// Licensed to the Apache Software Foundation (ASF) under one // or more contributor license agreements. See the NOTICE file // distributed with this work for additional information // regarding copyright ownership. The ASF licenses this file // to you under the Apache License, Version 2.0 (the // "License"); you may not use this file except in compliance // with the License. You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, // software distributed under the License is distributed on an // "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY // KIND, either express or implied. See the License for the // specific language governing permissions and limitations // under the License. // This file was modified from its original version for inclusion in parquet-cpp. // Original source: // https://github.com/lemire/FrameOfReference/blob/6ccaf9e97160f9a3b299e23a8ef739e711ef0c71/src/bpacking.cpp // The original copyright notice follows. // This code is released under the // Apache License Version 2.0 http://www.apache.org/licenses/. // (c) Daniel Lemire 2013 #pragma once #include "arrow/util/bit_util.h" #include "arrow/util/ubsan.h" namespace arrow { namespace internal { inline const uint32_t* unpack1_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) & 1; out++; *out = (inl >> 1) & 1; out++; *out = (inl >> 2) & 1; out++; *out = (inl >> 3) & 1; out++; *out = (inl >> 4) & 1; out++; *out = (inl >> 5) & 1; out++; *out = (inl >> 6) & 1; out++; *out = (inl >> 7) & 1; out++; *out = (inl >> 8) & 1; out++; *out = (inl >> 9) & 1; out++; *out = (inl >> 10) & 1; out++; *out = (inl >> 11) & 1; out++; *out = (inl >> 12) & 1; out++; *out = (inl >> 13) & 1; out++; *out = (inl >> 14) & 1; out++; *out = (inl >> 15) & 1; out++; *out = (inl >> 16) & 1; out++; *out = (inl >> 17) & 1; out++; *out = (inl >> 18) & 1; out++; *out = (inl >> 19) & 1; out++; *out = (inl >> 20) & 1; out++; *out = (inl >> 21) & 1; out++; *out = (inl >> 22) & 1; out++; *out = (inl >> 23) & 1; out++; *out = (inl >> 24) & 1; out++; *out = (inl >> 25) & 1; out++; *out = (inl >> 26) & 1; out++; *out = (inl >> 27) & 1; out++; *out = (inl >> 28) & 1; out++; *out = (inl >> 29) & 1; out++; *out = (inl >> 30) & 1; out++; *out = (inl >> 31); ++in; out++; return in; } inline const uint32_t* unpack2_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 2); out++; *out = (inl >> 2) % (1U << 2); out++; *out = (inl >> 4) % (1U << 2); out++; *out = (inl >> 6) % (1U << 2); out++; *out = (inl >> 8) % (1U << 2); out++; *out = (inl >> 10) % (1U << 2); out++; *out = (inl >> 12) % (1U << 2); out++; *out = (inl >> 14) % (1U << 2); out++; *out = (inl >> 16) % (1U << 2); out++; *out = (inl >> 18) % (1U << 2); out++; *out = (inl >> 20) % (1U << 2); out++; *out = (inl >> 22) % (1U << 2); out++; *out = (inl >> 24) % (1U << 2); out++; *out = (inl >> 26) % (1U << 2); out++; *out = (inl >> 28) % (1U << 2); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 2); out++; *out = (inl >> 2) % (1U << 2); out++; *out = (inl >> 4) % (1U << 2); out++; *out = (inl >> 6) % (1U << 2); out++; *out = (inl >> 8) % (1U << 2); out++; *out = (inl >> 10) % (1U << 2); out++; *out = (inl >> 12) % (1U << 2); out++; *out = (inl >> 14) % (1U << 2); out++; *out = (inl >> 16) % (1U << 2); out++; *out = (inl >> 18) % (1U << 2); out++; *out = (inl >> 20) % (1U << 2); out++; *out = (inl >> 22) % (1U << 2); out++; *out = (inl >> 24) % (1U << 2); out++; *out = (inl >> 26) % (1U << 2); out++; *out = (inl >> 28) % (1U << 2); out++; *out = (inl >> 30); ++in; out++; return in; } inline const uint32_t* unpack3_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 3); out++; *out = (inl >> 3) % (1U << 3); out++; *out = (inl >> 6) % (1U << 3); out++; *out = (inl >> 9) % (1U << 3); out++; *out = (inl >> 12) % (1U << 3); out++; *out = (inl >> 15) % (1U << 3); out++; *out = (inl >> 18) % (1U << 3); out++; *out = (inl >> 21) % (1U << 3); out++; *out = (inl >> 24) % (1U << 3); out++; *out = (inl >> 27) % (1U << 3); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (3 - 1); out++; *out = (inl >> 1) % (1U << 3); out++; *out = (inl >> 4) % (1U << 3); out++; *out = (inl >> 7) % (1U << 3); out++; *out = (inl >> 10) % (1U << 3); out++; *out = (inl >> 13) % (1U << 3); out++; *out = (inl >> 16) % (1U << 3); out++; *out = (inl >> 19) % (1U << 3); out++; *out = (inl >> 22) % (1U << 3); out++; *out = (inl >> 25) % (1U << 3); out++; *out = (inl >> 28) % (1U << 3); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (3 - 2); out++; *out = (inl >> 2) % (1U << 3); out++; *out = (inl >> 5) % (1U << 3); out++; *out = (inl >> 8) % (1U << 3); out++; *out = (inl >> 11) % (1U << 3); out++; *out = (inl >> 14) % (1U << 3); out++; *out = (inl >> 17) % (1U << 3); out++; *out = (inl >> 20) % (1U << 3); out++; *out = (inl >> 23) % (1U << 3); out++; *out = (inl >> 26) % (1U << 3); out++; *out = (inl >> 29); ++in; out++; return in; } inline const uint32_t* unpack4_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 4); out++; *out = (inl >> 4) % (1U << 4); out++; *out = (inl >> 8) % (1U << 4); out++; *out = (inl >> 12) % (1U << 4); out++; *out = (inl >> 16) % (1U << 4); out++; *out = (inl >> 20) % (1U << 4); out++; *out = (inl >> 24) % (1U << 4); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 4); out++; *out = (inl >> 4) % (1U << 4); out++; *out = (inl >> 8) % (1U << 4); out++; *out = (inl >> 12) % (1U << 4); out++; *out = (inl >> 16) % (1U << 4); out++; *out = (inl >> 20) % (1U << 4); out++; *out = (inl >> 24) % (1U << 4); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 4); out++; *out = (inl >> 4) % (1U << 4); out++; *out = (inl >> 8) % (1U << 4); out++; *out = (inl >> 12) % (1U << 4); out++; *out = (inl >> 16) % (1U << 4); out++; *out = (inl >> 20) % (1U << 4); out++; *out = (inl >> 24) % (1U << 4); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 4); out++; *out = (inl >> 4) % (1U << 4); out++; *out = (inl >> 8) % (1U << 4); out++; *out = (inl >> 12) % (1U << 4); out++; *out = (inl >> 16) % (1U << 4); out++; *out = (inl >> 20) % (1U << 4); out++; *out = (inl >> 24) % (1U << 4); out++; *out = (inl >> 28); ++in; out++; return in; } inline const uint32_t* unpack5_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 5); out++; *out = (inl >> 5) % (1U << 5); out++; *out = (inl >> 10) % (1U << 5); out++; *out = (inl >> 15) % (1U << 5); out++; *out = (inl >> 20) % (1U << 5); out++; *out = (inl >> 25) % (1U << 5); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (5 - 3); out++; *out = (inl >> 3) % (1U << 5); out++; *out = (inl >> 8) % (1U << 5); out++; *out = (inl >> 13) % (1U << 5); out++; *out = (inl >> 18) % (1U << 5); out++; *out = (inl >> 23) % (1U << 5); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (5 - 1); out++; *out = (inl >> 1) % (1U << 5); out++; *out = (inl >> 6) % (1U << 5); out++; *out = (inl >> 11) % (1U << 5); out++; *out = (inl >> 16) % (1U << 5); out++; *out = (inl >> 21) % (1U << 5); out++; *out = (inl >> 26) % (1U << 5); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (5 - 4); out++; *out = (inl >> 4) % (1U << 5); out++; *out = (inl >> 9) % (1U << 5); out++; *out = (inl >> 14) % (1U << 5); out++; *out = (inl >> 19) % (1U << 5); out++; *out = (inl >> 24) % (1U << 5); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (5 - 2); out++; *out = (inl >> 2) % (1U << 5); out++; *out = (inl >> 7) % (1U << 5); out++; *out = (inl >> 12) % (1U << 5); out++; *out = (inl >> 17) % (1U << 5); out++; *out = (inl >> 22) % (1U << 5); out++; *out = (inl >> 27); ++in; out++; return in; } inline const uint32_t* unpack6_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 6); out++; *out = (inl >> 6) % (1U << 6); out++; *out = (inl >> 12) % (1U << 6); out++; *out = (inl >> 18) % (1U << 6); out++; *out = (inl >> 24) % (1U << 6); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (6 - 4); out++; *out = (inl >> 4) % (1U << 6); out++; *out = (inl >> 10) % (1U << 6); out++; *out = (inl >> 16) % (1U << 6); out++; *out = (inl >> 22) % (1U << 6); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (6 - 2); out++; *out = (inl >> 2) % (1U << 6); out++; *out = (inl >> 8) % (1U << 6); out++; *out = (inl >> 14) % (1U << 6); out++; *out = (inl >> 20) % (1U << 6); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 6); out++; *out = (inl >> 6) % (1U << 6); out++; *out = (inl >> 12) % (1U << 6); out++; *out = (inl >> 18) % (1U << 6); out++; *out = (inl >> 24) % (1U << 6); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (6 - 4); out++; *out = (inl >> 4) % (1U << 6); out++; *out = (inl >> 10) % (1U << 6); out++; *out = (inl >> 16) % (1U << 6); out++; *out = (inl >> 22) % (1U << 6); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (6 - 2); out++; *out = (inl >> 2) % (1U << 6); out++; *out = (inl >> 8) % (1U << 6); out++; *out = (inl >> 14) % (1U << 6); out++; *out = (inl >> 20) % (1U << 6); out++; *out = (inl >> 26); ++in; out++; return in; } inline const uint32_t* unpack7_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 7); out++; *out = (inl >> 7) % (1U << 7); out++; *out = (inl >> 14) % (1U << 7); out++; *out = (inl >> 21) % (1U << 7); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (7 - 3); out++; *out = (inl >> 3) % (1U << 7); out++; *out = (inl >> 10) % (1U << 7); out++; *out = (inl >> 17) % (1U << 7); out++; *out = (inl >> 24) % (1U << 7); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (7 - 6); out++; *out = (inl >> 6) % (1U << 7); out++; *out = (inl >> 13) % (1U << 7); out++; *out = (inl >> 20) % (1U << 7); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (7 - 2); out++; *out = (inl >> 2) % (1U << 7); out++; *out = (inl >> 9) % (1U << 7); out++; *out = (inl >> 16) % (1U << 7); out++; *out = (inl >> 23) % (1U << 7); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (7 - 5); out++; *out = (inl >> 5) % (1U << 7); out++; *out = (inl >> 12) % (1U << 7); out++; *out = (inl >> 19) % (1U << 7); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (7 - 1); out++; *out = (inl >> 1) % (1U << 7); out++; *out = (inl >> 8) % (1U << 7); out++; *out = (inl >> 15) % (1U << 7); out++; *out = (inl >> 22) % (1U << 7); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (7 - 4); out++; *out = (inl >> 4) % (1U << 7); out++; *out = (inl >> 11) % (1U << 7); out++; *out = (inl >> 18) % (1U << 7); out++; *out = (inl >> 25); ++in; out++; return in; } inline const uint32_t* unpack8_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 8); out++; *out = (inl >> 8) % (1U << 8); out++; *out = (inl >> 16) % (1U << 8); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 8); out++; *out = (inl >> 8) % (1U << 8); out++; *out = (inl >> 16) % (1U << 8); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 8); out++; *out = (inl >> 8) % (1U << 8); out++; *out = (inl >> 16) % (1U << 8); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 8); out++; *out = (inl >> 8) % (1U << 8); out++; *out = (inl >> 16) % (1U << 8); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 8); out++; *out = (inl >> 8) % (1U << 8); out++; *out = (inl >> 16) % (1U << 8); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 8); out++; *out = (inl >> 8) % (1U << 8); out++; *out = (inl >> 16) % (1U << 8); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 8); out++; *out = (inl >> 8) % (1U << 8); out++; *out = (inl >> 16) % (1U << 8); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 8); out++; *out = (inl >> 8) % (1U << 8); out++; *out = (inl >> 16) % (1U << 8); out++; *out = (inl >> 24); ++in; out++; return in; } inline const uint32_t* unpack9_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 9); out++; *out = (inl >> 9) % (1U << 9); out++; *out = (inl >> 18) % (1U << 9); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (9 - 4); out++; *out = (inl >> 4) % (1U << 9); out++; *out = (inl >> 13) % (1U << 9); out++; *out = (inl >> 22) % (1U << 9); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (9 - 8); out++; *out = (inl >> 8) % (1U << 9); out++; *out = (inl >> 17) % (1U << 9); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (9 - 3); out++; *out = (inl >> 3) % (1U << 9); out++; *out = (inl >> 12) % (1U << 9); out++; *out = (inl >> 21) % (1U << 9); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (9 - 7); out++; *out = (inl >> 7) % (1U << 9); out++; *out = (inl >> 16) % (1U << 9); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (9 - 2); out++; *out = (inl >> 2) % (1U << 9); out++; *out = (inl >> 11) % (1U << 9); out++; *out = (inl >> 20) % (1U << 9); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (9 - 6); out++; *out = (inl >> 6) % (1U << 9); out++; *out = (inl >> 15) % (1U << 9); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (9 - 1); out++; *out = (inl >> 1) % (1U << 