/// <summary>
/// Write the makefile to the given archive
/// </summary>
/// <param name="Writer">The archive to write to</param>
public void Write(BinaryArchiveWriter Writer)
{
Writer.WriteLong(CreateTimeUtc.Ticks);
Writer.WriteString(ToolchainInfo);
Writer.WriteString(ExternalMetadata);
Writer.WriteFileReference(ReceiptFile);
Writer.WriteDirectoryReference(ProjectIntermediateDirectory);
Writer.WriteInt((int)TargetType);
Writer.WriteBool(bDeployAfterCompile);
Writer.WriteBool(bHasProjectScriptPlugin);
Writer.WriteArray(AdditionalArguments, Item => Writer.WriteString(Item));
Writer.WriteArray(PreBuildScripts, Item => Writer.WriteFileReference(Item));
Writer.WriteList(Actions, Action => Action.Write(Writer));
Writer.WriteList(EnvironmentVariables, x => { Writer.WriteString(x.Item1); Writer.WriteString(x.Item2); });
Writer.WriteList(OutputItems, Item => Writer.WriteFileItem(Item));
Writer.WriteDictionary(ModuleNameToOutputItems, k => Writer.WriteString(k), v => Writer.WriteArray(v, e => Writer.WriteFileItem(e)));
Writer.WriteHashSet(HotReloadModuleNames, x => Writer.WriteString(x));
Writer.WriteDictionary(DirectoryToSourceFiles, k => Writer.WriteDirectoryItem(k), v => Writer.WriteArray(v, e => Writer.WriteFileItem(e)));
Writer.WriteHashSet(WorkingSet, x => Writer.WriteFileItem(x));
Writer.WriteHashSet(CandidatesForWorkingSet, x => Writer.WriteFileItem(x));
Writer.WriteList(UObjectModules, e => e.Write(Writer));
Writer.WriteList(UObjectModuleHeaders, x => x.Write(Writer));
Writer.WriteHashSet(PluginFiles, x => Writer.WriteFileItem(x));
Writer.WriteHashSet(AdditionalDependencies, x => Writer.WriteFileItem(x));
}
protected override void WriteDocument(RhinoDoc doc, BinaryArchiveWriter archive, FileWriteOptions options)
{
var dict = new Rhino.Collections.ArchivableDictionary(1, "RigiBodyData");
//If user save during animation, save the shapes at the time when start was pressed
if (!TimePanel.Instance.Restarted || TimePanel.Instance.TrackbarValue != 0)
{
List <RigidBody> copyToAdd = new List <RigidBody>();;
for (int i = 0; i < RigidBodyManager.World.RigidBodies.Count; i++)
{
copyToAdd.Add(RigidBodyManager.DuplicateRigidBody(RigidBodyManager.FramesRigidBodies[0][i], RigidBodyManager.FramesRigidBodies[0][i].IsStatic));
}
dict.Set("rigidBodies", RigidBodyManager.ObjectToByteArray(copyToAdd));
}
else
{
dict.Set("rigidBodies", RigidBodyManager.ObjectToByteArray(RigidBodyManager.RigidBodies));
}
dict.Set("guidList", RigidBodyManager.ObjectToByteArray(RigidBodyManager.GuidList));
dict.Set("geometryList", RigidBodyManager.ObjectToByteArray(RigidBodyManager.GeometryList));
dict.Set("MaxFrameBoxValue", (int)TimePanel.Instance.MaxFrameBoxValue);
dict.Set("worldCount", RigidBodyManager.World.RigidBodies.Count);
archive.WriteDictionary(dict);
}
protected override bool Write(BinaryArchiveWriter archive)
{
// deserialize properties to archivable dictionary
var dict = DeserializeToDictionary();
// write dict to archive
archive.WriteDictionary(dict);
return(!archive.WriteErrorOccured);
}
/// <summary>
/// Saves this action history to disk
/// </summary>
void Save()
{
DirectoryReference.CreateDirectory(Location.Directory);
using (BinaryArchiveWriter Writer = new BinaryArchiveWriter(Location))
{
Writer.WriteInt(CurrentVersion);
Writer.WriteDictionary(OutputItemToCommandLineHash, Key => Writer.WriteFileItem(Key), Value => Writer.WriteFixedSizeByteArray(Value));
}
bModified = false;
}
/// <summary>
/// Called when Rhino is saving a .3dm file to allow the plug-in to save document user data.
