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/* RCSid $Id: pmapmat.h,v 2.8 2015/08/18 18:45:55 greg Exp $ */ |
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/* |
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================================================================== |
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Photon map support routines for scattering by materials. |
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|
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Roland Schregle (roland.schregle@{hslu.ch, gmail.com}) |
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(c) Fraunhofer Institute for Solar Energy Systems, |
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(c) Lucerne University of Applied Sciences and Arts, |
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supported by the Swiss National Science Foundation (SNSF, #147053) |
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================================================================== |
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|
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*/ |
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|
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#ifndef PMAPMAT_H |
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#define PMAPMAT_H |
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#include "pmap.h" |
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|
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/* |
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Check for paths already accounted for in photon map to avoid |
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double-counting during backward raytracing. |
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|
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shadowRayInPmap(): Check for DIFFUSE -> SPECULAR -> LIGHT |
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subpaths. These occur during the backward pass |
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when a shadow ray is transferred through a |
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transparent material. These subpaths are already |
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accounted for by caustic photons in the global, |
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contrib, or dedicated caustic photon map. |
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*/ |
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/* |
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#define ambRayInPmap(r) ((r) -> crtype & AMBIENT && \ |
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((photonMapping && \ |
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(ambounce < 0 || (r) -> rlvl > 1)) || \ |
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causticPhotonMapping || contribPhotonMapping)) |
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*/ |
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#define ambRayInPmap(r) 0 |
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#define shadowRayInPmap(r) ((r) -> crtype & SHADOW && \ |
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(ambounce < 0 || ((r) -> crtype & AMBIENT ? \ |
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photonMapping : causticPhotonMapping))) |
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|
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/* Check if scattered ray spawns a caustic photon */ |
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#define PMAP_CAUSTICRAY(r) ((r) -> rtype & SPECULAR) |
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|
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/* Scattered photon ray types for photonRay() */ |
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#define PMAP_DIFFREFL (REFLECTED | AMBIENT) |
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#define PMAP_DIFFTRANS (REFLECTED | AMBIENT | TRANS) |
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#define PMAP_SPECREFL (REFLECTED | SPECULAR) |
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#define PMAP_SPECTRANS (REFLECTED | SPECULAR | TRANS) |
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#define PMAP_REFRACT (REFRACTED | SPECULAR) |
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#define PMAP_XFER (TRANS) |
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/* Dispatch table for photon scattering functions */ |
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extern int (*photonScatter []) (OBJREC*, RAY*); |
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|
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/* List of antimatter sensor modifier names */ |
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extern char *photonSensorList [MAXSET + 1]; |
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|
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/* Spawn a new photon ray from a previous one; this is effectively a |
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* customised rayorigin(). */ |
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void photonRay (const RAY *rayIn, RAY *rayOut, int rayOutType, |
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COLOR fluxAtten); |
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|
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/* Init photonScatter[] dispatch table with material specific scattering |
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routines */ |
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void initPhotonScatterFuncs (); |
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|
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/* Find antimatter geometry declared as photon sensors */ |
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void getPhotonSensors (char **sensorList); |
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|
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#endif |