Mercurial > hg > beaglert
view projects/heavy/circularBuffer/SignalVar.c @ 163:20b52283c7b4 heavy-updated
- added circular buffer pd/heavy example (works but process needs to be killed manually if launched via ssh?)
| author | chnrx <chris.heinrichs@gmail.com> |
|---|---|
| date | Thu, 12 Nov 2015 15:55:30 +0000 |
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/** * Copyright (c) 2014, 2015, Enzien Audio Ltd. * * Permission to use, copy, modify, and/or distribute this software for any * purpose with or without fee is hereby granted, provided that the above * copyright notice and this permission notice appear in all copies. * * THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH * REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY * AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, * INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM * LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR * OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR * PERFORMANCE OF THIS SOFTWARE. */ #include "SignalVar.h" // __var~f static void sVarf_update(SignalVarf *o, float k, float step, bool reverse) { #if HV_SIMD_AVX if (reverse) o->v = _mm256_setr_ps(k+7.0f*step, k+6.0f*step, k+5.0f*step, k+4.0f*step, k+3.0f*step, k+2.0f*step, k+step, k); else o->v = _mm256_set_ps(k+7.0f*step, k+6.0f*step, k+5.0f*step, k+4.0f*step, k+3.0f*step, k+2.0f*step, k+step, k); #elif HV_SIMD_SSE if (reverse) o->v = _mm_setr_ps(k+3.0f*step, k+2.0f*step, k+step, k); else o->v = _mm_set_ps(k+3.0f*step, k+2.0f*step, k+step, k); #elif HV_SIMD_NEON if (reverse) o->v = (float32x4_t) {3.0f*step+k, 2.0f*step+k, step+k, k}; else o->v = (float32x4_t) {k, step+k, 2.0f*step+k, 3.0f*step+k}; #else // HV_SIMD_NONE o->v = k; #endif } hv_size_t sVarf_init(SignalVarf *o, float k, float step, bool reverse) { sVarf_update(o, k, step, reverse); return 0; } void sVarf_onMessage(HvBase *_c, SignalVarf *o, const HvMessage *m) { if (msg_isFloat(m,0)) { sVarf_update(o, msg_getFloat(m,0), msg_isFloat(m,1) ? msg_getFloat(m,1) : 0.0f, msg_getNumElements(m) == 3); } } // __var~i static void sVari_update(SignalVari *o, int k, int step, bool reverse) { #if HV_SIMD_AVX if (reverse) o->v = _mm256_setr_epi32(k+7*step, k+6*step, k+5*step, k+4*step, k+3*step, k+2*step, k+step, k); else o->v = _mm256_set_epi32(k+7*step, k+6*step, k+5*step, k+4*step, k+3*step, k+2*step, k+step, k); #elif HV_SIMD_SSE if (reverse) o->v = _mm_setr_epi32(k+3*step, k+2*step, k+step, k); else o->v = _mm_set_epi32(k+3*step, k+2*step, k+step, k); #elif HV_SIMD_NEON if (reverse) o->v = (int32x4_t) {3*step+k, 2*step+k, step+k, k}; else o->v = (int32x4_t) {k, step+k, 2*step+k, 3*step+k}; #else // HV_SIMD_NEON o->v = k; #endif } hv_size_t sVari_init(SignalVari *o, int k, int step, bool reverse) { sVari_update(o, k, step, reverse); return 0; } void sVari_onMessage(HvBase *_c, SignalVari *o, const HvMessage *m) { if (msg_isFloat(m,0)) { sVari_update(o, (int) msg_getFloat(m,0), msg_isFloat(m,1) ? (int) msg_getFloat(m,1) : 0, msg_getNumElements(m) == 3); } }