private SlideCollection LoadSlide()
{
Data objdata = new Data(Global.ConnectionSql);
SlideCollection col = new SlideCollection();
try
{
Slide obj = new Slide();
obj.DataObject = objdata;
col = obj.GetAll();
if (col != null)
{
rptslide.DataSource = col;
rptslide.DataBind();
}
}
catch (Exception ex)
{
Global.WriteLogError("LoadProduct()" + ex);
}
finally
{
objdata.DeConnect();
}
return(col);
}
private EditAbleCollection <Slide> InitSlides()
{
var preSettings = new PreSettings(_sdkPre.PresentationPart.Presentation);
var slideCollection = SlideCollection.Create(_sdkPre, preSettings);
return(slideCollection);
}
/// <summary>
/// Returns the entire hierarchy for default slide in the collection.
/// </summary>
/// <returns>
/// ATM there is no meta data or anything that determines which view in the slide collection
/// is the 'default' slide. For now just return the first slide in the collection.
/// </returns>
private SlideView GetDefaultSlideView(SlideCollection slideCollection)
{
// TODO:
// Implement some way of determining a 'default' slide in a slide collection.
Verify.NotNull(slideCollection?.Children[0], "The slide collection in the file does not contain any slides!");
return((SlideView)ViewFactory.Instance.GetHierarchy(slideCollection.Children[0]));
}
private EditAbleCollection <Slide> GetSlides()
{
var sdkPrePart = _sdkPre.PresentationPart;
_preSettings = new PreSettings(sdkPrePart.Presentation, _slideSize);
var slideCollection = SlideCollection.Create(sdkPrePart, _preSettings);
return(slideCollection);
}
private bool CloseFileInternal()
{
Verify.NotNull(_slideCollection, "_slideCollection is null.");
CodeFlowViewModel.Instance.DetachCurrentSlide();
_slideCollection.Dispose();
_slideCollection = null;
CodeFlowViewModel.Instance.ClearDirtyFlag();
ClearFilename();
return(true);
}
private void BindingData()
{
try
{
SlideCollection col = null;
col = this.LoadSlide();
rptData.DataSource = col;
rptData.DataBind();
}
catch (Exception ex)
{
Global.WriteLogError("BindingData()" + ex);
}
}
// Used for v0.1
void CommitHold(SlideCollection col)
{
Hold tempHold = new Hold(0, 0, 0, Side.NotSet);
List <Note> tempNotes = new List <Note>();
for (int i = 0; i < col.Notes.Count; i++)
{
var parsed = col.Notes[i].Item1;
double noteSub = 1.0 / parsed.Notes.Count;
var j = col.Notes[i].Item2;
Side side = parsed.NoteClass == 2 ? Side.Left : Side.Right;
if (i == 0)
{
tempHold = new Hold(4 * (parsed.Measure + j * noteSub), parsed.LaneIndex, parsed.Notes[j].Item2, side);
}
else
{
switch (parsed.Notes[j].Item1)
{
case 1: // Shouldn't happen because it was already added above
throw new Exception("Unexpected start note.");
case 2: // End a hold note with no shuffle
case 4: // Add a midpoint with no shuffle
tempNotes.Add(new Note(4 * (parsed.Measure + j * noteSub), parsed.LaneIndex, parsed.Notes[j].Item2, side)
{
Type = NoteType.Hold
});
break;
case 3: // End a hold note with a shuffle
case 5: // Add a midpoint with a shuffle
tempNotes.Add(new Note(4 * (parsed.Measure + j * noteSub), parsed.LaneIndex, parsed.Notes[j].Item2, side)
{
Type = NoteType.Shuffle
});
break;
}
}
}
tempNotes.Sort((x, y) => x.BeatLocation.CompareTo(y.BeatLocation));
foreach (var note in tempNotes)
{
tempHold.AddNote(note);
}
Holds.Add(tempHold);
}
private bool OpenFileInternal(string path, string filename, string ext)
{
if (_slideCollection != null)
{
CloseFileInternal();
}
SetFilename(path, filename, ext);
_slideCollection =
_storeController.RestoreSlideCollection(
CreateFullFilename(),
CodeFlowViewModel.Instance.HistoryController
);
var slide = _slideCollection.GetFirstOrNew();
CodeFlowViewModel.Instance.SetCurrentSlide((SlideView)ViewFactory.Instance.GetHierarchy(slide));
return(true);
}
private bool NewFileInternal()
{
// Clear the filename
ClearFilename();
// Create a new SlideCollection
_slideCollection = new Model.SlideCollection(CodeFlowViewModel.Instance.HistoryController);
// Create a new slide for the collection.
