JP2016533588A - Storage processing method, apparatus and terminal - Google Patents

Abstract

The present invention provides a storage processing method, apparatus, and terminal, which integrates the storage space of the internal memory card of the terminal and the storage space of the external memory card into one unified storage space, and after the integration. Storing the terminal according to the unified storage space. According to the present invention, there is a problem that the storage space is insufficient when the terminal does not use an external memory card in the existing technology, and when an external memory card is used, a third party Solves problems that affect the user's experience due to inability to use the application, is easy to operate, improves the storage capacity of the main memory card of the terminal, and realizes the effect of improving the user's usage experience .

Description

  The present invention relates to the communication field, and more particularly to a storage processing method, apparatus, and terminal.

  Due to the open source of Android, many terminal manufacturers are currently developing with the Android system, and such a terminal (for example, a mobile phone) is stored in the mobile phone by using the provided Flash. A part of the storage space is virtualized as an internal memory card, and a mount point is added to the external device to assist the user to insert the T card into an external memory card.

  However, Android's original design prevents the user from inserting and expanding an external memory card, i.e., in a non-external storage mode, and when the Flash capacity reaches 16G or more, There is a problem that the user's demand can be satisfied, but the purchase cost is high, and at the same time the capacity of the mobile phone cannot be expanded after the storage space is full. That is, if the built-in memory card is large, the purchase cost of the user is directly increased. On the other hand, if the built-in memory card is not large and the built-in memory card is the main memory card, that is, if the built-in memory card is given priority, many Applications are stored in the built-in memory card, and the problem of lack of space is likely to occur.

In mobile phones that support external memory cards, users are allowed to insert external memory cards, and in order to reduce the cost of mobile phones, users can add external memory cards themselves using low-capacity flash. Decide whether or not to do. When adding an external memory card, there is a problem of giving priority to the internal memory card or to giving priority to the external memory card, and FIG. 1 is a diagram showing a storage structure that prioritizes the internal memory card in the existing technology. As shown in FIG. 1, when the priority is given to the built-in memory card, the capacity of the flash itself is not large, so the problem of insufficient space of the built-in memory card is likely to occur, and many applications cannot be installed in the mobile phone. FIG. 2 is a diagram showing a storage structure that prioritizes the external memory card in the existing technology. As shown in FIG. 2, when the external memory card is prioritized, the storage capacity of the mobile phone is greatly expanded. After removing the memory card, there is a problem that many installed applications cannot operate normally.
When a method that prioritizes the external memory card is used, when the third-party application is installed or data is accessed after the external memory card is removed, the Android standard API is scheduled to be used in both cases. The presence status of the card is acquired, and when the main memory card does not exist, the function is not normal or cannot be used, and a pop-up window pops out to notify the user. Therefore, if the external memory card is used as the main memory card, that is, if the external memory card is given priority, it can be removed, so that a problem occurs when there is no external memory card.

  Therefore, there is a problem that the storage space is insufficient when the terminal does not use the external memory card in the existing technology, and when using the external memory card, the third party application works normally when the external card is removed There is a problem that cannot be used for the user and affects the user experience.

  The present invention has a problem that the storage space is insufficient when the terminal does not use the external memory card in at least the existing technology, and when the external memory card is used, the third party Provided are a storage processing method, an apparatus, and a terminal capable of solving problems that cannot normally use an application and affect a user experience.

  According to one aspect of the present invention, the storage space of the internal memory card of the terminal and the storage space of the external memory card are integrated into one unified storage space, and according to the unified storage space after the integration, And a storage processing method including storing a terminal.

  Here, integrating the storage space of the internal memory card of the terminal and the storage space of the external memory card into the unified storage space means that the same file storage route is stored in the internal memory card and the external memory card. And integrating the storage space of the internal memory card and the storage space of the external memory card into the unified storage space according to the same file storage route.

  Here, the storage process of the terminal according to the unified storage space after the integration determines whether the size of the storage target file exceeds the storage space of the built-in memory card, and the determination result Is YES, the storage target file is stored in the external memory card, and / or the determination target is NO, the storage target file is stored in the internal memory card.

