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authorChris Robinson <[email protected]>2018-11-17 17:49:55 -0800
committerChris Robinson <[email protected]>2018-11-17 17:49:55 -0800
commit7f69dbb51744d3f499d70e33904e1ea1d8d0e452 (patch)
tree47694b26fcf5e67196ca1f9f452ad99bf70b029c /Alc/mixer/mixer_sse.cpp
parent2d4ff77410d4fe647950c4e06dbe1c5536235796 (diff)
Convert the mixers to C++
Diffstat (limited to 'Alc/mixer/mixer_sse.cpp')
-rw-r--r--Alc/mixer/mixer_sse.cpp248
1 files changed, 248 insertions, 0 deletions
diff --git a/Alc/mixer/mixer_sse.cpp b/Alc/mixer/mixer_sse.cpp
new file mode 100644
index 00000000..8492a1c8
--- /dev/null
+++ b/Alc/mixer/mixer_sse.cpp
@@ -0,0 +1,248 @@
+#include "config.h"
+
+#include <xmmintrin.h>
+
+#include "AL/al.h"
+#include "AL/alc.h"
+#include "alMain.h"
+#include "alu.h"
+
+#include "alSource.h"
+#include "alAuxEffectSlot.h"
+#include "defs.h"
+
+
+const ALfloat *Resample_bsinc_SSE(const InterpState *state, const ALfloat *RESTRICT src,
+ ALsizei frac, ALint increment, ALfloat *RESTRICT dst,
+ ALsizei dstlen)
+{
+ const ALfloat *const filter = state->bsinc.filter;
+ const __m128 sf4 = _mm_set1_ps(state->bsinc.sf);
+ const ALsizei m = state->bsinc.m;
+ const __m128 *fil, *scd, *phd, *spd;
+ ALsizei pi, i, j, offset;
+ ALfloat pf;
+ __m128 r4;
+
+ ASSUME(m > 0);
+ ASSUME(dstlen > 0);
+
+ src -= state->bsinc.l;
+ for(i = 0;i < dstlen;i++)
+ {
+ // Calculate the phase index and factor.
+#define FRAC_PHASE_BITDIFF (FRACTIONBITS-BSINC_PHASE_BITS)
+ pi = frac >> FRAC_PHASE_BITDIFF;
+ pf = (frac & ((1<<FRAC_PHASE_BITDIFF)-1)) * (1.0f/(1<<FRAC_PHASE_BITDIFF));
+#undef FRAC_PHASE_BITDIFF
+
+ offset = m*pi*4;
+ fil = (const __m128*)(filter + offset); offset += m;
+ scd = (const __m128*)(filter + offset); offset += m;
+ phd = (const __m128*)(filter + offset); offset += m;
+ spd = (const __m128*)(filter + offset);
+
+ // Apply the scale and phase interpolated filter.
