public void TileImage(Tile tile)
{
lock (tile)
{
if (tile.Thumbnail == null)
{
return;
}
float xscaleFactor = (float)this.scaledWidth / MosaicWindow.MosaicInfo.TotalWidth;
float yscaleFactor = (float)this.scaledHeight / MosaicWindow.MosaicInfo.TotalHeight;
Size scaledSize = new Size((int)(tile.Width * xscaleFactor + 0.5),
(int)(tile.Height * yscaleFactor + 0.5));
Point scaledPosition = new Point();
scaledPosition.X = (int)(tile.Position.X * xscaleFactor + 0.5);
scaledPosition.Y = (int)(tile.Position.Y * yscaleFactor + 0.5);
Rectangle dstRect = new Rectangle(scaledPosition, scaledSize);
FreeImageAlgorithmsBitmap thumb = null;
lock (tile.ThumbnailLock)
{
thumb = new FreeImageAlgorithmsBitmap(tile.Thumbnail);
}
thumb.ConvertToStandardType(true);
if (thumb.IsGreyScale)
{
thumb.LinearScaleToStandardType(MosaicWindow.MosaicInfo.ThumbnailScaleMinIntensity,
MosaicWindow.MosaicInfo.ThumbnailScaleMaxIntensity);
thumb.SetGreyLevelPalette();
}
if (thumb.ImageType != FREE_IMAGE_TYPE.FIT_BITMAP)
{
MessageBox.Show("Failed to convert tile thumbnail to a standard type ?");
}
thumb.Rescale(dstRect.Size, FREE_IMAGE_FILTER.FILTER_BOX);
thumb.ConvertTo24Bits();
this.bitmap.PasteFromTopLeft(thumb, dstRect.Location, this.imageViewer.BlendingEnabled);
thumb.Dispose();
}
this.Invalidate();
}
private void OnTileCorrelated(CorrelationTile tile, Rectangle bounds, FreeImageAlgorithmsBitmap fib, bool success)
{
this.tiledImageViewer.AddTile(bounds, fib);
this.tiledImageViewer.Refresh();
#if DEBUG
if (success == false)
{
FreeImageAlgorithmsBitmap bg = new FreeImageAlgorithmsBitmap(this.correlator.BackgroundImage);
bg.ConvertTo24Bits();
bg.DrawColourRect(tile.OriginalBoundsRelativeToOrigin, Color.Red, 2);
this.debugForm.BackgroundImageView.Image = bg.ToBitmap();
bg.Dispose();
}
this.debugForm.Refresh();
#endif
}
private void OnTileCorrelationBegin(CorrelationTile tile, FreeImageAlgorithmsBitmap fib)
{
this.useCorrelationCheckBox.Checked = false;
this.currentTile = tile;
#if DEBUG
FreeImageAlgorithmsBitmap fg = new FreeImageAlgorithmsBitmap(fib);
fg.ConvertToStandardType(true);
fg.ConvertTo24Bits();
this.debugForm.TileImageView.Image = fg.ToBitmap();
this.debugForm.BackgroundImageView.Refresh();
this.debugForm.TileImageView.Refresh();
fg.Dispose();
#endif
}
private void SaveScreenShot()
{
string filePath = Utilities.SaveDialog(true);
if (filePath == null)
{
return;
}
Bitmap bitmap = this.imageView.ScreenBitmap;
Graphics g = Graphics.FromImage(bitmap);
g.InterpolationMode = System.Drawing.Drawing2D.InterpolationMode.HighQualityBilinear;
OnSavingScreenShot(g, new MosaicWindowEventArgs(MosaicWindow.MosaicInfo));
FreeImageAlgorithmsBitmap fib = new FreeImageAlgorithmsBitmap(bitmap);
fib.ConvertTo24Bits();
g.Dispose();
bitmap.Dispose();
string extension = Path.GetExtension(filePath);
if (extension != ".ics")
{
fib.SaveToFile(filePath);
}
else
{
IcsFile.SaveToFile(fib, filePath, true);
}
fib.Dispose();
}
private void OnIdle(object sender, EventArgs e)
{
// Nothing todo.
if (this.preventIdleProcessing == true)
{
return;
}
if (this.highResBitmapReady == true)
{
return;
}
if (this.imageSize.IsEmpty)
{
return;
}
if (this.highResBitmap == null)
{
return;
}
if (this.intermediateBitmapDrawn == true && this.NumberOfTilesExceedCacheThreshold)
{
return;
}
this.Cursor = Cursors.WaitCursor;
Rectangle viewRect = ViewedImageSectionRect;
this.idleTiles = Tile.GetTilesIntersectingRectangle(MosaicWindow.MosaicInfo.Items, viewRect);
// Go through the tiles and draw them at the highest resolution.
// This is where gradient blending should go also.
if (this.highResBitmapReady == false && this.currentTileIdleProcess < this.idleTiles.Count)
{
Tile tile = this.idleTiles[this.currentTileIdleProcess];
FreeImageAlgorithmsBitmap fib = tile.LoadFreeImageBitmap();
if (fib.IsGreyScale)
{
fib.LinearScaleToStandardType(mosaicInfo.ScaleMinIntensity, mosaicInfo.ScaleMaxIntensity);
fib.SetGreyLevelPalette();
}
fib.ConvertTo24Bits();
if (this.zoom < 1.0)
{
fib.Rescale(new Size((int)(fib.Width * this.zoom), (int)(fib.Height * this.zoom)), FREE_IMAGE_FILTER.FILTER_BILINEAR);
}
Point pos = new Point();
// We may be using the thumbnails to display so
// we need to work out the scaled coordinates if the zoom is < 1.0
// For 1.0 and above we draw in native res just the area we can see on the screen.
if (this.zoom < 1.0f)
{
pos = tile.Position;
pos.X = (int)(tile.Position.X - viewRect.Location.X + 0.5);
pos.Y = (int)(tile.Position.Y - viewRect.Location.Y + 0.5);
pos.X = (int)(this.zoom * pos.X);
pos.Y = (int)(this.zoom * pos.Y);
}
else
{
pos.X = tile.Position.X - viewRect.Location.X;
pos.Y = tile.Position.Y - viewRect.Location.Y;
}
lastIdleTileRectangles.Add(new Rectangle(pos, fib.Size));
if (highResBitmap.Bounds.IntersectsWith(new Rectangle(pos, fib.Size)))
{
highResBitmap.PasteFromTopLeft(fib, pos, this.blendingEnabled);
}
this.highResBitmapIsReset = false;
fib.Dispose();
// We have completed the last tile
if (this.currentTileIdleProcess == this.idleTiles.Count - 1)
{
// We are finished with the highres tiles
// Draw the joins if neccessary
if (this.ShowJoins)
{
int i = 0;
foreach (Tile t in this.idleTiles)
{
highResBitmap.DrawColourRect(lastIdleTileRectangles[i++], Color.Red, 2);
}
}
lastIdleTileSize.Width = (int)(Tile.GetHorizontalRangeOfTiles(idleTiles) * this.zoom);
lastIdleTileSize.Height = (int)(Tile.GetVerticalRangeOfTiles(idleTiles) * this.zoom);
this.Cursor = Cursors.Default;
this.highResBitmapReady = true;
}
this.currentTileIdleProcess++;
this.Invalidate();
}
}