/// <summary> /// Read an XFile and create the objects defined in it /// </summary> /// <param name="filespec"></param> public void Load(string filespec) { Debug.WriteLine("Loading XFile: "+filespec); manager = new XFileManager(); manager.RegisterDefaultTemplates(); // register standard templates BEFORE opening file try { xfile = manager.FromFile(filespec); // create an XFile object from file } catch (GraphicsException e) { if (e.ErrorCode == (int)XFileErrorCodes.ParseError) Debug.WriteLine("ERROR in CellLoader.Load() - Couldn't parse Xfile "+filespec); else Debug.WriteLine("ERROR in CellLoader.Load() - Failed to load "+filespec); throw; } manager.RegisterXFileTemplates(xfile); // register any custom templates in the file //manager.RegisterTemplates(data); // register any templates defined in my code for (int i=0; i<xfile.NumberChildren; i++) // iterate through the root-level objects { using (XFileData rootObject = xfile.GetChild(i)) { LoadDataObject(rootObject,0,null,null); } } // Dispose of everything xfile.Dispose(); manager.Dispose(); }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { if ((this.AxisX == null) || (this.AxisY == null)) { throw new InvalidOperationException("Both XAxis and YAxis cannot be null"); } using (writer.WriteElement("lineChart", null, "c")) { writer.WriteLeafElementWithAttribute("grouping", null, "c", "val", this.GetChartGrouping()); writer.WriteLeafElementWithAttribute("varyColors", null, "c", "val", this.VaryColors ? "1" : "0"); using (List <IExcelLineSeries> .Enumerator enumerator = this.LineSeries.GetEnumerator()) { while (enumerator.MoveNext()) { (enumerator.Current as ExcelLineSeries).WriteXml(writer, mFolder, chartFile); } } if (this.DataLabels != null) { (this.DataLabels as ExcelDataLabels).WriteXml(writer, mFolder, chartFile); } if (this.DropLine != null) { this.DropLine.WriteXml(writer, mFolder, chartFile, "dropLines"); } if (this.HighLowLine != null) { this.HighLowLine.WriteXml(writer, mFolder, chartFile, "hiLowLines"); } if (this.UpDownBars != null) { this.UpDownBars.WriteXml(writer, mFolder, chartFile); } writer.WriteLeafElementWithAttribute("marker", null, "c", "val", this.ShowMarkers() ? "1" : "0"); writer.WriteLeafElementWithAttribute("smooth", null, "c", "val", this.Smoothing ? "1" : "0"); if (this.AxisX != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisX.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisY != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisY.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } } }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { if (this._literalDatas.Count > 0) { writer.WriteStartElement("c", "strLit", null); writer.WriteStartElement("c", "ptCount", null); writer.WriteAttributeString("val", null, ((int)this._literalDatas.Count).ToString((IFormatProvider)CultureInfo.InvariantCulture)); writer.WriteEndElement(); for (int i = 0; i < this._literalDatas.Count; i++) { writer.WriteStartElement("c", "pt", null); writer.WriteAttributeString("idx", null, ((int)i).ToString((IFormatProvider)CultureInfo.InvariantCulture)); writer.WriteElementString("c", "v", null, this._literalDatas[i]); writer.WriteEndElement(); } writer.WriteEndElement(); } }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile, string root) { using (writer.WriteElement(root, null, "c")) { using (writer.WriteElement("thickness", null, "c")) { writer.WriteAttributeString("val", ((int)this.Thickness).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.Format != null) { (this.Format as ExcelChartFormat).WriteXml(writer, mFolder, chartFile); } if (this.PictureOptions != null) { this.PictureOptions.WriteXml(writer, mFolder, chartFile); } } }
