private void RasterizeAndFragmentShader()
{
var usingPass = UsingPass;
var drawState = usingPass.State;
switch (drawState.PolygonMode)
{
case PolygonMode.Triangle:
var len = trianglePrimitiveHelper.Count;
for (int i = 0; i < len; i++)
{
var t = trianglePrimitiveHelper[i];
//if (t.clip) continue;
// 光栅化成片段
Rasterizer.GenFragInfo(t, genShadedFragHelper, genWireframeFragHelper, genNormalLineFragHelper);
// 处理片段
InnerFragmentShader(genShadedFragHelper, genWireframeFragHelper, genNormalLineFragHelper);
}
break;
case PolygonMode.Line:
throw new Exception($"not implements polygonMode:{drawState.PolygonMode}");
case PolygonMode.Point:
throw new Exception($"not implements polygonMode:{drawState.PolygonMode}");
default:
throw new Exception($"not implements polygonMode:{drawState.PolygonMode}");
}
}
protected void FromDungeonGen(int seed, DungeonTemplate template)
{
Log.InfoFormat("Loading template for world {0}({1})...", Id, Name);
var gen = new Generator(seed, template);
gen.Generate();
var ras = new Rasterizer(seed, gen.ExportGraph());
ras.Rasterize();
var dTiles = ras.ExportMap();
if (Map == null)
{
Map = new Wmap(Manager.Resources.GameData);
Interlocked.Add(ref _entityInc, Map.Load(dTiles, _entityInc));
if (Blocking == 3)
{
Sight.CalcRegionBlocks(Map);
}
}
else
{
Map.ResetTiles();
}
InitMap();
}
private void InitRenderer()
{
m_Rasterizer = new Rasterizer(Screen.width, Screen.height);
m_Models = new List <BufferMeshMap>();
m_Camera = GetComponent <Camera>();
// Generate Resources
m_BlitMaterial = new Material(Shader.Find("RasterUtility/Blit"));
m_FullScreenTriangle = new Mesh();
// Drawing a big triangle is faster than drawing a quad.
m_FullScreenTriangle.SetVertices(new List <Vector3>()
{
new Vector3(-1, -1, 0),
new Vector3(-1, 3, 0),
new Vector3(3, -1, 0)
});
m_FullScreenTriangle.SetUVs(0, new List <Vector2>()
{
new Vector2(0, 0),
new Vector2(0, 2),
new Vector2(2, 0)
});
m_FullScreenTriangle.SetIndices(new[] { 0, 1, 2 }, MeshTopology.Triangles, 0, false);
m_FullScreenTriangle.UploadMeshData(false);
// Init CommandBuffer
m_Cmd = new CommandBuffer()
{
name = "RasterCmd"
};
m_Cmd.SetGlobalTexture("_MainTex", m_Rasterizer.GetOutputTexture());
m_Cmd.DrawMesh(m_FullScreenTriangle, Matrix4x4.identity, m_BlitMaterial);
m_Camera.AddCommandBuffer(CameraEvent.AfterEverything, m_Cmd);
}
/// <summary>
/// Function to clean up the categorized interfaces.
/// </summary>
private void DestroyInterfaces()
{
if (Fonts != null)
{
Fonts.CleanUp();
}
Fonts = null;
if (Textures != null)
{
Textures.CleanUp();
}
Textures = null;
if (Shaders != null)
{
Shaders.CleanUp();
}
Shaders = null;
if (Output != null)
{
Output.CleanUp();
}
Output = null;
if (Rasterizer != null)
{
Rasterizer.CleanUp();
}
}
public void GenerateColliders()
{
// Remove any previous
foreach (var collider in _colliders)
{
RemoveComponent(collider);
}
//
_colliders.Clear();
//
foreach (var co in Rasterizer.Rectangle(0, 0, Width, Height))
{
var tile = GetTile(co.X, co.Y);
if (tile.IsSolid)
{
var bounds = ComputeCollisionBounds(co.X, co.Y);
var collider = AddComponent(new Collider(bounds));
_colliders.Add(collider);
}
}
}
public void RedrawObjects()
{
View.Clear();
//curSel = null;
CurEditing = null;
View.Tool = View.Tool; // this deactivates + reactivates the current tool to reset its status... TODO: does this really work?
