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46 Commits

Author SHA1 Message Date
cosmonaut f5cdd0b566 fix crash on 0 instance 2020-12-14 00:52:40 -08:00
cosmonaut 808d50ccc2 more sprite mesh rendering 2020-12-13 22:03:06 -08:00
cosmonaut d537993530 flat sprite lighting in deferred pipeline 2020-12-13 22:03:06 -08:00
cosmonaut 3338bf3b06 experimenting with g buffer sprites 2020-12-13 22:03:06 -08:00
cosmonaut 16ecb5afa6 fix bad palette crush FLT_MAX 2020-12-12 21:07:22 -08:00
cosmonaut 51d7f3e772 fix diffuse lit effect not discarding transparency 2020-12-12 01:23:08 -08:00
cosmonaut 3a0aa8894d draw zero alpha pixels in g buffer 2020-12-12 00:17:10 -08:00
cosmonaut c468d6276d texture atlas stuff 2020-12-11 21:05:54 -08:00
cosmonaut d476f254e4 fix sprite mesh normals 2020-12-11 18:52:05 -08:00
cosmonaut 2ff5cb1ca5 decouple sprite mesh from textures 2020-12-11 18:22:54 -08:00
cosmonaut 40ca0402d6 instance data struct 2020-12-10 17:38:18 -08:00
cosmonaut 0ebad486c5 diffuse sprite effect takes uv data 2020-12-10 13:53:55 -08:00
cosmonaut 8ff6e26887 tweak to mesh sprite draws 2020-12-10 00:34:06 -08:00
cosmonaut 7f0bf47f07 implement vertical mesh sprite flipping 2020-12-09 22:31:09 -08:00
cosmonaut 2f589e584d allow sprite flipping on meshsprite 2020-12-09 22:28:51 -08:00
cosmonaut 7964d8a171 store right vector on the camera 2020-12-09 17:47:54 -08:00
cosmonaut d5d0a38ff1 turn point lights into classes and give them a shadow map 2020-12-09 17:10:41 -08:00
cosmonaut ee909ba94e tweak point light rendering 2020-12-09 16:28:40 -08:00
cosmonaut 0060c22d72 point light sphere optimization 2020-12-09 16:10:53 -08:00
cosmonaut 2c113ed642 palette crush effect 2020-12-09 12:44:53 -08:00
cosmonaut b1395babfe offset texture rendering 2020-12-08 22:20:54 -08:00
cosmonaut ef948cf7fb add quaternion utility function 2020-12-08 17:20:10 -08:00
cosmonaut 9a7fb75ec5 refactor for reusing instance buffers 2020-12-08 16:37:22 -08:00
cosmonaut 0c576668cb add instanced linear depth effect + fix platforms 2020-12-08 16:02:58 -08:00
cosmonaut 367e2795ae decouple billboard constraints from meshsprite 2020-12-08 15:29:28 -08:00
cosmonaut 1723f1dff8 change simpledeptheffect to use texcoord0 2020-12-08 13:33:45 -08:00
cosmonaut 14e07c7476 instanced directional shadows 2020-12-08 03:35:06 -08:00
cosmonaut 4b7d31f2b2 refactor directional shadow data 2020-12-08 03:07:41 -08:00
cosmonaut 4d3c5fc316 more shadow decoupling + change world instance to position instance 2020-12-08 02:49:18 -08:00
cosmonaut 96f6d22896 shadow refactor 2020-12-07 21:36:16 -08:00
cosmonaut 84601379b5 major API refactor 2020-12-07 20:10:27 -08:00
cosmonaut fe222e266f started instance based depth render 2020-12-07 18:46:53 -08:00
cosmonaut bb694d3dbe handle case where there are no instances 2020-12-07 15:51:24 -08:00
cosmonaut e2fdbff7d1 cullable instance calls 2020-12-07 14:58:03 -08:00
cosmonaut 283b078641 instanced g buffer draws work now 2020-12-07 14:42:02 -08:00
cosmonaut b784f9df4b trying different shader semantics 2020-12-07 13:50:32 -08:00
cosmonaut 8b43e8f45e start removing global render procedures 2020-12-07 01:57:57 -08:00
cosmonaut ee8b0c5ee8 started adding support for instanced draws + started decoupling API 2020-12-07 01:30:09 -08:00
cosmonaut c9a4e35816 fix meshsprite normal 2020-12-06 19:45:03 -08:00
cosmonaut 7f986c546a abstract frustum culling 2020-12-06 19:36:00 -08:00
cosmonaut fc09082f1b frustum cull meshsprites 2020-12-06 19:27:46 -08:00
cosmonaut 46f2cad81a optimize mesh sprite index buffer 2020-12-06 19:01:23 -08:00
cosmonaut ca6c91446e new mesh sprite and diffuse lit sprite system 2020-12-06 18:52:14 -08:00
cosmonaut 60ebb19e24 pass ambient light to shader 2020-12-05 19:58:29 -08:00
cosmonaut 47242e4f52 initial diffuse lit sprite effect 2020-12-05 19:47:01 -08:00
cosmonaut ae445d94d3 implement different kinds of billboarding 2020-12-04 18:51:59 -08:00
56 changed files with 2538 additions and 701 deletions

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@ -10,17 +10,26 @@ namespace Kav
public Vector3 Position { get; }
public Vector3 Forward { get; }
public Vector3 Up { get; }
public Vector3 Right { get; }
public float FieldOfView { get; }
public float AspectRatio { get; }
public float NearPlane { get; }
public float FarPlane { get; }
public PerspectiveCamera(Vector3 position, Vector3 forward, Vector3 up, float fieldOfView, float aspectRatio, float nearPlane, float farPlane)
{
public PerspectiveCamera(
Vector3 position,
Vector3 forward,
Vector3 up,
float fieldOfView,
float aspectRatio,
float nearPlane,
float farPlane
) {
Position = position;
Forward = forward;
Up = up;
Right = Vector3.Cross(forward, up);
View = Matrix.CreateLookAt(Position, Position + Forward, Up);
FieldOfView = fieldOfView;

14
Data/AtlasAnimation.cs Normal file
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@ -0,0 +1,14 @@
namespace Kav
{
public struct AtlasAnimation
{
public UVData[] Frames { get; }
public int Framerate { get; }
public AtlasAnimation(UVData[] frames, int framerate)
{
Frames = frames;
Framerate = framerate;
}
}
}

63
Data/InstanceData.cs Normal file
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@ -0,0 +1,63 @@
using System.Collections.Generic;
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class InstanceData<T> where T : struct, IVertexType
{
public T[] InstanceDataArray { get; }
public DynamicVertexBuffer VertexBuffer { get; }
public int InstanceCount { get; private set; }
public InstanceData(GraphicsDevice graphicsDevice, int size)
{
InstanceDataArray = new T[size];
VertexBuffer = new DynamicVertexBuffer(
graphicsDevice,
typeof(T),
size,
BufferUsage.WriteOnly
);
InstanceCount = 0;
}
public void AddAndSetData(IEnumerable<T> data)
{
InstanceCount = 0;
foreach (var datum in data)
{
AddData(datum);
}
if (InstanceCount == 0) { throw new System.Exception(); }
SetData();
}
public void AddData(T datum)
{
InstanceDataArray[InstanceCount] = datum;
InstanceCount += 1;
}
public void SetData()
{
if (InstanceCount > 0)
{
VertexBuffer.SetData(
InstanceDataArray,
0,
InstanceCount,
SetDataOptions.NoOverwrite
);
}
}
public void Clear()
{
InstanceCount = 0;
}
}
}

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@ -0,0 +1,35 @@
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
namespace Kav.Data
{
public struct MeshSpriteDrawData : IIndexDrawable, ICullable, ITransformable
{
public SpriteMesh MeshSprite { get; }
public Texture2D Texture { get; }
public Texture2D Normal { get; }
public SpriteBillboardConstraint BillboardConstraint { get; }
public Matrix TransformMatrix { get; }
public UVData UVOffset { get; }
public IndexBuffer IndexBuffer => MeshSprite.IndexBuffer;
public VertexBuffer VertexBuffer => MeshSprite.VertexBuffer;
public BoundingBox BoundingBox => MeshSprite.BoundingBox;
public MeshSpriteDrawData(
SpriteMesh meshSprite,
Texture2D texture,
Texture2D normal,
SpriteBillboardConstraint billboardConstraint,
Matrix transformMatrix,
UVData offset
) {
MeshSprite = meshSprite;
Texture = texture;
Normal = normal;
BillboardConstraint = billboardConstraint;
TransformMatrix = transformMatrix;
UVOffset = offset;
}
}
}

