CN102467371A - Measurement resource control method and measurement resource control system - Google Patents
Measurement resource control method and measurement resource control system Download PDFInfo
- Publication number
- CN102467371A CN102467371A CN2010105348696A CN201010534869A CN102467371A CN 102467371 A CN102467371 A CN 102467371A CN 2010105348696 A CN2010105348696 A CN 2010105348696A CN 201010534869 A CN201010534869 A CN 201010534869A CN 102467371 A CN102467371 A CN 102467371A
- Authority
- CN
- China
- Prior art keywords
- window
- application resource
- resource
- application
- tabulation
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Granted
Links
Images
Landscapes
- User Interface Of Digital Computer (AREA)
Abstract
The invention discloses a measurement resource control system and method, which are used for managing a plurality of application resources with display windows, and the application resources are used for controlling a measuring instrument. The measurement resource control system comprises an operation application resource list generating component and an application resource window state control component, wherein the operation application resource list generating component is used for generating an operation application resource list, the operation application resource list comprises a plurality of identification information of operating application resources, and the application resource window state control component is used for selecting at least one selected application resource from the operation application resource list for changing the window state corresponding to the selected application resource. The measurement resource control system and the measurement resource control method have the advantage that the management of an application program window is very convenient.
Description
Technical field
The present invention relates to a kind of measurement resource control system and measure resource control method, particularly relate to a kind of run on computing machine, be used to manage a plurality of surveying instruments measure the measurement resource control method of resource control system and employing thereof with application program.
Background technology
In Industrial Engineering and education of science field, measuring testing tool all is indispensable basic tool in the links such as experiment, manufacturing production, test, and for example oscillograph, multimeter, frequency spectrograph, signal source all are the multimeters of using always.Along with the continuous development of science and technology, surveying instrument is also transformed to the digital measurement instrument by the analogue measurement instrument.Digitized surveying instrument has the not available advantage of a lot of analogue measurement instruments, for example is convenient to store, conveniently carry out data analysis and calculating, strong interference immunity or the like.In addition; The advantage that digital measuring instrument also has a uniqueness is exactly; It can be connected with computing machine easily, forms a measuring system, utilizes computing machine rich in natural resources and strong functions to come surveying instrument is controlled and measurement result is carried out more complex processing.
Because above-mentioned advantage, the measuring system of being made up of computing machine and surveying instrument is by extensive studies and development.What deserves to be mentioned is,, make surveying instrument such as oscillograph in measuring system, only play the effect of data acquisition, and data processing of itself and Presentation Function become a kind of waste because computing machine possesses powerful data processing and Presentation Function.Therefore, measuring integrated circuit board gives birth to therefrom.Measure integrated circuit board and also be considered to be a kind of surveying instrument, different with oscillograph etc. is, it only possesses the effect of data acquisition, and itself does not carry out the processing or the demonstration of data.In use; Measuring integrated circuit board generally need be plugged on the IO interface of computing machine; For example, the measurement integrated circuit board can pass through VXI (VME extensions for Instrumentation) bus, PXI (PCI extensions for Instrumentation) bus, GPIB (General Purpose Interface Bus) and computer by serial (serial port) or parallel port (parallel port) is connected with computing machine.
Can know that according to above-mentioned introduction please with reference to Fig. 1, present measuring system 1 comprises a computing machine 11 and at least one surveying instrument 12, each surveying instrument 12 is connected with computing machine 11 through an interface 13.Computing machine 11 can be the equipment that PC (PC), server (server) or the client (client) that is connected to server etc. have data operation and processing capacity.Surveying instrument 12 is the equipment with data acquisition function, can be surveying instrument, for example is oscillograph, multimeter, frequency spectrograph, signal source, also can be to measure integrated circuit board, even can also be sensor etc.Interface 13 can be vxi bus, PXI bus, GPIB, serial ports, parallel port or LAN mouth, and serial ports comprises USB interface, RS232 etc.
Because the diversity of interface 13, computing machine 11 generally all can mounting interface drivers 111, for example VISA drives, and is used to shield the difference that different interface 13 is brought.Computing machine 11 can pass on various command to carry out corresponding operation to surveying instrument 12 based on interface drive program 111 through normalized SCPI command set 112.SCPI command set 112 comprises many SCPI order, and different SCPI orders are used for surveying instrument 12 is carried out different operation, this operation comprise to the control of surveying instrument 12, to the parameter of surveying instrument 12 be configured, from surveying instrument 12 reading of data etc.
