/****************************************************************************** * * * Copyright (C) 2018 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at: * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * ***************************************************************************** * Originally developed and contributed by Ittiam Systems Pvt. Ltd, Bangalore */ #include #include "ixheaacd_sbr_common.h" #include "ixheaacd_type_def.h" #include "ixheaacd_constants.h" #include "ixheaacd_basic_ops32.h" #include "ixheaacd_basic_ops16.h" #include "ixheaacd_basic_ops40.h" #include "ixheaacd_basic_ops.h" #include "ixheaacd_intrinsics.h" #include "ixheaacd_common_rom.h" #include "ixheaacd_bitbuffer.h" #include "ixheaacd_sbrdecsettings.h" #include "ixheaacd_sbr_scale.h" #include "ixheaacd_lpp_tran.h" #include "ixheaacd_env_extr_part.h" #include "ixheaacd_sbr_rom.h" #include "ixheaacd_hybrid.h" #include "ixheaacd_ps_dec.h" #include "ixheaacd_env_extr.h" #include "ixheaacd_qmf_dec.h" #include "ixheaacd_basic_op.h" #include "ixheaacd_env_calc.h" #include "ixheaacd_interface.h" #include "ixheaacd_function_selector.h" #include "ixheaacd_audioobjtypes.h" #if !__ARM_NEON__ #define DCT3_LEN (32) #define DCT2_LEN (64) #define LP_SHIFT_VAL 7 #define HQ_SHIFT_64 4 #define RADIXSHIFT 1 #define HQ_SHIFT_VAL 4 extern const WORD32 ixheaacd_ldmps_polyphase_filter_coeff_fix[1280]; VOID ixheaacd_dct3_32(WORD32 *input, WORD32 *output, const WORD16 *main_twidle_fwd, const WORD16 *post_tbl, const WORD16 *w_16, const WORD32 *p_table) { WORD32 n, k; WORD32 temp1[6]; WORD32 temp2[4]; WORD16 twid_re, twid_im; WORD32 *ptr_reverse, *ptr_forward, *p_out, *ptr_out1; const WORD16 *twidle_fwd, *twidle_rev; ptr_forward = &input[49]; ptr_reverse = &input[47]; p_out = output; twidle_fwd = main_twidle_fwd; twidle_fwd += 4; *p_out++ = input[48] >> LP_SHIFT_VAL; *p_out++ = 0; for (n = 1; n < DCT3_LEN / 2; n++) { temp1[0] = *ptr_forward++; temp1[1] = *ptr_reverse--; temp1[0] = ixheaacd_add32_sat(ixheaacd_shr32(temp1[0], LP_SHIFT_VAL), ixheaacd_shr32(temp1[1], LP_SHIFT_VAL)); temp1[2] = *(ptr_forward - 33); temp1[3] = *(ptr_reverse - 31); temp1[1] = ixheaacd_sub32_sat(ixheaacd_shr32(temp1[2], LP_SHIFT_VAL), ixheaacd_shr32(temp1[3], LP_SHIFT_VAL)); twid_re = *twidle_fwd++; twid_im = *twidle_fwd; twidle_fwd += 3; *p_out++ = ixheaacd_mult32x16in32(temp1[0], twid_re) + ixheaacd_mult32x16in32(temp1[1], twid_im); *p_out++ = -ixheaacd_mult32x16in32(temp1[1], twid_re) + ixheaacd_mult32x16in32(temp1[0], twid_im); } twid_re = *twidle_fwd++; twid_im = *twidle_fwd; twidle_fwd += 3; temp1[1] = *ptr_reverse--; temp1[0] = *(ptr_reverse - 31); temp1[1] = ixheaacd_sub32_sat(ixheaacd_shr32(temp1[1], LP_SHIFT_VAL), ixheaacd_shr32(temp1[0], LP_SHIFT_VAL)); temp1[0] = temp1[1]; temp2[2] = ixheaacd_mult32x16in32(temp1[0], twid_re) + ixheaacd_mult32x16in32(temp1[1], twid_im); temp2[3] = -ixheaacd_mult32x16in32(temp1[1], twid_re) + ixheaacd_mult32x16in32(temp1[0], twid_im); ptr_forward = output; ptr_reverse = &output[DCT3_LEN - 1]; temp2[0] = *ptr_forward++; temp2[1] = *ptr_forward--; temp1[0] = -temp2[1] - temp2[3]; temp1[1] = temp2[0] - temp2[2]; temp2[0] = (temp2[0] + temp2[2] + temp1[0]); temp2[1] = (temp2[1] - temp2[3] + temp1[1]); temp2[0] >>= 1; temp2[1] >>= 1; *ptr_forward++ = temp2[0]; *ptr_forward++ = temp2[1]; twidle_fwd = post_tbl + 2; twidle_rev = post_tbl + 14; for (n = 1; n < DCT3_LEN / 4; n++) { temp2[0] = *ptr_forward++; temp2[1] = *ptr_forward--; temp2[3] = *ptr_reverse--; temp2[2] = *ptr_reverse++; twid_re = *twidle_rev; twidle_rev -= 2; twid_im = *twidle_fwd; twidle_fwd += 2; temp1[0] = temp2[0] - temp2[2]; temp1[1] = (temp2[0] + temp2[2]); temp1[2] = temp2[1] + temp2[3]; temp1[3] = (temp2[1] - temp2[3]); temp1[4] = ixheaacd_mult32x16in32(temp1[0], twid_re) + ixheaacd_mult32x16in32(temp1[2], twid_im); temp1[5] = -ixheaacd_mult32x16in32(temp1[2], twid_re) + ixheaacd_mult32x16in32(temp1[0], twid_im); temp1[1] >>= 1; temp1[3] >>= 1; *ptr_forward++ = temp1[1] - temp1[4]; *ptr_forward++ = temp1[3] + temp1[5]; *ptr_reverse-- = -temp1[3] + temp1[5]; *ptr_reverse-- = temp1[1] + temp1[4]; } temp2[0] = *ptr_forward++; temp2[1] = *ptr_forward--; temp2[3] = *ptr_reverse--; temp2[2] = *ptr_reverse++; twid_re = -*twidle_rev; twidle_rev -= 2; twid_im = *twidle_fwd; twidle_fwd += 2; temp1[0] = temp2[0] - temp2[2]; temp1[1] = (temp2[0] + temp2[2]); temp1[2] = temp2[1] + temp2[3]; temp1[3] = (temp2[1] - temp2[3]); temp1[4] = ixheaacd_mult32x16in32(temp1[0], twid_re) - ixheaacd_mult32x16in32(temp1[2], twid_im); temp1[5] = ixheaacd_mult32x16in32(temp1[2], twid_re) + ixheaacd_mult32x16in32(temp1[0], twid_im); temp1[1] >>= 1; temp1[3] >>= 1; *ptr_forward++ = temp1[1] + temp1[4]; *ptr_forward++ = temp1[3] + temp1[5]; ixheaacd_radix4bfly(w_16, output, 1, 4); ixheaacd_postradixcompute4(input, output, p_table, 16); output[0] = input[0]; output[2] = input[1]; p_out = input + 2; ptr_forward = output + 1; ptr_reverse = output + 30; ptr_out1 = input + 18; for (k = (DCT3_LEN / 4) - 1; k != 0; k--) { WORD32 tempre, tempim; tempre = *p_out++; tempim = *p_out++; *ptr_forward = (tempim); ptr_forward += 2; *ptr_forward = (tempre); ptr_forward += 2; tempre = *ptr_out1++; tempim = *ptr_out1++; *ptr_reverse = (tempim); ptr_reverse -= 2; *ptr_reverse = (tempre); ptr_reverse -= 2; } { WORD32 tempre, tempim; tempre = *p_out++; tempim = *p_out++; *ptr_forward = (tempim); ptr_forward += 2; *ptr_forward = (tempre); ptr_forward += 2; } return; } VOID ixheaacd_dct2_64(WORD32 *x, WORD32 *X, ia_qmf_dec_tables_struct *qmf_dec_tables_ptr, WORD16 *filter_states) { ixheaacd_pretwdct2(x, X); ixheaacd_radix4bfly(qmf_dec_tables_ptr->w_32, X, 1, 8); ixheaacd_radix4bfly(qmf_dec_tables_ptr->w_32 + 48, X, 4, 2); ixheaacd_postradixcompute2(x, X, qmf_dec_tables_ptr->dig_rev_table2_32, 32); ixheaacd_fftposttw(x, qmf_dec_tables_ptr); ixheaacd_posttwdct2(x, filter_states, qmf_dec_tables_ptr); return; } VOID ixheaacd_cos_sin_mod(WORD32 *subband, ia_sbr_qmf_filter_bank_struct *qmf_bank, WORD16 *p_twiddle, WORD32 *p_dig_rev_tbl) { WORD32 re2, re3; WORD16 wim, wre; WORD32 i, M_2; WORD32 M = ixheaacd_shr32(qmf_bank->no_channels, 1); const WORD16 *p_sin; const WORD16 *p_sin_cos = &qmf_bank->cos_twiddle[0]; WORD32 subband_tmp[128]; WORD32 re; WORD32 im; WORD32 *psubband, *psubband1; WORD32 *psubband_t, *psubband1_t; WORD32 *psubband2, *psubband12; WORD32 *psubband_t2, *psubband1_t2; M_2 = ixheaacd_shr32(M, 1); psubband = &subband[0]; psubband1 = &subband[2 * M - 1]; psubband_t = subband_tmp; psubband1_t = &subband_tmp[2 * M - 1]; psubband2 = &subband[64]; psubband12 = &subband[2 * M - 1 + 64]; psubband_t2 = &subband_tmp[64]; psubband1_t2 = &subband_tmp[2 * M - 1 + 64]; for (i = (M_2 >> 1) - 1; i >= 0; i--) { re = *psubband++; im = *psubband1--; wim = *p_sin_cos++; wre = *p_sin_cos++; *psubband_t++ = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wre), ixheaacd_mult32x16in32(im, wim)); *psubband_t++ = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wre), ixheaacd_mult32x16in32(re, wim)); re = *psubband2++; im = *psubband12--; *psubband_t2++ = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wim), ixheaacd_mult32x16in32(re, wre)); *psubband_t2++ = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wim), ixheaacd_mult32x16in32(im, wre)); re = *psubband1--; im = *psubband++; wim = *p_sin_cos++; wre = *p_sin_cos++; *psubband1_t-- = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wre), ixheaacd_mult32x16in32(re, wim)); *psubband1_t-- = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wre), ixheaacd_mult32x16in32(im, wim)); re = *psubband12--; im = *psubband2++; *psubband1_t2-- = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wim), ixheaacd_mult32x16in32(im, wre)); *psubband1_t2-- = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wim), ixheaacd_mult32x16in32(re, wre)); re = *psubband++; im = *psubband1--; wim = *p_sin_cos++; wre = *p_sin_cos++; *psubband_t++ = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wre), ixheaacd_mult32x16in32(im, wim)); *psubband_t++ = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wre), ixheaacd_mult32x16in32(re, wim)); re = *psubband2++; im = *psubband12--; *psubband_t2++ = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wim), ixheaacd_mult32x16in32(re, wre)); *psubband_t2++ = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wim), ixheaacd_mult32x16in32(im, wre)); re = *psubband1--; im = *psubband++; wim = *p_sin_cos++; wre = *p_sin_cos++; *psubband1_t-- = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wre), ixheaacd_mult32x16in32(re, wim)); *psubband1_t-- = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wre), ixheaacd_mult32x16in32(im, wim)); re = *psubband12--; im = *psubband2++; ; *psubband1_t2-- = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wim), ixheaacd_mult32x16in32(im, wre)); *psubband1_t2-- = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wim), ixheaacd_mult32x16in32(re, wre)); } if (M == 32) { ixheaacd_radix4bfly(p_twiddle, subband_tmp, 1, 8); ixheaacd_radix4bfly(p_twiddle + 48, subband_tmp, 4, 2); ixheaacd_postradixcompute2(subband, subband_tmp, p_dig_rev_tbl, 32); ixheaacd_radix4bfly(p_twiddle, &subband_tmp[64], 1, 8); ixheaacd_radix4bfly(p_twiddle + 48, &subband_tmp[64], 4, 2); ixheaacd_postradixcompute2(&subband[64], &subband_tmp[64], p_dig_rev_tbl, 32); } else { ixheaacd_radix4bfly(p_twiddle, subband_tmp, 1, 4); ixheaacd_postradixcompute4(subband, subband_tmp, p_dig_rev_tbl, 16); ixheaacd_radix4bfly(p_twiddle, &subband_tmp[64], 1, 4); ixheaacd_postradixcompute4(&subband[64], &subband_tmp[64], p_dig_rev_tbl, 16); } psubband = &subband[0]; psubband1 = &subband[2 * M - 1]; re = *psubband1; *psubband = *psubband >> 1; psubband++; *psubband1 = ixheaacd_negate32_sat(*psubband >> 1); psubband1--; p_sin = &qmf_bank->alt_sin_twiddle[0]; wim = *p_sin++; wre = *p_sin++; im = *psubband1; *psubband1-- = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wre), ixheaacd_mult32x16in32(im, wim)); *psubband++ = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wre), ixheaacd_mult32x16in32(re, wim)); psubband2 = &subband[64]; psubband12 = &subband[2 * M - 1 + 64]; re = *psubband12; *psubband12-- = ixheaacd_negate32_sat(*psubband2 >> 1); *psubband2 = psubband2[1] >> 1; psubband2++; im = *psubband12; *psubband2++ = ixheaacd_negate32_sat(ixheaacd_add32_sat( ixheaacd_mult32x16in32(re, wre), ixheaacd_mult32x16in32(im, wim))); *psubband12-- = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(re, wim), ixheaacd_mult32x16in32(im, wre)); for (i = (M_2 - 2); i >= 0; i--) { im = psubband[0]; re = psubband[1]; re2 = *psubband1; *psubband++ = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re, wim), ixheaacd_mult32x16in32(im, wre)); *psubband1-- = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wim), ixheaacd_mult32x16in32(re, wre)); im = psubband2[0]; re = psubband2[1]; re3 = *psubband12; *psubband12-- = ixheaacd_negate32_sat(ixheaacd_add32_sat( ixheaacd_mult32x16in32(re, wim), ixheaacd_mult32x16in32(im, wre))); *psubband2++ = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(re, wre), ixheaacd_mult32x16in32(im, wim)); wim = *p_sin++; wre = *p_sin++; im = psubband1[0]; *psubband1-- = ixheaacd_add32_sat(ixheaacd_mult32x16in32(re2, wre), ixheaacd_mult32x16in32(im, wim)); *psubband++ = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(im, wre), ixheaacd_mult32x16in32(re2, wim)); im = psubband12[0]; *psubband2++ = ixheaacd_negate32_sat(ixheaacd_add32_sat( ixheaacd_mult32x16in32(re3, wre), ixheaacd_mult32x16in32(im, wim))); *psubband12-- = ixheaacd_sub32_sat(ixheaacd_mult32x16in32(re3, wim), ixheaacd_mult32x16in32(im, wre)); } } VOID ixheaacd_fwd_modulation(const WORD32 *p_time_in1, WORD32 *real_subband, WORD32 *imag_subband, ia_sbr_qmf_filter_bank_struct *qmf_bank, ia_qmf_dec_tables_struct *qmf_dec_tables_ptr, WORD32 ld_mps_flag) { WORD32 i; const WORD32 *p_time_in2 = &p_time_in1[2 * qmf_bank->no_channels - 1]; WORD32 temp1, temp2; WORD32 *t_real_subband = real_subband; WORD32 *t_imag_subband = imag_subband; const WORD16 *tcos; for (i = qmf_bank->no_channels - 1; i >= 0; i--) { temp1 = ixheaacd_shr32(*p_time_in1++, HQ_SHIFT_VAL); temp2 = ixheaacd_shr32(*p_time_in2--, HQ_SHIFT_VAL); *t_real_subband++ = ixheaacd_sub32_sat(temp1, temp2); *t_imag_subband++ = ixheaacd_add32_sat(temp1, temp2); } if (qmf_bank->no_channels != 64) ixheaacd_cos_sin_mod(real_subband, qmf_bank, qmf_dec_tables_ptr->w_16, qmf_dec_tables_ptr->dig_rev_table4_16); else ixheaacd_cos_sin_mod(real_subband, qmf_bank, qmf_dec_tables_ptr->w_32, qmf_dec_tables_ptr->dig_rev_table2_32); if (ld_mps_flag == 0) { tcos = qmf_bank->t_cos; for (i = (qmf_bank->usb - qmf_bank->lsb - 1); i >= 0; i--) { WORD16 cosh, sinh; WORD32 re, im; re = *real_subband; im = *imag_subband; cosh = *tcos++; sinh = *tcos++; *real_subband++ = ixheaacd_add32_sat(ixheaacd_mult32x16in32_shl(re, cosh), ixheaacd_mult32x16in32_shl(im, sinh)); *imag_subband++ = ixheaacd_sub32_sat(ixheaacd_mult32x16in32_shl(im, cosh), ixheaacd_mult32x16in32_shl(re, sinh)); } } else { WORD32 i_band; for (i = 0; i < min(64, qmf_bank->no_channels); i += 2) { i_band = real_subband[i]; real_subband[i] = -imag_subband[i]; imag_subband[i] = i_band; i_band = -real_subband[i + 1]; real_subband[i + 1] = imag_subband[i + 1]; imag_subband[i + 1] = i_band; } } } VOID ixheaacd_sbr_qmfanal32_winadd(WORD16 *inp1, WORD16 *inp2, const WORD16 *p_qmf1, const WORD16 *p_qmf2, WORD32 *p_out) { WORD32 n; for (n = 0; n < 32; n += 2) { WORD32 accu; accu = ixheaacd_mult16x16in32(inp1[n + 0], p_qmf1[2 * (n + 0)]); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp1[n + 64], p_qmf1[2 * (n + 64)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp1[n + 128], p_qmf1[2 * (n + 128)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp1[n + 192], p_qmf1[2 * (n + 192)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp1[n + 256], p_qmf1[2 * (n + 256)])); p_out[n] = accu; accu = ixheaacd_mult16x16in32(inp1[n + 1 + 0], p_qmf1[2 * (n + 1 + 0)]); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp1[n + 1 + 64], p_qmf1[2 * (n + 1 + 64)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp1[n + 1 + 128], p_qmf1[2 * (n + 1 + 128)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp1[n + 1 + 192], p_qmf1[2 * (n + 1 + 192)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp1[n + 1 + 256], p_qmf1[2 * (n + 1 + 256)])); p_out[n + 1] = accu; accu = ixheaacd_mult16x16in32(inp2[n + 0], p_qmf2[2 * (n + 0)]); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp2[n + 64], p_qmf2[2 * (n + 64)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp2[n + 128], p_qmf2[2 * (n + 128)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp2[n + 192], p_qmf2[2 * (n + 192)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp2[n + 256], p_qmf2[2 * (n + 256)])); p_out[n + 32] = accu; accu = ixheaacd_mult16x16in32(inp2[n + 1 + 0], p_qmf2[2 * (n + 1 + 0)]); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp2[n + 1 + 64], p_qmf2[2 * (n + 1 + 64)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp2[n + 1 + 128], p_qmf2[2 * (n + 1 + 128)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp2[n + 1 + 192], p_qmf2[2 * (n + 1 + 192)])); accu = ixheaacd_add32_sat( accu, ixheaacd_mult16x16in32(inp2[n + 1 + 256], p_qmf2[2 * (n + 1 + 256)])); p_out[n + 1 + 32] = accu; } } VOID ixheaacd_cplx_anal_qmffilt(const WORD16 *time_sample_buf, ia_sbr_scale_fact_struct *sbr_scale_factor, WORD32 **qmf_real, WORD32 **qmf_imag, ia_sbr_qmf_filter_bank_struct *qmf_bank, ia_qmf_dec_tables_struct *qmf_dec_tables_ptr, WORD32 ch_fac, WORD32 low_pow_flag, WORD audio_object_type) { WORD32 i, k; WORD32 num_time_slots = qmf_bank->num_time_slots; WORD32 analysis_buffer[4 * NO_ANALYSIS_CHANNELS]; WORD16 *filter_states = qmf_bank->core_samples_buffer; WORD16 *fp1, *fp2, *tmp; WORD16 *filter_1; WORD16 *filter_2; WORD16 *filt_ptr; WORD32 start_slot = 0; if (audio_object_type != AOT_ER_AAC_ELD && audio_object_type != AOT_ER_AAC_LD) { qmf_bank->filter_pos += (qmf_dec_tables_ptr->qmf_c - qmf_bank->analy_win_coeff); qmf_bank->analy_win_coeff = qmf_dec_tables_ptr->qmf_c; } else { qmf_bank->filter_pos += (qmf_dec_tables_ptr->qmf_c_eld3 - qmf_bank->analy_win_coeff); qmf_bank->analy_win_coeff = qmf_dec_tables_ptr->qmf_c_eld3; } filter_1 = qmf_bank->filter_pos; if (audio_object_type != AOT_ER_AAC_ELD && audio_object_type != AOT_ER_AAC_LD) { filter_2 = filter_1 + 64; } else { filter_2 = filter_1 + qmf_bank->no_channels; } sbr_scale_factor->st_lb_scale = 0; sbr_scale_factor->lb_scale = -10; if (!low_pow_flag) { if (audio_object_type != AOT_ER_AAC_ELD && audio_object_type != AOT_ER_AAC_LD) { sbr_scale_factor->lb_scale = -8; } else { sbr_scale_factor->lb_scale = -9; } if (qmf_bank->no_channels != 64) { qmf_bank->cos_twiddle = (WORD16 *)qmf_dec_tables_ptr->sbr_sin_cos_twiddle_l32; qmf_bank->alt_sin_twiddle = (WORD16 *)qmf_dec_tables_ptr->sbr_alt_sin_twiddle_l32; } else { qmf_bank->cos_twiddle = (WORD16 *)qmf_dec_tables_ptr->sbr_sin_cos_twiddle_l64; qmf_bank->alt_sin_twiddle = (WORD16 *)qmf_dec_tables_ptr->sbr_alt_sin_twiddle_l64; } if (audio_object_type != AOT_ER_AAC_ELD && audio_object_type != AOT_ER_AAC_LD) { qmf_bank->t_cos = (WORD16 *)qmf_dec_tables_ptr->sbr_t_cos_sin_l32; } else { qmf_bank->t_cos = (WORD16 *)qmf_dec_tables_ptr->ixheaacd_sbr_t_cos_sin_l32_eld; } } fp1 = qmf_bank->anal_filter_states; fp2 = qmf_bank->anal_filter_states + qmf_bank->no_channels; if (audio_object_type == AOT_ER_AAC_ELD || audio_object_type == AOT_ER_AAC_LD) { filter_2 = qmf_bank->filter_2; fp1 = qmf_bank->fp1_anal; fp2 = qmf_bank->fp2_anal; } for (i = start_slot; i < num_time_slots + start_slot; i++) { for (k = 0; k < qmf_bank->no_channels; k++) filter_states[qmf_bank->no_channels - 1 - k] = time_sample_buf[ch_fac * k]; if (audio_object_type != AOT_ER_AAC_ELD && audio_object_type != AOT_ER_AAC_LD) { ixheaacd_sbr_qmfanal32_winadd(fp1, fp2, filter_1, filter_2, analysis_buffer); } else { ixheaacd_sbr_qmfanal32_winadd_eld(fp1, fp2, filter_1, filter_2, analysis_buffer); } time_sample_buf += qmf_bank->no_channels * ch_fac; filter_states -= qmf_bank->no_channels; if (filter_states < qmf_bank->anal_filter_states) { filter_states = qmf_bank->anal_filter_states + ((qmf_bank->no_channels * 10) - qmf_bank->no_channels); } tmp = fp1; fp1 = fp2; fp2 = tmp; if (audio_object_type != AOT_ER_AAC_ELD && audio_object_type != AOT_ER_AAC_LD) { filter_1 += 64; filter_2 += 64; } else { filter_1 += qmf_bank->no_channels; filter_2 += qmf_bank->no_channels; } filt_ptr = filter_1; filter_1 = filter_2; filter_2 = filt_ptr; if (audio_object_type != AOT_ER_AAC_ELD && audio_object_type != AOT_ER_AAC_LD) { if (filter_2 > (qmf_bank->analy_win_coeff + 640)) { filter_1 = (WORD16 *)qmf_bank->analy_win_coeff; filter_2 = (WORD16 *)qmf_bank->analy_win_coeff + 64; } } else { if (filter_2 > (qmf_bank->analy_win_coeff + (qmf_bank->no_channels * 10))) { filter_1 = (WORD16 *)qmf_bank->analy_win_coeff; filter_2 = (WORD16 *)qmf_bank->analy_win_coeff + qmf_bank->no_channels; } } if (!low_pow_flag) { ixheaacd_fwd_modulation(analysis_buffer, qmf_real[i], qmf_imag[i], qmf_bank, qmf_dec_tables_ptr, 0); } else { ixheaacd_dct3_32( (WORD32 *)analysis_buffer, qmf_real[i], qmf_dec_tables_ptr->dct23_tw, qmf_dec_tables_ptr->post_fft_tbl, qmf_dec_tables_ptr->w_16, qmf_dec_tables_ptr->dig_rev_table4_16); } } qmf_bank->filter_pos = filter_1; qmf_bank->core_samples_buffer = filter_states; if (audio_object_type == AOT_ER_AAC_ELD || audio_object_type == AOT_ER_AAC_LD) { qmf_bank->fp1_anal = fp1; qmf_bank->fp2_anal = fp2; qmf_bank->filter_2 = filter_2; } } VOID ixheaacd_cplx_anal_qmffilt_32(const WORD32 *time_sample_buf, ia_sbr_scale_fact_struct *sbr_scale_factor, WORD32 **qmf_real, WORD32 **qmf_imag, ia_sbr_qmf_filter_bank_struct *qmf_bank, ia_qmf_dec_tables_struct *qmf_dec_tables_ptr, WORD32 ch_fac, WORD32 ldsbr_present) { WORD32 i, k; WORD32 num_time_slots = qmf_bank->num_time_slots; WORD32 analysis_buffer[4 * NO_ANALYSIS_CHANNELS]; WORD32 *filter_states = qmf_bank->core_samples_buffer_32; WORD32 *fp1, *fp2, *tmp; WORD32 *filter_1; WORD32 *filter_2; WORD32 *filt_ptr; WORD32 start_slot = 2; if (ldsbr_present) { qmf_bank->filter_pos_32 += (qmf_dec_tables_ptr->qmf_c_ldsbr_mps - qmf_bank->analy_win_coeff_32); qmf_bank->analy_win_coeff_32 = qmf_dec_tables_ptr->qmf_c_ldsbr_mps; } else { qmf_bank->filter_pos_32 += (ixheaacd_ldmps_polyphase_filter_coeff_fix - qmf_bank->analy_win_coeff_32); qmf_bank->analy_win_coeff_32 = (WORD32 *)ixheaacd_ldmps_polyphase_filter_coeff_fix; } filter_1 = qmf_bank->filter_pos_32; filter_2 = filter_1 + qmf_bank->no_channels; sbr_scale_factor->st_lb_scale = 0; sbr_scale_factor->lb_scale = -10; sbr_scale_factor->lb_scale = -9; if (qmf_bank->no_channels != 64) { qmf_bank->cos_twiddle = (WORD16 *)qmf_dec_tables_ptr->sbr_sin_cos_twiddle_l32; qmf_bank->alt_sin_twiddle = (WORD16 *)qmf_dec_tables_ptr->sbr_alt_sin_twiddle_l32; } else { qmf_bank->cos_twiddle = (WORD16 *)qmf_dec_tables_ptr->sbr_sin_cos_twiddle_l64; qmf_bank->alt_sin_twiddle = (WORD16 *)qmf_dec_tables_ptr->sbr_alt_sin_twiddle_l64; } qmf_bank->t_cos = (WORD16 *)qmf_dec_tables_ptr->ixheaacd_sbr_t_cos_sin_l32_eld; fp1 = qmf_bank->anal_filter_states_32; fp2 = qmf_bank->anal_filter_states_32 + qmf_bank->no_channels; filter_2 = qmf_bank->filter_2_32; fp1 = qmf_bank->fp1_anal_32; fp2 = qmf_bank->fp2_anal_32; for (i = start_slot; i < num_time_slots + start_slot; i++) { for (k = 0; k < qmf_bank->no_channels; k++) filter_states[qmf_bank->no_channels - 1 - k] = time_sample_buf[ch_fac * k]; if (ldsbr_present) { ixheaacd_sbr_qmfanal32_winadd_eld_32(fp1, fp2, filter_1, filter_2, analysis_buffer); } else { ixheaacd_sbr_qmfanal32_winadd_eld_mps(fp1, fp2, filter_1, filter_2, analysis_buffer); } time_sample_buf += qmf_bank->no_channels * ch_fac; filter_states -= qmf_bank->no_channels; if (filter_states < qmf_bank->anal_filter_states_32) { filter_states = qmf_bank->anal_filter_states_32 + ((qmf_bank->no_channels * 10) - qmf_bank->no_channels); } tmp = fp1; fp1 = fp2; fp2 = tmp; filter_1 += qmf_bank->no_channels; filter_2 += qmf_bank->no_channels; filt_ptr = filter_1; filter_1 = filter_2; filter_2 = filt_ptr; if (filter_2 > (qmf_bank->analy_win_coeff_32 + (qmf_bank->no_channels * 10))) { filter_1 = (WORD32 *)qmf_bank->analy_win_coeff_32; filter_2 = (WORD32 *)qmf_bank->analy_win_coeff_32 + qmf_bank->no_channels; } ixheaacd_fwd_modulation(analysis_buffer, qmf_real[i], qmf_imag[i], qmf_bank, qmf_dec_tables_ptr, 1); } qmf_bank->filter_pos_32 = filter_1; qmf_bank->core_samples_buffer_32 = filter_states; qmf_bank->fp1_anal_32 = fp1; qmf_bank->fp2_anal_32 = fp2; qmf_bank->filter_2_32 = filter_2; } VOID ixheaacd_inv_modulation_lp(WORD32 *qmf_real, WORD16 *filter_states, ia_sbr_qmf_filter_bank_struct *syn_qmf, ia_qmf_dec_tables_struct *qmf_dec_tables_ptr) { WORD32 L = syn_qmf->no_channels; const WORD32 M = (L >> 1); WORD32 *dct_in = qmf_real; WORD32 time_out[2 * NO_SYNTHESIS_CHANNELS]; WORD32 *ptime_out = &time_out[0]; if (L == 64) ixheaacd_dct2_64(dct_in, ptime_out, qmf_dec_tables_ptr, filter_states + M); else ixheaacd_dct2_32(dct_in, time_out, qmf_dec_tables_ptr, filter_states); filter_states[3 * M] = 0; } VOID ixheaacd_inv_emodulation(WORD32 *qmf_real, ia_sbr_qmf_filter_bank_struct *syn_qmf, ia_qmf_dec_tables_struct *qmf_dec_tables_ptr) { if (syn_qmf->no_channels == 64) ixheaacd_cos_sin_mod(qmf_real, syn_qmf, qmf_dec_tables_ptr->w_32, qmf_dec_tables_ptr->dig_rev_table2_32); else ixheaacd_cos_sin_mod(qmf_real, syn_qmf, qmf_dec_tables_ptr->w_16, qmf_dec_tables_ptr->dig_rev_table4_16); } VOID ixheaacd_esbr_radix4bfly(const WORD32 *w, WORD32 *x, WORD32 index1, WORD32 index) { int i; WORD32 l1, l2, h2, fft_jmp; WORD32 xt0_0, yt0_0, xt1_0, yt1_0, xt2_0, yt2_0; WORD32 xh0_0, xh1_0, xh20_0, xh21_0, xl0_0, xl1_0, xl20_0, xl21_0; WORD32 x_0, x_1, x_l1_0, x_l1_1, x_l2_0, x_l2_1; WORD32 x_h2_0, x_h2_1; WORD32 si10, si20, si30, co10, co20, co30; WORD64 mul_1, mul_2, mul_3, mul_4, mul_5, mul_6; WORD64 mul_7, mul_8, mul_9, mul_10, mul_11, mul_12; const WORD32 *w_ptr = w; WORD32 i1; h2 = index << 1; l1 = index << 2; l2 = (index << 2) + (index << 1); fft_jmp = 6 * (index); for (i1 = 0; i1 < index1; i1++) { for (i = 0; i < index; i++) { si10 = (*w_ptr++); co10 = (*w_ptr++); si20 = (*w_ptr++); co20 = (*w_ptr++); si30 = (*w_ptr++); co30 = (*w_ptr++); x_0 = x[0]; x_h2_0 = x[h2]; x_l1_0 = x[l1]; x_l2_0 = x[l2]; xh0_0 = ixheaacd_add32_sat(x_0, x_l1_0); xl0_0 = ixheaacd_sub32_sat(x_0, x_l1_0); xh20_0 = ixheaacd_add32_sat(x_h2_0, x_l2_0); xl20_0 = ixheaacd_sub32_sat(x_h2_0, x_l2_0); x[0] = ixheaacd_add32_sat(xh0_0, xh20_0); xt0_0 = ixheaacd_sub32_sat(xh0_0, xh20_0); x_1 = x[1]; x_h2_1 = x[h2 + 1]; x_l1_1 = x[l1 + 1]; x_l2_1 = x[l2 + 1]; xh1_0 = ixheaacd_add32_sat(x_1, x_l1_1); xl1_0 = ixheaacd_sub32_sat(x_1, x_l1_1); xh21_0 = ixheaacd_add32_sat(x_h2_1, x_l2_1); xl21_0 = ixheaacd_sub32_sat(x_h2_1, x_l2_1); x[1] = ixheaacd_add32_sat(xh1_0, xh21_0); yt0_0 = ixheaacd_sub32_sat(xh1_0, xh21_0); xt1_0 = ixheaacd_add32_sat(xl0_0, xl21_0); xt2_0 = ixheaacd_sub32_sat(xl0_0, xl21_0); yt2_0 = ixheaacd_add32_sat(xl1_0, xl20_0); yt1_0 = ixheaacd_sub32_sat(xl1_0, xl20_0); mul_11 = ixheaacd_mult64(xt2_0, co30); mul_3 = ixheaacd_mult64(yt2_0, si30); x[l2] = (WORD32)((mul_3 + mul_11) >> 32) << RADIXSHIFT; mul_5 = ixheaacd_mult64(xt2_0, si30); mul_9 = ixheaacd_mult64(yt2_0, co30); x[l2 + 1] = (WORD32)((mul_9 - mul_5) >> 32) << RADIXSHIFT; mul_12 = ixheaacd_mult64(xt0_0, co20); mul_2 = ixheaacd_mult64(yt0_0, si20); x[l1] = (WORD32)((mul_2 + mul_12) >> 32) << RADIXSHIFT; mul_6 = ixheaacd_mult64(xt0_0, si20); mul_8 = ixheaacd_mult64(yt0_0, co20); x[l1 + 1] = (WORD32)((mul_8 - mul_6) >> 32) << RADIXSHIFT; mul_4 = ixheaacd_mult64(xt1_0, co10); mul_1 = ixheaacd_mult64(yt1_0, si10); x[h2] = (WORD32)((mul_1 + mul_4) >> 32) << RADIXSHIFT; mul_10 = ixheaacd_mult64(xt1_0, si10); mul_7 = ixheaacd_mult64(yt1_0, co10); x[h2 + 1] = (WORD32)((mul_7 - mul_10) >> 32) << RADIXSHIFT; x += 2; } x += fft_jmp; w_ptr = w_ptr - fft_jmp; } } VOID ixheaacd_esbr_postradixcompute2(WORD32 *ptr_y, WORD32 *ptr_x, const WORD32 *pdig_rev_tbl, WORD32 npoints) { WORD32 i, k; WORD32 h2; WORD32 x_0, x_1, x_2, x_3; WORD32 x_4, x_5, x_6, x_7; WORD32 x_8, x_9, x_a, x_b, x_c, x_d, x_e, x_f; WORD32 n00, n10, n20, n30, n01, n11, n21, n31; WORD32 n02, n12, n22, n32, n03, n13, n23, n33; WORD32 *x2, *x0; WORD32 *y0, *y1, *y2, *y3; y0 = ptr_y; y2 = ptr_y + (WORD32)npoints; x0 = ptr_x; x2 = ptr_x + (WORD32)(npoints >> 1); y1 = y0 + (WORD32)(npoints >> 2); y3 = y2 + (WORD32)(npoints >> 2); for (k = 0; k < 2; k++) { for (i = 0; i> 1; i += 8) { h2 = *pdig_rev_tbl++ >> 2; x_0 = *x0++; x_1 = *x0++; x_2 = *x0++; x_3 = *x0++; x_4 = *x0++; x_5 = *x0++; x_6 = *x0++; x_7 = *x0++; n00 = ixheaacd_add32_sat(x_0, x_2); n01 = ixheaacd_add32_sat(x_1, x_3); n20 = ixheaacd_sub32_sat(x_0, x_2); n21 = ixheaacd_sub32_sat(x_1, x_3); n10 = ixheaacd_add32_sat(x_4, x_6); n11 = ixheaacd_add32_sat(x_5, x_7); n30 = ixheaacd_sub32_sat(x_4, x_6); n31 = ixheaacd_sub32_sat(x_5, x_7); y0[h2] = n00; y0[h2 + 1] = n01; y1[h2] = n10; y1[h2 + 1] = n11; y2[h2] = n20; y2[h2 + 1] = n21; y3[h2] = n30; y3[h2 + 1] = n31; x_8 = *x2++; x_9 = *x2++; x_a = *x2++; x_b = *x2++; x_c = *x2++; x_d = *x2++; x_e = *x2++; x_f = *x2++; n02 = ixheaacd_add32_sat(x_8, x_a); n03 = ixheaacd_add32_sat(x_9, x_b); n22 = ixheaacd_sub32_sat(x_8, x_a); n23 = ixheaacd_sub32_sat(x_9, x_b); n12 = ixheaacd_add32_sat(x_c, x_e); n13 = ixheaacd_add32_sat(x_d, x_f); n32 = ixheaacd_sub32_sat(x_c, x_e); n33 = ixheaacd_sub32_sat(x_d, x_f); y0[h2 + 2] = n02; y0[h2 + 3] = n03; y1[h2 + 2] = n12; y1[h2 + 3] = n13; y2[h2 + 2] = n22; y2[h2 + 3] = n23; y3[h2 + 2] = n32; y3[h2 + 3] = n33; } x0 += (WORD32)npoints >> 1; x2 += (WORD32)npoints >> 1; } } VOID ixheaacd_esbr_postradixcompute4(WORD32 *ptr_y, WORD32 *ptr_x, const WORD32 *p_dig_rev_tbl, WORD32 npoints) { WORD32 i, k; WORD32 h2; WORD32 xh0_0, xh1_0, xl0_0, xl1_0; WORD32 xh0_1, xh1_1, xl0_1, xl1_1; WORD32 x_0, x_1, x_2, x_3; WORD32 xh0_2, xh1_2, xl0_2, xl1_2, xh0_3, xh1_3, xl0_3, xl1_3; WORD32 x_4, x_5, x_6, x_7; WORD32 x_8, x_9, x_a, x_b, x_c, x_d, x_e, x_f; WORD32 n00, n10, n20, n30, n01, n11, n21, n31; WORD32 n02, n12, n22, n32, n03, n13, n23, n33; WORD32 *x2, *x0; WORD32 *y0, *y1, *y2, *y3; y0 = ptr_y; y2 = ptr_y + (WORD32)npoints; x0 = ptr_x; x2 = ptr_x + (WORD32)(npoints >> 1); y1 = y0 + (WORD32)(npoints >> 1); y3 = y2 + (WORD32)(npoints >> 1); for (k = 0; k < 2; k++) { for (i = 0; i> 1; i += 8) { h2 = *p_dig_rev_tbl++ >> 2; x_0 = *x0++; x_1 = *x0++; x_2 = *x0++; x_3 = *x0++; x_4 = *x0++; x_5 = *x0++; x_6 = *x0++; x_7 = *x0++; xh0_0 = ixheaacd_add32_sat(x_0, x_4); xh1_0 = ixheaacd_add32_sat(x_1, x_5); xl0_0 = ixheaacd_sub32_sat(x_0, x_4); xl1_0 = ixheaacd_sub32_sat(x_1, x_5); xh0_1 = ixheaacd_add32_sat(x_2, x_6); xh1_1 = ixheaacd_add32_sat(x_3, x_7); xl0_1 = ixheaacd_sub32_sat(x_2, x_6); xl1_1 = ixheaacd_sub32_sat(x_3, x_7); n00 = ixheaacd_add32_sat(xh0_0, xh0_1); n01 = ixheaacd_add32_sat(xh1_0, xh1_1); n10 = ixheaacd_add32_sat(xl0_0, xl1_1); n11 = ixheaacd_sub32_sat(xl1_0, xl0_1); n20 = ixheaacd_sub32_sat(xh0_0, xh0_1); n21 = ixheaacd_sub32_sat(xh1_0, xh1_1); n30 = ixheaacd_sub32_sat(xl0_0, xl1_1); n31 = ixheaacd_add32_sat(xl1_0, xl0_1); y0[h2] = n00; y0[h2 + 1] = n01; y1[h2] = n10; y1[h2 + 1] = n11; y2[h2] = n20; y2[h2 + 1] = n21; y3[h2] = n30; y3[h2 + 1] = n31; x_8 = *x2++; x_9 = *x2++; x_a = *x2++; x_b = *x2++; x_c = *x2++; x_d = *x2++; x_e = *x2++; x_f = *x2++; xh0_2 = ixheaacd_add32_sat(x_8, x_c); xh1_2 = ixheaacd_add32_sat(x_9, x_d); xl0_2 = ixheaacd_sub32_sat(x_8, x_c); xl1_2 = ixheaacd_sub32_sat(x_9, x_d); xh0_3 = ixheaacd_add32_sat(x_a, x_e); xh1_3 = ixheaacd_add32_sat(x_b, x_f); xl0_3 = ixheaacd_sub32_sat(x_a, x_e); xl1_3 = ixheaacd_sub32_sat(x_b, x_f); n02 = ixheaacd_add32_sat(xh0_2, xh0_3); n03 = ixheaacd_add32_sat(xh1_2, xh1_3); n12 = ixheaacd_add32_sat(xl0_2, xl1_3); n13 = ixheaacd_sub32_sat(xl1_2, xl0_3); n22 = ixheaacd_sub32_sat(xh0_2, xh0_3); n23 = ixheaacd_sub32_sat(xh1_2, xh1_3); n32 = ixheaacd_sub32_sat(xl0_2, xl1_3); n33 = ixheaacd_add32_sat(xl1_2, xl0_3); y0[h2 + 2] = n02; y0[h2 + 3] = n03; y1[h2 + 2] = n12; y1[h2 + 3] = n13; y2[h2 + 2] = n22; y2[h2 + 3] = n23; y3[h2 + 2] = n32; y3[h2 + 3] = n33; } x0 += (WORD32)npoints >> 1; x2 += (WORD32)npoints >> 1; } } VOID ixheaacd_esbr_cos_sin_mod(WORD32 *subband, ia_sbr_qmf_filter_bank_struct *qmf_bank, WORD32 *p_twiddle, WORD32 *p_dig_rev_tbl) { WORD32 z; WORD32 temp[128]; WORD32 scaleshift = 0; WORD32 re2, re3; WORD32 wim, wre; WORD32 i, M_2; WORD32 M = ixheaacd_shr32(qmf_bank->no_channels, 1); const WORD32 *p_sin; const WORD32 *p_sin_cos; WORD32 subband_tmp[128]; WORD32 re; WORD32 im; WORD32 *psubband, *psubband1; WORD32 *psubband_t, *psubband1_t; WORD32 *psubband2, *psubband12; WORD32 *psubband_t2, *psubband1_t2; M_2 = ixheaacd_shr32(M, 1); p_sin_cos = qmf_bank->esbr_cos_twiddle; psubband = &subband[0]; psubband1 = &subband[2 * M - 1]; psubband_t = subband_tmp; psubband1_t = &subband_tmp[2 * M - 1]; psubband2 = &subband[64]; psubband12 = &subband[2 * M - 1 + 64]; psubband_t2 = &subband_tmp[64]; psubband1_t2 = &subband_tmp[2 * M - 1 + 64]; for (i = (M_2 >> 1) - 1; i >= 0; i--) { re = *psubband++; im = *psubband1--; wim = *p_sin_cos++; wre = *p_sin_cos++; *psubband_t++ = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wre), ixheaacd_mult64(im, wim))) >> 32); *psubband_t++ = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wre), ixheaacd_mult64(re, wim))) >> 32); re = *psubband2++; im = *psubband12--; *psubband_t2++ = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wim), ixheaacd_mult64(re, wre))) >> 32); *psubband_t2++ = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wim), ixheaacd_mult64(im, wre))) >> 32); re = *psubband1--; im = *psubband++; wim = *p_sin_cos++; wre = *p_sin_cos++; *psubband1_t-- = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wre), ixheaacd_mult64(re, wim))) >> 32); *psubband1_t-- = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wre), ixheaacd_mult64(im, wim))) >> 32); re = *psubband12--; im = *psubband2++; *psubband1_t2-- = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wim), ixheaacd_mult64(im, wre))) >> 32); *psubband1_t2-- = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wim), ixheaacd_mult64(re, wre))) >> 32); re = *psubband++; im = *psubband1--; wim = *p_sin_cos++; wre = *p_sin_cos++; *psubband_t++ = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wre), ixheaacd_mult64(im, wim))) >> 