using OTSCommon.Model; using OTSIncAReportApp.SysMgrTools; using OTSPeriodicTable; using System; using System.Collections; using System.Collections.Generic; using System.Data; using System.Windows.Forms; namespace OTSIncAReportApp._1_UI.Control_Grids.ParticlesGridDevidePage { public partial class ParticlesGridDevidePageShowConfig : Form { Hashtable languageTable; Language lan; OTS_SysType_ID systype = OTS_SysType_ID.IncA; public ParticlesGridDevidePageShowConfig(OTS_SysType_ID a_systype) { InitializeComponent(); systype = a_systype; } private void ParticlesGridDevidePageShowConfig_Load(object sender, EventArgs e) { InitMyComponent(); #region 国际化语言 lan = new Language(this); languageTable = lan.GetNameTable(this.Name); #endregion } private void btn_xsys_Click(object sender, EventArgs e) { //打开编辑元素列表窗体 OTSPeriodicTable.OTSPeriodicTableForm_Small opts = new OTSPeriodicTable.OTSPeriodicTableForm_Small(); //获取需要显示的元素列表,并转换成元素周期表窗体可接受的格式，传入---------------------- string str_xsys = tb_xsys.Text.Trim(); List list_str = new List(); string[] strs = str_xsys.Split(','); for (int i = 0; i < strs.Length; i++) { list_str.Add(strs[i]); } //清除元素周期表中所有的记录 opts.m_List_Periodic.Clear(); //将该分类下的元素添加到元素周期表窗体的List_periodic中 for (int i = 0; i < strs.Length; i++) { string str_ysm = strs[i]; Periodic ls_periodic = new Periodic(); ls_periodic = CListPeriodic.GetPeriodicByEleName(str_ysm); opts.m_List_Periodic.Add(ls_periodic); } //---------------------------------------------------------------------------------------- opts.StartPosition = FormStartPosition.CenterScreen; opts.ShowDialog(); List PeriodicFH = new List(); for (int j = 0; j < opts.m_List_Periodic.Count; j++) { PeriodicFH.Add(opts.m_List_Periodic[j].Symbol); } PeriodicFH.Sort(delegate (string a, string b) { return ReturnsAtomicNumberByElementName(a).CompareTo(ReturnsAtomicNumberByElementName(b)); });//排序从小到大原子序数 list_str = list_str.FindAll(delegate (string a) { return PeriodicFH.Contains(a); }); PeriodicFH = PeriodicFH.FindAll(delegate (string a) { return !list_str.Contains(a); }); //先清空元素 str_xsys = ""; //然后再将选择的元素，组合起来，返回显示到该窗体上 for (int i = 0; i < list_str.Count; i++) { if (str_xsys == "") { str_xsys = list_str[i]; } else { str_xsys = str_xsys + "," + list_str[i]; } } for (int i = 0; i < PeriodicFH.Count; i++) { if (str_xsys == "") { str_xsys = PeriodicFH[i]; } else { str_xsys = str_xsys + "," + PeriodicFH[i]; } } //再对选择的元素进行显示 tb_xsys.Text = str_xsys; } private void btn_ybcsbc_Click(object sender, EventArgs e) { //保存显示计算项 string[] AttributeName_DefaultComputedColName = new string[] { "RegName", "strValue" }; string[] Value_DefaultComputedColName = new string[] { "DefaultComputedColName", GetShowColumnsListStr() }; bool ret = OTSIncAReportApp.DataOperation.DataAccess.XMLoperate.UpdateByAttribute(Application.StartupPath + RptConfigFile.m_ReportMgrParamFile, AttributeName_DefaultComputedColName, Value_DefaultComputedColName); //保存显示元素信息 string[] AttributeName_ElementsColName = new string[] { "RegName", "strValue" }; string[] Value_ElementsColName = new string[] { "ElementsColName", tb_xsys.Text.Trim() }; ret = OTSIncAReportApp.DataOperation.DataAccess.XMLoperate.UpdateByAttribute(Application.StartupPath + RptConfigFile.m_ReportMgrParamFile, AttributeName_ElementsColName, Value_ElementsColName); this.DialogResult = DialogResult.OK; this.Close(); } private void btn_ybcsqx_Click(object sender, EventArgs e) { this.DialogResult = DialogResult.Cancel; this.Close(); } ///

/// 获取从各checkbox中组合完成的字段 ///

