using CodeWalker.GameFiles; using CodeWalker.Properties; using CodeWalker.World; using SharpDX; using SharpDX.Direct3D11; using System; using System.Collections.Generic; using System.Linq; using System.Text; using System.Threading; using System.Threading.Tasks; namespace CodeWalker.Rendering { public class Renderer { private DXForm Form; private GameFileCache gameFileCache; private RenderableCache renderableCache; public RenderableCache RenderableCache { get { return renderableCache; } } private DXManager dxman = new DXManager(); public DXManager DXMan { get { return dxman; } } private Device currentdevice; public Device Device { get { return currentdevice; } } private object rendersyncroot = new object(); public object RenderSyncRoot { get { return rendersyncroot; } } public ShaderManager shaders; public Camera camera; private double currentRealTime = 0; private float currentElapsedTime = 0; private int framecount = 0; private float fcelapsed = 0.0f; private int fps = 0; private DeviceContext context; public float timeofday = 12.0f; public bool controltimeofday = true; public bool timerunning = false; public float timespeed = 0.5f;//min/sec public string weathertype = ""; public string individualcloudfrag = "contrails"; private Vector4 currentWindVec = Vector4.Zero; private float currentWindTime = 0.0f; public bool usedynamiclod = Settings.Default.DynamicLOD; //for ymap view public float lodthreshold = 50.0f / (0.1f + (float)Settings.Default.DetailDist); //to match formula for the DetailTrackBar value public bool waitforchildrentoload = true; public bool controllightdir = false; //if not, use timecycle public float lightdirx = 2.25f;//radians // approx. light dir on map satellite view public float lightdiry = 0.65f;//radians - used for manual light placement public bool renderskydome = Settings.Default.Skydome; public bool renderclouds = true; public bool rendermoon = true; public Timecycle timecycle = new Timecycle(); public Weather weather = new Weather(); public Clouds clouds = new Clouds(); private ShaderGlobalLights globalLights = new ShaderGlobalLights(); public bool rendernaturalambientlight = true; public bool renderartificialambientlight = true; public bool MapViewEnabled = false; public float MapViewDetail = 1.0f; private UnitQuad markerquad = null; public bool markerdepthclip = Settings.Default.MarkerDepthClip; private List renderworldentities = new List(); //used when rendering world view. private List renderworldrenderables = new List(); public bool ShowScriptedYmaps = true; public List VisibleYmaps = new List(); public rage__eLodType renderworldMaxLOD = rage__eLodType.LODTYPES_DEPTH_ORPHANHD; public float renderworldLodDistMult = 1.0f; public float renderworldDetailDistMult = 1.0f; public bool rendertimedents = Settings.Default.ShowTimedEntities; public bool rendertimedentsalways = false; public bool renderinteriors = true; public bool renderproxies = false; public bool renderchildents = false;//when rendering single ymap, render root only or not... public bool renderentities = true; public bool rendergrass = true; public bool renderdistlodlights = true; public bool rendercars = false; public bool rendercollisionmeshes = Settings.Default.ShowCollisionMeshes; public bool rendercollisionmeshlayerdrawable = true; public bool renderskeletons = false; private List renderskeletonlist = new List(); private List skeletonLineVerts = new List(); public bool renderhdtextures = true; public MapSelectionMode SelectionMode = MapSelectionMode.Entity; //to assist in rendering embedded collisions properly... public BoundsShaderMode boundsmode = BoundsShaderMode.None; public bool renderboundsclip = Settings.Default.BoundsDepthClip; public float renderboundsmaxrad = 20000.0f; public float renderboundsmaxdist = 10000.0f; public List BoundingBoxes = new List(); public List BoundingSpheres = new List(); public List HilightSpheres = new List(); public List HilightBoxes = new List(); public List SelectionBoxes = new List(); public List WhiteBoxes = new List(); public List SelectionSpheres = new List(); public List WhiteSpheres = new List(); public List SelectionLineVerts = new List(); public List SelectionTriVerts = new List(); private YmapEntityDef SelectedCarGenEntity = new YmapEntityDef(); //placeholder entity object for drawing cars public DrawableBase SelectedDrawable = null; public Dictionary SelectionModelDrawFlags = new Dictionary(); public Dictionary SelectionGeometryDrawFlags = new Dictionary(); public bool SelectionFlagsTestAll = false; //to test all renderables for draw flags; for model form public List RenderedDrawables = new List(); //queued here for later hit tests... public List RenderedBoundComps = new List(); public bool RenderedDrawablesListEnable = false; //whether or not to add rendered drawables to the list public bool RenderedBoundCompsListEnable = false; //whether or not to add rendered bound comps to the list private List tryGetRenderableSDtxds = new List(); private List tryGetRenderableHDtxds = new List(); public Renderer(DXForm form, GameFileCache cache) { Form = form; gameFileCache = cache; if (gameFileCache == null) { gameFileCache = GameFileCacheFactory.Create(); } renderableCache = new RenderableCache(); var s = Settings.Default; camera = new Camera(s.CameraSmoothing, s.CameraSensitivity, s.CameraFieldOfView); } public bool Init() { return dxman.Init(Form, false); } public void Start() { dxman.Start(); } public void DeviceCreated(Device device, int width, int height) { currentdevice = device; shaders = new ShaderManager(device, dxman); shaders.OnWindowResize(width, height); //init the buffers renderableCache.OnDeviceCreated(device); camera.OnWindowResize(width, height); //init the projection stuff markerquad = new UnitQuad(device); } public void DeviceDestroyed() { renderableCache.OnDeviceDestroyed(); markerquad.Dispose(); shaders.Dispose(); currentdevice = null; } public void BuffersResized(int width, int height) { lock (rendersyncroot) { camera.OnWindowResize(width, height); shaders.OnWindowResize(width, height); } } public void ReloadShaders() { if (shaders != null) { shaders.Dispose(); } shaders = new ShaderManager(currentdevice, dxman); } public void Update(float elapsed, int mouseX, int mouseY) { framecount++; fcelapsed += elapsed; if (fcelapsed >= 0.5f) { fps = framecount * 2; framecount = 0; fcelapsed -= 0.5f; } if (elapsed > 0.1f) elapsed = 0.1f; currentRealTime += elapsed; currentElapsedTime = elapsed; UpdateTimeOfDay(elapsed); weather.Update(elapsed); clouds.Update(elapsed); UpdateWindVector(elapsed); UpdateGlobalLights(); camera.SetMousePosition(mouseX, mouseY); camera.Update(elapsed); } public void BeginRender(DeviceContext ctx) { context = ctx; dxman.ClearRenderTarget(context); shaders.BeginFrame(context, currentRealTime, currentElapsedTime); shaders.EnsureShaderTextures(gameFileCache, renderableCache); SelectionLineVerts.Clear(); SelectionTriVerts.Clear(); WhiteBoxes.Clear(); WhiteSpheres.Clear(); SelectionBoxes.Clear(); SelectionSpheres.Clear(); HilightBoxes.Clear(); HilightSpheres.Clear(); BoundingBoxes.Clear(); BoundingSpheres.Clear(); RenderedDrawables.Clear(); RenderedBoundComps.Clear(); renderskeletonlist.Clear(); } public void RenderSkyAndClouds() { RenderSky(); RenderClouds(); shaders.ClearDepth(context); } public void RenderQueued() { shaders.RenderQueued(context, camera, currentWindVec); RenderSkeletons(); } public void RenderFinalPass() { shaders.RenderFinalPass(context); } public void EndRender() { renderableCache.RenderThreadSync(); } public bool ContentThreadProc() { bool rcItemsPending = renderableCache.ContentThreadProc(); return rcItemsPending; } public void SetTimeOfDay(float hour) { timeofday = hour; timecycle.SetTime(timeofday); } public void SetWeatherType(string name) { if (!Monitor.TryEnter(rendersyncroot, 50)) { return; } //couldn't get a lock... weathertype = name; weather.SetNextWeather(weathertype); Monitor.Exit(rendersyncroot); } public void SetCameraMode(string modestr) { lock (rendersyncroot) { switch (modestr) { case "Perspective": camera.IsOrthographic = false; MapViewEnabled = false; camera.UpdateProj = true; break; case "Orthographic": camera.IsOrthographic = true; MapViewEnabled = false; break; case "2D Map": camera.IsOrthographic = true; MapViewEnabled = true; break; } camera.IsMapView = MapViewEnabled; } } public string GetStatusText() { int rgc = (shaders != null) ? shaders.RenderedGeometries : 0; int crc = renderableCache.LoadedRenderableCount; int ctc = renderableCache.LoadedTextureCount; int tcrc = renderableCache.MemCachedRenderableCount; int tctc = renderableCache.MemCachedTextureCount; long vr = renderableCache.TotalGraphicsMemoryUse + (shaders != null ? shaders.TotalGraphicsMemoryUse : 0); string vram = TextUtil.GetBytesReadable(vr); //StatsLabel.Text = string.Format("Drawn: {0} geom, Loaded: {1}/{5} dr, {2}/{6} tx, Vram: {3}, Fps: {4}", rgc, crc, ctc, vram, fps, tcrc, tctc); return string.Format("Drawn: {0} geom, Loaded: {1} dr, {2} tx, Vram: {3}, Fps: {4}", rgc, crc, ctc, vram, fps); } public void Invalidate(BasePathData path) { //used to update path graphics. renderableCache.Invalidate(path); } public void Invalidate(YmapGrassInstanceBatch batch) { renderableCache.Invalidate(batch); } public void UpdateSelectionDrawFlags(DrawableModel