/* * Copyright (C) 2004-2010 NXP Software * Copyright (C) 2010 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ /************************************************************************************/ /* */ /* Includes */ /* */ /************************************************************************************/ #include "LVCS_Private.h" #include "Filters.h" /* Filter definitions */ #include "BIQUAD.h" /* Biquad definitions */ #include "LVCS_Headphone_Coeffs.h" /* Headphone coefficients */ /************************************************************************************/ /* */ /* Stereo Enhancer coefficient constant tables */ /* */ /************************************************************************************/ /* Coefficient table for the middle filter */ const BiquadA01B1CoefsSP_t LVCS_SEMidCoefTable[] = { {CS_MIDDLE_8000_A0, /* 8kS/s coefficients */ CS_MIDDLE_8000_A1, CS_MIDDLE_8000_B1, (LVM_UINT16 )CS_MIDDLE_8000_SCALE}, {CS_MIDDLE_11025_A0, /* 11kS/s coefficients */ CS_MIDDLE_11025_A1, CS_MIDDLE_11025_B1, (LVM_UINT16 )CS_MIDDLE_11025_SCALE}, {CS_MIDDLE_12000_A0, /* 12kS/s coefficients */ CS_MIDDLE_12000_A1, CS_MIDDLE_12000_B1, (LVM_UINT16 )CS_MIDDLE_12000_SCALE}, {CS_MIDDLE_16000_A0, /* 16kS/s coefficients */ CS_MIDDLE_16000_A1, CS_MIDDLE_16000_B1, (LVM_UINT16 )CS_MIDDLE_16000_SCALE}, {CS_MIDDLE_22050_A0, /* 22kS/s coefficients */ CS_MIDDLE_22050_A1, CS_MIDDLE_22050_B1, (LVM_UINT16 )CS_MIDDLE_22050_SCALE}, {CS_MIDDLE_24000_A0, /* 24kS/s coefficients */ CS_MIDDLE_24000_A1, CS_MIDDLE_24000_B1, (LVM_UINT16 )CS_MIDDLE_24000_SCALE}, {CS_MIDDLE_32000_A0, /* 32kS/s coefficients */ CS_MIDDLE_32000_A1, CS_MIDDLE_32000_B1, (LVM_UINT16 )CS_MIDDLE_32000_SCALE}, {CS_MIDDLE_44100_A0, /* 44kS/s coefficients */ CS_MIDDLE_44100_A1, CS_MIDDLE_44100_B1, (LVM_UINT16 )CS_MIDDLE_44100_SCALE}, {CS_MIDDLE_48000_A0, /* 48kS/s coefficients */ CS_MIDDLE_48000_A1, CS_MIDDLE_48000_B1, (LVM_UINT16 )CS_MIDDLE_48000_SCALE} #ifdef HIGHER_FS , {CS_MIDDLE_88200_A0, /* 88kS/s coefficients */ CS_MIDDLE_88200_A1, CS_MIDDLE_88200_B1, (LVM_UINT16)CS_MIDDLE_88200_SCALE}, {CS_MIDDLE_96000_A0, /* 96kS/s coefficients */ CS_MIDDLE_96000_A1, CS_MIDDLE_96000_B1, (LVM_UINT16 )CS_MIDDLE_96000_SCALE}, {CS_MIDDLE_176400_A0, /* 176kS/s coefficients */ CS_MIDDLE_176400_A1, CS_MIDDLE_176400_B1, (LVM_UINT16)CS_MIDDLE_176400_SCALE}, {CS_MIDDLE_192000_A0, /* 192kS/s coefficients */ CS_MIDDLE_192000_A1, CS_MIDDLE_192000_B1, (LVM_UINT16 )CS_MIDDLE_192000_SCALE} #endif }; /* Coefficient table for the side