/* Copyright (c) INRIA and Microsoft Corporation. All rights reserved. Licensed under the Apache 2.0 License. */ /* This file was generated by KreMLin * KreMLin invocation: ../krml -fc89 -fparentheses -fno-shadow -header /mnt/e/everest/verify/hdrB9w -minimal -fparentheses -fcurly-braces -fno-shadow -header copyright-header.txt -minimal -tmpdir extracted -warn-error +9+11 -skip-compilation -extract-uints -add-include -add-include "kremlib.h" -add-include "kremlin/internal/compat.h" extracted/prims.krml extracted/FStar_Pervasives_Native.krml extracted/FStar_Pervasives.krml extracted/FStar_Mul.krml extracted/FStar_Squash.krml extracted/FStar_Classical.krml extracted/FStar_StrongExcludedMiddle.krml extracted/FStar_FunctionalExtensionality.krml extracted/FStar_List_Tot_Base.krml extracted/FStar_List_Tot_Properties.krml extracted/FStar_List_Tot.krml extracted/FStar_Seq_Base.krml extracted/FStar_Seq_Properties.krml extracted/FStar_Seq.krml extracted/FStar_Math_Lib.krml extracted/FStar_Math_Lemmas.krml extracted/FStar_BitVector.krml extracted/FStar_UInt.krml extracted/FStar_UInt32.krml extracted/FStar_Int.krml extracted/FStar_Int16.krml extracted/FStar_Preorder.krml extracted/FStar_Ghost.krml extracted/FStar_ErasedLogic.krml extracted/FStar_UInt64.krml extracted/FStar_Set.krml extracted/FStar_PropositionalExtensionality.krml extracted/FStar_PredicateExtensionality.krml extracted/FStar_TSet.krml extracted/FStar_Monotonic_Heap.krml extracted/FStar_Heap.krml extracted/FStar_Map.krml extracted/FStar_Monotonic_HyperHeap.krml extracted/FStar_Monotonic_HyperStack.krml extracted/FStar_HyperStack.krml extracted/FStar_Monotonic_Witnessed.krml extracted/FStar_HyperStack_ST.krml extracted/FStar_HyperStack_All.krml extracted/FStar_Date.krml extracted/FStar_Universe.krml extracted/FStar_GSet.krml extracted/FStar_ModifiesGen.krml extracted/LowStar_Monotonic_Buffer.krml extracted/LowStar_Buffer.krml extracted/Spec_Loops.krml extracted/LowStar_BufferOps.krml extracted/C_Loops.krml extracted/FStar_UInt8.krml extracted/FStar_Kremlin_Endianness.krml extracted/FStar_UInt63.krml extracted/FStar_Exn.krml extracted/FStar_ST.krml extracted/FStar_All.krml extracted/FStar_Dyn.krml extracted/FStar_Int63.krml extracted/FStar_Int64.krml extracted/FStar_Int32.krml extracted/FStar_Int8.krml extracted/FStar_UInt16.krml extracted/FStar_Int_Cast.krml extracted/FStar_UInt128.krml extracted/C_Endianness.krml extracted/FStar_List.krml extracted/FStar_Float.krml extracted/FStar_IO.krml extracted/C.krml extracted/FStar_Char.krml extracted/FStar_String.krml extracted/LowStar_Modifies.krml extracted/C_String.krml extracted/FStar_Bytes.krml extracted/FStar_HyperStack_IO.krml extracted/C_Failure.krml extracted/TestLib.krml extracted/FStar_Int_Cast_Full.krml * F* version: 059db0c8 * KreMLin version: 916c37ac */ #include "FStar_UInt128.h" #include "kremlin/c_endianness.h" #include "FStar_UInt64_FStar_UInt32_FStar_UInt16_FStar_UInt8.h" uint64_t FStar_UInt128___proj__Mkuint128__item__low(FStar_UInt128_uint128 projectee) { return projectee.low; } uint64_t FStar_UInt128___proj__Mkuint128__item__high(FStar_UInt128_uint128 projectee) { return projectee.high; } static uint64_t FStar_UInt128_constant_time_carry(uint64_t a, uint64_t b) { return (a ^ ((a ^ b) | ((a - b) ^ b))) >> (uint32_t)63U; } static uint64_t FStar_UInt128_carry(uint64_t a, uint64_t b) { return FStar_UInt128_constant_time_carry(a, b); } FStar_UInt128_uint128 FStar_UInt128_add(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low + b.low, a.high + b.high + FStar_UInt128_carry(a.low + b.low, b.low) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_add_underspec(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low + b.low, a.high + b.high + FStar_UInt128_carry(a.low + b.low, b.low) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_add_mod(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low + b.low, a.high + b.high + FStar_UInt128_carry(a.low + b.low, b.low) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_sub(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low - b.low, a.high - b.high - FStar_UInt128_carry(a.low, a.low - b.low) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_sub_underspec(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low - b.low, a.high - b.high - FStar_UInt128_carry(a.low, a.low - b.low) }; return flat; } static FStar_UInt128_uint128 FStar_UInt128_sub_mod_impl(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low - b.low, a.high - b.high - FStar_UInt128_carry(a.low, a.low - b.low) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_sub_mod(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { return FStar_UInt128_sub_mod_impl(a, b); } FStar_UInt128_uint128 FStar_UInt128_logand(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low & b.low, a.high & b.high }; return flat; } FStar_UInt128_uint128 FStar_UInt128_logxor(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low ^ b.low, a.high ^ b.high }; return flat; } FStar_UInt128_uint128 FStar_UInt128_logor(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { a.low | b.low, a.high | b.high }; return flat; } FStar_UInt128_uint128 FStar_UInt128_lognot(FStar_UInt128_uint128 a) { FStar_UInt128_uint128 flat = { ~a.low, ~a.high }; return flat; } static uint32_t FStar_UInt128_u32_64 = (uint32_t)64U; static uint64_t FStar_UInt128_add_u64_shift_left(uint64_t hi, uint64_t lo, uint32_t s) { return (hi << s) + (lo >> (FStar_UInt128_u32_64 - s)); } static uint64_t FStar_UInt128_add_u64_shift_left_respec(uint64_t hi, uint64_t lo, uint32_t s) { return FStar_UInt128_add_u64_shift_left(hi, lo, s); } static FStar_UInt128_uint128 FStar_UInt128_shift_left_small(FStar_UInt128_uint128 a, uint32_t s) { if (s == (uint32_t)0U) { return a; } else { FStar_UInt128_uint128 flat = { a.low << s, FStar_UInt128_add_u64_shift_left_respec(a.high, a.low, s) }; return flat; } } static FStar_UInt128_uint128 FStar_UInt128_shift_left_large(FStar_UInt128_uint128 a, uint32_t s) { FStar_UInt128_uint128 flat = { (uint64_t)0U, a.low << (s - FStar_UInt128_u32_64) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_shift_left(FStar_UInt128_uint128 a, uint32_t s) { if (s < FStar_UInt128_u32_64) { return FStar_UInt128_shift_left_small(a, s); } else { return FStar_UInt128_shift_left_large(a, s); } } static uint64_t FStar_UInt128_add_u64_shift_right(uint64_t hi, uint64_t lo, uint32_t s) { return (lo >> s) + (hi << (FStar_UInt128_u32_64 - s)); } static uint64_t FStar_UInt128_add_u64_shift_right_respec(uint64_t hi, uint64_t lo, uint32_t s) { return FStar_UInt128_add_u64_shift_right(hi, lo, s); } static FStar_UInt128_uint128 FStar_UInt128_shift_right_small(FStar_UInt128_uint128 a, uint32_t s) { if (s == (uint32_t)0U) { return a; } else { FStar_UInt128_uint128 flat = { FStar_UInt128_add_u64_shift_right_respec(a.high, a.low, s), a.high >> s }; return flat; } } static FStar_UInt128_uint128 FStar_UInt128_shift_right_large(FStar_UInt128_uint128 a, uint32_t s) { FStar_UInt128_uint128 flat = { a.high >> (s - FStar_UInt128_u32_64), (uint64_t)0U }; return flat; } FStar_UInt128_uint128 FStar_UInt128_shift_right(FStar_UInt128_uint128 a, uint32_t s) { if (s < FStar_UInt128_u32_64) { return FStar_UInt128_shift_right_small(a, s); } else { return FStar_UInt128_shift_right_large(a, s); } } bool FStar_UInt128_eq(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { return a.low == b.low && a.high == b.high; } bool FStar_UInt128_gt(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { return a.high > b.high || (a.high == b.high && a.low > b.low); } bool FStar_UInt128_lt(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { return a.high < b.high || (a.high == b.high && a.low < b.low); } bool FStar_UInt128_gte(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { return a.high > b.high || (a.high == b.high && a.low >= b.low); } bool FStar_UInt128_lte(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { return a.high < b.high || (a.high == b.high && a.low <= b.low); } FStar_UInt128_uint128 FStar_UInt128_eq_mask(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { FStar_UInt64_eq_mask(a.low, b.low) & FStar_UInt64_eq_mask(a.high, b.high), FStar_UInt64_eq_mask(a.low, b.low) & FStar_UInt64_eq_mask(a.high, b.high) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_gte_mask(FStar_UInt128_uint128 a, FStar_UInt128_uint128 b) { FStar_UInt128_uint128 flat = { (FStar_UInt64_gte_mask(a.high, b.high) & ~FStar_UInt64_eq_mask(a.high, b.high)) | (FStar_UInt64_eq_mask(a.high, b.high) & FStar_UInt64_gte_mask(a.low, b.low)), (FStar_UInt64_gte_mask(a.high, b.high) & ~FStar_UInt64_eq_mask(a.high, b.high)) | (FStar_UInt64_eq_mask(a.high, b.high) & FStar_UInt64_gte_mask(a.low, b.low)) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_uint64_to_uint128(uint64_t