#include #include #include #include #include #include "bigint.h" #include "numalgo.h" using namespace std; Bigint Bigint::mone(-1); Bigint Bigint::zero(0); Bigint Bigint::one(1); Bigint Bigint::two(2); Bigint::Bigint() :sign(1){} Bigint::Bigint(const string &repr){ stringstream(repr)>>*this; } Bigint::Bigint(slongdigit_t v) :digits(1,abs(v)),sign(v>=0?1:-1){ static_assert(sizeof(longdigit_t)==2*sizeof(digit_t), "longdigit_t should be twice as large as digit_t"); v=abs(v); if(v>digits[0])digits.push_back(v>>digit_bits); else if(v==0){ digits.clear(); sign=1; } checkconsistent(); } Bigint::Bigint(longdigit_t v) :digits(1,(digit_t)v),sign(1){ if(v>digits[0])digits.push_back(v>>digit_bits); else if(v==0)digits.clear(); checkconsistent(); } Bigint::Bigint(sdigit_t v) :digits(1,abs(v)),sign(v>=0?1:-1){ if(v==0){ digits.clear(); sign=1; } checkconsistent(); } Bigint::Bigint(digit_t v) :digits(1,v),sign(1){ if(v==0)digits.clear(); checkconsistent(); } void Bigint::add(Bigint &a,const Bigint &b){ if(a.digits.size()>digit_bits; } if(carry)a.digits.push_back(1); a.normalise(); a.checkconsistent(); } void Bigint::subtract(Bigint &a,const Bigint &b){ if(a.digits.size()=b.digits.size()); if(a.digits.size()==0){ a.checkconsistent(); return; } assert(a.digits.size()>0); int sz=a.digits.size(); int carry=0; for(int i=0;i=(int)b.digits.size()&&!carry)break; digit_t adig=a.digits[i]; digit_t bdig=i<(int)b.digits.size()?b.digits[i]:0; digit_t res=adig-(bdig+carry); carry=(bdig||carry)&&res>=adig; a.digits[i]=res; } if(carry){ //we do a fake 2s complement, sort of carry=0; for(int i=0;i>digit_bits; } for(int j=bsz;carry;j++){ assert(i+j<(int)res.digits.size()); longdigit_t newd=res.digits[i+j]+carry; res.digits[i+j]=newd; carry=newd>>digit_bits; } } res.sign=a.sign*b.sign; res.shrink(); res.normalise(); res.checkconsistent(); return res; } void Bigint::shrink(){ while(digits.size()&&digits.back()==0)digits.pop_back(); } void Bigint::normalise(){ if(digits.size()==0&&sign==-1)sign=1; } void Bigint::checkconsistent(){ assert(digits.size()==0||digits.back()!=0); assert(digits.size()!=0||sign==1); } Bigint& Bigint::operator=(slongdigit_t v){ digits.clear(); if(v==0){ sign=1; checkconsistent(); return *this; } sign=v>=0?1:-1; v*=sign; digits[0]=v; if(v>digits[0])digits.push_back(v>>digit_bits); checkconsistent(); return *this; } Bigint& Bigint::operator=(longdigit_t v){ digits.clear(); if(v!=0){ digits.push_back((digit_t)v); if(v>digits[0])digits.push_back(v>>digit_bits); } checkconsistent(); return *this; } Bigint& Bigint::operator=(sdigit_t v){ digits.clear(); if(v==0)sign=1; else { sign=v>=0?1:-1; v*=sign; digits.push_back(v); } checkconsistent(); return *this; } Bigint& Bigint::operator=(digit_t v){ digits.clear(); sign=1; if(v!=0)digits.push_back(v); checkconsistent(); return *this; } Bigint& Bigint::operator+=(const Bigint &o){ if(&o==this){ //*this + *this operator<<=(1); return *this; } if(sign==1){ if(o.sign==1)add(*this,o); else subtract(*this,o); } else { if(o.sign==1)subtract(*this,o); else add(*this,o); } checkconsistent(); return *this; } Bigint& Bigint::operator-=(const Bigint &o){ if(&o==this){ // *this - *this sign=1; digits.clear(); return *this; } if(sign==1){ if(o.sign==1)subtract(*this,o); else add(*this,o); } else { if(o.sign==1)add(*this,o); else subtract(*this,o); } checkconsistent(); return *this; } Bigint& Bigint::operator*=(const Bigint &o){ *this=product(*this,o); checkconsistent(); return *this; } //TODO: optimise these functions Bigint& Bigint::operator+=(slongdigit_t n){return *this+=Bigint(n);} Bigint& Bigint::operator-=(slongdigit_t n){return *this-=Bigint(n);} Bigint& Bigint::operator*=(slongdigit_t n){return *this*=Bigint(n);} Bigint& Bigint::operator<<=(int sh){ if(sh==0)return *this; if(digits.size()==0)return *this; if(sh<0)return *this>>=-sh; if(sh/digit_bits>0){ digits.insert(digits.begin(),sh/digit_bits,0); sh%=digit_bits; if(sh==0){ checkconsistent(); return *this; } } digits.push_back(0); for(int i=digits.size()-2;i>=0;i--){ digits[i+1]|=digits[i]>>(digit_bits-sh); digits[i]<<=sh; } shrink(); normalise(); checkconsistent(); return *this; } Bigint& Bigint::operator>>=(int sh){ if(sh==0)return *this; if(digits.size()==0)return *this; if(sh<0)return *this<<=-sh; if(sh/digit_bits>0){ if(sh/digit_bits>=(int)digits.size()){ digits.clear(); sign=1; checkconsistent(); return *this; } digits.erase(digits.begin(),digits.begin()+sh/digit_bits); sh%=digit_bits; if(sh==0){ checkconsistent(); return *this; } } digits[0]>>=sh; int sz=digits.size(); for(int i=1;i>=sh; } shrink(); normalise(); checkconsistent(); return *this; } Bigint& Bigint::negate(){ sign=-sign; return *this; } Bigint Bigint::operator+(const Bigint &o) const { return Bigint(*this)+=o; } Bigint Bigint::operator-(const Bigint &o) const { return Bigint(*this)-=o; } Bigint Bigint::operator*(const Bigint &o) const { return product(*this,o); } //TODO: optimise these functions Bigint Bigint::operator+(slongdigit_t n) const {return *this+Bigint(n);} Bigint Bigint::operator-(slongdigit_t n) const {return *this-Bigint(n);} Bigint Bigint::operator*(slongdigit_t n) const {return *this*Bigint(n);} Bigint Bigint::operator<<(int sh) const { return Bigint(*this)<<=sh; } Bigint Bigint::operator>>(int sh) const { return Bigint(*this)>>=sh; } pair Bigint::divmod(const Bigint &div) const { // cerr<<"divmod("< Bigint::divmod(const Bigint &div,int depth,int maxdepth) const { if(depth>maxdepth)assert(false); // cerr<<"divmod("<=digit_bits){ //the large case //take 2 digits of *this and 1 digit of div; quotient gives a good guess int spill=__builtin_clz(digits.back()); longdigit_t thishead2=((longdigit_t)digits.back()<<(spill+digit_bits))|((longdigit_t)digits[digits.size()-2]<0)thishead2|=digits[digits.size()-3]>>(digit_bits-spill); longdigit_t divhead=((longdigit_t)div.digits.back()<>=digit_bits-__builtin_clz(div.digits.back()); longdigit_t factor=thishead2/(divhead+1); //+1 to make sure the quotient guess is <= the actual quotient quotient=factor; quotient<<=thisbtc-digit_bits-divbtc; //shift amount may be negative if thisbtc and divbtc are less than digit_bits apart if(quotient==0)quotient=1; //prevents against (HUGE+1)/HUGE where HUGE==HUGE quotient.sign=sign*div.sign; guess=quotient*div; } else { //divbtc0)thishead2|=digits[digits.size()-3]>>(digit_bits-spill); longdigit_t factor=thishead2/div.digits[0]; quotient=factor; quotient<<=thisbtc-2*digit_bits; quotient.sign=sign*div.sign; guess=quotient*div; } //Now actually subtract out our guess cmp=guess.compareAbs(*this); assert(cmp<=0); //we specifically made our guessed quotient to be <= the actual quotient if(cmp<0){ Bigint rest(*this); rest-=guess; //also correct for *this and guess negative pair dm=rest.divmod(div,depth+1,maxdepth); dm.first+=quotient; return dm; } else { //then cmp==0 return make_pair(quotient,Bigint::zero); } } bool Bigint::operator==(const Bigint &o) const {return compare(o)==0;} bool Bigint::operator!