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openal-soft/Alc/effects/echo.c
Chris Robinson ef0d4f8210 Provide (mostly) lockless updates for effect slots 
Similar to the listener, separate containers are provided atomically for the
mixer thread to apply updates without needing to block, and a free-list is used
to reuse container objects.

A couple things to note. First, the lock is still used when the effect state's
deviceUpdate method is called to prevent asynchronous calls to reset the device
from interfering. This can be fixed by using the list lock in ALc.c instead.

Secondly, old effect states aren't immediately deleted when the effect type
changes (the actual type, not just its properties). This is because the mixer
thread is intended to be real-time safe, and so can't be freeing anything. They
are cleared away when updates reuse the container they were kept in, and they
don't incur any extra processing cost, but there may be cases where the memory
is kept around until the effect slot is deleted.
2016-05-12 18:41:33 -07:00

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/**
* OpenAL cross platform audio library
* Copyright (C) 2009 by Chris Robinson.
* 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 <math.h>
#include <stdlib.h>
#include "alMain.h"
#include "alFilter.h"
#include "alAuxEffectSlot.h"
#include "alError.h"
#include "alu.h"
typedef struct ALechoState {
DERIVE_FROM_TYPE(ALeffectState);
ALfloat *SampleBuffer;
ALuint BufferLength;
// The echo is two tap. The delay is the number of samples from before the
// current offset
struct {
ALuint delay;
} Tap[2];
ALuint Offset;
/* The panning gains for the two taps */
ALfloat Gain[2][MAX_OUTPUT_CHANNELS];
ALfloat FeedGain;
ALfilterState Filter;
} ALechoState;
static ALvoid ALechoState_Destruct(ALechoState *state)
{
free(state->SampleBuffer);
state->SampleBuffer = NULL;
ALeffectState_Destruct(STATIC_CAST(ALeffectState,state));
}
static ALboolean ALechoState_deviceUpdate(ALechoState *state, ALCdevice *Device)
{
ALuint maxlen, i;
// Use the next power of 2 for the buffer length, so the tap offsets can be
// wrapped using a mask instead of a modulo
maxlen = fastf2u(AL_ECHO_MAX_DELAY * Device->Frequency) + 1;
maxlen += fastf2u(AL_ECHO_MAX_LRDELAY * Device->Frequency) + 1;
maxlen = NextPowerOf2(maxlen);
if(maxlen != state->BufferLength)
{
void *temp;
temp = realloc(state->SampleBuffer, maxlen * sizeof(ALfloat));
if(!temp) return AL_FALSE;
state->SampleBuffer = temp;
state->BufferLength = maxlen;
}
for(i = 0;i < state->BufferLength;i++)
state->SampleBuffer[i] = 0.0f;
return AL_TRUE;
}
static ALvoid ALechoState_update(ALechoState *state, const ALCdevice *Device, const ALeffectslot *Slot)
{
ALuint frequency = Device->Frequency;
ALfloat coeffs[MAX_AMBI_COEFFS];
ALfloat gain, lrpan, spread;
state->Tap[0].delay = fastf2u(Slot->Params.EffectProps.Echo.Delay * frequency) + 1;
state->Tap[1].delay = fastf2u(Slot->Params.EffectProps.Echo.LRDelay * frequency);
state->Tap[1].delay += state->Tap[0].delay;
spread = Slot->Params.EffectProps.Echo.Spread;
if(spread < 0.0f) lrpan = -1.0f;
else lrpan = 1.0f;
/* Convert echo spread (where 0 = omni, +/-1 = directional) to coverage
* spread (where 0 = point, tau = omni).
*/
spread = asinf(1.0f - fabsf(spread))*4.0f;
state->FeedGain = Slot->Params.EffectProps.Echo.Feedback;
gain = minf(1.0f - Slot->Params.EffectProps.Echo.Damping, 0.01f);
ALfilterState_setParams(&state->Filter, ALfilterType_HighShelf,
gain, LOWPASSFREQREF/frequency,
calc_rcpQ_from_slope(gain, 0.75f));
gain = Slot->Params.Gain;
/* First tap panning */
CalcXYZCoeffs(-lrpan, 0.0f, 0.0f, spread, coeffs);
ComputePanningGains(Device->Dry, coeffs, gain, state->Gain[0]);
/* Second tap panning */
CalcXYZCoeffs( lrpan, 0.0f, 0.0f, spread, coeffs);
ComputePanningGains(Device->Dry, coeffs, gain, state->Gain[1]);
}
static ALvoid ALechoState_process(ALechoState *state, ALuint SamplesToDo, const ALfloat (*restrict SamplesIn)[BUFFERSIZE], ALfloat (*restrict SamplesOut)[BUFFERSIZE], ALuint NumChannels)
{
const ALuint mask = state->BufferLength-1;
const ALuint tap1 = state->Tap[0].delay;
const ALuint tap2 = state->Tap[1].delay;
ALuint offset = state->Offset;
ALfloat smp;
ALuint base;
ALuint i, k;
for(base = 0;base < SamplesToDo;)
{
