public static Spectrum SpecularReflect(RayDifferential ray, BSDF bsdf, Intersection isect, IRenderer renderer, Scene scene, Sample sample)
{
Vector wo = -ray.Direction, wi = new Vector ();
double pdf = 0.0;
Point p = bsdf.dgShading.p;
Normal n = bsdf.dgShading.n;
Spectrum f = bsdf.SampleF (wo, ref wi, new BSDFSample (), ref pdf, BxDFType.BSDF_REFLECTION | BxDFType.BSDF_SPECULAR);
Spectrum L = new Spectrum ();
if (pdf > 0.0 && !f.IsBlack && Util.AbsDot (wi, n) != 0.0)
{
RayDifferential rd = new RayDifferential (p, wi, ray, isect.RayEpsilon);
if (ray.HasDifferentials)
{
rd.HasDifferentials = true;
rd.RxOrigin = p + isect.dg.dpdx;
rd.RyOrigin = p + isect.dg.dpdy;
Normal dndx = bsdf.dgShading.dndu * bsdf.dgShading.dudx + bsdf.dgShading.dndv * bsdf.dgShading.dvdx;
Normal dndy = bsdf.dgShading.dndu * bsdf.dgShading.dudy + bsdf.dgShading.dndv * bsdf.dgShading.dvdy;
Vector dwodx = -ray.RxDirection - wo, dwody = -ray.Direction - wo;
double dDNdx = (dwodx ^ n) + (wo ^ dndx);
double dDNdy = (dwody ^ n) + (wo ^ dndy);
rd.RxDirection = wi - dwodx + 2 * new Vector ((wo ^ n) * dndx + dDNdx * n);
rd.RyDirection = wi - dwody + 2 * new Vector ((wo ^ n) * dndy + dDNdy * n);
}
Spectrum Li = renderer.Li (scene, rd, sample);
L = f * Li * Util.AbsDot (wi, n) / pdf;
}
return L;
}
public SamplerRendererTask(Scene scene, IRenderer renderer, ICamera camera, ProgressReporter reporter, ISampler sampler, Sample sample, int tn, int tc)
{
Scene = scene;
Camera = camera;
Renderer = renderer;
MainSampler = sampler;
OrigSample = sample;
TaskNumber = tn;
TaskCount = tc;
Reporter = reporter;
}
public void Run()
{
ISampler sampler = MainSampler.GetSubSampler (TaskNumber, TaskCount);
if (sampler == null)
{
return;
}
int maxSamples = sampler.MaximumSampleCount;
Sample[] samples = OrigSample.Duplicate (maxSamples);
RayDifferential[] rays = new RayDifferential[maxSamples];
Spectrum[] Ls = new Spectrum[maxSamples];
Spectrum[] Ts = new Spectrum[maxSamples];
Intersection[] isects = new Intersection[maxSamples];
for (int i = 0; i < maxSamples; ++i)
{
samples[i] = new Sample ();
rays[i] = new RayDifferential ();
Ls[i] = new Spectrum ();
Ts[i] = new Spectrum ();
isects[i] = new Intersection ();
}
int sampleCount;
while ((sampleCount = sampler.GetMoreSamples (samples)) > 0)
{
for (int i = 0; i < sampleCount; ++i)
{
double rayWeight = Camera.GenerateRayDifferential (samples[i], ref rays[i]);
rays[i].ScaleDifferentials (1.0 / Math.Sqrt (sampler.SamplesPerPixel));
if (rayWeight > 0.0)
Ls[i] = rayWeight * Renderer.Li (Scene, rays[i], samples[i], ref isects[i], ref Ts[i]);
else
{
Ls[i] = new Spectrum ();
Ts[i] = new Spectrum (1.0);
}
// WARNINGS
}
if (sampler.ReportResults (samples, rays, Ls, isects, sampleCount))
{
for (int i = 0; i < sampleCount; ++i)
Camera.Film.AddSample (samples[i], Ls[i]);
}
}
Camera.Film.UpdateDisplay (sampler.xPixelStart, sampler.yPixelStart, sampler.xPixelEnd + 1, sampler.yPixelEnd + 1);
Reporter.Update ();
}
public Sample[] Duplicate(int count)
{
Sample[] ret = new Sample[count];
for (int i = 0; i < count; ++i)
{
ret[i] = new Sample ();
ret[i].n1D = new List<int> (n1D);
ret[i].n2D = new List<int> (n2D);