//TopLevelItems = new List<OverlayShapeVM>();
DisplayTree.ParseTree = ParseTree;
//DisplayTree.RecreateDisplayTree();
if (ParseTree == null)
{
Rasterizer.ResetRaster();
return; // nothing to display
}
try
{
SetCorrectRaster((TikzParseItem)null);
}
catch (Exception e)
{
// we should really not come here.... but there are conceivable tex files with cyclic references that might
// produce errors.
Clear();
View.AllowEditing = false;
GlobalUI.UI.AddStatusLine(this, "Error in Overlay rendering: '" + e.Message + "' Overlay disabled for now.", true);
}
}
public void RedrawObjects()
{
View.Clear();
//curSel = null;
CurEditing = null;
View.Tool = View.Tool; // this deactivates + reactivates the current tool to reset its status
TopLevelItems = new List <OverlayShape>();
if (ParseTree == null)
{
Rasterizer.ResetRaster();
return; // nothing to display
}
try
{
DrawObject(ParseTree, TopLevelItems);
BindControlPointsToOrigins();
SetCorrectRaster((TikzParseItem)null);
}
catch (Exception e)
{
// we should really not come here.... but there are conceivable tex files with cyclic references that might
// produce errors.
Clear();
View.AllowEditing = false;
MainWindow.AddStatusLine("Error in Overlay rendering: '" + e.Message + "' Overlay disabled for now.", true);
}
}
public virtual ActionResult Img(int id, int imageSize, int penSizePerc, int rotation, bool normalized, bool decorated)
{
var sd = db.SymbolDrawings.FirstOrDefault(x => x.SymbolDrawingId == id);
if (sd == null)
{
return(HttpNotFound());
}
string fileName = string.Format("{0}-s{1}-p{2}-r{3}-d{4}-n{5}.png",
id, imageSize, penSizePerc, rotation, decorated ? 1 : 0, normalized ? 1 : 0);
string filePath = Path.Combine(appSettingsProvider.SymbolDrawingsCacheDirAbsolute, fileName);
if (!System.IO.File.Exists(filePath))
{
var drawing = sd.GetRawDrawing();
if (rotation != 0)
{
new RawDataProcessor().RotateInPlace(drawing, rotation);
}
if (normalized)
{
new RawDataProcessor().NormalizeInPlace(drawing);
}
var img = new Rasterizer().Rasterize(drawing, imageSize, penSizePerc / 100f, normalized, decorated);
img.Save(filePath, ImageFormat.Png);
}
return(File(filePath, "image/png"));
}
public static unsafe void TestRasterize()
{
Rasterizer.StartRasterize(CRenderSettings.ResolutionF);
RenderBuffer <float> tex0 = new RenderBuffer <float>(CRenderSettings.Resolution, 3);
CharRenderBuffer <float> texChar = new CharRenderBuffer <float>(tex0);
Vector2 *points = stackalloc Vector2[4];
for (float i = 0; i < JMath.PI_TWO; i += .02f)
{
Vector2 dir = new Vector2(MathF.Cos(i) * .3f, MathF.Sin(i) * .3f);
Vector2 orthoDir = new Vector2(-dir.Y, dir.X);
points[0] = new Vector2(.5f, .5f) + dir;
points[1] = new Vector2(.5f, .5f) - dir;
points[2] = new Vector2(.5f, .5f) + orthoDir;
points[3] = new Vector2(.5f, .5f) - orthoDir;
LinePrimitive *line = stackalloc LinePrimitive[1] {
new LinePrimitive(points, null, 0)
};
Rasterizer.Rasterize <Line, LinePrimitive>(line);
tex0.WritePixel(Rasterizer.ContriveResult(), new GenericVector <float>(3)
{
1f, 1f, 1f
});
CRenderer.Render(texChar);
tex0.Clear();
Thread.Sleep(16);
}
Rasterizer.EndRasterize();
}
void Update()
{
if (check || Input.GetKeyDown(KeyCode.Space))
{
check = false;
Triangle3D t = testPlane.triangle;
Camera camera = cam;
float theta_Y = camera.fieldOfView * 0.5f;
float theta_X = Mathf.Atan(Mathf.Tan(camera.fieldOfView * 0.5f * Mathf.Deg2Rad) * camera.aspect) * Mathf.Rad2Deg;
