/*************************************************************************** * * Copyright 2015-2019 BES. * All rights reserved. All unpublished rights reserved. * * No part of this work may be used or reproduced in any form or by any * means, or stored in a database or retrieval system, without prior written * permission of BES. * * Use of this work is governed by a license granted by BES. * This work contains confidential and proprietary information of * BES. which is protected by copyright, trade secret, * trademark and other intellectual property rights. * ****************************************************************************/ #include "resample_coef.h" #include "hal_location.h" #include "plat_types.h" #define COEF_DEF(n) FLASH_RODATA_DEF(n) static const int16_t COEF_DEF(filter_50p7k_to_48k)[] = { #include "resample_50p7k_to_48k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_50p7k_to_48k) = { .upsample_factor = 69, .downsample_factor = 73, .phase_coef_num = 6, .total_coef_num = ARRAY_SIZE(filter_50p7k_to_48k), .coef_group = filter_50p7k_to_48k, }; static const int16_t COEF_DEF(filter_50p7k_to_44p1k)[] = { #include "resample_50p7k_to_44p1k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_50p7k_to_44p1k) = { .upsample_factor = 33, .downsample_factor = 38, .phase_coef_num = 6, .total_coef_num = ARRAY_SIZE(filter_50p7k_to_44p1k), .coef_group = filter_50p7k_to_44p1k, }; static const int16_t COEF_DEF(filter_44p1k_to_48k)[] = { #include "resample_44p1k_to_48k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_44p1k_to_48k) = { .upsample_factor = 160, .downsample_factor = 147, .phase_coef_num = 8, .total_coef_num = ARRAY_SIZE(filter_44p1k_to_48k), .coef_group = filter_44p1k_to_48k, }; static const int16_t COEF_DEF(filter_48k_to_44p1k)[] = { #include "resample_48k_to_44p1k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_48k_to_44p1k) = { .upsample_factor = 147, .downsample_factor = 160, .phase_coef_num = 8, .total_coef_num = ARRAY_SIZE(filter_48k_to_44p1k), .coef_group = filter_48k_to_44p1k, }; static const int16_t COEF_DEF(filter_32k_to_50p7k)[] = { #include "resample_32k_to_50p7k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_32k_to_50p7k) = { .upsample_factor = 73, .downsample_factor = 46, .phase_coef_num = 24, .total_coef_num = ARRAY_SIZE(filter_32k_to_50p7k), .coef_group = filter_32k_to_50p7k, }; static const int16_t COEF_DEF(filter_44p1k_to_50p7k)[] = { #include "resample_44p1k_to_50p7k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_44p1k_to_50p7k) = { .upsample_factor = 38, .downsample_factor = 33, .phase_coef_num = 24, .total_coef_num = ARRAY_SIZE(filter_44p1k_to_50p7k), .coef_group = filter_44p1k_to_50p7k, }; static const int16_t COEF_DEF(filter_48k_to_50p7k)[] = { #include "resample_48k_to_50p7k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_48k_to_50p7k) = { .upsample_factor = 73, .downsample_factor = 69, .phase_coef_num = 24, .total_coef_num = ARRAY_SIZE(filter_48k_to_50p7k), .coef_group = filter_48k_to_50p7k, }; static const int16_t COEF_DEF(filter_8k_to_8p4k)[] = { #include "resample_8k_to_8p4k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_8k_to_8p4k) = { .upsample_factor = 73, .downsample_factor = 69, .phase_coef_num = 18, .total_coef_num = ARRAY_SIZE(filter_8k_to_8p4k), .coef_group = filter_8k_to_8p4k, }; static const int16_t COEF_DEF(filter_8p4k_to_8k)[] = { #include "resample_8p4k_to_8k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_8p4k_to_8k) = { .upsample_factor = 69, .downsample_factor = 73, .phase_coef_num = 16, .total_coef_num = ARRAY_SIZE(filter_8p4k_to_8k), .coef_group = filter_8p4k_to_8k, }; static const int16_t COEF_DEF(filter_16k_to_48k)[] = { #include "resample_16k_to_48k_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_16k_to_48k) = { .upsample_factor = 3, .downsample_factor = 1, .phase_coef_num = 30, .total_coef_num = ARRAY_SIZE(filter_16k_to_48k), .coef_group = filter_16k_to_48k, }; #ifdef RESAMPLE_ANY_SAMPLE_RATE static const int16_t COEF_DEF(filter_any_up64)[] = { #include "resample_any_up64_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_any_up64) = { .upsample_factor = 64, .downsample_factor = 0, .phase_coef_num = 32, .total_coef_num = ARRAY_SIZE(filter_any_up64), .coef_group = filter_any_up64, }; static const int16_t COEF_DEF(filter_any_up256)[] = { #include "resample_any_up256_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_any_up256) = { .upsample_factor = 256, .downsample_factor = 0, .phase_coef_num = 24, .total_coef_num = ARRAY_SIZE(filter_any_up256), .coef_group = filter_any_up256, }; static const int16_t COEF_DEF(filter_any_up512_32)[] = { #include "resample_any_up512_32_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_any_up512_32) = { .upsample_factor = 512, .downsample_factor = 0, .phase_coef_num = 32, .total_coef_num = ARRAY_SIZE(filter_any_up512_32), .coef_group = filter_any_up512_32, }; static const int16_t COEF_DEF(filter_any_up512_36)[] = { #include "resample_any_up512_36_filter.txt" }; const struct RESAMPLE_COEF_T COEF_DEF(resample_coef_any_up512_36) = { .upsample_factor = 512, .downsample_factor = 0, .phase_coef_num = 36, .total_coef_num = ARRAY_SIZE(filter_any_up512_36), .coef_group = filter_any_up512_36, }; #endif