The SCPI order is various, and the user controls, measurement result is carried out various computings different surveying instrument 12 for ease, and computing machine 11 also comprises at least one application program 14.Application program 14 can be based on interface drive program 111 and SCPI command set 112; Use programming language tools such as VC, VB, LabVIEW etc.; Develop completion by developer, user oneself or other people, be used for that 11 pairs of surveying instruments of control computer 12 carry out various operations and measurement data is handled etc.For example, please with reference to Fig. 2, shown in Fig. 2 is the display window 1490 that is applied to the application program of the disclosed frequency spectrograph of a kind of prior art.Display window 1490 is displayed on the display interface of display device; Display window 1490 has a plurality of input fields 1491; The user can import the various operations to surveying instrument 12 through input field 1491 easily, and replaces directly sending the SCPI order to surveying instrument 12; Display window 1490 also has a waveform and shows field 1492, is used for the form of figure line computing machine 11 being shown from the measurement data that surveying instrument 12 obtains.
Because the diversity of surveying instrument 12, the specification of each surveying instrument 12, parameter or function etc. all are not quite similar.Generally need the different application program 14 of exploitation for different surveying instrument 12.Please with reference to Fig. 3, for example, power supply that model is DP1308A 121 corresponding application program 141; Frequency spectrograph that model is DSA1030A 122 corresponding application program 142.In addition, even if the surveying instrument of same kind 12 causes possibilities such as its specification, parameter or function different owing to its model, version are different, therefore also need develop different application program 14 sometimes.
In addition; For some special application scenarios; Need a plurality of identical or different surveying instruments 12 collaborative works to realize a certain measuring task; Therefore, a plurality of surveying instruments 123 can be corresponding an application program 143, need these a plurality of surveying instruments 123 during these application program 143 operations work simultaneously and could accomplish measuring task.
In addition, also can develop a plurality of application programs 144 for a surveying instrument 124 and be used for realizing respectively different functions again; For some surveying instrument 125; For example same type but the different surveying instrument of model; Also can have the situation that an application program 145 can compatible a plurality of surveying instruments 125, this moment, this application program 145 can be separately and each surveying instrument 125 cooperating.For example, compatible model of 145 while of application program is the frequency spectrograph 125 of DSA1030A and the frequency spectrograph 125 ' of DSA1000A.
Please with reference to Fig. 4, computing machine 11 comprises CPU114, internal memory 115, hard disk 116 and bus 117.CPU114, internal memory 115, hard disk 116 are connected with bus 117 respectively, and accomplish communication through bus 117.Application program 14 is a kind of executable programs, not by operation the time, is to be stored in the hard disk 116 usually.Be called and when moving, after the user opened the instruction of this application program 14 through the operating system input of computing machine 11, this application program 14 was loaded in the middle of the internal memory 115, just can be carried out by CPU114.
Please together with reference to Fig. 1 and Fig. 5, when application program 14 was carried out, computing machine 11 was carried out following steps in regular turn under the control of application program 14:
Step S1, instrument finding step;
Though according to aforementioned; Surveying instrument 12 is connected with computing machine 11 through an interface 13; This connection just pegs graft surveying instrument 12 and interface 13 get up, and also surveying instrument 12 is not configured, for example interface configuration; Obtain the address of surveying instrument 12, this computer-chronograph 11 can't be set up communication with surveying instrument 12.Therefore, the instrument finding step is mainly accomplished the configuration to surveying instrument 12, obtains the original address of a corresponding surveying instrument 12.Even if should be pointed out that to have obtained this original address, but this connection only is the connection on the physics rank, that is to say that computing machine 11 can utilize this original address to communicate by letter with this surveying instrument 12.And according to mentioned above; Because application program 14 exists diversified corresponding relation with surveying instrument 12; Accomplish the instrument finding step also and do not mean that application program 14 can control 11 pairs of these surveying instruments 12 of computing machine and operate and controlled; Also need further to discern the essential information of the surveying instrument 12 that is connected; Judge that whether the surveying instrument 12 that is connected matees with application program 14, or which platform surveying instrument 12 is complementary with application program 14 in many surveying instruments 12 that connected.
Step S2, instrument Connection Step;
Step S2 mainly accomplishes surveying instrument 12 and is connected with the logic of computing machine 11, on application, sets up the communication channel of surveying instrument 12 and computing machine 11.That is, need to accomplish the identification of instrument model, be application program 14 pairing surveying instruments 12 to guarantee this instrument, that is judge whether follow-up instrument application step can control this surveying instrument 12.