Plane left = new Plane(0, new Vector3(-Mathf.Cos((theta_X) * Mathf.Deg2Rad), 0, -Mathf.Sin((theta_X) * Mathf.Deg2Rad)));
Plane right = new Plane(0, new Vector3(-Mathf.Cos((180 - theta_X) * Mathf.Deg2Rad), 0, -Mathf.Sin((180 - theta_X) * Mathf.Deg2Rad)));
Plane near = new Plane(-camera.nearClipPlane, Vector3.back);
Plane far = new Plane(camera.farClipPlane, Vector3.forward);
Plane top = new Plane(0, new Vector3(0, -Mathf.Sin((-theta_Y + 90) * Mathf.Deg2Rad), -Mathf.Cos((-theta_Y + 90) * Mathf.Deg2Rad)));
Plane buttom = new Plane(0, new Vector3(0, -Mathf.Sin((theta_Y - 90) * Mathf.Deg2Rad), -Mathf.Cos((theta_Y - 90) * Mathf.Deg2Rad)));
List <Triangle3D> ts = Rasterizer.ViewSpaceFrustrumClipping(t, cam);
print(buttom.Point(p1.position));
foreach (var go in ts)
{
TrianglePainter.CreateTrianglePainter(go);
}
}
}
void Step_Click(object sender, EventArgs e)
{
if (((Button)sender).Tag is GenerationStep)
{
var step = (GenerationStep)((Button)sender).Tag;
gen.Generate(step + 1);
}
else
{
gen.Generate();
if (ras == null)
{
ras = new Rasterizer(seed, gen.ExportGraph());
}
var step = (RasterizationStep)((Button)sender).Tag;
ras.Rasterize(step + 1);
}
Render();
foreach (var btn in btns)
{
if (btn.Tag is GenerationStep)
{
btn.Enabled = (GenerationStep)btn.Tag >= gen.Step;
}
else
{
btn.Enabled = ras == null || (RasterizationStep)btn.Tag >= ras.Step;
}
}
}
public static void TestRasterizerStartEnd()
{
Rasterizer.StartRasterize(new Vector2(100, 100));
Assert.Catch(() => Rasterizer.StartRasterize(new Vector2(100, 100)));
Rasterizer.EndRasterize();
Assert.Catch(() => Rasterizer.EndRasterize());
}
/// <summary>
/// Application for testing purposes.
/// </summary>
public Game1()
{
// Set necessary values.
graphics = new GraphicsDeviceManager(this);
Content.RootDirectory = "Content";
graphics.PreferredBackBufferWidth = 512;
graphics.PreferredBackBufferHeight = 512;
this.IsFixedTimeStep = false;
graphics.SynchronizeWithVerticalRetrace = false;
// Create as many threads as you have cores.
// Used for rendering - greatly enhances performance.
JobCenter.initializeWorkers(6);
// Initialize the software-rasterizer.
testRasterizer = new Rasterizer(
graphics.PreferredBackBufferWidth,
graphics.PreferredBackBufferHeight
);
// Initialize the virtual camera.
cam = new Camera(10, 200, new Vector3(0, 25, 80), new Vector3(0, 0, 0),
((float)graphics.PreferredBackBufferWidth) /
graphics.PreferredBackBufferHeight);
}
public virtual ActionResult Img(int id, int imageSize, int penSizePerc, bool normalized, bool decorated)
{
var sd = db.Drawings.FirstOrDefault(x => x.DrawingId == id);
if (sd == null)
{
return(HttpNotFound());
}
string filePath = getCachePath(id, imageSize, penSizePerc, normalized, decorated);
if (!System.IO.File.Exists(filePath))
{
var drawing = sd.GetRawDrawing();
if (normalized)
{
new RawDataProcessor().NormalizeInPlace(drawing);
}
var img = new Rasterizer().Rasterize(drawing, imageSize, penSizePerc / 100f, normalized, decorated);
img.Save(filePath, ImageFormat.Png);
}
return(File(filePath, "image/png"));
}
public void Dispose()
{
GC.SuppressFinalize(this);
if (frontBuffer != null)
{
frontBuffer.Dispose();
frontBuffer = null;
}
if (FrameBuffer != null)
{
FrameBuffer.Dispose();
FrameBuffer = null;
}
if (Rasterizer != null)
{
Rasterizer.Dispose();
Rasterizer = null;
}
if (ShaderData != null)
{
ShaderData.Dispose();
ShaderData = null;
}
if (ShaderMgr != null)
