A7 3225S5 B7 五、發明説明(1 ) 發明背景 發明領域 本發明係關於一種字元圖樣產生裝置和方法’其根據 筆劃字形資料用以產生一字元圖樣。 相關背景技藝 迄今,當字元圇樣由筆劃之合成而形成時,座標轉換 成一输出尺寸之筆襄I乃塗漆和重叠,藉以產生一字元。但 是,依照此種方法,當形成大尺寸之一輪廓圖樣(反白字 元)時,輪廓資料必需以多次分離的形成,因此會發生需 用於削邊處理(相關於一區域之座標資料之抽取處理)之 時間和輪廓抽取(以掃描一形成之位元圚圚樣而抽取一輪 廓之處理)之時間。 當反白字元由筆割字形資料產生時,由於會有交叉的 輪廓資料,則無法輕易的產生反白字元。 發明概要 在考量上述之習知技藝後,本發明之目的乃在完成一 種高字元產生處理速度。 藉由比較裝置之输出尺寸和一記憶容量,判斷需用以 產生一字元圖樣之字元之分割數目,並使用在此種分割數 目下之高處理速度之一產生方法。亦即,當分割數目較小 ,且藉由以筆劃單元基礎塗漆在输出尺寸上,並產生一反 白輪廓字元時,可得快速之處理速度,且可使用此種方法 本紙張尺度適用中國國家標準(CNS ) A4规格(210X297公釐) (請先閲讀背面之注意事項再填寫本頁) -裝· 訂 經濟部中央標準局員工消費合作社印製 -4 - 經濟部中央標準局員工消費合作社印裝 A7 B7 五、發明説明(2 ) 。當分割數目較大,且以一小尺寸執行一分析,和執行一 輪廓抽取時,可得一快速處理速度,且可使用此方法。如 上所述’本發明之目的乃在保持一快處理速度,而無關於 字元尺寸。 在考慮如上所述之習知技藝時,本發明之目的乃在由 筆劃字元資料產生一反白字元。 爲了完成上述之目的,依照本發明,於此提供一種字 元圖樣產生裝置,包含:形成機構,其根據筆割字形資料 形成字元圓樣資料;抽取機構,其根據由形成機構所形成 之字元圖樣資料而抽取控制點資料;轉換機構用以轉換由 抽取機構所抽取之控制點資料爲相當於欲输出之字元尺寸 之資料;和產生機構,其根據由該轉換機構所轉換之控制 點資料而產生一輪廓圖樣。 爲了完成上述之目的,依照本發明,於此提供一種字 元圖樣產生裝置,包含:第一產生機構,用以可變的放大 筆劃字形資料,根據該可變的放大筆劃字形資料形成位元 圖資料,和合成所形成之位元圖賫料,藉以產生一字元圖 樣;第二產生機構用以由筆劃字形資料形成位元圖樣資料 ,合成所形成之位元圚樣資料,由合成位元圖資料抽取控 制點資料,和可變的放大所抽取之控制點資料,藉以根據 可變的放大控制點資料以產生一字元圚樣;和辨識機構用 以辨識欲產生之字元尺寸,其中根據由該辨識機構所辨識 之尺寸,該字元圖樣藉由使用第一產生機構或第二產生機 構產生。 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) -----------裝— r . (請先閲讀背面之注意事項再填寫本頁) 訂 5 322555__ 五、發明説明(3 ) 爲了完成上述之目的,依照本發明,於此提供一種字 元圖樣產生方法,包含:形成步驟,其根據筆劃字形資料 形成字元圖樣資料;抽取步驟,其根據由形成步驟所形成 之字元圖樣資料而抽取控制點資料;轉換步驟用以轉換由 抽取步驟所抽取之控制點資料爲相當於欲输出之字元尺寸 之資料;和產生步驟,其根據由該轉換步驟所轉換之控制 點資料而產生一字元圖樣· 經濟部中央標準局員工消費合作社印製 (請先閱讀背面之注意事項再填寫本頁) 爲了完成上述之目的,依照本發明,於此提供一種字 元圖樣產生方法,包含:第一產生步驟,用以可變的放大 筆劃字形資料,根據該可變的放大筆割字形資料形成位元 圖資料,和合成所形成之位元圖資料,藉以產生一字元豳 樣;第二產生步驟用以由筆劃字形資料形成位元圖樣資料 ,合成所形成之位元圖樣資料,由合成位元圖資料抽取控 制點資料,和可變的放大所抽取之控制點資料,藉以根據 可變的放大控制點資料以產生一字元圖樣;和辨識步驟用 以辨識欲產生之字元尺寸,其中根據由該辨識步驟所辨識 之尺寸,該字元圖樣藉由使用第一產生步驟或第二產生步 驟產生。 圓式簡單說明 圖1爲本發明之字元圖樣產生裝置之構造之方塊圖; 圖2包含圖2A和2 B,其爲本發明之字元圖樣之產 生步驟之流程圖; 圖3 - 1至3 - 3爲筆割,字根,和字元之組成資料 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) ~~~ 經濟部中央樣準局員工消費合作社印製 A7 _B7_____ 五、發明説明(4 ) 之構造圖; 圖4爲筆劃之一主ID和一副ID之圖; 圖5爲字根之一主ID和一副ID之圖; 圖6爲字元由寫啓始部份,寫終止部份,和構成一筆 劃之一本體部份之組合所形成之狀態圚; 圖7爲在本發明之兩字元圓樣產生方法中,產生一字 元圖樣之步驟之圖; 圖8包含圖8 A和8 B,其爲用以產生反白字元之步 驟之流程圓:和 圖9 一 1至9 _ 4爲反白字元之產生方法之圖。 較佳實施例之詳細說明 以下說明本發明之實施例。 圓1爲依照本發明之字元圚樣產生裝置之基本構造之 方塊圖。此種系統並非侷限於日文文字處理機,其亦可爲 一印表機主體* —工作站,或一電腦系統,在圓1中,參 考數字1表示一 CPU (中央處理單元)用以執行整個裝 置之控制,依照流程圖之程式之進行(其將於後說明), 和一算術運算處理;2爲RAM (隨機存取記憶體)當成 每個程式和資料載入且在每個窬處理處處理之蓝域;3爲 ROM (唯讀記憶體)當成用於系統程式,依照流程圖之 程式,字型資料等之記憶區域;4爲KBC (鍵盤控制單 元);5爲KB (鍵盤)用以藉由鍵输入而接收資料和傳 送至CPU ; 6爲PRTC (印表器控制單元);7爲 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閱讀背面之注意事項再填寫本頁)A7 3225S5 B7 V. Description of the invention (1) Background of the invention Field of the invention The present invention relates to a device and method for generating a character pattern, which is used to generate a character pattern based on stroke font data. Related Background Art So far, when the character pattern is formed by the synthesis of strokes, the coordinates are converted to an output size of the pen, which is painted and overlapped to generate a character. However, according to this method, when forming an outline pattern (inverted characters) of a large size, the outline data must be formed by multiple separations, so it may occur that it needs to be used for edge cutting processing (related to the coordinate data of an area Extraction process) time and contour extraction (process of extracting a contour by scanning a formed bit pattern). When the inverted characters are generated from the pen-cut glyph data, the inverted characters cannot be easily generated due to the cross-profile data. SUMMARY OF THE INVENTION After considering the above-mentioned conventional techniques, the object of the present invention is to achieve a high character generation processing speed. By comparing the output size of the device and a memory capacity, the number of divisions of the character needed to generate a character pattern is determined, and a high-speed processing method under such division number is used. That is, when the number of divisions is small, and the output size is painted on the basis of the stroke unit, and a reverse outline character is generated, a fast processing speed can be obtained, and this method can be used. China National Standards (CNS) A4 Specification (210X297mm) (Please read the notes on the back before filling this page)-Binding · Order Printed by the Employees Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs-4-Employee Consumption of the Central Bureau of Standards of the Ministry of Economic Affairs Cooperatives printed A7 B7 V. Description of invention (2). When the number of divisions is large, and