internal XSharpSearchLocation(XFile file, XSourceMemberSymbol member, ITextSnapshot snapshot, int lineNumber = 0, int position = 0, string currentNs = "") { Member = member; Snapshot = snapshot; if (member != null) { File = Member.File; } else { File = file; } LineNumber = lineNumber; Position = position; CurrentNamespace = currentNs; Usings = GetUsings(); }
public XSharpOutliningTagger(ITextBuffer buffer, IClassifierAggregatorService AggregatorFactory, IClassificationTypeRegistryService registry) { this.buffer = buffer; if (buffer.Properties.ContainsProperty(typeof(XFile))) { _file = buffer.GetFile(); } var classifier = buffer.GetClassifier(); if (classifier == null) { // should not happen we checked before we created the class return; } this.buffer.Properties.AddProperty(typeof(XSharpOutliningTagger), this); xsharpRegionStartType = registry.GetClassificationType(ColorizerConstants.XSharpRegionStartFormat); xsharpRegionStopType = registry.GetClassificationType(ColorizerConstants.XSharpRegionStopFormat); }
//returns Type internal string GetItemPage(Type type, string code) { XFile tableFile = this.OpenFileOrCreate(type.FullName + ".xtab"); foreach (var file in tableFile.Pages().Select(s => s.Attribute("file").Value)) { XFile pageFile = this.OpenFileOrCreate(file); if (pageFile.Rows().Where(delegate(XElement s) { XAttribute sa = s.Attribute("code"); return(null != sa && sa.Value == code); }).Any()) { return(file.Replace(".xpag", "")); } } return(null); }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { using (writer.WriteElement("p", null, "a")) { using (writer.WriteElement("pPr", null, "a")) { using (writer.WriteElement("defRPr", null, "a")) { if (this.FontSize.HasValue && ((this.FontSize.Value - 1.0) > 0.0)) { int num = (int)Math.Ceiling((double)(this.FontSize.Value * 100.0)); writer.WriteAttributeString("sz", ((int)num).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.Bold.HasValue) { writer.WriteAttributeString("b", this.Bold.Value ? "1" : "0"); } if (this.Italics.HasValue) { writer.WriteAttributeString("i", this.Italics.Value ? "1" : "0"); } else { writer.WriteAttributeString("i", "0"); } if (this.FillFormat != null) { this.FillFormat.WriteXml(writer, mFolder, chartFile); } this.WriteFont(writer, "latin", this.LatinFontFamily); this.WriteFont(writer, "ea", this.EastAsianFontFamily); this.WriteFont(writer, "cs", this.ComplexFontFamily); this.WriteFont(writer, "sym", this.SymbolFontFamily); } } using (List <TextRun> .Enumerator enumerator = this.TextRuns.GetEnumerator()) { while (enumerator.MoveNext()) { enumerator.Current.WriteXml(writer, mFolder, chartFile); } } } }
internal void ReadXml(XElement node, MemoryFolder mFolder, XFile xFile) { foreach (XElement element in node.Elements()) { if (element.Name.LocalName == "custUnit") { this.CustomDisplayUnit = element.GetAttributeValueOrDefaultOfDoubleType("val", 0.0); } else if (element.Name.LocalName == "builtInUnit") { BuiltInDisplayUnitValue hundreds = BuiltInDisplayUnitValue.Hundreds; Enum.TryParse <BuiltInDisplayUnitValue>(element.GetAttributeValueOrDefaultOfStringType("val", "hundreds"), true, out hundreds); this.BuiltInDisplayUnit = hundreds; } else if (element.Name.LocalName == "dispUnitsLbl") { foreach (XElement element2 in element.Elements()) { if (element2.Name.LocalName == "layout") { Dt.Xls.Chart.Layout layout = new Dt.Xls.Chart.Layout(); layout.ReadXml(element2, mFolder, xFile); this.Layout = layout; } else if (element2.Name.LocalName == "tx") { foreach (XElement element3 in element.Elements()) { if (element3.Name.LocalName == "rich") { Dt.Xls.Chart.RichText text = new Dt.Xls.Chart.RichText(); text.ReadXml(element3, mFolder, xFile); this.RichText = text; } else if (element3.Name.LocalName == "strRef") { this.TextFormula = element3.GetChildElementValue("f"); } } } } } } }
