using OpenCvSharp; using System; using System.Collections.Generic; using System.Data.SQLite; using System.Data; using System.Linq; using System.Text; using System.Text.RegularExpressions; using System.Threading.Tasks; using XKRS.Device.SimboVision.SimboHelper; using System.Diagnostics.Eventing.Reader; using static System.Runtime.InteropServices.JavaScript.JSType; using System.Drawing; using Microsoft.VisualBasic; using System.Xml; using System.Runtime.InteropServices; namespace HisenceYoloDetection { public static class ManagerModelHelper { public static string RootPath = "D:\\Hisence\\SQLImages\\"; ///

/// ///

/// 是否保存本地图片 /// 唯一条形码 /// 区块号 /// 图像 /// 图像上的数据 /// 关键字 /// 所有字 /// 图片保存路径 public static void MatMessage(bool saveimage, string OcrBar, string blockIndex, ref Mat CutBlockMat, ref MLResult mLcut, ref List OcrTextinsert, ref List OcrFuzzyTextInsert, ref string cutSavepath) { //在这里面找到带数字的关键字将所有字也存放在数据库中 for (int j = 0; j < mLcut.ResultDetails.Count; j++) { string jdetial = mLcut.ResultDetails[j].LabelDisplay; string result = Regex.Replace(jdetial, "[ \\[ \\] \\^ \\-_*×――(^)$%~!@#$…&%￥—+=<>《》!！??？:：?`·、。，；,.;/\"‘’“”-]", ""); if (Regex.IsMatch(result, @"\d")) { OcrTextinsert.Add(result); } OcrFuzzyTextInsert.Add(result); } if (saveimage) { DateTime dt = DateTime.Now; string namecutSavepath = OcrBar + "\\" + blockIndex + "\\" + OcrBar + "result.jpg"; cutSavepath = Path.Combine(RootPath, namecutSavepath); //得到目录 if (!Directory.Exists(Path.GetDirectoryName(cutSavepath))) { Directory.CreateDirectory(Path.GetDirectoryName(cutSavepath)); } Cv2.ImWrite(cutSavepath, CutBlockMat); } } public static List GetModeWordFromBar(string SkBar) { List cslist = SQLiteHelper.ExecuteQuery($"select * from XK_HisenceWord where OCRBar='{SkBar}' ", r => new XK_HisenceWord { OcrBar = r["OcrBar"].ToString(), OneblockPath = r["OneblockPath"].ToString(), OneblockMainWord = r["OneblockMainWord"].ToString(), OneblockText = r["OneblockText"].ToString(), TwoRect = r["TwoRect"].ToString(), TwoIFWhile = r["TwoIFWhile"].ToBool(), TwoblockPath = r["TwoblockPath"].ToString(), TwoblockMainWord = r["TwoblockMainWord"].ToString(), TwoblockText = r["TwoblockText"].ToString(), ThreeblockPath = r["ThreeblockPath"].ToString(), ThreeblockMainWord = r["ThreeblockMainWord"].ToString(), ThreeblockText = r["ThreeblockText"].ToString(), FourblockPath = r["FourblockPath"].ToString(), FourblockMainWord = r["FourblockMainWord"].ToString(), FourblockText = r["FourblockText"].ToString(), FiveblockPath = r["FiveblockPath"].ToString(), FiveblockMainWord = r["FiveblockMainWord"].ToString(), FiveblockText = r["FiveblockText"].ToString(), SixblockPath = r["SixblockPath"].ToString(), SixblockMainWord = r["SixblockMainWord"].ToString(), SixblockText = r["SixblockText"].ToString(), SevenblockPath = r["SevenblockPath"].ToString(), SevenblockMainWord = r["SevenblockMainWord"].ToString(), SevenblockText = r["SevenblockText"].ToString(), EightblockPath = r["EightblockPath"].ToString(), EightblockMainWord = r["EightblockMainWord"].ToString(), EightblockText = r["EightblockText"].ToString() }); return cslist; } public static bool IsMatchSQLText(ref Mat detMat, ref XK_HisenceWord XKSQL, ref XK_HisenceWord