1312476 眼n': 九、發明說明: 【發明所屬之技術領域】 . 本發明係有關於一種圖形製作技術,更詳而言之,係 . 為一種用以編輯製作圖形晝面之圖形編輯系統及方法。 【先前技術】 ' 隨著電腦技術的普及化發展,電腦遊戲對於人們曰常 *生/舌的影響也日盈深入,而當消費者在評論一款電腦遊戲 參的好壞時,遊戲場景所呈現的晝面是否吸引消費者之注意 力,無疑是其中一個重要的決定因素,而當遊戲玩家在第 、-人接觸一款遊戲時,最看重的往往便是遊戲晝面是否精 美。對於遊戲開發廠商而言,即使遊戲製作地再好,如果 久有一個报好的圖形效果,那麼展現在玩家眼前的東西將 會大打折扣,因此場景晝面是否出色會是玩家喜歡—款遊 戲的重要理由。有鑑於此,眾多遊戲開發廠商將更多的精 力放在了場景晝面的製作工藝上。 鲁〜電腦遊戲的晝面係通常由場景、人物、特效以及界面 、等,份所矣且成,其中,場景無疑是整個晝面中最主要的組 伤ϋ而,目前遊戲中的場景晝面係大都藉由傳統的 、、曰圖^體所”完成,具有製作工程較錢大且工作效率 :高等缺點。此外,由於遊戲晝面越精美,其對於電腦系 太:配置等級要求也會相應提高,此舉必將造成玩家在成 上的負擔,進而影響電腦遊戲的推廣。 安挺^善上述缺失’中華民國申請第則5號專利 * 了 —種可提高圖形製作效率的圖形製作技術,其係 19169(修正版) 5 —θτ-^4-— υ修」 1312476 :WI: 藉由複數個基本圖形單元,㈣_ Γ如體圖f’並利用拼接方式以製作出-完整的圖形書、 法之實L〗A二圖所示者,係為該專利案之圖形製作方 形製作方法係首弁斗士 ^ 寻才j莱所揭路之圖 板八m 圖形基板,並將該圖形基 板刀解為複數長寬比例為2: 1之長方形圖形板塊 , 依據製作需求選擇相座&贫 " 制-㈣板類型,假設使用者需繪 C度即如第1Α圖所示),則依據待綠製之地形 型2礎模板中^的基礎杈板(如第1Β圖);爾後,獲取該類 即顯-右所包含之各基本圖形單元並進行修飾,第ic ==對各基本圖形單元進行修飾所生成之各種 丄身料;最後’將各圖形區塊資料分別填人 =Γ二形Γ塊中,藉以組合拼接出所需之地形晝 高繪圖工作.效率:r:、二斤:’該專利案之優點係為可提 丨效率,麸盖由 P,電恥5又備貧源以及提高程式的運行 以、不足的是所有繪圖操作皆需透過人工來完 成,不僅費時費力’更不可避免人為疏失。 、、何開發出一種具有自動繪圖功能的圖形製作 源、提步提㈣圖之卫作效率、節省電腦設備資 ^此1^行效率、節省人力資源並避免人為疏失, 乃疋此7頁域中亟待解決之問題。 【發明内容】 供2白知技術之問題’本發明之主要目的在於提 仏一種k南繪圖之工作效率之圖形編輯系統及方法。本發 19169(修正版) 6 1312476 牟二象瞻靖!頁 月之另一目的在於提供一種圖 電腦設備資源。 形編輯系統及方法 以節省 、、本t明之又—目的在於提供—種圖形編輯系統及方 法,以提高程式的運行效率。 本發明之再-目的在於提供一種圖形編輯系統及方 法,以節省人力資源並避免人為疏失。 為達上述主要目的及其他相關目的,本發明係提供一 鲁牙用以編輯製作圖形晝面之圖形編輯系統,該圖形編輯系 統包括用以儲存對應該圖形之圖形區塊資料及對應該圖形 區^資料之特徵描述信息資料之資料庫,其中,該圖形區 塊貝料中復具有複數個拼接點資料,該特徵描述信息資料 至少包括㈣形區塊資料中各拼接點f料的特徵信息資 料’用以生成對應該圖形之圖形基板之生成模組,且該圖 形基板中復包括複數圖形板塊(chip);用以於該生成模 組所生成之圖形基板之各圖形板塊中設定欲編輯之圖形板 •塊之設定模組;以及心搜尋與該較模組賴定之欲編 輯之圖形板塊相鄰且已填入圖形區塊資料之參考圖形板 塊,且識別各參考圖形板塊所填入之圖形區塊資料中各拼 接點貝料的特徵信息資料,並對應分析該欲編輯之圖形板 塊中各拼接點的特徵信息,俾據以自該資料庫中讀取相應 之圖形區塊資料以填入該欲編輯之圖形板塊中之處理模 組。 其中’該資料庫中各圖形區塊資料對應之特徵描述信 息資料復包括各圖形區塊資料對應之實體類型資料,且該 7 19169(修正版) 1312476 處理模組復包括 接,且已填入圖 考圖形板塊所填 —~^ 年Β修正皆換頁 用以搜尋所有與該欲編輯之圖形板塊相鄰 形區塊資料之參考圖形板塊,並識別各參 入之圖形區塊資料中各拼接點資料的特徵 乜息貝料,以及識別該圖形基板之實體類型資料之識別單 元,用以依據該識別單元所識別之各參考圖形板塊所填入 ^圖形區塊資料中各拼接點資料的特徵信息資料,分析出 忒欲編輯之圖形板塊中各拼接點資料的特徵信息資料之分 籲析單兀,用以依據該分析單元所分析之該欲編輯之圖形板 塊中各拼接點育料的特徵信息資料,以及該識別單元所識 別出之該圖形基板之實體類型資料,自該資料庫中搜尋所 有勿5該荨4寸彳政仏息資料之圖形區塊資料之搜尋單元;以 及用以接收該搜尋單元所搜尋出之各圖形區塊資料,並依 據預設t運算規則,自該等圖形區塊資料中隨機讀取一圖 形區塊育料並填入該欲編輯之圖形板塊中之處理單元。再 者玄圖形區塊貢料中各拼接點資料係指位於該圖形區塊 馨育料之圖形區塊各邊緣的交接襲之㈣,該圖形區塊資 料之圖形區塊係具有分隔線,而該分隔線係由各拼接點資 料於該圖形區塊中任二個拼接點間的連線所構成。再者, 該圖形區塊資料之圖形區塊中各拼接點資料的特徵信息資 料係指各拼接點的材質特徵資料,且該處理模組復包括用 以搜尋所有與該欲編輯之圖形板塊相鄰接,且已填入圖形 區塊資料之參考®形板塊,並識別該參考圖形板塊所填入 之圖形區塊資料中,位於該參考圖形板塊及欲編輯之圖形 板塊之交界線上之拼接點資料的材質特徵資料之識別單 19169(修正版) 8 1312476 sc 3. -4 :;以及依據該識別單元所識別之各位於參考圖形板塊及 二_之圖形板塊之交界線上之拼接點資料的材質特徵資 •料’分析出該欲編輯之圖形板塊中待填人之圖形區塊資料 對應的分隔線位置信息資料之分析單元。 、 對應上揭之圖形編輯系統,本發明復揭露—種用以編 輕衣作圖形晝面之圖形編輯方法,該圖形編輯方法包括以 下步驟·⑴建立儲存有對應該圖形之圖形區塊資料及對 馨應該圖形區塊資料之特徵描述信息資料之資料庫,其中, 該圖形區塊貧料中復具有複數個拼接點資料,該特徵描述 信息資料至少包括該圖形區塊資料中各拼接點資料的特徵 信,資料;(2)生成對應該圖形之圖形基板,且該圖形基板 中復包括複數圖形板塊(chip) ; (3)於所生成之圖形基板之 各圖形板塊中设定欲編輯之圖形板塊;以及(4)搜尋與所設 定之欲編輯之圖形板塊相鄰,且已填入圖形區塊資料之參 考圖开/板塊’且識別各參考圖形板塊所填入之圖形區塊資 參料中各拼接點資料的特徵信息資料,並對應分析該欲編輯 之圖形板塊中各拼接點的特徵信息,俾據以自該資料庫中 讀取相應之圖形區塊資料以填入該欲編輯之圖形板塊中。 〃中該資料庫中各圖形區塊資料對應之特徵描述信 息資料復包括各圖形區塊資料對應之實體類型資料,且該 步驟(4)復包括.(4_1)搜尋所有與該欲編輯之圖形板塊相 鄰接’且已填入圖形區塊資料之參考圖形板塊,並識別各 參考圖形板塊所填入之圖形區塊資料中各拼接點資料的特 徵信息貢料,以及識別該圖形基板之實體類型資料;(4·2) 19169(修正版) 9 ye. a. -4 1312476 依據所識別之各參考圖形板塊所填入之圖形區塊資料中各 拼接點資料的特徵信息資料,分析出該欲編輯之圖形板塊 中各拼接點資料的特徵信息資料;(4-3)依據所分析之該欲 編輯之圖形板塊中各拼接點資料的特徵信息資料,以及所 識別出之該圖形基板之實體類型資料,自該資料庫中搜尋 所有吻合該等特徵信息資料之圖形區塊資料;以及(4_4)接 收所搜尋出之各圖形區塊資料,並依據預設之運算規則, /該等圖形區塊資料中隨機讀取一圖形區塊資料並填入該 欲編輯之圖形板塊中。再者,該圖形區塊資料中各拼接點 資料係指位於該圖形區塊資料之圖形區塊各邊緣的交接頂 點之資料,且該圖形區塊資料之圖形區塊係具有分隔線, 且該分隔線係由各拼接點資料於該圖形區塊中任二個拼接 點間的連線所構成。再者,該圖形區塊資料之圖形區塊中 各拼接點資料的特徵信息資料係指各拼接點的材質特徵資 料,且步驟(4)復包括(4])搜尋所有與該欲編輯之圖形板塊 I相鄰接’且已填入圖形區塊資料之參考圖形板塊,並識別 ,亥參考圖形板塊所填入之圖形區塊資料中,位於該參考圖 =塊及欲編輯之圖形板塊之交界線上之拼接點資料的材 料;以及(4_2)依據所識別之各位於參考圖 ^編^之圖形板塊之交界線上之拼接點資料的材質特徵 =刀析出該欲編輯之圖形板塊巾待填人 料對應的分隔線位置信息資料。 鬼貝 二^明之圖形編輯系統及方法,係可依據參考圖 化板塊所填人之圖形區塊資料,自動編輯鄰接於該參考圖 10 19169(修正版) 1312476 ’,、,t '· 形板塊之各圖形板塊中的圖形,俾 輯功能,藉而達成上述所有目的。⑽業具有自動編 【實施方式】 以下係藉由特定的具體實例說明本發明之實施方 式,熟悉此技藝之人士可由本說明書所揭示之二二 瞭解本發明之其他優點與功效。本發明亦可藉由2 = =體實:i加以施行或應用,本說明書中的各項細節亦; 、:飾==點與應用,在不脖離本發明之精神下進行各種 如第2圖所示者,係為一方塊示意圖,其用以 發明之圖形編輯系統1〇〇之基本架構方塊。其中 編輯系統⑽係應用於電腦遊戲之場景開發作業中^圖开/ 、、如圖所示,本發明之圖形編輯系統1〇〇至少包括—次 料庫10卜一生成模組110、一設定模4 % 貝 組13〇。 叹疋杈組120以及一處理模 該資料庫101中係儲存有對應該待編輯之圖形之複數 圖形區塊貧料,於本實施例中,次 各種類型之基礎模板、各類 ^中係儲存有 _ 、 貝生暴礎拉板所包含之複數基本 :各基本圖形單兀所包括之複數圖形區塊資 型二 1杨板類型係依據基礎模板所屬之實體類 以制A”所顯示之模板類…州1係為用 J用:板;第3B圖中所顯示之模板類型咖e2 製作具有—定厚度之地形;第冗圖所顯示之模 板類型_係用於製作道路,·而第3D圖中所顯示之模板 19169(修正版) 11 1312476 'dti. °· **· 類型tyPe4則用於製作牆冑。而各類型基礎模板所包含之 才夂數基本圖形單元係用以提供使用者透過將該等基本圖开) 單元進=任意組合’以拼接出各種形狀之實體圖形。各基 本^單元所包3之複數圖形區塊資料係指使用者依據不 同的"又汁而求,而針對一基本圖形單元中的圖案材質進行 相應,飾,所街生變化出之各種具有不同圖案樣式之圖形 區塊育料’第1C圖中即顯示使用者針對第3b圖所示之 • 板類型中所包含之各基本圖形單元進行修倚後所 $成之各種不同的圖形區塊資料。由於上述各類型之基礎 拉板、各類型基礎模板中所具有之基本圖形單元、以及針 對5玄基本圖形單元進行修倚所衍生出之各種圖形區塊資料 f技術皆已於專利申請第〇941361 15號案中進行詳細揭 疼且亦非本案之技術重點,故在此不予贅述。 ^再者,本發明之圖形區塊資料2係呈長方形結構者(請 容後詳述)並具有複數個拼接點資料,且該等拼接點係 參位於,圖形區塊資料2之圖形區塊各邊緣之交接頂點,即 如该第4A圖中所顯示之拼接點a、拼接點b、拼接點。及 拼,點d。惟需說明的是,該圖形區塊資料2中各拼接點 的设置位置並不以此為限,亦可依據實際設計需求而任音 ,行變更’係例如設置於該圖形區塊資料2之各邊緣的; 點。此外,於該圖形區塊資料2之圖形區塊中復具有分隔 線,其係由各拼接點資料於該圖形區塊中任意兩個拼接^ 間的連線所構&,例如拼接點a與拼接黑占c間的連線所 成的分隔線21a,或拼接點a與拼接點d間的連線所構成 12 19169(修正版) 1312476 的分隔線21b(即如第4B&4C圖所示)。 於該資料庫HU中復儲存有各圖形區塊 •徵描述信息資料’其中,該特徵描述信息資料至少包括: 各圖形區塊資料中各拼接點資料之特徵信息資料以及各圖 2區塊資料對應之實體類型資料,亦即,各圖形區塊資料 對應之基礎模板所屬的實體類型。再者,於本實施例中, 該分隔線係用以分隔同一圖形區塊資料之圖形區塊中兩種 鲁不_㈣材質’而該圖形區塊資料中各拼接點資料之特 徵信息資料係包括有各拼接點的材質特徵資料,因此,該 圖形區塊資料中各拼接點資料之特徵信息資料亦包括有各 圖形區塊資料中分隔線的位置信息資料。 ,該生成模組110係用以生成對應該待編輯之圖形之圖 形基板,其中,該圖形基板係由複數個大小形狀皆相同之 圖形板塊(chip)所構成,且該等圖形板塊係可為正方形、長 方形或正多邊形(例如正六邊形)結構者,而為達到三維圖 _ =之最佳視覺效果,係可將該等圖形板塊的形狀定義為長 見比例為2 · 1之長方形結構:此外,由於各圖形板塊的面 積大小將對其所拼接出之圖像的視覺效果產生直接影響, 故可將該等圖形板塊之大小定義為64*128(pixels),相對 地,用於填入該等圖形板塊中之各圖形區塊資料的大小亦 將疋義為64*128(pixeis)。唯需說明的是,該圖形板塊之形 狀及大小定義並不以此為限,其可依據實際設計需求而進 行任意變更。 該設定模組120係用以於該生成模組110所生成之圖 13 19169(修正版) 1312476 形基板之各圖形板塊中設定欲編輯之圖形板塊,其中,該 欲編輯之圖形板塊係可由使用者缺,亦可由系統以隨機 方式或按照預訂之運算規則進行選取。 該處理模組130係用以搜尋與該設定模組12〇所設定 之欲編輯之圖形板塊相鄰之參考圖形板塊,且識別各參考 圖形板塊所填入之圖形區塊資料中各拼接點的特徵信息資 料,並對應分析該欲編輯之圖形板塊中各拼接點的特徵信 籲心俾據以自該資料庫1 〇 1中讀取相應之圖形區塊資料以 真入該欲編輯之圖形板塊中。