/// <summary>
/// TextureDesc constructor for a texture using a functor for scaling
/// </summary>
/// <param name="func">Function used to determnine the texture size</param>
/// <param name="dynamicResolution">Use dynamic resolution</param>
/// <param name="xrReady">Set this to true if the Texture is a render texture in an XR setting.</param>
public TextureDesc(ScaleFunc func, bool dynamicResolution = false, bool xrReady = false)
: this()
{
// Size related init
sizeMode = TextureSizeMode.Functor;
this.func = func;
// Important default values not handled by zero construction in this()
msaaSamples = MSAASamples.None;
dimension = TextureDimension.Tex2D;
InitDefaultValues(dynamicResolution, xrReady);
}
/// <summary>
/// TextureDesc constructor for a texture using explicit size
/// </summary>
/// <param name="width">Texture width</param>
/// <param name="height">Texture height</param>
/// <param name="dynamicResolution">Use dynamic resolution</param>
/// <param name="xrReady">Set this to true if the Texture is a render texture in an XR setting.</param>
public TextureDesc(int width, int height, bool dynamicResolution = false, bool xrReady = false)
: this()
{
// Size related init
sizeMode = TextureSizeMode.Explicit;
this.width = width;
this.height = height;
// Important default values not handled by zero construction in this()
msaaSamples = MSAASamples.None;
InitDefaultValues(dynamicResolution, xrReady);
}
/// <summary>
/// Initialize the RTHandle system.
/// </summary>
/// <param name="width">Initial reference rendering width.</param>
/// <param name="height">Initial reference rendering height.</param>
/// <param name="scaledRTsupportsMSAA">Set to true if automatically scaled RTHandles should support MSAA</param>
/// <param name="scaledRTMSAASamples">Number of MSAA samples for automatically scaled RTHandles.</param>
public void Initialize(int width, int height, bool scaledRTsupportsMSAA, MSAASamples scaledRTMSAASamples)
{
Debug.Assert(m_AutoSizedRTs.Count == 0, "RTHandle.Initialize should only be called once before allocating any Render Texture. This may be caused by an unreleased RTHandle resource.");
m_MaxWidths = width;
m_MaxHeights = height;
m_ScaledRTSupportsMSAA = scaledRTsupportsMSAA;
m_ScaledRTCurrentMSAASamples = scaledRTMSAASamples;
m_HardwareDynamicResRequested = DynamicResolutionHandler.instance.RequestsHardwareDynamicResolution();
}
public static void SetReferenceSize(
int width,
int height,
MSAASamples msaaSamples
)
{
s_DefaultInstance.SetReferenceSize(
width,
height,
msaaSamples
);
}
// Call this once to set the initial size and allow msaa targets or not.
public void Initialize(int width, int height, bool scaledRTsupportsMSAA, MSAASamples scaledRTMSAASamples)
{
Debug.Assert(m_AutoSizedRTs.Count == 0, "RTHandle.Initialize should only be called once before allocating any Render Texture.");
m_MaxWidths = width;
m_MaxHeights = height;
m_ScaledRTSupportsMSAA = scaledRTsupportsMSAA;
m_ScaledRTCurrentMSAASamples = scaledRTMSAASamples;
m_HardwareDynamicResRequested = false;
}
public void ResetReferenceSize(int width, int height, MSAASamples msaaSamples)
{
width = Mathf.Max(width, 1);
height = Mathf.Max(height, 1);
bool sizeChanged = width > GetMaxWidth() || height > GetMaxHeight();
bool msaaSamplesChanged = (msaaSamples != m_ScaledRTCurrentMSAASamples);
if (sizeChanged || msaaSamplesChanged)
{
Resize(width, height, msaaSamples, sizeChanged, msaaSamplesChanged);
}
}
// Call this once to set the initial size and allow msaa targets or not.
public static void Initialize(int width, int height, bool scaledRTsupportsMSAA, MSAASamples scaledRTMSAASamples)
{
Debug.Assert(s_AutoSizedRTs.Count == 0, "RTHandle.Initialize should only be called once before allocating any Render Texture.");
for (int i = 0; i < (int)RTCategory.Count; ++i)
{
s_MaxWidths[i] = width;
s_MaxHeights[i] = height;
}
s_ScaledRTSupportsMSAA = scaledRTsupportsMSAA;
s_ScaledRTCurrentMSAASamples = scaledRTMSAASamples;
}
//
// You can provide your own scaling function for advanced scaling schemes (e.g. scaling to
// the next POT). The function takes a Vec2 as parameter that holds max width & height
// values for the current manager context and returns a Vec2 of the final size in pixels.
//
// var rth = Alloc(
// size => new Vector2Int(size.x / 2, size.y),
// [...]
// );
//
/// <summary>
/// Allocate a new automatically sized RTHandle.
