private static void Lighting(ref Camera camera)
{
PixHelper.BeginEvent(Color.Zero, "Lighting");
{
Context.ClearRenderTargetView(camera.BackBuffer, Color.Zero);
Context.OutputMerger.SetTargets((DepthStencilView)null, camera.BackBuffer);
Context.PixelShader.SetShaderResources(0, camera.Buffer0,
camera.Buffer1,
camera.Buffer2,
camera.Buffer3,
camera.DepthStencilBuffer,
Game.Lighting.Skybox?.IrradianceMap?.Texture,
Game.Lighting.Skybox?.RadianceMap?.Texture);
Context.PixelShader.SetConstantBuffers(0, camera.Constants, Services.Lighting.LightingConstantBuffer);
LightingPass.Use(ref Context);
Context.Draw(4, 0);
Context.CopyResource(camera.BackBuffer.NativeTexture, camera.Buffer0.NativeTexture);
Context.PixelShader.SetShaderResources(0, null, null, null, null, null, null, null, null);
}
PixHelper.EndEvent();
}
private static void DrawScreenGuis(Camera camera)
{
PixHelper.BeginEvent(Color.Zero, "ScreenGuis");
{
if (camera.RenderTarget2D == null)
{
return;
}
var starterGui = Game.StarterGui;
lock (camera.Locker)
{
var collectors = camera.LayerCollectors;
var count = collectors.Count;
for (var i = 0; i < count; i++)
{
var gui = collectors[i];
if ((RunService.SimulationState != SimulationState.Stopped) && (gui.Parent == starterGui))
{
continue;
}
gui.Render();
}
}
}
PixHelper.EndEvent();
}
public static void End()
{
Push();
#if DEBUG
PixHelper.EndEvent();
#endif
}
/// <summary>
/// Sets a profiling marker.
/// </summary>
/// <param name="color">The color.</param>
/// <param name="name">The name.</param>
public void SetMarker(ColorBGRA color, string name)
{
if (!Enabled)
{
return;
}
#if !W8CORE && !WINDOWS_UWP
PixHelper.SetMarker(color, name);
#endif
// TODO Add code for Direct3D11.1 annotation API
}
/// <summary>
/// Sets a profiling marker.
/// </summary>
/// <param name="color">The color.</param>
/// <param name="formatName">Name of the format.</param>
/// <param name="parameters">The parameters.</param>
public void SetMarker(ColorBGRA color, string formatName, params object[] parameters)
{
if (!Enabled)
{
return;
}
#if !W8CORE
PixHelper.SetMarker(color, formatName, parameters);
#endif
// TODO Add code for Direct3D11.1 annotation API
}
/// <summary>
/// Ends the current section of profiling (must match with a begin).
/// </summary>
public void End()
{
if (!Enabled)
{
return;
}
#if !W8CORE
PixHelper.EndEvent();
#endif
// TODO Add code for Direct3D11.1 annotation API
}
/// <summary>
/// Begins a section of profiling.
/// </summary>
/// <param name="color">The color.</param>
/// <param name="name">The name.</param>
public void Begin(ColorBGRA color, string name)
{
if (!Enabled)
{
return;
}
#if !W8CORE
PixHelper.BeginEvent(color, name);
#endif
// TODO Add code for Direct3D11.1 annotation API
}
/// <summary>
/// Begins a section of profiling.