  Here, according to the unified storage space after integration, performing storage processing of the terminal, determining a memory card that can completely store the storage target file, and determining the storage target file Storing in a memory card.

  Here, the storage process of the terminal is performed according to the unified storage space after integration, and the ratio of the remaining storage space of the internal memory card and the remaining storage space of the external memory card is less than a predetermined value. If the determination result is YES and the determination result is YES, the storage target file is stored in the internal memory card, and / or if the determination result is NO, the storage target file is stored in the external Storing in a memory card.

  Here, performing the storage process of the terminal according to the unified storage space after the integration determines the percentage that the internal memory card and the external memory card occupy in the unified storage space; Storing a file to be stored based on the percentage that has been made.

  According to another aspect of the present invention, the integrated module configured to integrate the storage space of the internal memory card of the terminal and the storage space of the external memory card into one unified storage space; There is provided a storage processing device including a processing module configured to perform storage processing of a terminal according to a unified storage space.

  Here, the integrated module stores the built-in memory card in accordance with the construction unit configured to construct the same file storage route on the internal memory card and the external memory card, and the same file storage route. An integration unit configured to integrate the space and the storage space of the external memory card into the unified storage space.

  Here, the processing module includes a first determination unit configured to determine whether the size of the storage target file exceeds the storage space of the internal memory card, and when the determination result is YES, A first storage unit configured to store a storage target file in the external memory card and / or a configuration in which the storage target file is stored in the built-in memory card when the determination result is NO And a second storage unit.

  Here, the processing module stores the first storage unit configured to determine a memory card capable of completely storing the storage target file, and the storage target file stored in the determined memory card. And a third storage unit configured.

  Here, the processing module is configured to determine whether or not a ratio between the remaining storage space of the internal memory card and the remaining storage space of the external memory card is less than a predetermined value. A unit and a fourth storage unit configured to store a storage target file in the internal memory card if the determination result is YES, and / or if the determination result is NO, the storage target file is And a fifth storage unit configured to store in the external memory card.

  Wherein the processing module is based on the determined percentage and a second determination unit configured to determine a percentage that the internal memory card and the external memory card occupy in the unified storage space. A sixth storage unit configured to store the storage target file.

  According to another aspect of the present invention, a terminal including any of the above-described devices is provided.

  According to the present invention, the storage space of the internal memory card of the terminal and the storage space of the external memory card are integrated into one unified storage space, and the storage process of the terminal is performed according to the unified storage space after the integration. In the existing technology, there is a problem that the storage space is insufficient when the terminal does not use the external memory card in the existing technology, and when the external memory card is used, there is a problem when the external card is removed. The user's application cannot be used normally and the problem affecting the user experience is solved, the storage capacity of the main memory card of the terminal is improved, and the user experience can be improved.

The drawings described herein are for the purpose of further understanding the present invention and constitute a part of the present application, and the embodiments and the description shown in the present invention are intended to interpret the present invention and are not intended to limit the present invention. Absent.
It is a figure which shows the memory structure which gives priority to the internal memory card in the existing technology. It is a figure which shows the memory structure which gives priority to the external memory card in the existing technology. It is a flowchart which shows the memory | storage processing method based on the Example of this invention. It is a block diagram which shows the structure of the memory | storage processing apparatus which concerns on the Example of this invention. It is a block diagram which shows the structure of the integrated module 42 of the storage processing apparatus based on the Example of this invention. It is a block diagram 1 which shows the structure of the processing module 44 of the memory | storage processing apparatus based on the Example of this invention. It is a block diagram 2 which shows the structure of the processing module 44 of the memory | storage processing apparatus based on the Example of this invention. FIG. 4 is a block diagram showing a structure of a processing module 44 of the storage processing device according to the embodiment of the present invention. It is a block diagram which shows the structure of the processing module 44 of the storage processing apparatus based on the Example of this invention. It is a block diagram which shows the suitable structure of the memory | storage processing apparatus which concerns on the Example of this invention. It is a figure which shows the memory structure based on the Example of this invention. 6 is a flowchart showing processing after an external memory card is inserted in a memory self-adaptive expansion method by a mobile phone according to a preferred embodiment of the present invention. 6 is a flowchart showing processing after an application is installed in the storage self-adaptive expansion method by the mobile phone according to the preferred embodiment of the present invention; 6 is a flowchart showing a process after removing an external memory card in the storage self-adaptive expansion method by a mobile phone according to a preferred embodiment of the present invention.

