CN104881305B - Load Fragment method and terminal - Google Patents

Abstract

The present invention provides a kind of loading Fragment method and terminal, and wherein method includes：Generate the tree construction of Fragment nodes；Determine positional information of the Fragment nodes on the tree construction；The stress state information of the Fragment nodes is set；According to the Fragment corresponding to the loading of the stress state information of the Fragment nodes on child node；Unload father node corresponding to the child node or the Fragment on sibling.By the above-mentioned means, the present invention can reduce the occupancy to internal memory, unnecessary internal memory is timely released, improves the I/O efficiency of terminal device, while also causes complicated process is run in low side devices referred to as may.

Description

Load Fragment method and terminal

Technical field

The present invention relates to Android technical fields, more particularly, to a kind of loading Fragment method and terminal.

Background technology

Fragment is the component in Android, for showing interface content, can receive the behaviour such as user's click, dragging Make and user interacts.One complicated Android application is generally made up of substantial amounts of Fragment, different Fragment Show that different operations is realized at different interfaces, when substantial amounts of Fragment simultaneously be loaded into internal memory when, those currently without The memory headroom that the Fragment of displaying takes is wasted, general only to show 1 to 3 Fragment simultaneously, if so do not had There is reasonable management Fragment to have substantial amounts of internal memory to be wasted.In another case, Fragment internal memory is loaded into be related to Operated to magnetic disc i/o, speed is slower, and Consumer's Experience is impacted.

The content of the invention

The technical problems to be solved by the invention are：A kind of loading Fragment method and terminal, realization pair are provided Fragment selectivity loading, unloading and releasing memory space, improves internal memory service efficiency.

In order to solve the above-mentioned technical problem, the technical solution adopted by the present invention is：A kind of loading Fragment side is provided Method, including：Generate the tree construction of Fragment nodes；Determine position letter of the Fragment nodes on the tree construction Breath；The stress state information of the Fragment nodes is set；Loaded according to the stress state information of the Fragment nodes Fragment on corresponding child node；Unload the Fragment corresponding to the child node on the father node of father node and son is tied Fragment corresponding to point on sibling.

Wherein, the step of tree construction of generation Fragment nodes is specially：Startup program, and initialize described program； Loading JSON describes file；Document definition is described according to the JSON and generates the tree construction.

Wherein it is determined that the Fragment nodes are specially in the step of positional information on the tree construction：Definition institute State Fragment relational organization form；The relational organization form is described using JSON；Determine the son knot of the Fragment The positional information of point, father node and sibling.

Wherein, the step of stress state information for setting the Fragment nodes is specially：Associate the Fragment To corresponding name, and the path of the Fragment is set；The contextual information of the Fragment is determined, and according to upper and lower Literary information sets the tissue call relation between different Fragment；The Fragment is set for preloading, delay loading, bar One of them of part loading.

Wherein, unload fraternal corresponding to the Fragment and child node corresponding to the child node on the father node of father node Fragment on node is specially：Unloading is identified as preloadings, delay loading, condition load the Fragment of one of them and tied Point.

Wherein, Fragment according to corresponding to the loading of the stress state information of the Fragment nodes on child node Step includes：Preload Fragment corresponding to root node；The stress state information for needing to preload according to child node, preload Fragment on corresponding Fragment child nodes；Fragment corresponding to other nodes of delay loading in addition to root node.

To solve the above problems, the present invention also provides a kind of loading Fragment terminal, including：Tree construction unit, use In the tree construction of generation Fragment nodes；Position units, for determining the Fragment nodes on the tree construction Positional information；Metamessage unit, for setting the stress state information of the Fragment nodes；Loading unit, for basis Fragment corresponding to the stress state information loading of the Fragment nodes on child node；Unloading unit, for unloading Fragment corresponding to Fragment and child node corresponding to the child node on the father node of father node on sibling.

Wherein, the tree construction unit includes：Program promoter unit, for startup program, and initialize described program； Tree construction generates subelement, describes file for loading JSON, and describe the document definition generation tree according to the JSON and tie Structure.

Wherein, the position units include：Form defines subelement, for defining the relational organization lattice of the Fragment Formula；Form describes subelement, for describing the relational organization form using JSON；Locator unit, for described in determination The positional information of Fragment child node, father node and sibling.

Wherein, the metamessage unit includes：Key assignments sub-unit, for associating Fragment names corresponding to Word, and the path of the Fragment is set；Context subelements, for determining the contextual information of the Fragment, and Contextual information sets the tissue call relation between different Fragment；Metamessage sets subelement, for setting State one of them that Fragment is preloading, delay loading, condition loading.

