CN104932852A - Resource adaptive apparatus and method thereof - Google Patents

Abstract

Resource adaptive apparatuses and method thereof are provided. The resource adjustable electronic apparatus includes a first display unit and a processing unit. The processing unit executes an application program, assigns a system display configuration that corresponds to a first resource as a local display configuration of the application program, detects a predetermined event, and updates the local display configuration of the application program in response to the predetermined event being detected. In this way, the application program loads a second resource according to the updated local display configuration and renders the second resource on at least one of the first display unit and a second display unit after the predetermined event is detected. The resource adaptive apparatuses and a method thereof can provide comparatively good visual experience.

Description

Resource-adaptive devices and methods therefor

cross reference

The following right of priority of application claims: be numbered 61/955,872, the applying date is the U.S. Provisional Patent Application on March 20th, 2014.Above-mentioned U.S. Provisional Patent Application is incorporated herein by reference.

Technical field

The present invention relates to a kind of resource-adaptive (resource adaptive) devices and methods therefor.Especially, the present invention relates to a kind of adjustresources to respond resource self-adaptive induction method and the device thereof of scheduled event detection.

Background technology

The application process that electronic installation performs needs resource and some resource is relevant with human visual perception, the image etc. that the display layout (display layout) of application process, display unit such as, present.To introduce traditional resource load mechanism below, it is for (such as, configuring the electronic installation of Android operation system) in many traditional electronic devices.

According to traditional resource load mechanism, first, electronic installation decision systems configures (systemconfiguration) and this system configuration is broadcast to the application process (application program) that electronic installation performs.Each application process adopts this system configuration as this locality configuration (local configuration) of himself, loads resource, and present this visual correlation resource on the display unit according to the configuration of this this locality.Briefly, when using above-mentioned traditional resource load mechanism, application process loads resource according to this system configuration.

When electronic installation performing application process, the situation that the display environment that there is application process changes.Such as, when switch under application process being operated in from electronic installation single Windows be operated under multi-windowed environment time, the display environment of application process changes.In another example, when electronic installation is electrically connected to external electronic and uses the display unit of external electronic to present this application process, then the display environment of application process changes.According to traditional resource load mechanism, application process loads visual correlation resource according to initial system configuration.This means that application process loads visual correlation resource according to the initial display environment of application process.When the display environment of application process changes, for the new display environment of application process, the initial visual correlation resource loaded becomes and is not suitable for.Therefore, offending visual experience will be brought to user.

According to foregoing description, need badly a kind of when the display environment of application process changes, adjust and the resource load mechanism of the visual correlation resource of load application process.

Summary of the invention

In view of this, the present invention discloses a kind of resource-adaptive devices and methods therefor.

According to the embodiment of the present invention, the present invention discloses a kind of resource-adaptive device, comprises: the first display unit; And processing unit, be electrically connected this first display unit and configuration performing application process, schedule system display configuration, detecting scheduled event and upgrading this locality display configuration of this application process for responding this scheduled event of detecting, wherein this system display corresponding first resource of configuration this this locality display as this application process configure; Wherein, after this scheduled event being detected, this application process loads Secondary resource according to this this locality display configuration upgraded and is presented on by this Secondary resource at least one this first display unit.

According to another embodiment of the present invention, the present invention discloses a kind of resource self-adaptive induction method, for electronic installation, comprises: perform application process; Schedule system display configuration, wherein this system display configuration corresponding first resource and as this application process this locality display configuration; Detect scheduled event; And this locality display configuration of this application process is upgraded for responding this scheduled event detected, thus making after this scheduled event being detected, this application process loads Secondary resource according to this this locality display configuration upgraded and is presented on the display unit by this Secondary resource.

Resource-adaptive devices and methods therefor provided by the invention can provide good visual experience.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the resource-adaptive device described according to a first embodiment of the present invention;

Fig. 2 A-2B is the schematic diagram of different windows environment of the display application process described according to the embodiment of the present invention;

Fig. 3 A is the schematic diagram of the resource-adaptive device described according to a third embodiment of the present invention;

Fig. 3 B describes the indication range schematic diagram presenting application process when display unit is in vertical pattern in this vertical pattern;

Fig. 3 C describes the indication range schematic diagram representing application process when display unit is in transverse mode in vertical pattern;

Fig. 3 D is the schematic diagram loading resource according to the display configuration of original this locality described according to the embodiment of the present invention;

Fig. 3 E is the schematic diagram loading resource according to the local display configuration of renewal described according to the embodiment of the present invention;

Fig. 4 is the resource-adaptive method flow diagram described according to a fourth embodiment of the present invention;

Fig. 5 is the resource-adaptive method flow diagram described according to a fifth embodiment of the present invention;

Fig. 6 is the resource-adaptive method flow diagram described according to a sixth embodiment of the present invention.

