-rw-r--r-- 12386 saferewrite-20240620/src/uint64_max/supercopnew/crypto_uint64.h raw
/* auto-generated: cd inttypes; ./autogen */ #ifndef crypto_uint64_h #define crypto_uint64_h #include <inttypes.h> #define crypto_uint64 uint64_t #define crypto_uint64_signed int64_t #define crypto_uint64_signed_optblocker supercop_uint64_signed_optblocker extern volatile crypto_uint64_signed crypto_uint64_signed_optblocker; __attribute__((unused)) static inline crypto_uint64 crypto_uint64_load(const unsigned char *crypto_uint64_s) { crypto_uint64 crypto_uint64_z = 0; crypto_uint64_z |= ((crypto_uint64) (*crypto_uint64_s++)) << 0; crypto_uint64_z |= ((crypto_uint64) (*crypto_uint64_s++)) << 8; crypto_uint64_z |= ((crypto_uint64) (*crypto_uint64_s++)) << 16; crypto_uint64_z |= ((crypto_uint64) (*crypto_uint64_s++)) << 24; crypto_uint64_z |= ((crypto_uint64) (*crypto_uint64_s++)) << 32; crypto_uint64_z |= ((crypto_uint64) (*crypto_uint64_s++)) << 40; crypto_uint64_z |= ((crypto_uint64) (*crypto_uint64_s++)) << 48; crypto_uint64_z |= ((crypto_uint64) (*crypto_uint64_s++)) << 56; return crypto_uint64_z; } __attribute__((unused)) static inline void crypto_uint64_store(unsigned char *crypto_uint64_s,crypto_uint64 crypto_uint64_x) { *crypto_uint64_s++ = crypto_uint64_x >> 0; *crypto_uint64_s++ = crypto_uint64_x >> 8; *crypto_uint64_s++ = crypto_uint64_x >> 16; *crypto_uint64_s++ = crypto_uint64_x >> 24; *crypto_uint64_s++ = crypto_uint64_x >> 32; *crypto_uint64_s++ = crypto_uint64_x >> 40; *crypto_uint64_s++ = crypto_uint64_x >> 48; *crypto_uint64_s++ = crypto_uint64_x >> 56; } __attribute__((unused)) static inline crypto_uint64_signed crypto_uint64_signed_negative_mask(crypto_uint64_signed crypto_uint64_x) { #if defined(__GNUC__) && defined(__x86_64__) __asm__ ("sarq $63,%0" : "+r"(crypto_uint64_x) : : "cc"); return crypto_uint64_x; #elif defined(__GNUC__) && defined(__aarch64__) crypto_uint64_signed crypto_uint64_y; __asm__ ("asr %0,%1,63" : "=r"(crypto_uint64_y) : "r"(crypto_uint64_x) : ); return crypto_uint64_y; #else crypto_uint64_x >>= 64-6; crypto_uint64_x ^= crypto_uint64_signed_optblocker; crypto_uint64_x >>= 5; return crypto_uint64_x; #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_bottombit_mask(crypto_uint64 crypto_uint64_x) { #if defined(__GNUC__) && defined(__x86_64__) __asm__ ("andq $1,%0" : "+r"(crypto_uint64_x) : : "cc"); return -crypto_uint64_x; #elif defined(__GNUC__) && defined(__aarch64__) crypto_uint64 crypto_uint64_y; __asm__ ("sbfx %0,%1,0,1" : "=r"(crypto_uint64_y) : "r"(crypto_uint64_x) : ); return crypto_uint64_y; #else crypto_uint64_x &= 1 ^ crypto_uint64_signed_optblocker; return -crypto_uint64_x; #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_bitinrangepublicpos_mask(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_s) { #if defined(__GNUC__) && defined(__x86_64__) __asm__ ("shrq %%cl,%0" : "+r"(crypto_uint64_x) : "c"(crypto_uint64_s) : "cc"); #elif defined(__GNUC__) && defined(__aarch64__) __asm__ ("lsr %0,%0,%1" : "+r"(crypto_uint64_x) : "r"(crypto_uint64_s) : ); #else crypto_uint64_x >>= crypto_uint64_s ^ crypto_uint64_signed_optblocker; #endif return crypto_uint64_bottombit_mask(crypto_uint64_x); } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_shlmod(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_s) { #if defined(__GNUC__) && defined(__x86_64__) __asm__ ("shlq %%cl,%0" : "+r"(crypto_uint64_x) : "c"(crypto_uint64_s) : "cc"); #elif defined(__GNUC__) && defined(__aarch64__) __asm__ ("lsl %0,%0,%1" : "+r"(crypto_uint64_x) : "r"(crypto_uint64_s) : ); #else int crypto_uint64_k, crypto_uint64_l; for (crypto_uint64_l = 0,crypto_uint64_k = 1;crypto_uint64_k < 64;++crypto_uint64_l,crypto_uint64_k *= 2) crypto_uint64_x ^= (crypto_uint64_x ^ (crypto_uint64_x << crypto_uint64_k)) & crypto_uint64_bitinrangepublicpos_mask(crypto_uint64_s,crypto_uint64_l); #endif return crypto_uint64_x; } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_shrmod(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_s) { #if defined(__GNUC__) && defined(__x86_64__) __asm__ ("shrq %%cl,%0" : "+r"(crypto_uint64_x) : "c"(crypto_uint64_s) : "cc"); #elif defined(__GNUC__) && defined(__aarch64__) __asm__ ("lsr %0,%0,%1" : "+r"(crypto_uint64_x) : "r"(crypto_uint64_s) : ); #else int crypto_uint64_k, crypto_uint64_l; for (crypto_uint64_l = 0,crypto_uint64_k = 1;crypto_uint64_k < 64;++crypto_uint64_l,crypto_uint64_k *= 2) crypto_uint64_x ^= (crypto_uint64_x ^ (crypto_uint64_x >> crypto_uint64_k)) & crypto_uint64_bitinrangepublicpos_mask(crypto_uint64_s,crypto_uint64_l); #endif return crypto_uint64_x; } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_bitmod_mask(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_s) { crypto_uint64_x = crypto_uint64_shrmod(crypto_uint64_x,crypto_uint64_s); return crypto_uint64_bottombit_mask(crypto_uint64_x); } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_nonzero_mask(crypto_uint64 crypto_uint64_x) { #if defined(__GNUC__) && defined(__aarch64__) crypto_uint64 crypto_uint64_z; __asm__ ("cmp %1,0\n csetm %0,ne" : "=r"(crypto_uint64_z) : "r"(crypto_uint64_x) : "cc"); return crypto_uint64_z; #else crypto_uint64_x |= -crypto_uint64_x; return crypto_uint64_signed_negative_mask(crypto_uint64_x); #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_zero_mask(crypto_uint64 crypto_uint64_x) { #if defined(__GNUC__) && defined(__aarch64__) crypto_uint64 crypto_uint64_z; __asm__ ("cmp %1,0\n csetm %0,eq" : "=r"(crypto_uint64_z) : "r"(crypto_uint64_x) : "cc"); return crypto_uint64_z; #else return ~crypto_uint64_nonzero_mask(crypto_uint64_x); #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_unequal_mask(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_y) { #if defined(__GNUC__) && defined(__aarch64__) crypto_uint64 crypto_uint64_z; __asm__ ("cmp %1,%2\n csetm %0,ne" : "=r"(crypto_uint64_z) : "r"(crypto_uint64_x), "r"(crypto_uint64_y) : "cc"); return crypto_uint64_z; #else return