The content of the invention
The purpose of the embodiment of the present application is to provide a kind of method for exhibiting data, device and client, to improve the peace of data
Quan Xing.
In order to solve the above technical problems, it is this that the embodiment of the present application, which provides a kind of method for exhibiting data, device and client,
What sample was realized:
A kind of method for exhibiting data, including:
The request for the acquisition data sent according to the client of reception, it is determined that the request corresponding the with the acquisition data
One target data;
Generation and the pseudo- data of the first object data correlation;The pseudo- data and the first object data not phase
Together;
It is determined that at least one skew object corresponding with the pseudo- data, determines the offset type for offseting object and inclined
Move distance;
The offset type and offset distance of the pseudo- data, at least one skew object, and the skew object is anti-
Feed the client so that the client according to the pseudo- data, offset offset type and the offset displaying the of object
Two target datas;The first object data are identical with the display result of second target.
A kind of method for exhibiting data, including:
Client sends the request for obtaining first object data to server;
Receive the skew class of pseudo- data, at least one skew object and the skew object of the server feedback
Type and offset distance, and according to the pseudo- data, at least one skew object and the offset type for offseting object and partially
Move distance and show the second target data on the display page;
Second target data is identical with the display result of the first object data;The pseudo- data and described first
Target data is differed.
A kind of data display device, including:First object data determining module, pseudo- data generation module, skew object mould
Block and data feedback module;Wherein,
The first object data determining module, for the request for the acquisition data sent according to the client of reception, really
Fixed first object data corresponding with the request of the acquisition data;
The pseudo- data generation module, for generating the first object number determined with the first object data determining module
According to the pseudo- data of association;The pseudo- data are differed with the first object data;
The skew object module, for determining the pseudo- data corresponding at least one with the pseudo- data generation module generation
Individual skew object, determines the offset type and offset distance of the skew object;
The data feedback module, for the pseudo- data for generating the pseudo- data generation module, the skew pair
As at least one skew object and the offset type and offset distance of the skew object that module is determined feed back to the visitor
Family end, so that the client shows the second target data according to the pseudo- data, the offset type of skew object and offset;
Second target data is identical with the display result of the first object data.
A kind of client, including:Communication module, processor and display;Wherein,
The communication module, communicates to connect and carries out data transmission for setting up;
The display, for carrying out data display;
The processor, for controlling the communication module to send the request for obtaining first object data to server, and
The communication module is controlled to receive pseudo- data, at least one skew object and the skew object of the server feedback
Offset type and offset distance, the processor is additionally operable to according to the pseudo- data, at least one skew object and described
The offset type and offset distance for offseting object control the display to show the second target data on the display page;Described
One target data is identical with the display result of second target data;The pseudo- data and the first object data not phase
Together.
The technical scheme provided from above the embodiment of the present application, the method for exhibiting data of the embodiment of the present application offer,
Device and client, by generating the pseudo- data differed with first object data, on the basis of the pseudo- data of display, Ke Yili
Make it that the second target data shown on the display page of client is identical with first object data with the skew of skew object.
The technical scheme that the embodiment of the present application is provided can be communicated rather than real mesh in communication process using pseudo- data
Data are marked, so as to avoid first object data from being crawled in communication process, the security of data are improved.
Embodiment
The embodiment of the present application provides a kind of method for exhibiting data, device and client.
In order that those skilled in the art more fully understand the technical scheme in the application, it is real below in conjunction with the application
The accompanying drawing in example is applied, the technical scheme in the embodiment of the present application is clearly and completely described, it is clear that described implementation
Example only some embodiments of the present application, rather than whole embodiments.Based on the embodiment in the application, this area is common
The every other embodiment that technical staff is obtained under the premise of creative work is not made, should all belong to the application protection
Scope.
The embodiment of the present application provides a kind of method for exhibiting data.The method for exhibiting data can be realized by server.Ginseng
According to Fig. 1, the method for exhibiting data may comprise steps of.
S101:The request for the acquisition data sent according to the client of reception, it is determined that the request pair with the acquisition data
The first object data answered.
The first object data can need the real data obtained for client.The first object data generally may be used
To be the core data of server user.For example, can include:The price of commodity, number of purchase commodity etc. on electric business platform.
S102:Generation and the pseudo- data of the first object data correlation.
The pseudo- data can be differed with the first object data.The pseudo- data can be in data communication process
The data directly transmitted.