  Hereinafter, the present invention will be described in detail with reference to the drawings and embodiments. In addition, as long as it does not collide, the characteristic as described in the Example and Example of this application can be combined.

  In this embodiment, a storage processing method is provided. FIG. 3 is a flowchart showing the storage processing method according to the embodiment of the present invention. As shown in FIG. 3, the storage processing method includes the following steps.

Integrating the storage space of the internal memory card of the terminal and the storage space of the external memory card into one unified storage space (step S302);
The storage process of the terminal is performed according to the unified storage space after integration (step S304).

  According to the above steps, the storage space of the internal memory card of the terminal and the storage space of the external memory card are integrated into one unified storage space, and the internal memory card of the terminal and the external memory card are used independently in the existing technology Compared to what can only be done, there is a problem of insufficient storage space when the terminal does not use an external memory card, and when an external memory card is used, a third party application The problem of not being able to use the card normally is solved, the operation is simple, the storage capacity of the main memory card of the terminal is increased to some extent, and the user experience is improved.

  The storage space of the internal memory card of the terminal and the storage space of the external memory card can be integrated into one unified storage space by the following method. The same file storage route is built in the internal memory card and the external memory card, and the storage space of the internal memory card and the storage space of the external memory card are integrated into a unified storage space according to the same file storage route. According to such a method, by integrating the files with the same file name in the internal memory card and the external memory card into one unified folder, the user provides convenience for searching for files, When searching for files, it is only necessary to search in the unified folder to which the files belong, and there is no need to search with the internal memory card and the external memory card.

  There are various methods for performing terminal storage processing on the unified storage space after integration. For example, one method is to first determine whether the size of the file to be stored exceeds the storage space of the internal memory card. When the size of the storage file exceeds the storage space of the internal memory card, the storage target file must be stored in the external memory card, and the size of the storage file does not exceed the storage space of the internal memory card. The storage target file may be stored in the built-in memory card. As a result, the storage target file is stored with priority on the internal memory card, and the stored file can be used normally even when there is no external memory card. When the storage space of the internal memory card is insufficient, it is automatically stored in the external memory card, and there is no possibility that files cannot be stored due to insufficient internal storage space, and the process needs to be operated manually It can be completed automatically inside the terminal, reducing the need for the user, and solving the file storage problem easily and at high speed.

  Further, for example, in the method of performing the storage process of the terminal on the unified storage space after integration, a memory card that can completely store the storage target file is determined, and the storage target file is stored in the determined memory card. . After guaranteeing the integrity of the storage target file and knowing the size of the file to be stored, the terminal allocates the storage location based on the size of the storage target file, and stores it in the internal memory card and the external memory card. When the storage space of any memory card is sufficient, the storage target file is stored in the memory card, and when the storage space of the two memory cards is sufficient, the storage positions are randomly allocated, Ensures uniform distribution of the storage space of the internal memory card and the external memory card, avoids the phenomenon that one memory card bears the memory and the other memory card has less memory content, and the operating speed of the terminal Improve the user experience.

  Further, for example, a method for performing storage processing of the terminal on the unified storage space after integration is whether or not the ratio of the remaining storage space of the internal memory card and the remaining storage space of the external memory card is less than a predetermined value. If the determination result is YES, the storage target file is stored in the internal memory card. If the determination result is NO, the storage target file is stored in the external memory card. The predetermined value can be defined in advance, and can be generated by the system based on the ratio of the storage space size between the internal memory card and the external memory card. Since the size of the storage space of the memory card is different, the predetermined value is not uniquely determined. According to the method, since the size of the remaining storage space in the internal memory card and the external memory card can be adjusted appropriately, both storage distributions are not divided into two, and both remaining Balance storage space.

