a sorting method for order commodities, the purpose of which is to prevent the problem of forgetting the sorting of unsorted orders when the source of goods or the time for manufacturers to adjust the goods is relatively short.

The method includes:

Receive multiple order data corresponding to orders of rated quantity;

Obtain the inventory quantity of the target commodity, wherein the target commodity is a commodity to be sorted specified in the order data;

Judging that the sum of the sorting quantities of the target commodities in the multiple pieces of the order data is subtracted from the inventory quantity to calculate the commodity quantity difference, and when the commodity quantity difference is greater than zero, the commodity quantity difference is circulated is allocated to the sorting quantity of the multiple pieces of the order data, and obtains the actual sorting quantity of each piece of the order data;

According to the actual sorting quantity of each piece of the order data, the corresponding order target commodities are sorted.

Optionally, when the difference in the quantity of goods is greater than zero, the difference in the quantity of goods is cyclically allocated to the sorting quantities of a plurality of pieces of the order data, and the actual score of each piece of the order data is obtained. Picking quantities include:

When the difference in the quantity of the commodities is greater than zero, the step of subtracting the sorting quantity of each piece of the order data from the preset difference value is executed cyclically according to the predetermined order of the plurality of pieces of order data, wherein, the preset difference value is less than the commodity quantity difference value,

Accumulate the preset difference value of the above-mentioned subtraction step in each loop to obtain the difference accumulation value, when the preset difference value is greater than the difference between the commodity quantity difference value and the difference accumulation value, end the loop and execute the above-mentioned difference accumulation value. The step of subtracting the sorting quantity and the preset difference value and subtracting the difference from the sorting quantity of the order data for which the subtraction step is performed next to obtain the actual sorting of each piece of the order data quantity.

Optionally, the sum of the sorting quantities of the multiple pieces of the order data is subtracted from the inventory quantity to obtain a commodity quantity difference, and when the commodity quantity difference is less than or equal to zero, the method further includes:

The sorting quantity of the multiple pieces of the order data is the actual sorting quantity corresponding to the order data.

Optionally, the multiple pieces of order data corresponding to the receiving a rated quantity order include:

Receive multiple order data corresponding to multiple orders;

Select the order data with the target commodity sorting quantity from it;

Get the nominal quantity of order data with the target item picking quantity.

Optionally, the method further includes: the predetermined order is a descending order according to the order data sorting quantity.

Optionally, after the step of subtracting the sum of the sorting quantities of the plurality of pieces of the order data and the inventory quantity to obtain the difference in the quantity of goods, the method further includes: outputting the difference in the quantity of goods.

The application also provides a sorting device for order commodities, the device includes:

The receiving module is used to receive multiple order data corresponding to the rated quantity order;

an acquisition module, configured to acquire the inventory quantity of a target commodity, wherein the target commodity is a commodity to be sorted specified in the order data;

The calculation module is used for judging the sum of the sorting quantities of the target commodities in the multiple pieces of the order data and the inventory quantity to calculate the difference in the number of commodities, and when the difference in the number of commodities is greater than zero, the The difference in the quantity of goods is cyclically allocated to multiple pieces of the order data, and the actual sorting quantity of each piece of the order data is obtained;

The sorting module is used for sorting the corresponding order target commodities according to the actual sorting quantity of each said order data.

Optionally, the device includes:

The calculation module is configured to, when the difference in the quantity of the goods is greater than zero, execute the sequence of cyclically in a predetermined order of the plurality of pieces of the order data to subtract the sorting quantity of each piece of the order data from the preset difference value step, wherein the preset difference value is smaller than the commodity quantity difference value, and the preset difference value of each cycle of performing the above subtraction step is accumulated to obtain a difference accumulated value, when the preset difference value is greater than the When there is a difference between the difference between the quantity of goods and the accumulated difference value, the cycle is ended, and the above step of subtracting the sorting quantity and the preset difference value is performed, and the sorting of the next order data that is subjected to the subtraction step is performed. The difference is subtracted from the quantity to obtain the actual sorting quantity of each piece of the order data.

