Sweden-Number/dlls/dsound/mixer.c

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/* DirectSound
*
* Copyright 1998 Marcus Meissner
* Copyright 1998 Rob Riggs
* Copyright 2000-2002 TransGaming Technologies, Inc.
* Copyright 2007 Peter Dons Tychsen
* Copyright 2007 Maarten Lankhorst
* Copyright 2011 Owen Rudge for CodeWeavers
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301, USA
*/
#include <assert.h>
#include <stdarg.h>
#include <math.h> /* Insomnia - pow() function */
#define COBJMACROS
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#define NONAMELESSSTRUCT
#define NONAMELESSUNION
#include "windef.h"
#include "winbase.h"
#include "mmsystem.h"
#include "wingdi.h"
#include "mmreg.h"
#include "winternl.h"
#include "wine/debug.h"
#include "dsound.h"
#include "ks.h"
#include "ksmedia.h"
#include "dsound_private.h"
WINE_DEFAULT_DEBUG_CHANNEL(dsound);
void DSOUND_RecalcVolPan(PDSVOLUMEPAN volpan)
{
double temp;
TRACE("(%p)\n",volpan);
TRACE("Vol=%d Pan=%d\n", volpan->lVolume, volpan->lPan);
/* the AmpFactors are expressed in 16.16 fixed point */
volpan->dwVolAmpFactor = (ULONG) (pow(2.0, volpan->lVolume / 600.0) * 0xffff);
/* FIXME: dwPan{Left|Right}AmpFactor */
/* FIXME: use calculated vol and pan ampfactors */
temp = (double) (volpan->lVolume - (volpan->lPan > 0 ? volpan->lPan : 0));
volpan->dwTotalLeftAmpFactor = (ULONG) (pow(2.0, temp / 600.0) * 0xffff);
temp = (double) (volpan->lVolume + (volpan->lPan < 0 ? volpan->lPan : 0));
volpan->dwTotalRightAmpFactor = (ULONG) (pow(2.0, temp / 600.0) * 0xffff);
TRACE("left = %x, right = %x\n", volpan->dwTotalLeftAmpFactor, volpan->dwTotalRightAmpFactor);
}
void DSOUND_AmpFactorToVolPan(PDSVOLUMEPAN volpan)
{
double left,right;
TRACE("(%p)\n",volpan);
TRACE("left=%x, right=%x\n",volpan->dwTotalLeftAmpFactor,volpan->dwTotalRightAmpFactor);
if (volpan->dwTotalLeftAmpFactor==0)
left=-10000;
else
left=600 * log(((double)volpan->dwTotalLeftAmpFactor) / 0xffff) / log(2);
if (volpan->dwTotalRightAmpFactor==0)
right=-10000;
else
right=600 * log(((double)volpan->dwTotalRightAmpFactor) / 0xffff) / log(2);
if (left<right)
{
volpan->lVolume=right;
volpan->dwVolAmpFactor=volpan->dwTotalRightAmpFactor;
}
else
{
volpan->lVolume=left;
volpan->dwVolAmpFactor=volpan->dwTotalLeftAmpFactor;
}
if (volpan->lVolume < -10000)
volpan->lVolume=-10000;
volpan->lPan=right-left;
if (volpan->lPan < -10000)
volpan->lPan=-10000;
TRACE("Vol=%d Pan=%d\n", volpan->lVolume, volpan->lPan);
}
/** Convert a primary buffer position to a pointer position for device->mix_buffer
* device: DirectSoundDevice for which to calculate
* pos: Primary buffer position to converts
* Returns: Offset for mix_buffer
*/
DWORD DSOUND_bufpos_to_mixpos(const DirectSoundDevice* device, DWORD pos)
{
DWORD ret = pos * 32 / device->pwfx->wBitsPerSample;
if (device->pwfx->wBitsPerSample == 32)
ret *= 2;
return ret;
}
/* NOTE: Not all secpos have to always be mapped to a bufpos, other way around is always the case
* DWORD64 is used here because a single DWORD wouldn't be big enough to fit the freqAcc for big buffers
*/
/** This function converts a 'native' sample pointer to a resampled pointer that fits for primary
* secmixpos is used to decide which freqAcc is needed
* overshot tells what the 'actual' secpos is now (optional)
*/
DWORD DSOUND_secpos_to_bufpos(const IDirectSoundBufferImpl *dsb, DWORD secpos, DWORD secmixpos, DWORD* overshot)
{
DWORD64 framelen = secpos / dsb->pwfx->nBlockAlign;
DWORD64 freqAdjust = dsb->freqAdjust;