32); *psubband_t++ = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wre), ixheaacd_mult64(re, wim))) >> 32); re = *psubband2++; im = *psubband12--; *psubband_t2++ = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wim), ixheaacd_mult64(re, wre))) >> 32); *psubband_t2++ = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wim), ixheaacd_mult64(im, wre))) >> 32); re = *psubband1--; im = *psubband++; wim = *p_sin_cos++; wre = *p_sin_cos++; *psubband1_t-- = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wre), ixheaacd_mult64(re, wim))) >> 32); *psubband1_t-- = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wre), ixheaacd_mult64(im, wim))) >> 32); re = *psubband12--; im = *psubband2++; *psubband1_t2-- = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wim), ixheaacd_mult64(im, wre))) >> 32); *psubband1_t2-- = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wim), ixheaacd_mult64(re, wre))) >> 32); } if (M == 32) { ixheaacd_esbr_radix4bfly(p_twiddle, subband_tmp, 1, 8); ixheaacd_esbr_radix4bfly(p_twiddle + 48, subband_tmp, 4, 2); ixheaacd_esbr_postradixcompute2(subband, subband_tmp, p_dig_rev_tbl, 32); ixheaacd_esbr_radix4bfly(p_twiddle, &subband_tmp[64], 1, 8); ixheaacd_esbr_radix4bfly(p_twiddle + 48, &subband_tmp[64], 4, 2); ixheaacd_esbr_postradixcompute2(&subband[64], &subband_tmp[64], p_dig_rev_tbl, 32); } else if (M == 16) { ixheaacd_esbr_radix4bfly(p_twiddle, subband_tmp, 1, 4); ixheaacd_esbr_postradixcompute4(subband, subband_tmp, p_dig_rev_tbl, 16); ixheaacd_esbr_radix4bfly(p_twiddle, &subband_tmp[64], 1, 4); ixheaacd_esbr_postradixcompute4(&subband[64], &subband_tmp[64], p_dig_rev_tbl, 16); } else if (M == 12) { for (z = 0; z < (qmf_bank->no_channels >> 1); z++) { temp[z] = subband_tmp[2 * z]; temp[12 + z] = subband_tmp[2 * z + 1]; } ixheaacd_complex_fft_p3(temp, &temp[12], 12, -1, &scaleshift); for (z = 0; z < (qmf_bank->no_channels >> 1); z++) { subband[2 * z] = temp[z]; subband[2 * z + 1] = temp[z + 12]; } scaleshift = 0; for (z = 0; z < (qmf_bank->no_channels >> 1); z++) { temp[z] = subband_tmp[64 + 2 * z]; temp[12 + z] = subband_tmp[64 + 2 * z + 1]; } ixheaacd_complex_fft_p3(temp, &temp[12], 12, -1, &scaleshift); for (z = 0; z < (qmf_bank->no_channels >> 1); z++) { subband[64 + 2 * z] = temp[z]; subband[64 + 2 * z + 1] = temp[z + 12]; } } else { for (z = 0; z < (qmf_bank->no_channels >> 1); z++) { temp[z] = subband_tmp[2 * z]; temp[8 + z] = subband_tmp[2 * z + 1]; } (*ixheaacd_complex_fft_p2)(temp, &temp[8], 8, -1, &scaleshift); for (z = 0; z < (qmf_bank->no_channels >> 1); z++) { subband[2 * z] = temp[z] << scaleshift; subband[2 * z + 1] = temp[z + 8] << scaleshift; } scaleshift = 0; for (z = 0; z < (qmf_bank->no_channels >> 1); z++) { temp[z] = subband_tmp[64 + 2 * z]; temp[8 + z] = subband_tmp[64 + 2 * z + 1]; } (*ixheaacd_complex_fft_p2)(temp, &temp[8], 8, -1, &scaleshift); for (z = 0; z < (qmf_bank->no_channels >> 1); z++) { subband[64 + 2 * z] = temp[z] << scaleshift; subband[64 + 2 * z + 1] = temp[8 + z] << scaleshift; } } psubband = &subband[0]; psubband1 = &subband[2 * M - 1]; re = *psubband1; *psubband = *psubband >> 1; psubband++; *psubband1 = ixheaacd_negate32_sat(*psubband >> 1); psubband1--; p_sin = qmf_bank->esbr_alt_sin_twiddle; wim = *p_sin++; wre = *p_sin++; im = *psubband1; *psubband1-- = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wre), ixheaacd_mult64(im, wim))) >> 32); *psubband++ = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wre), ixheaacd_mult64(re, wim))) >> 32); psubband2 = &subband[64]; psubband12 = &subband[2 * M - 1 + 64]; re = *psubband12; *psubband12-- = ixheaacd_negate32_sat(*psubband2 >> 1); *psubband2 = psubband2[1] >> 1; psubband2++; im = *psubband12; *psubband2++ = ixheaacd_negate32_sat((WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wre), ixheaacd_mult64(im, wim))) >> 32)); *psubband12-- = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(re, wim), ixheaacd_mult64(im, wre))) >> 32); for (i = (M_2 - 2); i >= 0; i--) { im = psubband[0]; re = psubband[1]; re2 = *psubband1; *psubband++ = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wim), ixheaacd_mult64(im, wre))) >> 32); *psubband1-- = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wim), ixheaacd_mult64(re, wre))) >> 32); im = psubband2[0]; re = psubband2[1]; re3 = *psubband12; *psubband12-- = ixheaacd_negate32_sat((WORD32)( (ixheaacd_add64(ixheaacd_mult64(re, wim), ixheaacd_mult64(im, wre))) >> 32)); *psubband2++ = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(re, wre), ixheaacd_mult64(im, wim))) >> 32); wim = *p_sin++; wre = *p_sin++; im = psubband1[0]; *psubband1-- = (WORD32)( (ixheaacd_add64(ixheaacd_mult64(re2, wre), ixheaacd_mult64(im, wim))) >> 32); *psubband++ = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, wre), ixheaacd_mult64(re2, wim))) >> 32); im = psubband12[0]; *psubband2++ = ixheaacd_negate32_sat((WORD32)( (ixheaacd_add64(ixheaacd_mult64(re3, wre), ixheaacd_mult64(im, wim))) >> 32)); *psubband12-- = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(re3, wim), ixheaacd_mult64(im, wre))) >> 32); } } VOID ixheaacd_esbr_fwd_modulation( const WORD32 *time_sample_buf, WORD32 *real_subband, WORD32 *imag_subband, ia_sbr_qmf_filter_bank_struct *qmf_bank, ia_qmf_dec_tables_struct *qmf_dec_tables_ptr) { WORD32 i; const WORD32 *time_sample_buf1 = &time_sample_buf[2 * qmf_bank->no_channels - 1]; WORD32 temp1, temp2; WORD32 *t_real_subband = real_subband; WORD32 *t_imag_subband = imag_subband; const WORD32 *tcos; for (i = qmf_bank->no_channels - 1; i >= 0; i--) { temp1 = ixheaacd_shr32(*time_sample_buf++, HQ_SHIFT_64); temp2 = ixheaacd_shr32(*time_sample_buf1--, HQ_SHIFT_64); *t_real_subband++ = ixheaacd_sub32_sat(temp1, temp2); *t_imag_subband++ = ixheaacd_add32_sat(temp1, temp2); } ixheaacd_esbr_cos_sin_mod(real_subband, qmf_bank, qmf_dec_tables_ptr->esbr_w_16, qmf_dec_tables_ptr->dig_rev_table4_16); tcos = qmf_bank->esbr_t_cos; for (i = (qmf_bank->usb - qmf_bank->lsb - 1); i >= 0; i--) { WORD32 cosh, sinh; WORD32 re, im; re = *real_subband; im = *imag_subband; cosh = *tcos++; sinh = *tcos++; *real_subband++ = (WORD32)((ixheaacd_add64(ixheaacd_mult64(re, cosh), ixheaacd_mult64(im, sinh))) >> 31); *imag_subband++ = (WORD32)((ixheaacd_sub64_sat(ixheaacd_mult64(im, cosh), ixheaacd_mult64(re, sinh))) >> 31); } } VOID ixheaacd_sbr_qmfsyn64_winadd(WORD16 *tmp1, WORD16 *tmp2, WORD16 *inp1, WORD16 *sample_buffer, FLAG shift, WORD32 