| /* ------------------------------------------------------------------ |
| * Copyright (C) 1998-2009 PacketVideo |
| * |
| * 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. |
| * ------------------------------------------------------------------- |
| */ |
| /**************************************************************************************** |
| Portions of this file are derived from the following 3GPP standard: |
| |
| 3GPP TS 26.173 |
| ANSI-C code for the Adaptive Multi-Rate - Wideband (AMR-WB) speech codec |
| Available from http://www.3gpp.org |
| |
| (C) 2007, 3GPP Organizational Partners (ARIB, ATIS, CCSA, ETSI, TTA, TTC) |
| Permission to distribute, modify and use this file under the standard license |
| terms listed above has been obtained from the copyright holder. |
| ****************************************************************************************/ |
| /* |
| ------------------------------------------------------------------------------ |
| |
| |
| |
| Filename: wb_syn_filt.cpp |
| |
| Date: 05/08/2004 |
| |
| ------------------------------------------------------------------------------ |
| REVISION HISTORY |
| |
| |
| Description: |
| |
| ------------------------------------------------------------------------------ |
| INPUT AND OUTPUT DEFINITIONS |
| |
| wb_syn_filt |
| |
| int16 a[], (i) Q12 : a[m+1] prediction coefficients |
| int16 m, (i) : order of LP filter |
| int16 x[], (i) : input signal |
| int16 y[], (o) : output signal |
| int16 lg, (i) : size of filtering |
| int16 mem[], (i/o) : memory associated with this filtering. |
| int16 update, (i) : 0=no update, 1=update of memory. |
| int16 y_buf[] |
| |
| Syn_filt_32 |
| |
| int16 a[], (i) Q12 : a[m+1] prediction coefficients |
| int16 m, (i) : order of LP filter |
| int16 exc[], (i) Qnew: excitation (exc[i] >> Qnew) |
| int16 Qnew, (i) : exc scaling = 0(min) to 8(max) |
| int16 sig_hi[], (o) /16 : synthesis high |
| int16 sig_lo[], (o) /16 : synthesis low |
| int16 lg (i) : size of filtering |
| |
| ------------------------------------------------------------------------------ |
| FUNCTION DESCRIPTION |
| |
| Do the synthesis filtering 1/A(z) 16 and 32-bits version |
| |
| ------------------------------------------------------------------------------ |
| REQUIREMENTS |
| |
| |
| ------------------------------------------------------------------------------ |
| REFERENCES |
| |
| ------------------------------------------------------------------------------ |
| PSEUDO-CODE |
| |
| ------------------------------------------------------------------------------ |
| */ |
| |
| |
| /*---------------------------------------------------------------------------- |
| ; INCLUDES |
| ----------------------------------------------------------------------------*/ |
| |
| |
| #include "pv_amr_wb_type_defs.h" |
| #include "pvamrwbdecoder_mem_funcs.h" |
| #include "pvamrwbdecoder_basic_op.h" |
| #include "pvamrwb_math_op.h" |
| #include "pvamrwbdecoder_cnst.h" |
| #include "pvamrwbdecoder_acelp.h" |
| |
| /*---------------------------------------------------------------------------- |
| ; MACROS |
| ; Define module specific macros here |
| ----------------------------------------------------------------------------*/ |
| |
| |
| /*---------------------------------------------------------------------------- |
| ; DEFINES |