具體而言,該處理模組 係首先藉由識別單元i 3丨以搜尋所有與該欲編輯之圖形板 塊相鄰接,且已填入圖形區塊資料之圖形板塊以作為該欲 編輯之圖形板塊之參考圖形板塊,請參閱第6入圖,例如, 右將圖形板塊B2設為欲編輯圖形板塊,則該對應之參考 f形板塊係為圖形板塊C2及圖形板塊B3,再藉由該識別 單元13 1以識別各參考圖形板塊所填入之圖形區塊資料中 •各拼接點的4寸徵’以及該圖形基板之實體類型,具體而古, 係藉=該識別單元131識別該參考圖形板塊所填入之圖^形 ,4資料中各位於該參考圖形板塊及欲編輯之圖形板塊之 又’I線上的拼接點的特徵信息資料,以及該圖形基板之實 =頒型貝料。於本實施例中,該圖形基板之實體類型係為 ”有疋厚度之地形,亦即,type2(即如第3B圖所示之模 板頒型)’该參考圖形板塊C2所填入之圖形區塊資料中, 位於及茶考圖形板塊C2及欲編輯之圖形板塊B2之交界線 上之拼接點a及拼接點k材質特徵係分別為土地與海 14 19169(修正版) 1312476 月.·#正替換頁 洋,而該參考圖形板塊B3所填入之圖形區塊資料中,位 於該參考圖形板塊B3及欲編輯之圖形板塊B2之交界線上 之拼接點a及拼接點d之材質特徵則分別為土地與海洋; 接著,藉由分析單元132以依據該識別單元131所識別該 圖形基板之實體類型,以及該參考圖形板塊€2所填入之 圖形區塊貧料中拼接點a及拼接點b的材質特徵,與該參 考圖形板塊B3所填入之圖形區塊資料中拼接點&及拼接 >點d的材質特徵,分析出該欲編輯之圖形板塊B2中待填 入之圖形區塊資料的實體類型係為type2,而該待填入之' 圖形區塊資料中的分隔線位置係為拼接點b與拼接點^間 的連線,且拼接點c的材質為海洋,而拼接點&的材質為 土地;ϋ後,藉由搜尋單幻33依據該分析單元132所分 析之该欲編輯之圖形被持φ 4主 口办槪塊中待填入之圖形區塊資料對應之 實體類型及各拼接點的特徵信息,亦即,以實體類型為 啡d,分隔線位置為拼接點b與拼接點d間的連線,且拼 :點二:材質為海洋,而拼接點a的材質為土地為檢索條 錢料庫1〇1中查詢所有吻合該檢索條件之圖形區 塊舅料(即第1C圖中所部千夕闽… ^具不之圖形區塊資料),於本實施例 中’知檢索出6個符合咭笙仏& , "4核索條件之圖形區塊資料,亦 即’圖㈣塊資'圖形區塊資料咖、圖形區塊資料 〇3c、圖形區塊資料〇3d、 、 〇,f . . „ Ώ £塊貧料〇3e以及圖形區塊 貝料〇3f ’琅後’再藉由處 m祕左外, 处理早凡丨34以接收該搜尋單元 133所查珣出之各圖形區 θ. , a ^ ^ 兄貝枓,並依據預設之運算規 貝J,自5亥等圖形區塊資料 * T ^从碩取一圖形區塊資料以填 19169(修正版) 15 1312476 入該欲編輯之圖形板塊中,於本實施例中,係隨機讀取該 圖形區塊^料03b並填入該欲編輯之圖形板塊…中。 又如第5圖所不者,係為本發明之圖形編輯方法之運 作流程示意圖,以下請-併參閱第1C圖及第4A〜4C圖。 如圖所示,首先進行步驟S200,建立資料庫1〇1,用以儲 存各種類型之基礎模板、各類型基礎模板所包含之複數基 本圖形單元,以及各基本圖形單元所包括之複數圖形區ς ,育料。其中’於該圖形區塊資料2各邊緣之交接頂點係分 別具有拼接點a、拼接點b、拼接點c及拼接點d(即如第 4A:所示)’且於該圖形區塊資料2中復包括由該圖形區 塊貧料2中任意兩個拼接點間的連線所構成之分隔線,例 如’拼接點a與拼接點c間的連線所構成的分隔線仏, 或拼接點a與拼接點d間的連線所構成的分隔線m(如第 4B及4C圖),再者,於該資料庫ι〇ι +復儲存有各圖形區 ^料對應之特徵描述信息,其至少包括有㈣形區塊資 各拼接點之特徵信息以及各圖形區塊:#料對應之實體 :員,,亦即,各圖形區塊資料對應之基礎模板所屬的實體 ^型’以及各拼接點對應之材質特徵,俾藉由分析該圖形 項=料中各拼接點之材質特徵,藉而得出該圖形區塊資 ; 卩田線的位置#息(清容後詳述),接著進至步驟S202。 於步驟S202中,依據待編輯之圖形,對應生成呈有 稷數圖形板塊之圖形基板,於本實施例中,該圖形基板中 :各圖:板塊係為長寬比例為2: 1之長方形結構(相對 。亥等用於填入該等圖形板塊中之圖形區塊資料的大小 19169(修正版) 16 1312476 丨 ίΐκ 亦呈長寬比例為2 : 1之長方形結構者),接著進至步驟 S204 ° , 於步驟S204中’於該圖形基板之各圖形板塊中設定 欲編輯之圖形板塊,其中,該欲編輯之圖形板塊係由使用 者指定。請配合參閱第6八圖,於本實施例中,係假設該 圖形板塊B2為欲編輯之圖形板塊,接著進至步驟,6。 於y驟S206中’依據該設定之欲編輯之圖形板塊, •搜寸相鄰與5亥欲編輯之圖形板塊,且已填入圖形區塊資料 之圖形板塊以作為該欲編輯之圖形板塊之參考圖形板塊, ^識別各參考圖形板塊中所填人之圖形區塊資料的特徵信 息貢料以及該圖形板塊所屬之圖形基板的實體類型資料, 例如^將圖形板塊B2設為欲編輯之圖形板塊,則搜尋 出該對應之參考圖形板塊係為圖形板塊C2及圖形板塊 B3 ’其中,該等圖形板塊所屬之圖形基板的實體類型係為 八有疋厚度之地形,亦即,type2(即如第3B圖所示之模 .板類型)’該參考圖形板塊C2所填入之圖形區塊資料中, 位於該參考圖形板塊C2及欲編輯之圖形板塊之交界線 ^之拼接點a及拼接點b之材質特徵係分別為土地與海 洋:而該芩考圖形板塊B3所填入之圖形區塊資料中,位 ;該 > 考圖形板塊B3及欲編輯之圖形板塊B2之交界線上 之,接點a及拼接點d之材質特徵則分別為土地與海洋, 接著進至步驟S208。 ,於步驟S208中,分析欲編輯之圖形板塊中待填入之 圖屯區塊貝料對應之特徵信息,於本實施例中,係依據所 17 19169(修正版) 1312476 年月丨?_彥正替益.::;.丨 ------- I. _ 1 識別出之圖形基板之實體類型資料,以及各參考圖形板塊 中所填入之圖形區塊資料的特徵信息資料,分析出該欲編 ,輯之圖形板塊B2待填人之圖形區塊資料的實體類型係為 type2類型模板,該欲編輯之圖形板塊待填入之圖形區塊 資料中拼接點b(對應圖形板塊幻中的拼接點的材質為 土地;拼接點d(對應圖形板塊C2中的拼接點句的材質為 土地;以及拼接點c(對應圖形板塊幻中的拼接點d或對 鲁應圖形板塊C2中的拼接點b)的材質為海洋,藉而得出該 待填入之圖形區塊資料中分隔線的位置係為拼接點b與拼 接點d間的連線,且拼接點c的材質為海洋,而 的材質為土地’接著進至步驟S21 〇。 於步驟S210中 岭刀少丨对κ <付倣秸息,自資夕 庫101中搜哥所有符合該檢索條件的圖形區塊資料 即’以貫體類型為type2,且分隔線位置為拼接點b與决 接點d間的連線’且拼接點。的材質為海洋,而拼接點 陶才質為土地為檢索條件,自該資料庫ι〇ι中查詢所 合該等檢索條件之圖形區塊資料,於本實施例中 出^個符合該等檢索條件之圖形區塊資料,亦即 塊貧料03a、圖形區塊資料〇3b、圖形區塊資料…、圖 區塊資料03d、圖形區塊資料〇3e以及圖形區塊資料_ 如第ic圖所示),接著進至步驟S2l2。 於步驟S212中,依據運算規則,於該等搜 資料中隨機挑選一圖形區塊資料並填入該相鄰』 於本貫施例中,係'隨機讀取該圖形區塊資料〇31 19169(修正版) 181312476 Eye n': Nine, invention description: [Technical field of invention] The present invention relates to a graphic production technology, and more specifically, to a graphic editing system for editing and creating a graphic surface method. [Prior Art] With the popularization of computer technology, the impact of computer games on people's regularity/tongue is also deepening, and when consumers are commenting on the quality of a computer game, the game scene Whether the presented face attracts the attention of consumers is undoubtedly one of the important determinants. When gamers are in contact with a game, the most important thing is whether the game is beautiful. For game developers, even if the game is made well, if there is a good graphic effect for a long time, then the things displayed in front of the player will be greatly discounted, so whether the scene is excellent or not will be the player's favorite game. Important reason. In view of this, many game developers have put more effort into the production process of the scene. Lu ~ computer games are usually composed of scenes, characters, special effects, interfaces, etc., where the scene is undoubtedly the most important group of scars in the entire face, and the current scene in the game Most of the departments are completed by traditional, 曰 图 ^ , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , Improve, this will inevitably cause the burden on the player, which will affect the promotion of computer games. An Ting ^shan lacks the 'Republic of China application for the fifth patent*' - a graphics production technology that can improve the efficiency of graphic production. It is 19169 (Revised Edition) 5 - θτ-^4-- υ修" 1312476 : WI: by a plurality of basic graphic units, (4) _ such as the body image f' and using the stitching method to make a complete graphic book, The method of the law L is the one shown in the second figure. It is the figure of the patent production. The method of making the square is the first 弁 士 ^ ^ 才 j 莱 莱 所 揭 揭 揭 揭 揭 揭 八 八 八 八 八 八 八 八 八 八 八 八 八 八 八For the length to width ratio For the 2:1 rectangular graphic panel, select the phase seat & lean " system-(four) board type according to the production requirements, assuming that the user needs to draw the C degree as shown in the first figure), according to the terrain type to be green 2 The basic template of ^ in the base template (as shown in Figure 1); then, obtain the basic graphic units contained in the class, namely the display-right, and modify it, and the ic == is modified by the basic graphic elements. In the end, the data of each graphic block are filled in = Γ Γ , , , , , , 所需 所需 所需 所需 所需 所需 所需 所需 所需 所需 所需 所需 所需 所需 所需 所需 . . . . . . . . . . . . . . . . . . . The advantage is that the efficiency can