/* SPDX-FileCopyrightText: 2009-2010 Sony Pictures Imageworks Inc., et al. All Rights Reserved. * SPDX-FileCopyrightText: 2011-2022 Blender Foundation * * SPDX-License-Identifier: BSD-3-Clause * * Adapted code from Open Shading Language. */ #pragma once #include "kernel/util/color.h" CCL_NAMESPACE_BEGIN #ifdef __OSL__ typedef struct PhongRampBsdf { SHADER_CLOSURE_BASE; float exponent; ccl_private float3 *colors; } PhongRampBsdf; static_assert(sizeof(ShaderClosure) >= sizeof(PhongRampBsdf), "PhongRampBsdf is too large!"); ccl_device float3 bsdf_phong_ramp_get_color(const float3 colors[8], float pos) { int MAXCOLORS = 8; float npos = pos * (float)(MAXCOLORS - 1); int ipos = float_to_int(npos); if (ipos < 0) return colors[0]; if (ipos >= (MAXCOLORS - 1)) return colors[MAXCOLORS - 1]; float offset = npos - (float)ipos; return colors[ipos] * (1.0f - offset) + colors[ipos + 1] * offset; } ccl_device int bsdf_phong_ramp_setup(ccl_private PhongRampBsdf *bsdf) { bsdf->type = CLOSURE_BSDF_PHONG_RAMP_ID; bsdf->exponent = max(bsdf->exponent, 0.0f); return SD_BSDF | SD_BSDF_HAS_EVAL; } ccl_device Spectrum bsdf_phong_ramp_eval(ccl_private const ShaderClosure *sc, const float3 wi, const float3 wo, ccl_private float *pdf) { ccl_private const PhongRampBsdf *bsdf = (ccl_private const PhongRampBsdf *)sc; float m_exponent = bsdf->exponent; float cosNI = dot(bsdf->N, wi); float cosNO = dot(bsdf->N, wo); if (cosNI > 0 && cosNO > 0) { // reflect the view vector float3 R = (2 * cosNI) * bsdf->N - wi; float cosRO = dot(R, wo); if (cosRO > 0) { float cosp = powf(cosRO, m_exponent); float common = 0.5f * M_1_PI_F * cosp; float out = cosNO * (m_exponent + 2) * common; *pdf = (m_exponent + 1) * common; return rgb_to_spectrum(bsdf_phong_ramp_get_color(bsdf->colors, cosp) * out); } } *pdf = 0.0f; return zero_spectrum(); } ccl_device_inline float phong_ramp_exponent_to_roughness(float exponent) { return sqrt(1.0f / ((exponent + 2.0f) / 2.0f)); } ccl_device int bsdf_phong_ramp_sample(ccl_private const ShaderClosure *sc, float3 Ng, float3 wi, const float2 rand, ccl_private Spectrum *eval, ccl_private float3 *wo, ccl_private float *pdf, ccl_private float2 *sampled_roughness) { ccl_private const PhongRampBsdf *bsdf = (ccl_private const PhongRampBsdf *)sc; float cosNI = dot(bsdf->N, wi); float m_exponent = bsdf->exponent; const float m_roughness = phong_ramp_exponent_to_roughness(m_exponent); *sampled_roughness = make_float2(m_roughness, m_roughness); if (cosNI > 0) { // reflect the view vector float3 R = (2 * cosNI) * bsdf->N - wi; float3 T, B; make_orthonormals(R, &T, &B); float phi = M_2PI_F * rand.x; float cosTheta = powf(rand.y, 1 / (m_exponent + 1)); float sinTheta2 = 1 - cosTheta * cosTheta; float sinTheta = sinTheta2 > 0 ? sqrtf(sinTheta2) : 0; *wo = (cosf(phi) * sinTheta) * T + (sinf(phi) * sinTheta) * B + (cosTheta)*R; if (dot(Ng, *wo) > 0.0f) { // common terms for pdf and eval float cosNO = dot(bsdf->N, *wo); // make sure the direction we chose is still in the right hemisphere if (cosNO > 0) { float cosp = powf(cosTheta, m_exponent); float common = 0.5f * M_1_PI_F * cosp; *pdf = (m_exponent + 1) * common; float out = cosNO * (m_exponent + 2) * common; *eval = rgb_to_spectrum(bsdf_phong_ramp_get_color(bsdf->colors, cosp) * out); } } } else { *eval = zero_spectrum(); *pdf = 0.0f; } return LABEL_REFLECT | LABEL_GLOSSY; } #endif /* __OSL__ */ CCL_NAMESPACE_END