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+/* libFLAC - Free Lossless Audio Codec library
+ * Copyright (C) 2000-2009 Josh Coalson
+ * Copyright (C) 2011-2023 Xiph.Org Foundation
+ *
+ * Redistribution and use in source and binary forms, with or without
+ * modification, are permitted provided that the following conditions
+ * are met:
+ *
+ * - Redistributions of source code must retain the above copyright
+ * notice, this list of conditions and the following disclaimer.
+ *
+ * - Redistributions in binary form must reproduce the above copyright
+ * notice, this list of conditions and the following disclaimer in the
+ * documentation and/or other materials provided with the distribution.
+ *
+ * - Neither the name of the Xiph.org Foundation nor the names of its
+ * contributors may be used to endorse or promote products derived from
+ * this software without specific prior written permission.
+ *
+ * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
+ * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
+ * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
+ * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
+ * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
+ * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
+ * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
+ * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
+ * LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
+ * NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
+ * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
+ */
+
+#ifdef HAVE_CONFIG_H
+# include <config.h>
+#endif
+
+#include "private/cpu.h"
+
+#ifndef FLAC__INTEGER_ONLY_LIBRARY
+#ifndef FLAC__NO_ASM
+#if (defined FLAC__CPU_IA32 || defined FLAC__CPU_X86_64) && FLAC__HAS_X86INTRIN
+#include "private/fixed.h"
+#ifdef FLAC__SSSE3_SUPPORTED
+
+#include <tmmintrin.h> /* SSSE3 */
+#include <math.h>
+#include "private/macros.h"
+#include "share/compat.h"
+#include "FLAC/assert.h"
+
+#ifdef FLAC__CPU_IA32
+#define m128i_to_i64(dest, src) _mm_storel_epi64((__m128i*)&dest, src)
+#else
+#define m128i_to_i64(dest, src) dest = _mm_cvtsi128_si64(src)
+#endif
+
+#ifdef local_abs
+#undef local_abs
+#endif
+#define local_abs(x) ((uint32_t)((x)<0? -(x) : (x)))
+
+FLAC__SSE_TARGET("ssse3")
+uint32_t FLAC__fixed_compute_best_predictor_intrin_ssse3(const FLAC__int32 data[], uint32_t data_len, float residual_bits_per_sample[FLAC__MAX_FIXED_ORDER + 1])
+{
+ FLAC__uint32 total_error_0, total_error_1, total_error_2, total_error_3, total_error_4;
+ FLAC__int32 i, data_len_int;
+ uint32_t order;
+ __m128i total_err0, total_err1, total_err2, total_err3, total_err4;
+ __m128i prev_err0, prev_err1, prev_err2, prev_err3;
+ __m128i tempA, tempB;
+ FLAC__int32 data_scalar[4];
+ FLAC__int32 prev_err0_scalar[4];
+ FLAC__int32 prev_err1_scalar[4];
+ FLAC__int32 prev_err2_scalar[4];
+ FLAC__int32 prev_err3_scalar[4];
+ total_err0 = _mm_setzero_si128();
+ total_err1 = _mm_setzero_si128();
+ total_err2 = _mm_setzero_si128();
+ total_err3 = _mm_setzero_si128();
+ total_err4 = _mm_setzero_si128();
+ data_len_int = data_len;
+
+ for(i = 0; i < 4; i++){
+ prev_err0_scalar[i] = data[-1+i*(data_len_int/4)];
+ prev_err1_scalar[i] = data[-1+i*(data_len_int/4)] - data[-2+i*(data_len_int/4)];
+ prev_err2_scalar[i] = prev_err1_scalar[i] - (data[-2+i*(data_len_int/4)] - data[-3+i*(data_len_int/4)]);
+ prev_err3_scalar[i] = prev_err2_scalar[i] - (data[-2+i*(data_len_int/4)] - 2*data[-3+i*(data_len_int/4)] + data[-4+i*(data_len_int/4)]);
+ }
+ prev_err0 = _mm_loadu_si128((const __m128i*)prev_err0_scalar);
+ prev_err1 = _mm_loadu_si128((const __m128i*)prev_err1_scalar);
+ prev_err2 = _mm_loadu_si128((const __m128i*)prev_err2_scalar);
+ prev_err3 = _mm_loadu_si128((const __m128i*)prev_err3_scalar);
+ for(i = 0; i < data_len_int / 4; i++){
+ data_scalar[0] = data[i];
+ data_scalar[1] = data[i+data_len/4];
+ data_scalar[2] = data[i+2*(data_len/4)];
+ data_scalar[3] = data[i+3*(data_len/4)];