internal void ReadXml(XElement node, MemoryFolder mFolder, XFile xFile) { foreach (XElement element in node.Elements()) { if (element.Name.LocalName == "grouping") { this.ChartType = this.GetChartType(element.GetAttributeValueOrDefaultOfStringType("val", "standard")); } else if (element.Name.LocalName == "dLbls") { ExcelDataLabels labels = new ExcelDataLabels(); labels.ReadXml(element, mFolder, xFile); this.DataLabels = labels; } else if (element.Name.LocalName == "varyColors") { this.VaryColors = element.GetAttributeValueOrDefaultOfBooleanType("val", true); } else if (element.Name.LocalName == "ser") { ExcelAreaSeries series = new ExcelAreaSeries(); series.ReadXml(element, mFolder, xFile); this.AreaSeries.Add(series); } else if (element.Name.LocalName == "axId") { int num = element.GetAttributeValueOrDefaultOfInt32Type("val", 0); if (!this.XAxisID.HasValue) { this.XAxisID = new int?(num); } else if (!this.YAxisID.HasValue) { this.YAxisID = new int?(num); } } else if (element.Name.LocalName == "dropLines") { this.DropLine = new ExcelChartLines(); this.DropLine.ReadXml(element, mFolder, xFile); } } }
public void SortShouldCreateDestinationFile() { // arrange const string FileName = "TestFile3.txt"; const string DestinationFile = "SortedFile3.txt"; var options = new XFileGenerationOptions { FileName = FileName, Strings = Strings, MinNumber = MinNumber, MaxNumber = MaxNumber, FileSize = FileSize }; var xFile = new XFile(); xFile.Generate(options); // act xFile.Sort(FileName, DestinationFile); // assert Assert.IsTrue(File.Exists(DestinationFile)); }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { if (((this.AxisX == null) || (this.AxisY == null)) || (this.AxisZ == null)) { throw new InvalidOperationException("Both XAxis, YAxis and ZAxis cannot be null"); } using (writer.WriteElement("line3DChart", null, "c")) { writer.WriteLeafElementWithAttribute("grouping", null, "c", "val", "standard"); writer.WriteLeafElementWithAttribute("varyColors", null, "c", "val", this.VaryColors ? "1" : "0"); using (List <IExcelLineSeries> .Enumerator enumerator = this.LineSeries.GetEnumerator()) { while (enumerator.MoveNext()) { (enumerator.Current as ExcelLineSeries).WriteXml(writer, mFolder, chartFile); } } if (this.DataLabels != null) { (this.DataLabels as ExcelDataLabels).WriteXml(writer, mFolder, chartFile); } if (this.DropLine != null) { this.DropLine.WriteXml(writer, mFolder, chartFile, "dropLines"); } if (this.GapDepth != 150) { writer.WriteLeafElementWithAttribute("gapDepth", null, "c", "val", ((int)this.GapDepth).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisX != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisX.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisY != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisY.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisZ != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisZ.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } } }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { writer.WriteStartElement("c", "title", null); if (this.RichTextTitle != null) { using (writer.WriteElement("tx", null, "c")) { this.RichTextTitle.WriteXml(writer, mFolder, chartFile); goto Label_00B8; } } if (!string.IsNullOrWhiteSpace(this.TitleFormula)) { using (writer.WriteElement("tx", null, "c")) { using (writer.WriteElement("strRef", null, "c")) { string titleFormula = this.TitleFormula; if (ParsingContext.ReferenceStyle == ExcelReferenceStyle.R1C1) { titleFormula = ParsingContext.ConvertR1C1FormulaToA1Formula(titleFormula, 0, 0); } writer.WriteElementString("c", "f", null, titleFormula); } } } Label_00B8: if (this.Layout != null) { this.Layout.WriteXml(writer, mFolder, chartFile); } writer.WriteLeafElementWithAttribute("overlay", null, "c", "val", this.Overlay ? "1" : "0"); if (this.ShapeFormat != null) { (this.ShapeFormat as ExcelChartFormat).WriteXml(writer, mFolder, chartFile); } if (this.TextForamt != null) { (this.TextForamt as ExcelTextFormat).WriteXml(writer, mFolder, chartFile); } writer.WriteEndElement(); }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { if ((this.AxisX == null) || (this.AxisY == null)) { throw new InvalidOperationException("Both XAxis and YAxis cannot be null"); } using (writer.WriteElement("bubbleChart", null, "c")) { writer.WriteLeafElementWithAttribute("varyColors", null, "c", "val", this.VaryColors ? "1" : "0"); using (List <ExcelBubbleSeries> .Enumerator enumerator = this.BubbleSeries.GetEnumerator()) { while (enumerator.MoveNext()) { enumerator.Current.WriteXml(writer, mFolder, chartFile); } } if (this.DataLabels != null) { (this.DataLabels as ExcelDataLabels).WriteXml(writer, mFolder, chartFile); } if (this.ChartType == ExcelChartType.Bubble) { writer.WriteLeafElementWithAttribute("bubble3D", null, "c", "val", "0"); } writer.WriteLeafElementWithAttribute("bubbleScale", null, "c", "val", ((int)this.BubbleScale).ToString((IFormatProvider)CultureInfo.InvariantCulture)); writer.WriteLeafElementWithAttribute("showNegBubbles", null, "c", "val", this.ShowNegativeBubbles ? "1" : "0"); string str = "area"; if (this.SizeRepresents == BubbleSizeRepresents.Width) { str = "w"; } writer.WriteLeafElementWithAttribute("sizeRepresents", null, "c", "val", str); if (this.AxisX != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisX.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisY != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisY.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } } }
public void LoadStyles(string filename, bool overwrite) { XFile file = XFileEx.FromPath(filename); DefinitionFile def = DefinitionFile.LoadFile(file); if (def.Class != typeof(StylesContainer)) { throw new Exception(String.Format("Invalid style sheet.")); } Dictionary <string, DefinitionFile> dict = def["Styles"] as Dictionary <string, DefinitionFile>; if (dict != null) { foreach (var el in dict) { RegisterStyle(el.Key, el.Value, overwrite); } } }
internal void ReadXml(XElement node, MemoryFolder mFolder, XFile xFile) { foreach (XElement element in node.Elements()) { if (element.Name.LocalName == "delete") { this.Delete = element.GetAttributeValueOrDefaultOfBooleanType("val", true); } else if (element.Name.LocalName == "idx") { this.Index = element.GetAttributeValueOrDefaultOfInt32Type("val", 0); } else if ((element.Name.LocalName != "extLst") && (element.Name.LocalName == "txPr")) { ExcelTextFormat format = new ExcelTextFormat(); format.ReadXml(element, mFolder, xFile); this.TextFormat = format; } } }
public ActionResult ListFile(CommonFilterData filter) { var vm = CreateViewData <VMXFileList>(); switch (filter.Action) { case "trash": var msg = XFile.DeleteByID(filter.ObjIDList.ToArray()); if (!msg.Error) { return(ListFile(string.Format("Items with id [{0}] have been deleted!", String.Join(",", filter.ObjIDList)))); } vm.Msg = msg.Body; vm.Error = msg.Error; break; } vm.FileList = XFile.ListAllData(); return(View(vm)); }
public XSharpDropDownClient(IVsDropdownBarManager manager, XFile file) { _manager = manager; _textViews = new Dictionary <ITextView, ITextView>(); _file = file; if (file != null) { _file.ContentsChanged += _file_ContentsChanged; } _types = new List <XDropDownMember>(); _members = new List <XDropDownMember>(); _saveSettings(); _lastLine = 0; _relatedFiles = new List <string>(); _lastFileChanged = DateTime.MinValue; ThreadHelper.JoinableTaskFactory.Run(async delegate { await RefreshDropDownAsync(needsUI: false); }); }