/// </summary>
protected override void WriteDocument(RhinoDoc doc, BinaryArchiveWriter archive, FileWriteOptions options)
{
// Write the version of our document data
archive.Write3dmChunkVersion(MAJOR, MINOR);
// Write the string table
StringDocumentDataTable.WriteDocument(archive);
// Write the simple table
SimpleDocumentDataTable.WriteDocument(archive);
// Write the dictionary
archive.WriteDictionary(Dictionary);
}
public override bool SaveObject(RhinoDoc doc, RhinoObject doc_object, ref Transform transform, BinaryArchiveWriter archive)
{
string name = doc_object.Name;
Rhino.Collections.ArchivableDictionary userdata = doc_object.UserDictionary;
userdata.Set("ObjName", name);
archive.WriteDictionary(userdata);
return(!archive.WriteErrorOccured);
}
public bool WriteToArchive(BinaryArchiveWriter archive)
{
archive.Write3dmChunkVersion(1, 0);
//HBObject, orphaned objects
var dic = Serialize();
archive.WriteDictionary(dic);
return(!archive.WriteErrorOccured);
}
protected override void WriteDocument(RhinoDoc doc, BinaryArchiveWriter archive, FileWriteOptions options)
{
ArchivableDictionary dict = new ArchivableDictionary();
int i = 1;
dict.Set("BeamCount", Beams.Count);
dict.Set("CountableUserData", CountableUserData.getCounter());
foreach (Beam beam in Beams)
{
if (beam.GetType() == typeof(Column))
{
Column col = beam as Column;
dict.Set("BeamType" + i, "Column");
dict.Set("ky" + i, col.Ky);
dict.Set("kz" + i, col.Kz);
dict.Set("ColLength" + i, col.Length);
dict.Set("CliConcreteStrenghtClass" + i, beam.CrossSec.ConcreteMaterial.StrengthClass ?? null);
dict.Set("ColumnCalculationSettings1" + i,
col.ColumnCalcSettings.ColumnCalMethod[ColumnCalculationMethod.NominalCurvature1]);
dict.Set("ColumnCalculationSettings2" + i,
col.ColumnCalcSettings.ColumnCalMethod[ColumnCalculationMethod.NominalCurvature2]);
dict.Set("ColumnCalculationSettings3" + i,
col.ColumnCalcSettings.ColumnCalMethod[ColumnCalculationMethod.NominalStiffness1]);
dict.Set("ColumnCalculationSettings4" + i,
col.ColumnCalcSettings.ColumnCalMethod[ColumnCalculationMethod.NominalStiffness2]);
}
else
{
dict.Set("BeamType" + i, "Other");
}
dict.Set("Rh" + i, beam.ClimateCond.RH);
dict.Set("T0" + i, beam.ClimateCond.T0);
dict.Set("T" + i, beam.ClimateCond.T);
dict.Set("BeamName" + i, beam.Name);
dict.Set("Gammac" + i, beam.Gammac);
dict.Set("Gammas" + i, beam.Gammas);
dict.Set("Gammar" + i, beam.Gammar);
dict.Set("Acc" + i, beam.Acc);
dict.Set("CrossSecName" + i, beam.CrossSec.Name);
dict.Set("ConcreteStrenghtClass" + i, beam.CrossSec.ConcreteMaterial.StrengthClass ?? null);
dict.Set("BeamId" + i, beam.CrossSec.Id);
dict.Set("geomLarges" + i, beam.CrossSec.GeometryLargeIds);
dict.Set("reinf" + i, beam.CrossSec.ReinforementIds);
if (beam.CrossSec.GetType() == typeof(RectangleCrossSection))
{
RectangleCrossSection crossSectionTemp = beam.CrossSec as RectangleCrossSection;
dict.Set("CrossSectionType" + i, "Rect");
dict.Set("NoReinfH" + i, crossSectionTemp.NoReinfH);
dict.Set("NoReinfW" + i, crossSectionTemp.NoReinfW);
dict.Set("ConcreteCover" + i, crossSectionTemp.ConcreteCover);
dict.Set("ConcreteWidth" + i, crossSectionTemp.ConcreteWidth);
dict.Set("ConcreteHeight" + i, crossSectionTemp.ConcreteHeight);
dict.Set("HasSteelShell" + i, crossSectionTemp.HasSteelShell);
dict.Set("SteelThickness" + i, crossSectionTemp.SteelThickness);