a) { FStar_UInt128_uint128 flat = { a, (uint64_t)0U }; return flat; } uint64_t FStar_UInt128_uint128_to_uint64(FStar_UInt128_uint128 a) { return a.low; } FStar_UInt128_uint128 (*FStar_UInt128_op_Plus_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_add; FStar_UInt128_uint128 (*FStar_UInt128_op_Plus_Question_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_add_underspec; FStar_UInt128_uint128 (*FStar_UInt128_op_Plus_Percent_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_add_mod; FStar_UInt128_uint128 (*FStar_UInt128_op_Subtraction_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_sub; FStar_UInt128_uint128 (*FStar_UInt128_op_Subtraction_Question_Hat)( FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1 ) = FStar_UInt128_sub_underspec; FStar_UInt128_uint128 (*FStar_UInt128_op_Subtraction_Percent_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_sub_mod; FStar_UInt128_uint128 (*FStar_UInt128_op_Amp_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_logand; FStar_UInt128_uint128 (*FStar_UInt128_op_Hat_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_logxor; FStar_UInt128_uint128 (*FStar_UInt128_op_Bar_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_logor; FStar_UInt128_uint128 (*FStar_UInt128_op_Less_Less_Hat)(FStar_UInt128_uint128 x0, uint32_t x1) = FStar_UInt128_shift_left; FStar_UInt128_uint128 (*FStar_UInt128_op_Greater_Greater_Hat)(FStar_UInt128_uint128 x0, uint32_t x1) = FStar_UInt128_shift_right; bool (*FStar_UInt128_op_Equals_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_eq; bool (*FStar_UInt128_op_Greater_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_gt; bool (*FStar_UInt128_op_Less_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_lt; bool (*FStar_UInt128_op_Greater_Equals_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_gte; bool (*FStar_UInt128_op_Less_Equals_Hat)(FStar_UInt128_uint128 x0, FStar_UInt128_uint128 x1) = FStar_UInt128_lte; static uint64_t FStar_UInt128_u64_mod_32(uint64_t a) { return a & (uint64_t)0xffffffffU; } static uint32_t FStar_UInt128_u32_32 = (uint32_t)32U; static uint64_t FStar_UInt128_u32_combine(uint64_t hi, uint64_t lo) { return lo + (hi << FStar_UInt128_u32_32); } FStar_UInt128_uint128 FStar_UInt128_mul32(uint64_t x, uint32_t y) { FStar_UInt128_uint128 flat = { FStar_UInt128_u32_combine((x >> FStar_UInt128_u32_32) * (uint64_t)y + (FStar_UInt128_u64_mod_32(x) * (uint64_t)y >> FStar_UInt128_u32_32), FStar_UInt128_u64_mod_32(FStar_UInt128_u64_mod_32(x) * (uint64_t)y)), ((x >> FStar_UInt128_u32_32) * (uint64_t)y + (FStar_UInt128_u64_mod_32(x) * (uint64_t)y >> FStar_UInt128_u32_32)) >> FStar_UInt128_u32_32 }; return flat; } typedef struct K___uint64_t_uint64_t_uint64_t_uint64_t_s { uint64_t fst; uint64_t snd; uint64_t thd; uint64_t f3; } K___uint64_t_uint64_t_uint64_t_uint64_t; static K___uint64_t_uint64_t_uint64_t_uint64_t FStar_UInt128_mul_wide_impl_t_(uint64_t x, uint64_t y) { K___uint64_t_uint64_t_uint64_t_uint64_t flat = { FStar_UInt128_u64_mod_32(x), FStar_UInt128_u64_mod_32(FStar_UInt128_u64_mod_32(x) * FStar_UInt128_u64_mod_32(y)), x >> FStar_UInt128_u32_32, (x >> FStar_UInt128_u32_32) * FStar_UInt128_u64_mod_32(y) + (FStar_UInt128_u64_mod_32(x) * FStar_UInt128_u64_mod_32(y) >> FStar_UInt128_u32_32) }; return flat; } static uint64_t FStar_UInt128_u32_combine_(uint64_t hi, uint64_t lo) { return lo + (hi << FStar_UInt128_u32_32); } static FStar_UInt128_uint128 FStar_UInt128_mul_wide_impl(uint64_t x, uint64_t y) { K___uint64_t_uint64_t_uint64_t_uint64_t scrut = FStar_UInt128_mul_wide_impl_t_(x, y); uint64_t u1 = scrut.fst; uint64_t w3 = scrut.snd; uint64_t x_ = scrut.thd; uint64_t t_ = scrut.f3; FStar_UInt128_uint128 flat = { FStar_UInt128_u32_combine_(u1 * (y >> FStar_UInt128_u32_32) + FStar_UInt128_u64_mod_32(t_), w3), x_ * (y >> FStar_UInt128_u32_32) + (t_ >> FStar_UInt128_u32_32) + ((u1 * (y >> FStar_UInt128_u32_32) + FStar_UInt128_u64_mod_32(t_)) >> FStar_UInt128_u32_32) }; return flat; } FStar_UInt128_uint128 FStar_UInt128_mul_wide(uint64_t x, uint64_t y) { return FStar_UInt128_mul_wide_impl(x, y); }