/****************************************************************************** * * * 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 "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_common_rom.h" #include "ixheaacd_basic_funcs.h" #include "ixheaacd_defines.h" #include "ixheaacd_aac_rom.h" #include "ixheaacd_bitbuffer.h" #include "ixheaacd_intrinsics.h" #include "ixheaacd_pulsedata.h" #include "ixheaacd_pns.h" #include "ixheaacd_drc_data_struct.h" #include "ixheaacd_lt_predict.h" #include "ixheaacd_channelinfo.h" #include "ixheaacd_drc_dec.h" #include "ixheaacd_block.h" #include "ixheaacd_channel.h" #include "ixheaacd_basic_op.h" #include "ixheaacd_tns.h" #include "ixheaacd_sbrdecoder.h" #include "ixheaacd_error_codes.h" #include "ixheaacd_audioobjtypes.h" #include "ixheaacd_latmdemux.h" #include "ixheaacd_aacdec.h" static PLATFORM_INLINE WORD32 ixheaacd_shr32_drc(WORD32 a, WORD32 b) { WORD32 out_val; b = ((UWORD32)(b << 24) >> 24); if (b == 0) { out_val = a; } else if (b >= 31) { if (a < 0) out_val = -1; else out_val = 0; } else { a += (1 << (b - 1)); out_val = (WORD32)a >> b; } return out_val; } static PLATFORM_INLINE WORD32 ixheaacd_mult32x16in32_drc(WORD32 a, WORD16 b) { WORD32 result; WORD64 temp_result; temp_result = (WORD64)a * (WORD64)b; if (temp_result < (WORD64)MIN_32) result = MIN_32; else if (temp_result > (WORD64)MAX_32) result = MAX_32; else result = (WORD32)(temp_result); return (result); } static PLATFORM_INLINE WORD32 ixheaacd_mac32x16in32_drc(WORD32 a, WORD32 b, WORD16 c) { WORD32 acc; acc = ixheaacd_mult32x16in32_drc(b, c); acc = ixheaacd_add32_sat(a, acc); return acc; } WORD32 ixheaacd_cnt_leading_ones(WORD32 a); VOID ixheaacd_huff_sfb_table(WORD32 it_bit_buff, WORD16 *huff_index, WORD32 *len, const UWORD16 *code_book_tbl, const UWORD32 *idx_table) { UWORD32 temp = 0; UWORD32 temp1 = 0; WORD32 found = 0; UWORD32 mask = 0x80000000; WORD32 leading_ones; WORD32 max_len; WORD32 ixheaacd_drc_offset = 0; WORD32 length; UWORD32 code_word; WORD32 len_end; max_len = code_book_tbl[0]; mask = mask - (1 << (31 - max_len)); mask = mask << 1; temp = (UWORD32)((it_bit_buff & mask)); len_end = code_book_tbl[0]; leading_ones = ixheaacd_cnt_leading_ones(temp); do { ixheaacd_drc_offset = (idx_table[leading_ones] >> 20) & 0x1ff; length = code_book_tbl[ixheaacd_drc_offset + 1] & 0x1f; code_word = idx_table[leading_ones] & 0xfffff; temp1 = temp >> (32 - length); if (temp1 <= code_word) { ixheaacd_drc_offset = ixheaacd_drc_offset - (code_word - temp1); found = 1; } else { len_end = len_end + ((idx_table[leading_ones] >> 29) & 0x7); leading_ones = len_end; } } while (!found); *huff_index = code_book_tbl[ixheaacd_drc_offset + 1] >> 5; *len = length; } VOID ixheaacd_inverse_quantize(WORD32 *x_invquant, WORD no_band, WORD32 *ixheaacd_pow_table_Q13, WORD8 *scratch_in) { WORD32 j; WORD32 temp; WORD32 q_abs; for (j = no_band - 1; j >= 0; j--) { q_abs = *scratch_in++; temp = (ixheaacd_pow_table_Q13[q_abs]); *x_invquant++ = -temp; } } static PLATFORM_INLINE WORD ixheaacd_huffman_dec_word1( ia_bit_buf_struct *it_bit_buff, WORD32 *spec_coef, WORD16 *offsets, WORD no_bands, WORD group_len, const UWORD16 *code_book_tbl, WORD32 *ixheaacd_pow_table_Q13, const UWORD32 *idx_table) { WORD32 sp1, sp2; WORD32 flush_cw; WORD32 i, value, norm_val, off; WORD idx, grp_idx; WORD32 out1, out2; WORD32 err_code = 0; WORD len_idx = 0; UWORD8 *ptr_read_next = it_bit_buff->ptr_read_next; WORD32 bit_pos = it_bit_buff->bit_pos; WORD16 index; WORD32 length; WORD32 read_word; WORD32 increment; read_word = ixheaacd_aac_showbits_32(ptr_read_next, it_bit_buff->cnt_bits, &increment); ptr_read_next += increment; do { len_idx = offsets[1] - offsets[0]; grp_idx = group_len; do { spec_coef = spec_coef + offsets[0]; idx = len_idx; do { { UWORD32 read_word1; read_word1 = read_word << bit_pos; ixheaacd_huff_sfb_table(read_word1, &index, &length, code_book_tbl, idx_table); bit_pos += length; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); } out1 = index / 17; out2 = index - out1 * 17; flush_cw = read_word << bit_pos; sp1 = out1; sp2 = out2; if (out1) { if (flush_cw & 0x80000000) { out1 = -out1; } bit_pos++; flush_cw = (WORD32)flush_cw << 1; } if (out2) { bit_pos++; if (flush_cw & 0x80000000) { out2 = -out2; } } ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); if (sp1 == 16) { i = 4; value = ixheaacd_extu(read_word, bit_pos, 23); value = value | 0xfffffe00; norm_val = ixheaacd_norm32(value); i += (norm_val - 22); bit_pos += (norm_val - 21); ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); off = ixheaacd_extu(read_word, bit_pos, 32 - i); bit_pos += i; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); i = off + ((WORD32)1 << i); if (i <= IQ_TABLE_SIZE_HALF) i = ixheaacd_pow_table_Q13[i]; else { err_code |= ixheaacd_inv_quant(&i, ixheaacd_pow_table_Q13); } if (out1 < 0) { out1 = -i; } else { out1 = i; } *spec_coef++ = out1; } else { if (out1 <= 0) { out1 = -out1; out1 = ixheaacd_pow_table_Q13[out1]; *spec_coef++ = -out1; } else { out1 = ixheaacd_pow_table_Q13[out1]; *spec_coef++ = out1; } } if (sp2 == 16) { i = 4; value = ixheaacd_extu(read_word, bit_pos, 23); value = value | 0xfffffe00; norm_val = ixheaacd_norm32(value); i += (norm_val - 22); bit_pos += (norm_val - 21); ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); off = ixheaacd_extu(read_word, bit_pos, 32 - i); bit_pos += i; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); i = off + ((WORD32)1 << i); if (i <= IQ_TABLE_SIZE_HALF) i = ixheaacd_pow_table_Q13[i]; else { err_code |= ixheaacd_inv_quant(&i, ixheaacd_pow_table_Q13); } if (out2 < 0) { out2 = -i; } else { out2 = i; } *spec_coef++ = out2; } else { if (out2 <= 0) { out2 = -out2; out2 = ixheaacd_pow_table_Q13[out2]; *spec_coef++ = -out2; } else { out2 = ixheaacd_pow_table_Q13[out2]; *spec_coef++ = out2; } } idx -= 2; } while (idx != 0); spec_coef += (MAX_BINS_SHORT - offsets[1]); grp_idx--; } while (grp_idx != 0); offsets++; spec_coef -= (MAX_BINS_SHORT * group_len); no_bands--; } while (no_bands >= 0); ptr_read_next = ptr_read_next - increment; ixheaacd_aac_read_byte_corr1(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); it_bit_buff->bit_pos = bit_pos; it_bit_buff->ptr_read_next = ptr_read_next; return err_code; } static PLATFORM_INLINE WORD ixheaacd_huffman_dec_word2_11( ia_bit_buf_struct *it_bit_buff, WORD32 width, const UWORD16 *code_book_tbl, WORD32 *x_invquant, WORD32 *ixheaacd_pow_table_Q13, WORD8 *ptr_scratch, const UWORD32 *idx_table) { WORD32 sp1, sp2; WORD32 flush_cw; WORD32 i, value, norm_val, off; WORD idx; WORD32 out1, out2; WORD32 err_code = 0; WORD16 index; WORD32 length; UWORD8 *ptr_read_next = it_bit_buff->ptr_read_next; WORD32 bit_pos = it_bit_buff->bit_pos; WORD32 read_word; WORD32 increment; read_word = ixheaacd_aac_showbits_32(ptr_read_next, it_bit_buff->cnt_bits, &increment); ptr_read_next += increment; for (idx = width; idx != 0; idx -= 2) { { UWORD32 read_word1; read_word1 = read_word << bit_pos; ixheaacd_huff_sfb_table(read_word1, &index, &length, code_book_tbl, idx_table); bit_pos += length; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); } flush_cw = read_word << bit_pos; out1 = index / 17; out2 = index - out1 * 17; sp1 = out1; if (out1) { if (flush_cw & 