an analysis is performed with a small size, and a contour extraction is performed, a fast processing speed can be obtained, and this method can be used. As described above, the object of the present invention is to maintain a fast processing speed regardless of the character size. When considering the conventional art as described above, the object of the present invention is to generate a reverse character from stroke character data. In order to accomplish the above-mentioned object, according to the present invention, there is provided a character pattern generating device, comprising: a forming mechanism, which forms character circle pattern data based on pen-cut font data; and an extraction mechanism, which is based on characters formed by the forming mechanism Meta-pattern data to extract control point data; a conversion mechanism to convert the control point data extracted by the extraction mechanism to data equivalent to the size of the character to be output; and a generation mechanism based on the control points converted by the conversion mechanism Data to generate an outline pattern. In order to accomplish the above-mentioned object, according to the present invention, there is provided a character pattern generating device, comprising: a first generating mechanism for variable enlargement stroke font data, forming a bitmap according to the variable enlargement stroke font data Data, and the bitmap material formed by synthesis, to generate a character pattern; the second generation mechanism is used to form bit pattern data from stroke font data, synthesize the formed bit pattern data, and synthesize bit The drawing data extracts the control point data, and the variable magnified control point data is used to generate a character pattern based on the variable magnified control point data; and the identification mechanism is used to identify the size of the character to be generated, where According to the size recognized by the recognition mechanism, the character pattern is generated by using the first generation mechanism or the second generation mechanism. This paper scale is applicable to the Chinese National Standard (CNS) A4 specification (210X297mm) ----------- installed-r. (Please read the precautions on the back before filling this page) Order 5 322555__ V. DESCRIPTION OF THE INVENTION (3) In order to accomplish the above object, according to the present invention, there is provided a character pattern generating method, including: a forming step, which forms character pattern data based on stroke shape data; an extraction step, which is based on Control point data is extracted from the formed character pattern data; a conversion step is used to convert the control point data extracted by the extraction step into data equivalent to the size of the character to be output; and a generation step, which is based on the conversion by the conversion step The control point data generates a one-character pattern. Printed by the Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs (please read the precautions on the back before filling out this page). A pattern generating method includes: a first generating step of using variable magnified stroke font data to form bits according to the variable magnified stroke font data Graphic data, and bitmap data formed by synthesis, to generate a character pattern; the second generation step is used to form bit pattern data from stroke font data, synthesize the formed bit pattern data, and synthesize bit Drawing data extraction control point data, and variable magnification control point data extracted to generate a character pattern based on the variable magnification control point data; and the identification step is used to identify the size of the character to be generated, which is based on The size recognized by the recognition step, the character pattern is generated by using the first generation step or the second generation step. Brief description of the circle type Figure 1 is a block diagram of the structure of the character pattern generating device of the present invention; FIG. 2 includes FIGS. 2A and 2B, which are flowcharts of the steps of generating the character pattern of the present invention; FIGS. 3-1 to 3-3 is the composition information of pen cutting, radicals, and characters. The paper size applies to the Chinese National Standard (CNS) A4 specification (210X297 mm) ~~~ Printed by the Employees ’Consumer Cooperative of the Central Bureau of Samples of the Ministry of Economic Affairs A7 _B7_____ 5 、 Instructions of the invention (4); Figure 4 is a picture of a main ID and a pair of IDs in a stroke; Figure 5 is a picture of a main ID and a pair of IDs in a radical; Figure 6 is a character starting from writing Part, writing end part, and state state formed by the combination of one body part forming a stroke; FIG. 7 is a diagram of steps for generating a one-character pattern in the two-character circle pattern generating method of the present invention ; Figure 8 contains Figures 8 A and 8 B, which are the process circles used to generate the reverse characters: and Figure 9-1 to 9 _ 4 is a diagram of the generation method of the reverse characters. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The following describes embodiments of the present invention. Circle 1 is a block diagram of the basic structure of the character pattern generating device according to the present invention. Such a system is not limited to a Japanese word processor, it can also be a printer main body * — workstation, or a computer system. In circle 1, the reference number 1 indicates a CPU (Central Processing Unit) to execute the entire device The control is carried out in accordance with the flow chart program (which will be described later), and an arithmetic operation process; 2 is RAM (random access memory) as each program and data is loaded and processed at each processing site Blue area; 3 is ROM (read-only memory) as a memory area used for system programs, programs according to flowcharts, font data, etc .; 4 is KBC (keyboard control unit); 5 is KB (keyboard) Receive data and send to the CPU by key input; 6 is PRTC (printer control unit); 7 is the paper standard applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm) (please read the notes on the back first (Fill in this page again)
-7 - 經濟部中央標準局員工消費合作社印製 A7 _B7_ 五、發明説明(5 ) PRT (印表裝置)其爲點印表機,如雷射印表機,熱噴 墨印表機等;8爲CRTC(顯示控制單元);9爲 CRT (顯示裝置)用以顯示由CRTC8送出之資料; 1 0爲DKC (碟控制單元)用以控制資料傳輸;和1 1 爲外部記憶裝置,例如FD (軟碟裝置),HD (硬碟裝 置)等。程式和資料儲存在外部記憶裝置1 1中,並在執 行時可依需要的參考或載入RAM2中。參考數字1 2表 示系統隨流排當成介於上述元件間之資料傳送路徑。 圖2 A和2 B爲用以說明本發明之字元圖樣產生處理 步驟之流程圖。步驟2 — 1至2 — 2 2表示處理步驟。依 照此流程圖之程式已儲存在R0M3中。 在下述之說明中,字元之%字根"表示2 1 4個中文 字元之一,其表示感覺之分類,且和語音結合以形成其所 表示之音標》 在步驟2—1中,取還當成產生目標之字元碼。在步 驟2- 2中,取還在步驟2 - 1中取還之字元碼之組成資 料。如圖3 — 1所示,字元組成資料包含構成字元之字根 型式,字根之編號等。在字元組成資料中之字根型式指示 加至每個字根之ID編號。如圖4所示,ID編號由主 I D和副I D所構成。主I D表示字根本身之型式。副 1 D爲在每個字根中,寬度,髙度和厚度之差異》在步驟 2 — 3中,在步驟2 — 2中所得之構成產生目檩字元之字 根中,取還當成產生目標之字根之字根組成資料。如圚3 一 2所示,字根組成資料包含構成字根之筆劃型式,和筆 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閱讀背面之注意事項再填寫本頁) -裝--7-A7 _B7_ printed by the Staff Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs 5. Description of the invention (5) PRT (printing device) which is a dot printer, such as a laser printer, thermal inkjet printer, etc .; 8 is CRTC (display control unit); 9 is CRT (display device) for displaying data sent by CRTC8; 10 is DKC (disc control unit) for controlling data transmission; and 1 1 is external memory device, such as FD (Floppy disk device), HD (hard disk device), etc. The programs and data are stored in the external memory device 11 and can be referenced or loaded into the RAM 2 as needed during execution. Reference numeral 12 indicates that the system is used as a data transmission path between the above components. 2A and 2B are flowcharts for explaining the steps of the character pattern generation processing of the present invention. Steps 2-1 to 2-2 2 indicate processing steps. The program according to this flowchart has been stored in R0M3. In the following description, the% root of the character " represents one of 2 14 Chinese characters, which represents the classification of sensation, and is combined with speech to form the phonetic symbol it represents. In step 2-1, Retrieve the character code used as the target. In step 2-2, the composition data of the character code returned in step 2-1 is retrieved. As shown in Figure 3-1, the character composition data includes the root type and number of the root. The radical type indication in the character composition data is added to the ID number of each radical. As shown in FIG. 4, the ID number is composed of a primary ID and a secondary ID. The main ID represents the type of the root itself. Sub 1 D is the difference in width, height and thickness in each radical. In step 2-3, the composition of the resulting purlin character in step 2-2 is taken back as the generation The root of the root of the target constitutes the data. As shown in 圚 3 1-2, the radical composition data includes the stroke type that constitutes the radical, and the paper size of the pen is applicable to the Chinese National Standard (CNS) A4 specification (210X297 mm) (please read the precautions on the back before filling in this Page)-installed-
