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https://github.com/espressif/esp-idf.git
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bd9fed4400
DRAM.data: 506B --> 196B DRAM.bss : 26857B --> 2170B
675 lines
29 KiB
C
675 lines
29 KiB
C
/******************************************************************************
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*
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* Copyright (C) 2003-2012 Broadcom Corporation
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at:
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*
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******************************************************************************/
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/******************************************************************************
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*
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* This file contains the down sampling utility to convert PCM samples in
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* 16k/32k/48k/44.1k/22050/11025 sampling rate into 8K/16bits samples
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* required for SCO channel format. One API function isprovided and only
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* possible to be used when transmitting SCO data is sent via HCI
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* interface.
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*
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******************************************************************************/
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#include <string.h>
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#include "bta/bta_api.h"
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#include "bta/bta_sys.h"
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#include "osi/allocator.h"
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#if (BTM_SCO_HCI_INCLUDED == TRUE)
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#ifndef BTA_DM_SCO_DEBUG
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#define BTA_DM_SCO_DEBUG FALSE
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#endif
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/*****************************************************************************
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** Constants
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*****************************************************************************/
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#define BTA_DM_PCM_OVERLAP_SIZE 48
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#define BTA_DM_PCM_SMPL_RATE_44100 44100
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#define BTA_DM_PCM_SMPL_RATE_22050 22050
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#define BTA_DM_PCM_SMPL_RATE_11025 11025
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/*****************************************************************************
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** Data types for PCM Resampling utility
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*****************************************************************************/
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typedef INT32 (*PCONVERT_TO_BT_FILTERED) (UINT8 *pSrc, void *pDst, UINT32 dwSrcSamples,
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UINT32 dwSrcSps, INT32 *pLastCurPos, UINT8 *pOverlapArea);
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typedef INT32 (*PCONVERT_TO_BT_NOFILTER) (void *pSrc, void *pDst, UINT32 dwSrcSamples,
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UINT32 dwSrcSps);
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typedef struct {
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UINT8 overlap_area[BTA_DM_PCM_OVERLAP_SIZE * 4];
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UINT32 cur_pos; /* current position */
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UINT32 src_sps; /* samples per second (source audio data) */
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PCONVERT_TO_BT_FILTERED filter; /* the action function to do the
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conversion 44100, 22050, 11025*/
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PCONVERT_TO_BT_NOFILTER nofilter; /* the action function to do
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the conversion 48000, 32000, 16000*/
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UINT32 bits; /* number of bits per pcm sample */
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UINT32 n_channels; /* number of channels (i.e. mono(1), stereo(2)...) */
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UINT32 sample_size;
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UINT32 can_be_filtered;
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UINT32 divisor;
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} tBTA_DM_PCM_RESAMPLE_CB;
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static tBTA_DM_PCM_RESAMPLE_CB* p_bta_dm_pcm_cb;
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/*****************************************************************************
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** Macro Definition
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*****************************************************************************/
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#define CHECK_SATURATION16(x) \