The beneficial effects of the present invention are：Prior art is different from, it is of the invention by generating Fragment node tree constructions, And its positional information is determined, stress state information corresponding to setting, and being loaded, finally unloaded in Fragment using after complete Carry, realize the release of memory headroom, therefore when having a large amount of Fragment while loading into internal memory, achievable couple of the present invention Fragment selectivity loading, unloading, timely releasing memory space, while improving internal memory service efficiency, also improves magnetic Disk I/O operation efficiency, realizes the feasibility run in low side devices.

Brief description of the drawings

Fig. 1 is the schematic flow sheet of the inventive method embodiment one；

Fig. 2 is the schematic flow sheet of the concrete operation step of the inventive method embodiment one；

Fig. 3 is the structural representation of terminal embodiment two of the present invention；

Fig. 4 is the concrete structure schematic diagram of terminal embodiment two of the present invention；

Fig. 5 be the present invention method and terminal integrated operation step flow chart；

Fig. 6 is the interface schematic diagram one of the specific embodiment of the invention；

Fig. 7 is the interface schematic diagram two of the specific embodiment of the invention；

Fig. 8 is the interface schematic diagram three of the specific embodiment of the invention.

Embodiment

To describe the technology contents of the present invention, the objects and the effects in detail, below in conjunction with embodiment and coordinate attached Figure is explained.

Fig. 1 is refer to, the inventive method embodiment one provides a kind of loading Fragment method, comprised the following steps：

S110：Generate the tree construction of Fragment nodes；

S120：Determine positional information of the Fragment nodes on the tree construction；

S130：The stress state information of the Fragment nodes is set；

S140：According to the Fragment corresponding to the loading of the stress state information of the Fragment nodes on child node；

S150：Unload fraternal corresponding to the Fragment and child node corresponding to the child node on the father node of father node Fragment on node.

Usually, those skilled in the art can be directed to the information for the Fragment nodes to be loaded, one tree of definition generation Structure, tree are a kind of important nonlinear data structures, are organized by data element (being referred to as node in tree) by branch's relation The structure come.A special node, referred to as root node or root (root) on tree construction be present.In addition to root node, remaining node It is divided into multiple mutually disjoint finite aggregates (or subset), each subset is also tree-building version.Root knot is removed on tree construction Other nodes outside point, father node, child node or sibling are may be defined as according to its position on tree construction.Each node Represent a Fragment metamessage, the present invention in metamessage be primarily referred to as each Fragment nodes stress state letter Breath, such as whether preload, whether delay loading or whether condition loading (just being loaded after meeting correlated condition) etc. loading Status information.Metamessage such as a node is to preload, then enters internal memory when program starts it is necessary to pre-loaded its.It is logical Normal root node is all to preload, and other all node Fragment can not be preloaded, only according to node on tree construction The Fragment of the corresponding child node of metamessage loading.

And in order to be not take up excessive internal memory, delay loading is arranged to first message of some nodes or condition loads, this A little nodes only meet specified conditions or it is specific at the time of just loaded.And the node (including preloading) loaded makes After being finished, if do not had a negative impact to whole program after unloading, it can be unloaded, thus releasable internal memory.

It was found from foregoing description, the beneficial effects of the present invention are：It is different from prior art, the inventive method embodiment one By generating tree construction for Fragment nodes, and after upper tree construction determines its positional information, it is set according to being actually needed Put corresponding stress state information, and the unloading after having used.The abundant use to memory headroom has been achieved in that, has been not take up again Excessive internal memory, improve the speed of service of corresponding electronic equipment, such as I/O operation.

Wherein, as shown in Fig. 2 the inventive method embodiment one can specifically perform following steps when performing step S110：

S111：Startup program, and initialize described program；

S112：Loading JSON describes file；

S113：Document definition is described according to the JSON and generates the tree construction.

In initialization program, Fragment corresponding to root node can be shown, the Fragment of other nodes can not pre-add Carry.

JSON (JavaScript Object Notation) is a kind of data interchange format of lightweight.It is to be based on JavaScript (Standard ECMA-262 3rd Edition-December 1999) a subset.JSON has been used Entirely independently of the text formatting of language, but also using similar to C language family custom (including C, C++, C#, Java, JavaScript, Perl, Python etc.).These characteristics make JSON turn into preferable data interchange language.It is easy to people to read and compile Write, while be also easy to machine parsing and generation (network transfer speeds).Program is especially advantageous for using the description file of JSON forms Parsing and maintenance.

