#ifndef FE_H #define FE_H #include "crypto_int32.h" #include typedef crypto_int32 fe[10]; /* fe means field element. Here the field is \Z/(2^255-19). An element t, entries t[0]...t[9], represents the integer t[0]+2^26 t[1]+2^51 t[2]+2^77 t[3]+2^102 t[4]+...+2^230 t[9]. Bounds on each t[i] vary depending on context. */ #define fe_frombytes CRYPTO_NAMESPACE(fe_frombytes) #define fe_tobytes CRYPTO_NAMESPACE(fe_tobytes) #define fe_copy CRYPTO_NAMESPACE(fe_copy) #define fe_isnonzero CRYPTO_NAMESPACE(fe_isnonzero) #define fe_isnegative CRYPTO_NAMESPACE(fe_isnegative) #define fe_0 CRYPTO_NAMESPACE(fe_0) #define fe_1 CRYPTO_NAMESPACE(fe_1) #define fe_cswap CRYPTO_NAMESPACE(fe_cswap) #define fe_cmov CRYPTO_NAMESPACE(fe_cmov) #define fe_add CRYPTO_NAMESPACE(fe_add) #define fe_sub CRYPTO_NAMESPACE(fe_sub) #define fe_neg CRYPTO_NAMESPACE(fe_neg) #define fe_mul CRYPTO_NAMESPACE(fe_mul) #define fe_sq CRYPTO_NAMESPACE(fe_sq) #define fe_sq2 CRYPTO_NAMESPACE(fe_sq2) #define fe_invert CRYPTO_NAMESPACE(fe_invert) #define fe_batchinvert CRYPTO_NAMESPACE(fe_batchinvert) #define fe_pow22523 CRYPTO_NAMESPACE(fe_pow22523) extern void fe_frombytes(fe,const unsigned char *); extern void fe_tobytes(unsigned char *,const fe); extern void fe_copy(fe,const fe); extern int fe_isnonzero(const fe); extern int fe_isnegative(const fe); extern void fe_0(fe); extern void fe_1(fe); extern void fe_cswap(fe,fe,unsigned int); extern void fe_cmov(fe,const fe,unsigned int); extern void fe_add(fe,const fe,const fe); extern void fe_sub(fe,const fe,const fe); extern void fe_neg(fe,const fe); extern void fe_mul(fe,const fe,const fe); extern void fe_sq(fe,const fe); extern void fe_sq2(fe,const fe); extern void fe_invert(fe,const fe); extern void fe_batchinvert(fe *out,fe *in,fe *tmp,size_t num,size_t shift); extern void fe_pow22523(fe,const fe); #endif