|Z composite with IFF in Shake
Utilizing the Z channel (depth information) of Maya's IFF files in Shake is a bit tricky because of the way Maya stores depth information... here's a quick tutorial to get you started.
Note that this tutorial is applicable on not only Maya's IFF files but also on other image format files rendered out of other 3D applications.
zCompExample.iff.zip - Maya IIF image
zCompositeIFF.shk.zip - Shake script
out your own IFF image using Maya's batch renderer or use my example
(download above) to experiment with. The file above was rendered with
mental ray version 3.3.1 for Maya 6.
Load the IFF image or IFF sequence (containing an alpha channel and a Z channel) into Shake using the FileIn node. The channels of your image are listed in the top of the viewer (in this case RGBAZ).
Maya always renders the Z channel of IIF files in 32-bit floating point. Other 3D applications can output the Z channel in 8-bit which means that the Z channel is built up of a maximum of 256 shades of gray (28 = 256). In high end production this might not be enough to visualize the depth and in that case you can render in 16-bit (21632 = 65 536 shades of gray) or 32-bit (2 = 4 294 967 296 shades of gray) to increase the resolution of the depth.
|Our Z channel is already 32-bit, but the RGB and the alpha channels are
just 8-bit. Create a Bytes node and put it to float space. This will
change the bit-depth of your image to 32-bit floating point. Please
note that this won't affect the actual image, just the way it is
described. Before, RGB and alpha information was described between
0-256 and we have now converted it into 0-1 where we can drive values
above 1 and below 0.
|Now we will bring the Z channel into RGB so that we easily can perform RGB operations on it. Create a Reorder node and set its channels to "zzzz".|
|The grayscale depth image should be visible in RGB now, but since Maya
stores depth information like this: -1/Z ...it will not show up. To
correct this we will need to multiply the Z channel with -1 (or in this
case the RGB channel since we brought the Z channel into the RGB
channels in the previous step). This is something we can do because we
are currently in float space!
Create a Mult node, and inside of it, create a local variable by right-clicking in the Mult's parameters tab. Let us name the local variable "brightness" and make it a float.
|Next, expand the Mult's color attributes twice until you see the red,
green, blue attributes. Into the red attribute textfield type
"-1*brightness". This will change the depth value data from -1/Z to Z.
But only for the red channel. Type "red" into the green and the blue
channel to make them inherit the value from the red channel. Now drag
the brightness slider around to offset the depth information to a
viewable range. Please note that you might have to exceed the slider's
max value quite a lot (depending on the size of your scene). For the
IFF file provided at the top of this page, 4 seems to be a good value
for the brightness.
If you are using your own rendered file and keep getting an entirely black image, you need to increase the value of brightness. If your image is all white, you need to lower the value of brightness.
On a sidenote it is worth mentioning that there is a reason for why we have named the local variable "brightness". Brightness is nothing more than a multiplier on the RGB channels ...and that's exactly what we have done here.
|If you like, you can perform aditional RGB operations since all depth
information is now in RGB space. Perhaps you want to use an Expand node
and/or an Invert node here (to match other render passes). Try to not
make the edges of objects in the Z channel anti-aliased as this would
move the edges away from its object, depth wise.
If you used the IFF file in this tutorial, your RGB channel would now look like the image to the left
|To transfer the new grayscale depth image to the original image's Z
channel, create a Reorder node (let's call this Reorder2) and type
"rrrrr" into its channels textfield. Then create a Copy node on its own
branch directly under the FileIn node. Put "z" into the channel
textfield of the Copy node. Connect the output from the Reorder2 node
to the Copy node. This takes your original image and copies the Z
channel from the Reorder2 node. You finally have a Z channel that Shake
can do something useful with!
|If you would like to make a "view Maya Z" macro, you can select the
Bytes1, Reorder1 and Mult1 nodes and hit shift-m. This will bring up
the create macro dialogue. Scroll down to the Mult1 and expand it. Here
you can make the brightness slider visible in the macro by clicking the
status icon next to it. Also, you can define a maximum value for the
slider instead of 1. Change the macro name and you are ready to start
Z-comping that little sucker!
|I should mention that when doing your Z composite, you can also use a
depth shader to generate your Z image rather than rendering out the
true Z image from within Maya. A depth shader is simply a shader that
you assign onto all objects in your scene and with some scripting the
output color of the shader will range from black to white (or vice
versa). When using a depth shader you won't always get the true Z depth
because the renderer will generate an anti-aliased image (unless you
specify otherwise ***).
Having an anti-aliased Z depth could be both good and bad. It could be
bad because wherever there is anti-aliasing in the image, effectively
there is also a change in Z information. However this might not always
be such a bad thing after all since the anti-aliasing itself works as a
kind of alpha or Z coverage if you will. A shader that works exactly
like this is available for download at highend3d.com in the Maya/shaders section
||Depending on what you need to do you might also want to check out the new zDepthDOF shader for mental ray.
It will practically give you a matte for blur/defocus rather than a Z
image (see the screenshot to the left). Since it is a matte, it works a
bit different than a Z image. You can read a good tutorial on how to
use this shader here.
The picture to the left is courtesy of Andreas Bauer.
***If you set Mental Ray's anti-alias settings to "0 0", i.e. "Min Sample Level 0" and "Max Sample Level 0" then Mental Ray will cast exactly 1 ray per pixel. This will result in an image which is completely without any anti-aliasing and the depth information is totally exact on a per pixel level. Thanks to Andreas Bauer for pointing this out to me!
||Also, check out Depth of field generator PRO by Richard Rosenman. It's a plugin for various applications that give you very nice results fast.
The picture to the left is courtesy of Richard Rosenman.
Page 1 of 1
Author: Fredrik Averpil
Submitted: 2005-03-24 19:26:40 UTC
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