DWORD64 acc, freqAcc;
if (secpos < secmixpos)
freqAcc = dsb->freqAccNext;
else freqAcc = dsb->freqAcc;
acc = (framelen << DSOUND_FREQSHIFT) + (freqAdjust - 1 - freqAcc);
acc /= freqAdjust;
if (overshot)
{
DWORD64 oshot = acc * freqAdjust + freqAcc;
assert(oshot >= framelen << DSOUND_FREQSHIFT);
oshot -= framelen << DSOUND_FREQSHIFT;
*overshot = (DWORD)oshot;
assert(*overshot < dsb->freqAdjust);
}
return (DWORD)acc * dsb->device->pwfx->nBlockAlign;
}
/** Convert a resampled pointer that fits for primary to a 'native' sample pointer
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* freqAccNext is used here rather than freqAcc: In case the app wants to fill up to
* the play position it won't overwrite it
*/
static DWORD DSOUND_bufpos_to_secpos(const IDirectSoundBufferImpl *dsb, DWORD bufpos)
{
DWORD oAdv = dsb->device->pwfx->nBlockAlign, iAdv = dsb->pwfx->nBlockAlign, pos;
DWORD64 framelen;
DWORD64 acc;
framelen = bufpos/oAdv;
acc = framelen * (DWORD64)dsb->freqAdjust + (DWORD64)dsb->freqAccNext;
acc = acc >> DSOUND_FREQSHIFT;
pos = (DWORD)acc * iAdv;
if (pos >= dsb->buflen)
/* Because of differences between freqAcc and freqAccNext, this might happen */
pos = dsb->buflen - iAdv;
TRACE("Converted %d/%d to %d/%d\n", bufpos, dsb->tmp_buffer_len, pos, dsb->buflen);
return pos;
}
/**
* Move freqAccNext to freqAcc, and find new values for buffer length and freqAccNext
*/
static void DSOUND_RecalcFreqAcc(IDirectSoundBufferImpl *dsb)
{
if (!dsb->freqneeded) return;
dsb->freqAcc = dsb->freqAccNext;
dsb->tmp_buffer_len = DSOUND_secpos_to_bufpos(dsb, dsb->buflen, 0, &dsb->freqAccNext);
TRACE("New freqadjust: %04x, new buflen: %d\n", dsb->freqAccNext, dsb->tmp_buffer_len);
}
/**
* Recalculate the size for temporary buffer, and new writelead
* Should be called when one of the following things occur:
* - Primary buffer format is changed
* - This buffer format (frequency) is changed
*/
void DSOUND_RecalcFormat(IDirectSoundBufferImpl *dsb)
{
BOOL needremix = TRUE, needresample = (dsb->freq != dsb->device->pwfx->nSamplesPerSec);
DWORD bAlign = dsb->pwfx->nBlockAlign, pAlign = dsb->device->pwfx->nBlockAlign;
WAVEFORMATEXTENSIBLE *pwfxe;
BOOL ieee = FALSE;
TRACE("(%p)\n",dsb);
pwfxe = (WAVEFORMATEXTENSIBLE *) dsb->pwfx;
if ((pwfxe->Format.wFormatTag == WAVE_FORMAT_IEEE_FLOAT) || ((pwfxe->Format.wFormatTag == WAVE_FORMAT_EXTENSIBLE)
&& (IsEqualGUID(&pwfxe->SubFormat, &KSDATAFORMAT_SUBTYPE_IEEE_FLOAT))))
ieee = TRUE;
/* calculate the 10ms write lead */
dsb->writelead = (dsb->freq / 100) * dsb->pwfx->nBlockAlign;
if ((dsb->pwfx->wBitsPerSample == dsb->device->pwfx->wBitsPerSample) &&
(dsb->pwfx->nChannels == dsb->device->pwfx->nChannels) && !needresample && !ieee)
needremix = FALSE;
dsb->freqAcc = dsb->freqAccNext = 0;
dsb->freqneeded = needresample;
if (ieee)
dsb->convert = convertbpp[4][dsb->device->pwfx->wBitsPerSample/8 - 1];
else
dsb->convert = convertbpp[dsb->pwfx->wBitsPerSample/8 - 1][dsb->device->pwfx->wBitsPerSample/8 - 1];
if (needremix)
{
if (needresample)
DSOUND_RecalcFreqAcc(dsb);
else
dsb->tmp_buffer_len = dsb->buflen / bAlign * pAlign;
}
else dsb->tmp_buffer_len = dsb->buflen;
dsb->buf_mixpos = DSOUND_secpos_to_bufpos(dsb, dsb->sec_mixpos, 0, NULL);
}
/**
* Check for application callback requests for when the play position
* reaches certain points.
*
* The offsets that will be triggered will be those between the recorded
* "last played" position for the buffer (i.e. dsb->playpos) and "len" bytes
* beyond that position.