/// </summary>
/// <param name="scaleFunc">Function used for the RTHandle size computation.</param>
/// <param name="slices">Number of slices of the RTHandle.</param>
/// <param name="depthBufferBits">Bit depths of a depth buffer.</param>
/// <param name="colorFormat">GraphicsFormat of a color buffer.</param>
/// <param name="filterMode">Filtering mode of the RTHandle.</param>
/// <param name="wrapMode">Addressing mode of the RTHandle.</param>
/// <param name="dimension">Texture dimension of the RTHandle.</param>
/// <param name="enableRandomWrite">Set to true to enable UAV random read writes on the texture.</param>
/// <param name="useMipMap">Set to true if the texture should have mipmaps.</param>
/// <param name="autoGenerateMips">Set to true to automatically generate mipmaps.</param>
/// <param name="isShadowMap">Set to true if the depth buffer should be used as a shadow map.</param>
/// <param name="anisoLevel">Anisotropic filtering level.</param>
/// <param name="mipMapBias">Bias applied to mipmaps during filtering.</param>
/// <param name="msaaSamples">Number of MSAA samples.</param>
/// <param name="bindTextureMS">Set to true if the texture needs to be bound as a multisampled texture in the shader.</param>
/// <param name="useDynamicScale">Set to true to use hardware dynamic scaling.</param>
/// <param name="memoryless">Use this property to set the render texture memoryless modes.</param>
/// <param name="name">Name of the RTHandle.</param>
/// <returns>A new RTHandle.</returns>
public RTHandle Alloc(
ScaleFunc scaleFunc,
int slices = 1,
DepthBits depthBufferBits = DepthBits.None,
GraphicsFormat colorFormat = GraphicsFormat.R8G8B8A8_SRGB,
FilterMode filterMode = FilterMode.Point,
TextureWrapMode wrapMode = TextureWrapMode.Repeat,
TextureDimension dimension = TextureDimension.Tex2D,
bool enableRandomWrite = false,
bool useMipMap = false,
bool autoGenerateMips = true,
bool isShadowMap = false,
int anisoLevel = 1,
float mipMapBias = 0f,
MSAASamples msaaSamples = MSAASamples.None,
bool bindTextureMS = false,
bool useDynamicScale = false,
RenderTextureMemoryless memoryless = RenderTextureMemoryless.None,
string name = ""
)
{
var scaleFactor = scaleFunc(new Vector2Int(GetMaxWidth(), GetMaxHeight()));
int width = Mathf.Max(scaleFactor.x, 1);
int height = Mathf.Max(scaleFactor.y, 1);
var rth = AllocAutoSizedRenderTexture(width,
height,
slices,
depthBufferBits,
colorFormat,
filterMode,
wrapMode,
dimension,
enableRandomWrite,
useMipMap,
autoGenerateMips,
isShadowMap,
anisoLevel,
mipMapBias,
msaaSamples,
bindTextureMS,
useDynamicScale,
memoryless,
name
);
rth.referenceSize = new Vector2Int(width, height);
rth.scaleFunc = scaleFunc;
return(rth);
}
void Resize(int width, int height, MSAASamples msaaSamples, bool sizeChanged, bool msaaSampleChanged)
{
m_MaxWidths = Math.Max(width, m_MaxWidths);
m_MaxHeights = Math.Max(height, m_MaxHeights);
m_ScaledRTCurrentMSAASamples = msaaSamples;
var maxSize = new Vector2Int(m_MaxWidths, m_MaxHeights);
Array.Resize(ref m_AutoSizedRTsArray, m_AutoSizedRTs.Count);
m_AutoSizedRTs.CopyTo(m_AutoSizedRTsArray);
for (int i = 0, c = m_AutoSizedRTsArray.Length; i < c; ++i)
{
// Grab the RT Handle
var rth = m_AutoSizedRTsArray[i];
// If we are only processing MSAA sample count change, make sure this RT is an MSAA one
if (!sizeChanged && msaaSampleChanged && !rth.m_EnableMSAA)
{
continue;
}
// Force its new reference size
rth.referenceSize = maxSize;
// Grab the render texture
var renderTexture = rth.m_RT;
// Free the previous version
renderTexture.Release();
// Get the scaled size
var scaledSize = rth.GetScaledSize(maxSize);
renderTexture.width = Mathf.Max(scaledSize.x, 1);
renderTexture.height = Mathf.Max(scaledSize.y, 1);
// If this is a msaa texture, make sure to update its msaa count
if (rth.m_EnableMSAA)
{
renderTexture.antiAliasing = (int)m_ScaledRTCurrentMSAASamples;
}
// Regenerate the name
renderTexture.name = CoreUtils.GetRenderTargetAutoName(renderTexture.width, renderTexture.height, renderTexture.volumeDepth, renderTexture.format, rth.m_Name, mips: renderTexture.useMipMap, enableMSAA: rth.m_EnableMSAA, msaaSamples: m_ScaledRTCurrentMSAASamples);
// Create the render texture
renderTexture.Create();
}
}
public static void Initialize(
int width,
int height,
bool scaledRTsupportsMSAA,
MSAASamples scaledRTMSAASamples
)
{
s_DefaultInstance.Initialize(
width,
height,
scaledRTsupportsMSAA,
scaledRTMSAASamples
);
}
//
// You can provide your own scaling function for advanced scaling schemes (e.g. scaling to
// the next POT). The function takes a Vec2 as parameter that holds max width & height
// values for the current manager context and returns a Vec2 of the final size in pixels.
//
// var rth = Alloc(
// size => new Vector2Int(size.x / 2, size.y),
// [...]
// );
//
public static RTHandle Alloc(
ScaleFunc scaleFunc,
DepthBits depthBufferBits = DepthBits.None,
RenderTextureFormat colorFormat = RenderTextureFormat.Default,
FilterMode filterMode = FilterMode.Point,
TextureWrapMode wrapMode = TextureWrapMode.Repeat,
TextureDimension dimension = TextureDimension.Tex2D,
bool sRGB = true,
bool enableRandomWrite = false,
bool useMipMap = false,
bool autoGenerateMips = true,
int anisoLevel = 1,
float mipMapBias = 0f,
MSAASamples msaaSamples = MSAASamples.None,
bool bindTextureMS = false,
bool useDynamicScale = false,
VRTextureUsage vrUsage = VRTextureUsage.None,
RenderTextureMemoryless memoryless = RenderTextureMemoryless.None
)
{
var scaleFactor = scaleFunc(new Vector2Int(s_MaxWidth, s_MaxHeight));
int width = Mathf.Max(scaleFactor.x, 1);
int height = Mathf.Max(scaleFactor.y, 1);
var rth = Alloc(width,
height,
1,
depthBufferBits,
colorFormat,
filterMode,
wrapMode,
dimension,
sRGB,
enableRandomWrite,
useMipMap,
autoGenerateMips,
anisoLevel,
mipMapBias,
msaaSamples,
bindTextureMS,
useDynamicScale,
vrUsage,
memoryless
);
rth.scaleFunc = scaleFunc;
s_AutoSizedRTs.Add(rth);
return(rth);
}
public static void ResetReferenceSize(int width, int height, bool msaa, MSAASamples msaaSamples)
{
// Technically, the enum could be passed as argument directly but let's not pollute public API with unnecessary complexity for now.