96
Data/TextureAtlas.cs Normal file
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@ -0,0 +1,96 @@
using Kav.Data;
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
using System.Collections.Generic;
using System.IO;
namespace Kav
{
public struct TextureAtlasSlice
{
public int X { get; }
public int Y { get; }
public int W { get; }
public int H { get; }
public UVData UVData { get; }
// for use with tiling
public Vector2 TiledUVOffset { get; }
public TextureAtlasSlice(int x, int y, int w, int h, int totalW, int totalH)
{
X = x;
Y = y;
W = w;
H = h;
UVData = new UVData(new Vector2(x, y), new Vector2(w, h), new Vector2(totalW, totalH));
TiledUVOffset = new Vector2(x / (float)totalW, y / (float)totalH);
}
}
public class TextureAtlas
{
public Texture2D Texture { get; }
protected List<string> Names { get; } = new List<string>();
protected Dictionary<string, TextureAtlasSlice> Slices { get; } = new Dictionary<string, TextureAtlasSlice>();
public TextureAtlas(GraphicsDevice graphicsDevice, FileInfo atlasMetadataFile)
{
var atlasData = CrunchAtlasReader.ReadTextureAtlas(atlasMetadataFile);
var textureData = atlasData.Textures[0];
using var stream = File.OpenRead(Path.Combine(atlasMetadataFile.DirectoryName, textureData.Name + ".png"));
Texture = Texture2D.FromStream(graphicsDevice, stream);
foreach (var slice in textureData.Images)
{
Names.Add(slice.N);
Slices.Add(
slice.N,
new TextureAtlasSlice(
slice.X,
slice.Y,
slice.W,
slice.H,
Texture.Width,
Texture.Height
)
);
}
}
public TextureAtlasSlice Lookup(string name)
{
return Slices[name];
}
public string Name(int index)
{
return Names[index];
}
public int Count()
{
return Names.Count;
}
}
// Assumes all subimages are the same size
public class TiledTextureAtlas : TextureAtlas
{
public int NumRows { get; }
public int NumColumns { get; }
public TiledTextureAtlas(GraphicsDevice graphicsDevice, FileInfo atlasMetadataFile) : base(graphicsDevice, atlasMetadataFile)
{
var subImageSlice = Slices[Names[0]];
NumRows = Texture.Height / subImageSlice.H;
NumColumns = Texture.Width / subImageSlice.W;
}
}
}

19
Data/UVData.cs Normal file
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@ -0,0 +1,19 @@
using Microsoft.Xna.Framework;
namespace Kav
{
public struct UVData
{
public Vector2 Offset { get; }
public Vector2 Percentage { get; }
public UVData(
Vector2 positionInAtlas,
Vector2 subTextureDimensions,
Vector2 atlasDimensions
) {
Percentage = subTextureDimensions / atlasDimensions;
Offset = positionInAtlas / atlasDimensions;
}
}
}

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@ -0,0 +1,59 @@
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class DirectionalShadowMapData
{
public static readonly int MAX_SHADOW_CASCADES = 4;
public RenderTarget2D[] ShadowMaps { get; }
public Matrix[] LightSpaceViews { get; }
public Matrix[] LightSpaceProjections { get; }
public float[] CascadeFarPlanes { get; }
public int ShadowMapSize { get; }
public int NumShadowCascades { get; }
internal DirectionalShadowMapData(
GraphicsDevice graphicsDevice,
int shadowMapSize,
int numCascades
) {
ShadowMapSize = shadowMapSize;
NumShadowCascades = (int)MathHelper.Clamp(numCascades, 1, MAX_SHADOW_CASCADES);
LightSpaceViews = new Matrix[4];
LightSpaceProjections = new Matrix[4];
ShadowMaps = new RenderTarget2D[NumShadowCascades];
for (var i = 0; i < NumShadowCascades; i++)
{
ShadowMaps[i] = new RenderTarget2D(
graphicsDevice,
shadowMapSize,
shadowMapSize,
false,
SurfaceFormat.Single,
DepthFormat.Depth24,
0,
RenderTargetUsage.PreserveContents
);
}
CascadeFarPlanes = new float[MAX_SHADOW_CASCADES];
}
public void Clear(GraphicsDevice graphicsDevice)
{
foreach (var shadowMap in ShadowMaps)
{
graphicsDevice.SetRenderTarget(shadowMap);
graphicsDevice.Clear(Color.White);
}
}
}
}

View File

@ -0,0 +1,9 @@
using Microsoft.Xna.Framework;
namespace Kav
{
public interface IHasTranslation
{
Vector3 Translation { get; set; }
}
}

View File

@ -0,0 +1,9 @@
using Microsoft.Xna.Framework;
namespace Kav
{
public interface IHasWorldMatrix
{
Matrix World { get; set; }
}
}

View File

@ -74,32 +74,6 @@ namespace Kav
);
}
protected DeferredPBREffect(DeferredPBREffect cloneSource) : base(cloneSource)
{
GPosition = cloneSource.GPosition;
GAlbedo = cloneSource.GAlbedo;
GNormal = cloneSource.GNormal;
GMetallicRoughness = cloneSource.GMetallicRoughness;
EyePosition = cloneSource.EyePosition;
PointLights = new PointLightCollection(
Parameters["LightPositions"],
Parameters["PositionLightColors"],
MaxPointLights
);
for (int i = 0; i < MaxPointLights; i++)
{
PointLights[i] = cloneSource.PointLights[i];
}
}
public override Effect Clone()
{
return new DeferredPBREffect(this);
}
protected override void OnApply()
{
gPositionParam.SetValue(GPosition);

View File

@ -6,8 +6,7 @@ namespace Kav
public class DeferredPBR_GBufferEffect : Effect, TransformEffect
{
EffectParameter worldParam;
EffectParameter worldViewProjectionParam;
EffectParameter worldInverseTransposeParam;
EffectParameter viewProjectionParam;
EffectParameter albedoTextureParam;
EffectParameter normalTextureParam;
@ -17,6 +16,13 @@ namespace Kav
EffectParameter metallicParam;
EffectParameter roughnessParam;
EffectParameter uvOffsetAndDimensionsParam;
EffectParameter isSpriteParam;
EffectParameter numTextureRowsParam;
EffectParameter numTextureColumnsParam;
EffectParameter vertexShaderIndexParam;
EffectParameter shaderIndexParam;
Matrix world = Matrix.Identity;
@ -27,9 +33,18 @@ namespace Kav
float metallic;
float roughness;
Vector2 uvOffset;
Vector2 subTextureDimensions;
bool isSprite = false;
int numTextureRows = 1;
int numTextureColumns = 1;
bool albedoTextureEnabled = false;
bool metallicRoughnessMapEnabled = false;
bool normalMapEnabled = false;
bool hardwareInstancingEnabled = false;
EffectDirtyFlags dirtyFlags = EffectDirtyFlags.All;
@ -39,7 +54,7 @@ namespace Kav
set
{
world = value;
dirtyFlags |= EffectDirtyFlags.World | EffectDirtyFlags.WorldViewProj;
dirtyFlags |= EffectDirtyFlags.World;
}
}
@ -49,7 +64,7 @@ namespace Kav
set
{
view = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj | EffectDirtyFlags.EyePosition;
dirtyFlags |= EffectDirtyFlags.ViewProj | EffectDirtyFlags.EyePosition;
}
}
@ -59,7 +74,7 @@ namespace Kav
set
{
projection = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
dirtyFlags |= EffectDirtyFlags.ViewProj;
}
}
@ -100,7 +115,7 @@ namespace Kav
{
albedoTextureParam.SetValue(value);
albedoTextureEnabled = value != null;
dirtyFlags |= EffectDirtyFlags.ShaderIndex;
dirtyFlags |= EffectDirtyFlags.PixelShaderIndex;
}
}
@ -111,7 +126,7 @@ namespace Kav
{
normalTextureParam.SetValue(value);
normalMapEnabled = value != null;
dirtyFlags |= EffectDirtyFlags.ShaderIndex;
dirtyFlags |= EffectDirtyFlags.PixelShaderIndex;
}
}
@ -122,7 +137,70 @@ namespace Kav
{
metallicRoughnessTextureParam.SetValue(value);
metallicRoughnessMapEnabled = value != null;
dirtyFlags |= EffectDirtyFlags.ShaderIndex;
dirtyFlags |= EffectDirtyFlags.PixelShaderIndex;
}
}
public int NumTextureRows
{
get { return numTextureRows; }
set
{
numTextureRows = value;
numTextureRowsParam.SetValue(numTextureRows);
}
}
public int NumTextureColumns
{
get { return numTextureColumns; }
set
{
numTextureColumns = value;
numTextureColumnsParam.SetValue(numTextureColumns);
}
}
public Vector2 UVOffset
{
get { return uvOffset; }
set
{
uvOffset = value;
dirtyFlags |= EffectDirtyFlags.UVOrDimensions;
}
}
public Vector2 SubTextureDimensions
{
get { return subTextureDimensions; }
set
{
subTextureDimensions = value;
dirtyFlags |= EffectDirtyFlags.UVOrDimensions;
}
}
public bool IsSprite
{
get { return isSprite; }
set
{
isSprite = value;
isSpriteParam.SetValue(isSprite ? 1f : 0f);
}
}
public bool HardwareInstancingEnabled
{
get { return hardwareInstancingEnabled; }
set
{
if (value != hardwareInstancingEnabled)
{
hardwareInstancingEnabled = value;
dirtyFlags |= EffectDirtyFlags.VertexShaderIndex;
}
}
}
@ -159,30 +237,40 @@ namespace Kav
{
worldParam.SetValue(world);
Matrix.Invert(ref world, out Matrix worldInverse);
Matrix.Transpose(ref worldInverse, out Matrix worldInverseTranspose);
worldInverseTransposeParam.SetValue(worldInverseTranspose);
dirtyFlags &= ~EffectDirtyFlags.World;
}
if ((dirtyFlags & EffectDirtyFlags.WorldViewProj) != 0)
if ((dirtyFlags & EffectDirtyFlags.ViewProj) != 0)
{
Matrix.Multiply(ref world, ref view, out Matrix worldView);
Matrix.Multiply(ref worldView, ref projection, out Matrix worldViewProj);
worldViewProjectionParam.SetValue(worldViewProj);
Matrix.Multiply(ref view, ref projection, out Matrix viewProj);
viewProjectionParam.SetValue(viewProj);
dirtyFlags &= ~EffectDirtyFlags.WorldViewProj;
dirtyFlags &= ~EffectDirtyFlags.ViewProj;
}
if ((dirtyFlags & EffectDirtyFlags.EyePosition) != 0)
if ((dirtyFlags & EffectDirtyFlags.UVOrDimensions) != 0)
{
Matrix.Invert(ref view, out Matrix inverseView);
uvOffsetAndDimensionsParam.SetValue(new Vector4(
UVOffset.X, UVOffset.Y,
SubTextureDimensions.X, SubTextureDimensions.Y
));
dirtyFlags &= ~EffectDirtyFlags.EyePosition;
dirtyFlags &= ~EffectDirtyFlags.UVOrDimensions;
}
if ((dirtyFlags & EffectDirtyFlags.ShaderIndex) != 0)
if ((dirtyFlags & EffectDirtyFlags.VertexShaderIndex) != 0)
{
int vertexShaderIndex = 0;
if (hardwareInstancingEnabled)
{
vertexShaderIndex = 1;
}
vertexShaderIndexParam.SetValue(vertexShaderIndex);
}
if ((dirtyFlags & EffectDirtyFlags.PixelShaderIndex) != 0)
{
int shaderIndex = 0;
@ -217,15 +305,14 @@ namespace Kav
shaderIndexParam.SetValue(shaderIndex);
dirtyFlags &= ~EffectDirtyFlags.ShaderIndex;
dirtyFlags &= ~EffectDirtyFlags.PixelShaderIndex;
}
}
void CacheEffectParameters()
{
worldParam = Parameters["World"];
worldViewProjectionParam = Parameters["WorldViewProjection"];
worldInverseTransposeParam = Parameters["WorldInverseTranspose"];
viewProjectionParam = Parameters["ViewProjection"];
albedoTextureParam = Parameters["AlbedoTexture"];
normalTextureParam = Parameters["NormalTexture"];
@ -235,7 +322,14 @@ namespace Kav
metallicParam = Parameters["MetallicValue"];
roughnessParam = Parameters["RoughnessValue"];
shaderIndexParam = Parameters["ShaderIndex"];
numTextureRowsParam = Parameters["NumTextureRows"];
numTextureColumnsParam = Parameters["NumTextureColumns"];
uvOffsetAndDimensionsParam = Parameters["UVOffsetAndDimensions"];
isSpriteParam = Parameters["IsSprite"];
shaderIndexParam = Parameters["PixelShaderIndex"];
vertexShaderIndexParam = Parameters["VertexShaderIndex"];
}
}
}