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if (x > 32767) \
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x = 32767; \
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else if (x < -32768) \
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x = -32768;
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////////////////////////////////////////////////////////////////////////////////////////////////////
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//
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#define CONVERT_44100_TO_BLUETOOTH(pStart, pEnd) \
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{ \
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INT32 out1, out2, out3, out4, out5; \
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SRC_TYPE *pS = (SRC_TYPE *)pStart; \
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SRC_TYPE *pSEnd = (SRC_TYPE *)pEnd; \
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\
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while (pS < pSEnd) \
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{ \
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CurrentPos -= 8000; \
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\
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if (CurrentPos >= 0) \
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{ \
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pS += SRC_CHANNELS; \
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continue; \
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} \
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CurrentPos += dwSrcSps; \
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\
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out1 = (SRC_SAMPLE(0) * 1587) \
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+ ((SRC_SAMPLE(1) + SRC_SAMPLE(-1)) * 1522) \
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+ ((SRC_SAMPLE(2) + SRC_SAMPLE(-2)) * 1337) \
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+ ((SRC_SAMPLE(3) + SRC_SAMPLE(-3)) * 1058); \
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\
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out1 = out1 / 30000; \
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\
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out2 = ((SRC_SAMPLE(4) + SRC_SAMPLE(-4)) * 725) \
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+ ((SRC_SAMPLE(5) + SRC_SAMPLE(-5)) * 384) \
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+ ((SRC_SAMPLE(6) + SRC_SAMPLE(-6)) * 79); \
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\
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out2 = out2 / 30000; \
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\
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out3 = ((SRC_SAMPLE(7) + SRC_SAMPLE(-7)) * 156) \
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+ ((SRC_SAMPLE(8) + SRC_SAMPLE(-8)) * 298) \
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+ ((SRC_SAMPLE(9) + SRC_SAMPLE(-9)) * 345); \
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\
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out3 = out3 / 30000; \
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\
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out4 = ((SRC_SAMPLE(10) + SRC_SAMPLE(-10)) * 306) \
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+ ((SRC_SAMPLE(11) + SRC_SAMPLE(-11)) * 207) \
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+ ((SRC_SAMPLE(12) + SRC_SAMPLE(-12)) * 78); \
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\
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out4 = out4 / 30000; \
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\
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out5 = out1 + out2 - out3 - out4; \
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\
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CHECK_SATURATION16(out5); \
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*psBtOut++ = (INT16)out5; \
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\
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pS += SRC_CHANNELS; \
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} \
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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//
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#define CONVERT_22050_TO_BLUETOOTH(pStart, pEnd) \
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{ \
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INT32 out1, out2, out3, out4, out5; \
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SRC_TYPE *pS = (SRC_TYPE *)pStart; \
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SRC_TYPE *pSEnd = (SRC_TYPE *)pEnd; \
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\
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while (pS < pSEnd) \
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{ \
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CurrentPos -= 8000; \
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\
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if (CurrentPos >= 0) \
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{ \
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pS += SRC_CHANNELS; \
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continue; \
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} \
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CurrentPos += dwSrcSps; \
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\
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out1 = (SRC_SAMPLE(0) * 2993) \
