-rw-r--r-- 4014 cryptattacktester-20231020/bit.h raw
#ifndef bit_h
#define bit_h
#include "bigint.h"
#include "bit_cost.h"
#include <cassert>
#include <bitset>
#include <vector>
#define bit_slicing 64
enum bit_ops_selector {
bit_ops_cost,
bit_ops_not,
bit_ops_xor,
bit_ops_and,
bit_ops_or,
bit_ops_xnor,
bit_ops_andn,
bit_ops_nand,
bit_ops_orn,
bit_ops_nor,
bit_ops_mux,
bit_ops_cswap,
} ;
const std::vector<bit_ops_selector> bit_ops_selectors = {
bit_ops_cost,
bit_ops_not,
bit_ops_xor,
bit_ops_and,
bit_ops_or,
bit_ops_xnor,
bit_ops_andn,
bit_ops_nand,
bit_ops_orn,
bit_ops_nor,
bit_ops_mux,
bit_ops_cswap,
} ;
class bit {
static bigint cost;
static bigint numnot;
static bigint numxor;
static bigint numand;
static bigint numor;
static bigint numxnor;
static bigint numandn;
static bigint numnand;
static bigint numorn;
static bigint numnor;
static bigint nummux;
static bigint numcswap;
std::bitset<bit_slicing> b;
public:
static bigint ops(void) { return cost; }
static bigint ops(bit_ops_selector t) {
switch(t) {
case bit_ops_not: return numnot;
case bit_ops_xor: return numxor;
case bit_ops_and: return numand;
case bit_ops_or: return numor;
case bit_ops_xnor: return numxnor;
case bit_ops_andn: return numandn;
case bit_ops_nand: return numnand;
case bit_ops_orn: return numorn;
case bit_ops_nor: return numnor;
case bit_ops_mux: return nummux;
case bit_ops_cswap: return numcswap;
default: return cost;
}
}
static const char *opsname(bit_ops_selector t) {
switch(t) {
case bit_ops_not: return "not";
case bit_ops_xor: return "xor";
case bit_ops_and: return "and";
case bit_ops_or: return "or";
case bit_ops_xnor: return "xnor";
case bit_ops_andn: return "andn";
case bit_ops_nand: return "nand";
case bit_ops_orn: return "orn";
case bit_ops_nor: return "nor";
case bit_ops_mux: return "mux";
case bit_ops_cswap: return "cswap";
default: return "ops";
}
}
static void clear_all()
{
cost = 0;
numnot = 0;
numxor = 0;
numand = 0;
numor = 0;
numxnor = 0;
numandn = 0;
numnand = 0;
numorn = 0;
numnor = 0;
nummux = 0;
numcswap = 0;
}
std::bitset<bit_slicing> value_vector(void) const { return b; }
bool value(void) const { return b[0]; }
void value_assert_eq(const bit &c) { assert(b == c.b); }
bit(unsigned long i = 0) : b(-(i & 1)) { }
bit(std::bitset<bit_slicing> x) : b(x) { }
bit operator~() const { cost += bit_not_cost; ++numnot; return bit(b ^ std::bitset<bit_slicing>(-(unsigned long long) 1)); }
bit operator^(const bit &c) const { cost += bit_xor_cost; ++numxor; return bit(b ^ c.b); }
bit operator&(const bit &c) const { cost += bit_and_cost; ++numand; return bit(b & c.b); }
bit operator|(const bit &c) const { cost += bit_or_cost; ++numor; return bit(b | c.b); }
bit xnor(const bit &c) const { cost += bit_xnor_cost; ++numxnor; return bit(~(b ^ c.b)); }
bit andn(const bit &c) const { cost += bit_andn_cost; ++numandn; return bit(b & ~c.b); }
bit nand(const bit &c) const { cost += bit_nand_cost; ++numnand; return bit(~(b & c.b)); }
bit orn(const bit &c) const { cost += bit_orn_cost; ++numorn; return bit(b | ~c.b); }
bit nor(const bit &c) const { cost += bit_nor_cost; ++numnor; return bit(~(b | c.b)); }
bit mux(const bit &c0,const bit &c1) const { cost += bit_mux_cost; ++nummux; return bit(c0.b ^ (b & (c0.b ^ c1.b))); }
void cswap(bit &c0,bit &c1) const
{ cost += bit_cswap_cost; ++numcswap;
bit flip = bit(b & (c0.b ^ c1.b));
bit t0 = bit(c0.b ^ flip.b); // i.e., this->mux(b0,b1)
bit t1 = bit(c1.b ^ flip.b); // i.e., this->mux(b1,b0)
c0 = t0;
c1 = t1;
}
bit operator^=(const bit &c) { *this = *this ^ c; return *this; }
bit operator&=(const bit &c) { *this = *this & c; return *this; }
bit operator|=(const bit &c) { *this = *this | c; return *this; }
} ;
#endif