What the pseudo- data can be randomly generated.For example, first object data can be 986, then, pseudo- data can be with
452 be randomly generated.
The pseudo- data can also utilize default create-rule generation based on the first object data.It is described default
Create-rule can include:The difference of the pseudo- data and the first object data is less than first threshold, or, the pseudo- number
Differed according to the identical and at least one digit number value with the first object data bits.For example, first object data can be 986,
First threshold can be 10, then, pseudo- data can be with the first object data difference within 10 981, or, it is pseudo-
Data can be identical with the first object data bits and at least one digit number value differ 886,956 or 985.
Generate after the pseudo- data, the data directly transmitted in communication process are pseudo- data rather than first object data,
Therefore it can ensure that first object data are not crawled, so as to improve the security of first object data.
S103:It is determined that at least one skew object corresponding with the pseudo- data, determines the skew class of the skew object
Type and offset distance.
At least one skew object corresponding with the pseudo- data can be determined.The skew object can be used for characterizing institute
State the part differed in first object data with the pseudo- data.The skew object can be numeral, letter or picture etc.
Form.When it is picture to offset object, the digital difficulty and cost in gripping tool parsing picture can be further improved, can
To be further ensured that the security of data.
For example, in an application scenarios, first object data can be 986, pseudo- data can be 886.So offset
Object can be the picture for showing numerical value 9, the skew object can characterize in the first object data with the pseudo- data
The part differed is hundreds value 9.In another application scenarios, first object data can be 986, and pseudo- data can be
752, then skew object can include:Represent first object data in differed with the pseudo- data hundreds value numeral 9,
Represent the numeral 8 that is differed with the pseudo- data ten digit value in first object data, and represent in first object data and
The numeral 6 that the pseudo- data units value is differed.
In the present embodiment, skew object can be separately positioned in different figure layers from the pseudo- data.One
Skew object can be correspondingly arranged in a figure layer.Figure layer where each skew object can be opaque figure layer.
The size of figure layer where the skew object can be according to the skew object and the chi of the first object data
It is very little to determine.Specifically, the size summation of figure layer where the skew object can be with skew pair described in first object data
As corresponding digital size summation is identical.
Pass through the superposition of figure layer, it is possible to achieve skew object covers the part or all of numeral in the pseudo- data.For example,
In the additive process of figure layer, the bottom that the figure layer where the pseudo- data can be placed in multiple figure layers.So as to reach
Second target data of display and first object data identical effect.
For example, referring to Fig. 2, first object data can be " 962 ", and pseudo- data can be " 983 ", then skew object can
Think digital " 62 ".As shown in the first width figure in Fig. 2, the figure for including the pseudo- data " 983 " can be shown on the display page
Layer;As shown in the second width figure in Fig. 2, a figure layer can be superimposed on the display page, the figure layer of the superposition can be skew object
Figure layer where " 62 ";It is assumed that digital size corresponding with the skew object " 62 " is in first object data:1 centimetre of *
0.5 centimetre (length * height), then, the size of the figure layer where the skew object " 62 " can be:1 centimetre * 0.5 centimetre
(length * height);As shown in the 3rd width figure in Fig. 2, by way of superposition, the second target data finally shown can be caused
It is identical with the display result of first object data for " 962 ".
Further, when the skew object is picture, the first object data in the pseudo- data with differing
A numeral can correspond to one or more pictures.One or more of pictures can be separately positioned on different figures
Layer, by the superposition of figure layer, can make it that the second target data finally shown is identical with first object data.
For example, referring to Fig. 3, first object data can be " 883 ", and pseudo- data can be " 983 ", then, first object
Data are hundreds value " 8 " with the part that the pseudo- data are differed.As shown in the first width figure in Fig. 3, skew object can be
By digital " 8 " be divided into above and below 2 parts 2 pictures, display can include the figures of the pseudo- data " 983 " on the display page
Layer.As shown in the second width figure in Fig. 3, on the display page, 2 figure layers can be superimposed, two figure layers are respectively this 2
Picture.It is assumed that digital size corresponding with the skew object " 8 " is in first object data:It is 0.5 centimetre * 0.5 centimetre (long
Spend * height), then, by digital " 8 " be divided into above and below 2 parts 2 pictures where figure layer size can distinguish
For:0.5 centimetre of * d1 centimetre (length * height) and 0.5 centimetre of * d2 centimetre (length * height), wherein d1+d2=0.5.By inciting somebody to action
In map overlay to the figure layer comprising the pseudo- data " 983 " where described two pictures, the number of hundred displays can be caused
It is worth for " 8 ";So, as shown in the 3rd width figure in Fig. 3, the second target data finally shown is " 883 ", with first object data
Display result it is identical.