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+ ((SRC_SAMPLE(1) + SRC_SAMPLE(-1)) * 2568) \
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+ ((SRC_SAMPLE(2) + SRC_SAMPLE(-2)) * 1509) \
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+ ((SRC_SAMPLE(3) + SRC_SAMPLE(-3)) * 331); \
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\
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out1 = out1 / 30000; \
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\
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out2 = ((SRC_SAMPLE(4) + SRC_SAMPLE(-4)) * 454) \
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+ ((SRC_SAMPLE(5) + SRC_SAMPLE(-5)) * 620) \
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+ ((SRC_SAMPLE(6) + SRC_SAMPLE(-6)) * 305); \
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\
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out2 = out2 / 30000; \
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\
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out3 = ((SRC_SAMPLE(7) + SRC_SAMPLE(-7)) * 127) \
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+ ((SRC_SAMPLE(8) + SRC_SAMPLE(-8)) * 350) \
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+ ((SRC_SAMPLE(9) + SRC_SAMPLE(-9)) * 265) \
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+ ((SRC_SAMPLE(10) + SRC_SAMPLE(-10)) * 6); \
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\
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out3 = out3 / 30000; \
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\
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out4 = ((SRC_SAMPLE(11) + SRC_SAMPLE(-11)) * 201); \
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\
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out4 = out4 / 30000; \
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\
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out5 = out1 - out2 + out3 - out4; \
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\
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CHECK_SATURATION16(out5); \
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*psBtOut++ = (INT16)out5; \
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\
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pS += SRC_CHANNELS; \
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} \
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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//
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#define CONVERT_11025_TO_BLUETOOTH(pStart, pEnd) \
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{ \
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INT32 out1; \
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SRC_TYPE *pS = (SRC_TYPE *)pStart; \
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SRC_TYPE *pSEnd = (SRC_TYPE *)pEnd; \
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\
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while (pS < pSEnd) \
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{ \
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CurrentPos -= 8000; \
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\
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if (CurrentPos >= 0) \
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{ \
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pS += SRC_CHANNELS; \
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continue; \
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} \
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CurrentPos += dwSrcSps; \
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\
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out1 = (SRC_SAMPLE(0) * 6349) \
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+ ((SRC_SAMPLE(1) + SRC_SAMPLE(-1)) * 2874) \
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- ((SRC_SAMPLE(2) + SRC_SAMPLE(-2)) * 1148) \
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- ((SRC_SAMPLE(3) + SRC_SAMPLE(-3)) * 287) \
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+ ((SRC_SAMPLE(4) + SRC_SAMPLE(-4)) * 675) \
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- ((SRC_SAMPLE(5) + SRC_SAMPLE(-5)) * 258) \
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- ((SRC_SAMPLE(6) + SRC_SAMPLE(-6)) * 206) \
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+ ((SRC_SAMPLE(7) + SRC_SAMPLE(-7)) * 266); \
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\
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out1 = out1 / 30000; \
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\
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CHECK_SATURATION16(out1); \
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*psBtOut++ = (INT16)out1; \
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\
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pS += SRC_CHANNELS; \
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} \
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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//
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#undef SRC_CHANNELS
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#undef SRC_SAMPLE
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#undef SRC_TYPE
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#define SRC_TYPE UINT8
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#define SRC_CHANNELS 1
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#define SRC_SAMPLE(x) ((pS[x] - 0x80) << 8)
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/*****************************************************************************