*/
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void DSOUND_CheckEvent(const IDirectSoundBufferImpl *dsb, DWORD playpos, int len)
{
int i;
DWORD offset;
LPDSBPOSITIONNOTIFY event;
TRACE("(%p,%d)\n",dsb,len);
if (dsb->nrofnotifies == 0)
return;
TRACE("(%p) buflen = %d, playpos = %d, len = %d\n",
dsb, dsb->buflen, playpos, len);
for (i = 0; i < dsb->nrofnotifies ; i++) {
event = dsb->notifies + i;
offset = event->dwOffset;
TRACE("checking %d, position %d, event = %p\n",
i, offset, event->hEventNotify);
/* DSBPN_OFFSETSTOP has to be the last element. So this is */
/* OK. [Inside DirectX, p274] */
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/* Windows does not seem to enforce this, and some apps rely */
/* on that, so we can't stop there. */
/* */
/* This also means we can't sort the entries by offset, */
/* because DSBPN_OFFSETSTOP == -1 */
if (offset == DSBPN_OFFSETSTOP) {
if (dsb->state == STATE_STOPPED) {
SetEvent(event->hEventNotify);
TRACE("signalled event %p (%d)\n", event->hEventNotify, i);
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}
continue;
}
if ((playpos + len) >= dsb->buflen) {
if ((offset < ((playpos + len) % dsb->buflen)) ||
(offset >= playpos)) {
TRACE("signalled event %p (%d)\n", event->hEventNotify, i);
SetEvent(event->hEventNotify);
}
} else {
if ((offset >= playpos) && (offset < (playpos + len))) {
TRACE("signalled event %p (%d)\n", event->hEventNotify, i);
SetEvent(event->hEventNotify);
}
}
}
}
/**
* Copy a single frame from the given input buffer to the given output buffer.
* Translate 8 <-> 16 bits and mono <-> stereo
*/
static inline void cp_fields(const IDirectSoundBufferImpl *dsb, const BYTE *ibuf, BYTE *obuf,
UINT istride, UINT ostride, UINT count, UINT freqAcc, UINT adj)
{
DirectSoundDevice *device = dsb->device;
INT istep = dsb->pwfx->wBitsPerSample / 8, ostep = device->pwfx->wBitsPerSample / 8;
if (device->pwfx->nChannels == dsb->pwfx->nChannels ||
(device->pwfx->nChannels == 2 && dsb->pwfx->nChannels == 6) ||
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(device->pwfx->nChannels == 8 && dsb->pwfx->nChannels == 2) ||
(device->pwfx->nChannels == 6 && dsb->pwfx->nChannels == 2)) {
dsb->convert(ibuf, obuf, istride, ostride, count, freqAcc, adj);
if (device->pwfx->nChannels == 2 || dsb->pwfx->nChannels == 2)
dsb->convert(ibuf + istep, obuf + ostep, istride, ostride, count, freqAcc, adj);
return;
}
if (device->pwfx->nChannels == 1 && dsb->pwfx->nChannels == 2)
{
dsb->convert(ibuf, obuf, istride, ostride, count, freqAcc, adj);
return;
}
if (device->pwfx->nChannels == 2 && dsb->pwfx->nChannels == 1)
{
dsb->convert(ibuf, obuf, istride, ostride, count, freqAcc, adj);
dsb->convert(ibuf, obuf + ostep, istride, ostride, count, freqAcc, adj);
return;
}
WARN("Unable to remap channels: device=%u, buffer=%u\n", device->pwfx->nChannels,
dsb->pwfx->nChannels);
}
/**
* Calculate the distance between two buffer offsets, taking wraparound
* into account.
*/
static inline DWORD DSOUND_BufPtrDiff(DWORD buflen, DWORD ptr1, DWORD ptr2)
{
/* If these asserts fail, the problem is not here, but in the underlying code */
assert(ptr1 < buflen);
assert(ptr2 < buflen);
if (ptr1 >= ptr2) {
return ptr1 - ptr2;
} else {
return buflen + ptr1 - ptr2;
}
}
/**
* Mix at most the given amount of data into the allocated temporary buffer
* of the given secondary buffer, starting from the dsb's first currently
* unsampled frame (writepos), translating frequency (pitch), stereo/mono
* and bits-per-sample so that it is ideal for the primary buffer.
* Doesn't perform any mixing - this is a straight copy/convert operation.
*
* dsb = the secondary buffer
* writepos = Starting position of changed buffer
* len = number of bytes to resample from writepos
*
* NOTE: writepos + len <= buflen. When called by mixer, MixOne makes sure of this.