/// </summary>
/// <param name="color">The color.</param>
/// <param name="formatName">Name of the format.</param>
/// <param name="parameters">The parameters.</param>
public void Begin(ColorBGRA color, string formatName, params object[] parameters)
{
if (!Enabled)
{
return;
}
#if !W8CORE && !WINDOWS_UWP
PixHelper.BeginEvent(color, formatName, parameters);
#endif
// TODO Add code for Direct3D11.1 annotation API
}
public void Reduce(DeviceContext context, ShaderResourceView from)
{
PixHelper.BeginEvent(Color.Green, "MinMax {0}x{0}", 1 << ReduceFactor);
context.InputAssembler.InputLayout = layout;
context.InputAssembler.PrimitiveTopology = PrimitiveTopology.TriangleStrip;
context.InputAssembler.SetVertexBuffers(0, new VertexBufferBinding(vertices, sizeof(float) * 2, 0));
context.VertexShader.Set(vertexShader);
var viewport = new Viewport(0, 0, Size.Width, Size.Height);
int maxLevels = texture2DMinMaxResourceView.Length;
int lastSampleLevel = maxLevels % ReduceFactor;
int levels = maxLevels / ReduceFactor;
passCount = levels + (lastSampleLevel > 0 ? 1 : 0);
for (int i = 0; i < passCount; i++)
{
int shaderIndex = ReduceFactor;
int levelIndex = (i + 1) * ReduceFactor - 1;
viewport.Width = Math.Max(((int)Size.Width) / (1 << (levelIndex + 1)), 1);
viewport.Height = Math.Max(((int)Size.Height) / (1 << (levelIndex + 1)), 1);
PixHelper.BeginEvent(Color.GreenYellow, "MinMax Level {0} Size: ({1},{2})", levelIndex, viewport.Width, viewport.Height);
// Special case when last level is different from ReduceFactor size
if (i == levels)
{
levelIndex = maxLevels - 1;
shaderIndex = lastSampleLevel;
viewport.Width = 1;
viewport.Height = 1;
}
context.PixelShader.Set(i == 0 ? pixelShaderMinMaxBegin[shaderIndex - 1] : pixelShaderMinMax[shaderIndex - 1]);
context.PixelShader.SetSampler(0, sampler);
context.PixelShader.SetShaderResource(0, from);
context.Rasterizer.SetViewport(viewport);
//context.ClearRenderTargetView(texture2DMinMaxRenderView[levelIndex], Colors.Black);
context.OutputMerger.SetTargets(texture2DMinMaxRenderView[levelIndex]);
context.Draw(4, 0);
context.PixelShader.SetShaderResource(0, null);
context.OutputMerger.ResetTargets();
from = texture2DMinMaxResourceView[levelIndex];
PixHelper.EndEvent();
}
PixHelper.EndEvent();
}
public static void Render()
{
int count;
PrepareConstant();
//*****************************
#if DEBUG
PixHelper.BeginEvent(Color.Orange, "SM : Solid Rendering");
#endif
Pass = RenderPass.Solid;
count = Renderable_Solids.Length;
for (int i = 0; i < count; i++)
{
Renderable_Solids[i].Render();
}
#if DEBUG
PixHelper.EndEvent();
#endif
//*****************************
#if DEBUG
PixHelper.BeginEvent(Color.Orange, "SM : Transparent Rendering");
#endif
Pass = RenderPass.Transparent;
count = Renderable_Transparents.Length;
for (int i = 0; i < count; i++)
{
Renderable_Transparents[i].Render();
}
#if DEBUG
PixHelper.EndEvent();
#endif
//*****************************
Display.context.ResolveSubresource(Display.backBuffer, 0, Display.backBufferCopy, 0, Format.R8G8B8A8_UNorm);
#if DEBUG
PixHelper.BeginEvent(Color.Orange, "SM : Special Rendering");
#endif
Pass = RenderPass.Post;
count = Renderable_Posts.Length;
for (int i = 0; i < count; i++)
{
Renderable_Posts[i].Render();
}
#if DEBUG
PixHelper.EndEvent();
#endif
}
private static void PostProcess(ref Camera camera)
{
PixHelper.BeginEvent(Color.Zero, "Post Processing");
{
var postEffects = camera.PostEffects;
lock (camera.PostEffectsLocker)
{
for (var i = 0; i < postEffects.Count; i++)
{
camera.PostEffects[i].Render(ref Context);
}
}
}
PixHelper.EndEvent();
}
private static void Draw3DGuis(Camera camera)
{
//if (camera != Game.FocusedCamera) return;
PixHelper.BeginEvent(Color.Zero, "3D Guis");
lock (camera.Locker)
{
var guis = camera.Gui3Ds;
var count = guis.Count;
for (var i = 0; i < count; i++)
{
guis[i].Draw(ref Context, ref camera);
}
}
PixHelper.EndEvent();
}
internal void Draw(ref DeviceContext context)
{
PixHelper.BeginEvent(Color.Zero, "Terrain");
if (_terrainPass == null)
{
_terrainShader = Shaders.Get("Terrain");
_terrainPass = _terrainShader.GetPass("Main");
}
lock (Renderer.Context)
{
_terrainPass.Use(ref context);
foreach (var chunk in _chunks)
{
chunk.Value.Draw(ref context);
}
}
PixHelper.EndEvent();
}
/// <summary>
/// Draws instances to the current render target.
