/usr/include/NTL/GF2.h is in libntl-dev 10.5.0-2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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#define NTL_GF2__H
#include <NTL/ZZ.h>
#include <NTL/vector.h>
NTL_OPEN_NNS
// Context, Bak, and Push types, just for consistency.
// They don't do anything
class GF2Context {
public:
GF2Context() {}
explicit GF2Context(long p) { if (p != 2) LogicError("GF2Context with p != 2"); }
void save() {}
void restore() const {}
};
class GF2Bak {
public:
void save();
void restore();
private:
GF2Bak(const GF2Bak&); // disabled
void operator=(const GF2Bak&); // disabled
};
class GF2Push {
GF2Push(const GF2Push&); // disabled
void operator=(const GF2Push&); // disabled
public:
GF2Push() { }
explicit GF2Push(const GF2Context& context) { }
explicit GF2Push(long p) { if (p != 2) LogicError("GF2Push with p != 2"); }
};
class GF2X; // forward declaration
class ref_GF2; // forward declaration
class GF2 {
public:
typedef long rep_type;
typedef GF2Context context_type;
typedef GF2Bak bak_type;
typedef GF2Push push_type;
typedef GF2X poly_type;
unsigned long _GF2__rep;
GF2() : _GF2__rep(0) { }
explicit GF2(long a) : _GF2__rep(0) { *this = a; }
GF2(INIT_VAL_TYPE, long a) : _GF2__rep(a & 1) { }
GF2(INIT_LOOP_HOLE_TYPE, unsigned long a) : _GF2__rep(a) { }
inline GF2(const ref_GF2&);
GF2& operator=(long a) { _GF2__rep = a & 1; return *this; }
static long modulus() { return 2; }
static GF2 zero() { return GF2(); }
// for consistency
GF2(INIT_NO_ALLOC_TYPE) : _GF2__rep(0) { }
GF2(INIT_ALLOC_TYPE) : _GF2__rep(0) { }
void allocate() { }
void swap(GF2& x) { GF2 t; t = *this; *this = x; x = t; }
};
NTL_DECLARE_RELOCATABLE((GF2*))
class ref_GF2 {
public:
unsigned long *_ref_GF2__ptr;
long _ref_GF2__pos;
ref_GF2() : _ref_GF2__ptr(0), _ref_GF2__pos(0) { }
ref_GF2(GF2& a) :
_ref_GF2__ptr(&a._GF2__rep), _ref_GF2__pos(0) { }
ref_GF2(INIT_LOOP_HOLE_TYPE, unsigned long *ptr, long pos) :
_ref_GF2__ptr(ptr), _ref_GF2__pos(pos) { }
ref_GF2 operator=(const ref_GF2& a)
{
unsigned long rval = (*a._ref_GF2__ptr >> a._ref_GF2__pos) & 1;
unsigned long lval = *_ref_GF2__ptr;
lval = (lval & ~(1UL << _ref_GF2__pos)) | (rval << _ref_GF2__pos);
*_ref_GF2__ptr = lval;
return *this;
}
ref_GF2 operator=(const GF2& a)
{
unsigned long rval = (a._GF2__rep) & 1;
unsigned long lval = *_ref_GF2__ptr;
lval = (lval & ~(1UL << _ref_GF2__pos)) | (rval << _ref_GF2__pos);
*_ref_GF2__ptr = lval;
return *this;
}
ref_GF2 operator=(long a)
{
unsigned long rval = a & 1;
unsigned long lval = *_ref_GF2__ptr;
lval = (lval & ~(1UL << _ref_GF2__pos)) | (rval << _ref_GF2__pos);
*_ref_GF2__ptr = lval;
return *this;
}
void swap(ref_GF2 x) { GF2 t; t = *this; *this = x; x = t; }
};
// I changed the conversion from a ref_GF2 operator
// to a GF2 constructor, because clang was giving me errors
// Note that gcc, icc, and MS compilers were all OK with
// the old code
inline
GF2::GF2(const ref_GF2& other) :
_GF2__rep((*other._ref_GF2__ptr >> other._ref_GF2__pos) & 1)
{ }
// functions
inline long rep(GF2 a) { return a._GF2__rep; }
inline long IsZero(GF2 a)
{ return a._GF2__rep == 0; }
inline long IsOne(GF2 a)
{ return a._GF2__rep == 1; }
inline GF2 to_GF2(long a)
{ return GF2(INIT_VAL, a); }
inline GF2 to_GF2(const ZZ& a)
{ return GF2(INIT_LOOP_HOLE, IsOdd(a)); }
inline GF2 operator+(GF2 a, GF2 b)
{ return GF2(INIT_LOOP_HOLE, a._GF2__rep ^ b._GF2__rep); }
inline GF2 operator+(GF2 a, long b)
