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- /*
- * File: dclxvi-20130329/fpe.h
- * Author: Ruben Niederhagen, Peter Schwabe
- * Public Domain
- */
- #ifndef FPE_H
- #define FPE_H
- #include <stdio.h>
- #include "mydouble.h"
- #ifdef BENCH
- unsigned long long int multpcycles; unsigned long long int nummultp;
- unsigned long long int nummultzerop;
- unsigned long long int nummultonep;
- unsigned long long int sqpcycles; unsigned long long int numsqp;
- unsigned long long invpcycles; unsigned long long numinvp;
- #endif
- typedef struct fpe_struct fpe_struct_t;
- struct fpe_struct
- {
- mydouble v[12];
- } __attribute__ ((aligned (16)));
- typedef fpe_struct_t fpe_t[1];
- void fpe_short_coeffred(fpe_t rop);
- // Set fpe_t rop to given value:
- void fpe_set(fpe_t rop, const fpe_t op);
- /* Communicate the fact that the fpe is reduced (and that we don't know anything more about it) */
- void fpe_isreduced(fpe_t rop);
- // Set fpe_t rop to value given in bytearray -- inverse function to fpe_to_bytearray
- void fpe_set_bytearray(fpe_t rop, const unsigned char *op, size_t oplen);
- // Set fpe_t rop to value given in double array of length 12
- void fpe_set_doublearray(fpe_t rop, const mydouble op[12]);
- // Set rop to one
- void fpe_setone(fpe_t rop);
- // Set rop to zero
- void fpe_setzero(fpe_t rop);
- // Compare for equality:
- int fpe_iseq(const fpe_t op1, const fpe_t op2);
- // Is the element equal to 1:
- int fpe_isone(const fpe_t op);
- // Is the element equal to 0:
- int fpe_iszero(const fpe_t op);
- // Compute the negative of an fpe
- void fpe_neg(fpe_t rop, const fpe_t op);
- // Double an fpe:
- void fpe_double(fpe_t rop, const fpe_t op);
- // Triple an fpe:
- void fpe_triple(fpe_t rop, const fpe_t op);
- // Add two fpe, store result in rop:
- void fpe_add(fpe_t rop, const fpe_t op1, const fpe_t op2);
- // Subtract op2 from op1, store result in rop:
- void fpe_sub(fpe_t rop, const fpe_t op1, const fpe_t op2);
- #ifdef QHASM
- #define fpe_mul fpe_mul_qhasm
- #else
- #define fpe_mul fpe_mul_c
- #endif
- // Multiply two fpe, store result in rop:
- void fpe_mul(fpe_t rop, const fpe_t op1, const fpe_t op2);
- // Square an fpe, store result in rop:
- void fpe_square(fpe_t rop, const fpe_t op);
- // Compute inverse of an fpe, store result in rop:
- void fpe_invert(fpe_t rop, const fpe_t op1);
- // Print the element to stdout:
- void fpe_print(FILE * outfile, const fpe_t op);
- // Convert fpe into a bytearray
- void fpe_to_bytearray(unsigned char * rop, const fpe_t op);
- /*
- // Field constants
- fpe_t fpe_one;
- fpe_t zeta; // Third root of unity in F_p fulfilling Z^{p^2} = -zeta * Z
- fpe_t _1o3modp; // 1/3 \in \F_p
- // Two constants needed for the cometa-pairing computation
- fpe_t cometa_c0_const;
- fpe_t cometa_c1_const;
- */
- #endif
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