/// </summary>
public void Draw(ref DeviceContext context, ref Camera camera, bool pix = true)
{
if (!IsBuilt)
{
Build();
}
if (_bufferDirty)
{
Update(ref context);
}
if (InstanceCount == 0)
{
return;
}
if (pix)
{
PixHelper.BeginEvent(Color.Red, Name);
}
var newTopology = Geometry.PrimitiveTopology;
if (newTopology != context.InputAssembler.PrimitiveTopology)
{
context.InputAssembler.PrimitiveTopology = Geometry.PrimitiveTopology;
}
context.InputAssembler.SetVertexBuffers(0, Bindings);
context.InputAssembler.SetIndexBuffer(Geometry.IndexBuffer, Format.R32_UInt, 0);
context.DrawIndexedInstanced(Geometry.IndexCount, InstanceCount, 0, 0, 0);
if (pix)
{
PixHelper.EndEvent();
}
}
public static void Begin()
{
#if DEBUG
PixHelper.BeginEvent(Color.Orange, "QuadRenderer Batch");
#endif
spritesDrawn = -1;
vertices.Clear();
Display.context.VertexShader.SetConstantBuffer(0, Display.screenBuffer);
GraphicsManager.SetRastState(DeviceStates.rastStateDrawing);
GraphicsManager.SetDepthState(DeviceStates.depthDisabled);
GraphicsManager.SetBlendState(DeviceStates.blendStateTrans);
GraphicsManager.SetPrimitiveTopology(PrimitiveTopology.TriangleList);
ShaderManager.Apply("VS_2D");
ShaderManager.Apply("PS_2D");
Display.context.InputAssembler.SetIndexBuffer(indexBuffer, SharpDX.DXGI.Format.R16_UInt, 0);
Display.context.InputAssembler.SetVertexBuffers(0, vertexBufferBind);
ResetCut();
//Display.context.Rasterizer.SetScissorRectangles(new Rectangle(0, 0, Display.width, Display.height));
}
/// <summary>
/// Draws the scene from the perspective of the given camera to its <see cref="Camera.BackBuffer" />
/// </summary>
internal static void Render(IWorld world, PassType passes)
{
if (!world.IsRenderable)
{
return;
}
var camera = world.CurrentCamera;
if (camera == null)
{
return;
}
lock (Locker)
{
if (camera.NeedsResize && (camera.SwapChain != null))
{
camera.Resize(Device);
return;
}
if (!camera.CanRender)
{
return;
}
if (passes.HasFlag(PassType.Shadow))
{
Shadows.RenderShadowMap(ref Context, ref world, ref camera);
}
if (passes.HasFlag(PassType.Scene))
{
PixHelper.BeginEvent(Color.Zero, "Geometry");
{
Context.Rasterizer.SetViewport(camera.Viewport);
Context.ClearDepthStencilView(camera.DepthStencilBuffer,
DepthStencilClearFlags.Depth | DepthStencilClearFlags.Stencil, 1, 0);
Context.ClearRenderTargetView(camera.Buffer0, Color.Zero);
Context.ClearRenderTargetView(camera.Buffer1, Color.Zero);
Context.ClearRenderTargetView(camera.Buffer2, Color.Zero);
Context.ClearRenderTargetView(camera.Buffer3, Color.Zero);
camera.UpdateConstants(ref Context);
Context.OutputMerger.SetRenderTargets(camera.DepthStencilBuffer,
camera.Buffer0,
camera.Buffer1,
camera.Buffer2,
camera.Buffer3);
CurrentPassType = PassType.Scene;
#pragma warning disable CS0728 // Possibly incorrect assignment to local which is the argument to a using or lock statement
world.RenderObjectProvider.Draw(ref Context, ref camera, false);
if (ReferenceEquals(world, Game.Workspace))
{
Game.Workspace.Terrain.Draw(ref Context);
}
#pragma warning restore CS0728 // Possibly incorrect assignment to local which is the argument to a using or lock statement
}
PixHelper.EndEvent();
if (passes.HasFlag(PassType.PhysicsDebug))
{
PixHelper.BeginEvent(Color.Zero, "Physics Debug");
world.Physics?.DrawWorld(ref Context, ref camera);
PixHelper.EndEvent();
}
}
else if (passes.HasFlag(PassType.Reflection))
{
}
if (passes.HasFlag(PassType.Lighting))
{
Atmosphere.Atmosphere.Update();
Lighting(ref camera); // rt is set to camera's backbuffer here.
