193 lines
7.8 KiB
C
193 lines
7.8 KiB
C
#ifndef SECP256K1_INT128_STRUCT_IMPL_H
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#define SECP256K1_INT128_STRUCT_IMPL_H
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#include "int128.h"
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#if defined(_MSC_VER) && (defined(_M_X64) || defined(_M_ARM64)) /* MSVC */
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# include <intrin.h>
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# if defined(_M_ARM64) || defined(SECP256K1_MSVC_MULH_TEST_OVERRIDE)
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/* On ARM64 MSVC, use __(u)mulh for the upper half of 64x64 multiplications.
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(Define SECP256K1_MSVC_MULH_TEST_OVERRIDE to test this code path on X64,
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which supports both __(u)mulh and _umul128.) */
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# if defined(SECP256K1_MSVC_MULH_TEST_OVERRIDE)
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# pragma message(__FILE__ ": SECP256K1_MSVC_MULH_TEST_OVERRIDE is defined, forcing use of __(u)mulh.")
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# endif
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static SECP256K1_INLINE uint64_t rustsecp256k1_v0_8_1_umul128(uint64_t a, uint64_t b, uint64_t* hi) {
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*hi = __umulh(a, b);
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return a * b;
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}
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static SECP256K1_INLINE int64_t rustsecp256k1_v0_8_1_mul128(int64_t a, int64_t b, int64_t* hi) {
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*hi = __mulh(a, b);
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return (uint64_t)a * (uint64_t)b;
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}
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# else
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/* On x84_64 MSVC, use native _(u)mul128 for 64x64->128 multiplications. */
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# define rustsecp256k1_v0_8_1_umul128 _umul128
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# define rustsecp256k1_v0_8_1_mul128 _mul128
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# endif
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#else
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/* On other systems, emulate 64x64->128 multiplications using 32x32->64 multiplications. */
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static SECP256K1_INLINE uint64_t rustsecp256k1_v0_8_1_umul128(uint64_t a, uint64_t b, uint64_t* hi) {
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uint64_t ll = (uint64_t)(uint32_t)a * (uint32_t)b;
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uint64_t lh = (uint32_t)a * (b >> 32);
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uint64_t hl = (a >> 32) * (uint32_t)b;
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uint64_t hh = (a >> 32) * (b >> 32);
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uint64_t mid34 = (ll >> 32) + (uint32_t)lh + (uint32_t)hl;
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*hi = hh + (lh >> 32) + (hl >> 32) + (mid34 >> 32);
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return (mid34 << 32) + (uint32_t)ll;
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}
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static SECP256K1_INLINE int64_t rustsecp256k1_v0_8_1_mul128(int64_t a, int64_t b, int64_t* hi) {
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uint64_t ll = (uint64_t)(uint32_t)a * (uint32_t)b;
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int64_t lh = (uint32_t)a * (b >> 32);
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int64_t hl = (a >> 32) * (uint32_t)b;
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int64_t hh = (a >> 32) * (b >> 32);
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uint64_t mid34 = (ll >> 32) + (uint32_t)lh + (uint32_t)hl;
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*hi = hh + (lh >> 32) + (hl >> 32) + (mid34 >> 32);
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return (mid34 << 32) + (uint32_t)ll;
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}
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#endif
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_u128_load(rustsecp256k1_v0_8_1_uint128 *r, uint64_t hi, uint64_t lo) {
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r->hi = hi;
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r->lo = lo;
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_u128_mul(rustsecp256k1_v0_8_1_uint128 *r, uint64_t a, uint64_t b) {
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r->lo = rustsecp256k1_v0_8_1_umul128(a, b, &r->hi);
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_u128_accum_mul(rustsecp256k1_v0_8_1_uint128 *r, uint64_t a, uint64_t b) {
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uint64_t lo, hi;
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lo = rustsecp256k1_v0_8_1_umul128(a, b, &hi);
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r->lo += lo;
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r->hi += hi + (r->lo < lo);
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_u128_accum_u64(rustsecp256k1_v0_8_1_uint128 *r, uint64_t a) {
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r->lo += a;
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r->hi += r->lo < a;
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}
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/* Unsigned (logical) right shift.
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* Non-constant time in n.
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*/
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_u128_rshift(rustsecp256k1_v0_8_1_uint128 *r, unsigned int n) {
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VERIFY_CHECK(n < 128);
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if (n >= 64) {
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r->lo = r->hi >> (n-64);
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r->hi = 0;
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} else if (n > 0) {
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r->lo = ((1U * r->hi) << (64-n)) | r->lo >> n;
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r->hi >>= n;
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}
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}
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static SECP256K1_INLINE uint64_t rustsecp256k1_v0_8_1_u128_to_u64(const rustsecp256k1_v0_8_1_uint128 *a) {
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return a->lo;
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}
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static SECP256K1_INLINE uint64_t rustsecp256k1_v0_8_1_u128_hi_u64(const rustsecp256k1_v0_8_1_uint128 *a) {
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return a->hi;
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_u128_from_u64(rustsecp256k1_v0_8_1_uint128 *r, uint64_t a) {
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r->hi = 0;
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r->lo = a;
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}
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static SECP256K1_INLINE int rustsecp256k1_v0_8_1_u128_check_bits(const rustsecp256k1_v0_8_1_uint128 *r, unsigned int n) {
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VERIFY_CHECK(n < 128);
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return n >= 64 ? r->hi >> (n - 64) == 0
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: r->hi == 0 && r->lo >> n == 0;
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_i128_load(rustsecp256k1_v0_8_1_int128 *r, int64_t hi, uint64_t lo) {
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r->hi = hi;
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r->lo = lo;
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_i128_mul(rustsecp256k1_v0_8_1_int128 *r, int64_t a, int64_t b) {
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int64_t hi;
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r->lo = (uint64_t)rustsecp256k1_v0_8_1_mul128(a, b, &hi);
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r->hi = (uint64_t)hi;
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_i128_accum_mul(rustsecp256k1_v0_8_1_int128 *r, int64_t a, int64_t b) {
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int64_t hi;
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uint64_t lo = (uint64_t)rustsecp256k1_v0_8_1_mul128(a, b, &hi);
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r->lo += lo;
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hi += r->lo < lo;
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/* Verify no overflow.
