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https://github.com/libretro/RetroArch
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(resamplers) Turn some 1-line inline functions into macros
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twinaphex
parent
7bcd4dd04d
commit
33feed8aa7
@ -419,10 +419,7 @@ static INLINE float cc_int(float x, float b)
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return (val > M_PI) ? M_PI : (val < -M_PI) ? -M_PI : val;
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}
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static INLINE float cc_kernel(float x, float b)
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{
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return (cc_int(x + 0.5, b) - cc_int(x - 0.5, b)) / (2.0 * M_PI);
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}
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#define cc_kernel(x, b) ((cc_int((x) + 0.5, (b)) - cc_int((x) - 0.5, (b))) / (2.0 * M_PI))
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#else
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static INLINE float cc_int(float x, float b)
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{
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@ -433,10 +430,7 @@ static INLINE float cc_int(float x, float b)
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return (val > 0.5) ? 0.5 : (val < -0.5) ? -0.5 : val;
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}
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static INLINE float cc_kernel(float x, float b)
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{
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return (cc_int(x + 0.5, b) - cc_int(x - 0.5, b));
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}
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#define cc_kernel(x, b) ((cc_int((x) + 0.5, (b)) - cc_int((x) - 0.5, (b))))
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#endif
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static INLINE void add_to(const audio_frame_float_t *source,
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@ -503,15 +497,15 @@ static void resampler_CC_upsample(void *re_, struct resampler_data *data)
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while (re->distance < 1.0)
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{
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int i;
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float temp;
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outp->l = 0.0;
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outp->r = 0.0;
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for (i = 0; i < 4; i++)
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{
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temp = cc_kernel(re->distance + 1.0 - i, b);
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outp->l += re->buffer[i].l * temp;
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outp->r += re->buffer[i].r * temp;
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float temp = cc_kernel(re->distance + 1.0 - i, b);
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outp->l += re->buffer[i].l * temp;
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outp->r += re->buffer[i].r * temp;
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}
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re->distance += ratio;
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@ -121,10 +121,7 @@ static INLINE double sinc(double val)
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}
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#if defined(SINC_WINDOW_LANCZOS)
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static INLINE double window_function(double idx)
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{
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return sinc(M_PI * idx);
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}
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#define window_function(idx) (sinc(M_PI * (idx)))
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#elif defined(SINC_WINDOW_KAISER)
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/* Modified Bessel function of first order.
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* Check Wiki for mathematical definition ... */
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@ -153,10 +150,7 @@ static INLINE double besseli0(double x)
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return sum;
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}
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static INLINE double window_function(double idx)
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{
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return besseli0(SINC_WINDOW_KAISER_BETA * sqrt(1 - idx * idx));
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}
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#define window_function(idx) (besseli0(SINC_WINDOW_KAISER_BETA * sqrt(1 - (idx) * (idx))))
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#else
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#error "No SINC window function defined."
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#endif
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@ -247,17 +241,17 @@ static INLINE void process_sinc_C(rarch_sinc_resampler_t *resamp,
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float *out_buffer)
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{
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unsigned i;
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float sum_l = 0.0f;
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float sum_r = 0.0f;
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const float *buffer_l = resamp->buffer_l + resamp->ptr;
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const float *buffer_r = resamp->buffer_r + resamp->ptr;
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unsigned taps = resamp->taps;
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unsigned phase = resamp->time >> SUBPHASE_BITS;
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float sum_l = 0.0f;
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float sum_r = 0.0f;
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const float *buffer_l = resamp->buffer_l + resamp->ptr;
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const float *buffer_r = resamp->buffer_r + resamp->ptr;
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unsigned taps = resamp->taps;
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unsigned phase = resamp->time >> SUBPHASE_BITS;
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#if SINC_COEFF_LERP
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const float *phase_table = resamp->phase_table + phase * taps * 2;
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const float *delta_table = phase_table + taps;
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float delta = (float)(resamp->time & SUBPHASE_MASK) * SUBPHASE_MOD;
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float delta = (float)
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(resamp->time & SUBPHASE_MASK) * SUBPHASE_MOD;
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#else
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const float *phase_table = resamp->phase_table + phase * taps;
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#endif
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@ -283,18 +277,18 @@ static INLINE void process_sinc_C(rarch_sinc_resampler_t *resamp,
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static void process_sinc(rarch_sinc_resampler_t *resamp, float *out_buffer)
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{
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unsigned i;
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__m256 sum_l = _mm256_setzero_ps();
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__m256 sum_r = _mm256_setzero_ps();
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__m256 sum_l = _mm256_setzero_ps();
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__m256 sum_r = _mm256_setzero_ps();
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const float *buffer_l = resamp->buffer_l + resamp->ptr;
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const float *buffer_r = resamp->buffer_r + resamp->ptr;
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const float *buffer_l = resamp->buffer_l + resamp->ptr;
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const float *buffer_r = resamp->buffer_r + resamp->ptr;
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unsigned taps = resamp->taps;
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unsigned phase = resamp->time >> SUBPHASE_BITS;
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unsigned taps = resamp->taps;
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unsigned phase = resamp->time >> SUBPHASE_BITS;
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#if SINC_COEFF_LERP
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const float *phase_table = resamp->phase_table + phase * taps * 2;
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const float *delta_table = phase_table + taps;