ALfloat temps[128][2];
ALuint td = minu(128, SamplesToDo-base);
for(i = 0;i < td;i++)
{
/* First tap */
temps[i][0] = state->SampleBuffer[(offset-tap1) & mask];
/* Second tap */
temps[i][1] = state->SampleBuffer[(offset-tap2) & mask];
// Apply damping and feedback gain to the second tap, and mix in the
// new sample
smp = ALfilterState_processSingle(&state->Filter, temps[i][1]+SamplesIn[0][i+base]);
state->SampleBuffer[offset&mask] = smp * state->FeedGain;
offset++;
}
for(k = 0;k < NumChannels;k++)
{
ALfloat gain = state->Gain[0][k];
if(fabsf(gain) > GAIN_SILENCE_THRESHOLD)
{
for(i = 0;i < td;i++)
SamplesOut[k][i+base] += temps[i][0] * gain;
}
gain = state->Gain[1][k];
if(fabsf(gain) > GAIN_SILENCE_THRESHOLD)
{
for(i = 0;i < td;i++)
SamplesOut[k][i+base] += temps[i][1] * gain;
}
}
base += td;
}
state->Offset = offset;
}
DECLARE_DEFAULT_ALLOCATORS(ALechoState)
DEFINE_ALEFFECTSTATE_VTABLE(ALechoState);
typedef struct ALechoStateFactory {
DERIVE_FROM_TYPE(ALeffectStateFactory);
} ALechoStateFactory;
ALeffectState *ALechoStateFactory_create(ALechoStateFactory *UNUSED(factory))
{
ALechoState *state;
state = ALechoState_New(sizeof(*state));
if(!state) return NULL;
SET_VTABLE2(ALechoState, ALeffectState, state);
state->BufferLength = 0;
state->SampleBuffer = NULL;
state->Tap[0].delay = 0;
state->Tap[1].delay = 0;
state->Offset = 0;
ALfilterState_clear(&state->Filter);
return STATIC_CAST(ALeffectState, state);
}
DEFINE_ALEFFECTSTATEFACTORY_VTABLE(ALechoStateFactory);
ALeffectStateFactory *ALechoStateFactory_getFactory(void)
{
static ALechoStateFactory EchoFactory = { { GET_VTABLE2(ALechoStateFactory, ALeffectStateFactory) } };
return STATIC_CAST(ALeffectStateFactory, &EchoFactory);
}
void ALecho_setParami(ALeffect *UNUSED(effect), ALCcontext *context, ALenum UNUSED(param), ALint UNUSED(val))
{ SET_ERROR_AND_RETURN(context, AL_INVALID_ENUM); }
void ALecho_setParamiv(ALeffect *effect, ALCcontext *context, ALenum param, const ALint *vals)
{
ALecho_setParami(effect, context, param, vals[0]);
}
void ALecho_setParamf(ALeffect *effect, ALCcontext *context, ALenum param, ALfloat val)
{
ALeffectProps *props = &effect->Props;
switch(param)
{
case AL_ECHO_DELAY:
if(!(val >= AL_ECHO_MIN_DELAY && val <= AL_ECHO_MAX_DELAY))
SET_ERROR_AND_RETURN(context, AL_INVALID_VALUE);
props->Echo.Delay = val;
break;
case AL_ECHO_LRDELAY:
if(!(val >= AL_ECHO_MIN_LRDELAY && val <= AL_ECHO_MAX_LRDELAY))
SET_ERROR_AND_RETURN(context, AL_INVALID_VALUE);
props->Echo.LRDelay = val;
break;
case AL_ECHO_DAMPING:
if(!(val >= AL_ECHO_MIN_DAMPING && val <= AL_ECHO_MAX_DAMPING))
SET_ERROR_AND_RETURN(context, AL_INVALID_VALUE);
props->Echo.Damping = val;
break;
case AL_ECHO_FEEDBACK:
if(!(val >= AL_ECHO_MIN_FEEDBACK && val <= AL_ECHO_MAX_FEEDBACK))
SET_ERROR_AND_RETURN(context, AL_INVALID_VALUE);
props->Echo.Feedback = val;
break;
case AL_ECHO_SPREAD:
if(!(val >= AL_ECHO_MIN_SPREAD && val <= AL_ECHO_MAX_SPREAD))
SET_ERROR_AND_RETURN(context, AL_INVALID_VALUE);
props->Echo.Spread = val;
break;
default:
SET_ERROR_AND_RETURN(context, AL_INVALID_ENUM);
}
}
void ALecho_setParamfv(ALeffect *effect, ALCcontext *context, ALenum param, const ALfloat *vals)
{
ALecho_setParamf(effect, context, param, vals[0]);
}
void ALecho_getParami(const ALeffect *UNUSED(effect), ALCcontext *context, ALenum UNUSED(param), ALint *UNUSED(val))
{ SET_ERROR_AND_RETURN(context, AL_INVALID_ENUM); }
void ALecho_getParamiv(const ALeffect *effect, ALCcontext *context, ALenum param, ALint *vals)
{
ALecho_getParami(effect, context, param, vals);
}
void ALecho_getParamf(const ALeffect *effect, ALCcontext *context, ALenum param, ALfloat *val)
{
const ALeffectProps *props = &effect->Props;
switch(param)
{
case AL_ECHO_DELAY:
*val = props->Echo.Delay;
break;
case AL_ECHO_LRDELAY:
*val = props->Echo.LRDelay;
break;
case AL_ECHO_DAMPING:
*val = props->Echo.Damping;
break;
case AL_ECHO_FEEDBACK:
*val = props->Echo.Feedback;
break;
case AL_ECHO_SPREAD:
*val = props->Echo.Spread;
break;
default:
SET_ERROR_AND_RETURN(context, AL_INVALID_ENUM);
}
}
void ALecho_getParamfv(const ALeffect *effect, ALCcontext *context, ALenum param, ALfloat *vals)
{
ALecho_getParamf(effect, context, param, vals);
}
DEFINE_ALEFFECT_VTABLE(ALecho);
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