9); out++; *out = (inl >> 10) % (1U << 9); out++; *out = (inl >> 19) % (1U << 9); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (9 - 5); out++; *out = (inl >> 5) % (1U << 9); out++; *out = (inl >> 14) % (1U << 9); out++; *out = (inl >> 23); ++in; out++; return in; } inline const uint32_t* unpack10_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 10); out++; *out = (inl >> 10) % (1U << 10); out++; *out = (inl >> 20) % (1U << 10); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (10 - 8); out++; *out = (inl >> 8) % (1U << 10); out++; *out = (inl >> 18) % (1U << 10); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (10 - 6); out++; *out = (inl >> 6) % (1U << 10); out++; *out = (inl >> 16) % (1U << 10); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (10 - 4); out++; *out = (inl >> 4) % (1U << 10); out++; *out = (inl >> 14) % (1U << 10); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (10 - 2); out++; *out = (inl >> 2) % (1U << 10); out++; *out = (inl >> 12) % (1U << 10); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 10); out++; *out = (inl >> 10) % (1U << 10); out++; *out = (inl >> 20) % (1U << 10); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (10 - 8); out++; *out = (inl >> 8) % (1U << 10); out++; *out = (inl >> 18) % (1U << 10); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (10 - 6); out++; *out = (inl >> 6) % (1U << 10); out++; *out = (inl >> 16) % (1U << 10); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (10 - 4); out++; *out = (inl >> 4) % (1U << 10); out++; *out = (inl >> 14) % (1U << 10); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (10 - 2); out++; *out = (inl >> 2) % (1U << 10); out++; *out = (inl >> 12) % (1U << 10); out++; *out = (inl >> 22); ++in; out++; return in; } inline const uint32_t* unpack11_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 11); out++; *out = (inl >> 11) % (1U << 11); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (11 - 1); out++; *out = (inl >> 1) % (1U << 11); out++; *out = (inl >> 12) % (1U << 11); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (11 - 2); out++; *out = (inl >> 2) % (1U << 11); out++; *out = (inl >> 13) % (1U << 11); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (11 - 3); out++; *out = (inl >> 3) % (1U << 11); out++; *out = (inl >> 14) % (1U << 11); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (11 - 4); out++; *out = (inl >> 4) % (1U << 11); out++; *out = (inl >> 15) % (1U << 11); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (11 - 5); out++; *out = (inl >> 5) % (1U << 11); out++; *out = (inl >> 16) % (1U << 11); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (11 - 6); out++; *out = (inl >> 6) % (1U << 11); out++; *out = (inl >> 17) % (1U << 11); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (11 - 7); out++; *out = (inl >> 7) % (1U << 11); out++; *out = (inl >> 18) % (1U << 11); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (11 - 8); out++; *out = (inl >> 8) % (1U << 11); out++; *out = (inl >> 19) % (1U << 11); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (11 - 9); out++; *out = (inl >> 9) % (1U << 11); out++; *out = (inl >> 20) % (1U << 11); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (11 - 10); out++; *out = (inl >> 10) % (1U << 11); out++; *out = (inl >> 21); ++in; out++; return in; } inline const uint32_t* unpack12_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 12); out++; *out = (inl >> 12) % (1U << 12); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (12 - 4); out++; *out = (inl >> 4) % (1U << 12); out++; *out = (inl >> 16) % (1U << 12); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (12 - 8); out++; *out = (inl >> 8) % (1U << 12); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 12); out++; *out = (inl >> 12) % (1U << 12); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (12 - 4); out++; *out = (inl >> 4) % (1U << 12); out++; *out = (inl >> 16) % (1U << 12); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (12 - 8); out++; *out = (inl >> 8) % (1U << 12); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 12); out++; *out = (inl >> 12) % (1U << 12); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (12 - 4); out++; *out = (inl >> 4) % (1U << 12); out++; *out = (inl >> 16) % (1U << 12); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (12 - 8); out++; *out = (inl >> 8) % (1U << 12); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 12); out++; *out = (inl >> 12) % (1U << 12); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (12 - 4); out++; *out = (inl >> 4) % (1U << 12); out++; *out = (inl >> 16) % (1U << 12); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (12 - 8); out++; *out = (inl >> 8) % (1U << 12); out++; *out = (inl >> 20); ++in; out++; return in; } inline const uint32_t* unpack13_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 13); out++; *out = (inl >> 13) % (1U << 13); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (13 - 7); out++; *out = (inl >> 7) % (1U << 13); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (13 - 1); out++; *out = (inl >> 1) % (1U << 13); out++; *out = (inl >> 14) % (1U << 13); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (13 - 8); out++; *out = (inl >> 8) % (1U << 13); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (13 - 2); out++; *out = (inl >> 2) % (1U << 13); out++; *out = (inl >> 15) % (1U << 13); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (13 - 9); out++; *out = (inl >> 9) % (1U << 13); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (13 - 3); out++; *out = (inl >> 3) % (1U << 13); out++; *out = (inl >> 16) % (1U << 13); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (13 - 10); out++; *out = (inl >> 10) % (1U << 13); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (13 - 4); out++; *out = (inl >> 4) % (1U << 13); out++; *out = (inl >> 17) % (1U << 13); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (13 - 11); out++; *out = (inl >> 11) % (1U << 13); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (13 - 5); out++; *out = (inl >> 5) % (1U << 13); out++; *out = (inl >> 18) % (1U << 13); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (13 - 12); out++; *out = (inl >> 12) % (1U << 13); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (13 - 6); out++; *out = (inl >> 6) % (1U << 13); out++; *out = (inl >> 