// This ensures there is enough space for a given number of free entries (also adds new bufers if needed)
private void EnsureFreeBufferSpace(SurfaceBufferSet set, int freeentries)
{
VertexBuffer vb = null;
// Check if we have to add entries
int addentries = freeentries - set.holes.Count;
// Begin resizing buffers starting with the last in this set
int bufferindex = set.buffers.Count - 1;
// Calculate the maximum number of entries we can put in a new buffer
// Note that verticesperentry is the number of vertices multiplied by 2, because
// we have to store both the floor and ceiling
int verticesperentry = set.numvertices * 2;
int maxentriesperbuffer = MAX_VERTICES_PER_BUFFER / verticesperentry;
// Make a new bufer when the last one is full
if ((bufferindex > -1) && (set.buffersizes[bufferindex] >= (maxentriesperbuffer * verticesperentry)))
{
bufferindex = -1;
}
while (addentries > 0)
{
// Create a new buffer?
if ((bufferindex == -1) || (bufferindex > (set.buffers.Count - 1)))
{
// Determine the number of entries we will be making this buffer for
int bufferentries = (addentries > maxentriesperbuffer) ? maxentriesperbuffer : addentries;
// Calculate the number of vertices that will be
int buffernumvertices = bufferentries * verticesperentry;
if (!resourcesunloaded)
{
// Make the new buffer!
vb = new VertexBuffer();
General.Map.Graphics.SetBufferData(vb, buffernumvertices, VertexFormat.Flat);
// Add it.
set.buffers.Add(vb);
}
else
{
// We can't make a vertexbuffer right now
set.buffers.Add(null);
}
// Also add available entries as holes, because they are not used yet.
set.buffersizes.Add(buffernumvertices);
for (int i = 0; i < bufferentries; i++)
{
set.holes.Add(new SurfaceEntry(set.numvertices, set.buffers.Count - 1, i * verticesperentry));
}
// Done
addentries -= bufferentries;
}
// Reallocate a buffer
else
{
if ((set.buffers[bufferindex] != null) && !resourcesunloaded)
{
set.buffers[bufferindex].Dispose();
}
// Get the entries that are in this buffer only
List <SurfaceEntry> theseentries = new List <SurfaceEntry>();
foreach (SurfaceEntry e in set.entries)
{
if (e.bufferindex == bufferindex)
{
theseentries.Add(e);
}
}
// Determine the number of entries we will be making this buffer for
int bufferentries = ((theseentries.Count + addentries) > maxentriesperbuffer) ? maxentriesperbuffer : (theseentries.Count + addentries);
// Calculate the number of vertices that will be
int buffernumvertices = bufferentries * verticesperentry;
if (!resourcesunloaded)
{
// Make the new buffer and lock it
vb = new VertexBuffer();
General.Map.Graphics.SetBufferData(vb, buffernumvertices, VertexFormat.Flat);
}
// Start refilling the buffer with sector geometry
int vertexoffset = 0;
foreach (SurfaceEntry e in theseentries)
{
if (!resourcesunloaded)
{
// Fill buffer
General.Map.Graphics.SetBufferSubdata(vb, vertexoffset, e.floorvertices);
General.Map.Graphics.SetBufferSubdata(vb, vertexoffset + e.floorvertices.Length, e.ceilvertices);
}
// Set the new location in the buffer
e.vertexoffset = vertexoffset;
// Move on
vertexoffset += verticesperentry;
}
if (!resourcesunloaded)
{
set.buffers[bufferindex] = vb;
}
else
{
// No vertex buffer at this time, sorry
set.buffers[bufferindex] = null;
}
// Set the new buffer and add available entries as holes, because they are not used yet.
set.buffersizes[bufferindex] = buffernumvertices;
set.holes.Clear();
for (int i = 0; i < bufferentries - theseentries.Count; i++)
{
set.holes.Add(new SurfaceEntry(set.numvertices, bufferindex, i * verticesperentry + vertexoffset));
}
// Done
addentries -= bufferentries;
}
// Always continue in next (new) buffer
bufferindex = set.buffers.Count;
}
}
// This adds or updates sector geometry into a buffer.
