/// <summary>
/// Initializes a new instance of the <see cref="Operation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
protected Operation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
editDeserializer.CurrentEdit = this;
m_Session = editDeserializer.MapModel.LastSession;
Debug.Assert(m_Session != null);
}
/// <summary>
/// Initializes a new instance of the <see cref="ParallelLineOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal ParallelLineOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_RefLine = editDeserializer.ReadFeatureRef <LineFeature>(this, DataField.RefLine);
if (editDeserializer.IsNextField(DataField.Term1))
{
m_Term1 = editDeserializer.ReadFeatureRef <LineFeature>(this, DataField.Term1);
}
if (editDeserializer.IsNextField(DataField.Term2))
{
m_Term2 = editDeserializer.ReadFeatureRef <LineFeature>(this, DataField.Term2);
}
if (editDeserializer.IsNextField(DataField.ReverseArc) && editDeserializer.ReadBool(DataField.ReverseArc) == true)
{
m_Flags = 1;
}
m_Offset = editDeserializer.ReadPersistent <Observation>(DataField.Offset);
DeserializationFactory dff = new DeserializationFactory(this);
dff.AddFeatureStub(DataField.From, editDeserializer.ReadPersistentOrNull <FeatureStub>(DataField.From));
dff.AddFeatureStub(DataField.To, editDeserializer.ReadPersistentOrNull <FeatureStub>(DataField.To));
dff.AddFeatureStub(DataField.NewLine, editDeserializer.ReadPersistent <FeatureStub>(DataField.NewLine));
ProcessFeatures(dff);
}
/// <summary>
/// Initializes a new instance of the <see cref="MultiSegmentGeometry"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal MultiSegmentGeometry(EditDeserializer editDeserializer)
: base(editDeserializer)
{
// LineString assumes 2D, with X preceding Y. Each coordinate pair is separated
// with a comma, with a space between each X and Y (e.g. "123 345,124 349,129 341")
string s = editDeserializer.ReadString(DataField.LineString);
string[] xys = s.Split(',');
m_Data = new IPointGeometry[xys.Length];
for (int i = 0; i < xys.Length; i++)
{
string xy = xys[i].Trim();
int blankPos = xy.IndexOf(' ');
if (blankPos <= 0)
throw new FormatException();
double x = Double.Parse(xy.Substring(0, blankPos));
double y = Double.Parse(xy.Substring(blankPos+1));
m_Data[i] = new PointGeometry(x, y);
}
m_Extent = LineStringGeometry.GetExtent(this);
}
/// <summary>
/// Initializes a new instance of the <see cref="ParallelDirection"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal ParallelDirection(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_From = editDeserializer.ReadFeatureRef<PointFeature>(this, DataField.From);
m_Par1 = editDeserializer.ReadFeatureRef<PointFeature>(this, DataField.Start);
m_Par2 = editDeserializer.ReadFeatureRef<PointFeature>(this, DataField.End);
}
/// <summary>
/// Initializes a new instance of the <see cref="AngleDirection"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal AngleDirection(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Backsight = editDeserializer.ReadFeatureRef<PointFeature>(this, DataField.Backsight);
m_From = editDeserializer.ReadFeatureRef<PointFeature>(this, DataField.From);
m_Observation = editDeserializer.ReadRadians(DataField.Value);
}
/// <summary>
/// Initializes a new instance of the <see cref="ArcGeometry"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal ArcGeometry(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_IsClockwise = editDeserializer.ReadBool(DataField.Clockwise);
if (editDeserializer.IsNextField(DataField.Center))
{
PointFeature center = editDeserializer.ReadFeatureRef<PointFeature>(this, DataField.Center);
// The arc is the first arc attached to the circle. However, we cannot
// calculate the radius just yet because the bc/ec points are not persisted
// as part of the ArcGeometry definition (they are defined as part of the
// LineFeature object that utilizes the ArcGeometry).