The concrete work of doing of step S2 is: receive this original address; Utilize this original address to send order to surveying instrument 12; Inquiry instrument essential information; This instrument essential information to surveying instrument 12 returns is resolved; Parse trade name, instrument model, instrument sequence number, instrument version number etc. according to this instrument essential information, parse trade name, instrument model, instrument sequence number, instrument version number etc. according to this and judge whether this surveying instrument 12 is surveying instruments 12 of application program 14 correspondences.
Step S3, instrument application step;
The work of step S3 comprises: one, utilize this original address control computer 11 and surveying instrument 12 to communicate, Content of Communication comprises the measurement data that receives surveying instrument 12, orders to surveying instrument 12 transmission SCPI and surveying instrument 12 controlled etc.; Two, a display interface is provided; Please with reference to Fig. 2; For example be the display interface of the application program of this frequency spectrograph, the measurement data that receives shown, receives the instruction of user input and be converted into corresponding SCPI order through modes such as input windows 1491 and be sent to surveying instrument 12 with forms such as curves through waveform display window 1492.
Please with reference to Fig. 6, when computing machine 11 has connected a plurality of surveying instruments 12, and when having opened a plurality of application programs 14 and controlling this a plurality of surveying instrument 12 respectively, can show the display window of a plurality of application programs 14 on the display interface.Because the display interface area of display device is limited, when display window quantity more for a long time, inevitably can block each other.Especially identical in a plurality of surveying instrument 12 types, when for example all being frequency spectrograph, the display window of a plurality of application programs 14 also is essentially identical, makes that the user has no way of differentiating.At this moment, the user is difficult to from the many windows that block each other and have no way of differentiating, find the window of oneself wanting 1490 to activate, and therefore uses very inconvenient.
Summary of the invention
In order to solve prior art at a plurality of surveying instruments of control and the problem of be inconvenient to use during the window that on display interface, has a plurality of application programs, the present invention provides a kind of measurement resource control system that makes things convenient for use.
Simultaneously, the present invention also provides the measurement resource control method that said measurement resource control system is adopted.
A kind of measurement resource control system; Be used to manage a plurality of application resources with display window; Said application resource is used for measuring equipment, it is characterized in that, said measurement resource control system comprises: operation application resource list producing parts; Be used to produce the tabulation of an operation application resource, said operation application resource tabulation comprises the identifying information of a plurality of application resources that moving; An application resource Window state control assembly is used at least one selected application resource that basis is selected from said operation application resource tabulation, changes the state of the pairing window of said selected application resource.
Measure in the embodiment of resource control system in the present invention; Said application resource window activates arrangement part; Be further used for a plurality of selected application resource that basis is selected from said operation application resource tabulation; Order according to application resource in said operation application resource tabulation activates the pairing window of said selected application resource and arrange.
Measure in the embodiment of resource control system in the present invention, said identifying information comprises the surveying instrument title that said application resource is controlled and the title of said application resource
Measure in the embodiment of resource control system in the present invention, said activation is that the pairing window of said selected application resource is changed to current exercisable window.
Measure in the embodiment of resource control system in the present invention, said arrangement is with range upon range of and staggered the arranging of the pairing window of said selected application resource.
Measure in the embodiment of resource control system in the present invention, said application resource is the application program that is used for measuring equipment.
Measure in the embodiment of resource control system in the present invention, said arrangement is that the pairing window of said selected application resource is arranged according to rule.
A kind of measurement resource control method; Be used to manage a plurality of application resources with display window; Said application resource measuring equipment is characterized in that, said measurement resource control method comprises: an operation application resource list producing step; Produce the tabulation of an operation application resource, said operation application resource tabulation comprises the identifying information of a plurality of application resources that moving; An application resource Window state controlled step according at least one selected application resource of from said operation application resource tabulation, selecting, changes the state of the pairing window of said selected application resource.
Measure in the embodiment of resource control method in the present invention; Said application resource window activates alignment step; Further according to a plurality of selected application resource of from said operation application resource tabulation, selecting; Order according to application resource in said operation application resource tabulation activates the pairing window of said selected application resource and arrange.
Measure in the embodiment of resource control method in the present invention, said identifying information comprises the surveying instrument title that said application resource is controlled and the title of said application resource
Measure in the embodiment of resource control method in the present invention, said activation is that the pairing window of said selected application resource is changed to current exercisable window.