Embodiment

Some vocabulary is employed to censure specific element in the middle of instructions and claims.Person of ordinary skill in the field should understand, and hardware manufacturer may call same element with different nouns.This specification and claims book not using the difference of title as the mode of distinguish one element from another, but using element difference functionally as the criterion distinguished." comprising " mentioned in instructions and claim is in the whole text an open term, therefore should be construed to " comprise but be not limited to ".In addition, " couple " word comprise directly any at this and be indirectly electrically connected means.Therefore, if describe first device in literary composition to be coupled to the second device, then represent first device and can directly be electrically connected in the second device, or be indirectly electrically connected to the second device through other device or connection means.

Ensuing description realizes most preferred embodiment of the present invention, and it is the object in order to describe the principle of the invention, not limitation of the present invention.Understandably, the embodiment of the present invention can be realized by software, hardware, firmware or its combination in any.

Fig. 1 is the schematic diagram of the resource-adaptive device described according to a first embodiment of the present invention.Resource-adaptive device 1 comprises display unit 11, storage unit 13 and processing unit 15, and wherein, this processing unit 15 is electrically connected to storage unit 13 and display unit 11.

Resource-adaptive device 1 can be any electronic installation with process/computing power, such as mobile phone, panel computer or like.Display unit 11 can be liquid crystal display (liquid-crystal display, LCD), light emitting diode (light-emitting diode, LED) display, Organic Light Emitting Diode (Organic Light Emitting Diodes) display or other similar displays.Storage unit 13 can be storer, USB (universal serial bus) (Universal SerialBus, USB) disk, mobile disk or any other storage medium or the circuit with identical function well known to those skilled in the art.Processing unit 15 can be in processor, CPU (central processing unit) (CPU), microprocessor or other calculation elements well known to those skilled in the art any one.

In the present embodiment, processing unit 15 executive system server 14 with several application process 12a ..., 12b.It should be noted that the present invention is not limited to the quantity of the application process that processing unit 15 performs.Storage unit 13 store several resource 10a ..., 10b, wherein resource 10a ..., 10b each belonged to application process 12a ..., an application process in 12b.Resource 10a ..., 10b each be visual correlation resource, it means that each resource is associated with human visual perception.It is emphasized that in some other embodiment, can by resource 10a ..., 10b is stored in another storage unit outside resource-adaptive device 1.In other words, the present invention does not limit the position of the resource storing application process.

First, processing unit 15 decision systems display configuration 100, it can be obtained by system server 14 and as a means of based on the initial environment being derived from adaptive device 1.Then, processing unit 15 system is shown configuration 100 be dispensed to application process 12a ..., 12b as they this locality display configuration 102a ..., 102b, wherein system display configuration 100 also can be obtained by system server 14.Then, application process 12a ..., 12b can according to this locality display configuration 102a ..., 102b loads resource respectively and the resource of loading is presented on display unit 11.Such as, application process 12a can load resource 10a according to this locality display configuration 102a and is presented on display unit 11 by resource 10a.This means this locality display configuration 102a (that is, system display configuration 100) the corresponding resource 10a of application process 12a.

At some time point, processing unit 15 detects scheduled event (not shown).Such as, scheduled event can be any application process 12a ..., 12b display environment change event.Conveniently, suppose that application process 12a causes scheduled event; That is, the display environment of application process 12a changes.For responding the scheduled event detected, processing unit 15 upgrades this locality display configuration 102a of application process 12a to respond the detection of scheduled event.Then, after scheduled event being detected, application process 12a loads resource (such as, resource 10b) according to this locality display configuration 102a upgraded and is presented on by resource 10b on display unit 11 and/or another display unit (not shown).

According to foregoing description, when scheduled event occurs in application process, processing unit 15 upgrades this locality display configuration of application process.Related application process loads resource by according to this locality display configuration upgraded and the resource loaded is presented on the display unit.Since this locality display configuration according to having upgraded loads resource, so present above-mentioned resource on the display unit will provide comfortable visual experience.