filter */ const BiquadA012B12CoefsSP_t LVCS_SESideCoefTable[] = { /* Headphone Side coefficients */ {CS_SIDE_8000_A0, /* 8kS/s coefficients */ CS_SIDE_8000_A1, CS_SIDE_8000_A2, CS_SIDE_8000_B1, CS_SIDE_8000_B2, (LVM_UINT16 )CS_SIDE_8000_SCALE}, {CS_SIDE_11025_A0, /* 11kS/s coefficients */ CS_SIDE_11025_A1, CS_SIDE_11025_A2, CS_SIDE_11025_B1, CS_SIDE_11025_B2, (LVM_UINT16 )CS_SIDE_11025_SCALE}, {CS_SIDE_12000_A0, /* 12kS/s coefficients */ CS_SIDE_12000_A1, CS_SIDE_12000_A2, CS_SIDE_12000_B1, CS_SIDE_12000_B2, (LVM_UINT16 )CS_SIDE_12000_SCALE}, {CS_SIDE_16000_A0, /* 16kS/s coefficients */ CS_SIDE_16000_A1, CS_SIDE_16000_A2, CS_SIDE_16000_B1, CS_SIDE_16000_B2, (LVM_UINT16 )CS_SIDE_16000_SCALE}, {CS_SIDE_22050_A0, /* 22kS/s coefficients */ CS_SIDE_22050_A1, CS_SIDE_22050_A2, CS_SIDE_22050_B1, CS_SIDE_22050_B2, (LVM_UINT16 )CS_SIDE_22050_SCALE}, {CS_SIDE_24000_A0, /* 24kS/s coefficients */ CS_SIDE_24000_A1, CS_SIDE_24000_A2, CS_SIDE_24000_B1, CS_SIDE_24000_B2, (LVM_UINT16 )CS_SIDE_24000_SCALE}, {CS_SIDE_32000_A0, /* 32kS/s coefficients */ CS_SIDE_32000_A1, CS_SIDE_32000_A2, CS_SIDE_32000_B1, CS_SIDE_32000_B2, (LVM_UINT16 )CS_SIDE_32000_SCALE}, {CS_SIDE_44100_A0, /* 44kS/s coefficients */ CS_SIDE_44100_A1, CS_SIDE_44100_A2, CS_SIDE_44100_B1, CS_SIDE_44100_B2, (LVM_UINT16 )CS_SIDE_44100_SCALE}, {CS_SIDE_48000_A0, /* 48kS/s coefficients */ CS_SIDE_48000_A1, CS_SIDE_48000_A2, CS_SIDE_48000_B1, CS_SIDE_48000_B2, (LVM_UINT16 )CS_SIDE_48000_SCALE} #ifdef HIGHER_FS , {CS_SIDE_88200_A0, /* 88kS/s coefficients */ CS_SIDE_88200_A1, CS_SIDE_88200_A2, CS_SIDE_88200_B1, CS_SIDE_88200_B2, (LVM_UINT16)CS_SIDE_88200_SCALE}, {CS_SIDE_96000_A0, /* 96kS/s coefficients */ CS_SIDE_96000_A1, CS_SIDE_96000_A2, CS_SIDE_96000_B1, CS_SIDE_96000_B2, (LVM_UINT16 )CS_SIDE_96000_SCALE}, {CS_SIDE_176400_A0, /*176kS/s coefficients */ CS_SIDE_176400_A1, CS_SIDE_176400_A2, CS_SIDE_176400_B1, CS_SIDE_176400_B2, (LVM_UINT16)CS_SIDE_176400_SCALE}, {CS_SIDE_192000_A0, /* 192kS/s coefficients */ CS_SIDE_192000_A1, CS_SIDE_192000_A2, CS_SIDE_192000_B1, CS_SIDE_192000_B2, (LVM_UINT16 )CS_SIDE_192000_SCALE} #endif }; /************************************************************************************/ /* */ /* Equaliser coefficient constant tables */ /* */ /************************************************************************************/ const BiquadA012B12CoefsSP_t LVCS_EqualiserCoefTable[] = { /* Headphone coefficients */ {CS_EQUALISER_8000_A0, /* 8kS/s coefficients */ CS_EQUALISER_8000_A1, CS_EQUALISER_8000_A2, CS_EQUALISER_8000_B1, CS_EQUALISER_8000_B2, (LVM_UINT16 )CS_EQUALISER_8000_SCALE}, {CS_EQUALISER_11025_A0, /* 11kS/s coefficients */ CS_EQUALISER_11025_A1, CS_EQUALISER_11025_A2, CS_EQUALISER_11025_B1, CS_EQUALISER_11025_B2, (LVM_UINT16 )CS_EQUALISER_11025_SCALE}, {CS_EQUALISER_12000_A0, /* 12kS/s coefficients */ CS_EQUALISER_12000_A1, CS_EQUALISER_12000_A2, CS_EQUALISER_12000_B1, CS_EQUALISER_12000_B2, (LVM_UINT16 )CS_EQUALISER_12000_SCALE}, {CS_EQUALISER_16000_A0, /* 16kS/s coefficients */ CS_EQUALISER_16000_A1, CS_EQUALISER_16000_A2, CS_EQUALISER_16000_B1, CS_EQUALISER_16000_B2, (LVM_UINT16 )CS_EQUALISER_16000_SCALE}, {CS_EQUALISER_22050_A0, /* 22kS/s coefficients */ CS_EQUALISER_22050_A1, CS_EQUALISER_22050_A2, CS_EQUALISER_22050_B1, CS_EQUALISER_22050_B2, (LVM_UINT16 )CS_EQUALISER_22050_SCALE}, {CS_EQUALISER_24000_A0, /* 24kS/s coefficients */ CS_EQUALISER_24000_A1, CS_EQUALISER_24000_A2, CS_EQUALISER_24000_B1, CS_EQUALISER_24000_B2, (LVM_UINT16 )CS_EQUALISER_24000_SCALE}, {CS_EQUALISER_32000_A0, /* 32kS/s coefficients */ CS_EQUALISER_32000_A1, CS_EQUALISER_32000_A2, CS_EQUALISER_32000_B1, CS_EQUALISER_32000_B2, (LVM_UINT16 )CS_EQUALISER_32000_SCALE}, {CS_EQUALISER_44100_A0, /* 44kS/s coefficients */ CS_EQUALISER_44100_A1, CS_EQUALISER_44100_A2, CS_EQUALISER_44100_B1, CS_EQUALISER_44100_B2, (LVM_UINT16 )CS_EQUALISER_44100_SCALE}, {CS_EQUALISER_48000_A0, /* 48kS/s coefficients */ CS_EQUALISER_48000_A1, CS_EQUALISER_48000_A2, CS_EQUALISER_48000_B1, CS_EQUALISER_48000_B2, (LVM_UINT16 )CS_EQUALISER_48000_SCALE}, #ifdef HIGHER_FS {CS_EQUALISER_88200_A0, /* 88kS/s coeffieients */ CS_EQUALISER_88200_A1, CS_EQUALISER_88200_A2, CS_EQUALISER_88200_B1, CS_EQUALISER_88200_B2, (LVM_UINT16)CS_EQUALISER_88200_SCALE}, {CS_EQUALISER_96000_A0, /* 96kS/s coefficients */ CS_EQUALISER_96000_A1, CS_EQUALISER_96000_A2, CS_EQUALISER_96000_B1, CS_EQUALISER_96000_B2, (LVM_UINT16 )CS_EQUALISER_96000_SCALE}, {CS_EQUALISER_176400_A0, /* 176kS/s coefficients */ CS_EQUALISER_176400_A1, CS_EQUALISER_176400_A2, CS_EQUALISER_176400_B1, CS_EQUALISER_176400_B2, (LVM_UINT16)CS_EQUALISER_176400_SCALE}, {CS_EQUALISER_192000_A0, /* 192kS/s coefficients */ CS_EQUALISER_192000_A1, CS_EQUALISER_192000_A2, CS_EQUALISER_192000_B1, CS_EQUALISER_192000_B2, (LVM_UINT16 )CS_EQUALISER_192000_SCALE}, #endif /* Concert Sound EX Headphone coefficients */ {CSEX_EQUALISER_8000_A0, /* 8kS/s coefficients */ CSEX_EQUALISER_8000_A1, CSEX_EQUALISER_8000_A2, CSEX_EQUALISER_8000_B1, CSEX_EQUALISER_8000_B2, (LVM_UINT16 )CSEX_EQUALISER_8000_SCALE}, {CSEX_EQUALISER_11025_A0, /* 11kS/s coefficients */ CSEX_EQUALISER_11025_A1, CSEX_EQUALISER_11025_A2, CSEX_EQUALISER_11025_B1, CSEX_EQUALISER_11025_B2, (LVM_UINT16 )CSEX_EQUALISER_11025_SCALE}, {CSEX_EQUALISER_12000_A0, /* 12kS/s coefficients */ CSEX_EQUALISER_12000_A1, CSEX_EQUALISER_12000_A2, CSEX_EQUALISER_12000_B1, CSEX_EQUALISER_12000_B2, (LVM_UINT16 )CSEX_EQUALISER_12000_SCALE}, {CSEX_EQUALISER_16000_A0, /* 16kS/s coefficients */ CSEX_EQUALISER_16000_A1, CSEX_EQUALISER_16000_A2, CSEX_EQUALISER_16000_B1, CSEX_EQUALISER_16000_B2, (LVM_UINT16 )CSEX_EQUALISER_16000_SCALE}, {CSEX_EQUALISER_22050_A0, /* 22kS/s coefficients */ CSEX_EQUALISER_22050_A1, CSEX_EQUALISER_22050_A2, CSEX_EQUALISER_22050_B1, CSEX_EQUALISER_22050_B2, (LVM_UINT16 )CSEX_EQUALISER_22050_SCALE}, {CSEX_EQUALISER_24000_A0, /* 24kS/s coefficients */ CSEX_EQUALISER_24000_A1, CSEX_EQUALISER_24000_A2, CSEX_EQUALISER_24000_B1, CSEX_EQUALISER_24000_B2, (LVM_UINT16 )CSEX_EQUALISER_24000_SCALE}, {CSEX_EQUALISER_32000_A0, /* 32kS/s coefficients */ CSEX_EQUALISER_32000_A1, CSEX_EQUALISER_32000_A2, CSEX_EQUALISER_32000_B1, CSEX_EQUALISER_32000_B2, (LVM_UINT16 )CSEX_EQUALISER_32000_SCALE}, {CSEX_EQUALISER_44100_A0, /* 44kS/s coefficients */ CSEX_EQUALISER_44100_A1, CSEX_EQUALISER_44100_A2, CSEX_EQUALISER_44100_B1, CSEX_EQUALISER_44100_B2, (LVM_UINT16 )CSEX_EQUALISER_44100_SCALE}, {CSEX_EQUALISER_48000_A0, /* 48kS/s coefficients */ CSEX_EQUALISER_48000_A1, CSEX_EQUALISER_48000_A2, CSEX_EQUALISER_48000_B1, CSEX_EQUALISER_48000_B2, (LVM_UINT16 )CSEX_EQUALISER_48000_SCALE} #ifdef HIGHER_FS , {CSEX_EQUALISER_88200_A0, /* 88kS/s coefficients */ CSEX_EQUALISER_88200_A1, CSEX_EQUALISER_88200_A2, CSEX_EQUALISER_88200_B1, CSEX_EQUALISER_88200_B2, (LVM_UINT16)CSEX_EQUALISER_88200_SCALE}, {CSEX_EQUALISER_96000_A0, /* 96kS/s coefficients */ CSEX_EQUALISER_96000_A1, CSEX_EQUALISER_96000_A2, CSEX_EQUALISER_96000_B1, CSEX_EQUALISER_96000_B2, (LVM_UINT16 )CSEX_EQUALISER_96000_SCALE}, {CSEX_EQUALISER_176400_A0, /* 176kS/s coefficients */ CSEX_EQUALISER_176400_A1, CSEX_EQUALISER_176400_A2, CSEX_EQUALISER_176400_B1, CSEX_EQUALISER_176400_B2, (LVM_UINT16)CSEX_EQUALISER_176400_SCALE}, {CSEX_EQUALISER_192000_A0, /* 192kS/s coefficients */ CSEX_EQUALISER_192000_A1, CSEX_EQUALISER_192000_A2, CSEX_EQUALISER_192000_B1, CSEX_EQUALISER_192000_B2, (LVM_UINT16 )CSEX_EQUALISER_192000_SCALE} #endif }; /************************************************************************************/ /* */ /* Reverb delay constant