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* If r represents a positive value (the sign bit is not set) and the value we are adding is a positive value (the sign bit is not set),
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* then we require that the resulting value also be positive (the sign bit is not set).
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* Note that (X <= Y) means (X implies Y) when X and Y are boolean values (i.e. 0 or 1).
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*/
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VERIFY_CHECK((r->hi <= 0x7fffffffffffffffu && (uint64_t)hi <= 0x7fffffffffffffffu) <= (r->hi + (uint64_t)hi <= 0x7fffffffffffffffu));
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/* Verify no underflow.
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* If r represents a negative value (the sign bit is set) and the value we are adding is a negative value (the sign bit is set),
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* then we require that the resulting value also be negative (the sign bit is set).
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*/
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VERIFY_CHECK((r->hi > 0x7fffffffffffffffu && (uint64_t)hi > 0x7fffffffffffffffu) <= (r->hi + (uint64_t)hi > 0x7fffffffffffffffu));
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r->hi += hi;
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_i128_dissip_mul(rustsecp256k1_v0_8_1_int128 *r, int64_t a, int64_t b) {
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int64_t hi;
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uint64_t lo = (uint64_t)rustsecp256k1_v0_8_1_mul128(a, b, &hi);
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hi += r->lo < lo;
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/* Verify no overflow.
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* If r represents a positive value (the sign bit is not set) and the value we are subtracting is a negative value (the sign bit is set),
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* then we require that the resulting value also be positive (the sign bit is not set).
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*/
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VERIFY_CHECK((r->hi <= 0x7fffffffffffffffu && (uint64_t)hi > 0x7fffffffffffffffu) <= (r->hi - (uint64_t)hi <= 0x7fffffffffffffffu));
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/* Verify no underflow.
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* If r represents a negative value (the sign bit is set) and the value we are subtracting is a positive value (the sign sign bit is not set),
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* then we require that the resulting value also be negative (the sign bit is set).
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*/
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VERIFY_CHECK((r->hi > 0x7fffffffffffffffu && (uint64_t)hi <= 0x7fffffffffffffffu) <= (r->hi - (uint64_t)hi > 0x7fffffffffffffffu));
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r->hi -= hi;
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r->lo -= lo;
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_i128_det(rustsecp256k1_v0_8_1_int128 *r, int64_t a, int64_t b, int64_t c, int64_t d) {
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rustsecp256k1_v0_8_1_i128_mul(r, a, d);
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rustsecp256k1_v0_8_1_i128_dissip_mul(r, b, c);
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}
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/* Signed (arithmetic) right shift.
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* Non-constant time in n.
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*/
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_i128_rshift(rustsecp256k1_v0_8_1_int128 *r, unsigned int n) {
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VERIFY_CHECK(n < 128);
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if (n >= 64) {
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r->lo = (uint64_t)((int64_t)(r->hi) >> (n-64));
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r->hi = (uint64_t)((int64_t)(r->hi) >> 63);
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} else if (n > 0) {
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r->lo = ((1U * r->hi) << (64-n)) | r->lo >> n;
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r->hi = (uint64_t)((int64_t)(r->hi) >> n);
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}
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}
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static SECP256K1_INLINE int64_t rustsecp256k1_v0_8_1_i128_to_i64(const rustsecp256k1_v0_8_1_int128 *a) {
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return (int64_t)a->lo;
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}
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static SECP256K1_INLINE void rustsecp256k1_v0_8_1_i128_from_i64(rustsecp256k1_v0_8_1_int128 *r, int64_t a) {
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r->hi = (uint64_t)(a >> 63);
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r->lo = (uint64_t)a;
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}
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static SECP256K1_INLINE int rustsecp256k1_v0_8_1_i128_eq_var(const rustsecp256k1_v0_8_1_int128 *a, const rustsecp256k1_v0_8_1_int128 *b) {
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return a->hi == b->hi && a->lo == b->lo;
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}
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static SECP256K1_INLINE int rustsecp256k1_v0_8_1_i128_check_pow2(const rustsecp256k1_v0_8_1_int128 *r, unsigned int n) {
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VERIFY_CHECK(n < 127);
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return n >= 64 ? r->hi == (uint64_t)1 << (n - 64) && r->lo == 0
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: r->hi == 0 && r->lo == (uint64_t)1 << n;
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}
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#endif
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