// Modiies the list of SurfaceEntries with the new surface entry for the stored geometry.
public void UpdateSurfaces(SurfaceEntryCollection entries, SurfaceUpdate update)
{
// Free entries when number of vertices has changed
if ((entries.Count > 0) && (entries.totalvertices != update.numvertices))
{
FreeSurfaces(entries);
entries.Clear();
}
if ((entries.Count == 0) && (update.numvertices > 0))
{
#if SDEBUG
if ((update.floorvertices == null) || (update.ceilvertices == null))
{
General.Fail("We need both floor and ceiling vertices when the number of vertices changes!");
}
#endif
// If we have no entries yet, we have to make them now
int vertsremaining = update.numvertices;
while (vertsremaining > 0)
{
// Determine for how many vertices in this entry
int vertsinentry = (vertsremaining > MAX_VERTICES_PER_SECTOR) ? MAX_VERTICES_PER_SECTOR : vertsremaining;
// Lookup the set that holds entries for this number of vertices
SurfaceBufferSet set = GetSet(vertsinentry);
// Make sure we can get a new entry in this set
EnsureFreeBufferSpace(set, 1);
// Get a new entry in this set
SurfaceEntry e = set.holes[set.holes.Count - 1];
set.holes.RemoveAt(set.holes.Count - 1);
set.entries.Add(e);
// Fill the entry data
e.floorvertices = new FlatVertex[vertsinentry];
e.ceilvertices = new FlatVertex[vertsinentry];
Array.Copy(update.floorvertices, update.numvertices - vertsremaining, e.floorvertices, 0, vertsinentry);
Array.Copy(update.ceilvertices, update.numvertices - vertsremaining, e.ceilvertices, 0, vertsinentry);
e.floortexture = update.floortexture;
e.ceiltexture = update.ceiltexture;
e.desaturation = update.desaturation;
entries.Add(e);
vertsremaining -= vertsinentry;
}
}
else
{
// We re-use the same entries, just copy over the updated data
int vertsremaining = update.numvertices;
foreach (SurfaceEntry e in entries)
{
if (update.floorvertices != null)
{
Array.Copy(update.floorvertices, update.numvertices - vertsremaining, e.floorvertices, 0, e.numvertices);
e.floortexture = update.floortexture;
}
if (update.ceilvertices != null)
{
Array.Copy(update.ceilvertices, update.numvertices - vertsremaining, e.ceilvertices, 0, e.numvertices);
e.ceiltexture = update.ceiltexture;
}
e.desaturation = update.desaturation;
vertsremaining -= e.numvertices;
}
}
entries.totalvertices = update.numvertices;
// Time to update or create the buffers
foreach (SurfaceEntry e in entries)
{
SurfaceBufferSet set = GetSet(e.numvertices);
// Update bounding box
e.UpdateBBox();
if (!resourcesunloaded)
{
VertexBuffer vb = set.buffers[e.bufferindex];
General.Map.Graphics.SetBufferSubdata(vb, e.vertexoffset, e.floorvertices);
General.Map.Graphics.SetBufferSubdata(vb, e.vertexoffset + e.floorvertices.Length, e.ceilvertices);
}
}
}
// This updates the text if needed
public void Update(float translatex, float translatey, float scalex, float scaley)
{
// Check if transformation changed and needs to be updated
if (transformcoords && (translatex != lasttranslatex || translatey != lasttranslatey ||
scalex != lastscalex || scaley != lastscaley))
{
lasttranslatex = translatex; //mxd
lasttranslatey = translatey; //mxd
lastscalex = scalex; //mxd
lastscaley = scaley; //mxd
updateneeded = true;
}
// Update if needed
if (updateneeded || textureupdateneeded)
{
// Only build when there are any vertices
if (text.Length > 0)
{
// Transform?
Vector2D abspos = (transformcoords ? location.GetTransformed(translatex, translatey, scalex, scaley) : location);
// Update text and texture sizes
if (textsize.IsEmpty || texturesize.IsEmpty)
{
textorigin = new PointF(4, 3);
textrect = new RectangleF(textorigin, General.Interface.MeasureString(text, font));
textrect.Width = (float)Math.Round(textrect.Width);
textrect.Height = (float)Math.Round(textrect.Height);
bgrect = new RectangleF(0, 0, textrect.Width + textorigin.X * 2, textrect.Height + textorigin.Y * 2);
// Store calculated text size...
textsize = new SizeF(textrect.Width + textorigin.X * 2, textrect.Height + textorigin.Y * 2);
// Make PO2 image, for speed and giggles...