View File

@ -18,6 +18,8 @@ namespace Kav
EffectParameter farPlaneParam;
EffectParameter worldViewProjectionParam;
public Texture2D GPosition { get; set; }
public Texture2D GAlbedo { get; set; }
public Texture2D GNormal { get; set; }
@ -31,6 +33,42 @@ namespace Kav
public float FarPlane { get; set; }
Matrix world = Matrix.Identity;
Matrix view = Matrix.Identity;
Matrix projection = Matrix.Identity;
EffectDirtyFlags dirtyFlags = EffectDirtyFlags.All;
public Matrix World
{
get { return world; }
set
{
world = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
}
}
public Matrix View
{
get { return view; }
set
{
view = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
}
}
public Matrix Projection
{
get { return projection; }
set
{
projection = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
}
}
public DeferredPBR_PointLightEffect(GraphicsDevice graphicsDevice) : base(graphicsDevice, Resources.DeferredPBR_PointLightEffect)
{
CacheEffectParameters();
@ -73,6 +111,13 @@ namespace Kav
pointLightColorParam.SetValue(PointLightColor);
farPlaneParam.SetValue(FarPlane);
if ((dirtyFlags & EffectDirtyFlags.WorldViewProj) != 0)
{
worldViewProjectionParam.SetValue(world * view * projection);
dirtyFlags &= ~EffectDirtyFlags.WorldViewProj;
}
}
void CacheEffectParameters()
@ -89,6 +134,8 @@ namespace Kav
pointLightColorParam = Parameters["PointLightColor"];
farPlaneParam = Parameters["FarPlane"];
worldViewProjectionParam = Parameters["WorldViewProjection"];
}
}
}

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@ -0,0 +1,210 @@
using Kav.Data;
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class DiffuseLitSpriteEffect : Effect
{
EffectParameter ambientColorParam;
EffectParameter directionalLightDirectionParam;
EffectParameter directionalLightColorParam;
EffectParameter uvOffsetAndDimensionsParam;
EffectParameter worldParam;
EffectParameter worldViewProjectionParam;
EffectParameter worldInverseTransposeParam;
EffectParameter shaderIndexParam;
Texture2D texture;
Texture2D normal;
bool normalMapEnabled = false;
Vector3 ambientColor;
Vector3 directionalLightDirection;
Vector3 directionalLightColor;
Matrix world = Matrix.Identity;
Matrix view = Matrix.Identity;
Matrix projection = Matrix.Identity;
Vector2 uvOffset;
Vector2 subTextureDimensions;
EffectDirtyFlags dirtyFlags = EffectDirtyFlags.All;
public bool NormalMapEnabled
{
get { return normalMapEnabled; }
set
{
if (normalMapEnabled != value)
{
normalMapEnabled = value;
dirtyFlags |= EffectDirtyFlags.PixelShaderIndex;
}
}
}
public Matrix World
{
get { return world; }
set
{
world = value;
dirtyFlags |= EffectDirtyFlags.World | EffectDirtyFlags.WorldViewProj;
}
}
public Matrix View
{
get { return view; }
set
{
view = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj | EffectDirtyFlags.EyePosition;
}
}
public Matrix Projection
{
get { return projection; }
set
{
projection = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
}
}
public int MaxPointLights { get; } = 8;
public Vector3 AmbientColor
{
get { return ambientColor; }
set
{
ambientColor = value;
ambientColorParam.SetValue(ambientColor);
}
}
public PointLightCollection PointLights { get; private set; }
public Vector3 DirectionalLightDirection
{
get { return directionalLightDirection; }
set
{
directionalLightDirection = value;
directionalLightDirectionParam.SetValue(directionalLightDirection);
}
}
public Vector3 DirectionalLightColor
{
get { return directionalLightColor; }
set
{
directionalLightColor = value;
directionalLightColorParam.SetValue(directionalLightColor);
}
}
public Vector2 UVOffset
{
get { return uvOffset; }
set
{
uvOffset = value;
dirtyFlags |= EffectDirtyFlags.UVOrDimensions;
}
}
public Vector2 SubTextureDimensions
{
get { return subTextureDimensions; }
set
{
subTextureDimensions = value;
dirtyFlags |= EffectDirtyFlags.UVOrDimensions;
}
}
public DiffuseLitSpriteEffect(GraphicsDevice graphicsDevice) : base(graphicsDevice, Resources.DiffuseLitSpriteEffect)
{
CacheEffectParameters();
PointLights = new PointLightCollection(
Parameters["PointLightPositions"],
Parameters["PointLightColors"],
MaxPointLights
);
}
protected override void OnApply()
{
if ((dirtyFlags & EffectDirtyFlags.World) != 0)
{
worldParam.SetValue(world);
Matrix.Invert(ref world, out Matrix worldInverse);
Matrix.Transpose(ref worldInverse, out Matrix worldInverseTranspose);
worldInverseTransposeParam.SetValue(worldInverseTranspose);
dirtyFlags &= ~EffectDirtyFlags.World;
}
if ((dirtyFlags & EffectDirtyFlags.WorldViewProj) != 0)
{
Matrix.Multiply(ref world, ref view, out Matrix worldView);
Matrix.Multiply(ref worldView, ref projection, out Matrix worldViewProj);
worldViewProjectionParam.SetValue(worldViewProj);
dirtyFlags &= ~EffectDirtyFlags.WorldViewProj;
}
if ((dirtyFlags & EffectDirtyFlags.UVOrDimensions) != 0)
{
uvOffsetAndDimensionsParam.SetValue(new Vector4(
UVOffset.X, UVOffset.Y,
SubTextureDimensions.X, SubTextureDimensions.Y
));
dirtyFlags &= ~EffectDirtyFlags.UVOrDimensions;
}
if ((dirtyFlags & EffectDirtyFlags.PixelShaderIndex) != 0)
{
int shaderIndex = 0;
if (normalMapEnabled)
{
shaderIndex = 1;
}
shaderIndexParam.SetValue(shaderIndex);
}
}
private void CacheEffectParameters()
{
worldParam = Parameters["World"];
worldViewProjectionParam = Parameters["WorldViewProjection"];
worldInverseTransposeParam = Parameters["WorldInverseTranspose"];
ambientColorParam = Parameters["AmbientColor"];
directionalLightDirectionParam = Parameters["DirectionalLightDirection"];
directionalLightColorParam = Parameters["DirectionalLightColor"];
uvOffsetAndDimensionsParam = Parameters["UVOffsetAndDimensions"];
shaderIndexParam = Parameters["ShaderIndex"];
}
}
}

View File

@ -8,7 +8,10 @@ namespace Kav
WorldViewProj = 1,
World = 2,
EyePosition = 4,
ShaderIndex = 8,
VertexShaderIndex = 8,
PixelShaderIndex = 16,
ViewProj = 32,
UVOrDimensions = 64,
All = -1
}
}

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Effects/FXB/DiffuseLitSpriteEffect.fxb (Stored with Git LFS) Normal file

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Effects/FXB/LinearDepthEffectInstanced.fxb (Stored with Git LFS) Normal file

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Effects/FXB/PaletteCrushEffect.fxb (Stored with Git LFS) Normal file

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Effects/FXB/SimpleDepthEffect.fxb (Stored with Git LFS)

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Effects/FXB/SimpleDepthEffectInstanced.fxb (Stored with Git LFS) Normal file