}
if (passes.HasFlag(PassType.PostProcess))
{
CurrentPassType = PassType.PostProcess;
PostProcess(ref camera); // uses camera's back buffer
}
if (passes.HasFlag(PassType.GUI))
{
CurrentPassType = PassType.GUI;
// uses camera's back buffer
Draw3DGuis(camera);
DrawSurfaceGuis();
DrawBillboardGuis(camera);
DrawScreenGuis(camera);
}
if (camera.RenderHandle == IntPtr.Zero)
{
Context.Flush();
}
else
{
camera.SwapChain.Present(1, 0);
}
}
}
internal override void Draw(ref DeviceContext context, ref Camera camera)
{
var adornee = Adornee;
if (adornee == null || Visible == false)
{
return;
}
PixHelper.BeginEvent(Color.Zero, "ArcHandles");
Renderer.AdornSelfLitPass.Use(ref context);
var adorneeCF = adornee.CFrame;
var adorneeSize = adornee.Size;
GetDistanceToNormals(10, 0.6f, ref adorneeCF, ref adorneeSize, ref _scales);
var radius = adorneeSize.max() * 0.75f;
for (int i = 0; i < 6; i++)
{
var sphere = _spheres[i];
var normalId = (NormalId)i;
sphere.CFrame = adorneeCF + (Vector3.FromNormalId(normalId) * radius);
sphere.Size = new Vector3(_scales[i]);
sphere.UpdateRenderData();
sphere.Draw(ref context, ref camera);
}
for (int i = 0; i < 3; i++)
{
CFrame angle;
if (i == 0)
{
angle = CFrame.Identity;
}
else if (i == 1)
{
angle = CFrame.Angles(0, Mathf.Pi / 2, 0);
}
else
{
angle = CFrame.Identity;
}
for (int j = 0; j < _segments; j++)
{
var cylinder = _cylinders[i * j];
cylinder.Size = _cylinderSize * (radius / 256);
var sine = Mathf.Sin((360 / _segments + 360 / _segments * j) / (180 / Mathf.Pi));
var cosine = Mathf.Cos((360 / _segments + 360 / _segments * j) / (180 / Mathf.Pi));
var cframe = (adorneeCF) + new Vector3(radius * sine, 0, radius * cosine);
cylinder.CFrame = cframe *
CFrame.Angles(0, (360 / _segments + 360 / _segments * j) / (180 / Mathf.Pi),
Mathf.Pi / 2);
cylinder.UpdateRenderData();
cylinder.Draw(ref context, ref camera);
}
}
PixHelper.EndEvent();
}
public static void RenderShadowMap(ref DeviceContext context, ref IWorld world, ref Camera camera)
{
PixHelper.BeginEvent(default(RawColorBGRA), "Shadow Rendering");
{
if (ShadowMapsNeedRemade)
CreateShadowMaps();
var shadowMapSize = ShadowMap.Width;
if (AreSplitsDirty || camera != _lastCamera)
ComputeSplits(ref camera);
_lastCamera = camera;
MakeGlobalShadowMatrix(ref camera, out ReceiverConstants.Data.ShadowMatrix);
context.Rasterizer.SetViewport(_viewport);
for (int cascadeIndex = 0; cascadeIndex < CascadeCount; ++cascadeIndex)
{
PixHelper.BeginEvent(default(RawColorBGRA), "Cascade");
{
ResetFrustumCorners(ref _frustumCorners);
var prevSplitDist = cascadeIndex == 0 ? MinCascadeDistance : _cascadeSplits[cascadeIndex - 1];
var splitDist = _cascadeSplits[cascadeIndex];
for (int i = 0; i < 8; i++)
DxVector3.TransformCoordinate(ref _frustumCorners[i],
ref camera.Constants.Data.InverseViewProjection, out _frustumCorners[i]);
for (int i = 0; i < 4; i++)
{
DxVector3 cornerRay;
DxVector3 nearCornerRay;
DxVector3 farCornerRay;
DxVector3.Subtract(ref _frustumCorners[i + 4], ref _frustumCorners[i], out cornerRay);
DxVector3.Multiply(ref cornerRay, prevSplitDist, out nearCornerRay);
DxVector3.Multiply(ref cornerRay, splitDist, out farCornerRay);
DxVector3.Add(ref _frustumCorners[i], ref farCornerRay, out _frustumCorners[i + 4]);