texturesize = new Size(General.NextPowerOf2((int)textsize.Width), General.NextPowerOf2((int)textsize.Height));
switch (alignx)
{
case TextAlignmentX.Center: bgrect.X = (texturesize.Width - bgrect.Width) / 2; break;
case TextAlignmentX.Right: bgrect.X = texturesize.Width - bgrect.Width; break;
}
switch (aligny)
{
case TextAlignmentY.Middle: bgrect.Y = (texturesize.Height - bgrect.Height) / 2; break;
case TextAlignmentY.Bottom: bgrect.Y = texturesize.Height - bgrect.Height; break;
}
textrect.X += bgrect.X;
textrect.Y += bgrect.Y;
}
// Align the text horizontally
float beginx = 0;
switch (alignx)
{
case TextAlignmentX.Left: beginx = abspos.x; break;
case TextAlignmentX.Center: beginx = abspos.x - texturesize.Width * 0.5f; break;
case TextAlignmentX.Right: beginx = abspos.x - texturesize.Width; break;
}
// Align the text vertically
float beginy = 0;
switch (aligny)
{
case TextAlignmentY.Top: beginy = abspos.y; break;
case TextAlignmentY.Middle: beginy = abspos.y - texturesize.Height * 0.5f; break;
case TextAlignmentY.Bottom: beginy = abspos.y - texturesize.Height; break;
}
//mxd. Skip when not on screen...
RectangleF abssize = new RectangleF(beginx, beginy, texturesize.Width, texturesize.Height);
Size windowsize = General.Map.Graphics.RenderTarget.ClientSize;
skiprendering = (abssize.Right < 0.1f) || (abssize.Left > windowsize.Width) || (abssize.Bottom < 0.1f) || (abssize.Top > windowsize.Height);
if (skiprendering)
{
return;
}
//mxd. Update texture if needed
if (textureupdateneeded)
{
// Get rid of old texture
if (texture != null)
{
texture.Dispose();
texture = null;
}
// Create label image
Bitmap img = CreateLabelImage(text, font, color, backcolor, drawbg, textrect, bgrect, texturesize, textorigin);
//texturesize = img.Size;
// Create texture
MemoryStream memstream = new MemoryStream((img.Size.Width * img.Size.Height * 4) + 4096);
img.Save(memstream, ImageFormat.Bmp);
memstream.Seek(0, SeekOrigin.Begin);
texture = Texture.FromStream(General.Map.Graphics.Device, memstream, (int)memstream.Length,
img.Size.Width, img.Size.Height, 1, Usage.None, Format.Unknown,
Pool.Managed, General.Map.Graphics.PostFilter, General.Map.Graphics.MipGenerateFilter, 0);
}
//mxd. Create the buffer
if (textbuffer == null || textbuffer.Disposed)
{
textbuffer = new VertexBuffer(General.Map.Graphics.Device, 4 * FlatVertex.Stride,
Usage.Dynamic | Usage.WriteOnly, VertexFormat.None, Pool.Default);
}
//mxd. Lock the buffer
using (DataStream stream = textbuffer.Lock(0, 4 * FlatVertex.Stride, LockFlags.Discard | LockFlags.NoSystemLock))
{
FlatQuad quad = new FlatQuad(PrimitiveType.TriangleStrip, beginx, beginy, beginx + texturesize.Width, beginy + texturesize.Height);
stream.WriteRange(quad.Vertices);
}
// Done filling the vertex buffer
textbuffer.Unlock();
}
else
{
// No faces in polygon
textsize = SizeF.Empty; //mxd
texturesize = Size.Empty; //mxd
skiprendering = true; //mxd
}
// Text updated
updateneeded = false;
textureupdateneeded = false; //mxd
}
}
// This adds or updates sector geometry into a buffer.