model, DrawableGeometry geom, bool rem) { lock (rendersyncroot) { if (model != null) { if (rem) { if (SelectionModelDrawFlags.ContainsKey(model)) { SelectionModelDrawFlags.Remove(model); } } else { SelectionModelDrawFlags[model] = false; } } if (geom != null) { if (rem) { if (SelectionGeometryDrawFlags.ContainsKey(geom)) { SelectionGeometryDrawFlags.Remove(geom); } } else { SelectionGeometryDrawFlags[geom] = false; } } } } private void UpdateTimeOfDay(float elapsed) { if (timerunning) { float helapsed = elapsed * timespeed / 60.0f; timeofday += helapsed; while (timeofday >= 24.0f) timeofday -= 24.0f; while (timeofday < 0.0f) timeofday += 24.0f; timecycle.SetTime(timeofday); } } private void UpdateGlobalLights() { Vector3 lightdir = Vector3.Zero;//will be updated before each frame from X and Y vars Color4 lightdircolour = Color4.White; Color4 lightdirambcolour = new Color4(0.5f, 0.5f, 0.5f, 1.0f); Color4 lightnaturalupcolour = new Color4(0.0f); Color4 lightnaturaldowncolour = new Color4(0.0f); Color4 lightartificialupcolour = new Color4(0.0f); Color4 lightartificialdowncolour = new Color4(0.0f); bool hdr = shaders.hdr; float hdrint = 1.0f; Vector3 sundir = Vector3.Up; Vector3 moondir = Vector3.Down; Vector3 moonax = Vector3.UnitZ; if (controllightdir) { float cryd = (float)Math.Cos(lightdiry); lightdir.X = -(float)Math.Sin(-lightdirx) * cryd; lightdir.Y = -(float)Math.Cos(-lightdirx) * cryd; lightdir.Z = (float)Math.Sin(lightdiry); lightdircolour = Color4.White; lightdirambcolour = new Color4(0.5f, 0.5f, 0.5f, 1.0f); if (hdr && (weather != null) && (weather.Inited)) { lightdircolour *= weather.CurrentValues.skyHdr; lightdircolour.Alpha = 1.0f; lightdirambcolour *= weather.CurrentValues.skyHdr; lightdirambcolour.Alpha = 1.0f; hdrint = weather.CurrentValues.skyHdr; } sundir = lightdir; moondir = -lightdir; } else { float sunroll = timecycle.sun_roll * (float)Math.PI / 180.0f; //122 float moonroll = timecycle.moon_roll * (float)Math.PI / 180.0f; //-122 float moonwobamp = timecycle.moon_wobble_amp; //0.2 float moonwobfreq = timecycle.moon_wobble_freq; //2 float moonwoboffs = timecycle.moon_wobble_offset; //0.375 float dayval = (0.5f + (timeofday - 6.0f) / 14.0f); float nightval = (((timeofday > 12.0f) ? (timeofday - 7.0f) : (timeofday + 17.0f)) / 9.0f); float daycyc = (float)Math.PI * dayval; float nightcyc = (float)Math.PI * nightval; Vector3 sdir = new Vector3((float)Math.Sin(daycyc), -(float)Math.Cos(daycyc), 0.0f); Vector3 mdir = new Vector3(-(float)Math.Sin(nightcyc), 0.0f, -(float)Math.Cos(nightcyc)); Quaternion saxis = Quaternion.RotationYawPitchRoll(0.0f, sunroll, 0.0f); Quaternion maxis = Quaternion.RotationYawPitchRoll(0.0f, -moonroll, 0.0f); sundir = Vector3.Normalize(saxis.Multiply(sdir)); moondir = Vector3.Normalize(maxis.Multiply(mdir)); moonax = Vector3.Normalize(maxis.Multiply(Vector3.UnitY)); //bool usemoon = false; lightdir = sundir; //if (lightdir.Z < -0.5f) lightdir.Z = -lightdir.Z; //make sure the lightsource is always above the horizon... if ((timeofday < 5.0f) || (timeofday > 21.0f)) { lightdir = moondir; //usemoon = true; } if (lightdir.Z < 0) { lightdir.Z = 0; //don't let the light source go below the horizon... } //lightdir = Vector3.Normalize(weather.CurrentValues.sunDirection); if (weather != null && weather.Inited) { lightdircolour = (Color4)weather.CurrentValues.lightDirCol; lightdirambcolour = (Color4)weather.CurrentValues.lightDirAmbCol; lightnaturalupcolour = (Color4)weather.CurrentValues.lightNaturalAmbUp; lightnaturaldowncolour = (Color4)weather.CurrentValues.lightNaturalAmbDown; lightartificialupcolour = (Color4)weather.CurrentValues.lightArtificialExtUp; lightartificialdowncolour = (Color4)weather.CurrentValues.lightArtificialExtDown; float lamult = weather.CurrentValues.lightDirAmbIntensityMult; float abounce = weather.CurrentValues.lightDirAmbBounce; float minmult = hdr ? 0.1f : 0.5f; lightdircolour *= Math.Max(lightdircolour.Alpha, minmult); lightdirambcolour *= lightdirambcolour.Alpha * lamult; // 0.1f * lamult; //if (usemoon) //{ // lightdircolour *= weather.CurrentValues.skyMoonIten; //} lightnaturalupcolour *= lightnaturalupcolour.Alpha * weather.CurrentValues.lightNaturalAmbUpIntensityMult; lightnaturaldowncolour *= lightnaturaldowncolour.Alpha; lightartificialupcolour *= lightartificialupcolour.Alpha; lightartificialdowncolour *= lightartificialdowncolour.Alpha; if (!hdr) { Color4 maxdirc = new Color4(1.0f); Color4 maxambc = new Color4(0.5f); lightdircolour = Color4.Min(lightdircolour, maxdirc); lightdirambcolour = Color4.Min(lightdirambcolour, maxambc); lightnaturalupcolour = Color4.Min(lightnaturalupcolour, maxambc); lightnaturaldowncolour = Color4.Min(lightnaturaldowncolour, maxambc); lightartificialupcolour = Color4.Min(lightartificialupcolour, maxambc); lightartificialdowncolour = Color4.Min(lightartificialdowncolour, maxambc); } else { hdrint = weather.CurrentValues.skyHdr;//.lightDirCol.W; } } } globalLights.Weather = weather; globalLights.HdrEnabled = hdr; globalLights.SpecularEnabled = !MapViewEnabled;//disable specular for map view. globalLights.HdrIntensity = Math.Max(hdrint, 1.0f); globalLights.CurrentSunDir = sundir; globalLights.CurrentMoonDir = moondir; globalLights.MoonAxis = moonax; globalLights.Params.LightDir = lightdir; globalLights.Params.LightDirColour = lightdircolour; globalLights.Params.LightDirAmbColour = lightdirambcolour; globalLights.Params.LightNaturalAmbUp = rendernaturalambientlight ? lightnaturalupcolour : Color4.Black; globalLights.Params.LightNaturalAmbDown = rendernaturalambientlight ? lightnaturaldowncolour : Color4.Black; globalLights.Params.LightArtificialAmbUp = renderartificialambientlight ? lightartificialupcolour : Color4.Black; globalLights.Params.LightArtificialAmbDown = renderartificialambientlight ? lightartificialdowncolour : Color4.Black; if (shaders != null) { shaders.SetGlobalLightParams(globalLights); } } private void UpdateWindVector(float elapsed) { //wind still needs a lot of work. //currently just feed the wind vector with small oscillations... currentWindTime += elapsed; if (currentWindTime >= 200.0f) currentWindTime -= 200.0f; float dirval = (float)(currentWindTime * 0.01 * Math.PI); float dirval1 = (float)Math.Sin(currentWindTime * 0.100 * Math.PI) * 0.3f; float dirval2 = (float)(currentWindTime * 0.333 * Math.PI); float dirval3 = (float)(currentWindTime * 0.5 * Math.PI); float dirval4 = (float)Math.Sin(currentWindTime * 0.223 * Math.PI) * 0.4f; float dirval5 = (float)Math.Sin(currentWindTime * 0.4 * Math.PI) * 5.5f; currentWindVec.Z = (float)Math.Sin(dirval) * dirval1 + (float)Math.Cos(dirval2) * dirval4; currentWindVec.W = (float)Math.Cos(dirval) * dirval5 + (float)Math.Sin(dirval3) * dirval4; float strval = (float)(currentWindTime * 0.1 * Math.PI); float strval2 = (float)(currentWindTime * 0.825 * Math.PI); float strval3 = (float)(currentWindTime * 0.333 * Math.PI); float strval4 = (float)(currentWindTime * 0.666 * Math.PI); float strbase = 0.1f * ((float)Math.Sin(strval * 0.5)); float strbase2 = 0.02f * ((float)Math.Sin(strval2 * 0.1)); currentWindVec.X = (float)Math.Sin(strval) * strbase + ((float)Math.Cos(strval3) * strbase2); currentWindVec.Y = (float)Math.Cos(strval2) * strbase + ((float)Math.Sin(strval4 - strval3) * strbase2); } public void RenderMarkers(List batch) { shaders.SetRasterizerMode(context, RasterizerMode.SolidDblSided); //hmm they are backwards shaders.SetDepthStencilMode(context, markerdepthclip ? DepthStencilMode.Enabled : DepthStencilMode.DisableAll); shaders.SetDefaultBlendState(context); var shader = shaders.Marker; shader.SetShader(context); shader.SetInputLayout(context, VertexType.Default); shader.SetSceneVars(context, camera, null, globalLights); MapIcon icon = null; foreach (var marker in batch) { icon = marker.Icon; Vector2 texs = new Vector2(icon.TexWidth, icon.TexHeight); Vector2 size = texs * marker.Distance; Vector2 offset = (new Vector2(texs.X, -texs.Y) - new Vector2(icon.Center.X, -icon.Center.Y) * 2.0f) * marker.Distance; shader.SetMarkerVars(context, marker.CamRelPos, size, offset); shader.SetTexture(context, icon.TexView); markerquad.Draw(context); } shader.UnbindResources(context); } public void RenderTransformWidget(TransformWidget widget) { var dsmode = DepthStencilMode.Enabled; if (widget.Mode == WidgetMode.Rotation) { dsmode = DepthStencilMode.DisableAll; } shaders.SetRasterizerMode(context, RasterizerMode.SolidDblSided); shaders.SetDepthStencilMode(context, dsmode); shaders.SetDefaultBlendState(context); shaders.ClearDepth(context, false); var shader = shaders.Widgets; widget.Render(context, camera, shader); } public void RenderSelectionEntityPivot(YmapEntityDef ent) { uint cred = (uint)new Color4(1.0f, 0.0f, 0.0f, 1.0f).ToRgba(); uint cgrn = (uint)new Color4(0.0f, 1.0f, 0.0f, 1.0f).ToRgba(); uint cblu = (uint)new Color4(0.0f, 0.0f, 1.0f, 1.0f).ToRgba(); var pos = ent.WidgetPosition; var ori = ent.WidgetOrientation; float pxsize = 120.0f; float sssize = pxsize / camera.Height; float dist = (pos - camera.Position).Length(); float size = sssize * dist; if (camera.IsMapView || camera.IsOrthographic) { size = sssize * camera.OrthographicSize; } float rad = size * 