antkeeper
/
superbuild


								/**

								 * OpenAL cross platform audio library

								 * Copyright (C) 1999-2007 by authors.

								 * This library is free software; you can redistribute it and/or

								 *  modify it under the terms of the GNU Library General Public

								 *  License as published by the Free Software Foundation; either

								 *  version 2 of the License, or (at your option) any later version.

								 *

								 * This library is distributed in the hope that it will be useful,

								 *  but WITHOUT ANY WARRANTY; without even the implied warranty of

								 *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU

								 *  Library General Public License for more details.

								 *

								 * You should have received a copy of the GNU Library General Public

								 *  License along with this library; if not, write to the

								 *  Free Software Foundation, Inc.,

								 *  51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.

								 * Or go to http://www.gnu.org/copyleft/lgpl.html

								 */


								#include "config.h"


								#include "ringbuffer.h"


								#include <algorithm>

								#include <climits>

								#include <stdexcept>


								#include "almalloc.h"


								RingBufferPtr RingBuffer::Create(size_t sz, size_t elem_sz, int limit_writes)

								{

								    size_t power_of_two{0u};

								    if(sz > 0)

								    {

								        power_of_two = sz;

								        power_of_two |= power_of_two>>1;

								        power_of_two |= power_of_two>>2;

								        power_of_two |= power_of_two>>4;

								        power_of_two |= power_of_two>>8;

								        power_of_two |= power_of_two>>16;

								#if SIZE_MAX > UINT_MAX

								        power_of_two |= power_of_two>>32;

								#endif

								    }

								    ++power_of_two;

								    if(power_of_two <= sz || power_of_two > std::numeric_limits<size_t>::max()/elem_sz)

								        throw std::overflow_error{"Ring buffer size overflow"};


								    const size_t bufbytes{power_of_two * elem_sz};

								    RingBufferPtr rb{new(FamCount(bufbytes)) RingBuffer{bufbytes}};

								    rb->mWriteSize = limit_writes ? sz : (power_of_two-1);

								    rb->mSizeMask = power_of_two - 1;

								    rb->mElemSize = elem_sz;


								    return rb;

								}


								void RingBuffer::reset() noexcept

								{

								    mWritePtr.store(0, std::memory_order_relaxed);

								    mReadPtr.store(0, std::memory_order_relaxed);

								    std::fill_n(mBuffer.begin(), (mSizeMask+1)*mElemSize, al::byte{});

								}


								size_t RingBuffer::read(void *dest, size_t cnt) noexcept

								{

								    const size_t free_cnt{readSpace()};

								    if(free_cnt == 0) return 0;


								    const size_t to_read{std::min(cnt, free_cnt)};

								    size_t read_ptr{mReadPtr.load(std::memory_order_relaxed) & mSizeMask};


								    size_t n1, n2;

								    const size_t cnt2{read_ptr + to_read};

								    if(cnt2 > mSizeMask+1)

								    {

								        n1 = mSizeMask+1 - read_ptr;

								        n2 = cnt2 & mSizeMask;

								    }

								    else

								    {

								        n1 = to_read;

								        n2 = 0;

								    }


								    auto outiter = std::copy_n(mBuffer.begin() + read_ptr*mElemSize, n1*mElemSize,

								        static_cast<al::byte*>(dest));

								    read_ptr += n1;

								    if(n2 > 0)

								    {

								        std::copy_n(mBuffer.begin(), n2*mElemSize, outiter);

								        read_ptr += n2;

								    }

								    mReadPtr.store(read_ptr, std::memory_order_release);

								    return to_read;

								}


								size_t RingBuffer::peek(void *dest, size_t cnt) const noexcept

								{

								    const size_t free_cnt{readSpace()};

								    if(free_cnt == 0) return 0;


								    const size_t to_read{std::min(cnt, free_cnt)};

								    size_t read_ptr{mReadPtr.load(std::memory_order_relaxed) & mSizeMask};


								    size_t n1, n2;

								    const size_t cnt2{read_ptr + to_read};

								    if(cnt2 > mSizeMask+1)

