1345171 24851twf.doc/d 〇704l8.tw 九、發明說明: 【發明所屬之技術領域】 本發明是有關於一種手持電子裝置,且特別是有關於 種手持電子裝置的輸入及顯示裳置與方法。 【先前技術】 隨著科技發展的曰新月異,手持電子裝置的製造商為 了提高在市場上的競爭力,紛紛推出各式功能強大並結合 了多種應用程式的手持電子裝置,以滿足消費者多元化的 ,求。這類具有多種功能的手持電子裝置,多半具有較為 複雜的操作介面’而需要搭配更多的輪人按鍵來i使用# 進行操作。 般來說,上述手持電子裝置的輸人按鍵可分為實艘 q赠y鍵盤歧赫在·錢幕场麵難兩種。然 而不難想見,實體的qW吻鍵盤將佔據不少空間,某些製 维持手持電子|置整體的尺对,甚至還必須縮小 置,^鍵盤’這對使用者來說無疑將造成 操作上的不便。而就虛擬鍵盤而言, ^保留-塊專Η用以顯示虛擬鍵盤的 = 上私式^人員必需修改/設計應用程式,而以應用= 1345171 070418.tw 2485 ltwf.doc/d1345171 24851twf.doc/d 〇704l8.tw IX. Description of the Invention: [Technical Field] The present invention relates to a handheld electronic device, and more particularly to an input and display skirt and method for a handheld electronic device. [Prior Art] With the rapid development of technology, manufacturers of handheld electronic devices have launched a variety of powerful and integrated handheld electronic devices to meet the needs of consumers in order to improve their competitiveness in the market. Diversified, seeking. Most of these handheld electronic devices with multiple functions have more complicated operating interfaces' and need to be equipped with more wheel buttons to operate with #. Generally speaking, the input button of the above-mentioned handheld electronic device can be divided into two types: a real gift, a gift, a keyboard, and a money scene. However, it is not difficult to imagine that the physical qW kiss keyboard will occupy a lot of space, some systems maintain the handheld electronic | set the overall ruler pair, and even must be reduced, ^ keyboard 'this will undoubtedly cause operation for the user Inconvenience. As far as the virtual keyboard is concerned, the ^retention-block is used to display the virtual keyboard = the private user must modify/design the application, and the application = 1345171 070418.tw 2485 ltwf.doc/d
實作出功能與實體按鍵A及實體按鍵B相同的虛擬按鍵A 以及虚擬按鍵B,如圖1B所示。在此假設虛擬按鍵A以 及虛擬按鍵B之應用程式操作晝面將佔用顯示螢幕χ4:ζ的 面積。虛擬按鍵A以及虛擬按鍵B之應用程式操作晝面將 會遮蔽原本解析度為X*y的主應用程式操作畫面。另外, 由於虚擬按鍵之應用程式操作畫面與主應用程式操作晝面 相互重&,主應用程式操作晝面也有可能會在操作過程去 遮蔽了虛擬按鍵之應用程式操作晝面。如此將導致使用者 操作上的不方便。為了不要讓虛擬按鍵之應用程式操作畫 面與主應用程式操作晝面相互重疊,程式設計人員必需修 改現有手持電子裝置的制程式,树縮小原本用來顯示 主應用程式操作晝㈣區域大小以顯示虛擬按鍵A及虛擬 按鍵B。也正因如此,程式設計人員在撰寫應用程式時, 必須對應地將主應用程式操作晝面解析度的值調整為 X (y-z),據此方能正確地在螢幕上顯示應用程式的操作晝 面。換句話說’基於螢幕解析度以及虛擬鍵盤(或虛擬按鍵) 大小的不同,同樣的應用程式在不同的手持電子裝置上就 必須經過不同的修改,程式設計人員勢必將耗費額外的心 力來進行修改動作,而修改後的應用程式也將變的較 無彈性。 另一種在手持電子裝置上實現虛擬键盤的方式則如 圖1C所^示,配置有解析度為x*y以及的兩個觸控式 螢幕’ 77顧以顯示主應用程式的操作晝面以及虛擬按鍵 Α、Β應用程式之操作晝面。圖2是上述手持電子裝置之 6 070418.tw 24851twf.doc/d 輸入裝置的方塊圖。請參閲圖2,在手持電子裝置2〇〇中 包括用以顯不主應用程式之操作畫面的主觸控式勞.幕 210 ’以及用以顯示虛擬鍵盤的副觸控式榮幕220。當使用 者想直接對主應用程式的操作晝面進行操作時,可透過主 觸控式螢幕210來產生輸入訊號,再經由主榮幕驅動程式 230將輸入訊號轉換為滑鼠事件,並將滑鼠事件傳送至第 一應用程式模組250以驅動主應用程式執行對應的動作。 然而’當使用者需要輸入文字資料時’則可點選副觸控式 螢幕220上的虛擬鍵盤以產生輸入訊號,並藉由副螢幕驅 動程式240將輸入訊號轉換為鍵盤事件,以透過第二廯用 程式模組260驅動虛擬鍵盤的應用程式執行對應動作。此 外,亦可由副螢幕驅動程式240將輸入訊號轉換為滑鼠事 件,並傳送至第一應用程式模組25〇來驅動主應用程 行動作。 從另一個角度來看,圖3是上述手持電子裝置之顯示 裝置的方塊圖。手持電子裝置2〇〇具有第一畫面顯示模組 310及第二晝面顯示模組34〇。第—晝面顯示模組3ι〇從主 應用程式取得要顯示在域控式榮幕210上的晝面資料, 而第二晝面顯示额34G舰虛擬鍵崩應練式取得要 顯:在副觸控式螢幕220上的晝面資料。上述所取得的晝 面ϊ料首先將分別暫存至第—暫存m 及第二暫存空 3接著再由第一驅動程S 330從第一暫存空間320 ^貧料並將其顯示於主觸控式瑩幕训,並由第二驅 H0從第二暫存空間mo +取得晝面資料並將其顯 1345171 070418. tw 24851twf.doc/d 示於副觸控式螢幕220。 鍵盤由’利用兩個觸控式螢幕來實現虛擬 Μ勢絲控式螢幕的硬體成本,進而 曰對手持電子裝置的價袼造成負面影響。 【發明内容】The virtual button A and the virtual button B having the same functions as the physical button A and the physical button B are actually implemented, as shown in FIG. 1B. It is assumed here that the virtual button A and the application operation of the virtual button B will occupy the area of the display screen ζ4:ζ. The application operation of virtual button A and virtual button B will obscure the main application operation screen with the resolution of X*y. In addition, since the application operation screen of the virtual button and the main application operation face each other, the main application operation surface may also mask the operation of the virtual button application during the operation. This will result in inconvenience to the user. In order not to overlap the virtual button application operation screen and the main application operation, the programmer must modify the existing handheld electronic device program, and the tree is reduced to display the main application operation (4) area size to display the virtual Button A and virtual button B. For this reason, when writing an application, the programmer must adjust the value of the main application operation resolution to X (yz) accordingly, so that the application operation can be correctly displayed on the screen. surface. In other words, based on the resolution of the screen and the size of the virtual keyboard (or virtual button), the same application must be modified differently on different handheld electronic devices, and the programmer will inevitably have to spend extra effort to modify it. Actions, and the modified application will become less flexible. Another way to implement a virtual keyboard on a handheld electronic device is as shown in FIG. 1C, and two touch screens with a resolution of x*y are configured to display the operation surface of the main application and Virtual button Α, Β application operation page. 2 is a block diagram of the 6 070418.tw 24851 twf.doc/d input device of the above handheld electronic device. Referring to FIG. 2, the handheld electronic device 2 includes a main touch screen 210' for displaying an operation screen of the main application and a sub-touch screen 220 for displaying the virtual keyboard. When the user wants to directly operate the main application, the main touch screen 210 can generate an input signal, and then the main screen driver 230 converts the input signal into a mouse event, and slides The mouse event is transmitted to the first application module 250 to drive the main application to perform the corresponding action. However, when the user needs to input text data, the virtual keyboard on the sub-touch screen 220 can be clicked to generate an input signal, and the sub-screen driver 240 converts the input signal into a keyboard event to pass the second. The application module 260 drives the application of the virtual keyboard to perform the corresponding action. In addition, the secondary screen driver 240 can also convert the input signal into a mouse event and transmit it to the first application module 25 to drive the main application operation. Viewed from another perspective, Figure 3 is a block diagram of the display device of the above handheld electronic device. The handheld electronic device 2 has a first screen display module 310 and a second side display module 34A. The first-side display module 3 〇 obtains the face data to be displayed on the domain-controlled glory 210 from the main application, and the second 显示-face display 34G ship virtual key rupture should be displayed: The face data on the touch screen 220. The obtained facial material is first temporarily stored in the first temporary storage m and the second temporary storage space 3, and then the first temporary storage space 320 is depleted from the first temporary storage space 320 and displayed thereon. The main touch screen is displayed, and the second drive H0 obtains the face data from the second temporary storage space mo + and displays it 1345171 070418. tw 24851twf.doc/d on the secondary touch screen 220. The keyboard uses the two touch screens to realize the hardware cost of the virtual screen-controlled screen, which in turn adversely affects the price of the handheld electronic device. [Summary of the Invention]
^鑑於此’本發明提供一種手持電子裝置之輸入裝 仏:需要對應用程式進行修改的情況下,便能以同二 固认介面對應用程式以及虛擬鍵盤進行操作。 …本發明提供-種手持電子裝置之輸人方法,根據輸入 減的座標位置將輪人訊號轉換騎鼠或越事件,據以 驅動不同的應用程式來執行動作。 本發明提供-種手持電子裝置之顯示裝置,可透過一 個顯示介關時模擬兩個不同的顯示晝面,據以節省顯示 裝置的硬體成本。In view of the above, the present invention provides an input device for a handheld electronic device: when the application needs to be modified, the application and the virtual keyboard can be operated with the same acknowledgment. The present invention provides a method of inputting a handheld electronic device by converting a wheel signal into a mouse or event based on the input reduced coordinate position, thereby driving different applications to perform an action. The present invention provides a display device for a handheld electronic device that can simulate two different display surfaces through a display interface, thereby saving the hardware cost of the display device.