0.066f; RenderSelectionArrowOutline(pos, Vector3.UnitX, Vector3.UnitY, ori, size, rad, cred); RenderSelectionArrowOutline(pos, Vector3.UnitY, Vector3.UnitX, ori, size, rad, cgrn); RenderSelectionArrowOutline(pos, Vector3.UnitZ, Vector3.UnitY, ori, size, rad, cblu); } public void RenderBrushRadiusOutline(Vector3 position, Vector3 dir, Vector3 up, float radius, uint col) { const int Reso = 36; const float MaxDeg = 360f; const float DegToRad = 0.0174533f; const float Ang = MaxDeg / Reso; var axis = Vector3.Cross(dir, up); var c = new VertexTypePC[Reso]; for (var i = 0; i < Reso; i++) { var rDir = Quaternion.RotationAxis(dir, (i * Ang) * DegToRad).Multiply(axis); c[i].Position = position + (rDir * radius); c[i].Colour = col; } for (var i = 0; i < c.Length; i++) { SelectionLineVerts.Add(c[i]); SelectionLineVerts.Add(c[(i + 1) % c.Length]); } SelectionLineVerts.Add(new VertexTypePC{Colour = col, Position = position}); SelectionLineVerts.Add(new VertexTypePC { Colour = col, Position = position + dir * 2f}); } public void RenderSelectionArrowOutline(Vector3 pos, Vector3 dir, Vector3 up, Quaternion ori, float len, float rad, uint colour) { Vector3 ax = Vector3.Cross(dir, up); Vector3 sx = ax * rad; Vector3 sy = up * rad; Vector3 sz = dir * len; VertexTypePC[] c = new VertexTypePC[8]; Vector3 d0 = -sx - sy; Vector3 d1 = -sx + sy; Vector3 d2 = +sx - sy; Vector3 d3 = +sx + sy; c[0].Position = d0; c[1].Position = d1; c[2].Position = d2; c[3].Position = d3; c[4].Position = d0 + sz; c[5].Position = d1 + sz; c[6].Position = d2 + sz; c[7].Position = d3 + sz; for (int i = 0; i < 8; i++) { c[i].Colour = colour; c[i].Position = pos + ori.Multiply(c[i].Position); } SelectionLineVerts.Add(c[0]); SelectionLineVerts.Add(c[1]); SelectionLineVerts.Add(c[1]); SelectionLineVerts.Add(c[3]); SelectionLineVerts.Add(c[3]); SelectionLineVerts.Add(c[2]); SelectionLineVerts.Add(c[2]); SelectionLineVerts.Add(c[0]); SelectionLineVerts.Add(c[4]); SelectionLineVerts.Add(c[5]); SelectionLineVerts.Add(c[5]); SelectionLineVerts.Add(c[7]); SelectionLineVerts.Add(c[7]); SelectionLineVerts.Add(c[6]); SelectionLineVerts.Add(c[6]); SelectionLineVerts.Add(c[4]); SelectionLineVerts.Add(c[0]); SelectionLineVerts.Add(c[4]); SelectionLineVerts.Add(c[1]); SelectionLineVerts.Add(c[5]); SelectionLineVerts.Add(c[2]); SelectionLineVerts.Add(c[6]); SelectionLineVerts.Add(c[3]); SelectionLineVerts.Add(c[7]); c[0].Position = pos + ori.Multiply(dir * (len + rad * 5.0f)); c[4].Position += ori.Multiply(d0); c[5].Position += ori.Multiply(d1); c[6].Position += ori.Multiply(d2); c[7].Position += ori.Multiply(d3); SelectionLineVerts.Add(c[4]); SelectionLineVerts.Add(c[5]); SelectionLineVerts.Add(c[5]); SelectionLineVerts.Add(c[7]); SelectionLineVerts.Add(c[7]); SelectionLineVerts.Add(c[6]); SelectionLineVerts.Add(c[6]); SelectionLineVerts.Add(c[4]); SelectionLineVerts.Add(c[0]); SelectionLineVerts.Add(c[4]); SelectionLineVerts.Add(c[0]); SelectionLineVerts.Add(c[5]); SelectionLineVerts.Add(c[0]); SelectionLineVerts.Add(c[6]); SelectionLineVerts.Add(c[0]); SelectionLineVerts.Add(c[7]); } public void RenderSelectionNavPoly(YnvPoly poly) { ////draw poly triangles var pcolour = new Color4(1.0f, 1.0f, 1.0f, 0.2f); var colourval = (uint)pcolour.ToRgba(); var ynv = poly.Ynv; var ic = poly._RawData.IndexCount; var startid = poly._RawData.IndexID; var endid = startid + ic; var lastid = endid - 1; var vc = ynv.Vertices.Count; var startind = ynv.Indices[startid]; VertexTypePC v0 = new VertexTypePC(); VertexTypePC v1 = new VertexTypePC(); VertexTypePC v2 = new VertexTypePC(); v0.Position = ynv.Vertices[startind]; v0.Colour = colourval; v1.Colour = colourval; v2.Colour = colourval; int tricount = ic - 2; for (int t = 0; t < tricount; t++) { int tid = startid + t; int ind1 = ynv.Indices[tid + 1]; int ind2 = ynv.Indices[tid + 2]; if ((ind1 >= vc) || (ind2 >= vc)) { continue; } v1.Position = ynv.Vertices[ind1]; v2.Position = ynv.Vertices[ind2]; SelectionTriVerts.Add(v0); SelectionTriVerts.Add(v1); SelectionTriVerts.Add(v2); SelectionTriVerts.Add(v0); SelectionTriVerts.Add(v2); SelectionTriVerts.Add(v1); } } public void RenderSelectionNavPolyOutline(YnvPoly poly, uint colourval) { //var colourval = (uint)colour.ToRgba(); var ynv = poly.Ynv; var ic = poly._RawData.IndexCount; var startid = poly._RawData.IndexID; var endid = startid + ic; var lastid = endid - 1; var vc = ynv.Vertices.Count; var startind = ynv.Indices[startid]; ////draw poly outline VertexTypePC v = new VertexTypePC(); v.Colour = colourval; VertexTypePC v0 = new VertexTypePC(); for (int id = startid; id < endid; id++) { var ind = ynv.Indices[id]; if (ind >= vc) { continue; } v.Position = ynv.Vertices[ind]; SelectionLineVerts.Add(v); if (id == startid) { v0 = v; } else { SelectionLineVerts.Add(v); } if (id == lastid) { SelectionLineVerts.Add(v0); } } ////draw poly triangles //VertexTypePC v0 = new VertexTypePC(); //VertexTypePC v1 = new VertexTypePC(); //VertexTypePC v2 = new VertexTypePC(); //v0.Position = ynv.Vertices[startind]; //v0.Colour = colourval; //v1.Colour = colourval; //v2.Colour = colourval; //int tricount = ic - 2; //for (int t = 0; t < tricount; t++) //{ // int tid = startid + t; // int ind1 = ynv.Indices[tid + 1]; // int ind2 = ynv.Indices[tid + 2]; // if ((ind1 >= vc) || (ind2 >= vc)) // { continue; } // v1.Position = ynv.Vertices[ind1]; // v2.Position = ynv.Vertices[ind2]; // Renderer.SelectionTriVerts.Add(v0); // Renderer.SelectionTriVerts.Add(v1); // Renderer.SelectionTriVerts.Add(v2); // Renderer.SelectionTriVerts.Add(v0); // Renderer.SelectionTriVerts.Add(v2); // Renderer.SelectionTriVerts.Add(v1); //} } public void RenderSelectionGeometry(MapSelectionMode mode) { bool clip = true; switch (mode) { case MapSelectionMode.NavMesh: case MapSelectionMode.WaterQuad: case MapSelectionMode.MloInstance: clip = false; break; } shaders.SetDepthStencilMode(context, clip ? DepthStencilMode.Enabled : DepthStencilMode.DisableAll); var pshader = shaders.Paths; if (SelectionTriVerts.Count > 0) { pshader.RenderTriangles(context, SelectionTriVerts, camera, shaders.GlobalLights); } if (SelectionLineVerts.Count > 0) { pshader.RenderLines(context, SelectionLineVerts, camera, shaders.GlobalLights); } Vector3 coloursel = new Vector3(0, 1, 0) * globalLights.HdrIntensity * 5.0f; Vector3 colourwht = new Vector3(1, 1, 1) * globalLights.HdrIntensity * 10.0f; var shader = shaders.Bounds; if ((WhiteBoxes.Count > 0) || (SelectionBoxes.Count > 0)) { shader.SetMode(BoundsShaderMode.Box); shader.SetShader(context); shader.SetInputLayout(context, VertexType.Default); shader.SetSceneVars(context, camera, null, globalLights); shader.SetColourVars(context, new Vector4(colourwht, 1)); for (int i = 0; i < WhiteBoxes.Count; i++) { MapBox mb = WhiteBoxes[i]; shader.SetBoxVars(context, mb.CamRelPos, mb.BBMin, mb.BBMax, mb.Orientation, mb.Scale); shader.DrawBox(context); } shader.SetColourVars(context, new Vector4(coloursel, 1)); for (int i = 0; i < SelectionBoxes.Count; i++) { MapBox mb = SelectionBoxes[i]; shader.SetBoxVars(context, mb.CamRelPos, mb.BBMin, mb.BBMax, mb.Orientation, mb.Scale); shader.DrawBox(context); } shader.UnbindResources(context); } if ((WhiteSpheres.Count > 0) || (SelectionSpheres.Count > 0)) { shader.SetMode(BoundsShaderMode.Sphere); shader.SetShader(context); shader.SetInputLayout(context, VertexType.Default); shader.SetSceneVars(context, camera, null, globalLights); shader.SetColourVars(context, new Vector4(colourwht, 1)); for (int i = 0; i < WhiteSpheres.Count; i++) { MapSphere ms = WhiteSpheres[i]; shader.SetSphereVars(context, ms.CamRelPos, ms.Radius); shader.DrawSphere(context); } shader.SetColourVars(context, new Vector4(coloursel, 1)); for (int i = 0; i < SelectionSpheres.Count; i++) { MapSphere ms = SelectionSpheres[i]; shader.SetSphereVars(context, ms.CamRelPos, ms.Radius); shader.DrawSphere(context); } shader.UnbindResources(context); } } public void RenderMouseHit(BoundsShaderMode mode, bool clip, ref Vector3 camrel, ref Vector3 bbmin, ref Vector3 bbmax, ref Vector3 scale, ref Quaternion ori, float bsphrad) { Vector3 colour = new Vector3(1, 1, 1); colour *= globalLights.HdrIntensity * 5.0f; shaders.SetDepthStencilMode(context, clip ? DepthStencilMode.Enabled : DepthStencilMode.DisableAll); //render moused object box. var shader = shaders.Bounds; shader.SetMode(mode); shader.SetShader(context); shader.SetInputLayout(context, VertexType.Default); shader.SetSceneVars(context, camera, null, globalLights); shader.SetColourVars(context, new Vector4(colour, 1)); //white box if (mode == BoundsShaderMode.Box) { shader.SetBoxVars(context, camrel, bbmin, bbmax, ori, scale); shader.DrawBox(context); } else if (mode == BoundsShaderMode.Sphere) { shader.SetSphereVars(context, camrel, bsphrad); shader.DrawSphere(context); } shader.UnbindResources(context); } public void RenderBounds(MapSelectionMode mode) { //immediately render the entity bounding boxes/spheres - depending on boundsmode bool clip = renderboundsclip; switch (mode) { case MapSelectionMode.WaterQuad: case MapSelectionMode.MloInstance: clip = false; break; } Vector3 colour = new Vector3(0, 0, 1) * globalLights.HdrIntensity; Vector3 colourhi = new Vector3(0, 1, 1) * globalLights.HdrIntensity; shaders.SetDepthStencilMode(context, clip ? DepthStencilMode.Enabled : DepthStencilMode.DisableAll); var shader = shaders.Bounds; if ((BoundingBoxes.Count > 