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@ -4,17 +4,22 @@ DECLARE_TEXTURE(AlbedoTexture, 0);
DECLARE_TEXTURE(NormalTexture, 1);
DECLARE_TEXTURE(MetallicRoughnessTexture, 2);
float4 UVOffsetAndDimensions;
float IsSprite;
BEGIN_CONSTANTS
float3 AlbedoValue _ps(c0) _cb(c0);
float MetallicValue _ps(c1) _cb(c1);
float RoughnessValue _ps(c2) _cb(c2);
int NumTextureRows _vs(c9) _cb(c3);
int NumTextureColumns _vs(c10) _cb(c4);
MATRIX_CONSTANTS
float4x4 World _vs(c0) _cb(c7);
float4x4 WorldInverseTranspose _vs(c4) _cb(c11);
float4x4 WorldViewProjection _vs(c8) _cb(c15);
float4x4 ViewProjection _vs(c4) _cb(c11);
END_CONSTANTS
@ -22,7 +27,7 @@ struct VertexInput
{
float4 Position : POSITION;
float3 Normal : NORMAL;
float2 TexCoord : TEXCOORD0;
float2 TexCoord : TEXCOORD;
};
struct PixelInput
@ -48,9 +53,44 @@ PixelInput main_vs(VertexInput input)
PixelInput output;
output.PositionWorld = mul(input.Position, World).xyz;
output.NormalWorld = mul(input.Normal, (float3x3)WorldInverseTranspose).xyz;
output.TexCoord = input.TexCoord;
output.Position = mul(input.Position, WorldViewProjection);
output.NormalWorld = normalize(mul(input.Normal, World));
float2 texCoord;
texCoord.x = (input.TexCoord.x * UVOffsetAndDimensions.z) + UVOffsetAndDimensions.x;
texCoord.y = (input.TexCoord.y * UVOffsetAndDimensions.w) + UVOffsetAndDimensions.y;
output.TexCoord = texCoord;
float4x4 worldViewProjection = mul(World, ViewProjection);
output.Position = mul(input.Position, worldViewProjection);
return output;
}
PixelInput instanced_vs(
VertexInput input,
float3 Translation : TEXCOORD2,
float2 UVOffset : TEXCOORD5
) {
PixelInput output;
float4x4 world = float4x4(
float4(1, 0, 0, 0),
float4(0, 1, 0, 0),
float4(0, 0, 1, 0),
float4(Translation.x, Translation.y, Translation.z, 1)
);
float4x4 worldViewProjection = mul(world, ViewProjection);
output.PositionWorld = mul(input.Position, world);
output.NormalWorld = mul(input.Normal, world);
float2 texCoord;
texCoord.x = (input.TexCoord.x / NumTextureColumns + UVOffset.x);
texCoord.y = (input.TexCoord.y / NumTextureRows + UVOffset.y);
output.TexCoord = texCoord;
output.Position = mul(input.Position, worldViewProjection);
return output;
}
@ -80,7 +120,7 @@ PixelOutput NonePS(PixelInput input)
PixelOutput output;
output.gPosition = float4(input.PositionWorld, 1.0);
output.gNormal = float4(normalize(input.NormalWorld), 1.0);
output.gNormal = float4(normalize(input.NormalWorld), IsSprite);
output.gAlbedo = float4(AlbedoValue, 1.0);
output.gMetallicRoughness = float4(MetallicValue, RoughnessValue, 0.0, 1.0);
@ -92,10 +132,12 @@ PixelOutput AlbedoPS(PixelInput input)
PixelOutput output;
output.gPosition = float4(input.PositionWorld, 1.0);
output.gNormal = float4(normalize(input.NormalWorld), 1.0);
output.gNormal = float4(normalize(input.NormalWorld), IsSprite);
output.gAlbedo = SAMPLE_TEXTURE(AlbedoTexture, input.TexCoord);
output.gMetallicRoughness = float4(MetallicValue, RoughnessValue, 0.0, 1.0);
if (output.gAlbedo.a == 0.0) { discard; }
return output;
}
@ -104,7 +146,7 @@ PixelOutput MetallicRoughnessPS(PixelInput input)
PixelOutput output;
output.gPosition = float4(input.PositionWorld, 1.0);
output.gNormal = float4(normalize(input.NormalWorld), 1.0);
output.gNormal = float4(normalize(input.NormalWorld), IsSprite);
output.gAlbedo = float4(AlbedoValue, 1.0);
output.gMetallicRoughness = SAMPLE_TEXTURE(MetallicRoughnessTexture, input.TexCoord);
@ -116,7 +158,7 @@ PixelOutput NormalPS(PixelInput input)
PixelOutput output;
output.gPosition = float4(input.PositionWorld, 1.0);
output.gNormal = float4(GetNormalFromMap(input.PositionWorld, input.TexCoord, input.NormalWorld), 1.0);
output.gNormal = float4(GetNormalFromMap(input.PositionWorld, input.TexCoord, input.NormalWorld), IsSprite);
output.gAlbedo = float4(AlbedoValue, 1.0);
output.gMetallicRoughness = float4(MetallicValue, RoughnessValue, 0.0, 1.0);
@ -128,10 +170,12 @@ PixelOutput AlbedoMetallicRoughnessPS(PixelInput input)
PixelOutput output;
output.gPosition = float4(input.PositionWorld, 1.0);
output.gNormal = float4(normalize(input.NormalWorld), 1.0);
output.gNormal = float4(normalize(input.NormalWorld), IsSprite);
output.gAlbedo = SAMPLE_TEXTURE(AlbedoTexture, input.TexCoord);
output.gMetallicRoughness = SAMPLE_TEXTURE(MetallicRoughnessTexture, input.TexCoord);
if (output.gAlbedo.a == 0.0) { discard; }
return output;
}
@ -140,10 +184,12 @@ PixelOutput AlbedoNormalPS(PixelInput input)
PixelOutput output;
output.gPosition = float4(input.PositionWorld, 1.0);
output.gNormal = float4(GetNormalFromMap(input.PositionWorld, input.TexCoord, input.NormalWorld), 1.0);
output.gNormal = float4(GetNormalFromMap(input.PositionWorld, input.TexCoord, input.NormalWorld), IsSprite);
output.gAlbedo = SAMPLE_TEXTURE(AlbedoTexture, input.TexCoord);
output.gMetallicRoughness = float4(MetallicValue, RoughnessValue, 0.0, 1.0);
if (output.gAlbedo.a == 0.0) { discard; }
return output;
}
@ -152,7 +198,7 @@ PixelOutput MetallicRoughnessNormalPS(PixelInput input)
PixelOutput output;
output.gPosition = float4(input.PositionWorld, 1.0);
output.gNormal = float4(GetNormalFromMap(input.PositionWorld, input.TexCoord, input.NormalWorld), 1.0);
output.gNormal = float4(GetNormalFromMap(input.PositionWorld, input.TexCoord, input.NormalWorld), IsSprite);
output.gAlbedo = float4(AlbedoValue, 1.0);
output.gMetallicRoughness = SAMPLE_TEXTURE(MetallicRoughnessTexture, input.TexCoord);
@ -164,13 +210,28 @@ PixelOutput AlbedoMetallicRoughnessNormalMapPS(PixelInput input)
PixelOutput output;
output.gPosition = float4(input.PositionWorld, 1.0);
output.gNormal = float4(GetNormalFromMap(input.PositionWorld, input.TexCoord, input.NormalWorld), 1.0);
output.gNormal = float4(GetNormalFromMap(input.PositionWorld, input.TexCoord, input.NormalWorld), IsSprite);
output.gAlbedo = SAMPLE_TEXTURE(AlbedoTexture, input.TexCoord);
output.gMetallicRoughness = SAMPLE_TEXTURE(MetallicRoughnessTexture, input.TexCoord);
if (output.gAlbedo.a == 0.0) { discard; }
return output;
}
VertexShader VSArray[2] =
{
compile vs_3_0 main_vs(),
compile vs_3_0 instanced_vs()
};
int VSIndices[2] =
{
0, 1
};
int VertexShaderIndex = 0;
PixelShader PSArray[8] =
{
compile ps_3_0 NonePS(),
@ -191,13 +252,13 @@ int PSIndices[8] =
0, 1, 2, 3, 4, 5, 6, 7
};
int ShaderIndex = 0;
int PixelShaderIndex = 0;
Technique GBuffer
{
Pass
{
VertexShader = compile vs_3_0 main_vs();
PixelShader = (PSArray[PSIndices[ShaderIndex]]);
VertexShader = (VSArray[VSIndices[VertexShaderIndex]]);
PixelShader = (PSArray[PSIndices[PixelShaderIndex]]);
}
}

View File

@ -1,3 +1,5 @@
// Assumes you are drawing a sphere!!
#include "Macros.fxh" //from FNA
#include "Lighting.fxh"
#include "Shadow.fxh"
@ -19,26 +21,27 @@ BEGIN_CONSTANTS
MATRIX_CONSTANTS
float4x4 WorldViewProjection _vs(c0) _cb(c4);
END_CONSTANTS
struct VertexInput
{
float4 Position : POSITION;
float2 TexCoord : TEXCOORD;
};
struct PixelInput
{
float4 Position : SV_POSITION;
float2 TexCoord : TEXCOORD0;
float4 ScreenPosition : TEXCOORD0;
};
PixelInput main_vs(VertexInput input)
{
PixelInput output;
output.Position = input.Position;
output.TexCoord = input.TexCoord;
output.Position = mul(input.Position, WorldViewProjection);
output.ScreenPosition = output.Position;
return output;
}
@ -73,11 +76,28 @@ float4 ComputeColor(
float4 main_ps(PixelInput input) : SV_TARGET0
{
float3 worldPosition = SAMPLE_TEXTURE(gPosition, input.TexCoord).rgb;
float3 normal = SAMPLE_TEXTURE(gNormal, input.TexCoord).xyz;
float3 albedo = SAMPLE_TEXTURE(gAlbedo, input.TexCoord).rgb;
float2 metallicRoughness = SAMPLE_TEXTURE(gMetallicRoughness, input.TexCoord).rg;
input.ScreenPosition.xy /= input.ScreenPosition.w;
float2 texCoord = 0.5f * float2(input.ScreenPosition.x,-input.ScreenPosition.y) + 0.5f;
float3 worldPosition = SAMPLE_TEXTURE(gPosition, texCoord).rgb;
float4 normalSample = SAMPLE_TEXTURE(gNormal, texCoord);
float3 normal = normalSample.xyz;
float isSprite = normalSample.a;
float3 albedo = SAMPLE_TEXTURE(gAlbedo, texCoord).rgb;
float2 metallicRoughness = SAMPLE_TEXTURE(gMetallicRoughness, texCoord).rg;
if (isSprite == 1.0)
{
float3 lightDir = PointLightPosition - worldPosition;
float3 L = normalize(lightDir);
float distance = length(lightDir);
float attenuation = 1.0 / (distance * distance);
float3 radiance = PointLightColor * attenuation;
return float4(albedo * radiance * 0.1, 1.0);
}
else
{
return ComputeColor(
worldPosition,
normal,
@ -85,6 +105,7 @@ float4 main_ps(PixelInput input) : SV_TARGET0
metallicRoughness.r,
metallicRoughness.g
);
}
}
Technique DeferredPBR_Point