tables */ /* */ /************************************************************************************/ /* Stereo delay table for Concert Sound */ const LVM_UINT16 LVCS_StereoDelayCS[] = { LVCS_STEREODELAY_CS_8KHZ, LVCS_STEREODELAY_CS_11KHZ, LVCS_STEREODELAY_CS_12KHZ, LVCS_STEREODELAY_CS_16KHZ, LVCS_STEREODELAY_CS_22KHZ, LVCS_STEREODELAY_CS_24KHZ, LVCS_STEREODELAY_CS_32KHZ, LVCS_STEREODELAY_CS_44KHZ, LVCS_STEREODELAY_CS_48KHZ, LVCS_STEREODELAY_CS_88KHZ, LVCS_STEREODELAY_CS_96KHZ, LVCS_STEREODELAY_CS_176KHZ, LVCS_STEREODELAY_CS_192KHZ, }; /************************************************************************************/ /* */ /* Reverb coefficients constant table */ /* */ /************************************************************************************/ const BiquadA012B12CoefsSP_t LVCS_ReverbCoefTable[] = { /* Headphone coefficients */ {CS_REVERB_8000_A0, /* 8kS/s coefficients */ CS_REVERB_8000_A1, CS_REVERB_8000_A2, CS_REVERB_8000_B1, CS_REVERB_8000_B2, (LVM_UINT16 )CS_REVERB_8000_SCALE}, {CS_REVERB_11025_A0, /* 11kS/s coefficients */ CS_REVERB_11025_A1, CS_REVERB_11025_A2, CS_REVERB_11025_B1, CS_REVERB_11025_B2, (LVM_UINT16 )CS_REVERB_11025_SCALE}, {CS_REVERB_12000_A0, /* 12kS/s coefficients */ CS_REVERB_12000_A1, CS_REVERB_12000_A2, CS_REVERB_12000_B1, CS_REVERB_12000_B2, (LVM_UINT16 )CS_REVERB_12000_SCALE}, {CS_REVERB_16000_A0, /* 16kS/s coefficients */ CS_REVERB_16000_A1, CS_REVERB_16000_A2, CS_REVERB_16000_B1, CS_REVERB_16000_B2, (LVM_UINT16 )CS_REVERB_16000_SCALE}, {CS_REVERB_22050_A0, /* 22kS/s coefficients */ CS_REVERB_22050_A1, CS_REVERB_22050_A2, CS_REVERB_22050_B1, CS_REVERB_22050_B2, (LVM_UINT16 )CS_REVERB_22050_SCALE}, {CS_REVERB_24000_A0, /* 24kS/s coefficients */ CS_REVERB_24000_A1, CS_REVERB_24000_A2, CS_REVERB_24000_B1, CS_REVERB_24000_B2, (LVM_UINT16 )CS_REVERB_24000_SCALE}, {CS_REVERB_32000_A0, /* 32kS/s coefficients */ CS_REVERB_32000_A1, CS_REVERB_32000_A2, CS_REVERB_32000_B1, CS_REVERB_32000_B2, (LVM_UINT16 )CS_REVERB_32000_SCALE}, {CS_REVERB_44100_A0, /* 44kS/s coefficients */ CS_REVERB_44100_A1, CS_REVERB_44100_A2, CS_REVERB_44100_B1, CS_REVERB_44100_B2, (LVM_UINT16 )CS_REVERB_44100_SCALE}, {CS_REVERB_48000_A0, /* 48kS/s coefficients */ CS_REVERB_48000_A1, CS_REVERB_48000_A2, CS_REVERB_48000_B1, CS_REVERB_48000_B2, (LVM_UINT16 )CS_REVERB_48000_SCALE} #ifdef HIGHER_FS , {CS_REVERB_88200_A0, /* 88kS/s coefficients */ CS_REVERB_88200_A1, CS_REVERB_88200_A2, CS_REVERB_88200_B1, CS_REVERB_88200_B2, (LVM_UINT16)CS_REVERB_88200_SCALE}, {CS_REVERB_96000_A0, /* 