*/
static void DSOUND_MixToTemporary(const IDirectSoundBufferImpl *dsb, DWORD writepos, DWORD len)
{
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INT size;
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BYTE *ibp, *obp, *obp_begin;
INT iAdvance = dsb->pwfx->nBlockAlign;
INT oAdvance = dsb->device->pwfx->nBlockAlign;
DWORD freqAcc, overshot, maxlen;
assert(writepos + len <= dsb->buflen);
if (writepos + len < dsb->buflen)
len += dsb->pwfx->nBlockAlign;
maxlen = DSOUND_secpos_to_bufpos(dsb, len, 0, NULL);
ibp = dsb->buffer->memory + writepos;
if (dsb->device->tmp_buffer_len < maxlen || !dsb->device->tmp_buffer)
{
dsb->device->tmp_buffer_len = maxlen;
if (dsb->device->tmp_buffer)
dsb->device->tmp_buffer = HeapReAlloc(GetProcessHeap(), 0, dsb->device->tmp_buffer, maxlen);
else
dsb->device->tmp_buffer = HeapAlloc(GetProcessHeap(), 0, maxlen);
obp_begin = dsb->device->tmp_buffer;
}
else
obp_begin = dsb->device->tmp_buffer;
TRACE("(%p, %p)\n", dsb, ibp);
size = len / iAdvance;
/* Check for same sample rate */
if (dsb->freq == dsb->device->pwfx->nSamplesPerSec) {
TRACE("(%p) Same sample rate %d = primary %d\n", dsb,
dsb->freq, dsb->device->pwfx->nSamplesPerSec);
obp = obp_begin;
cp_fields(dsb, ibp, obp, iAdvance, oAdvance, size, 0, 1 << DSOUND_FREQSHIFT);
return;
}
/* Mix in different sample rates */
TRACE("(%p) Adjusting frequency: %d -> %d\n", dsb, dsb->freq, dsb->device->pwfx->nSamplesPerSec);
DSOUND_secpos_to_bufpos(dsb, writepos, dsb->sec_mixpos, &freqAcc);
overshot = freqAcc >> DSOUND_FREQSHIFT;
if (overshot)
{
if (overshot >= size)
return;
size -= overshot;
writepos += overshot * iAdvance;
if (writepos >= dsb->buflen)
return;
ibp = dsb->buffer->memory + writepos;
freqAcc &= (1 << DSOUND_FREQSHIFT) - 1;
TRACE("Overshot: %d, freqAcc: %04x\n", overshot, freqAcc);
}
obp = obp_begin;
/* FIXME: Small problem here when we're overwriting buf_mixpos, it then STILL uses old freqAcc, not sure if it matters or not */
cp_fields(dsb, ibp, obp, iAdvance, oAdvance, size, freqAcc, dsb->freqAdjust);
}
/** Apply volume to the given soundbuffer from (primary) position writepos and length len
* Returns: NULL if no volume needs to be applied
* or else a memory handle that holds 'len' volume adjusted buffer */
static LPBYTE DSOUND_MixerVol(const IDirectSoundBufferImpl *dsb, INT len)
{
INT i;
BYTE *bpc;
INT16 *bps, *mems;
DWORD vLeft, vRight;
INT nChannels = dsb->device->pwfx->nChannels;
LPBYTE mem = dsb->device->tmp_buffer;
TRACE("(%p,%d)\n",dsb,len);
TRACE("left = %x, right = %x\n", dsb->volpan.dwTotalLeftAmpFactor,
dsb->volpan.dwTotalRightAmpFactor);
if ((!(dsb->dsbd.dwFlags & DSBCAPS_CTRLPAN) || (dsb->volpan.lPan == 0)) &&
(!(dsb->dsbd.dwFlags & DSBCAPS_CTRLVOLUME) || (dsb->volpan.lVolume == 0)) &&
!(dsb->dsbd.dwFlags & DSBCAPS_CTRL3D))
return NULL; /* Nothing to do */
if (nChannels != 1 && nChannels != 2)
{
FIXME("There is no support for %d channels\n", nChannels);
return NULL;
}
if (dsb->device->pwfx->wBitsPerSample != 8 && dsb->device->pwfx->wBitsPerSample != 16)
{
FIXME("There is no support for %d bpp\n", dsb->device->pwfx->wBitsPerSample);
return NULL;
}
assert(dsb->device->tmp_buffer_len >= len && dsb->device->tmp_buffer);
bpc = dsb->device->tmp_buffer;
bps = (INT16 *)bpc;
mems = (INT16 *)mem;
vLeft = dsb->volpan.dwTotalLeftAmpFactor;
if (nChannels > 1)
vRight = dsb->volpan.dwTotalRightAmpFactor;
else
vRight = vLeft;
switch (dsb->device->pwfx->wBitsPerSample) {
case 8:
/* 8-bit WAV is unsigned, but we need to operate */
/* on signed data for this to work properly */
for (i = 0; i < len-1; i+=2) {
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*(bpc++) = (((*(mem++) - 128) * vLeft) >> 16) + 128;
*(bpc++) = (((*(mem++) - 128) * vRight) >> 16) + 128;
}
if (len % 2 == 1 && nChannels == 1)
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*(bpc++) = (((*(mem++) - 128) * vLeft) >> 16) + 128;
break;
case 16:
/* 16-bit WAV is signed -- much better */
for (i = 0; i < len-3; i += 4) {
*(bps++) = (*(mems++) * vLeft) >> 16;
*(bps++) = (*(mems++) * vRight) >> 16;
}
if (len % 4 == 2 && nChannels == 1)
*(bps++) = ((INT)*(mems++) * vLeft) >> 16;
break;
}
return dsb->device->tmp_buffer;
}
/**
* Mix (at most) the given number of bytes into the given position of the
* device buffer, from the secondary buffer "dsb" (starting at the current
* mix position for that buffer).
*
* Returns the number of bytes actually mixed into the device buffer. This
* will match fraglen unless the end of the secondary buffer is reached
* (and it is not looping).