// Modiies the list of SurfaceEntries with the new surface entry for the stored geometry.
public void UpdateSurfaces(SurfaceEntryCollection entries, SurfaceUpdate update)
{
// Free entries when number of vertices has changed
if ((entries.Count > 0) && (entries.totalvertices != update.numvertices))
{
FreeSurfaces(entries);
entries.Clear();
}
if ((entries.Count == 0) && (update.numvertices > 0))
{
#if DEBUG
if ((update.floorvertices == null) || (update.ceilvertices == null))
{
General.Fail("We need both floor and ceiling vertices when the number of vertices changes!");
}
#endif
// If we have no entries yet, we have to make them now
int vertsremaining = update.numvertices;
while (vertsremaining > 0)
{
// Determine for how many vertices in this entry
int vertsinentry = (vertsremaining > MAX_VERTICES_PER_SECTOR) ? MAX_VERTICES_PER_SECTOR : vertsremaining;
// Lookup the set that holds entries for this number of vertices
SurfaceBufferSet set = GetSet(vertsinentry);
// Make sure we can get a new entry in this set
EnsureFreeBufferSpace(set, 1);
// Get a new entry in this set
SurfaceEntry e = set.holes[set.holes.Count - 1];
set.holes.RemoveAt(set.holes.Count - 1);
set.entries.Add(e);
// Fill the entry data
e.floorvertices = new FlatVertex[vertsinentry];
e.ceilvertices = new FlatVertex[vertsinentry];
Array.Copy(update.floorvertices, update.numvertices - vertsremaining, e.floorvertices, 0, vertsinentry);
Array.Copy(update.ceilvertices, update.numvertices - vertsremaining, e.ceilvertices, 0, vertsinentry);
e.floortexture = update.floortexture;
e.ceiltexture = update.ceiltexture;
entries.Add(e);
vertsremaining -= vertsinentry;
}
}
else
{
// We re-use the same entries, just copy over the updated data
int vertsremaining = update.numvertices;
foreach (SurfaceEntry e in entries)
{
if (update.floorvertices != null)
{
Array.Copy(update.floorvertices, update.numvertices - vertsremaining, e.floorvertices, 0, e.numvertices);
e.floortexture = update.floortexture;
}
if (update.ceilvertices != null)
{
Array.Copy(update.ceilvertices, update.numvertices - vertsremaining, e.ceilvertices, 0, e.numvertices);
e.ceiltexture = update.ceiltexture;
}
vertsremaining -= e.numvertices;
}
}
entries.totalvertices = update.numvertices;
// Time to update or create the buffers
foreach (SurfaceEntry e in entries)
{
SurfaceBufferSet set = GetSet(e.numvertices);
// Update bounding box
e.UpdateBBox();
if (!resourcesunloaded)
{
// Lock the buffer
DataStream bstream;
VertexBuffer vb = set.buffers[e.bufferindex];
if (vb.Tag == null)
{
// Note: DirectX warns me that I am not using LockFlags.Discard or LockFlags.NoOverwrite here,
// but we don't have much of a choice since we want to update our data and not destroy other data
bstream = vb.Lock(0, set.buffersizes[e.bufferindex] * FlatVertex.Stride, LockFlags.None);
vb.Tag = bstream;
lockedbuffers.Add(vb);
}
else
{
bstream = (DataStream)vb.Tag;
}
// Write the vertices to buffer
bstream.Seek(e.vertexoffset * FlatVertex.Stride, SeekOrigin.Begin);
bstream.WriteRange(e.floorvertices);
bstream.WriteRange(e.ceilvertices);
}
}
}
// This sets up the thing cage
private void SetupThingCage()
{
const int totalvertices = 36;
WorldVertex[] tv = new WorldVertex[totalvertices];
float x0 = -1.0f;
float x1 = 1.0f;
float y0 = -1.0f;
float y1 = 1.0f;
float z0 = 0.0f;
float z1 = 1.0f;