RTCategory category = msaa ? RTCategory.MSAA : RTCategory.Regular;
width = Mathf.Max(width, 1);
height = Mathf.Max(height, 1);
bool msaaSamplesChanged = msaa && (msaaSamples != s_ScaledRTCurrentMSAASamples);
if (width != GetMaxWidth(category) || height != GetMaxHeight(category) || msaaSamplesChanged)
{
Resize(width, height, category, msaaSamples);
}
}
public static RTHandleSystem.RTHandle Alloc(
int width,
int height,
int slices = 1,
DepthBits depthBufferBits = DepthBits.None,
GraphicsFormat colorFormat = GraphicsFormat.R8G8B8A8_SRGB,
FilterMode filterMode = FilterMode.Point,
TextureWrapMode wrapMode = TextureWrapMode.Repeat,
TextureDimension dimension = TextureDimension.Tex2D,
bool enableRandomWrite = false,
bool useMipMap = false,
bool autoGenerateMips = true,
bool isShadowMap = false,
int anisoLevel = 1,
float mipMapBias = 0,
MSAASamples msaaSamples = MSAASamples.None,
bool bindTextureMS = false,
bool useDynamicScale = false,
bool xrInstancing = false,
RenderTextureMemoryless memoryless = RenderTextureMemoryless.None,
string name = ""
)
{
return(s_DefaultInstance.Alloc(
width,
height,
slices,
depthBufferBits,
colorFormat,
filterMode,
wrapMode,
dimension,
enableRandomWrite,
useMipMap,
autoGenerateMips,
isShadowMap,
anisoLevel,
mipMapBias,
msaaSamples,
bindTextureMS,
useDynamicScale,
xrInstancing,
memoryless,
name
));
}
public static RTHandle Alloc(
int width,
int height,
int slices = 1,
DepthBits depthBufferBits = DepthBits.None,
RenderTextureFormat colorFormat = RenderTextureFormat.Default,
FilterMode filterMode = FilterMode.Point,
TextureWrapMode wrapMode = TextureWrapMode.Repeat,
TextureDimension dimension = TextureDimension.Tex2D,
bool sRGB = true,
bool enableRandomWrite = false,
bool useMipMap = false,
bool autoGenerateMips = true,
int anisoLevel = 1,
float mipMapBias = 0f,
MSAASamples msaaSamples = MSAASamples.None,
bool bindTextureMS = false,
bool useDynamicScale = false,
VRTextureUsage vrUsage = VRTextureUsage.None,
RenderTextureMemoryless memoryless = RenderTextureMemoryless.None
)
{
var rt = new RenderTexture(width, height, (int)depthBufferBits, colorFormat, sRGB ? RenderTextureReadWrite.sRGB : RenderTextureReadWrite.Linear)
{
hideFlags = HideFlags.HideAndDontSave,
volumeDepth = slices,
filterMode = filterMode,
wrapMode = wrapMode,
dimension = dimension,
enableRandomWrite = enableRandomWrite,
useMipMap = useMipMap,
autoGenerateMips = autoGenerateMips,
anisoLevel = anisoLevel,
mipMapBias = mipMapBias,
antiAliasing = (int)msaaSamples,
bindTextureMS = bindTextureMS,
useDynamicScale = useDynamicScale,
vrUsage = vrUsage,
memorylessMode = memoryless
};
rt.Create();
return(new RTHandle(rt));
}
/// <summary>
/// Sets the reference rendering size for subsequent rendering for the RTHandle System
/// </summary>
/// <param name="width">Reference rendering width for subsequent rendering.</param>
/// <param name="height">Reference rendering height for subsequent rendering.</param>
/// <param name="msaaSamples">Number of MSAA samples for multisampled textures for subsequent rendering.</param>
/// <param name="reset">If set to true, the new width and height will override the old values even if they are not bigger.</param>
public void SetReferenceSize(int width, int height, MSAASamples msaaSamples, bool reset)
{
m_RTHandleProperties.previousViewportSize = m_RTHandleProperties.currentViewportSize;
m_RTHandleProperties.previousRenderTargetSize = m_RTHandleProperties.currentRenderTargetSize;
Vector2 lastFrameMaxSize = new Vector2(GetMaxWidth(), GetMaxHeight());
width = Mathf.Max(width, 1);
height = Mathf.Max(height, 1);
bool sizeChanged = width > GetMaxWidth() || height > GetMaxHeight() || reset;
bool msaaSamplesChanged = (msaaSamples != m_ScaledRTCurrentMSAASamples);
if (sizeChanged || msaaSamplesChanged)
{
Resize(width, height, msaaSamples, sizeChanged, msaaSamplesChanged);
}
m_RTHandleProperties.currentViewportSize = new Vector2Int(width, height);
m_RTHandleProperties.currentRenderTargetSize = new Vector2Int(GetMaxWidth(), GetMaxHeight());
// If the currentViewportSize is 0, it mean we are the first frame of rendering (can happen when doing domain reload for example or for reflection probe)
// in this case the scalePrevious below could be invalided. But some effect rely on having a correct value like TAA with the history buffer for the first frame.
// to work around this, when we detect that size is 0, we setup previous size to current size.
if (m_RTHandleProperties.previousViewportSize.x == 0)
{
m_RTHandleProperties.previousViewportSize = m_RTHandleProperties.currentViewportSize;
m_RTHandleProperties.previousRenderTargetSize = m_RTHandleProperties.currentRenderTargetSize;
lastFrameMaxSize = new Vector2(GetMaxWidth(), GetMaxHeight());
}
if (DynamicResolutionHandler.instance.HardwareDynamicResIsEnabled() && m_HardwareDynamicResRequested)
{
float xScale = (float)DynamicResolutionHandler.instance.finalViewport.x / GetMaxWidth();
float yScale = (float)DynamicResolutionHandler.instance.finalViewport.y / GetMaxHeight();
m_RTHandleProperties.rtHandleScale = new Vector4(xScale, yScale, m_RTHandleProperties.rtHandleScale.x, m_RTHandleProperties.rtHandleScale.y);
}
else
{
Vector2 maxSize = new Vector2(GetMaxWidth(), GetMaxHeight());
Vector2 scaleCurrent = m_RTHandleProperties.currentViewportSize / maxSize;
Vector2 scalePrevious = m_RTHandleProperties.previousViewportSize / lastFrameMaxSize;
m_RTHandleProperties.rtHandleScale = new Vector4(scaleCurrent.x, scaleCurrent.y, scalePrevious.x, scalePrevious.y);
}
}
public static int SampleCountToPassIndex(MSAASamples samples)
{
switch (samples)
{
case MSAASamples.None:
return(0);
case MSAASamples.MSAA2x:
return(1);
case MSAASamples.MSAA4x:
return(2);
case MSAASamples.MSAA8x:
return(3);
}
;
return(0);
}
/// <summary>
/// Initialize the RTHandle system.