be improved, the bran cover is made of P, the electric shame 5 is also prepared for the poor source and the operation of the program is improved. The insufficiency is that all the drawing operations need to be done manually, which is not only time-consuming and laborious, but also inevitably caused by human error. , and how to develop a graphic production source with automatic drawing function, improve the efficiency of the drawing (4), save computer equipment, save efficiency, save human resources and avoid human error, this is the 7-page domain. Urgent problems to be solved. SUMMARY OF THE INVENTION The problem of the present invention is to provide a graphic editing system and method for the work efficiency of k-nan drawing. This issue 19169 (Revised Edition) 6 1312476 牟 象 瞻 ! !! Page Another purpose of the month is to provide a computer equipment resources. Shape editing system and method to save, and the purpose of this - the purpose is to provide a graphical editing system and method to improve the efficiency of the program. A further object of the present invention is to provide a graphical editing system and method for saving human resources and avoiding human error. In order to achieve the above main purposes and other related purposes, the present invention provides a graphic editing system for editing and creating a graphic surface, the graphic editing system includes graphic block data for corresponding graphics and corresponding graphic regions. ^Data characterization information data library, wherein the graphic block has a plurality of splicing point data in the shell material, and the feature description information material includes at least the characteristic information data of each splicing point f material in the (four) shaped block data. a generating module for generating a graphic substrate corresponding to the graphic, wherein the graphic substrate includes a plurality of graphic blocks; the graphic blocks for setting the graphic substrate generated by the generating module are set to be edited. a graphic board and a block setting module; and a heart searching for a reference graphic block adjacent to the graphic block to be edited by the relatively module and having filled in the graphic block data, and identifying the graphic filled in each reference graphic block The feature information data of each splicing point of the block material in the block data, and correspondingly analyzing the feature information of each splicing point in the graphic block to be edited, To read the corresponding blocks of graphics data from the database to be edited in order to fill the pattern of the mold plate in the treatment group. The feature description information corresponding to each graphic block data in the database includes the entity type data corresponding to each graphic block data, and the 7 19169 (corrected version) 1312476 processing module is included and filled in. Filled in the graphic block of the drawing test -~^ Years of the correction are used to search all the reference graphic blocks of the adjacent block data of the graphic block to be edited, and identify the splicing points in each of the participating graphic blocks. The characteristic information of the data and the identification unit for identifying the entity type data of the graphic substrate are used to fill in the feature information of each splicing point data in the graphic block data according to each reference graphic block identified by the identification unit. The data is analyzed, and the feature information of each splicing point data in the graphic block to be edited is analyzed, and the feature information of each splicing point in the graphic block to be edited is analyzed according to the analyzing unit. The data, and the entity type data of the graphic substrate identified by the identification unit, searching for all the 5 inch 彳 仏 仏a search unit for the graphic block data; and receiving the graphic block data searched by the search unit, and randomly reading a graphic block from the graphic block data according to a preset t operation rule And fill in the processing unit in the graphics block to be edited. Furthermore, the splicing point data in the sacred graphic block refers to the intersection of the edges of the graphic block of the stencil of the graphic block (4), and the graphic block of the graphic block data has a dividing line, and The dividing line is composed of a connection between each splicing point data in any two splicing points in the graphic block. Furthermore, the feature information data of each splicing point data in the graphic block of the graphic block data refers to the material characteristic data of each splicing point, and the processing module includes the search for all the graphic slabs to be edited. Adjacent, and has filled in the reference template of the graphic block data, and identifies the splicing point in the graphic block data filled in the reference graphic block, on the boundary line between the reference graphic block and the graphic block to be edited. Identification of the material characteristic data of the data 19169 (revision) 8 1312476 sc 3. -4 :; and the material of the splicing point data on the boundary line between the reference graphic block and the second graphic block identified by the identification unit The characteristic material "material" analyzes the analysis unit of the separation line position information data corresponding to the graphic block data to be filled in the graphic block to be edited. Corresponding to the above-mentioned graphic editing system, the present invention discloses a graphic editing method for fabricating a light-weighted graphic surface, and the graphic editing method comprises the following steps: (1) establishing a graphic