96kS/s coefficients */ CS_REVERB_96000_A1, CS_REVERB_96000_A2, CS_REVERB_96000_B1, CS_REVERB_96000_B2, (LVM_UINT16 )CS_REVERB_96000_SCALE}, {CS_REVERB_176400_A0, /* 176kS/s coefficients */ CS_REVERB_176400_A1, CS_REVERB_176400_A2, CS_REVERB_176400_B1, CS_REVERB_176400_B2, (LVM_UINT16)CS_REVERB_176400_SCALE}, {CS_REVERB_192000_A0, /* 192kS/s coefficients */ CS_REVERB_192000_A1, CS_REVERB_192000_A2, CS_REVERB_192000_B1, CS_REVERB_192000_B2, (LVM_UINT16 )CS_REVERB_192000_SCALE} #endif }; /************************************************************************************/ /* */ /* Bypass mixer constant tables */ /* */ /************************************************************************************/ const Gain_t LVCS_OutputGainTable[] = { {LVCS_HEADPHONE_SHIFT, /* Headphone, stereo mode */ LVCS_HEADPHONE_SHIFTLOSS, LVCS_HEADPHONE_GAIN}, {LVCS_EX_HEADPHONE_SHIFT, /* EX Headphone, stereo mode */ LVCS_EX_HEADPHONE_SHIFTLOSS, LVCS_EX_HEADPHONE_GAIN}, {LVCS_HEADPHONE_SHIFT, /* Headphone, mono mode */ LVCS_HEADPHONE_SHIFTLOSS, LVCS_HEADPHONE_GAIN}, {LVCS_EX_HEADPHONE_SHIFT, /* EX Headphone, mono mode */ LVCS_EX_HEADPHONE_SHIFTLOSS, LVCS_EX_HEADPHONE_GAIN} }; /************************************************************************************/ /* */ /* Volume correction table */ /* */ /* Coefficient order: */ /* Compression 100% effect */ /* Compression 0% effect */ /* Gain 100% effect */ /* Gain 0% effect */ /* */ /* The Compression gain is represented by a Q1.15 number to give a range of 0dB */ /* to +6dB, E.g.: */ /* 0 is 0dB compression (no effect) */ /* 5461 is 1dB compression gain */ /* 10923 is 2dB compression gain */ /* 32767 is 6dB compression gain */ /* */ /* The Gain is represented as a Q3.13 number to give a range of +8 to -infinity */ /* E.g.: */ /* 0 is -infinity */ /* 32767 is +18dB (x8) gain */ /* 4096 is 0dB gain */ /* 1024 is -12dB gain */ /* */ /************************************************************************************/ const LVCS_VolCorrect_t LVCS_VolCorrectTable[] = { #ifdef BUILD_FLOAT {0.433362f, /* Headphone, stereo mode */ 0.000000f, 1.000024f, 1.412640f}, {0.433362f, /* EX Headphone, stereo mode */ 0.000000f, 1.000024f, 1.412640f}, {1.000000f, /* Headphone, mono mode */ 0.000000f, 1.000024f, 1.412640f}, {1.000000f, /* EX Headphone, mono mode */ 0.000000f, 1.000024f, 1.412640f} #else {14200, /* Headphone, stereo mode */ 0, 4096, 5786}, {14200, /* EX Headphone, stereo mode */ 0, 4096, 5786}, {32767, /* Headphone, mono