/// </summary>
/// <param name="width">Initial reference rendering width.</param>
/// <param name="height">Initial reference rendering height.</param>
/// <param name="scaledRTsupportsMSAA">Set to true if automatically scaled RTHandles should support MSAA</param>
/// <param name="scaledRTMSAASamples">Number of MSAA samples for automatically scaled RTHandles.</param>
public void Initialize(int width, int height, bool scaledRTsupportsMSAA, MSAASamples scaledRTMSAASamples)
{
if (m_AutoSizedRTs.Count != 0)
{
string leakingResources = "Unreleased RTHandles:";
foreach (var rt in m_AutoSizedRTs)
{
leakingResources = string.Format("{0}\n {1}", leakingResources, rt.name);
}
Debug.LogError(string.Format("RTHandle.Initialize should only be called once before allocating any Render Texture. This may be caused by an unreleased RTHandle resource.\n{0}\n", leakingResources));
}
m_MaxWidths = width;
m_MaxHeights = height;
m_ScaledRTSupportsMSAA = scaledRTsupportsMSAA;
m_ScaledRTCurrentMSAASamples = scaledRTMSAASamples;
m_HardwareDynamicResRequested = DynamicResolutionHandler.instance.RequestsHardwareDynamicResolution();
}
public static TextureHandle CreateVTFeedbackBuffer(RenderGraph renderGraph, MSAASamples msaaSamples)
{
bool msaa = msaaSamples != MSAASamples.None;
#if UNITY_2020_2_OR_NEWER
FastMemoryDesc colorFastMemDesc;
colorFastMemDesc.inFastMemory = true;
colorFastMemDesc.residencyFraction = 1.0f;
colorFastMemDesc.flags = FastMemoryFlags.SpillTop;
#endif
return(renderGraph.CreateTexture(
new TextureDesc(Vector2.one, true, true)
{
colorFormat = GetFeedbackBufferFormat(), enableRandomWrite = !msaa, bindTextureMS = msaa, msaaSamples = msaa ? msaaSamples : MSAASamples.None, clearBuffer = true, clearColor = Color.white, name = msaa ? "VTFeedbackMSAA" : "VTFeedback", fallBackToBlackTexture = true
#if UNITY_2020_2_OR_NEWER
,
fastMemoryDesc = colorFastMemDesc
#endif
}));
}
public void SetReferenceSize(int width, int height, bool msaa, MSAASamples msaaSamples)
{
// Technically, the enum could be passed as argument directly but let's not pollute public API with unnecessary complexity for now.
RTCategory category = msaa ? RTCategory.MSAA : RTCategory.Regular;
width = Mathf.Max(width, 1);
height = Mathf.Max(height, 1);
bool msaaSamplesChanged = msaa && (msaaSamples != m_ScaledRTCurrentMSAASamples);
if (width > GetMaxWidth(category) || height > GetMaxHeight(category) || msaaSamplesChanged)
{
// The regular rendertargets should always be resized
Resize(width, height, RTCategory.Regular, msaaSamples);
// The MSAA render targets should only be resized if msaa if required (in addition to the regular ones given that both are used)
if (msaa)
{
Resize(width, height, RTCategory.MSAA, msaaSamples);
}
}
}
void Resize(int width, int height, RTCategory category, MSAASamples msaaSamples)
{
m_MaxWidths[(int)category] = width;
m_MaxHeights[(int)category] = height;
m_ScaledRTCurrentMSAASamples = msaaSamples;
var maxSize = new Vector2Int(width, height);
m_ScaledRTCurrentCategory = category;
Array.Resize(ref m_AutoSizedRTsArray, m_AutoSizedRTs.Count);
m_AutoSizedRTs.CopyTo(m_AutoSizedRTsArray);
for (int i = 0, c = m_AutoSizedRTsArray.Length; i < c; ++i)
{
var rth = m_AutoSizedRTsArray[i];
rth.referenceSize = maxSize;
var rt = rth.m_RTs[(int)category];
// This can happen if you create a RTH for MSAA. By default we only create the MSAA version of the target.
// Missing version will be created when needed in the getter.
if (rt != null)
{
rt.Release();
var scaledSize = rth.GetScaledSize(maxSize);
rt.width = Mathf.Max(scaledSize.x, 1);
rt.height = Mathf.Max(scaledSize.y, 1);
if (category == RTCategory.MSAA)
{
rt.antiAliasing = (int)m_ScaledRTCurrentMSAASamples;
}
rt.name = CoreUtils.GetRenderTargetAutoName(rt.width, rt.height, rt.volumeDepth, rt.format, rth.m_Name, mips: rt.useMipMap, enableMSAA: category == RTCategory.MSAA, msaaSamples: m_ScaledRTCurrentMSAASamples);
rt.Create();
}
}
}
/// <summary>
/// Allocate a new fixed sized RTHandle.
/// </summary>
/// <param name="width">With of the RTHandle.</param>
/// <param name="height">Heigh of the RTHandle.</param>
/// <param name="slices">Number of slices of the RTHandle.</param>
/// <param name="depthBufferBits">Bit depths of a depth buffer.</param>
/// <param name="colorFormat">GraphicsFormat of a color buffer.</param>
/// <param name="filterMode">Filtering mode of the RTHandle.</param>
/// <param name="wrapMode">Addressing mode of the RTHandle.</param>
/// <param name="dimension">Texture dimension of the RTHandle.</param>
/// <param name="enableRandomWrite">Set to true to enable UAV random read writes on the texture.</param>
/// <param name="useMipMap">Set to true if the texture should have mipmaps.</param>
/// <param name="autoGenerateMips">Set to true to automatically generate mipmaps.</param>
/// <param name="isShadowMap">Set to true if the depth buffer should be used as a shadow map.</param>
/// <param name="anisoLevel">Anisotropic filtering level.</param>
/// <param name="mipMapBias">Bias applied to mipmaps during filtering.</param>
/// <param name="msaaSamples">Number of MSAA samples for the RTHandle.</param>
/// <param name="bindTextureMS">Set to true if the texture needs to be bound as a multisampled texture in the shader.</param>
/// <param name="useDynamicScale">Set to true to use hardware dynamic scaling.</param>
/// <param name="memoryless">Use this property to set the render texture memoryless modes.</param>
/// <param name="name">Name of the RTHandle.</param>
/// <returns></returns>
public RTHandle Alloc(
int width,
int height,
int slices = 1,
DepthBits depthBufferBits = DepthBits.None,
GraphicsFormat colorFormat = GraphicsFormat.R8G8B8A8_SRGB,