It is possible to further determine the offset type and offset distance of the skew object.The offset type can be wrapped
Include:Horizontal-shift and/or vertical shift.Correspondingly, the offset distance can include:Horizontal-shift distance and/or it is vertical partially
Move distance.The offset distance can be used to indicate that in movement of the skew object in the display page during the page is shown
Distance.
In one embodiment, the offset type and offset distance for determining skew object can include:Determine institute
The offset type of skew object is stated, the offset distance can be determined according to skew object, offset type and first object data
From.The offset type can be selected in advance in any way.The application does not make restriction to this.Now, according to inclined
Move object, offset type and first object data to determine the offset distance, can specifically include:When the skew object
When offset type is horizontal-shift, the offset distance can include horizontal-shift distance.At this point it is possible to represent the skew pair
As upright position of the upright position in the display page with the first object data in the display page is identical.The level
Offset distance shows that page level rises where being equal in first object data digital distance corresponding with the skew object
Beginning position distance.After the skew object moves in the horizontal direction the horizontal-shift distance, the skew object can be with
It is consistent with the corresponding digit position of skew object with first object data.It is described to show that the horizontal original position of the page be
The leftmost side or the rightmost side of the display page.
For example, in an application scenarios, first object data can be " 962 ", and pseudo- data can be " 982 ", then
It can be " 8 " that numerical value corresponding with the skew object is ten in digital " 6 ", first object data to offset object.Assuming that partially
The offset type for moving object is numerical value " 8 " distance display page corresponding with the skew object in horizontal-shift, first object data
The distance of left side of face is " 12 centimetres ", then, horizontal-shift distance is " 12 centimetres ".During display, puppet is being shown
On the display page of data " 982 ", a figure layer is superimposed, the figure layer is the figure layer where offset " 6 ", moves horizontally the figure layer
" 12 centimetres ", can make it that numerical value " 8 " corresponding with the skew object is in the display page in the offset " 6 " and pseudo- data
In position consistency, then, final display result is " 962 ".
Similarly, when the offset type of the skew object is vertical shift, the offset distance can include vertical
Offset distance.It can now represent horizontal level of the skew object in the display page with the first object data aobvious
Show that the horizontal level in the page is identical.The vertical shift distance can be equal in first object data and the skew object pair
The distance of page vertical starting position is shown where the digital distance answered.When the skew object is described vertical in vertical direction movement
After straight offset distance, the skew object can be consistent with the corresponding digit position of skew object with first object data.
The display page vertical starting position can be the top or lowermost end of the display page.
In another embodiment, the offset type and offset distance for determining skew object can include:Can be with
First display location of the numeral corresponding with the skew object in the display page in first object data is calculated, according to
First display location can determine the offset type and offset distance of the skew object.First display location can be with
Including horizontal level and upright position.When the horizontal level is 0, the offset type of the skew object is:Vertical shift;
When the upright position is 0, the offset type of the skew object is:Horizontal-shift;When the horizontal level and it is described hang down
When straight position is not 0, the offset type of the skew object is:Horizontal-shift and vertical shift.The horizontal-shift distance
Equal to the horizontal level in first display location;The vertical shift distance can be equal in first display location
Upright position.
For example, in an application scenarios, first object data can be " 962 ", and pseudo- data can be " 982 ", then
It can be " 8 " that numerical value corresponding with the skew object is ten in digital " 6 ", first object data to offset object, and it is in institute
The first display location stated in the display page can be expressed as (15 centimetres, 12 centimetres);Wherein, horizontal level is 15 centimetres, can
To represent that the numeral " 8 " is located at the position apart from 15 centimetres of the display page leftmost side;Upright position can be 12 centimetres, can
To represent that the numeral " 8 " is located at the position apart from described 12 centimetres of display page the top.So, the skew object " 6 " is inclined
Moving type can be:Horizontal-shift and vertical shift.Horizontal-shift distance can be 15 centimetres, and vertical shift distance can be 12
Centimetre.During display, on the display page for showing the first data " 982 ", a figure layer is superimposed, the figure layer is offset
" 6 ", are moved right the figure layer " 15 centimetres " from the leftmost side of the display page, and the protrusion is moved down from the top of the display page
12 centimetres, it can make it that numerical value " 8 " corresponding with the skew object is in the display page in the offset " 6 " and pseudo- data
Position consistency, then, final display result is " 962 ".Further, can be right for a first object data
There should be multiple skew objects.Each skew object can correspond to a kind of offset type.The offset type of each skew object can
With identical or different.The application does not make restriction to this.
