resinfo (sm4 - asm)
Query the dimensions of a given input resource.
|resinfo[_uint|_rcpFloat] dest[.mask], srcMipLevel.select_component, srcResource[.swizzle]|
||[in] The address of the result of the operation.
||[in] The mip level.
||[in] A t# or u# input texture for which the dimensions are being queried.
srcMipLevel is read as an unsigned integer scalar so a single component selector is required for the source register, if it is not a scalar immediate value.
dest receives [width, height, depth or array size, total-mip-count], selected by the write mask.
The returned width, height and depth values are for the mip-level selected by the srcMipLevel parameter, and are in number of texels, independent of texel data size. For multisample resources (texture2D[Array]MS#), width and height are also returned in texels, not samples.
The total mip count returned in dest.w is unaffected by the srcMipLevel parameter.
For UAVs (u#), the number of mip levels is always 1.
All aspects of this instruction are based on the characteristics of the resource view bound at the t#/u#, not the underlying base resource.
Returned values are all floating point, unless the _uint modifier is used, in which case the returned values are all integers. If the _rcpFloat modifier is used, all returned values are floating point, and the width, height and depth are returned as reciprocals (1.0f/width, 1.0f/height, 1.0f/depth), including INF if width/height/depth are 0 from out-of-range srcMipLevel behavior. The _rcpFloat modifier only applies to width, height, and depth returned values and does not apply to values that are set to 0 and thus not returned, and also does not apply to array size returns.
The swizzle on srcResource allows the returned values to be swizzled arbitrarily before they are written to the destination.
If srcResource is a Texture1D, then width is returned in dest.x, and dest.yz are set to 0.
If srcResource is a Texture1DArray, then width is returned in dest.x, the array size is returned in dest.y, and dest.z is set to 0.
If srcResource is a Texture2D, then width and height are returned in dest.xy, and dest.z is set to 0.
If srcResource is a Texture2DArray, then width and height are returned in dest.xy, and the array size is returned in dest.z.
If srcResource is a Texture3D, then width, height and depth are returned in dest.xyz.
If srcResource is a TextureCube, then the width and height of the individual cube face dimensions are returned in dest.xy, and dest.z is set to 0.
If srcResource is a TextureCubeArray, then the width and height the individual cube face dimensions are returned in dest.xy. dest.z is set to an undefined value.
If the a per-resource mip clamp has been specified on srcResource, resinfo always returns the total number of mipmaps in the view for the mip count, regardless of the clamp. However, if the dimensions of a given miplevel are requested by resinfo and the miplevel has been clamped off (e.g. a clamp of 2.2 means that mips 0 and 1 have been clamped off), the dimensions returned are undefined. Some implementations will return the out of bounds behavior specified for resinfo when the miplevel is out of range. Other implementations will return the dimensions of the mip as if it had not been clamped.
- srcResource must be a t# or u# register that is not a Buffer, but is a Texture*.
- Relative addressing of srcResource is not permitted.
- srcMipLevel must use a single component selector if it is not a scalar immediate.
- Fetching from t# or u# that has nothing bound to it returns 0 for width, height, depth or arraysize, and total-mip-count. The _rcpFloat modifier is still honored in this case, thus returning INF for the applicable returned values.
- If srcMipLevel is out of the range of the available number of miplevels in the resource, the behavior for the size return (dest.xyz) is identical to that of an unbound t# or u# resource. The total mip count is still returned in dest.w for this case.
This instruction applies to the following shader stages:
|Vertex Shader||Geometry Shader||Pixel Shader|
Minimum Shader Model
This function is supported in the following shader models.
|Shader Model 5||yes|
|Shader Model 4.1||yes|
|Shader Model 4||yes|
|Shader Model 3 (DirectX HLSL)||no|
|Shader Model 2 (DirectX HLSL)||no|
|Shader Model 1 (DirectX HLSL)||no|