float u0 = 0.0f;
float u1 = 1.0f;
float v0 = 0.0f;
float v1 = 1.0f;
int c = -1;
// Front
tv[0] = new WorldVertex(x0, y0, z0, c, u0, v0);
tv[1] = new WorldVertex(x0, y0, z1, c, u0, v1);
tv[2] = new WorldVertex(x1, y0, z0, c, u1, v0);
tv[3] = new WorldVertex(x1, y0, z0, c, u1, v0);
tv[4] = new WorldVertex(x0, y0, z1, c, u0, v1);
tv[5] = new WorldVertex(x1, y0, z1, c, u1, v1);
// Right
tv[6] = new WorldVertex(x1, y0, z0, c, u0, v0);
tv[7] = new WorldVertex(x1, y0, z1, c, u0, v1);
tv[8] = new WorldVertex(x1, y1, z0, c, u1, v0);
tv[9] = new WorldVertex(x1, y1, z0, c, u1, v0);
tv[10] = new WorldVertex(x1, y0, z1, c, u0, v1);
tv[11] = new WorldVertex(x1, y1, z1, c, u1, v1);
// Back
tv[12] = new WorldVertex(x1, y1, z0, c, u0, v0);
tv[13] = new WorldVertex(x1, y1, z1, c, u0, v1);
tv[14] = new WorldVertex(x0, y1, z0, c, u1, v0);
tv[15] = new WorldVertex(x0, y1, z0, c, u1, v0);
tv[16] = new WorldVertex(x1, y1, z1, c, u0, v1);
tv[17] = new WorldVertex(x0, y1, z1, c, u1, v1);
// Left
tv[18] = new WorldVertex(x0, y1, z0, c, u0, v1);
tv[19] = new WorldVertex(x0, y1, z1, c, u0, v0);
tv[20] = new WorldVertex(x0, y0, z1, c, u1, v0);
tv[21] = new WorldVertex(x0, y1, z0, c, u1, v0);
tv[22] = new WorldVertex(x0, y0, z1, c, u0, v1);
tv[23] = new WorldVertex(x0, y0, z0, c, u1, v1);
// Top
tv[24] = new WorldVertex(x0, y0, z1, c, u0, v0);
tv[25] = new WorldVertex(x0, y1, z1, c, u0, v1);
tv[26] = new WorldVertex(x1, y0, z1, c, u1, v0);
tv[27] = new WorldVertex(x1, y0, z1, c, u1, v0);
tv[28] = new WorldVertex(x0, y1, z1, c, u0, v1);
tv[29] = new WorldVertex(x1, y1, z1, c, u1, v1);
// Bottom
tv[30] = new WorldVertex(x1, y0, z0, c, u1, v0);
tv[31] = new WorldVertex(x0, y1, z0, c, u0, v1);
tv[32] = new WorldVertex(x0, y0, z0, c, u0, v0);
tv[33] = new WorldVertex(x1, y0, z0, c, u1, v0);
tv[34] = new WorldVertex(x1, y1, z0, c, u1, v1);
tv[35] = new WorldVertex(x0, y1, z0, c, u0, v1);
// Create vertexbuffer
thingcage = new VertexBuffer(General.Map.Graphics.Device, WorldVertex.Stride * totalvertices,
Usage.WriteOnly | Usage.Dynamic, VertexFormat.None, Pool.Default);
DataStream bufferstream = thingcage.Lock(0, WorldVertex.Stride * totalvertices, LockFlags.Discard);
bufferstream.WriteRange <WorldVertex>(tv);
thingcage.Unlock();
bufferstream.Dispose();
}
// This updates the text if needed
internal void Update(float translatex, float translatey, float scalex, float scaley)
{
FlatVertex[] verts;
RectangleF absview;
float beginx = 0;
float beginy = 0;
bool colorcode = false;
int characters = 0;
byte[] textbytes;
DataStream stream;
// Check if transformation changed and needs to be updated
if (transformcoords)
{
if ((translatex != lasttranslatex) ||
(translatey != lasttranslatey) ||
(scalex != lastscalex) ||
(scaley != lastscaley))
{
updateneeded = true;
}
}
// Update if needed
if (updateneeded)
{
// Only build when there are any vertices
if (text.Length > 0)
{
// Do we have to make a new buffer?
if ((textbuffer == null) || (text.Length > capacity))
{
// Dispose previous
if (textbuffer != null)
{
textbuffer.Dispose();
}
// Determine new capacity
if (capacity < text.Length)
{
capacity = text.Length;
}
// Create the buffer
textbuffer = new VertexBuffer(General.Map.Graphics.Device,
capacity * 12 * FlatVertex.Stride,
Usage.Dynamic | Usage.WriteOnly,
VertexFormat.None, Pool.Default);
}
// Transform?