S104:By the offset type and offset distance of the pseudo- data, at least one skew object, and the skew object
From the client is fed back to, so that the client is according to the pseudo- data, the offset type of skew object and offset exhibition
Show the second target data.Second target data is identical with the display result of the first object data.
Server can by the pseudo- data, at least one skew object, and it is described skew object offset type and
Offset distance feeds back to the subscription client.
The client can show the page for including pseudo- data, and offset type according to the skew object and
Offset distance shows the skew object in different figure layers so that the client shows the second target data.Second mesh
Marking data can be identical with the display result of the first object data.
The application also provides the embodiment of another method for exhibiting data.The method for exhibiting data can be real by client
It is existing.Reference picture 4, the embodiment of the method for exhibiting data may comprise steps of.
S401:Client sends the request for obtaining first object data to server.
S402:Receive the server feedback pseudo- data, at least one skew object and it is described skew object it is inclined
Type and offset distance are moved, and according to the offset type of the pseudo- data, at least one skew object and the skew object
And offset distance shows the second target data on the display page;Second target data is aobvious with the first object data
Show that result is identical.
The pseudo- data can be differed with the first object data.The first object data can need for client
The real data to be obtained.The pseudo- data can be the data for directly transmitting or receiving in communication process.
The skew object can be used for characterizing the part differed with the pseudo- data in the first object data.Institute
It can be the forms such as numeral, letter or picture to state skew object.
The offset type can include:Horizontal-shift and/or vertical shift.Correspondingly, the offset distance can be wrapped
Include:Horizontal-shift distance and/or vertical shift distance.The offset distance can be used to indicate that described during map overlay
Offset displacement of the object in the page.
In one embodiment, the offset type and offset distance for determining skew object can include:Determine institute
The offset type of skew object is stated, the offset distance can be determined according to skew object, offset type and first object data
From.The offset type can be selected in advance in any way.It is described according to skew object, offset type and first object
Data determine that the offset distance can specifically include, described when the offset type of the skew object is horizontal-shift
Offset distance can include horizontal-shift distance.At this point it is possible to represent upright position of the skew object in the display page
It is identical with upright position of the target data in the display page.The horizontal-shift distance can be equal to target data in
It is described to offset the distance that the corresponding digital distance place of object shows the horizontal original position of the page.When the skew object is in level
Direction is moved after the horizontal-shift distance, and the skew object can be corresponding with the skew object with first object data
Digit position is consistent.Similarly, when the offset type of the skew object is vertical shift, the offset distance can include
Vertical shift distance.Horizontal level and the first object data of the skew object in the display page can now be represented
Horizontal level in the display page is identical.The vertical shift distance can be equal in first object data and the skew pair
The distance of page vertical starting position is shown as where corresponding digital distance.When the skew object is in vertical direction movement institute
State after vertical shift distance, the skew object can digit position one corresponding with the skew object with first object data
Cause.
In another embodiment, the offset type and offset distance for determining skew object can include:Can be with
First display location of the numeral corresponding with the skew object in the display page in first object data is calculated, according to
First display location can determine the offset type and offset distance of the skew object.First display location can be with
Including horizontal level and upright position.When the horizontal level is 0, the offset type of the skew object is:Vertical shift;
When the upright position is 0, the offset type of the skew object is:Horizontal-shift;When the horizontal level and it is described hang down
When straight position is not 0, the offset type of the skew object is:Horizontal-shift and vertical shift.The horizontal-shift distance
Equal to the horizontal level in first display location;The vertical shift distance can be equal in first display location
Upright position.
The client can show the page for including pseudo- data, and offset type according to the skew object and
Offset distance shows the skew object in different figure layers so that the second target data and described first that the client is shown
Target data is identical.
The method for exhibiting data that above-described embodiment is provided, by generating the pseudo- data differed with first object data,
On the basis of the pseudo- data of display, it is possible to use the skew of skew object causes the second mesh shown on the display page of client
Mark data and first object data.The above method can be communicated rather than truly in communication process using pseudo- data
First object data, so as to avoid first object data from being crawled in communication process, improve the security of data.
