Documentation Talk:Reference Section 6.2

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Revision as of 19:52, 13 April 2010 by Clipka (talk | contribs) (→‎pass_through: new section)
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pass_through

Here's how it really currently works in POV-Ray 3.6:

By default, any objects between the photon source and target will completely block photons, even if the object in question is transparent. To explicitly allow photons to transmit through such an object, mark the object as photons { pass_through }.

In POV-Ray 3.6, specifying pass_through this had the following effect:

  • If the object was normally opaque, it would not block photons on their way to their target at all, and not even affect their colour.
  • If the object was partially or fully transparent, it would erroneously amplify photons on their way to their target; if the object had an IOR, part of the amplified light would even be refracted.

NOTE: pass_through only affects the interaction with photons on their way to their target; photons that have already transmitted through or reflected off their target will always interact with subsequent objects normally, regardless of the pass_through setting.

Marking an object as no_shadow will also prevent it from blocking photons; however, this will not only suppress interaction with photons on their way to their target, but also with photons that have already transmitted through or reflected off their target.

NOTE: The documentation of POV-Ray 3.6 contained some errors regarding both pass_through and no_shadow with regard to photons:

  • Media in objects marked pass_through were said to still collect photons on their way to their target; this is not the case. Instead, photons on their way to their target are never collected by any surface or media whatsoever.
  • It was said that specifying no_shadow would automatically turn on pass_through, and that explicitly specifying pass_through off could be used to disable it again; this is not the case. Instead, specifying no_shadow will suppress any interaction with photons whatsoever, regardless of any settings in the photons block.