+ tempA = _mm_loadu_si128((const __m128i*)data_scalar);
+ tempB = _mm_abs_epi32(tempA);
+ total_err0 = _mm_add_epi32(total_err0,tempB);
+ tempB = _mm_sub_epi32(tempA,prev_err0);
+ prev_err0 = tempA;
+ tempA = _mm_abs_epi32(tempB);
+ total_err1 = _mm_add_epi32(total_err1,tempA);
+ tempA = _mm_sub_epi32(tempB,prev_err1);
+ prev_err1 = tempB;
+ tempB = _mm_abs_epi32(tempA);
+ total_err2 = _mm_add_epi32(total_err2,tempB);
+ tempB = _mm_sub_epi32(tempA,prev_err2);
+ prev_err2 = tempA;
+ tempA = _mm_abs_epi32(tempB);
+ total_err3 = _mm_add_epi32(total_err3,tempA);
+ tempA = _mm_sub_epi32(tempB,prev_err3);
+ prev_err3 = tempB;
+ tempB = _mm_abs_epi32(tempA);
+ total_err4 = _mm_add_epi32(total_err4,tempB);
+ }
+ _mm_storeu_si128((__m128i*)data_scalar,total_err0);
+ total_error_0 = data_scalar[0] + data_scalar[1] + data_scalar[2] + data_scalar[3];
+ _mm_storeu_si128((__m128i*)data_scalar,total_err1);
+ total_error_1 = data_scalar[0] + data_scalar[1] + data_scalar[2] + data_scalar[3];
+ _mm_storeu_si128((__m128i*)data_scalar,total_err2);
+ total_error_2 = data_scalar[0] + data_scalar[1] + data_scalar[2] + data_scalar[3];
+ _mm_storeu_si128((__m128i*)data_scalar,total_err3);
+ total_error_3 = data_scalar[0] + data_scalar[1] + data_scalar[2] + data_scalar[3];
+ _mm_storeu_si128((__m128i*)data_scalar,total_err4);
+ total_error_4 = data_scalar[0] + data_scalar[1] + data_scalar[2] + data_scalar[3];
+
+ /* Now the remainder of samples needs to be processed */
+ i *= 4;
+ if(data_len % 4 > 0){
+ FLAC__int32 last_error_0 = data[i-1];
+ FLAC__int32 last_error_1 = data[i-1] - data[i-2];
+ FLAC__int32 last_error_2 = last_error_1 - (data[i-2] - data[i-3]);
+ FLAC__int32 last_error_3 = last_error_2 - (data[i-2] - 2*data[i-3] + data[i-4]);
+ FLAC__int32 error, save;
+ for(; i < data_len_int; i++) {
+ error = data[i] ; total_error_0 += local_abs(error); save = error;
+ error -= last_error_0; total_error_1 += local_abs(error); last_error_0 = save; save = error;
+ error -= last_error_1; total_error_2 += local_abs(error); last_error_1 = save; save = error;
+ error -= last_error_2; total_error_3 += local_abs(error); last_error_2 = save; save = error;
+ error -= last_error_3; total_error_4 += local_abs(error); last_error_3 = save;
+ }
+ }
+
+ /* prefer lower order */
+ if(total_error_0 <= flac_min(flac_min(flac_min(total_error_1, total_error_2), total_error_3), total_error_4))
+ order = 0;
+ else if(total_error_1 <= flac_min(flac_min(total_error_2, total_error_3), total_error_4))
+ order = 1;
+ else if(total_error_2 <= flac_min(total_error_3, total_error_4))
+ order = 2;
+ else if(total_error_3 <= total_error_4)
+ order = 3;
+ else
+ order = 4;
+
+ /* Estimate the expected number of bits per residual signal sample. */
+ /* 'total_error*' is linearly related to the variance of the residual */
+ /* signal, so we use it directly to compute E(|x|) */
+ FLAC__ASSERT(data_len > 0 || total_error_0 == 0);
+ FLAC__ASSERT(data_len > 0 || total_error_1 == 0);
+ FLAC__ASSERT(data_len > 0 || total_error_2 == 0);
+ FLAC__ASSERT(data_len > 0 || total_error_3 == 0);
+ FLAC__ASSERT(data_len > 0 || total_error_4 == 0);
+
+ residual_bits_per_sample[0] = (float)((total_error_0 > 0) ? log(M_LN2 * (double)total_error_0 / (double)data_len) / M_LN2 : 0.0);
+ residual_bits_per_sample[1] = (float)((total_error_1 > 0) ? log(M_LN2 * (double)total_error_1 / (double)data_len) / M_LN2 : 0.0);
+ residual_bits_per_sample[2] = (float)((total_error_2 > 0) ? log(M_LN2 * (double)total_error_2 / (double)data_len) / M_LN2 : 0.0);
+ residual_bits_per_sample[3] = (float)((total_error_3 > 0) ? log(M_LN2 * (double)total_error_3 / (double)data_len) / M_LN2 : 0.0);
+ residual_bits_per_sample[4] = (float)((total_error_4 > 0) ? log(M_LN2 * (double)total_error_4 / (double)data_len) / M_LN2 : 0.0);
+
+ return order;
+}
+
+#endif /* FLAC__SSSE3_SUPPORTED */
+#endif /* (FLAC__CPU_IA32 || FLAC__CPU_X86_64) && FLAC__HAS_X86INTRIN */
+#endif /* FLAC__NO_ASM */
+#endif /* FLAC__INTEGER_ONLY_LIBRARY */