DxVector3.Add(ref _frustumCorners[i], ref nearCornerRay, out _frustumCorners[i]);
}
var frustumCenter = DxVector3.Zero;
for (int i = 0; i < 8; i++)
DxVector3.Add(ref frustumCenter, ref _frustumCorners[i], out frustumCenter);
DxVector3.Multiply(ref frustumCenter, 0.125F, out frustumCenter);
var upDir = DxVector3.Up;
float sphereRadius = 0.0f;
for (int i = 0; i < 8; ++i)
{
DxVector3 sum;
DxVector3.Subtract(ref _frustumCorners[i], ref frustumCenter, out sum);
sphereRadius = Math.Max(sphereRadius, sum.Length());
}
sphereRadius = (float)Math.Ceiling(sphereRadius * 16.0f) / 16.0f;
var maxExtents = new DxVector3(sphereRadius, sphereRadius, sphereRadius);
DxVector3 minExtents;
DxVector3.Negate(ref maxExtents, out minExtents);
DxVector3 cascadeExtents;
DxVector3.Subtract(ref maxExtents, ref minExtents, out cascadeExtents);
// TODO: optimize
var shadowCameraPos = frustumCenter + Direction * -minExtents.Z;
Matrix viewMatrix;
Matrix projectionMatrix;
Matrix viewProjMatrix;
Matrix.LookAtLH(ref shadowCameraPos, ref frustumCenter, ref upDir, out viewMatrix);
Matrix.OrthoOffCenterLH(minExtents.X, maxExtents.X, minExtents.Y,
maxExtents.Y, 0.0f, cascadeExtents.Z, out projectionMatrix);
Matrix.Multiply(ref viewMatrix, ref projectionMatrix, out viewProjMatrix);
var shadowOrigin = DxVector4.UnitW;
DxVector4.Transform(ref shadowOrigin, ref viewProjMatrix, out shadowOrigin);
DxVector4.Multiply(ref shadowOrigin, shadowMapSize / 2.0f, out shadowOrigin);
var roundedOrigin = new DxVector4(Mathf.Round(shadowOrigin.X), Mathf.Round(shadowOrigin.Y),
Mathf.Round(shadowOrigin.Z), Mathf.Round(shadowOrigin.W));
DxVector4 roundOffset;
DxVector4.Subtract(ref roundedOrigin, ref shadowOrigin, out roundOffset);
DxVector4.Multiply(ref roundOffset, 2.0f / shadowMapSize, out roundOffset);
roundOffset.Z = 0.0f;
roundOffset.W = 0.0f;
projectionMatrix.Row4 += roundOffset; // R[3]
Matrix.Multiply(ref viewMatrix, ref projectionMatrix, out viewProjMatrix);
// RenderDepthCPU
SetupRenderDepthState(ref context, ref viewProjMatrix, cascadeIndex);
world.RenderObjectProvider.Draw(ref context, ref camera, true);
var texScaleBias = new Matrix
{
Row1 = new SharpDX.Vector4(0.5f, 0.0f, 0.0f, 0.0f),
Row2 = new SharpDX.Vector4(0.0f, -0.5f, 0.0f, 0.0f),
Row3 = new SharpDX.Vector4(0.0f, 0.0f, 1.0f, 0.0f),
Row4 = new SharpDX.Vector4(0.5f, 0.5f, 0.0f, 1.0f)
};
Matrix.Multiply(ref viewProjMatrix, ref texScaleBias, out viewProjMatrix);
var clipNear = camera.ClipNear;
var clipFar = camera.ClipFar;
var clipDist = clipFar - clipNear;
ReceiverConstants.Data.CascadeSplits[cascadeIndex] = clipNear + splitDist * clipDist;
Matrix invCascadeMatrix;
Matrix.Invert(ref viewProjMatrix, out invCascadeMatrix);
var zero = DxVector3.Zero;
DxVector3 cascadeCorner;
DxVector3.TransformCoordinate(ref zero, ref invCascadeMatrix, out cascadeCorner);
DxVector3.TransformCoordinate(ref cascadeCorner, ref ReceiverConstants.Data.ShadowMatrix,
out cascadeCorner);
var one = DxVector3.One;
DxVector3 otherCorner;
DxVector3.TransformCoordinate(ref one, ref invCascadeMatrix, out otherCorner);
DxVector3.TransformCoordinate(ref otherCorner, ref ReceiverConstants.Data.ShadowMatrix, out otherCorner);
var cascadeScale = DxVector3.One / (otherCorner - cascadeCorner);
ReceiverConstants.Data.CascadeOffsets[cascadeIndex] = new DxVector4(-cascadeCorner, 0.0f);