FilterMode filterMode = FilterMode.Point,
TextureWrapMode wrapMode = TextureWrapMode.Repeat,
TextureDimension dimension = TextureDimension.Tex2D,
bool enableRandomWrite = false,
bool useMipMap = false,
bool autoGenerateMips = true,
bool isShadowMap = false,
int anisoLevel = 1,
float mipMapBias = 0f,
MSAASamples msaaSamples = MSAASamples.None,
bool bindTextureMS = false,
bool useDynamicScale = false,
RenderTextureMemoryless memoryless = RenderTextureMemoryless.None,
string name = ""
)
{
bool enableMSAA = msaaSamples != MSAASamples.None;
if (!enableMSAA && bindTextureMS == true)
{
Debug.LogWarning("RTHandle allocated without MSAA but with bindMS set to true, forcing bindMS to false.");
bindTextureMS = false;
}
// We need to handle this in an explicit way since GraphicsFormat does not expose depth formats. TODO: Get rid of this branch once GraphicsFormat'll expose depth related formats
RenderTexture rt;
if (isShadowMap || depthBufferBits != DepthBits.None)
{
RenderTextureFormat format = isShadowMap ? RenderTextureFormat.Shadowmap : RenderTextureFormat.Depth;
rt = new RenderTexture(width, height, (int)depthBufferBits, format, RenderTextureReadWrite.Linear)
{
hideFlags = HideFlags.HideAndDontSave,
volumeDepth = slices,
filterMode = filterMode,
wrapMode = wrapMode,
dimension = dimension,
enableRandomWrite = enableRandomWrite,
useMipMap = useMipMap,
autoGenerateMips = autoGenerateMips,
anisoLevel = anisoLevel,
mipMapBias = mipMapBias,
antiAliasing = (int)msaaSamples,
bindTextureMS = bindTextureMS,
useDynamicScale = m_HardwareDynamicResRequested && useDynamicScale,
memorylessMode = memoryless,
name = CoreUtils.GetRenderTargetAutoName(width, height, slices, format, name, mips: useMipMap, enableMSAA: enableMSAA, msaaSamples: msaaSamples)
};
}
else
{
rt = new RenderTexture(width, height, (int)depthBufferBits, colorFormat)
{
hideFlags = HideFlags.HideAndDontSave,
volumeDepth = slices,
filterMode = filterMode,
wrapMode = wrapMode,
dimension = dimension,
enableRandomWrite = enableRandomWrite,
useMipMap = useMipMap,
autoGenerateMips = autoGenerateMips,
anisoLevel = anisoLevel,
mipMapBias = mipMapBias,
antiAliasing = (int)msaaSamples,
bindTextureMS = bindTextureMS,
useDynamicScale = m_HardwareDynamicResRequested && useDynamicScale,
memorylessMode = memoryless,
name = CoreUtils.GetRenderTargetAutoName(width, height, slices, GraphicsFormatUtility.GetRenderTextureFormat(colorFormat), name, mips: useMipMap, enableMSAA: enableMSAA, msaaSamples: msaaSamples)
};
}
rt.Create();
var newRT = new RTHandle(this);
newRT.SetRenderTexture(rt);
newRT.useScaling = false;
newRT.m_EnableRandomWrite = enableRandomWrite;
newRT.m_EnableMSAA = enableMSAA;
newRT.m_EnableHWDynamicScale = useDynamicScale;
newRT.m_Name = name;
newRT.referenceSize = new Vector2Int(width, height);
return(newRT);
}
// Pass all the systems that may want to update per-camera data here.
// That way you will never update an HDCamera and forget to update the dependent system.
public void Update(FrameSettings currentFrameSettings, PostProcessLayer postProcessLayer, VolumetricLightingSystem vlSys)
{
// store a shortcut on HDAdditionalCameraData (done here and not in the constructor as
// we do'nt create HDCamera at every frame and user can change the HDAdditionalData later (Like when they create a new scene).
m_AdditionalCameraData = camera.GetComponent <HDAdditionalCameraData>();
m_frameSettings = currentFrameSettings;
// If TAA is enabled projMatrix will hold a jittered projection matrix. The original,
// non-jittered projection matrix can be accessed via nonJitteredProjMatrix.
bool taaEnabled = camera.cameraType == CameraType.Game &&
HDUtils.IsTemporalAntialiasingActive(postProcessLayer) &&
m_frameSettings.enablePostprocess;
var nonJitteredCameraProj = camera.projectionMatrix;
var cameraProj = taaEnabled
? postProcessLayer.temporalAntialiasing.GetJitteredProjectionMatrix(camera)
: nonJitteredCameraProj;
// The actual projection matrix used in shaders is actually massaged a bit to work across all platforms
// (different Z value ranges etc.)
var gpuProj = GL.GetGPUProjectionMatrix(cameraProj, true); // Had to change this from 'false'
var gpuView = camera.worldToCameraMatrix;
var gpuNonJitteredProj = GL.GetGPUProjectionMatrix(nonJitteredCameraProj, true);
// In stereo, this corresponds to the center eye position
var pos = camera.transform.position;
worldSpaceCameraPos = pos;
if (ShaderConfig.s_CameraRelativeRendering != 0)
{
// Zero out the translation component.
gpuView.SetColumn(3, new Vector4(0, 0, 0, 1));
}
var gpuVP = gpuNonJitteredProj * gpuView;
// A camera could be rendered multiple times per frame, only updates the previous view proj & pos if needed
if (m_LastFrameActive != Time.frameCount)
{
if (isFirstFrame)
{
prevCameraPos = pos;
prevViewProjMatrix = gpuVP;
}
else
{
prevCameraPos = cameraPos;
prevViewProjMatrix = nonJitteredViewProjMatrix;
}
isFirstFrame = false;
}
taaFrameIndex = taaEnabled ? (uint)postProcessLayer.temporalAntialiasing.sampleIndex : 0;
taaFrameRotation = new Vector2(Mathf.Sin(taaFrameIndex * (0.5f * Mathf.PI)),
Mathf.Cos(taaFrameIndex * (0.5f * Mathf.PI)));
viewMatrix = gpuView;
projMatrix = gpuProj;
nonJitteredProjMatrix = gpuNonJitteredProj;
cameraPos = pos;
detViewMatrix = viewMatrix.determinant;
if (ShaderConfig.s_CameraRelativeRendering != 0)
{
Matrix4x4 cameraDisplacement = Matrix4x4.Translate(cameraPos - prevCameraPos); // Non-camera-relative positions
prevViewProjMatrix *= cameraDisplacement; // Now prevViewProjMatrix correctly transforms this frame's camera-relative positionWS
}
float n = camera.nearClipPlane;
float f = camera.farClipPlane;
// Analyze the projection matrix.