Optionally, the device includes:

The calculation module is further configured to, when the difference in the quantity of commodities is less than or equal to zero, the sorting quantity of the multiple pieces of the order data is the actual sorting quantity corresponding to the order data.

Optionally, the device includes:

The receiving module is further configured to receive multiple order data corresponding to multiple orders;

The selection module is used to select the order data with the target commodity sorting quantity from it;

The obtaining module is used for obtaining a rated quantity of order data with a target commodity sorting quantity.

The present application also provides a sorting device for order commodities, the device comprising: a processor and a memory;

An application program executable by the processor is stored in the memory for causing the processor to execute the steps of the method for sorting order goods as described above.

The present application also provides a computer-readable storage medium on which a computer program is stored, and when the program is executed by a processor, implements the steps of the method for sorting order commodities.

As can be seen above, based on the above embodiment, a new sorting method for order commodities is provided. By cyclically allocating the difference in the number of commodities to multiple order data in a task, the order data in the task is equitably placed in the unfinished order. In order to replenish the goods after the subsequent adjustment, it solves the technical problem in the prior art that it is easy to forget that a sufficient number of commodity orders are not sorted for subsequent sorting.

Description of drawings

FIG. 1 is a schematic diagram of a process 100 of a sorting method for order commodities in one embodiment;

FIG. 2 is a schematic diagram of a process 200 of a sorting method for order commodities in one embodiment;

FIG. 3 is a schematic diagram of a process 300 of a sorting method for order commodities in one embodiment;

4 is a schematic diagram of the structure of a plurality of orders corresponding to a plurality of orders of a rated quantity in one embodiment;

5 is a schematic diagram of the architecture of the first execution cycle step of multiple order data in one embodiment;

FIG. 6 is a schematic diagram of the structure of the second execution cycle step of multiple order data in one embodiment;

7 is a schematic diagram of the actual sorting quantity sorting of multiple order data and the subsequent process architecture in one embodiment;

FIG. 8 is a schematic structural diagram of a sorting device for order commodities in one embodiment.

Detailed ways

In order to make the objectives, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail below with reference to the accompanying drawings and embodiments.

FIG. 1 is a schematic diagram of a process 100 of a sorting method for order commodities in one embodiment. As shown in FIG. 1 , in one embodiment, the present application provides a method for sorting order commodities, the method comprising:

S101, receiving multiple pieces of order data corresponding to the order of the rated quantity;

This step provides a specific step for receiving order data. The rated quantity in this step is a preset quantity value that conforms to subsequent processing, because when the order data corresponding to the order is received, the quantity of the order may be a large amount of big data , which needs to be split into orders of magnitude that can be executed in stages. Among them, the order data should at least have the data of the product and the corresponding sorting quantity.

S102, obtaining the inventory quantity of the target commodity, wherein the target commodity is a commodity to be sorted specified in the order data;

In this step, the specific quantity of the target commodity in the inventory (ie, the inventory quantity) needs to be obtained, which is used for the subsequent judgment on whether replenishment is required, and is also the judgment basis for the subsequent method. In this step, the specific inventory quantity is stored in the database of preset records, and is modified in real time according to the actual situation.

S103, judging that the sum of the sorting quantities of the target commodities in the plurality of pieces of the order data is subtracted from the inventory quantity to obtain a commodity quantity difference, and when the commodity quantity difference is greater than zero, calculate the commodity quantity difference The value is cyclically allocated to multiple pieces of the order data, and the actual sorting quantity of each piece of the order data is obtained;

In this step, the sum of the sorting quantities corresponding to the multiple order data of the rated quantity is added to obtain the sum of the sorting quantities, and the difference in the quantity of goods is obtained by subtracting the inventory quantity from the sum of the sorting quantities. The essence of the difference in the quantity of goods is the warehouse Medium for the out-of-stock quantity for the target item.

Then, when the difference in the quantity of goods is greater than zero, that is, the target goods in the warehouse are out of stock. In this case, the difference in the quantity of goods is cyclically allocated to the sorting quantities of the multiple pieces of the order data, and each piece of the order data is obtained. The actual sorting quantity of the stated order data.

S104, sorting the corresponding order target commodities according to the actual sorting quantity of each piece of the order data.

