public void Initialize()
{
// *** Perform basic init. Set up the bitmap, cache stride, etc
_RenderableChunks = _Config.RenderSubregion ? 0 : _Metrics.NumberOfChunks;
try
{
_OutputMap = new Bitmap((_Config.SubregionChunks.Width + 1) * 16, (_Config.SubregionChunks.Height + 1) * 16, PixelFormat.Format32bppArgb);
_PendingRender = true;
}
catch (OutOfMemoryException)
{
RenderingErrorEventArgs E = new RenderingErrorEventArgs
{
ErrorCode = ErrorNoMemory,
IsFatal = true,
UserErrorMessage =
"Failed to allocate dimension bitmap: memory unavailable. Try rendering a smaller area"
};
if (RenderError != null)
{
RenderError.Invoke(this, E);
}
}
catch (Exception Ex)
{
RenderingErrorEventArgs E = new RenderingErrorEventArgs
{
ErrorException = Ex,
ErrorCode = ErrorNoMemory,
ShowInnerException = true,
IsFatal = true,
UserErrorMessage = "Failed to allocate dimension bitmap."
};
if (RenderError != null)
{
RenderError.Invoke(this, E);
}
}
_RenderTarget = _OutputMap.LockBits(new Rectangle(0, 0, _OutputMap.Width, _OutputMap.Height), ImageLockMode.ReadWrite, PixelFormat.Format32bppArgb);
_Stride = _RenderTarget.Stride;
}
/// <summary>
/// Propagate the Render Error event from root container.
/// </summary>
protected virtual void OnRenderError(HtmlRenderErrorEventArgs e)
{
RenderError?.Invoke(this, e);
}
// ReSharper disable once FunctionComplexityOverflow
// *** I do ^ because this function is the 'hottest' block of code in the program, and saving cycles during execution is ridiculously important here.
void RenderChunk(ChunkRef Chunk, ParallelLoopState LoopState)
{
// *** Track how many chunks have been processed, for user feedback
Interlocked.Increment(ref _ProcessedChunks);
Interlocked.Increment(ref _ActiveRenderThreads);
#if !DEBUG && !FAST
// *** In release mode, gracefully handle bad chunks. Explode in debug mode so I can track down the issue.
try
{
#endif
int[][] DepthOpacities = _ColourPalette.DepthOpacities;
// *** Cancellation logic for parallel processing
if (LoopState != null && _Cancellation.IsCancellationRequested)
{
LoopState.Stop();
}
if (LoopState != null && LoopState.IsStopped)
{
Interlocked.Decrement(ref _ActiveRenderThreads);
return;
}
// *** Hold off on rendering if the user needs to attend to an issue
while (_PauseRendering > 0)
{
Thread.Sleep(50);
}
// *** Load the chunk from disk here
AlphaBlockCollection Blocks = Chunk.Blocks;
for (int X = 0; X < 16; X++)
{
for (int Z = 0; Z < 16; Z++)
{
// *** Start by finding the topmost block to render
int EndY = _RenderStartY(Blocks, X, Z);
int Y = EndY;
if (Y < 0)
{
continue; // *** No valid renderable blocks in this column, so continue with the next column
}
// *** Drill into the column to determine how many blocks down to render
int RenderVal = 255;
while (RenderVal > 0)
{
RenderVal -= DepthOpacities[Blocks.GetID(X, Y, Z)][Blocks.GetData(X, Y, Z)];
if (Y == 0) // *** If we've hit the bottom of the map, don't try and keep going.
{
break; // *** It wouldn't end well.
}
Y--;
}
Colour SetColour = Colour.Transparent; // *** What colour to set the current column's pixel to.
// *** The Block-Metadata palette for this column's biome
Colour[][] BiomePalette = _ColourPalette.FastPalette[Chunk.Biomes.GetBiome(X, Z)];
for (; Y <= EndY; Y++) // *** Now render up from the lowest block to the starting block
{
// *** For each block we render, grab its palette entry.