// p[2][3] = (reverseZ ? 1 : -1) * (depth_0_1 ? 1 : 2) * (f * n) / (f - n)
float scale = projMatrix[2, 3] / (f * n) * (f - n);
bool depth_0_1 = Mathf.Abs(scale) < 1.5f;
bool reverseZ = scale > 0;
bool flipProj = projMatrix.inverse.MultiplyPoint(new Vector3(0, 1, 0)).y < 0;
// http://www.humus.name/temp/Linearize%20depth.txt
if (reverseZ)
{
zBufferParams = new Vector4(-1 + f / n, 1, -1 / f + 1 / n, 1 / f);
}
else
{
zBufferParams = new Vector4(1 - f / n, f / n, 1 / f - 1 / n, 1 / n);
}
projectionParams = new Vector4(flipProj ? -1 : 1, n, f, 1.0f / f);
float orthoHeight = camera.orthographic ? 2 * camera.orthographicSize : 0;
float orthoWidth = orthoHeight * camera.aspect;
unity_OrthoParams = new Vector4(orthoWidth, orthoHeight, 0, camera.orthographic ? 1 : 0);
frustum = Frustum.Create(viewProjMatrix, depth_0_1, reverseZ);
// Left, right, top, bottom, near, far.
for (int i = 0; i < 6; i++)
{
frustumPlaneEquations[i] = new Vector4(frustum.planes[i].normal.x, frustum.planes[i].normal.y, frustum.planes[i].normal.z, frustum.planes[i].distance);
}
m_LastFrameActive = Time.frameCount;
m_ActualWidth = camera.pixelWidth;
m_ActualHeight = camera.pixelHeight;
var screenWidth = m_ActualWidth;
var screenHeight = m_ActualHeight;
//forest-begin: Added XboxOne to define around XR code
#if !UNITY_SWITCH && !UNITY_XBOXONE
//forest-end:
if (m_frameSettings.enableStereo)
{
screenWidth = XRSettings.eyeTextureWidth;
screenHeight = XRSettings.eyeTextureHeight;
var xrDesc = XRSettings.eyeTextureDesc;
m_ActualWidth = xrDesc.width;
m_ActualHeight = xrDesc.height;
ConfigureStereoMatrices();
}
#endif
// Unfortunately sometime (like in the HDCameraEditor) HDUtils.hdrpSettings can be null because of scripts that change the current pipeline...
m_msaaSamples = HDUtils.hdrpSettings != null ? HDUtils.hdrpSettings.msaaSampleCount : MSAASamples.None;
RTHandles.SetReferenceSize(m_ActualWidth, m_ActualHeight, m_frameSettings.enableMSAA, m_msaaSamples);
m_HistoryRTSystem.SetReferenceSize(m_ActualWidth, m_ActualHeight, m_frameSettings.enableMSAA, m_msaaSamples);
m_HistoryRTSystem.Swap();
int maxWidth = RTHandles.maxWidth;
int maxHeight = RTHandles.maxHeight;
m_ViewportScalePreviousFrame = m_ViewportScaleCurrentFrame; // Double-buffer
m_ViewportScaleCurrentFrame.x = (float)m_ActualWidth / maxWidth;
m_ViewportScaleCurrentFrame.y = (float)m_ActualHeight / maxHeight;
screenSize = new Vector4(screenWidth, screenHeight, 1.0f / screenWidth, 1.0f / screenHeight);
screenParams = new Vector4(screenSize.x, screenSize.y, 1 + screenSize.z, 1 + screenSize.w);
if (vlSys != null)
{
vlSys.UpdatePerCameraData(this);
}
}
public void InitSharedBuffers(GBufferManager gbufferManager, RenderPipelineSettings settings, RenderPipelineResources resources)
{
// Set the flags
m_MSAASupported = settings.supportMSAA;
m_MSAASamples = m_MSAASupported ? settings.msaaSampleCount : MSAASamples.None;
m_MotionVectorsSupport = settings.supportMotionVectors;
m_ReuseGBufferMemory = settings.supportedLitShaderMode != RenderPipelineSettings.SupportedLitShaderMode.ForwardOnly;
// Create the depth/stencil buffer
m_CameraDepthStencilBuffer = RTHandles.Alloc(Vector2.one, depthBufferBits: DepthBits.Depth32, filterMode: FilterMode.Point, xrInstancing: true, useDynamicScale: true, name: "CameraDepthStencil");
// Create the mip chain buffer
m_CameraDepthBufferMipChainInfo = new HDUtils.PackedMipChainInfo();
m_CameraDepthBufferMipChainInfo.Allocate();
m_CameraDepthBufferMipChain = RTHandles.Alloc(ComputeDepthBufferMipChainSize, colorFormat: UnityEngine.Experimental.Rendering.HDPipeline.HDRenderPipeline.OverrideRTGraphicsFormat(GraphicsFormat.R32_SFloat), filterMode: FilterMode.Point, enableRandomWrite: true, xrInstancing: true, useDynamicScale: true, name: "CameraDepthBufferMipChain");
if (settings.lowresTransparentSettings.enabled)
{
// Create the half res depth buffer used for low resolution transparency
m_CameraHalfResDepthBuffer = RTHandles.Alloc(Vector2.one * 0.5f, depthBufferBits: DepthBits.Depth32, filterMode: FilterMode.Point, xrInstancing: true, useDynamicScale: true, name: "LowResDepthBuffer");
}
// Technically we won't need this buffer in some cases, but nothing that we can determine at init time.