19); ++in; out++; return in; } inline const uint32_t* unpack14_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 14); out++; *out = (inl >> 14) % (1U << 14); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (14 - 10); out++; *out = (inl >> 10) % (1U << 14); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (14 - 6); out++; *out = (inl >> 6) % (1U << 14); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (14 - 2); out++; *out = (inl >> 2) % (1U << 14); out++; *out = (inl >> 16) % (1U << 14); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (14 - 12); out++; *out = (inl >> 12) % (1U << 14); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (14 - 8); out++; *out = (inl >> 8) % (1U << 14); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (14 - 4); out++; *out = (inl >> 4) % (1U << 14); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 14); out++; *out = (inl >> 14) % (1U << 14); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (14 - 10); out++; *out = (inl >> 10) % (1U << 14); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (14 - 6); out++; *out = (inl >> 6) % (1U << 14); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (14 - 2); out++; *out = (inl >> 2) % (1U << 14); out++; *out = (inl >> 16) % (1U << 14); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (14 - 12); out++; *out = (inl >> 12) % (1U << 14); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (14 - 8); out++; *out = (inl >> 8) % (1U << 14); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (14 - 4); out++; *out = (inl >> 4) % (1U << 14); out++; *out = (inl >> 18); ++in; out++; return in; } inline const uint32_t* unpack15_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 15); out++; *out = (inl >> 15) % (1U << 15); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (15 - 13); out++; *out = (inl >> 13) % (1U << 15); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (15 - 11); out++; *out = (inl >> 11) % (1U << 15); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (15 - 9); out++; *out = (inl >> 9) % (1U << 15); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (15 - 7); out++; *out = (inl >> 7) % (1U << 15); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (15 - 5); out++; *out = (inl >> 5) % (1U << 15); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (15 - 3); out++; *out = (inl >> 3) % (1U << 15); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (15 - 1); out++; *out = (inl >> 1) % (1U << 15); out++; *out = (inl >> 16) % (1U << 15); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (15 - 14); out++; *out = (inl >> 14) % (1U << 15); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (15 - 12); out++; *out = (inl >> 12) % (1U << 15); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (15 - 10); out++; *out = (inl >> 10) % (1U << 15); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (15 - 8); out++; *out = (inl >> 8) % (1U << 15); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (15 - 6); out++; *out = (inl >> 6) % (1U << 15); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (15 - 4); out++; *out = (inl >> 4) % (1U << 15); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (15 - 2); out++; *out = (inl >> 2) % (1U << 15); out++; *out = (inl >> 17); ++in; out++; return in; } inline const uint32_t* unpack16_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 16); out++; *out = (inl >> 16); ++in; out++; return in; } inline const uint32_t* unpack17_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 17); out++; *out = (inl >> 17); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (17 - 2); out++; *out = (inl >> 2) % (1U << 17); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (17 - 4); out++; *out = (inl >> 4) % (1U << 17); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (17 - 6); out++; *out = (inl >> 6) % (1U << 17); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (17 - 8); out++; *out = (inl >> 8) % (1U << 17); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (17 - 10); out++; *out = (inl >> 10) % (1U << 17); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (17 - 12); out++; *out = (inl >> 12) % (1U << 17); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (17 - 14); out++; *out = (inl >> 14) % (1U << 17); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (17 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (17 - 1); out++; *out = (inl >> 1) % (1U << 17); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (17 - 3); out++; *out = (inl >> 3) % (1U << 17); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (17 - 5); out++; *out = (inl >> 5) % (1U << 17); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (17 - 7); out++; *out = (inl >> 7) % (1U << 17); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (17 - 9); out++; *out = (inl >> 9) % (1U << 17); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (17 - 11); out++; *out = (inl >> 11) % (1U << 17); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (17 - 13); out++; *out = (inl >> 13) % (1U << 17); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 15)) << (17 - 15); out++; *out = (inl >> 15); ++in; out++; return in; } inline const uint32_t* unpack18_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (18 - 4); out++; *out = (inl >> 4) % (1U << 18); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (18 - 8); out++; *out = (inl >> 8) % (1U << 18); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (18 - 12); out++; *out = (inl >> 12) % (1U << 18); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (18 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (18 - 2); out++; *out = (inl >> 2) % (1U << 18); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (18 - 6); out++; *out = (inl >> 6) % (1U << 18); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (18 - 10); out++; *out = (inl >> 10) % (1U << 18); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (18 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (18 - 4); out++; *out = (inl >> 4) % (1U << 18); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (18 - 8); out++; *out = (inl >> 8) % (1U << 18); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (18 - 12); out++; *out = (inl >> 12) % (1U << 18); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (18 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (18 - 2); out++; *out = (inl >> 2) % (1U << 18); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (18 - 6); out++; *out = (inl >> 6) % (1U << 18); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (18 - 10); out++; *out = (inl >> 10) % (1U << 18); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (18 - 14); out++; *out = (inl >> 14); ++in; out++; return in; } inline const uint32_t* unpack19_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 19); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (19 - 6); out++; *out = (inl >> 6) % (1U << 19); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (19 - 12); out++; *out = (inl >> 12) % (1U << 19); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (19 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (19 - 5); out++; *out = (inl >> 5) % (1U << 19); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (19 - 11); out++; *out = (inl >> 11) % (1U << 19); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 17)) << (19 - 17); out++; *out = (inl >> 17); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (19 - 4); out++; *out = (inl >> 4) % (1U << 19); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (19 - 10); out++; *out = (inl >> 10) % (1U << 19); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (19 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (19 - 3); out++; *out = (inl >> 3) % (1U << 19); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (19 - 9); out++; *out = (inl >> 9) % (1U << 19); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 15)) << (19 - 15); out++; *out = (inl >> 15); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (19 - 2); out++; *out = (inl >> 2) % (1U << 19); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (19 - 8); out++; *out = (inl >> 8) % (1U << 19); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (19 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (19 - 1); out++; *out = (inl >> 1) % (1U << 19); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (19 - 7); out++; *out = (inl >> 7) % (1U << 19); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (19 - 13); out++; *out = (inl >> 13); ++in; out++; return in; } inline const uint32_t* unpack20_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (20 - 8); out++; *out = (inl >> 8) % (1U << 20); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (20 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (20 - 4); out++; *out = (inl >> 4) % (1U << 20); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (20 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (20 - 8); out++; *out = (inl >> 8) % (1U << 20); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (20 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (20 - 4); out++; *out = (inl >> 4) % (1U << 20); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (20 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (20 - 8); out++; *out = (inl >> 8) % (1U << 20); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (20 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (20 - 4); out++; *out = (inl >> 4) % (1U << 20); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (20 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (20 - 8); out++; *out = (inl >> 8) % (1U << 20); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (20 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (20 - 4); out++; *out = (inl >> 4) % (1U << 20); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (20 - 12); out++; *out = (inl >> 12); ++in; out++; return in; } inline const uint32_t* unpack21_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 21); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (21 - 10); out++; *out = (inl >> 10) % (1U << 21); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (21 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (21 - 9); out++; *out = (inl >> 9) % (1U << 21); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 19)) << (21 - 19); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (21 - 8); out++; *out = (inl >> 8) % (1U << 21); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (21 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (21 - 7); out++; *out = (inl >> 7) % (1U << 21); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 17)) << (21 - 17); out++; *out = (inl >> 17); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (21 - 6); out++; *out = (inl >> 6) % (1U << 21); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (21 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (21 - 5); out++; *out = (inl >> 5) % (1U << 21); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 15)) << (21 - 15); out++; *out = (inl >> 15); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (21 - 4); out++; *out = (inl >> 4) % (1U << 21); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (21 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (21 - 3); out++; *out = (inl >> 3) % (1U << 21); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (21 - 13); out++; *out = (inl >> 13); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (21 - 2); out++; *out = (inl >> 2) % (1U << 21); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (21 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (21 - 1); out++; *out = (inl >> 1) % (1U << 21); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (21 - 11); out++; *out = (inl >> 11); ++in; out++; return in; } inline const uint32_t* unpack22_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (22 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (22 - 2); out++; *out = (inl >> 2) % (1U << 22); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (22 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (22 - 4); out++; *out = (inl >> 4) % (1U << 22); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (22 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (22 - 6); out++; *out = (inl >> 6) % (1U << 22); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (22 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (22 - 8); out++; *out = (inl >> 8) % (1U << 22); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (22 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (22 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (22 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (22 - 2); out++; *out = (inl >> 2) % (1U << 22); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (22 