+ r4 = _mm_setzero_ps();
+ {
+ const ALsizei count = m >> 2;
+ const __m128 pf4 = _mm_set1_ps(pf);
+
+ ASSUME(count > 0);
+
+#define MLA4(x, y, z) _mm_add_ps(x, _mm_mul_ps(y, z))
+ for(j = 0;j < count;j++)
+ {
+ /* f = ((fil + sf*scd) + pf*(phd + sf*spd)) */
+ const __m128 f4 = MLA4(
+ MLA4(fil[j], sf4, scd[j]),
+ pf4, MLA4(phd[j], sf4, spd[j])
+ );
+ /* r += f*src */
+ r4 = MLA4(r4, f4, _mm_loadu_ps(&src[j*4]));
+ }
+#undef MLA4
+ }
+ r4 = _mm_add_ps(r4, _mm_shuffle_ps(r4, r4, _MM_SHUFFLE(0, 1, 2, 3)));
+ r4 = _mm_add_ps(r4, _mm_movehl_ps(r4, r4));
+ dst[i] = _mm_cvtss_f32(r4);
+
+ frac += increment;
+ src += frac>>FRACTIONBITS;
+ frac &= FRACTIONMASK;
+ }
+ return dst;
+}
+
+
+static inline void ApplyCoeffs(ALsizei Offset, ALfloat (*RESTRICT Values)[2],
+ const ALsizei IrSize,
+ const ALfloat (*RESTRICT Coeffs)[2],
+ ALfloat left, ALfloat right)
+{
+ const __m128 lrlr = _mm_setr_ps(left, right, left, right);
+ __m128 vals = _mm_setzero_ps();
+ __m128 coeffs;
+ ALsizei i;
+
+ if((Offset&1))
+ {
+ const ALsizei o0 = Offset&HRIR_MASK;
+ const ALsizei o1 = (Offset+IrSize-1)&HRIR_MASK;
+ __m128 imp0, imp1;
+
+ coeffs = _mm_load_ps(&Coeffs[0][0]);
+ vals = _mm_loadl_pi(vals, (__m64*)&Values[o0][0]);
+ imp0 = _mm_mul_ps(lrlr, coeffs);
+ vals = _mm_add_ps(imp0, vals);
+ _mm_storel_pi((__m64*)&Values[o0][0], vals);
+ for(i = 1;i < IrSize-1;i += 2)
+ {
+ const ALsizei o2 = (Offset+i)&HRIR_MASK;
+
+ coeffs = _mm_load_ps(&Coeffs[i+1][0]);
+ vals = _mm_load_ps(&Values[o2][0]);
+ imp1 = _mm_mul_ps(lrlr, coeffs);
+ imp0 = _mm_shuffle_ps(imp0, imp1, _MM_SHUFFLE(1, 0, 3, 2));
+ vals = _mm_add_ps(imp0, vals);
+ _mm_store_ps(&Values[o2][0], vals);
+ imp0 = imp1;
+ }
+ vals = _mm_loadl_pi(vals, (__m64*)&Values[o1][0]);
+ imp0 = _mm_movehl_ps(imp0, imp0);
+ vals = _mm_add_ps(imp0, vals);
+ _mm_storel_pi((__m64*)&Values[o1][0], vals);
+ }
+ else
+ {
+ for(i = 0;i < IrSize;i += 2)
+ {
+ const ALsizei o = (Offset + i)&HRIR_MASK;
+
+ coeffs = _mm_load_ps(&Coeffs[i][0]);
+ vals = _mm_load_ps(&Values[o][0]);
+ vals = _mm_add_ps(vals, _mm_mul_ps(lrlr, coeffs));
+ _mm_store_ps(&Values[o][0], vals);
+ }
+ }
+}
+
+#define MixHrtf MixHrtf_SSE
+#define MixHrtfBlend MixHrtfBlend_SSE
+#define MixDirectHrtf MixDirectHrtf_SSE
+#include "hrtf_inc.cpp"
+
+
+void Mix_SSE(const ALfloat *data, ALsizei OutChans, ALfloat (*RESTRICT OutBuffer)[BUFFERSIZE],
+ ALfloat *CurrentGains, const ALfloat *TargetGains, ALsizei Counter, ALsizei OutPos,
+ ALsizei BufferSize)
+{
+ const ALfloat delta = (Counter > 0) ? 1.0f/(ALfloat)Counter : 0.0f;
+ ALsizei c;
+
+ ASSUME(OutChans > 0);
+ ASSUME(BufferSize > 0);
+
+ for(c = 0;c < OutChans;c++)
+ {
+ ALsizei pos = 0;
+ ALfloat gain = CurrentGains[c];
+ const ALfloat diff = TargetGains[c] - gain;
+
+ if(fabsf(diff) > FLT_EPSILON)
+ {
+ ALsizei minsize = mini(BufferSize, Counter);
+ const ALfloat step = diff * delta;
+ ALfloat step_count = 0.0f;
+ /* Mix with applying gain steps in aligned multiples of 4. */
+ if(LIKELY(minsize > 3))
+ {
+ const __m128 four4 = _mm_set1_ps(4.0f);
+ const __m128 step4 = _mm_set1_ps(step);
+ const __m128 gain4 = _mm_set1_ps(gain);
+ __m128 step_count4 = _mm_setr_ps(0.0f, 1.0f, 2.0f, 3.0f);
+ ALsizei todo = minsize >> 2;
+ do {
+ const __m128 val4 = _mm_load_ps(&data[pos]);
+ __m128 dry4 = _mm_load_ps(&OutBuffer[c][OutPos+pos]);
+#define MLA4(x, y, z) _mm_add_ps(x, _mm_mul_ps(y, z))
+ /* dry += val * (gain + step*step_count) */
+ dry4 = MLA4(dry4, val4, MLA4(gain4, step4, step_count4));
+#undef MLA4
+ _mm_store_ps(&OutBuffer[c][OutPos+pos], dry4);
+ step_count4 = _mm_add_ps(step_count4, four4);
+ pos += 4;
+ } while(--todo);
+ /* NOTE: step_count4 now represents the next four counts after
+ * the last four mixed samples, so the lowest element
+ * represents the next step count to apply.
+ */
+ step_count = _mm_cvtss_f32(step_count4);
+ }
+ /* Mix with applying left over gain steps that aren't aligned multiples of 4. */
+ for(;pos < minsize;pos++)
+ {
+ OutBuffer[c][OutPos+pos] += data[pos]*(gain + step*step_count);
+ step_count += 1.0f;
+ }
+ if(pos == Counter)
+ gain = TargetGains[c];
+ else
+ gain += step*step_count;
+ CurrentGains[c] = gain;
+
+ /* Mix until pos is aligned with 4 or the mix is done. */
+ minsize = mini(BufferSize, (pos+3)&~3);
+ for(;pos < minsize;pos++)
+ OutBuffer[c][OutPos+pos] += data[pos]*gain;
+ }
+
+ if(!(fabsf(gain) > GAIN_SILENCE_THRESHOLD))
+ continue;
+ if(LIKELY(BufferSize-pos > 3))
+ {
+ ALsizei todo = (BufferSize-pos) >> 2;
+ const __m128 gain4 = _mm_set1_ps(gain);
+ do {
+ const __m128 val4 = _mm_load_ps(&data[pos]);
+ __m128 dry4 = _mm_load_ps(&OutBuffer[c][OutPos+pos]);
+ dry4 = _mm_add_ps(dry4, _mm_mul_ps(val4, gain4));
+ _mm_store_ps(&OutBuffer[c][OutPos+pos], dry4);
+ pos += 4;
+ } while(--todo);
+ }
+ for(;pos < BufferSize;pos++)
+ OutBuffer[c][OutPos+pos] += data[pos]*gain;
+ }
+}
+
+void MixRow_SSE(ALfloat *OutBuffer, const ALfloat *Gains, const ALfloat (*RESTRICT data)[BUFFERSIZE], ALsizei InChans, ALsizei InPos, ALsizei BufferSize)
+{
+ ALsizei c;
+
+ ASSUME(InChans > 0);
+ ASSUME(BufferSize > 0);
+
+ for(c = 0;c < InChans;c++)
+ {
+ ALsizei pos = 0;
+ const ALfloat gain = Gains[c];
+ if(!(fabsf(gain) > GAIN_SILENCE_THRESHOLD))
+ continue;
+
+ if(LIKELY(BufferSize > 3))
+ {
+ ALsizei todo = BufferSize >> 2;
+ const __m128 gain4 = _mm_set1_ps(gain);
+ do {
+ const __m128 val4 = _mm_load_ps(&data[c][InPos+pos]);
+ __m128 dry4 = _mm_load_ps(&OutBuffer[pos]);
+ dry4 = _mm_add_ps(dry4, _mm_mul_ps(val4, gain4));
+ _mm_store_ps(&OutBuffer[pos], dry4);
+ pos += 4;
+ } while(--todo);
+ }
+ for(;pos < BufferSize;pos++)
+ OutBuffer[pos] += data[c][InPos+pos]*gain;
+ }
+}