var newSlide = new Slide {
Name = "New Slide"
};
// Add the new slide to the slide collection.
_slideCollection.AddChild(newSlide);
// Hopefully the UI has subscribed to the SlideSelected event.
CodeFlowViewModel.Instance.SetCurrentSlide(newSlide.GetView <SlideView>());
return(true);
}
// string connStr, string dbOwner, string objQualifier)
public bool LoadFromDB(string RotatorId)
{
DataProvider.Instance().Init(Configuration);
bool hasValues = false;
using (IDataReader dr = DataProvider.Instance().GetSettings(RotatorId)) {
while (dr.Read()) {
hasValues = true;
string val = "";
try { val = dr["SettingValue"].ToString(); } catch { }
switch (dr["SettingName"].ToString()) {
case "Width":
try {
Width = Convert.ToInt32(val);
} catch { }
break;
case "Height":
try {
Height = Convert.ToInt32(val);
} catch { }
break;
//case "RenderEngine":
// try {
// RenderEngine = (eRenderEngine)Enum.Parse(typeof(eRenderEngine), val, true);
// } catch { RenderEngine = eRenderEngine.Flash; }
// break;
case "FallbackImage":
FallbackImage = val;
break;
case "AutoStartSlideShow":
AutoStartSlideShow = val == "true";
break;
case "ShowBottomButtons":
ShowBottomButtons = val == "true";
break;
case "ShowPlayPauseControls":
ShowPlayPauseControls = val == "true";
break;
case "BackgroundColor":
try {
BackgroundColor = System.Drawing.Color.FromArgb(Convert.ToInt32(val.Replace("#", "0x"), 16));
} catch { }
break;
case "ShowTopTitle":
ShowTopTitle = val == "true";
break;
case "TopTitleBackground":
try {
TopTitleBackground = System.Drawing.Color.FromArgb(Convert.ToInt32(val.Replace("#", "0x"), 16));
} catch { }
break;
case "TopTitleBgTransparency":
try {
TopTitleBgTransparency = Convert.ToInt32(val);
} catch { }
break;
case "TopTitleTextColor":
try {
TopTitleTextColor = System.Drawing.Color.FromArgb(Convert.ToInt32(val.Replace("#", "0x"), 16));
} catch { }
break;
case "ShowTimerBar":
ShowTimerBar = val == "true";
break;
case "RandomOrder":
RandomOrder = val == "true";
break;
case "SlideButtonsColor":
try {
SlideButtonsColor = System.Drawing.Color.FromArgb(Convert.ToInt32(val.Replace("#", "0x"), 16));
} catch { }
break;
case "SlideButtonsNumberColor":
try {
SlideButtonsNumberColor = System.Drawing.Color.FromArgb(Convert.ToInt32(val.Replace("#", "0x"), 16));
} catch { }
break;
case "SlideButtonsType":
try {
SlideButtonsType = (eSlideButtonsType)Enum.Parse(typeof(eSlideButtonsType), val, true);
} catch { }
break;
case "SlideButtonsXoffset":
try {
SlideButtonsXoffset = Convert.ToInt32(val);
} catch { }
break;
case "SlideButtonsYoffset":
try {
SlideButtonsYoffset = Convert.ToInt32(val);
} catch { }
break;
//case "TransparentBackground":
// TransparentBackground = val == "true";
// break;
//case "_DebugMode":
// _DebugMode = val == "true";
// break;
case "LastUpdate":
try {
LastUpdate = DateTime.Parse(val, new CultureInfo("en-US").DateTimeFormat);
} catch { LastUpdate = DateTime.Now; }
break;
}
}
dr.Close();
}
// load slides
_Slides = new SlideCollection();
using (IDataReader dr = DataProvider.Instance().GetSlides(RotatorId)) {
while (dr.Read()) {
SlideInfo slide = new SlideInfo();
slide.Load(dr);
slide.Settings = this;
Slides.Add(slide);
}
dr.Close();
}
return hasValues;
}
public void PersistSlideCollection(string filename, SlideCollection slideCollection)
{
PersistTriggered = true;
}
public void tSerializer_Slides()
{
var filename = @"c:\temp\tSerializer_Slides.xml";
var slideCollection = new SlideCollection();
var slide1 = new Slide {
Name = "Slide1"
};
var slide2 = new Slide {
Name = "Slide2"
};