{
ShaderMgr.Dispose();
ShaderMgr = null;
}
Shader = null;
UsingSubShader = null;
UsingPass = null;
}
void BuildRecursivly(BinNode <List <Triangle3D> > node)
{
if (node.data.Count <= 1)
{
return;
}
Triangle3D main = node.data[0];
Plane plane = new Plane(main.a, main.normal);
for (int i = 1; i < node.data.Count; i++)
{
Triangle3D go = node.data[i];
float fa = Helper.SnapToZero(plane.Point(go.a));
float fb = Helper.SnapToZero(plane.Point(go.b));
float fc = Helper.SnapToZero(plane.Point(go.c));
if (fa >= 0 && fb >= 0 && fc >= 0)
{
if (node.right == null)
{
node.right = new BinNode <List <Triangle3D> >(new List <Triangle3D>());
node.right.data = new List <Triangle3D>();
}
node.right.data.Add(go);
}
else if (fa <= 0 && fb <= 0 && fc <= 0)
{
if (node.left == null)
{
node.left = new BinNode <List <Triangle3D> >(new List <Triangle3D>());
node.left.data = new List <Triangle3D>();
}
node.left.data.Add(go);
}
else
{
List <Triangle3D> ts = Rasterizer.ClipTriangle(go, plane);
node.data.AddRange(ts);
node.data.RemoveAt(i);
i--;
}
}
node.data.RemoveRange(1, node.data.Count - 1);
if (node.left != null)
{
BuildRecursivly(node.left);
}
if (node.right != null)
{
BuildRecursivly(node.right);
}
}
public override void Rasterize()
{
var tile = new DungeonTile {
TileType = PirateCaveTemplate.ShallowWater
};
Rasterizer.Clear(tile);
}
public static void Compute(IEnumerable <Point> polyline, double[,] transform)
{
var width = transform.GetLength(0);
var height = transform.GetLength(1);
var raster = Rasterizer.Rasterize(polyline, width, height);
Compute(raster, transform);
}
/// <summary>
/// Clears all items from the canvas.
/// </summary>
public void Clear()
{
View.Clear();
CurEditing = null;
ParseTree = null;
View.Tool = View.Tool; // this deactivates + reactivates the current tool to reset its status... e.g., it might contain links to some selected objects etc.
TopLevelItems = new List <OverlayShape>();
Rasterizer.ResetRaster();
}
/// <summary>
/// Clears all items from the canvas.
/// </summary>
public void Clear()
{
View.Clear();
CurEditing = null;
ParseTree = null;
View.Tool = View.Tool; // this deactivates + reactivates the current tool to reset its status... e.g., it might contain links to some selected objects etc.
//DisplayTree.Clear();
Rasterizer.ResetRaster();
}
public Bitmap Run()
{
var bitmap = new Bitmap(640, 480, PixelFormat.Format32bppArgb);
var r = new Rasterizer();
var v = new VertexProcessor(r);
var pixelShader = new PixelShader();
var vertexShader = new VertexShader();
r.SetScissorRect(0, 0, 640, 480);
v.SetViewport(100, 100, 640 - 200, 480 - 200);
v.SetCullMode(CullMode.None);
var indices = new List <int> {
0, 1, 2
};
var vertices = new List <VertexData>();
var vertex = new VertexData();
vertex.x = 0.0f;
vertex.y = 0.5f;
vertex.z = 0.0f;
vertex.r = 1.0f;
vertex.g = 0.0f;
vertex.b = 0.0f;
vertices.Add(vertex);
vertex = new VertexData();
vertex.x = -1.5f;
vertex.y = -0.5f;
vertex.z = 0.0f;
vertex.r = 0.0f;
vertex.g = 1.0f;
vertex.b = 0.0f;
vertices.Add(vertex);
vertex = new VertexData();
vertex.x = 1.5f;
vertex.y = -0.5f;
vertex.z = 0.0f;
vertex.r = 0.0f;
vertex.g = 0.0f;
vertex.b = 1.0f;
vertices.Add(vertex);
pixelShader.Bitmap = bitmap;
vertexShader.VertexData = vertices;
r.SetPixelShader(pixelShader);
v.SetVertexShader(vertexShader);
v.DrawElements(DrawMode.Triangle, 3, indices);
return(bitmap);
}
/// <summary>
/// Adds game-components.
