mirror of
https://codeberg.org/anoncontributorxmr/monero.git
synced 2024-11-25 17:02:26 +00:00
Support median block size > 4 GB
add a 128/64 division routine so we can use a > 32 bit median block size in calculations
This commit is contained in:
parent
b60cf6a938
commit
be82c40703
6 changed files with 174 additions and 14 deletions
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@ -129,6 +129,9 @@ static inline uint32_t div128_32(uint64_t dividend_hi, uint64_t dividend_lo, uin
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return remainder;
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return remainder;
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}
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}
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// Long divisor with 2^64 base
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void div128_64(uint64_t dividend_hi, uint64_t dividend_lo, uint64_t divisor, uint64_t* quotient_hi, uint64_t *quotient_lo, uint64_t *remainder_hi, uint64_t *remainder_lo);
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#define IDENT16(x) ((uint16_t) (x))
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#define IDENT16(x) ((uint16_t) (x))
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#define IDENT32(x) ((uint32_t) (x))
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#define IDENT32(x) ((uint32_t) (x))
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#define IDENT64(x) ((uint64_t) (x))
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#define IDENT64(x) ((uint64_t) (x))
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@ -27,7 +27,8 @@
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# THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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# THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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add_library(epee STATIC byte_slice.cpp hex.cpp http_auth.cpp mlog.cpp net_helper.cpp net_utils_base.cpp string_tools.cpp wipeable_string.cpp
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add_library(epee STATIC byte_slice.cpp hex.cpp http_auth.cpp mlog.cpp net_helper.cpp net_utils_base.cpp string_tools.cpp wipeable_string.cpp
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levin_base.cpp memwipe.c connection_basic.cpp network_throttle.cpp network_throttle-detail.cpp mlocker.cpp buffer.cpp net_ssl.cpp)
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levin_base.cpp memwipe.c connection_basic.cpp network_throttle.cpp network_throttle-detail.cpp mlocker.cpp buffer.cpp net_ssl.cpp
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int-util.cpp)
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if (USE_READLINE AND (GNU_READLINE_FOUND OR DEPENDS AND NOT MINGW))
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if (USE_READLINE AND (GNU_READLINE_FOUND OR DEPENDS AND NOT MINGW))
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add_library(epee_readline STATIC readline_buffer.cpp)
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add_library(epee_readline STATIC readline_buffer.cpp)
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48
contrib/epee/src/int-util.cpp
Normal file
48
contrib/epee/src/int-util.cpp
Normal file
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@ -0,0 +1,48 @@
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// Copyright (c) 2019, The Monero Project
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//
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// All rights reserved.
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//
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// Redistribution and use in source and binary forms, with or without modification, are
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// permitted provided that the following conditions are met:
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//
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// 1. Redistributions of source code must retain the above copyright notice, this list of
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// conditions and the following disclaimer.
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//
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// 2. Redistributions in binary form must reproduce the above copyright notice, this list
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// of conditions and the following disclaimer in the documentation and/or other
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// materials provided with the distribution.
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//
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// 3. Neither the name of the copyright holder nor the names of its contributors may be
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// used to endorse or promote products derived from this software without specific
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// prior written permission.
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//
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// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY
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// EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
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// MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL
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// THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
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// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
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// PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
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// INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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// STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF
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// THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#include <boost/multiprecision/cpp_int.hpp>
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void div128_64(uint64_t dividend_hi, uint64_t dividend_lo, uint64_t divisor, uint64_t* quotient_hi, uint64_t *quotient_lo, uint64_t *remainder_hi, uint64_t *remainder_lo)
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{
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typedef boost::multiprecision::uint128_t uint128_t;
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uint128_t dividend = dividend_hi;
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dividend <<= 64;
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dividend |= dividend_lo;
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uint128_t q, r;
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divide_qr(dividend, uint128_t(divisor), q, r);
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*quotient_hi = ((q >> 64) & 0xffffffffffffffffull).convert_to<uint64_t>();
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*quotient_lo = (q & 0xffffffffffffffffull).convert_to<uint64_t>();
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if (remainder_hi)
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*remainder_hi = ((r >> 64) & 0xffffffffffffffffull).convert_to<uint64_t>();
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if (remainder_lo)
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*remainder_lo = (r & 0xffffffffffffffffull).convert_to<uint64_t>();
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}
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@ -110,9 +110,6 @@ namespace cryptonote {
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return false;
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return false;
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}
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}
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assert(median_weight < std::numeric_limits<uint32_t>::max());
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assert(current_block_weight < std::numeric_limits<uint32_t>::max());
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uint64_t product_hi;
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uint64_t product_hi;
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// BUGFIX: 32-bit saturation bug (e.g. ARM7), the result was being
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// BUGFIX: 32-bit saturation bug (e.g. ARM7), the result was being
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// treated as 32-bit by default.