block data storing the corresponding graphic and The data base of the characteristic description information data of the graphic block data, wherein the graphic block has a plurality of splicing point data, and the feature description information data includes at least the splicing point data in the graphic block data. Characteristic information, data; (2) generating a graphic substrate corresponding to the graphic, and the graphic substrate includes a plurality of graphic blocks; (3) setting the desired editing in each graphic plate of the generated graphic substrate a graphics block; and (4) searching for a reference picture block adjacent to the set graphic block to be edited, and having filled in the graphic block data and identifying the graphic block filled in each reference graphic block The characteristic information data of each splicing point data in the reference material, and correspondingly analyzing the characteristic information of each splicing point in the graphic slab to be edited, according to the data read from the database The graphics should fill the block data to be edited in the graphical sector. The feature description information data corresponding to each graphic block data in the database includes the entity type data corresponding to each graphic block data, and the step (4) includes: (4_1) searching for all the graphics to be edited. The plate is adjacent to the reference graphic block of the graphic block data, and identifies the feature information tribute of each splicing point data in the graphic block data filled in each reference graphic block, and the entity identifying the graphic substrate Type data; (4·2) 19169 (revision) 9 ye. a. -4 1312476 According to the characteristic information data of each splicing point data in the graphic block data filled in each identified reference graphic block, The feature information data of each splicing point data in the graphic panel to be edited; (4-3) according to the analyzed characteristic information data of each splicing point data in the graphic panel to be edited, and the entity of the identified graphic substrate Type data, searching for all graphic block data matching the characteristic information data from the database; and (4_4) receiving the searched graphic block data, and according to the pre- The rules of operation, / those graphics block data in a graphical block random read and fill in the information to be edited in the graphical sector. Furthermore, the splicing point data in the graphic block data refers to the data of the vertices of the intersections of the edges of the graphic block of the graphic block data, and the graphic block of the graphic block data has a dividing line, and the The dividing line is composed of a connection between each splicing point data in any two splicing points in the graphic block. Furthermore, the feature information data of each splicing point data in the graphic block of the graphic block data refers to the material characteristic data of each splicing point, and the step (4) includes (4)) searching for all the graphics to be edited. The block I is adjacent to the reference graphic block of the graphic block data and is identified, and the graphic block data filled in the reference graphic block is located at the boundary between the reference image block and the graphic block to be edited. The material of the splicing point data on the line; and (4_2) the material characteristics of the splicing point data on the boundary line of each of the identified graphic slabs according to the reference picture ^ = ^ 析 析 该 该 该 欲 欲 欲 欲 欲Corresponding divider position information. The graphic editing system and method of the ghost shell two ^ Ming can be automatically edited adjacent to the reference figure 10 19169 (revision) 1312476 ',,, t '· shaped plate according to the graphic block data filled in by the reference graphic block The graphics in the various graphics sections, and the features of the graphics, to achieve all of the above purposes. (10) Having an automatic editing The following is a description of the embodiments of the present invention by way of specific specific examples, and those skilled in the art can understand the other advantages and effects of the present invention from the disclosure of the disclosure. The present invention can also be implemented or applied by 2 = = body solid: i, and the details in the present specification are also: ,: decoration == point and application, and various types such as the second are performed without the spirit of the present invention. The figure is shown as a block diagram which is used as the basic architectural block of the inventive graphics editing system. The editing system (10) is applied to a scene development operation of a computer game. The figure editing system 1 of the present invention includes at least a data library 10, a generation module 110, and a setting. Mold 4% shell group 13〇. The sigh group 120 and a processing module 101 store the plurality of graphics blocks that are corresponding to the graphics to be edited. In this embodiment, the basic templates of various types and various types of medium storage are stored. There are _, Becky violent pull board contains the plural basic: each basic graphic unit includes the plural graphic block type 2 1 Yang board type is based on the entity template of the basic template to make the template displayed by A" Class... State 1 is used for J: board; template type coffee e2 shown in Figure 3B is made to have a certain thickness of the terrain; the template type shown in the redundant diagram is used to make roads, and 3D Template 19169 (revision) shown in the figure 11 1312476 'dti. °· **· Type tyPe4 is used to make wall sills. The basic graphic units included in each type