、1T -8 - A7 B7 322555 五、發明説明(6 ) 劃之數目等。筆劃之型式表示加至每個筆劃之I D編號。 如圖5所示,ID編號包含一主ID和一副ID。主ID 顯示筆劃本身之型式。副I D表示在每個筆剴中之寬度, 髙度,曲度和厚度之差異。在步驟2-4中,在步驟2— 3中取還之構成字根之筆劃中,取還當成產生目標之筆劃 之組成資料。如圖3 - 3所示,筆劃組成資料包含相關於 寫啓始部份,寫終上部份,和一本體部份之組合之資料。 在步驟2 - 5中,取還寫啓始部份,寫終上部份,和本體 部份之每個資料。在步驟2 - 6中,寫啓始部份和寫終止 部份結合至包含一芯心線和在步驟2 - 5取還之厚度之本 體部份,藉以形成由一輪廓之控制點之筆剌資料。在步驟 2 — 7中,根據欲產生之字元之输出尺寸而選擇字元圖樣 產生方法。關於在此例中選擇之方法*根據內部記憶和输 出尺寸事先獲得決定那個方法可獲得快速處理速度之當成 邊界之尺寸,且依照相關於該尺寸之大小而選擇適當之方 法。由於判斷输出尺寸之結果,在資料減少後,當使用抽 取輪廓之方法而獲得快速處理速度時,處理流程前進到步 驟2 — 8。爲了完成髙輪廓抽取處理速度,一輪廓資料轉 換成適合抽取輪廓之尺寸。在步驟2 — 9中,根據形成在 步驟2 - 6中之筆剌之輪廓控制點,筆劃之輪廓產生在產 生目標字根中之顯影位置上。在步驟2—10中,在步驟 2 — 9中所獲得之筆劃之輪廓受到塗漆。在步驟2 — 1 1 中,相關於構成字根之所有筆剌方面,檢査筆劃是否已產 生在字根顯影表面。當筆割未產生時,處理流程轉回步驟 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閲讀背面之注意事項再填寫本頁) •裝. 訂 經濟部中央標準局員工消費合作社印製 -9 - 經濟部中央標準局員工消費合作社印製 A7 __B7 五、發明説明(7 ) 2 — 4,並重覆上述之處理。當輪廓之產生相關於構成目 檩字根之所有筆劃完成時,接著爲步驟2 — 1 2,且直到 步驟2 - 1 1形成之字根結合至字元顯影表面之一預定位 置,當目標字根結合至字元顯影表面之預定位置如上所述 時,在步驟2 - 1 3中檢査構成字元之所有字根是否已結 合至字元顯影表面•當欲結合之字根仍存在時,處理流程 回到步驟2 - 3,並重覆上述之處理》當構成目標字元之 所有字根之結合完成時,在步驟2 - 1 4中,字元之輪廓 控制點由上述處理形成之字元之位元之圖圖樣和考慮介於 筆劃間之輪廓之交叉點中,構成此種位元圖圖樣之每個筆 割之輪廓資料中抽出》 再者,更特別而言,藉由使用一筆劃之位元圇圇樣和 其它筆劃之輪廓資料,其它筆割之輪廓受到拖曳。在此例 中,雖然檢査到在輪廓上環繞本身點之8個相鄰點,此輪 廓仍可拖曳。而後發現進入一筆割之位元圖圖樣之點,且 一控制點全新的提供用於此點。以和上述相同之方式,發 現離開位元翻圜樣之點,且一新的控制點全新的提供用於 此點•藉由後續使用一筆劃之輪廓資料和其它筆劃之位元 圖圖樣,可新發現一控制點,輪廓之控制點可由新發現之 控制點和輪廓資料之控制點而抽取》 處理流程進行到步驟2-1 5,在步驟2 -1 4所獲 得之字元之輪廓控制點乃由適合用於在步驟2 - 8轉換之 輪廓抽取尺寸座標的轉換成输出尺寸,藉以在输出尺寸中 產生字元之輪廓圖樣。在步驟2—16中,根據由到達步 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閲讀背面之注意事項再填寫本頁) -裝- 訂 -10 - 經濟部中央標準局員工消費合作社印製 A7 __B7__ 五、發明説明(8 ) 驟2 — 1 5之處理所產生之字元之輪廓而塗漆字元圖樣。 當在步驟2 — 7中判斷記憶容量是充足時,則進入步驟2 一 1 7,且在步驟2 — 6中所獲得之筆劃之輪廓控制點座 標轉換成输出尺寸。在步驟2 - 1 8中,筆劃之輪廓產生 至在產生目標字根中之顯影位置,根據在步驟2 - 1 7之 座檫轉換之筆劃之輪廓控制點。在步驟2- 1 9中,對在 步驟2 - 1 8所獲得之筆劃之輪廓塗漆。在完成筆劃之塗 漆處理後,進入步驟2 - 20,相關於構成目檫字根之所 有筆劃,檢査塗漆之處理是否已經完成。如果不是,此處 理流程回到步驟2 - 4,並重覆上述之處理。在此例中, 產生第二和後嫌之筆劃,以重叠至相同字根顯影表面。當 目標字根之位元圓資料以上述方式形成時,進入步驟2 _ 21 ,且字根之圖樣資料結合至在字元中之產生位置。相 關於構成目標字元之所有字根,在步驟2 - 2 2中檢査結 合是否已經完成。如果不是,處理流程回到步驟2- 3, 且重覆上述之處理。圖7爲相關於一簡單圖樣當成一例, 由於介於上述記憶容量和输出尺寸間之差異而引起之介於 字元圖樣產生方法間之差異。當藉由執行根據输出尺寸( a )之分析而獲得之快速處理速度時,如圖a — 1所示, 座標轉換成输出尺寸之筆割受到塗漆,藉以產生筆劃在產 生位置•以此方式,藉由連績的蓋寫和產生筆割,可產生 一圖樣如圖a—2所示。當處理速度由執行输出尺寸(b )之合成而變低時,如圖b - 1所示,可執行座標轉換成 適於輪廓抽取處理之尺寸,藉以產生一塗漆圖樣和一未塗 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閱讀背面之注意事項再填寫本頁) 裝· 訂 -11 - 經濟部中央標準局員工消費合作社印褽 A7 ______B7 五、發明説明(9 ) 漆之圖樣如圖b - 2所示。而後,次一筆劃亦相似的產生 如圖b _ 3所示。由兩個圖樣中判斷介於筆割間之重叠, 藉以產生一輪廓如圖b _ 4所示•而後,藉由執行座標轉 換成如圖b — 5中所示之输出尺寸並塗漆,即可產生如b 一6中所示之圖樣。 〔本發明之第二實施例〕 圖8 A和8 B爲用以說明本發明之文字圖樣產生處理 步驟之流程圖。步驟8 — 1至8 — 2 2爲處理步驟》相關 於此流程圖之程式已儲存在R0M3中·在步驟8 — 1中 ,取還當成產生目標之字元之碼。在步驟8 — 2中,取還 在步驟8 - 1中取還之字元碼之組成資料。如圚3 — 1所 示,字元組成資料包含構成字元之字根型式,字根之數目 等β在字元組成資料中字根之型式表示加至每個字根之 ID編號。如圖4所示,ID編號由一主ID和一副ID 構成。主I D顯示字根本身之型式。副I D爲在每個字根 中寬度,髙度和厚度間之差異。在步驟8 — 3中,在由步 驟8 - 2所獲得之構成產生目標字元之字根中,取還當成 產生目標之字根之字根組成資料。如圇3 - 2所示》字根 組成資料包括構成字根之筆剴之型式,筆劃之數目等。筆 劃之型式表示加至每個筆劃之一ID編號。如圖5所示’ I D編號由主I D和副I D所構成。主I D爲筆劃本身之 型式。副I D爲在每個筆割中,寬度,髙度,曲度和厚度 之差異•在步驟8 — 4中,在步驟8 — 3中取還之構成字 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閱讀背面之注意事項再填寫本頁) •裝· 訂 -12 - 經濟部中央標準局貝工消費合作社印製 322555 五、發明説明(10 ) 根之筆剌中,取還當成產生目標之筆劃之組成資料。在步 驟8 — 5中,取還每個資料之寫啓始部份,寫終止部份, 和一本體部份。在步驟8 — 6中,如圖6所示,藉由結合 寫啓始部份和寫終止部份至含有在步驟8 - 5中取還之芯 心線和厚度之本體部份,則可形成由一輪廓之控制點而形 成之筆劃資料。在步驟8 - 7中,由現在欲產生之字元之 输出尺寸選擇字元圖樣產生方法。關於在此例中之選擇方 法,當成邊界而決定那一個快速處理速度之處理之尺寸乃 事先根據內部記憶和输出尺寸而得,並依照相關於該尺寸 之大小而選擇適當之方法。由輸出尺寸之判斷結果,在資 料減少後,當藉由使用抽取一輪廓之方法而得快速處理速 度時,處理流程前進到步驟8 - 8。爲了達成高輪廓抽取 處理速度,一筆劃資料轉換成適於輪廓抽取之尺寸。在步 驟8 — 9中,筆劃之輪廓根據形成在步驟8 — 6之筆劃之 輪廓控制點而在產生在產生目標字根中之顯影位置上。在 步驟8_ 1 0中,在步驟8 — 9中所獲得之筆割之輪廓受 到塗漆。在步驟8 - 1 1中,相關於所有構成字根之筆餹 ,檢査筆割是否已產生在字根顯影表面上。當筆劃仍未產 生時,處理流程回到步驟8 - 4並重覆上述之處理。當輪 廓之產生相關於所有構成目檫字根之筆«(而完成時,流程 進入步驟8 — 1 2,且直到步驟8- 1 1才形成之字根結 合至字元顯影表面之一預定位置•當目標字根結合至字元 顯影表面之預定位置如上所述時,流程進入步驟8 - 1 3 ,並檢査構成字元之所有字根是否已結合至字元顯影表面 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) 裝 ~^ ,ψ 訂 (請先閱讀背面之注意事項#-填寫本頁) -13 - 經濟部中央椟準局員工消費合作社印製 A7 B7 五、發明説明(11 ) 。當仍存在欲結合之字根時,處理流程回到步驟8 _ 3並 重覆上述之處理。當構成目標字元之所有字根之結合完成 後,流程進行至步驟8 - 1 4,且字元之輪廓控制點由以 上述處理所形成之字元之位元圖圖樣和在考量介於筆劃間 之輪廓交叉點之構成此種位元圖圖樣之每個筆劃之輪廓資 料而抽取。在步驟8—15中,在步驟8—14中所得之 字元之輪廓控制點乃由適於在步驟8 - 8中轉換之輪廊抽 取之尺寸座標轉換成輸出尺寸,藉以在输出尺寸上產生反 白圖樣。在步驟8 — 7中,當判斷藉由執行在输出尺寸上 之輪廊抽取而得快速處理速度時,流程進入步驟8 - 1 6 ,且在步驟8 _ 6中所獲得之筆劃之輪廓控制點座檫轉換 成输出尺寸。在步驟8 - 1 7中,筆劃之輪廓產生在產生 目標字根中之顯影位置上,根據筆劃之輪廓控制點(其已 在步驟8—16中座標轉換)。在步驟8-18中,撿査 兩筆劃輪廓是否已顯影在顯影表面上。當只有一筆劃輪廓 顯影時,進入步驟8 - 2 0。當判斷兩筆劃輪廓在步驟8 一 18中已顯影在顯影表面上時,進入步驟8 - 19,且 合成兩筆劃輪廓,藉以形成一輪廓。