m_CameraStencilBufferCopy = RTHandles.Alloc(Vector2.one, depthBufferBits: DepthBits.None, colorFormat: UnityEngine.Experimental.Rendering.HDPipeline.HDRenderPipeline.OverrideRTGraphicsFormat(GraphicsFormat.R8_UNorm), filterMode: FilterMode.Point, enableRandomWrite: true, xrInstancing: true, useDynamicScale: true, name: "CameraStencilCopy"); // DXGI_FORMAT_R8_UINT is not supported by Unity
if (m_MotionVectorsSupport)
{
m_MotionVectorsRT = RTHandles.Alloc(Vector2.one, filterMode: FilterMode.Point, colorFormat: Builtin.GetMotionVectorFormat(), xrInstancing: true, useDynamicScale: true, name: "MotionVectors");
if (m_MSAASupported)
{
m_MotionVectorsMSAART = RTHandles.Alloc(Vector2.one, filterMode: FilterMode.Point, colorFormat: Builtin.GetMotionVectorFormat(), enableMSAA: true, bindTextureMS: true, xrInstancing: true, useDynamicScale: true, name: "MotionVectorsMSAA");
}
}
// Allocate the additional textures only if MSAA is supported
if (m_MSAASupported)
{
// Let's create the MSAA textures
m_CameraDepthStencilMSAABuffer = RTHandles.Alloc(Vector2.one, depthBufferBits: DepthBits.Depth24, filterMode: FilterMode.Point, bindTextureMS: true, enableMSAA: true, xrInstancing: true, useDynamicScale: true, name: "CameraDepthStencilMSAA");
m_CameraDepthValuesBuffer = RTHandles.Alloc(Vector2.one, filterMode: FilterMode.Point, colorFormat: UnityEngine.Experimental.Rendering.HDPipeline.HDRenderPipeline.OverrideRTGraphicsFormat(GraphicsFormat.R32G32B32A32_SFloat), xrInstancing: true, useDynamicScale: true, name: "DepthValuesBuffer");
m_DepthAsColorMSAART = RTHandles.Alloc(Vector2.one, filterMode: FilterMode.Point, colorFormat: UnityEngine.Experimental.Rendering.HDPipeline.HDRenderPipeline.OverrideRTGraphicsFormat(GraphicsFormat.R32_SFloat), bindTextureMS: true, enableMSAA: true, xrInstancing: true, useDynamicScale: true, name: "DepthAsColorMSAA");
// We need to allocate this texture as long as msaa is supported because on both mode, one of the cameras can be forward only using the framesettings
m_NormalMSAART = RTHandles.Alloc(Vector2.one, filterMode: FilterMode.Point, colorFormat: UnityEngine.Experimental.Rendering.HDPipeline.HDRenderPipeline.OverrideRTGraphicsFormat(GraphicsFormat.R8G8B8A8_UNorm), enableMSAA: true, bindTextureMS: true, xrInstancing: true, useDynamicScale: true, name: "NormalBufferMSAA");
// Create the required resolve materials
m_DepthResolveMaterial = CoreUtils.CreateEngineMaterial(resources.shaders.depthValuesPS);
m_ColorResolveMaterial = CoreUtils.CreateEngineMaterial(resources.shaders.colorResolvePS);
}
// If we are in the forward only mode
if (!m_ReuseGBufferMemory)
{
// In case of full forward we must allocate the render target for normal buffer (or reuse one already existing)
// TODO: Provide a way to reuse a render target
m_NormalRT = RTHandles.Alloc(Vector2.one, filterMode: FilterMode.Point, colorFormat: UnityEngine.Experimental.Rendering.HDPipeline.HDRenderPipeline.OverrideRTGraphicsFormat(GraphicsFormat.R8G8B8A8_UNorm), enableRandomWrite: true, xrInstancing: true, useDynamicScale: true, name: "NormalBuffer");
}
else
{
// When not forward only we should are using the normal buffer of the gbuffer
// In case of deferred, we must be in sync with NormalBuffer.hlsl and lit.hlsl files and setup the correct buffers
m_NormalRT = gbufferManager.GetNormalBuffer(0); // Normal + Roughness
}
}
public void SetNumMSAASamples(MSAASamples msaaSamples)
{
m_MSAASamples = msaaSamples;
}
public static string GetRenderTargetAutoName(int width, int height, RenderTextureFormat format, string name = "", bool mips = false, bool enableMSAA = false, MSAASamples msaaSamples = MSAASamples.None, int CameraGroup = 0, bool bindMSTexture = false)
{
string str;
if (enableMSAA)
{
str = string.Format("{0}x{1}_{2}{3}_{4}", width, height, format, mips ? "_Mips" : "", msaaSamples.ToString());
}
else
{
str = string.Format("{0}x{1}_{2}{3}", width, height, format, mips ? "_Mips" : "");
}
if (bindMSTexture)
{
str += "_bindMsTexture";
}
str += "_CameraGroup" + CameraGroup.ToString();
str = string.Format("{0}_{1}", name == "" ? "Texture" : name, str);
return(str);
}
/// <summary>
/// Set the reference size for this RT Handle System (<see cref="RTHandleSystem.SetReferenceSize(int, int, bool, MSAASamples)"/>)
/// </summary>
/// <param name="width">The width of the RTs of this buffer.</param>
/// <param name="height">The height of the RTs of this buffer.</param>
/// <param name="msaaSamples">Number of MSAA samples for this buffer.</param>
public void SetReferenceSize(int width, int height, MSAASamples msaaSamples)
{
m_RTHandleSystem.SetReferenceSize(width, height, msaaSamples);
}
// Pass all the systems that may want to update per-camera data here.
// That way you will never update an HDCamera and forget to update the dependent system.
public void Update(FrameSettings currentFrameSettings, VolumetricLightingSystem vlSys, MSAASamples msaaSamples)
{
// store a shortcut on HDAdditionalCameraData (done here and not in the constructor as
// we don't create HDCamera at every frame and user can change the HDAdditionalData later (Like when they create a new scene).
m_AdditionalCameraData = camera.GetComponent <HDAdditionalCameraData>();
m_frameSettings = currentFrameSettings;
UpdateAntialiasing();
// Handle memory allocation.
{
bool isColorPyramidHistoryRequired = m_frameSettings.IsEnabled(FrameSettingsField.SSR); // TODO: TAA as well
bool isVolumetricHistoryRequired = m_frameSettings.IsEnabled(FrameSettingsField.Volumetrics) && m_frameSettings.IsEnabled(FrameSettingsField.ReprojectionForVolumetrics);
int numColorPyramidBuffersRequired = isColorPyramidHistoryRequired ? 2 : 1; // TODO: 1 -> 0
int numVolumetricBuffersRequired = isVolumetricHistoryRequired ? 2 : 0; // History + feedback
if ((numColorPyramidBuffersAllocated != numColorPyramidBuffersRequired) ||
(numVolumetricBuffersAllocated != numVolumetricBuffersRequired))
{
// Reinit the system.
colorPyramidHistoryIsValid = false;
vlSys.DeinitializePerCameraData(this);
// The history system only supports the "nuke all" option.
m_HistoryRTSystem.Dispose();
m_HistoryRTSystem = new BufferedRTHandleSystem();
if (numColorPyramidBuffersRequired != 0)
{
AllocHistoryFrameRT((int)HDCameraFrameHistoryType.ColorBufferMipChain, HistoryBufferAllocatorFunction, numColorPyramidBuffersRequired);
colorPyramidHistoryIsValid = false;
}
vlSys.InitializePerCameraData(this, numVolumetricBuffersRequired);
// Mark as init.
numColorPyramidBuffersAllocated = numColorPyramidBuffersRequired;
numVolumetricBuffersAllocated = numVolumetricBuffersRequired;
}
}
UpdateViewConstants();
// Update viewport sizes.