var child1 = new VisualNode {
Name = "child1",
Description = "child1_description",
Comment = "child1_comment",
Parent = null
};
var child2 = new VisualNode {
Name = "child2",
Description = "child2_description",
Comment = "child2_comment",
Parent = null
};
var child3 = new VisualNode {
Name = "child3",
Description = "child3_description",
Comment = "child3_comment",
Parent = null
};
var child4 = new VisualNode {
Name = "child4",
Description = "child4_description",
Comment = "child4_comment",
Parent = null
};
slideCollection.AddChild(slide1);
slideCollection.AddChild(slide2);
slide1.AddChild(child1);
slide1.AddChild(child2);
slide2.AddChild(child3);
slide2.AddChild(child4);
Serializer.Serialize(slideCollection, filename);
var result = Serializer.DeSerialize(filename);
Assert.AreEqual(typeof(SlideCollection), result.GetType());
var r = (SlideCollection)result;
// The Parent properties of both slides in the slide collection should reference the
// slide collection.
var firstSlide = r.Children[0];
var secondSlide = r.Children[1];
Assert.AreEqual(r.Guid, firstSlide.Parent.Guid);
Assert.AreEqual(r.Guid, secondSlide.Parent.Guid);
// The Parent properties of both children of the first slide should reference the
// first slide.
var firstChild = firstSlide.Children[0];
var secondChild = firstSlide.Children[1];
Assert.AreEqual(firstSlide.Guid, firstChild.Parent.Guid);
Assert.AreEqual(firstSlide.Guid, secondChild.Parent.Guid);
// The Parent properties of both children of the secode slide should reference the
// second slide.
firstChild = secondSlide.Children[0];
secondChild = secondSlide.Children[1];
Assert.AreEqual(secondSlide.Guid, firstChild.Parent.Guid);
Assert.AreEqual(secondSlide.Guid, secondChild.Parent.Guid);
}
public void tSerializer_DefaultNode()
{
var hc = new HistoryController();
var filename = @"c:\temp\tSerializer_DefaultNode.xml";
var slideCollection = new SlideCollection();
var slide1 = new Slide {
Name = "Slide1"
};
var child1 = new DefaultNode {
Name = "child1",
Description = "child1_description",
Comment = "child1_comment",
Background = new System.Windows.Media.Color {
A = 1, B = 150, G = 160, R = 170
},
BorderType = BorderType.normal,
Foreground = new System.Windows.Media.Color {
A = 1, R = 2, G = 3, B = 4
},
Location = new System.Windows.Point {
X = 1, Y = 2
},
ShapeType = ShapeType.rectangle,
Size = new System.Windows.Size {
Height = 1, Width = 2
},
Parent = null
};
slideCollection.AddChild(slide1);
slide1.AddChild(child1);
Serializer.Serialize(slideCollection, filename);
var result = Serializer.DeSerialize(filename, hc);
Assert.AreEqual(typeof(SlideCollection), result.GetType());
var r = (SlideCollection)result;
var Slide = r.Children[0];
Assert.AreEqual(r.Guid, Slide.Parent.Guid);
var tNode = (DefaultNode)Slide.Children[0];
Assert.AreEqual(Slide.Guid, tNode.Parent.Guid);
Assert.AreEqual("child1", tNode.Name);
Assert.AreEqual("child1_description", tNode.Description);
Assert.AreEqual("child1_comment", tNode.Comment);
Assert.AreEqual(new System.Windows.Media.Color {
A = 1, B = 150, G = 160, R = 170
}, tNode.Background);
Assert.AreEqual(BorderType.normal, tNode.BorderType);
Assert.AreEqual(new System.Windows.Media.Color {
A = 1, R = 2, G = 3, B = 4
}, tNode.Foreground);
Assert.AreEqual(new System.Windows.Point {
X = 1, Y = 2
}, tNode.Location);
Assert.AreEqual(ShapeType.rectangle, tNode.ShapeType);
Assert.AreEqual(new System.Windows.Size {
Height = 1, Width = 2
}, tNode.Size);
}
/// <summary>
/// Stores 'slideCollection' in a file called 'filename'.