internal void ReadXml(XElement node, MemoryFolder mFolder, XFile xFile) { foreach (XElement element in node.Elements()) { if (element.Name.LocalName == "rPr") { int num = element.GetAttributeValueOrDefaultOfInt32Type("sz", -1); if ((num >= 100) && (num <= 0x61a80)) { this.FontSize = new double?(((double)num) / 100.0); } foreach (XAttribute attribute in element.Attributes()) { if (attribute.Name.LocalName == "b") { this.Bold = new bool?(element.GetAttributeValueOrDefaultOfBooleanType("b", true)); } if (attribute.Name.LocalName == "i") { this.Italics = new bool?(element.GetAttributeValueOrDefaultOfBooleanType("i", true)); } } using (IEnumerator <XElement> enumerator3 = element.Elements().GetEnumerator()) { while (enumerator3.MoveNext()) { IFillFormat format = enumerator3.Current.ReadFillFormat(mFolder, xFile); if (format != null) { this.FillFormat = format; } } continue; } } if (element.Name.LocalName == "t") { this.Text = element.Value; } } }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { writer.WriteStartElement("c", "manualLayout", null); if (this.Target != ExcelLayoutTarget.Outer) { this.WriteElement(writer, "c", "layoutTarget", "val", "inner"); } if (this.LeftMode != ExcelLayoutMode.Factor) { this.WriteElement(writer, "c", "xMode", "val", "edge"); } if (this.TopMode != ExcelLayoutMode.Factor) { this.WriteElement(writer, "c", "yMode", "val", "edge"); } if (this.WidthMode != ExcelLayoutMode.Factor) { this.WriteElement(writer, "c", "wMode", "val", "edge"); } if (this.HeightMode != ExcelLayoutMode.Factor) { this.WriteElement(writer, "c", "hMode", "val", "edge"); } if (this.Left >= 0.0) { this.WriteElement(writer, "c", "x", "val", ((double)this.Left).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.Top >= 0.0) { this.WriteElement(writer, "c", "y", "val", ((double)this.Top).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (!this.Width.IsZero()) { this.WriteElement(writer, "c", "w", "val", ((double)this.Width).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (!this.Height.IsZero()) { this.WriteElement(writer, "c", "h", "val", ((double)this.Height).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } writer.WriteEndElement(); }
internal void ReadXml(XElement node, MemoryFolder mFolder, XFile xFile) { foreach (XElement element in node.Elements()) { if (element.Name.LocalName == "varyColors") { this.VaryColors = element.GetAttributeValueOrDefaultOfBooleanType("val", true); } else if (element.Name.LocalName == "ser") { ExcelPieSeries series = new ExcelPieSeries(); series.ReadXml(element, mFolder, xFile); this.PieSeries.Add(series); } else if (element.Name.LocalName == "dLbls") { ExcelDataLabels labels = new ExcelDataLabels(); labels.ReadXml(element, mFolder, xFile); this.DataLabels = labels; } else if (element.Name.LocalName == "firstSliceAng") { this.FirstSliceAngle = element.GetAttributeValueOrDefaultOfInt32Type("val", 0); } } bool flag = true; if (this.PieSeries.Count > 0) { int explosion = this.PieSeries[0].Explosion; foreach (IExcelPieSeries series2 in this.PieSeries) { if ((series2.Explosion == 0) || (series2.Explosion != explosion)) { flag = false; break; } } } this.ChartType = flag ? ExcelChartType.ExplodedPie : ExcelChartType.Pie; }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { if ((this.AxisX == null) || (this.AxisY == null)) { throw new InvalidOperationException("Both XAxis and YAxis cannot be null"); } writer.WriteStartElement("c", "areaChart", null); string str = "standard"; if (this.ChartType == ExcelChartType.AreaStacked) { str = "stacked"; } else if (this.ChartType == ExcelChartType.AreaStacked100Percent) { str = "percentStacked"; } writer.WriteLeafElementWithAttribute("grouping", null, "c", "val", str); writer.WriteLeafElementWithAttribute("varyColors", null, "c", "val", this.VaryColors ? "1" : "0"); foreach (ExcelAreaSeries series in this.AreaSeries) { series.WriteXml(writer, mFolder, chartFile); } if (this.DataLabels != null) { (this.DataLabels as ExcelDataLabels).WriteXml(writer, mFolder, chartFile); } if (this.DropLine != null) { this.DropLine.WriteXml(writer, mFolder, chartFile, "dropLines"); } if (this.AxisX != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisX.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisY != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisY.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } writer.WriteEndElement(); }