Please refer to Fig. 1, Fig. 2 A and Fig. 2 B of second embodiment of the invention.Fig. 2 A-2B is the different windows environment schematic of the display application process according to embodiment of the present invention description.In a second embodiment, resource-adaptive device 1 describe as the first embodiment energy executable operations, possess function and obtain constructed result.In next describing, only explain the distinctive points between the first embodiment and the second embodiment.

In the present embodiment, resource-adaptive device 1 be provided for application process 12a ..., 12b two type working environments, comprise single Windows and multi-windowed environment.As shown in Figure 2 A, use default height value 200 and give tacit consent to width value 202 define single Windows for show any application process 12a ..., 12b; And as shown in Figure 2 B, use default height value 204 and give tacit consent to width value 206 define multi-windowed environment for show any application process 12a ..., 12b.In the present embodiment, because switch make any application process 12a ..., 12b display environment change, so can be used as scheduled event from single Windows work to the switching in multi-windowed environment work, vice versa.

In the present embodiment, each display configuration (comprise system display configuration 100 and local display configuration 102a ..., 102b) comprise layout height value (layout height value) and layout width value.In addition, resource 10a ..., 10b each be display layout.Resource 10a has the first display layout with the viewing area of the display unit 11 shown in Fig. 2 A almost (or completely) same size, the such as layout of dull and stereotyped user interface.Resource 10b is the second display layout shown in Fig. 2 B, such as mobile phone layout.First display layout and the second display layout have different size, and wherein the former size is greater than the size of the latter.It should be noted that the term " second " used in the term " first " and " the second display layout " used in " the first display layout " is only for distinguishing two kinds of different display layouts.

First, resource-adaptive device 1 provides single Windows.Processing unit 15 is based on initial environment decision systems display configuration 100; Therefore, the layout height value of system display configuration 100 is decided to be with the default height value 200 of single Windows identical with acquiescence width value 202 with layout width value respectively.Then, processing unit 15 system is shown configuration 100 be dispensed to application process 12a ..., 12b as they this locality display configuration 102a ..., 102b.Therefore, local display configuration 102a ..., the layout height value of each of 102b and layout width value equal default height value 200 and acquiescence width value 202 respectively.

Suppose the current positive operational applications process 12a of user.Application process 12a loads resource 10a according to the layout height value of this locality display configuration 102a and layout width value.Because the size of resource 10a compared with other resources closest to the local size show layout height value that configures 102a and layout width value and define, so application process 12a loading resource 10a.Then, resource 10a is presented on display unit 11 by application process 12a.

Existing works application process 12a from resource-adaptive device 1 in single Windows to work the situation carrying out switching in multi-windowed environment.Such as, user triggers the icon of the representative multi-windowed environment on the viewing area of display unit 11.Processing unit 15 can detect the event starting multi-windowed environment.In the present embodiment, starting multi-windowed environment is a kind of scheduled event.

Start the detection of multi-windowed environment to respond, processing unit 15 upgrades application process 12a this locality by upgrading its layout height value and layout width value shows and configures 102a.Since working environment is switched to multi-windowed environment, therefore, by the layout height value of this locality display configuration 102a and layout width value, processing unit 15 is by being set as that the default height value 204 of multi-windowed environment upgrades with acquiescence width value 206.Then, application process 12a loads resource 10b according to the layout height value and layout width value that upgrade local display configuration 102a.Because the size of resource 10b compared with other resources closest to having upgraded the local size show layout height value that configures 102a and layout width value and define, so application process 12a loading resource 10b.Then, as shown in Figure 2 B, resource 10b is presented on display unit 11 by application process 12a.

Consider the situation not upgrading local display configuration 102a after working environment is switched to multi-windowed environment, resource 10a is represented default height value 204 with give tacit consent on viewing area that width value 206 defines.In this case, because resource 10a is for designing (such as dull and stereotyped user interface layout) larger viewing area, so will uncomfortable visual experience be produced.According to foregoing description, owing to will upgrade local display configuration when working environment changes, therefore the present invention can avoid the generation of above-mentioned improper visual experience.

Although foregoing description is relevant to the situation that working environment switches from single Windows to multi-windowed environment, the present invention can be applied to the situation that working environment switches from multi-windowed environment to single Windows.Those skilled in the art will be understood that the details of above-mentioned situation, therefore will not repeat details and describe.