本發明提供一種手持電子裝置之顯示方法,得以在不 更改應用&式之操作晝面的情況下,以相同的顯示介面同 時顯示應用程式及虛擬鍵盤。 +本發明提供一種手持電子裝置,能根據應用程式的需 求搭配顯示不同的虛擬鍵盤,進而增加使用上的彈性。 本^明提出—種手持電子裝置之輸入裝置,此輸入裝 ^包括指向輸人介面、第-應肺式模組、第二應用程式 板組以及判斷模組。其中,指向輸人介面用以產生輸入訊 號^控_時執行的第—應用程式及/或第二應用程式。 第一應用程式模組用以依據第一類梨介面事件觸發第一應 8 070418.tw 24851twf.doc/d 用程式’而第二應用程式模組是依據第二類型介面事件觸 發弟一應用程式。連接至指向輸入介面、第一應用程式模 組及第二應用程式模組的判斷模組,則是用以根據輸入訊 號之座標位置,決定將輸入訊號傳送給第一應用程式模組 做為第一類型介面事件,或將輸入訊號傳送給第二應用輕 式模組做為第^一類型介面事件。 本發明更提出一種手持電子裝置之輸入方法,適用於 同時執行第一應用程式及第二應用程式的手持電子裝置。 此方法首先提供第一應用程式模組,以依據第一類型介面 事件觸發第一應用程式。同時提供第二應用程式模組,以 依據第二類型介面事件觸發第二應用程式。在透過指向輸 入介面接收輸入訊號後,根據輸入訊號之座標位置,決定 將輸入訊號傳送給第一應用程式模組做為第一類型介面事 件,或將輸入訊號傳送給第二應用程式模組做為第二類塑 介面事件。 從另一觀點來看,本發明提出一種手持電子裝置之顯 不裝置,此顯示裝置包括第一晝面顯示模組、第二晝面顯 „、顯示介面及處理模組。第一晝面顯示模以取 付弟-應用程式的第-操作晝面,而第二晝面顯示模组用 ^得第二·程式的第二操作晝面,其中第二應用程式 用I-應用程式是_執行於手持電子裝置。顯示介面是 顯示整體晝面資料。處理模組同時與第— 二晝面顯:驗以及顯示介面相連接,用以根據顯 ^面的大小將第-操作晝面及第二操作晝面整合為整體 1345171 24851twf.d〇c/d 070418.tw 晝面資料。 —種傾好裝置之齡枝,此方法 ^程式程式的第—操作畫面’以及取得第二應 t于於手持電子裝置。接著,根據顯示介面的 料,細示錢晝面資料於顯示介面。 體旦面貧 德點來看’本發明提出一種手持電子褒置。此 乎持電子裝置包括觸控顯示模叙、第一應用程式模组、第 -應用程式模Μ、判斷模組、第—晝面顯示模址、第二畫 3示以及處理模組。其中,觸控顯示模組包括用 二=ΐ面資料的顯示介面’以及用以產生輸入訊號 丨面’其中輸入訊號可控制同時執行的第-應 私式或第—剌程式。第―應用程式模組是用以依據第 -類型介面事件觸發第一應用程式,而第二應用程式模組 則是用以依據第二類型介面事件觸發第二應用程式。判斷 模組是連接至指向輸人介面、第—制程式模組及第二應 用程式模組’用以根據輪入訊號之座標位置,決定將輸入 訊號傳送給第U程式模⑽為第—_介面事件,3或 將輸入訊號傳送給第二應雜式模組做為第二類型介面事 件。第-晝面顯示模岐用以取得第1用程式的第一操 作晝面,m顯示模_是用以取得第二應用程式的 第二操作晝面。處理模組與第一晝面顯示模組、第二書面 顯示模組及顯示介面相連接,用以根據_示介面的將 1345171 070418. tw 2485Itwf.doc/d 第-操作晝面及第二操作晝面整合為整體畫面資料。 f發^齡介面分為至少兩部份,其—用來顯示應 ,式,另ϋ則可顯示虛擬鍵盤。此外,更透過一個 輸入"面接收對應用程式及虛擬鍵盤的操作。如此一來可The present invention provides a display method for a handheld electronic device, which can simultaneously display an application and a virtual keyboard with the same display interface without changing the operation of the application & The present invention provides a handheld electronic device that can display different virtual keyboards according to the needs of the application, thereby increasing the flexibility of use. The present invention proposes an input device for a handheld electronic device, the input device comprising a pointing input interface, a first-associated lung module, a second application program board group, and a judging module. Wherein, the first application and/or the second application executed when the input interface is used to generate the input signal is controlled. The first application module is configured to trigger the first application 8 070418.tw 24851 twf.doc/d according to the first type of pear interface event, and the second application module triggers the application based on the second type interface event . The judging module connected to the input interface, the first application module and the second application module is configured to transmit the input signal to the first application module as the first according to the coordinate position of the input signal. A type of interface event, or the input signal is transmitted to the second application light module as the first type interface event. The invention further provides an input method for a handheld electronic device, which is suitable for a handheld electronic device that simultaneously executes the first application and the second application. The method first provides a first application module to trigger the first application based on the first type of interface event. A second application module is also provided to trigger the second application according to the second type of interface event. After receiving the input signal through the pointing input interface, according to the coordinate position of the input signal, it is decided to transmit the input signal to the first application module as the first type interface event, or transmit the input signal to the second application module. For the second type of plastic interface event. From another point of view, the present invention provides a display device for a handheld electronic device. The display device includes a first side display module, a second side display, a display interface, and a processing module. The second application display module uses the second operation page of the second program, and the second application uses the I-application to execute Handheld electronic device. The display interface is to display the overall surface data. The processing module is simultaneously connected with the first and second surface display and the display interface, and is used for the first operation and the second operation according to the size of the display surface. The face is integrated into the overall 1341171 24851twf.d〇c/d 070418.tw face data. - The age of the device is good, the method - the first operation screen of the program' and the second one is for the handheld electronic Then, according to the material of the display interface, the data of the money surface is displayed on the display interface. The present invention proposes a handheld electronic device. The electronic device includes a touch display module. First application module , the first application module, the determination module, the first-side display template address, the second picture 3 display, and the processing module. The touch display module includes a display interface using two=face data and The first application module is used to trigger the first application according to the type-type interface event, and the second application module is configured to control the simultaneous execution of the first application, and the second application. The application module is configured to trigger the second application according to the second type of interface event. The determining module is connected to the pointing input interface, the first programming module and the second application module 'for The coordinate position of the signal determines whether the input signal is transmitted to the U-module (10) as the first-interface event, 3 or the input signal is transmitted to the second-type inter-module module as the second-type interface event. The module is used to obtain the first operation surface of the first program, and the m display module is used to obtain the second operation surface of the second application. The processing module and the first side display module, the second written Display module and display interface The connection is used to integrate the 1345171 070418. tw 2485Itwf.doc/d first operation surface and the second operation surface according to the interface _ into the overall picture data. The f hair age interface is divided into at least two parts, It can be used to display the type, and the other can display the virtual keyboard. In addition, it can receive the operation of the application and the virtual keyboard through an input " face.
用赋原㈣操作介面,_還驗據應用程式的 =求搭配不_虛擬_。在不需對朗程式進行修改的 =下,不但增加應用程式與虛擬鍵盤之_組合彈性, 同時又不需額外添加硬體,而能達到節省硬體成本之功效。 =本發明之上述概和優點能更日聰賴,下 舉較佳實_,並配合所關式,作詳細說明 【實施方式】 太旅本發明之内容更為明瞭,以下特舉實施例做為 本毛明確λ能夠據以實施的範例。Use the original (four) operation interface, _ also check the application = find the match is not _ virtual _. Without the need to modify the lang program, it not only increases the flexibility of the application and the virtual keyboard, but also saves the hardware cost without adding additional hardware. The above general advantages of the present invention can be more sensible, and the following is a better example, and the detailed description will be made in conjunction with the closed mode. [Embodiment] The contents of the present invention are more apparent, and the following specific embodiments are made. This is an example of how the λ can be implemented.