Measure in the embodiment of resource control method in the present invention, said arrangement is with range upon range of and staggered the arranging of the pairing window of said selected application resource.、
Measure in the embodiment of resource control method in the present invention, said application resource is the application program that is used for measuring equipment.
Measure in the embodiment of resource control method in the present invention, said arrangement is that the pairing window of said selected application resource is arranged according to rule.
The present invention measures resource control system and measures resource control method owing to can make the user select an application program to activate corresponding window through the tabulation of operation application resource; And the abundant information of operation application resource tabulation; The user can find the window of the application program of oneself wanting easily, and then easy to use.
Further; Because the measurement resource control system in one embodiment of the present invention when arranging window, is arranged window according to activating earlier in the order of moving the application resource tabulation, perhaps activate one of an arrangement again; Therefore; When being arranged in staggered state of arranging, not only position of window staggers successively, and the order of the figure layer of window also is adjusted to window.The Layer Order that therefore, window can not take place causes chaotic problem with putting in order inconsistent.
Description of drawings
Fig. 1 is a kind of modular structure synoptic diagram of traditional measuring system.
Fig. 2 is a kind of display interface synoptic diagram of existing application program.
Fig. 3 is the synoptic diagram of surveying instrument and application matches relation.
Fig. 4 is a kind of modular structure synoptic diagram of traditional calculating machine.
Fig. 5 is that a kind of traditional application program operation is performed flow chart of steps.
Fig. 6 is the window of the display interface situation synoptic diagram of arranging when utilizing traditional approach to open a plurality of application program.
Fig. 7 is that the present invention measures the modular structure synoptic diagram that resource control system first embodiment is applied to a measuring system.
Fig. 8 is the structural representation of the computing machine that measuring system adopted among Fig. 7.
Fig. 9 is window that the present invention measures under resource control system first embodiment display interface when the opening a plurality of application program situation synoptic diagram of arranging.
Figure 10 is that the present invention measures resource control system first embodiment performed flow chart of steps of when work.
Figure 11 is the synoptic diagram that the present invention measures the operation application resource tabulation 46 of resource control system first embodiment.
Figure 12 is a synoptic diagram of in operation application resource tabulation 46 shown in Figure 11, selecting application window to manage.
Figure 13 is the Window state synoptic diagram after first embodiment measurement resource control system is managed.
Figure 14 is the module diagram that the present invention measures resource control system first embodiment.
Figure 15 is a synoptic diagram of in the operation application resource tabulation 46 of the measurement resource control system of second embodiment, selecting application window to manage.
Figure 16 is the Window state synoptic diagram after second embodiment measurement resource control system is managed.
Embodiment
Introduce first embodiment that the present invention measures resource control system below.
Please refer to Fig. 7, measure resource control system 4 and be applied in the measuring system 2.Measuring system 2 comprises a plurality of measurement resources 20 and the measurement resource control system 4 that is used to manage and control these a plurality of measurement resources 20.These a plurality of measurement resources 20 comprise a plurality of surveying instruments 22 and a plurality of application resources 24.In this embodiment, these a plurality of surveying instruments 22 comprise surveying instrument 221, surveying instrument 222 and surveying instrument 223, and these a plurality of application resources 24 comprise application program 241, application program 242 and application program 243.Application program 241 is used for measuring equipment 221, and application program 242 is used for measuring equipment 222, and application program 243 is used for measuring equipment 223.Application program has the application program essential information, comprises the title and this application program storing path of application program.
Surveying instrument 22 is the equipment with data acquisition function, can be oscillograph, multimeter, frequency spectrograph, signal source, also can be to measure integrated circuit board, even can also be sensor etc.Measuring resource control system 4 is realized by computing machine and operation measurement resource control system software on computers.Computing machine can be the equipment that PC, panel computer, server or the client that is connected to server etc. have data operation and processing capacity.Surveying instrument 22 is connected with measurement resource control system 4 through interface, and interface can be vxi bus, PXI bus, GPIB, serial ports, parallel port or LAN mouth.
Please, in the middle of this embodiment, measure resource control system 4, application program 241, application program 242 and application program 243 and all run on the computing machine 41 with reference to Fig. 8.Computing machine 41 comprises CPU414, internal memory 415, storer 416, bus 417, display screen 418 and peripheral hardware 419.CPU414, internal memory 415, storer 416 are connected with bus 417 respectively; Display screen 418 is connected with bus 417 through video card 419; Peripheral hardware 419 links to each other with bus 417 through various interface, and CPU414, internal memory 415, storer 416, display screen 418 and peripheral hardware 419 are accomplished through bus 417 and communicated by letter.Storer 416 is made up of hard disk, can also be flash memory, CD, disk etc. certainly.Peripheral hardware 419 comprises mouse, keyboard etc.