View File

@ -0,0 +1,140 @@
#include "Macros.fxh" //from FNA
// Effect applies normalmapped lighting to a 2D sprite.
DECLARE_TEXTURE(Texture, 0);
DECLARE_TEXTURE(Normal, 1);
float3 AmbientColor;
float3 PointLightPositions[8];
float3 PointLightColors[8];
float3 DirectionalLightDirection;
float3 DirectionalLightColor;
float4 UVOffsetAndDimensions;
float4x4 WorldInverseTranspose;
float4x4 World;
float4x4 WorldViewProjection;
struct VertexShaderInput
{
float4 Position : POSITION;
float3 Normal : NORMAL;
float2 TexCoord : TEXCOORD0;
};
struct PixelShaderInput
{
float4 Position : SV_Position;
float2 TexCoord : TEXCOORD0;
float3 NormalWS : TEXCOORD1;
float3 PositionWS : TEXCOORD2;
};
PixelShaderInput main_vs(VertexShaderInput input)
{
PixelShaderInput output;
output.Position = mul(input.Position, WorldViewProjection);
output.NormalWS = normalize(mul(input.Normal, (float3x3)WorldInverseTranspose));
output.PositionWS = mul(input.Position, World).xyz;
float2 texCoord;
texCoord.x = (input.TexCoord.x * UVOffsetAndDimensions.z) + UVOffsetAndDimensions.x;
texCoord.y = (input.TexCoord.y * UVOffsetAndDimensions.w) + UVOffsetAndDimensions.y;
output.TexCoord = texCoord;
return output;
}
// Easy trick to get tangent-normals to world-space to keep PBR code simplified.
float3 GetNormalFromMap(float3 worldPos, float2 texCoords, float3 normal)
{
float3 tangentNormal = SAMPLE_TEXTURE(Normal, texCoords).xyz * 2.0 - 1.0;
float3 Q1 = ddx(worldPos);
float3 Q2 = ddy(worldPos);
float2 st1 = ddx(texCoords);
float2 st2 = ddy(texCoords);
float3 N = normalize(normal);
float3 T = normalize(Q1*st2.y - Q2*st1.y);
float3 B = -normalize(cross(N, T));
float3x3 TBN = float3x3(T, B, N);
return normalize(mul(tangentNormal, TBN));
}
float4 LightColor(float3 worldPosition, float3 worldNormal)
{
float3 lightColor = float3(0.0, 0.0, 0.0);
// point lights
for (int i = 0; i < 8; i++)
{
float3 lightVec = PointLightPositions[i] - worldPosition;
float distance = length(lightVec);
float3 lightDir = normalize(lightVec);
float diffuse = max(dot(worldNormal, lightDir), 0.0);
float3 attenuation = 1.0 / (distance * distance);
lightColor += diffuse * attenuation * PointLightColors[i];
}
// directional light
float directionalDiffuse = max(dot(worldNormal, DirectionalLightDirection), 0.0);
lightColor += directionalDiffuse * DirectionalLightColor;
// ambient light
lightColor += AmbientColor;
return float4(lightColor, 1.0);
}
float4 WithoutNormalMap(PixelShaderInput input) : COLOR0
{
float4 tex = SAMPLE_TEXTURE(Texture, input.TexCoord);
if (tex.a == 0.0) { discard; }
float3 normalWS = normalize(input.NormalWS);
return tex * LightColor(input.PositionWS, normalWS);
}
float4 WithNormalMap(PixelShaderInput input) : COLOR0
{
float4 tex = SAMPLE_TEXTURE(Texture, input.TexCoord);
if (tex.a == 0.0) { discard; }
float3 normalWS = GetNormalFromMap(input.PositionWS, input.TexCoord, input.NormalWS);
return tex * LightColor(input.PositionWS, normalWS);
}
PixelShader PSArray[2] =
{
compile ps_3_0 WithoutNormalMap(),
compile ps_3_0 WithNormalMap()
};
int PSIndices[2] =
{
0, 1
};
int ShaderIndex = 0;
Technique DiffuseLitSprite
{
pass
{
VertexShader = compile vs_3_0 main_vs();
PixelShader = (PSArray[PSIndices[ShaderIndex]]);
}
}

View File

@ -0,0 +1,55 @@
#include "Macros.fxh"
BEGIN_CONSTANTS
float4x4 ViewProjection _vs(c4) _cb(c4);
float3 LightPosition _ps(c0) _cb(c8);
float FarPlane _ps(c1) _cb(c9);
END_CONSTANTS
struct VertexShaderInput
{
float4 Position : POSITION;
};
struct VertexShaderOutput
{
float4 Position : SV_Position;
float3 PositionWorld : TEXCOORD0;
};
VertexShaderOutput instanced_vs(VertexShaderInput input, float3 Translation : TEXCOORD2)
{
VertexShaderOutput output;
float4x4 world = float4x4(
float4(1, 0, 0, 0),
float4(0, 1, 0, 0),
float4(0, 0, 1, 0),
float4(Translation.x, Translation.y, Translation.z, 1)
);
float4x4 worldViewProjection = mul(world, ViewProjection);
output.Position = mul(input.Position, worldViewProjection);
output.Position.x *= -1; // otherwise cube map render will be horizontally flipped
output.PositionWorld = mul(input.Position, world);
return output;
}
float4 main_ps(VertexShaderOutput input) : SV_TARGET0
{
float lightDistance = length(input.PositionWorld - LightPosition);
lightDistance /= FarPlane;
return float4(lightDistance, 0.0, 0.0, 0.0);
}
Technique SimpleDepth
{
Pass
{
VertexShader = compile vs_3_0 instanced_vs();
PixelShader = compile ps_3_0 main_ps();
}
}

View File

@ -0,0 +1,65 @@
#include "Macros.fxh"
DECLARE_TEXTURE(Texture, 0);
DECLARE_TEXTURE(Palette, 1);
BEGIN_CONSTANTS
int PaletteWidth _ps(c0) _cb(c0);
END_CONSTANTS
struct VertexInput
{
float4 Position : POSITION;
float2 TexCoord : TEXCOORD;
};
struct PixelInput
{
float4 Position : SV_POSITION;
float2 TexCoord : TEXCOORD0;
};
PixelInput main_vs(VertexInput input)
{
PixelInput output;
output.Position = input.Position;
output.TexCoord = input.TexCoord;
return output;
}
float4 main_ps(PixelInput input) : SV_TARGET0
{
float4 sampled = SAMPLE_TEXTURE(Texture, input.TexCoord);
float3 sampled_color = sampled.rgb;
float3 closest_color = float3(0, 0, 0);
float closest_dist = 100000;
for (int i = 0; i < PaletteWidth; i++)
{
float texX = (i / (float)PaletteWidth);
float3 palette_color = SAMPLE_TEXTURE(Palette, float2(texX, 0));
float dist = distance(palette_color, sampled_color);
if (dist < closest_dist)
{
closest_dist = dist;
closest_color = palette_color;
}
}
return float4(closest_color, sampled.a);
}
Technique PaletteCrush
{
Pass
{
VertexShader = compile vs_3_0 main_vs();
PixelShader = compile ps_3_0 main_ps();
}
}

View File

@ -2,10 +2,11 @@
BEGIN_CONSTANTS
float4x4 ModelViewProjection _vs(c0) _cb(c0);
MATRIX_CONSTANTS
float4x4 World _vs(c0) _cb(c0);
float4x4 ViewProjection _vs(c4) _cb(c4);
END_CONSTANTS
struct VertexShaderInput
@ -15,7 +16,7 @@ struct VertexShaderInput
struct VertexShaderOutput
{
float4 Position : SV_Position;
float4 Position : SV_POSITION;
float Depth : TEXCOORD0;
};
@ -23,7 +24,8 @@ VertexShaderOutput main_vs(VertexShaderInput input)
{
VertexShaderOutput output;
output.Position = mul(input.Position, ModelViewProjection);
float4x4 worldViewProjection = mul(World, ViewProjection);
output.Position = mul(input.Position, worldViewProjection);
output.Depth = output.Position.z / output.Position.w;
return output;