In this step, the sorting of the target commodities corresponding to the order is performed according to the actual sorting quantity of each order data. After sorting is completed according to the actual sorting quantity of each order data, the actual sorting quantity is mapped back to the corresponding order. If the sorting is completed, the goods can be shipped according to the customer information in the order.

In this embodiment, a method for sorting order commodities is provided, which is aimed at the specific situation that the quantity of target commodities in the inventory is less than the quantity of commodities required in the order. First, multiple pieces of order data corresponding to the rated quantity order are received, and then the inventory quantity of the target commodity is obtained. It should be pointed out that the target commodity is a commodity to be sorted specified in the order data. It is judged that the sum of the sorting quantities of the target commodities in the multiple pieces of the order data is subtracted from the inventory quantity to calculate the commodity quantity difference. When the commodity quantity difference is greater than zero, it means that the inventory quantity is not enough to meet the requirements in these orders. Sorting quantity, the difference in the quantity of commodities is cyclically allocated to the sorting quantity of the multiple pieces of the order data, and the actual sorting quantity of each piece of the order data is obtained. Finally, the corresponding order target products are sorted according to the actual sorting quantity of each order data. In this way, the quantity of insufficient target commodities is allocated to the orders corresponding to these order data. For the multiple order data of this application, it is necessary to wait for replenishment, that is, the situation of forgetting subsequent sorting will not occur.

In another scenario, for example, when distributing goods to different warehouses, the sorting method of the ordered goods in this application can also be used, because when distributing goods to the warehouses, the order quantity is not pursued, but the fairest possible. Allocate out-of-stock quantities.

In one embodiment, when the difference in the quantity of the goods is greater than zero, the difference in the quantity of goods is cyclically allocated to the sorting quantities of the multiple pieces of the order data, and the number of each piece of the order data is obtained. Actual sorting quantities include:

When the difference in the quantity of goods is greater than zero, the step of subtracting the sorting quantity of each piece of order data from the preset difference value is executed cyclically according to the predetermined order of the plurality of pieces of order data, wherein the The preset difference value is less than the difference value of the quantity of goods,

Accumulate the preset difference value performed in the above-mentioned subtraction step in each loop to obtain the difference accumulated value, when the preset difference value is greater than the difference between the commodity quantity difference and the difference accumulated value, end the loop and execute the above-mentioned difference. The step of subtracting the picking quantity from the preset difference value and subtracting the difference value from the sorting quantity of the order data for which the subtraction step is performed next to obtain the actual sorting quantity of each piece of the order data;

This embodiment provides a new distribution method. When the difference in the quantity of goods is greater than zero, the corresponding sorting quantity is cyclically subtracted from the preset difference for each order data. The above cycle stops when the difference in the quantity of goods is used up. Specifically, the step of subtracting the sorting quantity of each piece of the order data from the preset difference value is executed in a circular sequence in a predetermined order of the plurality of pieces of the order data, and the preset value of the subtraction step for each loop is accumulated. The difference value gets the difference accumulated value. When the preset difference value is greater than the difference between the difference between the quantity of goods and the accumulated difference value, the cycle is ended and the above-mentioned subtraction step of the sorting quantity and the preset difference value is executed, and the next one that performs the subtraction step is executed. Subtract the difference from the sorting quantity of the order data to obtain the actual sorting quantity of each order data.

It should be noted that, in this embodiment, the difference between the commodity quantity difference and the difference accumulated value can be understood as whether the commodity quantity difference is used up.

In order to confirm that the difference in the quantity of goods is exhausted, the concept of accumulated difference value is introduced. The preset difference value of the execution loop is continuously accumulated to obtain the accumulated difference value. If the preset difference value is greater than the difference between the difference of the quantity of goods and the accumulated value of the difference, it proves that the difference of the quantity of goods will be used if the loop is executed again. However, continuing to cyclically perform the step of subtracting the sorting quantity of each piece of order data from the preset difference value may cause the accumulated difference value to exceed the product quantity difference, thereby causing an error in the calculation of the actual sorting quantity. Therefore, when this situation occurs, the difference is subtracted from the sorting quantity of the order data in the next step of subtraction, and finally each order data is allocated, that is, the above loop is executed, and each order is obtained. The actual picking quantity for the order data described in the bar.