圖4疋依如本發明之一實施例所緣示手持電子裝置之 塊圖。請參關4,手持電抒置之輸入裝 42/L 輸入介面410、指向輸入介面驅動模組 30、第—應用程式模組_以及第二應用 且450。其中’輸入裝置働例如可配置在手機、 二慧型手機’或個人數位助理等手持電 不限制其範圍。 T牡凡 ^向輸入介面彻例如是觸控式面板(t〇uchpanei), 使用者的操作動作來產生輸入訊號,以控制同時執 Τ Γ持:子裴置上的第一應用程式及/或第二應用程 工°牛例來說’第二應用程式包括虛擬鍵盤之應用程式, 1345171 070418.tw 24851twf.doc/d 而第一應用程式則可以是手持電子裝置之作業系統所支援 的主應用程式(例如Windows CE之桌面管理程式、電子 郵件應用程式或網頁瀏覽應用程式等)。在本實施例中, 對應第一應用程式的第一操作晝面以及對應第二應用程式 • 的第二操作晝面,例如是同時顯示在手持電子裝置的顯示 介面(未繪示)上’然而上述顯示方式並不用以限制本發 明的範圍。 • 指向輸入介面驅動模組420可將輸入訊號轉換為滑鼠 事件’並在判斷輸入訊號之種類的同時取得輸入訊號之座 標位置。在本實施例中’指向輸入介面驅動模組420例如 是安裝在手持電子裝置之圖形視窗事件系統(Graphic Window Event System ’ GWES)模組中的輸入介面驅動程 式’會根據使用者的操作將輸入訊號轉換為按下滑鼠左鍵 (LButtonDown )、放開滑鼠左鍵(LButtonUp )或是雙擊 滑鼠左鍵(LButtonDBClick)等各式滑鼠事件。 I 輸入裝置400中的第一應用程式模組440則是依據第 一類型介面事件(例如滑鼠事件)來觸發第一應用程式; 而第二應用程式模組則是依據第二類型介面事件(例如鍵 盤事件)以觸發第二應用程式。 分別與指向輸入介面驅動模組420、第一應用程式模 組440以及第二應用程式模組450相連接的判斷模組430 則會根據指向輸入介面驅動模組420所取得之輸入訊號的 座標位置,決定將輸入訊號傳送給第一應用程式模組440 做為第一類型介面事件,或是將輸入訊號傳送給第二應用 12 1345171 070418. tw 24851twf.doc/d 程式模組45G以做為第二_介面事件。 為了更詳細地說明手持電子裝置之輸入裝置4〇〇的運 作流程’町將再舉另—實補來對本發明做更進—步的 說明。圖5是錢本發私—實_麟科持電子裝置 之輸入方法的流程圖。請同時參關4與圖5,在同時執 灯第-應用程式及第二應用程式的手持電子裝置卜首先 提供依據第-_介面事件麵發第—應肺式的第—應 用程式模組44〇,以及根據第二㈣介面事件來觸發第二 應用程式的第二應用程式模組45G。為了方便說明,在此 假设第一應用程式為電子郵件應用程式,而第二應用程式 為虛擬鍵盤應用程式。 如步驟510所示,在使用者對手持電子裝置進行操作 時手持電子裝置將透過指向輸入介面410接收對應操作 動作的輸入訊號。接著在步驟520中,由指向輸入^面驅 動模組420將輸入訊號轉換為滑氣事件,並且在判斷輸入 訊號是屬於哪一種滑鼠事件時,一併取得輸入訊號的座標 位置。 接下來如步驟530所示’在指向輸入介面驅動模組42〇 取得輸入訊號的座標位置後,判斷模組430將根據座標位 置來傳送輸入訊號。在本實施例中,假設對應第一應用程 式的第一操作畫面與對應第二應用程式的第二操作晝面是 同時顯示於手持電子裝置的顯示介面(未繪示),那麼判 斷模組430將根據輸入訊號的座標位置以及第一操作書面 與第二操作晝面分別顯示在顯示介面上的區域,以決定要 13 〇70418.tw 24851twf.doc/d 將輸入訊號傳送给第一應用程式模組44〇或 模組450。 -應用私式 人面==說笛倘若輸入訊號的座標位置是對應於顯示 面上用以』不第—操作晝面的區域,那麼如步驟 不’判斷齡便會將輸人訊雜送至帛 ;440以做為第-類型介面事件。並且在步驟:= 第應妹式她440觸發第-應用程式,以執行對應第 -類型介面事件的動作(例如傳送電子郵件)。心 然而,偶若輸入訊號的座標位置是對應顯示 ^示第二操作晝面的區域,那麼如步驟_所示,判: 杈組430會將輸入訊號傳送給第 為第二類型介面事件。接著在步驟57。中== =且㈣將觸發第二應用程式執行對應第二== =乍因St實施例中第二應用程式為虛擬鍵盤應用 私式’□此除了執行動作之外’第二應用 ===型介面事件的種類來決定是否需要將第二類 第一應用程式模組440以做為第-類型 按Μ事^ 來說,假設使用者點選虛擬鍵盤上的確認 =,那麼輯確認按鍵所產生的第二 電行::一 :=rrr程式:例==程 =末鶴第-應諫式(例如電子郵件應神式)執行 1345171 〇704l8.tw 24851twf.doc/d 同時比較圖2及圖4便可發現,本發明只需要一個浐 向輪入介面410,即可透過判斷模組43〇根據輪入訊號曰 座標位置來傳送輸入訊號,以對同時執行在手持電子裝°置 上的一般應用程式與虛擬鍵盤應用程式進行操作。據^可 即省在手持電子裝置上設置實體按鍵的空間,進 用上的便利性。 同 一圖6是依照本發明之一實施例所繪示手持電子裝置之 顯示裝置的方塊圖。請參閱圖6,在本實施例中 子褒置之顯示裝置_包括第—晝面顯示模組610、第二 畫面顯示模組620、處理模組630、顯示介 控管模組650。 乂及旦面 在本實施例中,第一晝面顯示模組610與第二晝面顯 :模組,例如是㈣模組中的顯示器驅動程式:分別 的式的第—操作晝面以及第二應用程式 =一㈣晝面。正因有上述兩個晝面顯示模組,對於手 右兩Γ裳置的作業系統而言’會認為在手持電子震置上且 示榮幕’可分別用來顯示不同應用程式的 ㈣晝面。“值得注意的是,在本實施例中 螢:r顯示整體晝面資料的顯示介面叫例如觸:ΐ 户扣,處理模組63G中包括了第—暫存空間63卜第二暫 i二,、整合單元635以及第三暫存空間637。其中, 空間631是用以暫存由第—晝面顯示模組610所 取付的第-操作晝面’而第二暫存空間633則是用以暫存 15 1345171 〇70418.tw 24851twf.d〇c/d 由第二晝面顯示模組620所取得的第二操 元奶將根據第-操作畫㈣大小、第^^‘二 以及顯不介面640的大小,將第一操作晝面與第二操作晝 為整體畫面資料。在本實施财,在將整合而成的 =資:顯示於顯示介面64〇之前,例如可 暫存至第三暫存空間637。 _ 士晝模組65G同時與處理模組63G及顯示介面 接,用以從處理模組630中取得整合完畢的整體 二面貝科,並將整體晝面資料傳送至顯示介面_,據以 在顯不"面640上同時顯示兩種應用程式的操作晝面。 在以下的實施射,將朗如何在 用一個顯示介面640來模擬兩個顯 f置中利 同時參閱圖6及圖7,首先—步驟。請 自无如步驟71〇及步驟720所示, =苐一旦面顯示模組610取得第一應用程式的第—操作 用程式’而第-應用程式;=鍵盤之應 支援的各類應用程式。而所= 系統所 操作晝面可分別暫存至處理模組630中:;一 631以及第二暫存空間633。 苐暫存工間 接著如步驟730所示,整 面的大小、第二操作晝 一^據第一才呆作晝 小,將第一操作晝面及第640的大 料。在本實施财,整為整體晝面資 i合早70 635從第—暫存空間⑶以 1345171 070418.tw 24851twf.doc/d 及第二暫存空間633中取得第一操作晝面以及第二操作書 面後,首先會判斷直接合併兩個操作晝面所需要的大小二 否符合顯示介面640的大小。若兩者符合,整合單元 將直接合併第-操作晝面以及第二操作畫面;^而若 並不相符,整合單元635必須先調整第一操作全 操作晝面的大小(解析度),接著再進行整合動作= 確保合併後的整體畫面資料能符合顯示介面64〇的大小。 接著如步驟740所示,整合單元635將符合顯示介面_ 大小的整體晝面資料暫存至第三暫存空間637。 在步驟750中,由畫面控管模組65〇從處理模板㈣ 中取得整體畫面資料,並將其傳送至顯示介面_、以進行 顯不。在-實施例中,為了增加手持電子裝置的整體 還可利用直接記憶體存取(DirectMem〇ry細挪,飾 控制器來加快傳送整體晝面資料的速度。 與圖3所示習知手持電子裝置之顯示褒置不同的是, 在本實施例所述手持電子裳置之顯示裝置㈣中,可透過 單-顯示介面來模擬兩個顯示螢幕,進而顯示兩個不同應 用程式的操作晝面’同時更可以保有應用程式原有的操作 =面而不需對應用程式進行任何修改。據此將能減少在手 ^電子裝置上設置多個顯示螢幕所需要的硬體成本,並且 月匕降低撰寫應用程式的複雜度。 在-實施例中,任何配置有觸控顯示模組的手機、智 慧型手機、或個人數位助理等手持電子裝置,均可同時搭 配上述輪入健彻及顯示裝置_,據以透過上述輸入 1345171 〇7〇418.tw 24851twf.doc/d 及顯不方法以觸控顯示模組中的單一顯示介面來模擬兩個 顯不螢幕的效果,並透過觸控顯示模組中的單一指向輸入 介面對同時執行的兩個應用程式進行操作,據以利用指向 輸入介面來模擬實體按鍵(即實現虛擬鍵盤)。然而,由 巧實施例所述手持電子裝置的輸入及顯示方法Ϊ其運作 流程與上述實施例相同或相似,故在此不再贅述。 值得-提的是,同時配置有上述輸入裝置及顯示裝置 • 时持電子農置,其外觀可如圖8所示。請參閱圖8,手 持電子裝置具有一個解析度為x*(y+z)的觸控顯示模組 81〇(例如觸控式螢幕),而觸控顯示模組81〇包括第一顯示 區域811以及第二顯示區域813。其中,第一顯示區域⑴ 可用來顯示—般應用程式的操作晝面,而第二顯示區域 813則可搭配不同的應用程式而顯示各式虛擬鍵盤的晝 面0 一 同時比較圖8與圖1B便可發現,由於手持電子裝置 φ 之作業系統(例如Windows CE)已經限定了操作畫面之 解析度,為了配合作業系統,觸控式螢幕之解析度^無法 隨設計需求而任意加以變更。因此,圖1B所示之習^技 術便以「視窗」之技術實現虛擬鍵盤。亦即對於作業系統 而言’會認為在手持電子裝置上只有單一個顯示營幕(操 作桌面)。 ” 透過本發明實施例來實作之手持電子裝置(如圖8 示),對於作業系統而言,會認為在手持電子裝置上且 兩個不同的顯示螢幕。亦即,本發明實施例之手持電^穿 18 1345171 〇7〇418.tw 24851twf.doc/d 置I以利帛單—個觸控^榮幕81G來模擬W目顯示榮幕, =時利用單_侧控錢幕⑽來類指向輸人裝置與實 =鍵。因此’圖8所示之觸控式螢幕_之解析度可以 叶需求峰意加以變更。例如,本實施射便將觸控 ^ 一幕810依據作業系統之規範規劃出大小為X*y之第一 ,不區域811,讀給作業系統顯示其操作晝面(含操作 ^與各種應用程式之晝面),以及做為該操作晝面之指 目°, 裝置’剩下的部分(大小為^之第二顯示區域813) 模擬另-個顯讀幕(例如顯示虛擬鍵盤的操作畫 ),以及做為虛擬鍵盤之輸入褒置。 因此’與圖1B相較,目8所示之實施例不再需要縮 ^用以顯衫應難式操作晝面的範圍。也就是說,任何 執了在圖1A所示之手持電子裝置上的制程式,均可執 =在=所示之手持電子裝置中,其操作晝面將可以直接 顯示區域811而不需經過任何修改。使用者也 顯不在弟二顯示區域813上的虛擬鍵盤來模擬圖 =戶=之實體按鍵Α與Β,以對躺程式進行操作。而 :、圖ic所示之手持電子裝置相較之下’圖8所示之手持 SI單—的觸控顯示模組810便可顯示不同應 、操乍旦Φ ’據此將省去相當多的硬體成本。 綜上所述,本發明所述之手持電子 示裝置與綠,至料打列魅: 、輸入及顯 I一 現有的顯示介面分割為至少兩個部份,並搭配 曰向輸入介面的操作,以同時顯示及操作應用程式及 1345171 〇70418.tw 24851twf.doc/d 虛擬鍵盤。據此將不需要額外的實體鍵盤空間,而 顯不晝_大似增加使时持電讀置較利性。兴 2·保留應餘式原有的#作介面且不需 行修改’便能以單一顯示介面來顯示應用程式:声 擬鍵盤,降低實作手持電子裝置之_程式的複雜度。