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** Local Function
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*****************************************************************************/
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INT32 Convert_8M_ToBT_Filtered (UINT8 *pSrc, void *pDst, UINT32 dwSrcSamples,
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UINT32 dwSrcSps, INT32 *pLastCurPos, UINT8 *pOverlapArea)
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{
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INT32 CurrentPos = *pLastCurPos;
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SRC_TYPE *pIn, *pInEnd;
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SRC_TYPE *pOv, *pOvEnd;
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INT16 *psBtOut = (INT16 *)pDst;
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#if BTA_DM_SCO_DEBUG
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APPL_TRACE_DEBUG("Convert_8M_ToBT_Filtered, CurrentPos %d\n", CurrentPos);
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#endif
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memcpy (pOverlapArea + (BTA_DM_PCM_OVERLAP_SIZE * 2), pSrc, BTA_DM_PCM_OVERLAP_SIZE * 2);
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pOv = (SRC_TYPE *)(pOverlapArea + BTA_DM_PCM_OVERLAP_SIZE);
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pOvEnd = (SRC_TYPE *)(pOverlapArea + (BTA_DM_PCM_OVERLAP_SIZE * 3));
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pIn = (SRC_TYPE *)(pSrc + BTA_DM_PCM_OVERLAP_SIZE);
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pInEnd = (SRC_TYPE *)(pSrc + (dwSrcSamples * SRC_CHANNELS * sizeof (SRC_TYPE)) - \
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BTA_DM_PCM_OVERLAP_SIZE);
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if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_44100) {
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CONVERT_44100_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_44100_TO_BLUETOOTH(pIn, pInEnd);
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} else if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_22050) {
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CONVERT_22050_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_22050_TO_BLUETOOTH(pIn, pInEnd);
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} else if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_11025) {
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CONVERT_11025_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_11025_TO_BLUETOOTH(pIn, pInEnd);
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}
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memcpy (pOverlapArea, pSrc + (dwSrcSamples * SRC_CHANNELS * sizeof (SRC_TYPE)) - \
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(BTA_DM_PCM_OVERLAP_SIZE * 2), BTA_DM_PCM_OVERLAP_SIZE * 2);
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*pLastCurPos = CurrentPos;
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return (psBtOut - (INT16 *)pDst);
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}
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INT32 Convert_8M_ToBT_NoFilter (void *pSrc, void *pDst, UINT32 dwSrcSamples, UINT32 dwSrcSps)
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{
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INT32 CurrentPos;
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UINT8 *pbSrc = (UINT8 *)pSrc;
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INT16 *psDst = (INT16 *)pDst;
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INT16 sWorker;
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// start at dwSpsSrc / 2, decrement by 8000
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//
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CurrentPos = (dwSrcSps >> 1);
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while (dwSrcSamples--) {
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CurrentPos -= 8000;
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if (CurrentPos >= 0) {
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pbSrc++;
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} else {
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sWorker = *pbSrc++;
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sWorker -= 0x80;
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sWorker <<= 8;
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*psDst++ = sWorker;
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CurrentPos += dwSrcSps;
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}
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}
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return (psDst - (INT16 *)pDst);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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//
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#undef SRC_CHANNELS
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#undef SRC_SAMPLE
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#undef SRC_TYPE
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#define SRC_TYPE INT16
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#define SRC_CHANNELS 1
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#define SRC_SAMPLE(x) pS[x]
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INT32 Convert_16M_ToBT_Filtered (UINT8 *pSrc, void *pDst, UINT32 dwSrcSamples,
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UINT32 dwSrcSps, INT32 *pLastCurPos, UINT8 *pOverlapArea)
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{