In one embodiment, the sum of the sorting quantities of the multiple pieces of the order data is subtracted from the inventory quantity to obtain a difference in the quantity of goods, and when the difference in the quantity of goods is less than or equal to zero, the method further includes:

The sorting quantity of the multiple pieces of the order data is the actual sorting quantity corresponding to the order data.

This embodiment provides a situation that when the inventory quantity can meet the actual sorting quantity in the order, the sorting can be done according to the sorting quantity of the multiple pieces of order data.

FIG. 2 is a schematic diagram of a flow 200 of a sorting method for order commodities in one embodiment. As shown in FIG. 2 , in one embodiment, the multiple pieces of order data corresponding to the receiving a rated quantity order include:

S201, receiving multiple pieces of order data corresponding to multiple orders;

In this step, multiple pieces of order data come from massive orders, and massive orders will generate one-to-one corresponding order data, that is, multiple pieces of order data in this step.

S202, select the order data with the target commodity sorting quantity therefrom;

In this step, the multiple order data in the previous step is filtered, and the order data with the target commodity sorting quantity is selected.

S203: Obtain a rated quantity of order data with the target commodity sorting quantity.

In this step, a set of order data with a rated quantity is obtained, and then the subsequent processing steps are all processed with respect to the order data in this set.

In this embodiment, a specific method of selecting order data with a target commodity sorting quantity is provided, and then a set of order data of a rated quantity is formed, and subsequent processing is performed on the order data in this set. The purpose is to improve the efficiency and pertinence of subsequent processing by screening order data with the target commodity sorting quantity, because in this embodiment, sorting is only implemented for orders with target commodities.

In an embodiment, the method further includes: the predetermined order is a descending order of the order data sorting quantity.

This embodiment provides a specific implementation of the predetermined order. When the corresponding order with the largest number of sorting is ranked first in the sorting process, the previous order data is sorted first in the cycle process.

In one embodiment, after the step of subtracting the sum of the sorting quantities of the multiple pieces of the order data and the inventory quantity to obtain the difference in the quantity of goods, the method further includes:

In this embodiment, the purpose of outputting the difference in the quantity of goods is that the manufacturer replenishes the goods according to the out-of-stock quantity corresponding to the difference in the quantity of goods.

Basic principle and working process:

The application will be further described below through the sorting process of e-commerce orders. It should be pointed out that the sorting of e-commerce orders is only to better illustrate the specific examples of the application, rather than the specific limitations of the application.

FIG. 3 is a schematic diagram of a process 300 of a sorting method for order commodities in one embodiment. As shown in FIG. 3 , in one embodiment, the present application also provides another method for sorting order commodities, the method comprising:

S301, receiving multiple order data corresponding to multiple orders;

Fig. 4 is a schematic diagram of the structure of multiple orders corresponding to multiple orders in one embodiment. As shown in Fig. 4, a large number of online orders are received, and each order exists in the form of one-to-one corresponding order data. In other words, receiving There is a large amount of multiple order data, and the order data can have various commodities and the corresponding sorting quantity, price, customer address and other related information. Among them, the order data should at least have the data of the product and the corresponding sorting quantity.

S302, select the order data with the target commodity sorting quantity therefrom;

A target commodity is specified for the massive multiple pieces of order data in the previous step, wherein the target commodity is a commodity to be sorted specified in the order data. For example, specify a stroller in the order data as the target product.

S303, obtaining a rated quantity of order data with the target commodity sorting quantity;

Obtain order data with a specified stroller and corresponding quantity from a large number of multiple order data, and preset a rated quantity. For example, select the target product with a rated quantity of 5 as the stroller and the order data of the corresponding quantity. Because the order data with the stroller and the corresponding quantity may still be a massive amount of data, it is impossible to process and calculate all of them, so it is necessary to establish a group for subsequent processing, that is, group by a rated quantity to realize subsequent processing. .