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// treated as 32-bit by default.
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@ -122,8 +119,8 @@ namespace cryptonote {
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uint64_t reward_hi;
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uint64_t reward_hi;
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uint64_t reward_lo;
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uint64_t reward_lo;
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div128_32(product_hi, product_lo, static_cast<uint32_t>(median_weight), &reward_hi, &reward_lo);
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div128_64(product_hi, product_lo, median_weight, &reward_hi, &reward_lo, NULL, NULL);
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div128_32(reward_hi, reward_lo, static_cast<uint32_t>(median_weight), &reward_hi, &reward_lo);
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div128_64(reward_hi, reward_lo, median_weight, &reward_hi, &reward_lo, NULL, NULL);
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assert(0 == reward_hi);
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assert(0 == reward_hi);
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assert(reward_lo < base_reward);
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assert(reward_lo < base_reward);
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@ -3223,8 +3223,8 @@ uint64_t Blockchain::get_dynamic_base_fee(uint64_t block_reward, size_t median_b
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if (version >= HF_VERSION_PER_BYTE_FEE)
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if (version >= HF_VERSION_PER_BYTE_FEE)
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{
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{
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lo = mul128(block_reward, DYNAMIC_FEE_REFERENCE_TRANSACTION_WEIGHT, &hi);
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lo = mul128(block_reward, DYNAMIC_FEE_REFERENCE_TRANSACTION_WEIGHT, &hi);
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div128_32(hi, lo, min_block_weight, &hi, &lo);
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div128_64(hi, lo, min_block_weight, &hi, &lo, NULL, NULL);
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div128_32(hi, lo, median_block_weight, &hi, &lo);
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div128_64(hi, lo, median_block_weight, &hi, &lo, NULL, NULL);
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assert(hi == 0);
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assert(hi == 0);
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lo /= 5;
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lo /= 5;
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return lo;
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return lo;
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@ -3234,12 +3234,7 @@ uint64_t Blockchain::get_dynamic_base_fee(uint64_t block_reward, size_t median_b
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uint64_t unscaled_fee_base = (fee_base * min_block_weight / median_block_weight);
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uint64_t unscaled_fee_base = (fee_base * min_block_weight / median_block_weight);
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lo = mul128(unscaled_fee_base, block_reward, &hi);
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lo = mul128(unscaled_fee_base, block_reward, &hi);
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static_assert(DYNAMIC_FEE_PER_KB_BASE_BLOCK_REWARD % 1000000 == 0, "DYNAMIC_FEE_PER_KB_BASE_BLOCK_REWARD must be divisible by 1000000");
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div128_64(hi, lo, DYNAMIC_FEE_PER_KB_BASE_BLOCK_REWARD, &hi, &lo, NULL, NULL);
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static_assert(DYNAMIC_FEE_PER_KB_BASE_BLOCK_REWARD / 1000000 <= std::numeric_limits<uint32_t>::max(), "DYNAMIC_FEE_PER_KB_BASE_BLOCK_REWARD is too large");
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// divide in two steps, since the divisor must be 32 bits, but DYNAMIC_FEE_PER_KB_BASE_BLOCK_REWARD isn't
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div128_32(hi, lo, DYNAMIC_FEE_PER_KB_BASE_BLOCK_REWARD / 1000000, &hi, &lo);
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div128_32(hi, lo, 1000000, &hi, &lo);
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assert(hi == 0);
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assert(hi == 0);
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// quantize fee up to 8 decimals
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// quantize fee up to 8 decimals
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@ -130,6 +130,19 @@ namespace
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// Division by zero is UB, so can be tested correctly
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// Division by zero is UB, so can be tested correctly
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}
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}
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TEST(div128_64, handles_zero)
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{
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uint64_t qhi, qlo, rhi, rlo;
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div128_64(0, 0, 7, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0);
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ASSERT_EQ(qhi, 0);
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ASSERT_EQ(qlo, 0);
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// Division by zero is UB, so can be tested correctly
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}
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TEST(div128_32, handles_one)
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TEST(div128_32, handles_one)
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{
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{
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uint32_t reminder;
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uint32_t reminder;
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@ -147,6 +160,23 @@ namespace
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ASSERT_EQ(lo, 0);
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ASSERT_EQ(lo, 0);
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}
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}
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TEST(div128_64, handles_one)
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{
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uint64_t qhi, qlo, rhi, rlo;
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div128_64(0, 7, 1, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0);
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ASSERT_EQ(qhi, 0);
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ASSERT_EQ(qlo, 7);
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div128_64(7, 0, 1, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0);
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ASSERT_EQ(qhi, 7);
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ASSERT_EQ(qlo, 0);
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}
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TEST(div128_32, handles_if_dividend_less_divider)