如圖8 A和8 B所示 ,依照此合成方法,每個顯影表面之水平線受到掃描,且 對於第一輪廓之點而言,藉由檢査第二輪廓之點是否存在 內側或外側上,有個點是否留下或取消,藉以形成一輪廓 •處理流程進入步驟8 _ 2 0並檢査一序列之顯像和合成 步驟是否已經對構成目標字根之所有筆割執行。當仍有筆 劃未處理時,處理流程轉回步驟8 - 4,並顯影次一個筆 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閲讀背面之注意事項再填寫本頁) -裝. 訂 -14 - 經濟部中央標準局員工消費合作社印製 A7 ____B7 _五、發明説明(l2) 劃輪廓。當完成構成目標字根之所有筆劃之處理時,進入 步驟8 — 2 1,且此字根之圖樣資料結合至在字元中之產 生位置。在步驟8 — 2 2中,檢査相關於構成目標字元之 所有字根之結合是否完成。如果不是,流程轉回步驟8 -3,並重覆上述之處理。圖9 一 1至9 — 4爲相關於一簡 單之圖樣當成一例中,由如上所述介於記憶容量和輸出尺 寸間之差異而在字元圖樣產生方法中*在输出尺寸上之圖 樣產生。输出尺寸之兩個筆刺產生在9 一 1和9 _ 2中· 如9 - 3所示,筆蓟之重叠部份之輪廓受到消除。當第二 輪廓重鲞至第一輪廓時,在每個水平線上判斷第二輪廓是 否存在於輪廓之內側上,藉以產生一輪廓,如9 一 4所示 。所產生之圖樣由PRT7和CRT9输出》 依照本發明上述之實施例,可利用相同的程式處理反 白字元和塗漆字元。 本發明可應用至由多數設備所構成之系統或可應用至 包含一設備之裝置•本發明亦可明顯的應用至藉由供應一 .程式至一系統或一裝置而涵蓋在本發明之例中。在此種例 中,相關於已儲存本發明之程式之一記億介質構造成本發 明。藉由從記憶介質中讀出此程式至系統或裝置時,該系 統或裝置可以一特殊型式作用。 依照上述本發明之詳細說明*可由筆劃字型資料中產 生反白圖樣。 此外,本發明之字元圖樣可依照字元尺寸以髙速由筆 劃字型資料中產生。 本紙張尺度適用中國國家標準(CNS ) A4規格(210X297公釐) (請先閲讀背面之注^Μκ項再填寫本頁), 1T -8-A7 B7 322555 V. Description of invention (6) The number of plans, etc. The stroke type indicates the ID number added to each stroke. As shown in FIG. 5, the ID number includes a primary ID and a secondary ID. The main ID shows the type of the stroke itself. The secondary ID represents the difference in width, highness, curvature and thickness in each stroke. In step 2-4, in the strokes constituting the radicals retrieved in steps 2-3, the composition data of the strokes which are regarded as the target are retrieved. As shown in Figure 3-3, the stroke composition data includes data related to the combination of the beginning of writing, the upper part of writing, and a body. In steps 2-5, each data of the writing start part, writing end part, and body part is retrieved. In steps 2-6, the writing start portion and the writing end portion are joined to the body portion including a core line and the thickness retrieved in steps 2-5, thereby forming a stroke of the control point of a contour data. In steps 2-7, the character pattern generation method is selected according to the output size of the character to be generated. Regarding the method selected in this example * According to the internal memory and the output size, it is determined in advance which method can obtain the fast processing speed as the size of the boundary, and the appropriate method is selected according to the size related to the size. As a result of judging the output size, after the data is reduced, when the method of extracting the contour is used to obtain a fast processing speed, the processing flow proceeds to steps 2-8. In order to complete the high-speed contour extraction processing speed, a contour data is converted into a size suitable for contour extraction. In steps 2-9, based on the outline control points of the strokes formed in steps 2-6, the outline of the stroke is generated at the developing position in the target radical. In steps 2-10, the outline of the stroke obtained in steps 2-9 is painted. In Steps 2-1 1, regarding all the strokes that make up the radical, check whether the stroke has been generated on the radical development surface. When pen cutting does not occur, the processing flow returns to the step. The paper size is in accordance with the Chinese National Standard (CNS) A4 specification (210X297 mm) (please read the precautions on the back before filling out this page) Printed by the Bureau ’s Employee Consumer Cooperative-9-Printed by the Employee Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs A7 __B7 V. Description of the Invention (7) 2-4, and repeat the above process. When the generation of the outline is related to the completion of all the strokes constituting the purlin radical, steps 2 to 12 are followed, and until the radical formed in step 2-1 is bonded to a predetermined position on the character development surface, when the target character When the root is bonded to the predetermined position of the character development surface as described above, check in step 2-1 3 whether all the radicals constituting the character have been bonded to the character development surface • When the root to be combined still exists, deal with The flow returns to steps 2-3 and repeats the above process. "When the combination of all the radicals constituting the target character is completed, in steps 2-14, the outline control point of the character is formed by the above process. The intersection of the bitmap pattern and the contour considered between the strokes is extracted from the contour data of each stroke that constitutes this bitmap