S304, obtaining the inventory quantity of the target commodity, wherein the target commodity is a specified commodity to be sorted in the order data;

Get the stock quantity of the target item pre-stored in the database.

S305, judging that the sum of the sorting quantities of the target commodities in the multiple pieces of the order data is subtracted from the inventory quantity to calculate the difference in the number of commodities,

When the difference in the quantity of goods is greater than zero, the step of subtracting the sorting quantity of each piece of order data from the preset difference value is executed cyclically according to the predetermined order of the plurality of pieces of order data, wherein the The preset difference value is less than the difference value of the quantity of goods,

Accumulate the preset difference value of the above-mentioned subtraction step in each loop to obtain the difference accumulation value, when the preset difference value is greater than the difference between the commodity quantity difference value and the difference accumulation value, end the loop and execute the above-mentioned difference accumulation value. The step of subtracting the sorting quantity and the preset difference value and subtracting the difference from the sorting quantity of the order data for which the subtraction step is performed next to obtain the actual sorting of each piece of the order data quantity;

In order to better illustrate this step, it is assumed that 5 pieces of order data of one kind of baby carriage are received, and the sorting quantities corresponding to the 5 pieces of order data are 7, 8, 10, 4, and 6, respectively. The sum of the sorting quantity is to add 5 numbers (7+8+10+4+6=35), and then subtract the sum of the sorting quantity and the inventory quantity to obtain the difference in the quantity of goods. For example, the inventory quantity is 20, then after the calculation The difference in the quantity of goods is 35-20=15. That is to say, for this kind of stroller, 15 items are missing, and these 15 items need to be replenished.

When the product quantity difference is 15, the value is greater than zero. At this time, 5 pieces of order data are arranged in a predetermined order, and the predetermined order can be a descending order, that is, the order of 10, 8, 7, 6, and 4. Then, a preset difference value is set, and the preset difference value is smaller than the commodity quantity difference value. For example, set the default difference value to 2.

FIG. 5 is a schematic structural diagram of a first execution cycle step of multiple pieces of order data in one embodiment. As shown in FIG. 5 , the subtraction steps are performed in a predetermined order thereafter, and the 5 pieces of order data become 8, 6, 5, 4, and 2 after the first round of circulation. At this time, the preset difference values of the above-mentioned subtraction steps are accumulated in each cycle to obtain the accumulated difference value, and the accumulated difference value of 5 order data after the first round of cyclic subtraction is 10 (5 order data multiplied by the pre-calculated value of 5 operations) The difference value is set to 2, and the accumulated difference value is calculated to be 10).

FIG. 6 is a schematic diagram of the structure of the second execution cycle of multiple order data in one embodiment. As shown in FIG. 6, and so on, when the second cycle is performed, the top two order data among the five order data The corresponding data will become 6 and 4. When the subtraction step is performed to the third order data, it will be found that the preset difference value 2 is greater than the difference between the product quantity difference and the difference accumulated value (15-14=1), At this time, subtract 1 from 5 corresponding to the third order data at this time to obtain 4, and this step can be completed. At this time, after each order data goes through the above cycle, the corresponding sorting quantity at this time is the actual sorting quantity. Pick quantity. Therefore, the actual sorting quantities corresponding to the five order data in the above example are 6, 4, 4, 4, and 2, respectively.

In addition, it is necessary to output the difference in the quantity of goods for the warehouse staff to replenish the goods according to the difference in the quantity of goods.

Subtract the sum of the sorting quantities of the multiple order data and the inventory quantity to obtain the difference in the quantity of goods. When the difference in the quantity of goods is less than or equal to zero, it means that the quantity of goods in the warehouse is sufficient for this sorting. The sorting quantity of the data is the actual sorting quantity corresponding to the order data.

S306, sorting the corresponding order target commodities according to the actual sorting quantity of each piece of the order data.

Fig. 7 is a schematic diagram of the actual sorting quantity sorting of multiple order data and the subsequent process architecture in one embodiment. As shown in Fig. 8, it should be pointed out that the non-decreasing power arrangement is used, then in the process of performing the subtraction, the final The actual sorting quantity may have a negative value. If there is a negative value, the actual sorting quantity will be zero. At this time, since each order data is still in the state of pending order (the order is ready to be shipped). The multiple order data of the rated quantity is in a stagnant state at this time, so that the subsequent replenishment sorting can be performed after replenishment. This method is more fair, and the sorting equipment or personnel will not forget to sort the processed orders.