of basic template are used to provide users. By inserting the basic graphs into the unit = any combination 'to splicing out the solid shapes of various shapes. The plural graphic block data of each basic unit is 3 according to the user's different " And for a basic graphic unit The pattern material is correspondingly decorated, and the various graphic patterns of different pattern patterns are changed in the street. The first basic figure shows the basic graphics included in the board type shown in Figure 3b. The various graphic block data formed by the unit after the repair, due to the above-mentioned various types of basic pull plates, basic graphic units in each type of basic template, and derivation of the basic structure of the 5 Xuan basic graphic units The various graphic block data f techniques have been specifically disclosed in the patent application No. 94136115 and are not the technical focus of the present case, so it will not be described here. ^ Furthermore, the graphic block of the present invention The data 2 is a rectangular structure (please refer to later) and has a plurality of splicing point data, and the splicing points are located at the intersection of the edges of the graphic block of the graphic block data 2, that is, the first 4A shows the splicing point a, splicing point b, splicing point, and spelling, point d. However, it should be noted that the setting position of each splicing point in the graphic block data 2 is not limited thereto. Can be based on The actual design needs, the voice change, the line change ' is set, for example, at each edge of the graphic block data 2; point. In addition, the graphic block of the graphic block data 2 has a dividing line, which is composed of The splicing point data is constructed by the connection between any two splicing lines in the graphic block, for example, the dividing line 21a formed by the splicing point a and the splicing black occlusion line c, or the splicing point a and the splicing point The connection between d constitutes the dividing line 21b of 12 19169 (Revised Edition) 1312476 (i.e., as shown in FIG. 4B & 4C). Each graphic block is stored in the database HU and the description information is included. The feature description information data includes at least: feature information data of each splicing point data in each graphic block data and entity type data corresponding to each block 2 piece data, that is, a basic template corresponding to each graphic block data belongs to Entity type. Furthermore, in the embodiment, the dividing line is used to separate two kinds of Lu _ (four) materials in the graphic block of the same graphic block data, and the feature information data of each splicing point data in the graphic block data The material feature data of each splicing point is included. Therefore, the feature information data of each splicing point data in the graphic block data also includes the location information data of the dividing line in each graphic block data. The generating module 110 is configured to generate a graphic substrate corresponding to the graphic to be edited, wherein the graphic substrate is composed of a plurality of graphic chips having the same size and shape, and the graphic blocks are For square, rectangular or regular polygon (for example, regular hexagon) structures, to achieve the best visual effect of the three-dimensional image _ =, the shape of the graphic plate can be defined as a rectangular structure with a long-form ratio of 2 · 1: In addition, since the size of each graphic panel has a direct influence on the visual effect of the image to be spliced, the size of the graphics panel can be defined as 64*128 (pixels), and relatively, for filling in The size of each graphic block data in these graphic blocks will also be 64*128 (pixeis). It should be noted that the shape and size definition of the graphic block are not limited thereto, and may be arbitrarily changed according to actual design requirements. The setting module 120 is configured to set a graphic panel to be edited in each graphic panel of the 1319169 (revision) 1312476-shaped substrate generated by the generating module 110, wherein the graphic panel to be edited can be used. If it is missing, it can also be selected by the system in a random manner or according to the calculation rules of the reservation. The processing module 130 is configured to search for a reference graphic block adjacent to the graphic block to be edited set by the setting module 12, and identify each splicing point in the graphic block data filled in each reference graphic block. Feature information data, and correspondingly analyzing the feature of each splicing point in the graphic block to be edited, to read the corresponding graphic block data from the database 1 〇1 to actually enter the graphic to be edited In the plate. Specifically, the processing module first searches for all the graphics blocks adjacent to the graphic block to be edited and has filled in the graphic block data as the graphic block to be edited by the identification unit i 3丨. For the reference graphic block, please refer to the sixth drawing. For example, if the graphic block B2 is set to the right to edit the graphic block, the corresponding reference f-shaped plate is the graphic block C2 and the graphic block B3, and the identification unit is further 13 1 to identify the 4 inch sign of each stitching point in the graphic block data filled in each reference graphic block and the entity type of the graphic substrate, specifically, the identification unit 131 identifies the reference graphic block Filled in the shape of the figure, 4 data in each of the reference graphic block and the graphic block to be edited on the 'I line of the splicing point feature information material, and