ch_fac) { WORD32 k; WORD32 rounding_fac = 0x8000; rounding_fac = rounding_fac >> shift; for (k = 0; k < 64; k++) { WORD32 syn_out = rounding_fac; syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp1[0 + k], inp1[k + 0])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp1[256 + k], inp1[k + 128])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp1[512 + k], inp1[k + 256])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp1[768 + k], inp1[k + 384])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp1[1024 + k], inp1[k + 512])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp2[128 + k], inp1[k + 64])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp2[384 + k], inp1[k + 192])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp2[640 + k], inp1[k + 320])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp2[896 + k], inp1[k + 448])); syn_out = ixheaacd_add32_sat( syn_out, ixheaacd_mult16x16in32(tmp2[1152 + k], inp1[k + 576])); sample_buffer[ch_fac * k] = (ixheaacd_shl32_sat(syn_out, shift) >> 16); } } VOID ixheaacd_esbr_qmfsyn64_winadd(WORD32 *tmp1, WORD32 *tmp2, WORD32 *inp1, WORD32 *sample_buffer, WORD32 ch_fac) { WORD32 k; for (k = 0; k < 64; k++) { WORD64 syn_out = 0; syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[0 + k], inp1[k + 0])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[256 + k], inp1[k + 128])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[512 + k], inp1[k + 256])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[768 + k], inp1[k + 384])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[1024 + k], inp1[k + 512])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[128 + k], inp1[k + 64])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[384 + k], inp1[k + 192])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[640 + k], inp1[k + 320])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[896 + k], inp1[k + 448])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[1152 + k], inp1[k + 576])); sample_buffer[ch_fac * k] = (WORD32)(syn_out >> 31); } } VOID ixheaacd_esbr_qmfsyn32_winadd(WORD32 *tmp1, WORD32 *tmp2, WORD32 *inp1, WORD32 *sample_buffer, WORD32 ch_fac) { WORD32 k; for (k = 0; k < 32; k++) { WORD64 syn_out = 0; syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[0 + k], inp1[2 * (k + 0)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[128 + k], inp1[2 * (k + 64)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[256 + k], inp1[2 * (k + 128)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[384 + k], inp1[2 * (k + 192)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp1[512 + k], inp1[2 * (k + 256)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[64 + k], inp1[2 * (k + 32)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[192 + k], inp1[2 * (k + 96)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[320 + k], inp1[2 * (k + 160)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[448 + k], inp1[2 * (k + 224)])); syn_out = ixheaacd_add64(syn_out, ixheaacd_mult64(tmp2[576 + k], inp1[2 * (k + 288)])); sample_buffer[ch_fac * k] = (WORD32)(syn_out >> 31); } } VOID ixheaacd_shiftrountine(WORD32 *qmf_real, WORD32 *qmf_imag, WORD32 len, WORD32 common_shift) { WORD32 treal, timag; WORD32 j; if (common_shift < 0) { WORD32 cshift = -common_shift; cshift = ixheaacd_min32(cshift, 31); for (j = len - 1; j >= 0; j--) { treal = *qmf_real; timag = *qmf_imag; treal = (ixheaacd_shr32(treal, cshift)); timag = (ixheaacd_shr32(timag, cshift)); *qmf_real++ = treal; *qmf_imag++ = timag; } } else { for (j = len - 1; j >= 0; j--) { treal = (ixheaacd_shl32_sat(*qmf_real, common_shift)); timag = (ixheaacd_shl32_sat(*qmf_imag, common_shift)); *qmf_real++ = treal; *qmf_imag++ = timag; } } } VOID ixheaacd_shiftrountine_with_rnd(WORD32 *qmf_real, WORD32 *qmf_imag, WORD16 *filter_states, WORD32 len, WORD32 shift) { WORD16 *filter_states_rev = filter_states + len; WORD32 treal, timag; WORD32 j; for (j = (len - 1); j >= 0; j -= 2) { WORD32 r1, r2, i1, i2; i2 = qmf_imag[j]; r2 = qmf_real[j]; r1 = *qmf_real++; i1 = *qmf_imag++; timag = ixheaacd_add32_sat(i1, r1); timag = (ixheaacd_shl32_sat(timag, shift)); filter_states_rev[j] = ixheaacd_round16(timag); treal = ixheaacd_sub32_sat(i2, r2); treal = (ixheaacd_shl32_sat(treal, shift)); filter_states[j] = ixheaacd_round16(treal); treal = ixheaacd_sub32_sat(i1, r1); treal = (ixheaacd_shl32_sat(treal, shift)); *filter_states++ = ixheaacd_round16(treal); timag = ixheaacd_add32_sat(i2, r2); ; timag = (ixheaacd_shl32_sat(timag, shift)); *filter_states_rev++ = ixheaacd_round16(timag); } } VOID ixheaacd_shiftrountine_with_rnd_eld(WORD32 *qmf_real, WORD32 *qmf_imag, WORD16 *filter_states, WORD32 len, WORD32 shift) { WORD16 *filter_states_rev = filter_states + len; WORD32 treal, timag; WORD32 j; for (j = (len - 1); j >= 0; j -= 2) { WORD32 r1, r2, i1, i2; i2 = qmf_imag[j]; r2 = qmf_real[j]; r1 = *qmf_real++; i1 = *qmf_imag++; timag = ixheaacd_negate32_sat(ixheaacd_add32_sat(i1, r1)); timag = (ixheaacd_shl32_sat(timag, shift)); filter_states_rev[j] = ixheaacd_round16(timag); treal = ixheaacd_sub32_sat(r2, i2); treal = (ixheaacd_shl32_sat(treal, shift)); filter_states[j] = ixheaacd_round16(treal); treal = ixheaacd_sub32_sat(r1, i1); treal = (ixheaacd_shl32_sat(treal, shift)); *filter_states++ = ixheaacd_round16(treal); timag = ixheaacd_negate32_sat(ixheaacd_add32_sat(i2, r2)); timag = (ixheaacd_shl32_sat(timag, shift)); *filter_states_rev++ = ixheaacd_round16(timag); } } VOID ixheaacd_shiftrountine_with_rnd_hq(WORD32 *qmf_real, WORD32 *qmf_imag, WORD32 *filter_states, WORD32 len, WORD32 shift) { WORD32 *filter_states_rev = filter_states + len; WORD32 treal, timag; WORD32 j; for (j = (len - 1); j >= 0; j -= 2) { WORD32 r1, r2, i1, i2; i2 = qmf_imag[j]; r2 = qmf_real[j]; r1 = *qmf_real++; i1 = *qmf_imag++; timag = ixheaacd_add32_sat(i1, r1); timag = (ixheaacd_shl32_sat(timag, shift)); filter_states_rev[j] = timag; treal = ixheaacd_sub32_sat(i2, r2); treal = (ixheaacd_shl32_sat(treal, shift)); filter_states[j] = treal; treal = ixheaacd_sub32_sat(i1, r1); treal = (ixheaacd_shl32_sat(treal, shift)); *filter_states++ = treal; timag = ixheaacd_add32_sat(i2, r2); timag = (ixheaacd_shl32_sat(timag, shift)); *filter_states_rev++ = timag; } } VOID ixheaacd_radix4bfly(const WORD16 *w, WORD32 *x, WORD32 index1, WORD32 index) { int i; WORD32 l1, l2, h2, fft_jmp; WORD32 xt0_0, yt0_0, xt1_0, yt1_0, xt2_0, yt2_0; WORD32 xh0_0, xh1_0, xh20_0, xh21_0, xl0_0, xl1_0, xl20_0, xl21_0; WORD32 