Please merge with reference to Fig. 8 and Fig. 9; Application program 241 has a window 251, and application program 242 has a window 252, and application program 243 has a window 253; Window 251,252,253 all is presented on the display interface of display screen 418, is used to realize man-machine interaction.Each window all has a window title (Windows Title), generally is positioned at the top edges place of window.Because computing machine 41 has been installed operating system, the general rule of window under for example Windows operating system, so window 251,252, the 253 match operation systems.General rule comprises:
The first, in the window 251,252,253, can only there be a window to be in state of activation.State of activation is meant: this window is in the state that the user can operate this window, and promptly this window is at present mutually with the object of operating.Under the conventional situation, the user need click this window with the input equipment of for example mouse just can make this window get into state of activation, but said like background technology, when window more for a long time, the dress mouth not a duck soup that selection is wanted.
The second, the position of window 251,252,253 can arbitrarily be moved.The user can arbitrarily drag the window that activates, and realizes the change of the window's position.Therefore, more for a long time, after long-time the use, position of window is often very in disorder in number of windows.
Three, window 251,252, have hierarchical relationship between 253.After each window is activated, all can be placed in the upper strata of other windows.Therefore, the user activates a window at every turn, all can change window 251,252, the hierarchical relationship between 253.For example, user elder generation theactivewindow 251, theactivewindow 252 then, last theactivewindow 253, so last result is, and window 253 is positioned at the top of window 252 and 251, and window 252 is positioned at window 251 tops, and window 251 is positioned at the bottom.
In this embodiment, the user can be through measuring the state that 4 pairs of windows of resource control system 251,252,253 change window, and the form that changes the state of window comprises activating in the window 251,252,253.Below just the course of work of measuring resource control system 4 is carried out detailed explanation.
Please with reference to Figure 10, the measurement resource control system 4 of first embodiment is carried out following steps when the mobilizing function of realizing window:
Step S11, operation application resource list producing step produce the tabulation of an operation application resource, and said operation application resource tabulation comprises the identifying information of a plurality of application resources that moving;
Please with reference to Figure 11; Measure resource control system 4 and on the display interface of display screen 418, produce operation application resource tabulation 46; Operation application resource tabulation 46 comprises the identifying information of the application program 241,242,243 of operation, and each identifying information is being represented an application program.In this embodiment, identifying information comprise application program title 261, this application program surveying instrument name 262 and this application program storing path 263 of corresponding control.
This application program the surveying instrument name 262 of corresponding control can obtain through the surveying instrument essential information, title 261 and this application program storing path 263 of application program can obtain through the essential information of application program.
Step S12, application resource Window state controlled step according at least one selected application resource of from said operation application resource tabulation, selecting, change the state of the pairing window of said selected application resource.In this embodiment, the state that changes the pairing window of said selected application resource is meant the pairing window of selected application program is activated.
Please with reference to Figure 12, the user is through input equipment, and for example mouse is selected an identifying information from operation application resource tabulation 46, chooses a corresponding application program, for example selects identifying information 271.To identifying information 271 right button of clicking the mouse, measure resource control system 4 and produce a menu 28, " activation " button 281 in user's choice menus.Measure the window title that resource control system 4 extracts the window 251 of these identifying information 271 pairing application programs 241, call Windows api function FindWindowA, obtain window handle, wherein, window handle is 32 no symbol shaping data.Call Windows api function SetWindowPos again, use window handle, just can window 251 be activated as parameter.Please with reference to Figure 13, the figure layer of the window 251 that is activated then is changed to the superiors and becomes current operand, and promptly window 251 is positioned at the upper strata of window 252 and 253, and is in the manipulable state of user.
Please,, measure resource control system 4 and comprise an operation application resource list producing parts M11 and an application resource Window state control assembly M12 in order to realize above-mentioned steps with reference to Figure 14.Operation application resource list producing parts M11 is used to produce the tabulation of an operation application resource, and said operation application resource tabulation comprises the identifying information of a plurality of application resources that moving; Application resource Window state control assembly M12 is used at least one selected application resource that basis is selected from said operation application resource tabulation, changes the state of the pairing window of said selected application resource.In this embodiment, the state that changes the pairing window of said selected application resource is meant the pairing window of selected application program is activated.