dict.Set("MainDiameter" + i, crossSectionTemp.MainD);
dict.Set("StirrupDiameter" + i, crossSectionTemp.StirrupD);
dict.Set("SteelMaterialName" + i, crossSectionTemp.SteelMaterial.StrengthClass ?? null);
dict.Set("ReinforcementMaterialName" + i, crossSectionTemp.ReinfMaterial.StrengthClass ?? null);
dict.Set("Rotation" + i, crossSectionTemp.Rotation);
}
else if (beam.CrossSec.GetType() == typeof(CrossSection))
{
dict.Set("CrossSectionType" + i, "Basic");
}
else if (beam.CrossSec.GetType() == typeof(CircleCrossSection))
{
CircleCrossSection crossSectionTemp = beam.CrossSec as CircleCrossSection;
dict.Set("CrossSectionType" + i, "Rect");
dict.Set("NoReinf" + i, crossSectionTemp.NoReinf);
dict.Set("ConcreteCover" + i, crossSectionTemp.ConcreteCover);
dict.Set("ConcreteDiameter" + i, crossSectionTemp.ConcreteDiameter);
dict.Set("HasSteelShell" + i, crossSectionTemp.HasSteelShell);
dict.Set("SteelThickness" + i, crossSectionTemp.SteelThickness);
dict.Set("MainDiameter" + i, crossSectionTemp.MainD);
dict.Set("StirrupDiameter" + i, crossSectionTemp.StirrupD);
dict.Set("SteelMaterialName" + i, crossSectionTemp.SteelMaterial.StrengthClass ?? null);
dict.Set("ReinforcementMaterialName" + i, crossSectionTemp.ReinfMaterial.StrengthClass ?? null);
}
int k = 1;
dict.Set("NumberOfLoadCases" + i, beam.LoadCases.Count);
foreach (LoadCase loadCase in beam.LoadCases)
{
if (loadCase.GetType() == typeof(ColLoadCase))
{
ColLoadCase clc = (ColLoadCase)loadCase;
dict.Set("LoadCaseType" + i + "s" + k, "ColLoadCase");
dict.Set("N_Ed" + i + "s" + k, clc.N_Ed);
dict.Set("M_EzTop" + i + "s" + k, clc.M_EzTop);
dict.Set("M_EzBottom" + i + "s" + k, clc.M_EzBottom);
dict.Set("M_EyTop" + i + "s" + k, clc.M_EyTop);
dict.Set("M_EyBottom" + i + "s" + k, clc.M_EyBottom);
dict.Set("Ratio" + i + "s" + k, clc.Ratio);
dict.Set("CCurve" + i + "s" + k, clc.Ccurve);
}
else if (loadCase.GetType() == typeof(SimpleLoadCase))
{
SimpleLoadCase slc = (SimpleLoadCase)loadCase;
dict.Set("LoadCaseType" + i + "s" + k, "SimpleLoadCase");
dict.Set("N_Ed" + i + "s" + k, slc.N_Ed);
dict.Set("M_Edy" + i + "s" + k, slc.M_Edy);
dict.Set("M_Edz" + i + "s" + k, slc.M_Edz);
}
dict.Set("LoadCaseName" + i + "s" + k, loadCase.Name);
switch (loadCase.Ls)
{
case LimitState.Ultimate:
dict.Set("LimitState" + i + "s" + k, 0); break;
case LimitState.Service_CH:
dict.Set("LimitState" + i + "s" + k, 1); break;
case LimitState.Service_FR:
dict.Set("LimitState" + i + "s" + k, 2); break;
case LimitState.Service_QP:
dict.Set("LimitState" + i + "s" + k, 3); break;
default:
break;
}
k++;
}
i++;
}
if (CurrentBeam != null)
{
dict.Set("currentBeamId", CurrentBeam.Id);
}
else
{
dict.Set("currentBeamId", -1);
}
archive.WriteDictionary(dict);
}
/// <summary>
/// Write the dependencies object to disk
/// </summary>
/// <param name="Writer">Archive to write to</param>
public void Write(BinaryArchiveWriter Writer)
{
Writer.WriteDictionary(Dependencies, Key => Key.Write(Writer), Value => Writer.WriteList(Value, x => Writer.WriteString(x)));
}
/// <summary>
/// Called when Rhino is saving a .3dm file to allow the plug-in to save document user data.
/// </summary>
protected override void WriteDocument(RhinoDoc doc, BinaryArchiveWriter archive, FileWriteOptions options)
{
archive.Write3dmChunkVersion(MAJOR, MINOR);
archive.WriteDictionary(m_dictionary);
}