0) || (HilightBoxes.Count > 0)) { shader.SetMode(BoundsShaderMode.Box); shader.SetShader(context); shader.SetInputLayout(context, VertexType.Default); shader.SetSceneVars(context, camera, null, globalLights); shader.SetColourVars(context, new Vector4(colour, 1)); for (int i = 0; i < BoundingBoxes.Count; i++) { MapBox mb = BoundingBoxes[i]; shader.SetBoxVars(context, mb.CamRelPos, mb.BBMin, mb.BBMax, mb.Orientation, mb.Scale); shader.DrawBox(context); } shader.SetColourVars(context, new Vector4(colourhi, 1)); for (int i = 0; i < HilightBoxes.Count; i++) { MapBox mb = HilightBoxes[i]; shader.SetBoxVars(context, mb.CamRelPos, mb.BBMin, mb.BBMax, mb.Orientation, mb.Scale); shader.DrawBox(context); } } if ((BoundingSpheres.Count > 0) || (HilightSpheres.Count > 0)) { shader.SetMode(BoundsShaderMode.Sphere); shader.SetShader(context); shader.SetInputLayout(context, VertexType.Default); shader.SetSceneVars(context, camera, null, globalLights); shader.SetColourVars(context, new Vector4(colour, 1)); for (int i = 0; i < BoundingSpheres.Count; i++) { MapSphere ms = BoundingSpheres[i]; shader.SetSphereVars(context, ms.CamRelPos, ms.Radius); shader.DrawSphere(context); } shader.SetColourVars(context, new Vector4(colourhi, 1)); for (int i = 0; i < HilightSpheres.Count; i++) { MapSphere ms = HilightSpheres[i]; shader.SetSphereVars(context, ms.CamRelPos, ms.Radius); shader.DrawSphere(context); } } shader.UnbindResources(context); } private void RenderSkeleton(Renderable renderable, YmapEntityDef entity) { RenderSkeletonItem item = new RenderSkeletonItem(); item.Renderable = renderable; item.Entity = entity; renderskeletonlist.Add(item); } private void RenderSkeletons() { skeletonLineVerts.Clear(); const uint cgrn = 4278255360;// (uint)new Color4(0.0f, 1.0f, 0.0f, 1.0f).ToRgba(); const uint cblu = 4294901760;// (uint)new Color4(0.0f, 0.0f, 1.0f, 1.0f).ToRgba(); VertexTypePC v1 = new VertexTypePC(); VertexTypePC v2 = new VertexTypePC(); v1.Colour = cgrn; v2.Colour = cblu; foreach (var item in renderskeletonlist) { YmapEntityDef entity = item.Entity; DrawableBase drawable = item.Renderable.Key; Skeleton skeleton = drawable?.Skeleton; if (skeleton == null) continue; var pinds = skeleton.ParentIndices; var bones = skeleton.Bones; if ((pinds == null) || (bones == null)) continue; var xforms = skeleton.Transformations; int cnt = Math.Min(pinds.Length, bones.Count); for (int i = 0; i < cnt; i++) { var pind = pinds[i]; var bone = bones[i]; var pbone = bone.Parent; if (pbone == null) continue; //nothing to draw for the root bone if (xforms != null)//how to use xforms? bind pose? { var xform = (i < xforms.Length) ? xforms[i] : Matrix.Identity; var pxform = (pind < xforms.Length) ? xforms[pind] : Matrix.Identity; } else { } //draw line from bone's position to parent position... Vector3 lbeg = Vector3.Zero; Vector3 lend = bone.AnimTranslation;// bone.Rotation.Multiply(); while (pbone != null) { lbeg = pbone.AnimRotation.Multiply(lbeg) + pbone.AnimTranslation; lend = pbone.AnimRotation.Multiply(lend) + pbone.AnimTranslation; pbone = pbone.Parent; } if (entity != null) { lbeg = entity.Position + entity.Orientation.Multiply(lbeg * entity.Scale); lend = entity.Position + entity.Orientation.Multiply(lend * entity.Scale); } v1.Position = lbeg; v2.Position = lend; skeletonLineVerts.Add(v1); skeletonLineVerts.Add(v2); } } if (skeletonLineVerts.Count > 0) { RenderLines(skeletonLineVerts, DepthStencilMode.DisableAll); } } public void RenderLines(List linelist, DepthStencilMode dsmode = DepthStencilMode.Enabled) { shaders.SetDepthStencilMode(context, dsmode); shaders.Paths.RenderLines(context, linelist, camera, shaders.GlobalLights); } private void RenderSky() { if (MapViewEnabled) return; if (!renderskydome) return; if (!weather.Inited) return; var shader = shaders.Skydome; shader.UpdateSkyLocals(weather, globalLights); DrawableBase skydomeydr = null; YddFile skydomeydd = gameFileCache.GetYdd(2640562617); //skydome hash if ((skydomeydd != null) && (skydomeydd.Loaded) && (skydomeydd.Dict != null)) { skydomeydr = skydomeydd.Dict.Values.FirstOrDefault(); } Texture starfield = null; Texture moon = null; YtdFile skydomeytd = gameFileCache.GetYtd(2640562617); //skydome hash if ((skydomeytd != null) && (skydomeytd.Loaded) && (skydomeytd.TextureDict != null) && (skydomeytd.TextureDict.Dict != null)) { skydomeytd.TextureDict.Dict.TryGetValue(1064311147, out starfield); //starfield hash if (rendermoon) { skydomeytd.TextureDict.Dict.TryGetValue(234339206, out moon); //moon-new hash } } Renderable sdrnd = null; if (skydomeydr != null) { sdrnd = renderableCache.GetRenderable(skydomeydr); } RenderableTexture sftex = null; if (starfield != null) { sftex = renderableCache.GetRenderableTexture(starfield); } RenderableTexture moontex = null; if (moon != null) { moontex = renderableCache.GetRenderableTexture(moon); } if ((sdrnd != null) && (sdrnd.IsLoaded) && (sftex != null) && (sftex.IsLoaded)) { shaders.SetDepthStencilMode(context, DepthStencilMode.DisableAll); shaders.SetRasterizerMode(context, RasterizerMode.Solid); RenderableInst rinst = new RenderableInst(); rinst.Position = Vector3.Zero; rinst.CamRel = Vector3.Zero; rinst.Distance = 0.0f; rinst.BBMin = skydomeydr.BoundingBoxMin.XYZ(); rinst.BBMax = skydomeydr.BoundingBoxMax.XYZ(); rinst.BSCenter = Vector3.Zero; rinst.Radius = skydomeydr.BoundingSphereRadius; rinst.Orientation = Quaternion.Identity; rinst.Scale = Vector3.One; rinst.TintPaletteIndex = 0; rinst.Renderable = sdrnd; shader.SetShader(context); shader.SetInputLayout(context, VertexType.PTT); shader.SetSceneVars(context, camera, null, globalLights); shader.SetEntityVars(context, ref rinst); RenderableModel rmod = ((sdrnd.HDModels != null) && (sdrnd.HDModels.Length > 0)) ? sdrnd.HDModels[0] : null; RenderableGeometry rgeom = ((rmod != null) && (rmod.Geometries != null) && (rmod.Geometries.Length > 0)) ? rmod.Geometries[0] : null; if ((rgeom != null) && (rgeom.VertexType == VertexType.PTT)) { shader.SetModelVars(context, rmod); shader.SetTextures(context, sftex); rgeom.Render(context); } //shaders.SetRasterizerMode(context, RasterizerMode.SolidDblSided); //shaders.SetDepthStencilMode(context, DepthStencilMode.Enabled); shader.RenderSun(context, camera, weather, globalLights); if ((rendermoon) && (moontex != null) && (moontex.IsLoaded)) { shader.RenderMoon(context, camera, weather, globalLights, moontex); } shader.UnbindResources(context); } } private void RenderClouds() { if (MapViewEnabled) return; if (!renderclouds) return; if (!renderskydome) return; if (!weather.Inited) return; if (!clouds.Inited) return; var shader = shaders.Clouds; shaders.SetDepthStencilMode(context, DepthStencilMode.DisableAll); shaders.SetRasterizerMode(context, RasterizerMode.Solid); shaders.SetDefaultBlendState(context); //shaders.SetAlphaBlendState(context); shader.SetShader(context); shader.UpdateCloudsLocals(clouds, globalLights); shader.SetSceneVars(context, camera, null, globalLights); var vtype = (VertexType)0; if (!string.IsNullOrEmpty(individualcloudfrag)) { //render one cloud fragment. CloudHatFrag frag = clouds.HatManager.FindFrag(individualcloudfrag); if (frag == null) return; for (int i = 0; i < frag.Layers.Length; i++) { CloudHatFragLayer layer = frag.Layers[i]; uint dhash = JenkHash.GenHash(layer.Filename.ToLowerInvariant()); Archetype arch = gameFileCache.GetArchetype(dhash); if (arch == null) { continue; } if (Math.Max(camera.Position.Z, 0.0f) < layer.HeightTigger) continue; var drw = gameFileCache.TryGetDrawable(arch); var rnd = TryGetRenderable(arch, drw); if ((rnd == null) || (rnd.IsLoaded == false) || (rnd.AllTexturesLoaded == false)) { continue; } RenderableInst rinst = new RenderableInst(); rinst.Position = frag.Position;// Vector3.Zero; rinst.CamRel = Vector3.Zero;// - camera.Position; rinst.Distance = rinst.CamRel.Length(); rinst.BBMin = arch.BBMin; rinst.BBMax = arch.BBMax; rinst.BSCenter = frag.Position; rinst.Radius = arch.BSRadius; rinst.Orientation = Quaternion.Identity; rinst.Scale = frag.Scale;// Vector3.One; rinst.TintPaletteIndex = 0; rinst.Renderable = rnd; shader.SetEntityVars(context, ref rinst); for (int mi = 0; mi < rnd.HDModels.Length; mi++) { var model = rnd.HDModels[mi]; for (int gi = 0; gi < model.Geometries.Length; gi++) { var geom = model.Geometries[gi]; if (geom.VertexType != vtype) { vtype = geom.VertexType; shader.SetInputLayout(context, vtype); } shader.SetGeomVars(context, geom); geom.Render(context); } } } } } public void RenderWaterQuads(List waterquads) { foreach (var quad in waterquads) { RenderableWaterQuad rquad = renderableCache.GetRenderableWaterQuad(quad); if ((rquad != null) && (rquad.IsLoaded)) { rquad.CamRel = -camera.Position; shaders.Enqueue(rquad); } } } public void RenderPaths(List ynds) { foreach (var ynd in ynds) { RenderablePathBatch rnd = renderableCache.GetRenderablePathBatch(ynd); if ((rnd != null) && (rnd.IsLoaded)) { shaders.Enqueue(rnd); } } } public void RenderTrainTracks(List tracks) { foreach (var track in tracks) { RenderablePathBatch rnd = renderableCache.GetRenderablePathBatch(track); if ((rnd != null) && (rnd.IsLoaded)) { shaders.Enqueue(rnd); } } } public void RenderNavMeshes(List ynvs) { foreach (var ynv in ynvs) { RenderablePathBatch rnd = renderableCache.GetRenderablePathBatch(ynv); if ((rnd != null) && (rnd.IsLoaded)) { shaders.Enqueue(rnd); } } } public void RenderNavMesh(YnvFile ynv) { RenderablePathBatch rnd = renderableCache.GetRenderablePathBatch(ynv); if ((rnd != null) && (rnd.IsLoaded)) { shaders.Enqueue(rnd); } } public void RenderBasePath(BasePathData basepath) { RenderablePathBatch rnd = renderableCache.GetRenderablePathBatch(basepath); if ((rnd != null) && (rnd.IsLoaded)) { shaders.Enqueue(rnd); } } public void RenderScenarios(List ymts) { foreach (var scenario in ymts) { RenderablePathBatch rnd = renderableCache.GetRenderablePathBatch(scenario.ScenarioRegion); if ((rnd != null) && (rnd.IsLoaded)) { shaders.Enqueue(rnd); } } } public void RenderPopZones(PopZones zones) { RenderablePathBatch rnd = renderableCache.GetRenderablePathBatch(zones); if ((rnd != null) && (rnd.IsLoaded)) { shaders.Enqueue(rnd); } } public void RenderWorld(Dictionary renderworldVisibleYmapDict, IEnumerable spaceEnts) { renderworldentities.Clear(); renderworldrenderables.Clear(); VisibleYmaps.Clear(); foreach (var ymap in renderworldVisibleYmapDict.Values) { if (!RenderWorldYmapIsVisible(ymap)) continue; VisibleYmaps.Add(ymap); } if (spaceEnts != null) { foreach (var ae in spaceEnts) //used by active space entities (eg "bullets") { if (ae.EntityDef == null) continue; //nothing to render... RenderWorldCalcEntityVisibility(ae.EntityDef); renderworldentities.Add(ae.EntityDef); } } if (MapViewEnabled) { //find the max Z value for positioning camera in map view, to help shadows //float minZ = float.MaxValue; float maxZ = float.MinValue; float cvwidth = camera.OrthographicSize * camera.AspectRatio * 0.5f; float cvheight = camera.OrthographicSize * 0.5f; float cvwmin = camera.Position.X - cvwidth; //TODO:make all these vars global... float cvwmax = camera.Position.X + cvwidth; float cvhmin = camera.Position.Y - cvheight; float cvhmax = camera.Position.Y + cvheight; for (int y = 0; y < VisibleYmaps.Count; y++) { var ymap = VisibleYmaps[y]; if (ymap.AllEntities != null) { for (int i = 0; i < ymap.AllEntities.Length; i++) { var ent = ymap.AllEntities[i]; if ((ent.Position.Z < 1000.0f) && (ent.BSRadius < 500.0f)) { float r = ent.BSRadius; if (((ent.Position.X + r) > cvwmin) && ((ent.Position.X - r) < cvwmax) && ((ent.Position.Y + r) > cvhmin) && ((ent.Position.Y - r) < cvhmax)) { //minZ = Math.Min(minZ, ent.BBMin.Z); maxZ = Math.Max(maxZ, ent.BBMax.Z + 50.0f);//add some bias to avoid clipping things... } } } } } //move the camera closer to the geometry, to help shadows in map view. if (maxZ == float.MinValue) maxZ = 1000.0f; camera.Position.Z = Math.Min(maxZ, 1000.0f); } for (int y = 0; y < VisibleYmaps.Count; y++) { var ymap = VisibleYmaps[y]; if (ymap.RootEntities != null) { YmapFile pymap; renderworldVisibleYmapDict.TryGetValue(ymap._CMapData.parent, out pymap); for (int i = 0; i < ymap.RootEntities.Length; i++) { var ent = ymap.RootEntities[i]; int pind = ent._CEntityDef.parentIndex; if (pind >= 0) //connect root entities to parents if they have them.. { YmapEntityDef p = null; if ((pymap != null) && (pymap.AllEntities != null)) { if ((pind < pymap.AllEntities.Length)) { p = pymap.AllEntities[pind]; ent.Parent = p; ent.ParentName = p._CEntityDef.archetypeName; } } else { }//should only happen if parent ymap not loaded yet... } RenderWorldRecurseCalcEntityVisibility(ent); } } } for (int y = 0; y < VisibleYmaps.Count; y++) { var ymap = VisibleYmaps[y]; if (ymap.RootEntities != null) { for (int i = 0; i < ymap.RootEntities.Length; i++) { var ent = ymap.RootEntities[i]; RenderWorldRecurseAddEntities(ent); } } } if (renderentities) { for (int i = 0; i < renderworldentities.Count; i++) { var ent = renderworldentities[i]; var arch = ent.Archetype; var pent = ent.Parent; var drawable = gameFileCache.TryGetDrawable(arch); Renderable rndbl = TryGetRenderable(arch, drawable); if ((rndbl != null) && rndbl.IsLoaded && (rndbl.AllTexturesLoaded || !waitforchildrentoload)) { RenderableEntity rent = new RenderableEntity(); rent.Entity = ent; rent.Renderable = rndbl; renderworldrenderables.Add(rent); } else if (waitforchildrentoload) { //todo: render parent if children loading....... } } for (int i = 0; i < renderworldrenderables.Count; i++) { var rent = renderworldrenderables[i]; var ent = rent.Entity; var arch = ent.Archetype; RenderArchetype(arch, ent, rent.Renderable, false); } } if (renderinteriors && (rendercollisionmeshes || (SelectionMode == MapSelectionMode.Collision))) { for (int i = 0; i < renderworldentities.Count; i++) { var ent = renderworldentities[i]; if (ent.IsMlo) { RenderInteriorCollisionMesh(ent); } } } if (rendercars) { for (int y = 0; y < VisibleYmaps.Count; y++) { var ymap = VisibleYmaps[y]; if (ymap.CarGenerators != null) { RenderYmapCarGenerators(ymap); } } } if (rendergrass) { for (int y = 0; y < VisibleYmaps.Count; y++) { var ymap = VisibleYmaps[y]; if (ymap.GrassInstanceBatches != null) { RenderYmapGrass(ymap); } } } if (renderdistlodlights && timecycle.IsNightTime) { for (int y = 0; y < VisibleYmaps.Count; y++) { var ymap = VisibleYmaps[y]; if (ymap.DistantLODLights != null) { RenderYmapDistantLODLights(ymap); } } } } private bool RenderWorldYmapIsVisible(YmapFile ymap) { if (!ShowScriptedYmaps) { if ((ymap._CMapData.flags & 1) > 0) return false; } if (!ymap.HasChanged)//don't cull edited project ymaps, because extents may not have been updated! { var eemin = ymap._CMapData.entitiesExtentsMin; var eemax = ymap._CMapData.entitiesExtentsMax; bool visible = false; if (MapViewEnabled)//don't do front clipping in 2D mode { visible = camera.ViewFrustum.ContainsAABBNoFrontClipNoOpt(ref eemin, ref eemax); } else { visible = camera.ViewFrustum.ContainsAABBNoClipNoOpt(ref eemin, ref eemax); } if (!visible) { return false; } } return true; } private void RenderWorldCalcEntityVisibility(YmapEntityDef ent) { float dist = (ent.Position - camera.Position).Length(); if (MapViewEnabled) { dist = camera.OrthographicSize / MapViewDetail; } var loddist = ent._CEntityDef.lodDist; var cloddist = ent._CEntityDef.childLodDist; if (loddist <= 0.0f)//usually -1 or -2 { if (ent.Archetype != null) { loddist = ent.Archetype.LodDist * renderworldLodDistMult; } } else if (ent._CEntityDef.lodLevel == rage__eLodType.LODTYPES_DEPTH_ORPHANHD) { loddist *= renderworldDetailDistMult * 1.5f; //orphan view dist adjustment... } else { loddist *= renderworldLodDistMult; } if (cloddist <= 0) { if (ent.Archetype != null) { cloddist = ent.Archetype.LodDist * renderworldLodDistMult; } } else { cloddist *= renderworldLodDistMult; } ent.Distance = dist; ent.IsVisible = (dist <= loddist); ent.ChildrenVisible = (dist <= cloddist) && (ent._CEntityDef.numChildren > 0); if (renderworldMaxLOD != rage__eLodType.LODTYPES_DEPTH_ORPHANHD) { if ((ent._CEntityDef.lodLevel == rage__eLodType.LODTYPES_DEPTH_ORPHANHD) || (ent._CEntityDef.lodLevel < renderworldMaxLOD)) { ent.IsVisible = false; ent.ChildrenVisible = false; } if (ent._CEntityDef.lodLevel == renderworldMaxLOD) { ent.ChildrenVisible = false; } } } private void RenderWorldRecurseCalcEntityVisibility(YmapEntityDef ent) { RenderWorldCalcEntityVisibility(ent); if (ent.ChildrenVisible) { if (ent.Children != null) { for (int i = 0; i < ent.Children.Length; i++) { var child = ent.Children[i]; if (child.Ymap == ent.Ymap) { RenderWorldRecurseCalcEntityVisibility(child); } } } } } private void RenderWorldRecurseAddEntities(YmapEntityDef ent) { bool hide = ent.ChildrenVisible; bool force = (ent.Parent != null) && ent.Parent.ChildrenVisible && !hide; if (force || (ent.IsVisible && !hide)) { if (ent.Archetype != null) { if (!RenderIsEntityFinalRender(ent)) return; var bscent = ent.Position + ent.BSCenter - camera.Position; float bsrad = ent.BSRadius; if (!camera.ViewFrustum.ContainsSphereNoClipNoOpt(ref bscent, bsrad)) { return; //frustum cull } renderworldentities.Add(ent); if (renderinteriors && ent.IsMlo && (ent.MloInstance != null)) //render Mlo child entities... { RenderWorldAddInteriorEntities(ent); } } } if (ent.IsVisible && ent.ChildrenVisible && (ent.Children != null)) { for (int i = 0; i < ent.Children.Length; i++) { var child = ent.Children[i]; if (child.Ymap == ent.Ymap) { RenderWorldRecurseAddEntities(ent.Children[i]); } } } } private void RenderWorldAddInteriorEntities(YmapEntityDef ent) { if (ent.MloInstance.Entities != null) { for (int j = 0; j < ent.MloInstance.Entities.Length; j++) { var intent = ent.MloInstance.Entities[j]; if (intent.Archetype == null) continue; //missing archetype... if (!RenderIsEntityFinalRender(intent)) continue; //proxy or something.. intent.IsVisible = true; var iebscent = intent.Position + intent.BSCenter - camera.Position; float iebsrad = intent.BSRadius; if (!camera.ViewFrustum.ContainsSphereNoClipNoOpt(ref iebscent, iebsrad)) { continue; //frustum cull interior ents } renderworldentities.Add(intent); } } if (ent.MloInstance.EntitySets != null) { foreach (var entitysets in ent.MloInstance.EntitySets) { var entityset = entitysets.Value; if (!entityset.Visible) continue; var entities = entityset.Entities; for (int i = 0; i < entities.Count; i++) { var intent = entities[i]; if (intent.Archetype == null) continue; //missing archetype... if (!RenderIsEntityFinalRender(intent)) continue; //proxy or something.. intent.IsVisible = true; var iebscent = intent.Position + intent.BSCenter - camera.Position; float iebsrad = intent.BSRadius; if (!camera.ViewFrustum.ContainsSphereNoClipNoOpt(ref iebscent, iebsrad)) { continue; //frustum cull interior ents } renderworldentities.Add(intent); } } } } private bool RenderIsEntityFinalRender(YmapEntityDef ent) { var arch = ent.Archetype; bool isshadowproxy = false; bool isreflproxy = false; uint archflags = arch._BaseArchetypeDef.flags; if (arch.Type == MetaName.CTimeArchetypeDef) { if (!