View File

@ -0,0 +1,45 @@
float4x4 ViewProjection;
struct VertexShaderInput
{
float4 Position : POSITION;
};
struct VertexShaderOutput
{
float4 Position : POSITION0;
float4 ProjectedPosition : TEXCOORD0;
};
VertexShaderOutput instanced_vs(VertexShaderInput input, float3 Translation : TEXCOORD2)
{
VertexShaderOutput output;
float4x4 world = float4x4(
float4(1, 0, 0, 0),
float4(0, 1, 0, 0),
float4(0, 0, 1, 0),
float4(Translation.x, Translation.y, Translation.z, 1)
);
float4x4 worldViewProjection = mul(world, ViewProjection);
output.Position = mul(input.Position, worldViewProjection);
output.ProjectedPosition = output.Position;
return output;
}
float4 main_ps(VertexShaderOutput input) : COLOR0
{
return float4(input.ProjectedPosition.z / input.ProjectedPosition.w, 0.0, 0.0, 0.0);
}
Technique SimpleDepth
{
Pass
{
VertexShader = compile vs_3_0 instanced_vs();
PixelShader = compile ps_3_0 main_ps();
}
}

View File

@ -3,28 +3,28 @@ using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class LinearDepthEffect : Effect
public class LinearDepthEffect : Effect, IHasWorldMatrix
{
EffectParameter modelParam;
EffectParameter modelViewProjectionParam;
EffectParameter worldParam;
EffectParameter worldViewProjectionParam;
EffectParameter lightPositionParam;
EffectParameter farPlaneParam;
EffectDirtyFlags dirtyFlags = EffectDirtyFlags.All;
Matrix model;
Matrix world;
Matrix view;
Matrix projection;
public Vector3 LightPosition { get; set; }
public float FarPlane { get; set; }
public Matrix Model
public Matrix World
{
get { return model; }
get { return world; }
set
{
model = value;
world = value;
dirtyFlags |= EffectDirtyFlags.World;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
}
@ -60,16 +60,16 @@ namespace Kav
if ((dirtyFlags & EffectDirtyFlags.WorldViewProj) != 0)
{
Matrix.Multiply(ref view, ref projection, out Matrix viewProjection);
Matrix.Multiply(ref model, ref viewProjection, out Matrix worldViewProj);
Matrix.Multiply(ref world, ref viewProjection, out Matrix worldViewProj);
modelViewProjectionParam.SetValue(worldViewProj);
worldViewProjectionParam.SetValue(worldViewProj);
dirtyFlags &= ~EffectDirtyFlags.WorldViewProj;
}
if ((dirtyFlags & EffectDirtyFlags.World) != 0)
{
modelParam.SetValue(model);
worldParam.SetValue(world);
dirtyFlags &= ~EffectDirtyFlags.World;
}
@ -80,8 +80,8 @@ namespace Kav
private void CacheEffectParameters()
{
modelParam = Parameters["Model"];
modelViewProjectionParam = Parameters["ModelViewProjection"];
worldParam = Parameters["Model"];
worldViewProjectionParam = Parameters["ModelViewProjection"];
lightPositionParam = Parameters["LightPosition"];
farPlaneParam = Parameters["FarPlane"];

View File

@ -0,0 +1,67 @@
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class LinearDepthEffectInstanced : Effect
{
EffectParameter viewProjectionParam;
EffectParameter lightPositionParam;
EffectParameter farPlaneParam;
EffectDirtyFlags dirtyFlags = EffectDirtyFlags.All;
Matrix view;
Matrix projection;
public Vector3 LightPosition { get; set; }
public float FarPlane { get; set; }
public Matrix View
{
get { return view; }
set
{
view = value;
dirtyFlags |= EffectDirtyFlags.ViewProj;
}
}
public Matrix Projection
{
get { return projection; }
set
{
projection = value;
dirtyFlags |= EffectDirtyFlags.ViewProj;
}
}
public LinearDepthEffectInstanced(GraphicsDevice graphicsDevice) : base(graphicsDevice, Resources.LinearDepthEffectInstanced)
{
CacheEffectParameters();
}
protected override void OnApply()
{
if ((dirtyFlags & EffectDirtyFlags.ViewProj) != 0)
{
Matrix.Multiply(ref view, ref projection, out Matrix viewProjection);
viewProjectionParam.SetValue(viewProjection);
dirtyFlags &= ~EffectDirtyFlags.ViewProj;
}
lightPositionParam.SetValue(LightPosition);
farPlaneParam.SetValue(FarPlane);
}
private void CacheEffectParameters()
{
viewProjectionParam = Parameters["ViewProjection"];
lightPositionParam = Parameters["LightPosition"];
farPlaneParam = Parameters["FarPlane"];
}
}
}

View File

@ -130,7 +130,7 @@ namespace Kav
{
albedoTextureParam.SetValue(value);
albedoTextureEnabled = value != null;
dirtyFlags |= EffectDirtyFlags.ShaderIndex;
dirtyFlags |= EffectDirtyFlags.PixelShaderIndex;
}
}
@ -141,7 +141,7 @@ namespace Kav
{
normalTextureParam.SetValue(value);
normalMapEnabled = value != null;
dirtyFlags |= EffectDirtyFlags.ShaderIndex;
dirtyFlags |= EffectDirtyFlags.PixelShaderIndex;
}
}
@ -164,7 +164,7 @@ namespace Kav
{
metallicRoughnessTextureParam.SetValue(value);
metallicRoughnessMapEnabled = value != null;
dirtyFlags |= EffectDirtyFlags.ShaderIndex;
dirtyFlags |= EffectDirtyFlags.PixelShaderIndex;
}
}
@ -197,45 +197,6 @@ namespace Kav
);
}
protected PBREffect(PBREffect cloneSource) : base(cloneSource)
{
CacheEffectParameters();
World = cloneSource.World;
View = cloneSource.View;
Projection = cloneSource.Projection;
PointLights = new PointLightCollection(
Parameters["LightPositions"],
Parameters["PositionLightColors"],
MaxPointLights
);
for (int i = 0; i < MaxPointLights; i++)
{
PointLights[i] = cloneSource.PointLights[i];
}
AlbedoTexture = cloneSource.AlbedoTexture;
NormalTexture = cloneSource.NormalTexture;
EmissionTexture = cloneSource.EmissionTexture;
OcclusionTexture = cloneSource.OcclusionTexture;
MetallicRoughnessTexture = cloneSource.MetallicRoughnessTexture;
EnvDiffuseTexture = cloneSource.EnvDiffuseTexture;
BRDFLutTexture = cloneSource.BRDFLutTexture;
EnvSpecularTexture = cloneSource.EnvSpecularTexture;
Albedo = cloneSource.Albedo;
Metallic = cloneSource.Metallic;
Roughness = cloneSource.Roughness;
AO = cloneSource.AO;
}
public override Effect Clone()
{
return new PBREffect(this);
}
protected override void OnApply()
{
if ((dirtyFlags & EffectDirtyFlags.World) != 0)
@ -266,7 +227,7 @@ namespace Kav
dirtyFlags &= ~EffectDirtyFlags.EyePosition;
}
if ((dirtyFlags & EffectDirtyFlags.ShaderIndex) != 0)
if ((dirtyFlags & EffectDirtyFlags.PixelShaderIndex) != 0)
{
int shaderIndex = 0;
@ -301,7 +262,7 @@ namespace Kav
shaderIndexParam.SetValue(shaderIndex);
dirtyFlags &= ~EffectDirtyFlags.ShaderIndex;
dirtyFlags &= ~EffectDirtyFlags.PixelShaderIndex;
}
}

View File

@ -0,0 +1,51 @@
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class PaletteCrushEffect : Effect
{
EffectParameter textureParam;
EffectParameter paletteParam;
EffectParameter paletteWidthParam;
Texture2D texture;
Texture2D palette;
int paletteWidth;
public Texture2D Texture
{
get { return texture; }
set
{
texture = value;
textureParam.SetValue(texture);
}
}
public Texture2D Palette
{
get { return palette; }
set
{
palette = value;
paletteWidth = palette.Width;
paletteParam.SetValue(palette);
paletteWidthParam.SetValue(paletteWidth);
}
}
public PaletteCrushEffect(GraphicsDevice graphicsDevice) : base(graphicsDevice, Resources.PaletteCrushEffect)
{
CacheEffectParameters();
}
void CacheEffectParameters()
{
textureParam = Parameters["Texture"];
paletteParam = Parameters["Palette"];
paletteWidthParam = Parameters["PaletteWidth"];
}
}
}

View File

@ -7,41 +7,24 @@ namespace Kav
{
private readonly Vector3[] positions;
private readonly Vector3[] colors;
private readonly float[] intensities;
readonly EffectParameter lightPositionsParam;
readonly EffectParameter lightColorsParam;
public PointLightCollection(EffectParameter lightPositionsParam, EffectParameter lightColorsParam, int maxLights)
{
this.positions = new Vector3[maxLights];
this.colors = new Vector3[maxLights];
this.intensities = new float[maxLights];
positions = new Vector3[maxLights];
colors = new Vector3[maxLights];
this.lightPositionsParam = lightPositionsParam;
this.lightColorsParam = lightColorsParam;
}
public PointLight this[int i]
{
get
{
var color = colors[i] / intensities[i];
return new PointLight(
positions[i],
new Color(
color.X,
color.Y,
color.Z,
1f
),
intensities[i]
);
}
set
{
positions[i] = value.Position;
colors[i] = value.Color.ToVector3() * value.Intensity;
intensities[i] = value.Intensity;
colors[i] = value.Color.ToVector3() * value.Radius;
lightPositionsParam.SetValue(positions);
lightColorsParam.SetValue(colors);
}