// Even if we did have the bc/ec points at this stage, their positions will
// only be available if the data came from an import (they will still be
// undefined if the geometry is calculated, since calculation only occurs
// after deserialization has been completed).
if (center != null)
ApplyFeatureRef(DataField.Center, center);
}
else
{
ArcFeature firstArc = editDeserializer.ReadFeatureRef<ArcFeature>(this, DataField.FirstArc);
if (firstArc != null)
ApplyFeatureRef(DataField.FirstArc, firstArc);
}
}
/// <summary>
/// Initializes a new instance of the <see cref="IntersectOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
protected IntersectOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
// If the data was produced via export from an old CEdit file, we'll have the absolute position
if (editDeserializer.IsNextField(DataField.X))
CheckPosition = editDeserializer.ReadPointGeometry(DataField.X, DataField.Y);
}
/// <summary>
/// Initializes a new instance of the <see cref="NewLineOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
protected NewLineOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
// Bit of a hack - does NewCircleOperation actually need to extend NewLineOperation?
if (!(this is NewCircleOperation) && !(this is NewArcOperation))
m_NewLine = editDeserializer.ReadPersistent<LineFeature>(DataField.Line);
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
throw new NotImplementedException();
return(result);
}
/// <summary>
/// Initializes a new instance of the <see cref="LineSubdivisionOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal LineSubdivisionOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Line = editDeserializer.ReadFeatureRef<LineFeature>(DataField.Line);
m_Face = editDeserializer.ReadPersistent<LineSubdivisionFace>(DataField.Face);
//FeatureStub[] sections = editDeserializer.ReadFeatureStubArray(DataField.Result);
if (editDeserializer.IsNextField(DataField.OtherSide))
{
InternalIdValue id = editDeserializer.ReadInternalId(DataField.OtherSide);
OtherSide = (LineSubdivisionOperation)editDeserializer.MapModel.FindOperation(id);
Debug.Assert(OtherSide != null);
OtherSide.OtherSide = this;
}
Project p = editDeserializer.Project;
IEntity pointType = editDeserializer.ReadEntity(DataField.PointType);
FeatureStub[] sections = CreateStubs(p, pointType, m_Line.EntityType);
DeserializationFactory result = new DeserializationFactory(this, sections);
ProcessFeatures(result);
// Apply any IDs
if (editDeserializer.IsNextField(DataField.Ids))
editDeserializer.ReadIdMappings(DataField.Ids);
}
/// <summary>
/// Initializes a new instance of the <see cref="RevisedEdit"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal RevisedEdit(EditDeserializer editDeserializer)
{
InternalIdValue id = editDeserializer.ReadInternalId(DataField.RevisedEdit);
m_Edit = editDeserializer.MapModel.FindOperation(id);
m_Changes = (m_Edit as IRevisable).ReadUpdateItems(editDeserializer);
}
/// <summary>
/// Initializes a new instance of the <see cref="Distance"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal Distance(EditDeserializer editDeserializer)
{
double distance = editDeserializer.ReadDouble(DataField.Value);
DistanceUnitType unitType = (DistanceUnitType)editDeserializer.ReadByte(DataField.Unit);
m_EnteredUnit = EditingController.GetUnits(unitType);
m_ObservedMetric = m_EnteredUnit.ToMetric(distance);
if (editDeserializer.IsNextField(DataField.Fixed))
{
m_IsFixed = editDeserializer.ReadBool(DataField.Fixed);
}
else
{
m_IsFixed = false;
}
if (editDeserializer.IsNextField(DataField.Flipped))
{
IsAnnotationFlipped = editDeserializer.ReadBool(DataField.Flipped);
}
else
{
IsAnnotationFlipped = false;
}
}
/// <summary>
/// Initializes a new instance of the <see cref="TextRotationOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal TextRotationOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
RadianValue value = editDeserializer.ReadRadians(DataField.Value);
m_Rotation = value.Radians;
}
/// <summary>
/// Initializes a new instance of the <see cref="LineSubdivisionOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal LineSubdivisionOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Line = editDeserializer.ReadFeatureRef <LineFeature>(DataField.Line);
m_Face = editDeserializer.ReadPersistent <LineSubdivisionFace>(DataField.Face);
//FeatureStub[] sections = editDeserializer.ReadFeatureStubArray(DataField.Result);
if (editDeserializer.IsNextField(DataField.OtherSide))
{
InternalIdValue id = editDeserializer.ReadInternalId(DataField.OtherSide);
OtherSide = (LineSubdivisionOperation)editDeserializer.MapModel.FindOperation(id);
Debug.Assert(OtherSide != null);
OtherSide.OtherSide = this;
}
Project p = editDeserializer.Project;
IEntity pointType = editDeserializer.ReadEntity(DataField.PointType);
FeatureStub[] sections = CreateStubs(p, pointType, m_Line.EntityType);
DeserializationFactory result = new DeserializationFactory(this, sections);
ProcessFeatures(result);
// Apply any IDs
if (editDeserializer.IsNextField(DataField.Ids))
{
editDeserializer.ReadIdMappings(DataField.Ids);
}
}
/// <summary>
/// Initializes a new instance of the <see cref="IdAllocation"/> class.