1 3·在不需對應用程式進行修改的情況下,能根據鹿 用程式的不同搭配各式虛擬鍵盤,甚至 :4 is a block diagram of a handheld electronic device in accordance with an embodiment of the present invention. Please refer to step 4, the input of the handheld device is equipped with a 42/L input interface 410, a pointing input interface driver module 30, a first application module _ and a second application 450. Among them, the input device, for example, can be configured in a mobile phone, a two-segment mobile phone, or a personal digital assistant, and the like. The input interface is, for example, a touch panel (t〇uchpanei), the user's operation to generate an input signal to control the simultaneous execution of the holding: the first application on the sub-device and/or In the second application, the second application includes a virtual keyboard application, 1345171 070418.tw 24851twf.doc/d, and the first application can be the main application supported by the operating system of the handheld electronic device. Programs (such as Windows CE desktop management program, email application or web browsing application, etc.). In this embodiment, the first operation surface corresponding to the first application and the second operation surface corresponding to the second application are, for example, simultaneously displayed on the display interface (not shown) of the handheld electronic device. The above display manner is not intended to limit the scope of the invention. • The pointing input interface driver module 420 can convert the input signal into a mouse event' and obtain the coordinate position of the input signal while determining the type of the input signal. In the present embodiment, the pointing input interface driver module 420 is, for example, an input interface driver installed in a graphical window event system (GWES) module of the handheld electronic device, which is input according to the user's operation. The signal is converted to a mouse click event by pressing the left mouse button (LButtonDown), releasing the left mouse button (LButtonUp), or double clicking the left mouse button (LButtonDBClick). The first application module 440 in the I input device 400 triggers the first application according to the first type of interface event (for example, a mouse event); and the second application module is based on the second type interface event ( For example, a keyboard event) to trigger the second application. The determination module 430 connected to the input interface driver module 420, the first application module 440, and the second application module 450 respectively is based on the coordinate position of the input signal obtained by the input interface driver module 420. Desiring to transmit the input signal to the first application module 440 as the first type of interface event, or to transmit the input signal to the second application 12 1345171 070418. tw 24851twf.doc/d program module 45G as the first Second _ interface event. In order to explain in more detail the operation flow of the input device 4 of the handheld electronic device, the town will take another step to make a more advanced description of the present invention. Fig. 5 is a flow chart showing the input method of the money-based private-real-Linke electronic device. Please also refer to FIG. 4 and FIG. 5, and at the same time, the handheld electronic device of the first application and the second application will first provide the first application module 44 according to the first-interface event. And triggering the second application module 45G of the second application according to the second (four) interface event. For convenience of explanation, it is assumed here that the first application is an email application and the second application is a virtual keyboard application. As shown in step 510, the handheld electronic device will receive an input signal corresponding to the operation action through the pointing input interface 410 when the user operates the handheld electronic device. Next, in step 520, the input signal is converted into a slip gas event by the pointing input surface driving module 420, and the coordinate position of the input signal is obtained together when determining which mouse event the input signal belongs to. Next, as shown in step 530, after the coordinate position of the input signal is obtained from the input interface driver module 42, the determination module 430 will transmit the input signal according to the coordinate position. In this embodiment, it is assumed that the first operation screen corresponding to the first application and the second operation surface of the corresponding second application are simultaneously displayed on the display interface (not shown) of the handheld electronic device, and then the determination module 430 According to the coordinate position of the input signal and the area of the first operation written and the second operation surface respectively displayed on the display interface, it is determined that 13 〇 70418.tw 24851 