ref: e8b6830f538e41a5a0db076bd183db43e3b99b3e
dir: /libcelt/bitree.c/
#ifdef HAVE_CONFIG_H #include "config.h" #endif #include "bitree.h" void ec_bitree_to_counts(unsigned *_this,int _sz,int _split){ int p; int q; int s; for(p=_split;p>1;p=q){ q=p>>1; for(s=p-1;s<_sz;s+=p)_this[s]-=_this[s-q]; } } void ec_bitree_from_counts(unsigned *_this,int _sz){ int p; int q; int s; for(q=1,p=2;p<=_sz;q=p,p=q<<1){ for(s=p-1;s<_sz;s+=p)_this[s]+=_this[s-q]; } } unsigned ec_bitree_get_cumul(const unsigned *_this,int _sym){ unsigned ret; ret=0; while(_sym>0){ ret+=_this[_sym-1]; _sym&=_sym-1; } return ret; } unsigned ec_bitree_get_freq(const unsigned *_this,int _sym){ unsigned ret; int p; ret=_this[_sym]; p=_sym&_sym+1; while(_sym!=p){ ret-=_this[_sym-1]; _sym&=_sym-1; } return ret; } #if 0 /*Fenwick's approach to re-scaling the counts. This tests to be twice as slow or more than the one below, even with inline functions enabled, and without loop vectorization (which would make Moffat's approach even faster).*/ void ec_bitree_halve(unsigned *_this,int _sz,int _split){ int i; for(i=_sz;i-->0;){ ec_bitree_update(_this,_sz,i,-(int)(ec_bitree_get_freq(_this,i)>>1)); } } #else /*Fenwick mentions that this approach is also possible, and this is what Moffat uses. Simply convert the tree into a simple array of counts, perform the halving, and then convert it back.*/ void ec_bitree_halve(unsigned *_this,int _sz,int _split){ int i; ec_bitree_to_counts(_this,_sz,_split); /*LOOP VECTORIZES.*/ for(i=0;i<_sz;i++)_this[i]-=_this[i]>>1; ec_bitree_from_counts(_this,_sz); } #endif