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authorChris Robinson <[email protected]>2017-05-15 00:30:47 -0700
committerChris Robinson <[email protected]>2017-05-15 00:30:47 -0700
commit2aa620e58fb117b0c94b7c68cf67acce9654b838 (patch)
treeda4a38b9508d629c8f2fb978470283c4ba91b0e7
parentb2760baa6435546d295fa898ccbe6dbf4b7c6fde (diff)
Make reverb delay line structs use interleaved floats
-rw-r--r--Alc/effects/reverb.c141
1 files changed, 73 insertions, 68 deletions
diff --git a/Alc/effects/reverb.c b/Alc/effects/reverb.c
index dd790ee0..ac0c7392 100644
--- a/Alc/effects/reverb.c
+++ b/Alc/effects/reverb.c
@@ -59,16 +59,16 @@ static void init_mixfunc(void)
MixRowSamples = SelectRowMixer();
}
-typedef struct DelayLine {
- /* The delay lines use sample lengths that are powers of 2 to allow the
- * use of bit-masking instead of a modulus for wrapping.
+typedef struct DelayLineI {
+ /* The delay lines use interleaved samples, with the lengths being powers
+ * of 2 to allow the use of bit-masking instead of a modulus for wrapping.
*/
ALsizei Mask;
- ALfloat *Line;
-} DelayLine;
+ ALfloat (*Line)[4];
+} DelayLineI;
typedef struct VecAllpass {
- DelayLine Delay;
+ DelayLineI Delay;
ALsizei Offset[4][2];
} VecAllpass;
@@ -90,7 +90,7 @@ typedef struct ALreverbState {
} Filter[4];
/* Core delay line (early reflections and late reverb tap from this). */
- DelayLine Delay;
+ DelayLineI Delay;
/* Tap points for early reflection delay. */
ALsizei EarlyDelayTap[4][2];
@@ -114,10 +114,10 @@ typedef struct ALreverbState {
*/
VecAllpass VecAp;
- /* Echo lines are used to complete the second half of the early
+ /* An echo line is used to complete the second half of the early
* reflections.
*/
- DelayLine Delay;
+ DelayLineI Delay;
ALsizei Offset[4][2];
ALfloat Coeff[4];
@@ -145,8 +145,8 @@ typedef struct ALreverbState {
*/
ALfloat DensityGain;
- /* Recursive delay lines are used fill in the reverb tail. */
- DelayLine Delay;
+ /* A recursive delay line is used fill in the reverb tail. */
+ DelayLineI Delay;
ALsizei Offset[4][2];
/* T60 decay filters are used to simulate absorption. */
@@ -228,10 +228,10 @@ static void ALreverbState_Construct(ALreverbState *state)
state->MixX = 0.0f;
state->MixY = 0.0f;
- state->Early.Delay.Mask = 0;
- state->Early.Delay.Line = NULL;
state->Early.VecAp.Delay.Mask = 0;
state->Early.VecAp.Delay.Line = NULL;
+ state->Early.Delay.Mask = 0;
+ state->Early.Delay.Line = NULL;
for(i = 0;i < 4;i++)
{
state->Early.VecAp.Offset[i][0] = 0;
@@ -255,12 +255,12 @@ static void ALreverbState_Construct(ALreverbState *state)
state->Late.VecAp.Delay.Line = NULL;
for(i = 0;i < 4;i++)
{
- state->Late.VecAp.Offset[i][0] = 0;
- state->Late.VecAp.Offset[i][1] = 0;
-
state->Late.Offset[i][0] = 0;
state->Late.Offset[i][1] = 0;
+ state->Late.VecAp.Offset[i][0] = 0;
+ state->Late.VecAp.Offset[i][1] = 0;
+
for(j = 0;j < 3;j++)
{
state->Late.Filters[i].LFCoeffs[j] = 0.0f;
@@ -494,14 +494,19 @@ static inline float hack_modff(float x, float *y)
/* Given the allocated sample buffer, this function updates each delay line
* offset.