Because the measurement resource control system 4 of first embodiment can make the user select an application program to activate corresponding window through operation application resource tabulation 46; And the abundant information of operation application resource tabulation 46; The user can find the window of the application program of oneself wanting easily, and then easy to use.
Introduce second embodiment that the present invention measures resource control system below.The measurement resource control system 5 of second embodiment and the difference of first embodiment are: in this embodiment; The user can be through measuring the state that 5 pairs of windows of resource control system 251,252,253 change window; The form that changes the state of window comprises activating and arranging in the window 251,252,253; Arrangement is meant the position of moving window, makes position of window arrange according to certain rules.Below just the course of work of measuring resource control system 5 is carried out detailed explanation.
Please with reference to Figure 10, the measurement resource control system 5 of second embodiment when realizing that activation to window is with arranging functional, the execution following steps:
Step S11, operation application resource list producing step produce the tabulation of an operation application resource, and said operation application resource tabulation comprises the identifying information of a plurality of application resources that moving; Step S11 in second embodiment is identical with the step S11 of first embodiment, repeats no more here.
Step S12, application resource Window state controlled step according at least one selected application resource of from said operation application resource tabulation, selecting, change the state of the pairing window of said selected application resource.In this embodiment; The state that changes the pairing window of said selected application resource is meant a plurality of selected application resource of selecting according to from said operation application resource tabulation; Order according to application resource in said operation application resource tabulation activates the pairing window of said selected application resource and arrange.
Please with reference to Figure 15, the user is through input equipment, and for example mouse is selected a plurality of identifying informations from operation application resource tabulation 46, chooses a plurality of corresponding application program, for example selects identifying information 271,272,273.To any right button of clicking the mouse in the identifying information 271,272,273, measure resource control system 5 and produce a menu 28, " arrangement " button 282 in user's choice menus.Measure the window title that resource control system 5 extracts the window 251,252,23 of these identifying information 271,272,273 pairing application programs 241,242,243, call Windows api function FindWindowA, obtain window handle.Then; Again according to the order of identifying information 271,272,273 in operation application resource tabulation 56; Call Windows api function SetWindowPos, use window handle, just can window 251,252,253 be activated according to the order in operation application resource tabulation 46 as parameter.Then, call Windows api function MoveWindow, use window handle, just can window 251,252,253 be moved to appointed positions according to the order in operation application resource tabulation 46 as parameter.
In this embodiment, this arrangement is that window 251,252,253 is moved the state that interleaved is arranged according to the order in operation application resource tabulation 56.Particularly; Measure resource control system 5 earlier according to the order of identifying information 271,272,273 in operation application resource tabulation 46; Identifying information 271 corresponding windows 251 are activated, again identifying information 272 corresponding windows 252 are activated, again identifying information 273 corresponding windows 253 are activated.Then; According to the order of identifying information 271,272,273 in operation application resource tabulation 46; Identifying information 271 corresponding windows 251 are moved to the upper left corner of display interface; Again identifying information 272 corresponding windows 252 are moved to 30 locations of pixels in window 251 lower rights, again identifying information 273 corresponding windows 253 are moved to 30 locations of pixels in window 252 lower rights, thereby realize staggered state of arranging.
In another embodiment, step S12 can also realize in such a way:
The user is through input equipment, and for example mouse is selected a plurality of identifying informations from operation application resource tabulation 56, chooses a corresponding application program, for example selects identifying information 271,272,273.Measure the window title that resource control system 5 extracts the window 251,252,23 of these identifying information 271,272,273 pairing application programs 241,242,243, call Windows api function FindWindowA, obtain window handle.Then; According to the order of identifying information 271,272,273 in operation application resource tabulation 56, call Windows api function SetWindowPos again, the window handle that uses window 251 is as parameter; Window 251 is activated; Call Windows api function MoveWindow, the window handle that uses window 251 moves to appointed positions as parameter with window 251.Call Windows api function SetWindowPos, the window handle that uses window 252 activates window 252 as parameter, calls Windows api function MoveWindow, and the window handle that uses window 252 is as parameter, with window 252 to appointed positions.Call Windows api function SetWindowPos; The window handle that uses window 253 activates window 253 as parameter, calls Windows api function MoveWindow; The window handle that uses window 253 moves to appointed positions as parameter with window 253.