/// </summary>
/// <param name="ed">The mechanism for reading back content.</param>
internal IdAllocation(EditDeserializer ed)
: base(ed)
{
this.GroupId = ed.ReadInt32(DataField.GroupId);
this.LowestId = ed.ReadInt32(DataField.LowestId);
this.HighestId = ed.ReadInt32(DataField.HighestId);
}
/// <summary>
/// Initializes a new instance of the <see cref="ParallelDirection"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal ParallelDirection(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_From = editDeserializer.ReadFeatureRef <PointFeature>(this, DataField.From);
m_Par1 = editDeserializer.ReadFeatureRef <PointFeature>(this, DataField.Start);
m_Par2 = editDeserializer.ReadFeatureRef <PointFeature>(this, DataField.End);
}
/// <summary>
/// Initializes a new instance of the <see cref="NewCircleOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal NewCircleOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
FeatureStub closingPoint, arc;
ReadData(editDeserializer, out m_Center, out m_Radius, out closingPoint, out arc);
DeserializationFactory dff = new DeserializationFactory(this);
dff.AddFeatureStub(DataField.ClosingPoint, closingPoint);
dff.AddFeatureStub(DataField.Arc, arc);
ProcessFeatures(dff);
/*
* try
* {
* ProcessFeatures(dff);
* }
*
* catch
* {
* ProcessFeatures(dff);
* }
*/
}
/// <summary>
/// Initializes a new instance of the <see cref="AngleDirection"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal AngleDirection(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Backsight = editDeserializer.ReadFeatureRef <PointFeature>(this, DataField.Backsight);
m_From = editDeserializer.ReadFeatureRef <PointFeature>(this, DataField.From);
m_Observation = editDeserializer.ReadRadians(DataField.Value);
}
/// <summary>
/// Reads data that was previously written using <see cref="WriteData"/>
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <param name="line">The line the point should appear on </param>
/// <param name="positionRatio">The position ratio of the attached point.</param>
/// <param name="point">The point that was created.</param>
static void ReadData(EditDeserializer editDeserializer, out LineFeature line, out uint positionRatio, out PointFeature point)
{
line = editDeserializer.ReadFeatureRef <LineFeature>(DataField.Line);
positionRatio = editDeserializer.ReadUInt32(DataField.PositionRatio);
FeatureStub stub = editDeserializer.ReadPersistent <FeatureStub>(DataField.Point);
point = new PointFeature(stub, null);
}
/// <summary>
/// Initializes a new instance of the <see cref="LineGeometry"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
protected LineGeometry(EditDeserializer editDeserializer)
{
// When deserializing line geometry (in the context of line features), passing
// the terminal down via the EditDeserializer is a bit too contrived. Instead,
// we'll set the terminals back in LineFeature.ReadData.
m_Start = m_End = null;
}
/// <summary>
/// Initializes a new instance of the <see cref="TrimLineOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal TrimLineOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Lines = editDeserializer.ReadFeatureRefArray<LineFeature>(this, DataField.Lines);
m_Points = editDeserializer.ReadFeatureRefArray<PointFeature>(this, DataField.Points);
ProcessFeatures(null);
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
result.ReadItem <double>(editDeserializer, DataField.X);
result.ReadItem <double>(editDeserializer, DataField.Y);
return(result);
}
/// <summary>
/// Initializes a new instance of the <see cref="LineSubdivisionFace"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal LineSubdivisionFace(EditDeserializer editDeserializer)
{
m_IsEntryFromEnd = editDeserializer.ReadBool(DataField.EntryFromEnd);
m_Distances = editDeserializer.ReadPersistentArray<Distance>(DataField.Sections);
// The sections are calculated ??
m_Sections = null;
}
/// <summary>
/// Initializes a new instance of the <see cref="LineSubdivisionFace"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal LineSubdivisionFace(EditDeserializer editDeserializer)
{
m_IsEntryFromEnd = editDeserializer.ReadBool(DataField.EntryFromEnd);
m_Distances = editDeserializer.ReadPersistentArray <Distance>(DataField.Sections);
// The sections are calculated ??