/// </summary>
private void AddComponents()
{
this.Rasterizer = new Rasterizer();
this.Game.Components.Add(new InputManager(this.Game));
this.Game.Components.Add(new AssetManager(this.Game));
#if XNA
//this.Game.Components.Add(new Sky(this.Game));
#endif
this.Game.Components.Add(new NewSky(this.Game));
this.Game.Components.Add(new Fogger(this.Game));
var chunkStorage = new ChunkStorage(this.Game);
this.Game.Components.Add(chunkStorage);
var vertexBuilder = new VertexBuilder(this.Game);
this.Game.Components.Add(vertexBuilder);
var chunkCache = new ChunkCache(this.Game);
this.Game.Components.Add(chunkCache);
var blockStorage = new BlockStorage(this.Game);
this.Game.Components.Add(blockStorage);
var world = new World(this.Game, chunkStorage, chunkCache);
this.Game.Components.Add(world);
this.Game.Components.Add(new Player(this.Game, world));
this.Game.Components.Add(new Camera(this.Game));
this.Game.Components.Add(new UserInterface(this.Game));
this.Game.Components.Add(new InGameDebugger(this.Game));
this.Game.Components.Add(new DebugBar(this.Game));
this.Game.Components.Add(new GraphManager(this.Game));
#if XNA
this.Game.Components.Add(new AudioManager(this.Game));
#endif
var spriteBatch = new SpriteBatch(this.Game.GraphicsDevice);
Console = new GameConsole(this.Game, spriteBatch, new GameConsoleOptions
{
Font = Game.Content.Load <SpriteFont>(@"Fonts/Verdana"),
FontColor = Color.LawnGreen,
Prompt = ">",
PromptColor = Color.Crimson,
CursorColor = Color.OrangeRed,
BackgroundColor = Color.Black * 0.8f,
PastCommandOutputColor = Color.Aqua,
BufferColor = Color.Gold
});
}
public void Run()
{
var r = new Rasterizer();
var v = new VertexProcessor(r);
var pixelShader = new PixelShader();
var vertexShader = new VertexShader();
r.SetScissorRect(0, 0, 640, 480);
v.SetViewport(0, 0, 640, 480);
v.SetCullMode(CullMode.None);
var indices = new List <int>();
var vertices = new List <VertexData>();
var random = new Random(0);
for (int i = 0; i < 4096 * 10; i++)
{
VertexData CreateVertex()
{
var vertex = new VertexData();
vertex.x = (float)random.NextDouble();
vertex.y = (float)random.NextDouble();
vertex.z = (float)random.NextDouble();
vertex.r = (float)random.NextDouble();
vertex.g = (float)random.NextDouble();
vertex.b = (float)random.NextDouble();
return(vertex);
}
var offset = vertices.Count;
vertices.Add(CreateVertex());
vertices.Add(CreateVertex());
vertices.Add(CreateVertex());
indices.Add(offset + 0);
indices.Add(offset + 1);
indices.Add(offset + 2);
}
pixelShader.Buffer = new int[640 * 480];
pixelShader.Width = 640;
pixelShader.Height = 480;
vertexShader.VertexData = vertices;
r.SetPixelShader(pixelShader);
v.SetVertexShader(vertexShader);
var sw = Stopwatch.StartNew();
v.DrawElements(DrawMode.Triangle, indices.Count, indices);
Console.WriteLine(sw.ElapsedMilliseconds);
}
public void Clear()
{
if (_disposed)
{
throw new ObjectDisposedException(this.GetType().ToString());
}
TextOutput.Clear();
Rasterizer.Clear();
}
void RenderVertices()
{
vecTrianglesToRaster = vecTrianglesToRaster.OrderByDescending(a => a.averageZ).ToList();
foreach (RenderTriangle tri in vecTrianglesToRaster)
{
// tri.lightValue = 1f;
Rasterizer.FillTriangle(tri.points[0], tri.points[1], tri.points[2], new Color(tri.faceColor.r * tri.lightValue, tri.faceColor.g * tri.lightValue, tri.faceColor.b * tri.lightValue, 1), screentex);