0x80000000) { out1 = -out1; } bit_pos++; flush_cw = (WORD32)flush_cw << 1; } sp2 = out2; if (out2) { bit_pos++; if (flush_cw & 0x80000000) { out2 = -out2; } } ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); if (sp1 == 16) { i = 4; value = ixheaacd_extu(read_word, bit_pos, 23); value = value | 0xfffffe00; norm_val = ixheaacd_norm32(value); i += (norm_val - 22); bit_pos += (norm_val - 21); ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); off = ixheaacd_extu(read_word, bit_pos, 32 - i); bit_pos += i; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); value = *ptr_scratch++; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); i = off + ((WORD32)1 << i); i += value; if (i <= IQ_TABLE_SIZE_HALF) i = ixheaacd_pow_table_Q13[i]; else { err_code |= ixheaacd_inv_quant(&i, ixheaacd_pow_table_Q13); } if (out1 < 0) { i = -i; } *x_invquant++ = i; } else { WORD8 temp = *ptr_scratch++; if (out1 <= 0) { out1 = temp - out1; out1 = ixheaacd_pow_table_Q13[out1]; *x_invquant++ = -out1; } else { out1 += temp; out1 = ixheaacd_pow_table_Q13[out1]; *x_invquant++ = out1; } } if (sp2 == 16) { i = 4; value = ixheaacd_extu(read_word, bit_pos, 23); value = value | 0xfffffe00; norm_val = ixheaacd_norm32(value); i += (norm_val - 22); bit_pos += (norm_val - 21); ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); off = ixheaacd_extu(read_word, bit_pos, 32 - i); bit_pos += i; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); value = *ptr_scratch++; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); i = off + ((WORD32)1 << i); i += value; if (i <= IQ_TABLE_SIZE_HALF) i = ixheaacd_pow_table_Q13[i]; else { err_code |= ixheaacd_inv_quant(&i, ixheaacd_pow_table_Q13); } if (out2 < 0) { i = -i; } *x_invquant++ = i; } else { WORD8 temp = *ptr_scratch++; if (out2 <= 0) { out2 = temp - out2; out2 = ixheaacd_pow_table_Q13[out2]; *x_invquant++ = -out2; } else { out2 += temp; out2 = ixheaacd_pow_table_Q13[out2]; *x_invquant++ = out2; } } } ptr_read_next = ptr_read_next - increment; ixheaacd_aac_read_byte_corr1(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); it_bit_buff->ptr_read_next = ptr_read_next; it_bit_buff->bit_pos = bit_pos; return err_code; } static PLATFORM_INLINE WORD ixheaacd_huffman_dec_quad( ia_bit_buf_struct *it_bit_buff, WORD32 *spec_coef, WORD16 *offsets, WORD no_bands, WORD group_len, const UWORD16 *code_book_tbl, WORD32 *ixheaacd_pow_table_Q13, WORD32 tbl_sign, const UWORD32 *idx_table) { WORD idx, grp_idx; WORD idx_len; WORD32 *spec_orig; WORD16 index, length; UWORD8 *ptr_read_next = it_bit_buff->ptr_read_next; WORD32 bit_pos = it_bit_buff->bit_pos; WORD32 read_word; WORD32 increment; read_word = ixheaacd_aac_showbits_32(ptr_read_next, it_bit_buff->cnt_bits, &increment); ptr_read_next += increment; spec_orig = spec_coef; do { idx_len = offsets[1] - offsets[0]; grp_idx = group_len; do { spec_coef = spec_coef + offsets[0]; idx = idx_len; do { UWORD32 read_word1; read_word1 = read_word << bit_pos; ixheaacd_huffman_decode(read_word1, &index, &length, code_book_tbl, idx_table); bit_pos += length; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); if (tbl_sign) { WORD32 temp_word; WORD32 w, x, y, z; temp_word = read_word << bit_pos; w = index / 27; index = index - w * 27; x = index / 9; index = index - x * 9; y = index / 3; z = index - y * 3; if (w) { w = ixheaacd_pow_table_Q13[w]; if (temp_word & 0x80000000) w = -w; temp_word <<= 1; bit_pos++; } *spec_coef++ = w; if (x) { x = ixheaacd_pow_table_Q13[x]; if (temp_word & 0x80000000) x = -x; temp_word <<= 1; bit_pos++; } *spec_coef++ = x; if (y) { y = ixheaacd_pow_table_Q13[y]; if (temp_word & 