m_Sections = null;
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
result.ReadObservation <Direction>(editDeserializer, DataField.Direction1);
result.ReadObservation <Direction>(editDeserializer, DataField.Direction2);
return(result);
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
result.ReadItem <bool>(editDeserializer, DataField.ExtendFromEnd);
result.ReadObservation <Distance>(editDeserializer, DataField.Distance);
return(result);
}
/// <summary>
/// Initializes a new instance of the <see cref="SectionGeometry"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal SectionGeometry(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Base = editDeserializer.ReadFeatureRef<LineFeature>(DataField.Base);
if (m_Base == null)
throw new ArgumentNullException();
}
/// <summary>
/// Reads data that was previously written using <see cref="WriteData"/>
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <param name="center">Point at the center of the circle.</param>
/// <param name="radius">The radius of the circle.</param>
/// <param name="arc">The arc running around the circumference of the circle</param>
/// <param name="closingPoint">The closing point of the circle (if it was created by this edit). Null
/// if the radius was specified using an offset point.</param>
static void ReadData(EditDeserializer editDeserializer, out PointFeature center, out Observation radius,
out FeatureStub closingPoint, out FeatureStub arc)
{
center = editDeserializer.ReadFeatureRef <PointFeature>(DataField.Center);
radius = editDeserializer.ReadPersistent <Observation>(DataField.Radius);
closingPoint = editDeserializer.ReadPersistentOrNull <FeatureStub>(DataField.ClosingPoint);
arc = editDeserializer.ReadPersistent <FeatureStub>(DataField.Arc);
}
/// <summary>
/// Initializes a new instance of the <see cref="TrimLineOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal TrimLineOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Lines = editDeserializer.ReadFeatureRefArray <LineFeature>(this, DataField.Lines);
m_Points = editDeserializer.ReadFeatureRefArray <PointFeature>(this, DataField.Points);
ProcessFeatures(null);
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
result.ReadObservation <Direction>(editDeserializer, DataField.Direction);
result.ReadFeature <LineFeature>(editDeserializer, DataField.Line);
result.ReadFeature <PointFeature>(editDeserializer, DataField.CloseTo);
return(result);
}
/// <summary>
/// Reads data that was previously written using <see cref="WriteData"/>
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <param name="dir1">The first observed direction.</param>
/// <param name="dir2">The second observed direction</param>
/// <param name="to">The created intersection point.</param>
/// <param name="line1">The first line created (if any).</param>
/// <param name="line1">The second line created (if any).</param>
static void ReadData(EditDeserializer editDeserializer, out Direction dir1, out Direction dir2,
out FeatureStub to, out FeatureStub line1, out FeatureStub line2)
{
dir1 = editDeserializer.ReadPersistent <Direction>(DataField.Direction1);
dir2 = editDeserializer.ReadPersistent <Direction>(DataField.Direction2);
to = editDeserializer.ReadPersistent <FeatureStub>(DataField.To);
line1 = editDeserializer.ReadPersistentOrNull <FeatureStub>(DataField.Line1);
line2 = editDeserializer.ReadPersistentOrNull <FeatureStub>(DataField.Line2);
}
/// <summary>
/// Initializes a new instance of the <see cref="NewArcOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal NewArcOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
// I originally let the base class do it, but it needs to be an instance
// of ArcFeature. This is a bit rough - does NewArcOperation really need
// to extend NewLineOperation?
ArcFeature arc = editDeserializer.ReadPersistent<ArcFeature>(DataField.Line);
SetNewLine(arc);
}
/// <summary>
/// Initializes a new instance of the <see cref="IntersectOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
protected IntersectOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
// If the data was produced via export from an old CEdit file, we'll have the absolute position
if (editDeserializer.IsNextField(DataField.X))
{
CheckPosition = editDeserializer.ReadPointGeometry(DataField.X, DataField.Y);
}
}
/// <summary>
/// Initializes a new instance of the <see cref="NewLineOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
protected NewLineOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
// Bit of a hack - does NewCircleOperation actually need to extend NewLineOperation?
if (!(this is NewCircleOperation) && !(this is NewArcOperation))
{
m_NewLine = editDeserializer.ReadPersistent <LineFeature>(DataField.Line);
}
}
/// <summary>
/// Initializes a new instance of the <see cref="ImportOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal ImportOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
if (editDeserializer.IsNextField(DataField.Source))
m_Source = editDeserializer.ReadString(DataField.Source);
else
m_Source = String.Empty;
m_Data = editDeserializer.ReadPersistentArray<Feature>(DataField.Features);
}
/// <summary>
/// Initializes a new instance of the <see cref="NewArcOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal NewArcOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
// I originally let the base class do it, but it needs to be an instance
// of ArcFeature. This is a bit rough - does NewArcOperation really need
// to extend NewLineOperation?