| ; Include all pre-processor statements here. Include conditional |
| ; compile variables also. |
| ----------------------------------------------------------------------------*/ |
| |
| /*---------------------------------------------------------------------------- |
| ; EXTERNAL FUNCTION REFERENCES |
| ; Declare functions defined elsewhere and referenced in this module |
| ----------------------------------------------------------------------------*/ |
| |
| /*---------------------------------------------------------------------------- |
| ; EXTERNAL GLOBAL STORE/BUFFER/POINTER REFERENCES |
| ; Declare variables used in this module but defined elsewhere |
| ----------------------------------------------------------------------------*/ |
| |
| /*---------------------------------------------------------------------------- |
| ; FUNCTION CODE |
| ----------------------------------------------------------------------------*/ |
| |
| void wb_syn_filt( |
| int16 a[], /* (i) Q12 : a[m+1] prediction coefficients */ |
| int16 m, /* (i) : order of LP filter */ |
| int16 x[], /* (i) : input signal */ |
| int16 y[], /* (o) : output signal */ |
| int16 lg, /* (i) : size of filtering */ |
| int16 mem[], /* (i/o) : memory associated with this filtering. */ |
| int16 update, /* (i) : 0=no update, 1=update of memory. */ |
| int16 y_buf[] |
| ) |
| { |
| |
| int16 i, j; |
| int32 L_tmp1; |
| int32 L_tmp2; |
| int32 L_tmp3; |
| int32 L_tmp4; |
| int16 *yy; |
| |
| /* copy initial filter states into synthesis buffer */ |
| pv_memcpy(y_buf, mem, m*sizeof(*yy)); |
| |
| yy = &y_buf[m]; |
| |
| /* Do the filtering. */ |
| |
| for (i = 0; i < lg >> 2; i++) |
| { |
| L_tmp1 = -((int32)x[(i<<2)] << 11); |
| L_tmp2 = -((int32)x[(i<<2)+1] << 11); |
| L_tmp3 = -((int32)x[(i<<2)+2] << 11); |
| L_tmp4 = -((int32)x[(i<<2)+3] << 11); |
| |
| /* a[] uses Q12 and abs(a) =< 1 */ |
| |
| L_tmp1 = fxp_mac_16by16(yy[(i<<2) -3], a[3], L_tmp1); |
| L_tmp2 = fxp_mac_16by16(yy[(i<<2) -2], a[3], L_tmp2); |
| L_tmp1 = fxp_mac_16by16(yy[(i<<2) -2], a[2], L_tmp1); |
| L_tmp2 = fxp_mac_16by16(yy[(i<<2) -1], a[2], L_tmp2); |
| L_tmp1 = fxp_mac_16by16(yy[(i<<2) -1], a[1], L_tmp1); |
| |
| for (j = 4; j < m; j += 2) |
| { |
| L_tmp1 = fxp_mac_16by16(yy[(i<<2)-1 - j], a[j+1], L_tmp1); |
| L_tmp2 = fxp_mac_16by16(yy[(i<<2) - j], a[j+1], L_tmp2); |
| L_tmp1 = fxp_mac_16by16(yy[(i<<2) - j], a[j ], L_tmp1); |
| L_tmp2 = fxp_mac_16by16(yy[(i<<2)+1 - j], a[j ], L_tmp2); |
| L_tmp3 = fxp_mac_16by16(yy[(i<<2)+1 - j], a[j+1], L_tmp3); |
| L_tmp4 = fxp_mac_16by16(yy[(i<<2)+2 - j], a[j+1], L_tmp4); |
| L_tmp3 = fxp_mac_16by16(yy[(i<<2)+2 - j], a[j ], L_tmp3); |
| L_tmp4 = fxp_mac_16by16(yy[(i<<2)+3 - j], a[j ], L_tmp4); |
| } |
| |
| L_tmp1 = fxp_mac_16by16(yy[(i<<2) - j], a[j], L_tmp1); |
| L_tmp2 = fxp_mac_16by16(yy[(i<<2)+1 - j], a[j], L_tmp2); |
| L_tmp3 = fxp_mac_16by16(yy[(i<<2)+2 - j], a[j], L_tmp3); |
| L_tmp4 = fxp_mac_16by16(yy[(i<<2)+3 - j], a[j], L_tmp4); |
| |
| L_tmp1 = shl_int32(L_tmp1, 4); |
| |
| y[(i<<2)] = yy[(i<<2)] = amr_wb_round(-L_tmp1); |
| |
| L_tmp2 = fxp_mac_16by16(yy[(i<<2)], a[1], L_tmp2); |
| |
| L_tmp2 = shl_int32(L_tmp2, 4); |
| |
| y[(i<<2)+1] = yy[(i<<2)+1] = amr_wb_round(-L_tmp2); |
| |
| L_tmp3 = fxp_mac_16by16(yy[(i<<2) - 1], a[3], L_tmp3); |
| L_tmp4 = fxp_mac_16by16(yy[(i<<2)], a[3], L_tmp4); |
| L_tmp3 = fxp_mac_16by16(yy[(i<<2)], a[2], L_tmp3); |