twf.doc / d is transmitted to the first application mode. Group 44 or module 450. - Applying a private person's face == Say the whistle If the coordinate position of the input signal corresponds to the area on the display surface that is used for the "no-operational" surface, then if the step is not judged, the input will be sent to帛; 440 as a type-type interface event. And in the step: = the first sister 440 triggers the first application to perform the action corresponding to the first type interface event (for example, sending an email). However, if the coordinate position of the input signal is the area corresponding to the display of the second operation, then as shown in step _, the group 430 will transmit the input signal to the second type interface event. Then at step 57. Medium == = and (4) will trigger the second application to execute the corresponding second == = 乍 Because the second application in the St embodiment is a virtual keyboard application private '□ This is in addition to performing the action 'second application === The type of type interface event determines whether the second type of first application module 440 needs to be used as the first type. For example, if the user clicks the confirmation on the virtual keyboard, then the confirmation button is selected. The second electric line generated:: one: =rrr program: example ==程=末鹤第-谏式(eg email should be divine) Execute 1345171 〇704l8.tw 24851twf.doc/d Compare Figure 2 with As can be seen from FIG. 4, the present invention only needs one direction of the wheeling interface 410, and the input signal can be transmitted through the judging module 43 according to the position of the wheel signal, to perform simultaneous execution on the handheld electronic device. The general application operates with a virtual keyboard application. According to ^, the space for setting physical buttons on the handheld electronic device can be saved, and the convenience is convenient. FIG. 6 is a block diagram of a display device for a handheld electronic device according to an embodiment of the invention. Referring to FIG. 6, the display device of the present embodiment includes a first-side display module 610, a second display module 620, a processing module 630, and a display control module 650. In this embodiment, the first side display module 610 and the second side display module: for example, the display driver in the (4) module: the first type of operation and the first Two applications = one (four) face. Because of the above two face-to-face display modules, for the operating system of the right hand side, it will be considered that the handheld electronic display and the display screen can be used to display different applications (4) . "It is worth noting that in the present embodiment, the display interface of the firefly: r displays the overall facet data is called, for example, the user button, and the processing module 63G includes the first temporary storage space 63 and the second temporary i. The integration unit 635 and the third temporary storage space 637. The space 631 is used to temporarily store the first operation surface selected by the first surface display module 610, and the second temporary storage space 633 is used for Temporary storage 15 1345171 〇70418.tw 24851twf.d〇c/d The second operation milk obtained by the second kneading display module 620 will be based on the first operation (4) size, the second ^^' and the no interface The size of 640, the first operation and the second operation are the overall picture data. In this implementation, the integrated information is displayed on the display interface 64〇, for example, can be temporarily stored to the third temporary Storage space 637. _ The Gentry module 65G is simultaneously connected to the processing module 63G and the display interface for obtaining the integrated two-sided Beca from the processing module 630, and transmitting the overall kneading data to the display interface_ According to the display, the operation of the two applications is displayed simultaneously on the display surface 640. The implementation of the shot, how to use a display interface 640 to simulate two display f, while referring to Figure 6 and Figure 7, first - step. Please as shown in step 71 and step 720, = 苐 once The surface display module 610 obtains the first application program of the first application and the first application; the various applications supported by the keyboard. The system operation surface can be temporarily stored in the processing module. 630: a 631 and a second temporary storage space 633. The temporary storage room is then as shown in step 730, the size of the entire surface, the second operation is first small, the first operation is performed.