XKDet) { try { string TwoRectstr = XKSQL.TwoRect; string oneBlockWordSql = XKSQL.OneblockMainWord; string twoBlockWordSql = XKSQL.TwoblockMainWord; string threeBlockWordSql = XKSQL.ThreeblockMainWord; string fourBlockWordSql = XKSQL.FourblockMainWord; string fiveBlockWordSql = XKSQL.FiveblockMainWord; string sixBlockWordSql = XKSQL.SixblockMainWord; string sevenBlockWordSql = XKSQL.SevenblockMainWord; string eightBlockWordSql = XKSQL.EightblockMainWord; string oneBlockWordDet = XKDet.OneblockMainWord; string twoBlockWordDet = XKDet.TwoblockMainWord; string threeBlockWordDet = XKDet.ThreeblockMainWord; string fourBlockWordDet = XKDet.FourblockMainWord; string fiveBlockWordDet = XKDet.FiveblockMainWord; string sixBlockWordDet = XKDet.SixblockMainWord; string sevenBlockWordDet = XKDet.SevenblockMainWord; string eightBlockWordDet = XKDet.EightblockMainWord; bool OneIF = isMatchStr(oneBlockWordSql, oneBlockWordDet); bool TwoIF = isMatchStr(twoBlockWordSql, twoBlockWordDet); bool ThreeIF = isMatchStr(threeBlockWordSql, threeBlockWordDet); bool FourIF = isMatchStr(fourBlockWordSql, fourBlockWordDet); bool FiveIF = isMatchStr(fiveBlockWordSql, fiveBlockWordDet); bool SixIF = isMatchStr(sixBlockWordSql, sixBlockWordDet); bool SenvenIF = isMatchStr(sevenBlockWordSql, sevenBlockWordDet); bool EightIF = isMatchStr(eightBlockWordSql, eightBlockWordDet); //第二快卷积匹配 string PathSql = XKSQL.TwoblockPath; // Rect rectsql = CheckDiffSciHelper.strChangeRect(TwoRectstr); Rect rectDet = CheckDiffSciHelper.strChangeRect(XKDet.TwoRect); bool twoif2 = CheckDiffSciHelper.CheckDiffSci(PathSql, detMat, rectsql, rectDet, (bool)XKSQL.TwoIFWhile, "D://Test"); DateTime dt = DateTime.Now; using (StreamWriter sw = new StreamWriter("D://Hisence//logsMatch.log", true)) { string filename = dt.Year.ToString() + dt.Month.ToString() + dt.Day.ToString() + dt.Hour.ToString() + dt.Minute.ToString() + dt.Millisecond.ToString(); sw.WriteLine(filename + "\n"); sw.WriteLine(oneBlockWordSql + " " + oneBlockWordDet + "\n"); sw.WriteLine(twoBlockWordSql + " " + twoBlockWordDet + "\n"); sw.WriteLine(threeBlockWordSql + " " + threeBlockWordDet + "\n"); sw.WriteLine(fourBlockWordSql + " " + fourBlockWordDet + "\n"); sw.WriteLine(fiveBlockWordSql + " " + fiveBlockWordDet + "\n"); sw.WriteLine(sixBlockWordSql + " " + sixBlockWordDet + "\n"); sw.WriteLine(sevenBlockWordSql + " " + sevenBlockWordDet + "\n"); sw.WriteLine(eightBlockWordSql + " " + eightBlockWordDet + "\n"); sw.WriteLine(" 卷积匹配 " + twoif2 + "\n"); sw.Flush(); } //第三块区域一直都是false if (OneIF && TwoIF && ThreeIF && FourIF && FiveIF && SixIF && SenvenIF && EightIF && twoif2) { return true; } else { return false; } } catch (Exception ex) { return false; } } public static bool StrMatch(string SqlText,string DetText) { // 计算Levenshtein距离 int distance = LevenshteinDistance(SqlText, DetText); // 计算相似度（相似度等于1减去标准化的Levenshtein距离） double similarity = 1 - ((double)distance / Math.Max(SqlText.Length, DetText.Length)); bool areEqual = false; if (similarity < 0.9) { areEqual = false; } else { areEqual = true; } //string[] sArraysql = Regex.Split(SqlText, "##", RegexOptions.IgnoreCase); //string[] sArraydet = Regex.Split(DetText, "##", RegexOptions.IgnoreCase); //bool