/// </summary>
/// <param name="filename">
/// The name of the file which the slideCollection will be serialized to.</param>
/// <param name="slideCollection">
/// The slideCollection that will be serialized.
/// </param>
/// <remarks>
/// The FileStoreController does not perform any existence checks before saving files. If the
/// PersistSlideCollection would destroy an existing file, it is expected that the caller has
/// already determined that the operation has been confirmed by the user.
/// </remarks>
public void PersistSlideCollection(string filename, SlideCollection slideCollection)
{
Serializer.Serialize(slideCollection, filename);
}
public void tFileStoreContoller()
{
var hc = new HistoryController();
var filename = @"c:\temp\tFileStoreContoller_HistoryController.xml";
var slideCollection = new SlideCollection();
var slide1 = new Slide {
Name = "Slide1"
};
var slide2 = new Slide {
Name = "Slide2"
};
var child1 = new DefaultNode {
Name = "child1",
Description = "child1_description",
Comment = "child1_comment",
Parent = null
};
var child2 = new VisualNode {
Name = "child2",
Description = "child2_description",
Comment = "child2_comment",
Parent = null
};
var child3 = new VisualNode {
Name = "child3",
Description = "child3_description",
Comment = "child3_comment",
Parent = null
};
var child4 = new VisualNode {
Name = "child4",
Description = "child4_description",
Comment = "child4_comment",
Parent = null
};
slideCollection.AddChild(slide1);
slideCollection.AddChild(slide2);
slide1.AddChild(child1);
slide1.AddChild(child2);
slide2.AddChild(child3);
slide2.AddChild(child4);
var fileStoreController = new FileStoreController();
fileStoreController.PersistSlideCollection(filename, slideCollection);
var result = fileStoreController.RestoreSlideCollection(filename, hc);
Assert.AreEqual(typeof(SlideCollection), result.GetType());
var r = (SlideCollection)result;
// The Parent properties of both slides in the slide collection should reference the
// slide collection.
var firstSlide = r.Children[0];
var secondSlide = r.Children[1];
Assert.AreEqual(r.Guid, firstSlide.Parent.Guid);
Assert.AreEqual(r.Guid, secondSlide.Parent.Guid);
// The Parent properties of both children of the first slide should reference the
// first slide.
var firstChild = firstSlide.Children[0];
var secondChild = firstSlide.Children[1];
Assert.AreEqual(firstSlide.Guid, firstChild.Parent.Guid);
Assert.AreEqual(firstSlide.Guid, secondChild.Parent.Guid);
// The Parent properties of both children of the second slide should reference the
// second slide.
firstChild = secondSlide.Children[0];
secondChild = secondSlide.Children[1];
Assert.AreEqual(secondSlide.Guid, firstChild.Parent.Guid);
Assert.AreEqual(secondSlide.Guid, secondChild.Parent.Guid);
firstChild.Name = "testA";
Assert.AreEqual("testA", firstChild.Name);
firstChild.Name = "testB";
Assert.AreEqual("testB", firstChild.Name);
hc.Undo();
Assert.AreEqual("testA", firstChild.Name);
hc.Redo();
Assert.AreEqual("testB", firstChild.Name);
}