Similarly, when performing step S120, it can correspond to and perform following steps：

S121：Define the relational organization form of the Fragment；

S122：The relational organization form is described using JSON；

S123：Determine the positional information of the child node of the Fragment, father node and sibling.

The present invention defines Fragment relational organization forms first, is described using JSON, and provides as follows form, uses this The benefit of form is to be especially advantageous for program parsing and maintain easily, and all Fragment can be defaulted as delay loading, so only need To be specified in configuration file needs pre-loaded Fragment, reduces maintenance load.

The several keyword functions of occurring in descriptor format are as follows：

“Fragments”：Each Fragment occurred in description application, represented using the form of key-value pair, wherein Key represents Fragment name, and Value represents the complete trails of Fragment class

“Context”：Each Fragment contextual information, contextual information tissue call relation are described.

“node”：Fragment node name is described, node name is the Key in Fragments sections.

“meta”：The metamessage of node, expansible attribute are described, for example defines whether preservation state.

“preload”：Whether description preloads.

“ForceRefresh”：Optional, whether description forces refreshing content after interface is entered second, works as interface content Be from network update when, optional selection forces renewal interface or does not update interface.

Specific a description file is exemplified below：

According to foregoing description file, step S130 can be performed in the following way：

S131：Fragment names corresponding to are associated, and the path of the Fragment is set；

S132：Determine the contextual information of the Fragment, and contextual information set different Fragment it Between tissue call relation；

S133：One of them that the Fragment is preloading, delay loading, condition loading is set.

Fragments nodes describe all Fragment classes used in program, and specified associations are to a name. Context nodes describe other Fragment of each Fragment associations, and specify these Fragment metamessage, Include whether the information such as preloading.

Wherein, in a specific embodiment, according to corresponding to the loading of the stress state information of the Fragment nodes The step of Fragment on child node, includes：

Fragment corresponding to root node is preloaded, this is also in that root node and the distinct part of other nodes, sheet Root node in invention can be the main interface of terminal device.

The stress state information for needing to preload according to child node, is preloaded or condition loading corresponds to Fragment child nodes On Fragment；When being in the position of father node, in a particular embodiment, it is sometimes desirable to according to the situation of its child node, Pre-loaded or condition loads the Fragment that one or more child nodes correspond to, to carry out follow-up operation, under entering One interface returns to previous interface.

Fragment corresponding to other nodes of delay loading in addition to root node, because root node is all to preload, its His node can delay loading as needed, to reduce the occupancy of internal memory, only entering the step that needs to load or preload During rapid or interface, just make corresponding operation.

In summary, loading Fragment provided by the invention method, is different from prior art, and the present invention is starting journey After sequence, file is described using JSON to generate tree construction, and describes the relational organization form between node, to determine that it is tied in tree Position on structure, while Fragment name and setting path corresponding to are associated, call relation and pre-defined difference add Information carrying ceases.In practical operation, user can be preloaded to some nodes as needed, condition loads or delay loading, with The excessive occupancy to device memory is reduced, is applicable in the equipment of hardware configuration low side.

Meanwhile as shown in figure 3, the present invention a kind of loading Fragment terminal 100 is also provided, including：

Tree construction unit 110, for generating the tree construction of Fragment nodes；

Position units 120, for determining positional information of the Fragment nodes on the tree construction；

Metamessage unit 130, for setting the stress state information of the Fragment nodes；

Loading unit 140, for the child node according to corresponding to the loading of the stress state information of the Fragment nodes Fragment；

Unloading unit 150, for unloading Fragment and son knot corresponding to the child node on the father node of father node Fragment corresponding to point on sibling.

Specifically, as shown in figure 4, the tree construction unit 110 includes：

Program promoter unit 111, for startup program, and initialize described program；

Tree construction generates subelement 112, describes file for loading JSON, and describe document definition life according to the JSON Into the tree construction.

The position units 120 include：

Form defines subelement 121, for defining the relational organization form of the Fragment；

Form describes subelement 122, for describing the relational organization form using JSON；

Locator unit 123, for determining the position letter of the child node of the Fragment, father node and sibling Breath.

The metamessage unit 130 includes：

Key assignments sub-unit 131, for associating Fragment names corresponding to, and set the Fragment's Path；

Context subelements 132, for determining the contextual information of the Fragment, and contextual information is set Put the tissue call relation between different Fragment；

Metamessage sets subelement 133, is preloading, delay loading, condition loading for setting the Fragment One of them.