areEqual = sArraysql.OrderBy(x => x).SequenceEqual(sArraydet.OrderBy(x => x)); return areEqual; } static bool AreArraysEqual(string[] array1, string[] array2) { if (array1.Length != array2.Length) { return false; } // 将数组排序 Array.Sort(array1); Array.Sort(array2); // 逐个比较对应位置的数字 for (int i = 0; i < array1.Length; i++) { if (array1[i] != array2[i]) { return false; } } return true; } static bool AreMoreThanHalfEqual(string[] array1, string[] array2) { string Sqltext = array1.Join(""); string Realtext = array2.Join(""); int io = 0; foreach (char ch2 in Realtext) { foreach (char ch1 in Sqltext) { if (ch1 == ch2) { io++; Console.WriteLine(ch1); break; } } } //// 将数组转换为集合 //HashSet set1 = new HashSet(array1); //HashSet set2 = new HashSet(array2); //// 计算交集的数量 //int intersectionCount = set1.Intersect(set2).Count(); // 判断交集数量是否超过一半 return io >=Sqltext.Length / 2; } public static bool StrMatch2(string SqlText, string DetText) { string[] numbers = FindNumbers(SqlText); if (numbers.Length>0) { //Console.WriteLine("字符串中包含数字：" + number); } else { Console.WriteLine("字符串中不包含数字"); } string[] numbers2= FindNumbers(DetText); if (numbers2.Length>0) { //Console.WriteLine("字符串中包含数字：" + detnumber); } else { Console.WriteLine("字符串中不包含数字"); } bool areEqual ; if (numbers2.Length>0&& numbers.Length > 0) { areEqual = AreMoreThanHalfEqual(numbers, numbers2); } else { areEqual = AreArraysEqual(numbers, numbers2); } //string[] sArraysql = Regex.Split(SqlText, "##", RegexOptions.IgnoreCase); //string[] sArraydet = Regex.Split(DetText, "##", RegexOptions.IgnoreCase); //for(int i=0;i< sArraydet.Length;i++) //{ // string s = sArraydet[i]; // for (int j = 0; j < sArraysql.Length; j++) // { // } //} //bool areEqual = sArraysql.OrderBy(x => x).SequenceEqual(sArraydet.OrderBy(x => x)); return areEqual; } static string[] FindNumbers(string str) { Regex regex = new Regex(@"\d+"); MatchCollection matches = regex.Matches(str); string[] numbers = new string[matches.Count]; for (int i = 0; i < matches.Count; i++) { numbers[i] = matches[i].Value; } return numbers; } static string GetNumber(string str) { Regex regex = new Regex(@"\d+"); Match match = regex.Match(str); if (match.Success) { return match.Value; } else { return null; } } public static bool isMatchStr(string SqlText, string DetText) { if ((SqlText == "" || SqlText == null) && (DetText == "" || DetText == null)) { return true; } else { if (SqlText != null && DetText != null) { if (SqlText.Contains("##") && DetText.Contains("##")) { return StrMatch2(SqlText, DetText); } else if(SqlText != "" && DetText != "") { return StrMatch2(SqlText, DetText); } else { return false; } } else { return false; } } } // 计算Levenshtein距离 static int LevenshteinDistance(string string1, string string2) { int[,] dp = new int[string1.Length + 1, string2.Length + 1]; for (int i = 0; i <= string1.Length; i++) dp[i, 0] = i; for (int j = 0; j <= string2.Length; j++) dp[0, j] = j; for (int i = 1; i <= string1.Length; i++) { for (int j = 1; j <= string2.Length; j++) { int cost = string1[i - 1] == string2[j - 1] ? 0 : 1; dp[i, j] = Math.Min(Math.Min(dp[i - 1, j] + 1, dp[i, j - 1] + 1), dp[i - 1, j - 1] + cost); } } return dp[string1.Length, string2.Length]; } } }