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TEST(div128_32, handles_if_dividend_less_divider)
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{
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{
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uint32_t reminder;
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uint32_t reminder;
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@ -159,6 +189,17 @@ namespace
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ASSERT_EQ(lo, 0);
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ASSERT_EQ(lo, 0);
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}
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}
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TEST(div128_64, handles_if_dividend_less_divider)
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{
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uint64_t qhi, qlo, rhi, rlo;
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div128_64(0, 1383746, 1645825, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 1383746);
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ASSERT_EQ(qhi, 0);
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ASSERT_EQ(qlo, 0);
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}
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TEST(div128_32, handles_if_dividend_dwords_less_divider)
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TEST(div128_32, handles_if_dividend_dwords_less_divider)
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{
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{
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uint32_t reminder;
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uint32_t reminder;
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@ -171,6 +212,17 @@ namespace
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ASSERT_EQ(lo, 0x9084FC024383E48C);
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ASSERT_EQ(lo, 0x9084FC024383E48C);
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}
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}
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TEST(div128_64, handles_if_dividend_dwords_less_divider)
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{
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uint64_t qhi, qlo, rhi, rlo;
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div128_64(0x5AD629E441074F28, 0x0DBCAB2B231081F1, 0xFE735CD6, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0xB9C924E9);
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ASSERT_EQ(qhi, 0x000000005B63C274);
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ASSERT_EQ(qlo, 0x9084FC024383E48C);
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}
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TEST(div128_32, works_correctly)
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TEST(div128_32, works_correctly)
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{
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{
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uint32_t reminder;
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uint32_t reminder;
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@ -202,4 +254,68 @@ namespace
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ASSERT_EQ(hi, 0x00000000f812c1f8);
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ASSERT_EQ(hi, 0x00000000f812c1f8);
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ASSERT_EQ(lo, 0xddf2fdb09bc2e2e9);
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ASSERT_EQ(lo, 0xddf2fdb09bc2e2e9);
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}
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}
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TEST(div128_64, works_correctly)
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{
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uint64_t qhi, qlo, rhi, rlo;
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div128_64(2, 0, 2, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0);
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ASSERT_EQ(qhi, 1);
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ASSERT_EQ(qlo, 0);
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div128_64(0xffffffffffffffff, 0, 0xffffffff, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0);
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ASSERT_EQ(qhi, 0x0000000100000001);
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ASSERT_EQ(qlo, 0);
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div128_64(0xffffffffffffffff, 5846, 0xffffffff, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 5846);
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ASSERT_EQ(qhi, 0x0000000100000001);
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ASSERT_EQ(qlo, 0);
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div128_64(0xffffffffffffffff - 1, 0, 0xffffffff, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0xfffffffe);
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ASSERT_EQ(qhi, 0x0000000100000000);
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ASSERT_EQ(qlo, 0xfffffffefffffffe);
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div128_64(0x2649372534875028, 0xaedbfedc5adbc739, 0x27826534, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0x1a6dc2e5);
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ASSERT_EQ(qhi, 0x00000000f812c1f8);
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ASSERT_EQ(qlo, 0xddf2fdb09bc2e2e9);
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}
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TEST(div128_64, divisor_above_32_bit)
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{
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uint64_t qhi, qlo, rhi, rlo;
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div128_64(0, 0xffffffff, (uint64_t)0x100000000, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0xffffffff);
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ASSERT_EQ(qhi, 0);
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ASSERT_EQ(qlo, 0);
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div128_64(0, 65, 4, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 1);
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ASSERT_EQ(qhi, 0);
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ASSERT_EQ(qlo, 16);
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div128_64(405997335029502627ull, 2552775575832427192ull, 489327483788363ull, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 198332080500810ull);
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ASSERT_EQ(qhi, 829ull);
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ASSERT_EQ(qlo, 13000245803763621514ull);
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div128_64(405997335029502627ull, 2552775575832427192ull, 1ull, &qhi, &qlo, &rhi, &rlo);
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ASSERT_EQ(rhi, 0);
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ASSERT_EQ(rlo, 0);
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ASSERT_EQ(qhi, 405997335029502627ull);
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ASSERT_EQ(qlo, 2552775575832427192ull);
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}
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}
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}
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