=(const Bigint &o) const {return compare(o)!=0;} bool Bigint::operator<(const Bigint &o) const {return compare(o)<0;} bool Bigint::operator>(const Bigint &o) const {return compare(o)>0;} bool Bigint::operator<=(const Bigint &o) const {return compare(o)<=0;} bool Bigint::operator>=(const Bigint &o) const {return compare(o)>=0;} bool Bigint::operator==(slongdigit_t v) const {return compare(v)==0;} bool Bigint::operator!=(slongdigit_t v) const {return compare(v)!=0;} bool Bigint::operator<(slongdigit_t v) const {return compare(v)<0;} bool Bigint::operator>(slongdigit_t v) const {return compare(v)>0;} bool Bigint::operator<=(slongdigit_t v) const {return compare(v)<=0;} bool Bigint::operator>=(slongdigit_t v) const {return compare(v)>=0;} int Bigint::compare(const Bigint &o) const { if(sign>o.sign)return 1; if(sign=0)return -1; if(sign==1&&v<0)return 1; return sign*compareAbs(v); } int Bigint::compareAbs(const Bigint &o) const { int sz=digits.size(),osz=o.digits.size(); if(sz>osz)return 1; if(sz=0;i--){ if(digits[i]>o.digits[i])return 1; if(digits[i]2)return 1; if(digits.size()==0)return v==0?0:-1; if(digits.size()==2){ if(digits[1]>(digit_t)(v>>digit_bits))return 1; if(digits[1]<(digit_t)(v>>digit_bits))return -1; } if(digits[0]<(digit_t)v)return -1; if(digits[0]>(digit_t)v)return 1; return 0; } int Bigint::bitcount() const { if(digits.size()==0)return 0; return (digits.size()-1)*digit_bits+ilog2(digits.back())+1; } Bigint::slongdigit_t Bigint::lowdigits() const { if(digits.size()==0)return 0; if(digits.size()==1)return digits[0]; longdigit_t mask=~((longdigit_t)1<<(digit_bits-1)); return ((slongdigit_t)1<>(8*j))&255; } } return s; } void Bigint::deserialiseMantissa(const string &s){ assert(s.size()%4==0); sign=1; int sz=s.size()/4; digits.resize(sz); for(int i=0;i Bigint::bits() const { if(digits.size()==0)return {}; vector v(digit_bits*(digits.size()-1)+ilog2(digits.back())+1); int sz=digits.size(); for(int i=0;i>=1; } } return v; } Bigint::digit_t Bigint::_digit(int idx) const { return digits.at(idx); } istream& operator>>(istream &is,Bigint &b){ while(isspace(is.peek()))is.get(); if(!is)return is; b.digits.resize(0); if(is.peek()=='-'){ b.sign=-1; is.get(); } else b.sign=1; bool acted=false; if(is.peek()=='0'){ is.get(); if(is.peek()=='x'){ is.get(); acted=false; while(true){ char c=is.peek(); if(!isdigit(c)&&(c<'a'||c>'f')&&(c<'A'||c>'F'))break; acted=true; is.get(); if(!is)break; int n; if(c<='9')n=c-'0'; else if(c<='F')n=c-'A'+10; else n=c-'a'+10; b<<=4; b+=n; } if(!acted)is.setstate(ios_base::failbit); b.normalise(); b.checkconsistent(); return is; } else acted=true; } Bigint ten(10); while(true){ char c=is.peek(); if(!isdigit(c))break; acted=true; is.get(); if(!is)break; b*=ten; b+=c-'0'; } if(!acted)is.setstate(ios_base::failbit); b.normalise(); b.checkconsistent(); return is; } std::ostream& operator<<(std::ostream &os,Bigint b){ if(b<0){ os<<'-'; b.negate(); } if(os.flags()&ios_base::hex){ os<<"0x"; if(b.digits.size()==0)return os<<'0'; os<=0;i--){ os< outbuf; while(b!=0){ pair dm=b.divmod(div); b=dm.first; Bigint::longdigit_t val=0; assert(dm.second.digits.size()<=2); if(dm.second.digits.size()>=2) val+=((Bigint::longdigit_t)1<=1) val+=dm.second.digits[0]; outbuf.push_back(val); } for(int i=outbuf.size()-1;i>=0;i--){ (i==(int)outbuf.size()-1?os:os<