								    {

								        n1 = mSizeMask+1 - read_ptr;

								        n2 = cnt2 & mSizeMask;

								    }

								    else

								    {

								        n1 = to_read;

								        n2 = 0;

								    }


								    auto outiter = std::copy_n(mBuffer.begin() + read_ptr*mElemSize, n1*mElemSize,

								        static_cast<al::byte*>(dest));

								    if(n2 > 0)

								        std::copy_n(mBuffer.begin(), n2*mElemSize, outiter);

								    return to_read;

								}


								size_t RingBuffer::write(const void *src, size_t cnt) noexcept

								{

								    const size_t free_cnt{writeSpace()};

								    if(free_cnt == 0) return 0;


								    const size_t to_write{std::min(cnt, free_cnt)};

								    size_t write_ptr{mWritePtr.load(std::memory_order_relaxed) & mSizeMask};


								    size_t n1, n2;

								    const size_t cnt2{write_ptr + to_write};

								    if(cnt2 > mSizeMask+1)

								    {

								        n1 = mSizeMask+1 - write_ptr;

								        n2 = cnt2 & mSizeMask;

								    }

								    else

								    {

								        n1 = to_write;

								        n2 = 0;

								    }


								    auto srcbytes = static_cast<const al::byte*>(src);

								    std::copy_n(srcbytes, n1*mElemSize, mBuffer.begin() + write_ptr*mElemSize);

								    write_ptr += n1;

								    if(n2 > 0)

								    {

								        std::copy_n(srcbytes + n1*mElemSize, n2*mElemSize, mBuffer.begin());

								        write_ptr += n2;

								    }

								    mWritePtr.store(write_ptr, std::memory_order_release);

								    return to_write;

								}


								auto RingBuffer::getReadVector() const noexcept -> DataPair

								{

								    DataPair ret;


								    size_t w{mWritePtr.load(std::memory_order_acquire)};

								    size_t r{mReadPtr.load(std::memory_order_acquire)};

								    w &= mSizeMask;

								    r &= mSizeMask;

								    const size_t free_cnt{(w-r) & mSizeMask};


								    const size_t cnt2{r + free_cnt};

								    if(cnt2 > mSizeMask+1)

								    {

								        /* Two part vector: the rest of the buffer after the current read ptr,

								         * plus some from the start of the buffer. */

								        ret.first.buf = const_cast<al::byte*>(mBuffer.data() + r*mElemSize);

								        ret.first.len = mSizeMask+1 - r;

								        ret.second.buf = const_cast<al::byte*>(mBuffer.data());

								        ret.second.len = cnt2 & mSizeMask;

								    }

								    else

								    {

								        /* Single part vector: just the rest of the buffer */

								        ret.first.buf = const_cast<al::byte*>(mBuffer.data() + r*mElemSize);

								        ret.first.len = free_cnt;

								        ret.second.buf = nullptr;

								        ret.second.len = 0;

								    }


								    return ret;

								}


								auto RingBuffer::getWriteVector() const noexcept -> DataPair

								{

								    DataPair ret;


								    size_t w{mWritePtr.load(std::memory_order_acquire)};

								    size_t r{mReadPtr.load(std::memory_order_acquire) + mWriteSize - mSizeMask};

								    w &= mSizeMask;

								    r &= mSizeMask;

								    const size_t free_cnt{(r-w-1) & mSizeMask};


								    const size_t cnt2{w + free_cnt};

								    if(cnt2 > mSizeMask+1)

								    {

								        /* Two part vector: the rest of the buffer after the current write ptr,

								         * plus some from the start of the buffer. */

								        ret.first.buf = const_cast<al::byte*>(mBuffer.data() + w*mElemSize);

								        ret.first.len = mSizeMask+1 - w;

								        ret.second.buf = const_cast<al::byte*>(mBuffer.data());

								        ret.second.len = cnt2 & mSizeMask;

								    }

								    else

								    {

								        ret.first.buf = const_cast<al::byte*>(mBuffer.data() + w*mElemSize);

								        ret.first.len = free_cnt;

								        ret.second.buf = nullptr;

								        ret.second.len = 0;

								    }


								    return ret;

								}