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INT32 CurrentPos = *pLastCurPos;
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SRC_TYPE *pIn, *pInEnd;
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SRC_TYPE *pOv, *pOvEnd;
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INT16 *psBtOut = (INT16 *)pDst;
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memcpy (pOverlapArea + (BTA_DM_PCM_OVERLAP_SIZE * 2), pSrc, BTA_DM_PCM_OVERLAP_SIZE * 2);
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pOv = (SRC_TYPE *)(pOverlapArea + BTA_DM_PCM_OVERLAP_SIZE);
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pOvEnd = (SRC_TYPE *)(pOverlapArea + (BTA_DM_PCM_OVERLAP_SIZE * 3));
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pIn = (SRC_TYPE *)(pSrc + BTA_DM_PCM_OVERLAP_SIZE);
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pInEnd = (SRC_TYPE *)(pSrc + (dwSrcSamples * SRC_CHANNELS * sizeof (SRC_TYPE)) - BTA_DM_PCM_OVERLAP_SIZE);
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if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_44100) {
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CONVERT_44100_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_44100_TO_BLUETOOTH(pIn, pInEnd);
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} else if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_22050) {
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CONVERT_22050_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_22050_TO_BLUETOOTH(pIn, pInEnd);
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} else if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_11025) {
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CONVERT_11025_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_11025_TO_BLUETOOTH(pIn, pInEnd);
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}
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memcpy (pOverlapArea, pSrc + (dwSrcSamples * SRC_CHANNELS * sizeof (SRC_TYPE)) - \
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(BTA_DM_PCM_OVERLAP_SIZE * 2), BTA_DM_PCM_OVERLAP_SIZE * 2);
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*pLastCurPos = CurrentPos;
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return (psBtOut - (INT16 *)pDst);
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}
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INT32 Convert_16M_ToBT_NoFilter (void *pSrc, void *pDst, UINT32 dwSrcSamples, UINT32 dwSrcSps)
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{
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INT32 CurrentPos;
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INT16 *psSrc = (INT16 *)pSrc;
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INT16 *psDst = (INT16 *)pDst;
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// start at dwSpsSrc / 2, decrement by 8000
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//
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CurrentPos = (dwSrcSps >> 1);
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while (dwSrcSamples--) {
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CurrentPos -= 8000;
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if (CurrentPos >= 0) {
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psSrc++;
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} else {
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*psDst++ = *psSrc++;
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CurrentPos += dwSrcSps;
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}
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}
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return (psDst - (INT16 *)pDst);
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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//
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#undef SRC_CHANNELS
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#undef SRC_SAMPLE
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#undef SRC_TYPE
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#define SRC_TYPE UINT8
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#define SRC_CHANNELS 2
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#define SRC_SAMPLE(x) ((((pS[x * 2] - 0x80) << 8) + ((pS[(x * 2) + 1] - 0x80) << 8)) >> 1)
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INT32 Convert_8S_ToBT_Filtered (UINT8 *pSrc, void *pDst, UINT32 dwSrcSamples,
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UINT32 dwSrcSps, INT32 *pLastCurPos, UINT8 *pOverlapArea)
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{
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INT32 CurrentPos = *pLastCurPos;
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SRC_TYPE *pIn, *pInEnd;
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SRC_TYPE *pOv, *pOvEnd;
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INT16 *psBtOut = (INT16 *)pDst;
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#if BTA_DM_SCO_DEBUG
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APPL_TRACE_DEBUG("Convert_8S_ToBT_Filtered CurrentPos %d, SRC_TYPE %d, SRC_CHANNELS %d, \
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dwSrcSamples %d, dwSrcSps %d", CurrentPos, sizeof (SRC_TYPE), SRC_CHANNELS, \
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dwSrcSamples, dwSrcSps);
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#endif
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memcpy (pOverlapArea + (BTA_DM_PCM_OVERLAP_SIZE * 2), pSrc, BTA_DM_PCM_OVERLAP_SIZE * 2);
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pOv = (SRC_TYPE *)(pOverlapArea + BTA_DM_PCM_OVERLAP_SIZE);
