506 lines
16 KiB
C
506 lines
16 KiB
C
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/*
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* Copyright (c) 2011 The WebRTC project authors. All Rights Reserved.
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*
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* Use of this source code is governed by a BSD-style license
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* that can be found in the LICENSE file in the root of the source
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* tree. An additional intellectual property rights grant can be found
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* in the file PATENTS. All contributing project authors may
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* be found in the AUTHORS file in the root of the source tree.
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*/
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/*
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* This file contains the resampling functions for 22 kHz.
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* The description header can be found in signal_processing_library.h
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*
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*/
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#include "common_audio/signal_processing/include/signal_processing_library.h"
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#include "common_audio/signal_processing/resample_by_2_internal.h"
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// Declaration of internally used functions
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static void WebRtcSpl_32khzTo22khzIntToShort(const int32_t *In, int16_t *Out,
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int32_t K);
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void WebRtcSpl_32khzTo22khzIntToInt(const int32_t *In, int32_t *Out,
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int32_t K);
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// interpolation coefficients
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static const int16_t kCoefficients32To22[5][9] = {
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{127, -712, 2359, -6333, 23456, 16775, -3695, 945, -154},
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{-39, 230, -830, 2785, 32366, -2324, 760, -218, 38},
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{117, -663, 2222, -6133, 26634, 13070, -3174, 831, -137},
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{-77, 457, -1677, 5958, 31175, -4136, 1405, -408, 71},
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{ 98, -560, 1900, -5406, 29240, 9423, -2480, 663, -110}
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};
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//////////////////////
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// 22 kHz -> 16 kHz //
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//////////////////////
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// number of subblocks; options: 1, 2, 4, 5, 10
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#define SUB_BLOCKS_22_16 5
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// 22 -> 16 resampler
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void WebRtcSpl_Resample22khzTo16khz(const int16_t* in, int16_t* out,
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WebRtcSpl_State22khzTo16khz* state, int32_t* tmpmem)
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{
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int k;
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// process two blocks of 10/SUB_BLOCKS_22_16 ms (to reduce temp buffer size)
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for (k = 0; k < SUB_BLOCKS_22_16; k++)
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{
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///// 22 --> 44 /////
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// int16_t in[220/SUB_BLOCKS_22_16]
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// int32_t out[440/SUB_BLOCKS_22_16]
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/////
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WebRtcSpl_UpBy2ShortToInt(in, 220 / SUB_BLOCKS_22_16, tmpmem + 16, state->S_22_44);
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///// 44 --> 32 /////
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// int32_t in[440/SUB_BLOCKS_22_16]
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// int32_t out[320/SUB_BLOCKS_22_16]
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/////
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// copy state to and from input array
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tmpmem[8] = state->S_44_32[0];
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tmpmem[9] = state->S_44_32[1];
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tmpmem[10] = state->S_44_32[2];
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tmpmem[11] = state->S_44_32[3];
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tmpmem[12] = state->S_44_32[4];
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tmpmem[13] = state->S_44_32[5];
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tmpmem[14] = state->S_44_32[6];
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tmpmem[15] = state->S_44_32[7];
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state->S_44_32[0] = tmpmem[440 / SUB_BLOCKS_22_16 + 8];
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state->S_44_32[1] = tmpmem[440 / SUB_BLOCKS_22_16 + 9];
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state->S_44_32[2] = tmpmem[440 / SUB_BLOCKS_22_16 + 10];
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state->S_44_32[3] = tmpmem[440 / SUB_BLOCKS_22_16 + 11];
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state->S_44_32[4] = tmpmem[440 / SUB_BLOCKS_22_16 + 12];
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state->S_44_32[5] = tmpmem[440 / SUB_BLOCKS_22_16 + 13];
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state->S_44_32[6] = tmpmem[440 / SUB_BLOCKS_22_16 + 14];
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state->S_44_32[7] = tmpmem[440 / SUB_BLOCKS_22_16 + 15];
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WebRtcSpl_Resample44khzTo32khz(tmpmem + 8, tmpmem, 40 / SUB_BLOCKS_22_16);
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///// 32 --> 16 /////
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// int32_t in[320/SUB_BLOCKS_22_16]
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// int32_t out[160/SUB_BLOCKS_22_16]
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/////
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WebRtcSpl_DownBy2IntToShort(tmpmem, 320 / SUB_BLOCKS_22_16, out, state->S_32_16);
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// move input/output pointers 10/SUB_BLOCKS_22_16 ms seconds ahead
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in += 220 / SUB_BLOCKS_22_16;
