public CustomRenderTexture(int width, int height, GraphicsFormat format)
{
Internal_CreateCustomRenderTexture(this, GraphicsFormatUtility.IsSRGBFormat(format) ? RenderTextureReadWrite.sRGB : RenderTextureReadWrite.Linear);
this.width = width;
this.height = height;
this.format = GraphicsFormatUtility.GetRenderTextureFormat(format);
}
public static bool CompareFormat(this RenderTexture rt, GraphicsFormat format)
{
#if UNITY_2019_3_OR_NEWER
return(rt.graphicsFormat == format);
#else
return(rt.format == GraphicsFormatUtility.GetRenderTextureFormat(format));
#endif
}
// Internal function
RTHandle AllocAutoSizedRenderTexture(
int width,
int height,
int slices,
DepthBits depthBufferBits,
GraphicsFormat colorFormat,
FilterMode filterMode,
TextureWrapMode wrapMode,
TextureDimension dimension,
bool enableRandomWrite,
bool useMipMap,
bool autoGenerateMips,
bool isShadowMap,
int anisoLevel,
float mipMapBias,
bool enableMSAA,
bool bindTextureMS,
bool useDynamicScale,
RenderTextureMemoryless memoryless,
string name
)
{
// Here user made a mistake in setting up msaa/bindMS, hence the warning
if (!enableMSAA && bindTextureMS == true)
{
Debug.LogWarning("RTHandle allocated without MSAA but with bindMS set to true, forcing bindMS to false.");
bindTextureMS = false;
}
bool allocForMSAA = m_ScaledRTSupportsMSAA ? enableMSAA : false;
// Here we purposefully disable MSAA so we just force the bindMS param to false.
if (!allocForMSAA)
{
bindTextureMS = false;
}
// MSAA Does not support random read/write.
bool UAV = enableRandomWrite;
if (allocForMSAA && (UAV == true))
{
Debug.LogWarning("RTHandle that is MSAA-enabled cannot allocate MSAA RT with 'enableRandomWrite = true'.");
UAV = false;
}
int msaaSamples = allocForMSAA ? (int)m_ScaledRTCurrentMSAASamples : 1;
// 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;
GraphicsFormat stencilFormat = isShadowMap ? GraphicsFormat.None : GraphicsFormat.R8_UInt;
rt = new RenderTexture(width, height, (int)depthBufferBits, format, RenderTextureReadWrite.Linear)
{
hideFlags = HideFlags.HideAndDontSave,
volumeDepth = slices,
filterMode = filterMode,
wrapMode = wrapMode,
dimension = dimension,
enableRandomWrite = UAV,
useMipMap = useMipMap,
autoGenerateMips = autoGenerateMips,
anisoLevel = anisoLevel,
mipMapBias = mipMapBias,
antiAliasing = msaaSamples,
bindTextureMS = bindTextureMS,
useDynamicScale = m_HardwareDynamicResRequested && useDynamicScale,
memorylessMode = memoryless,
stencilFormat = stencilFormat,
name = CoreUtils.GetRenderTargetAutoName(width, height, slices, GraphicsFormatUtility.GetRenderTextureFormat(colorFormat), name, mips: useMipMap, enableMSAA: allocForMSAA, msaaSamples: m_ScaledRTCurrentMSAASamples)
};
}
else
{
rt = new RenderTexture(width, height, (int)depthBufferBits, colorFormat)
{
hideFlags = HideFlags.HideAndDontSave,
volumeDepth = slices,
filterMode = filterMode,
wrapMode = wrapMode,
dimension = dimension,
enableRandomWrite = UAV,
useMipMap = useMipMap,
autoGenerateMips = autoGenerateMips,
anisoLevel = anisoLevel,
mipMapBias = mipMapBias,
antiAliasing = msaaSamples,
bindTextureMS = bindTextureMS,
useDynamicScale = m_HardwareDynamicResRequested && useDynamicScale,
memorylessMode = memoryless,
name = CoreUtils.GetRenderTargetAutoName(width, height, slices, GraphicsFormatUtility.GetRenderTextureFormat(colorFormat), name, mips: useMipMap, enableMSAA: allocForMSAA, msaaSamples: m_ScaledRTCurrentMSAASamples)
};
}
rt.Create();
var rth = new RTHandle(this);
rth.SetRenderTexture(rt);
rth.m_EnableMSAA = enableMSAA;
rth.m_EnableRandomWrite = enableRandomWrite;
rth.useScaling = true;
rth.m_EnableHWDynamicScale = useDynamicScale;
rth.m_Name = name;
m_AutoSizedRTs.Add(rth);
return(rth);
}
/// <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);
}
public RenderTexture(int width, int height, int depth, GraphicsFormat format)
{
if (!ValidateFormat(format, FormatUsage.Render))
{
return;
}
Internal_Create(this);
this.width = width; this.height = height; this.depth = depth; this.format = GraphicsFormatUtility.GetRenderTextureFormat(format);
SetSRGBReadWrite(GraphicsFormatUtility.IsSRGBFormat(format));
}
public static RenderTextureFormat GetSupportedRenderTextureFormat(GraphicsDeviceType type)
{
var graphicsFormat = GetSupportedGraphicsFormat(type);
return(GraphicsFormatUtility.GetRenderTextureFormat(graphicsFormat));
}
/// <summary>
/// Check if the given GraphicsFormat is supported by the current platform.
/// </summary>
/// <param name="format">Input Graphics format.</param>
/// <returns>Boolean indicating if the graphics format is supported.</returns>
public static bool SupportsRenderTextureFormat(GraphicsFormat format)
{
return(SystemInfo.SupportsRenderTextureFormat(GraphicsFormatUtility.GetRenderTextureFormat(format)));
}
static RenderTexture SetupRenderTargets
(
ref RenderTexture target1,
ref RenderTexture target2,
Camera camera,
CommandBuffer commandBuffer,
GraphicsFormat format,
RenderTexture cameraTargetTexture,
Material depthMaterial,
bool flipY
)
{
if (cameraTargetTexture == null || depthMaterial != null)
{
target1 = RenderTexture.GetTemporary(camera.pixelWidth, camera.pixelHeight, 0);
Blit(commandBuffer, cameraTargetTexture, target1, depthMaterial);
}
else
{
target1 = cameraTargetTexture;
}
if (flipY)
{
target2 = RenderTexture.GetTemporary(camera.pixelWidth, camera.pixelHeight, 0, GraphicsFormatUtility.GetRenderTextureFormat(format));
Blit(commandBuffer, target1, target2, new Vector2(1, -1), Vector2.up);
}
// order is target2 > target1 > targetTexture
return(target2 == null ? (target1 == null ? cameraTargetTexture : target1) : target2);
}