Fig. 3 A is the schematic diagram of the resource-adaptive device described according to a third embodiment of the present invention.Resource-adaptive device 3 comprises display unit 11, storage unit 13, processing unit 15 and interface 37, and wherein, this processing unit 15 is electrically connected to storage unit 13, display unit 11 and interface 37.Interface 37 can be any interface connecting and have the external electronic of display unit, such as HDMI (High Definition Multimedia Interface) (High-Definition Multimedia Interface, HDMI) or similar interface.It should be noted that the present invention does not limit the type of interface 37.In the third embodiment, display unit 11, storage unit 13 and processing unit 15 can as describe in the first embodiment executable operations, possess function and obtain constructed result.In next describing, only explain the distinctive points between the first embodiment and the 3rd embodiment.

The present embodiment relates to two kinds of different display modes, the first display mode and the second display mode.It should be noted that the term " second " used in the term " first " and " the second display mode " used in " the first display mode " is only for distinguishing two kinds of different display modes.Such as, the first display mode can be vertical pattern (portrait mode), and the second display mode can be transverse mode (landscape mode).But in another example, the first display mode can be transverse mode, and the second display mode can be vertical pattern.

In the present embodiment, when interface 37 connects the external electronic with display unit, when wherein above-mentioned display unit is in the second display mode, if the application process of user's current operation is designed to present in the first display mode, then triggering of predetermined events.That is, when interface 37 connects external electronic, if two display modes (that is, the display mode of the display unit configuration of external electronic and the display mode that application process designs) are different, then triggering of predetermined events.

In addition, in the present embodiment, each display configuration (comprise system display configuration 100 with local show configure 102a ..., 102b) be the logic density (logical density) of the display unit of external electronic.Pixel quantity in above-mentioned logic density instruction length-specific, such as per inch amount of pixels.

First, user operation application process 12a and application process 12a are designed to present in a first display mode.In some examples, interface 37 connects the external electronic 30 with display unit 301, and wherein above-mentioned display unit 301 configures in the second display mode.Processing unit 15 knows that application process 12a is designed to present in a first display mode.Therefore, when interface 37 is connected to external electronic 30, because the first display mode is different from the second display mode, so processing unit 15 detects scheduled event.For simplicity, in the following description about the 3rd embodiment, suppose that the first display mode and the second display mode are respectively vertical pattern and transverse mode.

Please refer to Fig. 3 B and Fig. 3 C.Fig. 3 B describes the indication range presenting application process when display unit 301 is in vertical pattern in this vertical pattern.First width W 1 of vertical pattern and the first height H 1 define the indication range in Fig. 3 B.Fig. 3 C describes the indication range representing application process when display unit 301 is in transverse mode in vertical pattern.Second width W 2 and the second height H 2 define the indication range in Fig. 3 C.It should be noted that " the first indication range ", term " second " that term " first " that " first height " and " the first width " use and " the second indication range ", " the second height " and " the second width " use is only for distinguishing different indication range, differing heights and different in width.

Although as shown in Figure 3 C, display unit 301 is in transverse mode, but processing unit 15 can show configuration 100 by the first indication range (indication range namely when display unit 301 is positioned at vertical pattern, wherein above-mentioned indication range is defined by the first width W 1 and the first height H 1) decision systems according to Fig. 3 B after scheduled event being detected.For simplicity, the numerical value of supposing the system display configuration 100 is one.Processing unit 15 system is shown configuration 100 distribute to application process 12a ..., 12b as its local display configuration 102a ..., 102b.In this stage, because represent that in the display unit 301 of transverse mode resource 10a will provide bad visual experience, so application process 12a (namely, the current application process just operated of user) resource (such as, resource 10a) that corresponding local display configures 102a can not be loaded.

The second indication range (that is, the indication range when display unit 301 is in transverse mode, it defines by the second width W 2 and the second height H 2) shown in Fig. 3 C is the target indication range of application process 12a.Therefore, in order to respond the scheduled event of detection, processing unit 15 shows according to this locality that the relation between the first indication range and the second indication range upgrades application process 12a and configures 102a.Following formula can be used to describe relation between the first indication range and the second indication range,

Meanwhile, note that the first viewing area, the depth-width ratio of the second viewing area and display unit 301 can be,

When the numerical value of the first width W 1 equals the numerical value of the second height H 2, be appreciated that adjusted size ratio equals depth-width ratio example.Therefore, processing unit 15 can upgrade this locality display configuration 102a of application process 12a according to above-mentioned depth-width ratio example.Such as, processing unit 15 is by obtaining this locality display configuration 102a of renewal by original this locality display configuration 102a integer be multiplied by close to depth-width ratio example.Next a concrete example is provided.If display unit 301 is of a size of 1366 × 768, then depth-width ratio example is close to 2 (i.e. 1366/768 ≈ 2).In the present case, this locality display configuration 102a of renewal becomes 2 (namely 1 be multiplied by 2 equal 2).Then, application process 12a loads resource 10b according to this locality display configuration 102a upgraded and is presented on display unit 301 by resource 10b.