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out += 160 / SUB_BLOCKS_22_16;
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}
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}
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// initialize state of 22 -> 16 resampler
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void WebRtcSpl_ResetResample22khzTo16khz(WebRtcSpl_State22khzTo16khz* state)
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{
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int k;
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for (k = 0; k < 8; k++)
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{
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state->S_22_44[k] = 0;
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state->S_44_32[k] = 0;
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state->S_32_16[k] = 0;
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}
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}
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//////////////////////
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// 16 kHz -> 22 kHz //
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//////////////////////
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// number of subblocks; options: 1, 2, 4, 5, 10
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#define SUB_BLOCKS_16_22 4
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// 16 -> 22 resampler
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void WebRtcSpl_Resample16khzTo22khz(const int16_t* in, int16_t* out,
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WebRtcSpl_State16khzTo22khz* state, int32_t* tmpmem)
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{
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int k;
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// process two blocks of 10/SUB_BLOCKS_16_22 ms (to reduce temp buffer size)
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for (k = 0; k < SUB_BLOCKS_16_22; k++)
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{
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///// 16 --> 32 /////
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// int16_t in[160/SUB_BLOCKS_16_22]
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// int32_t out[320/SUB_BLOCKS_16_22]
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/////
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WebRtcSpl_UpBy2ShortToInt(in, 160 / SUB_BLOCKS_16_22, tmpmem + 8, state->S_16_32);
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///// 32 --> 22 /////
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// int32_t in[320/SUB_BLOCKS_16_22]
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// int32_t out[220/SUB_BLOCKS_16_22]
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/////
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// copy state to and from input array
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tmpmem[0] = state->S_32_22[0];
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tmpmem[1] = state->S_32_22[1];
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tmpmem[2] = state->S_32_22[2];
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tmpmem[3] = state->S_32_22[3];
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tmpmem[4] = state->S_32_22[4];
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tmpmem[5] = state->S_32_22[5];
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tmpmem[6] = state->S_32_22[6];
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tmpmem[7] = state->S_32_22[7];
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state->S_32_22[0] = tmpmem[320 / SUB_BLOCKS_16_22];
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state->S_32_22[1] = tmpmem[320 / SUB_BLOCKS_16_22 + 1];
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state->S_32_22[2] = tmpmem[320 / SUB_BLOCKS_16_22 + 2];
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state->S_32_22[3] = tmpmem[320 / SUB_BLOCKS_16_22 + 3];
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state->S_32_22[4] = tmpmem[320 / SUB_BLOCKS_16_22 + 4];
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state->S_32_22[5] = tmpmem[320 / SUB_BLOCKS_16_22 + 5];
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state->S_32_22[6] = tmpmem[320 / SUB_BLOCKS_16_22 + 6];
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state->S_32_22[7] = tmpmem[320 / SUB_BLOCKS_16_22 + 7];
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WebRtcSpl_32khzTo22khzIntToShort(tmpmem, out, 20 / SUB_BLOCKS_16_22);
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// move input/output pointers 10/SUB_BLOCKS_16_22 ms seconds ahead
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in += 160 / SUB_BLOCKS_16_22;
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out += 220 / SUB_BLOCKS_16_22;
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}
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}
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// initialize state of 16 -> 22 resampler
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void WebRtcSpl_ResetResample16khzTo22khz(WebRtcSpl_State16khzTo22khz* state)
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{
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int k;
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for (k = 0; k < 8; k++)
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{
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state->S_16_32[k] = 0;
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state->S_32_22[k] = 0;
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}
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}
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//////////////////////
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// 22 kHz -> 8 kHz //
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//////////////////////
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// number of subblocks; options: 1, 2, 5, 10
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#define SUB_BLOCKS_22_8 2
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// 22 -> 8 resampler
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void WebRtcSpl_Resample22khzTo8khz(const int16_t* in, int16_t* out,
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WebRtcSpl_State22khzTo8khz* state, int32_t* tmpmem)
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{
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int k;
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// process two blocks of 10/SUB_BLOCKS_22_8 ms (to reduce temp buffer size)
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for (k = 0; k < SUB_BLOCKS_22_8; k++)
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{
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///// 22 --> 22 lowpass /////
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// int16_t in[220/SUB_BLOCKS_22_8]
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// int32_t out[220/SUB_BLOCKS_22_8]
