Rendering Layered PSD Files

Poser features additional options in the Render Settings dialog that allow you to specify additional information that can be output to a layered PSD file for further compositing in Photoshop. After you create your scene in Poser, you open the Render Settings dialog and check or uncheck the auxiliary render data options that you want to include in the Photoshop file.

If you do not have an image editor that can open PSD files, you can choose another image format such as PNG or TIF. Poser will export the auxiliary renders as separate images that you can later compile as layers in your image editor.

The Render Options section of the FireFly Render Settings window includes an Auxiliary Render Data drop down menu that allows you to select from the following options:

Check or uncheck layers to be output to PSD files in the FireFly Render Options window.

You can also render Auxiliary Render Data from the SuperFly renderer, but options are limited to Normal, ZDepth, and Texture Coordinates.

Then, you render your image and save it as a Photoshop PSD file. When you open your image in Photoshop you will see the full render as the Background layer. Each additional data option that you checked will appear on its own individual Photoshop layer.

Poser saves its native renders in EXR format. Photoshop versions support EXR format differently, with plugins such as OpenEXR or other similar EXR plugins.

* Versions of Photoshop earlier than CS2 do not have 32-bit per channel support. Though there may be some EXR plugins that work for these earlier versions, they will only open or save 16-bit per channel images only.

* Photoshop CS2 does not support transparency in 32-bits per channel mode.

* Non-extended versions of CS3, CS4, CS5, and CS6 do not have as much 32-bit per channel support as the Extended versions do.

* The EXR Plugin that ships with Photoshop doesn't support all of the features of EXR, so a third party plugin may be required.  Some recommendations are Exr-IO (https://www.exr-io.com/) or ProEXR (https://www.fnordware.com/ProEXR/).

Background layer in Photoshop.

Normal layer in Photoshop.

Position layer in Photoshop.

Toon ID layer in Photoshop.

ZDepth layer in Photoshop.

Texture Coordinates layer in Photoshop.

The remaining three options correspond to three inputs on the bottom of the Poser Surface Node as shown below.

Custom Output connectors on the Poser Surface Node.

The render will export the nodes that are plugged into these inputs on the Poser Surface Node. If nothing is attached to the Poser surface node on these inputs, the output to PSD is as follows:

Custom Outputs are not supported in SuperFly.

Custom 1 layer in Photoshop with grainy grayscale effect for custom input.

Custom 2 layer in Photoshop showing custom adjustments to the two characters in the scene.

Custom 3 layer in Photoshop.

After rendering the desired layers, you can bring the saved PSD file into Photoshop, where you will be able to use blend styles in the Layers palette to composite the layers together to create interesting effects.

Various layers combined in Photoshop.

Entering Toon IDs

The Toon ID field in the PoserSurface node accepts values from 0 to 16777215, allowing you to specify any RGB color value. The values are direct Hexadecimal to Decimal conversions. The table below shows some common colors for examples. But you can use Poser's color picker or an image editing program to determine the RGB or Hexadecimal values for specific colors so that your Toon IDs are more predictable.

Here are values for some common colors:

Color RGB Value Hex Value Decimal (for Color ID)
Black R0 G0 B0 000000 0*
Blue R0 G0 B255 0000FF 255
Green R0 G255 B0 00FF00 65280
Cyan R0 G255 B255 00FFFF 65535
Red R255 G0 B0 FF0000 16711680
Magenta R255 G0 B255 FF00FF 16711935
Yellow R255 G255 B0 FFFF00 16776960
White R255 G255 B255 FFFFFF 16777215*

*Entering 16777216 (one number higher than the White value) will wrap back around to 0 (the black value).

To find converters online, enter search terms RGB to Decimal or Hex to Decimal in Google search.

© 2020-2023 Bondware, Inc. Last updated November 07, 2024