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (22 - 4); out++; *out = (inl >> 4) % (1U << 22); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (22 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (22 - 6); out++; *out = (inl >> 6) % (1U << 22); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (22 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (22 - 8); out++; *out = (inl >> 8) % (1U << 22); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (22 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (22 - 10); out++; *out = (inl >> 10); ++in; out++; return in; } inline const uint32_t* unpack23_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 23); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (23 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (23 - 5); out++; *out = (inl >> 5) % (1U << 23); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 19)) << (23 - 19); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (23 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (23 - 1); out++; *out = (inl >> 1) % (1U << 23); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 15)) << (23 - 15); out++; *out = (inl >> 15); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (23 - 6); out++; *out = (inl >> 6) % (1U << 23); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (23 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (23 - 11); out++; *out = (inl >> 11); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (23 - 2); out++; *out = (inl >> 2) % (1U << 23); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (23 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (23 - 7); out++; *out = (inl >> 7) % (1U << 23); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 21)) << (23 - 21); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (23 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (23 - 3); out++; *out = (inl >> 3) % (1U << 23); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 17)) << (23 - 17); out++; *out = (inl >> 17); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (23 - 8); out++; *out = (inl >> 8) % (1U << 23); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (23 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (23 - 13); out++; *out = (inl >> 13); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (23 - 4); out++; *out = (inl >> 4) % (1U << 23); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (23 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (23 - 9); out++; *out = (inl >> 9); ++in; out++; return in; } inline const uint32_t* unpack24_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (24 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (24 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (24 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (24 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (24 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (24 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (24 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (24 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (24 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (24 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (24 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (24 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (24 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (24 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (24 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (24 - 8); out++; *out = (inl >> 8); ++in; out++; return in; } inline const uint32_t* unpack25_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 25); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (25 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (25 - 11); out++; *out = (inl >> 11); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (25 - 4); out++; *out = (inl >> 4) % (1U << 25); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (25 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 15)) << (25 - 15); out++; *out = (inl >> 15); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (25 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (25 - 1); out++; *out = (inl >> 1) % (1U << 25); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 19)) << (25 - 19); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (25 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (25 - 5); out++; *out = (inl >> 5) % (1U << 25); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 23)) << (25 - 23); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (25 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (25 - 9); out++; *out = (inl >> 9); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (25 - 2); out++; *out = (inl >> 2) % (1U << 25); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (25 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (25 - 13); out++; *out = (inl >> 13); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (25 - 6); out++; *out = (inl >> 6) % (1U << 25); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (25 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 17)) << (25 - 17); out++; *out = (inl >> 17); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (25 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (25 - 3); out++; *out = (inl >> 3) % (1U << 25); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 21)) << (25 - 21); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (25 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (25 - 7); out++; *out = (inl >> 7); ++in; out++; return in; } inline const uint32_t* unpack26_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 26); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (26 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (26 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (26 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (26 - 2); out++; *out = (inl >> 2) % (1U << 26); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (26 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (26 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (26 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (26 - 4); out++; *out = (inl >> 4) % (1U << 26); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (26 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (26 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (26 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (26 - 6); out++; *out = (inl >> 6); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 26); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (26 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (26 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (26 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (26 - 2); out++; *out = (inl >> 2) % (1U << 26); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (26 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (26 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (26 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (26 - 4); out++; *out = (inl >> 4) % (1U << 26); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (26 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (26 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (26 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (26 - 6); out++; *out = (inl >> 6); ++in; out++; return in; } inline const uint32_t* unpack27_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 27); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (27 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 17)) << (27 - 17); out++; *out = (inl >> 17); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (27 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (27 - 7); out++; *out = (inl >> 7); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (27 - 2); out++; *out = (inl >> 2) % (1U << 27); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (27 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 19)) << (27 - 19); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (27 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (27 - 9); out++; *out = (inl >> 9); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (27 - 4); out++; *out = (inl >> 4) % (1U << 27); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 26)) << (27 - 26); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 21)) << (27 - 21); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (27 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (27 - 11); out++; *out = (inl >> 11); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (27 - 6); out++; *out = (inl >> 6); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (27 - 1); out++; *out = (inl >> 1) % (1U << 27); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 23)) << (27 - 23); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (27 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (27 - 13); out++; *out = (inl >> 13); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (27 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (27 - 3); out++; *out = (inl >> 3) % (1U << 27); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 25)) << (27 - 25); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (27 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 15)) << (27 - 15); out++; *out = (inl >> 15); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (27 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (27 - 5); out++; *out = (inl >> 5); ++in; out++; return in; } inline const uint32_t* unpack28_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 28); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (28 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (28 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (28 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (28 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (28 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (28 - 4); out++; *out = (inl >> 4); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 28); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (28 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (28 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (28 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (28 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (28 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (28 - 4); out++; *out = (inl >> 4); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 28); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (28 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (28 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (28 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (28 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (28 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (28 - 4); out++; *out = (inl >> 4); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 28); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (28 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (28 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (28 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (28 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (28 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (28 - 4); out++; *out = (inl >> 4); ++in; out++; return in; } inline const uint32_t* unpack29_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 29); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 26)) << (29 - 26); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 23)) << (29 - 23); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (29 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 17)) << (29 - 17); out++; *out = (inl >> 17); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (29 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (29 - 11); out++; *out = (inl >> 11); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (29 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (29 - 5); out++; *out = (inl >> 5); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (29 - 2); out++; *out = (inl >> 2) % (1U << 29); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 28)) << (29 - 28); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 25)) << (29 - 25); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (29 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 19)) << (29 - 19); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (29 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (29 - 13); out++; *out = (inl >> 13); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (29 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (29 - 7); out++; *out = (inl >> 7); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (29 - 4); out++; *out = (inl >> 4); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (29 - 1); out++; *out = (inl >> 1) % (1U << 29); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 27)) << (29 - 27); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (29 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 21)) << (29 - 21); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (29 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 15)) << (29 - 15); out++; *out = (inl >> 15); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (29 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (29 - 9); out++; *out = (inl >> 9); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (29 - 6); out++; *out = (inl >> 6); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (29 - 3); out++; *out = (inl >> 3); ++in; out++; return in; } inline const uint32_t* unpack30_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 30); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 28)) << (30 - 28); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 26)) << (30 - 26); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (30 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (30 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (30 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (30 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (30 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (30 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (30 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (30 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (30 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (30 - 6); out++; *out = (inl >> 6); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (30 - 4); out++; *out = (inl >> 4); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (30 - 2); out++; *out = (inl >> 2); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0) % (1U << 30); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 28)) << (30 - 28); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 26)) << (30 - 26); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (30 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (30 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (30 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (30 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (30 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (30 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (30 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (30 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (30 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (30 - 6); out++; *out = (inl >> 6); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (30 - 4); out++; *out = (inl >> 4); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (30 - 2); out++; *out = (inl >> 2); ++in; out++; return in; } inline const uint32_t* unpack31_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0) % (1U << 31); out++; *out = (inl >> 31); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 30)) << (31 - 30); out++; *out = (inl >> 30); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 29)) << (31 - 29); out++; *out = (inl >> 29); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 28)) << (31 - 28); out++; *out = (inl >> 28); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 27)) << (31 - 27); out++; *out = (inl >> 27); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 26)) << (31 - 26); out++; *out = (inl >> 26); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 25)) << (31 - 25); out++; *out = (inl >> 25); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 24)) << (31 - 24); out++; *out = (inl >> 24); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 23)) << (31 - 23); out++; *out = (inl >> 23); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 22)) << (31 - 22); out++; *out = (inl >> 22); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 21)) << (31 - 21); out++; *out = (inl >> 21); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 20)) << (31 - 20); out++; *out = (inl >> 20); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 19)) << (31 - 19); out++; *out = (inl >> 19); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 18)) << (31 - 18); out++; *out = (inl >> 18); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 17)) << (31 - 17); out++; *out = (inl >> 17); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 16)) << (31 - 16); out++; *out = (inl >> 16); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 15)) << (31 - 15); out++; *out = (inl >> 15); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 14)) << (31 - 14); out++; *out = (inl >> 14); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 13)) << (31 - 13); out++; *out = (inl >> 13); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 12)) << (31 - 12); out++; *out = (inl >> 12); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 11)) << (31 - 11); out++; *out = (inl >> 11); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 10)) << (31 - 10); out++; *out = (inl >> 10); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 9)) << (31 - 9); out++; *out = (inl >> 9); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 8)) << (31 - 8); out++; *out = (inl >> 8); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 7)) << (31 - 7); out++; *out = (inl >> 7); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 6)) << (31 - 6); out++; *out = (inl >> 6); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 5)) << (31 - 5); out++; *out = (inl >> 5); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 4)) << (31 - 4); out++; *out = (inl >> 4); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 3)) << (31 - 3); out++; *out = (inl >> 3); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 2)) << (31 - 2); out++; *out = (inl >> 2); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out |= (inl % (1U << 1)) << (31 - 1); out++; *out = (inl >> 1); ++in; out++; return in; } inline const uint32_t* unpack32_32(const uint32_t* in, uint32_t* out) { uint32_t inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; inl = util::SafeLoad(in); inl = arrow::BitUtil::FromLittleEndian(inl); out++; *out = (inl >> 0); ++in; out++; return in; } inline const uint32_t* nullunpacker32(const uint32_t* in, uint32_t* out) { for (int k = 0; k < 32; ++k) { out[k] = 0; } return in; } } // namespace internal } // namespace arrow