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/////
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WebRtcSpl_LPBy2ShortToInt(in, 220 / SUB_BLOCKS_22_8, tmpmem + 16, state->S_22_22);
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///// 22 --> 16 /////
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// int32_t in[220/SUB_BLOCKS_22_8]
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// int32_t out[160/SUB_BLOCKS_22_8]
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/////
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// copy state to and from input array
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tmpmem[8] = state->S_22_16[0];
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tmpmem[9] = state->S_22_16[1];
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tmpmem[10] = state->S_22_16[2];
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tmpmem[11] = state->S_22_16[3];
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tmpmem[12] = state->S_22_16[4];
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tmpmem[13] = state->S_22_16[5];
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tmpmem[14] = state->S_22_16[6];
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tmpmem[15] = state->S_22_16[7];
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state->S_22_16[0] = tmpmem[220 / SUB_BLOCKS_22_8 + 8];
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state->S_22_16[1] = tmpmem[220 / SUB_BLOCKS_22_8 + 9];
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state->S_22_16[2] = tmpmem[220 / SUB_BLOCKS_22_8 + 10];
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state->S_22_16[3] = tmpmem[220 / SUB_BLOCKS_22_8 + 11];
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state->S_22_16[4] = tmpmem[220 / SUB_BLOCKS_22_8 + 12];
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state->S_22_16[5] = tmpmem[220 / SUB_BLOCKS_22_8 + 13];
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state->S_22_16[6] = tmpmem[220 / SUB_BLOCKS_22_8 + 14];
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state->S_22_16[7] = tmpmem[220 / SUB_BLOCKS_22_8 + 15];
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WebRtcSpl_Resample44khzTo32khz(tmpmem + 8, tmpmem, 20 / SUB_BLOCKS_22_8);
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///// 16 --> 8 /////
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// int32_t in[160/SUB_BLOCKS_22_8]
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// int32_t out[80/SUB_BLOCKS_22_8]
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/////
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WebRtcSpl_DownBy2IntToShort(tmpmem, 160 / SUB_BLOCKS_22_8, out, state->S_16_8);
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// move input/output pointers 10/SUB_BLOCKS_22_8 ms seconds ahead
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in += 220 / SUB_BLOCKS_22_8;
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out += 80 / SUB_BLOCKS_22_8;
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}
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}
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// initialize state of 22 -> 8 resampler
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void WebRtcSpl_ResetResample22khzTo8khz(WebRtcSpl_State22khzTo8khz* state)
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{
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int k;
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for (k = 0; k < 8; k++)
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{
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state->S_22_22[k] = 0;
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state->S_22_22[k + 8] = 0;
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state->S_22_16[k] = 0;
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state->S_16_8[k] = 0;
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}
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}
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//////////////////////
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// 8 kHz -> 22 kHz //
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//////////////////////
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// number of subblocks; options: 1, 2, 5, 10
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#define SUB_BLOCKS_8_22 2
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// 8 -> 22 resampler
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void WebRtcSpl_Resample8khzTo22khz(const int16_t* in, int16_t* out,
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WebRtcSpl_State8khzTo22khz* state, int32_t* tmpmem)
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{
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int k;
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// process two blocks of 10/SUB_BLOCKS_8_22 ms (to reduce temp buffer size)
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for (k = 0; k < SUB_BLOCKS_8_22; k++)
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{
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///// 8 --> 16 /////
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// int16_t in[80/SUB_BLOCKS_8_22]
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// int32_t out[160/SUB_BLOCKS_8_22]
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/////
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WebRtcSpl_UpBy2ShortToInt(in, 80 / SUB_BLOCKS_8_22, tmpmem + 18, state->S_8_16);
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///// 16 --> 11 /////
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// int32_t in[160/SUB_BLOCKS_8_22]
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// int32_t out[110/SUB_BLOCKS_8_22]
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/////
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// copy state to and from input array
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tmpmem[10] = state->S_16_11[0];
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tmpmem[11] = state->S_16_11[1];
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tmpmem[12] = state->S_16_11[2];
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tmpmem[13] = state->S_16_11[3];
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tmpmem[14] = state->S_16_11[4];
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tmpmem[15] = state->S_16_11[5];
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tmpmem[16] = state->S_16_11[6];
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tmpmem[17] = state->S_16_11[7];
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state->S_16_11[0] = tmpmem[160 / SUB_BLOCKS_8_22 + 10];
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state->S_16_11[1] = tmpmem[160 / SUB_BLOCKS_8_22 + 11];
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state->S_16_11[2] = tmpmem[160 / SUB_BLOCKS_8_22 + 12];
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state->S_16_11[3] = tmpmem[160 / SUB_BLOCKS_8_22 + 13];