ReceiverConstants.Data.CascadeScales[cascadeIndex] = new DxVector4(cascadeScale, 1.0f);
if (RenderSettings.UseFilterableShadows)
ConvertToVsm(ref context, cascadeIndex,
ref ReceiverConstants.Data.CascadeSplits[cascadeIndex],
ref ReceiverConstants.Data.CascadeScales[0]);
}
PixHelper.EndEvent();
}
}
PixHelper.EndEvent();
DataStream stream;
context.MapSubresource(ReceiverConstants.Buffer, MapMode.WriteDiscard, MapFlags.None, out stream);
stream.Write(ReceiverConstants.Data.ShadowMatrix);
stream.WriteRange(ReceiverConstants.Data.CascadeSplits, 0, 4);
stream.WriteRange(ReceiverConstants.Data.CascadeOffsets, 0, 4);
stream.WriteRange(ReceiverConstants.Data.CascadeScales, 0, 4);
stream.Write(ReceiverConstants.Data.ShadowDepthBias);
stream.Write(ReceiverConstants.Data.ShadowOffsetScale);
stream.Write(ReceiverConstants.Data.VisualizeCascades);
context.UnmapSubresource(ReceiverConstants.Buffer, 0);
//ReceiverConstants.Update(ref context);
}
/// <summary>
/// Reads this instance.
/// </summary>
public virtual async Task Read()
{
using (BinaryReader Stream = new BinaryReader(this.File.OpenRead()))
{
byte[] Header = Stream.ReadBytes(2);
if (Header[0] == (byte)'S' || Header[1] == (byte)'C')
{
// Logging.Warning(this.GetType(), "The SC file is compressed, aborting.");
return;
}
Stream.BaseStream.Position = 0;
while (Stream.BaseStream.Position < Stream.BaseStream.Length)
{
byte PacketId = Stream.ReadByte();
uint PacketSize = Stream.ReadUInt16();
Logging.Info(this.GetType(), "ID : " + PacketId + ", SIZE : " + PacketSize + ".");
if (PacketSize > 0)
{
byte PixFormat = Stream.ReadByte();
ushort Width = Stream.ReadUInt16();
ushort Height = Stream.ReadUInt16();
bool Is32x32 = false;
switch (PacketId)
{
case 27:
case 28:
{
Is32x32 = true;
break;
}
}
Bitmap Sheet = new Bitmap(Width, Height, PixelFormat.Format32bppArgb);
int ModWidth = Width % 32;
int TimeWidth = (Width - ModWidth) / 32;
int ModHeight = Height % 32;
int TimeHeight = (Height - ModHeight) / 32;
Color[,] Pixels = new Color[Height, Width];
if (Is32x32)
{
for (int TimeH = 0; TimeH < TimeHeight + 1; TimeH++)
{
int OffsetX;
int OffsetY;
int LineH = 32;
if (TimeH == TimeHeight)
{
LineH = ModHeight;
}
for (int Time = 0; Time < TimeWidth; Time++)
{
for (int PositionY = 0; PositionY < LineH; PositionY++)
{
for (int PositionX = 0; PositionX < 32; PositionX++)
{
OffsetX = Time * 32;
OffsetY = TimeH * 32;
Pixels[PositionY + OffsetY, PositionX + OffsetX] = PixHelper.GetColor(Stream, PixFormat);
}
}
}
for (int PositionY = 0; PositionY < LineH; PositionY++)
{
for (int PositionX = 0; PositionX < ModWidth; PositionX++)
{
OffsetX = TimeWidth * 32;
OffsetY = TimeH * 32;
Pixels[PositionY + OffsetY, PositionX + OffsetX] = PixHelper.GetColor(Stream, PixFormat);
}
}
}
}
for (int Row = 0; Row < Pixels.GetLength(0); Row++)
{
for (int Column = 0; Column < Pixels.GetLength(1); Column++)
{
Sheet.SetPixel(Column, Row, Is32x32 ? Pixels[Row, Column] : PixHelper.GetColor(Stream, PixFormat));
}
}
this.Sheets.Add(Sheet);
}
else
{
bool IsValid = true;
byte[] Checksum = Stream.ReadBytes(5);
foreach (byte Digit in Checksum)
{
if (Digit != 0x00)
{
IsValid = false;
}
}
if (IsValid != true)
{
Logging.Error(this.GetType(), "Checksum is not valid.");
}
}
}
}
}