ArcFeature arc = editDeserializer.ReadPersistent <ArcFeature>(DataField.Line);
SetNewLine(arc);
}
/// <summary>
/// Initializes a new instance of the <see cref="NewProjectEvent"/> class.
/// </summary>
/// <param name="ed">The mechanism for reading back content.</param>
internal NewProjectEvent(EditDeserializer ed)
: base(ed)
{
this.ProjectId = new Guid(ed.ReadString(DataField.ProjectId));
this.ProjectName = ed.ReadString(DataField.ProjectName);
this.LayerId = ed.ReadInt32(DataField.LayerId);
this.DefaultSystem = ed.ReadString(DataField.CoordinateSystem);
this.UserName = ed.ReadString(DataField.UserName);
this.MachineName = ed.ReadString(DataField.MachineName);
}
/// <summary>
/// Initializes a new instance of the <see cref="TextFeature"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal TextFeature(EditDeserializer editDeserializer)
: base(editDeserializer)
{
bool isTopological;
ReadData(editDeserializer, out isTopological, out m_PolygonPosition, out m_Geom);
SetTopology(isTopological);
if (m_Geom is KeyTextGeometry)
(m_Geom as KeyTextGeometry).Label = this;
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
result.ReadObservation <Direction>(editDeserializer, DataField.Direction);
result.ReadObservation <Observation>(editDeserializer, DataField.Distance);
result.ReadFeature <PointFeature>(editDeserializer, DataField.From);
result.ReadItem <bool>(editDeserializer, DataField.Default);
return(result);
}
/// <summary>
/// Initializes a new instance of the <see cref="PolygonSubdivisionOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal PolygonSubdivisionOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
if (editDeserializer.IsNextField(DataField.DeactivatedLabel))
{
m_Label = editDeserializer.ReadFeatureRef<TextFeature>(DataField.DeactivatedLabel);
m_Label.IsInactive = true; // later ?
}
m_Lines = editDeserializer.ReadPersistentArray<LineFeature>(DataField.Lines);
}
/// <summary>
/// Initializes a new instance of the <see cref="Change"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="ed">The mechanism for reading back content.</param>
protected Change(EditDeserializer ed)
{
m_Sequence = ed.ReadUInt32(DataField.Id);
m_When = ed.ReadDateTime(DataField.When);
// Handle old files
//if (ed.IsNextField(DataField.When))
// m_When = ed.ReadDateTime(DataField.When);
//else
// m_When = DateTime.Now; // could perhaps grab the session start time
}
/// <summary>
/// Initializes a new instance of the <see cref="PolygonSubdivisionOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal PolygonSubdivisionOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
if (editDeserializer.IsNextField(DataField.DeactivatedLabel))
{
m_Label = editDeserializer.ReadFeatureRef <TextFeature>(DataField.DeactivatedLabel);
m_Label.IsInactive = true; // later ?