ret[i].AllocateSampleMemory ();
}
return ret;
}
public override int GetMoreSamples(Sample[] sample)
{
if (yPos == yPixelEnd)
return 0;
if (SampleBuffer == null)
SampleBuffer = new double[MonteCarlo.LowDiscrepancyPixelSampleDoublesNeeded (sample, nPixelSamples)];
MonteCarlo.LowDiscrepancyPixelSample (xPos, yPos, ShutterOpen, ShutterClose, nPixelSamples, sample, SampleBuffer);
if (++xPos == xPixelEnd)
{
xPos = xPixelStart;
++yPos;
}
return nPixelSamples;
}
public static Spectrum SpecularTransmit(RayDifferential ray, BSDF bsdf, Intersection isect, IRenderer renderer, Scene scene, Sample sample)
{
Vector wo = -ray.Direction, wi = new Vector ();
double pdf = 0.0;
Point p = bsdf.dgShading.p;
Normal n = bsdf.dgShading.n;
Spectrum f = bsdf.SampleF (wo, ref wi, new BSDFSample (), ref pdf, BxDFType.BSDF_TRANSMISSION | BxDFType.BSDF_SPECULAR);
Spectrum L = new Spectrum ();
if (pdf > 0.0 && !f.IsBlack && Util.AbsDot (wi, n) != 0.0)
{
RayDifferential rd = new RayDifferential (p, wi, ray, isect.RayEpsilon);
if (ray.HasDifferentials)
{
rd.HasDifferentials = true;
rd.RxOrigin = p + isect.dg.dpdx;
rd.RyOrigin = p + isect.dg.dpdy;
double eta = bsdf.Eta;
Vector w = -wo;
if ((wo ^ n) < 0.0)
eta = 1.0 / eta;
Normal dndx = bsdf.dgShading.dndu * bsdf.dgShading.dudx + bsdf.dgShading.dndv * bsdf.dgShading.dvdx;
Normal dndy = bsdf.dgShading.dndu * bsdf.dgShading.dudy + bsdf.dgShading.dndv * bsdf.dgShading.dvdy;
Vector dwodx = -ray.RxDirection - wo, dwody = -ray.RyDirection - wo;
double dDNdx = (dwodx ^ n) + (wo ^ dndx);
double dDNdy = (dwody ^ n) + (wo ^ dndy);
double mu = eta * (w ^ n) - (wi ^ n);
double dmudx = (eta - (eta * eta * (w ^ n)) / (wi ^ n)) * dDNdx;
double dmudy = (eta - (eta * eta * (w ^ n)) / (wi ^ n)) * dDNdy;
rd.RxDirection = wi + eta * dwodx - new Vector (mu * dndx + dmudx * n);
rd.RyDirection = wi + eta * dwody - new Vector (mu * dndy + dmudy * n);
}
Spectrum Li = renderer.Li (scene, rd, sample);
L = f * Li * Util.AbsDot (wi, n) / pdf;
}
return L;
}
public override Spectrum Transmittance(Scene scene, IRenderer renderer, RayDifferential ray, Sample sample)
{
if (scene.VolumeRegion == null)
return new Spectrum (1.0);
double step, offset;
if (sample != null)
{
step = StepSize;
offset = sample.samples[sample.oneD + TauSampleOffset][0];
}
else
{
step = 4.0 * StepSize;
offset = Util.Random.NextDouble ();
}
/*Spectrum tau = scene.VolumeRegion.Tau (ray, step, offset);
return (-tau).Exp;*/
return null;
}
public abstract Spectrum Li(Scene scene, IRenderer renderer, RayDifferential ray, Intersection isect, Sample sample);
public abstract int GetMoreSamples(Sample[] sample);
public abstract Spectrum Transmittance(Scene scene, RayDifferential ray, Sample sample);
public Spectrum Li(Scene scene, RayDifferential ray, Sample sample, ref Intersection isect)
{
Spectrum T = new Spectrum ();
return Li (scene, ray, sample, ref isect, ref T);
}
public abstract Spectrum Li(Scene scene, RayDifferential ray, Sample sample, ref Intersection isect, ref Spectrum T);
public virtual bool ReportResults(Sample[] samples, RayDifferential[] rays, Spectrum[] Ls, Intersection[] isects, int count)
{
return true;
}