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state->S_16_11[4] = tmpmem[160 / SUB_BLOCKS_8_22 + 14];
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state->S_16_11[5] = tmpmem[160 / SUB_BLOCKS_8_22 + 15];
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state->S_16_11[6] = tmpmem[160 / SUB_BLOCKS_8_22 + 16];
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state->S_16_11[7] = tmpmem[160 / SUB_BLOCKS_8_22 + 17];
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WebRtcSpl_32khzTo22khzIntToInt(tmpmem + 10, tmpmem, 10 / SUB_BLOCKS_8_22);
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///// 11 --> 22 /////
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// int32_t in[110/SUB_BLOCKS_8_22]
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// int16_t out[220/SUB_BLOCKS_8_22]
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/////
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WebRtcSpl_UpBy2IntToShort(tmpmem, 110 / SUB_BLOCKS_8_22, out, state->S_11_22);
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// move input/output pointers 10/SUB_BLOCKS_8_22 ms seconds ahead
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in += 80 / SUB_BLOCKS_8_22;
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out += 220 / SUB_BLOCKS_8_22;
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}
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}
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// initialize state of 8 -> 22 resampler
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void WebRtcSpl_ResetResample8khzTo22khz(WebRtcSpl_State8khzTo22khz* state)
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{
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int k;
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for (k = 0; k < 8; k++)
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{
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state->S_8_16[k] = 0;
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state->S_16_11[k] = 0;
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state->S_11_22[k] = 0;
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}
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}
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// compute two inner-products and store them to output array
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static void WebRtcSpl_DotProdIntToInt(const int32_t* in1, const int32_t* in2,
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const int16_t* coef_ptr, int32_t* out1,
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int32_t* out2)
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{
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int32_t tmp1 = 16384;
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int32_t tmp2 = 16384;
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int16_t coef;
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coef = coef_ptr[0];
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tmp1 += coef * in1[0];
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tmp2 += coef * in2[-0];
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coef = coef_ptr[1];
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tmp1 += coef * in1[1];
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tmp2 += coef * in2[-1];
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coef = coef_ptr[2];
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tmp1 += coef * in1[2];
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tmp2 += coef * in2[-2];
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coef = coef_ptr[3];
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tmp1 += coef * in1[3];
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tmp2 += coef * in2[-3];
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coef = coef_ptr[4];
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tmp1 += coef * in1[4];
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tmp2 += coef * in2[-4];
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coef = coef_ptr[5];
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tmp1 += coef * in1[5];
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tmp2 += coef * in2[-5];
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coef = coef_ptr[6];
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tmp1 += coef * in1[6];
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tmp2 += coef * in2[-6];
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coef = coef_ptr[7];
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tmp1 += coef * in1[7];
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tmp2 += coef * in2[-7];
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coef = coef_ptr[8];
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*out1 = tmp1 + coef * in1[8];
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*out2 = tmp2 + coef * in2[-8];
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}
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// compute two inner-products and store them to output array
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static void WebRtcSpl_DotProdIntToShort(const int32_t* in1, const int32_t* in2,
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const int16_t* coef_ptr, int16_t* out1,
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int16_t* out2)
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{
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int32_t tmp1 = 16384;
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int32_t tmp2 = 16384;
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int16_t coef;
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coef = coef_ptr[0];
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tmp1 += coef * in1[0];
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tmp2 += coef * in2[-0];
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coef = coef_ptr[1];
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tmp1 += coef * in1[1];
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tmp2 += coef * in2[-1];
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coef = coef_ptr[2];
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tmp1 += coef * in1[2];
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tmp2 += coef * in2[-2];
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coef = coef_ptr[3];
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tmp1 += coef * in1[3];
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tmp2 += coef * in2[-3];
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coef = coef_ptr[4];
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tmp1 += coef * in1[4];
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tmp2 += coef * in2[-4];
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coef = coef_ptr[5];
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tmp1 += coef * in1[5];
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tmp2 += coef * in2[-5];
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coef = coef_ptr[6];