昼面 and the 640th big material. In this implementation, the whole face is 70 635 from the first temporary storage space (3) to 1345171 070418.tw 24851twf.doc / d and the second temporary storage space 633 After obtaining the first operation surface and the second operation writing, firstly, it is judged whether the size required to directly merge the two operation surfaces is equal to the size of the display interface 640. If the two are met, the integration unit will directly merge the first operation 昼Face and the second operation screen; ^ and if they do not match, integrate The element 635 must first adjust the size (resolution) of the first operation full operation face, and then perform the integration action = ensure that the combined overall picture data can conform to the size of the display interface 64. Next, as shown in step 740, the integration unit 635 temporarily stores the overall page data conforming to the display interface size to the third temporary storage space 637. In step 750, the overall picture data is obtained from the processing template (4) by the picture control module 65, and is transmitted to The interface _ is displayed for display. In the embodiment, in order to increase the overall size of the handheld electronic device, direct memory access (DirectMem〇ry, the controller is used to speed up the transmission of the overall data). Different from the display device of the conventional handheld electronic device shown in FIG. 3, in the display device (4) of the handheld electronic display device of the embodiment, two display screens can be simulated through the single-display interface, thereby displaying two The operation of a different application can also retain the original operation of the application without any modification to the application. Accordingly, the hardware cost required to set a plurality of display screens on the electronic device can be reduced, and the complexity of writing the application is reduced. In the embodiment, any hand-held electronic device such as a mobile phone, a smart phone, or a personal digital assistant equipped with a touch display module can be simultaneously matched with the above-mentioned wheel entering the smart device and the display device _, according to the above input 1341171 〇7〇418.tw 24851twf.doc/d and the display method simulates the effect of two display screens with a single display interface in the touch display module, and faces through a single pointing input interface in the touch display module The two applications executing at the same time operate to simulate the physical keys (ie, implement the virtual keyboard) by pointing to the input interface. However, the input and display method of the handheld electronic device according to the embodiment is the same as or similar to the above embodiment, and therefore will not be described herein. It is worth mentioning that, when the above-mentioned input device and display device are arranged at the same time, the appearance of the electronic device can be as shown in Fig. 8. Referring to FIG. 8 , the handheld electronic device has a touch display module 81 解析 (eg, a touch screen) with a resolution of x*(y+z), and the touch display module 81 〇 includes a first display area 811. And a second display area 813. The first display area (1) can be used to display the operation surface of the general application, and the second display area 813 can be displayed with different applications to display the face of each virtual keyboard. 0 While comparing FIG. 8 and FIG. 1B It can be found that since the operating system of the handheld electronic device φ (for example, Windows CE) has limited the resolution of the operation screen, the resolution of the touch screen cannot be arbitrarily changed according to the design requirements in order to match the operation system. Therefore, the technique shown in Fig. 1B implements a virtual keyboard by the technique of "window". That is, for the operating system, it would be considered that there is only one display screen (operating table) on the handheld electronic device. A handheld electronic device (shown in FIG. 8) implemented by an embodiment of the present invention, for an operating system, is considered to be on a handheld electronic device and has two different display screens, that is, the handheld of the embodiment of the present invention. Electric ^ wear 18 1345171 〇 7 〇 418.tw 24851twf.doc / d set I to benefit 帛 single - touch ^ 荣 screen 81G to simulate W mesh display glory, = use single _ side control money curtain (10) to class Point to the input device and the real = key. Therefore, the resolution of the touch screen shown in Figure 8 can be changed by the leaf demand peak. For example, the implementation of the touch will be based on the specification of the operating system. The size is X*y first, no area 811, read to the operating system to display its operation face (including operation ^ and various applications), and as a reference to the operation, device ' The remaining portion (the second display area 813 of size ^) simulates another display screen (such as an operation picture showing the virtual keyboard) and as an input device for the virtual keyboard. Therefore, 'compared with FIG. 1B, The embodiment