The application also provides a kind of embodiment of data display device.The data display device can be server.Ginseng
According to Fig. 5, the data display device can include:First object data determining module 501, pseudo- data generation module 502, skew
Object module 503 and data feedback module 204.Wherein,
The first object data determining module 501, the acquisition data that can be used for being sent according to the client of reception
Request, it is determined that first object data corresponding with the request of the acquisition data.
The pseudo- data generation module 502, can be used for what generation was determined with the first object data determining module 501
The pseudo- data of first object data correlation.The pseudo- data can be differed with the first object data.
The skew object module 503, is determined for the pseudo- data pair generated with the pseudo- data generation module 502
At least one the skew object answered, determines the offset type and offset distance of the skew object.
The data feedback module 504, can be used for the pseudo- data for generating the pseudo- data generation module 502,
At least one skew object and the offset type and offset distance of the skew object that the skew object module 503 is determined
From the client is fed back to, so that the client is according to the pseudo- data, the offset type of skew object and offset exhibition
Show the second target data.Second target data can be identical with the display result of the first object data.
The application also provides a kind of embodiment of data display client.The client can be PC, notebook electricity
Brain, tablet personal computer, mobile phone, intelligent self-service terminal, intelligent wearable device etc..Reference picture 6, the client can include:It is logical
Believe module 601, processor 602 and display 603.
The communication module 601, can be used for setting up communication connection and carries out data transmission.
In presently filed embodiment, communication module 601 can be set according to ICP/IP protocol, and in the protocol frame
Lower carry out network service.Specifically, it can be mobile radio network communication chip, such as GSM, CDMA;It can also be
Wifi chips;It can also be Bluetooth chip.
The display 603, can be used for carrying out data display.
In presently filed embodiment, the display 603 can be by specifically passing by certain e-file
Transfer device is shown to the show tools that human eye is re-reflected on screen.Specifically, it can be cathode-ray tube display
(CRT), plasma display (PDP), liquid crystal display (LCD) etc..
The processor 602, can be used for the request for controlling the communication module 601 to send acquisition first object data extremely
Server, and control the communication module 601 receive the server feedback pseudo- data, at least one skew object and
The offset type and offset distance of the skew object, the processor 602 is additionally operable to according to the pseudo- data, at least one is inclined
The offset type and offset distance for moving object and the skew object control the display 603 to be shown on the display page
Second target data.Second target data can be with identical with the display result of the first object data.The pseudo- data
It can be differed with the first object data.
In presently filed embodiment, the processor 602 can be implemented in any suitable manner.For example, described
Processor 602 can take such as microprocessor or processor and storage can be by the computer-readable of (micro-) computing device
Computer-readable medium, gate, switch, the application specific integrated circuit (Application of program code (such as software or firmware)
Specific Integrated Circuit, ASIC), form of programmable logic controller (PLC) and embedded microcontroller etc..This
Apply and be not construed as limiting.
Data display device and client that above-described embodiment is provided, the concrete function performed by it can be with the application's
Method embodiment contrasts explanation, it is possible to achieve the present processes embodiment and the technology effect for reaching method embodiment
Really.
In the 1990s, for a technology improvement can clearly distinguish be on hardware improvement (for example,
Improvement to circuit structures such as diode, transistor, switches) or software on improvement (for the improvement of method flow).So
And, with the development of technology, the improvement of current many method flows can be considered as directly improving for hardware circuit.
Designer nearly all obtains corresponding hardware circuit by the way that improved method flow is programmed into hardware circuit.Cause
This, it cannot be said that the improvement of a method flow cannot be realized with hardware entities module.For example, PLD
(Programmable Logic Device, PLD) (such as field programmable gate array (Field Programmable Gate
Array, FPGA)) it is exactly such a integrated circuit, its logic function is determined by user to device programming.By designer
Voluntarily programming comes a digital display circuit " integrated " on a piece of PLD, without asking chip maker to design and make
Special IC chip 2.Moreover, nowadays, substitution manually makes IC chip, and this programming is also used instead mostly
" logic compiler (logic compiler) " software realizes that software compiler used is similar when it writes with program development
Seemingly, and the source code before compiling also handy specific programming language is write, this is referred to as hardware description language
(Hardware Description Language, HDL), and HDL is also not only a kind of, but have many kinds, such as ABEL
(Advanced Boolean Expression Language)、AHDL(Altera Hardware Description
Language)、Confluence、CUPL(Cornell University Programming Language)、HDCal、JHDL
(Java Hardware Description Language)、Lava、Lola、MyHDL、PALASM、RHDL(Ruby
Hardware Description Language) etc., VHDL (Very-High-Speed are most generally used at present
Integrated Circuit Hardware Description Language) and Verilog2.Those skilled in the art
It will be apparent to the skilled artisan that only needing to method flow slightly programming in logic and being programmed into integrated circuit with above-mentioned several hardware description languages
In, it is possible to it is readily available the hardware circuit for realizing the logical method flow.