0x80000000) y = -y; temp_word <<= 1; bit_pos++; } *spec_coef++ = y; if (z) { z = ixheaacd_pow_table_Q13[z]; if (temp_word & 0x80000000) z = -z; temp_word <<= 1; bit_pos++; } *spec_coef++ = z; } else { WORD32 w, x, y, z; w = index / 27 - 1; index = index - (w + 1) * 27; x = index / 9 - 1; index = index - (x + 1) * 9; y = index / 3 - 1; z = index - ((y + 1) * 3) - 1; if (w < 0) { w = -w; w = ixheaacd_pow_table_Q13[w]; w = -w; } else w = ixheaacd_pow_table_Q13[w]; *spec_coef++ = w; if (x < 0) { x = -x; x = ixheaacd_pow_table_Q13[x]; x = -x; } else x = ixheaacd_pow_table_Q13[x]; *spec_coef++ = x; if (y < 0) { y = -y; y = ixheaacd_pow_table_Q13[y]; y = -y; } else y = ixheaacd_pow_table_Q13[y]; *spec_coef++ = y; if (z < 0) { z = -z; z = ixheaacd_pow_table_Q13[z]; z = -z; } else z = ixheaacd_pow_table_Q13[z]; *spec_coef++ = z; } ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); idx -= 4; } while (idx != 0); spec_coef += (MAX_BINS_SHORT - offsets[1]); grp_idx--; } while (grp_idx != 0); offsets++; spec_coef = spec_orig; no_bands--; } while (no_bands >= 0); ptr_read_next = ptr_read_next - increment; ixheaacd_aac_read_byte_corr1(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); it_bit_buff->ptr_read_next = ptr_read_next; it_bit_buff->bit_pos = bit_pos; return 0; } static PLATFORM_INLINE WORD ixheaacd_huffman_dec_word2_quad( ia_bit_buf_struct *it_bit_buff, WORD32 width, const UWORD16 *code_book_tbl, WORD32 *x_invquant, WORD32 *ixheaacd_pow_table_Q13, WORD8 *ptr_scratch, WORD32 tbl_sign, const UWORD32 *idx_table) { WORD idx; WORD16 index, length; UWORD8 *ptr_read_next = it_bit_buff->ptr_read_next; WORD32 bit_pos = it_bit_buff->bit_pos; WORD32 read_word; WORD32 increment; read_word = ixheaacd_aac_showbits_32(ptr_read_next, it_bit_buff->cnt_bits, &increment); ptr_read_next += increment; for (idx = width; idx != 0; idx -= 4) { WORD32 ampres, ampres1; WORD32 ampres2, ampres3; UWORD32 read_word1; read_word1 = read_word << bit_pos; ixheaacd_huffman_decode(read_word1, &index, &length, code_book_tbl, idx_table); bit_pos += length; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); if (tbl_sign) { WORD32 w, x, y, z; WORD32 ampout0, ampout1, ampout2, ampout3; WORD32 temp_word; temp_word = read_word << bit_pos; w = index / 27; index = index - w * 27; x = index / 9; index = index - x * 9; y = index / 3; z = index - y * 3; ampout0 = w + *ptr_scratch++; ampout0 = ixheaacd_pow_table_Q13[ampout0]; if (w) { if (temp_word & 0x80000000) { ampout0 = -ampout0; } temp_word = temp_word << 1; bit_pos++; } else { ampout0 = -ampout0; } ampout1 = x + *ptr_scratch++; ampout1 = ixheaacd_pow_table_Q13[ampout1]; if (x) { if (temp_word & 0x80000000) { ampout1 = -ampout1; } temp_word = temp_word << 1; bit_pos++; } else { ampout1 = -ampout1; } ampout2 = y + *ptr_scratch++; ampout2 = ixheaacd_pow_table_Q13[ampout2]; if (y) { if (temp_word & 0x80000000) { ampout2 = -ampout2; } temp_word = temp_word << 1; bit_pos++; } else { ampout2 = -ampout2; } ampout3 = z + *ptr_scratch++; ampout3 = ixheaacd_pow_table_Q13[ampout3]; if (z) { if (temp_word & 0x80000000) { ampout3 = -ampout3; } temp_word = temp_word << 1; bit_pos++; } else { ampout3 = -ampout3; } *x_invquant++ = ampout0; *x_invquant++ = ampout1; *x_invquant++ = ampout2; *x_invquant++ = ampout3; } else { WORD32 w, x, y, z; ampres = *ptr_scratch++; ampres1 = *ptr_scratch++; ampres2 = *ptr_scratch++; ampres3 = *ptr_scratch++; w = index / 27 - 1; index = index - (w + 1) * 27; x = index / 9 - 1; index = index - (x + 1) * 9; y = index / 3 - 1; z = index - ((y + 1) * 3) - 1; if (w <= 0) { ampres = ampres - w; ampres = ixheaacd_pow_table_Q13[ampres]; ampres = -ampres; } else { ampres += w; ampres = ixheaacd_pow_table_Q13[ampres]; } if (x <= 0) { ampres1 = ampres1 - x; ampres1 = ixheaacd_pow_table_Q13[ampres1]; ampres1 = -ampres1; } else { ampres1 += x; ampres1 = ixheaacd_pow_table_Q13[ampres1]; } if (y <= 0) { ampres2 = ampres2 - y; ampres2 = ixheaacd_pow_table_Q13[ampres2]; ampres2 = -ampres2; } else { ampres2 += y; ampres2 = ixheaacd_pow_table_Q13[ampres2]; } if (z <= 0) { ampres3 = ampres3 - z; ampres3 = ixheaacd_pow_table_Q13[ampres3]; ampres3 = -ampres3; } else { ampres3 += z; ampres3 = ixheaacd_pow_table_Q13[ampres3]; } *x_invquant++ = ampres; *x_invquant++ = ampres1; *x_invquant++ = ampres2; *x_invquant++ = ampres3; } ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); } ptr_read_next = ptr_read_next - increment; ixheaacd_aac_read_byte_corr1(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); it_bit_buff->ptr_read_next = ptr_read_next; it_bit_buff->bit_pos = bit_pos; return 0; } static PLATFORM_INLINE WORD ixheaacd_huffman_dec_pair( ia_bit_buf_struct *it_bit_buff, WORD32 *spec_coef, WORD16 *offsets, WORD no_bands, WORD group_len, const UWORD16 *code_book_tbl, WORD32 *ixheaacd_pow_table_Q13, WORD32 tbl_sign, const UWORD32 *idx_table, WORD32 huff_mode) { WORD idx, grp_idx; WORD len_idx; WORD16 index, length; WORD32 y, z; WORD32 *spec_orig = spec_coef; UWORD8 *ptr_read_next = it_bit_buff->ptr_read_next; WORD32 bit_pos = it_bit_buff->bit_pos; WORD32 read_word; WORD32 increment; read_word = ixheaacd_aac_showbits_32(ptr_read_next, it_bit_buff->cnt_bits, &increment); ptr_read_next += increment; do { len_idx = offsets[1] - offsets[0]; grp_idx = group_len; do { spec_coef += offsets[0]; idx = len_idx; do { UWORD32 read_word1; read_word1 = read_word << bit_pos; ixheaacd_huffman_decode(read_word1, &index, &length, code_book_tbl, idx_table); bit_pos += length; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); if (tbl_sign) { WORD32 temp_word; temp_word = read_word << bit_pos; y = index / huff_mode; z = index - huff_mode * y; if (y) { y = ixheaacd_pow_table_Q13[y]; if (temp_word & 0x80000000) y = -y; temp_word = temp_word << 1; bit_pos++; } *spec_coef++ = y; if (z) { z = ixheaacd_pow_table_Q13[z]; if (temp_word & 0x80000000) { z = -z; } temp_word <<= 1; bit_pos++; } *spec_coef++ = z; } else { y = (index / huff_mode) - 4; z = index - ((y + 4) * huff_mode) - 4; if (y < 0) { y = -y; y = ixheaacd_pow_table_Q13[y]; y = -y; } else y = ixheaacd_pow_table_Q13[y]; if (z < 0) { z = -z; z = ixheaacd_pow_table_Q13[z]; z = -z; } else z = ixheaacd_pow_table_Q13[z]; *spec_coef++ = y; *spec_coef++ = z; } ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); idx -= 2; } while (idx != 0); spec_coef += (MAX_BINS_SHORT - offsets[1]); grp_idx--; } while (grp_idx != 0); offsets++; spec_coef = spec_orig; no_bands--; } while (no_bands >= 0); ptr_read_next = ptr_read_next - increment; ixheaacd_aac_read_byte_corr1(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); it_bit_buff->ptr_read_next = ptr_read_next; it_bit_buff->bit_pos = bit_pos; return 0; } static PLATFORM_INLINE WORD ixheaacd_huffman_dec_word2_pair( ia_bit_buf_struct *it_bit_buff, WORD32 width, const UWORD16 *code_book_tbl, WORD32 *x_invquant, WORD32 *ixheaacd_pow_table_Q13, WORD8 *ptr_scratch, WORD32 tbl_sign, const UWORD32 *idx_table, WORD32 huff_mode) { WORD32 ampres; WORD idx; WORD16 index, length; UWORD8 *ptr_read_next = it_bit_buff->ptr_read_next; WORD32 bit_pos = it_bit_buff->bit_pos; WORD32 read_word; WORD32 increment; read_word = ixheaacd_aac_showbits_32(ptr_read_next, it_bit_buff->cnt_bits, &increment); ptr_read_next += increment; for (idx = width; idx != 0; idx -= 2) { { UWORD32 read_word1; read_word1 = read_word << bit_pos; ixheaacd_huffman_decode(read_word1, &index, &length, code_book_tbl, idx_table); bit_pos += length; ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); } if (tbl_sign) { WORD32 out0, out1, temp_word; WORD32 ampout0, ampout1; ampout0 = *ptr_scratch++; ampout1 = *ptr_scratch++; out0 = index / huff_mode; out1 = index - huff_mode * out0; ampout0 += out0; ampout0 = ixheaacd_pow_table_Q13[ampout0]; ampout1 += out1; ampout1 = ixheaacd_pow_table_Q13[ampout1]; temp_word = read_word << bit_pos; if (out0) { if (temp_word & 0x80000000) { ampout0 = -(ampout0); } bit_pos++; temp_word = temp_word << 1; } else { ampout0 = -(ampout0); } if (out1) { if (temp_word & 0x80000000) { ampout1 = -(ampout1); } bit_pos++; } else { ampout1 = -(ampout1); } ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); *x_invquant++ = ampout0; *x_invquant++ = ampout1; } else { WORD32 y, z; y = (index / huff_mode) - 4; z = index - ((y + 4) * huff_mode) - 4; ampres = *ptr_scratch++; if (y <= 0) { ampres = ampres - y; ampres = ixheaacd_pow_table_Q13[ampres]; *x_invquant++ = -ampres; } else { ampres += y; *x_invquant++ = ixheaacd_pow_table_Q13[ampres]; } ampres = *ptr_scratch++; if (z <= 0) { ampres = ampres - z; ampres = ixheaacd_pow_table_Q13[ampres]; *x_invquant++ = -ampres; } else { ampres += z; *x_invquant++ = ixheaacd_pow_table_Q13[ampres]; } } ixheaacd_aac_read_byte_corr(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); } ptr_read_next = ptr_read_next - increment; ixheaacd_aac_read_byte_corr1(&ptr_read_next, &bit_pos, &read_word, it_bit_buff->ptr_bit_buf_end); it_bit_buff->ptr_read_next = ptr_read_next; it_bit_buff->bit_pos = bit_pos; return 0; } WORD ixheaacd_decode_huffman(ia_bit_buf_struct *it_bit_buff, WORD32 cb_no, WORD32 *spec_coef, WORD16 *sfb_offset, WORD start, WORD sfb, WORD group_len, ia_aac_dec_tables_struct *ptr_aac_tables) { WORD ret_val = 0; WORD start_bit_pos = it_bit_buff->bit_pos; UWORD8 *start_read_pos = it_bit_buff->ptr_read_next; const UWORD16 *cb_table = (UWORD16 *)(ptr_aac_tables->code_book[cb_no]); WORD32 huff_mode; const UWORD32 *idx_table = (UWORD32 *)(ptr_aac_tables->index_table[cb_no]); WORD32 *pow_table = (WORD32 *)ptr_aac_tables->pstr_block_tables->ixheaacd_pow_table_Q13; WORD32 no_bands = sfb - start - 1; WORD16 *band_offset = sfb_offset + start; if (cb_no == 11) { const UWORD32 *idx_table = ptr_aac_tables->pstr_huffmann_tables->idx_table_hf11; const UWORD16 *cb_table = ptr_aac_tables->pstr_huffmann_tables->input_table_cb11; ret_val = ixheaacd_huffman_dec_word1(it_bit_buff, spec_coef, band_offset, no_bands, group_len, cb_table, pow_table, idx_table); } else if (cb_no <= 4) { WORD32 tbl_sign = 0; if (cb_no > 2) { tbl_sign = 1; } ret_val = ixheaacd_huffman_dec_quad(it_bit_buff, spec_coef, band_offset, no_bands, group_len, cb_table, pow_table, tbl_sign, idx_table); } else if (cb_no <= 10) { WORD32 tbl_sign = 0; huff_mode = 9; if (cb_no > 6) { if (cb_no > 8) huff_mode = 13; else huff_mode = 8; tbl_sign = 1; } ret_val = ixheaacd_huffman_dec_pair( it_bit_buff, spec_coef, band_offset, no_bands, group_len, cb_table, pow_table, tbl_sign, idx_table, huff_mode); } { WORD bits_cons; bits_cons = ((it_bit_buff->ptr_read_next - start_read_pos) << 3) + (it_bit_buff->bit_pos - start_bit_pos); it_bit_buff->cnt_bits -= bits_cons; } return ret_val; } WORD ixheaacd_huffman_dec_word2(ia_bit_buf_struct *it_bit_buff, WORD32 cb_no, WORD32 width, ia_aac_dec_tables_struct *ptr_aac_tables, WORD32 *x_invquant, WORD8 *scratch_ptr) { WORD ret_val = 0; WORD32 huff_mode; WORD start_bit_pos = it_bit_buff->bit_pos; WORD32 cnt_bits = it_bit_buff->cnt_bits; WORD32 *pow_table = (WORD32 *)ptr_aac_tables->pstr_block_tables->ixheaacd_pow_table_Q13; UWORD8 *start_read_pos = it_bit_buff->ptr_read_next; const UWORD16 *cb_table = (UWORD16 *)(ptr_aac_tables->code_book[cb_no]); const UWORD32 *idx_table = (UWORD32 *)(ptr_aac_tables->index_table[cb_no]); if (cb_no == 11) { const UWORD16 *cb_table = ptr_aac_tables->pstr_huffmann_tables->input_table_cb11; ret_val = ixheaacd_huffman_dec_word2_11( it_bit_buff, width, cb_table, x_invquant, pow_table, scratch_ptr, ptr_aac_tables->pstr_huffmann_tables->idx_table_hf11); } else if (cb_no <= 4) { WORD32 tbl_sign = 0; if (cb_no > 2) tbl_sign = 1; ret_val = ixheaacd_huffman_dec_word2_quad(it_bit_buff, width, cb_table, x_invquant, pow_table, scratch_ptr, tbl_sign, idx_table); } else if (cb_no <= 10) { WORD32 tbl_sign = 0; huff_mode = 9; if (cb_no > 6) { if (cb_no > 8) { huff_mode = 13; } else { huff_mode = 8; } tbl_sign = 1; } ret_val = ixheaacd_huffman_dec_word2_pair( it_bit_buff, width, cb_table, x_invquant, pow_table, scratch_ptr, tbl_sign, idx_table, huff_mode); } { WORD bits_cons; if (it_bit_buff->bit_pos <= 7) { bits_cons = ((it_bit_buff->ptr_read_next - start_read_pos) << 3) + (it_bit_buff->bit_pos - start_bit_pos); it_bit_buff->cnt_bits = cnt_bits - bits_cons; } else { it_bit_buff->ptr_read_next += (it_bit_buff->bit_pos) >> 3; it_bit_buff->bit_pos = it_bit_buff->bit_pos & 0x7; bits_cons = ((it_bit_buff->ptr_read_next - start_read_pos) << 3) + ((it_bit_buff->bit_pos - start_bit_pos)); it_bit_buff->cnt_bits = cnt_bits - bits_cons; } } return ret_val; } void ixheaacd_lap1_512_480(WORD32 *coef, WORD32 *prev, WORD16 *out, const WORD16 *window, WORD16 q_shift, WORD16 size, WORD16 stride) { WORD32 accu; WORD32 i; WORD16 rounding_fac = -0x2000; WORD32 *window_i = (WORD32 *)window; WORD16 *ptr_out1, *ptr_out2; WORD32 *pwin1, *pwin2; WORD32 *pCoef = &coef[size * 2 - 1 - 0]; pwin1 = &window_i[size - 1 - 0]; pwin2 = &window_i[size + 0]; ptr_out1 = &out[stride * (size - 1 - 0)]; ptr_out2 = &out[stride * (size + 0)]; for (i = 0; i < size; i++) { WORD32 win1, win2, coeff; WORD32 prev_data = *prev++; win1 = *pwin1--; coeff = *pCoef--; win2 = *pwin2++; accu = ixheaacd_sub32_sat( ixheaacd_shl32_dir_sat_limit(ixheaacd_mult32_shl(coeff, win1), q_shift), ixheaacd_mac32x16in32_shl(rounding_fac, win2, (WORD16)(prev_data))); accu = ixheaacd_add32_sat(accu, accu); accu = ixheaacd_add32_sat(accu, accu); *ptr_out1 = ixheaacd_shr32(accu, 16); ptr_out1 -= stride; accu = ixheaacd_sub32_sat( ixheaacd_shl32_dir_sat_limit( ixheaacd_mult32_shl(ixheaacd_negate32(coeff), win2), q_shift), ixheaacd_mac32x16in32_shl(rounding_fac, win1, (WORD16)(prev_data))); accu = ixheaacd_add32_sat(accu, accu); accu = ixheaacd_add32_sat(accu, accu); *ptr_out2 = ixheaacd_shr32(accu, 16); ptr_out2 += stride; } } VOID ixheaacd_over_lap_add1_dec(WORD32 *coef, WORD32 *prev, WORD16 *out, const WORD16 *window, WORD16 q_shift, WORD16 size, WORD16 ch_fac) { WORD32 accu; WORD32 i; WORD16 rounding_fac = -0x2000; for (i = 0; i < size; i++) { WORD16 window1, window2; window1 = window[2 * size - 2 * i - 1]; window2 = window[2 * size - 2 * i - 2]; accu = ixheaacd_sub32_sat( ixheaacd_shl32_dir_sat_limit( ixheaacd_mult32x16in32(coef[size * 2 - 1 - i], window2), q_shift), ixheaacd_mac32x16in32_drc(rounding_fac, prev[i], window1)); out[ch_fac * (size - i - 1)] = ixheaacd_shr32(ixheaacd_shl32_dir_sat_limit(accu, 2), 16); accu = ixheaacd_sub32_sat( ixheaacd_shl32_dir_sat_limit( ixheaacd_mult32x16in32(ixheaacd_negate32(coef[size * 2 - 1 - i]), window1), q_shift), ixheaacd_mac32x16in32_drc(rounding_fac, prev[i], window2)); out[ch_fac * (size + i)] = ixheaacd_shr32(ixheaacd_shl32_dir_sat_limit(accu, 2), 16); } } VOID ixheaacd_over_lap_add2_dec(WORD32 *coef, WORD32 *prev, WORD32 *out, const WORD16 *window, WORD16 q_shift, WORD16 size, WORD16 ch_fac) { WORD32 accu; WORD32 i; for (i = 0; i < size; i++) { accu = ixheaacd_sub32_sat( ixheaacd_mult32x16in32(coef[size + i], window[2 * i]), ixheaacd_mult32x16in32(prev[size - 1 - i], window[2 * i + 1])); out[ch_fac * i] = ixheaacd_shr32_drc(accu, 16 - (q_shift + 1)); } for (i = 0; i < size; i++) { accu = ixheaacd_sub32_sat( ixheaacd_mult32x16in32(ixheaacd_negate32_sat(coef[size * 2 - 1 - i]), window[2 * size - 2 * i - 1]), ixheaacd_mult32x16in32(prev[i], window[2 * size - 2 * i - 2])); out[ch_fac * (i + size)] = ixheaacd_shr32_drc(accu, 16 - (q_shift + 1)); } } VOID ixheaacd_process_single_scf(WORD32 scale_factor, WORD32 *x_invquant, WORD32 width, WORD32 *ptr_scale_table, WORD32 total_channels, WORD32 object_type, WORD32 aac_sf_data_resil_flag) { WORD32 j; WORD32 temp1; WORD32 q_factor; WORD32 buffer1; WORD16 scale_short; object_type = 0; aac_sf_data_resil_flag = 0; if (scale_factor < 24) { for (j = width; j > 0; j--) { *x_invquant++ = 0; } } else { WORD32 shift; if (total_channels > 2) q_factor = 34 - (scale_factor >> 2); else q_factor = 37 - (scale_factor >> 2); scale_short = ptr_scale_table[(scale_factor & 0x0003)]; shift = q_factor; if (shift > 0) { if (scale_short == (WORD16)0x8000) { for (j = width; j > 0; j--) { temp1 = *x_invquant; buffer1 = ixheaacd_mult32x16in32_shl_sat(temp1, scale_short); buffer1 = ixheaacd_shr32(buffer1, shift); *x_invquant++ = buffer1; } } else { for (j = width; j > 0; j--) { temp1 = *x_invquant; buffer1 = ixheaacd_mult32x16in32_shl(temp1, scale_short); buffer1 = ixheaacd_shr32(buffer1, shift); *x_invquant++ = buffer1; } } } else { shift = -shift; if (shift > 0) { if (scale_short == (WORD16)0x8000) { for (j = width; j > 0; j--) { temp1 = *x_invquant; temp1 = ixheaacd_shl32(temp1, shift - 1); buffer1 = ixheaacd_mult32x16in32_shl_sat(temp1, scale_short); buffer1 = ixheaacd_shl32(buffer1, 1); *x_invquant++ = buffer1; } } else { for (j = width; j > 0; j--) { temp1 = *x_invquant; temp1 = ixheaacd_shl32(temp1, shift - 1); buffer1 = ixheaacd_mult32x16in32_shl(temp1, scale_short); buffer1 = ixheaacd_shl32(buffer1, 1); *x_invquant++ = buffer1; } } } else { if (scale_short == (WORD16)0x8000) { for (j = width; j > 0; j--) { temp1 = *x_invquant; buffer1 = ixheaacd_mult32x16in32_shl_sat(temp1, scale_short); *x_invquant++ = buffer1; } } else { for (j = width; j > 0; j--) { temp1 = *x_invquant; buffer1 = ixheaacd_mult32x16in32_shl(temp1, scale_short); *x_invquant++ = buffer1; } } } } } } VOID ixheaacd_scale_factor_process_dec(WORD32 *x_invquant, WORD16 *scale_fact, WORD no_band, WORD8 *width, WORD32 *ptr_scale_table, WORD32 total_channels, WORD32 object_type, WORD32 aac_sf_data_resil_flag) { WORD32 i; WORD16 scale_factor; for (i = no_band - 1; i >= 0; i--) { scale_factor = *scale_fact++; ixheaacd_process_single_scf(scale_factor, x_invquant, *width, ptr_scale_table, total_channels, object_type, aac_sf_data_resil_flag); x_invquant += *width; width++; } } void ixheaacd_right_shift_block(WORD32 *p_spectrum, WORD32 length, WORD32 shift_val) { WORD32 i; WORD32 temp1, temp2; WORD32 *temp_ptr = &p_spectrum[0]; length = length >> 2; for (i = length - 1; i >= 0; i--) { temp1 = *temp_ptr; temp2 = *(temp_ptr + 1); *temp_ptr++ = temp1 >> shift_val; temp1 = *(temp_ptr + 1); *temp_ptr++ = temp2 >> shift_val; temp2 = *(temp_ptr + 1); *temp_ptr++ = temp1 >> shift_val; *temp_ptr++ = temp2 >> shift_val; } }