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pOvEnd = (SRC_TYPE *)(pOverlapArea + (BTA_DM_PCM_OVERLAP_SIZE * 3));
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pIn = (SRC_TYPE *)(pSrc + BTA_DM_PCM_OVERLAP_SIZE);
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pInEnd = (SRC_TYPE *)(pSrc + (dwSrcSamples * SRC_CHANNELS * sizeof (SRC_TYPE)) - BTA_DM_PCM_OVERLAP_SIZE);
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if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_44100) {
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CONVERT_44100_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_44100_TO_BLUETOOTH(pIn, pInEnd);
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} else if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_22050) {
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CONVERT_22050_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_22050_TO_BLUETOOTH(pIn, pInEnd);
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} else if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_11025) {
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CONVERT_11025_TO_BLUETOOTH(pOv, pOvEnd);
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CONVERT_11025_TO_BLUETOOTH(pIn, pInEnd);
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}
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memcpy (pOverlapArea, pSrc + (dwSrcSamples * SRC_CHANNELS * sizeof (SRC_TYPE)) - \
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(BTA_DM_PCM_OVERLAP_SIZE * 2), BTA_DM_PCM_OVERLAP_SIZE * 2);
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*pLastCurPos = CurrentPos;
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return (psBtOut - (INT16 *)pDst);
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}
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INT32 Convert_8S_ToBT_NoFilter (void *pSrc, void *pDst, UINT32 dwSrcSamples, UINT32 dwSrcSps)
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{
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INT32 CurrentPos;
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UINT8 *pbSrc = (UINT8 *)pSrc;
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INT16 *psDst = (INT16 *)pDst;
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INT16 sWorker, sWorker2;
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// start at dwSpsSrc / 2, decrement by 8000
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//
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CurrentPos = (dwSrcSps >> 1);
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while (dwSrcSamples--) {
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CurrentPos -= 8000;
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if (CurrentPos >= 0) {
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|
pbSrc += 2;
|
|
} else {
|
|
sWorker = *(unsigned char *)pbSrc;
|
|
sWorker -= 0x80;
|
|
sWorker <<= 8;
|
|
pbSrc++;
|
|
|
|
sWorker2 = *(unsigned char *)pbSrc;
|
|
sWorker2 -= 0x80;
|
|
sWorker2 <<= 8;
|
|
pbSrc++;
|
|
|
|
sWorker += sWorker2;
|
|
sWorker >>= 1;
|
|
|
|
*psDst++ = sWorker;
|
|
|
|
CurrentPos += dwSrcSps;
|
|
}
|
|
}
|
|
|
|
return (psDst - (INT16 *)pDst);
|
|
}
|
|
|
|
|
|
////////////////////////////////////////////////////////////////////////////////////////////////////
|
|
//
|
|
#undef SRC_CHANNELS
|
|
#undef SRC_SAMPLE
|
|
#undef SRC_TYPE
|
|
|
|
#define SRC_TYPE INT16
|
|
#define SRC_CHANNELS 2
|
|
#define SRC_SAMPLE(x) ((pS[x * 2] + pS[(x * 2) + 1]) >> 1)
|
|
|
|
INT32 Convert_16S_ToBT_Filtered (UINT8 *pSrc, void *pDst, UINT32 dwSrcSamples,
|
|
UINT32 dwSrcSps, INT32 *pLastCurPos, UINT8 *pOverlapArea)
|
|
{
|
|
INT32 CurrentPos = *pLastCurPos;
|
|
SRC_TYPE *pIn, *pInEnd;
|
|
SRC_TYPE *pOv, *pOvEnd;
|
|
INT16 *psBtOut = (INT16 *)pDst;
|
|
|
|
memcpy (pOverlapArea + (BTA_DM_PCM_OVERLAP_SIZE * 2), pSrc, BTA_DM_PCM_OVERLAP_SIZE * 2);
|
|
|
|
pOv = (SRC_TYPE *)(pOverlapArea + BTA_DM_PCM_OVERLAP_SIZE);
|
|
pOvEnd = (SRC_TYPE *)(pOverlapArea + (BTA_DM_PCM_OVERLAP_SIZE * 3));
|
|
|
|
pIn = (SRC_TYPE *)(pSrc + BTA_DM_PCM_OVERLAP_SIZE);
|
|
pInEnd = (SRC_TYPE *)(pSrc + (dwSrcSamples * SRC_CHANNELS * sizeof (SRC_TYPE)) - BTA_DM_PCM_OVERLAP_SIZE);
|
|
|
|
if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_44100) {
|
|
CONVERT_44100_TO_BLUETOOTH(pOv, pOvEnd);
|
|
CONVERT_44100_TO_BLUETOOTH(pIn, pInEnd);
|
|
} else if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_22050) {
|
|
CONVERT_22050_TO_BLUETOOTH(pOv, pOvEnd);
|
|
CONVERT_22050_TO_BLUETOOTH(pIn, pInEnd);
|
|
} else if (dwSrcSps == BTA_DM_PCM_SMPL_RATE_11025) {
|
|
CONVERT_11025_TO_BLUETOOTH(pOv, pOvEnd);
|
|
CONVERT_11025_TO_BLUETOOTH(pIn, pInEnd);
|
|
}
|
|
|
|
memcpy (pOverlapArea, pSrc + (dwSrcSamples * SRC_CHANNELS * sizeof (SRC_TYPE)) - \
|
|
(BTA_DM_PCM_OVERLAP_SIZE * 2), BTA_DM_PCM_OVERLAP_SIZE * 2);
|
|
|
|
*pLastCurPos = CurrentPos;
|
|
|
|
return (psBtOut - (INT16 *)pDst);
|
|
}
|
|
|
|
INT32 Convert_16S_ToBT_NoFilter (void *pSrc, void *pDst, UINT32 dwSrcSamples, UINT32 dwSrcSps)
|
|
{
|
|
INT32 CurrentPos;
|
|
INT16 *psSrc = (INT16 *)pSrc;
|
|
INT16 *psDst = (INT16 *)pDst;
|
|
INT16 sWorker;
|
|
|
|
// start at dwSpsSrc / 2, decrement by 8000
|
|
//
|
|
CurrentPos = (dwSrcSps >> 1);
|
|
|
|
while (dwSrcSamples--) {
|
|
CurrentPos -= 8000;
|
|
|
|
if (CurrentPos >= 0) {
|
|
psSrc += 2;
|
|
} else {
|
|
/* CR 82894, to avoid overflow, divide before add */
|
|
sWorker = ((*psSrc) >> 1 );
|
|
psSrc++;
|
|
sWorker += ((*psSrc) >> 1 );
|
|
psSrc++;
|
|
|
|
*psDst++ = sWorker;
|
|
|
|
CurrentPos += dwSrcSps;
|
|
}
|
|
}
|
|
|
|
return (psDst - (INT16 *)pDst);