*/
-static inline ALvoid RealizeLineOffset(ALfloat *sampleBuffer, DelayLine *Delay)
+static inline ALvoid RealizeLineOffset(ALfloat *sampleBuffer, DelayLineI *Delay)
{
- Delay->Line = &sampleBuffer[(ptrdiff_t)Delay->Line];
+ union {
+ ALfloat *f;
+ ALfloat (*f4)[4];
+ } u;
+ u.f = &sampleBuffer[(ptrdiff_t)Delay->Line * 4];
+ Delay->Line = u.f4;
}
/* Calculate the length of a delay line and store its mask and offset. */
static ALuint CalcLineLength(const ALfloat length, const ptrdiff_t offset, const ALuint frequency,
- const ALuint extra, const ALuint splmult, DelayLine *Delay)
+ const ALuint extra, DelayLineI *Delay)
{
ALuint samples;
@@ -509,11 +514,11 @@ static ALuint CalcLineLength(const ALfloat length, const ptrdiff_t offset, const
* seconds, rounded up.
*/
samples = fastf2u(ceilf(length*frequency));
- samples = NextPowerOf2((samples+extra) * splmult);
+ samples = NextPowerOf2(samples + extra);
/* All lines share a single sample buffer. */
Delay->Mask = samples - 1;
- Delay->Line = (ALfloat*)offset;
+ Delay->Line = (ALfloat(*)[4])offset;
/* Return the sample count for accumulation. */
return samples;
@@ -533,37 +538,36 @@ static ALboolean AllocLines(const ALuint frequency, ALreverbState *State)
*/
totalSamples = 0;
+ /* Multiplier for the maximum density value, i.e. density=1, which is
+ * actually the least density...
+ */
+ multiplier = 1.0f + LINE_MULTIPLIER;
+
/* The main delay length includes the maximum early reflection delay, the
* largest early tap width, the maximum late reverb delay, and the
* largest late tap width. Finally, it must also be extended by the
- * update size (MAX_UPDATE_SAMPLES*4) for block processing.
+ * update size (MAX_UPDATE_SAMPLES) for block processing.
*/
- multiplier = 1.0f + LINE_MULTIPLIER;
length = AL_EAXREVERB_MAX_REFLECTIONS_DELAY +
EARLY_TAP_LENGTHS[3]*multiplier +
AL_EAXREVERB_MAX_LATE_REVERB_DELAY +
(LATE_LINE_LENGTHS[3] - LATE_LINE_LENGTHS[0])*0.25f*multiplier;
- /* Multiply length by 4, since we're storing 4 interleaved channels in the
- * main delay line.
- */
- totalSamples += CalcLineLength(length, totalSamples, frequency, MAX_UPDATE_SAMPLES, 4,
+ totalSamples += CalcLineLength(length, totalSamples, frequency, MAX_UPDATE_SAMPLES,
&State->Delay);
- /* The early all-pass line. Multiply by 4, for 4 interleaved channels. */
- length = (EARLY_ALLPASS_LENGTHS[0]+EARLY_ALLPASS_LENGTHS[1]+
- EARLY_ALLPASS_LENGTHS[2]+EARLY_ALLPASS_LENGTHS[3]) * multiplier;
- totalSamples += CalcLineLength(length, totalSamples, frequency, 0, 4,
+ /* The early vector all-pass line. */
+ length = EARLY_ALLPASS_LENGTHS[3] * multiplier;
+ totalSamples += CalcLineLength(length, totalSamples, frequency, 0,
&State->Early.VecAp.Delay);
- /* The early reflection lines. */
+ /* The early reflection line. */
length = EARLY_LINE_LENGTHS[3] * multiplier;
- totalSamples += CalcLineLength(length, totalSamples, frequency, 0, 4,
+ totalSamples += CalcLineLength(length, totalSamples, frequency, 0,
&State->Early.Delay);
- /* The late vector all-pass line. Multiply by 4, for 4 interleaved channels. */
- length = (LATE_ALLPASS_LENGTHS[0]+LATE_ALLPASS_LENGTHS[1]+
- LATE_ALLPASS_LENGTHS[2]+LATE_ALLPASS_LENGTHS[3]) * multiplier;
- totalSamples += CalcLineLength(length, totalSamples, frequency, 0, 4,