Referring concurrently to Fig. 5~8, Fig. 5 is an overall structure flow chart using the above method and terminal, and Fig. 6~8 are distinguished It is the working interface schematic diagram in application the inventive method and terminal, wherein in Fig. 6~8, hexagonal frame represents to have loaded into internal memory Fragment, dotted line frame represents the Fragment that currently shows, and solid box is represented not loading the Fragment into internal memory, that is, deposited The Fragment being on disk.Straight line in each frame represent therebetween redirect relation because can be handed between node Fork, so the Fragment of another node can be jumped to from the Fragment of a node, when setting, it need to only safeguard Therebetween redirect relation, you can realize the pre-defined of the stress state information at different interfaces, such as preload, condition loading or prolong Loading late.

Wherein, JSON is loaded during program initialization and describes file, according to description document definition generation tree construction, and show master Interface.It is specific to be loaded as shown in figure 5, describing file using JSON, generate Fragment after describing document analysis to the JSON List and the Context information of each node, tree construction can be generated by completing these steps, completed the initialization of program, entered And main interface is shown on the terminal device.Usually, the Fragment of main interface is considered as root node, and is all to preload , the X in Fig. 5, Y are the node metamessage described by JSON.

That is, if current be shown the A nodes in tree construction, it is pre- to occur to preload all marks of A when showing A The child node of loading, ignore-tag are the node not preloaded, and the node not preloaded only has user clearly to jump to this kind of interface Shi Fasheng is loaded, and is unloaded after jumping out this kind of interface.

After the Fragment of loading root node, the Context information of root node is obtained, depending on actual conditions, such as Fig. 6~8 It is shown, can pre-loaded FragmentA, FragmentB to enter next interface or corresponding operation performed in main interface, The Fragment of all current interfaces association is present in the list of association node, labeled as the interface of no preloading, only There is user to be loaded when clearly jumping to this kind of interface；If current interface does not associate other child nodes Fragment, table Show list for sky, then it represents that there is no operability on this interface, now user can select to return back to an interface or direct Selection quits a program.

Preloading or the node Fragment of other load informations be present if associating in the list of node, then it represents that list is not For sky, user, which may be selected to continue executing with the interface in next interface of entrance, optionally to be operated, as shown in fig. 6, preloading FragmentA1、FragmentA2.The step is actually the repetition of above-mentioned steps, therefore also needs to perform judgment step, If so, then continue to operate in next step, conversely, then returning to the judgement to the linked list of father node.

At some node, it is space-time that it, which associates node list, then needs to return at its father node, travel through father node Linked list, if father node linked list is sky, that is, represent that the interface does not have operability, be then switched to other interfaces or direct Quit a program.If father node linked list is not sky, the entry obtained in list is operated, and is performed and is added corresponding to it Status information is carried, while in order to reduce the occupancy of internal memory,, can if do not form influence to operation after its load information is performed The entry is unloaded from internal memory in time.

Specifically, in Fig. 6 when showing main interface, according to Interface Element information state, preload FragmentA and FragmentB, now (include the Fragment of main interface, main interface can be considered root knot in the presence of 3 Fragment simultaneously in internal memory Point).

When jumping to FragmentA, as shown in fig. 7, now show FragmentA interfaces, according at this moment The metamessage description of FragmentA nodes, preloads FragmentA1 and FragmentA2, now simultaneously in the presence of 4 in internal memory Fragment, because FragmentB1 be described as it is not pre-loaded, so FragmentB1 will not be loaded, only when user clearly selects Select when jumping to FragmentB1 and just to load, such case be because some interfaces user's access frequency is higher, and part some Relatively low, the interface can of lower frequency is not preloaded, and these Fragment preloaded can be configured by metamessage, be used Family can such as be returned to main interface by return key or jump to FragmentA1, FragmentA2, FragmentB1 to be switched to other Interface, when other interfaces, all loaded, operation can have been rapidly completed.

When user selection jump to FragmentA1 interfaces, as shown in figure 8, now showing FragmentA1 interfaces, pre-add FragmentC1 is carried, now main interface (root node) cannot directly have access to, it is possible to discharged from internal memory, it is at this moment interior In depositing while 3 Fragment be present.

Due to being Fragment committed memories that only a few is active every time, therefore method of the present invention can Suitable in the equipment of low side.

In Fig. 5 after step " judging to associate whether node list is empty ", if it is empty, then need to travel through the father of current node Node, the child node of its all preloading is put into list, Fragment in internal memory has been loaded into order to discharge, and this knot Point is the node not directly having access to, can directly redirect over, this node may have multiple source nodes, i.e., it is all Father node, after all father nodes are obtained, travel through these father nodes, can judge from the stress state information of all father nodes Whether there is node that is having loaded but not directly accessing, these nodes are unloaded, discharged.