(rendertimedents && (rendertimedentsalways || arch.IsActive(timeofday)))) return false; //archflags = arch._BaseArchetypeDef.flags; } //else if (arch.Type == MetaName.CMloArchetypeDef) //{ // archflags = arch._BaseArchetypeDef.flags; //} ////switch (archflags) ////{ //// //case 8192: //8192: is YTYP no shadow rendering - CP //// case 2048: //000000000000000000100000000000 shadow proxies... //// case 536872960: //100000000000000000100000000000 tunnel refl/shadow prox? //// isshadowproxy = true; break; ////} if ((archflags & 2048) > 0) { isshadowproxy = true; } //if ((ent.CEntityDef.flags & 1572864) == 1572864) //{ // isreflproxy = true; //} switch (ent._CEntityDef.flags) { case 135790592: //001000000110000000000000000000 prewater proxy (golf course) case 135790593: //001000000110000000000000000001 water refl proxy? (mike house) case 672661504: //101000000110000000000000000000 vb_ca_prop_tree_reflprox_2 case 536870912: //100000000000000000000000000000 vb_05_emissive_mirroronly case 35127296: //000010000110000000000000000000 tunnel refl proxy? case 39321602: //000010010110000000000000000010 mlo reflection? isreflproxy = true; break; //nonproxy is: //000000000110000000000000001000 (1572872) // //000000000110000000000000000000 } if (isshadowproxy || isreflproxy) { return renderproxies; //filter out proxy entities... } return true; } private bool RenderIsModelFinalRender(RenderableModel model) { if ((model.RenderMaskFlags & 1) == 0) //smallest bit is proxy/"final render" bit? seems to work... { return renderproxies; } return true; //switch (model.Unk2Ch) //{ // case 65784: //0000010000000011111000 //reflection proxy? // case 65788: //0000010000000011111100 // case 131312: //0000100000000011110000 //reflection proxy? // case 131320: //0000100000000011111000 //reflection proxy? // case 131324: //0000100000000011111100 //shadow/reflection proxy? // case 196834: //0000110000000011100010 //shadow proxy? (tree branches) // case 196848: //0000110000000011110000 //reflection proxy? // case 196856: //0000110000000011111000 //reflection proxy? hotel nr golf course // case 262392: //0001000000000011111000 //reflection proxy? // case 327932: //0001010000000011111100 //reflection proxy? (alamo/sandy shores) // case 983268: //0011110000000011100100 //big reflection proxy? // case 2293988://1000110000000011100100 //big reflection proxy? // //case 1442047://golf course water proxy, but other things also // //case 1114367://mike house water proxy, but other things also // return renderproxies; //} //return true; } public void RenderYmap(YmapFile ymap) { if (ymap == null) return; if (!ymap.Loaded) return; if ((ymap.AllEntities != null) && (ymap.RootEntities != null)) { if (usedynamiclod) { for (int i = 0; i < ymap.RootEntities.Length; i++) { RenderYmapLOD(ymap.RootEntities[i].Ymap, ymap.RootEntities[i]); } } else { var ents = renderchildents ? ymap.AllEntities : ymap.RootEntities; for (int i = 0; i < ents.Length; i++) { var ent = ents[i]; if (renderchildents && ent.Children != null) continue; //if (rootent.CEntityDef.parentIndex == -1) continue; Archetype arch = ent.Archetype; if (arch != null) { bool timed = (arch.Type == MetaName.CTimeArchetypeDef); if (!timed || (rendertimedents && (rendertimedentsalways || arch.IsActive(timeofday)))) { RenderArchetype(arch, ent); } } else { //couldn't find archetype... } } } } if (rendercars && ymap.CarGenerators != null) { RenderYmapCarGenerators(ymap); } if (rendergrass && (ymap.GrassInstanceBatches != null)) { RenderYmapGrass(ymap); } if (renderdistlodlights && timecycle.IsNightTime && (ymap.DistantLODLights != null)) { RenderYmapDistantLODLights(ymap); } } private bool RenderYmapLOD(YmapFile ymap, YmapEntityDef entity) { if (!ymap.Loaded) return false; ymap.EnsureChildYmaps(gameFileCache); Archetype arch = entity.Archetype; if (arch != null) { bool timed = (arch.Type == MetaName.CTimeArchetypeDef); if (!timed || (rendertimedents && (rendertimedentsalways || arch.IsActive(timeofday)))) { bool usechild = false; Vector3 camrel = entity.Position - camera.Position; float dist = (camrel + entity.BSCenter).Length(); entity.Distance = dist; float rad = arch.BSRadius; float loddist = entity._CEntityDef.lodDist; if (loddist < 1.0f) { loddist = 200.0f; } float mindist = Math.Max(dist - rad, 1.0f) * lodthreshold; if (mindist < loddist) { //recurse... var children = entity.ChildrenMerged; if ((children != null)) { usechild = true; for (int i = 0; i < children.Length; i++) { var childe = children[i]; if (!RenderYmapLOD(childe.Ymap, childe)) { if (waitforchildrentoload) { usechild = false; //might cause some overlapping, but should reduce things disappearing } } } } if (!entity.ChildrenRendered) { entity.ChildrenRendered = usechild; } } else { entity.ChildrenRendered = false; } if (!usechild && !entity.ChildrenRendered) { if (renderinteriors && entity.IsMlo) //render Mlo child entities... { if ((entity.MloInstance != null) && (entity.MloInstance.Entities != null)) { for (int j = 0; j < entity.MloInstance.Entities.Length; j++) { var intent = entity.MloInstance.Entities[j]; var intarch = intent.Archetype; if (intarch == null) continue; //missing archetype... if (!RenderIsEntityFinalRender(intent)) continue; //proxy or something.. RenderArchetype(intarch, intent); } } if (rendercollisionmeshes || (SelectionMode == MapSelectionMode.Collision)) { RenderInteriorCollisionMesh(entity); } } return RenderArchetype(arch, entity); } return true; } } return false; } private void RenderYmapGrass(YmapFile ymap) { //enqueue ymap grass instance batches for rendering if (ymap.GrassInstanceBatches == null) return; foreach (var batch in ymap.GrassInstanceBatches) { batch.CamRel = batch.Position - camera.Position; //batch.Distance = batch.CamRel.Length(); float lodDist = batch.Batch.lodDist * renderworldDetailDistMult;//maybe add grass dist mult //if (batch.Distance > lodDist) continue; //too far away.. lodDist *= 0.75f; //reduce it just a bit to improve performance... remove this later float cx = camera.Position.X; float cy = camera.Position.Y; float cz = camera.Position.Z; if (cx < (batch.AABBMin.X - lodDist)) continue; if (cx > (batch.AABBMax.X + lodDist)) continue; if (cy < (batch.AABBMin.Y - lodDist)) continue; if (cy > (batch.AABBMax.Y + lodDist)) continue; if (cz < (batch.AABBMin.Z - lodDist)) continue; if (cz > (batch.AABBMax.Z + lodDist)) continue; var bscent = batch.CamRel; float bsrad = batch.Radius; if (!camera.ViewFrustum.ContainsSphereNoClipNoOpt(ref bscent, bsrad)) { continue; //frustum cull grass batches... } var arch = batch.Archetype; var drbl = gameFileCache.TryGetDrawable(arch); var rndbl = TryGetRenderable(arch, drbl); var instb = renderableCache.GetRenderableInstanceBatch(batch); if (rndbl == null) continue; //no renderable if (!(rndbl.IsLoaded && (rndbl.AllTexturesLoaded || !waitforchildrentoload))) continue; //not loaded yet if ((instb == null) || !instb.IsLoaded) continue; instb.CamRel = instb.Position - camera.Position;//to gracefully handle batch size changes RenderableInstanceBatchInst binst = new RenderableInstanceBatchInst(); binst.Batch = instb; binst.Renderable = rndbl; shaders.Enqueue(ref binst); } } private void RenderYmapDistantLODLights(YmapFile ymap) { //enqueue ymap DistantLODLights instance batch for rendering if (ymap.DistantLODLights == null) return; switch (ymap.DistantLODLights.CDistantLODLight.category) { case 0: //distlodlights_small009.ymap case 1: //distlodlights_medium000.ymap case 2: //distlodlights_large000.ymap break; default: break; } RenderableDistantLODLights lights = renderableCache.GetRenderableDistantLODLights(ymap.DistantLODLights); if (!lights.IsLoaded) return; uint ytdhash = 3154743001; //"graphics" uint texhash = 2236244673; //"distant_light" YtdFile graphicsytd = gameFileCache.GetYtd(ytdhash); Texture lighttex = null; if ((graphicsytd != null) && (graphicsytd.Loaded) && (graphicsytd.TextureDict != null) && (graphicsytd.TextureDict.Dict != null)) { graphicsytd.TextureDict.Dict.TryGetValue(texhash, out lighttex); //starfield hash } if (lighttex == null) return; RenderableTexture lightrtex = null; if (lighttex != null) { lightrtex = renderableCache.GetRenderableTexture(lighttex); } if (lightrtex == null) return; if (!lightrtex.IsLoaded) return; lights.Texture = lightrtex; shaders.Enqueue(lights); } private void RenderYmapCarGenerators(YmapFile ymap) { if (ymap.CarGenerators == null) return; var maxdist = 200 * renderworldDetailDistMult; var maxdist2 = maxdist * maxdist; for (int i = 0; i < ymap.CarGenerators.Length; i++) { var cg = ymap.CarGenerators[i]; var bscent = cg.Position - camera.Position; float bsrad = cg._CCarGen.perpendicularLength; if (bscent.LengthSquared() > maxdist2) continue; //don't render distant cars.. if (!camera.ViewFrustum.ContainsSphereNoClipNoOpt(ref bscent, bsrad)) { continue; //frustum