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/***********************************************************************
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AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
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#ifndef SILK_MAIN_FLP_H
#define SILK_MAIN_FLP_H

#include "SigProc_FLP.h"
#include "SigProc_FIX.h"
#include "structs_FLP.h"
#include "main.h"
#include "define.h"
#include "debug.h"
#include "entenc.h"

#ifdef __cplusplus
extern "C"
{
#endif

#define silk_encoder_state_Fxx      silk_encoder_state_FLP
#define silk_encode_do_VAD_Fxx      silk_encode_do_VAD_FLP
#define silk_encode_frame_Fxx       silk_encode_frame_FLP

/*********************/
/* Encoder Functions */
/*********************/

/* High-pass filter with cutoff frequency adaptation based on pitch lag statistics */
void silk_HP_variable_cutoff(
    silk_encoder_state_Fxx          state_Fxx[]                         /* I/O  Encoder states                              */
);

/* Encoder main function */
void silk_encode_do_VAD_FLP(
    silk_encoder_state_FLP          *psEnc                              /* I/O  Encoder state FLP                           */
);

/* Encoder main function */
opus_int silk_encode_frame_FLP(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Encoder state FLP                           */
    opus_int32                      *pnBytesOut,                        /* O    Number of payload bytes;                    */
    ec_enc                          *psRangeEnc,                        /* I/O  compressor data structure                   */
    opus_int                        condCoding,                         /* I    The type of conditional coding to use       */
    opus_int                        maxBits,                            /* I    If > 0: maximum number of output bits       */
    opus_int                        useCBR                              /* I    Flag to force constant-bitrate operation    */
);

/* Initializes the Silk encoder state */
opus_int silk_init_encoder(
    silk_encoder_state_FLP          *psEnc                              /* I/O  Encoder state FLP                           */
);

/* Control the Silk encoder */
opus_int silk_control_encoder(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Pointer to Silk encoder state FLP           */
    silk_EncControlStruct           *encControl,                        /* I    Control structure                           */
    const opus_int32                TargetRate_bps,                     /* I    Target max bitrate (bps)                    */
    const opus_int                  allow_bw_switch,                    /* I    Flag to allow switching audio bandwidth     */
    const opus_int                  channelNb,                          /* I    Channel number                              */
    const opus_int                  force_fs_kHz
);

/****************/
/* Prefiltering */
/****************/
void silk_prefilter_FLP(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Encoder state FLP                           */
    const silk_encoder_control_FLP  *psEncCtrl,                         /* I    Encoder control FLP                         */
    silk_float                      xw[],                               /* O    Weighted signal                             */
    const silk_float                x[]                                 /* I    Speech signal                               */
);

/**************************/
/* Noise shaping analysis */
/**************************/
/* Compute noise shaping coefficients and initial gain values */
void silk_noise_shape_analysis_FLP(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Encoder state FLP                           */
    silk_encoder_control_FLP        *psEncCtrl,                         /* I/O  Encoder control FLP                         */
    const silk_float                *pitch_res,                         /* I    LPC residual from pitch analysis            */
    const silk_float                *x                                  /* I    Input signal [frame_length + la_shape]      */
);

/* Autocorrelations for a warped frequency axis */
void silk_warped_autocorrelation_FLP(
    silk_float                      *corr,                              /* O    Result [order + 1]                          */
    const silk_float                *input,                             /* I    Input data to correlate                     */
    const silk_float                warping,                            /* I    Warping coefficient                         */
    const opus_int                  length,                             /* I    Length of input                             */
    const opus_int                  order                               /* I    Correlation order (even)                    */
);

/* Calculation of LTP state scaling */
void silk_LTP_scale_ctrl_FLP(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Encoder state FLP                           */
    silk_encoder_control_FLP        *psEncCtrl,                         /* I/O  Encoder control FLP                         */
    opus_int                        condCoding                          /* I    The type of conditional coding to use       */
);

/**********************************************/
/* Prediction Analysis                        */
/**********************************************/
/* Find pitch lags */
void silk_find_pitch_lags_FLP(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Encoder state FLP                           */
    silk_encoder_control_FLP        *psEncCtrl,                         /* I/O  Encoder control FLP                         */
    silk_float                      res[],                              /* O    Residual                                    */
    const silk_float                x[]                                 /* I    Speech signal                               */
);

/* Find LPC and LTP coefficients */
void silk_find_pred_coefs_FLP(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Encoder state FLP                           */
    silk_encoder_control_FLP        *psEncCtrl,                         /* I/O  Encoder control FLP                         */
    const silk_float                res_pitch[],                        /* I    Residual from pitch analysis                */
    const silk_float                x[],                                /* I    Speech signal                               */
    opus_int                        condCoding                          /* I    The type of conditional coding to use       */
);