pattern. Furthermore, more specifically, by using a stroke The contour data of bit patterns and other strokes, the contours of other strokes are dragged. In this example, although 8 adjacent points surrounding its own point are detected on the contour, the contour can still be dragged. Then it was found that a bit of the bitmap pattern was entered, and a new control point was provided for this point. In the same way as above, find the point where the bit is turned away, and a new control point is newly provided for this point. • By subsequently using the outline data of one stroke and the bitmap pattern of other strokes, you can A new control point is found, and the control points of the contour can be extracted from the newly discovered control points and the control points of the contour data. "The processing flow proceeds to steps 2-15, and the contour control points of the characters obtained in steps 2-14 It is converted to the output size by the contour extraction size coordinates suitable for the conversion in steps 2-8, thereby generating the outline pattern of the characters in the output size. In steps 2-16, the Chinese national standard (CNS) A4 specification (210X297mm) is applied according to the paper size of the step-by-step book (please read the precautions on the back before filling in this page) -Installation- Order-10-Ministry of Economic Affairs A7 __B7__ printed by the Employees ’Cooperative of the Central Bureau of Standards 5. Description of the invention (8) Steps 2-15 The outlines of the characters produced by the processing of steps 2 to 15 are painted with character patterns. When it is judged in step 2-7 that the memory capacity is sufficient, it proceeds to step 2-17, and the outline control point coordinates of the stroke obtained in step 2-6 are converted into the output size. In step 2-18, the outline of the stroke is generated to the development position in the generation target radical, according to the outline control point of the stroke converted in the seat frame of step 2-17. In steps 2-19, the outline of the stroke obtained in steps 2-18 is painted. After finishing the paint treatment of the strokes, go to steps 2-20. Regarding all the strokes constituting the root of Sassafras, check whether the paint treatment has been completed. If not, the process flow returns to steps 2-4 and repeats the above process. In this example, second and subsequent strokes are generated to overlap to the same radical development surface. When the bit circle data of the target radical is formed in the above manner, step 2_21 is entered, and the pattern data of the radical is combined to the generation position in the character. Regarding all the radicals that make up the target character, check in step 2-2 2 whether the combination has been completed. If not, the processing flow returns to steps 2 to 3, and the above processing is repeated. FIG. 7 is related to a simple pattern as an example. The difference between the character pattern generation methods due to the difference between the aforementioned memory capacity and the output size. When the fast processing speed obtained by performing the analysis based on the output size (a), as shown in Figure a-1, the strokes whose coordinates are converted to the output size are painted, in order to generate strokes at the generation position Through continuous writing and writing, a pattern can be generated as shown in Figure a-2. When the processing speed is reduced by the synthesis of the execution output size (b), as shown in Figure b-1, the executable coordinates are converted to a size suitable for contour extraction processing, thereby generating a painted pattern and an uncoated paper Standards apply to China National Standard (CNS) A4 (210X297mm) (please read the precautions on the back before filling in this page) Binding · Order -11-Printed by the Staff Consumer Cooperative of the Central Bureau of Standards of the Ministry of Economic Affairs A7 ______B7 V. Description of invention (9) The drawing of lacquer is shown in Figure b-2. Then, the next stroke is similarly generated as shown in Figure b_3. Judging the overlap between the two cuts from the two patterns, to generate an outline as shown in Figure b_4 • Then, by performing the coordinate conversion to the output size shown in Figure b-5 and painting, that is The pattern shown in b-6 can be generated. [Second embodiment of the present invention] FIGS. 8A and 8B are flowcharts for explaining the steps of the text pattern generating