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__m256 delta = _mm256_set1_ps((float)
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__m256 delta = _mm256_set1_ps((float)
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(resamp->time & SUBPHASE_MASK) * SUBPHASE_MOD);
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#else
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const float *phase_table = resamp->phase_table + phase * taps;
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@ -302,28 +296,28 @@ static void process_sinc(rarch_sinc_resampler_t *resamp, float *out_buffer)
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for (i = 0; i < taps; i += 8)
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{
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__m256 buf_l = _mm256_loadu_ps(buffer_l + i);
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__m256 buf_r = _mm256_loadu_ps(buffer_r + i);
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__m256 buf_l = _mm256_loadu_ps(buffer_l + i);
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__m256 buf_r = _mm256_loadu_ps(buffer_r + i);
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#if SINC_COEFF_LERP
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__m256 deltas = _mm256_load_ps(delta_table + i);
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__m256 sinc = _mm256_add_ps(_mm256_load_ps(phase_table + i),
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__m256 sinc = _mm256_add_ps(_mm256_load_ps(phase_table + i),
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_mm256_mul_ps(deltas, delta));
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#else
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__m256 sinc = _mm256_load_ps(phase_table + i);
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__m256 sinc = _mm256_load_ps(phase_table + i);
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#endif
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sum_l = _mm256_add_ps(sum_l, _mm256_mul_ps(buf_l, sinc));
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sum_r = _mm256_add_ps(sum_r, _mm256_mul_ps(buf_r, sinc));
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sum_l = _mm256_add_ps(sum_l, _mm256_mul_ps(buf_l, sinc));
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sum_r = _mm256_add_ps(sum_r, _mm256_mul_ps(buf_r, sinc));
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}
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/* hadd on AVX is weird, and acts on low-lanes
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* and high-lanes separately. */
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__m256 res_l = _mm256_hadd_ps(sum_l, sum_l);
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__m256 res_r = _mm256_hadd_ps(sum_r, sum_r);
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res_l = _mm256_hadd_ps(res_l, res_l);
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res_r = _mm256_hadd_ps(res_r, res_r);
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res_l = _mm256_add_ps(_mm256_permute2f128_ps(res_l, res_l, 1), res_l);
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res_r = _mm256_add_ps(_mm256_permute2f128_ps(res_r, res_r, 1), res_r);
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res_l = _mm256_hadd_ps(res_l, res_l);
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res_r = _mm256_hadd_ps(res_r, res_r);
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res_l = _mm256_add_ps(_mm256_permute2f128_ps(res_l, res_l, 1), res_l);
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res_r = _mm256_add_ps(_mm256_permute2f128_ps(res_r, res_r, 1), res_r);
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/* This is optimized to mov %xmmN, [mem].
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* There doesn't seem to be any _mm256_store_ss intrinsic. */
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@ -335,23 +329,23 @@ static void process_sinc(rarch_sinc_resampler_t *resamp, float *out_buffer)
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static void process_sinc(rarch_sinc_resampler_t *resamp, float *out_buffer)
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{
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unsigned i;
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__m128 sum_l = _mm_setzero_ps();
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__m128 sum_r = _mm_setzero_ps();
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__m128 sum;
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__m128 sum_l = _mm_setzero_ps();
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__m128 sum_r = _mm_setzero_ps();
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const float *buffer_l = resamp->buffer_l + resamp->ptr;
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const float *buffer_r = resamp->buffer_r + resamp->ptr;
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const float *buffer_l = resamp->buffer_l + resamp->ptr;
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const float *buffer_r = resamp->buffer_r + resamp->ptr;
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unsigned taps = resamp->taps;
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unsigned phase = resamp->time >> SUBPHASE_BITS;
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unsigned taps = resamp->taps;
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unsigned phase = resamp->time >> SUBPHASE_BITS;
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#if SINC_COEFF_LERP
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const float *phase_table = resamp->phase_table + phase * taps * 2;
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const float *delta_table = phase_table + taps;
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__m128 delta = _mm_set1_ps((float)
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__m128 delta = _mm_set1_ps((float)
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(resamp->time & SUBPHASE_MASK) * SUBPHASE_MOD);
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#else
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const float *phase_table = resamp->phase_table + phase * taps;
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#endif
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__m128 sum;
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for (i = 0; i < taps; i += 4)
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{
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@ -360,13 +354,13 @@ static void process_sinc(rarch_sinc_resampler_t *resamp, float *out_buffer)
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#if SINC_COEFF_LERP
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__m128 deltas = _mm_load_ps(delta_table + i);
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__m128 _sinc = _mm_add_ps(_mm_load_ps(phase_table + i),
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__m128 _sinc = _mm_add_ps(_mm_load_ps(phase_table + i),
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_mm_mul_ps(deltas, delta));
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#else
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__m128 _sinc = _mm_load_ps(phase_table + i);
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#endif
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sum_l = _mm_add_ps(sum_l, _mm_mul_ps(buf_l, _sinc));
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sum_r = _mm_add_ps(sum_r, _mm_mul_ps(buf_r, _sinc));
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sum_l = _mm_add_ps(sum_l, _mm_mul_ps(buf_l, _sinc));
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sum_r = _mm_add_ps(sum_r, _mm_mul_ps(buf_r, _sinc));
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}
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/* Them annoying shuffles.
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@ -413,11 +407,11 @@ void process_sinc_neon_asm(float *out, const float *left,
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static void process_sinc_neon(rarch_sinc_resampler_t *resamp,
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float *out_buffer)
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{
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const float *buffer_l = resamp->buffer_l + resamp->ptr;
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const float *buffer_r = resamp->buffer_r + resamp->ptr;
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const float *buffer_l = resamp->buffer_l + resamp->ptr;
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const float *buffer_r = resamp->buffer_r + resamp->ptr;
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unsigned phase = resamp->time >> SUBPHASE_BITS;
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unsigned taps = resamp->taps;
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unsigned phase = resamp->time >> SUBPHASE_BITS;
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unsigned taps = resamp->taps;
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const float *phase_table = resamp->phase_table + phase * taps;
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process_sinc_neon_asm(out_buffer, buffer_l, buffer_r, phase_table, taps);
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