if (transformcoords)
{
// Calculate absolute coordinates
Vector2D lt = new Vector2D(rect.Left, rect.Top);
Vector2D rb = new Vector2D(rect.Right, rect.Bottom);
lt = lt.GetTransformed(translatex, translatey, scalex, scaley);
rb = rb.GetTransformed(translatex, translatey, scalex, scaley);
absview = new RectangleF(lt.x, lt.y, rb.x - lt.x, rb.y - lt.y);
}
else
{
// Fixed coordinates
absview = rect;
}
// Calculate text dimensions
size = General.Map.Graphics.Font.GetTextSize(text, scale);
// Align the text horizontally
switch (alignx)
{
case TextAlignmentX.Left: beginx = absview.X; break;
case TextAlignmentX.Center: beginx = absview.X + (absview.Width - size.Width) * 0.5f; break;
case TextAlignmentX.Right: beginx = absview.X + absview.Width - size.Width; break;
}
// Align the text vertically
switch (aligny)
{
case TextAlignmentY.Top: beginy = absview.Y; break;
case TextAlignmentY.Middle: beginy = absview.Y + (absview.Height - size.Height) * 0.5f; break;
case TextAlignmentY.Bottom: beginy = absview.Y + absview.Height - size.Height; break;
}
// Get the ASCII bytes for the text
textbytes = Encoding.ASCII.GetBytes(text);
// Lock the buffer
stream = textbuffer.Lock(0, capacity * 12 * FlatVertex.Stride,
LockFlags.Discard | LockFlags.NoSystemLock);
// Go for all chars in text to create the backgrounds
float textx = beginx;
foreach (byte b in textbytes)
{
General.Map.Graphics.Font.SetupVertices(stream, b, scale, backcolor.ToInt(),
ref textx, beginy, size.Height, 0.5f);
}
// Go for all chars in text to create the text
textx = beginx;
foreach (byte b in textbytes)
{
General.Map.Graphics.Font.SetupVertices(stream, b, scale, color.ToInt(),
ref textx, beginy, size.Height, 0.0f);
}
// Done filling the vertex buffer
textbuffer.Unlock();
stream.Dispose();
// Calculate number of triangles
numfaces = text.Length * 4;
}
else
{
// No faces in polygon
numfaces = 0;
size = new SizeF(0f, 0f);
}
// Text updated
updateneeded = false;
}
}
// This adds or updates sector geometry into a buffer.
// Always specify the entry when a previous entry was already given for that sector!
// Sector must set the floorvertices and ceilvertices members on the entry.
// Returns the new surface entry for the stored geometry, floorvertices and ceilvertices will be preserved.
public SurfaceEntry UpdateSurfaces(SurfaceEntry entry)
{
if (entry.floorvertices.Length != entry.ceilvertices.Length)
{
General.Fail("Floor vertices has different length from ceiling vertices!");
}
int numvertices = entry.floorvertices.Length;
// Free entry when number of vertices have changed
if ((entry.numvertices != numvertices) && (entry.numvertices != -1))
{
FreeSurfaces(entry);
}
// Check if we can render this at all
if (numvertices > 0)
{
SurfaceBufferSet set = GetSet(numvertices);
// Update bounding box
entry.UpdateBBox();
// Check if we need a new entry
if (entry.numvertices == -1)
{
EnsureFreeBufferSpace(set, 1);
SurfaceEntry nentry = set.holes[set.holes.Count - 1];
set.holes.RemoveAt(set.holes.Count - 1);
nentry.ceilvertices = entry.ceilvertices;
nentry.floorvertices = entry.floorvertices;
nentry.floortexture = entry.floortexture;
nentry.ceiltexture = entry.ceiltexture;
nentry.bbox = entry.bbox;
set.entries.Add(nentry);
entry = nentry;
}
if (!resourcesunloaded)
{
// Lock the buffer
DataStream bstream;
VertexBuffer vb = set.buffers[entry.bufferindex];
if (vb.Tag == null)
{
// Note: DirectX warns me that I am not using LockFlags.Discard or LockFlags.NoOverwrite here,
// but we don't care (we don't have much of a choice since we want to update our data)
bstream = vb.Lock(0, set.buffersizes[entry.bufferindex] * FlatVertex.Stride, LockFlags.None);
vb.Tag = bstream;
lockedbuffers.Add(vb);
}
else
{
bstream = (DataStream)vb.Tag;
}
// Write the vertices to buffer
bstream.Seek(entry.vertexoffset * FlatVertex.Stride, SeekOrigin.Begin);
bstream.WriteRange(entry.floorvertices);
bstream.WriteRange(entry.ceilvertices);
}
}
return(entry);
}