/* LPC analysis */
void silk_find_LPC_FLP(
    silk_encoder_state              *psEncC,                            /* I/O  Encoder state                               */
    opus_int16                      NLSF_Q15[],                         /* O    NLSFs                                       */
    const silk_float                x[],                                /* I    Input signal                                */
    const silk_float                minInvGain                          /* I    Prediction gain from LTP (dB)               */
);

/* LTP analysis */
void silk_find_LTP_FLP(
    silk_float                      b[ MAX_NB_SUBFR * LTP_ORDER ],      /* O    LTP coefs                                   */
    silk_float                      WLTP[ MAX_NB_SUBFR * LTP_ORDER * LTP_ORDER ], /* O    Weight for LTP quantization       */
    silk_float                      *LTPredCodGain,                     /* O    LTP coding gain                             */
    const silk_float                r_lpc[],                            /* I    LPC residual                                */
    const opus_int                  lag[  MAX_NB_SUBFR ],               /* I    LTP lags                                    */
    const silk_float                Wght[ MAX_NB_SUBFR ],               /* I    Weights                                     */
    const opus_int                  subfr_length,                       /* I    Subframe length                             */
    const opus_int                  nb_subfr,                           /* I    number of subframes                         */
    const opus_int                  mem_offset                          /* I    Number of samples in LTP memory             */
);

void silk_LTP_analysis_filter_FLP(
    silk_float                      *LTP_res,                           /* O    LTP res MAX_NB_SUBFR*(pre_lgth+subfr_lngth) */
    const silk_float                *x,                                 /* I    Input signal, with preceding samples        */
    const silk_float                B[ LTP_ORDER * MAX_NB_SUBFR ],      /* I    LTP coefficients for each subframe          */
    const opus_int                  pitchL[   MAX_NB_SUBFR ],           /* I    Pitch lags                                  */
    const silk_float                invGains[ MAX_NB_SUBFR ],           /* I    Inverse quantization gains                  */
    const opus_int                  subfr_length,                       /* I    Length of each subframe                     */
    const opus_int                  nb_subfr,                           /* I    number of subframes                         */
    const opus_int                  pre_length                          /* I    Preceding samples for each subframe         */
);

/* Calculates residual energies of input subframes where all subframes have LPC_order   */
/* of preceding samples                                                                 */
void silk_residual_energy_FLP(
    silk_float                      nrgs[ MAX_NB_SUBFR ],               /* O    Residual energy per subframe                */
    const silk_float                x[],                                /* I    Input signal                                */
    silk_float                      a[ 2 ][ MAX_LPC_ORDER ],            /* I    AR coefs for each frame half                */
    const silk_float                gains[],                            /* I    Quantization gains                          */
    const opus_int                  subfr_length,                       /* I    Subframe length                             */
    const opus_int                  nb_subfr,                           /* I    number of subframes                         */
    const opus_int                  LPC_order                           /* I    LPC order                                   */
);

/* 16th order LPC analysis filter */
void silk_LPC_analysis_filter_FLP(
    silk_float                      r_LPC[],                            /* O    LPC residual signal                         */
    const silk_float                PredCoef[],                         /* I    LPC coefficients                            */
    const silk_float                s[],                                /* I    Input signal                                */
    const opus_int                  length,                             /* I    Length of input signal                      */
    const opus_int                  Order                               /* I    LPC order                                   */
);

/* LTP tap quantizer */
void silk_quant_LTP_gains_FLP(
    silk_float                      B[ MAX_NB_SUBFR * LTP_ORDER ],      /* I/O  (Un-)quantized LTP gains                    */
    opus_int8                       cbk_index[ MAX_NB_SUBFR ],          /* O    Codebook index                              */
    opus_int8                       *periodicity_index,                 /* O    Periodicity index                           */
    const silk_float                W[ MAX_NB_SUBFR * LTP_ORDER * LTP_ORDER ], /* I    Error weights                        */
    const opus_int                  mu_Q10,                             /* I    Mu value (R/D tradeoff)                     */
    const opus_int                  lowComplexity,                      /* I    Flag for low complexity                     */
    const opus_int                  nb_subfr                            /* I    number of subframes                         */
);

/* Residual energy: nrg = wxx - 2 * wXx * c + c' * wXX * c */
silk_float silk_residual_energy_covar_FLP(                              /* O    Weighted residual energy                    */
    const silk_float                *c,                                 /* I    Filter coefficients                         */
    silk_float                      *wXX,                               /* I/O  Weighted correlation matrix, reg. out       */
    const silk_float                *wXx,                               /* I    Weighted correlation vector                 */
    const silk_float                wxx,                                /* I    Weighted correlation value                  */
    const opus_int                  D                                   /* I    Dimension                                   */
);