//Rasterizer.DrawTriangle(tri.points[0], tri.points[1], tri.points[2], Color.black,screentex);
}
screentex.Apply();
}
public async Task ShouldCreatePngFromPdf()
{
var actualImagePath = Path.Combine(Path.GetTempPath(), "ActualShouldCreatePngFromPdf");
using var rasterizer = new Rasterizer();
var actualImages = await rasterizer.ConvertToPngAsync(@"../../../SourceTest.pdf", actualImagePath);
Assert.Equal(1, actualImages.Count);
Assert.True(File.Exists(actualImages.Single()), "Actual output file not found");
Assert.True(ImageSharpCompare.ImageAreEqual(actualImages.Single(), @"../../../ExpectedImages/ExpectedShouldCreatePngFromPdf1.png"), "Actual and expected image do differ");
File.Delete(actualImages.Single());
}
void OnEnable()
{
var time = Time.realtimeSinceStartup;
var rasterizer = new Rasterizer(resolution.x, resolution.y);
rasterizer.Draw(camera, models, reversedZ);
Debug.LogFormat("Time spent: {0:0.000} s", Time.realtimeSinceStartup - time);
colorBuffer = rasterizer.ExportColorBuffer();
depthBuffer = rasterizer.ExportDepthBuffer();
}
static void draw_ellipse(Rasterizer ras, double x, double y, double rx, double ry)
{
int i;
ras.MoveToD(x + rx, y);
// Here we have a fixed number of approximation steps, namely 360
// while in reality it's supposed to be smarter.
for (i = 1; i < 360; i++)
{
double a = (double)i * 3.1415926 / 180.0;
ras.LineToD(x + Math.Cos(a) * rx, y + Math.Sin(a) * ry);
}
}
void RenderLavaGround(Point a, Point b)
{
Rasterizer.DrawLine(a, b, (x, y) => {
if (Rasterizer.Bitmap[x, y].TileType == AbyssTemplate.Lava)
{
return new DungeonTile {
TileType = AbyssTemplate.Lava,
Object = Floor
}
}
;
return(Rasterizer.Bitmap[x, y]);
}, 1);
}
public static unsafe void TestRasterizerLine()
{
Vector2 *line = stackalloc Vector2[2] {
Vector2.Zero, Vector2.One
};
Rasterizer.StartRasterize(new Vector2(100, 100));
Rasterizer.SetPoints(line);
Rasterizer.Line();
var resultArr = Rasterizer.ContriveResult();
Assert.AreEqual(resultArr.Length, 100, 1);
Rasterizer.EndRasterize();
}
static void draw_line(Rasterizer ras, double x1, double y1, double x2, double y2, double width)
{
double dx = x2 - x1;
double dy = y2 - y1;
double d = Math.Sqrt(dx * dx + dy * dy);
dx = width * (y2 - y1) / d;
dy = width * (x2 - x1) / d;
ras.MoveToD(x1 - dx, y1 + dy);
ras.LineToD(x2 - dx, y2 + dy);
ras.LineToD(x2 + dx, y2 - dy);
ras.LineToD(x1 + dx, y1 - dy);
}
void Start()
{
rasterizer = new Rasterizer();
referencePlaneMesh = MeshCreator.CreatePlane();
// rasterizedPlaneMesh = MeshCreator.CreatePlane(1f, 1f, 0.3343f, 0.6345f);
currentMesh = new MMesh(rasterizedPlaneMesh);
referenceGameObject = CreateGameobjectWithMesh("ReferenceObject", referencePlaneMesh);
rasterizedGameObject = CreateGameobjectWithMesh("RasterizedObject", rasterizedPlaneMesh);
currentMesh.ApplyPadding((1f / 512) * 8f);
referenceGameObject.renderer.material.mainTexture = rasterizer.RasterizeMesh(currentMesh, 512);
rasterizedGameObject.renderer.material.mainTexture = referenceGameObject.renderer.material.mainTexture;
}
static TerrainTile[,] CreateTerrain(int seed, PolygonMap map)
{
Rasterizer<TerrainTile> rasterizer = new Rasterizer<TerrainTile>(Size, Size);
//Set all to ocean
rasterizer.Clear(new TerrainTile()