*
* dsb = the secondary buffer to mix from
* writepos = position (offset) in device buffer to write at
* fraglen = number of bytes to mix
*/
static DWORD DSOUND_MixInBuffer(IDirectSoundBufferImpl *dsb, DWORD writepos, DWORD fraglen)
{
INT len = fraglen, ilen;
BYTE *ibuf, *volbuf;
DWORD oldpos, mixbufpos;
TRACE("buf_mixpos=%d/%d sec_mixpos=%d/%d\n", dsb->buf_mixpos, dsb->tmp_buffer_len, dsb->sec_mixpos, dsb->buflen);
TRACE("(%p,%d,%d)\n",dsb,writepos,fraglen);
assert(dsb->buf_mixpos + len <= dsb->tmp_buffer_len);
if (len % dsb->device->pwfx->nBlockAlign) {
INT nBlockAlign = dsb->device->pwfx->nBlockAlign;
ERR("length not a multiple of block size, len = %d, block size = %d\n", len, nBlockAlign);
len -= len % nBlockAlign; /* data alignment */
}
/* Resample buffer to temporary buffer specifically allocated for this purpose, if needed */
DSOUND_MixToTemporary(dsb, dsb->sec_mixpos, DSOUND_bufpos_to_secpos(dsb, dsb->buf_mixpos+len) - dsb->sec_mixpos);
ibuf = dsb->device->tmp_buffer;
/* Apply volume if needed */
volbuf = DSOUND_MixerVol(dsb, len);
if (volbuf)
ibuf = volbuf;
mixbufpos = DSOUND_bufpos_to_mixpos(dsb->device, writepos);
/* Now mix the temporary buffer into the devices main buffer */
if ((writepos + len) <= dsb->device->buflen)
dsb->device->mixfunction(ibuf, dsb->device->mix_buffer + mixbufpos, len);
else
{
DWORD todo = dsb->device->buflen - writepos;
dsb->device->mixfunction(ibuf, dsb->device->mix_buffer + mixbufpos, todo);
dsb->device->mixfunction(ibuf + todo, dsb->device->mix_buffer, len - todo);
}
oldpos = dsb->sec_mixpos;
dsb->buf_mixpos += len;
if (dsb->buf_mixpos >= dsb->tmp_buffer_len) {
if (dsb->playflags & DSBPLAY_LOOPING) {
dsb->buf_mixpos -= dsb->tmp_buffer_len;
} else {
dsb->buf_mixpos = dsb->sec_mixpos = 0;
dsb->state = STATE_STOPPED;
}
DSOUND_RecalcFreqAcc(dsb);
}
dsb->sec_mixpos = DSOUND_bufpos_to_secpos(dsb, dsb->buf_mixpos);
ilen = DSOUND_BufPtrDiff(dsb->buflen, dsb->sec_mixpos, oldpos);
/* check for notification positions */
if (dsb->dsbd.dwFlags & DSBCAPS_CTRLPOSITIONNOTIFY &&
dsb->state != STATE_STARTING) {
DSOUND_CheckEvent(dsb, oldpos, ilen);
}
/* increase mix position */
dsb->primary_mixpos += len;
if (dsb->primary_mixpos >= dsb->device->buflen)
dsb->primary_mixpos -= dsb->device->buflen;
return len;
}
/**
* Mix some frames from the given secondary buffer "dsb" into the device
* primary buffer.
*
* dsb = the secondary buffer
* playpos = the current play position in the device buffer (primary buffer)
* writepos = the current safe-to-write position in the device buffer
* mixlen = the maximum number of bytes in the primary buffer to mix, from the
* current writepos.
*
* Returns: the number of bytes beyond the writepos that were mixed.
*/
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static DWORD DSOUND_MixOne(IDirectSoundBufferImpl *dsb, DWORD writepos, DWORD mixlen)
{
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/* The buffer's primary_mixpos may be before or after the device
* buffer's mixpos, but both must be ahead of writepos. */
DWORD primary_done;
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TRACE("(%p,%d,%d)\n",dsb,writepos,mixlen);
TRACE("writepos=%d, buf_mixpos=%d, primary_mixpos=%d, mixlen=%d\n", writepos, dsb->buf_mixpos, dsb->primary_mixpos, mixlen);
TRACE("looping=%d, leadin=%d, buflen=%d\n", dsb->playflags, dsb->leadin, dsb->tmp_buffer_len);
/* If leading in, only mix about 20 ms, and 'skip' mixing the rest, for more fluid pointer advancement */
if (dsb->leadin && dsb->state == STATE_STARTING)
{
if (mixlen > 2 * dsb->device->fraglen)
{
dsb->primary_mixpos += mixlen - 2 * dsb->device->fraglen;
dsb->primary_mixpos %= dsb->device->buflen;
}
}
dsb->leadin = FALSE;
/* calculate how much pre-buffering has already been done for this buffer */
primary_done = DSOUND_BufPtrDiff(dsb->device->buflen, dsb->primary_mixpos, writepos);
/* sanity */
if(mixlen < primary_done)
{
/* Should *NEVER* happen */
ERR("Fatal error. Under/Overflow? primary_done=%d, mixpos=%d/%d (%d/%d), primary_mixpos=%d, writepos=%d, mixlen=%d\n", primary_done,dsb->buf_mixpos,dsb->tmp_buffer_len,dsb->sec_mixpos, dsb->buflen, dsb->primary_mixpos, writepos, mixlen);
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dsb->primary_mixpos = writepos + mixlen;
dsb->primary_mixpos %= dsb->device->buflen;
return mixlen;
}
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/* take into account already mixed data */
mixlen -= primary_done;
TRACE("primary_done=%d, mixlen (primary) = %i\n", primary_done, mixlen);
if (!mixlen)
return primary_done;
/* First try to mix to the end of the buffer if possible
* Theoretically it would allow for better optimization
*/
if (mixlen + dsb->buf_mixpos >= dsb->tmp_buffer_len)
{
DWORD newmixed, mixfirst = dsb->tmp_buffer_len - dsb->buf_mixpos;
newmixed = DSOUND_MixInBuffer(dsb, dsb->primary_mixpos, mixfirst);
mixlen -= newmixed;
if (dsb->playflags & DSBPLAY_LOOPING)
while (newmixed && mixlen)
{
mixfirst = (dsb->tmp_buffer_len < mixlen ? dsb->tmp_buffer_len : mixlen);
newmixed = DSOUND_MixInBuffer(dsb, dsb->primary_mixpos, mixfirst);
mixlen -= newmixed;
}
}
else DSOUND_MixInBuffer(dsb, dsb->primary_mixpos, mixlen);
/* re-calculate the primary done */
primary_done = DSOUND_BufPtrDiff(dsb->device->buflen, dsb->primary_mixpos, writepos);
TRACE("new primary_mixpos=%d, total mixed data=%d\n", dsb->primary_mixpos, primary_done);
/* Report back the total prebuffered amount for this buffer */
return primary_done;
}
/**
* For a DirectSoundDevice, go through all the currently playing buffers and
* mix them in to the device buffer.