the graphic substrate of the real = award type of material. In this embodiment, the physical type of the graphic substrate is “the terrain having the thickness of the layer, that is, the type 2 (ie, the template type as shown in FIG. 3B)” the graphic area filled in the reference graphic block C2. In the block data, the splicing point a and the splicing point k material characteristics on the boundary line between the tea test graphic panel C2 and the graphic panel B2 to be edited are respectively land and sea 14 19169 (revision) 1312476 months. In the graphic block data filled in the reference graphic block B3, the material characteristics of the splicing point a and the splicing point d on the boundary line between the reference graphic block B3 and the graphic block B2 to be edited are respectively And the sea; the splicing point a and the splicing point b of the graphic block in the graphics block filled in by the analyzing unit 131 and the splicing point b The material feature, and the material characteristics of the splicing point & splicing > point d in the graphic block data filled in the reference graphic panel B3, and analyzing the graphic block data to be filled in the graphic panel B2 to be edited Real The type is type2, and the position of the dividing line in the 'graphic block data to be filled in is the connection between the splicing point b and the splicing point ^, and the material of the splicing point c is ocean, and the splicing point & The material is the land; after that, the graphic to be edited by the analysis unit 132 is searched according to the entity type and each of the graphic block data to be filled in the main block of the φ 4 main port. The feature information of the splicing point, that is, the entity type is the color d, the position of the dividing line is the line connecting the splicing point b and the splicing point d, and the spelling: point two: the material is the ocean, and the material of the splicing point a is the land In the search for the data block 1〇1, all the graphic block data that match the search condition are searched (that is, the image block data in the 1C chart) is in the present embodiment. It is known to retrieve 6 graphic block data that meet the conditions of 咭笙仏& and "4, which means '图(四)块资' graphic block data coffee, graphic block data 〇3c, graphic block data〇 3d, 〇, f. . „ Ώ £ block poor 〇 3e and graphic block 贝 3f '琅后' borrow At the left side of the secret, the processing unit 34 is arranged to receive the graphic areas θ., a ^ ^ brothers and sisters that are searched by the searching unit 133, and according to the preset calculation rule J, from the figure of 5 Hai, etc. The block data *T ^ is taken from the master drawing a graphic block data to fill in 19169 (revision) 15 1312476 into the graphic block to be edited. In this embodiment, the graphic block material 03b is randomly read and Fill in the graphic panel... to be edited. Further, as shown in Fig. 5, it is a schematic diagram of the operation flow of the graphic editing method of the present invention, and please refer to the following Fig. 1C and Figs. 4A to 4C. As shown in the figure, step S200 is first performed to establish a database 1〇1 for storing various types of basic templates, plural basic graphic units included in each type of basic template, and plural graphic regions included in each basic graphic unit. , brooding. Wherein the intersection vertex of each edge of the graphic block data 2 has a splicing point a, a splicing point b, a splicing point c and a splicing point d (ie as shown in FIG. 4A), and in the graphic block data 2 The intermediate complex includes a dividing line formed by a line connecting any two splicing points in the graphic block poor material 2, for example, a dividing line ' formed by a connecting line between the splicing point a and the splicing point c, or a splicing point a dividing line m formed by a line connecting a and the splicing point d (as shown in FIGS. 4B and 4C), and further storing, in the data library ι〇ι +, feature description information corresponding to each graphic area, At least the feature information of each splicing point of the (four)-shaped block and each graphic block: the entity corresponding to the material: the member, that is, the entity type corresponding to the basic template corresponding to each graphic block data and the splicing The corresponding material characteristics of the point, by analyzing the material characteristics of the splicing points in the graphic item = material, thereby obtaining the graphic block resource; the position of the 卩田 line# (detailed after clearing), then proceed Go to step S202. In the step S202, according to the graphic to be edited, a graphic substrate having a number of graphic blocks is generated correspondingly. In the embodiment, in the graphic substrate: each of the patterns: the rectangular structure having a length to width ratio of 2:1. (relative. The size of the graphic block data used to fill in the graphic blocks is 19169 (revision) 16 1312476 丨ίΐκ is also a rectangular structure with a length to width ratio of 2:1), and then proceeds to step S204. °, in step S204, 'the graphics panel to be edited is set in each graphics panel of the graphics substrate, wherein the graphics panel to be edited is specified by the user. Referring to FIG. 68, in the embodiment, it is assumed that the graphic block B2 is a graphic block to be edited, and then proceeds to step 6. In step S206, the graphic panel to be edited according to the setting is searched, and the graphic panel adjacent to and edited by the image is edited, and the graphic panel of the graphic block data is filled in as the graphic panel to be edited. Referring to the graphics panel, ^ identifying the feature information