  And performing the storage process of the terminal for the unified storage space after the integration further determines the percentage that the internal memory card and the external memory card occupy in the unified storage space, and based on the established percentage, Store the storage target file. As a result, the storage target file can be divided into two parts, a part of the storage target file can be stored in the internal memory card, and the remaining part can be stored in the external memory card, which requires a large storage space. Can be stored in two memory cards, reduce the memory pressure on the internal memory card and external memory card, play an active role in the good operation of the terminal, the user experience To improve.

  In this embodiment, a storage processing apparatus is further provided. The apparatus is for realizing the above-described embodiment and preferred embodiments, and the description of the parts already described is omitted. The term “module” used in the following description is a combination of software and / or hardware capable of realizing a predetermined function. The apparatus described in the following embodiments is preferably realized by software, but can also be realized by hardware or a combination of software and hardware.

  FIG. 4 is a block diagram showing the structure of a storage processing apparatus according to an embodiment of the present invention. As shown in FIG. 4, the apparatus includes an integration module 42 and a processing module 44. The apparatus will be described below.

  The integration module 42 is configured to integrate the storage space of the internal memory card of the terminal and the storage space of the external memory card into one unified storage space, and the processing module 44 is connected to the integration module 42 and integrated. The terminal is configured to perform storage processing according to the later unified storage space.

  FIG. 5 is a block diagram showing the structure of the integration module 42 of the storage processing apparatus according to the embodiment of the present invention. As shown in FIG. 5, the integration module 42 includes a construction unit 52 and an integration unit 54. The integration module 42 will be specifically described.

  The construction unit 52 is configured to construct the same file storage route in the internal memory card and the external memory card, and the integration unit 54 is connected to the construction unit 52 and stores the internal memory card according to the same file storage route. The space and the storage space of the external memory card are configured to be integrated into a unified storage space.

  FIG. 6 is a block diagram 1 showing the structure of the processing module 44 of the storage processing apparatus according to the embodiment of the present invention. As shown in FIG. 6, the processing module 44 includes a first determination unit 62 and a first storage unit. A unit 64 and a second storage unit 66 are included. Hereinafter, the processing module 44 will be described.

  The first determination unit 62 is configured to determine whether or not the size of the storage target file exceeds the storage space of the internal memory card, and the first storage unit 64 is connected to the first determination unit 62. When the determination result is YES, the storage target file is configured to be stored in the external memory card, the second storage unit 66 is connected to the first determination unit 62, and the determination result is NO. The storage target file is configured to be stored in the built-in memory card.

  FIG. 7 is a block diagram 2 showing the structure of the processing module 44 of the storage processing apparatus according to the embodiment of the present invention. As shown in FIG. 7, the processing module 44 includes a first determination unit 72 and a third storage unit. The processing module 44 will be described below.

  The first determination unit 72 is configured to determine a memory card capable of completely storing the storage target file, and the third storage unit 74 is connected to the first determination unit 72 to determine the storage target file. Configured to be stored in a memory card.

  FIG. 8 is a block diagram showing the structure of the processing module 44 of the storage processing apparatus according to the embodiment of the present invention. As shown in FIG. 8, the processing module 44 includes a second determination unit 82, a fourth determination unit 82, and a fourth determination unit 82. A storage unit 84 and a fifth storage unit 86 are included. Hereinafter, the processing module 44 will be described.

  The second determination unit 82 is configured to determine whether the ratio of the remaining storage space of the internal memory card and the remaining storage space of the external memory card is less than a predetermined value, and the fourth storage unit 84 is configured as described above. When the determination result is YES when connected to the second determination unit 82, the storage target file is configured to be stored in the internal memory card, and the fifth storage unit 86 is connected to the second determination unit 82. If the determination result is NO, the storage target file is configured to be stored in an external memory card.

  FIG. 9 is a block diagram 4 showing the structure of the processing module 44 of the storage processing apparatus according to the embodiment of the present invention. As shown in FIG. 9, the processing module 44 includes a second determination unit 92 and a sixth storage unit. The processing module 44 will be described below.

