aboutsummaryrefslogtreecommitdiffstats
path: root/Alc
diff options
context:
space:
mode:
authorChris Robinson <[email protected]>2018-05-22 07:28:53 -0700
committerChris Robinson <[email protected]>2018-05-22 07:28:53 -0700
commitc2a4a35c2e3d9959f6a0f20881a7d7dc2ef2c4b2 (patch)
treedbb949679207f2f65e6ae7e2892fdfb150f09c5a /Alc
parentf3d4220cab368428e04b8c3fcfec7078e34bd2c1 (diff)
Use a tighter loop to handle the frequency shifter's fifo
Diffstat (limited to 'Alc')
-rw-r--r--Alc/effects/fshifter.c72
1 files changed, 39 insertions, 33 deletions
diff --git a/Alc/effects/fshifter.c b/Alc/effects/fshifter.c
index 66ec7124..3a58f087 100644
--- a/Alc/effects/fshifter.c
+++ b/Alc/effects/fshifter.c
@@ -151,46 +151,52 @@ static ALvoid ALfshifterState_process(ALfshifterState *state, ALsizei SamplesToD
{
static const ALcomplex complex_zero = { 0.0, 0.0 };
ALfloat *restrict BufferOut = state->BufferOut;
- ALsizei i, j, k;
+ ALsizei j, k, base;
- for(i = 0; i < SamplesToDo;i++)
+ for(base = 0;base < SamplesToDo;)
{
+ ALsizei todo = mini(HIL_SIZE-state->count, SamplesToDo-base);
+
+ ASSUME(todo > 0);
+
/* Fill FIFO buffer with samples data */
- state->InFIFO[state->count] = SamplesIn[0][i];
- state->Outdata[i] = state->OutFIFO[state->count-FIFO_LATENCY];
- state->count++;
+ k = state->count;
+ for(j = 0;j < todo;j++,k++)
+ {
+ state->InFIFO[k] = SamplesIn[0][base+j];
+ state->Outdata[base+j] = state->OutFIFO[k-FIFO_LATENCY];
+ }
+ state->count += todo;
+ base += todo;
/* Check whether FIFO buffer is filled */
- if(state->count >= HIL_SIZE)
+ if(state->count < HIL_SIZE) continue;
+
+ state->count = FIFO_LATENCY;
+
+ /* Real signal windowing and store in Analytic buffer */
+ for(k = 0;k < HIL_SIZE;k++)
{
- state->count = FIFO_LATENCY;
-
- /* Real signal windowing and store in Analytic buffer */
- for(k = 0;k < HIL_SIZE;k++)
- {
- state->Analytic[k].Real = state->InFIFO[k] * HannWindow[k];
- state->Analytic[k].Imag = 0.0;
- }
-
- /* Processing signal by Discrete Hilbert Transform (analytical
- * signal).
- */
- hilbert(HIL_SIZE, state->Analytic);
-
- /* Windowing and add to output accumulator */
- for(k = 0;k < HIL_SIZE;k++)
- {
- state->OutputAccum[k].Real += 2.0/OVERSAMP*HannWindow[k]*state->Analytic[k].Real;
- state->OutputAccum[k].Imag += 2.0/OVERSAMP*HannWindow[k]*state->Analytic[k].Imag;
- }
-
- /* Shift accumulator, input & output FIFO */
- for(k = 0;k < HIL_STEP;k++) state->OutFIFO[k] = state->OutputAccum[k];
- for(j = 0;k < HIL_SIZE;k++,j++) state->OutputAccum[j] = state->OutputAccum[k];
- for(;j < HIL_SIZE;j++) state->OutputAccum[j] = complex_zero;
- for(k = 0;k < FIFO_LATENCY;k++)
- state->InFIFO[k] = state->InFIFO[k+HIL_STEP];
+ state->Analytic[k].Real = state->InFIFO[k] * HannWindow[k];
+ state->Analytic[k].Imag = 0.0;
}
+
+ /* Processing signal by Discrete Hilbert Transform (analytical signal). */
+ hilbert(HIL_SIZE, state->Analytic);
+
+ /* Windowing and add to output accumulator */
+ for(k = 0;k < HIL_SIZE;k++)
+ {
+ state->OutputAccum[k].Real += 2.0/OVERSAMP*HannWindow[k]*state->Analytic[k].Real;
+ state->OutputAccum[k].Imag += 2.0/OVERSAMP*HannWindow[k]*state->Analytic[k].Imag;
+ }
+
+ /* Shift accumulator, input & output FIFO */
+ for(k = 0;k < HIL_STEP;k++) state->OutFIFO[k] = state->OutputAccum[k];
+ for(j = 0;k < HIL_SIZE;k++,j++) state->OutputAccum[j] = state->OutputAccum[k];
+ for(;j < HIL_SIZE;j++) state->OutputAccum[j] = complex_zero;
+ for(k = 0;k < FIFO_LATENCY;k++)
+ state->InFIFO[k] = state->InFIFO[k+HIL_STEP];
}
/* Process frequency shifter using the analytic signal obtained. */