cull cars... } Quaternion cgtrn = Quaternion.RotationAxis(Vector3.UnitZ, (float)Math.PI * -0.5f); //car fragments currently need to be rotated 90 deg right... Quaternion cgori = Quaternion.Multiply(cg.Orientation, cgtrn); RenderCar(cg.Position, cgori, cg._CCarGen.carModel, cg._CCarGen.popGroup); } } public bool RenderFragment(Archetype arch, YmapEntityDef ent, FragType f, uint txdhash = 0) { RenderDrawable(f.Drawable, arch, ent, txdhash); if (f.Drawable2 != null) //cloth { RenderDrawable(f.Drawable2, arch, ent, txdhash); } //vehicle wheels... if ((f.PhysicsLODGroup != null) && (f.PhysicsLODGroup.PhysicsLOD1 != null)) { var pl1 = f.PhysicsLODGroup.PhysicsLOD1; //var groupnames = pl1?.GroupNames?.data_items; var groups = pl1?.Groups?.data_items; FragDrawable wheel_f = null; FragDrawable wheel_r = null; if (pl1.Children?.data_items != null) { for (int i = 0; i < pl1.Children.data_items.Length; i++) { var pch = pl1.Children.data_items[i]; //var groupname = pch.GroupNameHash; //if ((pl1.Groups?.data_items != null) && (i < pl1.Groups.data_items.Length)) //{ // //var group = pl1.Groups.data_items[i]; //} if ((pch.Drawable1 != null) && (pch.Drawable1.AllModels.Length != 0)) { switch (pch.BoneTag) { case 27922: //wheel_lf case 26418: //wheel_rf wheel_f = pch.Drawable1; break; case 29921: //wheel_lm1 case 29922: //wheel_lm2 case 29923: //wheel_lm3 case 27902: //wheel_lr case 5857: //wheel_rm1 case 5858: //wheel_rm2 case 5859: //wheel_rm3 case 26398: //wheel_rr wheel_r = pch.Drawable1; break; default: RenderDrawable(pch.Drawable1, arch, ent, txdhash); break; } } else { } if ((pch.Drawable2 != null) && (pch.Drawable2.AllModels.Length != 0)) { RenderDrawable(pch.Drawable2, arch, ent, txdhash); } else { } } if ((wheel_f != null) || (wheel_r != null)) { for (int i = 0; i < pl1.Children.data_items.Length; i++) { var pch = pl1.Children.data_items[i]; FragDrawable dwbl = pch.Drawable1; FragDrawable dwblcopy = null; switch (pch.BoneTag) { case 27922: //wheel_lf case 26418: //wheel_rf dwblcopy = wheel_f != null ? wheel_f : wheel_r; break; case 29921: //wheel_lm1 case 29922: //wheel_lm2 case 29923: //wheel_lm3 case 27902: //wheel_lr case 5857: //wheel_rm1 case 5858: //wheel_rm2 case 5859: //wheel_rm3 case 26398: //wheel_rr dwblcopy = wheel_r != null ? wheel_r : wheel_f; break; default: break; } //switch (pch.GroupNameHash) //{ // case 3311608449: //wheel_lf // case 1705452237: //wheel_lm1 // case 1415282742: //wheel_lm2 // case 3392433122: //wheel_lm3 // case 133671269: //wheel_rf // case 2908525601: //wheel_rm1 // case 2835549038: //wheel_rm2 // case 4148013026: //wheel_rm3 // dwblcopy = wheel_f != null ? wheel_f : wheel_r; // break; // case 1695736278: //wheel_lr // case 1670111368: //wheel_rr // dwblcopy = wheel_r != null ? wheel_r : wheel_f; // break; // default: // break; //} if (dwblcopy != null) { if (dwbl != null) { if ((dwbl != dwblcopy) && (dwbl.AllModels.Length == 0)) { dwbl.Owner = dwblcopy; dwbl.AllModels = dwblcopy.AllModels; //hopefully this is all that's need to render, otherwise drawable is actually getting edited! //dwbl.DrawableModelsHigh = dwblcopy.DrawableModelsHigh; //dwbl.DrawableModelsMedium = dwblcopy.DrawableModelsMedium; //dwbl.DrawableModelsLow = dwblcopy.DrawableModelsLow; //dwbl.DrawableModelsVeryLow = dwblcopy.DrawableModelsVeryLow; //dwbl.VertexDecls = dwblcopy.VertexDecls; } RenderDrawable(dwbl, arch, ent, txdhash); } else { } } else { } } } } } return true; } public bool RenderArchetype(Archetype arche, YmapEntityDef entity, Renderable rndbl = null, bool cull = true) { //enqueue a single archetype for rendering. if (arche == null) return false; Vector3 entpos = (entity != null) ? entity.Position : Vector3.Zero; Vector3 camrel = entpos - camera.Position; Quaternion orientation = Quaternion.Identity; Vector3 scale = Vector3.One; Vector3 bscent = camrel; if (entity != null) { orientation = entity.Orientation; scale = entity.Scale; bscent += entity.BSCenter; } else { bscent += arche.BSCenter; } float bsrad = arche.BSRadius;// * scale; if (cull) { if (!camera.ViewFrustum.ContainsSphereNoClipNoOpt(ref bscent, bsrad)) { return true; //culled - not visible; don't render, but pretend we did for LOD purposes.. } } float dist = bscent.Length(); if (boundsmode == BoundsShaderMode.Sphere) { if ((bsrad < renderboundsmaxrad) && (dist < renderboundsmaxdist)) { MapSphere ms = new MapSphere(); ms.CamRelPos = bscent; ms.Radius = bsrad; BoundingSpheres.Add(ms); } } if (boundsmode == BoundsShaderMode.Box) { if ((dist < renderboundsmaxdist)) { MapBox mb = new MapBox(); mb.CamRelPos = camrel; mb.BBMin = arche.BBMin; mb.BBMax = arche.BBMax; mb.Orientation = orientation; mb.Scale = scale; BoundingBoxes.Add(mb); } } bool res = false; if (rndbl == null) { var drawable = gameFileCache.TryGetDrawable(arche); rndbl = TryGetRenderable(arche, drawable); } if (rndbl != null) { res = RenderRenderable(rndbl, arche, entity); //fragments have extra drawables! need to render those too... TODO: handle fragments properly... FragDrawable fd = rndbl.Key as FragDrawable; if (fd != null) { var frag = fd.OwnerFragment; if ((frag != null) && (frag.Drawable2 != null)) //cloth... { rndbl = TryGetRenderable(arche, frag.Drawable2); if (rndbl != null) { bool res2 = RenderRenderable(rndbl, arche, entity); res = res || res2; } } } } return res; } public bool RenderDrawable(DrawableBase drawable, Archetype arche, YmapEntityDef entity, uint txdHash = 0) { //enqueue a single drawable for rendering. if (drawable == null) return false; Renderable rndbl = TryGetRenderable(arche, drawable, txdHash); if (rndbl == null) return false; return RenderRenderable(rndbl, arche, entity); } private bool RenderRenderable(Renderable rndbl, Archetype arche, YmapEntityDef entity) { //enqueue a single renderable for rendering. if (!rndbl.IsLoaded) return false; if (RenderedDrawablesListEnable) //for later hit tests { var rd = new RenderedDrawable(); rd.Drawable = rndbl.Key; rd.Archetype = arche; rd.Entity = entity; RenderedDrawables.Add(rd); } bool isselected = SelectionFlagsTestAll || (rndbl.Key == SelectedDrawable); Vector3 camrel = -camera.Position; Vector3 position = Vector3.Zero; Vector3 scale = Vector3.One; Quaternion orientation = Quaternion.Identity; uint tintPaletteIndex = 0; Vector3 bbmin = (arche != null) ? arche.BBMin : rndbl.Key.BoundingBoxMin.XYZ(); Vector3 bbmax = (arche != null) ? arche.BBMax : rndbl.Key.BoundingBoxMax.XYZ(); Vector3 bscen = (arche != null) ? arche.BSCenter : rndbl.Key.BoundingCenter; float radius = (arche != null) ? arche.BSRadius : rndbl.Key.BoundingSphereRadius; float distance = 0;// (camrel + bscen).Length(); if (entity != null) { position = entity.Position; scale = entity.Scale; orientation = entity.Orientation; tintPaletteIndex = entity._CEntityDef.tintValue; bbmin = entity.BBMin; bbmax = entity.BBMax; bscen = entity.BSCenter; camrel += position; distance = entity.Distance; } else { distance = (camrel + bscen).Length(); } //bool usehdtxd = renderhdtextures && ((dist - bsrad) <= arche._BaseArchetypeDef.hdTextureDist); //var usehdtxd = false; //if ((arch != null) && (renderhdtextures)) //{ // usehdtxd = ((ent.Distance - arch.BSRadius) <= arch._BaseArchetypeDef.hdTextureDist); //} if (rndbl.HasAnims) { rndbl.UpdateAnims(currentRealTime); } if ((rendercollisionmeshes || (SelectionMode == MapSelectionMode.Collision)) && rendercollisionmeshlayerdrawable) { Drawable sdrawable = rndbl.Key as Drawable; if ((sdrawable != null) && (sdrawable.Bound != null)) { RenderCollisionMesh(sdrawable.Bound, entity); } //FragDrawable fdrawable = rndbl.Key as FragDrawable; //if (fdrawable != null) //{ // if (fdrawable.Bound != null) // { // RenderCollisionMesh(fdrawable.Bound, entity); // } // var fbound = fdrawable.OwnerFragment?.PhysicsLODGroup?.PhysicsLOD1?.Bound; // if (fbound != null) // { // RenderCollisionMesh(fbound, entity); // } //} } if (renderskeletons && rndbl.HasSkeleton) { RenderSkeleton(rndbl, entity); } bool retval = true;// false; if (rndbl.IsLoaded && (rndbl.AllTexturesLoaded || !waitforchildrentoload)) { RenderableGeometryInst rginst = new RenderableGeometryInst(); rginst.Inst.Renderable = rndbl; rginst.Inst.CamRel = camrel; rginst.Inst.Position = position; rginst.Inst.Scale = scale; rginst.Inst.Orientation = orientation; rginst.Inst.TintPaletteIndex = tintPaletteIndex; rginst.Inst.BBMin = bbmin; rginst.Inst.BBMax = bbmax; rginst.Inst.BSCenter = bscen; rginst.Inst.Radius = radius; rginst.Inst.Distance = distance; RenderableModel[] models = isselected ? rndbl.AllModels : rndbl.HDModels; for (int mi = 0; mi < models.Length; mi++) { var model = models[mi]; if (isselected) { if (SelectionModelDrawFlags.ContainsKey(model.DrawableModel)) { continue; } //filter out models in selected item that aren't flagged for drawing. } if (!RenderIsModelFinalRender(model) && !renderproxies) { continue; } //filter out reflection proxy models... for (int gi = 0; gi < model.Geometries.Length; gi++) { var geom = model.Geometries[gi]; var dgeom = geom.DrawableGeom; if (dgeom.UpdateRenderableParameters) //when edited by material editor { geom.Init(dgeom); dgeom.UpdateRenderableParameters = false; } if (isselected) { if (SelectionGeometryDrawFlags.ContainsKey(dgeom)) { continue; } //filter out geometries in selected item that aren't flagged for drawing. } rginst.Geom = geom; shaders.Enqueue(ref rginst); } } } else { retval = false; } return retval; } public void RenderCar(Vector3 pos, Quaternion ori, MetaHash modelHash, MetaHash modelSetHash, bool valign = false) { uint carhash = modelHash; if ((carhash == 0) && (modelSetHash != 0)) { //find the pop group... and choose a vehicle.. var stypes = Scenarios.ScenarioTypes; if (stypes != null) { var modelset = stypes.GetVehicleModelSet(modelSetHash); if ((modelset != null) && (modelset.Models != null) && (modelset.Models.Length > 0)) { carhash = JenkHash.GenHash(modelset.Models[0].NameLower); } } } if (carhash == 0) carhash = 418536135; //"infernus" YftFile caryft = gameFileCache.GetYft(carhash); if ((caryft != null) && (caryft.Loaded) && (caryft.Fragment != null)) { if (valign) { float minz = caryft.Fragment.PhysicsLODGroup?.PhysicsLOD1?.Bound?.BoundingBoxMin.Z ?? 