tribute of the graphic block data of the person in each reference graphic block and the entity type data of the graphic substrate to which the graphic block belongs, for example, setting the graphic block B2 as the graphic block to be edited And searching for the corresponding reference graphics panel is a graphics panel C2 and a graphics panel B3 ', wherein the entity type of the graphics substrate to which the graphics panel belongs is a topography having a thickness of eight, that is, type 2 (ie, The model shown in Fig. 3B) is the splicing point a and the splicing point b of the boundary line of the reference graphic panel C2 and the graphic panel to be edited. The material characteristics are respectively the land and the sea: and the graphic block data filled in the graphic block B3 is the bit; the > the intersection of the graphic block B3 and the graphic block B2 to be edited , The material characteristic and a contact point d of the splice point are land and sea, and then proceeds to step S208. In step S208, analyzing the feature information corresponding to the block material to be filled in the graphic block to be edited, in this embodiment, according to the 17 19169 (revision) 1312476 month 丨? Positive replacement.::;.丨------- I. _ 1 The physical type data of the identified graphic substrate, and the characteristic information data of the graphic block data filled in each reference graphic block, analysis According to the graphic block B2, the entity type of the graphic block data to be filled in is the type2 type template, and the graphic block to be filled in the graphic block data to be edited is the splicing point b (corresponding to the graphic plate illusion) The material of the splicing point in the middle is the land; the splicing point d (corresponding to the material of the splicing point sentence in the graphic panel C2 is the land; and the splicing point c (corresponding to the splicing point d in the illusion of the graphic slab or the splicing point d in the graphic panel C2) The material of the splicing point b) is the ocean, and the position of the dividing line in the graphic block data to be filled is the connection between the splicing point b and the splicing point d, and the material of the splicing point c is ocean. And the material is land', then proceeds to step S21 〇. In step S210 In the middle of the knife, the 丨 丨 付 付 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 、 The connection between the joints d and the splicing point is made of the sea, and the splicing point is the land for the search condition, and the graphic block data of the search conditions are searched from the database ι〇ι. In the embodiment, the graphic block data corresponding to the search conditions are obtained, that is, the block poor material 03a, the graphic block data 〇3b, the graphic block data..., the graphic block data 03d, the graphic block data 〇 3e and the graphic block data _ as shown in the ic diagram), and then proceeds to step S212. In step S212, according to the operation rule, a graphic block data is randomly selected and filled in the search data according to the operation rule. In the present example, the data block is randomly read 〇 31 19169 (revision) 18
1312476 年。两~濟修正替揍頁I 以填入該欲編輯之圖形板塊B2中。 再者,於本發明之圖形編輯方法之另一較佳實施例 中’該圖形基板中各欲編輯之圖形板塊亦可由系統自動以 隨機方式或按照預訂之運算規則進行選取。 凊配合參閱第6A圖,當使用者於該圖形板塊C3中填 入拼接點a、b 'c、d的材質皆為海洋之圖形區塊資料,則 該系統將會自動搜尋一鄰接於該圖形板塊C3之相鄰圖形 广塊’係例如圖形板塊B3,其中,當系統自動開始編輯該 相鄰圖形板塊B 3日夺,首先係識別該圖形板塊c 3所屬之圖 形基板的實_型(即type2類型並識別出該圖形板塊 C3所填人之圖形區塊資料中,位於該圖形板塊以及欲編 ,之圖形板塊B3之交界線上之拼接點a及拼接^之材 M寺徵皆為海洋’即得出該欲編輯之圖形板塊B3中待填 八之圖先區塊貪料的實體類型為咖2,分隔線位置為拼 =與拼接點b間的連線,且拼接點c與拼接點廿的材 ^白為海^並依此為檢索條件自該資料庫⑻中檢索所 =允符該條件之圖形區塊資料,再以隨機方式於所有檢索 形區塊資料中選取圖形區塊資料鳥並填入該圖形 ^ 中。爾後’再搜尋鄰接於該圖形板塊B3之相鄰圖 例如圖形板塊B4,且以相同之編輯方式自該資料 則中,中擇取相應的圖形區塊資料以填入該圖形板塊 換B5 ^ 輯方式依次拼接出圖形板塊C4、圖形板 塊B5、圖形板塊C5 .. .....·,错而拼接出一完整的地形畫面。 本t明之®形編輯方法亦可針對該圖形基板中 19169(修正版) 19 1312476 當前所編輯之圖形板塊的變化,而相應調整各相鄰圖形板 塊中的圖形區塊資料内容。請一併參閱第6A、6B及 •圖,其中,於第6A圖中,使用者係於該圖形板塊C3中填 入拼接點a、b、c、d的材質皆為海洋之圖形區塊資料,則 肩圖形板塊B4係填入一拼接點a與拼接點c間具有一分 隔線之圖形區塊資料;並於該圖形板塊B5中填入一不具 分隔線,且材質係為土地之圖形區塊資料。於第6B圖中, 鲁當使用者於該圖形板塊C3及圖形板塊C4中填入拼接點 a、b、c、d的材質皆為海洋之圖形區塊資料時,則於該圖 形板塊B4中所填入的圖形區塊資料中,該分隔線即相應 由拼接點a與拼接點c之間的連線變化為拼接點a與拼接 點b之間的連線;相對地,該圖形板塊B5所填入的圖形 區塊資料中,則由第6A圖中的不具分隔線之圖形區塊資 料變化為於拼接點a與拼接點c之間出現一分隔線之圖形 區塊資料。请繼續參閱第6C圖,當使用者係於該圖形板 鲁塊C3、圖形板塊C4以及圖形板塊C5中分別填入拼接點 a、t>、c、d的材質皆為海洋之圖形區塊資料時’則於該圖 形板塊B4中所填入的圖形區塊資料中,該位於拼接點& 與拼接點b之間的分隔線形狀係相對由上凸結構變成了下 凹結構;該圖形板塊B5所填入的圖形區塊資料中,該分 隔線亦相應由拼接點a與拼接點c之間的連線變化為拼接 點a與拼接點b之間的連線;而該圖形板塊B6所填入的 圖形區塊資料中,則由第6A圖中的不具分隔線之圖形區 塊資料,變化為於拼接點3與拼接點c之間出現一分隔線 20 19169(修正版) 1312476 之圖形區塊資料。 綜上所述,本發明之圖形編輯系統及方法,係可 :考:形板塊所填入之圖形區塊資料,自動編輯各鄰接於 該麥考圖形板塊之圖形板塊t的圖案花紋,俾㈣圖作業 具有自動編輯功能,以提高緣圖之玉作效率、節省電腦讯 備貧源、提高程式的運行效率、節省人力資源並避免人^ 上述實施例僅例示性說明本發明之原理及其功效,而 非用於限制本發明。任何熟胃此項技藝之人士均可在不遠 背本發明之精神及㈣下,對上述實施例進行修飾愈改 ΐ圖本發明之權利保護範圍,應如後述之中請專利 粑圍所列。 【圖式簡單說明】 弟1Α至⑴圖係為習知技術之圖形製作方法之實施 說明示意圖。 、 /第2 1U系為一方塊不意圖,其顯示本發明之圖形編輯 糸統之基本架構方塊示意圖; 第3Α至3D圖係為本發明之圖形編輯系統中,該資料 庫所儲存之各類型基礎模板之實施例示意圖; 、 第4入至4C圖係為本發明之圖形編輯系統中,該資料 庫所儲存之圖形區塊資料之實施例示意圖; 第5圖係為一流程示意圖,其顯示本發明之圖形編輯 去之運作流程示意圖;以及 第6 A至6 C圖係為本發明之圖形編輯方法之較佳實施 21 19169(修正版)1312476. The two-page correction is replaced by the page I to fill in the graphic block B2 to be edited. Furthermore, in another preferred embodiment of the graphics editing method of the present invention, the graphics blocks to be edited in the graphics substrate are also automatically selected by the system in a random manner or according to a predetermined operational rule.