In another embodiment, please with reference to Figure 16, this arrangement is that window 251,252,253 is moved to same position according to the order in operation application resource tabulation 56, makes that window 251,252,253 is overlapping.For example, window 251,252,253 is moved to the upper left corner of display interface, i.e. (0,0) position of pixel coordinate.
Please with reference to Figure 14, in order to realize the said step of second embodiment, it is basic identical with measurement resource control system 4 to measure resource control system 5, also comprises an operation application resource list producing parts M11 and an application resource Window state control assembly M12.Operation application resource list producing parts M11 is used to produce the tabulation of an operation application resource, and said operation application resource tabulation comprises the identifying information of a plurality of application resources that moving.Application resource Window state control assembly M12 is used at least one selected application resource that basis is selected from said operation application resource tabulation, changes the state of the pairing window of said selected application resource.Measuring resource control system 5 is with the difference of measuring resource control system 4: in this embodiment; The state that changes the pairing window of said selected application resource is meant a plurality of selected application resource of selecting according to from said operation application resource tabulation; Order according to application resource in said operation application resource tabulation activates the pairing window of said selected application resource and arrange.
Because the measurement resource control system 4 of second embodiment is when arranging window 251,252,253; Window 251,252,253 is activated arrangement more earlier according to the order in operation application resource tabulation 56; Perhaps activate one and arrange one, therefore, when being arranged in staggered state of arranging; Not only stagger successively in the position of window 251,252,253, and the order of the figure layer of window also is adjusted to window 253,252,251.The Layer Order that therefore, window can not take place causes chaotic problem with putting in order inconsistent.
Above-mentioned embodiment has been described in realization in order to demonstrate the invention.But other variations of the present invention and modification are conspicuous to those skilled in the art, and any modification/variation in disclosed essence of the present invention and cardinal rule scope perhaps imitates conversion all to belong to claim protection domain of the present invention.
Claims (10)
1. measure resource control system for one kind, be used to manage a plurality of application resources with display window, said application resource is used for measuring equipment, it is characterized in that, said measurement resource control system comprises:
Operation application resource list producing parts are used to produce the tabulation of an operation application resource, and said operation application resource tabulation comprises the identifying information of a plurality of application resources that moving;
An application resource Window state control assembly is used at least one selected application resource that basis is selected from said operation application resource tabulation, changes the state of the pairing window of said selected application resource.
2. measurement resource control system according to claim 1; It is characterized in that: said application resource window activates arrangement part; Be further used for a plurality of selected application resource that basis is selected from said operation application resource tabulation; Order according to application resource in said operation application resource tabulation activates the pairing window of said selected application resource and arrange.
3. measurement resource control system according to claim 1 is characterized in that: said identifying information comprises the surveying instrument title that said application resource is controlled and the title of said application resource
4. measurement resource control system according to claim 1 is characterized in that: said activation is that the pairing window of said selected application resource is changed to current exercisable window.
5. measurement resource control system according to claim 1 is characterized in that: said arrangement is with range upon range of and staggered the arranging of the pairing window of said selected application resource.
6. measure resource control method for one kind, be used to manage a plurality of application resources with display window, said application resource measuring equipment is characterized in that, said measurement resource control method comprises:
An operation application resource list producing step produces the tabulation of an operation application resource, and said operation application resource tabulation comprises the identifying information of a plurality of application resources that moving;
An application resource Window state controlled step according at least one selected application resource of from said operation application resource tabulation, selecting, changes the state of the pairing window of said selected application resource.
7. measurement resource control method according to claim 6; It is characterized in that: said application resource window activates alignment step; Further according to a plurality of selected application resource of from said operation application resource tabulation, selecting; Order according to application resource in said operation application resource tabulation activates the pairing window of said selected application resource and arrange.
8. measurement resource control method according to claim 6 is characterized in that: said identifying information comprises the surveying instrument title that said application resource is controlled and the title of said application resource
9. measurement resource control method according to claim 6 is characterized in that: said activation is that the pairing window of said selected application resource is changed to current exercisable window.