+ /* The late vector all-pass line. */
+ length = LATE_ALLPASS_LENGTHS[3] * multiplier;
+ totalSamples += CalcLineLength(length, totalSamples, frequency, 0,
&State->Late.VecAp.Delay);
/* The late delay lines are calculated from the larger of the maximum
@@ -574,15 +578,15 @@ static ALboolean AllocLines(const ALuint frequency, ALreverbState *State)
*/
length = maxf(AL_EAXREVERB_MAX_ECHO_TIME, LATE_LINE_LENGTHS[3]*multiplier) +
AL_EAXREVERB_MAX_MODULATION_TIME*MODULATION_DEPTH_COEFF/2.0f;
- totalSamples += CalcLineLength(length, totalSamples, frequency, 0, 4,
+ totalSamples += CalcLineLength(length, totalSamples, frequency, 0,
&State->Late.Delay);
if(totalSamples != State->TotalSamples)
{
ALfloat *newBuffer;
- TRACE("New reverb buffer length: %u samples\n", totalSamples);
- newBuffer = al_calloc(16, sizeof(ALfloat) * totalSamples);
+ TRACE("New reverb buffer length: %ux4 samples\n", totalSamples);
+ newBuffer = al_calloc(16, sizeof(ALfloat[4]) * totalSamples);
if(!newBuffer) return AL_FALSE;
al_free(State->SampleBuffer);
@@ -1414,40 +1418,41 @@ static ALvoid ALreverbState_update(ALreverbState *State, const ALCdevice *Device
**************************************/
/* Basic delay line input/output routines. */
-static inline ALfloat DelayLineOut(const DelayLine *Delay, const ALsizei offset)
+static inline ALfloat DelayLineOut(const DelayLineI *Delay, const ALsizei offset, const ALsizei c)
{
- return Delay->Line[offset&Delay->Mask];
+ return Delay->Line[offset&Delay->Mask][c];
}
/* Cross-faded delay line output routine. Instead of interpolating the
* offsets, this interpolates (cross-fades) the outputs at each offset.
*/
-static inline ALfloat FadedDelayLineOut(const DelayLine *Delay, const ALsizei off0, const ALsizei off1, const ALfloat mu)
+static inline ALfloat FadedDelayLineOut(const DelayLineI *Delay, const ALsizei off0,
+ const ALsizei off1, const ALsizei c, const ALfloat mu)
{
- return lerp(Delay->Line[off0&Delay->Mask], Delay->Line[off1&Delay->Mask], mu);
+ return lerp(Delay->Line[off0&Delay->Mask][c], Delay->Line[off1&Delay->Mask][c], mu);
}
-#define DELAY_OUT_Faded(d, o0, o1, mu) FadedDelayLineOut(d, o0, o1, mu)
-#define DELAY_OUT_Unfaded(d, o0, o1, mu) DelayLineOut(d, o0)
+#define DELAY_OUT_Faded(d, o0, o1, c, mu) FadedDelayLineOut(d, o0, o1, c, mu)
+#define DELAY_OUT_Unfaded(d, o0, o1, c, mu) DelayLineOut(d, o0, c)
-static inline ALvoid DelayLineIn(DelayLine *Delay, const ALsizei offset, const ALfloat in)
+static inline ALvoid DelayLineIn(DelayLineI *Delay, const ALsizei offset, const ALsizei c, const ALfloat in)
{
- Delay->Line[offset&Delay->Mask] = in;
+ Delay->Line[offset&Delay->Mask][c] = in;
}
-static inline ALvoid DelayLineIn4(DelayLine *Delay, ALsizei offset, const ALfloat in[4])
+static inline ALvoid DelayLineIn4(DelayLineI *Delay, ALsizei offset, const ALfloat in[4])
{
ALsizei i;
- offset = (offset*4) & Delay->Mask;
+ offset &= Delay->Mask;
for(i = 0;i < 4;i++)
- Delay->Line[offset+i] = in[i];
+ Delay->Line[offset][i] = in[i];
}
-static inline ALvoid DelayLineIn4Rev(DelayLine *Delay, ALsizei offset, const ALfloat in[4])
+static inline ALvoid DelayLineIn4Rev(DelayLineI *Delay, ALsizei offset, const ALfloat in[4])
{
ALsizei i;
- offset = (offset*4) & Delay->Mask;