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tmp1 += coef * in1[6];
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tmp2 += coef * in2[-6];
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coef = coef_ptr[7];
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tmp1 += coef * in1[7];
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tmp2 += coef * in2[-7];
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coef = coef_ptr[8];
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tmp1 += coef * in1[8];
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tmp2 += coef * in2[-8];
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// scale down, round and saturate
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tmp1 >>= 15;
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if (tmp1 > (int32_t)0x00007FFF)
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tmp1 = 0x00007FFF;
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if (tmp1 < (int32_t)0xFFFF8000)
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tmp1 = 0xFFFF8000;
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tmp2 >>= 15;
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if (tmp2 > (int32_t)0x00007FFF)
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tmp2 = 0x00007FFF;
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if (tmp2 < (int32_t)0xFFFF8000)
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tmp2 = 0xFFFF8000;
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*out1 = (int16_t)tmp1;
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*out2 = (int16_t)tmp2;
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}
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// Resampling ratio: 11/16
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// input: int32_t (normalized, not saturated) :: size 16 * K
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// output: int32_t (shifted 15 positions to the left, + offset 16384) :: size 11 * K
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// K: Number of blocks
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void WebRtcSpl_32khzTo22khzIntToInt(const int32_t* In,
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int32_t* Out,
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int32_t K)
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{
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/////////////////////////////////////////////////////////////
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// Filter operation:
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//
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// Perform resampling (16 input samples -> 11 output samples);
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// process in sub blocks of size 16 samples.
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int32_t m;
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for (m = 0; m < K; m++)
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{
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// first output sample
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Out[0] = ((int32_t)In[3] << 15) + (1 << 14);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToInt(&In[0], &In[22], kCoefficients32To22[0], &Out[1], &Out[10]);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToInt(&In[2], &In[20], kCoefficients32To22[1], &Out[2], &Out[9]);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToInt(&In[3], &In[19], kCoefficients32To22[2], &Out[3], &Out[8]);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToInt(&In[5], &In[17], kCoefficients32To22[3], &Out[4], &Out[7]);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToInt(&In[6], &In[16], kCoefficients32To22[4], &Out[5], &Out[6]);
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// update pointers
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In += 16;
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Out += 11;
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}
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}
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// Resampling ratio: 11/16
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// input: int32_t (normalized, not saturated) :: size 16 * K
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// output: int16_t (saturated) :: size 11 * K
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// K: Number of blocks
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void WebRtcSpl_32khzTo22khzIntToShort(const int32_t *In,
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int16_t *Out,
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int32_t K)
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{
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/////////////////////////////////////////////////////////////
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// Filter operation:
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//
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// Perform resampling (16 input samples -> 11 output samples);
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// process in sub blocks of size 16 samples.
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int32_t tmp;
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int32_t m;
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for (m = 0; m < K; m++)
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{
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// first output sample
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tmp = In[3];
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if (tmp > (int32_t)0x00007FFF)
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tmp = 0x00007FFF;
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if (tmp < (int32_t)0xFFFF8000)
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tmp = 0xFFFF8000;
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Out[0] = (int16_t)tmp;
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToShort(&In[0], &In[22], kCoefficients32To22[0], &Out[1], &Out[10]);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToShort(&In[2], &In[20], kCoefficients32To22[1], &Out[2], &Out[9]);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToShort(&In[3], &In[19], kCoefficients32To22[2], &Out[3], &Out[8]);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToShort(&In[5], &In[17], kCoefficients32To22[3], &Out[4], &Out[7]);
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// sum and accumulate filter coefficients and input samples
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WebRtcSpl_DotProdIntToShort(&In[6], &In[16], kCoefficients32To22[4], &Out[5], &Out[6]);
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// update pointers
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In += 16;
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Out += 11;
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}
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}
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