Fig. 3 D is the schematic diagram loading resource according to the display configuration of original this locality described according to the embodiment of the present invention.Fig. 3 E is the schematic diagram loading resource according to the local display configuration of renewal described according to the embodiment of the present invention.Consider the situation not upgrading local display configuration 102a, as shown on the left of Fig. 3 D, load resource 10a.Based on the first indication range Gains resources 10a; Therefore, to adjust according to the size of above-mentioned adjusted size ratio to resource 10a and resource 10a after showing adjustment will cause as the poor visual experience (such as too little) shown on the right side of Fig. 3 D.

In order to avoid poor visual experience, processing unit 15 upgrades local display configuration 102a to respond the scheduled event detected.Like this, as shown in the left side of Fig. 3 E, application process 12a loads resource 10b and non-resource 10a.Therefore, the resource 10b according to above-mentioned adjusted size ratio adjustresources 10b and as shown in the right side of Fig. 3 E after display size adjustment will produce suitable visual experience (such as, the resource 10b of appropriate size).The right part of only actual displayed Fig. 3 E in the present embodiment.

Fig. 4 is the resource-adaptive method flow diagram described according to a fourth embodiment of the present invention.Resource self-adaptive induction method can be used for electronic installation, the resource-adaptive device 1 such as, described in the first embodiment.

First, electronic installation performs step S401 for performing application process.Then, electronic installation performs this locality display configuration of step S403 using schedule system display configuration as application process, the wherein corresponding first resource of this system display configuration.Then, electronic installation performs step S405 to detect scheduled event, wherein, and the event that the display environment that above-mentioned scheduled event can be application process changes.Note that in some other embodiment, step S405 can be performed before step S403.

Then, electronic installation execution step S407 is configured to respond the scheduled event detected for this locality display upgrading application process.Then, electronic installation performs step S409 for loading Secondary resource according to this locality display configuration upgraded.It should be noted that operation application process on the electronic device performs step S409.Then, after scheduled event being detected, electronic installation performs step S411 and is used for presenting Secondary resource on the display unit.It should be noted that operation application process on the electronic device performs step S411.

Except above-mentioned steps, the 4th embodiment also can perform all operations mentioned in the first embodiment and have all functions mentioned in the first embodiment.Those skilled in the art can understand the 4th embodiment based on the description of the first embodiment and how to perform aforesaid operations and have above-mentioned functions, and the present invention repeats no more.

Fig. 5 is the resource-adaptive method flow diagram described according to a fifth embodiment of the present invention.Resource self-adaptive induction method can be used for electronic installation, the resource-adaptive device 1 such as, described in the first embodiment and the second embodiment.

First, electronic installation performs step S501 for performing application process.Then, electronic installation performs this locality display configuration of step S503 using schedule system display configuration as application process, the wherein corresponding first resource of this system display configuration.In the present embodiment, first resource is the first display layout presenting application process on the display unit.Then, electronic installation performs the first resource that step S505 is used for load application process.Then, application process performs step S507 for presenting first resource on the display unit.It should be noted that operation application process on the electronic device performs step S505 and step S507.

Then, electronic installation performs step S509 for detecting scheduled event, and wherein, the event that the display environment that above-mentioned scheduled event can be application process changes, such as, start multi-windowed environment, start single Windows etc.Then, electronic installation execution step S511 is configured to respond the scheduled event detected for this locality display upgrading application process.In certain embodiments, local display configuration packet is containing layout height value and layout width value.For these embodiments, this locality display that step S511 upgrades application process is configured to upgrade layout height value and layout width value.

Then, electronic installation performs step S513 for loading Secondary resource according to this locality display configuration upgraded.In the present embodiment, Secondary resource is the second display layout presenting application process on the display unit.Particularly, the first display layout and the second display layout have different size.Then, electronic installation performs step S515 for presenting Secondary resource on the display unit.It should be noted that operation application process on the electronic device performs step S513 and step S515.