m_ViewportSizePrevFrame = new Vector2Int(m_ActualWidth, m_ActualHeight);
m_ActualWidth = Math.Max(camera.pixelWidth, 1);
m_ActualHeight = Math.Max(camera.pixelHeight, 1);
Vector2Int nonScaledSize = new Vector2Int(m_ActualWidth, m_ActualHeight);
if (isMainGameView)
{
Vector2Int scaledSize = HDDynamicResolutionHandler.instance.GetRTHandleScale(new Vector2Int(camera.pixelWidth, camera.pixelHeight));
nonScaledSize = HDDynamicResolutionHandler.instance.cachedOriginalSize;
m_ActualWidth = scaledSize.x;
m_ActualHeight = scaledSize.y;
}
var screenWidth = m_ActualWidth;
var screenHeight = m_ActualHeight;
// XRTODO: double-wide cleanup
textureWidthScaling = new Vector4(1.0f, 1.0f, 0.0f, 0.0f);
if (camera.stereoEnabled && XRGraphics.stereoRenderingMode == XRGraphics.StereoRenderingMode.SinglePass)
{
Debug.Assert(HDDynamicResolutionHandler.instance.SoftwareDynamicResIsEnabled() == false);
var xrDesc = XRGraphics.eyeTextureDesc;
nonScaledSize.x = screenWidth = m_ActualWidth = xrDesc.width;
nonScaledSize.y = screenHeight = m_ActualHeight = xrDesc.height;
textureWidthScaling = new Vector4(2.0f, 0.5f, 0.0f, 0.0f);
}
m_LastFrameActive = Time.frameCount;
// TODO: cache this, or make the history system spill the beans...
Vector2Int prevColorPyramidBufferSize = Vector2Int.zero;
if (numColorPyramidBuffersAllocated > 0)
{
var rt = GetCurrentFrameRT((int)HDCameraFrameHistoryType.ColorBufferMipChain).rt;
prevColorPyramidBufferSize.x = rt.width;
prevColorPyramidBufferSize.y = rt.height;
}
// TODO: cache this, or make the history system spill the beans...
Vector3Int prevVolumetricBufferSize = Vector3Int.zero;
if (numVolumetricBuffersAllocated != 0)
{
var rt = GetCurrentFrameRT((int)HDCameraFrameHistoryType.VolumetricLighting).rt;
prevVolumetricBufferSize.x = rt.width;
prevVolumetricBufferSize.y = rt.height;
prevVolumetricBufferSize.z = rt.volumeDepth;
}
m_msaaSamples = msaaSamples;
// Here we use the non scaled resolution for the RTHandleSystem ref size because we assume that at some point we will need full resolution anyway.
// This is also useful because we have some RT after final up-rez that will need the full size.
RTHandles.SetReferenceSize(nonScaledSize.x, nonScaledSize.y, m_msaaSamples);
m_HistoryRTSystem.SetReferenceSize(nonScaledSize.x, nonScaledSize.y, m_msaaSamples);
m_HistoryRTSystem.Swap();
Vector3Int currColorPyramidBufferSize = Vector3Int.zero;
if (numColorPyramidBuffersAllocated != 0)
{
var rt = GetCurrentFrameRT((int)HDCameraFrameHistoryType.ColorBufferMipChain).rt;
currColorPyramidBufferSize.x = rt.width;
currColorPyramidBufferSize.y = rt.height;
if ((currColorPyramidBufferSize.x != prevColorPyramidBufferSize.x) ||
(currColorPyramidBufferSize.y != prevColorPyramidBufferSize.y))
{
// A reallocation has happened, so the new texture likely contains garbage.
colorPyramidHistoryIsValid = false;
}
}
Vector3Int currVolumetricBufferSize = Vector3Int.zero;
if (numVolumetricBuffersAllocated != 0)
{
var rt = GetCurrentFrameRT((int)HDCameraFrameHistoryType.VolumetricLighting).rt;
currVolumetricBufferSize.x = rt.width;
currVolumetricBufferSize.y = rt.height;
currVolumetricBufferSize.z = rt.volumeDepth;
if ((currVolumetricBufferSize.x != prevVolumetricBufferSize.x) ||
(currVolumetricBufferSize.y != prevVolumetricBufferSize.y) ||
(currVolumetricBufferSize.z != prevVolumetricBufferSize.z))
{
// A reallocation has happened, so the new texture likely contains garbage.
volumetricHistoryIsValid = false;
}
}
int maxWidth = RTHandles.maxWidth;
int maxHeight = RTHandles.maxHeight;
Vector2 rcpTextureSize = Vector2.one / new Vector2(maxWidth, maxHeight);
m_ViewportScalePreviousFrame = m_ViewportSizePrevFrame * rcpTextureSize;
m_ViewportScaleCurrentFrame = new Vector2Int(m_ActualWidth, m_ActualHeight) * rcpTextureSize;
screenSize = new Vector4(screenWidth, screenHeight, 1.0f / screenWidth, 1.0f / screenHeight);
screenParams = new Vector4(screenSize.x, screenSize.y, 1 + screenSize.z, 1 + screenSize.w);
finalViewport = new Rect(camera.pixelRect.x, camera.pixelRect.y, nonScaledSize.x, nonScaledSize.y);
if (vlSys != null)
{
vlSys.UpdatePerCameraData(this);
}
UpdateVolumeParameters();
m_RecorderCaptureActions = CameraCaptureBridge.GetCaptureActions(camera);
}
/// <summary>
/// Sets the reference rendering size for subsequent rendering for the RTHandle System
/// </summary>
/// <param name="width">Reference rendering width for subsequent rendering.</param>
/// <param name="height">Reference rendering height for subsequent rendering.</param>
/// <param name="msaaSamples">Number of MSAA samples for multisampled textures for subsequent rendering.</param>
public void SetReferenceSize(int width, int height, MSAASamples msaaSamples)
{
SetReferenceSize(width, height, msaaSamples, false);
}
public static string GetRenderTargetAutoName(int width, int height, int depth, RenderTextureFormat format, string name, bool mips = false, bool enableMSAA = false, MSAASamples msaaSamples = MSAASamples.None)
{
string result = string.Format("{0}_{1}x{2}", name, width, height);
if (depth > 1)
{
result = string.Format("{0}x{1}", result, depth);
}
if (mips)
{
result = string.Format("{0}_{1}", result, "Mips");
}
result = string.Format("{0}_{1}", result, format);
if (enableMSAA)
{
result = string.Format("{0}_{1}", result, msaaSamples.ToString());
}
return(result);
}
/// <summary>
/// Render Graph constructor.
/// </summary>
/// <param name="supportMSAA">Specify if this Render Graph should support MSAA.</param>
/// <param name="initialSampleCount">Specify the initial sample count of MSAA render textures.</param>
public RenderGraph(bool supportMSAA, MSAASamples initialSampleCount)
{
m_Resources = new RenderGraphResourceRegistry(supportMSAA, initialSampleCount, m_DebugParameters, m_Logger);
}