process of the present invention. Steps 8 — 1 to 8 — 2 2 are the processing steps. The program related to this flowchart has been stored in R0M3. In step 8 — 1, the code of the character that was used as the target is retrieved. In step 8-2, retrieve the composition data of the character code retrieved in step 8-1. As shown in Fig. 3-1, the character composition data includes the type of radicals constituting the character, the number of radicals, etc. β The type of radical in the character composition data indicates the ID number added to each radical. As shown in FIG. 4, the ID number is composed of a primary ID and a secondary ID. The main ID displays the type of the root itself. The secondary ID is the difference between the width, height and thickness in each radical. In step 8-3, among the roots of the target generation character formed by the steps 8-2, the root constituent data of the roots used as the generation target are retrieved. As shown in "囵 3-2", the radical composition data includes the type of strokes constituting the radical, the number of strokes, etc. The stroke type indicates an ID number added to each stroke. As shown in Fig. 5, the ID number is composed of a main ID and a sub ID. The main ID is the type of the stroke itself. The sub-ID is the difference in width, highness, curvature and thickness in each pen cut. • In step 8-4 and in step 8-3, the composition of the text book paper size is subject to the Chinese National Standard (CNS) A4 size (210X297mm) (please read the precautions on the back before filling in this page) • Binding · Order -12-Printed by the Beigong Consumer Cooperative of the Central Standards Bureau of the Ministry of Economic Affairs 322555 5. Description of the invention (10) Root strokes In the process, retrieve the composition information of the strokes used as the target. In steps 8-5, the write start part, write end part, and a body part of each data are retrieved. In steps 8-6, as shown in FIG. 6, by combining the writing start portion and the writing end portion to the body portion containing the core line and thickness returned in steps 8-5, it can be formed Stroke data formed by control points of an outline. In steps 8-7, the character pattern generation method is selected according to the output size of the character to be generated now. Regarding the selection method in this example, the size of the processing that determines the fast processing speed as a boundary is obtained in advance based on the internal memory and output size, and the appropriate method is selected according to the size related to the size. According to the judgment result of the output size, after the data is reduced, when the rapid processing speed is obtained by using a method of extracting a contour, the processing flow proceeds to steps 8-8. In order to achieve high contour extraction processing speed, the stroke data is converted to a size suitable for contour extraction. In steps 8-9, the outline of the stroke is based on the outline control point of the stroke formed in steps 8-6 at the developing position generated in the generation target radical. In step 8_10, the outline of the pen cut obtained in steps 8-9 is painted. In step 8-11, related to all the strokes that make up the radical, check whether the pen cut has been generated on the radical development surface. When the stroke has not yet occurred, the processing flow returns to steps 8-4 and the above processing is repeated. When the outline generation is related to all the pens that constitute the root of the sassafras «(and completed, the flow goes to steps 8-12, and it is not until step 8-1 1 that the formed root is bonded to a predetermined position on the character development surface • When the target radical is bound to the predetermined position of the character development surface as described above, the flow proceeds to steps 8-1 3 and checks whether all the radicals constituting the character have been bound to the character development surface. The paper size is applicable to the country of China Standard (CNS) A4 specification (210X297mm) Installed ~ ^, ψ order (please read the notes on the back # -fill in this page) -13-A7 B7 printed by the Employee Consumer Cooperative of the Central Bureau of Economic Affairs of the Ministry of Economic Affairs Description (11). When there are still radicals to be combined, the processing flow returns to step 8_3 and repeats the above processing. When the combination of all the radicals constituting the target character