FIG. 8 is a schematic structural diagram of a sorting device for order commodities in one embodiment. As shown in FIG. 8, in one embodiment, the present application provides a sorting device for order commodities, the device includes:

A receiving module 101, configured to receive multiple pieces of order data corresponding to orders of a rated quantity;

an acquisition module 102, configured to acquire the inventory quantity of a target commodity, wherein the target commodity is a commodity to be sorted specified in the order data;

The calculation module 103 is used for judging the sum of the sorting quantities of the target commodities in the multiple pieces of the order data and the inventory quantity to calculate the difference in the quantity of commodities, and when the difference in the quantity of the commodities is greater than zero, calculate the difference in the number of commodities. The difference in the quantity of the commodities is cyclically distributed to multiple pieces of the order data, and the actual sorting quantity of each piece of the order data is obtained;

The sorting module 104 is configured to sort the target commodities corresponding to the order according to the actual sorting quantity of each piece of the order data.

In one embodiment, the apparatus includes:

The calculation module 103 is configured to, when the difference in the quantity of the commodities is greater than zero, execute the sequence of cyclically executing the sorting quantity of each piece of the order data and the preset difference according to the predetermined order of the plurality of pieces of the order data. The step of subtraction, wherein the preset difference value is less than the difference value of the quantity of goods, and the preset difference value of each cycle of performing the above subtraction step is accumulated to obtain the accumulated difference value, when the preset difference value is greater than the predetermined difference value. When the difference between the difference between the quantity of goods and the accumulated value of the difference ends the cycle, execute the subtraction step of the above-mentioned sorting quantity and the preset difference value, and subtract the sorting quantity of the order data for which the subtraction step is performed next. The difference value is used to obtain the actual sorting quantity of each piece of the order data.

In one embodiment, the apparatus includes:

The calculation module 103 is further configured to, when the difference in the quantity of goods is less than or equal to zero, the sorting quantity of the multiple pieces of the order data is the actual sorting quantity corresponding to the order data.

In one embodiment, the apparatus includes:

The receiving module 101 is further configured to receive multiple order data;

The selection module 105 is used to select order data with the target commodity sorting quantity therefrom;

The obtaining module 102 is configured to obtain a rated quantity of order data with a target commodity sorting quantity.

In an embodiment, the present application further provides a sorting device for order commodities, the device comprising: a processor and a memory;

An application program executable by the processor is stored in the memory for causing the processor to execute the steps of the method for sorting order goods.

In one embodiment, a computer-readable storage medium having a computer program stored thereon is characterized in that, when the program is executed by a processor, the steps of the method for sorting order commodities are implemented.

The above descriptions are only preferred embodiments of the present invention, and are not intended to limit the present invention. Any modifications, equivalent replacements, improvements, etc. made within the spirit and principles of the present invention shall be included in the present invention. within the scope of protection.

Claims (12)