public void WriteToCSV(string fpath) { using (StreamWriter sw = new StreamWriter(fpath)) { var headers = new List <string> { "unit_mix", "typology", "seismicity", "number_of_stories", "drift_limit", "gross_square_feet", "total_structural_shear_wall_cost", "cost_per_square_foot", "meets_wall_design_limit", "meets_drift_limit" }; var headerString = XFile.CreateCSVString(headers); sw.WriteLine(headerString); var items = new List <string> { RandomizedBuilding.UnitMix.Description, RandomizedBuilding.Typology.Description, RandomizedBuilding.Seismicity.Description, RandomizedBuilding.NumberOfStories.ToString(), RandomizedBuilding.DriftLimit.ToString(), GrossSquareFeet.ToString(), TotalStructuralShearWallCost.ToString(), (TotalStructuralShearWallCost / GrossSquareFeet).ToString(), MeetsWallDesignLimit.ToString(), MeetsDriftLimit.ToString() }; var csvString = XFile.CreateCSVString(items); sw.WriteLine(csvString); } }
/// <summary> /// Read an XFile and create the objects defined in it, /// i.e. the frame hierarchy and Cytoplasm meshes. /// The animationSet objects in the X file are used to set joint limits in the frames /// </summary> /// <param name="group">Group that cell belongs to (i.e. DLL and folder name)</param> /// <param name="name">Cell type (i.e. filename minus extension, and CellType-derived class name)</param> /// <param name="variantName">NAME of the variant (i.e. name of the .X file)</param> /// <returns>The root frame of the loaded hierarchy</returns> public static JointFrame Load(string group, string type, string variantName) { CellLoader.folder = "cells" + "\\" + group + "\\" + type; // store subfolder name so that textures can be found string fsp = FileResource.Fsp(CellLoader.folder, variantName + ".X"); // .X file will be ../cells/group/type/variant.x // Debug.WriteLine("Loading XFile: "+fsp); filespec = fsp; manager = new XFileManager(); manager.RegisterDefaultTemplates(); // register standard templates BEFORE opening file try { xfile = manager.FromFile(filespec); // create an XFile object from file } catch (GraphicsException e) { if (e.ErrorCode == (int)XFileErrorCodes.ParseError) throw new SDKException("ERROR in CellLoader.Load() - Couldn't parse Xfile "+filespec); else throw new SDKException("ERROR in CellLoader.Load() - Failed to load " + filespec); } manager.RegisterXFileTemplates(xfile); // register any custom templates in the file //////// RegisterCustomTemplates(); // register any templates in this code for (int i=0; i<xfile.NumberChildren; i++) // iterate through the root-level objects { using (XFileData rootObject = xfile.GetChild(i)) { LoadRootObject(rootObject); } } // Dispose of everything xfile.Dispose(); manager.Dispose(); // return the completed hierarchy return rootFrame; }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { if ((this.AxisX == null) || (this.AxisY == null)) { throw new InvalidOperationException("Both XAxis and YAxis cannot be null"); } writer.WriteStartElement("c", "radarChart", null); string str = "standard"; if (this.ChartType == ExcelChartType.Radar) { str = "standard"; } else if (this.ChartType == ExcelChartType.RadarWithMarkers) { str = "marker"; } else if (this.ChartType == ExcelChartType.FilledRadar) { str = "filled"; } writer.WriteLeafElementWithAttribute("radarStyle", null, "c", "val", str); writer.WriteLeafElementWithAttribute("varyColors", null, "c", "val", this.VaryColors ? "1" : "0"); foreach (ExcelRadarSeries series in this.RadarSeries) { series.WriteXml(writer, mFolder, chartFile); } if (this.DataLabels != null) { (this.DataLabels as ExcelDataLabels).WriteXml(writer, mFolder, chartFile); } if (this.AxisX != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisX.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisY != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisY.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } writer.WriteEndElement(); }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { using (writer.WriteElement("upDownBars", null, "c")) { writer.WriteLeafElementWithAttribute("gapWidth", null, "c", "val", ((int)this.GapWidth).ToString((IFormatProvider)CultureInfo.InvariantCulture)); using (writer.WriteElement("upBars", null, "c")) { if (this.UpBars != null) { (this.UpBars as ExcelChartFormat).WriteXml(writer, mFolder, chartFile); } } using (writer.WriteElement("downBars", null, "c")) { if (this.DownBars != null) { (this.DownBars as ExcelChartFormat).WriteXml(writer, mFolder, chartFile); } } } }
public async UniTask DownloadFile(string url, string save_path, int timeout) { XFile.DeleteIfExists(save_path); var req = UnityWebRequest.Get(url); req.timeout = timeout; req.downloadHandler = new DownloadHandlerVDisk(save_path); await req.SendWebRequest(); if (req.isNetworkError || req.isHttpError) { if (req.responseCode == 404) { throw new FileNotFoundException("file not found from web :" + url, url); } else { throw new DownloadNetworkException($"[{req.responseCode}]Failed to download file from web: {url} --> {req.error}", url, req.error, req.responseCode); } } }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { using (writer.WriteElement("dispUnits", null, "c")) { if (this.IsCustomDisplayUnit && (this.CustomDisplayUnit > 0.0)) { writer.WriteLeafElementWithAttribute("custUnit", null, "c", "val", ((double)this.CustomDisplayUnit).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } else if (this.BuiltInDisplayUnit != BuiltInDisplayUnitValue.None) { writer.WriteLeafElementWithAttribute("builtInUnit", null, "c", "val", this.BuiltInDisplayUnit.ToString().ToCamelCase()); } if (((this.Layout != null) || !string.IsNullOrWhiteSpace(this.TextFormula)) || (this.RichText != null)) { using (writer.WriteElement("dispUnitsLbl", null, "c")) { if (this.Layout != null) { this.Layout.WriteXml(writer, mFolder, chartFile); } if (this.RichText != null) { using (writer.WriteElement("tx", null, "c")) { this.RichText.WriteXml(writer, mFolder, chartFile); return; } } if (!string.IsNullOrWhiteSpace(this.TextFormula)) { writer.WriteStartElement("c", "tx", null); writer.WriteStartElement("c", "strRef", null); writer.WriteElementString("c", "f", null, this.TextFormula); writer.WriteEndElement(); writer.WriteEndElement(); } } } } }
internal void ReadXml(XElement node, MemoryFolder mFolder, XFile xFile) { foreach (XElement element in node.Elements()) { if (element.Name.LocalName == "bubble3D") { this.IsBubble3D = element.GetAttributeValueOrDefaultOfBooleanType("val", true); } else if (element.Name.LocalName == "idx") { this.Index = element.GetAttributeValueOrDefaultOfInt32Type("val", 0); } else if (element.Name.LocalName == "explosion") { this.Explosion = new int?