{ return a + to_GF2(b); }
inline GF2 operator+(long a, GF2 b)
{ return to_GF2(a) + b; }
inline GF2 operator-(GF2 a, GF2 b)
{ return a + b; }
inline GF2 operator-(GF2 a, long b)
{ return a + b; }
inline GF2 operator-(long a, GF2 b)
{ return a + b; }
inline GF2 operator-(GF2 a)
{ return a; }
inline GF2 sqr(GF2 a)
{ return a; }
inline GF2 operator*(GF2 a, GF2 b)
{ return GF2(INIT_LOOP_HOLE, a._GF2__rep & b._GF2__rep); }
inline GF2 operator*(GF2 a, long b)
{ return a * to_GF2(b); }
inline GF2 operator*(long a, GF2 b)
{ return to_GF2(a) * b; }
inline GF2 operator/(GF2 a, GF2 b)
{
if (IsZero(b)) ArithmeticError("GF2: division by zero");
return a;
}
inline GF2 operator/(GF2 a, long b)
{ return a / to_GF2(b); }
inline GF2 operator/(long a, GF2 b)
{ return to_GF2(a) / b; }
inline GF2 inv(GF2 a)
{ return 1 / a; }
inline long operator==(GF2 a, GF2 b)
{ return a._GF2__rep == b._GF2__rep; }
inline long operator==(GF2 a, long b)
{ return a == to_GF2(b); }
inline long operator==(long a, GF2 b)
{ return to_GF2(a) == b; }
inline long operator!=(GF2 a, GF2 b) { return !(a == b); }
inline long operator!=(GF2 a, long b) { return !(a == b); }
inline long operator!=(long a, GF2 b) { return !(a == b); }
GF2 power(GF2 a, long e);
inline GF2 random_GF2()
{ return GF2(INIT_LOOP_HOLE, RandomBnd(2)); }
// procedural versions
inline GF2& operator+=(GF2& x, GF2 b)
{ return x = x + b; }
inline GF2& operator+=(GF2& x, long b)
{ return x = x + b; }
inline GF2& operator-=(GF2& x, GF2 b)
{ return x = x - b; }
inline GF2& operator-=(GF2& x, long b)
{ return x = x - b; }
inline GF2& operator++(GF2& x) { return x = x + 1; }
inline void operator++(GF2& x, int) { x = x + 1; }
inline GF2& operator--(GF2& x) { return x = x - 1; }
inline void operator--(GF2& x, int) { x = x - 1; }
inline GF2& operator*=(GF2& x, GF2 b)
{ return x = x * b; }
inline GF2& operator*=(GF2& x, long b)
{ return x = x * b; }
inline GF2& operator/=(GF2& x, GF2 b)
{ return x = x / b; }
inline GF2& operator/=(GF2& x, long b)
{ return x = x / b; }
inline void conv(GF2& x, long a) { x = to_GF2(a); }
inline void conv(GF2& x, const ZZ& a) { x = to_GF2(a); }
inline void clear(GF2& x) { x = 0; }
inline void set(GF2& x) { x = 1; }
inline void swap(GF2& x, GF2& y) { x.swap(y); }
inline void add(GF2& x, GF2 a, GF2 b)
{ x = a + b; }
inline void sub(GF2& x, GF2 a, GF2 b)
{ x = a - b; }
inline void negate(GF2& x, GF2 a)
{ x = -a; }
inline void add(GF2& x, GF2 a, long b)
{ x = a + b; }
inline void add(GF2& x, long a, GF2 b)
{ x = a + b; }
inline void sub(GF2& x, GF2 a, long b)
{ x = a - b; }
inline void sub(GF2& x, long a, GF2 b)
{ x = a - b; }
inline void mul(GF2& x, GF2 a, GF2 b)
{ x = a * b; }
inline void mul(GF2& x, GF2 a, long b)
{ x = a * b; }
inline void mul(GF2& x, long a, GF2 b)
{ x = a * b; }
inline void sqr(GF2& x, GF2 a)
{ x = sqr(a); }
inline void div(GF2& x, GF2 a, GF2 b)
{ x = a / b; }
inline void div(GF2& x, long a, GF2 b)
{ x = a / b; }
inline void div(GF2& x, GF2 a, long b)
{ x = a / b; }
inline void inv(GF2& x, GF2 a)
{ x = inv(a); }
inline void power(GF2& x, GF2 a, long e)
{ x = power(a, e); }
inline void random(GF2& x)
{ x = random_GF2(); }
// ref_GF2 variants...theoretically, these would
// have sufficed, because of the implicit conversion
// from GF2& to ref_GF2, but it may be a bit more efficient
// to explicitly overload everything. Moreover,
// the return types of the += type operators would
// not be right.