/* Processing of gains */
void silk_process_gains_FLP(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Encoder state FLP                           */
    silk_encoder_control_FLP        *psEncCtrl,                         /* I/O  Encoder control FLP                         */
    opus_int                        condCoding                          /* I    The type of conditional coding to use       */
);

/******************/
/* Linear Algebra */
/******************/
/* Calculates correlation matrix X'*X */
void silk_corrMatrix_FLP(
    const silk_float                *x,                                 /* I    x vector [ L+order-1 ] used to create X     */
    const opus_int                  L,                                  /* I    Length of vectors                           */
    const opus_int                  Order,                              /* I    Max lag for correlation                     */
    silk_float                      *XX                                 /* O    X'*X correlation matrix [order x order]     */
);

/* Calculates correlation vector X'*t */
void silk_corrVector_FLP(
    const silk_float                *x,                                 /* I    x vector [L+order-1] used to create X       */
    const silk_float                *t,                                 /* I    Target vector [L]                           */
    const opus_int                  L,                                  /* I    Length of vecors                            */
    const opus_int                  Order,                              /* I    Max lag for correlation                     */
    silk_float                      *Xt                                 /* O    X'*t correlation vector [order]             */
);

/* Add noise to matrix diagonal */
void silk_regularize_correlations_FLP(
    silk_float                      *XX,                                /* I/O  Correlation matrices                        */
    silk_float                      *xx,                                /* I/O  Correlation values                          */
    const silk_float                noise,                              /* I    Noise energy to add                         */
    const opus_int                  D                                   /* I    Dimension of XX                             */
);

/* Function to solve linear equation Ax = b, where A is an MxM symmetric matrix */
void silk_solve_LDL_FLP(
    silk_float                      *A,                                 /* I/O  Symmetric square matrix, out: reg.          */
    const opus_int                  M,                                  /* I    Size of matrix                              */
    const silk_float                *b,                                 /* I    Pointer to b vector                         */
    silk_float                      *x                                  /* O    Pointer to x solution vector                */
);

/* Apply sine window to signal vector.  */
/* Window types:                        */
/*  1 -> sine window from 0 to pi/2     */
/*  2 -> sine window from pi/2 to pi    */
void silk_apply_sine_window_FLP(
    silk_float                      px_win[],                           /* O    Pointer to windowed signal                  */
    const silk_float                px[],                               /* I    Pointer to input signal                     */
    const opus_int                  win_type,                           /* I    Selects a window type                       */
    const opus_int                  length                              /* I    Window length, multiple of 4                */
);

/* Wrapper functions. Call flp / fix code */

/* Convert AR filter coefficients to NLSF parameters */
void silk_A2NLSF_FLP(
    opus_int16                      *NLSF_Q15,                          /* O    NLSF vector      [ LPC_order ]              */
    const silk_float                *pAR,                               /* I    LPC coefficients [ LPC_order ]              */
    const opus_int                  LPC_order                           /* I    LPC order                                   */
);

/* Convert NLSF parameters to AR prediction filter coefficients */
void silk_NLSF2A_FLP(
    silk_float                      *pAR,                               /* O    LPC coefficients [ LPC_order ]              */
    const opus_int16                *NLSF_Q15,                          /* I    NLSF vector      [ LPC_order ]              */
    const opus_int                  LPC_order                           /* I    LPC order                                   */
);

/* Limit, stabilize, and quantize NLSFs */
void silk_process_NLSFs_FLP(
    silk_encoder_state              *psEncC,                            /* I/O  Encoder state                               */
    silk_float                      PredCoef[ 2 ][ MAX_LPC_ORDER ],     /* O    Prediction coefficients                     */
    opus_int16                      NLSF_Q15[      MAX_LPC_ORDER ],     /* I/O  Normalized LSFs (quant out) (0 - (2^15-1))  */
    const opus_int16                prev_NLSF_Q15[ MAX_LPC_ORDER ]      /* I    Previous Normalized LSFs (0 - (2^15-1))     */
);

/* Floating-point Silk NSQ wrapper      */
void silk_NSQ_wrapper_FLP(
    silk_encoder_state_FLP          *psEnc,                             /* I/O  Encoder state FLP                           */
    silk_encoder_control_FLP        *psEncCtrl,                         /* I/O  Encoder control FLP                         */
    SideInfoIndices                 *psIndices,                         /* I/O  Quantization indices                        */
    silk_nsq_state                  *psNSQ,                             /* I/O  Noise Shaping Quantzation state             */
    opus_int8                       pulses[],                           /* O    Quantized pulse signal                      */
    const silk_float                x[]                                 /* I    Prefiltered input signal                    */
);

#ifdef __cplusplus
}
#endif

#endif