예제 #1
0
void compute_ibl_bssrdf_sampling(
    SamplingContext&        sampling_context,
    const ShadingContext&   shading_context,
    const EnvironmentEDF&   environment_edf,
    const BSSRDF&           bssrdf,
    const void*             bssrdf_data,
    const ShadingPoint&     incoming_point,
    const ShadingPoint&     outgoing_point,
    const Dual3d&           outgoing,
    const size_t            bssrdf_sample_count,
    const size_t            env_sample_count,
    Spectrum&               radiance)
{
    assert(is_normalized(outgoing.get_value()));

    radiance.set(0.0f);

    sampling_context.split_in_place(2, bssrdf_sample_count);

    for (size_t i = 0; i < bssrdf_sample_count; ++i)
    {
        // Generate a uniform sample in [0,1)^2.
        const Vector2d s = sampling_context.next_vector2<2>();

        // Sample the BSSRDF (hemisphere cosine).
        Vector3d incoming = sample_hemisphere_cosine(s);
        const double cos_in = incoming.y;
        const double bssrdf_prob = cos_in * RcpPi;
        incoming = incoming_point.get_shading_basis().transform_to_parent(incoming);
        if (incoming_point.get_side() == ObjectInstance::BackSide)
            incoming = -incoming;
        assert(is_normalized(incoming));

        // Discard occluded samples.
        const double transmission =
            shading_context.get_tracer().trace(
                incoming_point,
                incoming,
                VisibilityFlags::ShadowRay);
        if (transmission == 0.0)
            continue;

        // Evaluate the BSSRDF.
        Spectrum bssrdf_value;
        bssrdf.evaluate(
            bssrdf_data,
            outgoing_point,
            outgoing.get_value(),
            incoming_point,
            incoming,
            bssrdf_value);

        // Evaluate the environment's EDF.
        InputEvaluator input_evaluator(shading_context.get_texture_cache());
        Spectrum env_value;
        double env_prob;
        environment_edf.evaluate(
            shading_context,
            input_evaluator,
            incoming,
            env_value,
            env_prob);

        // Compute MIS weight.
        const double mis_weight =
            mis_power2(
                bssrdf_sample_count * bssrdf_prob,
                env_sample_count * env_prob);

        // Add the contribution of this sample to the illumination.
        env_value *= static_cast<float>(transmission * cos_in / bssrdf_prob * mis_weight);
        env_value *= bssrdf_value;
        radiance += env_value;
    }

    if (bssrdf_sample_count > 1)
        radiance /= static_cast<float>(bssrdf_sample_count);
}
예제 #2
0
void compute_ibl_bsdf_sampling(
    SamplingContext&        sampling_context,
    const ShadingContext&   shading_context,
    const EnvironmentEDF&   environment_edf,
    const ShadingPoint&     shading_point,
    const Vector3d&         outgoing,
    const BSDF&             bsdf,
    const void*             bsdf_data,
    const int               bsdf_sampling_modes,
    const size_t            bsdf_sample_count,
    const size_t            env_sample_count,
    Spectrum&               radiance)
{
    assert(is_normalized(outgoing));

    const Vector3d& geometric_normal = shading_point.get_geometric_normal();
    const Basis3d& shading_basis = shading_point.get_shading_basis();

    radiance.set(0.0f);

    for (size_t i = 0; i < bsdf_sample_count; ++i)
    {
        // Sample the BSDF.
        // todo: rendering will be incorrect if the BSDF value returned by the sample() method
        // includes the contribution of a specular component since these are explicitly rejected
        // afterward. We need a mechanism to indicate that we want the contribution of some of
        // the components only.
        Vector3d incoming;
        Spectrum bsdf_value;
        double bsdf_prob;
        const BSDF::Mode bsdf_mode =
            bsdf.sample(
                sampling_context,
                bsdf_data,
                false,              // not adjoint
                true,               // multiply by |cos(incoming, normal)|
                geometric_normal,
                shading_basis,
                outgoing,
                incoming,
                bsdf_value,
                bsdf_prob);

        // Filter scattering modes.
        if (!(bsdf_sampling_modes & bsdf_mode))
            return;

        // Discard occluded samples.
        const double transmission =
            shading_context.get_tracer().trace(
                shading_point,
                incoming,
                ShadingRay::ShadowRay);
        if (transmission == 0.0)
            continue;

        // Evaluate the environment's EDF.
        InputEvaluator input_evaluator(shading_context.get_texture_cache());
        Spectrum env_value;
        double env_prob;
        environment_edf.evaluate(
            input_evaluator,
            incoming,
            env_value,
            env_prob);

        // Apply all weights, including MIS weight.
        if (bsdf_mode == BSDF::Specular)
            env_value *= static_cast<float>(transmission);
        else
        {
            const double mis_weight =
                mis_power2(
                    bsdf_sample_count * bsdf_prob,
                    env_sample_count * env_prob);
            env_value *= static_cast<float>(transmission / bsdf_prob * mis_weight);
        }

        // Add the contribution of this sample to the illumination.
        env_value *= bsdf_value;
        radiance += env_value;
    }

    if (bsdf_sample_count > 1)
        radiance /= static_cast<float>(bsdf_sample_count);
}
예제 #3
0
void compute_ibl_bsdf_sampling(
    SamplingContext&        sampling_context,
    const ShadingContext&   shading_context,
    const EnvironmentEDF&   environment_edf,
    const ShadingPoint&     shading_point,
    const Dual3d&           outgoing,
    const BSDF&             bsdf,
    const void*             bsdf_data,
    const int               bsdf_sampling_modes,
    const size_t            bsdf_sample_count,
    const size_t            env_sample_count,
    Spectrum&               radiance)
{
    assert(is_normalized(outgoing.get_value()));

    radiance.set(0.0f);

    for (size_t i = 0; i < bsdf_sample_count; ++i)
    {
        // Sample the BSDF.
        // todo: rendering will be incorrect if the BSDF value returned by the sample() method
        // includes the contribution of a specular component since these are explicitly rejected
        // afterward. We need a mechanism to indicate that we want the contribution of some of
        // the components only.
        BSDFSample sample(shading_point, outgoing);
        bsdf.sample(
            sampling_context,
            bsdf_data,
            false,              // not adjoint
            true,               // multiply by |cos(incoming, normal)|
            sample);

        // Filter scattering modes.
        if (!(bsdf_sampling_modes & sample.m_mode))
            continue;

        // Discard occluded samples.
        const float transmission =
            shading_context.get_tracer().trace(
                shading_point,
                Vector3d(sample.m_incoming.get_value()),
                VisibilityFlags::ShadowRay);
        if (transmission == 0.0f)
            continue;

        // Evaluate the environment's EDF.
        InputEvaluator input_evaluator(shading_context.get_texture_cache());
        Spectrum env_value;
        float env_prob;
        environment_edf.evaluate(
            shading_context,
            input_evaluator,
            sample.m_incoming.get_value(),
            env_value,
            env_prob);

        // Apply all weights, including MIS weight.
        if (sample.m_mode == ScatteringMode::Specular)
            env_value *= transmission;
        else
        {
            const float mis_weight =
                mis_power2(
                    bsdf_sample_count * sample.m_probability,
                    env_sample_count * env_prob);
            env_value *= transmission / sample.m_probability * mis_weight;
        }

        // Add the contribution of this sample to the illumination.
        env_value *= sample.m_value;
        radiance += env_value;
    }

    if (bsdf_sample_count > 1)
        radiance /= static_cast<float>(bsdf_sample_count);
}