{
PolygonId = -1,
Elevation = 0,
Moisture = 1,
TileId = TileTypes.DeepWater,
TileObj = null
});
//Render lands poly
foreach (var poly in map.Polygons.Where(_ => !_.IsWater))
{
uint color = 0x00ffffff;
color |= (uint)(poly.DistanceToCoast * 255) << 24;
rasterizer.FillPolygon(
poly.Nodes.SelectMany(_ =>
{
return new[]{ (_.X + 1) / 2 * Size,
(_.Y + 1) / 2 * Size};
}).Concat(new[]{ (poly.Nodes[0].X + 1) / 2 * Size,
(poly.Nodes[0].Y + 1) / 2 * Size}).ToArray(),
new TerrainTile()
{
PolygonId = poly.Id,
Elevation = (float)poly.DistanceToCoast,
Moisture = -1,
TileId = TileTypes.Grass,
TileObj = null
});
}
MapFeatures fea = new MapFeatures(map, seed);
//Render roads
var roads = fea.GenerateRoads();
foreach (var i in roads)
{
rasterizer.DrawClosedCurve(i.SelectMany(_ => new[] {
(_.X + 1) / 2 * Size, (_.Y + 1) / 2 * Size }).ToArray(),
1, t =>
{
t.TileId = TileTypes.Road;
return t;
}, 3);
}
//Render waters poly
foreach (var poly in map.Polygons.Where(_ => _.IsWater))
{
var tile = new TerrainTile()
{
PolygonId = poly.Id,
Elevation = (float)poly.DistanceToCoast,
TileObj = null
};
if (poly.IsCoast)
{
tile.TileId = TileTypes.MovingWater;
tile.Moisture = 0;
}
else
{
tile.TileId = TileTypes.DeepWater;
tile.Moisture = 1;
}
rasterizer.FillPolygon(
poly.Nodes.SelectMany(_ =>
{
return new[]{ (_.X + 1) / 2 * Size,
(_.Y + 1) / 2 * Size};
}).Concat(new[]{ (poly.Nodes[0].X + 1) / 2 * Size,
(poly.Nodes[0].Y + 1) / 2 * Size}).ToArray(), tile);
}
//Render rivers
var rivers = fea.GenerateRivers();
Dictionary<Tuple<MapNode, MapNode>, int> edges = new Dictionary<Tuple<MapNode, MapNode>, int>();
foreach (var i in rivers)
{
for (int j = 1; j < i.Length; j++)
{
Tuple<MapNode, MapNode> edge = new Tuple<MapNode, MapNode>(i[j - 1], i[j]);
int count;
if (edges.TryGetValue(edge, out count))
count++;
else
count = 1;
edges[edge] = count;
}
}
foreach (var i in edges)
{
i.Key.Item1.IsWater = true;
i.Key.Item1.RiverValue = i.Value + 1;
i.Key.Item2.IsWater = true;
i.Key.Item2.RiverValue = i.Value + 1;
rasterizer.DrawLineBresenham(
(i.Key.Item1.X + 1) / 2 * Size, (i.Key.Item1.Y + 1) / 2 * Size,
(i.Key.Item2.X + 1) / 2 * Size, (i.Key.Item2.Y + 1) / 2 * Size,
t =>
{
t.TileId = TileTypes.Water;
t.Elevation = (float)(i.Key.Item1.DistanceToCoast + i.Key.Item2.DistanceToCoast) / 2;
t.Moisture = 1;
return t;
}, 3 * Math.Min(2, i.Value));
}
return rasterizer.Buffer;
}
/// <summary>
/// Creates a new merge depth buffer job. When executed,
/// it will merge the depth buffer of the given rasterizer.
/// </summary>
/// <param name="rasterizer">The rasterizer whoose depth buffer shall
/// be merged.</param>
public MergeDepthBufferJob(Rasterizer rasterizer)
{
_rasterizer = rasterizer;
}
/// <summary>
/// Creates a render object job. When executed it will render <paramref name="object3D"/> from
/// <paramref name="cam"/>'s point of view with <paramref name="rasterizer"/>.
/// </summary>
/// <param name="object3D">The 3d object to be rendered.</param>
/// <param name="camera">The camera from which object3d shall be rendered.</param>
/// <param name="rasterizer">The rasterizer to use for the
/// rendering process.</param>
public RenderObjectJob(Object3D object3D, Camera camera, Rasterizer rasterizer)
{
_object3D = object3D;
_camera = camera;
_rasterizer = rasterizer;
}