|
|
}
|
|
|
|
/*******************************************************************************
|
|
**
|
|
** Function BTA_DmPcmInitSamples
|
|
**
|
|
** Description initialize the down sample converter.
|
|
**
|
|
** src_sps: original samples per second (source audio data)
|
|
** (ex. 44100, 48000)
|
|
** bits: number of bits per pcm sample (16)
|
|
** n_channels: number of channels (i.e. mono(1), stereo(2)...)
|
|
**
|
|
** Returns none
|
|
**
|
|
*******************************************************************************/
|
|
void BTA_DmPcmInitSamples (UINT32 src_sps, UINT32 bits, UINT32 n_channels)
|
|
{
|
|
if ((p_bta_dm_pcm_cb = (tBTA_DM_PCM_RESAMPLE_CB *)osi_malloc(sizeof(tBTA_DM_PCM_RESAMPLE_CB))) == NULL) {
|
|
APPL_TRACE_ERROR("%s malloc failed!", __func__);
|
|
return;
|
|
}
|
|
tBTA_DM_PCM_RESAMPLE_CB *p_cb = p_bta_dm_pcm_cb;
|
|
|
|
p_cb->cur_pos = src_sps / 2;
|
|
p_cb->src_sps = src_sps;
|
|
p_cb->bits = bits;
|
|
p_cb->n_channels = n_channels;
|
|
p_cb->sample_size = 2;
|
|
p_cb->divisor = 2;
|
|
|
|
memset(p_cb->overlap_area, 0, sizeof(p_cb->overlap_area) );
|
|
|
|
if ((src_sps == BTA_DM_PCM_SMPL_RATE_44100) ||
|
|
(src_sps == BTA_DM_PCM_SMPL_RATE_22050) ||
|
|
(src_sps == BTA_DM_PCM_SMPL_RATE_11025)) {
|
|
p_cb->can_be_filtered = 1;
|
|
} else {
|
|
p_cb->can_be_filtered = 0;
|
|
}
|
|
|
|
#if BTA_DM_SCO_DEBUG
|
|
APPL_TRACE_DEBUG("bta_dm_pcm_init_samples: n_channels = %d bits = %d", n_channels, bits);
|
|
#endif
|
|
if (n_channels == 1) {
|
|
/* mono */
|
|
if (bits == 8) {
|
|
p_cb->filter = (PCONVERT_TO_BT_FILTERED) Convert_8M_ToBT_Filtered;
|
|
p_cb->nofilter = (PCONVERT_TO_BT_NOFILTER) Convert_8M_ToBT_NoFilter;
|
|
p_cb->divisor = 1;
|
|
} else {
|
|
p_cb->filter = (PCONVERT_TO_BT_FILTERED) Convert_16M_ToBT_Filtered;
|
|
p_cb->nofilter = (PCONVERT_TO_BT_NOFILTER) Convert_16M_ToBT_NoFilter;
|
|
}
|
|
} else {
|
|
/* stereo */
|
|
if (bits == 8) {
|
|
p_cb->filter = (PCONVERT_TO_BT_FILTERED) Convert_8S_ToBT_Filtered;
|
|
p_cb->nofilter = (PCONVERT_TO_BT_NOFILTER) Convert_8S_ToBT_NoFilter;
|
|
} else {
|
|
p_cb->filter = (PCONVERT_TO_BT_FILTERED) Convert_16S_ToBT_Filtered;
|
|
p_cb->nofilter = (PCONVERT_TO_BT_NOFILTER) Convert_16S_ToBT_NoFilter;
|
|
p_cb->divisor = 4;
|
|
}
|
|
}
|
|
|
|
#if BTA_DM_SCO_DEBUG
|
|