  The second determination unit 92 is configured to determine the percentage of the internal memory card and the external memory card that occupy the unified storage space, and the sixth storage unit 94 is connected to the second determination unit 92 to determine The storage target file is configured to be stored based on the percentage that has been set.

  FIG. 10 is a block diagram showing a preferred structure of a terminal according to the embodiment of the present invention. As shown in FIG. 10, the terminal 100 includes one of the storage processing devices 102 described above.

  In existing technology, when the terminal does not use an external memory card, there is not enough storage space, and when an external memory card is used, a third party application cannot be used normally if the external card is removed. In response to problems affecting the user experience, the present invention provides a way for a mobile phone to expand its storage capacity in a self-adaptive manner. This method expands the storage capacity of a mobile phone by inserting an external memory card, and can be used normally even in a situation where there is no external memory card. The present invention considers connection to a computer in a USB mode of a mobile phone, file management display, and access to a file in the memory card by the mobile phone when the external memory card is inserted / removed. Regardless of whether or not the memory card exists, the effect of the memory card is given to the user, and when the external memory card existing in the current market is used as the main memory card, the third party application is used after removing the external memory card It solves the problem of being unable to do so, and greatly improves the efficiency and experience of users using memory cards.

  To solve the problem that occurs when the terminal (mobile phone) prioritizes the internal memory card or the external memory card in the existing technology, this embodiment provides the entire mobile phone storage solution. Presented, the present invention relates to mobile phone storage on the Android platform, and seamlessly integrates the contents in the external memory card into the entire mobile phone storage. Since the two storage spaces logically match each other, the internal memory card and the external memory card are logically combined into one logical space, and when searching from the mobile phone side or the computer side, one storage space is seen from the user's point of view. When the user inserts an external T card, the storage space is automatically increased. When the user removes the external T card, the storage space is automatically reduced. FIG. 11 shows an embodiment of the present invention. As shown in FIG. 11, the main memory card is always present, the internal memory card and the external memory card are integrated, and the external memory card is installed when installing the application. It is not affected by whether or not a memory card is inserted, and finally controls whether or not the user expands the memory of the mobile phone, thereby improving the user experience effect

  In the mobile phone memory self-adaptive expansion method provided in the present embodiment, in the display of the interface, since what is displayed on the computer connection side or the mobile phone side is one storage space, when the user uses it, When searching from the phone side and the computer side, the internal memory card and the external memory card are displayed, and when searching for files, it is not possible to decide whether to search from the internal memory card or from the external memory card You can avoid that. When investigating the capacity of a mobile phone, only the total capacity of the internal memory card and the external memory card is displayed. When searching for a file in the file management device, there is only one external device. Files with the same route in the internal memory card and the external memory card are displayed externally with one route, and files with different routes are displayed independently.

  According to the cellular phone memory self-adaptive expansion method, when installing a third party application in the setting of the memory content, the generated folder is stored in the internal memory card, so that there is no external memory card. Ensures that the application can be used normally. If the content of a file in the third-party application folder exceeds a certain size, after copying the folder to the external memory card recursively, all the files in the folder in the internal memory card Delete, while the folder directory and name are not changed. When other contents are written, the contents are stored in the external memory card, so that the space of the internal memory card can be saved to the maximum and more applications can be installed. However, if there is not enough free space in one memory card, the stored contents can be stored in another memory card so that it can still be used when there is remaining space as a whole. In addition to setting the storage content according to the above method, the file can also be stored by other methods. For example, the ratio of the remaining free space of the internal memory card and the external memory card is calculated, and the ratio is When a certain value is exceeded, the file is stored in the built-in memory card. When the value is less than a certain value, the file is stored in the external memory card, or about several percent of the files to be stored are built-in. It can be stored on a memory card, the remaining files can be stored on an external memory card, and so on.