x_0, x_1, x_l1_0, x_l1_1, x_l2_0, x_l2_1; WORD32 x_h2_0, x_h2_1; WORD16 si10, si20, si30, co10, co20, co30; WORD32 mul_1, mul_2, mul_3, mul_4, mul_5, mul_6; WORD32 mul_7, mul_8, mul_9, mul_10, mul_11, mul_12; const WORD16 *w_ptr = w; WORD32 i1; h2 = index << 1; l1 = index << 2; l2 = (index << 2) + (index << 1); fft_jmp = 6 * (index); for (i1 = 0; i1 < index1; i1++) { for (i = 0; i < index; i++) { si10 = (*w_ptr++); co10 = (*w_ptr++); si20 = (*w_ptr++); co20 = (*w_ptr++); si30 = (*w_ptr++); co30 = (*w_ptr++); x_0 = x[0]; x_h2_0 = x[h2]; x_l1_0 = x[l1]; x_l2_0 = x[l2]; xh0_0 = ixheaacd_add32_sat(x_0, x_l1_0); xl0_0 = ixheaacd_sub32_sat(x_0, x_l1_0); xh20_0 = ixheaacd_add32_sat(x_h2_0, x_l2_0); xl20_0 = ixheaacd_sub32_sat(x_h2_0, x_l2_0); x[0] = ixheaacd_add32_sat(xh0_0, xh20_0); xt0_0 = ixheaacd_sub32_sat(xh0_0, xh20_0); x_1 = x[1]; x_h2_1 = x[h2 + 1]; x_l1_1 = x[l1 + 1]; x_l2_1 = x[l2 + 1]; xh1_0 = ixheaacd_add32_sat(x_1, x_l1_1); xl1_0 = ixheaacd_sub32_sat(x_1, x_l1_1); xh21_0 = ixheaacd_add32_sat(x_h2_1, x_l2_1); xl21_0 = ixheaacd_sub32_sat(x_h2_1, x_l2_1); x[1] = ixheaacd_add32_sat(xh1_0, xh21_0); yt0_0 = ixheaacd_sub32_sat(xh1_0, xh21_0); xt1_0 = ixheaacd_add32_sat(xl0_0, xl21_0); xt2_0 = ixheaacd_sub32_sat(xl0_0, xl21_0); yt2_0 = ixheaacd_add32_sat(xl1_0, xl20_0); yt1_0 = ixheaacd_sub32_sat(xl1_0, xl20_0); mul_11 = ixheaacd_mult32x16in32(xt2_0, co30); mul_3 = ixheaacd_mult32x16in32(yt2_0, si30); x[l2] = (mul_3 + mul_11) << RADIXSHIFT; mul_5 = ixheaacd_mult32x16in32(xt2_0, si30); mul_9 = ixheaacd_mult32x16in32(yt2_0, co30); x[l2 + 1] = (mul_9 - mul_5) << RADIXSHIFT; mul_12 = ixheaacd_mult32x16in32(xt0_0, co20); mul_2 = ixheaacd_mult32x16in32(yt0_0, si20); x[l1] = (mul_2 + mul_12) << RADIXSHIFT; mul_6 = ixheaacd_mult32x16in32(xt0_0, si20); mul_8 = ixheaacd_mult32x16in32(yt0_0, co20); x[l1 + 1] = (mul_8 - mul_6) << RADIXSHIFT; mul_4 = ixheaacd_mult32x16in32(xt1_0, co10); mul_1 = ixheaacd_mult32x16in32(yt1_0, si10); x[h2] = (mul_1 + mul_4) << RADIXSHIFT; mul_10 = ixheaacd_mult32x16in32(xt1_0, si10); mul_7 = ixheaacd_mult32x16in32(yt1_0, co10); x[h2 + 1] = (mul_7 - mul_10) << RADIXSHIFT; x += 2; } x += fft_jmp; w_ptr = w_ptr - fft_jmp; } } VOID ixheaacd_postradixcompute4(WORD32 *ptr_y, WORD32 *ptr_x, const WORD32 *p_dig_rev_tbl, WORD32 npoints) { WORD32 i, k; WORD32 h2; WORD32 xh0_0, xh1_0, xl0_0, xl1_0; WORD32 xh0_1, xh1_1, xl0_1, xl1_1; WORD32 x_0, x_1, x_2, x_3; WORD32 xh0_2, xh1_2, xl0_2, xl1_2, xh0_3, xh1_3, xl0_3, xl1_3; WORD32 x_4, x_5, x_6, x_7; WORD32 x_8, x_9, x_a, x_b, x_c, x_d, x_e, x_f; WORD32 n00, n10, n20, n30, n01, n11, n21, n31; WORD32 n02, n12, n22, n32, n03, n13, n23, n33; WORD32 *x2, *x0; WORD32 *y0, *y1, *y2, *y3; y0 = ptr_y; y2 = ptr_y + (WORD32)npoints; x0 = ptr_x; x2 = ptr_x + (WORD32)(npoints >> 1); y1 = y0 + (WORD32)(npoints >> 1); y3 = y2 + (WORD32)(npoints >> 1); for (k = 0; k < 2; k++) { for (i = 0; i> 1; i += 8) { h2 = *p_dig_rev_tbl++ >> 2; x_0 = *x0++; x_1 = *x0++; x_2 = *x0++; x_3 = *x0++; x_4 = *x0++; x_5 = *x0++; x_6 = *x0++; x_7 = *x0++; xh0_0 = ixheaacd_add32_sat(x_0, x_4); xh1_0 = ixheaacd_add32_sat(x_1, x_5); xl0_0 = ixheaacd_sub32_sat(x_0, x_4); xl1_0 = ixheaacd_sub32_sat(x_1, x_5); xh0_1 = ixheaacd_add32_sat(x_2, x_6); xh1_1 = ixheaacd_add32_sat(x_3, x_7); xl0_1 = ixheaacd_sub32_sat(x_2, x_6); xl1_1 = ixheaacd_sub32_sat(x_3, x_7); n00 = ixheaacd_add32_sat(xh0_0, xh0_1); n01 = ixheaacd_add32_sat(xh1_0, xh1_1); n10 = ixheaacd_add32_sat(xl0_0, xl1_1); n11 = ixheaacd_sub32_sat(xl1_0, xl0_1); n20 = ixheaacd_sub32_sat(xh0_0, xh0_1); n21 = ixheaacd_sub32_sat(xh1_0, xh1_1); n30 = ixheaacd_sub32_sat(xl0_0, xl1_1); n31 = ixheaacd_add32_sat(xl1_0, xl0_1); y0[h2] = n00; y0[h2 + 1] = n01; y1[h2] = n10; y1[h2 + 1] = n11; y2[h2] = n20; y2[h2 + 1] = n21; y3[h2] = n30; y3[h2 + 1] = n31; x_8 = *x2++; x_9 = *x2++; x_a = *x2++; x_b = *x2++; x_c = *x2++; x_d = *x2++; x_e = *x2++; x_f = *x2++; xh0_2 = ixheaacd_add32_sat(x_8, x_c); xh1_2 = ixheaacd_add32_sat(x_9, x_d); xl0_2 = ixheaacd_sub32_sat(x_8, x_c); xl1_2 = ixheaacd_sub32_sat(x_9, x_d); xh0_3 = ixheaacd_add32_sat(x_a, x_e); xh1_3 = ixheaacd_add32_sat(x_b, x_f); xl0_3 = ixheaacd_sub32_sat(x_a, x_e); xl1_3 = ixheaacd_sub32_sat(x_b, x_f); n02 = ixheaacd_add32_sat(xh0_2, xh0_3); n03 = ixheaacd_add32_sat(xh1_2, xh1_3); n12 = ixheaacd_add32_sat(xl0_2, xl1_3); n13 = ixheaacd_sub32_sat(xl1_2, xl0_3); n22 = ixheaacd_sub32_sat(xh0_2, xh0_3); n23 = ixheaacd_sub32_sat(xh1_2, xh1_3); n32 = ixheaacd_sub32_sat(xl0_2, xl1_3); n33 = ixheaacd_add32_sat(xl1_2, xl0_3); y0[h2 + 2] = n02; y0[h2 + 3] = n03; y1[h2 + 2] = n12; y1[h2 + 3] = n13; y2[h2 + 2] = n22; y2[h2 + 3] = n23; y3[h2 + 2] = n32; y3[h2 + 3] = n33; } x0 += (WORD32)npoints >> 1; x2 += (WORD32)npoints >> 1; } } VOID ixheaacd_postradixcompute2(WORD32 *ptr_y, WORD32 *ptr_x, const WORD32 *pdig_rev_tbl, WORD32 npoints) { WORD32 i, k; WORD32 h2; WORD32 x_0, x_1, x_2, x_3; WORD32 x_4, x_5, x_6, x_7; WORD32 x_8, x_9, x_a, x_b, x_c, x_d, x_e, x_f; WORD32 n00, n10, n20, n30, n01, n11, n21, n31; WORD32 n02, n12, n22, n32, n03, n13, n23, n33; WORD32 *x2, *x0; WORD32 *y0, *y1, *y2, *y3; y0 = ptr_y; y2 = ptr_y + (WORD32)npoints; x0 = ptr_x; x2 = ptr_x + (WORD32)(npoints >> 1); y1 = y0 + (WORD32)(npoints >> 2); y3 = y2 + (WORD32)(npoints >> 2); for (k = 0; k < 2; k++) { for (i = 0; i> 1; i += 8) { h2 = *pdig_rev_tbl++ >> 2; x_0 = *x0++; x_1 = *x0++; x_2 = *x0++; x_3 = *x0++; x_4 = *x0++; x_5 = *x0++; x_6 = *x0++; x_7 = *x0++; n00 = ixheaacd_add32_sat(x_0, x_2); n01 = ixheaacd_add32_sat(x_1, x_3); n20 = ixheaacd_sub32_sat(x_0, x_2); n21 = ixheaacd_sub32_sat(x_1, x_3); n10 = ixheaacd_add32_sat(x_4, x_6); n11 = ixheaacd_add32_sat(x_5, x_7); n30 = ixheaacd_sub32_sat(x_4, x_6); n31 = ixheaacd_sub32_sat(x_5, x_7); y0[h2] = n00; y0[h2 + 1] = n01; y1[h2] = n10; y1[h2 + 1] = n11; y2[h2] = n20; y2[h2 + 1] = n21; y3[h2] = n30; y3[h2 + 1] = n31; x_8 = *x2++; x_9 = *x2++; x_a = *x2++; x_b = *x2++; x_c = *x2++; x_d = *x2++; x_e = *x2++; x_f = *x2++; n02 = ixheaacd_add32_sat(x_8, x_a); n03 = ixheaacd_add32_sat(x_9, x_b); n22 = ixheaacd_sub32_sat(x_8, x_a); n23 = ixheaacd_sub32_sat(x_9, x_b); n12 = ixheaacd_add32_sat(x_c, x_e); n13 = ixheaacd_add32_sat(x_d, x_f); n32 = ixheaacd_sub32_sat(x_c, x_e); n33 = ixheaacd_sub32_sat(x_d, x_f); y0[h2 + 2] = n02; y0[h2 + 3] = n03; y1[h2 + 2] = n12; y1[h2 + 3] = n13; y2[h2 + 2] = n22; y2[h2 + 3] = n23; y3[h2 + 2] = n32; y3[h2 + 3] = n33; } x0 += (WORD32)npoints >> 1; x2 += (WORD32)npoints >> 1; } } #endif