| L_tmp4 = fxp_mac_16by16(yy[(i<<2) + 1], a[2], L_tmp4); |
| L_tmp3 = fxp_mac_16by16(yy[(i<<2) + 1], a[1], L_tmp3); |
| |
| L_tmp3 = shl_int32(L_tmp3, 4); |
| |
| y[(i<<2)+2] = yy[(i<<2)+2] = amr_wb_round(-L_tmp3); |
| |
| L_tmp4 = fxp_mac_16by16(yy[(i<<2)+2], a[1], L_tmp4); |
| |
| L_tmp4 = shl_int32(L_tmp4, 4); |
| |
| y[(i<<2)+3] = yy[(i<<2)+3] = amr_wb_round(-L_tmp4); |
| } |
| |
| |
| /* Update memory if required */ |
| |
| if (update) |
| { |
| pv_memcpy(mem, &y[lg - m], m*sizeof(*y)); |
| } |
| |
| return; |
| } |
| |
| /*---------------------------------------------------------------------------- |
| ; FUNCTION CODE |
| ----------------------------------------------------------------------------*/ |
| |
| void Syn_filt_32( |
| int16 a[], /* (i) Q12 : a[m+1] prediction coefficients */ |
| int16 m, /* (i) : order of LP filter */ |
| int16 exc[], /* (i) Qnew: excitation (exc[i] >> Qnew) */ |
| int16 Qnew, /* (i) : exc scaling = 0(min) to 8(max) */ |
| int16 sig_hi[], /* (o) /16 : synthesis high */ |
| int16 sig_lo[], /* (o) /16 : synthesis low */ |
| int16 lg /* (i) : size of filtering */ |
| ) |
| { |
| int16 i, k, a0; |
| int32 L_tmp1; |
| int32 L_tmp2; |
| int32 L_tmp3; |
| int32 L_tmp4; |
| |
| a0 = 9 - Qnew; /* input / 16 and >>Qnew */ |
| |
| /* Do the filtering. */ |
| |
| for (i = 0; i < lg >> 1; i++) |
| { |
| |
| L_tmp3 = 0; |
| L_tmp4 = 0; |
| |
| L_tmp1 = fxp_mul_16by16(sig_lo[(i<<1) - 1], a[1]); |
| L_tmp2 = fxp_mul_16by16(sig_hi[(i<<1) - 1], a[1]); |
| |
| for (k = 2; k < m; k += 2) |
| { |
| |
| L_tmp1 = fxp_mac_16by16(sig_lo[(i<<1)-1 - k], a[k+1], L_tmp1); |
| L_tmp2 = fxp_mac_16by16(sig_hi[(i<<1)-1 - k], a[k+1], L_tmp2); |
| L_tmp1 = fxp_mac_16by16(sig_lo[(i<<1) - k], a[k ], L_tmp1); |
| L_tmp2 = fxp_mac_16by16(sig_hi[(i<<1) - k], a[k ], L_tmp2); |
| L_tmp3 = fxp_mac_16by16(sig_lo[(i<<1) - k], a[k+1], L_tmp3); |
| L_tmp4 = fxp_mac_16by16(sig_hi[(i<<1) - k], a[k+1], L_tmp4); |
| L_tmp3 = fxp_mac_16by16(sig_lo[(i<<1)+1 - k], a[k ], L_tmp3); |
| L_tmp4 = fxp_mac_16by16(sig_hi[(i<<1)+1 - k], a[k ], L_tmp4); |
| } |
| |
| L_tmp1 = -fxp_mac_16by16(sig_lo[(i<<1) - k], a[k], L_tmp1); |
| L_tmp3 = fxp_mac_16by16(sig_lo[(i<<1)+1 - k], a[k], L_tmp3); |
| L_tmp2 = fxp_mac_16by16(sig_hi[(i<<1) - k], a[k], L_tmp2); |
| L_tmp4 = fxp_mac_16by16(sig_hi[(i<<1)+1 - k], a[k], L_tmp4); |
| |
| |
| |
| L_tmp1 >>= 11; /* -4 : sig_lo[i] << 4 */ |
| |
| L_tmp1 += (int32)exc[(i<<1)] << a0; |
| |
| L_tmp1 -= (L_tmp2 << 1); |
| /* sig_hi = bit16 to bit31 of synthesis */ |
| L_tmp1 = shl_int32(L_tmp1, 3); /* ai in Q12 */ |
| |
| sig_hi[(i<<1)] = (int16)(L_tmp1 >> 16); |
| |
| L_tmp4 = fxp_mac_16by16((int16)(L_tmp1 >> 16), a[1], L_tmp4); |
| |
| /* sig_lo = bit4 to bit15 of synthesis */ |
| /* L_tmp1 >>= 4 : sig_lo[i] >> 4 */ |
| sig_lo[(i<<1)] = (int16)((L_tmp1 >> 4) - ((L_tmp1 >> 16) << 12)); |
| |
| L_tmp3 = fxp_mac_16by16(sig_lo[(i<<1)], a[1], L_tmp3); |
| L_tmp3 = -L_tmp3 >> 11; |
| |
| L_tmp3 += (int32)exc[(i<<1)+1] << a0; |
| |
| L_tmp3 -= (L_tmp4 << 1); |
| /* sig_hi = bit16 to bit31 of synthesis */ |
| L_tmp3 = shl_int32(L_tmp3, 3); /* ai in Q12 */ |
| sig_hi[(i<<1)+1] = (int16)(L_tmp3 >> 16); |
| |
| /* sig_lo = bit4 to bit15 of synthesis */ |
| /* L_tmp1 >>= 4 : sig_lo[i] >> 4 */ |
| sig_lo[(i<<1)+1] = (int16)((L_tmp3 >> 4) - (sig_hi[(i<<1)+1] << 12)); |
| } |
| |
| } |
| |
| |