View File

@ -3,23 +3,24 @@ using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class SimpleDepthEffect : Effect
public class SimpleDepthEffect : Effect, IHasWorldMatrix
{
EffectParameter modelViewProjectionParam;
EffectParameter worldParam;
EffectParameter viewProjectionParam;
Matrix model;
Matrix world;
Matrix view;
Matrix projection;
EffectDirtyFlags dirtyFlags = EffectDirtyFlags.All;
public Matrix Model
public Matrix World
{
get { return model; }
get { return world; }
set
{
model = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
world = value;
dirtyFlags |= EffectDirtyFlags.World;
}
}
@ -29,7 +30,7 @@ namespace Kav
set
{
view = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
dirtyFlags |= EffectDirtyFlags.ViewProj;
}
}
@ -39,7 +40,7 @@ namespace Kav
set
{
projection = value;
dirtyFlags |= EffectDirtyFlags.WorldViewProj;
dirtyFlags |= EffectDirtyFlags.ViewProj;
}
}
@ -50,20 +51,26 @@ namespace Kav
protected override void OnApply()
{
if ((dirtyFlags & EffectDirtyFlags.WorldViewProj) != 0)
if ((dirtyFlags & EffectDirtyFlags.World) != 0)
{
worldParam.SetValue(world);
dirtyFlags &= ~EffectDirtyFlags.World;
}
if ((dirtyFlags & EffectDirtyFlags.ViewProj) != 0)
{
Matrix.Multiply(ref view, ref projection, out Matrix viewProjection);
Matrix.Multiply(ref model, ref viewProjection, out Matrix worldViewProj);
viewProjectionParam.SetValue(viewProjection);
modelViewProjectionParam.SetValue(worldViewProj);
dirtyFlags &= ~EffectDirtyFlags.WorldViewProj;
dirtyFlags &= ~EffectDirtyFlags.ViewProj;
}
}
private void CacheEffectParameters()
{
modelViewProjectionParam = Parameters["ModelViewProjection"];
worldParam = Parameters["World"];
viewProjectionParam = Parameters["ViewProjection"];
}
}
}

View File

@ -0,0 +1,56 @@
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class SimpleDepthEffectInstanced : Effect
{
EffectParameter viewProjectionParam;
Matrix view;
Matrix projection;
EffectDirtyFlags dirtyFlags = EffectDirtyFlags.All;
public Matrix View
{
get { return view; }
set
{
view = value;
dirtyFlags |= EffectDirtyFlags.ViewProj;
}
}
public Matrix Projection
{
get { return projection; }
set
{
projection = value;
dirtyFlags |= EffectDirtyFlags.ViewProj;
}
}
public SimpleDepthEffectInstanced(GraphicsDevice graphicsDevice) : base(graphicsDevice, Resources.SimpleDepthEffectInstanced)
{
CacheEffectParameters();
}
protected override void OnApply()
{
if ((dirtyFlags & EffectDirtyFlags.ViewProj) != 0)
{
Matrix.Multiply(ref view, ref projection, out Matrix viewProjection);
viewProjectionParam.SetValue(viewProjection);
dirtyFlags &= ~EffectDirtyFlags.ViewProj;
}
}
private void CacheEffectParameters()
{
viewProjectionParam = Parameters["ViewProjection"];
}
}
}

View File

@ -0,0 +1,9 @@
namespace Kav
{
public enum SpriteBillboardConstraint
{
None,
Horizontal,
Full
}
}

View File

@ -0,0 +1,9 @@
using Microsoft.Xna.Framework;
namespace Kav
{
public interface ICullable
{
BoundingBox BoundingBox { get; }
}
}

View File

@ -0,0 +1,19 @@
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public interface IGBufferDrawable
{
Vector3 Albedo { get; }
float Metallic { get; }
float Roughness { get; }
Texture2D AlbedoTexture { get; }
Texture2D NormalTexture { get; }
Texture2D MetallicRoughnessTexture { get; }
int NumTextureRows { get; }
int NumTextureColumns { get; }
}
}

View File

@ -0,0 +1,9 @@
using Microsoft.Xna.Framework;
namespace Kav
{
public interface IHasVertexPositions
{
Vector3[] Positions { get; }
}
}

View File

@ -0,0 +1,10 @@
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public interface IIndexDrawable
{
VertexBuffer VertexBuffer { get; }
IndexBuffer IndexBuffer { get; }
}
}

View File

@ -0,0 +1,9 @@
using Microsoft.Xna.Framework;
namespace Kav
{
public interface ITransformable
{
Matrix TransformMatrix { get; }
}
}

View File

@ -3,7 +3,7 @@ using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class MeshPart
public class MeshPart : IIndexDrawable, IGBufferDrawable, ICullable, IHasVertexPositions
{
public IndexBuffer IndexBuffer { get; }
public VertexBuffer VertexBuffer { get; }
@ -38,6 +38,9 @@ namespace Kav
public float Metallic { get; set; } = 0.5f;
public float Roughness { get; set; } = 0.5f;
public int NumTextureRows { get; set; } = 1;
public int NumTextureColumns { get; set; } = 1;
public bool DisableAlbedoMap { get; set; } = false;
public bool DisableNormalMap { get; set; } = false;
public bool DisableMetallicRoughnessMap { get; set; } = false;

View File

@ -2,7 +2,7 @@ using Microsoft.Xna.Framework;
namespace Kav
{
public class Model
public class Model : ICullable
{
public Mesh[] Meshes { get; }
public BoundingBox BoundingBox { get; }

View File

@ -10,30 +10,48 @@ namespace Kav
public Vector2 Origin { get; }
public float Rotation { get; }
public Vector2 Scale { get; }
public SpriteBillboardConstraint BillboardConstraint { get; }
public Matrix TransformMatrix { get; }
public Sprite(
Texture2D texture,
Vector3 position,
Vector2 origin,
float rotation,
Vector2 scale
Vector2 scale,
SpriteBillboardConstraint billboardConstraint = SpriteBillboardConstraint.None
) {
Texture = texture;
Position = position;
Origin = origin;
Rotation = rotation;
Scale = scale;
BillboardConstraint = billboardConstraint;
TransformMatrix = ConstructTransformMatrix(Position, Scale);
}
public Sprite(
Texture2D texture,
Vector3 position
Vector3 position,
SpriteBillboardConstraint billboardConstraint = SpriteBillboardConstraint.None
) {
Texture = texture;
Position = position;
Origin = Vector2.Zero;
Rotation = 0f;
Rotation = 0;
Scale = Vector2.One;
BillboardConstraint = billboardConstraint;
TransformMatrix = ConstructTransformMatrix(Position, Scale);
}
private static Matrix ConstructTransformMatrix(
Vector3 position,
Vector2 scale
) {
return
Matrix.CreateTranslation(position) *
Matrix.CreateScale(scale.X, scale.Y, 1);
}
}
}

109
Geometry/SpriteMesh.cs Normal file
View File

@ -0,0 +1,109 @@
using System.Collections.Generic;
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public class SpriteMesh : ICullable, IIndexDrawable
{
public enum FlipOptions
{
None,
Horizontal,
Vertical,
Both
}
private static readonly short[] Indices = new short[]
{
0,
1,
2,
1,
3,
2
};
public IndexBuffer IndexBuffer { get; }
public VertexBuffer VertexBuffer { get; }
public BoundingBox BoundingBox { get; }
public SpriteMesh(
GraphicsDevice graphicsDevice,
int width,
int height,
FlipOptions flipOptions
) {
IndexBuffer = new IndexBuffer(
graphicsDevice,
IndexElementSize.SixteenBits,
6,
BufferUsage.WriteOnly
);
IndexBuffer.SetData(Indices);
var vertexArray = GenerateVertexArray(width, height, flipOptions);
VertexBuffer = new VertexBuffer(
graphicsDevice,
typeof(VertexPositionNormalTexture),
4,
BufferUsage.WriteOnly
);
VertexBuffer.SetData(vertexArray);
BoundingBox = BoundingBox.CreateFromPoints(Positions(vertexArray));
}
private static VertexPositionNormalTexture[] GenerateVertexArray(int pixelWidth, int pixelHeight, FlipOptions flipOptions)
{
var width = pixelWidth / (float)40;
var height = pixelHeight / (float)40;
VertexPositionNormalTexture[] result = new VertexPositionNormalTexture[4];
var xLeft = 0;
var xRight = 1;
var yTop = 0;
var yBottom = 1;
if (flipOptions == FlipOptions.Horizontal || flipOptions == FlipOptions.Both)
{
xLeft = 1;
xRight = 0;
}
if (flipOptions == FlipOptions.Vertical || flipOptions == FlipOptions.Both)
{
yTop = 1;
yBottom = 0;
}
result[0].Position = new Vector3(-width / 2, height / 2, 0);
result[0].Normal = new Vector3(0, 0, -1);
result[0].TextureCoordinate = new Vector2(xLeft, yTop);
result[1].Position = new Vector3(width / 2, height / 2, 0);
result[1].Normal = new Vector3(0, 0, -1);
result[1].TextureCoordinate = new Vector2(xRight, yTop);
result[2].Position = new Vector3(-width / 2, -height / 2, 0);
result[2].Normal = new Vector3(0, 0, -1);
result[2].TextureCoordinate = new Vector2(xLeft, yBottom);
result[3].Position = new Vector3(width / 2, -height / 2, 0);
result[3].Normal = new Vector3(0, 0, -1);
result[3].TextureCoordinate = new Vector2(xRight, yBottom);
return result;
}
private static IEnumerable<Vector3> Positions(IEnumerable<VertexPositionNormalTexture> vertices)
{
foreach (var vertex in vertices)
{
yield return vertex.Position;
}
}
}
}