}
m_Lines = editDeserializer.ReadPersistentArray <LineFeature>(DataField.Lines);
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
result.ReadFeature <LineFeature>(editDeserializer, DataField.RefLine);
result.ReadObservation <Observation>(editDeserializer, DataField.Offset);
result.ReadFeature <LineFeature>(editDeserializer, DataField.Term1);
result.ReadFeature <LineFeature>(editDeserializer, DataField.Term2);
result.ReadItem <bool>(editDeserializer, DataField.ReverseArc);
return(result);
}
/// <summary>
/// Initializes a new instance of the <see cref="RadialOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal RadialOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Direction = editDeserializer.ReadPersistent<Direction>(DataField.Direction);
m_Length = editDeserializer.ReadPersistent<Observation>(DataField.Length);
DeserializationFactory dff = new DeserializationFactory(this);
dff.AddFeatureStub(DataField.To, editDeserializer.ReadPersistent<FeatureStub>(DataField.To));
dff.AddFeatureStub(DataField.Line, editDeserializer.ReadPersistentOrNull<FeatureStub>(DataField.Line));
ProcessFeatures(dff);
}
/// <summary>
/// Initializes a new instance of the <see cref="MoveTextOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal MoveTextOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Text = editDeserializer.ReadFeatureRef<TextFeature>(DataField.Text);
m_OldPosition = editDeserializer.ReadPointGeometry(DataField.OldX, DataField.OldY);
m_NewPosition = editDeserializer.ReadPointGeometry(DataField.NewX, DataField.NewY);
if (editDeserializer.IsNextField(DataField.OldPolygonX))
m_OldPolPosition = editDeserializer.ReadPointGeometry(DataField.OldPolygonX, DataField.OldPolygonY);
else
m_OldPolPosition = null;
}
/// <summary>
/// Initializes a new instance of the <see cref="RadialOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal RadialOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
m_Direction = editDeserializer.ReadPersistent <Direction>(DataField.Direction);
m_Length = editDeserializer.ReadPersistent <Observation>(DataField.Length);
DeserializationFactory dff = new DeserializationFactory(this);
dff.AddFeatureStub(DataField.To, editDeserializer.ReadPersistent <FeatureStub>(DataField.To));
dff.AddFeatureStub(DataField.Line, editDeserializer.ReadPersistentOrNull <FeatureStub>(DataField.Line));
ProcessFeatures(dff);
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
if (editDeserializer.IsNextField(DataField.Face))
{
Distance[] face = editDeserializer.ReadPersistentArray <Distance>(DataField.Face);
result.Add(new UpdateItem(DataField.Face, face));
}
return(result);
}
/// <summary>
/// Reads data that was previously written using <see cref="WriteData"/>
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <param name="line1">The 1st line to intersect.</param>
/// <param name="line2">The 2nd line to intersect.</param>
/// <param name="closeTo">The point closest to the intersection.</param>
/// <param name="to">The created intersection point (if any). May have existed previously.</param>
/// <param name="idLine1a">The ID of the portion of the first line prior to the intersection (null if no split).</param>
/// <param name="idLine1b">The ID of the portion of the first line after the intersection (null if no split).</param>
/// <param name="idLine2a">The ID of the portion of the second line prior to the intersection (null if no split).</param>
/// <param name="idLine2b">The ID of the portion of the second line after the intersection (null if no split).</param>
static void ReadData(EditDeserializer editDeserializer, out LineFeature line1, out LineFeature line2, out PointFeature closeTo,
out FeatureStub to, out string idLine1a, out string idLine1b, out string idLine2a, out string idLine2b)
{
line1 = editDeserializer.ReadFeatureRef <LineFeature>(DataField.Line1);
line2 = editDeserializer.ReadFeatureRef <LineFeature>(DataField.Line2);
closeTo = editDeserializer.ReadFeatureRef <PointFeature>(DataField.CloseTo);
to = editDeserializer.ReadPersistent <FeatureStub>(DataField.To);
idLine1a = (editDeserializer.IsNextField(DataField.SplitBefore1) ? editDeserializer.ReadString(DataField.SplitBefore1) : null);
idLine1b = (editDeserializer.IsNextField(DataField.SplitAfter1) ? editDeserializer.ReadString(DataField.SplitAfter1) : null);
idLine2a = (editDeserializer.IsNextField(DataField.SplitBefore2) ? editDeserializer.ReadString(DataField.SplitBefore2) : null);
idLine2b = (editDeserializer.IsNextField(DataField.SplitAfter2) ? editDeserializer.ReadString(DataField.SplitAfter2) : null);
}
/// <summary>
/// Initializes a new instance of the <see cref="IntersectTwoDirectionsOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal IntersectTwoDirectionsOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
FeatureStub to, line1, line2;
ReadData(editDeserializer, out m_Direction1, out m_Direction2, out to, out line1, out line2);
DeserializationFactory dff = new DeserializationFactory(this);
dff.AddFeatureStub(DataField.To, to);
dff.AddFeatureStub(DataField.Line1, line1);
dff.AddFeatureStub(DataField.Line2, line2);
ProcessFeatures(dff);
}
/// <summary>
/// Initializes a new instance of the <see cref="PathOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal PathOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
//try
//{
m_From = editDeserializer.ReadFeatureRef <PointFeature>(DataField.From);
m_To = editDeserializer.ReadFeatureRef <PointFeature>(DataField.To);
m_EntryString = editDeserializer.ReadString(DataField.EntryString);
m_DefaultEntryUnit = editDeserializer.ReadDistanceUnit(DataField.DefaultEntryUnit);
Leg[] legs = PathParser.CreateLegs(m_EntryString, m_DefaultEntryUnit);
PrepareLegs(this.EditSequence, legs);
m_Legs = new List <Leg>(legs);
Project p = editDeserializer.Project;
IEntity pointType = editDeserializer.ReadEntity(DataField.PointType);
IEntity lineType = editDeserializer.ReadEntity(DataField.LineType);
// Pick up any alternate faces (these may be defined ONLY when dealing with
// data files that were derived from old CEdit files). The deserializaing
// constructor will connect the alternate faces to the legs we've just
// created.