is completed, the flow proceeds to step 8-1 4, and the outline control point of the character is formed by the bitmap pattern of the character formed by the above processing and the outline data of each stroke constituting the bitmap pattern considering the intersection of the outline between the strokes and Extract. In step 8 -15, the outline control points of the characters obtained in steps 8-14 are converted to the output size by the size coordinates extracted from the corridors converted in steps 8-8, so as to generate a reverse pattern on the output size In step 8-7, when it is judged that the fast processing speed is obtained by performing the contour extraction on the output size, the flow proceeds to step 8-16 and the outline control of the stroke obtained in step 8_6 The point frame is converted to the output size. In steps 8-17, the outline of the stroke is generated at the developing position in the target root, and the points are controlled according to the outline of the stroke (which has been converted in steps 8-16). In steps 8-18, check whether the two stroke contours have been developed on the developing surface. When only one stroke contour is developed, proceed to steps 8-20. When it is judged that the two stroke contours have been developed in development in steps 8-18 When on the surface, go to steps 8-19, and synthesize two stroke outlines to form an outline. As shown in Figures 8A and 8B, according to this synthesis method, the horizontal line of each developing surface is scanned, and for the first outline Point , By checking whether the point of the second contour exists on the inside or outside, whether a point is left or canceled, to form a contour • The processing flow goes to step 8 _ 2 0 and checks whether a sequence of development and synthesis steps have been Execute all the cuts that make up the target radical. When there are still unprocessed strokes, the processing flow goes back to steps 8-4 and the next paper standard is developed. The Chinese National Standard (CNS) A4 specification (210X297 mm) is applied (Please read the precautions on the back before filling in this page)-Packing. -14-Printed by A7 ____B7 _ Employee Cooperative of Central Bureau of Standards of the Ministry of Economic Affairs. 5. Description of Invention (l2) Outline the outline. When all the strokes that make up the target radical are completed, go to step 8-21, and the pattern data of this radical is combined to the position where it is generated in the character. In Steps 8-2, check whether the combination of all the radicals related to the target character is completed. If not, the flow returns to step 8-3, and the above process is repeated. Figures 9-1 to 9-4 are related to a simple pattern. As an example, the pattern on the output size is generated in the character pattern generation method by the difference between the memory capacity and the output size as described above. The two pen thorns of the output size are generated in 9-1 and 9_2. As shown in 9-3, the outline of the overlapping part of the pen thistle is eliminated. When the second contour regains the first contour, it is judged on each horizontal line whether the second contour exists on the inner side of the contour, thereby generating a contour, as shown in 9-4. The generated pattern is output by PRT7 and CRT9. According to the above-mentioned embodiment of the present invention, the reverse characters and painted characters can be processed by the same program. The present invention can be applied to a system constituted by a plurality of devices or to a device including one device. The present invention can also be obviously applied to a system or a device by supplying a program to be included in the examples of the present invention. . In such an example, the cost of constructing a billion-element medium related to the program of the present invention has been found. By reading this program from the storage medium to the system or device, the system or device can act in a special type. According to the above detailed description of the present invention *, a reverse pattern can be generated from the stroke type material. In addition, the character pattern of the present invention can be generated from the stroke font data at a high speed according to the character size. The size of this paper is applicable to the Chinese National Standard (CNS) A4 (210X297mm) (please read the note ^ Μκ item on the back before filling this page)
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