View File

@ -2,6 +2,7 @@
<PropertyGroup>
<TargetFramework>netstandard2.0</TargetFramework>
<LangVersion>8.0</LangVersion>
<RootNamespace>Kav</RootNamespace>
<Authors>Evan Hemsley</Authors>
<Copyright>Evan Hemsley 2020</Copyright>
@ -43,15 +44,30 @@
<EmbeddedResource Include="Effects\FXB\SimpleDepthEffect.fxb">
<LogicalName>Kav.Resources.SimpleDepthEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\SimpleDepthEffectInstanced.fxb">
<LogicalName>Kav.Resources.SimpleDepthEffectInstanced.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\LinearDepthEffect.fxb">
<LogicalName>Kav.Resources.LinearDepthEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\LinearDepthEffectInstanced.fxb">
<LogicalName>Kav.Resources.LinearDepthEffectInstanced.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\SkyboxEffect.fxb">
<LogicalName>Kav.Resources.SkyboxEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\DiffuseLitSpriteEffect.fxb">
<LogicalName>Kav.Resources.DiffuseLitSpriteEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\PaletteCrushEffect.fxb">
<LogicalName>Kav.Resources.PaletteCrushEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Models\UnitCube.glb">
<LogicalName>Kav.Resources.UnitCube.glb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Models\UnitSphere.glb">
<LogicalName>Kav.Resources.UnitSphere.glb</LogicalName>
</EmbeddedResource>
</ItemGroup>
</Project>

View File

@ -1,13 +1,14 @@
<Project Sdk="Microsoft.NET.Sdk">
<Project Sdk="Microsoft.NET.Sdk">
<PropertyGroup>
<TargetFramework>netstandard2.0</TargetFramework>
<LangVersion>8.0</LangVersion>
<RootNamespace>Kav</RootNamespace>
<Authors>Evan Hemsley</Authors>
<Copyright>Evan Hemsley 2020</Copyright>
<GeneratePackageOnBuild>true</GeneratePackageOnBuild>
<AssemblyName>Kav</AssemblyName>
<Platforms>x64</Platforms>
<Platforms>x64;x86</Platforms>
</PropertyGroup>
<ItemGroup>
@ -43,15 +44,30 @@
<EmbeddedResource Include="Effects\FXB\SimpleDepthEffect.fxb">
<LogicalName>Kav.Resources.SimpleDepthEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\SimpleDepthEffectInstanced.fxb">
<LogicalName>Kav.Resources.SimpleDepthEffectInstanced.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\LinearDepthEffect.fxb">
<LogicalName>Kav.Resources.LinearDepthEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\LinearDepthEffectInstanced.fxb">
<LogicalName>Kav.Resources.LinearDepthEffectInstanced.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\SkyboxEffect.fxb">
<LogicalName>Kav.Resources.SkyboxEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\DiffuseLitSpriteEffect.fxb">
<LogicalName>Kav.Resources.DiffuseLitSpriteEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Effects\FXB\PaletteCrushEffect.fxb">
<LogicalName>Kav.Resources.PaletteCrushEffect.fxb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Models\UnitCube.glb">
<LogicalName>Kav.Resources.UnitCube.glb</LogicalName>
</EmbeddedResource>
<EmbeddedResource Include="Models\UnitSphere.glb">
<LogicalName>Kav.Resources.UnitSphere.glb</LogicalName>
</EmbeddedResource>
</ItemGroup>
</Project>

View File

@ -1,18 +1,55 @@
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
using System;
namespace Kav
{
public struct PointLight
public sealed class PointLight : IDisposable
{
public Vector3 Position { get; }
public Color Color { get; }
public float Intensity { get; }
public float Radius { get; }
public PointLight(Vector3 position, Color color, float intensity = 1f)
{
public BoundingSphere BoundingSphere { get; }
public RenderTargetCube ShadowMap { get; }
public PointLight(
GraphicsDevice graphicsDevice,
Vector3 position,
Color color,
float radius,
int shadowMapSize
) {
Position = position;
Color = color;
Intensity = intensity;
Radius = radius;
BoundingSphere = new BoundingSphere(position, Radius);
ShadowMap = new RenderTargetCube(
graphicsDevice,
shadowMapSize,
false,
SurfaceFormat.Single,
DepthFormat.Depth24,
0,
RenderTargetUsage.PreserveContents
);
var currentRTs = graphicsDevice.GetRenderTargets();
foreach (CubeMapFace face in Enum.GetValues(typeof(CubeMapFace)))
{
graphicsDevice.SetRenderTarget(ShadowMap, face);
graphicsDevice.Clear(Color.White);
}
graphicsDevice.SetRenderTargets(currentRTs);
}
public void Dispose()
{
ShadowMap.Dispose();
}
}
}

View File

@ -0,0 +1,18 @@
using System.IO;
using System.Text.Json;
namespace Kav
{
public static class CrunchAtlasReader
{
static JsonSerializerOptions options = new JsonSerializerOptions
{
PropertyNameCaseInsensitive = true
};
public static CrunchTextureAtlasData ReadTextureAtlas(FileInfo file)
{
return JsonSerializer.Deserialize<CrunchTextureAtlasData>(File.ReadAllText(file.FullName), options);
}
}
}

View File

@ -0,0 +1,22 @@
namespace Kav
{
public struct CrunchTextureAtlasData
{
public CrunchTextureAtlasTextureData[] Textures { get; set; }
}
public struct CrunchTextureAtlasTextureData
{
public string Name { get; set; }
public CrunchTextureAtlasImageData[] Images { get; set; }
}
public struct CrunchTextureAtlasImageData
{
public string N { get; set; }
public int X { get; set; }
public int Y { get; set; }
public int W { get; set; }
public int H { get; set; }
}
}

BIN
Models/UnitSphere.glb Normal file

Binary file not shown.

File diff suppressed because it is too large Load Diff

View File

@ -111,6 +111,18 @@ namespace Kav
}
}
public static byte[] SimpleDepthEffectInstanced
{
get
{
if (simpleDepthEffectInstanced == null)
{
simpleDepthEffectInstanced = GetResource("SimpleDepthEffectInstanced.fxb");
}
return simpleDepthEffectInstanced;
}
}
public static byte[] LinearDepthEffect
{
get
@ -123,6 +135,18 @@ namespace Kav
}
}
public static byte[] LinearDepthEffectInstanced
{
get
{
if (linearDepthEffectInstanced == null)
{
linearDepthEffectInstanced = GetResource("LinearDepthEffectInstanced.fxb");
}
return linearDepthEffectInstanced;
}
}
public static byte[] SkyboxEffect
{
get
@ -135,6 +159,30 @@ namespace Kav
}
}
public static byte[] DiffuseLitSpriteEffect
{
get
{
if (diffuseLitSpriteEffect == null)
{
diffuseLitSpriteEffect = GetResource("DiffuseLitSpriteEffect.fxb");
}
return diffuseLitSpriteEffect;
}
}
public static byte[] PaletteCrushEffect
{
get
{
if (paletteCrushEffect == null)
{
paletteCrushEffect = GetResource("PaletteCrushEffect.fxb");
}
return paletteCrushEffect;
}
}
public static byte[] UnitCubeModel
{
get
@ -147,6 +195,18 @@ namespace Kav
}
}
public static byte[] UnitSphereModel
{
get
{
if (unitSphereModel == null)
{
unitSphereModel = GetResource("UnitSphere.glb");
}
return unitSphereModel;
}
}
private static byte[] ambientLightEffect;
private static byte[] pointLightEffect;
private static byte[] directionalLightEffect;
@ -156,10 +216,15 @@ namespace Kav
private static byte[] deferredPBREffect;
private static byte[] pbrEffect;
private static byte[] simpleDepthEffect;
private static byte[] simpleDepthEffectInstanced;
private static byte[] linearDepthEffect;
private static byte[] linearDepthEffectInstanced;
private static byte[] skyboxEffect;
private static byte[] diffuseLitSpriteEffect;
private static byte[] paletteCrushEffect;
private static byte[] unitCubeModel;
private static byte[] unitSphereModel;
private static byte[] GetResource(string name)
{

18
Utils/QuaternionUtils.cs Normal file
View File

@ -0,0 +1,18 @@
using Microsoft.Xna.Framework;
namespace Kav.Utils
{
public static class QuaternionUtils
{
// assumes that the input vectors are normalized and orthogonal
public static Quaternion LookAt(in Vector3 forward, in Vector3 up)
{
Matrix orientation = Matrix.Identity;
orientation.Forward = forward;
orientation.Right = Vector3.Normalize(Vector3.Cross(forward, up));
orientation.Up = Vector3.Cross(orientation.Right, forward);
return Quaternion.CreateFromRotationMatrix(orientation);
}
}
}

18
VertexDeclarations.cs Normal file
View File

@ -0,0 +1,18 @@
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
public static class VertexDeclarations
{
public static VertexDeclaration PositionInstanceDeclaration = new VertexDeclaration
(
new VertexElement(0, VertexElementFormat.Vector3, VertexElementUsage.TextureCoordinate, 2)
);
public static VertexDeclaration PositionTextureOffsetInstanceDeclaration = new VertexDeclaration
(
new VertexElement(0, VertexElementFormat.Vector3, VertexElementUsage.TextureCoordinate, 2),
new VertexElement(12, VertexElementFormat.Vector2, VertexElementUsage.TextureCoordinate, 5)
);
}
}

View File

@ -0,0 +1,31 @@
using System.Runtime.InteropServices;
using Microsoft.Xna.Framework;
using Microsoft.Xna.Framework.Graphics;
namespace Kav
{
[StructLayout(LayoutKind.Sequential, Pack = 1)]
public struct PositionTextureOffsetInstanceVertex : IVertexType
{
VertexDeclaration IVertexType.VertexDeclaration
{
get
{
return VertexDeclarations.PositionTextureOffsetInstanceDeclaration;
}
}
public Vector3 Translation { get; set; }
public Vector2 UVOffset { get; set; }
public static readonly VertexDeclaration VertexDeclaration;
public PositionTextureOffsetInstanceVertex(
Vector3 translation,
Vector2 uvOffset
) {
Translation = translation;
UVOffset = uvOffset;
}
}
}