Except above-mentioned steps, the 5th embodiment also can perform all operations mentioned in the second embodiment and have all functions mentioned in the second embodiment.Those skilled in the art can understand the 5th embodiment based on the description of the second embodiment and how to perform aforesaid operations and have above-mentioned functions, and the present invention repeats no more.

Fig. 6 is the resource-adaptive method flow diagram described according to a sixth embodiment of the present invention.Resource self-adaptive induction method can be used for electronic installation, the resource-adaptive device 3 such as, described in the 3rd embodiment.

First, electronic installation performs step S601 for performing application process, and wherein this application process is designed to present in the first display mode.Then, electronic installation performs step S603 for detecting scheduled event.In the present embodiment, scheduled event is that electronic installation is electrically connected to external electronic, and wherein this external electronic has the display unit that is in the second display mode and above-mentioned second display mode is different from the first display mode of application process.In certain embodiments, the one in the first display mode and the second display mode is vertical pattern, and another kind is transverse mode.

Then, electronic installation performs this locality display configuration of step S605 using schedule system display configuration as application process, the wherein corresponding first resource of this system display configuration.Note that when setting the first display mode, the display unit of external electronic has the first indication range of the first display mode, the first indication range that such as, the first width W 1 shown in Fig. 3 B and the first height H 1 represent.When setting the second display mode, the display unit of external electronic has the second indication range of the second display mode, the second indication range that such as, the second width W 2 shown in Fig. 3 C and the second height H 2 represent.It is emphasized that corresponding first indication range of system display configuration that step S605 mentions.

Then, electronic installation performs step S607 and is configured to respond the scheduled event detected for this locality display upgrading application process, thus corresponding second indication range of this locality that application process is upgraded display configuration.In certain embodiments, the system display that step S605 mentions is configured to the logic density of display unit, and therefore, step S607 upgrades this locality display configuration of application process by upgrading logic density.In certain embodiments, step S607 can upgrade local display configuration according to the dimension scale of display unit.

Then, electronic installation performs step S609 for loading Secondary resource according to this locality display configuration upgraded.Then, electronic installation performs step S611 for presenting Secondary resource on the display unit of external electronic.It should be noted that operation application process on the electronic device performs step S609 and step S611.

Except above-mentioned steps, the 6th embodiment also can perform all operations mentioned in the 3rd embodiment and have all functions mentioned in the 3rd embodiment.Those skilled in the art can understand the 6th embodiment based on the description of the 3rd embodiment and how to perform aforesaid operations and have above-mentioned functions, and the present invention repeats no more.

According to the present invention, electronic installation (or similar device) first schedule system display configures this locality display configuration as the application process that electronic installation performs.When scheduled event being detected (such as, when the display environment of application process changes), this locality display that electronic installation upgrades application process is configured to respond the scheduled event detected.Like this, after scheduled event being detected, application process loads resource according to this locality display configuration upgraded.Since load above-mentioned resource based on this locality display configuration upgraded, the above-mentioned resource therefore presented on the display unit can provide good visual experience.

The above-mentioned embodiment of the present invention can be implemented in various hardware, Software Coding or both combinations.Such as, the embodiment of the present invention can be the circuit that is integrated into video compress chip or is integrated into video compression software to perform the process code of said process.Embodiments of the invention also can be the process code of the above-mentioned process of execution performed in data signal processor (Digital Signal Processor, DSP).The present invention also can relate to the several functions that computer processor, digital signal processor, microprocessor or field programmable gate array (Field Programmable Gate Array, FPGA) perform.Can configure above-mentioned processor according to the present invention and perform particular task, it has been come by the machine-readable software code or firmware code performing the ad hoc approach defining the present invention's announcement.Software code or firmware code can be developed into different process language and different forms or form.Also can in order to different target platform composing software codes.But the different code pattern of the software code of executing the task according to the present invention and other types configuration code, type and language do not depart from spirit of the present invention and scope.

When not departing from the present invention's spirit or essential characteristic, the present invention can be implemented in other specific forms.All aspects that example is considered to illustrate are described and unrestricted.Therefore, scope of the present invention is indicated by claims, but not describes above.Change in all methods of being equal in claim and scope all belongs to covering scope of the present invention.

