--- a/src/sampler.cc Wed Mar 26 17:03:38 2008 +0100
+++ b/src/sampler.cc Fri Mar 28 00:53:20 2008 +0100
@@ -36,10 +36,22 @@
int DefaultSampler::initSampleSet()
{
+ static const int gridsamples[] = {1,5,9,16};
+ const int samples = gridsamples[oversample];
if ( phase == 0 )
{
+ cout << "phase 1" << endl;
phase++;
- return w*h;
+ return w*h*samples;
+ }
+ else if ( phase == 1 && oversample )
+ {
+ cout << "phase 2" << endl;
+ phase = -1;
+ Float *buf;
+ for (buf = buffer; buf != buffer + w*h*3; buf++)
+ *buf = *buf * (1.0/samples);
+ return 0;
}
else
{
@@ -51,31 +63,79 @@
Sample* DefaultSampler::nextSample(Sample *prev)
{
DefaultSample *s = new DefaultSample;
- if (prev)
+
+ /* grid oversampling */
+ static const int gridsamples[] = {1,5,9,16};
+ static const Float osa5x[] = {0.0, -0.4, +0.4, +0.4, -0.4};
+ static const Float osa5y[] = {0.0, -0.4, -0.4, +0.4, +0.4};
+ static const Float osa9x[] = {-0.34, 0.00, +0.34,
+ -0.34, 0.00, +0.34, -0.34, 0.00, +0.34};
+ static const Float osa9y[] = {-0.34, -0.34, -0.34,
+ 0.00, 0.00, 0.00, +0.34, +0.34, +0.34};
+ static const Float osa16x[] = {-0.375, -0.125, +0.125, +0.375,
+ -0.375, -0.125, +0.125, +0.375, -0.375, -0.125, +0.125, +0.375,
+ -0.375, -0.125, +0.125, +0.375};
+ static const Float osa16y[] = {-0.375, -0.375, -0.375, -0.375,
+ -0.125, -0.125, -0.125, -0.125, +0.125, +0.125, +0.125, +0.125,
+ +0.375, +0.375, +0.375, +0.375};
+ static const Float *osaSx[] = {NULL, osa5x, osa9x, osa16x};
+ static const Float *osaSy[] = {NULL, osa5y, osa9y, osa16y};
+ const int samples = gridsamples[oversample];
+ const Float *osax = osaSx[oversample];
+ const Float *osay = osaSy[oversample];
+
+ if (!prev)
{
- DefaultSample *sp = static_cast<DefaultSample*>(prev);
- s->sx = sp->sx + 1;
- s->sy = sp->sy;
- if (s->sx >= w)
- {
- s->sx = 0;
- s->sy++;
- }
- if (s->sy >= h)
- {
- delete s;
- return NULL;
- }
- s->x = (Float)s->sx/h - (Float)w/h/2.0;
- s->y = (Float)s->sy/h - 0.5;
- }
- else
- {
+ // first sample
s->x = -(Float)w/h/2.0;
s->y = -0.5;
s->sx = 0;
s->sy = 0;
+ s->osa_samp = 0;
}
+ else
+ {
+ DefaultSample *sp = static_cast<DefaultSample*>(prev);
+
+ s->osa_samp = sp->osa_samp + 1;
+
+ if (oversample && oversample <= 3 && s->osa_samp < samples)
+ {
+ s->sx = sp->sx;
+ s->sy = sp->sy;
+ s->x = osax[s->osa_samp]/h + (Float)s->sx/h - (Float)w/h/2.0;
+ s->y = osay[s->osa_samp]/h + (Float)s->sy/h - 0.5;
+ }
+ else
+ {
+ s->sx = sp->sx + 1;
+ s->sy = sp->sy;
+ if (s->sx >= w)
+ {
+ s->sx = 0;
+ s->sy++;
+ }
+ if (s->sy >= h)
+ {
+ delete s;
+ return NULL;
+ }
+ s->x = (Float)s->sx/h - (Float)w/h/2.0;
+ s->y = (Float)s->sy/h - 0.5;
+ s->osa_samp = 0;
+ }
+ }
+
+ if (s->osa_samp == 0 && oversample && oversample <= 3)
+ {
+ s->x += osax[0]/h;
+ s->y += osay[0]/h;
+ Float *buf = buffer + 3*(s->sy*w + s->sx);
+ *(buf++) = 0;
+ *(buf++) = 0;
+ *(buf++) = 0;
+ }
+
return s;
}
@@ -83,8 +143,17 @@
{
DefaultSample *sp = static_cast<DefaultSample*>(samp);
Float *buf = buffer + 3*(sp->sy*w + sp->sx);
- *(buf++) = col.r;
- *(buf++) = col.g;
- *(buf++) = col.b;
+ if (oversample)
+ {
+ *(buf+0) += col.r;
+ *(buf+1) += col.g;
+ *(buf+2) += col.b;
+ }
+ else
+ {
+ *(buf++) = col.r;
+ *(buf++) = col.g;
+ *(buf++) = col.b;
+ }
}