10. measurement resource control method according to claim 6 is characterized in that: said arrangement is with range upon range of and staggered the arranging of the pairing window of said selected application resource.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201010534869.6A CN102467371B (en) | 2010-11-03 | 2010-11-03 | A kind of measurement resource control method and measurement resource control system |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201010534869.6A CN102467371B (en) | 2010-11-03 | 2010-11-03 | A kind of measurement resource control method and measurement resource control system |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| CN102467371A true CN102467371A (en) | 2012-05-23 |
| CN102467371B CN102467371B (en) | 2016-09-07 |
Family
ID=46071048
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201010534869.6A Active CN102467371B (en) | 2010-11-03 | 2010-11-03 | A kind of measurement resource control method and measurement resource control system |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN102467371B (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105094534A (en) * | 2015-06-30 | 2015-11-25 | 青岛海信移动通信技术股份有限公司 | Method and device for window display switching of intelligent hand-held equipment |
Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20090019396A1 (en) * | 2007-07-11 | 2009-01-15 | Agilent Technologies, Inc. | User Programmable Key in a User Interface System |
| CN101442526A (en) * | 2007-11-22 | 2009-05-27 | 索尼株式会社 | Information processing device and information processing method |
| CN101539836A (en) * | 2009-04-30 | 2009-09-23 | 广东国笔科技股份有限公司 | Human-machine interface interactive system and method |
| US20100057558A1 (en) * | 2008-09-01 | 2010-03-04 | Yano Hironori | Web advertising effectiveness measuring apparatus, web advertising effectiveness measuring method, and, computer program product for the same |
-
2010
- 2010-11-03 CN CN201010534869.6A patent/CN102467371B/en active Active
Patent Citations (4)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US20090019396A1 (en) * | 2007-07-11 | 2009-01-15 | Agilent Technologies, Inc. | User Programmable Key in a User Interface System |
| CN101442526A (en) * | 2007-11-22 | 2009-05-27 | 索尼株式会社 | Information processing device and information processing method |
| US20100057558A1 (en) * | 2008-09-01 | 2010-03-04 | Yano Hironori | Web advertising effectiveness measuring apparatus, web advertising effectiveness measuring method, and, computer program product for the same |
| CN101539836A (en) * | 2009-04-30 | 2009-09-23 | 广东国笔科技股份有限公司 | Human-machine interface interactive system and method |
Non-Patent Citations (1)
| Title |
|---|
| 郝建勋: "基于网络的高频虚拟实验室的设计与开发", 《中国优秀硕士学位论文全文数据库 信息科技辑》 * |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105094534A (en) * | 2015-06-30 | 2015-11-25 | 青岛海信移动通信技术股份有限公司 | Method and device for window display switching of intelligent hand-held equipment |
Also Published As
| Publication number | Publication date |
|---|---|
| CN102467371B (en) | 2016-09-07 |
Similar Documents
| Publication | Publication Date | Title |
|---|---|---|
| Jerome | Virtual instrumentation using LabVIEW | |
| CN105477854B (en) | Applied to the handle control method of intelligent terminal, apparatus and system | |
| CN102004952B (en) | Measuring resource control system and measuring resource control method | |
| US9053241B2 (en) | Scripting application with role identification | |
| US9785415B2 (en) | Remote interface to logical instruments | |
| US7134109B2 (en) | Parameter oriented graphical representation of hardware timing and triggering capabilities with contextual information | |
| Campos et al. | Canonsketch: A user-centered tool for canonical abstract prototyping | |
| CN113010359A (en) | Bus test system generation method, system, device and storage medium | |
| US9547479B2 (en) | Method for adapting GUI-based instrument components in a visual programming language | |
| Ehsani | Data acquisition using LabVIEW | |
| CN114995816A (en) | Business process configuration method and device, electronic equipment and readable storage medium | |
| CN103677833B (en) | Implementation method for open type software platform of microwave measurement instrument | |
| WO2012154628A2 (en) | Interaction-based interface to a logical client | |
| De Boeck et al. | High-level modeling of multimodal interaction techniques using nimmit | |
| CN102467372A (en) | Measurement resource control system and measurement resource control method | |
| CN102467371B (en) | A kind of measurement resource control method and measurement resource control system | |
| CN102467370A (en) | Measurement resource control system and measurement resource control method | |
| CN102467369A (en) | Measurement resource control system and measurement resource control method | |
| CN102467090A (en) | Measurement resource control method and measurement resource control system | |
| CN112162733B (en) | Design method of phased array radar modular monitoring software based on Qt | |
| US10235868B2 (en) | Embedded shared logical instrument | |
| KR100928895B1 (en) | Tool generator for control system development | |
| CN101650656B (en) | Control method for software logic input device, input control system and computer system | |
| CN102455798A (en) | Method and device for operating spectrum analyzer | |
| Parab et al. | Learning by Doing with National Instruments Development Boards |
Legal Events
| Date | Code | Title | Description |
|---|---|---|---|
| C06 | Publication | ||
| PB01 | Publication | ||
| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant |