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/*
 * Copyright (c) 2015-2017, Intel Corporation
 *
 * Redistribution and use in source and binary forms, with or without
 * modification, are permitted provided that the following conditions are met:
 *
 *  * Redistributions of source code must retain the above copyright notice,
 *    this list of conditions and the following disclaimer.
 *  * Redistributions in binary form must reproduce the above copyright
 *    notice, this list of conditions and the following disclaimer in the
 *    documentation and/or other materials provided with the distribution.
 *  * Neither the name of Intel Corporation nor the names of its contributors
 *    may be used to endorse or promote products derived from this software
 *    without specific prior written permission.
 *
 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
 * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
 * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
 * ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE
 * LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
 * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
 * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
 * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
 * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
 * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 * POSSIBILITY OF SUCH DAMAGE.
 */

/** \file
 * \brief Bit-twiddling primitives (ctz, compress etc)
 */

#ifndef BITUTILS_H
#define BITUTILS_H

#include "ue2common.h"
#include "popcount.h"
#include "util/arch.h"
#include "util/intrinsics.h"

#define CASE_BIT          0x20
#define CASE_CLEAR        0xdf
#define DOUBLE_CASE_CLEAR 0xdfdf
#define OCTO_CASE_CLEAR   0xdfdfdfdfdfdfdfdfULL

static really_inline
u32 clz32(u32 x) {
    assert(x); // behaviour not defined for x == 0
#if defined(_WIN32)
    unsigned long r;
    _BitScanReverse(&r, x);
    return 31 - r;
#else
    return (u32)__builtin_clz(x);
#endif
}

static really_inline
u32 clz64(u64a x) {
    assert(x); // behaviour not defined for x == 0
#if defined(_WIN64)
    unsigned long r;
    _BitScanReverse64(&r, x);
    return 63 - r;
#elif defined(_WIN32)
    unsigned long x1 = (u32)x;
    unsigned long x2 = (u32)(x >> 32);
    unsigned long r;
    if (x2) {
        _BitScanReverse(&r, x2);
        return (u32)(31 - r);
    }
    _BitScanReverse(&r, (u32)x1);
    return (u32)(63 - r);
#else
    return (u32)__builtin_clzll(x);
#endif
}

// CTZ (count trailing zero) implementations.
static really_inline
u32 ctz32(u32 x) {
    assert(x); // behaviour not defined for x == 0
#if defined(_WIN32)
    unsigned long r;
    _BitScanForward(&r, x);
    return r;
#else
    return (u32)__builtin_ctz(x);
#endif
}

static really_inline
u32 ctz64(u64a x) {
    assert(x); // behaviour not defined for x == 0
#if defined(_WIN64)
    unsigned long r;
    _BitScanForward64(&r, x);
    return r;
#elif defined(_WIN32)
    unsigned long r;
    if (_BitScanForward(&r, (u32)x)) {
        return (u32)r;
    }
    _BitScanForward(&r, x >> 32);
    return (u32)(r + 32);
#else
    return (u32)__builtin_ctzll(x);
#endif
}

static really_inline
u32 lg2(u32 x) {
    if (!x) {
        return 0;
    }
    return 31 - clz32(x);
}

static really_inline
u64a lg2_64(u64a x) {
    if (!x) {
        return 0;
    }
    return 63 - clz64(x);
}

static really_inline
u32 findAndClearLSB_32(u32 *v) {
    assert(*v != 0); // behaviour not defined in this case
#ifndef NO_ASM
    u32 val = *v, offset;
    __asm__ ("bsf %1, %0\n"
             "btr %0, %1\n"
             : "=r" (offset), "=r" (val)
             : "1" (val));
    *v = val;
#else
    u32 val = *v;
    u32 offset = ctz32(val);
    *v = val & (val - 1);
#endif

    assert(offset < 32);
    return offset;
}

static really_inline
u32 findAndClearLSB_64(u64a *v) {
    assert(*v != 0); // behaviour not defined in this case

#ifdef ARCH_64_BIT
#if defined(ARCH_X86_64) && !defined(NO_ASM)
    u64a val = *v, offset;
    __asm__ ("bsfq %1, %0\n"
             "btrq %0, %1\n"
             : "=r" (offset), "=r" (val)
             : "1" (val));
    *v = val;
#else
    // generic variant using gcc's builtin on 64-bit
    u64a val = *v, offset;
    offset = ctz64(val);
    *v = val & (val - 1);
#endif // ARCH_X86_64
#else
    // fall back to doing things with two 32-bit cases, since gcc-4.1 doesn't
    // inline calls to __builtin_ctzll
    u32 v1 = (u32)*v;
    u32 v2 = (u32)(*v >> 32);
    u32 offset;
    if (v1) {
        offset = findAndClearLSB_32(&v1);
        *v = (u64a)v1 | ((u64a)v2 << 32);
    } else {
        offset = findAndClearLSB_32(&v2) + 32;
        *v = (u64a)v2 << 32;
    }
#endif

    assert(offset < 64);
    return (u32)offset;
}

static really_inline
u32 findAndClearMSB_32(u32 *v) {
    assert(*v != 0); // behaviour not defined in this case
#ifndef NO_ASM
    u32 val = *v, offset;
    __asm__ ("bsr %1, %0\n"
             "btr %0, %1\n"
             : "=r" (offset), "=r" (val)
             : "1" (val));
    *v = val;
#else
    u32 val = *v;
    u32 offset = 31 - clz32(val);
    *v = val & ~(1 << offset);
#endif
    assert(offset < 32);
    return offset;
}

static really_inline
u32 findAndClearMSB_64(u64a *v) {
    assert(*v != 0); // behaviour not defined in this case

#ifdef ARCH_64_BIT
#if defined(ARCH_X86_64) && !defined(NO_ASM)
    u64a val = *v, offset;
    __asm__ ("bsrq %1, %0\n"
             "btrq %0, %1\n"
             : "=r" (offset), "=r" (val)
             : "1" (val));
    *v = val;
#else
    // generic variant using gcc's builtin on 64-bit
    u64a val = *v, offset;
    offset = 63 - clz64(val);
    *v = val & ~(1ULL << offset);
#endif // ARCH_X86_64
#else
    // fall back to doing things with two 32-bit cases, since gcc-4.1 doesn't
    // inline calls to __builtin_ctzll
    u32 v1 = (u32)*v;
    u32 v2 = (*v >> 32);
    u32 offset;
    if (v2) {
        offset = findAndClearMSB_32(&v2) + 32;
        *v = ((u64a)v2 << 32) | (u64a)v1;
    } else {
        offset = findAndClearMSB_32(&v1);
        *v = (u64a)v1;
    }
#endif

    assert(offset < 64);
    return (u32)offset;
}

static really_inline
u32 compress32(u32 x, u32 m) {
#if defined(HAVE_BMI2)
    // BMI2 has a single instruction for this operation.
    return _pext_u32(x, m);
#else

    // Return zero quickly on trivial cases
    if ((x & m) == 0) {
        return 0;
    }

    u32 mk, mp, mv, t;

    x &= m; // clear irrelevant bits

    mk = ~m << 1; // we will count 0's to right
    for (u32 i = 0; i < 5; i++) {
        mp = mk ^ (mk << 1);
        mp ^= mp << 2;
        mp ^= mp << 4;
        mp ^= mp << 8;
        mp ^= mp << 16;

        mv = mp & m; // bits to move
        m = (m ^ mv) | (mv >> (1 << i)); // compress m
        t = x & mv;
        x = (x ^ t) | (t >> (1 << i)); // compress x
        mk = mk & ~mp;
    }

    return x;
#endif
}

static really_inline
u64a compress64(u64a x, u64a m) {
#if defined(ARCH_X86_64) && defined(HAVE_BMI2)
    // BMI2 has a single instruction for this operation.
    return _pext_u64(x, m);
#else

    // Return zero quickly on trivial cases
    if ((x & m) == 0) {
        return 0;
    }

    u64a mk, mp, mv, t;

    x &= m; // clear irrelevant bits

    mk = ~m << 1; // we will count 0's to right
    for (u32 i = 0; i < 6; i++) {
        mp = mk ^ (mk << 1);
        mp ^= mp << 2;
        mp ^= mp << 4;
        mp ^= mp << 8;
        mp ^= mp << 16;
        mp ^= mp << 32;

        mv = mp & m; // bits to move
        m = (m ^ mv) | (mv >> (1 << i)); // compress m
        t = x & mv;
        x = (x ^ t) | (t >> (1 << i)); // compress x
        mk = mk & ~mp;
    }

    return x;
#endif
}

static really_inline
u32 expand32(u32 x, u32 m) {
#if defined(HAVE_BMI2)
    // BMI2 has a single instruction for this operation.
    return _pdep_u32(x, m);
#else

    // Return zero quickly on trivial cases
    if (!x || !m) {
        return 0;
    }

    u32 m0, mk, mp, mv, t;
    u32 array[5];

    m0 = m; // save original mask
    mk = ~m << 1; // we will count 0's to right

    for (int i = 0; i < 5; i++) {
        mp = mk ^ (mk << 1); // parallel suffix
        mp = mp ^ (mp << 2);
        mp = mp ^ (mp << 4);
        mp = mp ^ (mp << 8);
        mp = mp ^ (mp << 16);
        mv = mp & m; // bits to move
        array[i] = mv;
        m = (m ^ mv) | (mv >> (1 << i)); // compress m
        mk = mk & ~mp;
    }

    for (int i = 4; i >= 0; i--) {
        mv = array[i];
        t = x << (1 << i);
        x = (x & ~mv) | (t & mv);
    }

    return x & m0; // clear out extraneous bits
#endif
}

static really_inline
u64a expand64(u64a x, u64a m) {
#if defined(ARCH_X86_64) && defined(HAVE_BMI2)
    // BMI2 has a single instruction for this operation.
    return _pdep_u64(x, m);
#else

    // Return zero quickly on trivial cases
    if (!x || !m) {
        return 0;
    }

    u64a m0, mk, mp, mv, t;
    u64a array[6];

    m0 = m; // save original mask
    mk = ~m << 1; // we will count 0's to right

    for (int i = 0; i < 6; i++) {
        mp = mk ^ (mk << 1); // parallel suffix
        mp = mp ^ (mp << 2);
        mp = mp ^ (mp << 4);
        mp = mp ^ (mp << 8);
        mp = mp ^ (mp << 16);
        mp = mp ^ (mp << 32);
        mv = mp & m; // bits to move
        array[i] = mv;
        m = (m ^ mv) | (mv >> (1 << i)); // compress m
        mk = mk & ~mp;
    }

    for (int i = 5; i >= 0; i--) {
        mv = array[i];
        t = x << (1 << i);
        x = (x & ~mv) | (t & mv);
    }

    return x & m0; // clear out extraneous bits
#endif
}


/* returns the first set bit after begin (if not ~0U). If no bit is set after
 * begin returns ~0U
 */
static really_inline
u32 bf64_iterate(u64a bitfield, u32 begin) {
    if (begin != ~0U) {
        /* switch off all bits at or below begin. Note: not legal to shift by
         * by size of the datatype or larger. */
        assert(begin <= 63);
        bitfield &= ~((2ULL << begin) - 1);
    }

    if (!bitfield) {
        return ~0U;
    }

    return ctz64(bitfield);
}

static really_inline
char bf64_set(u64a *bitfield, u32 i) {
    assert(i < 64);
    u64a mask = 1ULL << i;
    char was_set = !!(*bitfield & mask);
    *bitfield |= mask;

    return was_set;
}

static really_inline
void bf64_unset(u64a *bitfield, u32 i) {
    assert(i < 64);
    *bitfield &= ~(1ULL << i);
}

static really_inline
u32 rank_in_mask32(u32 mask, u32 bit) {
    assert(bit < sizeof(u32) * 8);
    assert(mask & (u32)(1U << bit));
    mask &= (u32)(1U << bit) - 1;
    return popcount32(mask);
}

static really_inline
u32 rank_in_mask64(u64a mask, u32 bit) {
    assert(bit < sizeof(u64a) * 8);
    assert(mask & (u64a)(1ULL << bit));
    mask &= (u64a)(1ULL << bit) - 1;
    return popcount64(mask);
}

static really_inline
u32 pext32(u32 x, u32 mask) {
#if defined(HAVE_BMI2)
    // Intel BMI2 can do this operation in one instruction.
    return _pext_u32(x, mask);
#else

    u32 result = 0, num = 1;
    while (mask != 0) {
        u32 bit = findAndClearLSB_32(&mask);
        if (x & (1U << bit)) {
            assert(num != 0); // more than 32 bits!
            result |= num;
        }
        num <<= 1;
    }
    return result;
#endif
}

static really_inline
u64a pext64(u64a x, u64a mask) {
#if defined(HAVE_BMI2) && defined(ARCH_64_BIT)
    // Intel BMI2 can do this operation in one instruction.
    return _pext_u64(x, mask);
#else

    u32 result = 0, num = 1;
    while (mask != 0) {
        u32 bit = findAndClearLSB_64(&mask);
        if (x & (1ULL << bit)) {
            assert(num != 0); // more than 32 bits!
            result |= num;
        }
        num <<= 1;
    }
    return result;
#endif
}

#if defined(HAVE_BMI2) && defined(ARCH_64_BIT)
static really_inline
u64a pdep64(u64a x, u64a mask) {
    return _pdep_u64(x, mask);
}
#endif

#endif // BITUTILS_H