shown in item 8 no longer needs to be used for the operation of the shirt. That is to say, any program that is implemented on the handheld electronic device shown in FIG. 1A can be executed in the handheld electronic device shown in FIG. After any modification, the user also displays the virtual keyboard on the display area 813 to simulate the physical keys Α and Β of the user = to operate the lying program. And: the handheld electronic device shown in Figure ic The touch display module 810 of the handheld SI-single shown in FIG. 8 can display different requirements, and the operation hardware Φ can save a considerable amount of hardware cost. In summary, the present invention The handheld electronic display device and the green display device are divided into at least two parts, and the operation of the input interface is displayed to simultaneously display and operate the application. And 1345171 〇 70418.tw 24851twf.doc / d virtual keyboard. According to this, there will be no need for additional physical keyboard space, but it is not as good as _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The original # interface and no need to modify 'can be A single display interface to display the application: the acoustic keyboard, reducing the complexity of the implementation of the handheld electronic device. 1 3 · can be adapted to the deer application without changing the application Virtual keyboard, even:
求客製不_虛擬鍵盤,據此增加❹上的^用者的- 4.以單一顯不介面達到模擬兩個顯示螢幕的效 果,進而節省手持電子裝置之齡絲的硬體成本。 —雖然本發明已以較佳實施例揭露如上然其並非用以 限定本發明,任何所屬技術領射具有通常知識者,在不 脫離本發明之精神和範_,當可作些許之更動與潤飾, 因此本發明之賴範圍當視後附之巾料職騎界定者 為準。The customer system is not a virtual keyboard, and accordingly, the user's user is added. 4. The effect of simulating the two display screens is achieved by a single display interface, thereby saving the hardware cost of the age of the handheld electronic device. </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; </ RTI> <RTIgt; Therefore, the scope of the present invention is subject to the definition of the accompanying towel.
【圖式簡單說明】 圖ΙΑ、IB、1C為習知手持電子裝置的示意圖。 圖2是習知的手持電子裝置之輸入裝置的方塊圖。 圖3是習知的手持電子裝置之顯示裝置的方塊圖。 圖4是依照本發明之一實施例所繪示手持電子裝置之 輸入裝置的方塊圖。 圖5是依照本發明之一實施例所繪示手持電子裝置之 輸入方法的流程圖。 圖6是依照本發明之一實施例所繪示手持電子裝置之 20 1345171 070418.tw 24851twf.doc/d 顯示裝置的方塊圖。 圖7是依照本發明之一實施例所繪示手持電子裝置之 顯示方法的流程圖。 圖8是依照本發明之一實施例所繪示手持電子裝置的 示意圖。 【主要元件符號說明】 200 :手持電子裝置 210 :主觸控式螢幕 220 :副觸控式螢幕 230 :主螢幕驅動程式 240 :副螢幕驅動程式 250 :第一應用程式模組 260 :第二應用程式模組 310 :第一晝面顯示模組 320 :第一暫存空間 330 :第一驅動程式 340 :第二晝面顯示模組 350 :第二暫存空間 360 :第二驅動程式 400 :輸入裝置 410 :指向輸入介面 420 :指向輸入介面驅動模組 430:判斷模組 440 :第一應用程式模組 21 1345171 070418.tw 2485 ltwf.doc/d 450 :第二應用程式模組 510〜580:本發明之一實施例所述手持電子裝置之輸 入方法的各步驟 600 :顯示裝置 610 :第一晝面顯示模組 620 :第二晝面顯示模組 630 :處理模組 631 :第一暫存空間 633 :第二暫存空間 635 :整合單元 637 :第三暫存空間 640 :顯示介面 650 :晝面控管模組 710〜750:本發明之一實施例所述手持電子裝置之顯 示方法的各步驟 810 :觸控顯示模組 811 :第一顯示區域 813 :第二顯示區域 22BRIEF DESCRIPTION OF THE DRAWINGS FIG. IB, IB, and 1C are schematic diagrams of conventional handheld electronic devices. 2 is a block diagram of an input device of a conventional handheld electronic device. 3 is a block diagram of a conventional display device for a handheld electronic device. 4 is a block diagram of an input device of a handheld electronic device in accordance with an embodiment of the present invention. FIG. 5 is a flow chart showing a method of inputting a handheld electronic device according to an embodiment of the invention. FIG. 6 is a block diagram of a display device of a handheld electronic device 20 1345171 070418.tw 24851 twf. doc/d according to an embodiment of the invention. FIG. 7 is a flow chart showing a display method of a handheld electronic device according to an embodiment of the invention. FIG. 8 is a schematic diagram of a handheld electronic device according to an embodiment of the invention. [Main component symbol description] 200: Handheld electronic device 210: Main touch screen 220: Sub touch screen 230: Main screen driver 240: Sub screen driver 250: First application module 260: Second application The program module 310: the first face display module 320: the first temporary storage space 330: the first driver 340: the second face display module 350: the second temporary storage space 360: the second driver 400: input Device 410: pointing input interface 420: pointing input interface driver module 430: determining module 440: first application module 21 1345171 070418.tw 2485 ltwf.doc / d 450: second application module 510 ~ 580: Step 600 of the input method of the handheld electronic device according to an embodiment of the present invention: display device 610: first face display module 620: second face display module 630: processing module 631: first temporary storage a space 633: a second temporary storage space 635: an integration unit 637: a third temporary storage space 640: a display interface 650: a surface control module 710 to 750: a display method of the handheld electronic device according to an embodiment of the present invention Each step 810: touch display module 811: Display area 813: second display area 22