inline ref_GF2 operator+=(ref_GF2 x, GF2 b)
{ return x = x + b; }
inline ref_GF2 operator+=(ref_GF2 x, long b)
{ return x = x + b; }
inline ref_GF2 operator-=(ref_GF2 x, GF2 b)
{ return x = x - b; }
inline ref_GF2 operator-=(ref_GF2 x, long b)
{ return x = x - b; }
inline ref_GF2 operator++(ref_GF2 x) { return x = x + 1; }
inline void operator++(ref_GF2 x, int) { x = x + 1; }
inline ref_GF2 operator--(ref_GF2 x) { return x = x - 1; }
inline void operator--(ref_GF2 x, int) { x = x - 1; }
inline ref_GF2 operator*=(ref_GF2 x, GF2 b)
{ return x = x * b; }
inline ref_GF2 operator*=(ref_GF2 x, long b)
{ return x = x * b; }
inline ref_GF2 operator/=(ref_GF2 x, GF2 b)
{ return x = x / b; }
inline ref_GF2 operator/=(ref_GF2 x, long b)
{ return x = x / b; }
inline void conv(ref_GF2 x, long a) { x = to_GF2(a); }
inline void conv(ref_GF2 x, const ZZ& a) { x = to_GF2(a); }
inline void clear(ref_GF2 x) { x = 0; }
inline void set(ref_GF2 x) { x = 1; }
inline void swap(ref_GF2 x, ref_GF2 y) { x.swap(y); }
inline void add(ref_GF2 x, GF2 a, GF2 b)
{ x = a + b; }
inline void sub(ref_GF2 x, GF2 a, GF2 b)
{ x = a - b; }
inline void negate(ref_GF2 x, GF2 a)
{ x = -a; }
inline void add(ref_GF2 x, GF2 a, long b)
{ x = a + b; }
inline void add(ref_GF2 x, long a, GF2 b)
{ x = a + b; }
inline void sub(ref_GF2 x, GF2 a, long b)
{ x = a - b; }
inline void sub(ref_GF2 x, long a, GF2 b)
{ x = a - b; }
inline void mul(ref_GF2 x, GF2 a, GF2 b)
{ x = a * b; }
inline void mul(ref_GF2 x, GF2 a, long b)
{ x = a * b; }
inline void mul(ref_GF2 x, long a, GF2 b)
{ x = a * b; }
inline void sqr(ref_GF2 x, GF2 a)
{ x = sqr(a); }
inline void div(ref_GF2 x, GF2 a, GF2 b)
{ x = a / b; }
inline void div(ref_GF2 x, long a, GF2 b)
{ x = a / b; }
inline void div(ref_GF2 x, GF2 a, long b)
{ x = a / b; }
inline void inv(ref_GF2 x, GF2 a)
{ x = inv(a); }
inline void power(ref_GF2 x, GF2 a, long e)
{ x = power(a, e); }
inline void random(ref_GF2 x)
{ x = random_GF2(); }
// I/O...for input, we only provide the ref_GF2 variant
NTL_SNS ostream& operator<<(NTL_SNS ostream& s, GF2 a);
NTL_SNS istream& operator>>(NTL_SNS istream& s, ref_GF2 x);
/* additional legacy conversions for v6 conversion regime */
inline void conv(int& x, GF2 a) { conv(x, rep(a)); }
inline void conv(unsigned int& x, GF2 a) { conv(x, rep(a)); }
inline void conv(long& x, GF2 a) { conv(x, rep(a)); }
inline void conv(unsigned long& x, GF2 a) { conv(x, rep(a)); }
inline void conv(ZZ& x, GF2 a) { conv(x, rep(a)); }
inline void conv(GF2& x, GF2 a) { x = a; }
inline void conv(ref_GF2 x, GF2 a) { x = a; }
/* ------------------------------------- */
// Finally, we declare an specialization Vec<GF2>:
template<> class Vec<GF2>;
NTL_CLOSE_NNS
#endif
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