+ offset &= Delay->Mask;
for(i = 0;i < 4;i++)
- Delay->Line[offset+i] = in[3-i];
+ Delay->Line[offset][i] = in[3-i];
}
static void CalcModulationDelays(ALreverbState *State, ALfloat *restrict delays, const ALsizei todo)
@@ -1554,8 +1559,8 @@ static void VectorAllpass_##T(ALfloat *restrict vec, const ALsizei offset, \
for(i = 0;i < 4;i++) \
{ \
input = vec[i]; \
- vec[i] = DELAY_OUT_##T(&Vap->Delay, (offset-Vap->Offset[i][0])*4 + i, \
- (offset-Vap->Offset[i][1])*4 + i, mu) - \
+ vec[i] = DELAY_OUT_##T(&Vap->Delay, offset-Vap->Offset[i][0], \
+ offset-Vap->Offset[i][1], i, mu) - \
feedCoeff*input; \
f[i] = input + feedCoeff*vec[i]; \
} \
@@ -1614,8 +1619,8 @@ static ALvoid EarlyReflection_##T(ALreverbState *State, const ALsizei todo, \
{ \
for(j = 0;j < 4;j++) \
f[j] = DELAY_OUT_##T(&State->Delay, \
- (offset-State->EarlyDelayTap[j][0])*4 + j, \
- (offset-State->EarlyDelayTap[j][1])*4 + j, fade \
+ offset-State->EarlyDelayTap[j][0], \
+ offset-State->EarlyDelayTap[j][1], j, fade \
) * State->EarlyDelayCoeff[j]; \
\
VectorAllpass_##T(f, offset, apFeedCoeff, mixX, mixY, fade, \
@@ -1625,8 +1630,8 @@ static ALvoid EarlyReflection_##T(ALreverbState *State, const ALsizei todo, \
\
for(j = 0;j < 4;j++) \
f[j] += DELAY_OUT_##T(&State->Early.Delay, \
- (offset-State->Early.Offset[j][0])*4 + j, \
- (offset-State->Early.Offset[j][1])*4 + j, fade \
+ offset-State->Early.Offset[j][0], \
+ offset-State->Early.Offset[j][1], j, fade \
) * State->Early.Coeff[j]; \
\
for(j = 0;j < 4;j++) \
@@ -1704,8 +1709,8 @@ static ALvoid LateReverb_##T(ALreverbState *State, const ALsizei todo, \
{ \
for(j = 0;j < 4;j++) \
f[j] = DELAY_OUT_##T(&State->Delay, \
- (offset-State->LateDelayTap[j][0])*4 + j, \
- (offset-State->LateDelayTap[j][1])*4 + j, fade \
+ offset-State->LateDelayTap[j][0], \
+ offset-State->LateDelayTap[j][1], j, fade \
) * State->Late.DensityGain; \
\
/* Separate the integer offset and fraction between it and the next \
@@ -1720,12 +1725,12 @@ static ALvoid LateReverb_##T(ALreverbState *State, const ALsizei todo, \
\
/* Get the two samples crossed by the offset delay. */ \
out0 = DELAY_OUT_##T(&State->Late.Delay, \
- (delay-State->Late.Offset[j][0])*4 + j, \
- (delay-State->Late.Offset[j][1])*4 + j, fade \
+ delay-State->Late.Offset[j][0], \
+ delay-State->Late.Offset[j][1], j, fade \
); \
out1 = DELAY_OUT_##T(&State->Late.Delay, \
- (delay-State->Late.Offset[j][0]-1)*4 + j, \
- (delay-State->Late.Offset[j][1]-1)*4 + j, fade \
+ delay-State->Late.Offset[j][0]-1, \
+ delay-State->Late.Offset[j][1]-1, j, fade \
); \
\
/* The modulated result is obtained by linearly interpolating the \
@@ -1780,7 +1785,7 @@ static ALfloat VerbPass(ALreverbState *State, const ALsizei todo, ALfloat fade,
/* Feed the initial delay line. */
for(i = 0;i < todo;i++)
- DelayLineIn(&State->Delay, (State->Offset+i)*4 + c, early[0][i]);
+ DelayLineIn(&State->Delay, State->Offset+i, c, early[0][i]);
}
if(fade < 1.0f)
@@ -1827,7 +1832,7 @@ static ALfloat EAXVerbPass(ALreverbState *State, const ALsizei todo, ALfloat fad
/* Feed the initial delay line. */
for(i = 0;i < todo;i++)
- DelayLineIn(&State->Delay, (State->Offset+i)*4 + c, early[1][i]);
+ DelayLineIn(&State->Delay, State->Offset+i, c, early[1][i]);
}
if(fade < 1.0f)