/****************************************************************************** * Copyright 1986-2006 by mental images GmbH, Fasanenstr. 81, D-10623 Berlin, * Germany. All rights reserved. ****************************************************************************** * Created: 30.10.97 * Module: baseshader * Purpose: base shaders for Phenomenon writers * * Exports: * mib_dielectric * mib_dielectric_version * * History: * 26.08.02 pa: check for totally internal reflection * 11.11.03 alf: fixed absorption == 0.0 * * Description: * Dielectric material *****************************************************************************/ #include #include struct md { miColor input; miColor absorb; miScalar refract; miScalar ior; }; extern "C" DLLEXPORT int mib_dielectric_version(void) {return(1);} extern "C" DLLEXPORT miBoolean mib_dielectric( miColor *result, miState *state, struct md *paras) { miScalar refract; miColor inp, absorb; miVector dir; miScalar ior; double dist; /* check for illegal calls */ if (state->type == miRAY_SHADOW || state->type == miRAY_DISPLACE) return(miFALSE); refract = *mi_eval_scalar(¶s->refract); if (refract == 0.0) *result = *mi_eval_color(¶s->input); else { ior = *mi_eval_scalar(¶s->ior); if (ior==0.0 || ior==1.0) mi_trace_transparent(result, state); else { if (mi_refraction_dir(&dir, state, 1.0, ior)) mi_trace_refraction(result, state, &dir); else { /* total internal reflection */ mi_reflection_dir(&dir, state); mi_trace_reflection(result, state, &dir); } } dist = state->child ? state->child->dist : 0.0; absorb = *mi_eval_color(¶s->absorb); if(absorb.r > 0.0f) result->r *= (miScalar) exp(log(absorb.r) * dist); if(absorb.g > 0.0f) result->g *= (miScalar) exp(log(absorb.g) * dist); if(absorb.b > 0.0f) result->b *= (miScalar) exp(log(absorb.b) * dist); if(absorb.a > 0.0f) result->a *= (miScalar) exp(log(absorb.a) * dist); if (refract < 1.0f) { inp = *mi_eval_color(¶s->input); result->r = result->r * refract + inp.r * (1-refract); result->g = result->g * refract + inp.g * (1-refract); result->b = result->b * refract + inp.b * (1-refract); result->a = result->a * refract + inp.a * (1-refract); } } return(miTRUE); }