if (editDeserializer.IsNextField(DataField.AlternateFaces))
{
editDeserializer.ReadPersistentArray <LegFace>(DataField.AlternateFaces);
}
// Create stubs for everything that we could conceivably create (including
// any alternate faces).
FeatureStub[] stubs = CreateStubs(p, pointType, lineType);
var result = new DeserializationFactory(this, stubs);
result.PointType = pointType;
result.LineType = lineType;
// Create feature objects
ProcessFeatures(result);
// Apply any IDs
if (editDeserializer.IsNextField(DataField.Ids))
{
editDeserializer.ReadIdMappings(DataField.Ids);
}
//}
//catch (Exception ex)
//{
// throw ex;
//}
}
/// <summary>
/// Initializes a new instance of the <see cref="IntersectTwoDirectionsOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal IntersectTwoDirectionsOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
FeatureStub to, line1, line2;
ReadData(editDeserializer, out m_Direction1, out m_Direction2, out to, out line1, out line2);
DeserializationFactory dff = new DeserializationFactory(this);
dff.AddFeatureStub(DataField.To, to);
dff.AddFeatureStub(DataField.Line1, line1);
dff.AddFeatureStub(DataField.Line2, line2);
ProcessFeatures(dff);
}
/// <summary>
/// Initializes a new instance of the <see cref="ImportOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal ImportOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
if (editDeserializer.IsNextField(DataField.Source))
{
m_Source = editDeserializer.ReadString(DataField.Source);
}
else
{
m_Source = String.Empty;
}
m_Data = editDeserializer.ReadPersistentArray <Feature>(DataField.Features);
}
/// <summary>
/// Initializes a new instance of the <see cref="UpdateOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal UpdateOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
if (editDeserializer.IsNextField(DataField.RevisedEdits))
{
m_Revisions = editDeserializer.ReadPersistentArray<RevisedEdit>(DataField.RevisedEdits);
}
else
{
RevisedEdit rev = new RevisedEdit(editDeserializer);
m_Revisions = new RevisedEdit[] { rev };
}
m_IsApplied = false;
}
/// <summary>
/// Initializes a new instance of the <see cref="DeletionOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal DeletionOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
try
{
Feature[] dels = editDeserializer.ReadFeatureRefArray<Feature>(this, DataField.Delete);
m_Deletions = new List<Feature>(dels);
// Deactivate features (means they will never make it into the spatial index, and
// any lines will be invisible as far as intersection tests are concerned).
DeserializationFactory dff = new DeserializationFactory(this);
ProcessFeatures(dff);
}
catch (Exception ex)
{
throw new ApplicationException("Error loading edit " + this.EditSequence, ex);
}
}
/// <summary>
/// Initializes a new instance of the <see cref="NewCircleOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal NewCircleOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
FeatureStub closingPoint, arc;
ReadData(editDeserializer, out m_Center, out m_Radius, out closingPoint, out arc);
DeserializationFactory dff = new DeserializationFactory(this);
dff.AddFeatureStub(DataField.ClosingPoint, closingPoint);
dff.AddFeatureStub(DataField.Arc, arc);
ProcessFeatures(dff);
/*
try
{
ProcessFeatures(dff);
}
catch
{
ProcessFeatures(dff);
}
*/
}
/// <summary>
/// Initializes a new instance of the <see cref="RevisedEdit"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal RevisedEdit(EditDeserializer editDeserializer)
{
InternalIdValue id = editDeserializer.ReadInternalId(DataField.RevisedEdit);
m_Edit = editDeserializer.MapModel.FindOperation(id);
m_Changes = (m_Edit as IRevisable).ReadUpdateItems(editDeserializer);
}
/// <summary>
/// Reads data that was previously written using <see cref="WriteData"/>
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <param name="center">Point at the center of the circle.</param>
/// <param name="radius">The radius of the circle.</param>
/// <param name="arc">The arc running around the circumference of the circle</param>
/// <param name="closingPoint">The closing point of the circle (if it was created by this edit). Null