0.0f; pos.Z -= minz; } SelectedCarGenEntity.SetPosition(pos); SelectedCarGenEntity.SetOrientation(ori); RenderFragment(null, SelectedCarGenEntity, caryft.Fragment, carhash); } } private void RenderInteriorCollisionMesh(YmapEntityDef mlo) { //enqueue interior collison meshes for rendering. if (mlo.Archetype == null) return; var hash = mlo.Archetype.Hash; YbnFile ybn = gameFileCache.GetYbn(hash); if ((ybn != null) && (ybn.Loaded)) { RenderCollisionMesh(ybn.Bounds, mlo); } if (ybn == null) { } } public void RenderCollisionMesh(Bounds bounds, YmapEntityDef entity) { //enqueue a single collision mesh for rendering. Vector3 position; Vector3 scale; Quaternion orientation; if (entity != null) { position = entity.Position; scale = entity.Scale; orientation = entity.Orientation; } else { position = Vector3.Zero; scale = Vector3.One; orientation = Quaternion.Identity; } switch (bounds.Type) { case 10: //BoundComposite BoundComposite boundcomp = bounds as BoundComposite; if (boundcomp != null) { RenderableBoundComposite rndbc = renderableCache.GetRenderableBoundComp(boundcomp); if (rndbc.IsLoaded) { RenderableBoundGeometryInst rbginst = new RenderableBoundGeometryInst(); rbginst.Inst.Renderable = rndbc; rbginst.Inst.Orientation = orientation; rbginst.Inst.Scale = scale; foreach (var geom in rndbc.Geometries) { if (geom == null) continue; rbginst.Geom = geom; rbginst.Inst.Position = position + orientation.Multiply(geom.BoundGeom.CenterGeom * scale); rbginst.Inst.CamRel = rbginst.Inst.Position - camera.Position; shaders.Enqueue(ref rbginst); } if (RenderedBoundCompsListEnable) //for later hit tests { var rb = new RenderedBoundComposite(); rb.BoundComp = rndbc; rb.Entity = entity; RenderedBoundComps.Add(rb); } } } else { } break; case 3: //BoundBox - found in drawables - TODO BoundBox boundbox = bounds as BoundBox; if (boundbox == null) { } break; case 0: //BoundSphere - found in drawables - TODO BoundSphere boundsphere = bounds as BoundSphere; if (boundsphere == null) { } break; default: break; } } private Renderable TryGetRenderable(Archetype arche, DrawableBase drawable, uint txdHash = 0) { if (drawable == null) return null; //BUG: only last texdict used!! needs to cache textures per archetype........ //(but is it possible to have the same drawable with different archetypes?) MetaHash texDict = txdHash; //uint texDictOrig = txdHash; uint clipDict = 0; if (arche != null) { texDict = arche.TextureDict.Hash; clipDict = arche.ClipDict.Hash; //texDictOrig = texDict; //if (hdtxd) //{ // texDict = gameFileCache.TryGetHDTextureHash(texDict); //} } Renderable rndbl = renderableCache.GetRenderable(drawable); if (rndbl == null) return null; if ((clipDict != 0) && (rndbl.ClipDict == null)) { YcdFile ycd = gameFileCache.GetYcd(clipDict); if ((ycd != null) && (ycd.Loaded)) { rndbl.ClipDict = ycd; MetaHash ahash = arche.Hash; if (ycd.ClipMap.TryGetValue(ahash, out rndbl.ClipMapEntry)) rndbl.HasAnims = true; foreach (var model in rndbl.HDModels) { if (model == null) continue; foreach (var geom in model.Geometries) { if (geom == null) continue; if (geom.globalAnimUVEnable) { uint cmeindex = geom.DrawableGeom.ShaderID + 1u; MetaHash cmehash = ahash + cmeindex; //this goes to at least uv5! (from uv0) - see hw1_09.ycd if (ycd.ClipMap.TryGetValue(cmehash, out geom.ClipMapEntryUV)) rndbl.HasAnims = true; } } } } } var yptTexDict = (drawable.Owner as YptFile)?.PtfxList?.TextureDictionary; bool cacheSD = (rndbl.SDtxds == null); bool cacheHD = (renderhdtextures && (rndbl.HDtxds == null)); if (cacheSD || cacheHD) { //cache the txd hierarchies for this renderable tryGetRenderableSDtxds.Clear(); tryGetRenderableHDtxds.Clear(); if (cacheHD && (arche != null)) //try get HD txd for the asset { MetaHash hdtxd = gameFileCache.TryGetHDTextureHash(arche._BaseArchetypeDef.assetName); if (hdtxd != arche._BaseArchetypeDef.assetName) { var asshdytd = gameFileCache.GetYtd(hdtxd); if (asshdytd != null) { tryGetRenderableHDtxds.Add(asshdytd); } } } if (texDict != 0) { if (cacheSD) { var txdytd = gameFileCache.GetYtd(texDict); if (txdytd != null) { tryGetRenderableSDtxds.Add(txdytd); } } if (cacheHD) { MetaHash hdtxd = gameFileCache.TryGetHDTextureHash(texDict); if (hdtxd != texDict) { var txdhdytd = gameFileCache.GetYtd(hdtxd); if (txdhdytd != null) { tryGetRenderableHDtxds.Add(txdhdytd); } } } MetaHash ptxdname = gameFileCache.TryGetParentYtdHash(texDict); while (ptxdname != 0) //look for parent HD txds { if (cacheSD) { var pytd = gameFileCache.GetYtd(ptxdname); if (pytd != null) { tryGetRenderableSDtxds.Add(pytd); } } if (cacheHD) { MetaHash phdtxdname = gameFileCache.TryGetHDTextureHash(ptxdname); if (phdtxdname != ptxdname) { var phdytd = gameFileCache.GetYtd(phdtxdname); if (phdytd != null) { tryGetRenderableHDtxds.Add(phdytd); } } } ptxdname = gameFileCache.TryGetParentYtdHash(ptxdname); } } if (cacheSD) rndbl.SDtxds = tryGetRenderableSDtxds.ToArray(); if (cacheHD) rndbl.HDtxds = tryGetRenderableHDtxds.ToArray(); } bool alltexsloaded = true; for (int mi = 0; mi < rndbl.AllModels.Length; mi++) { var model = rndbl.AllModels[mi]; if (!RenderIsModelFinalRender(model) && !renderproxies) { continue; //filter out reflection proxy models... } foreach (var geom in model.Geometries) { if (geom.Textures != null) { for (int i = 0; i < geom.Textures.Length; i++) { var tex = geom.Textures[i]; var ttex = tex as Texture; Texture dtex = null; RenderableTexture rdtex = null; if ((tex != null) && (ttex == null)) { //TextureRef means this RenderableTexture needs to be loaded from texture dict... if (yptTexDict != null) //for ypt files, first try the embedded tex dict.. { dtex = yptTexDict.Lookup(tex.NameHash); } if (dtex == null) //else //if (texDict != 0) { bool waitingforload = false; if (rndbl.SDtxds != null) { //check the SD texture hierarchy for (int j = 0; j < rndbl.SDtxds.Length; j++) { var txd = rndbl.SDtxds[j]; if (txd.Loaded) { dtex = txd.TextureDict?.Lookup(tex.NameHash); } else { txd = gameFileCache.GetYtd(txd.Key.Hash);//keep trying to load it - sometimes resuests can get lost (!) waitingforload = true; } if (dtex != null) break; } if (waitingforload) { alltexsloaded = false; } } if ((dtex == null) && (!waitingforload)) { //not present in dictionary... check already loaded texture dicts... (maybe resident?) var ytd2 = gameFileCache.TryGetTextureDictForTexture(tex.NameHash); if (ytd2 != null) { if (ytd2.Loaded) { if (ytd2.TextureDict != null) { dtex = ytd2.TextureDict.Lookup(tex.NameHash); } } else { alltexsloaded = false; } } //else { } //couldn't find texture dict? if ((dtex == null) && (ytd2 == null))// rndbl.SDtxds.Length == 0)//texture not found.. { if (drawable.ShaderGroup.TextureDictionary != null)//check any embedded texdict { dtex = drawable.ShaderGroup.TextureDictionary.Lookup(tex.NameHash); if (dtex != null) { } //this shouldn't really happen as embedded textures should already be loaded! (not as TextureRef) } } } } if (dtex != null) { geom.Textures[i] = dtex; //cache it for next time to avoid the lookup... ttex = dtex; } } if (ttex != null) //ensure renderable texture { rdtex = renderableCache.GetRenderableTexture(ttex); } //if ((rdtex != null) && (rdtex.IsLoaded == false)) //{ // alltexsloaded = false; //} geom.RenderableTextures[i] = rdtex; RenderableTexture rhdtex = null; if (renderhdtextures) { Texture hdtex = geom.TexturesHD[i]; if (hdtex == null) { //look for a replacement HD texture... if (rndbl.HDtxds != null) { for (int j = 0; j < rndbl.HDtxds.Length; j++) { var txd = rndbl.HDtxds[j]; if (txd.Loaded) { hdtex = txd.TextureDict?.Lookup(tex.NameHash); } else { txd = gameFileCache.GetYtd(txd.Key.Hash);//keep trying to load it - sometimes resuests can get lost (!) } if (hdtex != null) break; } } if (hdtex != null) { geom.TexturesHD[i] = hdtex; } } if (hdtex != null) { rhdtex = renderableCache.GetRenderableTexture(hdtex); } } geom.RenderableTexturesHD[i] = rhdtex; } } } } rndbl.AllTexturesLoaded = alltexsloaded; return rndbl; } } public struct RenderedDrawable { public DrawableBase Drawable; public Archetype Archetype; public YmapEntityDef Entity; } public struct RenderedBoundComposite { public RenderableBoundComposite BoundComp; public YmapEntityDef Entity; } public struct RenderSkeletonItem { public Renderable Renderable; public YmapEntityDef Entity; } public enum WorldRenderMode { Default = 0, SingleTexture = 1, VertexNormals = 2, VertexTangents = 3, VertexColour = 4, TextureCoord = 5, } }