  In the cellular phone memory self-adaptive expansion method, when there is the same root directory in the internal memory card and the external memory card in reading the contents, the internal memory card and the external memory card are accessed to read the file. Prevent access leaks. At the same time, a file management operation is performed according to the setting of the stored contents.

  According to the mobile phone memory self-adaptive expansion method, when a third party application obtains whether or not the main memory card exists through the application programming interface (API) of Android, a true is always used. Reply, and this makes it impossible to use some third party applications after removing the external memory card by using the external memory card as the main memory card in the current low and middle level mobile phones Solve the obstacle problem and have an important meaning. According to the above example and preferred embodiment, from the user's perspective, regardless of whether or not an external memory card is inserted, each directory root in file management is unique, Since the file is the total of files in the same directory of the internal memory card and the external memory card (if the external memory card is already mounted on the mobile phone), the user can easily search and manage the file. The remaining space of the displayed mobile phone is the sum of the remaining space of the internal memory card and the external memory card (if the external memory card is already mounted on the mobile phone). Significantly improve the experience of investigating capacity and managing files.

  Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

  FIG. 12 is a flowchart showing a process after an external memory card is inserted in the cellular phone memory self-adaptive expansion method according to the preferred embodiment of the present invention, and includes the following steps as shown in FIG.

After hot-plugging the external memory card, a mounted message is notified after the mount is completed (step S1202).
The process that triggered media is scanned again, and the file information in the external memory card is added to the database corresponding to media (step S1204).
All application packets in the mobile phone detect the folders generated in the internal memory card, and recursively copy these folders in the internal memory card to the external memory card, where the files in the folder can be copied. (Step S1206),
File management, update all information about the storage capacity, the storage capacity displayed on the computer side or mobile phone side is the sum of the capacity of the internal memory card and the external memory card and the free capacity, It is guaranteed that the files in the directory are the sum of the files of the same route in the internal memory card and the external memory card (step S1208).

  FIG. 13 is a flowchart showing a process after an application is installed in the mobile phone memory self-adaptive expansion method according to a preferred embodiment of the present invention, and includes the following steps as shown in FIG.

Install / use third party application (step S1302),
The installed application detects whether or not the main memory card exists. In this embodiment, regardless of whether or not the external memory card is mounted, all the main memory cards are present, and the route is / Storage / sdcard (step S1304),
After detecting the presence of the main memory card, the application generates some folders and files on the main memory card (step S1306)
After the application detects a newly added folder and file on the main memory card, it can be stored in accordance with the storage content setting method in the above embodiment and the preferred embodiment, and whether the access file can be directly stored in the built-in memory card. If the determination result is YES, the file is directly accessed (step S1308), step S1310 is executed, otherwise step S1312 is executed,
Access the file (step S1310),
Copy the folder in the internal memory card to the external memory card recursively, read the file with the external memory card, and store the directory exactly the same as the directory of the external memory card in the internal memory card. This guarantees that the application will not collapse due to inaccessible content during use (step S1312).

  FIG. 14 is a flowchart showing the processing after the external memory card is removed in the cellular phone memory self-adaptive expansion method according to the preferred embodiment of the present invention, and includes the following steps as shown in FIG.

After the external memory card is removed, an unmounted message is notified after completing the mount (step S1402),
The file information of the external memory card is deleted from the media database, that is, the file information in the external memory card that triggered the media is deleted from the database corresponding to the media to ensure consistency during use (step S1404),
Storage capacity displayed from the computer side or mobile phone side by updating all interface sizes such as file size, file management, etc. that can be grasped by the user, ie, updating all information for file management and storage capacity Is the total capacity and free space of the built-in memory card, and the file in the file directory is guaranteed to be the same root file as the built-in memory (step S1406)
After the application reads that the main memory card is in the mounted state, it reads the file in the corresponding directory (step S1408),
It is determined whether or not the file is stored in the internal memory card (step S1410). If the file to be read is stored in the external memory card, the file cannot be read and step S1412 is executed. If not, execute step S1414;
Present that the file does not exist (step S1412),
If the file to be read is stored in the built-in memory card, it is used normally, and the storage location of the file is determined according to the storage content setting method in the above-described embodiment and preferred embodiment (step S1414). ).