crypto_uint64_nonzero_mask(crypto_uint64_x ^ crypto_uint64_y); #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_equal_mask(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_y) { #if defined(__GNUC__) && defined(__aarch64__) crypto_uint64 crypto_uint64_z; __asm__ ("cmp %1,%2\n csetm %0,eq" : "=r"(crypto_uint64_z) : "r"(crypto_uint64_x), "r"(crypto_uint64_y) : "cc"); return crypto_uint64_z; #else return ~crypto_uint64_unequal_mask(crypto_uint64_x,crypto_uint64_y); #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_min(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_y) { #if defined(__GNUC__) && defined(__x86_64__) asm("cmpq %1,%0\n cmovaq %1,%0" : "+r"(crypto_uint64_x), "+r"(crypto_uint64_y) : : "cc"); return crypto_uint64_x; #elif defined(__GNUC__) && defined(__aarch64__) __asm__ ("cmp %0,%1\n csel %0,%0,%1,lo" : "+r"(crypto_uint64_x), "+r"(crypto_uint64_y) : : "cc"); return crypto_uint64_x; #else crypto_uint64 crypto_uint64_r = crypto_uint64_y ^ crypto_uint64_x; crypto_uint64 crypto_uint64_z = crypto_uint64_y - crypto_uint64_x; crypto_uint64_z ^= crypto_uint64_r & (crypto_uint64_z ^ crypto_uint64_y ^ (((crypto_uint64) 1) << (64-1))); crypto_uint64_z = crypto_uint64_signed_negative_mask(crypto_uint64_z); crypto_uint64_z &= crypto_uint64_r; return crypto_uint64_x ^ crypto_uint64_z; #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_max(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_y) { #if defined(__GNUC__) && defined(__x86_64__) asm("cmpq %1,%0\n cmovbq %1,%0" : "+r"(crypto_uint64_x), "+r"(crypto_uint64_y) : : "cc"); return crypto_uint64_x; #elif defined(__GNUC__) && defined(__aarch64__) __asm__ ("cmp %0,%1\n csel %0,%1,%0,lo" : "+r"(crypto_uint64_x), "+r"(crypto_uint64_y) : : "cc"); return crypto_uint64_x; #else crypto_uint64 crypto_uint64_r = crypto_uint64_y ^ crypto_uint64_x; crypto_uint64 crypto_uint64_z = crypto_uint64_y - crypto_uint64_x; crypto_uint64_z ^= crypto_uint64_r & (crypto_uint64_z ^ crypto_uint64_y ^ (((crypto_uint64) 1) << (64-1))); crypto_uint64_z = crypto_uint64_signed_negative_mask(crypto_uint64_z); crypto_uint64_z &= crypto_uint64_r; return crypto_uint64_y ^ crypto_uint64_z; #endif } __attribute__((unused)) static inline void crypto_uint64_minmax(crypto_uint64 *crypto_uint64_p,crypto_uint64 *crypto_uint64_q) { crypto_uint64 crypto_uint64_x = *crypto_uint64_p; crypto_uint64 crypto_uint64_y = *crypto_uint64_q; #if defined(__GNUC__) && defined(__x86_64__) crypto_uint64 crypto_uint64_z; asm("cmpq %1,%0\n movq %0,%2\n cmovaq %1,%0\n cmovaq %2,%1" : "+r"(crypto_uint64_x), "+r"(crypto_uint64_y), "=r"(crypto_uint64_z) : : "cc"); *crypto_uint64_p = crypto_uint64_x; *crypto_uint64_q = crypto_uint64_y; #elif defined(__GNUC__) && defined(__aarch64__) crypto_uint64 crypto_uint64_r, crypto_uint64_s; __asm__ ("cmp %2,%3\n csel %0,%2,%3,lo\n csel %1,%3,%2,lo" : "=&r"(crypto_uint64_r), "=r"(crypto_uint64_s) : "r"(crypto_uint64_x), "r"(crypto_uint64_y) : "cc"); *crypto_uint64_p = crypto_uint64_r; *crypto_uint64_q = crypto_uint64_s; #else crypto_uint64 crypto_uint64_r = crypto_uint64_y ^ crypto_uint64_x; crypto_uint64 crypto_uint64_z = crypto_uint64_y - crypto_uint64_x; crypto_uint64_z ^= crypto_uint64_r & (crypto_uint64_z ^ crypto_uint64_y ^ (((crypto_uint64) 1) << (64-1))); crypto_uint64_z = crypto_uint64_signed_negative_mask(crypto_uint64_z); crypto_uint64_z &= crypto_uint64_r; crypto_uint64_x ^= crypto_uint64_z; crypto_uint64_y ^= crypto_uint64_z; *crypto_uint64_p = crypto_uint64_x; *crypto_uint64_q = crypto_uint64_y; #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_smaller_mask(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_y) { #if defined(__GNUC__) && defined(__aarch64__) crypto_uint64 crypto_uint64_z; __asm__ ("cmp %1,%2\n csetm %0,lo" : "=r"(crypto_uint64_z) : "r"(crypto_uint64_x), "r"(crypto_uint64_y) : "cc"); return crypto_uint64_z; #else crypto_uint64 crypto_uint64_r = crypto_uint64_x ^ crypto_uint64_y; crypto_uint64 crypto_uint64_z = crypto_uint64_x - crypto_uint64_y; crypto_uint64_z ^= crypto_uint64_r & (crypto_uint64_z ^ crypto_uint64_x ^ (((crypto_uint64) 1) << (64-1))); return crypto_uint64_signed_negative_mask(crypto_uint64_z); #endif } __attribute__((unused)) static inline crypto_uint64 crypto_uint64_leq_mask(crypto_uint64 crypto_uint64_x,crypto_uint64 crypto_uint64_y) { #if defined(__GNUC__) && defined(__aarch64__) crypto_uint64 crypto_uint64_z; __asm__ ("cmp %1,%2\n csetm %0,ls" : "=r"(crypto_uint64_z) : "r"(crypto_uint64_x), "r"(crypto_uint64_y) : "cc"); return crypto_uint64_z; #else return ~crypto_uint64_smaller_mask(crypto_uint64_y,crypto_uint64_x); #endif } __attribute__((unused)) static inline int crypto_uint64_ones_num(crypto_uint64 crypto_uint64_x) { crypto_uint64 crypto_uint64_y = crypto_uint64_x; const crypto_uint64 C0 = 0x5555555555555555; const crypto_uint64 C1 = 0x3333333333333333; const crypto_uint64 C2 = 0x0f0f0f0f0f0f0f0f; crypto_uint64_y -= ((crypto_uint64_y >> 1) & C0); crypto_uint64_y = (crypto_uint64_y & C1) + ((crypto_uint64_y >> 2) & C1); crypto_uint64_y = (crypto_uint64_y + (crypto_uint64_y >> 4)) & C2; crypto_uint64_y += crypto_uint64_y >> 8; crypto_uint64_y += crypto_uint64_y >> 16; crypto_uint64_y = (crypto_uint64_y + (crypto_uint64_y >> 32)) & 0xff; return crypto_uint64_y; } __attribute__((unused)) static inline int crypto_uint64_bottomzeros_num(crypto_uint64 crypto_uint64_x) { #if defined(__GNUC__) && defined(__x86_64__) asm("bsfq %0,%0\n cmovz %1,%0" : "+r"(crypto_uint64_x) : "r"((int64_t) 64) : "cc"); return crypto_uint64_x; #elif defined(__GNUC__) && defined(__aarch64__) int64_t crypto_uint64_y; asm("rbit %0,%1\n clz %0,%0" : "=r"(crypto_uint64_y) : "r"(crypto_uint64_x) : ); return crypto_uint64_y; #else crypto_uint64 crypto_uint64_y = crypto_uint64_x ^ (crypto_uint64_x-1); crypto_uint64_y = ((crypto_uint64_signed) crypto_uint64_y) >> 1; crypto_uint64_y &= ~(crypto_uint64_x & (((crypto_uint64) 1) << (64-1))); return crypto_uint64_ones_num(crypto_uint64_y); #endif } #endif