(element.GetAttributeValueOrDefaultOfInt32Type("val", 0)); } else if (element.Name.LocalName == "invertIfNegative") { this.InvertIfNegative = element.GetAttributeValueOrDefaultOfBooleanType("val", true); } else if (element.Name.LocalName == "marker") { ExcelDataMarker marker = new ExcelDataMarker(); marker.ReadXml(element, mFolder, xFile); this.Marker = marker; } else if (element.Name.LocalName == "spPr") { ExcelChartFormat format = new ExcelChartFormat(); format.ReadXml(element, mFolder, xFile); this.DataPointFormat = format; } else if (element.Name.LocalName == "pictureOptions") { Dt.Xls.Chart.PictureOptions options = new Dt.Xls.Chart.PictureOptions(); options.ReadXml(element, mFolder, xFile); this.PictureOptions = options; } } }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { if ((this.AxisX == null) || (this.AxisY == null)) { throw new InvalidOperationException("Both XAxis and YAxis cannot be null"); } using (writer.WriteElement("surfaceChart", null, "c")) { writer.WriteLeafElementWithAttribute("wireframe", null, "c", "val", (this.ChartType == ExcelChartType.SurfaceViewedAboveWireFrame) ? "1" : "0"); using (List <ExcelSurfaceSeries> .Enumerator enumerator = this.SurfaceSeries.GetEnumerator()) { while (enumerator.MoveNext()) { enumerator.Current.WriteXml(writer, mFolder, chartFile); } } using (writer.WriteElement("bandFmts", null, "c")) { foreach (int num in this.BandFormats) { using (writer.WriteElement("bandFmt", null, "c")) { writer.WriteLeafElementWithAttribute("idx", null, "c", "val", ((int)num).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } } } if (this.AxisX != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisX.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisY != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisY.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.AxisZ != null) { writer.WriteLeafElementWithAttribute("axId", null, "c", "val", ((int)this.AxisZ.Id).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } } }
internal void ReadXml(XElement node, MemoryFolder mFolder, XFile file) { foreach (XElement element in node.Elements()) { if (element.Name.LocalName == "applyToFront") { this.ApplyToFront = element.GetAttributeValueOrDefaultOfBooleanType("val", true); } else if (element.Name.LocalName == "applyToEnd") { this.ApplyToEnd = element.GetAttributeValueOrDefaultOfBooleanType("val", true); } else if (element.Name.LocalName == "applyToSides") { this.ApplyToSides = element.GetAttributeValueOrDefaultOfBooleanType("val", true); } else if (element.Name.LocalName == "pictureFormat") { switch (element.GetAttributeValueOrDefaultOfStringType("val", "stretch")) { case "stretch": this.PictureFormat = Dt.Xls.Chart.PictureFormat.Stretch; break; case "stack": this.PictureFormat = Dt.Xls.Chart.PictureFormat.Stack; break; case "stackScale": this.PictureFormat = Dt.Xls.Chart.PictureFormat.StackAndScale; break; } } else if (element.Name.LocalName == "pictureStackUnit") { this.PictureStackUnit = element.GetAttributeValueOrDefaultOfDoubleType("val", 1.0); } } }
internal void WriteXml(XmlWriter writer, MemoryFolder mFolder, XFile chartFile) { using (writer.WriteElement("view3D", null, "c")) { writer.WriteLeafElementWithAttribute("rotX", null, "c", "val", ((double)this.RotationY).ToString((IFormatProvider)CultureInfo.InvariantCulture)); writer.WriteLeafElementWithAttribute("rotY", null, "c", "val", ((double)this.RotationX).ToString((IFormatProvider)CultureInfo.InvariantCulture)); writer.WriteLeafElementWithAttribute("rAngAx", null, "c", "val", this.RightAngleAxes ? "1" : "0"); if (this.perspective != 15.0) { int num = (int)(perspective * 2.0); writer.WriteLeafElementWithAttribute("perspective", null, "c", "val", ((int)num).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.HeightPercent != 100.0) { writer.WriteLeafElementWithAttribute("hPercent", null, "c", "val", ((double)this.HeightPercent).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } if (this.DepthPercent != 100.0) { writer.WriteLeafElementWithAttribute("depthPercent", null, "c", "val", ((double)this.DepthPercent).ToString((IFormatProvider)CultureInfo.InvariantCulture)); } } }