凊With reference to Figure 6A, when the user fills in the graphic panel C3 with the material of the splicing points a, b 'c, and d as the graphic block data of the ocean, the system will automatically search for an adjacent image. The adjacent graphic block of the block C3 is, for example, the graphic block B3, wherein when the system automatically starts editing the adjacent graphic block B, it first identifies the real type of the graphic substrate to which the graphic block c 3 belongs (ie, The type 2 type identifies the graphic block data of the person in the graphic block C3, and the splicing point a on the boundary line of the graphic block and the graphic block B3 to be edited, and the M temple sign of the splicing ^ are all oceans' That is to say, the entity type of the first block to be filled in the graphic block B3 to be edited is the coffee type 2, the position of the dividing line is the connection between the spelling and the splicing point b, and the splicing point c and the splicing point The material of the ^ 为 is the sea ^ and according to the search condition, the graphic block data of the condition is retrieved from the database (8), and the graphic block data is selected in all the retrieved block data in a random manner. The bird fills in the graphic ^. Then 'search again Connected to the adjacent image of the graphic block B3, for example, the graphic block B4, and selects the corresponding graphic block data from the data in the same editing manner to fill the graphic plate and replace the B5^ series in sequence. Graphic panel C4, graphics panel B5, graphics panel C5 .. ........, splicing out a complete terrain image. The method of editing the T-shaped can also be used for the 19169 (revision) of the graphics substrate 19 1312476 The currently edited graphics panel changes, and the graphics block data content in each adjacent graphics panel is adjusted accordingly. Please refer to the 6A, 6B and the figure together, in Figure 6A, the user is tied to The material of the splicing points a, b, c, and d filled in the graphic panel C3 is the graphic block data of the ocean, and the shoulder graphic panel B4 is filled with a pattern of a dividing line between the splicing point a and the splicing point c. Block data; and in the graphic panel B5, a non-separated line is filled, and the material is the graphic block data of the land. In Figure 6B, the Ludang user fills in the graphic panel C3 and the graphic panel C4. The materials into the splicing points a, b, c, and d are all In the graphic block data of the ocean, in the graphic block data filled in the graphic block B4, the dividing line is changed from the connecting line between the splicing point a and the splicing point c to the splicing point a and the splicing point. The connection between b; in contrast, the graphic block data filled in the graphic block B5 is changed from the non-separated graphic block data in FIG. 6A to the splicing point a and the splicing point c The graphic block data of a separate line appears. Please refer to FIG. 6C, when the user is in the graphic board block C3, the graphic block C4 and the graphic block C5, respectively, the splicing points a, t>, c, When the material of d is the graphic block data of the ocean, 'in the graphic block data filled in the graphic block B4, the shape of the dividing line between the splicing point & splicing point b is relatively The convex structure becomes a concave structure; in the graphic block data filled in the graphic block B5, the dividing line is also changed from the connecting line between the splicing point a and the splicing point c to the splicing point a and the splicing point b. The connection between the graphics and the graphics block filled in the graphics block B6 , Figure 6A by the pattern region of the dividing line does not have block data is changed to 3 splice point between a parting line splice points c and 2,019,169 (amended) The graphics block data occur 1,312,476. In summary, the graphic editing system and method of the present invention can: test the graphic block data filled in the shaped block, and automatically edit the pattern pattern of each graphic block t adjacent to the digital test graphic block, 俾 (4) The map job has an automatic editing function to improve the efficiency of the edge map, save the computer source of poor resources, improve the operating efficiency of the program, save human resources and avoid people. The above embodiments only exemplarily illustrate the principle and function of the present invention. It is not intended to limit the invention. Any person skilled in the art can modify the above-described embodiments without departing from the spirit of the invention and (4). The scope of protection of the present invention should be as described in the following patents. . [Simple description of the drawing] The brothers 1Α to (1) are diagrams showing the implementation of the conventional method of making graphics. , / 2nd 1U is a block diagram, which shows the basic architecture block diagram of the graphic editing system of the present invention; the third to third 3D drawings are the types of data stored in the database editing system of the present invention. A schematic diagram of an embodiment of a basic template; a fourth through 4C diagram is a schematic diagram of an embodiment of a graphic block data stored in the data editing system of the present invention; and FIG. 5 is a schematic flow diagram showing A schematic diagram of the operational flow of the graphics editing of the present invention; and 6A to 6 C are preferred implementations of the graphics editing method of the present invention. 21 19169 (Revised Edition)
1312476 例說明示意圖。 【主要元件符號說明】 100 圖形編輯系統 101 資料庫 110 生成模組 120 設定模組 130 處理模組 131 識別單元 •132 分析單元 133 搜尋單元 134 處理單元 2 圖形區塊貢料 21a,21b 分隔線 S200〜S212步驟 22 19169(修正版)1312476 Example illustration. [Description of main component symbols] 100 Graphic editing system 101 Database 110 Generation module 120 Setting module 130 Processing module 131 Identification unit • 132 Analysis unit 133 Search unit 134 Processing unit 2 Graphic block tribute 21a, 21b Separation line S200 ~S212 Step 22 19169 (Revised Edition)