/// if the radius was specified using an offset point.</param>
static void ReadData(EditDeserializer editDeserializer, out PointFeature center, out Observation radius,
out FeatureStub closingPoint, out FeatureStub arc)
{
center = editDeserializer.ReadFeatureRef<PointFeature>(DataField.Center);
radius = editDeserializer.ReadPersistent<Observation>(DataField.Radius);
closingPoint = editDeserializer.ReadPersistentOrNull<FeatureStub>(DataField.ClosingPoint);
arc = editDeserializer.ReadPersistent<FeatureStub>(DataField.Arc);
}
/// <summary>
/// Initializes a new instance of the <see cref="LegFace"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal LegFace(EditDeserializer editDeserializer)
{
// Only connection paths should generate LegFace instances
PathOperation op = (editDeserializer.CurrentEdit as PathOperation);
if (op == null)
throw new ApplicationException("Unexpected creating edit for a leg face");
this.Sequence = editDeserializer.ReadInternalId(DataField.Id);
if (editDeserializer.IsNextField(DataField.PrimaryFaceId))
{
InternalIdValue primaryFaceId = editDeserializer.ReadInternalId(DataField.PrimaryFaceId);
LegFace face = op.FindFace(primaryFaceId);
if (face == null)
throw new ApplicationException("Cannot locate primary face " + primaryFaceId);
Leg = face.Leg;
Leg.AlternateFace = this;
}
else
{
// This should never happen. Primary faces are not serialized using the LegFace
// class (we only use LegFace as part of a PathOperation to simplify import of
// extra legs from old CEdit files).
throw new ApplicationException();
}
// Convert the data entry string into observed spans
string entryString = editDeserializer.ReadString(DataField.EntryString);
DistanceUnit defaultEntryUnit = EditingController.Current.EntryUnit;
Distance[] dists = LineSubdivisionFace.GetDistances(entryString, defaultEntryUnit, false);
m_Spans = new SpanInfo[dists.Length];
for (int i=0; i<m_Spans.Length; i++)
{
m_Spans[i] = new SpanInfo() { ObservedDistance = dists[i] };
}
}
/// <summary>
/// Initializes a new instance of the <see cref="PathOperation"/> class
/// using the data read from persistent storage.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
internal PathOperation(EditDeserializer editDeserializer)
: base(editDeserializer)
{
//try
//{
m_From = editDeserializer.ReadFeatureRef<PointFeature>(DataField.From);
m_To = editDeserializer.ReadFeatureRef<PointFeature>(DataField.To);
m_EntryString = editDeserializer.ReadString(DataField.EntryString);
m_DefaultEntryUnit = editDeserializer.ReadDistanceUnit(DataField.DefaultEntryUnit);
Leg[] legs = PathParser.CreateLegs(m_EntryString, m_DefaultEntryUnit);
PrepareLegs(this.EditSequence, legs);
m_Legs = new List<Leg>(legs);
Project p = editDeserializer.Project;
IEntity pointType = editDeserializer.ReadEntity(DataField.PointType);
IEntity lineType = editDeserializer.ReadEntity(DataField.LineType);
// Pick up any alternate faces (these may be defined ONLY when dealing with
// data files that were derived from old CEdit files). The deserializaing
// constructor will connect the alternate faces to the legs we've just
// created.
if (editDeserializer.IsNextField(DataField.AlternateFaces))
editDeserializer.ReadPersistentArray<LegFace>(DataField.AlternateFaces);
// Create stubs for everything that we could conceivably create (including
// any alternate faces).
FeatureStub[] stubs = CreateStubs(p, pointType, lineType);
var result = new DeserializationFactory(this, stubs);
result.PointType = pointType;
result.LineType = lineType;
// Create feature objects
ProcessFeatures(result);
// Apply any IDs
if (editDeserializer.IsNextField(DataField.Ids))
editDeserializer.ReadIdMappings(DataField.Ids);
//}
//catch (Exception ex)
//{
// throw ex;
//}
}
/// <summary>
/// Reads back updates made to an editing operation.
/// </summary>
/// <param name="editDeserializer">The mechanism for reading back content.</param>
/// <returns>The changes made to the edit</returns>
public UpdateItemCollection ReadUpdateItems(EditDeserializer editDeserializer)
{
UpdateItemCollection result = new UpdateItemCollection();
throw new NotImplementedException();
return result;
}
