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184 lines
5.8 KiB
C
184 lines
5.8 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 by two functions.
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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 "webrtc/common_audio/signal_processing/include/signal_processing_library.h"
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#ifdef WEBRTC_ARCH_ARM_V7
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// allpass filter coefficients.
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static const uint32_t kResampleAllpass1[3] = {3284, 24441, 49528 << 15};
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static const uint32_t kResampleAllpass2[3] =
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{12199, 37471 << 15, 60255 << 15};
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// Multiply two 32-bit values and accumulate to another input value.
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// Return: state + ((diff * tbl_value) >> 16)
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static __inline int32_t MUL_ACCUM_1(int32_t tbl_value,
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int32_t diff,
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int32_t state) {
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int32_t result;
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__asm __volatile ("smlawb %0, %1, %2, %3": "=r"(result): "r"(diff),
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"r"(tbl_value), "r"(state));
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return result;
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}
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// Multiply two 32-bit values and accumulate to another input value.
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// Return: Return: state + (((diff << 1) * tbl_value) >> 32)
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//
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// The reason to introduce this function is that, in case we can't use smlawb
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// instruction (in MUL_ACCUM_1) due to input value range, we can still use
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// smmla to save some cycles.
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static __inline int32_t MUL_ACCUM_2(int32_t tbl_value,
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int32_t diff,
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int32_t state) {
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int32_t result;
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__asm __volatile ("smmla %0, %1, %2, %3": "=r"(result): "r"(diff << 1),
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"r"(tbl_value), "r"(state));
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return result;
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}
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#else
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// allpass filter coefficients.
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static const uint16_t kResampleAllpass1[3] = {3284, 24441, 49528};
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static const uint16_t kResampleAllpass2[3] = {12199, 37471, 60255};
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// Multiply a 32-bit value with a 16-bit value and accumulate to another input:
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#define MUL_ACCUM_1(a, b, c) WEBRTC_SPL_SCALEDIFF32(a, b, c)
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#define MUL_ACCUM_2(a, b, c) WEBRTC_SPL_SCALEDIFF32(a, b, c)
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#endif // WEBRTC_ARCH_ARM_V7
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// decimator
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#if !defined(MIPS32_LE)
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void WebRtcSpl_DownsampleBy2(const int16_t* in, int16_t len,
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int16_t* out, int32_t* filtState) {
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int32_t tmp1, tmp2, diff, in32, out32;
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int16_t i;
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register int32_t state0 = filtState[0];
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register int32_t state1 = filtState[1];
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register int32_t state2 = filtState[2];
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register int32_t state3 = filtState[3];
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register int32_t state4 = filtState[4];
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register int32_t state5 = filtState[5];
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register int32_t state6 = filtState[6];
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register int32_t state7 = filtState[7];
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for (i = (len >> 1); i > 0; i--) {
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// lower allpass filter
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in32 = (int32_t)(*in++) << 10;
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diff = in32 - state1;
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tmp1 = MUL_ACCUM_1(kResampleAllpass2[0], diff, state0);
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state0 = in32;
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diff = tmp1 - state2;
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tmp2 = MUL_ACCUM_2(kResampleAllpass2[1], diff, state1);
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state1 = tmp1;
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diff = tmp2 - state3;
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state3 = MUL_ACCUM_2(kResampleAllpass2[2], diff, state2);
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state2 = tmp2;
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// upper allpass filter
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in32 = (int32_t)(*in++) << 10;
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diff = in32 - state5;
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tmp1 = MUL_ACCUM_1(kResampleAllpass1[0], diff, state4);
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state4 = in32;
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diff = tmp1 - state6;
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tmp2 = MUL_ACCUM_1(kResampleAllpass1[1], diff, state5);
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state5 = tmp1;
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diff = tmp2 - state7;
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state7 = MUL_ACCUM_2(kResampleAllpass1[2], diff, state6);
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state6 = tmp2;
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// add two allpass outputs, divide by two and round
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out32 = (state3 + state7 + 1024) >> 11;
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// limit amplitude to prevent wrap-around, and write to output array
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*out++ = WebRtcSpl_SatW32ToW16(out32);
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}
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filtState[0] = state0;
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filtState[1] = state1;
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filtState[2] = state2;
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filtState[3] = state3;
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filtState[4] = state4;
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filtState[5] = state5;
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filtState[6] = state6;
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filtState[7] = state7;
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}
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#endif // #if defined(MIPS32_LE)
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void WebRtcSpl_UpsampleBy2(const int16_t* in, int16_t len,
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int16_t* out, int32_t* filtState) {
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int32_t tmp1, tmp2, diff, in32, out32;
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int16_t i;
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register int32_t state0 = filtState[0];
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register int32_t state1 = filtState[1];
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register int32_t state2 = filtState[2];
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register int32_t state3 = filtState[3];
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register int32_t state4 = filtState[4];
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register int32_t state5 = filtState[5];
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register int32_t state6 = filtState[6];
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register int32_t state7 = filtState[7];
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for (i = len; i > 0; i--) {
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// lower allpass filter
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in32 = (int32_t)(*in++) << 10;
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diff = in32 - state1;
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tmp1 = MUL_ACCUM_1(kResampleAllpass1[0], diff, state0);
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state0 = in32;
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diff = tmp1 - state2;
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tmp2 = MUL_ACCUM_1(kResampleAllpass1[1], diff, state1);
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state1 = tmp1;
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diff = tmp2 - state3;
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state3 = MUL_ACCUM_2(kResampleAllpass1[2], diff, state2);
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state2 = tmp2;
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// round; limit amplitude to prevent wrap-around; write to output array
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out32 = (state3 + 512) >> 10;
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*out++ = WebRtcSpl_SatW32ToW16(out32);
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// upper allpass filter
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diff = in32 - state5;
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tmp1 = MUL_ACCUM_1(kResampleAllpass2[0], diff, state4);
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state4 = in32;
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diff = tmp1 - state6;
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tmp2 = MUL_ACCUM_2(kResampleAllpass2[1], diff, state5);
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state5 = tmp1;
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diff = tmp2 - state7;
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state7 = MUL_ACCUM_2(kResampleAllpass2[2], diff, state6);
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state6 = tmp2;
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// round; limit amplitude to prevent wrap-around; write to output array
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out32 = (state7 + 512) >> 10;
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*out++ = WebRtcSpl_SatW32ToW16(out32);
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}
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filtState[0] = state0;
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filtState[1] = state1;
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filtState[2] = state2;
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filtState[3] = state3;
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filtState[4] = state4;
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filtState[5] = state5;
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filtState[6] = state6;
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filtState[7] = state7;
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}
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