APPL_TRACE_DEBUG("bta_pcm_init_dwn_sample: cur_pos %d, src_sps %d", \
|
|
p_cb->cur_pos, p_cb->src_sps);
|
|
APPL_TRACE_DEBUG("bta_pcm_init_dwn_sample: bits %d, n_channels %d, sample_size %d, ", \
|
|
p_cb->bits, p_cb->n_channels, p_cb->sample_size);
|
|
APPL_TRACE_DEBUG("bta_pcm_init_dwn_sample: can_be_filtered %d, n_channels: %d, \
|
|
divisor %d", p_cb->can_be_filtered, p_cb->n_channels, p_cb->divisor);
|
|
#endif
|
|
|
|
}
|
|
|
|
/*******************************************************************************
|
|
**
|
|
** Function BTA_DmPcmDeinitSamples
|
|
**
|
|
** Description Deinitialize the down sample converter.
|
|
**
|
|
** Returns none
|
|
**
|
|
*******************************************************************************/
|
|
void BTA_DmPcmDeinitSamples(void) {
|
|
osi_free(p_bta_dm_pcm_cb);
|
|
p_bta_dm_pcm_cb = NULL;
|
|
}
|
|
|
|
/**************************************************************************************
|
|
** Function BTA_DmPcmResample
|
|
**
|
|
** Description Down sampling utility to convert higher sampling rate into 8K/16bits
|
|
** PCM samples.
|
|
**
|
|
** Parameters p_src: pointer to the buffer where the original sampling PCM
|
|
** are stored.
|
|
** in_bytes: Length of the input PCM sample buffer in byte.
|
|
** p_dst: pointer to the buffer which is to be used to store
|
|
** the converted PCM samples.
|
|
**
|
|
**
|
|
** Returns INT32: number of samples converted.
|
|
**
|
|
**************************************************************************************/
|
|
INT32 BTA_DmPcmResample (void *p_src, UINT32 in_bytes, void *p_dst)
|
|
{
|
|
UINT32 out_sample;
|
|
|
|
#if BTA_DM_SCO_DEBUG
|
|
APPL_TRACE_DEBUG("bta_pcm_resample : insamples %d", (in_bytes / p_bta_dm_pcm_cb->divisor));
|
|
#endif
|
|
if (p_bta_dm_pcm_cb->can_be_filtered) {
|
|
out_sample = (*p_bta_dm_pcm_cb->filter) (p_src, p_dst, (in_bytes / p_bta_dm_pcm_cb->divisor),
|
|
p_bta_dm_pcm_cb->src_sps, (INT32 *) &(p_bta_dm_pcm_cb->cur_pos), p_bta_dm_pcm_cb->overlap_area);
|
|
} else {
|
|
out_sample = (*p_bta_dm_pcm_cb->nofilter) (p_src, p_dst,
|
|
(in_bytes / p_bta_dm_pcm_cb->divisor), p_bta_dm_pcm_cb->src_sps);
|
|
}
|
|
|
|
#if BTA_DM_SCO_DEBUG
|
|
APPL_TRACE_DEBUG("bta_pcm_resample : outsamples %d", out_sample);
|
|
#endif
|
|
|
|
return (out_sample);
|
|
}
|
|
#endif
|