In real life, limited memory in Android device, if Android frameworks distribute to each application can It is 30M with memory headroom, if all interfaces are loaded into EMS memory occupation 15M simultaneously, the only 15M of other functions is left for, when adding (one kind is collapsed caused by Out of Memory asks (picture takes substantial amounts of memory headroom) easily generation OOM problems when carrying picture Topic), after delay loading technology, while the Fragment loaded into internal memory may only have a few, can save big portion The internal memory divided leaves the use of other functions for, while again due to preloading technology, the expense that will not cause to load Fragment causes Interface Caton phenomenon.

Embodiments of the invention are the foregoing is only, are not intended to limit the scope of the invention, it is every to utilize this hair The equivalents that bright specification and accompanying drawing content are made, or the technical field of correlation is directly or indirectly used in, similarly include In the scope of patent protection of the present invention.

Claims (10)

1. A kind of 1. loading Fragment method, it is characterised in that including：

   Generate the tree construction of Fragment nodes；

   Determine positional information of the Fragment nodes on the tree construction；

   The stress state information of the Fragment nodes is set；

   According to the Fragment corresponding to the loading of the stress state information of the Fragment nodes on child node；

   Unload corresponding to the Fragment and child node corresponding to the child node on the father node of father node on sibling Fragment。
2. 2. Fragment method is loaded according to claim 1, it is characterised in that the tree construction of generation Fragment nodes The step of be specially：

   Startup program, and initialize described program；

   Loading JSON describes file；

   Document definition is described according to the JSON and generates the tree construction.
3. 3. Fragment method is loaded according to claim 1, it is characterised in that wherein determine the Fragment nodes It is specially in the step of positional information on the tree construction：

   Define the relational organization form of the Fragment；

   The relational organization form is described using JSON；

   Determine the positional information of the child node of the Fragment, father node and sibling.
4. 4. Fragment method is loaded according to claim 1, it is characterised in that be provided with the Fragment nodes Stress state information the step of be specially：

   Fragment names corresponding to are associated, and the path of the Fragment is set；

   The contextual information of the Fragment is determined, and contextual information sets the tissue between different Fragment to adjust With relation；

   One of them that the Fragment is preloading, delay loading, condition loading is set.
5. 5. Fragment method is loaded according to claim 1, it is characterised in that unload father corresponding to the child node and tie Fragment corresponding to Fragment and child node on the father node of point on sibling is specially：Unloading is identified as pre-add Load, delay loading, condition load the Fragment nodes of one of them.
6. 6. Fragment method is loaded according to claim 1, it is characterised in that wherein according to the Fragment nodes The loading of stress state information corresponding to Fragment on child node the step of include：

   Preload Fragment corresponding to root node；

   The stress state information for needing to preload according to child node, preload the Fragment on corresponding Fragment child nodes；

   Fragment corresponding to other nodes of delay loading in addition to root node.
7. A kind of 7. loading Fragment terminal, it is characterised in that including：

   Tree construction unit, for generating the tree construction of Fragment nodes；

   Position units, for determining positional information of the Fragment nodes on the tree construction；

   Metamessage unit, for setting the stress state information of the Fragment nodes；

   Loading unit, for according to corresponding to the loading of the stress state information of the Fragment nodes on child node Fragment；

   Unloading unit, for unloading corresponding to the Fragment and child node corresponding to the child node on the father node of father node Fragment on sibling.
8. 8. Fragment terminal is loaded according to claim 7, it is characterised in that the tree construction unit includes：

   Program promoter unit, for startup program, and initialize described program；

   Tree construction generates subelement, and file is described for loading JSON, and according to the JSON describes document definition generation Tree construction.
9. 9. Fragment terminal is loaded according to claim 7, it is characterised in that the position units include：

   Form defines subelement, for defining the relational organization form of the Fragment；

   Form describes subelement, for describing the relational organization form using JSON；

   Locator unit, for determining the child node of the Fragment, father node and the positional information of sibling.
10. 10. Fragment terminal is loaded according to claim 7, it is characterised in that the metamessage unit includes：

    Key assignments sub-unit, for associating Fragment names corresponding to, and the path of the Fragment is set；

    Context subelements, for determining the contextual information of the Fragment, and contextual information sets difference Tissue call relation between Fragment；

    Metamessage set subelement, for set the Fragment be preloadings, delay loading, condition load wherein one It is individual.