*
* writepos = the current safe-to-write position in the primary buffer
* mixlen = the maximum amount to mix into the primary buffer
* (beyond the current writepos)
* recover = true if the sound device may have been reset and the write
* position in the device buffer changed
* all_stopped = reports back if all buffers have stopped
*
* Returns: the length beyond the writepos that was mixed to.
*/
static DWORD DSOUND_MixToPrimary(const DirectSoundDevice *device, DWORD writepos, DWORD mixlen, BOOL recover, BOOL *all_stopped)
{
INT i, len;
DWORD minlen = 0;
IDirectSoundBufferImpl *dsb;
/* unless we find a running buffer, all have stopped */
*all_stopped = TRUE;
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TRACE("(%d,%d,%d)\n", writepos, mixlen, recover);
for (i = 0; i < device->nrofbuffers; i++) {
dsb = device->buffers[i];
TRACE("MixToPrimary for %p, state=%d\n", dsb, dsb->state);
if (dsb->buflen && dsb->state) {
TRACE("Checking %p, mixlen=%d\n", dsb, mixlen);
RtlAcquireResourceShared(&dsb->lock, TRUE);
/* if buffer is stopping it is stopped now */
if (dsb->state == STATE_STOPPING) {
dsb->state = STATE_STOPPED;
DSOUND_CheckEvent(dsb, 0, 0);
} else if (dsb->state != STATE_STOPPED) {
/* if recovering, reset the mix position */
if ((dsb->state == STATE_STARTING) || recover) {
dsb->primary_mixpos = writepos;
}
/* if the buffer was starting, it must be playing now */
if (dsb->state == STATE_STARTING)
dsb->state = STATE_PLAYING;
/* mix next buffer into the main buffer */
len = DSOUND_MixOne(dsb, writepos, mixlen);
if (!minlen) minlen = len;
/* record the minimum length mixed from all buffers */
/* we only want to return the length which *all* buffers have mixed */
else if (len) minlen = (len < minlen) ? len : minlen;
*all_stopped = FALSE;
}
RtlReleaseResource(&dsb->lock);
}
}
TRACE("Mixed at least %d from all buffers\n", minlen);
return minlen;
}
/**
* Add buffers to the emulated wave device system.
*
* device = The current dsound playback device
* force = If TRUE, the function will buffer up as many frags as possible,
* even though and will ignore the actual state of the primary buffer.
*
* Returns: None
*/
static void DSOUND_WaveQueue(DirectSoundDevice *device, BOOL force)
{
DWORD prebuf_frames, buf_offs_bytes, wave_fragpos;
int prebuf_frags;
BYTE *buffer;
HRESULT hr;
TRACE("(%p)\n", device);
/* calculate the current wave frag position */
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wave_fragpos = (device->pwplay + device->pwqueue) % device->helfrags;
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/* calculate the current wave write position */
buf_offs_bytes = wave_fragpos * device->fraglen;
TRACE("wave_fragpos = %i, buf_offs_bytes = %i, pwqueue = %i, prebuf = %i\n",
wave_fragpos, buf_offs_bytes, device->pwqueue, device->prebuf);
if (!force)
{
/* check remaining prebuffered frags */
prebuf_frags = device->mixpos / device->fraglen;
if (prebuf_frags == device->helfrags)
--prebuf_frags;
TRACE("wave_fragpos = %d, mixpos_frags = %d\n", wave_fragpos, prebuf_frags);
if (prebuf_frags < wave_fragpos)
prebuf_frags += device->helfrags;
prebuf_frags -= wave_fragpos;
TRACE("wanted prebuf_frags = %d\n", prebuf_frags);
}
else
/* buffer the maximum amount of frags */
prebuf_frags = device->prebuf;
/* limit to the queue we have left */
if ((prebuf_frags + device->pwqueue) > device->prebuf)
prebuf_frags = device->prebuf - device->pwqueue;
TRACE("prebuf_frags = %i\n", prebuf_frags);
if(!prebuf_frags)
return;
/* adjust queue */
device->pwqueue += prebuf_frags;
prebuf_frames = ((prebuf_frags + wave_fragpos > device->helfrags) ?