  Each block or each step of the present invention described above can be realized by a common computing device, and if it can be concentrated on a single computing device, it can be distributed in a network composed of a plurality of computing devices. They can also be implemented by program code executable by the computing device, so that they can be stored in a storage device and executed by the computing device, possibly performing the steps shown or described in other order It will be apparent to those skilled in the art that each can be made or implemented in an integrated circuit block, or multiple blocks or steps therein can be made in a single integrated circuit block. Thus, the present invention is not limited to any particular hardware and software combination.

  The above are only preferred embodiments of the present invention, and do not limit the present invention. Those skilled in the art can make various modifications and variations to the present invention. All modifications, substitutions, improvements and the like within the spirit and principle of the present invention are included in the protection scope of the present invention.

As described above, when the terminal does not use the external memory card in the existing technology, there is a problem that the storage space is insufficient, and when the external memory card is used, if the external card is removed, It is possible to solve the problem that the application cannot be normally used and affect the user's experience, to improve the storage capacity of the main memory card of the terminal, to be easy to operate, and to improve the use experience by the user.

Claims (13)

Integrating the storage space of the internal memory card of the terminal and the storage space of the external memory card into one unified storage space;
A storage processing method comprising: storing a terminal in accordance with the unified storage space after integration. Integrating the storage space of the internal memory card of the terminal and the storage space of the external memory card into the unified storage space;
Constructing the same file storage route in the internal memory card and the external memory card;
The method according to claim 1, further comprising: integrating the storage space of the internal memory card and the storage space of the external memory card into the unified storage space according to the same file storage route. According to the unified storage space after integration, performing storage processing of the terminal,
Determining whether the size of the storage target file exceeds the storage space of the internal memory card;
Storing the storage target file in the external memory card if the determination result is YES, and / or storing the storage target file in the internal memory card if the determination result is NO; The method of claim 1 comprising: According to the unified storage space after integration, performing storage processing of the terminal,
Determining a memory card that can completely store the file to be stored;
The method according to claim 1, comprising storing the file to be stored in the determined memory card. According to the unified storage space after integration, performing storage processing of the terminal,
Determining whether the ratio of the remaining storage space of the internal memory card and the remaining storage space of the external memory card is less than a predetermined value;
Storing the storage target file in the internal memory card if the determination result is YES, and / or storing the storage target file in the external memory card if the determination result is NO. The method of claim 1. According to the unified storage space after integration, performing storage processing of the terminal,
Determining a percentage that the internal memory card and the external memory card occupy in the unified storage space;
Storing the file to be stored based on the determined percentage. An integrated module configured to integrate the storage space of the internal memory card of the terminal and the storage space of the external memory card into one unified storage space;
And a processing module configured to perform storage processing of the terminal in accordance with the unified storage space after integration. The integration module is
A construction unit configured to construct the same file storage route in the internal memory card and the external memory card;
8. An integration unit configured to integrate the storage space of the internal memory card and the storage space of the external memory card into the unified storage space according to the same file storage route. Equipment. The processing module is
A first determination unit configured to determine whether a size of a storage target file exceeds a storage space of the internal memory card;
If the determination result is YES, the first storage unit configured to store the storage target file in the external memory card and / or if the determination result is NO, the storage target file is And a second storage unit configured to store in an internal memory card. The processing module is
A first determination unit configured to determine a memory card capable of completely storing a storage target file;
And a third storage unit configured to store the storage target file in the determined memory card. The processing module is
A second determination unit configured to determine whether a ratio between the remaining storage space of the internal memory card and the remaining storage space of the external memory card is less than a predetermined value;
A fourth storage unit configured to store a storage target file in the internal memory card when the determination result is YES, and / or a storage target file when the determination result is NO And a fifth storage unit configured to store on the memory card. The processing module is
A second determination unit configured to determine a percentage that the internal memory card and the external memory card occupy in the unified storage space;
And a sixth storage unit configured to store a file to be stored based on the determined percentage. A terminal comprising the device according to claim 7.

Images