public override Spectrum Li(Scene scene, IRenderer renderer, RayDifferential ray, Sample sample, ref Spectrum transmittance)
{
transmittance = new Spectrum (1.0);
return new Spectrum ();
}
public override void RequestSamples(ISampler sampler, Sample sample, Scene scene)
{
TauSampleOffset = sample.Add1D (1);
ScatterSampleOffset = sample.Add1D (1);
}
public static int LowDiscrepancyPixelSampleDoublesNeeded(Sample[] sample, int nPixelSamples)
{
int n = 5;
// 2 lens + 2 pixel + time
for (int i = 0; i < sample[0].n1D.Count; ++i)
n += sample[0].n1D[i];
for (int i = 0; i < sample[0].n2D.Count; ++i)
n += 2 * sample[0].n2D[i];
return nPixelSamples * n;
}
public Spectrum Transmittance(Scene scene, IRenderer renderer, Sample sample)
{
return renderer.Transmittance (scene, new RayDifferential (Ray), sample);
}
public BSDFSampleOffsets(int count, Sample sample)
{
nSamples = count;
ComponentOffset = sample.Add1D (nSamples);
DirOffset = sample.Add2D (nSamples);
}
public static void LowDiscrepancyPixelSample(int xPos, int yPos, double shutterOpen, double shutterClose, int nPixelSamples, Sample[] samples, double[] buf)
{
int index = 5 * nPixelSamples;
int ImageSamples = 0;
int LensSamples = 2 * nPixelSamples;
int TimeSamples = 4 * nPixelSamples;
// Prepare temporary array pointers for low-discrepancy integrator samples
int count1D = samples[0].n1D.Count;
int count2D = samples[0].n2D.Count;
List<int> n1D = count1D > 0 ? samples[0].n1D : null;
List<int> n2D = count2D > 0 ? samples[0].n2D : null;
double[][] oneDSamples = new double[count1D][];
double[][] twoDSamples = new double[count2D][];
for (int i = 0; i < count1D; ++i)
{
oneDSamples[i] = buf;
index += n1D[i] * nPixelSamples;
}
for (int i = 0; i < count2D; ++i)
{
twoDSamples[i] = buf;
index += 2 * n2D[i] * nPixelSamples;
}
// Generate low-discrepancy pixel samples
LDShuffleScrambled2D (1, nPixelSamples, ref buf, ImageSamples);
LDShuffleScrambled2D (1, nPixelSamples, ref buf, LensSamples);
LDShuffleScrambled1D (1, nPixelSamples, ref buf, TimeSamples);
for (int i = 0; i < count1D; ++i)
LDShuffleScrambled1D (n1D[i], nPixelSamples, ref oneDSamples[i], 0);
for (int i = 0; i < count2D; ++i)
LDShuffleScrambled2D (n2D[i], nPixelSamples, ref twoDSamples[i], 0);
// Initialize _samples_ with computed sample values
for (int i = 0; i < nPixelSamples; ++i)
{
samples[i].ImageX = xPos + buf[ImageSamples + 2 * i];
samples[i].ImageY = yPos + buf[ImageSamples + 2 * i + 1];
samples[i].Time = Util.Lerp (buf[TimeSamples + i], shutterOpen, shutterClose);
samples[i].LensU = buf[LensSamples + 2 * i];
samples[i].LensV = buf[LensSamples + 2 * i + 1];
// Copy integrator samples into _samples[i]_
for (int j = 0; j < count1D; ++j)
{
int startSamp = n1D[j] * i;
for (int k = 0; k < n1D[j]; ++k)
samples[i].samples[samples[i].oneD + j][k] = oneDSamples[j][startSamp + k];
}
for (int j = 0; j < count2D; ++j)
{
int startSamp = 2 * n2D[j] * i;
for (int k = 0; k < 2 * n2D[j]; ++k)
samples[i].samples[samples[i].twoD + j][k] = twoDSamples[j][startSamp + k];
}
}
}
public abstract Spectrum Li(Scene scene, IRenderer renderer, RayDifferential ray, Sample sample, ref Spectrum transmittance);