It is also known in the art that in addition to realizing controller in pure computer readable program code mode, it is complete
Controller can be caused with gate, switch, application specific integrated circuit, programmable by the way that method and step is carried out into programming in logic entirely
Logic controller realizes identical function with the form of embedded microcontroller etc..Therefore this controller is considered one kind
Hardware component, and the structure in hardware component can also be considered as to the device for realizing various functions included in it.Or
Even, it not only can be able to will be the software module of implementation method for realizing that the device of various functions is considered as but also can be Hardware Subdivision
Structure in part.
System, device, module or unit that above-described embodiment is illustrated, can specifically be realized by computer chip or entity,
Or realized by the product with certain function.
For convenience of description, it is divided into various units during description apparatus above with function to describe respectively.Certainly, this is being implemented
The function of each unit can be realized in same or multiple softwares and/or hardware during application.
As seen through the above description of the embodiments, those skilled in the art can be understood that the application can
Realized by the mode of software plus required general hardware platform.Understood based on such, the technical scheme essence of the application
On the part that is contributed in other words to prior art can be embodied in the form of software product, in a typical configuration
In, computing device includes one or more processors (CPU), input/output interface, network interface and internal memory.The computer is soft
Part product can include some instructions to cause a computer equipment (can be personal computer, server, or network
Equipment etc.) perform method described in some parts of each embodiment of the application or embodiment.The computer software product can
To be stored in internal memory, internal memory potentially includes the volatile memory in computer-readable medium, random access memory
And/or the form, such as read-only storage (ROM) or flash memory (flash RAM) such as Nonvolatile memory (RAM).Internal memory is computer
The example of computer-readable recording medium.Computer-readable medium includes permanent and non-permanent, removable and non-removable media can be by
Any method or technique come realize information store.Information can be computer-readable instruction, data structure, the module of program or its
His data.The example of the storage medium of computer includes, but are not limited to phase transition internal memory (PRAM), static RAM
(SRAM), dynamic random access memory (DRAM), other kinds of random access memory (RAM), read-only storage
(ROM), Electrically Erasable Read Only Memory (EEPROM), fast flash memory bank or other memory techniques, read-only optical disc are read-only
Memory (CD-ROM), digital versatile disc (DVD) or other optical storages, magnetic cassette tape, tape magnetic rigid disk storage or
Other magnetic storage apparatus or any other non-transmission medium, the information that can be accessed by a computing device available for storage.According to
Herein defines, and computer-readable medium does not include of short duration computer readable media (transitory media), such as modulation
Data-signal and carrier wave.
Each embodiment in this specification is described by the way of progressive, identical similar portion between each embodiment
Divide mutually referring to what each embodiment was stressed is the difference with other embodiment.It is real especially for system
Apply for example, because it is substantially similar to embodiment of the method, so description is fairly simple, related part is referring to embodiment of the method
Part explanation.
The application can be used in numerous general or special purpose computing system environments or configuration.For example:Personal computer, clothes
Business device computer, handheld device or portable set, laptop device, multicomputer system, the system based on microprocessor, put
Top box, programmable consumer-elcetronics devices, network PC, minicom, mainframe computer including any of the above system or equipment
DCE etc..
The application can be described in the general context of computer executable instructions, such as program
Module.Usually, program module includes performing particular task or realizes routine, program, object, the group of particular abstract data type
Part, data structure etc..The application can also be put into practice in a distributed computing environment, in these DCEs, by
Remote processing devices connected by communication network perform task.In a distributed computing environment, program module can be with
Positioned at including in the local and remote computer-readable storage medium including storage device.
Although depicting the application by embodiment, it will be appreciated by the skilled addressee that the application have it is many deformation and
Change is without departing from spirit herein, it is desirable to which appended claim includes these deformations and changed without departing from the application's
Spirit.