mode */ 0, 4096, 5786}, {32767, /* EX Headphone, mono mode */ 0, 4096, 5786} #endif }; /************************************************************************************/ /* */ /* Mixer time constants, 100ms */ /* */ /************************************************************************************/ #define LVCS_VOL_TC_Fs8000 32580 /* Floating point value 0.994262695 */ #define LVCS_VOL_TC_Fs11025 32632 /* Floating point value 0.995849609 */ #define LVCS_VOL_TC_Fs12000 32643 /* Floating point value 0.996185303 */ #define LVCS_VOL_TC_Fs16000 32674 /* Floating point value 0.997131348 */ #define LVCS_VOL_TC_Fs22050 32700 /* Floating point value 0.997924805 */ #define LVCS_VOL_TC_Fs24000 32705 /* Floating point value 0.998077393 */ #define LVCS_VOL_TC_Fs32000 32721 /* Floating point value 0.998565674 */ #define LVCS_VOL_TC_Fs44100 32734 /* Floating point value 0.998962402 */ #define LVCS_VOL_TC_Fs48000 32737 /* Floating point value 0.999053955 */ #if defined(BUILD_FLOAT) && defined(HIGHER_FS) #define LVCS_VOL_TC_Fs88200 32751 /* Floating point value 0.999481066 */ #define LVCS_VOL_TC_Fs96000 32751 /* Floating point value 0.999511703 */ /* Todo @ need to re check this value*/ #define LVCS_VOL_TC_Fs176400 32759 /* Floating point value 0.999740499 */ #define LVCS_VOL_TC_Fs192000 32763 /* Floating point value 0.999877925 */ /* Todo @ need to re check this value*/ #endif #if defined(BUILD_FLOAT) && defined(HIGHER_FS) const LVM_INT16 LVCS_VolumeTCTable[13] = {LVCS_VOL_TC_Fs8000, LVCS_VOL_TC_Fs11025, LVCS_VOL_TC_Fs12000, LVCS_VOL_TC_Fs16000, LVCS_VOL_TC_Fs22050, LVCS_VOL_TC_Fs24000, LVCS_VOL_TC_Fs32000, LVCS_VOL_TC_Fs44100, LVCS_VOL_TC_Fs48000, LVCS_VOL_TC_Fs88200, LVCS_VOL_TC_Fs96000, LVCS_VOL_TC_Fs176400, LVCS_VOL_TC_Fs192000 }; #else const LVM_INT16 LVCS_VolumeTCTable[9] = {LVCS_VOL_TC_Fs8000, LVCS_VOL_TC_Fs11025, LVCS_VOL_TC_Fs12000, LVCS_VOL_TC_Fs16000, LVCS_VOL_TC_Fs22050, LVCS_VOL_TC_Fs24000, LVCS_VOL_TC_Fs32000, LVCS_VOL_TC_Fs44100, LVCS_VOL_TC_Fs48000 }; #endif /************************************************************************************/ /* */ /* Sample rate table */ /* */ /************************************************************************************/ #if defined(BUILD_FLOAT) && defined(HIGHER_FS) const LVM_INT32 LVCS_SampleRateTable[13] = {8000, 11025, 12000, 16000, 22050, 24000, 32000, 44100, 48000, 88200, 96000, 176400, 192000 }; #else const LVM_INT16 LVCS_SampleRateTable[9] = {8000, 11025, 12000, 16000, 22050, 24000, 32000, 44100, 48000 }; #endif