1. A sorting method for order commodities, characterized in that the method comprises: Receive multiple order data corresponding to orders of rated quantity; Obtain the inventory quantity of the target commodity, wherein the target commodity is a commodity to be sorted specified in the order data; Judging that the sum of the sorting quantities of the target commodities in the multiple pieces of the order data is subtracted from the inventory quantity to calculate the difference in the number of commodities, When the difference in the quantity of goods is greater than zero, cyclically allocate the difference in the quantity of goods to the sorting quantities of the multiple pieces of the order data to obtain the actual sorting quantity of each piece of the order data; According to the actual sorting quantity of each piece of the order data, the corresponding order target commodities are sorted. 2 . The sorting method of order commodities according to claim 1 , wherein when the commodity quantity difference is greater than zero, the commodity quantity difference is cyclically allocated to multiple pieces of the order data. 3 . In the sorting quantity of , the actual sorting quantity obtained for each said order data includes: When the difference in the quantity of the commodities is greater than zero, the step of subtracting the sorting quantity of each piece of the order data from the preset difference value is executed cyclically according to the predetermined order of the plurality of pieces of order data, wherein, the preset difference value is less than the commodity quantity difference value, Accumulate the preset difference value of the above-mentioned subtraction step in each loop to obtain the difference accumulation value, when the preset difference value is greater than the difference between the commodity quantity difference value and the difference accumulation value, end the loop and execute the above-mentioned difference accumulation value. The step of subtracting the sorting quantity and the preset difference value and subtracting the difference from the sorting quantity of the order data for which the subtraction step is performed next to obtain the actual sorting of each piece of the order data quantity. 3 . The sorting method of order commodities according to claim 1 , wherein the sum of the sorting quantities of the plurality of pieces of the order data is subtracted from the inventory quantity to obtain a difference in the quantity of commodities, and when the number of commodities When the difference is less than or equal to zero, the method also includes: The sorting quantity of the multiple pieces of the order data is the actual sorting quantity corresponding to the order data. 4 . The sorting method of order commodities according to claim 1 , wherein the receiving a plurality of pieces of order data corresponding to an order of a rated quantity comprises: 5 . Receive multiple order data corresponding to multiple orders; Select the order data with the target commodity sorting quantity from it; Get the nominal quantity of order data with the target item picking quantity. 5 . The sorting method of order commodities according to claim 1 , wherein the method further comprises: the predetermined order is a descending order of sorting quantity according to the order data. 6 . 6 . The sorting method for order commodities according to claim 1 , wherein after the step of subtracting the sum of the sorting quantities of the multiple pieces of the order data and the inventory quantity to obtain the difference in the quantity of the commodities, the The method further includes: outputting the commodity quantity difference. 7. A sorting device for the order commodity, the device comprising: The receiving module is used to receive multiple order data corresponding to the rated quantity order; an acquisition module, configured to acquire the inventory quantity of a target commodity, wherein the target commodity is a commodity to be sorted specified in the order data; The calculation module is used for judging the sum of the sorting quantities of the target commodities in the multiple pieces of the order data and the inventory quantity to calculate the difference in the number of commodities, and when the difference in the number of commodities is greater than zero, the The difference in the quantity of goods is cyclically allocated to multiple pieces of the order data, and the actual sorting quantity of each piece of the order data is obtained; The sorting module is used for sorting the corresponding order target commodities according to the actual sorting quantity of each said order data. 8. The sorting device for order commodities according to claim 7, the device comprising: The calculation module is configured to, when the difference in the quantity of the goods is greater than zero, execute the sequence of cyclically in a predetermined order of the plurality of pieces of the order data to subtract the sorting quantity of each piece of the order data from the preset difference value step, wherein the preset difference value is smaller than the commodity quantity difference value, and the preset difference value of each cycle of performing the above subtraction step is accumulated to obtain a difference accumulated value, when the preset difference value is greater than the When there is a difference between the difference between the quantity of goods and the accumulated difference value, the cycle is ended, and the above step of subtracting the sorting quantity and the preset difference value is performed, and the sorting of the next order data that is subjected to the subtraction step is performed. The difference is subtracted from the quantity to obtain the actual sorting quantity of each piece of the order data. 9. The sorting device for order commodities according to claim 8, the device comprising: The calculation module is further configured to, when the difference in the quantity of commodities is less than or equal to zero, the sorting quantity of the multiple pieces of the order data is the actual sorting quantity corresponding to the order data. 10. The sorting device for order commodities according to claim 9, the device comprising: The receiving module is further configured to receive multiple order data corresponding to multiple orders; The selection module is used to select the order data with the target commodity sorting quantity from it; The obtaining module is used for obtaining a rated quantity of order data with a target commodity sorting quantity. 11. An order commodity sorting device, characterized in that the device comprises: a processor and a memory; An application program executable by the processor is stored in the memory for causing the processor to execute the steps of the method for sorting order goods according to any one of claims 1 to 6. 12 . A computer-readable storage medium on which a computer program is stored, characterized in that, when the program is executed by a processor, the steps of the order commodity sorting method according to any one of claims 1 to 6 are implemented.

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