private string GetShowColumnsListStr() { string str_ret = ""; //帧图坐标 if (cb_ParticleCoordinate.Checked == true) { str_ret = str_ret + "ParticleCoordinate" + ","; } //面积 if (cb_Area.Checked == true) { str_ret = str_ret + "Area" + ","; } //等效圆直径 if (cb_EquivalentCircleDiameter.Checked == true) { str_ret = str_ret + "EquivalentCircleDiameter" + ","; } //最长直径 if (cb_MaxDiameter.Checked == true) { str_ret = str_ret + "MaxDiameter" + ","; } //最短直径 if (cb_MinDiameter.Checked == true) { str_ret = str_ret + "MinDiameter" + ","; } //长短直径比 if (cb_DiameterRatio.Checked == true) { str_ret = str_ret + "DiameterRatio" + ","; } //费雷特直径 if (cb_FerretDiameter.Checked == true) { str_ret = str_ret + "FerretDiameter" + ","; } //正交直径 if (cb_PERP.Checked == true) { str_ret = str_ret + "PERP" + ","; } //周长 if (cb_PERI.Checked == true) { str_ret = str_ret + "PERI" + ","; } //内接圆直径 if (cb_INSCR.Checked == true) { str_ret = str_ret + "INSCR" + ","; } //内接圆平均直径 if (cb_MEAN.Checked == true) { str_ret = str_ret + "MEAN" + ","; } //展开长度 if (cb_ELONG.Checked == true) { str_ret = str_ret + "ELONG" + ","; } //展开长度比 if (cb_ASPECT_ELONG.Checked == true) { str_ret = str_ret + "ASPECT_ELONG" + ","; } //朝向角度 if (cb_Orientation.Checked == true) { str_ret = str_ret + "Orientation" + ","; } //导电性 if (cB_Electrical_conductivity.Checked == true) { str_ret = str_ret + "Electrical_conductivity" + ","; } //密度 if (cB_Density.Checked == true) { str_ret = str_ret + "Density" + ","; } //硬度 if (cB_Hardness.Checked == true) { str_ret = str_ret + "Hardness" + ","; } if (cB_XRayDataCount.Checked == true) { str_ret = str_ret + "XRayDataCount" + ","; } if (str_ret.Length > 0) { str_ret = str_ret.Substring(0, str_ret.Length - 1); } return str_ret; } int ReturnsAtomicNumberByElementName(string ElementName) { switch (ElementName) { case "H": return 1; case "He": return 2; case "Li": return 3; case "Be": return 4; case "B": return 5; case "C": return 6; case "N": return 7; case "O": return 8; case "F": return 9; case "Ne": return 10; case "Na": return 11; case "Mg": return 12; case "Al": return 13; case "Si": return 14; case "P": return 15; case "S": return 16; case "Cl": return 17; case "Ar": return 18; case "K": return 19; case "Ca": return 20; case "Sc": return 21; case "Ti": return 22; case "V": return 23; case "Cr": return 24; case "Mn": return 25; case "Fe": return 26; case "Co": return 27; case "Ni": return 28; case "Cu": return 29; case "Zn": return 30; case "Ga": return 31; case "Ge": return 32; case "As": return 33; case "Se": return 34; case "Br": return 35; case "Kr": return 36; case "Rb": return 37; case "Sr": return 38; case "Y": return 39; case "Zr": return 40; case "Nb": return 41; case "Mo": return 42; case "Tc": return 43; case "Ru": return 44; case "Rh": return 45; case "Pd": return 46; case "Ag": return 47; case "Cd": return 48; case "In": return 49; case "Sn": return 50; case "Sb": return 51; case "Te": return 52; case "I": return 53; case "Xe": return 54; case "Cs": return 55; case "Ba": return 56; case "La": return 57; case "Ce": return 58; case "Pr": return 59; case "Nd": return 60; case "Pm": return 61; case "Sm": return 62; case "Eu": return 63; case "Gd": return 64; case "Tb": return 65; case "Dy": return 66; case "Ho": return 67; case "Er": return 68; case "Tm": return 69; case "Yb": return 70; case "Lu": return 71; case "Hf": return 72; case "Ta": return 73; case "W": return 74; case "Re": return 75; case "Os": return 76; case "Ir": return 77; case "Pt": return 78; case "Au": return 79; case "Hq": return 80; case "TI": return 81; case "Pb": return 82; case "Bi": return 83; case "Po": return 84; case "At": return 85; case "Rn": return 86; case "Fr": return 87; case "Ra": return 88; case "Ac": return 89; case "Th": return 90; case "Pa": return 91; case "U": return 92; case "Np": return 93; case "Pu": return 94; case "Am": return 95; case "Cm": return 96; case "Bk": return 97; case "Cf": return 98; case "Es": return 99; case "Fm": return 100; case "Mc": return 101; case "No": return 102; case "Lr": return 103; case "Rf": return 104; case "Db": return 105; case "Sg": return 106; case "Bh": return 107; case "Hs": return 108; case "Mt": return 109; case "Ds": return 110; case "Rg": return 111; case "Unb": return 112; default: return 1000; } } public void InitMyComponent() { string str_DefaultComputedColName = "", str_ElementsColName = ""; DataSet ds = OTSIncAReportApp.DataOperation.DataAccess.XMLoperate.GetXmlData(Application.StartupPath + RptConfigFile.m_ReportMgrParamFile, "XMLData"); DataTable dt = ds.Tables["Member"]; string str_scale = ""; foreach (DataRow element in dt.Rows) { string RegName = element["RegName"].ToString(); if (RegName == "DefaultComputedColName") { str_DefaultComputedColName = element["strValue"].ToString(); } if (RegName == "ElementsColName") { str_ElementsColName = element["strValue"].ToString(); } if (RegName == "Scale") { str_scale = element["strValue"].ToString(); } } //显示元素 tb_xsys.Text = str_ElementsColName; //设置计算显示列 SetShowColumnsListStr(str_DefaultComputedColName); } private void SetShowColumnsListStr(string in_str) { cb_Area.Checked = false; cb_EquivalentCircleDiameter.Checked = false; cb_MaxDiameter.Checked = false; cb_MinDiameter.Checked = false; cb_DiameterRatio.Checked = false; cb_FerretDiameter.Checked = false; cb_PERP.Checked = false; cb_PERI.Checked = false; cb_INSCR.Checked = false; cb_MEAN.Checked = false; cb_ELONG.Checked = false; cb_ASPECT_ELONG.Checked = false; cb_Orientation.Checked = false; cb_ParticleCoordinate.Checked = false; cB_Hardness.Checked = false; cB_Density.Checked = false; cB_Electrical_conductivity.Checked = false; //面积 if (in_str.IndexOf("Area") > -1) { cb_Area.Checked = true; } //等效圆直径 if (in_str.IndexOf("EquivalentCircleDiameter") > -1) { cb_EquivalentCircleDiameter.Checked = true; } //最长直径 if (in_str.IndexOf("MaxDiameter") > -1) { cb_MaxDiameter.Checked = true; } //最短直径 if (in_str.IndexOf("MinDiameter") > -1) { cb_MinDiameter.Checked = true; } //长短直径比 if (in_str.IndexOf("DiameterRatio") > -1) { cb_DiameterRatio.Checked = true; } //费雷特直径 if (in_str.IndexOf("FerretDiameter") > -1) { cb_FerretDiameter.Checked = true; } //正交直径 if (in_str.IndexOf("PERP") > -1) { cb_PERP.Checked = true; } //周长 if (in_str.IndexOf("PERI") > -1) { cb_PERI.Checked = true; } //内接圆直径 if (in_str.IndexOf("INSCR") > -1) { cb_INSCR.Checked = true; } //内接圆平均直径 if (in_str.IndexOf("MEAN") > -1) { cb_MEAN.Checked = true; } //展开长度 if (in_str.IndexOf("ELONG") > -1) { cb_ELONG.Checked = true; } //展开长度比 if (in_str.IndexOf("ASPECT_ELONG") > -1) { cb_ASPECT_ELONG.Checked = true; } //朝向角度 if (in_str.IndexOf("Orientation") > -1) { cb_Orientation.Checked = true; } //帧图坐标 if (in_str.IndexOf("ParticleCoordinate") > -1) { cb_ParticleCoordinate.Checked = true; } if (in_str.IndexOf("XRayDataCount") > -1) { cB_XRayDataCount.Checked = true; } if (systype == OTSCommon.Model.OTS_SysType_ID.CleannessA) { cB_Hardness.Enabled = true; cB_Density.Enabled = true; cB_Electrical_conductivity.Enabled = true; //硬度 if (in_str.IndexOf("Hardness") > -1) { cB_Hardness.Checked = true; } //密度 if (in_str.IndexOf("Density") > -1) { cB_Density.Checked = true; } //导电性 if (in_str.IndexOf("Electrical_conductivity") > -1) { cB_Electrical_conductivity.Checked = true; } } else { cB_Hardness.Enabled = false; cB_Density.Enabled = false; cB_Electrical_conductivity.Enabled = false; } } private void label_help_MouseHover(object sender, EventArgs e) { // 创建the ToolTip ToolTip toolTip1 = new ToolTip(); // 设置显示样式 toolTip1.AutoPopDelay = 7000;//提示信息的可见时间 toolTip1.InitialDelay = 500;//事件触发多久后出现提示 toolTip1.ReshowDelay = 500;//指针从一个控件移向另一个控件时，经过多久才会显示下一个提示框 toolTip1.ShowAlways = true;//是否显示提示框 string str = ""; if (Language.ReadDefaultLanguage().ToString() == "ZH") { str = " 最长直径:颗粒最大卡规直径\n" + "最短直径: 颗粒最小卡规直径\n" + "长短直径比:颗粒长宽比\n" + "正交直径:与Dmax垂直的对应直径\n" + "内接圆平均直径:平均内接圆直径\n" + "内接圆直径:最大内接圆直径"; } else { str = "Dmax:Maximum caliper diameter of particle\n" + "Dmin: Minimum caliper diameter of particle\n" + "Aspect:The aspect ratio of the particle\n" + "Dperp:Corresponding diameter perpendicular to Dmax\n" + "Dmean:Average diameter of the internal circle\n" + "Dinscr:Maximum diameter of the inner circle\n" + "Dequalcircle:Equivalent circular diameter"; } // 设置伴随的对象. toolTip1.SetToolTip(this.label_help, str); } } }