Claims (18)

1. a resource-adaptive device, comprises:

First display unit; And

Processing unit, be electrically connected this first display unit and configuration performing application process, schedule system display configuration, detecting scheduled event and upgrading this locality display configuration of this application process for responding this scheduled event of detecting, wherein this system display corresponding first resource of configuration this this locality display as this application process configure;

Wherein, after this scheduled event being detected, this application process loads Secondary resource according to this this locality display configuration upgraded and is presented on by this Secondary resource at least one this first display unit.

2. resource-adaptive device as claimed in claim 1, it is characterized in that, this first resource is the first display layout, and this Secondary resource is the second display layout, and this scheduled event starts multi-windowed environment and the one started in single Windows.

3. resource-adaptive device as claimed in claim 2, it is characterized in that, this first display layout and this second display layout are of different sizes.

4. resource-adaptive device as claimed in claim 1, it is characterized in that, this this locality display configuration packet is containing layout height value and layout width value, and this processing unit is shown by this this locality that this layout height value of renewal and this layout width value upgrade this application process and configures.

5. resource-adaptive device as claimed in claim 1, is characterized in that, before this scheduled event being detected, this application process loads this first resource according to the display configuration of this this locality and is presented on this first display unit by this first resource.

6. resource-adaptive device as claimed in claim 1, comprise further: interface, wherein, this application process is designed to present in a first display mode, this scheduled event is the external electronic that this interface is electrically connected the second display unit had in the second display mode, and this first display mode is respectively the different one in vertical pattern and transverse mode from this second display mode.

7. resource-adaptive device as claimed in claim 6, it is characterized in that, when this second display unit is in this first display mode, this second display unit has the first indication range of this first display mode; When this second display unit is in this second display mode, this second display unit has the second indication range of this first display mode, this system display configuration is to should the first indication range, and this this locality display that this application process has upgraded configures should the second indication range.

8. resource-adaptive device as claimed in claim 7, is characterized in that, this system display configuration is logic density and this processing unit upgrades this application process this this locality by upgrading this logic density shows configuration.

9. resource-adaptive device as claimed in claim 8, it is characterized in that, this processing unit upgrades this logic density according to the depth-width ratio of this second display unit.

10. a resource self-adaptive induction method, for electronic installation, comprises:

Perform application process;

Schedule system display configuration, wherein this system display configuration corresponding first resource and as this application process this locality display configuration;

Detect scheduled event; And

This locality display configuration of this application process is upgraded for responding this scheduled event detected, thus making after this scheduled event being detected, this application process loads Secondary resource according to this this locality display configuration upgraded and is presented on the display unit by this Secondary resource.

11. resource self-adaptive induction methods as claimed in claim 10, it is characterized in that, this first resource is the first display layout, and this Secondary resource is the second display layout, and this scheduled event starts multi-windowed environment and the one started in single Windows.

12. resource self-adaptive induction methods as claimed in claim 11, is characterized in that, this first display layout and this second display layout are of different sizes.

13. resource self-adaptive induction methods as claimed in claim 10, it is characterized in that, this this locality display configuration packet is containing layout height value and layout width value, and this processing unit is shown by this this locality that this layout height value of renewal and this layout width value upgrade this application process and configures.

14. resource self-adaptive induction methods as claimed in claim 10, is characterized in that, before this scheduled event being detected, load this first resource of this application process according to the display configuration of this this locality; And before this scheduled event being detected, this first resource of this application process is presented on this display unit.

15. resource self-adaptive induction methods as claimed in claim 10, it is characterized in that, this application process is designed to present in a first display mode, this scheduled event is that the electric connection of this interface has the external electronic locating display unit in the second display mode, and this first display mode is respectively the different one in vertical pattern and transverse mode from this second display mode.

16. resource self-adaptive induction methods as claimed in claim 15, is characterized in that, when this display unit is in this first display mode, this display unit has the first indication range of this first display mode; When this display unit is in this second display mode, this display unit has the second indication range of this first display mode, this system display configuration is to should the first indication range, and this this locality display that this application process has upgraded configures should the second indication range.

17. resource self-adaptive induction methods as claimed in claim 16, is characterized in that, this system display configuration is logic density and this processing unit upgrades this application process this this locality display by upgrading this logic density configures.

18. resource self-adaptive induction methods as claimed in claim 17, is characterized in that, the step of this this locality of this renewal display configuration upgrades this logic density according to the depth-width ratio of this display unit.