(device->helfrags - wave_fragpos) :
(prebuf_frags)) * device->fraglen / device->pwfx->nBlockAlign;
hr = IAudioRenderClient_GetBuffer(device->render, prebuf_frames, &buffer);
if(FAILED(hr)){
WARN("GetBuffer failed: %08x\n", hr);
return;
}
memcpy(buffer, device->buffer + buf_offs_bytes,
prebuf_frames * device->pwfx->nBlockAlign);
hr = IAudioRenderClient_ReleaseBuffer(device->render, prebuf_frames, 0);
if(FAILED(hr)){
WARN("ReleaseBuffer failed: %08x\n", hr);
return;
}
/* check if anything wrapped */
prebuf_frags = prebuf_frags + wave_fragpos - device->helfrags;
if(prebuf_frags > 0){
prebuf_frames = prebuf_frags * device->fraglen / device->pwfx->nBlockAlign;
hr = IAudioRenderClient_GetBuffer(device->render, prebuf_frames, &buffer);
if(FAILED(hr)){
WARN("GetBuffer failed: %08x\n", hr);
return;
}
memcpy(buffer, device->buffer, prebuf_frames * device->pwfx->nBlockAlign);
hr = IAudioRenderClient_ReleaseBuffer(device->render, prebuf_frames, 0);
if(FAILED(hr)){
WARN("ReleaseBuffer failed: %08x\n", hr);
return;
}
}
TRACE("queue now = %i\n", device->pwqueue);
}
/**
* Perform mixing for a Direct Sound device. That is, go through all the
* secondary buffers (the sound bites currently playing) and mix them in
* to the primary buffer (the device buffer).
*/
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static void DSOUND_PerformMix(DirectSoundDevice *device)
{
UINT64 clock_pos, clock_freq, pos_bytes;
UINT delta_frags;
HRESULT hr;
TRACE("(%p)\n", device);
/* **** */
EnterCriticalSection(&device->mixlock);
hr = IAudioClock_GetFrequency(device->clock, &clock_freq);
if(FAILED(hr)){
WARN("GetFrequency failed: %08x\n", hr);
LeaveCriticalSection(&device->mixlock);
return;
}
hr = IAudioClock_GetPosition(device->clock, &clock_pos, NULL);
if(FAILED(hr)){
WARN("GetCurrentPadding failed: %08x\n", hr);
LeaveCriticalSection(&device->mixlock);
return;
}
pos_bytes = (clock_pos * device->pwfx->nSamplesPerSec * device->pwfx->nBlockAlign) / clock_freq;
delta_frags = (pos_bytes - device->last_pos_bytes) / device->fraglen;
if(delta_frags > 0){
device->pwplay += delta_frags;
device->pwplay %= device->helfrags;
device->pwqueue -= delta_frags;
device->last_pos_bytes = pos_bytes - (pos_bytes % device->fraglen);
}
if (device->priolevel != DSSCL_WRITEPRIMARY) {
BOOL recover = FALSE, all_stopped = FALSE;
DWORD playpos, writepos, writelead, maxq, frag, prebuff_max, prebuff_left, size1, size2, mixplaypos, mixplaypos2;
LPVOID buf1, buf2;
int nfiller;
/* the sound of silence */
nfiller = device->pwfx->wBitsPerSample == 8 ? 128 : 0;
/* get the position in the primary buffer */
if (DSOUND_PrimaryGetPosition(device, &playpos, &writepos) != 0){
LeaveCriticalSection(&(device->mixlock));
return;
}
TRACE("primary playpos=%d, writepos=%d, clrpos=%d, mixpos=%d, buflen=%d\n",
playpos,writepos,device->playpos,device->mixpos,device->buflen);
assert(device->playpos < device->buflen);
mixplaypos = DSOUND_bufpos_to_mixpos(device, device->playpos);
mixplaypos2 = DSOUND_bufpos_to_mixpos(device, playpos);
/* calc maximum prebuff */
prebuff_max = (device->prebuf * device->fraglen);
if (playpos + prebuff_max >= device->helfrags * device->fraglen)
prebuff_max += device->buflen - device->helfrags * device->fraglen;
/* check how close we are to an underrun. It occurs when the writepos overtakes the mixpos */
prebuff_left = DSOUND_BufPtrDiff(device->buflen, device->mixpos, playpos);
writelead = DSOUND_BufPtrDiff(device->buflen, writepos, playpos);
/* check for underrun. underrun occurs when the write position passes the mix position
* also wipe out just-played sound data */
if((prebuff_left > prebuff_max) || (device->state == STATE_STOPPED) || (device->state == STATE_STARTING)){
if (device->state == STATE_STOPPING || device->state == STATE_PLAYING)
WARN("Probable buffer underrun\n");
else TRACE("Buffer starting or buffer underrun\n");
/* recover mixing for all buffers */
recover = TRUE;
/* reset mix position to write position */
device->mixpos = writepos;
ZeroMemory(device->mix_buffer, device->mix_buffer_len);
