void save_bucket(const ColorBucket &b, SimpleSymbolCoder<FLIFBitChanceMeta, RacOut<IO>, 18> &coder, const ColorRanges *srcRanges, const int plane, const prevPlanes &pixelL, const prevPlanes &pixelU) const {
if (plane<3)
for (int p=0; p<plane; p++) {
if (!cb->exists(p,pixelL,pixelU)) {
if (!b.empty()) {printf("\nBucket does not exist but is not empty!\n"); assert(false);}
return;
}
}
ColorVal smin,smax;
minmax(srcRanges,plane,pixelL,pixelU,smin,smax);
if (b.min > b.max) {
coder.write_int(0, 1, 0); // empty bucket
return;
} else coder.write_int(0, 1, 1); // non-empty bucket
if (smin==smax) { return;}
coder.write_int(smin, smax, b.min);
coder.write_int(b.min, smax, b.max);
if (b.min == b.max) return; // singleton bucket
if (b.min + 1 == b.max) return; // bucket contains two consecutive values
coder.write_int(0, 1, b.discrete);
if (b.discrete) {
assert((int)b.values.size() < b.max-b.min+1); // no discrete buckets that are completely full
coder.write_int(2, std::min((int)max_per_colorbucket[plane],b.max-b.min), b.values.size());
ColorVal v=b.min;
int nb = b.values.size();
for (int p=1; p < nb - 1; p++) {
coder.write_int(v+1, b.max+1-nb+p, b.values[p]);
v = b.values[p];
}
}
}
void save_bucket(const ColorBucket &b, SimpleSymbolCoder<FLIFBitChanceMeta, RacOut<IO>, 24> &coder, const ColorRanges *srcRanges, const int plane, const prevPlanes &pixelL, const prevPlanes &pixelU) const {
if (plane<3)
for (int p=0; p<plane; p++) {
if (!cb->exists(p,pixelL,pixelU)) {
if (!b.empty()) {printf("\nBucket does not exist but is not empty!\n"); assert(false);}
return;
}
}
// SimpleBitCoder<FLIFBitChanceMeta, RacOut> bcoder(rac);
// if (b.min > b.max) printf("SHOULD NOT HAPPEN!\n");
ColorVal smin,smax;
minmax(srcRanges,plane,pixelL,pixelU,smin,smax);
if (smin==smax) { return;}
// b.printshort();
// b.print();
if (b.min > b.max) {
coder.write_int(0, 1, 0); // empty bucket
return;
} else coder.write_int(0, 1, 1); // non-empty bucket
coder.write_int(smin, smax, b.min);
coder.write_int(b.min, smax, b.max);
if (b.min == b.max) return; // singleton bucket
if (b.min + 1 == b.max) return; // bucket contains two consecutive values
coder.write_int(0, 1, b.discrete);
if (b.discrete) {
coder.write_int(2, max_per_colorbucket[plane], b.values.size());
ColorVal v=b.min;
/* if (b.values.size() > 10) {
v++;
bcoder.set( 0x1000 * (b.values.size()-2) / (b.max-b.min-1) );
for (unsigned int p=1; p < b.values.size() - 1; p++) {
while (v<b.values[p]) { bcoder.write(0); v++; }
bcoder.write(1); v++;
}
} else */
for (unsigned int p=1; p < b.values.size() - 1; p++) {
coder.write_int(v+1, b.max-1, b.values[p]);
// coder.write_int(0, b.max-v-2, b.values[p]-v-1);
v = b.values[p];
}
}
}