Colour Entry = BiomePalette[Blocks.GetID(X, Y, Z)][Blocks.GetData(X, Y, Z)];
// *** If it has an associated entity colours list, then it needs special consideration to get its colour
if ((Entry.Color & 0xFFFF0000U) == 0x00FF0000U) // *** Check for the flag value (0 Alpha, 255 Red - Blue and Green form the 0-65535 index)
{
PaletteEntry Entry2 = _ColourPalette.GetPaletteEntry((int)(Entry.Color & 0x0000FFFFU)).First(e => e.IsMatch(Blocks.GetData(X, Y, Z), Blocks.SafeGetTileEntity(X, Y, Z)));
if (Entry2 != null)
{
Entry = Entry2.Color;
}
}
if (Entry.A == 0)
{
continue; // *** If we're trying to render air, let's not.
}
// *** Blend in our working colour to the column's pixel, after applying altitude and light-level blends.
SetColour.Blend(Entry.Copy().LightLevel((uint)Math.Max(_Config.MinLightLevel, Blocks.GetBlockLight(X, Math.Min(Y + 1, 255), Z))).Altitude(Y));
}
Marshal.WriteInt32(_RenderTarget.Scan0 + (_Stride * (((Chunk.Z - _Config.SubregionChunks.Y) << 4) + Z)) + ((((Chunk.X - _Config.SubregionChunks.X) << 4) + X) << 2), (int)SetColour.FullAlpha().Color);
}
}
#if !DEBUG && !FAST // *** When not running in debug mode, chunks that fail to render should NOT crash everything.
}
catch (Exception Ex)
{
Interlocked.Increment(ref _PauseRendering);
_CorruptChunks = true;
RenderingErrorEventArgs E = new RenderingErrorEventArgs
{
ErrorException = Ex,
IsFatal = false,
UserErrorMessage = "A chunk failed to render",
ErrorCode = ErrorBadChunk
};
if (RenderError != null)
{
RenderError.Invoke(this, E);
}
Interlocked.Decrement(ref _PauseRendering);
}
#endif
Interlocked.Decrement(ref _ActiveRenderThreads);
}
// *** Rendering Functions
public void Render()
{
// *** Define the chunk query, in order to cleanly support subregions
IEnumerable <ChunkRef> ChunkProvider = from ChunkRef Chunk in _Chunks
where !_Config.RenderSubregion || _Config.SubregionChunks.ContainsPoint(Chunk.X, Chunk.Z)
select Chunk;
_PendingRender = false;
// *** If rendering a subregion, then wipe the _RenderableChunks var and recalculate it from the number of chunks in the subregion, not the world
if (_Config.RenderSubregion)
{
_RenderableChunks = ChunkProvider.Count();
}
// *** If rendering was cancelled between init and now, abort.
if (_Cancellation.IsCancellationRequested)
{
_OutputMap.Dispose();
_OutputMap = null;
return;
}
// *** Render
if (_Config.EnableMultithreading)
{
Thread UpdateThread = new Thread(DisplayProgress);
UpdateThread.Start();
_RenderingParallelOptions.CancellationToken = _Cancellation.Token;
_RenderingParallelOptions.MaxDegreeOfParallelism = _Config.MaxThreads;
try
{
Parallel.ForEach(ChunkProvider, _RenderingParallelOptions, RenderChunk);
UpdateThread.Join();
}
catch (OperationCanceledException)
{
// Discard exception - this just means the user cancelled.
}
}
else
{
foreach (ChunkRef Chunk in ChunkProvider)
{
RenderChunk(Chunk, null);
if (_Cancellation.IsCancellationRequested)
{
break;
}
DoProgressUpdate();
}
}
_OutputMap.UnlockBits(_RenderTarget);
if (_Cancellation.IsCancellationRequested)
{
_OutputMap.Dispose();
_OutputMap = null;
return;
}
// *** If this is not a preview, then make sure the output directory exists then save the output bitmap
if (!_Config.IsPreview)
{
// ReSharper disable once AssignNullToNotNullAttribute
Directory.CreateDirectory(Path.GetDirectoryName(_Config.SaveFilename));
_OutputMap.Save(_Config.SaveFilename);
_OutputMap.Dispose();
_OutputMap = null;
}
// *** If a chunk failed to render, let the user know. Unless we aborted, because there's no point then.
if (_CorruptChunks)
{
RenderingErrorEventArgs E = new RenderingErrorEventArgs
{
ErrorCode = ErrorErrors,
IsFatal = true,
UserErrorMessage =
"WARNING: At least one potentially corrupt chunk was encountered during rendering.\r\nThe map image may contain missing sections as a result."
};
if (RenderError != null)
{
RenderError.Invoke(this, E);
}
}
}