ZeroMemory(device->buffer, device->buflen);
} else if (playpos < device->playpos) {
buf1 = device->buffer + device->playpos;
buf2 = device->buffer;
size1 = device->buflen - device->playpos;
size2 = playpos;
FillMemory(device->mix_buffer + mixplaypos, device->mix_buffer_len - mixplaypos, 0);
FillMemory(device->mix_buffer, mixplaypos2, 0);
FillMemory(buf1, size1, nfiller);
if (playpos && (!buf2 || !size2))
FIXME("%d: (%d, %d)=>(%d, %d) There should be an additional buffer here!!\n", __LINE__, device->playpos, device->mixpos, playpos, writepos);
FillMemory(buf2, size2, nfiller);
} else {
buf1 = device->buffer + device->playpos;
buf2 = NULL;
size1 = playpos - device->playpos;
size2 = 0;
FillMemory(device->mix_buffer + mixplaypos, mixplaypos2 - mixplaypos, 0);
FillMemory(buf1, size1, nfiller);
}
device->playpos = playpos;
/* find the maximum we can prebuffer from current write position */
maxq = (writelead < prebuff_max) ? (prebuff_max - writelead) : 0;
TRACE("prebuff_left = %d, prebuff_max = %dx%d=%d, writelead=%d\n",
prebuff_left, device->prebuf, device->fraglen, prebuff_max, writelead);
/* do the mixing */
frag = DSOUND_MixToPrimary(device, writepos, maxq, recover, &all_stopped);
if (frag + writepos > device->buflen)
{
DWORD todo = device->buflen - writepos;
device->normfunction(device->mix_buffer + DSOUND_bufpos_to_mixpos(device, writepos), device->buffer + writepos, todo);
device->normfunction(device->mix_buffer, device->buffer, frag - todo);
}
else
device->normfunction(device->mix_buffer + DSOUND_bufpos_to_mixpos(device, writepos), device->buffer + writepos, frag);
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/* update the mix position, taking wrap-around into account */
device->mixpos = writepos + frag;
device->mixpos %= device->buflen;
/* update prebuff left */
prebuff_left = DSOUND_BufPtrDiff(device->buflen, device->mixpos, playpos);
/* check if have a whole fragment */
if (prebuff_left >= device->fraglen){
/* update the wave queue */
DSOUND_WaveQueue(device, FALSE);
/* buffers are full. start playing if applicable */
if(device->state == STATE_STARTING){
TRACE("started primary buffer\n");
if(DSOUND_PrimaryPlay(device) != DS_OK){
WARN("DSOUND_PrimaryPlay failed\n");
}
else{
/* we are playing now */
device->state = STATE_PLAYING;
}
}
/* buffers are full. start stopping if applicable */
if(device->state == STATE_STOPPED){
TRACE("restarting primary buffer\n");
if(DSOUND_PrimaryPlay(device) != DS_OK){
WARN("DSOUND_PrimaryPlay failed\n");
}
else{
/* start stopping again. as soon as there is no more data, it will stop */
device->state = STATE_STOPPING;
}
}
}
/* if device was stopping, its for sure stopped when all buffers have stopped */
else if((all_stopped == TRUE) && (device->state == STATE_STOPPING)){
TRACE("All buffers have stopped. Stopping primary buffer\n");
device->state = STATE_STOPPED;
/* stop the primary buffer now */
DSOUND_PrimaryStop(device);
}
} else {
DSOUND_WaveQueue(device, TRUE);
/* in the DSSCL_WRITEPRIMARY mode, the app is totally in charge... */
if (device->state == STATE_STARTING) {
if (DSOUND_PrimaryPlay(device) != DS_OK)
WARN("DSOUND_PrimaryPlay failed\n");
else
device->state = STATE_PLAYING;
}
else if (device->state == STATE_STOPPING) {
if (DSOUND_PrimaryStop(device) != DS_OK)
WARN("DSOUND_PrimaryStop failed\n");
else
device->state = STATE_STOPPED;
}
}
LeaveCriticalSection(&(device->mixlock));
/* **** */
}
void CALLBACK DSOUND_timer(UINT timerID, UINT msg, DWORD_PTR dwUser,
DWORD_PTR dw1, DWORD_PTR dw2)
{
DirectSoundDevice * device = (DirectSoundDevice*)dwUser;
DWORD start_time = GetTickCount();
DWORD end_time;
TRACE("(%d,%d,0x%lx,0x%lx,0x%lx)\n",timerID,msg,dwUser,dw1,dw2);
TRACE("entering at %d\n", start_time);
RtlAcquireResourceShared(&(device->buffer_list_lock), TRUE);
if (device->ref)
DSOUND_PerformMix(device);
RtlReleaseResource(&(device->buffer_list_lock));
end_time = GetTickCount();
TRACE("completed processing at %d, duration = %d\n", end_time, end_time - start_time);
}